13ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch// Copyright 2012 the V8 project authors. All rights reserved.
2a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Redistribution and use in source and binary forms, with or without
3a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// modification, are permitted provided that the following conditions are
4a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// met:
5a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//
6a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//     * Redistributions of source code must retain the above copyright
7a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//       notice, this list of conditions and the following disclaimer.
8a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//     * Redistributions in binary form must reproduce the above
9a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//       copyright notice, this list of conditions and the following
10a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//       disclaimer in the documentation and/or other materials provided
11a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//       with the distribution.
12a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//     * Neither the name of Google Inc. nor the names of its
13a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//       contributors may be used to endorse or promote products derived
14a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//       from this software without specific prior written permission.
15a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//
16a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
17a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
18a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
19a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
20a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
21a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
22a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
26a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
28a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Platform specific code for Win32.
29a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
30b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch#define V8_WIN32_HEADERS_FULL
31b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch#include "win32-headers.h"
32a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
33a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#include "v8.h"
34a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
353ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#include "codegen.h"
36a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#include "platform.h"
37b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch#include "vm-state-inl.h"
38a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
39a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef _MSC_VER
40a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
41a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Case-insensitive bounded string comparisons. Use stricmp() on Win32. Usually
42a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// defined in strings.h.
43a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint strncasecmp(const char* s1, const char* s2, int n) {
44a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return _strnicmp(s1, s2, n);
45a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
46a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
47a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif  // _MSC_VER
48a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
49a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
50a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Extra functions for MinGW. Most of these are the _s functions which are in
51a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// the Microsoft Visual Studio C++ CRT.
52a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef __MINGW32__
53a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
54a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint localtime_s(tm* out_tm, const time_t* time) {
55a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  tm* posix_local_time_struct = localtime(time);
56a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (posix_local_time_struct == NULL) return 1;
57a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  *out_tm = *posix_local_time_struct;
58a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return 0;
59a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
60a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
61a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
6285b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdochint fopen_s(FILE** pFile, const char* filename, const char* mode) {
6385b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdoch  *pFile = fopen(filename, mode);
6485b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdoch  return *pFile != NULL ? 0 : 1;
6585b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdoch}
663fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch
675d4cdbf7a67d3662fa0bee4efdb7edd8daec9b0bBen Murdoch
683ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#ifndef __MINGW64_VERSION_MAJOR
693ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
703ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch// Not sure this the correct interpretation of _mkgmtime
713ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochtime_t _mkgmtime(tm* timeptr) {
723ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return mktime(timeptr);
733ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
743ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
753ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
7685b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdoch#define _TRUNCATE 0
7785b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdoch#define STRUNCATE 80
785d4cdbf7a67d3662fa0bee4efdb7edd8daec9b0bBen Murdoch
793ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#endif  // __MINGW64_VERSION_MAJOR
803ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
813ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
82a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint _vsnprintf_s(char* buffer, size_t sizeOfBuffer, size_t count,
83a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                 const char* format, va_list argptr) {
843fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  ASSERT(count == _TRUNCATE);
85a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return _vsnprintf(buffer, sizeOfBuffer, format, argptr);
86a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
87a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
88a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
893fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdochint strncpy_s(char* dest, size_t dest_size, const char* source, size_t count) {
903fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  CHECK(source != NULL);
913fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  CHECK(dest != NULL);
923fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  CHECK_GT(dest_size, 0);
933fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch
943fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  if (count == _TRUNCATE) {
953fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch    while (dest_size > 0 && *source != 0) {
963fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch      *(dest++) = *(source++);
973fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch      --dest_size;
983fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch    }
993fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch    if (dest_size == 0) {
1003fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch      *(dest - 1) = 0;
1013fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch      return STRUNCATE;
1023fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch    }
1033fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  } else {
1043fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch    while (dest_size > 0 && count > 0 && *source != 0) {
1053fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch      *(dest++) = *(source++);
1063fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch      --dest_size;
1073fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch      --count;
1083fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch    }
1093fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  }
1103fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  CHECK_GT(dest_size, 0);
1113fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  *dest = 0;
112a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return 0;
113a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
114a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
115b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
1163ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#ifndef __MINGW64_VERSION_MAJOR
1173ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
118b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdochinline void MemoryBarrier() {
119b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  int barrier = 0;
120b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  __asm__ __volatile__("xchgl %%eax,%0 ":"=r" (barrier));
121b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch}
122b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
1233ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#endif  // __MINGW64_VERSION_MAJOR
1243ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
1253ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
126a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif  // __MINGW32__
127a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
128a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Generate a pseudo-random number in the range 0-2^31-1. Usually
129a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// defined in stdlib.h. Missing in both Microsoft Visual Studio C++ and MinGW.
130a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint random() {
131a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return rand();
132a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
133a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
134a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
135a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocknamespace v8 {
136a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocknamespace internal {
137a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1383fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdochintptr_t OS::MaxVirtualMemory() {
1393fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  return 0;
1403fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch}
1413fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch
1423fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch
143a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockdouble ceiling(double x) {
144a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return ceil(x);
145a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
146a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
14744f0eee88ff00398ff7f715fab053374d808c90dSteve Block
14844f0eee88ff00398ff7f715fab053374d808c90dSteve Blockstatic Mutex* limit_mutex = NULL;
14944f0eee88ff00398ff7f715fab053374d808c90dSteve Block
1508b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch#if defined(V8_TARGET_ARCH_IA32)
1518b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdochstatic OS::MemCopyFunction memcopy_function = NULL;
1523ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochstatic LazyMutex memcopy_function_mutex = LAZY_MUTEX_INITIALIZER;
1538b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch// Defined in codegen-ia32.cc.
1548b112d2025046f85ef7f6be087c6129c872ebad2Ben MurdochOS::MemCopyFunction CreateMemCopyFunction();
1558b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch
1568b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch// Copy memory area to disjoint memory area.
1578b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdochvoid OS::MemCopy(void* dest, const void* src, size_t size) {
1588b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  if (memcopy_function == NULL) {
1593ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    ScopedLock lock(memcopy_function_mutex.Pointer());
1608b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch    if (memcopy_function == NULL) {
1618b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch      OS::MemCopyFunction temp = CreateMemCopyFunction();
1628b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch      MemoryBarrier();
1638b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch      memcopy_function = temp;
1648b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch    }
1658b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  }
1668b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  // Note: here we rely on dependent reads being ordered. This is true
1678b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  // on all architectures we currently support.
1688b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  (*memcopy_function)(dest, src, size);
1698b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch#ifdef DEBUG
1708b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  CHECK_EQ(0, memcmp(dest, src, size));
1718b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch#endif
1728b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch}
1738b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch#endif  // V8_TARGET_ARCH_IA32
17444f0eee88ff00398ff7f715fab053374d808c90dSteve Block
1753ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block#ifdef _WIN64
1763ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Blocktypedef double (*ModuloFunction)(double, double);
1778b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdochstatic ModuloFunction modulo_function = NULL;
1783ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block// Defined in codegen-x64.cc.
1793ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve BlockModuloFunction CreateModuloFunction();
1803ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block
1813ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochvoid init_modulo_function() {
1823ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  modulo_function = CreateModuloFunction();
1833ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
1843ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
1853ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Blockdouble modulo(double x, double y) {
1868b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  // Note: here we rely on dependent reads being ordered. This is true
1878b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  // on all architectures we currently support.
1888b112d2025046f85ef7f6be087c6129c872ebad2Ben Murdoch  return (*modulo_function)(x, y);
1893ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block}
1903ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block#else  // Win32
1913ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block
1923ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Blockdouble modulo(double x, double y) {
1933ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block  // Workaround MS fmod bugs. ECMA-262 says:
1943ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block  // dividend is finite and divisor is an infinity => result equals dividend
1953ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block  // dividend is a zero and divisor is nonzero finite => result equals dividend
1963ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block  if (!(isfinite(x) && (!isfinite(y) && !isnan(y))) &&
1973ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block      !(x == 0 && (y != 0 && isfinite(y)))) {
1983ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block    x = fmod(x, y);
1993ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block  }
2003ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block  return x;
2013ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block}
2023ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block
2033ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block#endif  // _WIN64
2043ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block
2053ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
2063ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#define UNARY_MATH_FUNCTION(name, generator)             \
2073ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochstatic UnaryMathFunction fast_##name##_function = NULL;  \
2083ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochvoid init_fast_##name##_function() {                     \
2093ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  fast_##name##_function = generator;                    \
2103ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}                                                        \
2113ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochdouble fast_##name(double x) {                           \
2123ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return (*fast_##name##_function)(x);                   \
2133ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
2143ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
2153ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochUNARY_MATH_FUNCTION(sin, CreateTranscendentalFunction(TranscendentalCache::SIN))
2163ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochUNARY_MATH_FUNCTION(cos, CreateTranscendentalFunction(TranscendentalCache::COS))
2173ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochUNARY_MATH_FUNCTION(tan, CreateTranscendentalFunction(TranscendentalCache::TAN))
2183ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochUNARY_MATH_FUNCTION(log, CreateTranscendentalFunction(TranscendentalCache::LOG))
2193ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochUNARY_MATH_FUNCTION(sqrt, CreateSqrtFunction())
2203ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
2213ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#undef MATH_FUNCTION
2223ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
2233ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
2243ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochvoid MathSetup() {
2253ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#ifdef _WIN64
2263ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  init_modulo_function();
2273ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch#endif
2283ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  init_fast_sin_function();
2293ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  init_fast_cos_function();
2303ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  init_fast_tan_function();
2313ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  init_fast_log_function();
2323ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  init_fast_sqrt_function();
2333ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
2343ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
2353ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
236a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------
237a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// The Time class represents time on win32. A timestamp is represented as
2383ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch// a 64-bit integer in 100 nanoseconds since January 1, 1601 (UTC). JavaScript
239a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// timestamps are represented as a doubles in milliseconds since 00:00:00 UTC,
240a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// January 1, 1970.
241a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
242a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Time {
243a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public:
244a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Constructors.
245a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Time();
246a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  explicit Time(double jstime);
247a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Time(int year, int mon, int day, int hour, int min, int sec);
248a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
249a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Convert timestamp to JavaScript representation.
250a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  double ToJSTime();
251a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
252a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Set timestamp to current time.
253a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  void SetToCurrentTime();
254a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
255a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Returns the local timezone offset in milliseconds east of UTC. This is
256a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // the number of milliseconds you must add to UTC to get local time, i.e.
257a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // LocalOffset(CET) = 3600000 and LocalOffset(PST) = -28800000. This
258a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // routine also takes into account whether daylight saving is effect
259a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // at the time.
260a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int64_t LocalOffset();
261a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
262a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Returns the daylight savings time offset for the time in milliseconds.
263a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int64_t DaylightSavingsOffset();
264a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
265a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Returns a string identifying the current timezone for the
266a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // timestamp taking into account daylight saving.
267a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  char* LocalTimezone();
268a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
269a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private:
270a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Constants for time conversion.
271a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const int64_t kTimeEpoc = 116444736000000000LL;
272a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const int64_t kTimeScaler = 10000;
273a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const int64_t kMsPerMinute = 60000;
274a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
275a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Constants for timezone information.
276a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const int kTzNameSize = 128;
277a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const bool kShortTzNames = false;
278a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
279a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Timezone information. We need to have static buffers for the
280a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // timezone names because we return pointers to these in
281a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // LocalTimezone().
282a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static bool tz_initialized_;
283a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static TIME_ZONE_INFORMATION tzinfo_;
284a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static char std_tz_name_[kTzNameSize];
285a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static char dst_tz_name_[kTzNameSize];
286a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
287a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Initialize the timezone information (if not already done).
288a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static void TzSet();
289a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
290a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Guess the name of the timezone from the bias.
291a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const char* GuessTimezoneNameFromBias(int bias);
292a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
293a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Return whether or not daylight savings time is in effect at this time.
294a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool InDST();
295a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
296a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Return the difference (in milliseconds) between this timestamp and
297a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // another timestamp.
298a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int64_t Diff(Time* other);
299a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
300a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Accessor for FILETIME representation.
301a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  FILETIME& ft() { return time_.ft_; }
302a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
303a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Accessor for integer representation.
304a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int64_t& t() { return time_.t_; }
305a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
306a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Although win32 uses 64-bit integers for representing timestamps,
307a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // these are packed into a FILETIME structure. The FILETIME structure
308a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // is just a struct representing a 64-bit integer. The TimeStamp union
309a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // allows access to both a FILETIME and an integer representation of
310a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // the timestamp.
311a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  union TimeStamp {
312a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    FILETIME ft_;
313a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    int64_t t_;
314a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  };
315a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
316a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  TimeStamp time_;
317a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block};
318a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
319a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Static variables.
320a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockbool Time::tz_initialized_ = false;
321a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockTIME_ZONE_INFORMATION Time::tzinfo_;
322a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockchar Time::std_tz_name_[kTzNameSize];
323a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockchar Time::dst_tz_name_[kTzNameSize];
324a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
325a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
326a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Initialize timestamp to start of epoc.
327a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockTime::Time() {
328a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  t() = 0;
329a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
330a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
331a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
332a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Initialize timestamp from a JavaScript timestamp.
333a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockTime::Time(double jstime) {
334a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  t() = static_cast<int64_t>(jstime) * kTimeScaler + kTimeEpoc;
335a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
336a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
337a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
338a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Initialize timestamp from date/time components.
339a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockTime::Time(int year, int mon, int day, int hour, int min, int sec) {
340a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  SYSTEMTIME st;
341a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  st.wYear = year;
342a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  st.wMonth = mon;
343a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  st.wDay = day;
344a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  st.wHour = hour;
345a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  st.wMinute = min;
346a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  st.wSecond = sec;
347a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  st.wMilliseconds = 0;
348a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  SystemTimeToFileTime(&st, &ft());
349a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
350a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
351a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
352a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Convert timestamp to JavaScript timestamp.
353a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockdouble Time::ToJSTime() {
354a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return static_cast<double>((t() - kTimeEpoc) / kTimeScaler);
355a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
356a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
357a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
358a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Guess the name of the timezone from the bias.
359a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// The guess is very biased towards the northern hemisphere.
360a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockconst char* Time::GuessTimezoneNameFromBias(int bias) {
361a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const int kHour = 60;
362a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  switch (-bias) {
363a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case -9*kHour: return "Alaska";
364a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case -8*kHour: return "Pacific";
365a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case -7*kHour: return "Mountain";
366a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case -6*kHour: return "Central";
367a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case -5*kHour: return "Eastern";
368a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case -4*kHour: return "Atlantic";
369a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case  0*kHour: return "GMT";
370a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case +1*kHour: return "Central Europe";
371a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case +2*kHour: return "Eastern Europe";
372a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case +3*kHour: return "Russia";
373a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case +5*kHour + 30: return "India";
374a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case +8*kHour: return "China";
375a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case +9*kHour: return "Japan";
376a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    case +12*kHour: return "New Zealand";
377a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    default: return "Local";
378a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
379a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
380a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
381a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
382a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Initialize timezone information. The timezone information is obtained from
383a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// windows. If we cannot get the timezone information we fall back to CET.
384a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Please notice that this code is not thread-safe.
385a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Time::TzSet() {
386a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Just return if timezone information has already been initialized.
387a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (tz_initialized_) return;
388a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
389a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Initialize POSIX time zone data.
390a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  _tzset();
391a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Obtain timezone information from operating system.
392a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  memset(&tzinfo_, 0, sizeof(tzinfo_));
393a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (GetTimeZoneInformation(&tzinfo_) == TIME_ZONE_ID_INVALID) {
394a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // If we cannot get timezone information we fall back to CET.
395a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.Bias = -60;
396a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.StandardDate.wMonth = 10;
397a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.StandardDate.wDay = 5;
398a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.StandardDate.wHour = 3;
399a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.StandardBias = 0;
400a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.DaylightDate.wMonth = 3;
401a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.DaylightDate.wDay = 5;
402a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.DaylightDate.wHour = 2;
403a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    tzinfo_.DaylightBias = -60;
404a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
405a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
406a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Make standard and DST timezone names.
407257744e915dfc84d6d07a6b2accf8402d9ffc708Ben Murdoch  WideCharToMultiByte(CP_UTF8, 0, tzinfo_.StandardName, -1,
408257744e915dfc84d6d07a6b2accf8402d9ffc708Ben Murdoch                      std_tz_name_, kTzNameSize, NULL, NULL);
409a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  std_tz_name_[kTzNameSize - 1] = '\0';
410257744e915dfc84d6d07a6b2accf8402d9ffc708Ben Murdoch  WideCharToMultiByte(CP_UTF8, 0, tzinfo_.DaylightName, -1,
411257744e915dfc84d6d07a6b2accf8402d9ffc708Ben Murdoch                      dst_tz_name_, kTzNameSize, NULL, NULL);
412a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  dst_tz_name_[kTzNameSize - 1] = '\0';
413a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
414a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // If OS returned empty string or resource id (like "@tzres.dll,-211")
415a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // simply guess the name from the UTC bias of the timezone.
416a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // To properly resolve the resource identifier requires a library load,
417a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // which is not possible in a sandbox.
418a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (std_tz_name_[0] == '\0' || std_tz_name_[0] == '@') {
419a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OS::SNPrintF(Vector<char>(std_tz_name_, kTzNameSize - 1),
420a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                 "%s Standard Time",
421a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                 GuessTimezoneNameFromBias(tzinfo_.Bias));
422a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
423a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (dst_tz_name_[0] == '\0' || dst_tz_name_[0] == '@') {
424a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OS::SNPrintF(Vector<char>(dst_tz_name_, kTzNameSize - 1),
425a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                 "%s Daylight Time",
426a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                 GuessTimezoneNameFromBias(tzinfo_.Bias));
427a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
428a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
429a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Timezone information initialized.
430a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  tz_initialized_ = true;
431a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
432a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
433a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
434a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Return the difference in milliseconds between this and another timestamp.
435a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint64_t Time::Diff(Time* other) {
436a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return (t() - other->t()) / kTimeScaler;
437a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
438a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
439a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
440a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Set timestamp to current time.
441a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Time::SetToCurrentTime() {
442a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // The default GetSystemTimeAsFileTime has a ~15.5ms resolution.
443a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Because we're fast, we like fast timers which have at least a
444a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // 1ms resolution.
445a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  //
446a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // timeGetTime() provides 1ms granularity when combined with
447a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // timeBeginPeriod().  If the host application for v8 wants fast
448a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // timers, it can use timeBeginPeriod to increase the resolution.
449a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  //
450a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Using timeGetTime() has a drawback because it is a 32bit value
451a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // and hence rolls-over every ~49days.
452a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  //
453a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // To use the clock, we use GetSystemTimeAsFileTime as our base;
454a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // and then use timeGetTime to extrapolate current time from the
455a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // start time.  To deal with rollovers, we resync the clock
456a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // any time when more than kMaxClockElapsedTime has passed or
457a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // whenever timeGetTime creates a rollover.
458a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
459a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static bool initialized = false;
460a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static TimeStamp init_time;
461a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static DWORD init_ticks;
462a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const int64_t kHundredNanosecondsPerSecond = 10000000;
463a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static const int64_t kMaxClockElapsedTime =
464a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      60*kHundredNanosecondsPerSecond;  // 1 minute
465a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
466a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // If we are uninitialized, we need to resync the clock.
467a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool needs_resync = !initialized;
468a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
469a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Get the current time.
470a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  TimeStamp time_now;
471a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  GetSystemTimeAsFileTime(&time_now.ft_);
472a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  DWORD ticks_now = timeGetTime();
473a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
474a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Check if we need to resync due to clock rollover.
475a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  needs_resync |= ticks_now < init_ticks;
476a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
477a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Check if we need to resync due to elapsed time.
478a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  needs_resync |= (time_now.t_ - init_time.t_) > kMaxClockElapsedTime;
479a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
480a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Resync the clock if necessary.
481a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (needs_resync) {
482a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    GetSystemTimeAsFileTime(&init_time.ft_);
483a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    init_ticks = ticks_now = timeGetTime();
484a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    initialized = true;
485a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
486a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
487a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Finally, compute the actual time.  Why is this so hard.
488a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  DWORD elapsed = ticks_now - init_ticks;
489a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  this->time_.t_ = init_time.t_ + (static_cast<int64_t>(elapsed) * 10000);
490a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
491a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
492a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
493a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Return the local timezone offset in milliseconds east of UTC. This
494a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// takes into account whether daylight saving is in effect at the time.
495a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Only times in the 32-bit Unix range may be passed to this function.
496a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Also, adding the time-zone offset to the input must not overflow.
4973100271588b61cbc1dc472a3f2f105d2eed8497fAndrei Popescu// The function EquivalentTime() in date.js guarantees this.
498a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint64_t Time::LocalOffset() {
499a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Initialize timezone information, if needed.
500a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  TzSet();
501a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
502a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Time rounded_to_second(*this);
503a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  rounded_to_second.t() = rounded_to_second.t() / 1000 / kTimeScaler *
504a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      1000 * kTimeScaler;
505a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Convert to local time using POSIX localtime function.
506a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Windows XP Service Pack 3 made SystemTimeToTzSpecificLocalTime()
507a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // very slow.  Other browsers use localtime().
508a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
509a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Convert from JavaScript milliseconds past 1/1/1970 0:00:00 to
510a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // POSIX seconds past 1/1/1970 0:00:00.
511a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  double unchecked_posix_time = rounded_to_second.ToJSTime() / 1000;
512a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (unchecked_posix_time > INT_MAX || unchecked_posix_time < 0) {
513a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return 0;
514a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
515a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Because _USE_32BIT_TIME_T is defined, time_t is a 32-bit int.
516a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  time_t posix_time = static_cast<time_t>(unchecked_posix_time);
517a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
518a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Convert to local time, as struct with fields for day, hour, year, etc.
519a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  tm posix_local_time_struct;
520a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (localtime_s(&posix_local_time_struct, &posix_time)) return 0;
521a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Convert local time in struct to POSIX time as if it were a UTC time.
522a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  time_t local_posix_time = _mkgmtime(&posix_local_time_struct);
523a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Time localtime(1000.0 * local_posix_time);
524a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
525a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return localtime.Diff(&rounded_to_second);
526a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
527a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
528a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
529a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Return whether or not daylight savings time is in effect at this time.
530a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockbool Time::InDST() {
531a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Initialize timezone information, if needed.
532a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  TzSet();
533a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
534a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Determine if DST is in effect at the specified time.
535a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool in_dst = false;
536a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (tzinfo_.StandardDate.wMonth != 0 || tzinfo_.DaylightDate.wMonth != 0) {
537a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // Get the local timezone offset for the timestamp in milliseconds.
538a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    int64_t offset = LocalOffset();
539a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
540a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // Compute the offset for DST. The bias parameters in the timezone info
541a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // are specified in minutes. These must be converted to milliseconds.
542a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    int64_t dstofs = -(tzinfo_.Bias + tzinfo_.DaylightBias) * kMsPerMinute;
543a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
544a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // If the local time offset equals the timezone bias plus the daylight
545a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // bias then DST is in effect.
546a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    in_dst = offset == dstofs;
547a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
548a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
549a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return in_dst;
550a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
551a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
552a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
553a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Return the daylight savings time offset for this time.
554a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint64_t Time::DaylightSavingsOffset() {
555a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return InDST() ? 60 * kMsPerMinute : 0;
556a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
557a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
558a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
559a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Returns a string identifying the current timezone for the
560a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// timestamp taking into account daylight saving.
561a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockchar* Time::LocalTimezone() {
562a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Return the standard or DST time zone name based on whether daylight
563a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // saving is in effect at the given time.
564a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return InDST() ? dst_tz_name_ : std_tz_name_;
565a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
566a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
567a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
5683ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochvoid OS::SetUp() {
569a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Seed the random number generator.
570a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Convert the current time to a 64-bit integer first, before converting it
571a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // to an unsigned. Going directly can cause an overflow and the seed to be
572a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // set to all ones. The seed will be identical for different instances that
573a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // call this setup code within the same millisecond.
574a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  uint64_t seed = static_cast<uint64_t>(TimeCurrentMillis());
575a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  srand(static_cast<unsigned int>(seed));
57644f0eee88ff00398ff7f715fab053374d808c90dSteve Block  limit_mutex = CreateMutex();
577a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
578a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
579a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
5803ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochvoid OS::PostSetUp() {
5813ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  // Math functions depend on CPU features therefore they are initialized after
5823ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  // CPU.
5833ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  MathSetup();
5843ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
5853ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
5863ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
587a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Returns the accumulated user time for thread.
588a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint OS::GetUserTime(uint32_t* secs,  uint32_t* usecs) {
589a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  FILETIME dummy;
590a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  uint64_t usertime;
591a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
592a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Get the amount of time that the thread has executed in user mode.
593a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!GetThreadTimes(GetCurrentThread(), &dummy, &dummy, &dummy,
594a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                      reinterpret_cast<FILETIME*>(&usertime))) return -1;
595a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
596a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Adjust the resolution to micro-seconds.
597a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  usertime /= 10;
598a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
599a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Convert to seconds and microseconds
600a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  *secs = static_cast<uint32_t>(usertime / 1000000);
601a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  *usecs = static_cast<uint32_t>(usertime % 1000000);
602a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return 0;
603a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
604a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
605a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
606a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Returns current time as the number of milliseconds since
607a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 00:00:00 UTC, January 1, 1970.
608a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockdouble OS::TimeCurrentMillis() {
609a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Time t;
610a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  t.SetToCurrentTime();
611a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return t.ToJSTime();
612a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
613a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
614a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Returns the tickcounter based on timeGetTime.
615a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint64_t OS::Ticks() {
616a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return timeGetTime() * 1000;  // Convert to microseconds.
617a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
618a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
619a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
620a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Returns a string identifying the current timezone taking into
621a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// account daylight saving.
622a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockconst char* OS::LocalTimezone(double time) {
623a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return Time(time).LocalTimezone();
624a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
625a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
626a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
627a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Returns the local time offset in milliseconds east of UTC without
628a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// taking daylight savings time into account.
629a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockdouble OS::LocalTimeOffset() {
630a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Use current time, rounded to the millisecond.
631a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Time t(TimeCurrentMillis());
632a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Time::LocalOffset inlcudes any daylight savings offset, so subtract it.
633a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return static_cast<double>(t.LocalOffset() - t.DaylightSavingsOffset());
634a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
635a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
636a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
637a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Returns the daylight savings offset in milliseconds for the given
638a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// time.
639a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockdouble OS::DaylightSavingsOffset(double time) {
640a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int64_t offset = Time(time).DaylightSavingsOffset();
641a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return static_cast<double>(offset);
642a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
643a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
644a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
645756813857a4c2a4d8ad2e805969d5768d3cf43a0Iain Merrickint OS::GetLastError() {
646756813857a4c2a4d8ad2e805969d5768d3cf43a0Iain Merrick  return ::GetLastError();
647756813857a4c2a4d8ad2e805969d5768d3cf43a0Iain Merrick}
648756813857a4c2a4d8ad2e805969d5768d3cf43a0Iain Merrick
649756813857a4c2a4d8ad2e805969d5768d3cf43a0Iain Merrick
650a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------
651a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Win32 console output.
652a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//
653a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// If a Win32 application is linked as a console application it has a normal
654a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// standard output and standard error. In this case normal printf works fine
655a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// for output. However, if the application is linked as a GUI application,
656a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// the process doesn't have a console, and therefore (debugging) output is lost.
657a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// This is the case if we are embedded in a windows program (like a browser).
658a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// In order to be able to get debug output in this case the the debugging
659a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// facility using OutputDebugString. This output goes to the active debugger
660a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// for the process (if any). Else the output can be monitored using DBMON.EXE.
661a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
662a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockenum OutputMode {
663a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  UNKNOWN,  // Output method has not yet been determined.
664a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  CONSOLE,  // Output is written to stdout.
665a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ODS       // Output is written to debug facility.
666a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block};
667a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
668a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic OutputMode output_mode = UNKNOWN;  // Current output mode.
669a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
670a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
671a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Determine if the process has a console for output.
672a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic bool HasConsole() {
673a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Only check the first time. Eventual race conditions are not a problem,
674a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // because all threads will eventually determine the same mode.
675a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (output_mode == UNKNOWN) {
676a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // We cannot just check that the standard output is attached to a console
677a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // because this would fail if output is redirected to a file. Therefore we
678a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // say that a process does not have an output console if either the
679a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // standard output handle is invalid or its file type is unknown.
680a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    if (GetStdHandle(STD_OUTPUT_HANDLE) != INVALID_HANDLE_VALUE &&
681a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        GetFileType(GetStdHandle(STD_OUTPUT_HANDLE)) != FILE_TYPE_UNKNOWN)
682a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      output_mode = CONSOLE;
683a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    else
684a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      output_mode = ODS;
685a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
686a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return output_mode == CONSOLE;
687a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
688a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
689a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
690a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic void VPrintHelper(FILE* stream, const char* format, va_list args) {
691a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (HasConsole()) {
692a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    vfprintf(stream, format, args);
693a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  } else {
694a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // It is important to use safe print here in order to avoid
695a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // overflowing the buffer. We might truncate the output, but this
696a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // does not crash.
697a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    EmbeddedVector<char, 4096> buffer;
698a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OS::VSNPrintF(buffer, format, args);
699a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OutputDebugStringA(buffer.start());
700a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
701a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
702a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
703a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
704a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockFILE* OS::FOpen(const char* path, const char* mode) {
705a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  FILE* result;
706a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (fopen_s(&result, path, mode) == 0) {
707a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return result;
708a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  } else {
709a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return NULL;
710a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
711a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
712a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
713a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
7141e0659c275bb392c045087af4f6b0d7565cb3d77Steve Blockbool OS::Remove(const char* path) {
7151e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  return (DeleteFileA(path) != 0);
7161e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block}
7171e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block
7181e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block
7193fb3ca8c7ca439d408449a395897395c0faae8d1Ben MurdochFILE* OS::OpenTemporaryFile() {
7203fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  // tmpfile_s tries to use the root dir, don't use it.
7213fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  char tempPathBuffer[MAX_PATH];
7223fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  DWORD path_result = 0;
7233fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  path_result = GetTempPathA(MAX_PATH, tempPathBuffer);
7243fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  if (path_result > MAX_PATH || path_result == 0) return NULL;
7253fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  UINT name_result = 0;
7263fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  char tempNameBuffer[MAX_PATH];
7273fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  name_result = GetTempFileNameA(tempPathBuffer, "", 0, tempNameBuffer);
7283fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  if (name_result == 0) return NULL;
7293fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  FILE* result = FOpen(tempNameBuffer, "w+");  // Same mode as tmpfile uses.
7303fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  if (result != NULL) {
7313fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch    Remove(tempNameBuffer);  // Delete on close.
7323fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  }
7333fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  return result;
7343fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch}
7353fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch
7363fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch
737a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Open log file in binary mode to avoid /n -> /r/n conversion.
73844f0eee88ff00398ff7f715fab053374d808c90dSteve Blockconst char* const OS::LogFileOpenMode = "wb";
739a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
740a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
741a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Print (debug) message to console.
742a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::Print(const char* format, ...) {
743a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_list args;
744a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_start(args, format);
745a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  VPrint(format, args);
746a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_end(args);
747a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
748a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
749a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
750a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::VPrint(const char* format, va_list args) {
751a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  VPrintHelper(stdout, format, args);
752a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
753a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
754a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
755b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdochvoid OS::FPrint(FILE* out, const char* format, ...) {
756b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  va_list args;
757b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  va_start(args, format);
758b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  VFPrint(out, format, args);
759b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  va_end(args);
760b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch}
761b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
762b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
763b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdochvoid OS::VFPrint(FILE* out, const char* format, va_list args) {
764b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  VPrintHelper(out, format, args);
765b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch}
766b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
767b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
768a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Print error message to console.
769a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::PrintError(const char* format, ...) {
770a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_list args;
771a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_start(args, format);
772a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  VPrintError(format, args);
773a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_end(args);
774a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
775a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
776a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
777a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::VPrintError(const char* format, va_list args) {
778a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  VPrintHelper(stderr, format, args);
779a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
780a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
781a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
782a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint OS::SNPrintF(Vector<char> str, const char* format, ...) {
783a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_list args;
784a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_start(args, format);
785a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int result = VSNPrintF(str, format, args);
786a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  va_end(args);
787a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return result;
788a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
789a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
790a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
791a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint OS::VSNPrintF(Vector<char> str, const char* format, va_list args) {
792a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int n = _vsnprintf_s(str.start(), str.length(), _TRUNCATE, format, args);
793a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Make sure to zero-terminate the string if the output was
794a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // truncated or if there was an error.
795a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (n < 0 || n >= str.length()) {
796b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch    if (str.length() > 0)
797b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch      str[str.length() - 1] = '\0';
798a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return -1;
799a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  } else {
800a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return n;
801a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
802a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
803a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
804a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
805a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockchar* OS::StrChr(char* str, int c) {
806a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return const_cast<char*>(strchr(str, c));
807a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
808a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
809a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
810a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::StrNCpy(Vector<char> dest, const char* src, size_t n) {
81144f0eee88ff00398ff7f715fab053374d808c90dSteve Block  // Use _TRUNCATE or strncpy_s crashes (by design) if buffer is too small.
81244f0eee88ff00398ff7f715fab053374d808c90dSteve Block  size_t buffer_size = static_cast<size_t>(dest.length());
81344f0eee88ff00398ff7f715fab053374d808c90dSteve Block  if (n + 1 > buffer_size)  // count for trailing '\0'
81444f0eee88ff00398ff7f715fab053374d808c90dSteve Block    n = _TRUNCATE;
815a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int result = strncpy_s(dest.start(), dest.length(), src, n);
816a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  USE(result);
81744f0eee88ff00398ff7f715fab053374d808c90dSteve Block  ASSERT(result == 0 || (n == _TRUNCATE && result == STRUNCATE));
818a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
819a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
820a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
821a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// We keep the lowest and highest addresses mapped as a quick way of
822a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// determining that pointers are outside the heap (used mostly in assertions
8233ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch// and verification).  The estimate is conservative, i.e., not all addresses in
824a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 'allocated' space are actually allocated to our heap.  The range is
825a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// [lowest, highest), inclusive on the low and and exclusive on the high end.
826a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic void* lowest_ever_allocated = reinterpret_cast<void*>(-1);
827a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic void* highest_ever_allocated = reinterpret_cast<void*>(0);
828a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
829a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
830a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic void UpdateAllocatedSpaceLimits(void* address, int size) {
83144f0eee88ff00398ff7f715fab053374d808c90dSteve Block  ASSERT(limit_mutex != NULL);
83244f0eee88ff00398ff7f715fab053374d808c90dSteve Block  ScopedLock lock(limit_mutex);
83344f0eee88ff00398ff7f715fab053374d808c90dSteve Block
834a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  lowest_ever_allocated = Min(lowest_ever_allocated, address);
835a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  highest_ever_allocated =
836a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      Max(highest_ever_allocated,
837a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block          reinterpret_cast<void*>(reinterpret_cast<char*>(address) + size));
838a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
839a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
840a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
841a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockbool OS::IsOutsideAllocatedSpace(void* pointer) {
842a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (pointer < lowest_ever_allocated || pointer >= highest_ever_allocated)
843a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return true;
844a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Ask the Windows API
845a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (IsBadWritePtr(pointer, 1))
846a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return true;
847a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return false;
848a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
849a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
850a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
851a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Get the system's page size used by VirtualAlloc() or the next power
852a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// of two. The reason for always returning a power of two is that the
853a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// rounding up in OS::Allocate expects that.
854a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic size_t GetPageSize() {
855a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static size_t page_size = 0;
856a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (page_size == 0) {
857a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    SYSTEM_INFO info;
858a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    GetSystemInfo(&info);
859a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    page_size = RoundUpToPowerOf2(info.dwPageSize);
860a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
861a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return page_size;
862a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
863a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
864a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
865a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// The allocation alignment is the guaranteed alignment for
866a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// VirtualAlloc'ed blocks of memory.
867a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocksize_t OS::AllocateAlignment() {
868a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static size_t allocate_alignment = 0;
869a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (allocate_alignment == 0) {
870a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    SYSTEM_INFO info;
871a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    GetSystemInfo(&info);
872a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    allocate_alignment = info.dwAllocationGranularity;
873a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
874a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return allocate_alignment;
875a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
876a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
877a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
8783ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochstatic void* GetRandomAddr() {
8793ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  Isolate* isolate = Isolate::UncheckedCurrent();
8803ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  // Note that the current isolate isn't set up in a call path via
8813ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  // CpuFeatures::Probe. We don't care about randomization in this case because
8823ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  // the code page is immediately freed.
8833ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (isolate != NULL) {
8843ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    // The address range used to randomize RWX allocations in OS::Allocate
8853ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    // Try not to map pages into the default range that windows loads DLLs
8863ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    // Use a multiple of 64k to prevent committing unused memory.
8873ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    // Note: This does not guarantee RWX regions will be within the
8883ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    // range kAllocationRandomAddressMin to kAllocationRandomAddressMax
889bb769b257e753aafcbd96767abb2abc645eaa20cBen Murdoch#ifdef V8_HOST_ARCH_64_BIT
8903ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    static const intptr_t kAllocationRandomAddressMin = 0x0000000080000000;
8913ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    static const intptr_t kAllocationRandomAddressMax = 0x000003FFFFFF0000;
892bb769b257e753aafcbd96767abb2abc645eaa20cBen Murdoch#else
8933ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    static const intptr_t kAllocationRandomAddressMin = 0x04000000;
8943ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    static const intptr_t kAllocationRandomAddressMax = 0x3FFF0000;
895bb769b257e753aafcbd96767abb2abc645eaa20cBen Murdoch#endif
8963ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    uintptr_t address = (V8::RandomPrivate(isolate) << kPageSizeBits)
8973ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch        | kAllocationRandomAddressMin;
8983ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    address &= kAllocationRandomAddressMax;
8993ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    return reinterpret_cast<void *>(address);
9003ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  }
9013ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return NULL;
9023ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
9033ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
904592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch
9053ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochstatic void* RandomizedVirtualAlloc(size_t size, int action, int protection) {
9063ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  LPVOID base = NULL;
9073ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
9083ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (protection == PAGE_EXECUTE_READWRITE || protection == PAGE_NOACCESS) {
9093ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    // For exectutable pages try and randomize the allocation address
9103ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    for (size_t attempts = 0; base == NULL && attempts < 3; ++attempts) {
9113ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch      base = VirtualAlloc(GetRandomAddr(), size, action, protection);
9123ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    }
9133ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  }
9143ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
9153ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  // After three attempts give up and let the OS find an address to use.
9163ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (base == NULL) base = VirtualAlloc(NULL, size, action, protection);
9173ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
9183ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return base;
9193ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
9203ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
9213ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
9223ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochvoid* OS::Allocate(const size_t requested,
9233ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                   size_t* allocated,
9243ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                   bool is_executable) {
925a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // VirtualAlloc rounds allocated size to page size automatically.
926d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block  size_t msize = RoundUp(requested, static_cast<int>(GetPageSize()));
927a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
928a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Windows XP SP2 allows Data Excution Prevention (DEP).
929a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int prot = is_executable ? PAGE_EXECUTE_READWRITE : PAGE_READWRITE;
930bb769b257e753aafcbd96767abb2abc645eaa20cBen Murdoch
9313ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  LPVOID mbase = RandomizedVirtualAlloc(msize,
9323ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                                        MEM_COMMIT | MEM_RESERVE,
9333ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                                        prot);
934bb769b257e753aafcbd96767abb2abc645eaa20cBen Murdoch
935a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (mbase == NULL) {
93644f0eee88ff00398ff7f715fab053374d808c90dSteve Block    LOG(ISOLATE, StringEvent("OS::Allocate", "VirtualAlloc failed"));
937a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return NULL;
938a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
939a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
940a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ASSERT(IsAligned(reinterpret_cast<size_t>(mbase), OS::AllocateAlignment()));
941a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
942a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  *allocated = msize;
943d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block  UpdateAllocatedSpaceLimits(mbase, static_cast<int>(msize));
944a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return mbase;
945a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
946a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
947a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
948a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::Free(void* address, const size_t size) {
949a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // TODO(1240712): VirtualFree has a return value which is ignored here.
950a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  VirtualFree(address, 0, MEM_RELEASE);
951a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  USE(size);
952a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
953a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
954a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
9553ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochintptr_t OS::CommitPageSize() {
9563ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return 4096;
9573ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
9583ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
9593ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
9603fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdochvoid OS::ProtectCode(void* address, const size_t size) {
961a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  DWORD old_protect;
9623fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  VirtualProtect(address, size, PAGE_EXECUTE_READ, &old_protect);
963a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
964a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
965a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
9663fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdochvoid OS::Guard(void* address, const size_t size) {
9673fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  DWORD oldprotect;
9683fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch  VirtualProtect(address, size, PAGE_READONLY | PAGE_GUARD, &oldprotect);
969a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
970a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
971a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
972a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::Sleep(int milliseconds) {
973a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ::Sleep(milliseconds);
974a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
975a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
976a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
977a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::Abort() {
9783ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (IsDebuggerPresent() || FLAG_break_on_abort) {
97985b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdoch    DebugBreak();
9803ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  } else {
9813ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    // Make the MSVCRT do a silent abort.
9823ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    raise(SIGABRT);
983a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
984a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
985a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
986a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
987a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::DebugBreak() {
988a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef _MSC_VER
989a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  __debugbreak();
990a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#else
991a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ::DebugBreak();
992a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif
993a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
994a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
995a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
996a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Win32MemoryMappedFile : public OS::MemoryMappedFile {
997a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public:
9981e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  Win32MemoryMappedFile(HANDLE file,
9991e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block                        HANDLE file_mapping,
10001e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block                        void* memory,
10011e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block                        int size)
10021e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block      : file_(file),
10031e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block        file_mapping_(file_mapping),
10041e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block        memory_(memory),
10051e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block        size_(size) { }
1006a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  virtual ~Win32MemoryMappedFile();
1007a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  virtual void* memory() { return memory_; }
10081e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  virtual int size() { return size_; }
1009a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private:
1010a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE file_;
1011a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE file_mapping_;
1012a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  void* memory_;
10131e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  int size_;
1014a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block};
1015a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1016a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
10171e0659c275bb392c045087af4f6b0d7565cb3d77Steve BlockOS::MemoryMappedFile* OS::MemoryMappedFile::open(const char* name) {
10181e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  // Open a physical file
10191e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  HANDLE file = CreateFileA(name, GENERIC_READ | GENERIC_WRITE,
10201e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block      FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, NULL);
1021e0cee9b3ed82e2391fd85d118aeaa4ea361c687dBen Murdoch  if (file == INVALID_HANDLE_VALUE) return NULL;
10221e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block
10231e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  int size = static_cast<int>(GetFileSize(file, NULL));
10241e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block
10251e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  // Create a file mapping for the physical file
10261e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  HANDLE file_mapping = CreateFileMapping(file, NULL,
10271e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block      PAGE_READWRITE, 0, static_cast<DWORD>(size), NULL);
10281e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  if (file_mapping == NULL) return NULL;
10291e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block
10301e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  // Map a view of the file into memory
10311e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  void* memory = MapViewOfFile(file_mapping, FILE_MAP_ALL_ACCESS, 0, 0, size);
10321e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  return new Win32MemoryMappedFile(file, file_mapping, memory, size);
10331e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block}
10341e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block
10351e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block
1036a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockOS::MemoryMappedFile* OS::MemoryMappedFile::create(const char* name, int size,
1037a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    void* initial) {
1038a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Open a physical file
1039a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE file = CreateFileA(name, GENERIC_READ | GENERIC_WRITE,
1040a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_ALWAYS, 0, NULL);
1041a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (file == NULL) return NULL;
1042a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Create a file mapping for the physical file
1043a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE file_mapping = CreateFileMapping(file, NULL,
1044a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      PAGE_READWRITE, 0, static_cast<DWORD>(size), NULL);
1045a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (file_mapping == NULL) return NULL;
1046a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Map a view of the file into memory
1047a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  void* memory = MapViewOfFile(file_mapping, FILE_MAP_ALL_ACCESS, 0, 0, size);
1048a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (memory) memmove(memory, initial, size);
10491e0659c275bb392c045087af4f6b0d7565cb3d77Steve Block  return new Win32MemoryMappedFile(file, file_mapping, memory, size);
1050a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1051a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1052a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1053a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockWin32MemoryMappedFile::~Win32MemoryMappedFile() {
1054a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (memory_ != NULL)
1055a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    UnmapViewOfFile(memory_);
1056a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  CloseHandle(file_mapping_);
1057a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  CloseHandle(file_);
1058a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1059a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1060a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1061a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// The following code loads functions defined in DbhHelp.h and TlHelp32.h
1062a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// dynamically. This is to avoid being depending on dbghelp.dll and
1063a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// tlhelp32.dll when running (the functions in tlhelp32.dll have been moved to
1064a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// kernel32.dll at some point so loading functions defines in TlHelp32.h
1065a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// dynamically might not be necessary any more - for some versions of Windows?).
1066a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1067a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Function pointers to functions dynamically loaded from dbghelp.dll.
1068a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define DBGHELP_FUNCTION_LIST(V)  \
1069a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymInitialize)                \
1070a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymGetOptions)                \
1071a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymSetOptions)                \
1072a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymGetSearchPath)             \
1073a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymLoadModule64)              \
1074a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(StackWalk64)                  \
1075a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymGetSymFromAddr64)          \
1076a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymGetLineFromAddr64)         \
1077a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymFunctionTableAccess64)     \
1078a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(SymGetModuleBase64)
1079a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1080a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Function pointers to functions dynamically loaded from dbghelp.dll.
1081a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define TLHELP32_FUNCTION_LIST(V)  \
1082a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(CreateToolhelp32Snapshot)      \
1083a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(Module32FirstW)                \
1084a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  V(Module32NextW)
1085a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1086a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Define the decoration to use for the type and variable name used for
1087a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// dynamically loaded DLL function..
1088a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define DLL_FUNC_TYPE(name) _##name##_
1089a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define DLL_FUNC_VAR(name) _##name
1090a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1091a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Define the type for each dynamically loaded DLL function. The function
1092a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// definitions are copied from DbgHelp.h and TlHelp32.h. The IN and VOID macros
1093a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// from the Windows include files are redefined here to have the function
1094a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// definitions to be as close to the ones in the original .h files as possible.
1095a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifndef IN
1096a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define IN
1097a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif
1098a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifndef VOID
1099a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define VOID void
1100a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif
1101a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1102a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// DbgHelp isn't supported on MinGW yet
1103a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifndef __MINGW32__
1104a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// DbgHelp.h functions.
1105a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef BOOL (__stdcall *DLL_FUNC_TYPE(SymInitialize))(IN HANDLE hProcess,
1106a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                                                       IN PSTR UserSearchPath,
1107a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                                                       IN BOOL fInvadeProcess);
1108a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef DWORD (__stdcall *DLL_FUNC_TYPE(SymGetOptions))(VOID);
1109a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef DWORD (__stdcall *DLL_FUNC_TYPE(SymSetOptions))(IN DWORD SymOptions);
1110a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef BOOL (__stdcall *DLL_FUNC_TYPE(SymGetSearchPath))(
1111a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN HANDLE hProcess,
1112a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OUT PSTR SearchPath,
1113a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN DWORD SearchPathLength);
1114a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef DWORD64 (__stdcall *DLL_FUNC_TYPE(SymLoadModule64))(
1115a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN HANDLE hProcess,
1116a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN HANDLE hFile,
1117a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN PSTR ImageName,
1118a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN PSTR ModuleName,
1119a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN DWORD64 BaseOfDll,
1120a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN DWORD SizeOfDll);
1121a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef BOOL (__stdcall *DLL_FUNC_TYPE(StackWalk64))(
1122a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    DWORD MachineType,
1123a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    HANDLE hProcess,
1124a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    HANDLE hThread,
1125a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    LPSTACKFRAME64 StackFrame,
1126a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    PVOID ContextRecord,
1127a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    PREAD_PROCESS_MEMORY_ROUTINE64 ReadMemoryRoutine,
1128a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    PFUNCTION_TABLE_ACCESS_ROUTINE64 FunctionTableAccessRoutine,
1129a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    PGET_MODULE_BASE_ROUTINE64 GetModuleBaseRoutine,
1130a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress);
1131a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef BOOL (__stdcall *DLL_FUNC_TYPE(SymGetSymFromAddr64))(
1132a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN HANDLE hProcess,
1133a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN DWORD64 qwAddr,
1134a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OUT PDWORD64 pdwDisplacement,
1135a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OUT PIMAGEHLP_SYMBOL64 Symbol);
1136a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef BOOL (__stdcall *DLL_FUNC_TYPE(SymGetLineFromAddr64))(
1137a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN HANDLE hProcess,
1138a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    IN DWORD64 qwAddr,
1139a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OUT PDWORD pdwDisplacement,
1140a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    OUT PIMAGEHLP_LINE64 Line64);
1141a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// DbgHelp.h typedefs. Implementation found in dbghelp.dll.
1142a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef PVOID (__stdcall *DLL_FUNC_TYPE(SymFunctionTableAccess64))(
1143a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    HANDLE hProcess,
1144a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    DWORD64 AddrBase);  // DbgHelp.h typedef PFUNCTION_TABLE_ACCESS_ROUTINE64
1145a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef DWORD64 (__stdcall *DLL_FUNC_TYPE(SymGetModuleBase64))(
1146a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    HANDLE hProcess,
1147a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    DWORD64 AddrBase);  // DbgHelp.h typedef PGET_MODULE_BASE_ROUTINE64
1148a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1149a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// TlHelp32.h functions.
1150a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef HANDLE (__stdcall *DLL_FUNC_TYPE(CreateToolhelp32Snapshot))(
1151a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    DWORD dwFlags,
1152a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    DWORD th32ProcessID);
1153a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef BOOL (__stdcall *DLL_FUNC_TYPE(Module32FirstW))(HANDLE hSnapshot,
1154a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                                                        LPMODULEENTRY32W lpme);
1155a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocktypedef BOOL (__stdcall *DLL_FUNC_TYPE(Module32NextW))(HANDLE hSnapshot,
1156a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                                                       LPMODULEENTRY32W lpme);
1157a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1158a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#undef IN
1159a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#undef VOID
1160a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1161a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Declare a variable for each dynamically loaded DLL function.
1162a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define DEF_DLL_FUNCTION(name) DLL_FUNC_TYPE(name) DLL_FUNC_VAR(name) = NULL;
1163a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockDBGHELP_FUNCTION_LIST(DEF_DLL_FUNCTION)
1164a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockTLHELP32_FUNCTION_LIST(DEF_DLL_FUNCTION)
1165a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#undef DEF_DLL_FUNCTION
1166a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1167a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Load the functions. This function has a lot of "ugly" macros in order to
1168a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// keep down code duplication.
1169a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1170a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic bool LoadDbgHelpAndTlHelp32() {
1171a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static bool dbghelp_loaded = false;
1172a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1173a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (dbghelp_loaded) return true;
1174a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1175a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HMODULE module;
1176a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1177a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Load functions from the dbghelp.dll module.
1178a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  module = LoadLibrary(TEXT("dbghelp.dll"));
1179a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (module == NULL) {
1180a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return false;
1181a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1182a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1183a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define LOAD_DLL_FUNC(name)                                                 \
1184a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  DLL_FUNC_VAR(name) =                                                      \
1185a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      reinterpret_cast<DLL_FUNC_TYPE(name)>(GetProcAddress(module, #name));
1186a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1187a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockDBGHELP_FUNCTION_LIST(LOAD_DLL_FUNC)
1188a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1189a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#undef LOAD_DLL_FUNC
1190a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1191a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Load functions from the kernel32.dll module (the TlHelp32.h function used
1192a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // to be in tlhelp32.dll but are now moved to kernel32.dll).
1193a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  module = LoadLibrary(TEXT("kernel32.dll"));
1194a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (module == NULL) {
1195a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return false;
1196a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1197a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1198a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define LOAD_DLL_FUNC(name)                                                 \
1199a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  DLL_FUNC_VAR(name) =                                                      \
1200a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      reinterpret_cast<DLL_FUNC_TYPE(name)>(GetProcAddress(module, #name));
1201a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1202a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockTLHELP32_FUNCTION_LIST(LOAD_DLL_FUNC)
1203a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1204a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#undef LOAD_DLL_FUNC
1205a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1206a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Check that all functions where loaded.
1207a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool result =
1208a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define DLL_FUNC_LOADED(name) (DLL_FUNC_VAR(name) != NULL) &&
1209a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1210a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockDBGHELP_FUNCTION_LIST(DLL_FUNC_LOADED)
1211a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockTLHELP32_FUNCTION_LIST(DLL_FUNC_LOADED)
1212a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1213a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#undef DLL_FUNC_LOADED
1214a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  true;
1215a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1216a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  dbghelp_loaded = result;
1217a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return result;
1218a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // NOTE: The modules are never unloaded and will stay around until the
1219a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // application is closed.
1220a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1221a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1222a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1223a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Load the symbols for generating stack traces.
1224a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic bool LoadSymbols(HANDLE process_handle) {
1225a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  static bool symbols_loaded = false;
1226a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1227a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (symbols_loaded) return true;
1228a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1229a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  BOOL ok;
1230a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1231a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Initialize the symbol engine.
1232a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ok = _SymInitialize(process_handle,  // hProcess
1233a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                      NULL,            // UserSearchPath
1234b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch                      false);          // fInvadeProcess
1235a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!ok) return false;
1236a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1237a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  DWORD options = _SymGetOptions();
1238a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  options |= SYMOPT_LOAD_LINES;
1239a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  options |= SYMOPT_FAIL_CRITICAL_ERRORS;
1240a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  options = _SymSetOptions(options);
1241a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1242a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  char buf[OS::kStackWalkMaxNameLen] = {0};
1243a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ok = _SymGetSearchPath(process_handle, buf, OS::kStackWalkMaxNameLen);
1244a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!ok) {
1245a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    int err = GetLastError();
1246a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    PrintF("%d\n", err);
1247a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return false;
1248a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1249a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1250a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE snapshot = _CreateToolhelp32Snapshot(
1251a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      TH32CS_SNAPMODULE,       // dwFlags
1252a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      GetCurrentProcessId());  // th32ProcessId
1253a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (snapshot == INVALID_HANDLE_VALUE) return false;
1254a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  MODULEENTRY32W module_entry;
1255a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  module_entry.dwSize = sizeof(module_entry);  // Set the size of the structure.
1256a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  BOOL cont = _Module32FirstW(snapshot, &module_entry);
1257a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  while (cont) {
1258a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    DWORD64 base;
1259a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // NOTE the SymLoadModule64 function has the peculiarity of accepting a
1260a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // both unicode and ASCII strings even though the parameter is PSTR.
1261a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    base = _SymLoadModule64(
1262a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        process_handle,                                       // hProcess
1263a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        0,                                                    // hFile
1264a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        reinterpret_cast<PSTR>(module_entry.szExePath),       // ImageName
1265a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        reinterpret_cast<PSTR>(module_entry.szModule),        // ModuleName
1266a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        reinterpret_cast<DWORD64>(module_entry.modBaseAddr),  // BaseOfDll
1267a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        module_entry.modBaseSize);                            // SizeOfDll
1268a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    if (base == 0) {
1269a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      int err = GetLastError();
1270a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      if (err != ERROR_MOD_NOT_FOUND &&
1271a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block          err != ERROR_INVALID_HANDLE) return false;
1272a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    }
127344f0eee88ff00398ff7f715fab053374d808c90dSteve Block    LOG(i::Isolate::Current(),
127444f0eee88ff00398ff7f715fab053374d808c90dSteve Block        SharedLibraryEvent(
1275a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block            module_entry.szExePath,
1276a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block            reinterpret_cast<unsigned int>(module_entry.modBaseAddr),
1277a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block            reinterpret_cast<unsigned int>(module_entry.modBaseAddr +
1278a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                                           module_entry.modBaseSize)));
1279a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    cont = _Module32NextW(snapshot, &module_entry);
1280a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1281a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  CloseHandle(snapshot);
1282a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1283a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  symbols_loaded = true;
1284a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return true;
1285a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1286a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1287a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1288a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::LogSharedLibraryAddresses() {
1289a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // SharedLibraryEvents are logged when loading symbol information.
1290a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Only the shared libraries loaded at the time of the call to
1291a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // LogSharedLibraryAddresses are logged.  DLLs loaded after
1292a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // initialization are not accounted for.
1293a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!LoadDbgHelpAndTlHelp32()) return;
1294a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE process_handle = GetCurrentProcess();
1295a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  LoadSymbols(process_handle);
1296a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1297a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1298a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1299f87a203d89e1bbb6708282e0b64dbd13d59b723dBen Murdochvoid OS::SignalCodeMovingGC() {
1300f87a203d89e1bbb6708282e0b64dbd13d59b723dBen Murdoch}
1301f87a203d89e1bbb6708282e0b64dbd13d59b723dBen Murdoch
1302f87a203d89e1bbb6708282e0b64dbd13d59b723dBen Murdoch
1303a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Walk the stack using the facilities in dbghelp.dll and tlhelp32.dll
1304a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1305a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Switch off warning 4748 (/GS can not protect parameters and local variables
1306a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// from local buffer overrun because optimizations are disabled in function) as
1307a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// it is triggered by the use of inline assembler.
1308a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#pragma warning(push)
1309a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#pragma warning(disable : 4748)
1310a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint OS::StackWalk(Vector<OS::StackFrame> frames) {
1311a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  BOOL ok;
1312a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1313a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Load the required functions from DLL's.
1314a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!LoadDbgHelpAndTlHelp32()) return kStackWalkError;
1315a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1316a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Get the process and thread handles.
1317a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE process_handle = GetCurrentProcess();
1318a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE thread_handle = GetCurrentThread();
1319a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1320a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Read the symbols.
1321a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!LoadSymbols(process_handle)) return kStackWalkError;
1322a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1323a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Capture current context.
1324a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  CONTEXT context;
1325d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block  RtlCaptureContext(&context);
1326a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1327a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Initialize the stack walking
1328a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  STACKFRAME64 stack_frame;
1329a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  memset(&stack_frame, 0, sizeof(stack_frame));
1330a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef  _WIN64
1331a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrPC.Offset = context.Rip;
1332a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrFrame.Offset = context.Rbp;
1333a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrStack.Offset = context.Rsp;
1334a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#else
1335a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrPC.Offset = context.Eip;
1336a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrFrame.Offset = context.Ebp;
1337a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrStack.Offset = context.Esp;
1338a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif
1339a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrPC.Mode = AddrModeFlat;
1340a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrFrame.Mode = AddrModeFlat;
1341a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  stack_frame.AddrStack.Mode = AddrModeFlat;
1342a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int frames_count = 0;
1343a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1344a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Collect stack frames.
1345a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int frames_size = frames.length();
1346a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  while (frames_count < frames_size) {
1347a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    ok = _StackWalk64(
1348a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        IMAGE_FILE_MACHINE_I386,    // MachineType
1349a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        process_handle,             // hProcess
1350a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        thread_handle,              // hThread
1351a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        &stack_frame,               // StackFrame
1352a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        &context,                   // ContextRecord
1353a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        NULL,                       // ReadMemoryRoutine
1354a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        _SymFunctionTableAccess64,  // FunctionTableAccessRoutine
1355a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        _SymGetModuleBase64,        // GetModuleBaseRoutine
1356a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        NULL);                      // TranslateAddress
1357a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    if (!ok) break;
1358a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1359a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // Store the address.
1360a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    ASSERT((stack_frame.AddrPC.Offset >> 32) == 0);  // 32-bit address.
1361a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    frames[frames_count].address =
1362a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        reinterpret_cast<void*>(stack_frame.AddrPC.Offset);
1363a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1364a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // Try to locate a symbol for this frame.
1365a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    DWORD64 symbol_displacement;
1366589d6979ff2ef66fca2d8fa51404c369ca5e9250Ben Murdoch    SmartArrayPointer<IMAGEHLP_SYMBOL64> symbol(
136725f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen        NewArray<IMAGEHLP_SYMBOL64>(kStackWalkMaxNameLen));
136825f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen    if (symbol.is_empty()) return kStackWalkError;  // Out of memory.
136925f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen    memset(*symbol, 0, sizeof(IMAGEHLP_SYMBOL64) + kStackWalkMaxNameLen);
137025f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen    (*symbol)->SizeOfStruct = sizeof(IMAGEHLP_SYMBOL64);
137125f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen    (*symbol)->MaxNameLength = kStackWalkMaxNameLen;
1372a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    ok = _SymGetSymFromAddr64(process_handle,             // hProcess
1373a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                              stack_frame.AddrPC.Offset,  // Address
1374a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                              &symbol_displacement,       // Displacement
137525f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen                              *symbol);                   // Symbol
1376a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    if (ok) {
1377a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      // Try to locate more source information for the symbol.
1378a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      IMAGEHLP_LINE64 Line;
1379a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      memset(&Line, 0, sizeof(Line));
1380a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      Line.SizeOfStruct = sizeof(Line);
1381a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      DWORD line_displacement;
1382a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      ok = _SymGetLineFromAddr64(
1383a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block          process_handle,             // hProcess
1384a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block          stack_frame.AddrPC.Offset,  // dwAddr
1385a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block          &line_displacement,         // pdwDisplacement
1386a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block          &Line);                     // Line
1387a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      // Format a text representation of the frame based on the information
1388a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      // available.
1389a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      if (ok) {
1390a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        SNPrintF(MutableCStrVector(frames[frames_count].text,
1391a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                                   kStackWalkMaxTextLen),
1392a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                 "%s %s:%d:%d",
139325f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen                 (*symbol)->Name, Line.FileName, Line.LineNumber,
1394a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                 line_displacement);
1395a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      } else {
1396a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        SNPrintF(MutableCStrVector(frames[frames_count].text,
1397a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                                   kStackWalkMaxTextLen),
1398a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                 "%s",
139925f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen                 (*symbol)->Name);
1400a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      }
1401a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      // Make sure line termination is in place.
1402a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      frames[frames_count].text[kStackWalkMaxTextLen - 1] = '\0';
1403a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    } else {
1404a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      // No text representation of this frame
1405a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      frames[frames_count].text[0] = '\0';
1406a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1407a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      // Continue if we are just missing a module (for non C/C++ frames a
1408a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      // module will never be found).
1409a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      int err = GetLastError();
1410a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      if (err != ERROR_MOD_NOT_FOUND) {
1411a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block        break;
1412a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      }
1413a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    }
1414a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1415a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    frames_count++;
1416a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1417a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1418a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Return the number of frames filled in.
1419a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return frames_count;
1420a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1421a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1422a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Restore warnings to previous settings.
1423a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#pragma warning(pop)
1424a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1425a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#else  // __MINGW32__
1426a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid OS::LogSharedLibraryAddresses() { }
1427b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdochvoid OS::SignalCodeMovingGC() { }
1428a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint OS::StackWalk(Vector<OS::StackFrame> frames) { return 0; }
1429a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif  // __MINGW32__
1430a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1431a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1432d0582a6c46733687d045e4188a1bcd0123c758a1Steve Blockuint64_t OS::CpuFeaturesImpliedByPlatform() {
1433d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block  return 0;  // Windows runs on anything.
1434d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block}
1435d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block
1436d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block
1437a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockdouble OS::nan_value() {
1438a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef _MSC_VER
1439d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block  // Positive Quiet NaN with no payload (aka. Indeterminate) has all bits
1440d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block  // in mask set, so value equals mask.
1441d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block  static const __int64 nanval = kQuietNaNMask;
1442a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return *reinterpret_cast<const double*>(&nanval);
1443a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#else  // _MSC_VER
1444a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return NAN;
1445a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif  // _MSC_VER
1446a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1447a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1448a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1449a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint OS::ActivationFrameAlignment() {
1450a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef _WIN64
1451a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return 16;  // Windows 64-bit ABI requires the stack to be 16-byte aligned.
1452a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#else
1453a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return 8;  // Floating-point math runs faster with 8-byte alignment.
1454a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif
1455a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1456a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1457a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1458f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarkevoid OS::ReleaseStore(volatile AtomicWord* ptr, AtomicWord value) {
1459f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke  MemoryBarrier();
1460f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke  *ptr = value;
1461f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke}
1462f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke
1463f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke
14643ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochVirtualMemory::VirtualMemory() : address_(NULL), size_(0) { }
1465592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch
1466592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch
14673ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochVirtualMemory::VirtualMemory(size_t size)
14683ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    : address_(ReserveRegion(size)), size_(size) { }
14693ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
14703ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
14713ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochVirtualMemory::VirtualMemory(size_t size, size_t alignment)
14723ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    : address_(NULL), size_(0) {
14733ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  ASSERT(IsAligned(alignment, static_cast<intptr_t>(OS::AllocateAlignment())));
14743ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  size_t request_size = RoundUp(size + alignment,
14753ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                                static_cast<intptr_t>(OS::AllocateAlignment()));
14763ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  void* address = ReserveRegion(request_size);
14773ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (address == NULL) return;
14783ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  Address base = RoundUp(static_cast<Address>(address), alignment);
14793ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  // Try reducing the size by freeing and then reallocating a specific area.
14803ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  bool result = ReleaseRegion(address, request_size);
14813ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  USE(result);
14823ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  ASSERT(result);
14833ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  address = VirtualAlloc(base, size, MEM_RESERVE, PAGE_NOACCESS);
14843ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (address != NULL) {
14853ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    request_size = size;
14863ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    ASSERT(base == static_cast<Address>(address));
14873ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  } else {
14883ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    // Resizing failed, just go with a bigger area.
14893ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    address = ReserveRegion(request_size);
14903ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    if (address == NULL) return;
14913ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  }
14923ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  address_ = address;
14933ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  size_ = request_size;
1494592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch}
1495592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch
1496592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch
149785b71799222b55eb5dd74ea26efe0c64ab655c8cBen MurdochVirtualMemory::~VirtualMemory() {
149885b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdoch  if (IsReserved()) {
14993ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    bool result = ReleaseRegion(address_, size_);
15003ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    ASSERT(result);
15013ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    USE(result);
1502592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch  }
1503592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch}
1504592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch
1505592a9fc1d8ea420377a2e7efd0600e20b058be2bBen Murdoch
15063ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochbool VirtualMemory::IsReserved() {
15073ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return address_ != NULL;
15083ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
15093ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15103ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15113ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochvoid VirtualMemory::Reset() {
15123ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  address_ = NULL;
15133ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  size_ = 0;
15143ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
15153ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15163ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
151785b71799222b55eb5dd74ea26efe0c64ab655c8cBen Murdochbool VirtualMemory::Commit(void* address, size_t size, bool is_executable) {
15183ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (CommitRegion(address, size, is_executable)) {
15193ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    UpdateAllocatedSpaceLimits(address, static_cast<int>(size));
15203ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    return true;
15213ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  }
15223ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return false;
15233ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
15243ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15253ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15263ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochbool VirtualMemory::Uncommit(void* address, size_t size) {
15273ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  ASSERT(IsReserved());
15283ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return UncommitRegion(address, size);
15293ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
15303ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15313ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15323ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochvoid* VirtualMemory::ReserveRegion(size_t size) {
15333ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return RandomizedVirtualAlloc(size, MEM_RESERVE, PAGE_NOACCESS);
15343ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
15353ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15363ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15373ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochbool VirtualMemory::CommitRegion(void* base, size_t size, bool is_executable) {
1538a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int prot = is_executable ? PAGE_EXECUTE_READWRITE : PAGE_READWRITE;
15393ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (NULL == VirtualAlloc(base, size, MEM_COMMIT, prot)) {
1540a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return false;
1541a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1542a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
15433ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  UpdateAllocatedSpaceLimits(base, static_cast<int>(size));
1544a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return true;
1545a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1546a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1547a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
15483ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochbool VirtualMemory::Guard(void* address) {
15493ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (NULL == VirtualAlloc(address,
15503ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                           OS::CommitPageSize(),
15513ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                           MEM_COMMIT,
15523ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                           PAGE_READONLY | PAGE_GUARD)) {
15533ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    return false;
15543ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  }
15553ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return true;
15563ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
15573ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15583ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15593ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochbool VirtualMemory::UncommitRegion(void* base, size_t size) {
15603ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return VirtualFree(base, size, MEM_DECOMMIT) != 0;
15613ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch}
15623ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15633ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
15643ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochbool VirtualMemory::ReleaseRegion(void* base, size_t size) {
15653ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  return VirtualFree(base, 0, MEM_RELEASE) != 0;
1566a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1567a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1568a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1569a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------
1570a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Win32 thread support.
1571a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1572a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Definition of invalid thread handle and id.
1573a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic const HANDLE kNoThread = INVALID_HANDLE_VALUE;
1574a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1575a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Entry point for threads. The supplied argument is a pointer to the thread
1576a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// object. The entry function dispatches to the run method in the thread
1577a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// object. It is important that this function has __stdcall calling
1578a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// convention.
1579a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic unsigned int __stdcall ThreadEntry(void* arg) {
1580a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Thread* thread = reinterpret_cast<Thread*>(arg);
1581a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  thread->Run();
1582a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return 0;
1583a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1584a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1585a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1586a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Thread::PlatformData : public Malloced {
1587a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public:
1588a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  explicit PlatformData(HANDLE thread) : thread_(thread) {}
1589a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE thread_;
15903ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  unsigned thread_id_;
1591a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block};
1592a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1593a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1594a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Initialize a Win32 thread object. The thread has an invalid thread
1595a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// handle until it is started.
1596a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
15973fb3ca8c7ca439d408449a395897395c0faae8d1Ben MurdochThread::Thread(const Options& options)
15983ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    : stack_size_(options.stack_size()) {
15999fac840a46e8b7e26894f4792ba26dde14c56b04Steve Block  data_ = new PlatformData(kNoThread);
16003ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  set_name(options.name());
16019fac840a46e8b7e26894f4792ba26dde14c56b04Steve Block}
16029fac840a46e8b7e26894f4792ba26dde14c56b04Steve Block
16039fac840a46e8b7e26894f4792ba26dde14c56b04Steve Block
16049fac840a46e8b7e26894f4792ba26dde14c56b04Steve Blockvoid Thread::set_name(const char* name) {
1605b8e0da25ee8efac3bb05cd6b2730aafbd96119f4Ben Murdoch  OS::StrNCpy(Vector<char>(name_, sizeof(name_)), name, strlen(name));
16069fac840a46e8b7e26894f4792ba26dde14c56b04Steve Block  name_[sizeof(name_) - 1] = '\0';
1607a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1608a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1609a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1610a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Close our own handle for the thread.
1611a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockThread::~Thread() {
1612a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (data_->thread_ != kNoThread) CloseHandle(data_->thread_);
1613a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  delete data_;
1614a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1615a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1616a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1617a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Create a new thread. It is important to use _beginthreadex() instead of
1618a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// the Win32 function CreateThread(), because the CreateThread() does not
1619a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// initialize thread specific structures in the C runtime library.
1620a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Thread::Start() {
1621a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  data_->thread_ = reinterpret_cast<HANDLE>(
1622a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block      _beginthreadex(NULL,
162344f0eee88ff00398ff7f715fab053374d808c90dSteve Block                     static_cast<unsigned>(stack_size_),
1624a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                     ThreadEntry,
1625a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                     this,
1626a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                     0,
16273ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch                     &data_->thread_id_));
1628a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1629a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1630a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1631a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Wait for thread to terminate.
1632a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Thread::Join() {
16333ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  if (data_->thread_id_ != GetCurrentThreadId()) {
16343ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    WaitForSingleObject(data_->thread_, INFINITE);
16353ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  }
1636a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1637a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1638a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1639a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockThread::LocalStorageKey Thread::CreateThreadLocalKey() {
1640a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  DWORD result = TlsAlloc();
1641a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ASSERT(result != TLS_OUT_OF_INDEXES);
1642a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return static_cast<LocalStorageKey>(result);
1643a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1644a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1645a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1646a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Thread::DeleteThreadLocalKey(LocalStorageKey key) {
1647a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  BOOL result = TlsFree(static_cast<DWORD>(key));
1648a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  USE(result);
1649a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ASSERT(result);
1650a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1651a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1652a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1653a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid* Thread::GetThreadLocal(LocalStorageKey key) {
1654a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return TlsGetValue(static_cast<DWORD>(key));
1655a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1656a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1657a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1658a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Thread::SetThreadLocal(LocalStorageKey key, void* value) {
1659a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  BOOL result = TlsSetValue(static_cast<DWORD>(key), value);
1660a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  USE(result);
1661a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ASSERT(result);
1662a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1663a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1664a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1665a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1666a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Thread::YieldCPU() {
1667a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Sleep(0);
1668a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1669a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1670a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1671a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------
1672a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Win32 mutex support.
1673a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//
1674a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// On Win32 mutexes are implemented using CRITICAL_SECTION objects. These are
1675a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// faster than Win32 Mutex objects because they are implemented using user mode
1676a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// atomic instructions. Therefore we only do ring transitions if there is lock
1677a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// contention.
1678a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1679a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Win32Mutex : public Mutex {
1680a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public:
1681a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Win32Mutex() { InitializeCriticalSection(&cs_); }
1682a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1683b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  virtual ~Win32Mutex() { DeleteCriticalSection(&cs_); }
1684a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1685b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  virtual int Lock() {
1686a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    EnterCriticalSection(&cs_);
1687a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return 0;
1688a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1689a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1690b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  virtual int Unlock() {
1691a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    LeaveCriticalSection(&cs_);
1692a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return 0;
1693a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1694a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1695b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
1696b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  virtual bool TryLock() {
1697b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch    // Returns non-zero if critical section is entered successfully entered.
1698b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch    return TryEnterCriticalSection(&cs_);
1699b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  }
1700b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
1701a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private:
1702a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  CRITICAL_SECTION cs_;  // Critical section used for mutex
1703a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block};
1704a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1705a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1706a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockMutex* OS::CreateMutex() {
1707a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return new Win32Mutex();
1708a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1709a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1710a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1711a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------
1712a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Win32 semaphore support.
1713a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//
1714a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// On Win32 semaphores are implemented using Win32 Semaphore objects. The
1715a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// semaphores are anonymous. Also, the semaphores are initialized to have
1716a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// no upper limit on count.
1717a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1718a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1719a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Win32Semaphore : public Semaphore {
1720a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public:
1721a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  explicit Win32Semaphore(int count) {
1722a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    sem = ::CreateSemaphoreA(NULL, count, 0x7fffffff, NULL);
1723a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1724a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1725a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  ~Win32Semaphore() {
1726a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    CloseHandle(sem);
1727a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1728a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1729a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  void Wait() {
1730a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    WaitForSingleObject(sem, INFINITE);
1731a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1732a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1733a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool Wait(int timeout) {
1734a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // Timeout in Windows API is in milliseconds.
1735a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    DWORD millis_timeout = timeout / 1000;
1736a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return WaitForSingleObject(sem, millis_timeout) != WAIT_TIMEOUT;
1737a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1738a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1739a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  void Signal() {
1740a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    LONG dummy;
1741a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    ReleaseSemaphore(sem, 1, &dummy);
1742a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1743a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1744a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private:
1745a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE sem;
1746a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block};
1747a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1748a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1749a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockSemaphore* OS::CreateSemaphore(int count) {
1750a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return new Win32Semaphore(count);
1751a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1752a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1753a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1754a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------
1755a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Win32 socket support.
1756a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block//
1757a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1758a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Win32Socket : public Socket {
1759a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public:
1760a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  explicit Win32Socket() {
1761a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // Create the socket.
1762a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    socket_ = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
1763a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1764a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  explicit Win32Socket(SOCKET socket): socket_(socket) { }
1765a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  virtual ~Win32Socket() { Shutdown(); }
1766a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1767a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Server initialization.
1768a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool Bind(const int port);
1769a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool Listen(int backlog) const;
1770a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  Socket* Accept() const;
1771a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1772a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Client initialization.
1773a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool Connect(const char* host, const char* port);
1774a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1775a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Shutdown socket for both read and write.
1776a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool Shutdown();
1777a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1778a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Data Transimission
1779a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int Send(const char* data, int len) const;
1780a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int Receive(char* data, int len) const;
1781a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1782a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool SetReuseAddress(bool reuse_address);
1783a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1784a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  bool IsValid() const { return socket_ != INVALID_SOCKET; }
1785a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1786a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private:
1787a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  SOCKET socket_;
1788a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block};
1789a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1790a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1791a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockbool Win32Socket::Bind(const int port) {
1792a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!IsValid())  {
1793a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return false;
1794a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1795a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1796a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  sockaddr_in addr;
1797a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  memset(&addr, 0, sizeof(addr));
1798a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  addr.sin_family = AF_INET;
1799a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  addr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
1800a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  addr.sin_port = htons(port);
1801a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int status = bind(socket_,
1802a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                    reinterpret_cast<struct sockaddr *>(&addr),
1803a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                    sizeof(addr));
1804a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return status == 0;
1805a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1806a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1807a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1808a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockbool Win32Socket::Listen(int backlog) const {
1809a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!IsValid()) {
1810a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return false;
1811a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1812a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1813a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int status = listen(socket_, backlog);
1814a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return status == 0;
1815a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1816a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1817a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1818a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockSocket* Win32Socket::Accept() const {
1819a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!IsValid()) {
1820a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return NULL;
1821a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1822a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1823a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  SOCKET socket = accept(socket_, NULL, NULL);
1824a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (socket == INVALID_SOCKET) {
1825a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return NULL;
1826a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  } else {
1827a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return new Win32Socket(socket);
1828a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1829a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1830a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1831a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1832a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockbool Win32Socket::Connect(const char* host, const char* port) {
1833a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (!IsValid()) {
1834a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return false;
1835a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1836a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1837a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Lookup host and port.
1838a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  struct addrinfo *result = NULL;
1839a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  struct addrinfo hints;
1840a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  memset(&hints, 0, sizeof(addrinfo));
1841a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  hints.ai_family = AF_INET;
1842a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  hints.ai_socktype = SOCK_STREAM;
1843a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  hints.ai_protocol = IPPROTO_TCP;
1844a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int status = getaddrinfo(host, port, &hints, &result);
1845a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (status != 0) {
1846a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return false;
1847a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1848a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1849a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Connect.
1850d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block  status = connect(socket_,
1851d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block                   result->ai_addr,
1852d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block                   static_cast<int>(result->ai_addrlen));
1853a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  freeaddrinfo(result);
1854a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return status == 0;
1855a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1856a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1857a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1858a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockbool Win32Socket::Shutdown() {
1859a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (IsValid()) {
1860a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    // Shutdown socket for both read and write.
1861a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    int status = shutdown(socket_, SD_BOTH);
1862a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    closesocket(socket_);
1863a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    socket_ = INVALID_SOCKET;
1864a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    return status == SOCKET_ERROR;
1865a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1866a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return true;
1867a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1868a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1869a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1870a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint Win32Socket::Send(const char* data, int len) const {
1871a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int status = send(socket_, data, len, 0);
1872a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return status;
1873a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1874a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1875a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1876a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint Win32Socket::Receive(char* data, int len) const {
1877a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int status = recv(socket_, data, len, 0);
1878a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return status;
1879a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1880a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1881a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1882a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockbool Win32Socket::SetReuseAddress(bool reuse_address) {
1883b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  BOOL on = reuse_address ? true : false;
1884a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int status = setsockopt(socket_, SOL_SOCKET, SO_REUSEADDR,
1885a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block                          reinterpret_cast<char*>(&on), sizeof(on));
1886a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return status == SOCKET_ERROR;
1887a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1888a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1889a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
18903ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdochbool Socket::SetUp() {
1891a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  // Initialize Winsock32
1892a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  int err;
1893a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  WSADATA winsock_data;
1894a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  WORD version_requested = MAKEWORD(1, 0);
1895a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  err = WSAStartup(version_requested, &winsock_data);
1896a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  if (err != 0) {
1897a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    PrintF("Unable to initialize Winsock, err = %d\n", Socket::LastError());
1898a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1899a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1900a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return err == 0;
1901a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1902a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1903a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1904a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockint Socket::LastError() {
1905a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return WSAGetLastError();
1906a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1907a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1908a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1909a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockuint16_t Socket::HToN(uint16_t value) {
1910a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return htons(value);
1911a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1912a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1913a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1914a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockuint16_t Socket::NToH(uint16_t value) {
1915a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return ntohs(value);
1916a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1917a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1918a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1919a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockuint32_t Socket::HToN(uint32_t value) {
1920a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return htonl(value);
1921a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1922a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1923a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1924a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockuint32_t Socket::NToH(uint32_t value) {
1925a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return ntohl(value);
1926a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1927a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1928a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1929a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockSocket* OS::CreateSocket() {
1930a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  return new Win32Socket();
1931a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
1932a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1933a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1934a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------
1935a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Win32 profiler support.
1936a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
1937a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Sampler::PlatformData : public Malloced {
1938a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public:
193944f0eee88ff00398ff7f715fab053374d808c90dSteve Block  // Get a handle to the calling thread. This is the thread that we are
194044f0eee88ff00398ff7f715fab053374d808c90dSteve Block  // going to profile. We need to make a copy of the handle because we are
194144f0eee88ff00398ff7f715fab053374d808c90dSteve Block  // going to use it in the sampler thread. Using GetThreadHandle() will
194244f0eee88ff00398ff7f715fab053374d808c90dSteve Block  // not work in this case. We're using OpenThread because DuplicateHandle
194344f0eee88ff00398ff7f715fab053374d808c90dSteve Block  // for some reason doesn't work in Chrome's sandbox.
194444f0eee88ff00398ff7f715fab053374d808c90dSteve Block  PlatformData() : profiled_thread_(OpenThread(THREAD_GET_CONTEXT |
194544f0eee88ff00398ff7f715fab053374d808c90dSteve Block                                               THREAD_SUSPEND_RESUME |
194644f0eee88ff00398ff7f715fab053374d808c90dSteve Block                                               THREAD_QUERY_INFORMATION,
194744f0eee88ff00398ff7f715fab053374d808c90dSteve Block                                               false,
194844f0eee88ff00398ff7f715fab053374d808c90dSteve Block                                               GetCurrentThreadId())) {}
194944f0eee88ff00398ff7f715fab053374d808c90dSteve Block
195044f0eee88ff00398ff7f715fab053374d808c90dSteve Block  ~PlatformData() {
195144f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (profiled_thread_ != NULL) {
195244f0eee88ff00398ff7f715fab053374d808c90dSteve Block      CloseHandle(profiled_thread_);
195344f0eee88ff00398ff7f715fab053374d808c90dSteve Block      profiled_thread_ = NULL;
195444f0eee88ff00398ff7f715fab053374d808c90dSteve Block    }
1955a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
1956a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
195744f0eee88ff00398ff7f715fab053374d808c90dSteve Block  HANDLE profiled_thread() { return profiled_thread_; }
195844f0eee88ff00398ff7f715fab053374d808c90dSteve Block
195944f0eee88ff00398ff7f715fab053374d808c90dSteve Block private:
1960a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  HANDLE profiled_thread_;
196144f0eee88ff00398ff7f715fab053374d808c90dSteve Block};
196244f0eee88ff00398ff7f715fab053374d808c90dSteve Block
196344f0eee88ff00398ff7f715fab053374d808c90dSteve Block
196444f0eee88ff00398ff7f715fab053374d808c90dSteve Blockclass SamplerThread : public Thread {
196544f0eee88ff00398ff7f715fab053374d808c90dSteve Block public:
19663ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  static const int kSamplerThreadStackSize = 64 * KB;
19673ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch
196844f0eee88ff00398ff7f715fab053374d808c90dSteve Block  explicit SamplerThread(int interval)
19693ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch      : Thread(Thread::Options("SamplerThread", kSamplerThreadStackSize)),
197044f0eee88ff00398ff7f715fab053374d808c90dSteve Block        interval_(interval) {}
197144f0eee88ff00398ff7f715fab053374d808c90dSteve Block
197244f0eee88ff00398ff7f715fab053374d808c90dSteve Block  static void AddActiveSampler(Sampler* sampler) {
19733ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    ScopedLock lock(mutex_.Pointer());
197444f0eee88ff00398ff7f715fab053374d808c90dSteve Block    SamplerRegistry::AddActiveSampler(sampler);
197544f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (instance_ == NULL) {
197644f0eee88ff00398ff7f715fab053374d808c90dSteve Block      instance_ = new SamplerThread(sampler->interval());
197744f0eee88ff00398ff7f715fab053374d808c90dSteve Block      instance_->Start();
197844f0eee88ff00398ff7f715fab053374d808c90dSteve Block    } else {
197944f0eee88ff00398ff7f715fab053374d808c90dSteve Block      ASSERT(instance_->interval_ == sampler->interval());
198044f0eee88ff00398ff7f715fab053374d808c90dSteve Block    }
198144f0eee88ff00398ff7f715fab053374d808c90dSteve Block  }
198244f0eee88ff00398ff7f715fab053374d808c90dSteve Block
198344f0eee88ff00398ff7f715fab053374d808c90dSteve Block  static void RemoveActiveSampler(Sampler* sampler) {
19843ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch    ScopedLock lock(mutex_.Pointer());
198544f0eee88ff00398ff7f715fab053374d808c90dSteve Block    SamplerRegistry::RemoveActiveSampler(sampler);
198644f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (SamplerRegistry::GetState() == SamplerRegistry::HAS_NO_SAMPLERS) {
19873fb3ca8c7ca439d408449a395897395c0faae8d1Ben Murdoch      RuntimeProfiler::StopRuntimeProfilerThreadBeforeShutdown(instance_);
198844f0eee88ff00398ff7f715fab053374d808c90dSteve Block      delete instance_;
198944f0eee88ff00398ff7f715fab053374d808c90dSteve Block      instance_ = NULL;
199044f0eee88ff00398ff7f715fab053374d808c90dSteve Block    }
199144f0eee88ff00398ff7f715fab053374d808c90dSteve Block  }
1992a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
199344f0eee88ff00398ff7f715fab053374d808c90dSteve Block  // Implement Thread::Run().
199444f0eee88ff00398ff7f715fab053374d808c90dSteve Block  virtual void Run() {
199544f0eee88ff00398ff7f715fab053374d808c90dSteve Block    SamplerRegistry::State state;
199644f0eee88ff00398ff7f715fab053374d808c90dSteve Block    while ((state = SamplerRegistry::GetState()) !=
199744f0eee88ff00398ff7f715fab053374d808c90dSteve Block           SamplerRegistry::HAS_NO_SAMPLERS) {
199844f0eee88ff00398ff7f715fab053374d808c90dSteve Block      bool cpu_profiling_enabled =
199944f0eee88ff00398ff7f715fab053374d808c90dSteve Block          (state == SamplerRegistry::HAS_CPU_PROFILING_SAMPLERS);
200044f0eee88ff00398ff7f715fab053374d808c90dSteve Block      bool runtime_profiler_enabled = RuntimeProfiler::IsEnabled();
200144f0eee88ff00398ff7f715fab053374d808c90dSteve Block      // When CPU profiling is enabled both JavaScript and C++ code is
200244f0eee88ff00398ff7f715fab053374d808c90dSteve Block      // profiled. We must not suspend.
200344f0eee88ff00398ff7f715fab053374d808c90dSteve Block      if (!cpu_profiling_enabled) {
200444f0eee88ff00398ff7f715fab053374d808c90dSteve Block        if (rate_limiter_.SuspendIfNecessary()) continue;
200544f0eee88ff00398ff7f715fab053374d808c90dSteve Block      }
200644f0eee88ff00398ff7f715fab053374d808c90dSteve Block      if (cpu_profiling_enabled) {
200744f0eee88ff00398ff7f715fab053374d808c90dSteve Block        if (!SamplerRegistry::IterateActiveSamplers(&DoCpuProfile, this)) {
200844f0eee88ff00398ff7f715fab053374d808c90dSteve Block          return;
200944f0eee88ff00398ff7f715fab053374d808c90dSteve Block        }
201044f0eee88ff00398ff7f715fab053374d808c90dSteve Block      }
201144f0eee88ff00398ff7f715fab053374d808c90dSteve Block      if (runtime_profiler_enabled) {
201244f0eee88ff00398ff7f715fab053374d808c90dSteve Block        if (!SamplerRegistry::IterateActiveSamplers(&DoRuntimeProfile, NULL)) {
201344f0eee88ff00398ff7f715fab053374d808c90dSteve Block          return;
201444f0eee88ff00398ff7f715fab053374d808c90dSteve Block        }
201544f0eee88ff00398ff7f715fab053374d808c90dSteve Block      }
201644f0eee88ff00398ff7f715fab053374d808c90dSteve Block      OS::Sleep(interval_);
2017b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch    }
2018b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  }
2019b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
202044f0eee88ff00398ff7f715fab053374d808c90dSteve Block  static void DoCpuProfile(Sampler* sampler, void* raw_sampler_thread) {
202144f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (!sampler->isolate()->IsInitialized()) return;
202244f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (!sampler->IsProfiling()) return;
202344f0eee88ff00398ff7f715fab053374d808c90dSteve Block    SamplerThread* sampler_thread =
202444f0eee88ff00398ff7f715fab053374d808c90dSteve Block        reinterpret_cast<SamplerThread*>(raw_sampler_thread);
202544f0eee88ff00398ff7f715fab053374d808c90dSteve Block    sampler_thread->SampleContext(sampler);
202644f0eee88ff00398ff7f715fab053374d808c90dSteve Block  }
202744f0eee88ff00398ff7f715fab053374d808c90dSteve Block
202844f0eee88ff00398ff7f715fab053374d808c90dSteve Block  static void DoRuntimeProfile(Sampler* sampler, void* ignored) {
202944f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (!sampler->isolate()->IsInitialized()) return;
203044f0eee88ff00398ff7f715fab053374d808c90dSteve Block    sampler->isolate()->runtime_profiler()->NotifyTick();
203144f0eee88ff00398ff7f715fab053374d808c90dSteve Block  }
203244f0eee88ff00398ff7f715fab053374d808c90dSteve Block
203344f0eee88ff00398ff7f715fab053374d808c90dSteve Block  void SampleContext(Sampler* sampler) {
203444f0eee88ff00398ff7f715fab053374d808c90dSteve Block    HANDLE profiled_thread = sampler->platform_data()->profiled_thread();
203544f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (profiled_thread == NULL) return;
2036b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch
203744f0eee88ff00398ff7f715fab053374d808c90dSteve Block    // Context used for sampling the register state of the profiled thread.
203844f0eee88ff00398ff7f715fab053374d808c90dSteve Block    CONTEXT context;
203944f0eee88ff00398ff7f715fab053374d808c90dSteve Block    memset(&context, 0, sizeof(context));
2040a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
204144f0eee88ff00398ff7f715fab053374d808c90dSteve Block    TickSample sample_obj;
204244f0eee88ff00398ff7f715fab053374d808c90dSteve Block    TickSample* sample = CpuProfiler::TickSampleEvent(sampler->isolate());
204344f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (sample == NULL) sample = &sample_obj;
2044f87a203d89e1bbb6708282e0b64dbd13d59b723dBen Murdoch
204544f0eee88ff00398ff7f715fab053374d808c90dSteve Block    static const DWORD kSuspendFailed = static_cast<DWORD>(-1);
204644f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (SuspendThread(profiled_thread) == kSuspendFailed) return;
204744f0eee88ff00398ff7f715fab053374d808c90dSteve Block    sample->state = sampler->isolate()->current_vm_state();
204844f0eee88ff00398ff7f715fab053374d808c90dSteve Block
204944f0eee88ff00398ff7f715fab053374d808c90dSteve Block    context.ContextFlags = CONTEXT_FULL;
205044f0eee88ff00398ff7f715fab053374d808c90dSteve Block    if (GetThreadContext(profiled_thread, &context) != 0) {
2051a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#if V8_HOST_ARCH_X64
205244f0eee88ff00398ff7f715fab053374d808c90dSteve Block      sample->pc = reinterpret_cast<Address>(context.Rip);
205344f0eee88ff00398ff7f715fab053374d808c90dSteve Block      sample->sp = reinterpret_cast<Address>(context.Rsp);
205444f0eee88ff00398ff7f715fab053374d808c90dSteve Block      sample->fp = reinterpret_cast<Address>(context.Rbp);
2055a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#else
205644f0eee88ff00398ff7f715fab053374d808c90dSteve Block      sample->pc = reinterpret_cast<Address>(context.Eip);
205744f0eee88ff00398ff7f715fab053374d808c90dSteve Block      sample->sp = reinterpret_cast<Address>(context.Esp);
205844f0eee88ff00398ff7f715fab053374d808c90dSteve Block      sample->fp = reinterpret_cast<Address>(context.Ebp);
2059a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif
206044f0eee88ff00398ff7f715fab053374d808c90dSteve Block      sampler->SampleStack(sample);
206144f0eee88ff00398ff7f715fab053374d808c90dSteve Block      sampler->Tick(sample);
2062a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block    }
206344f0eee88ff00398ff7f715fab053374d808c90dSteve Block    ResumeThread(profiled_thread);
2064a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  }
206544f0eee88ff00398ff7f715fab053374d808c90dSteve Block
206644f0eee88ff00398ff7f715fab053374d808c90dSteve Block  const int interval_;
206744f0eee88ff00398ff7f715fab053374d808c90dSteve Block  RuntimeProfilerRateLimiter rate_limiter_;
206844f0eee88ff00398ff7f715fab053374d808c90dSteve Block
206944f0eee88ff00398ff7f715fab053374d808c90dSteve Block  // Protects the process wide state below.
20703ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch  static LazyMutex mutex_;
207144f0eee88ff00398ff7f715fab053374d808c90dSteve Block  static SamplerThread* instance_;
207244f0eee88ff00398ff7f715fab053374d808c90dSteve Block
20733ef787dbeca8a5fb1086949cda830dccee07bfbdBen Murdoch private:
207444f0eee88ff00398ff7f715fab053374d808c90dSteve Block  DISALLOW_COPY_AND_ASSIGN(SamplerThread);
2075a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block};
2076a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2077a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
20783ef787dbeca8a5fb1086949cda830dccee07bfbdBen MurdochLazyMutex SamplerThread::mutex_ = LAZY_MUTEX_INITIALIZER;
207944f0eee88ff00398ff7f715fab053374d808c90dSteve BlockSamplerThread* SamplerThread::instance_ = NULL;
2080a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2081a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
208244f0eee88ff00398ff7f715fab053374d808c90dSteve BlockSampler::Sampler(Isolate* isolate, int interval)
208344f0eee88ff00398ff7f715fab053374d808c90dSteve Block    : isolate_(isolate),
208444f0eee88ff00398ff7f715fab053374d808c90dSteve Block      interval_(interval),
2085b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch      profiling_(false),
20868a31eba00023874d4a1dcdc5f411cc4336776874Shimeng (Simon) Wang      active_(false),
20878a31eba00023874d4a1dcdc5f411cc4336776874Shimeng (Simon) Wang      samples_taken_(0) {
208844f0eee88ff00398ff7f715fab053374d808c90dSteve Block  data_ = new PlatformData;
2089a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
2090a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2091a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2092a7e24c173cf37484693b9abb38e494fa7bd7baebSteve BlockSampler::~Sampler() {
209344f0eee88ff00398ff7f715fab053374d808c90dSteve Block  ASSERT(!IsActive());
2094a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block  delete data_;
2095a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
2096a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2097a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2098a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Sampler::Start() {
2099b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  ASSERT(!IsActive());
2100b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  SetActive(true);
210144f0eee88ff00398ff7f715fab053374d808c90dSteve Block  SamplerThread::AddActiveSampler(this);
2102a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
2103a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2104a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2105a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockvoid Sampler::Stop() {
210644f0eee88ff00398ff7f715fab053374d808c90dSteve Block  ASSERT(IsActive());
210744f0eee88ff00398ff7f715fab053374d808c90dSteve Block  SamplerThread::RemoveActiveSampler(this);
2108b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch  SetActive(false);
2109a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}
2110a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2111a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block
2112a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block} }  // namespace v8::internal
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