// 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 "base/stringprintf.h" #include "base/win/scoped_handle.h" #include "sandbox/win/src/handle_closer_agent.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)); string16 marker_path = path_buffer; marker_path += L"\\sbox_marker_"; // Generate a unique value from the exe's size and timestamp. CHECK(::GetModuleFileName(NULL, path_buffer, MAX_PATH)); base::win::ScopedHandle module(::CreateFile(path_buffer, FILE_READ_ATTRIBUTES, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL)); CHECK(module.IsValid()); FILETIME timestamp; CHECK(::GetFileTime(module, ×tamp, NULL, NULL)); marker_path += base::StringPrintf(L"%08x%08x%08x", ::GetFileSize(module, NULL), 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, NULL, OPEN_ALWAYS, FILE_FLAG_DELETE_ON_CLOSE, NULL); } // 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 (int i = 0; i < arraysize(kFileExtensions); ++i) EXPECT_NE(GetMarkerFile(kFileExtensions[i]), 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 = sizeof(HANDLE); HANDLE handle = NULL; int invalid_count = 0; string16 handle_name; if (!::GetProcessHandleCount(::GetCurrentProcess(), &handle_count)) return SBOX_TEST_FAILED_TO_RUN_TEST; while (handle_count && invalid_count < kInvalidHandleThreshold) { reinterpret_cast(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; } TEST(HandleCloserTest, CheckForMarkerFiles) { TestRunner runner; runner.SetTimeout(2000); runner.SetTestState(EVERY_STATE); sandbox::TargetPolicy* policy = runner.GetPolicy(); string16 command = string16(L"CheckForFileHandles Y"); for (int i = 0; i < arraysize(kFileExtensions); ++i) { string16 handle_name; base::win::ScopedHandle marker(GetMarkerFile(kFileExtensions[i])); CHECK(marker.IsValid()); CHECK(sandbox::GetHandleName(marker, &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(); string16 command = string16(L"CheckForFileHandles N"); for (int i = 0; i < arraysize(kFileExtensions); ++i) { string16 handle_name; base::win::ScopedHandle marker(GetMarkerFile(kFileExtensions[i])); CHECK(marker.IsValid()); CHECK(sandbox::GetHandleName(marker, &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; } 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]; CHECK(finish_event = ::CreateEvent(NULL, TRUE, FALSE, NULL)); // Set up a bunch of waiters. HANDLE pool = NULL; for (int i = 0; i < kWaitCount; ++i) { HANDLE event = ::CreateEvent(NULL, TRUE, FALSE, NULL); 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::TargetPolicy* policy = runner.GetPolicy(); // Sever the CSRSS connection by closing ALPC ports inside the sandbox. CHECK_EQ(policy->AddKernelObjectToClose(L"ALPC Port", NULL), SBOX_ALL_OK); EXPECT_EQ(SBOX_TEST_SUCCEEDED, runner.RunTest(L"RunThreadPool")); } } // namespace sandbox