diff options
Diffstat (limited to 'security/sandbox/chromium/sandbox/win/src/handle_closer_test.cc')
-rw-r--r-- | security/sandbox/chromium/sandbox/win/src/handle_closer_test.cc | 297 |
1 files changed, 297 insertions, 0 deletions
diff --git a/security/sandbox/chromium/sandbox/win/src/handle_closer_test.cc b/security/sandbox/chromium/sandbox/win/src/handle_closer_test.cc new file mode 100644 index 0000000000..7406f77592 --- /dev/null +++ b/security/sandbox/chromium/sandbox/win/src/handle_closer_test.cc @@ -0,0 +1,297 @@ +// Copyright (c) 2011 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 <limits.h> +#include <stddef.h> + +#include "base/strings/stringprintf.h" +#include "base/win/scoped_handle.h" +#include "sandbox/win/src/handle_closer_agent.h" +#include "sandbox/win/src/nt_internals.h" +#include "sandbox/win/src/sandbox.h" +#include "sandbox/win/src/sandbox_factory.h" +#include "sandbox/win/src/target_services.h" +#include "sandbox/win/tests/common/controller.h" +#include "testing/gtest/include/gtest/gtest.h" + +namespace { + +const wchar_t* kFileExtensions[] = {L".1", L".2", L".3", L".4"}; + +// Returns a handle to a unique marker file that can be retrieved between runs. +HANDLE GetMarkerFile(const wchar_t* extension) { + wchar_t path_buffer[MAX_PATH + 1]; + CHECK(::GetTempPath(MAX_PATH, path_buffer)); + std::wstring marker_path = path_buffer; + marker_path += L"\\sbox_marker_"; + + // Generate a unique value from the exe's size and timestamp. + CHECK(::GetModuleFileName(nullptr, path_buffer, MAX_PATH)); + base::win::ScopedHandle module( + ::CreateFile(path_buffer, FILE_READ_ATTRIBUTES, FILE_SHARE_READ, nullptr, + OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr)); + CHECK(module.IsValid()); + FILETIME timestamp; + CHECK(::GetFileTime(module.Get(), ×tamp, nullptr, nullptr)); + marker_path += + base::StringPrintf(L"%08x%08x%08x", ::GetFileSize(module.Get(), nullptr), + timestamp.dwLowDateTime, timestamp.dwHighDateTime); + marker_path += extension; + + // Make the file delete-on-close so cleanup is automatic. + return CreateFile(marker_path.c_str(), FILE_ALL_ACCESS, + FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, + nullptr, OPEN_ALWAYS, FILE_FLAG_DELETE_ON_CLOSE, nullptr); +} + +// Returns type infomation for an NT object. This routine is expected to be +// called for invalid handles so it catches STATUS_INVALID_HANDLE exceptions +// that can be generated when handle tracing is enabled. +NTSTATUS QueryObjectTypeInformation(HANDLE handle, void* buffer, ULONG* size) { + static NtQueryObject QueryObject = nullptr; + if (!QueryObject) + ResolveNTFunctionPtr("NtQueryObject", &QueryObject); + + NTSTATUS status = STATUS_UNSUCCESSFUL; + __try { + status = QueryObject(handle, ObjectTypeInformation, buffer, *size, size); + } __except (GetExceptionCode() == STATUS_INVALID_HANDLE + ? EXCEPTION_EXECUTE_HANDLER + : EXCEPTION_CONTINUE_SEARCH) { + status = STATUS_INVALID_HANDLE; + } + return status; +} + +// Used by the thread pool tests. +HANDLE finish_event; +const int kWaitCount = 20; + +} // namespace + +namespace sandbox { + +// Checks for the presence of a list of files (in object path form). +// Format: CheckForFileHandle (Y|N) \path\to\file1 [\path\to\file2 ...] +// - Y or N depending if the file should exist or not. +SBOX_TESTS_COMMAND int CheckForFileHandles(int argc, wchar_t** argv) { + if (argc < 2) + return SBOX_TEST_FAILED_TO_RUN_TEST; + bool should_find = argv[0][0] == L'Y'; + if (argv[0][1] != L'\0' || (!should_find && argv[0][0] != L'N')) + return SBOX_TEST_FAILED_TO_RUN_TEST; + + static int state = BEFORE_INIT; + switch (state++) { + case BEFORE_INIT: + // Create a unique marker file that is open while the test is running. + // The handles leak, but it will be closed by the test or on exit. + for (const wchar_t* kExtension : kFileExtensions) + CHECK_NE(GetMarkerFile(kExtension), INVALID_HANDLE_VALUE); + return SBOX_TEST_SUCCEEDED; + + case AFTER_REVERT: { + // Brute force the handle table to find what we're looking for. + DWORD handle_count = UINT_MAX; + const int kInvalidHandleThreshold = 100; + const size_t kHandleOffset = 4; // Handles are always a multiple of 4. + HANDLE handle = nullptr; + int invalid_count = 0; + std::wstring handle_name; + + if (!::GetProcessHandleCount(::GetCurrentProcess(), &handle_count)) + return SBOX_TEST_FAILED_TO_RUN_TEST; + + while (handle_count && invalid_count < kInvalidHandleThreshold) { + reinterpret_cast<size_t&>(handle) += kHandleOffset; + if (GetHandleName(handle, &handle_name)) { + for (int i = 1; i < argc; ++i) { + if (handle_name == argv[i]) + return should_find ? SBOX_TEST_SUCCEEDED : SBOX_TEST_FAILED; + } + --handle_count; + } else { + ++invalid_count; + } + } + + return should_find ? SBOX_TEST_FAILED : SBOX_TEST_SUCCEEDED; + } + + default: // Do nothing. + break; + } + + return SBOX_TEST_SUCCEEDED; +} + +// Checks that supplied handle is an Event and it's not waitable. +// Format: CheckForEventHandles +SBOX_TESTS_COMMAND int CheckForEventHandles(int argc, wchar_t** argv) { + static int state = BEFORE_INIT; + static std::vector<HANDLE> to_check; + + switch (state++) { + case BEFORE_INIT: + // Create a unique marker file that is open while the test is running. + for (const wchar_t* kExtension : kFileExtensions) { + HANDLE handle = GetMarkerFile(kExtension); + CHECK_NE(handle, INVALID_HANDLE_VALUE); + to_check.push_back(handle); + } + return SBOX_TEST_SUCCEEDED; + + case AFTER_REVERT: + for (HANDLE handle : to_check) { + // Set up buffers for the type info and the name. + std::vector<BYTE> type_info_buffer(sizeof(OBJECT_TYPE_INFORMATION) + + 32 * sizeof(wchar_t)); + OBJECT_TYPE_INFORMATION* type_info = + reinterpret_cast<OBJECT_TYPE_INFORMATION*>(&(type_info_buffer[0])); + NTSTATUS rc; + + // Get the type name, reusing the buffer. + ULONG size = static_cast<ULONG>(type_info_buffer.size()); + rc = QueryObjectTypeInformation(handle, type_info, &size); + while (rc == STATUS_INFO_LENGTH_MISMATCH || + rc == STATUS_BUFFER_OVERFLOW) { + type_info_buffer.resize(size + sizeof(wchar_t)); + type_info = reinterpret_cast<OBJECT_TYPE_INFORMATION*>( + &(type_info_buffer[0])); + rc = QueryObjectTypeInformation(handle, type_info, &size); + // Leave padding for the nul terminator. + if (NT_SUCCESS(rc) && size == type_info_buffer.size()) + rc = STATUS_INFO_LENGTH_MISMATCH; + } + + CHECK(NT_SUCCESS(rc)); + CHECK(type_info->Name.Buffer); + + type_info->Name.Buffer[type_info->Name.Length / sizeof(wchar_t)] = + L'\0'; + + // Should be an Event now. + CHECK_EQ(wcslen(type_info->Name.Buffer), 5U); + CHECK_EQ(wcscmp(L"Event", type_info->Name.Buffer), 0); + + // Should not be able to wait. + CHECK_EQ(WaitForSingleObject(handle, INFINITE), WAIT_FAILED); + + // Should be able to close. + CHECK(::CloseHandle(handle)); + } + return SBOX_TEST_SUCCEEDED; + + default: // Do nothing. + break; + } + + return SBOX_TEST_SUCCEEDED; +} + +TEST(HandleCloserTest, CheckForMarkerFiles) { + TestRunner runner; + runner.SetTimeout(2000); + runner.SetTestState(EVERY_STATE); + + std::wstring command = std::wstring(L"CheckForFileHandles Y"); + for (const wchar_t* kExtension : kFileExtensions) { + std::wstring handle_name; + base::win::ScopedHandle marker(GetMarkerFile(kExtension)); + CHECK(marker.IsValid()); + CHECK(sandbox::GetHandleName(marker.Get(), &handle_name)); + command += (L" "); + command += handle_name; + } + + EXPECT_EQ(SBOX_TEST_SUCCEEDED, runner.RunTest(command.c_str())) + << "Failed: " << command; +} + +TEST(HandleCloserTest, CloseMarkerFiles) { + TestRunner runner; + runner.SetTimeout(2000); + runner.SetTestState(EVERY_STATE); + sandbox::TargetPolicy* policy = runner.GetPolicy(); + + std::wstring command = std::wstring(L"CheckForFileHandles N"); + for (const wchar_t* kExtension : kFileExtensions) { + std::wstring handle_name; + base::win::ScopedHandle marker(GetMarkerFile(kExtension)); + CHECK(marker.IsValid()); + CHECK(sandbox::GetHandleName(marker.Get(), &handle_name)); + CHECK_EQ(policy->AddKernelObjectToClose(L"File", handle_name.c_str()), + SBOX_ALL_OK); + command += (L" "); + command += handle_name; + } + + EXPECT_EQ(SBOX_TEST_SUCCEEDED, runner.RunTest(command.c_str())) + << "Failed: " << command; +} + +TEST(HandleCloserTest, CheckStuffedHandle) { + TestRunner runner; + runner.SetTimeout(2000); + runner.SetTestState(EVERY_STATE); + sandbox::TargetPolicy* policy = runner.GetPolicy(); + + for (const wchar_t* kExtension : kFileExtensions) { + std::wstring handle_name; + base::win::ScopedHandle marker(GetMarkerFile(kExtension)); + CHECK(marker.IsValid()); + CHECK(sandbox::GetHandleName(marker.Get(), &handle_name)); + CHECK_EQ(policy->AddKernelObjectToClose(L"File", handle_name.c_str()), + SBOX_ALL_OK); + } + + EXPECT_EQ(SBOX_TEST_SUCCEEDED, runner.RunTest(L"CheckForEventHandles")); +} + +void WINAPI ThreadPoolTask(void* event, BOOLEAN timeout) { + static volatile LONG waiters_remaining = kWaitCount; + CHECK(!timeout); + CHECK(::CloseHandle(event)); + if (::InterlockedDecrement(&waiters_remaining) == 0) + CHECK(::SetEvent(finish_event)); +} + +// Run a thread pool inside a sandbox without a CSRSS connection. +SBOX_TESTS_COMMAND int RunThreadPool(int argc, wchar_t** argv) { + HANDLE wait_list[20]; + finish_event = ::CreateEvent(nullptr, true, false, nullptr); + CHECK(finish_event); + + // Set up a bunch of waiters. + HANDLE pool = nullptr; + for (int i = 0; i < kWaitCount; ++i) { + HANDLE event = ::CreateEvent(nullptr, true, false, nullptr); + CHECK(event); + CHECK(::RegisterWaitForSingleObject(&pool, event, ThreadPoolTask, event, + INFINITE, WT_EXECUTEONLYONCE)); + wait_list[i] = event; + } + + // Signal all the waiters. + for (int i = 0; i < kWaitCount; ++i) + CHECK(::SetEvent(wait_list[i])); + + CHECK_EQ(::WaitForSingleObject(finish_event, INFINITE), WAIT_OBJECT_0); + CHECK(::CloseHandle(finish_event)); + + return SBOX_TEST_SUCCEEDED; +} + +TEST(HandleCloserTest, RunThreadPool) { + TestRunner runner; + runner.SetTimeout(2000); + runner.SetTestState(AFTER_REVERT); + + // Sandbox policy will determine which platforms to disconnect CSRSS and when + // to close the CSRSS handle. + + EXPECT_EQ(SBOX_TEST_SUCCEEDED, runner.RunTest(L"RunThreadPool")); +} + +} // namespace sandbox |