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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.
#include "sandbox/win/src/broker_services.h"
#include <AclAPI.h>
#include <stddef.h>
#include "base/logging.h"
#include "base/macros.h"
#include "base/memory/scoped_ptr.h"
#include "base/stl_util.h"
#include "base/threading/platform_thread.h"
#include "base/win/scoped_handle.h"
#include "base/win/scoped_process_information.h"
#include "base/win/startup_information.h"
#include "base/win/windows_version.h"
#include "sandbox/win/src/app_container.h"
#include "sandbox/win/src/process_mitigations.h"
#include "sandbox/win/src/sandbox.h"
#include "sandbox/win/src/sandbox_policy_base.h"
#include "sandbox/win/src/target_process.h"
#include "sandbox/win/src/win2k_threadpool.h"
#include "sandbox/win/src/win_utils.h"
namespace {
// Utility function to associate a completion port to a job object.
bool AssociateCompletionPort(HANDLE job, HANDLE port, void* key) {
JOBOBJECT_ASSOCIATE_COMPLETION_PORT job_acp = { key, port };
return ::SetInformationJobObject(job,
JobObjectAssociateCompletionPortInformation,
&job_acp, sizeof(job_acp))? true : false;
}
// Utility function to do the cleanup necessary when something goes wrong
// while in SpawnTarget and we must terminate the target process.
sandbox::ResultCode SpawnCleanup(sandbox::TargetProcess* target, DWORD error) {
if (0 == error)
error = ::GetLastError();
target->Terminate();
delete target;
::SetLastError(error);
return sandbox::SBOX_ERROR_GENERIC;
}
// the different commands that you can send to the worker thread that
// executes TargetEventsThread().
enum {
THREAD_CTRL_NONE,
THREAD_CTRL_REMOVE_PEER,
THREAD_CTRL_QUIT,
THREAD_CTRL_LAST,
};
// Helper structure that allows the Broker to associate a job notification
// with a job object and with a policy.
struct JobTracker {
JobTracker(base::win::ScopedHandle job, sandbox::PolicyBase* policy)
: job(job.Pass()), policy(policy) {
}
~JobTracker() {
FreeResources();
}
// Releases the Job and notifies the associated Policy object to release its
// resources as well.
void FreeResources();
base::win::ScopedHandle job;
sandbox::PolicyBase* policy;
};
void JobTracker::FreeResources() {
if (policy) {
BOOL res = ::TerminateJobObject(job.Get(), sandbox::SBOX_ALL_OK);
DCHECK(res);
// Closing the job causes the target process to be destroyed so this needs
// to happen before calling OnJobEmpty().
HANDLE stale_job_handle = job.Get();
job.Close();
// In OnJobEmpty() we don't actually use the job handle directly.
policy->OnJobEmpty(stale_job_handle);
policy->Release();
policy = NULL;
}
}
// Helper structure that allows the broker to track peer processes
struct PeerTracker {
PeerTracker(DWORD process_id, HANDLE broker_job_port)
: wait_object(NULL), id(process_id), job_port(broker_job_port) {
}
HANDLE wait_object;
base::win::ScopedHandle process;
DWORD id;
HANDLE job_port;
};
void DeregisterPeerTracker(PeerTracker* peer) {
// Deregistration shouldn't fail, but we leak rather than crash if it does.
if (::UnregisterWaitEx(peer->wait_object, INVALID_HANDLE_VALUE)) {
delete peer;
} else {
NOTREACHED();
}
}
} // namespace
namespace sandbox {
BrokerServicesBase::BrokerServicesBase() : thread_pool_(NULL) {
}
// The broker uses a dedicated worker thread that services the job completion
// port to perform policy notifications and associated cleanup tasks.
ResultCode BrokerServicesBase::Init() {
if (job_port_.IsValid() || (NULL != thread_pool_))
return SBOX_ERROR_UNEXPECTED_CALL;
::InitializeCriticalSection(&lock_);
job_port_.Set(::CreateIoCompletionPort(INVALID_HANDLE_VALUE, NULL, 0, 0));
if (!job_port_.IsValid())
return SBOX_ERROR_GENERIC;
no_targets_.Set(::CreateEventW(NULL, TRUE, FALSE, NULL));
job_thread_.Set(::CreateThread(NULL, 0, // Default security and stack.
TargetEventsThread, this, NULL, NULL));
if (!job_thread_.IsValid())
return SBOX_ERROR_GENERIC;
return SBOX_ALL_OK;
}
// The destructor should only be called when the Broker process is terminating.
// Since BrokerServicesBase is a singleton, this is called from the CRT
// termination handlers, if this code lives on a DLL it is called during
// DLL_PROCESS_DETACH in other words, holding the loader lock, so we cannot
// wait for threads here.
BrokerServicesBase::~BrokerServicesBase() {
// If there is no port Init() was never called successfully.
if (!job_port_.IsValid())
return;
// Closing the port causes, that no more Job notifications are delivered to
// the worker thread and also causes the thread to exit. This is what we
// want to do since we are going to close all outstanding Jobs and notifying
// the policy objects ourselves.
::PostQueuedCompletionStatus(job_port_.Get(), 0, THREAD_CTRL_QUIT, FALSE);
if (job_thread_.IsValid() &&
WAIT_TIMEOUT == ::WaitForSingleObject(job_thread_.Get(), 1000)) {
// Cannot clean broker services.
NOTREACHED();
return;
}
STLDeleteElements(&tracker_list_);
delete thread_pool_;
// Cancel the wait events and delete remaining peer trackers.
for (PeerTrackerMap::iterator it = peer_map_.begin();
it != peer_map_.end(); ++it) {
DeregisterPeerTracker(it->second);
}
::DeleteCriticalSection(&lock_);
}
TargetPolicy* BrokerServicesBase::CreatePolicy() {
// If you change the type of the object being created here you must also
// change the downcast to it in SpawnTarget().
return new PolicyBase;
}
// The worker thread stays in a loop waiting for asynchronous notifications
// from the job objects. Right now we only care about knowing when the last
// process on a job terminates, but in general this is the place to tell
// the policy about events.
DWORD WINAPI BrokerServicesBase::TargetEventsThread(PVOID param) {
if (NULL == param)
return 1;
base::PlatformThread::SetName("BrokerEvent");
BrokerServicesBase* broker = reinterpret_cast<BrokerServicesBase*>(param);
HANDLE port = broker->job_port_.Get();
HANDLE no_targets = broker->no_targets_.Get();
int target_counter = 0;
::ResetEvent(no_targets);
while (true) {
DWORD events = 0;
ULONG_PTR key = 0;
LPOVERLAPPED ovl = NULL;
if (!::GetQueuedCompletionStatus(port, &events, &key, &ovl, INFINITE)) {
// this call fails if the port has been closed before we have a
// chance to service the last packet which is 'exit' anyway so
// this is not an error.
return 1;
}
if (key > THREAD_CTRL_LAST) {
// The notification comes from a job object. There are nine notifications
// that jobs can send and some of them depend on the job attributes set.
JobTracker* tracker = reinterpret_cast<JobTracker*>(key);
switch (events) {
case JOB_OBJECT_MSG_ACTIVE_PROCESS_ZERO: {
// The job object has signaled that the last process associated
// with it has terminated. Assuming there is no way for a process
// to appear out of thin air in this job, it safe to assume that
// we can tell the policy to destroy the target object, and for
// us to release our reference to the policy object.
tracker->FreeResources();
break;
}
case JOB_OBJECT_MSG_NEW_PROCESS: {
++target_counter;
if (1 == target_counter) {
::ResetEvent(no_targets);
}
break;
}
case JOB_OBJECT_MSG_EXIT_PROCESS:
case JOB_OBJECT_MSG_ABNORMAL_EXIT_PROCESS: {
{
AutoLock lock(&broker->lock_);
broker->child_process_ids_.erase(
static_cast<DWORD>(reinterpret_cast<uintptr_t>(ovl)));
}
--target_counter;
if (0 == target_counter)
::SetEvent(no_targets);
DCHECK(target_counter >= 0);
break;
}
case JOB_OBJECT_MSG_ACTIVE_PROCESS_LIMIT: {
break;
}
case JOB_OBJECT_MSG_PROCESS_MEMORY_LIMIT: {
BOOL res = ::TerminateJobObject(tracker->job.Get(),
SBOX_FATAL_MEMORY_EXCEEDED);
DCHECK(res);
break;
}
default: {
NOTREACHED();
break;
}
}
} else if (THREAD_CTRL_REMOVE_PEER == key) {
// Remove a process from our list of peers.
AutoLock lock(&broker->lock_);
PeerTrackerMap::iterator it = broker->peer_map_.find(
static_cast<DWORD>(reinterpret_cast<uintptr_t>(ovl)));
DeregisterPeerTracker(it->second);
broker->peer_map_.erase(it);
} else if (THREAD_CTRL_QUIT == key) {
// The broker object is being destroyed so the thread needs to exit.
return 0;
} else {
// We have not implemented more commands.
NOTREACHED();
}
}
NOTREACHED();
return 0;
}
// SpawnTarget does all the interesting sandbox setup and creates the target
// process inside the sandbox.
ResultCode BrokerServicesBase::SpawnTarget(const wchar_t* exe_path,
const wchar_t* command_line,
TargetPolicy* policy,
PROCESS_INFORMATION* target_info) {
if (!exe_path)
return SBOX_ERROR_BAD_PARAMS;
if (!policy)
return SBOX_ERROR_BAD_PARAMS;
// Even though the resources touched by SpawnTarget can be accessed in
// multiple threads, the method itself cannot be called from more than
// 1 thread. This is to protect the global variables used while setting up
// the child process.
static DWORD thread_id = ::GetCurrentThreadId();
DCHECK(thread_id == ::GetCurrentThreadId());
AutoLock lock(&lock_);
// This downcast is safe as long as we control CreatePolicy()
PolicyBase* policy_base = static_cast<PolicyBase*>(policy);
if (policy_base->GetAppContainer() && policy_base->GetLowBoxSid())
return SBOX_ERROR_BAD_PARAMS;
// Construct the tokens and the job object that we are going to associate
// with the soon to be created target process.
base::win::ScopedHandle initial_token;
base::win::ScopedHandle lockdown_token;
base::win::ScopedHandle lowbox_token;
ResultCode result = SBOX_ALL_OK;
result =
policy_base->MakeTokens(&initial_token, &lockdown_token, &lowbox_token);
if (SBOX_ALL_OK != result)
return result;
base::win::ScopedHandle job;
result = policy_base->MakeJobObject(&job);
if (SBOX_ALL_OK != result)
return result;
// Initialize the startup information from the policy.
base::win::StartupInformation startup_info;
// The liftime of |mitigations| and |inherit_handle_list| have to be at least
// as long as |startup_info| because |UpdateProcThreadAttribute| requires that
// its |lpValue| parameter persist until |DeleteProcThreadAttributeList| is
// called; StartupInformation's destructor makes such a call.
DWORD64 mitigations;
std::vector<HANDLE> inherited_handle_list;
base::string16 desktop = policy_base->GetAlternateDesktop();
if (!desktop.empty()) {
startup_info.startup_info()->lpDesktop =
const_cast<wchar_t*>(desktop.c_str());
}
bool inherit_handles = false;
if (base::win::GetVersion() >= base::win::VERSION_VISTA) {
int attribute_count = 0;
const AppContainerAttributes* app_container =
policy_base->GetAppContainer();
if (app_container)
++attribute_count;
size_t mitigations_size;
ConvertProcessMitigationsToPolicy(policy->GetProcessMitigations(),
&mitigations, &mitigations_size);
if (mitigations)
++attribute_count;
HANDLE stdout_handle = policy_base->GetStdoutHandle();
HANDLE stderr_handle = policy_base->GetStderrHandle();
if (stdout_handle != INVALID_HANDLE_VALUE)
inherited_handle_list.push_back(stdout_handle);
// Handles in the list must be unique.
if (stderr_handle != stdout_handle && stderr_handle != INVALID_HANDLE_VALUE)
inherited_handle_list.push_back(stderr_handle);
const HandleList& policy_handle_list = policy_base->GetHandlesBeingShared();
for (auto handle : policy_handle_list)
inherited_handle_list.push_back(handle->Get());
if (inherited_handle_list.size())
++attribute_count;
if (!startup_info.InitializeProcThreadAttributeList(attribute_count))
return SBOX_ERROR_PROC_THREAD_ATTRIBUTES;
if (app_container) {
result = app_container->ShareForStartup(&startup_info);
if (SBOX_ALL_OK != result)
return result;
}
if (mitigations) {
if (!startup_info.UpdateProcThreadAttribute(
PROC_THREAD_ATTRIBUTE_MITIGATION_POLICY, &mitigations,
mitigations_size)) {
return SBOX_ERROR_PROC_THREAD_ATTRIBUTES;
}
}
if (inherited_handle_list.size()) {
if (!startup_info.UpdateProcThreadAttribute(
PROC_THREAD_ATTRIBUTE_HANDLE_LIST,
&inherited_handle_list[0],
sizeof(HANDLE) * inherited_handle_list.size())) {
return SBOX_ERROR_PROC_THREAD_ATTRIBUTES;
}
startup_info.startup_info()->dwFlags |= STARTF_USESTDHANDLES;
startup_info.startup_info()->hStdInput = INVALID_HANDLE_VALUE;
startup_info.startup_info()->hStdOutput = stdout_handle;
startup_info.startup_info()->hStdError = stderr_handle;
// Allowing inheritance of handles is only secure now that we
// have limited which handles will be inherited.
inherit_handles = true;
}
} else if (getenv("MOZ_WIN_INHERIT_STD_HANDLES_PRE_VISTA")) {
// On pre-Vista versions even if we can't limit what gets inherited, we
// sometimes want to inherit stdout/err for testing purposes.
startup_info.startup_info()->dwFlags |= STARTF_USESTDHANDLES;
startup_info.startup_info()->hStdInput = INVALID_HANDLE_VALUE;
startup_info.startup_info()->hStdOutput = policy_base->GetStdoutHandle();
startup_info.startup_info()->hStdError = policy_base->GetStderrHandle();
inherit_handles = true;
}
// Construct the thread pool here in case it is expensive.
// The thread pool is shared by all the targets
if (NULL == thread_pool_)
thread_pool_ = new Win2kThreadPool();
// Create the TargetProces object and spawn the target suspended. Note that
// Brokerservices does not own the target object. It is owned by the Policy.
base::win::ScopedProcessInformation process_info;
TargetProcess* target =
new TargetProcess(initial_token.Pass(), lockdown_token.Pass(),
lowbox_token.Pass(), job.Get(), thread_pool_);
DWORD win_result = target->Create(exe_path, command_line, inherit_handles,
startup_info, &process_info);
policy_base->ClearSharedHandles();
if (ERROR_SUCCESS != win_result) {
SpawnCleanup(target, win_result);
return SBOX_ERROR_CREATE_PROCESS;
}
// Now the policy is the owner of the target.
if (!policy_base->AddTarget(target)) {
return SpawnCleanup(target, 0);
}
// We are going to keep a pointer to the policy because we'll call it when
// the job object generates notifications using the completion port.
policy_base->AddRef();
if (job.IsValid()) {
scoped_ptr<JobTracker> tracker(new JobTracker(job.Pass(), policy_base));
// There is no obvious recovery after failure here. Previous version with
// SpawnCleanup() caused deletion of TargetProcess twice. crbug.com/480639
CHECK(AssociateCompletionPort(tracker->job.Get(), job_port_.Get(),
tracker.get()));
// Save the tracker because in cleanup we might need to force closing
// the Jobs.
tracker_list_.push_back(tracker.release());
child_process_ids_.insert(process_info.process_id());
} else {
// We have to signal the event once here because the completion port will
// never get a message that this target is being terminated thus we should
// not block WaitForAllTargets until we have at least one target with job.
if (child_process_ids_.empty())
::SetEvent(no_targets_.Get());
// We can not track the life time of such processes and it is responsibility
// of the host application to make sure that spawned targets without jobs
// are terminated when the main application don't need them anymore.
// Sandbox policy engine needs to know that these processes are valid
// targets for e.g. BrokerDuplicateHandle so track them as peer processes.
AddTargetPeer(process_info.process_handle());
}
*target_info = process_info.Take();
return SBOX_ALL_OK;
}
ResultCode BrokerServicesBase::WaitForAllTargets() {
::WaitForSingleObject(no_targets_.Get(), INFINITE);
return SBOX_ALL_OK;
}
bool BrokerServicesBase::IsActiveTarget(DWORD process_id) {
AutoLock lock(&lock_);
return child_process_ids_.find(process_id) != child_process_ids_.end() ||
peer_map_.find(process_id) != peer_map_.end();
}
VOID CALLBACK BrokerServicesBase::RemovePeer(PVOID parameter, BOOLEAN timeout) {
PeerTracker* peer = reinterpret_cast<PeerTracker*>(parameter);
// Don't check the return code because we this may fail (safely) at shutdown.
::PostQueuedCompletionStatus(
peer->job_port, 0, THREAD_CTRL_REMOVE_PEER,
reinterpret_cast<LPOVERLAPPED>(static_cast<uintptr_t>(peer->id)));
}
ResultCode BrokerServicesBase::AddTargetPeer(HANDLE peer_process) {
scoped_ptr<PeerTracker> peer(new PeerTracker(::GetProcessId(peer_process),
job_port_.Get()));
if (!peer->id)
return SBOX_ERROR_GENERIC;
HANDLE process_handle;
if (!::DuplicateHandle(::GetCurrentProcess(), peer_process,
::GetCurrentProcess(), &process_handle,
SYNCHRONIZE, FALSE, 0)) {
return SBOX_ERROR_GENERIC;
}
peer->process.Set(process_handle);
AutoLock lock(&lock_);
if (!peer_map_.insert(std::make_pair(peer->id, peer.get())).second)
return SBOX_ERROR_BAD_PARAMS;
if (!::RegisterWaitForSingleObject(
&peer->wait_object, peer->process.Get(), RemovePeer, peer.get(),
INFINITE, WT_EXECUTEONLYONCE | WT_EXECUTEINWAITTHREAD)) {
peer_map_.erase(peer->id);
return SBOX_ERROR_GENERIC;
}
// Release the pointer since it will be cleaned up by the callback.
ignore_result(peer.release());
return SBOX_ALL_OK;
}
ResultCode BrokerServicesBase::InstallAppContainer(const wchar_t* sid,
const wchar_t* name) {
if (base::win::OSInfo::GetInstance()->version() < base::win::VERSION_WIN8)
return SBOX_ERROR_UNSUPPORTED;
base::string16 old_name = LookupAppContainer(sid);
if (old_name.empty())
return CreateAppContainer(sid, name);
if (old_name != name)
return SBOX_ERROR_INVALID_APP_CONTAINER;
return SBOX_ALL_OK;
}
ResultCode BrokerServicesBase::UninstallAppContainer(const wchar_t* sid) {
if (base::win::OSInfo::GetInstance()->version() < base::win::VERSION_WIN8)
return SBOX_ERROR_UNSUPPORTED;
base::string16 name = LookupAppContainer(sid);
if (name.empty())
return SBOX_ERROR_INVALID_APP_CONTAINER;
return DeleteAppContainer(sid);
}
} // namespace sandbox
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