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v86/src/cpu.js

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JavaScript
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Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
"use strict";
Improve const.js Split into const/config Document some configuration Remove excessive newlines
2017-03-16 02:02:27 +01:00
/** @const */
var CPU_LOG_VERBOSE = true;
Add references
2016-07-17 18:44:54 +02:00
// Resources:
// https://pdos.csail.mit.edu/6.828/2006/readings/i386/toc.htm
// https://www-ssl.intel.com/content/www/us/en/processors/architectures-software-developer-manuals.html
// http://ref.x86asm.net/geek32.html
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @constructor */
code restructuring
2014-12-21 18:11:22 +01:00
function CPU()
Cleaned up some protected mode features
2014-01-03 22:02:43 +01:00
{
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
/** @type {number} */
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.memory_size = 0;
Configurable memory, some improvements
2014-01-08 03:22:30 +01:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
// Note: Currently unused (degrades performance and not required by any OS
// that we support)
this.a20_enabled = true;
this.mem8 = new Uint8Array(0);
this.mem16 = new Uint16Array(this.mem8.buffer);
this.mem32s = new Int32Array(this.mem8.buffer);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.segment_is_null = [];
this.segment_offsets = [];
this.segment_limits = [];
some cleanups
2014-07-27 01:07:51 +02:00
//this.segment_infos = [];
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
/**
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
* Translation Lookaside Buffer
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
* @const
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
*/
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
this.tlb_data = new Int32Array(1 << 20);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
/**
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
* Information about which pages are cached in the tlb.
* By bit:
* 0 system, read
* 1 system, write
* 2 user, read
* 3 user, write
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
* @const
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
*/
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
this.tlb_info = new Uint8Array(1 << 20);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
/**
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
* Same as tlb_info, except it only contains global pages
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
* @const
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
*/
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
this.tlb_info_global = new Uint8Array(1 << 20);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
/**
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
* Wheter or not in protected mode
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
* @type {boolean}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
*/
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.protected_mode = false;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
/**
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
* interrupt descriptor table
* @type {number}
*/
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.idtr_size = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @type {number} */
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.idtr_offset = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
/**
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
* global descriptor table register
* @type {number}
*/
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.gdtr_size = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @type {number} */
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.gdtr_offset = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/*
* whether or not a page fault occured
*/
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.page_fault = false;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr = new Int32Array(8);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @type {number} */
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[0] = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @type {number} */
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[2] = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @type {number} */
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[3] = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @type {number} */
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[4] = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// current privilege level
/** @type {number} */
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.cpl = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// if false, pages are 4 KiB, else 4 Mib
/** @type {number} */
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.page_size_extensions = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// current operand/address/stack size
/** @type {boolean} */
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.is_32 = false;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @type {boolean} */
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.stack_size_32 = false;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/**
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
* Was the last instruction a hlt?
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
* @type {boolean}
*/
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.in_hlt = false;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
annotations
2014-12-21 20:08:51 +01:00
/** @type {!Object} */
Empty device prototypes
2014-07-26 01:07:27 +02:00
this.devices = {
vga: {
timer: function(now) {},
destroy: function() {},
},
ps2: {
timer: function(now) {},
destroy: function() {},
},
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
this.last_virt_eip = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
this.eip_phys = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
this.last_virt_esp = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
this.esp_phys = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
sysenter & sysexit
2014-07-26 01:24:07 +02:00
/** @type {number} */
this.sysenter_cs = 0;
/** @type {number} */
this.sysenter_esp = 0;
/** @type {number} */
this.sysenter_eip = 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
this.prefixes = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
this.flags = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
/**
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
* bitmap of flags which are not updated in the flags variable
* changed by arithmetic instructions, so only relevant to arithmetic flags
* @type {number}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
*/
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.flags_changed = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
/**
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
* the last 2 operators and the result and size of the last arithmetic operation
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
* @type {number}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
*/
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.last_op1 = 0;
/** @type {number} */
this.last_op2 = 0;
/** @type {number} */
this.last_op_size = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
this.last_add_result = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
this.last_result = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Get rid of global state
2016-10-01 23:22:10 +02:00
this.mul32_result = new Int32Array(2);
this.div32_result = new Float64Array(2);
Monotonic TSC (could break in environments that don't have access to sub-milisecond precision, e.g. performance.now)
2014-07-26 23:04:01 +02:00
this.tsc_offset = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
/** @type {number} */
this.modrm_byte = 0;
/** @type {number} */
this.phys_addr = 0;
/** @type {number} */
this.phys_addr_high = 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.table = [];
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// paging enabled
/** @type {boolean} */
this.paging = false;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/** @type {number} */
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/** @type {number} */
this.previous_ip = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
// managed in io.js
/** @const */ this.memory_map_read8 = [];
/** @const */ this.memory_map_write8 = [];
/** @const */ this.memory_map_read32 = [];
/** @const */ this.memory_map_write32 = [];
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
/**
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
* @const
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
* @type {{main: ArrayBuffer, vga: ArrayBuffer}}
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
*/
this.bios = {
main: null,
vga: null,
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
/**
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
* @type {number}
*/
this.timestamp_counter = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// registers
this.reg32s = new Int32Array(8);
this.reg32 = new Uint32Array(this.reg32s.buffer);
this.reg16s = new Int16Array(this.reg32s.buffer);
this.reg16 = new Uint16Array(this.reg32s.buffer);
Initial version of save/restore state feature, #18 Everything that is valid json plus arraybuffers and arraybuffer-views can be restored automatically (without making changes to other code). Properties that should not be part of the state buffer needed to be annotated using a magic `_state_skip` property. Shared arraybuffer views are broken during restoration and also need to be annotated. Adapters are not (and should never be) saved. Current limitations: - Before restoring, the cpu needs to be initialised with the original settings. This is not a hard requirement and can be fixed later. - Pending asynchronous operations are lost. It's a good idea to pause the cpu before saving the state.
2014-09-29 07:10:47 +02:00
this.reg8s = new Int8Array(this.reg32s.buffer);
this.reg8 = new Uint8Array(this.reg32s.buffer);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Put TR and LDTR into sregs register, possibly more simplifications later
2014-07-07 02:37:40 +02:00
// segment registers, tr and ldtr
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.sreg = new Uint16Array(8);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// debug registers
this.dreg = new Int32Array(8);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// dynamic instruction translator
this.translator = undefined;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.io = undefined;
this.fpu = undefined;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
dbg_assert(this.table16 && this.table32);
dbg_assert(this.table0F_16 && this.table0F_32);
Initial version of save/restore state feature, #18 Everything that is valid json plus arraybuffers and arraybuffer-views can be restored automatically (without making changes to other code). Properties that should not be part of the state buffer needed to be annotated using a magic `_state_skip` property. Shared arraybuffer views are broken during restoration and also need to be annotated. Adapters are not (and should never be) saved. Current limitations: - Before restoring, the cpu needs to be initialised with the original settings. This is not a hard requirement and can be fixed later. - Pending asynchronous operations are lost. It's a good idea to pause the cpu before saving the state.
2014-09-29 07:10:47 +02:00
this.update_operand_size();
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.tsc_offset = v86.microtick();
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.debug_init();
Move memory to cpu
2016-08-02 04:15:24 +02:00
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
this.init2();
Move memory to cpu
2016-08-02 04:15:24 +02:00
//Object.seal(this);
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
}
CPU.prototype.get_state = function()
{
var state = [];
state[0] = this.memory_size;
state[1] = this.segment_is_null;
state[2] = this.segment_offsets;
state[3] = this.segment_limits;
state[4] = this.protected_mode;
state[5] = this.idtr_offset;
state[6] = this.idtr_size;
state[7] = this.gdtr_offset;
state[8] = this.gdtr_size;
state[9] = this.page_fault;
state[10] = this.cr;
state[11] = this.cpl;
state[12] = this.page_size_extensions;
state[13] = this.is_32;
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
state[16] = this.stack_size_32;
state[17] = this.in_hlt;
state[18] = this.last_virt_eip;
state[19] = this.eip_phys;
state[20] = this.last_virt_esp;
state[21] = this.esp_phys;
state[22] = this.sysenter_cs;
state[23] = this.sysenter_eip;
state[24] = this.sysenter_esp;
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
state[25] = this.prefixes;
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
state[26] = this.flags;
state[27] = this.flags_changed;
state[28] = this.last_op1;
state[29] = this.last_op2;
state[30] = this.last_op_size;
state[31] = this.last_add_result;
state[32] = this.modrm_byte;
state[36] = this.paging;
state[37] = this.instruction_pointer;
state[38] = this.previous_ip;
state[39] = this.reg32s;
state[40] = this.sreg;
state[41] = this.dreg;
Move memory to cpu
2016-08-02 04:15:24 +02:00
state[42] = this.mem8;
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
state[43] = this.fpu;
state[45] = this.devices.virtio;
Fix serious state restore bug (vim macros are bad, mkay)
2016-07-18 03:47:48 +02:00
//state[46] = this.devices.apic;
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
state[47] = this.devices.rtc;
state[48] = this.devices.pci;
state[49] = this.devices.dma;
//state[50] = this.devices.acpi;
state[51] = this.devices.hpet;
state[52] = this.devices.vga;
state[53] = this.devices.ps2;
state[54] = this.devices.uart;
state[55] = this.devices.fdc;
state[56] = this.devices.cdrom;
state[57] = this.devices.hda;
state[58] = this.devices.pit;
state[59] = this.devices.net;
state[60] = this.devices.pic;
Move memory to cpu
2016-08-02 04:15:24 +02:00
state[61] = this.a20_enabled;
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
return state;
};
CPU.prototype.set_state = function(state)
{
this.memory_size = state[0];
this.segment_is_null = state[1];
this.segment_offsets = state[2];
this.segment_limits = state[3];
this.protected_mode = state[4];
this.idtr_offset = state[5];
this.idtr_size = state[6];
this.gdtr_offset = state[7];
this.gdtr_size = state[8];
this.page_fault = state[9];
this.cr = state[10];
this.cpl = state[11];
this.page_size_extensions = state[12];
this.is_32 = state[13];
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.stack_size_32 = state[16];
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.in_hlt = state[17];
this.last_virt_eip = state[18];
this.eip_phys = state[19];
this.last_virt_esp = state[20];
this.esp_phys = state[21];
this.sysenter_cs = state[22];
this.sysenter_eip = state[23];
this.sysenter_esp = state[24];
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
this.prefixes = state[25];
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.flags = state[26];
this.flags_changed = state[27];
Fix serious state restore bug (vim macros are bad, mkay)
2016-07-18 03:47:48 +02:00
this.last_op1 = state[28];
this.last_op2 = state[29];
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.last_op_size = state[30];
this.last_add_result = state[31];
this.modrm_byte = state[32];
this.paging = state[36];
this.instruction_pointer = state[37];
this.previous_ip = state[38];
Fix serious state restore bug (vim macros are bad, mkay)
2016-07-18 03:47:48 +02:00
this.reg32s = state[39];
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.sreg = state[40];
this.dreg = state[41];
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.mem8 = state[42];
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.fpu = state[43];
this.devices.virtio = state[45];
Fix serious state restore bug (vim macros are bad, mkay)
2016-07-18 03:47:48 +02:00
//this.devices.apic = state[46];
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.devices.rtc = state[47];
this.devices.pci = state[48];
this.devices.dma = state[49];
Fix serious state restore bug (vim macros are bad, mkay)
2016-07-18 03:47:48 +02:00
//this.devices.acpi = state[50];
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.devices.hpet = state[51];
this.devices.vga = state[52];
Fix serious state restore bug (vim macros are bad, mkay)
2016-07-18 03:47:48 +02:00
this.devices.ps2 = state[53];
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.devices.uart = state[54];
this.devices.fdc = state[55];
this.devices.cdrom = state[56];
this.devices.hda = state[57];
this.devices.pit = state[58];
this.devices.net = state[59];
this.devices.pic = state[60];
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.a20_enabled = state[61];
this.mem16 = new Uint16Array(this.mem8.buffer, this.mem8.byteOffset, this.mem8.length >> 1);
this.mem32s = new Int32Array(this.mem8.buffer, this.mem8.byteOffset, this.mem8.length >> 2);
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.full_clear_tlb();
// tsc_offset?
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.reg32 = new Uint32Array(this.reg32s.buffer);
this.reg16s = new Int16Array(this.reg32s.buffer);
this.reg16 = new Uint16Array(this.reg32s.buffer);
this.reg8s = new Int8Array(this.reg32s.buffer);
this.reg8 = new Uint8Array(this.reg32s.buffer);
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
Build state of emulator explicitly. Fixes #40
2015-05-18 22:18:59 +02:00
this.update_operand_size();
Initial version of save/restore state feature, #18 Everything that is valid json plus arraybuffers and arraybuffer-views can be restored automatically (without making changes to other code). Properties that should not be part of the state buffer needed to be annotated using a magic `_state_skip` property. Shared arraybuffer views are broken during restoration and also need to be annotated. Adapters are not (and should never be) saved. Current limitations: - Before restoring, the cpu needs to be initialised with the original settings. This is not a hard requirement and can be fixed later. - Pending asynchronous operations are lost. It's a good idea to pause the cpu before saving the state.
2014-09-29 07:10:47 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Reduce CPU usage on halt instruction
2015-01-06 04:26:39 +01:00
/**
* @return {number} time in ms until this method should becalled again
*/
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.main_run = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Use try-catch later, improves speed slightly
2016-08-02 02:41:30 +02:00
if(this.in_hlt)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Cleanup
2016-08-02 02:41:43 +02:00
//if(false)
//{
// var _t = this.hlt_loop();
Got from hlt to loop main loop directly and vice versa (improves latency and fixes bug introduces in 914d4ee)
2016-08-04 18:21:41 +02:00
// var t = 0;
Cleanup
2016-08-02 02:41:43 +02:00
//}
//else
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
{
Got from hlt to loop main loop directly and vice versa (improves latency and fixes bug introduces in 914d4ee)
2016-08-04 18:21:41 +02:00
var t = this.hlt_loop();
}
if(this.in_hlt)
{
return t;
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Got from hlt to loop main loop directly and vice versa (improves latency and fixes bug introduces in 914d4ee)
2016-08-04 18:21:41 +02:00
this.do_run();
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
Got from hlt to loop main loop directly and vice versa (improves latency and fixes bug introduces in 914d4ee)
2016-08-04 18:21:41 +02:00
return 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.exception_cleanup = function(e)
Move code in catch{} into function
2013-12-06 20:47:37 +01:00
{
No magic numbers please
2014-05-06 20:24:46 +02:00
if(e === MAGIC_CPU_EXCEPTION)
Move code in catch{} into function
2013-12-06 20:47:37 +01:00
{
// A legit CPU exception (for instance, a page fault happened)
// call_interrupt_vector has already been called at this point,
// so we just need to reset some state
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.page_fault = false;
Move code in catch{} into function
2013-12-06 20:47:37 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// restore state from prefixes
cpu.clear_prefixes()
2015-04-28 11:12:40 +02:00
this.clear_prefixes();
Move code in catch{} into function
2013-12-06 20:47:37 +01:00
}
else
{
console.log(e);
console.log(e.stack);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
//var e = new Error(e.message);
//Error.captureStackTrace && Error.captureStackTrace(e);
Move code in catch{} into function
2013-12-06 20:47:37 +01:00
throw e;
}
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.reboot_internal = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
more cleaning up
2014-12-21 19:19:04 +01:00
this.reset();
this.load_bios();
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
throw MAGIC_CPU_EXCEPTION;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
more cleaning up
2014-12-21 19:19:04 +01:00
CPU.prototype.reset = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.a20_enabled = true;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.segment_is_null = new Uint8Array(8);
this.segment_limits = new Uint32Array(8);
some cleanups
2014-07-27 01:07:51 +02:00
//this.segment_infos = new Uint32Array(8);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.segment_offsets = new Int32Array(8);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
this.full_clear_tlb();
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Initial version of save/restore state feature, #18 Everything that is valid json plus arraybuffers and arraybuffer-views can be restored automatically (without making changes to other code). Properties that should not be part of the state buffer needed to be annotated using a magic `_state_skip` property. Shared arraybuffer views are broken during restoration and also need to be annotated. Adapters are not (and should never be) saved. Current limitations: - Before restoring, the cpu needs to be initialised with the original settings. This is not a hard requirement and can be fixed later. - Pending asynchronous operations are lost. It's a good idea to pause the cpu before saving the state.
2014-09-29 07:10:47 +02:00
this.reg32s = new Int32Array(8);
this.reg32 = new Uint32Array(this.reg32s.buffer);
this.reg16s = new Int16Array(this.reg32s.buffer);
this.reg16 = new Uint16Array(this.reg32s.buffer);
this.reg8s = new Int8Array(this.reg32s.buffer);
this.reg8 = new Uint8Array(this.reg32s.buffer);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.sreg = new Uint16Array(8);
this.dreg = new Int32Array(8);
this.protected_mode = false;
// http://www.sandpile.org/x86/initial.htm
this.idtr_size = 0;
this.idtr_offset = 0;
this.gdtr_size = 0;
this.gdtr_offset = 0;
this.page_fault = false;
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[0] = 1 << 30 | 1 << 29 | 1 << 4;
this.cr[2] = 0;
this.cr[3] = 0;
this.cr[4] = 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.dreg[6] = 0xFFFF0FF0|0;
this.dreg[7] = 0x400;
this.cpl = 0;
this.paging = false;
this.page_size_extensions = 0;
this.is_32 = false;
this.stack_size_32 = false;
Reset prefixes in CPU reset
2017-03-16 02:05:00 +01:00
this.prefixes = 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Remove cpu.paging_changed
2017-03-16 02:26:31 +01:00
this.last_virt_eip = -1;
this.last_virt_esp = -1;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.update_operand_size();
this.timestamp_counter = 0;
this.previous_ip = 0;
this.in_hlt = false;
sysenter & sysexit
2014-07-26 01:24:07 +02:00
this.sysenter_cs = 0;
this.sysenter_esp = 0;
this.sysenter_eip = 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.flags = flags_default;
this.flags_changed = 0;
this.last_result = 0;
this.last_add_result = 0;
this.last_op1 = 0;
this.last_op2 = 0;
this.last_op_size = 0;
code restructuring
2014-12-21 18:11:22 +01:00
this.tsc_offset = v86.microtick();
Monotonic TSC (could break in environments that don't have access to sub-milisecond precision, e.g. performance.now)
2014-07-26 23:04:01 +02:00
more cleaning up
2014-12-21 19:19:04 +01:00
this.instruction_pointer = 0xFFFF0;
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.switch_cs_real_mode(0xF000);
Start at cs 0xF000
2016-02-15 00:51:27 +01:00
more cleaning up
2014-12-21 19:19:04 +01:00
this.switch_seg(reg_ss, 0x30);
this.reg16[reg_sp] = 0x100;
Reset virtio device on reset. Fixes #47
2015-04-17 23:46:25 +02:00
if(this.devices.virtio)
{
this.devices.virtio.reset();
}
more cleaning up
2014-12-21 19:19:04 +01:00
};
Export cpu.create_memory
2016-07-26 21:45:39 +02:00
/** @export */
Remove no_initial_alloc, use empty memory instead
2016-08-02 05:33:02 +02:00
CPU.prototype.create_memory = function(size)
Export cpu.create_memory
2016-07-26 21:45:39 +02:00
{
Proper handling of memory sizes, fixes #114
2016-10-15 02:12:57 +02:00
if(size < 1024 * 1024)
{
size = 1024 * 1024;
}
else if((size | 0) < 0)
{
size = Math.pow(2, 31) - MMAP_BLOCK_SIZE;
}
size = ((size - 1) | (MMAP_BLOCK_SIZE - 1)) + 1 | 0;
dbg_assert((size | 0) > 0);
dbg_assert((size & MMAP_BLOCK_SIZE - 1) === 0);
Export cpu.create_memory
2016-07-26 21:45:39 +02:00
this.memory_size = size;
Move memory to cpu
2016-08-02 04:15:24 +02:00
Remove no_initial_alloc, use empty memory instead
2016-08-02 05:33:02 +02:00
var buffer = new ArrayBuffer(size);
Move memory to cpu
2016-08-02 04:15:24 +02:00
Remove no_initial_alloc, use empty memory instead
2016-08-02 05:33:02 +02:00
this.mem8 = new Uint8Array(buffer);
this.mem16 = new Uint16Array(buffer);
this.mem32s = new Int32Array(buffer);
Export cpu.create_memory
2016-07-26 21:45:39 +02:00
};
move bus handling around a bit, preparing for web workers
2014-12-27 00:18:35 +01:00
CPU.prototype.init = function(settings, device_bus)
more cleaning up
2014-12-21 19:19:04 +01:00
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
this.create_memory(typeof settings.memory_size === "number" ?
settings.memory_size : 1024 * 1024 * 64);
more cleaning up
2014-12-21 19:19:04 +01:00
this.reset();
Move memory to cpu
2016-08-02 04:15:24 +02:00
var io = new IO(this);
some cleanups
2014-07-27 01:07:51 +02:00
this.io = io;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Make _state_skip work by value (instead of key). Fixes certain Closure Compiler builds
2015-01-12 18:05:10 +01:00
this.bios.main = settings.bios;
this.bios.vga = settings.vga_bios;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
more cleaning up
2014-12-21 19:19:04 +01:00
this.load_bios();
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Preparations for configurable PCI, base address registers
2013-12-20 22:04:58 +01:00
var a20_byte = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
port 0xB3: smm_relocate_and_restore
2016-02-05 17:06:19 +01:00
io.register_read(0xB3, this, function()
{
// seabios smm_relocate_and_restore
dbg_log("port 0xB3 read");
return 0;
});
Improved handling of IO port operations
2014-10-21 21:51:42 +02:00
io.register_read(0x92, this, function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Preparations for configurable PCI, base address registers
2013-12-20 22:04:58 +01:00
return a20_byte;
});
Improved handling of IO port operations
2014-10-21 21:51:42 +02:00
io.register_write(0x92, this, function(out_byte)
Preparations for configurable PCI, base address registers
2013-12-20 22:04:58 +01:00
{
a20_byte = out_byte;
});
Add dummy handling for qemu config port. Fixes newer versions of seabios
2017-03-11 00:10:59 +01:00
io.register_read(0x511, this, function()
{
// qemu config port (used by seabios)
return 0;
});
Preparations for configurable PCI, base address registers
2013-12-20 22:04:58 +01:00
if(DEBUG)
{
// Use by linux for port-IO delay
// Avoid generating tons of debug messages
Improved handling of IO port operations
2014-10-21 21:51:42 +02:00
io.register_write(0x80, this, function(out_byte)
Preparations for configurable PCI, base address registers
2013-12-20 22:04:58 +01:00
{
});
}
Fix settings object for Closure Compiler
2014-07-22 22:59:18 +02:00
this.devices = {};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Preparations for configurable PCI, base address registers
2013-12-20 22:04:58 +01:00
// TODO: Make this more configurable
change associative array access to member access in settings object
2014-12-12 21:31:16 +01:00
if(settings.load_devices)
Preparations for configurable PCI, base address registers
2013-12-20 22:04:58 +01:00
{
some cleanups
2014-07-27 01:07:51 +02:00
this.devices.pic = new PIC(this);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.devices.pci = new PCI(this);
if(ENABLE_ACPI)
{
this.devices.apic = new APIC(this);
this.devices.acpi = new ACPI(this);
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Rewrite CMOS
2015-02-25 18:23:10 +01:00
this.devices.rtc = new RTC(this);
this.fill_cmos(this.devices.rtc, settings);
some cleanups
2014-07-27 01:07:51 +02:00
this.devices.dma = new DMA(this);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(ENABLE_HPET)
{
some cleanups
2014-07-27 01:07:51 +02:00
this.devices.hpet = new HPET(this);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.devices.vga = new VGAScreen(this, device_bus,
refactor communication between emulated devices and browser implementation using Bus. Web worker comming soon ;)
2014-12-25 02:32:18 +01:00
settings.vga_memory_size || 8 * 1024 * 1024);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.fpu = new FPU(this);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
refactor communication between emulated devices and browser implementation using Bus. Web worker comming soon ;)
2014-12-25 02:32:18 +01:00
this.devices.ps2 = new PS2(this, device_bus);
fix useless if-else
2015-01-09 03:58:18 +01:00
this.devices.uart = new UART(this, 0x3F8, device_bus);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
change associative array access to member access in settings object
2014-12-12 21:31:16 +01:00
this.devices.fdc = new FloppyController(this, settings.fda, settings.fdb);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
var ide_device_count = 0;
Minor changes
2015-12-31 00:31:08 +01:00
if(settings.hda)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Minor changes
2015-12-31 00:31:08 +01:00
this.devices.hda = new IDEDevice(this, settings.hda, false, ide_device_count++, device_bus);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Minor changes
2015-12-31 00:31:08 +01:00
if(settings.cdrom)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Minor changes
2015-12-31 00:31:08 +01:00
this.devices.cdrom = new IDEDevice(this, settings.cdrom, true, ide_device_count++, device_bus);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
if(settings.hdb)
Slightly improved boundary read
2014-01-10 04:24:56 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.devices.hdb = new IDEDevice(this, settings.hdb, false, ide_device_count++, device_bus);
Slightly improved boundary read
2014-01-10 04:24:56 +01:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
some cleanups
2014-07-27 01:07:51 +02:00
this.devices.pit = new PIT(this);
Initial version of network support
2014-10-11 02:15:37 +02:00
adapter not needed anymore
2015-01-10 02:19:22 +01:00
if(settings.enable_ne2k)
Initial version of network support
2014-10-11 02:15:37 +02:00
{
refactor communication between emulated devices and browser implementation using Bus. Web worker comming soon ;)
2014-12-25 02:32:18 +01:00
this.devices.net = new Ne2k(this, device_bus);
Initial version of network support
2014-10-11 02:15:37 +02:00
}
initial version of virtio and 9p filesystem support; props to the jor1k project for donating some code
2014-12-02 19:01:13 +01:00
if(settings.fs9p)
{
Pass bus to virtio
2015-01-13 04:51:31 +01:00
this.devices.virtio = new VirtIO(this, device_bus, settings.fs9p);
initial version of virtio and 9p filesystem support; props to the jor1k project for donating some code
2014-12-02 19:01:13 +01:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(DEBUG)
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.debug.init();
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Rewrite CMOS
2015-02-25 18:23:10 +01:00
CPU.prototype.fill_cmos = function(rtc, settings)
{
var boot_order = settings.boot_order || 0x213;
// Used by seabios to determine the boot order
// Nibble
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
// 1: FloppyPrio
// 2: HDPrio
// 3: CDPrio
// 4: BEVPrio
Rewrite CMOS
2015-02-25 18:23:10 +01:00
// bootflag 1, high nibble, lowest priority
// Low nibble: Disable floppy signature check (1)
Minor code improvement
2016-01-01 18:23:40 +01:00
rtc.cmos_write(CMOS_BIOS_BOOTFLAG1 , 1 | boot_order >> 4 & 0xF0);
Rewrite CMOS
2015-02-25 18:23:10 +01:00
// bootflag 2, both nibbles, high and middle priority
Minor code improvement
2016-01-01 18:23:40 +01:00
rtc.cmos_write(CMOS_BIOS_BOOTFLAG2, boot_order & 0xFF);
Fix cmos memory data
2016-01-03 02:30:36 +01:00
// 640k or less if less memory is used
rtc.cmos_write(CMOS_MEM_BASE_LOW, 640 & 0xFF);
rtc.cmos_write(CMOS_MEM_BASE_HIGH, 640 >> 8);
var memory_above_1m = 0; // in k
if(this.memory_size >= 1024 * 1024)
{
memory_above_1m = (this.memory_size - 1024 * 1024) >> 10;
memory_above_1m = Math.min(memory_above_1m, 0xFFFF);
}
rtc.cmos_write(CMOS_MEM_OLD_EXT_LOW, memory_above_1m & 0xFF);
rtc.cmos_write(CMOS_MEM_OLD_EXT_HIGH, memory_above_1m >> 8 & 0xFF);
rtc.cmos_write(CMOS_MEM_EXTMEM_LOW, memory_above_1m & 0xFF);
rtc.cmos_write(CMOS_MEM_EXTMEM_HIGH, memory_above_1m >> 8 & 0xFF);
var memory_above_16m = 0; // in 64k blocks
if(this.memory_size >= 16 * 1024 * 1024)
{
memory_above_16m = (this.memory_size - 16 * 1024 * 1024) >> 16;
memory_above_16m = Math.min(memory_above_16m, 0xFFFF);
}
rtc.cmos_write(CMOS_MEM_EXTMEM2_LOW, memory_above_16m & 0xFF);
rtc.cmos_write(CMOS_MEM_EXTMEM2_HIGH, memory_above_16m >> 8 & 0xFF);
// memory above 4G (not supported by this emulator)
Minor code improvement
2016-01-01 18:23:40 +01:00
rtc.cmos_write(CMOS_MEM_HIGHMEM_LOW, 0);
rtc.cmos_write(CMOS_MEM_HIGHMEM_MID, 0);
rtc.cmos_write(CMOS_MEM_HIGHMEM_HIGH, 0);
Rewrite CMOS
2015-02-25 18:23:10 +01:00
Fix cmos memory data
2016-01-03 02:30:36 +01:00
rtc.cmos_write(CMOS_EQUIPMENT_INFO, 0x2F);
rtc.cmos_write(CMOS_BIOS_SMP_COUNT, 0);
Rewrite CMOS
2015-02-25 18:23:10 +01:00
};
more cleaning up
2014-12-21 19:19:04 +01:00
CPU.prototype.load_bios = function()
{
var bios = this.bios.main;
var vga_bios = this.bios.vga;
if(!bios)
{
dbg_log("Warning: No BIOS");
return;
}
// load bios
var data = new Uint8Array(bios),
start = 0x100000 - bios.byteLength;
Don't write to mem8/mem32s directly, it may later be necessary to mark pages dirty
2016-08-02 04:32:02 +02:00
this.write_blob(data, start);
more cleaning up
2014-12-21 19:19:04 +01:00
if(vga_bios)
{
// load vga bios
Implement PCI ROM mapping (readonly). Fixes newer versions of seabios
2017-03-11 00:08:35 +01:00
var vga_bios8 = new Uint8Array(vga_bios);
// older versions of seabios
this.write_blob(vga_bios8, 0xC0000);
// newer versions of seabios (needs to match pci rom address)
this.io.mmap_register(0xFEB00000, 0x100000,
function(addr)
{
addr = (addr - 0xFEB00000) | 0;
if(addr < vga_bios8.length)
{
return vga_bios8[addr];
}
},
function(addr, value)
{
});
more cleaning up
2014-12-21 19:19:04 +01:00
}
else
{
dbg_log("Warning: No VGA BIOS");
}
// seabios expects the bios to be mapped to 0xFFF00000 also
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.io.mmap_register(0xFFF00000, 0x100000,
more cleaning up
2014-12-21 19:19:04 +01:00
function(addr)
{
addr &= 0xFFFFF;
Move memory to cpu
2016-08-02 04:15:24 +02:00
return this.mem8[addr];
more cleaning up
2014-12-21 19:19:04 +01:00
}.bind(this),
function(addr, value)
{
addr &= 0xFFFFF;
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.mem8[addr] = value;
more cleaning up
2014-12-21 19:19:04 +01:00
}.bind(this));
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.do_run = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Use try-catch later, improves speed slightly
2016-08-02 02:41:30 +02:00
/** @type {number} */
var start = v86.microtick();
/** @type {number} */
var now = start;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// outer loop:
// runs cycles + timers
Better main loop timing
2014-02-07 17:41:48 +01:00
for(; now - start < TIME_PER_FRAME;)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
hpet, removed safe_read8s
2013-12-06 01:34:13 +01:00
if(ENABLE_HPET)
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.devices.pit.timer(now, this.devices.hpet.legacy_mode);
this.devices.rtc.timer(now, this.devices.hpet.legacy_mode);
this.devices.hpet.timer(now);
hpet, removed safe_read8s
2013-12-06 01:34:13 +01:00
}
else
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.devices.pit.timer(now, false);
this.devices.rtc.timer(now, false);
hpet, removed safe_read8s
2013-12-06 01:34:13 +01:00
}
Minor changes
2015-12-31 00:31:08 +01:00
if(ENABLE_ACPI)
{
this.devices.apic.timer(now);
}
small fixes in TLB code
2014-07-12 22:20:57 +02:00
this.handle_irqs();
Use try-catch later, improves speed slightly
2016-08-02 02:41:30 +02:00
this.do_many_cycles();
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Got from hlt to loop main loop directly and vice versa (improves latency and fixes bug introduces in 914d4ee)
2016-08-04 18:21:41 +02:00
if(this.in_hlt)
{
return;
}
Switch to microtick
2016-02-14 13:15:09 +01:00
now = v86.microtick();
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Use try-catch later, improves speed slightly
2016-08-02 02:41:30 +02:00
CPU.prototype.do_many_cycles = function()
{
try {
this.do_many_cycles_unsafe();
}
catch(e)
{
this.exception_cleanup(e);
}
};
CPU.prototype.do_many_cycles_unsafe = function()
{
// inner loop:
// runs only cycles
for(var k = LOOP_COUNTER; k--;)
{
Rename read_imm* to the corresponding part of the operation (preparation for dynamic translation), remove a few unused parts
2016-08-03 01:40:26 +02:00
this.cycle_internal();
Use try-catch later, improves speed slightly
2016-08-02 02:41:30 +02:00
}
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Use try-catch later, improves speed slightly
2016-08-02 02:41:30 +02:00
// Some functions must not be inlined, because then more code is in the
// deoptimized try-catch block.
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// This trick is a bit ugly, but it works without further complication.
if(typeof window !== "undefined")
{
Use try-catch later, improves speed slightly
2016-08-02 02:41:30 +02:00
window["__no_inline_for_closure_compiler__"] = [
CPU.prototype.exception_cleanup,
CPU.prototype.do_many_cycles_unsafe,
CPU.prototype.do_many_cycles,
];
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
/** @const */
var PROFILING = false;
if(PROFILING)
{
var instruction_total = new Float64Array(256);
Improve profiling
2016-08-02 02:11:05 +02:00
var instruction_count = new Float64Array(256);
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
Improve profiling
2016-08-02 02:11:05 +02:00
window["print_profiling"] = function print_profiling()
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
{
var prof_instructions = [];
for(var i = 0; i < 256; i++) prof_instructions[i] = {
n: h(i, 2),
total: instruction_total[i],
count: instruction_count[i],
per: (instruction_total[i] / instruction_count[i]) || 0,
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
};
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
console.log("count:");
console.table(prof_instructions.sort((p0, p1) => p1.count - p0.count));
console.log("time:");
console.table(prof_instructions.sort((p0, p1) => p1.total - p0.total));
console.log("time/count:");
console.table(prof_instructions.sort((p0, p1) => p1.per - p0.per));
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
};
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/**
* execute a single instruction cycle on the cpu
* this includes reading all prefixes and the whole instruction
*/
Export cpu.cycle, #103
2016-07-26 21:42:42 +02:00
CPU.prototype.cycle_internal = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.previous_ip = this.instruction_pointer;
Preparations for testing a dynamic translator
2014-05-12 18:44:28 +02:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.timestamp_counter++;
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
if(PROFILING)
{
var start = performance.now();
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
var opcode = this.read_imm8();
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
//this.translate_address_read(this.instruction_pointer + 15|0)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
if(DEBUG)
{
this.debug.logop(this.instruction_pointer - 1 >>> 0, opcode);
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// call the instruction
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.table[opcode](this);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
if(PROFILING)
{
var end = performance.now();
instruction_total[opcode] += end - start;
instruction_count[opcode]++;
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.flags & flag_trap)
{
// TODO
dbg_log("Trap flag: Ignored", LOG_CPU);
}
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Export cpu.cycle, #103
2016-07-26 21:42:42 +02:00
/** @export */
CPU.prototype.cycle = function()
{
try
{
this.cycle_internal();
}
catch(e)
{
this.exception_cleanup(e);
}
};
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
CPU.prototype.segment_prefix_op = function(sreg)
{
dbg_assert(sreg <= 5);
this.prefixes |= sreg + 1;
this.run_prefix_instruction();
this.prefixes = 0;
};
Rename read_imm* to the corresponding part of the operation (preparation for dynamic translation), remove a few unused parts
2016-08-03 01:40:26 +02:00
CPU.prototype.run_prefix_instruction = function()
Less macros
2014-12-12 23:24:37 +01:00
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(this.is_osize_32())
{
this.table32[this.read_imm8()](this);
}
else
{
this.table16[this.read_imm8()](this);
}
Less macros
2014-12-12 23:24:37 +01:00
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.hlt_loop = function()
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
{
Got from hlt to loop main loop directly and vice versa (improves latency and fixes bug introduces in 914d4ee)
2016-08-04 18:21:41 +02:00
dbg_assert(this.flags & flag_interrupt);
Some debug code
2014-06-29 22:28:55 +02:00
//dbg_log("In HLT loop", LOG_CPU);
Switch to microtick
2016-02-14 13:15:09 +01:00
var now = v86.microtick();
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
if(ENABLE_HPET)
{
Lazier hlt_loop, fixes #15
2015-01-14 02:43:09 +01:00
var pit_time = this.devices.pit.timer(now, this.devices.hpet.legacy_mode);
var rtc_time = this.devices.rtc.timer(now, this.devices.hpet.legacy_mode);
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
this.devices.hpet.timer(now);
}
else
{
Lazier hlt_loop, fixes #15
2015-01-14 02:43:09 +01:00
var pit_time = this.devices.pit.timer(now, false);
var rtc_time = this.devices.rtc.timer(now, false);
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
}
Minor changes
2015-12-31 00:31:08 +01:00
if(ENABLE_ACPI)
{
this.devices.apic.timer(now);
}
Cleanup
2016-08-02 02:41:43 +02:00
return pit_time < rtc_time ? pit_time : rtc_time;
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
};
cpu.clear_prefixes()
2015-04-28 11:12:40 +02:00
CPU.prototype.clear_prefixes = function()
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
this.prefixes = 0;
cpu.clear_prefixes()
2015-04-28 11:12:40 +02:00
};
Remove cpu.paging_changed
2017-03-16 02:26:31 +01:00
CPU.prototype.set_cr0 = function(cr0)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
//dbg_log("cr0 = " + h(this.cr[0] >>> 0), LOG_CPU);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove cpu.paging_changed
2017-03-16 02:26:31 +01:00
if((cr0 & (CR0_PE | CR0_PG)) === CR0_PG)
{
// cannot load PG without PE
throw this.debug.unimpl("#GP handler");
}
this.cr[0] = cr0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(!this.fpu)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Cleaned up some protected mode features
2014-01-03 22:02:43 +01:00
// if there's no FPU, keep emulation set
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[0] |= CR0_EM;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[0] |= CR0_ET;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove cpu.paging_changed
2017-03-16 02:26:31 +01:00
var new_paging = (this.cr[0] & CR0_PG) === CR0_PG;
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
dbg_assert(typeof this.paging === "boolean");
if(new_paging !== this.paging)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.paging = new_paging;
this.full_clear_tlb();
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Set protected mode immediately Fixes newer versions of FreeDOS A call after setting cr0.pe is only necessary to reload CS with a proper limit and offset. Protected mode is immediately active
2017-03-12 01:33:41 +01:00
this.protected_mode = (this.cr[0] & CR0_PE) === CR0_PE;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.cpl_changed = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.last_virt_eip = -1;
this.last_virt_esp = -1;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.read_imm8 = function()
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
if((this.instruction_pointer & ~0xFFF) ^ this.last_virt_eip)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.eip_phys = this.translate_address_read(this.instruction_pointer) ^ this.instruction_pointer;
this.last_virt_eip = this.instruction_pointer & ~0xFFF;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
var data8 = this.read8(this.eip_phys ^ this.instruction_pointer);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.instruction_pointer + 1 | 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return data8;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.read_imm8s = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.read_imm8() << 24 >> 24;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.read_imm16 = function()
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
// Two checks in one comparison:
// 1. Did the high 20 bits of eip change
// or 2. Are the low 12 bits of eip 0xFFF (and this read crosses a page boundary)
if(((this.instruction_pointer ^ this.last_virt_eip) >>> 0) > 0xFFE)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.read_imm8() | this.read_imm8() << 8;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
var data16 = this.read16(this.eip_phys ^ this.instruction_pointer);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.instruction_pointer + 2 | 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return data16;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.read_imm32s = function()
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
// Analogue to the above comment
if(((this.instruction_pointer ^ this.last_virt_eip) >>> 0) > 0xFFC)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.read_imm16() | this.read_imm16() << 16;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
var data32 = this.read32s(this.eip_phys ^ this.instruction_pointer);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.instruction_pointer + 4 | 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return data32;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
};
Rename read_imm* to the corresponding part of the operation (preparation for dynamic translation), remove a few unused parts
2016-08-03 01:40:26 +02:00
CPU.prototype.read_modrm_byte = function()
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
{
Rename read_imm* to the corresponding part of the operation (preparation for dynamic translation), remove a few unused parts
2016-08-03 01:40:26 +02:00
this.modrm_byte = this.read_imm8();
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
};
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
CPU.prototype.read_op0F = CPU.prototype.read_imm8;
Rename read_imm* to the corresponding part of the operation (preparation for dynamic translation), remove a few unused parts
2016-08-03 01:40:26 +02:00
CPU.prototype.read_sib = CPU.prototype.read_imm8;
CPU.prototype.read_op8 = CPU.prototype.read_imm8;
CPU.prototype.read_op8s = CPU.prototype.read_imm8s;
CPU.prototype.read_op16 = CPU.prototype.read_imm16;
CPU.prototype.read_op32s = CPU.prototype.read_imm32s;
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
CPU.prototype.read_disp8 = CPU.prototype.read_imm8;
Rename read_imm* to the corresponding part of the operation (preparation for dynamic translation), remove a few unused parts
2016-08-03 01:40:26 +02:00
CPU.prototype.read_disp8s = CPU.prototype.read_imm8s;
CPU.prototype.read_disp16 = CPU.prototype.read_imm16;
CPU.prototype.read_disp32s = CPU.prototype.read_imm32s;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
CPU.prototype.init2 = function () {};
CPU.prototype.branch_taken = function () {};
CPU.prototype.branch_not_taken = function () {};
CPU.prototype.diverged = function () {};
CPU.prototype.modrm_resolve = function(modrm_byte)
{
dbg_assert(modrm_byte < 0xC0);
return (this.is_asize_32() ? this.modrm_table32 : this.modrm_table16)[modrm_byte](this);
};
CPU.prototype.sib_resolve = function(mod)
{
return this.sib_table[this.read_sib()](this, mod);
};
CPU.prototype.clear_instruction_cache = function() {};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// read word from a page boundary, given 2 physical addresses
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.virt_boundary_read16 = function(low, high)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
dbg_assert((low & 0xFFF) === 0xFFF);
dbg_assert((high & 0xFFF) === 0);
Move memory to cpu
2016-08-02 04:15:24 +02:00
return this.read8(low) | this.read8(high) << 8;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// read doubleword from a page boundary, given 2 addresses
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.virt_boundary_read32s = function(low, high)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
dbg_assert((low & 0xFFF) >= 0xFFD);
dbg_assert((high - 3 & 0xFFF) === (low & 0xFFF));
Slightly improved boundary read
2014-01-10 04:24:56 +01:00
var mid;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(low & 1)
{
if(low & 2)
{
// 0xFFF
Move memory to cpu
2016-08-02 04:15:24 +02:00
mid = this.read_aligned16(high - 2 >> 1);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
// 0xFFD
Move memory to cpu
2016-08-02 04:15:24 +02:00
mid = this.read_aligned16(low + 1 >> 1);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
}
else
{
// 0xFFE
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
mid = this.virt_boundary_read16(low + 1 | 0, high - 1 | 0);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
return this.read8(low) | mid << 8 | this.read8(high) << 24;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.virt_boundary_write16 = function(low, high, value)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
dbg_assert((low & 0xFFF) === 0xFFF);
dbg_assert((high & 0xFFF) === 0);
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(low, value);
this.write8(high, value >> 8);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.virt_boundary_write32 = function(low, high, value)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
dbg_assert((low & 0xFFF) >= 0xFFD);
dbg_assert((high - 3 & 0xFFF) === (low & 0xFFF));
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(low, value);
this.write8(high, value >> 24);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(low & 1)
{
if(low & 2)
{
// 0xFFF
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(high - 2, value >> 8);
this.write8(high - 1, value >> 16);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
// 0xFFD
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(low + 1 | 0, value >> 8);
this.write8(low + 2 | 0, value >> 16);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
}
else
{
// 0xFFE
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(low + 1 | 0, value >> 8);
this.write8(high - 1, value >> 16);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// safe_read, safe_write
// read or write byte, word or dword to the given *virtual* address,
// and be safe on page boundaries
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.safe_read8 = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Several fixes
2014-01-02 01:05:49 +01:00
dbg_assert(addr < 0x80000000);
Move memory to cpu
2016-08-02 04:15:24 +02:00
return this.read8(this.translate_address_read(addr));
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.safe_read16 = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.paging && (addr & 0xFFF) === 0xFFF)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
return this.safe_read8(addr) | this.safe_read8(addr + 1 | 0) << 8;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Move memory to cpu
2016-08-02 04:15:24 +02:00
return this.read16(this.translate_address_read(addr));
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.safe_read32s = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.paging && (addr & 0xFFF) >= 0xFFD)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
return this.safe_read16(addr) | this.safe_read16(addr + 2 | 0) << 16;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Move memory to cpu
2016-08-02 04:15:24 +02:00
return this.read32s(this.translate_address_read(addr));
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.safe_write8 = function(addr, value)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Several fixes
2014-01-02 01:05:49 +01:00
dbg_assert(addr < 0x80000000);
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(this.translate_address_write(addr), value);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.safe_write16 = function(addr, value)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
var phys_low = this.translate_address_write(addr);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if((addr & 0xFFF) === 0xFFF)
{
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
this.virt_boundary_write16(phys_low, this.translate_address_write(addr + 1 | 0), value);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write16(phys_low, value);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.safe_write32 = function(addr, value)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
var phys_low = this.translate_address_write(addr);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if((addr & 0xFFF) >= 0xFFD)
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
// XXX
this.virt_boundary_write32(phys_low, this.translate_address_write(addr + 3 & ~3) | (addr + 3) & 3, value);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write32(phys_low, value);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// read 2 or 4 byte from ip, depending on address size attribute
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.read_moffs = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(this.is_asize_32())
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Rename read_imm* to the corresponding part of the operation (preparation for dynamic translation), remove a few unused parts
2016-08-03 01:40:26 +02:00
return this.get_seg_prefix(reg_ds) + this.read_op32s() | 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Rename read_imm* to the corresponding part of the operation (preparation for dynamic translation), remove a few unused parts
2016-08-03 01:40:26 +02:00
return this.get_seg_prefix(reg_ds) + this.read_op16() | 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
CPU.prototype.getiopl = function()
small steps to no-macro #10
2014-12-06 22:51:04 +01:00
{
return this.flags >> 12 & 3;
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
};
small steps to no-macro #10
2014-12-06 22:51:04 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.vm86_mode = function()
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
{
return !!(this.flags & flag_vm);
};
small steps to no-macro #10
2014-12-06 22:51:04 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.get_eflags = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
return (this.flags & ~flags_all) | !!this.getcf() | !!this.getpf() << 2 | !!this.getaf() << 4 |
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
!!this.getzf() << 6 | !!this.getsf() << 7 | !!this.getof() << 11;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
/**
* Update the flags register depending on iopl and cpl
*/
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.update_eflags = function(new_flags)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Make intention more clear
2015-03-09 01:33:39 +01:00
var dont_update = flag_rf | flag_vm | flag_vip | flag_vif,
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
clear = ~flag_vip & ~flag_vif & flags_mask;
if(this.flags & flag_vm)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// other case needs to be handled in popf or iret
small steps to no-macro #10
2014-12-06 22:51:04 +01:00
dbg_assert(this.getiopl() === 3);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Make intention more clear
2015-03-09 01:33:39 +01:00
dont_update |= flag_iopl;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Make intention more clear
2015-03-09 01:33:39 +01:00
// don't clear vip or vif
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
clear |= flag_vip | flag_vif;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
else
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(!this.protected_mode) dbg_assert(this.cpl === 0);
if(this.cpl)
{
// cpl > 0
// cannot update iopl
Make intention more clear
2015-03-09 01:33:39 +01:00
dont_update |= flag_iopl;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
small steps to no-macro #10
2014-12-06 22:51:04 +01:00
if(this.cpl > this.getiopl())
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
// cpl > iopl
Make intention more clear
2015-03-09 01:33:39 +01:00
// cannot update interrupt flag
dont_update |= flag_interrupt;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Make intention more clear
2015-03-09 01:33:39 +01:00
this.flags = (new_flags ^ ((this.flags ^ new_flags) & dont_update)) & clear | flags_default;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.flags_changed = 0;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove 'magical' stack_reg
2015-12-30 19:57:20 +01:00
CPU.prototype.get_stack_reg = function()
{
if(this.stack_size_32)
{
return this.reg32s[reg_esp];
}
else
{
return this.reg16[reg_sp];
}
};
CPU.prototype.set_stack_reg = function(value)
{
if(this.stack_size_32)
{
this.reg32s[reg_esp] = value;
}
else
{
this.reg16[reg_sp] = value;
}
};
CPU.prototype.adjust_stack_reg = function(value)
{
if(this.stack_size_32)
{
this.reg32s[reg_esp] += value;
}
else
{
this.reg16[reg_sp] += value;
}
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.get_stack_pointer = function(mod)
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
Fix get_stack_pointer in 16 bit mode
2015-04-17 23:58:35 +02:00
if(this.stack_size_32)
{
Remove 'magical' stack_reg
2015-12-30 19:57:20 +01:00
return this.get_seg(reg_ss) + this.reg32s[reg_esp] + mod | 0;
Fix get_stack_pointer in 16 bit mode
2015-04-17 23:58:35 +02:00
}
else
{
Remove 'magical' stack_reg
2015-12-30 19:57:20 +01:00
return this.get_seg(reg_ss) + (this.reg16[reg_sp] + mod & 0xFFFF) | 0;
Fix get_stack_pointer in 16 bit mode
2015-04-17 23:58:35 +02:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/*
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
* returns the "real" instruction pointer,
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
* without segment offset
*/
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.get_real_eip = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.instruction_pointer - this.get_seg(reg_cs) | 0;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.call_interrupt_vector = function(interrupt_nr, is_software_int, error_code)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
//dbg_log("int " + h(interrupt_nr, 2) + " (" + (is_software_int ? "soft" : "hard") + "ware)", LOG_CPU);
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
CPU_LOG_VERBOSE && this.debug.dump_state("int " + h(interrupt_nr) + " start");
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
//this.debug.dump_regs_short();
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
this.debug.debug_interrupt(interrupt_nr);
Some minor cleanups
2014-06-24 16:10:40 +02:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
dbg_assert(error_code === false || typeof error_code === "number");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
// we have to leave hlt_loop at some point, this is a
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
// good place to do it
Some debug code
2014-06-29 22:28:55 +02:00
//this.in_hlt && dbg_log("Leave HLT loop", LOG_CPU);
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
this.in_hlt = false;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.protected_mode)
{
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
if(this.vm86_mode() && (this.cr[4] & CR4_VME))
Cleaned up some protected mode features
2014-01-03 22:02:43 +01:00
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("VME");
Cleaned up some protected mode features
2014-01-03 22:02:43 +01:00
}
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
if(this.vm86_mode() && is_software_int && this.getiopl() < 3)
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
{
Minor changes
2015-12-31 00:31:08 +01:00
dbg_log("call_interrupt_vector #GP. vm86 && software int && iopl < 3", LOG_CPU);
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
dbg_trace(LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_gp(0);
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if((interrupt_nr << 3 | 7) > this.idtr_size)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
dbg_log(interrupt_nr, LOG_CPU);
Fix small problems in CPU, cleanup
2013-12-28 23:21:43 +01:00
dbg_trace(LOG_CPU);
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
var addr = this.idtr_offset + (interrupt_nr << 3) | 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
dbg_assert((addr & 0xFFF) < 0xFF8);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.paging)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
addr = this.translate_address_system_read(addr);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Move memory to cpu
2016-08-02 04:15:24 +02:00
var base = this.read16(addr) | this.read16(addr + 6 | 0) << 16;
var selector = this.read16(addr + 2 | 0);
var access = this.read8(addr + 5 | 0);
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
var dpl = access >> 5 & 3;
var type = access & 31;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
if((access & 0x80) === 0)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
// present bit not set
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#NP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(is_software_int && dpl < this.cpl)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
dbg_log("#gp software interrupt (" + h(interrupt_nr, 2) + ") and dpl < cpl", LOG_CPU);
dbg_trace(LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_gp(interrupt_nr << 3 | 2);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
if(type === 5)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
// task gate
dbg_log("interrupt to task gate: int=" + h(interrupt_nr, 2) + " sel=" + h(selector, 4) + " dpl=" + dpl, LOG_CPU);
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
dbg_trace(LOG_CPU);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.do_task_switch(selector);
if(error_code !== false)
{
// TODO: push16 if in 16 bit mode?
this.push32(error_code);
}
return;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
if((type & ~1 & ~8) !== 6)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
// invalid type
Fix small problems in CPU, cleanup
2013-12-28 23:21:43 +01:00
dbg_trace(LOG_CPU);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
dbg_log("invalid type: " + h(type));
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
dbg_log(h(addr) + " " + h(base >>> 0) + " " + h(selector));
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
var is_trap = (type & 1) === 1;
var is_16 = (type & 8) === 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
var info = this.lookup_segment_selector(selector);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
dbg_assert((base >>> 0) <= info.effective_limit);
dbg_assert(info.is_valid);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(info.is_null)
{
dbg_log("is null");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(!info.is_executable || info.dpl > this.cpl)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
dbg_log("not exec");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(!info.is_present)
{
dbg_log("not present");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#NP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Remove cpu.load_eflags()
2017-03-16 02:11:29 +01:00
var old_flags = this.get_eflags();
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
//dbg_log("interrupt " + h(interrupt_nr, 2) + " (" + (is_software_int ? "soft" : "hard") + "ware) from cpl=" + this.cpl + " vm=" + (this.flags & flag_vm) + " cs:eip=" + h(this.sreg[reg_cs], 4) + ":" + h(this.get_real_eip(), 8) + " to cpl="
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(!info.dc_bit && info.dpl < this.cpl)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
// inter privilege level interrupt
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
// interrupt from vm86 mode
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
//dbg_log("Inter privilege interrupt gate=" + h(selector, 4) + ":" + h(base >>> 0, 8) + " trap=" + is_trap + " 16bit=" + is_16, LOG_CPU);
//this.debug.dump_regs_short();
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
var tss_stack_addr = this.get_tss_stack_addr(info.dpl);
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
var new_esp = this.read32s(tss_stack_addr);
var new_ss = this.read16(tss_stack_addr + 4 | 0);
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
var ss_info = this.lookup_segment_selector(new_ss);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
// Disabled: Incorrect handling of direction bit
// See http://css.csail.mit.edu/6.858/2014/readings/i386/s06_03.htm
//if(!((new_esp >>> 0) <= ss_info.effective_limit))
// debugger;
//dbg_assert((new_esp >>> 0) <= ss_info.effective_limit);
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
dbg_assert(ss_info.is_valid && !ss_info.is_system && ss_info.is_writable);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(ss_info.is_null)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#TS handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
if(ss_info.rpl !== info.dpl) // xxx: 0 in v86 mode
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#TS handler");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
if(ss_info.dpl !== info.dpl || !ss_info.rw_bit)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#TS handler");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
if(!ss_info.is_present)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#TS handler");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
var old_esp = this.reg32s[reg_esp];
var old_ss = this.sreg[reg_ss];
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(old_flags & flag_vm)
{
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
//dbg_log("return from vm86 mode");
//this.debug.dump_regs_short();
dbg_assert(info.dpl === 0, "switch to non-0 dpl from vm86 mode");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
var stack_space = (is_16 ? 2 : 4) * (5 + (error_code !== false) + 4 * ((old_flags & flag_vm) === flag_vm));
var new_stack_pointer = ss_info.base + (ss_info.size ? new_esp - stack_space : (new_esp - stack_space & 0xFFFF));
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
// XXX: with new cpl or with cpl 0?
this.translate_address_system_write(new_stack_pointer);
this.translate_address_system_write(ss_info.base + new_esp - 1);
// no exceptions below
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
this.cpl = info.dpl;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.cpl_changed();
Improve update_cs_size
2017-03-18 01:03:56 +01:00
this.update_cs_size(info.size);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.flags &= ~flag_vm & ~flag_rf;
this.switch_seg(reg_ss, new_ss);
Remove 'magical' stack_reg
2015-12-30 19:57:20 +01:00
this.set_stack_reg(new_esp);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(old_flags & flag_vm)
{
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
if(is_16)
{
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
dbg_assert(false);
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
}
else
{
this.push32(this.sreg[reg_gs]);
this.push32(this.sreg[reg_fs]);
this.push32(this.sreg[reg_ds]);
this.push32(this.sreg[reg_es]);
}
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
if(is_16)
{
this.push16(old_ss);
this.push16(old_esp);
}
else
{
this.push32(old_ss);
this.push32(old_esp);
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
else if(info.dc_bit || info.dpl === this.cpl)
{
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
// intra privilege level interrupt
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
//dbg_log("Intra privilege interrupt gate=" + h(selector, 4) + ":" + h(base >>> 0, 8) +
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
// " trap=" + is_trap + " 16bit=" + is_16 +
// " cpl=" + this.cpl + " dpl=" + info.dpl + " conforming=" + +info.dc_bit, LOG_CPU);
//this.debug.dump_regs_short();
Minor changes
2015-12-31 00:31:08 +01:00
if(this.flags & flag_vm)
{
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
dbg_assert(false, "check error code");
Minor changes
2015-12-31 00:31:08 +01:00
this.trigger_gp(selector & ~3);
}
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
var stack_space = (is_16 ? 2 : 4) * (3 + (error_code !== false));
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
// XXX: with current cpl or with cpl 0?
this.writable_or_pagefault(this.get_stack_pointer(-stack_space), stack_space);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
// no exceptions below
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
else
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
if(is_16)
{
this.push16(old_flags);
this.push16(this.sreg[reg_cs]);
this.push16(this.get_real_eip());
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
if(error_code !== false)
{
this.push16(error_code);
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
base &= 0xFFFF;
}
else
{
this.push32(old_flags);
this.push32(this.sreg[reg_cs]);
this.push32(this.get_real_eip());
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
if(error_code !== false)
{
this.push32(error_code);
}
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(old_flags & flag_vm)
{
this.switch_seg(reg_gs, 0);
this.switch_seg(reg_fs, 0);
this.switch_seg(reg_ds, 0);
this.switch_seg(reg_es, 0);
}
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
this.sreg[reg_cs] = selector & ~3 | this.cpl;
Verbose cpu logging
2016-10-23 17:37:02 +02:00
dbg_assert((this.sreg[reg_cs] & 3) === this.cpl);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Improve update_cs_size
2017-03-18 01:03:56 +01:00
this.update_cs_size(info.size);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
some cleanups
2014-07-27 01:07:51 +02:00
this.segment_limits[reg_cs] = info.effective_limit;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.segment_offsets[reg_cs] = info.base;
this.instruction_pointer = this.get_seg(reg_cs) + base | 0;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
this.flags &= ~flag_nt & ~flag_vm & ~flag_rf & ~flag_trap;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(!is_trap)
{
// clear int flag for interrupt gates
this.flags &= ~flag_interrupt;
}
else
{
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
if(!this.page_fault) // XXX
{
this.handle_irqs();
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
}
else
{
// call 4 byte cs:ip interrupt vector from ivt at cpu.memory 0
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
var index = interrupt_nr << 2;
Move memory to cpu
2016-08-02 04:15:24 +02:00
var new_ip = this.read16(index);
var new_cs = this.read16(index + 2 | 0);
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// push flags, cs:ip
Remove cpu.load_eflags()
2017-03-16 02:11:29 +01:00
this.push16(this.get_eflags());
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.push16(this.sreg[reg_cs]);
this.push16(this.get_real_eip());
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
this.flags &= ~flag_interrupt;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.switch_cs_real_mode(new_cs);
16 bit interrupt gates
2015-03-09 01:53:38 +01:00
this.instruction_pointer = this.get_seg(reg_cs) + new_ip | 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
//dbg_log("int to:", LOG_CPU);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
CPU_LOG_VERBOSE && this.debug.dump_state("int end");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.iret16 = function()
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.iret(true);
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
};
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
CPU.prototype.iret32 = function()
{
this.iret(false);
call_interrupt_vector: Fix check stack space and clean up the code
2016-02-15 00:31:00 +01:00
};
Some minor changes
2015-04-22 04:15:32 +02:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
CPU.prototype.iret = function(is_16)
{
//dbg_log("iret is_16=" + is_16, LOG_CPU);
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
CPU_LOG_VERBOSE && this.debug.dump_state("iret" + (is_16 ? "16" : "32") + " start");
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
//this.debug.dump_regs_short();
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(this.vm86_mode() && this.getiopl() < 3)
{
// vm86 mode, iopl != 3
dbg_log("#gp iret vm86 mode, iopl != 3", LOG_CPU);
this.trigger_gp(0);
}
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
if(is_16)
{
var new_eip = this.safe_read16(this.get_stack_pointer(0));
var new_cs = this.safe_read16(this.get_stack_pointer(2));
var new_flags = this.safe_read16(this.get_stack_pointer(4));
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
else
{
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
var new_eip = this.safe_read32s(this.get_stack_pointer(0));
var new_cs = this.safe_read16(this.get_stack_pointer(4));
var new_flags = this.safe_read32s(this.get_stack_pointer(8));
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
if(!this.protected_mode || (this.vm86_mode() && this.getiopl() === 3))
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
if(new_eip & 0xFFFF0000)
Some minor changes
2015-04-22 04:15:32 +02:00
{
throw this.debug.unimpl("#GP handler");
}
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.switch_cs_real_mode(new_cs);
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.instruction_pointer = new_eip + this.get_seg(reg_cs) | 0;
if(is_16)
{
this.update_eflags(new_flags | this.flags & ~0xFFFF);
this.adjust_stack_reg(3 * 2);
}
else
{
this.update_eflags(new_flags);
this.adjust_stack_reg(3 * 4);
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
//dbg_log("iret32 to:", LOG_CPU);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
CPU_LOG_VERBOSE && this.debug.dump_state("iret end");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.handle_irqs();
return;
}
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
dbg_assert(!this.vm86_mode());
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.flags & flag_nt)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
if(DEBUG) throw this.debug.unimpl("nt");
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.trigger_gp(0);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(new_flags & flag_vm)
{
if(this.cpl === 0)
{
// return to virtual 8086 mode
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
// vm86 cannot be set in 16 bit flag
dbg_assert(!is_16);
dbg_assert((new_eip & ~0xFFFF) === 0);
Several fixes
2014-01-02 01:05:49 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
//dbg_log("in vm86 mode now " +
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
// " cs:eip=" + h(new_cs, 4) + ":" + h(this.instruction_pointer >>> 0, 8) +
// " iopl=" + this.getiopl() + " flags=" + h(new_flags, 8), LOG_CPU);
var temp_esp = this.safe_read32s(this.get_stack_pointer(12));
var temp_ss = this.safe_read16(this.get_stack_pointer(16));
var new_es = this.safe_read16(this.get_stack_pointer(20));
var new_ds = this.safe_read16(this.get_stack_pointer(24));
var new_fs = this.safe_read16(this.get_stack_pointer(28));
var new_gs = this.safe_read16(this.get_stack_pointer(32));
// no exceptions below
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.update_eflags(new_flags);
this.flags |= flag_vm;
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.switch_cs_real_mode(new_cs);
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.instruction_pointer = (new_eip & 0xFFFF) + this.get_seg(reg_cs) | 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.switch_seg(reg_es, new_es);
this.switch_seg(reg_ds, new_ds);
this.switch_seg(reg_fs, new_fs);
this.switch_seg(reg_gs, new_gs);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.adjust_stack_reg(9 * 4); // 9 dwords: eip, cs, flags, esp, ss, es, ds, fs, gs
Fix small problems in CPU, cleanup
2013-12-28 23:21:43 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.reg32s[reg_esp] = temp_esp;
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.switch_seg(reg_ss, temp_ss);
Fix small problems in CPU, cleanup
2013-12-28 23:21:43 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.cpl = 3;
Some minor changes
2015-04-22 04:15:32 +02:00
this.cpl_changed();
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.update_cs_size(false);
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
//dbg_log("iret32 to:", LOG_CPU);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
CPU_LOG_VERBOSE && this.debug.dump_state("iret end");
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
//this.debug.dump_regs_short();
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Fix small problems in CPU, cleanup
2013-12-28 23:21:43 +01:00
else
{
Fix some warnings
2016-07-28 00:15:23 +02:00
dbg_log("vm86 flag ignored because cpl != 0", LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
new_flags &= ~flag_vm;
Fix small problems in CPU, cleanup
2013-12-28 23:21:43 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// protected mode return
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
var info = this.lookup_segment_selector(new_cs);
dbg_assert(info.is_valid);
dbg_assert((new_eip >>> 0) <= info.effective_limit);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(info.is_null)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("is null");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
if(!info.is_present)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("not present");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
if(!info.is_executable)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("not exec");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
if(info.rpl < this.cpl)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("rpl < cpl");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
if(info.dc_bit && info.dpl > info.rpl)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("conforming and dpl > rpl");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Check non-conforming cs correctly, #115
2016-11-28 01:45:36 +01:00
if(!info.dc_bit && info.rpl !== info.dpl)
{
dbg_log("#gp iret: non-conforming cs and rpl != dpl, dpl=" + info.dpl + " rpl=" + info.rpl, LOG_CPU);
this.trigger_gp(0);
}
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(info.rpl > this.cpl)
{
// outer privilege return
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
if(is_16)
{
var temp_esp = this.safe_read16(this.get_stack_pointer(6));
var temp_ss = this.safe_read16(this.get_stack_pointer(8));
}
else
{
var temp_esp = this.safe_read32s(this.get_stack_pointer(12));
var temp_ss = this.safe_read16(this.get_stack_pointer(16));
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Verbose cpu logging
2016-10-23 17:37:02 +02:00
var ss_info = this.lookup_segment_selector(temp_ss);
var new_cpl = info.rpl;
if(ss_info.is_null)
{
dbg_log("#GP for loading 0 in SS sel=" + h(temp_ss, 4), LOG_CPU);
dbg_trace(LOG_CPU);
this.trigger_gp(0);
}
if(!ss_info.is_valid ||
ss_info.is_system ||
ss_info.rpl !== new_cpl ||
!ss_info.is_writable ||
ss_info.dpl !== new_cpl)
{
dbg_log("#GP for loading invalid in SS sel=" + h(temp_ss, 4), LOG_CPU);
dbg_trace(LOG_CPU);
this.trigger_gp(temp_ss & ~3);
}
if(!ss_info.is_present)
{
dbg_log("#SS for loading non-present in SS sel=" + h(temp_ss, 4), LOG_CPU);
dbg_trace(LOG_CPU);
this.trigger_ss(temp_ss & ~3);
}
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
// no exceptions below
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
if(is_16)
Some minor changes
2015-04-22 04:15:32 +02:00
{
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.update_eflags(new_flags | this.flags & ~0xFFFF);
}
else
{
this.update_eflags(new_flags);
Some minor changes
2015-04-22 04:15:32 +02:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.cpl = info.rpl;
Some minor changes
2015-04-22 04:15:32 +02:00
this.cpl_changed();
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
//dbg_log("outer privilege return: from=" + this.cpl + " to=" + info.rpl + " ss:esp=" + h(temp_ss, 4) + ":" + h(temp_esp >>> 0, 8), LOG_CPU);
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.switch_seg(reg_ss, temp_ss);
this.set_stack_reg(temp_esp);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
if(this.cpl === 0)
{
this.flags = this.flags & ~flag_vif & ~flag_vip | (new_flags & (flag_vif | flag_vip));
}
// XXX: Set segment to 0 if it's not usable in the new cpl
// XXX: Use cached segment information
//var ds_info = this.lookup_segment_selector(this.sreg[reg_ds]);
//if(this.cpl > ds_info.dpl && (!ds_info.is_executable || !ds_info.dc_bit)) this.switch_seg(reg_ds, 0);
// ...
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
else if(info.rpl === this.cpl)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// same privilege return
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
// no exceptions below
if(is_16)
{
this.adjust_stack_reg(3 * 2);
this.update_eflags(new_flags | this.flags & ~0xFFFF);
}
else
{
this.adjust_stack_reg(3 * 4);
this.update_eflags(new_flags);
}
Some minor changes
2015-04-22 04:15:32 +02:00
// update vip and vif, which are not changed by update_eflags
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
if(this.cpl === 0)
Some minor changes
2015-04-22 04:15:32 +02:00
{
this.flags = this.flags & ~flag_vif & ~flag_vip | (new_flags & (flag_vif | flag_vip));
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
else
{
dbg_assert(false);
}
this.sreg[reg_cs] = new_cs;
Verbose cpu logging
2016-10-23 17:37:02 +02:00
dbg_assert((new_cs & 3) === this.cpl);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Improve update_cs_size
2017-03-18 01:03:56 +01:00
this.update_cs_size(info.size);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
some cleanups
2014-07-27 01:07:51 +02:00
this.segment_limits[reg_cs] = info.effective_limit;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.segment_offsets[reg_cs] = info.base;
Fix issues with iret instruction: 1. Allow 16 bit operation 2. Don't trigger exceptions after causing side effects
2016-02-14 22:11:06 +01:00
this.instruction_pointer = new_eip + this.get_seg(reg_cs) | 0;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
CPU_LOG_VERBOSE && this.debug.dump_state("iret" + (is_16 ? "16" : "32") + " end");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.handle_irqs();
};
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
CPU.prototype.switch_cs_real_mode = function(selector)
{
dbg_assert(!this.protected_mode || this.vm86_mode());
this.sreg[reg_cs] = selector;
this.segment_is_null[reg_cs] = 0;
this.segment_offsets[reg_cs] = selector << 4;
};
CPU.prototype.far_return = function(eip, selector, stack_adjust)
{
dbg_assert(typeof selector === "number" && selector < 0x10000 && selector >= 0);
//dbg_log("far return eip=" + h(eip >>> 0, 8) + " cs=" + h(selector, 4) + " stack_adjust=" + h(stack_adjust), LOG_CPU);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
CPU_LOG_VERBOSE && this.debug.dump_state("far ret start");
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
if(!this.protected_mode)
{
dbg_assert(!this.is_32);
//dbg_assert(!this.stack_size_32);
}
if(!this.protected_mode || this.vm86_mode())
{
this.switch_cs_real_mode(selector);
this.instruction_pointer = this.get_seg(reg_cs) + eip | 0;
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
this.adjust_stack_reg(2 * (this.is_osize_32() ? 4 : 2) + stack_adjust);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
return;
}
var info = this.lookup_segment_selector(selector);
if(info.is_null)
{
dbg_log("null cs", LOG_CPU);
this.trigger_gp(0);
}
if(!info.is_valid)
{
dbg_log("invalid cs: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
if(info.is_system)
{
dbg_assert(false, "is system in far return");
this.trigger_gp(selector & ~3);
}
if(!info.is_executable)
{
dbg_log("non-executable cs: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
if(info.rpl < this.cpl)
{
dbg_log("cs rpl < cpl: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
if(info.dc_bit && info.dpl > info.rpl)
{
dbg_log("cs conforming and dpl > rpl: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
if(!info.dc_bit && info.dpl !== info.rpl)
{
dbg_log("cs non-conforming and dpl != rpl: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
if(!info.is_present)
{
dbg_log("#NP for loading not-present in cs sel=" + h(selector, 4), LOG_CPU);
dbg_trace(LOG_CPU);
this.trigger_np(selector & ~3);
}
if(info.rpl > this.cpl)
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
dbg_log("far return privilege change cs: " + h(selector) + " from=" + this.cpl + " to=" + info.rpl + " is_16=" + this.is_osize_32(), LOG_CPU);
Implement far return and far call, #86
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Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(this.is_osize_32())
Implement far return and far call, #86
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{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
//dbg_log("esp read from " + h(this.translate_address_system_read(this.get_stack_pointer(stack_adjust + 8))))
Implement far return and far call, #86
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var temp_esp = this.safe_read32s(this.get_stack_pointer(stack_adjust + 8));
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
//dbg_log("esp=" + h(temp_esp));
Implement far return and far call, #86
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var temp_ss = this.safe_read16(this.get_stack_pointer(stack_adjust + 12));
}
else
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
//dbg_log("esp read from " + h(this.translate_address_system_read(this.get_stack_pointer(stack_adjust + 4))));
Implement far return and far call, #86
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var temp_esp = this.safe_read16(this.get_stack_pointer(stack_adjust + 4));
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
//dbg_log("esp=" + h(temp_esp));
Implement far return and far call, #86
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var temp_ss = this.safe_read16(this.get_stack_pointer(stack_adjust + 6));
}
this.cpl = info.rpl;
this.cpl_changed();
// XXX: Can raise, conditions should be checked before side effects
this.switch_seg(reg_ss, temp_ss);
this.set_stack_reg(temp_esp + stack_adjust);
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
//if(this.is_osize_32())
Implement far return and far call, #86
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//{
// this.adjust_stack_reg(2 * 4);
//}
//else
//{
// this.adjust_stack_reg(2 * 2);
//}
//throw this.debug.unimpl("privilege change");
//this.adjust_stack_reg(stack_adjust);
}
else
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(this.is_osize_32())
Implement far return and far call, #86
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{
this.adjust_stack_reg(2 * 4 + stack_adjust);
}
else
{
this.adjust_stack_reg(2 * 2 + stack_adjust);
}
}
//dbg_assert(this.cpl === info.dpl);
Improve update_cs_size
2017-03-18 01:03:56 +01:00
this.update_cs_size(info.size);
Implement far return and far call, #86
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this.segment_is_null[reg_cs] = 0;
this.segment_limits[reg_cs] = info.effective_limit;
//this.segment_infos[reg_cs] = 0; // TODO
this.segment_offsets[reg_cs] = info.base;
this.sreg[reg_cs] = selector;
Verbose cpu logging
2016-10-23 17:37:02 +02:00
dbg_assert((selector & 3) === this.cpl);
Implement far return and far call, #86
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this.instruction_pointer = this.get_seg(reg_cs) + eip | 0;
//dbg_log("far return to:", LOG_CPU)
Verbose cpu logging
2016-10-23 17:37:02 +02:00
CPU_LOG_VERBOSE && this.debug.dump_state("far ret end");
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
};
CPU.prototype.far_jump = function(eip, selector, is_call)
{
dbg_assert(typeof selector === "number" && selector < 0x10000 && selector >= 0);
//dbg_log("far " + ["jump", "call"][+is_call] + " eip=" + h(eip >>> 0, 8) + " cs=" + h(selector, 4), LOG_CPU);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
CPU_LOG_VERBOSE && this.debug.dump_state("far " + ["jump", "call"][+is_call]);
Implement far return and far call, #86
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if(!this.protected_mode || this.vm86_mode())
{
if(is_call)
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(this.is_osize_32())
Implement far return and far call, #86
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{
this.writable_or_pagefault(this.get_stack_pointer(-8), 8);
this.push32(this.sreg[reg_cs]);
this.push32(this.get_real_eip());
}
else
{
this.writable_or_pagefault(this.get_stack_pointer(-4), 4);
this.push16(this.sreg[reg_cs]);
this.push16(this.get_real_eip());
}
}
this.switch_cs_real_mode(selector);
this.instruction_pointer = this.get_seg(reg_cs) + eip | 0;
return;
}
var info = this.lookup_segment_selector(selector);
if(info.is_null)
{
dbg_log("#gp null cs", LOG_CPU);
this.trigger_gp(0);
}
if(!info.is_valid)
{
dbg_log("#gp invalid cs: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
if(info.is_system)
{
dbg_assert(is_call, "TODO: Jump")
dbg_log("system type cs: " + h(selector), LOG_CPU);
if(info.type === 0xC || info.type === 4)
{
// call gate
var is_16 = info.type === 4;
if(info.dpl < this.cpl || info.dpl < info.rpl)
{
dbg_log("#gp cs gate dpl < cpl or dpl < rpl: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
if(!info.is_present)
{
dbg_log("#NP for loading not-present in gate cs sel=" + h(selector, 4), LOG_CPU);
this.trigger_np(selector & ~3);
}
var cs_selector = info.raw0 >>> 16;
var cs_info = this.lookup_segment_selector(cs_selector);
if(cs_info.is_null)
{
dbg_log("#gp null cs", LOG_CPU);
this.trigger_gp(0);
}
if(!cs_info.is_valid)
{
dbg_log("#gp invalid cs: " + h(cs_selector), LOG_CPU);
this.trigger_gp(cs_selector & ~3);
}
if(!cs_info.is_executable)
{
dbg_log("#gp non-executable cs: " + h(cs_selector), LOG_CPU);
this.trigger_gp(cs_selector & ~3);
}
if(cs_info.dpl > this.cpl)
{
dbg_log("#gp dpl > cpl: " + h(cs_selector), LOG_CPU);
this.trigger_gp(cs_selector & ~3);
}
if(!cs_info.is_present)
{
dbg_log("#NP for loading not-present in cs sel=" + h(cs_selector, 4), LOG_CPU);
this.trigger_np(cs_selector & ~3);
}
if(!cs_info.dc_bit && cs_info.dpl < this.cpl)
{
dbg_log("more privilege call gate is_16=" + is_16 + " from=" + this.cpl + " to=" + cs_info.dpl);
var tss_stack_addr = this.get_tss_stack_addr(cs_info.dpl);
Move memory to cpu
2016-08-02 04:15:24 +02:00
var new_esp = this.read32s(tss_stack_addr);
var new_ss = this.read16(tss_stack_addr + 4 | 0);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
var ss_info = this.lookup_segment_selector(new_ss);
// Disabled: Incorrect handling of direction bit
// See http://css.csail.mit.edu/6.858/2014/readings/i386/s06_03.htm
//if(!((new_esp >>> 0) <= ss_info.effective_limit))
// debugger;
//dbg_assert((new_esp >>> 0) <= ss_info.effective_limit);
dbg_assert(ss_info.is_valid && !ss_info.is_system && ss_info.is_writable);
if(ss_info.is_null)
{
throw this.debug.unimpl("#TS handler");
}
if(ss_info.rpl !== cs_info.dpl) // xxx: 0 in v86 mode
{
throw this.debug.unimpl("#TS handler");
}
if(ss_info.dpl !== cs_info.dpl || !ss_info.rw_bit)
{
throw this.debug.unimpl("#TS handler");
}
if(!ss_info.is_present)
{
throw this.debug.unimpl("#SS handler");
}
Verbose cpu logging
2016-10-23 17:37:02 +02:00
var parameter_count = info.raw1 & 0x1F;
var stack_space = is_16 ? 4 : 8;
if(is_call)
{
stack_space += is_16 ? 4 + 2 * parameter_count : 8 + 4 * parameter_count;
}
if(ss_info.size)
{
//try {
this.writable_or_pagefault(ss_info.base + new_esp - stack_space | 0, stack_space); // , cs_info.dpl
//} catch(e) { debugger; }
}
else
{
//try {
this.writable_or_pagefault(ss_info.base + (new_esp - stack_space & 0xFFFF) | 0, stack_space); // , cs_info.dpl
//} catch(e) { debugger; }
}
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
var old_esp = this.reg32s[reg_esp];
var old_ss = this.sreg[reg_ss];
var old_stack_pointer = this.get_stack_pointer(0);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
//dbg_log("old_esp=" + h(old_esp));
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.cpl = cs_info.dpl;
this.cpl_changed();
Improve update_cs_size
2017-03-18 01:03:56 +01:00
this.update_cs_size(cs_info.size);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.switch_seg(reg_ss, new_ss);
this.set_stack_reg(new_esp);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
//dbg_log("parameter_count=" + parameter_count);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
//dbg_assert(parameter_count === 0, "TODO");
if(is_16)
{
this.push16(old_ss);
this.push16(old_esp);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
//dbg_log("old esp written to " + h(this.translate_address_system_read(this.get_stack_pointer(0))));
Implement far return and far call, #86
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}
else
{
this.push32(old_ss);
this.push32(old_esp);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
//dbg_log("old esp written to " + h(this.translate_address_system_read(this.get_stack_pointer(0))));
Implement far return and far call, #86
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}
if(is_call)
{
if(is_16)
{
for(var i = parameter_count - 1; i >= 0; i--)
{
var parameter = this.safe_read16(old_stack_pointer + 2 * i);
this.push16(parameter);
}
Verbose cpu logging
2016-10-23 17:37:02 +02:00
//this.writable_or_pagefault(this.get_stack_pointer(-4), 4);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.push16(this.sreg[reg_cs]);
this.push16(this.get_real_eip());
}
else
{
for(var i = parameter_count - 1; i >= 0; i--)
{
var parameter = this.safe_read32s(old_stack_pointer + 4 * i);
this.push32(parameter);
}
Verbose cpu logging
2016-10-23 17:37:02 +02:00
//this.writable_or_pagefault(this.get_stack_pointer(-8), 8);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.push32(this.sreg[reg_cs]);
this.push32(this.get_real_eip());
}
}
}
else
{
dbg_log("same privilege call gate is_16=" + is_16 + " from=" + this.cpl + " to=" + cs_info.dpl + " conforming=" + cs_info.dc_bit);
// ok
if(is_call)
{
if(is_16)
{
this.writable_or_pagefault(this.get_stack_pointer(-4), 4);
this.push16(this.sreg[reg_cs]);
this.push16(this.get_real_eip());
}
else
{
this.writable_or_pagefault(this.get_stack_pointer(-8), 8);
this.push32(this.sreg[reg_cs]);
this.push32(this.get_real_eip());
}
}
}
// Note: eip from call is ignored
var new_eip = info.raw0 & 0xFFFF;
if(!is_16)
{
new_eip |= info.raw1 & 0xFFFF0000;
}
dbg_log("call gate eip=" + h(new_eip >>> 0) + " cs=" + h(cs_selector) + " conforming=" + cs_info.dc_bit);
dbg_assert((new_eip >>> 0) <= cs_info.effective_limit, "todo: #gp");
Improve update_cs_size
2017-03-18 01:03:56 +01:00
this.update_cs_size(cs_info.size);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.segment_is_null[reg_cs] = 0;
this.segment_limits[reg_cs] = cs_info.effective_limit;
//this.segment_infos[reg_cs] = 0; // TODO
this.segment_offsets[reg_cs] = cs_info.base;
this.sreg[reg_cs] = cs_selector & ~3 | this.cpl;
Verbose cpu logging
2016-10-23 17:37:02 +02:00
dbg_assert((this.sreg[reg_cs] & 3) === this.cpl);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.instruction_pointer = this.get_seg(reg_cs) + new_eip | 0;
}
else
{
var types = { 9: "Available 386 TSS", 0xb: "Busy 386 TSS", 4: "286 Call Gate", 0xc: "386 Call Gate" };
throw this.debug.unimpl("load system segment descriptor, type = " + (info.access & 15) + " (" + types[info.access & 15] + ")");
}
}
else
{
if(!info.is_executable)
{
dbg_log("#gp non-executable cs: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
if(info.dc_bit)
{
// conforming code segment
if(info.dpl > this.cpl)
{
dbg_log("#gp cs dpl > cpl: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
}
else
{
// non-conforming code segment
if(info.rpl > this.cpl || info.dpl !== this.cpl)
{
dbg_log("#gp cs rpl > cpl or dpl != cpl: " + h(selector), LOG_CPU);
this.trigger_gp(selector & ~3);
}
}
if(!info.is_present)
{
dbg_log("#NP for loading not-present in cs sel=" + h(selector, 4), LOG_CPU);
dbg_trace(LOG_CPU);
this.trigger_np(selector & ~3);
}
if(is_call)
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(this.is_osize_32())
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
{
this.writable_or_pagefault(this.get_stack_pointer(-8), 8);
this.push32(this.sreg[reg_cs]);
this.push32(this.get_real_eip());
}
else
{
this.writable_or_pagefault(this.get_stack_pointer(-4), 4);
this.push16(this.sreg[reg_cs]);
this.push16(this.get_real_eip());
}
}
dbg_assert((eip >>> 0) <= info.effective_limit, "todo: #gp");
Improve update_cs_size
2017-03-18 01:03:56 +01:00
this.update_cs_size(info.size);
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
this.segment_is_null[reg_cs] = 0;
this.segment_limits[reg_cs] = info.effective_limit;
//this.segment_infos[reg_cs] = 0; // TODO
this.segment_offsets[reg_cs] = info.base;
this.sreg[reg_cs] = selector & ~3 | this.cpl;
this.instruction_pointer = this.get_seg(reg_cs) + eip | 0;
}
//dbg_log("far " + ["jump", "call"][+is_call] + " to:", LOG_CPU)
Verbose cpu logging
2016-10-23 17:37:02 +02:00
CPU_LOG_VERBOSE && this.debug.dump_state("far " + ["jump", "call"][+is_call] + " end");
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
};
CPU.prototype.get_tss_stack_addr = function(dpl)
{
var tss_stack_addr = (dpl << 3) + 4 | 0;
if((tss_stack_addr + 5 | 0) > this.segment_limits[reg_tr])
{
throw this.debug.unimpl("#TS handler");
}
tss_stack_addr = tss_stack_addr + this.segment_offsets[reg_tr] | 0;
if(this.paging)
{
tss_stack_addr = this.translate_address_system_read(tss_stack_addr);
}
dbg_assert((tss_stack_addr & 0xFFF) <= 0x1000 - 6);
return tss_stack_addr;
};
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
CPU.prototype.do_task_switch = function(selector)
{
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
dbg_log("do_task_switch sel=" + h(selector), LOG_CPU);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
var descriptor = this.lookup_segment_selector(selector);
if(!descriptor.is_valid || descriptor.is_null || !descriptor.from_gdt)
{
throw this.debug.unimpl("#GP handler");
}
if((descriptor.access & 31) === 0xB)
{
// is busy
throw this.debug.unimpl("#GP handler");
}
if(!descriptor.is_present)
{
throw this.debug.unimpl("#NP handler");
}
if(descriptor.effective_limit < 103)
{
throw this.debug.unimpl("#NP handler");
}
var tsr_size = this.segment_limits[reg_tr];
var tsr_offset = this.segment_offsets[reg_tr];
var old_eflags = this.get_eflags();
Fix some warnings
2016-07-28 00:15:23 +02:00
//if(false /* is iret */)
//{
// old_eflags &= ~flag_nt;
//}
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.writable_or_pagefault(tsr_offset, 0x66);
//this.safe_write32(tsr_offset + TSR_CR3, this.cr[3]);
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.safe_write32(tsr_offset + TSR_EIP, this.get_real_eip());
this.safe_write32(tsr_offset + TSR_EFLAGS, old_eflags);
this.safe_write32(tsr_offset + TSR_EAX, this.reg32s[reg_eax]);
this.safe_write32(tsr_offset + TSR_ECX, this.reg32s[reg_ecx]);
this.safe_write32(tsr_offset + TSR_EDX, this.reg32s[reg_edx]);
this.safe_write32(tsr_offset + TSR_EBX, this.reg32s[reg_ebx]);
this.safe_write32(tsr_offset + TSR_ESP, this.reg32s[reg_esp]);
this.safe_write32(tsr_offset + TSR_EBP, this.reg32s[reg_ebp]);
this.safe_write32(tsr_offset + TSR_ESI, this.reg32s[reg_esi]);
this.safe_write32(tsr_offset + TSR_EDI, this.reg32s[reg_edi]);
this.safe_write32(tsr_offset + TSR_ES, this.sreg[reg_es]);
this.safe_write32(tsr_offset + TSR_CS, this.sreg[reg_cs]);
this.safe_write32(tsr_offset + TSR_SS, this.sreg[reg_ss]);
this.safe_write32(tsr_offset + TSR_DS, this.sreg[reg_ds]);
this.safe_write32(tsr_offset + TSR_FS, this.sreg[reg_fs]);
this.safe_write32(tsr_offset + TSR_GS, this.sreg[reg_gs]);
this.safe_write32(tsr_offset + TSR_LDT, this.sreg[reg_ldtr]);
if(true /* is jump or call or int */)
{
// mark as busy
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(descriptor.table_offset + 5 | 0, this.read8(descriptor.table_offset + 5 | 0) | 2);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
}
//var new_tsr_size = descriptor.effective_limit;
var new_tsr_offset = descriptor.base;
var new_cr3 = this.safe_read32s(new_tsr_offset + TSR_CR3);
this.flags &= ~flag_vm;
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
dbg_assert(false);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.switch_seg(reg_cs, this.safe_read16(new_tsr_offset + TSR_CS));
var new_eflags = this.safe_read32s(new_tsr_offset + TSR_EFLAGS);
if(true /* is call or int */)
{
this.safe_write32(tsr_offset + TSR_BACKLINK, selector);
new_eflags |= flag_nt;
}
if(new_eflags & flag_vm)
{
throw this.debug.unimpl("task switch to VM mode");
}
this.update_eflags(new_eflags);
Minor changes
2015-12-31 00:31:08 +01:00
var new_ldt = this.safe_read16(new_tsr_offset + TSR_LDT);
this.load_ldt(new_ldt);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.reg32s[reg_eax] = this.safe_read32s(new_tsr_offset + TSR_EAX);
this.reg32s[reg_ecx] = this.safe_read32s(new_tsr_offset + TSR_ECX);
this.reg32s[reg_edx] = this.safe_read32s(new_tsr_offset + TSR_EDX);
this.reg32s[reg_ebx] = this.safe_read32s(new_tsr_offset + TSR_EBX);
this.reg32s[reg_esp] = this.safe_read32s(new_tsr_offset + TSR_ESP);
this.reg32s[reg_ebp] = this.safe_read32s(new_tsr_offset + TSR_EBP);
this.reg32s[reg_esi] = this.safe_read32s(new_tsr_offset + TSR_ESI);
this.reg32s[reg_edi] = this.safe_read32s(new_tsr_offset + TSR_EDI);
this.switch_seg(reg_es, this.safe_read16(new_tsr_offset + TSR_ES));
this.switch_seg(reg_ss, this.safe_read16(new_tsr_offset + TSR_SS));
this.switch_seg(reg_ds, this.safe_read16(new_tsr_offset + TSR_DS));
this.switch_seg(reg_fs, this.safe_read16(new_tsr_offset + TSR_FS));
this.switch_seg(reg_gs, this.safe_read16(new_tsr_offset + TSR_GS));
this.instruction_pointer = this.get_seg(reg_cs) + this.safe_read32s(new_tsr_offset + TSR_EIP) | 0;
this.segment_offsets[reg_tr] = descriptor.base;
this.segment_limits[reg_tr] = descriptor.effective_limit;
this.sreg[reg_tr] = selector;
this.cr[3] = new_cr3;
dbg_assert((this.cr[3] & 0xFFF) === 0);
this.clear_tlb();
this.cr[0] |= CR0_TS;
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.hlt_op = function()
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
if(this.cpl)
{
this.trigger_gp(0);
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if((this.flags & flag_interrupt) === 0)
{
this.debug.show("cpu halted");
if(DEBUG) this.debug.dump_regs();
throw "HALT";
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
else
{
Idle when emulated CPU is idle in a hlt loop
2014-06-22 19:10:35 +02:00
// get out of here and into hlt_loop
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.in_hlt = true;
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(false) // possibly unsafe, test in safari
{
this.hlt_loop();
this.diverged();
if(this.in_hlt)
{
throw MAGIC_CPU_EXCEPTION;
}
}
else
{
throw MAGIC_CPU_EXCEPTION;
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
}
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// assumes ip to point to the byte before the next instruction
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.raise_exception = function(interrupt_nr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
//if(DEBUG && interrupt_nr !== 7)
//{
// // show interesting exceptions
// dbg_log("Exception " + h(interrupt_nr) + " at " + h(this.previous_ip >>> 0, 8) + " (cs=" + h(this.sreg[reg_cs], 4) + ")", LOG_CPU);
// dbg_trace(LOG_CPU);
// this.debug.dump_regs_short();
// this.debug.dump_state();
//}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.call_interrupt_vector(interrupt_nr, false, false);
No magic numbers please
2014-05-06 20:24:46 +02:00
throw MAGIC_CPU_EXCEPTION;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.raise_exception_with_code = function(interrupt_nr, error_code)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
dbg_assert(typeof error_code === "number");
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
//if(DEBUG)
//{
// dbg_log("Exception " + h(interrupt_nr) + " err=" + h(error_code) + " at " + h(this.previous_ip >>> 0, 8) + " (cs=" + h(this.sreg[reg_cs], 4) + ")", LOG_CPU);
// dbg_trace(LOG_CPU);
// this.debug.dump_regs_short();
//}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.call_interrupt_vector(interrupt_nr, false, error_code);
No magic numbers please
2014-05-06 20:24:46 +02:00
throw MAGIC_CPU_EXCEPTION;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.trigger_de = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.previous_ip;
this.raise_exception(0);
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.trigger_ud = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.previous_ip;
this.raise_exception(6);
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.trigger_nm = function()
Cleaned up some protected mode features
2014-01-03 22:02:43 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.previous_ip;
this.raise_exception(7);
};
Cleaned up some protected mode features
2014-01-03 22:02:43 +01:00
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
CPU.prototype.trigger_ts = function(code)
{
this.instruction_pointer = this.previous_ip;
this.raise_exception_with_code(10, code);
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.trigger_gp = function(code)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.previous_ip;
this.raise_exception_with_code(13, code);
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.trigger_np = function(code)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.previous_ip;
this.raise_exception_with_code(11, code);
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.trigger_ss = function(code)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.previous_ip;
this.raise_exception_with_code(12, code);
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
// used before fpu instructions
CPU.prototype.task_switch_test = function()
{
if(this.cr[0] & (CR0_EM | CR0_TS))
{
this.trigger_nm();
}
};
CPU.prototype.todo = function()
{
if(DEBUG)
{
dbg_trace();
throw "TODO";
}
this.trigger_ud();
};
CPU.prototype.undefined_instruction = function()
{
if(DEBUG)
{
throw "Possible fault: undefined instruction";
}
this.trigger_ud();
};
CPU.prototype.unimplemented_sse = function()
{
dbg_log("No SSE", LOG_CPU);
this.trigger_ud();
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.get_seg_prefix_ds = function()
small changes for dynamic translation
2014-11-01 13:59:32 +01:00
{
return this.get_seg_prefix(reg_ds);
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.get_seg_prefix_ss = function()
small changes for dynamic translation
2014-11-01 13:59:32 +01:00
{
return this.get_seg_prefix(reg_ss);
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.get_seg_prefix_cs = function()
small changes for dynamic translation
2014-11-01 13:59:32 +01:00
{
return this.get_seg_prefix(reg_cs);
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/**
* Get segment base by prefix or default
* @param {number} default_segment
*/
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.get_seg_prefix = function(default_segment /*, offset*/)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
var prefix = this.prefixes & PREFIX_MASK_SEGMENT;
if(prefix)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(prefix === SEG_PREFIX_ZERO)
{
return 0;
}
else
{
return this.get_seg(prefix - 1 /*, offset*/);
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
return this.get_seg(default_segment /*, offset*/);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/**
* Get segment base
* @param {number} segment
*/
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.get_seg = function(segment /*, offset*/)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
dbg_assert(segment >= 0 && segment < 8);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.protected_mode)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.segment_is_null[segment])
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Improve handling of segments in protected mode
2016-02-15 01:28:18 +01:00
dbg_assert(segment !== reg_cs && segment !== reg_ss);
dbg_log("#gp Use null segment: " + segment + " sel=" + h(this.sreg[segment], 4), LOG_CPU);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Improve handling of segments in protected mode
2016-02-15 01:28:18 +01:00
this.trigger_gp(0);
}
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
// TODO:
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// - validate segment limits
// - validate if segment is writable
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.segment_offsets[segment];
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
CPU.prototype.read_e8 = function()
{
if(this.modrm_byte < 0xC0) {
return this.safe_read8(this.modrm_resolve(this.modrm_byte));
} else {
return this.reg8[this.modrm_byte << 2 & 0xC | this.modrm_byte >> 2 & 1];
}
};
CPU.prototype.read_e8s = function()
{
return this.read_e8() << 24 >> 24;
};
CPU.prototype.read_e16 = function()
{
if(this.modrm_byte < 0xC0) {
return this.safe_read16(this.modrm_resolve(this.modrm_byte));
} else {
return this.reg16[this.modrm_byte << 1 & 14];
}
};
CPU.prototype.read_e16s = function()
{
return this.read_e16() << 16 >> 16;
};
CPU.prototype.read_e32s = function()
{
if(this.modrm_byte < 0xC0) {
return this.safe_read32s(this.modrm_resolve(this.modrm_byte));
} else {
return this.reg32s[this.modrm_byte & 7];
}
};
CPU.prototype.read_e32 = function()
{
return this.read_e32s() >>> 0;
};
Improve speed of set_e* using instructions
2016-03-26 15:26:08 +01:00
CPU.prototype.set_e8 = function(value)
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
{
if(this.modrm_byte < 0xC0) {
Improve speed of set_e* using instructions
2016-03-26 15:26:08 +01:00
var addr = this.modrm_resolve(this.modrm_byte);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.safe_write8(addr, value);
} else {
this.reg8[this.modrm_byte << 2 & 0xC | this.modrm_byte >> 2 & 1] = value;
}
};
Improve speed of set_e* using instructions
2016-03-26 15:26:08 +01:00
CPU.prototype.set_e16 = function(value)
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
{
if(this.modrm_byte < 0xC0) {
Improve speed of set_e* using instructions
2016-03-26 15:26:08 +01:00
var addr = this.modrm_resolve(this.modrm_byte);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.safe_write16(addr, value);
} else {
this.reg16[this.modrm_byte << 1 & 14] = value;
}
};
Improve speed of set_e* using instructions
2016-03-26 15:26:08 +01:00
CPU.prototype.set_e32 = function(value)
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
{
if(this.modrm_byte < 0xC0) {
Improve speed of set_e* using instructions
2016-03-26 15:26:08 +01:00
var addr = this.modrm_resolve(this.modrm_byte);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
this.safe_write32(addr, value);
} else {
this.reg32s[this.modrm_byte & 7] = value;
}
};
CPU.prototype.read_write_e8 = function()
{
if(this.modrm_byte < 0xC0) {
var virt_addr = this.modrm_resolve(this.modrm_byte);
this.phys_addr = this.translate_address_write(virt_addr);
Move memory to cpu
2016-08-02 04:15:24 +02:00
return this.read8(this.phys_addr);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
} else {
return this.reg8[this.modrm_byte << 2 & 0xC | this.modrm_byte >> 2 & 1];
}
};
Report auxillary bit correctly in ps2 controller. Fixes #63
2015-12-31 01:28:53 +01:00
CPU.prototype.write_e8 = function(value)
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
{
if(this.modrm_byte < 0xC0) {
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(this.phys_addr, value);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
}
else {
this.reg8[this.modrm_byte << 2 & 0xC | this.modrm_byte >> 2 & 1] = value;
}
};
CPU.prototype.read_write_e16 = function()
{
if(this.modrm_byte < 0xC0) {
var virt_addr = this.modrm_resolve(this.modrm_byte);
this.phys_addr = this.translate_address_write(virt_addr);
if(this.paging && (virt_addr & 0xFFF) === 0xFFF) {
this.phys_addr_high = this.translate_address_write(virt_addr + 1 | 0);
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
dbg_assert(this.phys_addr_high);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
return this.virt_boundary_read16(this.phys_addr, this.phys_addr_high);
} else {
this.phys_addr_high = 0;
Move memory to cpu
2016-08-02 04:15:24 +02:00
return this.read16(this.phys_addr);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
}
} else {
return this.reg16[this.modrm_byte << 1 & 14];
}
};
Report auxillary bit correctly in ps2 controller. Fixes #63
2015-12-31 01:28:53 +01:00
CPU.prototype.write_e16 = function(value)
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
{
if(this.modrm_byte < 0xC0) {
if(this.phys_addr_high) {
this.virt_boundary_write16(this.phys_addr, this.phys_addr_high, value);
} else {
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write16(this.phys_addr, value);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
}
} else {
this.reg16[this.modrm_byte << 1 & 14] = value;
}
};
CPU.prototype.read_write_e32 = function()
{
if(this.modrm_byte < 0xC0) {
var virt_addr = this.modrm_resolve(this.modrm_byte);
this.phys_addr = this.translate_address_write(virt_addr);
if(this.paging && (virt_addr & 0xFFF) >= 0xFFD) {
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
//this.phys_addr_high = this.translate_address_write(virt_addr + 3 | 0);
this.phys_addr_high = this.translate_address_write(virt_addr + 3 & ~3) | (virt_addr + 3) & 3;
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
dbg_assert(this.phys_addr_high);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
return this.virt_boundary_read32s(this.phys_addr, this.phys_addr_high);
} else {
this.phys_addr_high = 0;
Move memory to cpu
2016-08-02 04:15:24 +02:00
return this.read32s(this.phys_addr);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
}
} else {
return this.reg32s[this.modrm_byte & 7];
}
};
Report auxillary bit correctly in ps2 controller. Fixes #63
2015-12-31 01:28:53 +01:00
CPU.prototype.write_e32 = function(value)
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
{
if(this.modrm_byte < 0xC0) {
if(this.phys_addr_high) {
this.virt_boundary_write32(this.phys_addr, this.phys_addr_high, value);
} else {
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write32(this.phys_addr, value);
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
}
} else {
this.reg32s[this.modrm_byte & 7] = value;
}
};
CPU.prototype.read_reg_e16 = function()
{
return this.reg16[this.modrm_byte << 1 & 14];
}
CPU.prototype.write_reg_e16 = function(value)
{
this.reg16[this.modrm_byte << 1 & 14] = value;
}
CPU.prototype.read_reg_e32s = function()
{
return this.reg32s[this.modrm_byte & 7];
};
CPU.prototype.write_reg_e32 = function(value)
{
this.reg32s[this.modrm_byte & 7] = value;
};
CPU.prototype.read_g8 = function()
{
return this.reg8[this.modrm_byte >> 1 & 0xC | this.modrm_byte >> 5 & 1];
};
CPU.prototype.write_g8 = function(value)
{
this.reg8[this.modrm_byte >> 1 & 0xC | this.modrm_byte >> 5 & 1] = value;
};
CPU.prototype.read_g16 = function()
{
return this.reg16[this.modrm_byte >> 2 & 14];
};
CPU.prototype.read_g16s = function()
{
return this.reg16s[this.modrm_byte >> 2 & 14];
};
CPU.prototype.write_g16 = function(value)
{
this.reg16[this.modrm_byte >> 2 & 14] = value;
};
CPU.prototype.read_g32s = function()
{
return this.reg32s[this.modrm_byte >> 3 & 7];
};
CPU.prototype.write_g32 = function(value)
{
this.reg32[this.modrm_byte >> 3 & 7] = value;
};
Use pic_call_irq instead of calling interrupt directly from pic
2016-08-02 05:30:41 +02:00
CPU.prototype.pic_call_irq = function(int)
{
try
{
this.previous_ip = this.instruction_pointer;
this.call_interrupt_vector(int, false, false);
}
catch(e)
{
this.exception_cleanup(e);
}
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.handle_irqs = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change handling of interrupts to involve APIC
2015-05-17 01:56:50 +02:00
dbg_assert(!this.page_fault);
Fix small problems in CPU, cleanup
2013-12-28 23:21:43 +01:00
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
this.diverged();
Change handling of interrupts to involve APIC
2015-05-17 01:56:50 +02:00
if((this.flags & flag_interrupt) && !this.page_fault)
{
if(this.devices.pic)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
More precise PIC emulation
2017-03-07 23:39:58 +01:00
this.devices.pic.acknowledge_irq();
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change handling of interrupts to involve APIC
2015-05-17 01:56:50 +02:00
if(this.devices.apic)
{
More precise PIC emulation
2017-03-07 23:39:58 +01:00
this.devices.apic.acknowledge_irq();
Change handling of interrupts to involve APIC
2015-05-17 01:56:50 +02:00
}
}
};
CPU.prototype.device_raise_irq = function(i)
{
dbg_assert(arguments.length === 1);
PIC: Improved handling of interrupts and code cleanup
2016-01-04 04:32:03 +01:00
if(this.devices.pic)
{
this.devices.pic.set_irq(i);
}
if(this.devices.apic)
{
this.devices.apic.set_irq(i);
}
};
CPU.prototype.device_lower_irq = function(i)
{
Change handling of interrupts to involve APIC
2015-05-17 01:56:50 +02:00
if(this.devices.pic)
{
PIC: Improved handling of interrupts and code cleanup
2016-01-04 04:32:03 +01:00
this.devices.pic.clear_irq(i);
Change handling of interrupts to involve APIC
2015-05-17 01:56:50 +02:00
}
if(this.devices.apic)
{
PIC: Improved handling of interrupts and code cleanup
2016-01-04 04:32:03 +01:00
this.devices.apic.clear_irq(i);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.test_privileges_for_io = function(port, size)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
small steps to no-macro #10
2014-12-06 22:51:04 +01:00
if(this.protected_mode && (this.cpl > this.getiopl() || (this.flags & flag_vm)))
Fixed some problems with the IO bus
2013-11-25 19:57:46 +01:00
{
Put TR and LDTR into sregs register, possibly more simplifications later
2014-07-07 02:37:40 +02:00
var tsr_size = this.segment_limits[reg_tr],
tsr_offset = this.segment_offsets[reg_tr];
if(tsr_size >= 0x67)
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
{
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
dbg_assert((tsr_offset + 0x64 + 2 & 0xFFF) < 0xFFF);
Move memory to cpu
2016-08-02 04:15:24 +02:00
var iomap_base = this.read16(this.translate_address_system_read(tsr_offset + 0x64 + 2 | 0)),
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
high_port = port + size - 1 | 0;
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
if(tsr_size >= (iomap_base + (high_port >> 3) | 0))
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
{
var mask = ((1 << size) - 1) << (port & 7),
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
addr = this.translate_address_system_read(tsr_offset + iomap_base + (port >> 3) | 0),
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
port_info = (mask & 0xFF00) ?
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.read16(addr) : this.read8(addr);
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
dbg_assert((addr & 0xFFF) < 0xFFF);
working vm86 implementation, almost complete
2013-12-09 12:30:24 +01:00
if(!(port_info & mask))
{
return;
}
}
}
dbg_log("#GP for port io port=" + h(port) + " size=" + size, LOG_CPU);
Verbose cpu logging
2016-10-23 17:37:02 +02:00
CPU_LOG_VERBOSE && this.debug.dump_state();
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_gp(0);
Fixed some problems with the IO bus
2013-11-25 19:57:46 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.cpuid = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
// cpuid
// TODO: Fill in with less bogus values
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// http://lxr.linux.no/linux+%2a/arch/x86/include/asm/cpufeature.h
Configurable memory, some improvements
2014-01-08 03:22:30 +01:00
// http://www.sandpile.org/x86/cpuid.htm
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Cleanup cpuid, more later. #21
2014-07-27 00:14:23 +02:00
var eax = 0,
ecx = 0,
edx = 0,
ebx = 0;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Window NT fix
2016-02-04 14:25:42 +01:00
var winnt_fix = false;
Cleanup cpuid, more later. #21
2014-07-27 00:14:23 +02:00
switch(this.reg32s[reg_eax])
{
case 0:
// maximum supported level
Window NT fix
2016-02-04 14:25:42 +01:00
if(winnt_fix)
{
eax = 2;
}
else
{
eax = 5;
}
Cleanup cpuid, more later. #21
2014-07-27 00:14:23 +02:00
ebx = 0x756E6547|0; // Genu
edx = 0x49656E69|0; // ineI
ecx = 0x6C65746E|0; // ntel
break;
case 1:
// pentium
eax = 3 | 6 << 4 | 15 << 8;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
ebx = 1 << 16 | 8 << 8; // cpu count, clflush size
Add rdrand flag to cpuid
2015-04-17 23:53:09 +02:00
ecx = 1 << 23 | 1 << 30; // popcnt, rdrand
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
var vme = 0 << 1;
Cleanup cpuid, more later. #21
2014-07-27 00:14:23 +02:00
edx = (this.fpu ? 1 : 0) | // fpu
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
vme | 1 << 3 | 1 << 4 | 1 << 5 | // vme, pse, tsc, msr
Cleanup cpuid, more later. #21
2014-07-27 00:14:23 +02:00
1 << 8 | 1 << 11 | 1 << 13 | 1 << 15; // cx8, sep, pge, cmov
Report no apic if acpi is disabled
2016-08-01 21:43:47 +02:00
if(ENABLE_ACPI)
{
edx |= 1 << 9; // apic
}
Cleanup cpuid, more later. #21
2014-07-27 00:14:23 +02:00
break;
case 2:
// Taken from http://siyobik.info.gf/main/reference/instruction/CPUID
eax = 0x665B5001|0;
ebx = 0;
ecx = 0;
edx = 0x007A7000;
break;
more cpuid values #21
2014-12-20 21:36:39 +01:00
case 4:
// from my local machine
switch(this.reg32s[reg_ecx])
{
case 0:
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
eax = 0x00000121;
ebx = 0x01c0003f;
ecx = 0x0000003f;
more cpuid values #21
2014-12-20 21:36:39 +01:00
edx = 0x00000001;
break;
case 1:
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
eax = 0x00000122;
ebx = 0x01c0003f;
ecx = 0x0000003f;
more cpuid values #21
2014-12-20 21:36:39 +01:00
edx = 0x00000001;
break
case 2:
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
eax = 0x00000143;
ebx = 0x05c0003f;
ecx = 0x00000fff;
more cpuid values #21
2014-12-20 21:36:39 +01:00
edx = 0x00000001;
break;
}
break;
Cleanup cpuid, more later. #21
2014-07-27 00:14:23 +02:00
case 0x80000000|0:
// maximum supported extended level
eax = 5;
// other registers are reserved
break;
default:
dbg_log("cpuid: unimplemented eax: " + h(this.reg32[reg_eax]), LOG_CPU);
}
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_log("cpuid: eax=" + h(this.reg32[reg_eax], 8) + " cl=" + h(this.reg8[reg_cl], 2), LOG_CPU);
Don't choke netbsd, #21
2015-01-05 23:20:27 +01:00
Cleanup cpuid, more later. #21
2014-07-27 00:14:23 +02:00
this.reg32s[reg_eax] = eax;
this.reg32s[reg_ecx] = ecx;
this.reg32s[reg_edx] = edx;
this.reg32s[reg_ebx] = ebx;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.update_cs_size = function(new_size)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Improve update_cs_size
2017-03-18 01:03:56 +01:00
dbg_assert(typeof new_size === "boolean");
Cleaned up some protected mode features
2014-01-03 22:02:43 +01:00
Improve update_cs_size
2017-03-18 01:03:56 +01:00
if(this.is_32 !== new_size)
{
this.clear_instruction_cache();
this.is_32 = new_size;
this.update_operand_size();
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.update_operand_size = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
if(this.is_32)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.table = this.table32;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.table = this.table16;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/**
* @param {number} selector
*/
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.lookup_segment_selector = function(selector)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_assert(typeof selector === "number" && selector >= 0 && selector < 0x10000);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
var is_gdt = (selector & 4) === 0,
selector_offset = selector & ~7,
info,
table_offset,
table_limit;
info = {
rpl: selector & 3,
from_gdt: is_gdt,
is_null: false,
is_valid: true,
Configurable memory, some improvements
2014-01-08 03:22:30 +01:00
base: 0,
access: 0,
flags: 0,
type: 0,
dpl: 0,
is_system: false,
is_present: false,
is_executable: false,
rw_bit: false,
dc_bit: false,
size: false,
some cleanups
2014-07-27 01:07:51 +02:00
Simplify code using is_conforming_executable
2016-02-15 00:21:53 +01:00
is_conforming_executable: false,
some cleanups
2014-07-27 01:07:51 +02:00
// limit after applying granularity
effective_limit: 0,
Configurable memory, some improvements
2014-01-08 03:22:30 +01:00
is_writable: false,
is_readable: false,
sldt and str instructions
2014-02-11 21:42:28 +01:00
table_offset: 0,
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
Set raw0
2016-08-01 22:30:38 +02:00
raw0: 0,
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
raw1: 0,
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
};
if(is_gdt)
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
table_offset = this.gdtr_offset;
table_limit = this.gdtr_size;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Put TR and LDTR into sregs register, possibly more simplifications later
2014-07-07 02:37:40 +02:00
table_offset = this.segment_offsets[reg_ldtr];
table_limit = this.segment_limits[reg_ldtr];
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(selector_offset === 0)
{
info.is_null = true;
return info;
}
// limit is the number of entries in the table minus one
some cleanups
2014-07-27 01:07:51 +02:00
if((selector | 7) > table_limit)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_log("Selector " + h(selector, 4) + " is outside of the "
some cleanups
2014-07-27 01:07:51 +02:00
+ (is_gdt ? "g" : "l") + "dt limits", LOG_CPU)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
info.is_valid = false;
return info;
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
table_offset = table_offset + selector_offset | 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.paging)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
table_offset = this.translate_address_system_read(table_offset);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
sldt and str instructions
2014-02-11 21:42:28 +01:00
info.table_offset = table_offset;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
info.base = this.read16(table_offset + 2 | 0) | this.read8(table_offset + 4 | 0) << 16 |
this.read8(table_offset + 7 | 0) << 24;
info.access = this.read8(table_offset + 5 | 0);
info.flags = this.read8(table_offset + 6 | 0) >> 4;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
info.raw0 = this.read32s(table_offset | 0);
info.raw1 = this.read32s(table_offset + 4 | 0);
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
Move memory to cpu
2016-08-02 04:15:24 +02:00
//this.write8(table_offset + 5 | 0, info.access | 1);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// used if system
info.type = info.access & 0xF;
info.dpl = info.access >> 5 & 3;
info.is_system = (info.access & 0x10) === 0;
info.is_present = (info.access & 0x80) === 0x80;
info.is_executable = (info.access & 8) === 8;
info.rw_bit = (info.access & 2) === 2;
info.dc_bit = (info.access & 4) === 4;
Simplify code using is_conforming_executable
2016-02-15 00:21:53 +01:00
info.is_conforming_executable = info.dc_bit && info.is_executable;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
info.size = (info.flags & 4) === 4;
Move memory to cpu
2016-08-02 04:15:24 +02:00
var limit = this.read16(table_offset) |
(this.read8(table_offset + 6 | 0) & 0xF) << 16;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
some cleanups
2014-07-27 01:07:51 +02:00
if(info.flags & 8)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
some cleanups
2014-07-27 01:07:51 +02:00
// granularity set
info.effective_limit = (limit << 12 | 0xFFF) >>> 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
some cleanups
2014-07-27 01:07:51 +02:00
info.effective_limit = limit;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
info.is_writable = info.rw_bit && !info.is_executable;
info.is_readable = info.rw_bit || !info.is_executable;
return info;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/**
* @param {number} reg
* @param {number} selector
*/
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.switch_seg = function(reg, selector)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
dbg_assert(reg >= 0 && reg <= 5);
dbg_assert(typeof selector === "number" && selector < 0x10000 && selector >= 0);
small changes for dynamic translation
2014-11-01 13:59:32 +01:00
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
if(!this.protected_mode || this.vm86_mode())
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.sreg[reg] = selector;
this.segment_is_null[reg] = 0;
this.segment_offsets[reg] = selector << 4;
Set stack size if SS is loaded in real mode or vm86 mode
2015-03-09 01:32:40 +01:00
Remove 'magical' stack_reg
2015-12-30 19:57:20 +01:00
if(reg === reg_ss)
Set stack size if SS is loaded in real mode or vm86 mode
2015-03-09 01:32:40 +01:00
{
this.stack_size_32 = false;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
return;
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
var info = this.lookup_segment_selector(selector);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(reg === reg_ss)
{
if(info.is_null)
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_log("#GP for loading 0 in SS sel=" + h(selector, 4), LOG_CPU);
dbg_trace(LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_gp(0);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Improve handling of segments in protected mode
2016-02-15 01:28:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
if(!info.is_valid ||
Improve handling of segments in protected mode
2016-02-15 01:28:18 +01:00
info.is_system ||
info.rpl !== this.cpl ||
!info.is_writable ||
info.dpl !== this.cpl)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_log("#GP for loading invalid in SS sel=" + h(selector, 4), LOG_CPU);
dbg_trace(LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_gp(selector & ~3);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Improve handling of segments in protected mode
2016-02-15 01:28:18 +01:00
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(!info.is_present)
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_log("#SS for loading non-present in SS sel=" + h(selector, 4), LOG_CPU);
dbg_trace(LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_ss(selector & ~3);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.stack_size_32 = info.size;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else if(reg === reg_cs)
{
Implement far return and far call, #86
2016-08-01 22:26:10 +02:00
// handled by switch_cs_real_mode, far_return or far_jump
dbg_assert(false);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
// es, ds, fs, gs
if(info.is_null)
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
//dbg_log("0 loaded in seg=" + reg + " sel=" + h(selector, 4), LOG_CPU);
//dbg_trace(LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.sreg[reg] = selector;
this.segment_is_null[reg] = 1;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
return;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Improve handling of segments in protected mode
2016-02-15 01:28:18 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
if(!info.is_valid ||
Improve handling of segments in protected mode
2016-02-15 01:28:18 +01:00
info.is_system ||
!info.is_readable ||
(!info.is_conforming_executable &&
(info.rpl > info.dpl || this.cpl > info.dpl))
) {
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_log("#GP for loading invalid in seg " + reg + " sel=" + h(selector, 4), LOG_CPU);
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
this.debug.dump_state();
this.debug.dump_regs_short();
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_trace(LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_gp(selector & ~3);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Improve handling of segments in protected mode
2016-02-15 01:28:18 +01:00
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(!info.is_present)
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
dbg_log("#NP for loading not-present in seg " + reg + " sel=" + h(selector, 4), LOG_CPU);
dbg_trace(LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_np(selector & ~3);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.segment_is_null[reg] = 0;
some cleanups
2014-07-27 01:07:51 +02:00
this.segment_limits[reg] = info.effective_limit;
//this.segment_infos[reg] = 0; // TODO
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.segment_offsets[reg] = info.base;
this.sreg[reg] = selector;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.load_tr = function(selector)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
var info = this.lookup_segment_selector(selector);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
dbg_assert(info.is_valid);
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
//dbg_log("load tr: " + h(selector, 4) + " offset=" + h(info.base >>> 0, 8) + " limit=" + h(info.effective_limit >>> 0, 8), LOG_CPU);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(!info.from_gdt)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("TR can only be loaded from GDT");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(info.is_null)
{
dbg_log("#GP(0) | tried to load null selector (ltr)");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(!info.is_present)
{
dbg_log("#GP | present bit not set (ltr)");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(!info.is_system)
{
dbg_log("#GP | ltr: not a system entry");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
if(info.type !== 9 && info.type !== 1)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
// 0xB: busy 386 TSS (GP)
// 0x3: busy 286 TSS (GP)
// 0x1: 286 TSS (??)
dbg_log("#GP | ltr: invalid type (type = " + h(info.type) + ")");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
if(info.type === 1)
{
// 286 tss: Load 16 bit values from tss in call_interrupt_vector
throw this.debug.unimpl("286 tss");
}
Put TR and LDTR into sregs register, possibly more simplifications later
2014-07-07 02:37:40 +02:00
this.segment_offsets[reg_tr] = info.base;
some cleanups
2014-07-27 01:07:51 +02:00
this.segment_limits[reg_tr] = info.effective_limit;
Put TR and LDTR into sregs register, possibly more simplifications later
2014-07-07 02:37:40 +02:00
this.sreg[reg_tr] = selector;
sldt and str instructions
2014-02-11 21:42:28 +01:00
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
// Mark task as busy
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.write8(info.table_offset + 5 | 0, this.read8(info.table_offset + 5 | 0) | 2);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
some cleanups
2014-07-27 01:07:51 +02:00
//dbg_log("tsr at " + h(info.base) + "; (" + info.effective_limit + " bytes)");
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.load_ldt = function(selector)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
var info = this.lookup_segment_selector(selector);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(info.is_null)
{
// invalid
Put TR and LDTR into sregs register, possibly more simplifications later
2014-07-07 02:37:40 +02:00
this.segment_offsets[reg_ldtr] = 0;
this.segment_limits[reg_ldtr] = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
return;
}
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
dbg_assert(info.is_valid);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(!info.from_gdt)
{
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("LDTR can only be loaded from GDT");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(!info.is_present)
{
dbg_log("lldt: present bit not set");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(!info.is_system)
{
dbg_log("lldt: not a system entry");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
if(info.type !== 2)
{
dbg_log("lldt: invalid type (" + info.type + ")");
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("#GP handler");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Put TR and LDTR into sregs register, possibly more simplifications later
2014-07-07 02:37:40 +02:00
this.segment_offsets[reg_ldtr] = info.base;
some cleanups
2014-07-27 01:07:51 +02:00
this.segment_limits[reg_ldtr] = info.effective_limit;
Put TR and LDTR into sregs register, possibly more simplifications later
2014-07-07 02:37:40 +02:00
this.sreg[reg_ldtr] = selector;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Some assertions and minor changes
2016-08-01 23:22:38 +02:00
//dbg_log("ldt at " + h(info.base >>> 0) + "; (" + info.effective_limit + " bytes)", LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.arpl = function(seg, r16)
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
this.flags_changed &= ~flag_zero;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if((seg & 3) < (this.reg16[r16] & 3))
{
this.flags |= flag_zero;
return seg & ~3 | this.reg16[r16] & 3;
}
else
{
this.flags &= ~flag_zero;
return seg;
}
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
lar and lsl instruction
2015-02-22 00:51:58 +01:00
CPU.prototype.lar = function(selector, original)
{
/** @const */
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
var LAR_INVALID_TYPE = 1 << 0 | 1 << 6 | 1 << 7 | 1 << 8 | 1 << 0xA |
lar and lsl instruction
2015-02-22 00:51:58 +01:00
1 << 0xD | 1 << 0xE | 1 << 0xF;
var info = this.lookup_segment_selector(selector);
this.flags_changed &= ~flag_zero;
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
var dpl_bad = info.dpl < this.cpl || info.dpl < info.rpl;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
lar and lsl instruction
2015-02-22 00:51:58 +01:00
if(info.is_null || !info.is_valid ||
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
(info.is_system ? (LAR_INVALID_TYPE >> info.type & 1) || dpl_bad :
Simplify code using is_conforming_executable
2016-02-15 00:21:53 +01:00
!info.is_conforming_executable && dpl_bad)
lar and lsl instruction
2015-02-22 00:51:58 +01:00
) {
this.flags &= ~flag_zero;
Minor changes: Code style, asserts, logging, dead code
2016-02-15 00:50:35 +01:00
dbg_log("lar: invalid selector=" + h(selector, 4) + " is_null=" + info.is_null, LOG_CPU);
lar and lsl instruction
2015-02-22 00:51:58 +01:00
return original;
}
else
{
this.flags |= flag_zero;
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
return info.raw1 & 0x00FFFF00;
lar and lsl instruction
2015-02-22 00:51:58 +01:00
}
};
CPU.prototype.lsl = function(selector, original)
{
/** @const */
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
var LSL_INVALID_TYPE = 1 << 0 | 1 << 4 | 1 << 5 | 1 << 6 | 1 << 8 |
lar and lsl instruction
2015-02-22 00:51:58 +01:00
1 << 0xA | 1 << 0xC | 1 << 0xD | 1 << 0xE | 1 << 0xF;
var info = this.lookup_segment_selector(selector);
this.flags_changed &= ~flag_zero;
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
var dpl_bad = info.dpl < this.cpl || info.dpl < info.rpl;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
lar and lsl instruction
2015-02-22 00:51:58 +01:00
if(info.is_null || !info.is_valid ||
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
(info.is_system ? (LSL_INVALID_TYPE >> info.type & 1) || dpl_bad :
Simplify code using is_conforming_executable
2016-02-15 00:21:53 +01:00
!info.is_conforming_executable && dpl_bad)
lar and lsl instruction
2015-02-22 00:51:58 +01:00
) {
this.flags &= ~flag_zero;
Fix lsl and lar instructions
2016-02-07 17:45:55 +01:00
dbg_log("lsl: invalid selector=" + h(selector, 4) + " is_null=" + info.is_null, LOG_CPU);
lar and lsl instruction
2015-02-22 00:51:58 +01:00
return original;
}
else
{
this.flags |= flag_zero;
return info.effective_limit | 0;
}
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
verr and verw instructions
2016-02-14 20:00:41 +01:00
CPU.prototype.verr = function(selector)
{
var info = this.lookup_segment_selector(selector);
this.flags_changed &= ~flag_zero;
if(info.is_null || !info.is_valid || info.is_system || !info.is_readable ||
(!info.is_conforming_executable && (info.dpl < this.cpl || info.dpl < info.rpl)))
{
small fix calling h()
2016-02-14 20:07:18 +01:00
dbg_log("verr -> invalid. selector=" + h(selector, 4), LOG_CPU);
verr and verw instructions
2016-02-14 20:00:41 +01:00
this.flags &= ~flag_zero;
}
else
{
dbg_log("verr -> valid. selector=" + h(selector, 4), LOG_CPU);
this.flags |= flag_zero;
}
};
CPU.prototype.verw = function(selector)
{
var info = this.lookup_segment_selector(selector);
this.flags_changed &= ~flag_zero;
if(info.is_null || !info.is_valid || info.is_system || !info.is_writable ||
info.dpl < this.cpl || info.dpl < info.rpl)
{
dbg_log("verw invalid " + " " + h(selector) + " " + info.is_null + " " +
!info.is_valid + " " + info.is_system + " " + !info.is_writable + " " +
(info.dpl < this.cpl) + " " + (info.dpl < info.rpl) + " " + LOG_CPU);
this.flags &= ~flag_zero;
}
else
{
this.flags |= flag_zero;
}
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.clear_tlb = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
// clear tlb excluding global pages
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.last_virt_eip = -1;
this.last_virt_esp = -1;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.tlb_info.set(this.tlb_info_global);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
//dbg_log("page table loaded", LOG_CPU);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.full_clear_tlb = function()
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
//dbg_log("TLB full clear", LOG_CPU);
small fixes in TLB code
2014-07-12 22:20:57 +02:00
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
// clear tlb including global pages
Improved tlb clearing
2014-07-13 00:02:17 +02:00
var buf32 = new Int32Array(this.tlb_info_global.buffer);
for(var i = 0; i < (1 << 18); )
{
buf32[i++] = buf32[i++] = buf32[i++] = buf32[i++] = 0;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.clear_tlb();
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.invlpg = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
var page = addr >>> 12;
small fixes in TLB code
2014-07-12 22:20:57 +02:00
//dbg_log("invlpg: addr=" + h(addr >>> 0), LOG_CPU);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.tlb_info[page] = 0;
this.tlb_info_global[page] = 0;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.last_virt_eip = -1;
this.last_virt_esp = -1;
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.translate_address_read = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(!this.paging)
{
return addr;
}
small fixes in TLB code
2014-07-12 22:20:57 +02:00
if(this.cpl === 3)
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
return this.translate_address_user_read(addr);
}
else
{
return this.translate_address_system_read(addr);
}
};
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.translate_address_write = function(addr)
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
if(!this.paging)
{
return addr;
}
small fixes in TLB code
2014-07-12 22:20:57 +02:00
if(this.cpl === 3)
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
{
return this.translate_address_user_write(addr);
}
else
{
return this.translate_address_system_write(addr);
}
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.translate_address_user_write = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Check paging more strictly
2016-02-07 16:58:41 +01:00
if(!this.paging)
{
return addr;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
var base = addr >>> 12;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.tlb_info[base] & TLB_USER_WRITE)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
small fixes in TLB code
2014-07-12 22:20:57 +02:00
return this.tlb_data[base] ^ addr;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.do_page_translation(addr, 1, 1) | addr & 0xFFF;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.translate_address_user_read = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Check paging more strictly
2016-02-07 16:58:41 +01:00
if(!this.paging)
{
return addr;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
var base = addr >>> 12;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.tlb_info[base] & TLB_USER_READ)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
small fixes in TLB code
2014-07-12 22:20:57 +02:00
return this.tlb_data[base] ^ addr;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.do_page_translation(addr, 0, 1) | addr & 0xFFF;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.translate_address_system_write = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Check paging more strictly
2016-02-07 16:58:41 +01:00
if(!this.paging)
{
return addr;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
var base = addr >>> 12;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.tlb_info[base] & TLB_SYSTEM_WRITE)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
small fixes in TLB code
2014-07-12 22:20:57 +02:00
return this.tlb_data[base] ^ addr;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.do_page_translation(addr, 1, 0) | addr & 0xFFF;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.translate_address_system_read = function(addr)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Check paging more strictly
2016-02-07 16:58:41 +01:00
if(!this.paging)
{
return addr;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
var base = addr >>> 12;
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.tlb_info[base] & TLB_SYSTEM_READ)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
small fixes in TLB code
2014-07-12 22:20:57 +02:00
return this.tlb_data[base] ^ addr;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
else
{
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
return this.do_page_translation(addr, 0, 0) | addr & 0xFFF;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
/**
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
* @return {number}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
*/
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.do_page_translation = function(addr, for_writing, user)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
var page = addr >>> 12,
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
page_dir_addr = (this.cr[3] >>> 2) + (page >> 10) | 0,
Move memory to cpu
2016-08-02 04:15:24 +02:00
page_dir_entry = this.mem32s[page_dir_addr],
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
high,
can_write = true,
global,
cachable = true,
allow_user = true;
Switch to signed 32 bit numbers for calculations, proper multiplication
2014-01-05 03:17:40 +01:00
dbg_assert(addr < 0x80000000);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(!(page_dir_entry & 1))
{
// to do at this place:
//
// - set cr2 = addr (which caused the page fault)
// - call_interrupt_vector with id 14, error code 0-7 (requires information if read or write)
// - prevent execution of the function that triggered this call
Preparing vm86 mode
2013-12-01 23:36:37 +01:00
//dbg_log("#PF not present", LOG_CPU);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[2] = addr;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_pagefault(for_writing, user, 0);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
// never reached as this.trigger_pagefault throws up
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
dbg_assert(false);
}
if((page_dir_entry & 2) === 0)
{
can_write = false;
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
if(for_writing && (user || (this.cr[0] & CR0_WP)))
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[2] = addr;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_pagefault(for_writing, user, 1);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
dbg_assert(false);
}
}
if((page_dir_entry & 4) === 0)
{
allow_user = false;
if(user)
{
// "Page Fault: page table accessed by non-supervisor";
Preparing vm86 mode
2013-12-01 23:36:37 +01:00
//dbg_log("#PF supervisor", LOG_CPU);
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[2] = addr;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_pagefault(for_writing, user, 1);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
dbg_assert(false);
}
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(page_dir_entry & this.page_size_extensions)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
// size bit is set
// set the accessed and dirty bits
Move memory to cpu
2016-08-02 04:15:24 +02:00
this.mem32s[page_dir_addr] = page_dir_entry | 0x20 | for_writing << 6;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
small fixes in TLB code
2014-07-12 22:20:57 +02:00
high = (page_dir_entry & 0xFFC00000) | (addr & 0x3FF000);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
global = page_dir_entry & 0x100;
}
else
{
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
var page_table_addr = ((page_dir_entry & 0xFFFFF000) >>> 2) + (page & 0x3FF) | 0,
Move memory to cpu
2016-08-02 04:15:24 +02:00
page_table_entry = this.mem32s[page_table_addr];
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
small fixes in TLB code
2014-07-12 22:20:57 +02:00
if((page_table_entry & 1) === 0)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Preparing vm86 mode
2013-12-01 23:36:37 +01:00
//dbg_log("#PF not present table", LOG_CPU);
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[2] = addr;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_pagefault(for_writing, user, 0);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
dbg_assert(false);
}
if((page_table_entry & 2) === 0)
{
can_write = false;
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
if(for_writing && (user || (this.cr[0] & CR0_WP)))
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Preparing vm86 mode
2013-12-01 23:36:37 +01:00
//dbg_log("#PF not writable page", LOG_CPU);
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[2] = addr;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_pagefault(for_writing, user, 1);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
dbg_assert(false);
}
}
if((page_table_entry & 4) === 0)
{
allow_user = false;
if(user)
{
Preparing vm86 mode
2013-12-01 23:36:37 +01:00
//dbg_log("#PF not supervisor page", LOG_CPU);
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
this.cr[2] = addr;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.trigger_pagefault(for_writing, user, 1);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
dbg_assert(false);
}
}
// set the accessed and dirty bits
Don't write to mem8/mem32s directly, it may later be necessary to mark pages dirty
2016-08-02 04:32:02 +02:00
this.write_aligned32(page_dir_addr, page_dir_entry | 0x20);
this.write_aligned32(page_table_addr, page_table_entry | 0x20 | for_writing << 6);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
high = page_table_entry & 0xFFFFF000;
global = page_table_entry & 0x100;
}
small fixes in TLB code
2014-07-12 22:20:57 +02:00
this.tlb_data[page] = high ^ page << 12;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
small fixes in TLB code
2014-07-12 22:20:57 +02:00
var allowed_flag;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
small fixes in TLB code
2014-07-12 22:20:57 +02:00
if(allow_user)
{
if(can_write)
{
allowed_flag = TLB_SYSTEM_READ | TLB_SYSTEM_WRITE | TLB_USER_READ | TLB_USER_WRITE;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
small fixes in TLB code
2014-07-12 22:20:57 +02:00
else
{
// TODO: Consider if cr0.wp is not set
allowed_flag = TLB_SYSTEM_READ | TLB_USER_READ;
}
}
else
{
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
if(can_write)
{
small fixes in TLB code
2014-07-12 22:20:57 +02:00
allowed_flag = TLB_SYSTEM_READ | TLB_SYSTEM_WRITE;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
small fixes in TLB code
2014-07-12 22:20:57 +02:00
else
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
small fixes in TLB code
2014-07-12 22:20:57 +02:00
allowed_flag = TLB_SYSTEM_READ;
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
}
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
small fixes in TLB code
2014-07-12 22:20:57 +02:00
this.tlb_info[page] = allowed_flag;
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
if(global && (this.cr[4] & CR4_PGE))
small fixes in TLB code
2014-07-12 22:20:57 +02:00
{
this.tlb_info_global[page] = allowed_flag;
}
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
writable_or_pagefault for more safety
2014-02-22 22:15:41 +01:00
return high;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
writable_or_pagefault for more safety
2014-02-22 22:15:41 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.writable_or_pagefault = function(addr, size)
writable_or_pagefault for more safety
2014-02-22 22:15:41 +01:00
{
dbg_assert(size < 0x1000, "not supported yet");
dbg_assert(size > 0);
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(!this.paging)
writable_or_pagefault for more safety
2014-02-22 22:15:41 +01:00
{
return;
}
small fixes in TLB code
2014-07-12 22:20:57 +02:00
var user = this.cpl === 3 ? 1 : 0,
mask = user ? TLB_USER_WRITE : TLB_SYSTEM_WRITE,
page = addr >>> 12;
if((this.tlb_info[page] & mask) === 0)
{
this.do_page_translation(addr, 1, user);
}
writable_or_pagefault for more safety
2014-02-22 22:15:41 +01:00
if((addr & 0xFFF) + size - 1 >= 0x1000)
{
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
if((this.tlb_info[page + 1 | 0] & mask) === 0)
writable_or_pagefault for more safety
2014-02-22 22:15:41 +01:00
{
Add some |0 to ensure integer operations
2015-04-22 05:00:34 +02:00
this.do_page_translation(addr + size - 1 | 0, 1, user);
writable_or_pagefault for more safety
2014-02-22 22:15:41 +01:00
}
}
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
code restructuring
2014-12-21 18:11:22 +01:00
CPU.prototype.trigger_pagefault = function(write, user, present)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Remove C macros and compile step. Fixes #10
2015-09-14 01:45:51 +02:00
//dbg_log("page fault w=" + write + " u=" + user + " p=" + present +
Some debug code
2014-06-29 22:28:55 +02:00
// " eip=" + h(this.previous_ip >>> 0, 8) +
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
// " cr2=" + h(this.cr[2] >>> 0, 8), LOG_CPU);
Some debug code
2014-06-29 22:28:55 +02:00
//dbg_trace(LOG_CPU);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
if(this.page_fault)
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
{
Fix small problems in CPU, cleanup
2013-12-28 23:21:43 +01:00
dbg_trace(LOG_CPU);
Soem cleaning up #10
2014-12-06 23:20:54 +01:00
throw this.debug.unimpl("Double fault");
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
}
Several fixes
2014-01-02 01:05:49 +01:00
// invalidate tlb entry
Put control registers into Int32Array
2015-04-12 20:16:26 +02:00
var page = this.cr[2] >>> 12;
Several fixes
2014-01-02 01:05:49 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.tlb_info[page] = 0;
this.tlb_info_global[page] = 0;
Several fixes
2014-01-02 01:05:49 +01:00
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
this.instruction_pointer = this.previous_ip;
this.page_fault = true;
this.call_interrupt_vector(14, false, user << 2 | write << 1 | present);
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
No magic numbers please
2014-05-06 20:24:46 +02:00
throw MAGIC_CPU_EXCEPTION;
Change CPU from closure to prototypical notation. This change was necessary for several reasons: - Code is much clearer and more modular - The CPU object is now serializeable and therefore can be safed and restored - A dynamic translator from instructions to (optimized) JavaScript is planned. It would use `new Function` to create functions at runtime. Functions created this way don't have access to any scope (except for the global scope) and therefore were not have been able to modify registers, etc. This is now possible through the cpu object - Possibly, but not necessarily a speedgain can be achieved. See http://mrale.ph/blog/2012/09/23/grokking-v8-closures-for-fun.html Additionally, some code was moved around.
2014-06-15 22:25:17 +02:00
};
Added cpu.macro.js back
2013-11-07 21:30:18 +01:00
Improved prefix handling, preparation for faster emulation
2017-03-07 01:03:06 +01:00
CPU.prototype.is_osize_32 = function()
{
return this.is_32 !== ((this.prefixes & PREFIX_MASK_OPSIZE) === PREFIX_MASK_OPSIZE);
};
CPU.prototype.is_asize_32 = function()
{
return this.is_32 !== ((this.prefixes & PREFIX_MASK_ADDRSIZE) === PREFIX_MASK_ADDRSIZE);
};
CPU.prototype.get_reg_asize = function(reg)
{
dbg_assert(reg === reg_ecx || reg === reg_esi || reg === reg_edi);
var r = this.reg32s[reg];
if(this.is_asize_32())
{
return r;
}
else
{
return r & 0xFFFF;
}
};
CPU.prototype.set_ecx_asize = function(value)
{
if(this.is_asize_32())
{
this.reg32s[reg_ecx] = value;
}
else
{
this.reg16[reg_cx] = value;
}
};
CPU.prototype.add_reg_asize = function(reg, value)
{
dbg_assert(reg === reg_ecx || reg === reg_esi || reg === reg_edi);
if(this.is_asize_32())
{
this.reg32s[reg] += value;
}
else
{
this.reg16[reg << 1] += value;
}
};
CPU.prototype.decr_ecx_asize = function()
{
return this.is_asize_32() ? --this.reg32s[reg_ecx] : --this.reg16[reg_cx];
}
Export cpu
2016-08-01 21:28:19 +02:00
// Closure Compiler's way of exporting
if(typeof window !== "undefined")
{
window["CPU"] = CPU;
}
else if(typeof module !== "undefined" && typeof module.exports !== "undefined")
{
module.exports["CPU"] = CPU;
}
else if(typeof importScripts === "function")
{
self["CPU"] = CPU;
}
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