src/runtime/mem_windows.c - go - Git at Google

 // Copyright 2010 The Go Authors.  All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 #include "runtime.h"
 #include "arch_GOARCH.h"
 #include "os_GOOS.h"
 #include "defs_GOOS_GOARCH.h"
 #include "malloc.h"
 #include "textflag.h"

 enum {
 	MEM_COMMIT = 0x1000,
 	MEM_RESERVE = 0x2000,
 	MEM_DECOMMIT = 0x4000,
 	MEM_RELEASE = 0x8000,

 	PAGE_READWRITE = 0x0004,
 	PAGE_NOACCESS = 0x0001,
 };

 #pragma dynimport runtime·VirtualAlloc VirtualAlloc "kernel32.dll"
 #pragma dynimport runtime·VirtualFree VirtualFree "kernel32.dll"
 #pragma dynimport runtime·VirtualProtect VirtualProtect "kernel32.dll"
 extern void *runtime·VirtualAlloc;
 extern void *runtime·VirtualFree;
 extern void *runtime·VirtualProtect;

 #pragma textflag NOSPLIT
 void*
 runtime·sysAlloc(uintptr n, uint64 *stat)
 {
 	runtime·xadd64(stat, n);
 	return runtime·stdcall4(runtime·VirtualAlloc, 0, n, MEM_COMMIT|MEM_RESERVE, PAGE_READWRITE);
 }

 void
 runtime·SysUnused(void *v, uintptr n)
 {
 	void *r;
 	uintptr small;

 	r = runtime·stdcall3(runtime·VirtualFree, (uintptr)v, n, MEM_DECOMMIT);
 	if(r != nil)
 		return;

 	// Decommit failed. Usual reason is that we've merged memory from two different
 	// VirtualAlloc calls, and Windows will only let each VirtualFree handle pages from
 	// a single VirtualAlloc. It is okay to specify a subset of the pages from a single alloc,
 	// just not pages from multiple allocs. This is a rare case, arising only when we're
 	// trying to give memory back to the operating system, which happens on a time
 	// scale of minutes. It doesn't have to be terribly fast. Instead of extra bookkeeping
 	// on all our VirtualAlloc calls, try freeing successively smaller pieces until
 	// we manage to free something, and then repeat. This ends up being O(n log n)
 	// in the worst case, but that's fast enough.
 	while(n > 0) {
 		small = n;
 		while(small >= 4096 && runtime·stdcall3(runtime·VirtualFree, (uintptr)v, small, MEM_DECOMMIT) == nil)
 			small = (small / 2) & ~(4096-1);
 		if(small < 4096)
 			runtime·throw("runtime: failed to decommit pages");
 		v = (byte*)v + small;
 		n -= small;
 	}
 }

 void
 runtime·SysUsed(void *v, uintptr n)
 {
 	void *r;
 	uintptr small;

 	r = runtime·stdcall4(runtime·VirtualAlloc, (uintptr)v, n, MEM_COMMIT, PAGE_READWRITE);
 	if(r != v)
 		runtime·throw("runtime: failed to commit pages");

 	// Commit failed. See SysUnused.
 	while(n > 0) {
 		small = n;
 		while(small >= 4096 && runtime·stdcall4(runtime·VirtualAlloc, (uintptr)v, small, MEM_COMMIT, PAGE_READWRITE) == nil)
 			small = (small / 2) & ~(4096-1);
 		if(small < 4096)
 			runtime·throw("runtime: failed to decommit pages");
 		v = (byte*)v + small;
 		n -= small;
 	}
 }

 void
 runtime·SysFree(void *v, uintptr n, uint64 *stat)
 {
 	uintptr r;

 	runtime·xadd64(stat, -(uint64)n);
 	r = (uintptr)runtime·stdcall3(runtime·VirtualFree, (uintptr)v, 0, MEM_RELEASE);
 	if(r == 0)
 		runtime·throw("runtime: failed to release pages");
 }

 void
 runtime·SysFault(void *v, uintptr n)
 {
 	// SysUnused makes the memory inaccessible and prevents its reuse
 	runtime·SysUnused(v, n);
 }

 void*
 runtime·SysReserve(void *v, uintptr n, bool *reserved)
 {
 	*reserved = true;
 	// v is just a hint.
 	// First try at v.
 	v = runtime·stdcall4(runtime·VirtualAlloc, (uintptr)v, n, MEM_RESERVE, PAGE_READWRITE);
 	if(v != nil)
 		return v;

 	// Next let the kernel choose the address.
 	return runtime·stdcall4(runtime·VirtualAlloc, 0, n, MEM_RESERVE, PAGE_READWRITE);
 }

 void
 runtime·SysMap(void *v, uintptr n, bool reserved, uint64 *stat)
 {
 	void *p;

 	USED(reserved);

 	runtime·xadd64(stat, n);
 	p = runtime·stdcall4(runtime·VirtualAlloc, (uintptr)v, n, MEM_COMMIT, PAGE_READWRITE);
 	if(p != v)
 		runtime·throw("runtime: cannot map pages in arena address space");
 }
	// Copyright 2010 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	#include "runtime.h"
	#include "arch_GOARCH.h"
	#include "os_GOOS.h"
	#include "defs_GOOS_GOARCH.h"
	#include "malloc.h"
	#include "textflag.h"

	enum {
	MEM_COMMIT = 0x1000,
	MEM_RESERVE = 0x2000,
	MEM_DECOMMIT = 0x4000,
	MEM_RELEASE = 0x8000,

	PAGE_READWRITE = 0x0004,
	PAGE_NOACCESS = 0x0001,
	};

	#pragma dynimport runtime·VirtualAlloc VirtualAlloc "kernel32.dll"
	#pragma dynimport runtime·VirtualFree VirtualFree "kernel32.dll"
	#pragma dynimport runtime·VirtualProtect VirtualProtect "kernel32.dll"
	extern void *runtime·VirtualAlloc;
	extern void *runtime·VirtualFree;
	extern void *runtime·VirtualProtect;

	#pragma textflag NOSPLIT
	void*
	runtime·sysAlloc(uintptr n, uint64 *stat)
	{
	runtime·xadd64(stat, n);
	return runtime·stdcall4(runtime·VirtualAlloc, 0, n, MEM_COMMIT\|MEM_RESERVE, PAGE_READWRITE);
	}

	void
	runtime·SysUnused(void *v, uintptr n)
	{
	void *r;
	uintptr small;

	r = runtime·stdcall3(runtime·VirtualFree, (uintptr)v, n, MEM_DECOMMIT);
	if(r != nil)
	return;

	// Decommit failed. Usual reason is that we've merged memory from two different
	// VirtualAlloc calls, and Windows will only let each VirtualFree handle pages from
	// a single VirtualAlloc. It is okay to specify a subset of the pages from a single alloc,
	// just not pages from multiple allocs. This is a rare case, arising only when we're
	// trying to give memory back to the operating system, which happens on a time
	// scale of minutes. It doesn't have to be terribly fast. Instead of extra bookkeeping
	// on all our VirtualAlloc calls, try freeing successively smaller pieces until
	// we manage to free something, and then repeat. This ends up being O(n log n)
	// in the worst case, but that's fast enough.
	while(n > 0) {
	small = n;
	while(small >= 4096 && runtime·stdcall3(runtime·VirtualFree, (uintptr)v, small, MEM_DECOMMIT) == nil)
	small = (small / 2) & ~(4096-1);
	if(small < 4096)
	runtime·throw("runtime: failed to decommit pages");
	v = (byte*)v + small;
	n -= small;
	}
	}

	void
	runtime·SysUsed(void *v, uintptr n)
	{
	void *r;
	uintptr small;

	r = runtime·stdcall4(runtime·VirtualAlloc, (uintptr)v, n, MEM_COMMIT, PAGE_READWRITE);
	if(r != v)
	runtime·throw("runtime: failed to commit pages");

	// Commit failed. See SysUnused.
	while(n > 0) {
	small = n;
	while(small >= 4096 && runtime·stdcall4(runtime·VirtualAlloc, (uintptr)v, small, MEM_COMMIT, PAGE_READWRITE) == nil)
	small = (small / 2) & ~(4096-1);
	if(small < 4096)
	runtime·throw("runtime: failed to decommit pages");
	v = (byte*)v + small;
	n -= small;
	}
	}

	void
	runtime·SysFree(void v, uintptr n, uint64 stat)
	{
	uintptr r;

	runtime·xadd64(stat, -(uint64)n);
	r = (uintptr)runtime·stdcall3(runtime·VirtualFree, (uintptr)v, 0, MEM_RELEASE);
	if(r == 0)
	runtime·throw("runtime: failed to release pages");
	}

	void
	runtime·SysFault(void *v, uintptr n)
	{
	// SysUnused makes the memory inaccessible and prevents its reuse
	runtime·SysUnused(v, n);
	}

	void*
	runtime·SysReserve(void v, uintptr n, bool reserved)
	{
	*reserved = true;
	// v is just a hint.
	// First try at v.
	v = runtime·stdcall4(runtime·VirtualAlloc, (uintptr)v, n, MEM_RESERVE, PAGE_READWRITE);
	if(v != nil)
	return v;

	// Next let the kernel choose the address.
	return runtime·stdcall4(runtime·VirtualAlloc, 0, n, MEM_RESERVE, PAGE_READWRITE);
	}

	void
	runtime·SysMap(void v, uintptr n, bool reserved, uint64 stat)
	{
	void *p;

	USED(reserved);

	runtime·xadd64(stat, n);
	p = runtime·stdcall4(runtime·VirtualAlloc, (uintptr)v, n, MEM_COMMIT, PAGE_READWRITE);
	if(p != v)
	runtime·throw("runtime: cannot map pages in arena address space");
	}