2017-04-07 10:46:41 -04:00
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// Copyright 2017 The Crashpad Authors. All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "test/win/win_multiprocess_with_temp_dir.h"
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#include <tlhelp32.h>
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#include "test/errors.h"
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#include "util/win/process_info.h"
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namespace crashpad {
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namespace test {
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namespace {
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constexpr wchar_t kTempDirEnvName[] = L"CRASHPAD_TEST_TEMP_DIR";
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// Returns the process IDs of all processes that have |parent_pid| as
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// parent process ID.
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std::vector<pid_t> GetPotentialChildProcessesOf(pid_t parent_pid) {
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ScopedFileHANDLE snapshot(CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0));
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if (!snapshot.is_valid()) {
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ADD_FAILURE() << ErrorMessage("CreateToolhelp32Snapshot");
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return std::vector<pid_t>();
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}
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PROCESSENTRY32 entry = {sizeof(entry)};
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if (!Process32First(snapshot.get(), &entry)) {
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ADD_FAILURE() << ErrorMessage("Process32First");
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return std::vector<pid_t>();
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}
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std::vector<pid_t> child_pids;
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do {
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if (entry.th32ParentProcessID == parent_pid)
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child_pids.push_back(entry.th32ProcessID);
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} while (Process32Next(snapshot.get(), &entry));
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return child_pids;
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}
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ULARGE_INTEGER GetProcessCreationTime(HANDLE process) {
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ULARGE_INTEGER ret = {};
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FILETIME creation_time;
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FILETIME dummy;
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if (GetProcessTimes(process, &creation_time, &dummy, &dummy, &dummy)) {
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ret.LowPart = creation_time.dwLowDateTime;
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ret.HighPart = creation_time.dwHighDateTime;
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} else {
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ADD_FAILURE() << ErrorMessage("GetProcessTimes");
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}
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return ret;
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}
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// Waits for the processes directly created by |parent| - and specifically
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// not their offspring. For this to work without race, |parent| has to be
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// suspended or have exited.
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void WaitForAllChildProcessesOf(HANDLE parent) {
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pid_t parent_pid = GetProcessId(parent);
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std::vector<pid_t> child_pids = GetPotentialChildProcessesOf(parent_pid);
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ULARGE_INTEGER parent_creationtime = GetProcessCreationTime(parent);
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for (pid_t child_pid : child_pids) {
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// Try and open the process. This may fail for reasons such as:
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// 1. The process isn't |parent|'s child process, but rather a
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// higher-privilege sub-process of an earlier process that had
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// |parent|'s PID.
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// 2. The process no longer exists, e.g. it exited after enumeration.
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ScopedKernelHANDLE child_process(
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OpenProcess(PROCESS_VM_READ | PROCESS_QUERY_INFORMATION | SYNCHRONIZE,
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false,
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child_pid));
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if (!child_process.is_valid())
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continue;
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// Check that the child now has the right parent PID, as its PID may have
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// been reused after the enumeration above.
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ProcessInfo child_info;
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if (!child_info.Initialize(child_process.get())) {
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// This can happen if child_process has exited after the handle is opened.
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LOG(ERROR) << "ProcessInfo::Initialize, pid: " << child_pid;
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continue;
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}
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if (parent_pid != child_info.ParentProcessID()) {
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// The child's process ID was reused after enumeration.
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continue;
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}
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// We successfully opened |child_process| and it has |parent|'s PID for
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// parent process ID. However, this could still be a sub-process of another
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// process that earlier had |parent|'s PID. To make sure, check that
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// |child_process| was created after |parent_process|.
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ULARGE_INTEGER process_creationtime =
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GetProcessCreationTime(child_process.get());
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if (process_creationtime.QuadPart < parent_creationtime.QuadPart)
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continue;
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DWORD err = WaitForSingleObject(child_process.get(), INFINITE);
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if (err == WAIT_FAILED) {
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ADD_FAILURE() << ErrorMessage("WaitForSingleObject");
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} else if (err != WAIT_OBJECT_0) {
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ADD_FAILURE() << "WaitForSingleObject returned " << err;
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}
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}
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}
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} // namespace
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WinMultiprocessWithTempDir::WinMultiprocessWithTempDir()
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: WinMultiprocess(), temp_dir_env_(kTempDirEnvName) {}
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void WinMultiprocessWithTempDir::WinMultiprocessParentBeforeChild() {
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2017-10-12 12:42:28 -04:00
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temp_dir_ = std::make_unique<ScopedTempDir>();
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2017-04-07 10:46:41 -04:00
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temp_dir_env_.SetValue(temp_dir_->path().value().c_str());
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}
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void WinMultiprocessWithTempDir::WinMultiprocessParentAfterChild(HANDLE child) {
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WaitForAllChildProcessesOf(child);
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temp_dir_.reset();
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}
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base::FilePath WinMultiprocessWithTempDir::GetTempDirPath() const {
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return base::FilePath(temp_dir_env_.GetValue());
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}
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WinMultiprocessWithTempDir::ScopedEnvironmentVariable::
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ScopedEnvironmentVariable(const wchar_t* name)
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: name_(name) {
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original_value_ = GetValueImpl(&was_defined_);
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}
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WinMultiprocessWithTempDir::ScopedEnvironmentVariable::
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~ScopedEnvironmentVariable() {
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if (was_defined_)
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SetValue(original_value_.data());
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else
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SetValue(nullptr);
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}
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std::wstring WinMultiprocessWithTempDir::ScopedEnvironmentVariable::GetValue()
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const {
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bool dummy;
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return GetValueImpl(&dummy);
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}
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std::wstring
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WinMultiprocessWithTempDir::ScopedEnvironmentVariable::GetValueImpl(
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bool* is_defined) const {
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// The length returned is inclusive of the terminating zero, except
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// if the variable doesn't exist, in which case the return value is zero.
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DWORD len = GetEnvironmentVariable(name_, nullptr, 0);
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if (len == 0) {
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*is_defined = false;
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return L"";
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}
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*is_defined = true;
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std::wstring ret;
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ret.resize(len);
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// The length returned on success is exclusive of the terminating zero.
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len = GetEnvironmentVariable(name_, &ret[0], len);
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ret.resize(len);
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return ret;
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}
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void WinMultiprocessWithTempDir::ScopedEnvironmentVariable::SetValue(
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const wchar_t* new_value) const {
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SetEnvironmentVariable(name_, new_value);
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}
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} // namespace test
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} // namespace crashpad
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