chrome_elf/third_party_dlls/packed_list_file.cc - chromium/src - Git at Google

 // Copyright 2017 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.

 #include "chrome_elf/third_party_dlls/packed_list_file.h"

 #include <windows.h>

 #include <assert.h>
 #include <stdio.h>

 #include <algorithm>
 #include <limits>

 #include "chrome/install_static/install_util.h"
 #include "chrome_elf/nt_registry/nt_registry.h"
 #include "chrome_elf/third_party_dlls/packed_list_format.h"

 namespace third_party_dlls {
 namespace {

 // No concern about concurrency control in chrome_elf.
 bool g_initialized = false;

 // This will hold a packed blacklist module array, read directly from a
 // data file during InitFromFile().
 PackedListModule* g_bl_module_array = nullptr;
 size_t g_bl_module_array_size = 0;

 // NOTE: this "global" is only initialized once on first access.
 // NOTE: it is wrapped in a function to prevent exit-time dtors.
 std::wstring& GetBlFilePath() {
   static std::wstring* const file_path = new std::wstring();
   return *file_path;
 }

 //------------------------------------------------------------------------------
 // Private functions
 //------------------------------------------------------------------------------

 // Binary predicate compare function for use with
 // std::equal_range/std::is_sorted. Must return TRUE if lhs < rhs.
 bool HashBinaryPredicate(const PackedListModule& lhs,
                          const PackedListModule& rhs) {
   return lhs.basename_hash < rhs.basename_hash;
 }

 // Given a file opened for read, pull in the packed list.
 ThirdPartyStatus ReadInArray(HANDLE file,
                              size_t* array_size,
                              PackedListModule** array_ptr) {
   PackedListMetadata metadata;
   DWORD bytes_read = 0;

   if (!::ReadFile(file, &metadata, sizeof(PackedListMetadata), &bytes_read,
                   FALSE) ||
       bytes_read != sizeof(PackedListMetadata)) {
     // If |bytes_read| is actually 0, then the file was empty.
     if (!bytes_read)
       return ThirdPartyStatus::kFileEmpty;
     return ThirdPartyStatus::kFileMetadataReadFailure;
   }

   // Careful of versioning.  For now, only support the latest version.
   if (metadata.version != PackedListVersion::kCurrent)
     return ThirdPartyStatus::kFileInvalidFormatVersion;

   *array_size = metadata.module_count;
   // Check for size 0.
   if (!*array_size)
     return ThirdPartyStatus::kFileArraySizeZero;

   // Sanity check the array fits in a DWORD.
   if (*array_size >
       (std::numeric_limits<DWORD>::max() / sizeof(PackedListModule))) {
     assert(false);
     return ThirdPartyStatus::kFileArrayTooBig;
   }

   DWORD buffer_size =
       static_cast<DWORD>(*array_size * sizeof(PackedListModule));
   *array_ptr = reinterpret_cast<PackedListModule*>(new uint8_t[buffer_size]);

   // Read in the array.
   // NOTE: Ignore the rest of the file - other data could be stored at the end.
   if (!::ReadFile(file, *array_ptr, buffer_size, &bytes_read, FALSE) ||
       bytes_read != buffer_size) {
     delete[] * array_ptr;
     *array_ptr = nullptr;
     *array_size = 0;
     return ThirdPartyStatus::kFileArrayReadFailure;
   }

   // Ensure array is sorted (as expected).
   if (!std::is_sorted(*array_ptr, *array_ptr + *array_size,
                       HashBinaryPredicate)) {
     delete[] * array_ptr;
     *array_ptr = nullptr;
     *array_size = 0;
     return ThirdPartyStatus::kFileArrayNotSorted;
   }

   return ThirdPartyStatus::kSuccess;
 }

 // Reads the path to the blacklist file from the registry into |file_path|.
 //
 // - Returns false if the value is not found, is not a REG_SZ, or is empty.
 bool GetFilePathFromRegistry(std::wstring* file_path) {
   file_path->clear();
   HANDLE key_handle = nullptr;

   if (!nt::CreateRegKey(nt::HKCU,
                         install_static::GetRegistryPath()
                             .append(kThirdPartyRegKeyName)
                             .c_str(),
                         KEY_QUERY_VALUE, &key_handle)) {
     return false;
   }

   bool found = nt::QueryRegValueSZ(key_handle, kBlFilePathRegValue, file_path);
   nt::CloseRegKey(key_handle);

   return found && !file_path->empty();
 }

 // Open a packed data file.
 ThirdPartyStatus OpenDataFile(HANDLE* file_handle) {
   *file_handle = INVALID_HANDLE_VALUE;
   std::wstring& file_path = GetBlFilePath();

   // The path may have been overridden for testing.
   if (file_path.empty() && !GetFilePathFromRegistry(&file_path))
     return ThirdPartyStatus::kFilePathNotFoundInRegistry;

   // See if file exists.  INVALID_HANDLE_VALUE alert!
   *file_handle =
       ::CreateFileW(file_path.c_str(), FILE_READ_DATA,
                     FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
                     nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr);
   if (*file_handle == INVALID_HANDLE_VALUE) {
     switch (::GetLastError()) {
       case ERROR_FILE_NOT_FOUND:
       case ERROR_PATH_NOT_FOUND:
         return ThirdPartyStatus::kFileNotFound;
       case ERROR_ACCESS_DENIED:
         return ThirdPartyStatus::kFileAccessDenied;
       default:
         return ThirdPartyStatus::kFileUnexpectedFailure;
     }
   }

   return ThirdPartyStatus::kSuccess;
 }

 // Find the packed blacklist file and read in the array.
 ThirdPartyStatus InitInternal() {
   HANDLE handle = INVALID_HANDLE_VALUE;
   ThirdPartyStatus status = OpenDataFile(&handle);
   if (status != ThirdPartyStatus::kSuccess)
     return status;

   status = ReadInArray(handle, &g_bl_module_array_size, &g_bl_module_array);
   ::CloseHandle(handle);

   return status;
 }

 }  // namespace

 //------------------------------------------------------------------------------
 // Public defines & functions
 //------------------------------------------------------------------------------

 bool IsModuleListed(const elf_sha1::Digest& basename_hash,
                     const elf_sha1::Digest& fingerprint_hash) {
   assert(g_initialized);

   if (!g_bl_module_array_size)
     return false;

   PackedListModule target = {};
   target.basename_hash = basename_hash;
   target.code_id_hash = fingerprint_hash;

   // Binary search for primary hash (basename).  There can be more than one
   // match.
   auto pair = std::equal_range(g_bl_module_array,
                                g_bl_module_array + g_bl_module_array_size,
                                target, HashBinaryPredicate);

   // Search for secondary hash.
   for (PackedListModule* i = pair.first; i != pair.second; ++i) {
     if (target.code_id_hash == i->code_id_hash)
       return true;
   }

   // No match.
   return false;
 }

 std::wstring GetBlFilePathUsed() {
   assert(g_initialized);
   return GetBlFilePath();
 }

 ThirdPartyStatus InitFromFile() {
   // Debug check: InitFromFile should not be called more than once.
   assert(!g_initialized);

   ThirdPartyStatus status = InitInternal();

   if (IsStatusCodeSuccessful(status))
     g_initialized = true;

   return status;
 }

 bool IsStatusCodeSuccessful(ThirdPartyStatus code) {
   if (code == ThirdPartyStatus::kSuccess ||
       code == ThirdPartyStatus::kFilePathNotFoundInRegistry ||
       code == ThirdPartyStatus::kFileNotFound ||
       code == ThirdPartyStatus::kFileEmpty ||
       code == ThirdPartyStatus::kFileArraySizeZero) {
     return true;
   }

   return false;
 }

 void DeinitFromFile() {
   if (!g_initialized)
     return;

   delete[] g_bl_module_array;
   g_bl_module_array = nullptr;
   g_bl_module_array_size = 0;
   GetBlFilePath().clear();

   g_initialized = false;
 }

 void OverrideFilePathForTesting(const std::wstring& new_bl_path) {
   GetBlFilePath().assign(new_bl_path);
 }

 }  // namespace third_party_dlls
	// Copyright 2017 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.

	#include "chrome_elf/third_party_dlls/packed_list_file.h"

	#include <windows.h>

	#include <assert.h>
	#include <stdio.h>

	#include <algorithm>
	#include <limits>

	#include "chrome/install_static/install_util.h"
	#include "chrome_elf/nt_registry/nt_registry.h"
	#include "chrome_elf/third_party_dlls/packed_list_format.h"

	namespace third_party_dlls {
	namespace {

	// No concern about concurrency control in chrome_elf.
	bool g_initialized = false;

	// This will hold a packed blacklist module array, read directly from a
	// data file during InitFromFile().
	PackedListModule* g_bl_module_array = nullptr;
	size_t g_bl_module_array_size = 0;

	// NOTE: this "global" is only initialized once on first access.
	// NOTE: it is wrapped in a function to prevent exit-time dtors.
	std::wstring& GetBlFilePath() {
	static std::wstring* const file_path = new std::wstring();
	return *file_path;
	}

	//------------------------------------------------------------------------------
	// Private functions
	//------------------------------------------------------------------------------

	// Binary predicate compare function for use with
	// std::equal_range/std::is_sorted. Must return TRUE if lhs < rhs.
	bool HashBinaryPredicate(const PackedListModule& lhs,
	const PackedListModule& rhs) {
	return lhs.basename_hash < rhs.basename_hash;
	}

	// Given a file opened for read, pull in the packed list.
	ThirdPartyStatus ReadInArray(HANDLE file,
	size_t* array_size,
	PackedListModule** array_ptr) {
	PackedListMetadata metadata;
	DWORD bytes_read = 0;

	if (!::ReadFile(file, &metadata, sizeof(PackedListMetadata), &bytes_read,
	FALSE) \|\|
	bytes_read != sizeof(PackedListMetadata)) {
	// If \|bytes_read\| is actually 0, then the file was empty.
	if (!bytes_read)
	return ThirdPartyStatus::kFileEmpty;
	return ThirdPartyStatus::kFileMetadataReadFailure;
	}

	// Careful of versioning. For now, only support the latest version.
	if (metadata.version != PackedListVersion::kCurrent)
	return ThirdPartyStatus::kFileInvalidFormatVersion;

	*array_size = metadata.module_count;
	// Check for size 0.
	if (!*array_size)
	return ThirdPartyStatus::kFileArraySizeZero;

	// Sanity check the array fits in a DWORD.
	if (*array_size >
	(std::numeric_limits<DWORD>::max() / sizeof(PackedListModule))) {
	assert(false);
	return ThirdPartyStatus::kFileArrayTooBig;
	}

	DWORD buffer_size =
	static_cast<DWORD>(array_size sizeof(PackedListModule));
	array_ptr = reinterpret_cast<PackedListModule>(new uint8_t[buffer_size]);

	// Read in the array.
	// NOTE: Ignore the rest of the file - other data could be stored at the end.
	if (!::ReadFile(file, *array_ptr, buffer_size, &bytes_read, FALSE) \|\|
	bytes_read != buffer_size) {
	delete[] * array_ptr;
	*array_ptr = nullptr;
	*array_size = 0;
	return ThirdPartyStatus::kFileArrayReadFailure;
	}

	// Ensure array is sorted (as expected).
	if (!std::is_sorted(array_ptr, array_ptr + *array_size,
	HashBinaryPredicate)) {
	delete[] * array_ptr;
	*array_ptr = nullptr;
	*array_size = 0;
	return ThirdPartyStatus::kFileArrayNotSorted;
	}

	return ThirdPartyStatus::kSuccess;
	}

	// Reads the path to the blacklist file from the registry into \|file_path\|.
	//
	// - Returns false if the value is not found, is not a REG_SZ, or is empty.
	bool GetFilePathFromRegistry(std::wstring* file_path) {
	file_path->clear();
	HANDLE key_handle = nullptr;

	if (!nt::CreateRegKey(nt::HKCU,
	install_static::GetRegistryPath()
	.append(kThirdPartyRegKeyName)
	.c_str(),
	KEY_QUERY_VALUE, &key_handle)) {
	return false;
	}

	bool found = nt::QueryRegValueSZ(key_handle, kBlFilePathRegValue, file_path);
	nt::CloseRegKey(key_handle);

	return found && !file_path->empty();
	}

	// Open a packed data file.
	ThirdPartyStatus OpenDataFile(HANDLE* file_handle) {
	*file_handle = INVALID_HANDLE_VALUE;
	std::wstring& file_path = GetBlFilePath();

	// The path may have been overridden for testing.
	if (file_path.empty() && !GetFilePathFromRegistry(&file_path))
	return ThirdPartyStatus::kFilePathNotFoundInRegistry;

	// See if file exists. INVALID_HANDLE_VALUE alert!
	*file_handle =
	::CreateFileW(file_path.c_str(), FILE_READ_DATA,
	FILE_SHARE_READ \| FILE_SHARE_WRITE \| FILE_SHARE_DELETE,
	nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr);
	if (*file_handle == INVALID_HANDLE_VALUE) {
	switch (::GetLastError()) {
	case ERROR_FILE_NOT_FOUND:
	case ERROR_PATH_NOT_FOUND:
	return ThirdPartyStatus::kFileNotFound;
	case ERROR_ACCESS_DENIED:
	return ThirdPartyStatus::kFileAccessDenied;
	default:
	return ThirdPartyStatus::kFileUnexpectedFailure;
	}
	}

	return ThirdPartyStatus::kSuccess;
	}

	// Find the packed blacklist file and read in the array.
	ThirdPartyStatus InitInternal() {
	HANDLE handle = INVALID_HANDLE_VALUE;
	ThirdPartyStatus status = OpenDataFile(&handle);
	if (status != ThirdPartyStatus::kSuccess)
	return status;

	status = ReadInArray(handle, &g_bl_module_array_size, &g_bl_module_array);
	::CloseHandle(handle);

	return status;
	}

	} // namespace

	//------------------------------------------------------------------------------
	// Public defines & functions
	//------------------------------------------------------------------------------

	bool IsModuleListed(const elf_sha1::Digest& basename_hash,
	const elf_sha1::Digest& fingerprint_hash) {
	assert(g_initialized);

	if (!g_bl_module_array_size)
	return false;

	PackedListModule target = {};
	target.basename_hash = basename_hash;
	target.code_id_hash = fingerprint_hash;

	// Binary search for primary hash (basename). There can be more than one
	// match.
	auto pair = std::equal_range(g_bl_module_array,
	g_bl_module_array + g_bl_module_array_size,
	target, HashBinaryPredicate);

	// Search for secondary hash.
	for (PackedListModule* i = pair.first; i != pair.second; ++i) {
	if (target.code_id_hash == i->code_id_hash)
	return true;
	}

	// No match.
	return false;
	}

	std::wstring GetBlFilePathUsed() {
	assert(g_initialized);
	return GetBlFilePath();
	}

	ThirdPartyStatus InitFromFile() {
	// Debug check: InitFromFile should not be called more than once.
	assert(!g_initialized);

	ThirdPartyStatus status = InitInternal();

	if (IsStatusCodeSuccessful(status))
	g_initialized = true;

	return status;
	}

	bool IsStatusCodeSuccessful(ThirdPartyStatus code) {
	if (code == ThirdPartyStatus::kSuccess \|\|
	code == ThirdPartyStatus::kFilePathNotFoundInRegistry \|\|
	code == ThirdPartyStatus::kFileNotFound \|\|
	code == ThirdPartyStatus::kFileEmpty \|\|
	code == ThirdPartyStatus::kFileArraySizeZero) {
	return true;
	}

	return false;
	}

	void DeinitFromFile() {
	if (!g_initialized)
	return;

	delete[] g_bl_module_array;
	g_bl_module_array = nullptr;
	g_bl_module_array_size = 0;
	GetBlFilePath().clear();

	g_initialized = false;
	}

	void OverrideFilePathForTesting(const std::wstring& new_bl_path) {
	GetBlFilePath().assign(new_bl_path);
	}

	} // namespace third_party_dlls