shaka-packager/base/win/pe_image_unittest.cc

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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// This file contains unit tests for PEImage.
#include "testing/gtest/include/gtest/gtest.h"
#include "base/win/pe_image.h"
#include "base/win/windows_version.h"
namespace base {
namespace win {
// Just counts the number of invocations.
bool ExportsCallback(const PEImage &image,
DWORD ordinal,
DWORD hint,
LPCSTR name,
PVOID function,
LPCSTR forward,
PVOID cookie) {
int* count = reinterpret_cast<int*>(cookie);
(*count)++;
return true;
}
// Just counts the number of invocations.
bool ImportsCallback(const PEImage &image,
LPCSTR module,
DWORD ordinal,
LPCSTR name,
DWORD hint,
PIMAGE_THUNK_DATA iat,
PVOID cookie) {
int* count = reinterpret_cast<int*>(cookie);
(*count)++;
return true;
}
// Just counts the number of invocations.
bool SectionsCallback(const PEImage &image,
PIMAGE_SECTION_HEADER header,
PVOID section_start,
DWORD section_size,
PVOID cookie) {
int* count = reinterpret_cast<int*>(cookie);
(*count)++;
return true;
}
// Just counts the number of invocations.
bool RelocsCallback(const PEImage &image,
WORD type,
PVOID address,
PVOID cookie) {
int* count = reinterpret_cast<int*>(cookie);
(*count)++;
return true;
}
// Just counts the number of invocations.
bool ImportChunksCallback(const PEImage &image,
LPCSTR module,
PIMAGE_THUNK_DATA name_table,
PIMAGE_THUNK_DATA iat,
PVOID cookie) {
int* count = reinterpret_cast<int*>(cookie);
(*count)++;
return true;
}
// Just counts the number of invocations.
bool DelayImportChunksCallback(const PEImage &image,
PImgDelayDescr delay_descriptor,
LPCSTR module,
PIMAGE_THUNK_DATA name_table,
PIMAGE_THUNK_DATA iat,
PIMAGE_THUNK_DATA bound_iat,
PIMAGE_THUNK_DATA unload_iat,
PVOID cookie) {
int* count = reinterpret_cast<int*>(cookie);
(*count)++;
return true;
}
// Identifiers for the set of supported expectations.
enum ExpectationSet {
WIN_2K_SET,
WIN_XP_SET,
WIN_VISTA_SET,
WIN_7_SET,
WIN_8_SET,
UNSUPPORTED_SET,
};
// We'll be using some known values for the tests.
enum Value {
sections = 0,
imports_dlls,
delay_dlls,
exports,
imports,
delay_imports,
relocs
};
ExpectationSet GetExpectationSet(DWORD os) {
if (os == 50)
return WIN_2K_SET;
if (os == 51)
return WIN_XP_SET;
if (os == 60)
return WIN_VISTA_SET;
if (os == 61)
return WIN_7_SET;
if (os >= 62)
return WIN_8_SET;
return UNSUPPORTED_SET;
}
// Retrieves the expected value from advapi32.dll based on the OS.
int GetExpectedValue(Value value, DWORD os) {
const int xp_delay_dlls = 2;
const int xp_exports = 675;
const int xp_imports = 422;
const int xp_delay_imports = 8;
const int xp_relocs = 9180;
const int vista_delay_dlls = 4;
const int vista_exports = 799;
const int vista_imports = 476;
const int vista_delay_imports = 24;
const int vista_relocs = 10188;
const int w2k_delay_dlls = 0;
const int w2k_exports = 566;
const int w2k_imports = 357;
const int w2k_delay_imports = 0;
const int w2k_relocs = 7388;
const int win7_delay_dlls = 7;
const int win7_exports = 806;
const int win7_imports = 568;
const int win7_delay_imports = 71;
int win7_relocs = 7812;
int win7_sections = 4;
const int win8_delay_dlls = 9;
const int win8_exports = 806;
const int win8_imports = 568;
const int win8_delay_imports = 113;
const int win8_relocs = 9478;
int win8_sections = 4;
int win8_import_dlls = 17;
base::win::OSInfo* os_info = base::win::OSInfo::GetInstance();
// 32-bit process on a 32-bit system.
if (os_info->architecture() == base::win::OSInfo::X86_ARCHITECTURE) {
win8_sections = 5;
win8_import_dlls = 19;
// 64-bit process on a 64-bit system.
} else if (os_info->wow64_status() == base::win::OSInfo::WOW64_DISABLED) {
win7_sections = 6;
win7_relocs = 2712;
}
// Contains the expected value, for each enumerated property (Value), and the
// OS version: [Value][os_version]
const int expected[][5] = {
{4, 4, 4, win7_sections, win8_sections},
{3, 3, 3, 13, win8_import_dlls},
{w2k_delay_dlls, xp_delay_dlls, vista_delay_dlls, win7_delay_dlls,
win8_delay_dlls},
{w2k_exports, xp_exports, vista_exports, win7_exports, win8_exports},
{w2k_imports, xp_imports, vista_imports, win7_imports, win8_imports},
{w2k_delay_imports, xp_delay_imports,
vista_delay_imports, win7_delay_imports, win8_delay_imports},
{w2k_relocs, xp_relocs, vista_relocs, win7_relocs, win8_relocs}
};
COMPILE_ASSERT(arraysize(expected[0]) == UNSUPPORTED_SET,
expected_value_set_mismatch);
if (value > relocs)
return 0;
ExpectationSet expected_set = GetExpectationSet(os);
if (expected_set >= arraysize(expected)) {
// This should never happen. Log a failure if it does.
EXPECT_NE(UNSUPPORTED_SET, expected_set);
expected_set = WIN_2K_SET;
}
return expected[value][expected_set];
}
// TODO(jschuh): crbug.com/167707 Need to fix test on Win64 bots
#if defined(OS_WIN) && defined(ARCH_CPU_X86_64)
#define MAYBE_EnumeratesPE DISABLED_EnumeratesPE
#else
#define MAYBE_EnumeratesPE EnumeratesPE
#endif
// Tests that we are able to enumerate stuff from a PE file, and that
// the actual number of items found is within the expected range.
TEST(PEImageTest, MAYBE_EnumeratesPE) {
HMODULE module = LoadLibrary(L"advapi32.dll");
ASSERT_TRUE(NULL != module);
PEImage pe(module);
int count = 0;
EXPECT_TRUE(pe.VerifyMagic());
DWORD os = pe.GetNTHeaders()->OptionalHeader.MajorOperatingSystemVersion;
os = os * 10 + pe.GetNTHeaders()->OptionalHeader.MinorOperatingSystemVersion;
// Skip this test for unsupported OS versions.
if (GetExpectationSet(os) == UNSUPPORTED_SET)
return;
pe.EnumSections(SectionsCallback, &count);
EXPECT_EQ(GetExpectedValue(sections, os), count);
count = 0;
pe.EnumImportChunks(ImportChunksCallback, &count);
EXPECT_EQ(GetExpectedValue(imports_dlls, os), count);
count = 0;
pe.EnumDelayImportChunks(DelayImportChunksCallback, &count);
EXPECT_EQ(GetExpectedValue(delay_dlls, os), count);
count = 0;
pe.EnumExports(ExportsCallback, &count);
EXPECT_GT(count, GetExpectedValue(exports, os) - 20);
EXPECT_LT(count, GetExpectedValue(exports, os) + 100);
count = 0;
pe.EnumAllImports(ImportsCallback, &count);
EXPECT_GT(count, GetExpectedValue(imports, os) - 20);
EXPECT_LT(count, GetExpectedValue(imports, os) + 100);
count = 0;
pe.EnumAllDelayImports(ImportsCallback, &count);
EXPECT_GT(count, GetExpectedValue(delay_imports, os) - 2);
EXPECT_LT(count, GetExpectedValue(delay_imports, os) + 8);
count = 0;
pe.EnumRelocs(RelocsCallback, &count);
EXPECT_GT(count, GetExpectedValue(relocs, os) - 150);
EXPECT_LT(count, GetExpectedValue(relocs, os) + 1500);
FreeLibrary(module);
}
// Tests that we can locate an specific exported symbol, by name and by ordinal.
TEST(PEImageTest, RetrievesExports) {
HMODULE module = LoadLibrary(L"advapi32.dll");
ASSERT_TRUE(NULL != module);
PEImage pe(module);
WORD ordinal;
EXPECT_TRUE(pe.GetProcOrdinal("RegEnumKeyExW", &ordinal));
FARPROC address1 = pe.GetProcAddress("RegEnumKeyExW");
FARPROC address2 = pe.GetProcAddress(reinterpret_cast<char*>(ordinal));
EXPECT_TRUE(address1 != NULL);
EXPECT_TRUE(address2 != NULL);
EXPECT_TRUE(address1 == address2);
FreeLibrary(module);
}
} // namespace win
} // namespace base