naiveproxy/src/crypto/nss_util_chromeos.cc

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2022-05-03 13:16:59 +03:00
// 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 "crypto/nss_util.h"
#include <nss.h>
#include <pk11pub.h>
#include <plarena.h>
#include <prerror.h>
#include <prinit.h>
#include <prtime.h>
#include <secmod.h>
#include <map>
#include <memory>
#include <utility>
#include "base/bind.h"
#include "base/callback_list.h"
#include "base/debug/stack_trace.h"
#include "base/files/file_path.h"
#include "base/files/file_util.h"
#include "base/lazy_instance.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/no_destructor.h"
#include "base/path_service.h"
#include "base/strings/string_piece.h"
#include "base/strings/stringprintf.h"
#include "base/task/post_task.h"
#include "base/task/thread_pool.h"
#include "base/threading/scoped_blocking_call.h"
#include "base/threading/thread_checker.h"
#include "base/threading/thread_restrictions.h"
#include "base/threading/thread_task_runner_handle.h"
#include "build/build_config.h"
#include "crypto/chaps_support.h"
#include "crypto/nss_util_internal.h"
namespace crypto {
namespace {
const char kUserNSSDatabaseName[] = "UserNSSDB";
class ChromeOSUserData {
public:
using SlotReadyCallback = base::OnceCallback<void(ScopedPK11Slot)>;
explicit ChromeOSUserData(ScopedPK11Slot public_slot)
: public_slot_(std::move(public_slot)) {}
~ChromeOSUserData() {
if (public_slot_) {
SECStatus status = CloseSoftwareNSSDB(public_slot_.get());
if (status != SECSuccess)
PLOG(ERROR) << "CloseSoftwareNSSDB failed: " << PORT_GetError();
}
}
ScopedPK11Slot GetPublicSlot() {
return ScopedPK11Slot(public_slot_ ? PK11_ReferenceSlot(public_slot_.get())
: nullptr);
}
ScopedPK11Slot GetPrivateSlot(SlotReadyCallback callback) {
if (private_slot_)
return ScopedPK11Slot(PK11_ReferenceSlot(private_slot_.get()));
if (!callback.is_null()) {
// Callback lists cannot hold callbacks that take move-only args, since
// Notify()ing such a list would move the arg into the first callback,
// leaving it null or unspecified for remaining callbacks. Instead, adapt
// the provided callbacks to accept a raw pointer, which can be copied,
// and then wrap in a separate scoping object for each callback.
tpm_ready_callback_list_.AddUnsafe(base::BindOnce(
[](SlotReadyCallback callback, PK11SlotInfo* info) {
std::move(callback).Run(ScopedPK11Slot(PK11_ReferenceSlot(info)));
},
std::move(callback)));
}
return ScopedPK11Slot();
}
void SetPrivateSlot(ScopedPK11Slot private_slot) {
DCHECK(!private_slot_);
private_slot_ = std::move(private_slot);
tpm_ready_callback_list_.Notify(private_slot_.get());
}
bool private_slot_initialization_started() const {
return private_slot_initialization_started_;
}
void set_private_slot_initialization_started() {
private_slot_initialization_started_ = true;
}
private:
using SlotReadyCallbackList = base::OnceCallbackList<void(PK11SlotInfo*)>;
ScopedPK11Slot public_slot_;
ScopedPK11Slot private_slot_;
bool private_slot_initialization_started_ = false;
SlotReadyCallbackList tpm_ready_callback_list_;
};
// Contains state used for the ChromeOSTokenManager. Unlike the
// ChromeOSTokenManager, which is thread-checked, this object may live
// and be accessed on multiple threads. While this is normally dangerous,
// this is done to support callers initializing early in process startup,
// where the threads using the objects may not be created yet, and the
// thread startup may depend on these objects.
// Put differently: They may be written to from any thread, if, and only
// if, the thread they will be read from has not yet been created;
// otherwise, this should be treated as thread-affine/thread-hostile.
struct ChromeOSTokenManagerDataForTesting {
static ChromeOSTokenManagerDataForTesting& GetInstance() {
static base::NoDestructor<ChromeOSTokenManagerDataForTesting> instance;
return *instance;
}
// System slot that will be used for the system slot initialization.
ScopedPK11Slot test_system_slot;
};
class ChromeOSTokenManager {
public:
enum class State {
// Initial state.
kInitializationNotStarted,
// Initialization of the TPM token was started.
kInitializationStarted,
// TPM token was successfully initialized, but not available to the class'
// users yet.
kTpmTokenInitialized,
// TPM token was successfully enabled. It is a final state.
kTpmTokenEnabled,
// TPM token will never be enabled. It is a final state.
kTpmTokenDisabled,
};
// Used with PostTaskAndReply to pass handles to worker thread and back.
struct TPMModuleAndSlot {
explicit TPMModuleAndSlot(SECMODModule* init_chaps_module)
: chaps_module(init_chaps_module) {}
SECMODModule* chaps_module;
ScopedPK11Slot tpm_slot;
};
ScopedPK11Slot OpenPersistentNSSDBForPath(const std::string& db_name,
const base::FilePath& path) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
// NSS is allowed to do IO on the current thread since dispatching
// to a dedicated thread would still have the affect of blocking
// the current thread, due to NSS's internal locking requirements
base::ThreadRestrictions::ScopedAllowIO allow_io;
base::FilePath nssdb_path = GetSoftwareNSSDBPath(path);
if (!base::CreateDirectory(nssdb_path)) {
LOG(ERROR) << "Failed to create " << nssdb_path.value() << " directory.";
return ScopedPK11Slot();
}
return OpenSoftwareNSSDB(nssdb_path, db_name);
}
void InitializeTPMTokenAndSystemSlot(
int system_slot_id,
base::OnceCallback<void(bool)> callback) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
DCHECK_EQ(state_, State::kInitializationNotStarted);
state_ = State::kInitializationStarted;
// Note that a reference is not taken to chaps_module_. This is safe since
// ChromeOSTokenManager is Leaky, so the reference it holds is never
// released.
std::unique_ptr<TPMModuleAndSlot> tpm_args(
new TPMModuleAndSlot(chaps_module_));
TPMModuleAndSlot* tpm_args_ptr = tpm_args.get();
base::ThreadPool::PostTaskAndReply(
FROM_HERE,
{base::MayBlock(), base::TaskShutdownBehavior::CONTINUE_ON_SHUTDOWN},
base::BindOnce(&ChromeOSTokenManager::InitializeTPMTokenInThreadPool,
system_slot_id, tpm_args_ptr),
base::BindOnce(
&ChromeOSTokenManager::OnInitializedTPMTokenAndSystemSlot,
base::Unretained(this), // ChromeOSTokenManager is leaky
std::move(callback), std::move(tpm_args)));
}
void FinishInitializingTPMTokenAndSystemSlot() {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
DCHECK(!IsInitializationFinished());
// If `OnInitializedTPMTokenAndSystemSlot` was not called, but a test system
// slot is prepared, start using it now. Can happen in tests that don't fake
// enable TPM.
if (!system_slot_ &&
ChromeOSTokenManagerDataForTesting::GetInstance().test_system_slot) {
system_slot_ = ScopedPK11Slot(
PK11_ReferenceSlot(ChromeOSTokenManagerDataForTesting::GetInstance()
.test_system_slot.get()));
}
state_ = (state_ == State::kTpmTokenInitialized) ? State::kTpmTokenEnabled
: State::kTpmTokenDisabled;
tpm_ready_callback_list_->Notify();
}
static void InitializeTPMTokenInThreadPool(CK_SLOT_ID token_slot_id,
TPMModuleAndSlot* tpm_args) {
// NSS functions may reenter //net via extension hooks. If the reentered
// code needs to synchronously wait for a task to run but the thread pool in
// which that task must run doesn't have enough threads to schedule it, a
// deadlock occurs. To prevent that, the base::ScopedBlockingCall below
// increments the thread pool capacity for the duration of the TPM
// initialization.
base::ScopedBlockingCall scoped_blocking_call(
FROM_HERE, base::BlockingType::WILL_BLOCK);
if (!tpm_args->chaps_module) {
tpm_args->chaps_module = LoadChaps();
}
if (tpm_args->chaps_module) {
tpm_args->tpm_slot = GetChapsSlot(tpm_args->chaps_module, token_slot_id);
}
}
void OnInitializedTPMTokenAndSystemSlot(
base::OnceCallback<void(bool)> callback,
std::unique_ptr<TPMModuleAndSlot> tpm_args) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
DVLOG(2) << "Loaded chaps: " << !!tpm_args->chaps_module
<< ", got tpm slot: " << !!tpm_args->tpm_slot;
chaps_module_ = tpm_args->chaps_module;
if (ChromeOSTokenManagerDataForTesting::GetInstance().test_system_slot) {
// chromeos_unittests try to test the TPM initialization process. If we
// have a test DB open, pretend that it is the system slot.
system_slot_ = ScopedPK11Slot(
PK11_ReferenceSlot(ChromeOSTokenManagerDataForTesting::GetInstance()
.test_system_slot.get()));
} else {
system_slot_ = std::move(tpm_args->tpm_slot);
}
if (system_slot_) {
state_ = State::kTpmTokenInitialized;
}
std::move(callback).Run(!!system_slot_);
}
void IsTPMTokenEnabled(base::OnceCallback<void(bool)> callback) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
DCHECK(!callback.is_null());
if (!IsInitializationFinished()) {
// Call back to this method when initialization is finished.
tpm_ready_callback_list_->AddUnsafe(
base::BindOnce(&ChromeOSTokenManager::IsTPMTokenEnabled,
base::Unretained(this) /* singleton is leaky */,
std::move(callback)));
return;
}
DCHECK(base::SequencedTaskRunnerHandle::IsSet());
base::SequencedTaskRunnerHandle::Get()->PostTask(
FROM_HERE,
base::BindOnce(std::move(callback),
/*is_tpm_enabled=*/(state_ == State::kTpmTokenEnabled)));
}
bool InitializeNSSForChromeOSUser(const std::string& username_hash,
const base::FilePath& path) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (chromeos_user_map_.find(username_hash) != chromeos_user_map_.end()) {
// This user already exists in our mapping.
DVLOG(2) << username_hash << " already initialized.";
return false;
}
DVLOG(2) << "Opening NSS DB " << path.value();
std::string db_name = base::StringPrintf("%s %s", kUserNSSDatabaseName,
username_hash.c_str());
ScopedPK11Slot public_slot(OpenPersistentNSSDBForPath(db_name, path));
chromeos_user_map_[username_hash] =
std::make_unique<ChromeOSUserData>(std::move(public_slot));
return true;
}
bool ShouldInitializeTPMForChromeOSUser(const std::string& username_hash) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
DCHECK(chromeos_user_map_.find(username_hash) != chromeos_user_map_.end());
return !chromeos_user_map_[username_hash]
->private_slot_initialization_started();
}
void WillInitializeTPMForChromeOSUser(const std::string& username_hash) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
DCHECK(chromeos_user_map_.find(username_hash) != chromeos_user_map_.end());
chromeos_user_map_[username_hash]
->set_private_slot_initialization_started();
}
void InitializeTPMForChromeOSUser(const std::string& username_hash,
CK_SLOT_ID slot_id) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
DCHECK(chromeos_user_map_.find(username_hash) != chromeos_user_map_.end());
DCHECK(chromeos_user_map_[username_hash]
->private_slot_initialization_started());
if (!chaps_module_)
return;
// Note that a reference is not taken to chaps_module_. This is safe since
// ChromeOSTokenManager is Leaky, so the reference it holds is never
// released.
std::unique_ptr<TPMModuleAndSlot> tpm_args(
new TPMModuleAndSlot(chaps_module_));
TPMModuleAndSlot* tpm_args_ptr = tpm_args.get();
base::ThreadPool::PostTaskAndReply(
FROM_HERE,
{base::MayBlock(), base::TaskShutdownBehavior::CONTINUE_ON_SHUTDOWN},
base::BindOnce(&ChromeOSTokenManager::InitializeTPMTokenInThreadPool,
slot_id, tpm_args_ptr),
base::BindOnce(&ChromeOSTokenManager::OnInitializedTPMForChromeOSUser,
base::Unretained(this), // ChromeOSTokenManager is leaky
username_hash, std::move(tpm_args)));
}
void OnInitializedTPMForChromeOSUser(
const std::string& username_hash,
std::unique_ptr<TPMModuleAndSlot> tpm_args) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
DVLOG(2) << "Got tpm slot for " << username_hash << " "
<< !!tpm_args->tpm_slot;
chromeos_user_map_[username_hash]->SetPrivateSlot(
std::move(tpm_args->tpm_slot));
}
void InitializePrivateSoftwareSlotForChromeOSUser(
const std::string& username_hash) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
VLOG(1) << "using software private slot for " << username_hash;
DCHECK(chromeos_user_map_.find(username_hash) != chromeos_user_map_.end());
DCHECK(chromeos_user_map_[username_hash]
->private_slot_initialization_started());
if (prepared_test_private_slot_) {
chromeos_user_map_[username_hash]->SetPrivateSlot(
std::move(prepared_test_private_slot_));
return;
}
chromeos_user_map_[username_hash]->SetPrivateSlot(
chromeos_user_map_[username_hash]->GetPublicSlot());
}
ScopedPK11Slot GetPublicSlotForChromeOSUser(
const std::string& username_hash) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (username_hash.empty()) {
DVLOG(2) << "empty username_hash";
return ScopedPK11Slot();
}
if (chromeos_user_map_.find(username_hash) == chromeos_user_map_.end()) {
LOG(ERROR) << username_hash << " not initialized.";
return ScopedPK11Slot();
}
return chromeos_user_map_[username_hash]->GetPublicSlot();
}
ScopedPK11Slot GetPrivateSlotForChromeOSUser(
const std::string& username_hash,
base::OnceCallback<void(ScopedPK11Slot)> callback) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (username_hash.empty()) {
DVLOG(2) << "empty username_hash";
if (!callback.is_null()) {
base::ThreadTaskRunnerHandle::Get()->PostTask(
FROM_HERE, base::BindOnce(std::move(callback), ScopedPK11Slot()));
}
return ScopedPK11Slot();
}
DCHECK(chromeos_user_map_.find(username_hash) != chromeos_user_map_.end());
return chromeos_user_map_[username_hash]->GetPrivateSlot(
std::move(callback));
}
void CloseChromeOSUserForTesting(const std::string& username_hash) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
auto i = chromeos_user_map_.find(username_hash);
DCHECK(i != chromeos_user_map_.end());
chromeos_user_map_.erase(i);
}
void GetSystemNSSKeySlot(base::OnceCallback<void(ScopedPK11Slot)> callback) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
if (!IsInitializationFinished()) {
// Call back to this method when initialization is finished.
tpm_ready_callback_list_->AddUnsafe(
base::BindOnce(&ChromeOSTokenManager::GetSystemNSSKeySlot,
base::Unretained(this) /* singleton is leaky */,
std::move(callback)));
return;
}
base::SequencedTaskRunnerHandle::Get()->PostTask(
FROM_HERE,
base::BindOnce(std::move(callback),
/*system_slot=*/ScopedPK11Slot(
system_slot_ ? PK11_ReferenceSlot(system_slot_.get())
: nullptr)));
}
void ResetSystemSlotForTesting() { system_slot_.reset(); }
void ResetTokenManagerForTesting() {
// Prevent test failures when two tests in the same process use the same
// ChromeOSTokenManager from different threads.
DETACH_FROM_THREAD(thread_checker_);
state_ = State::kInitializationNotStarted;
// Configuring chaps_module_ here is not supported yet.
CHECK(!chaps_module_);
// Make sure there are no outstanding callbacks between tests.
// OnceClosureList doesn't provide a way to clear the callback list.
tpm_ready_callback_list_ = std::make_unique<base::OnceClosureList>();
chromeos_user_map_.clear();
ResetSystemSlotForTesting(); // IN-TEST
prepared_test_private_slot_.reset();
}
void SetPrivateSoftwareSlotForChromeOSUserForTesting(ScopedPK11Slot slot) {
DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
// Ensure that a previous value of prepared_test_private_slot_ is not
// overwritten. Unsetting, i.e. setting a nullptr, however is allowed.
DCHECK(!slot || !prepared_test_private_slot_);
prepared_test_private_slot_ = std::move(slot);
}
bool IsInitializationStarted() {
return (state_ != State::kInitializationNotStarted);
}
private:
friend struct base::LazyInstanceTraitsBase<ChromeOSTokenManager>;
ChromeOSTokenManager() { EnsureNSSInit(); }
// NOTE(willchan): We don't actually cleanup on destruction since we leak NSS
// to prevent non-joinable threads from using NSS after it's already been
// shut down.
~ChromeOSTokenManager() = delete;
bool IsInitializationFinished() {
switch (state_) {
case State::kTpmTokenEnabled:
case State::kTpmTokenDisabled:
return true;
case State::kInitializationNotStarted:
case State::kInitializationStarted:
case State::kTpmTokenInitialized:
return false;
}
}
State state_ = State::kInitializationNotStarted;
std::unique_ptr<base::OnceClosureList> tpm_ready_callback_list_ =
std::make_unique<base::OnceClosureList>();
SECMODModule* chaps_module_ = nullptr;
ScopedPK11Slot system_slot_;
std::map<std::string, std::unique_ptr<ChromeOSUserData>> chromeos_user_map_;
ScopedPK11Slot prepared_test_private_slot_;
THREAD_CHECKER(thread_checker_);
};
base::LazyInstance<ChromeOSTokenManager>::Leaky g_token_manager =
LAZY_INSTANCE_INITIALIZER;
} // namespace
base::FilePath GetSoftwareNSSDBPath(
const base::FilePath& profile_directory_path) {
return profile_directory_path.AppendASCII(".pki").AppendASCII("nssdb");
}
void GetSystemNSSKeySlot(base::OnceCallback<void(ScopedPK11Slot)> callback) {
g_token_manager.Get().GetSystemNSSKeySlot(std::move(callback));
}
void PrepareSystemSlotForTesting(ScopedPK11Slot slot) {
DCHECK(!ChromeOSTokenManagerDataForTesting::GetInstance().test_system_slot);
DCHECK(!g_token_manager.IsCreated() ||
!g_token_manager.Get().IsInitializationStarted())
<< "PrepareSystemSlotForTesting is called after initialization started";
ChromeOSTokenManagerDataForTesting::GetInstance().test_system_slot =
std::move(slot);
}
void ResetSystemSlotForTesting() {
if (g_token_manager.IsCreated()) {
g_token_manager.Get().ResetSystemSlotForTesting(); // IN-TEST
}
ChromeOSTokenManagerDataForTesting::GetInstance().test_system_slot.reset();
}
void ResetTokenManagerForTesting() {
if (g_token_manager.IsCreated()) {
g_token_manager.Get().ResetTokenManagerForTesting(); // IN-TEST
}
ResetSystemSlotForTesting(); // IN-TEST
}
void IsTPMTokenEnabled(base::OnceCallback<void(bool)> callback) {
g_token_manager.Get().IsTPMTokenEnabled(std::move(callback));
}
void InitializeTPMTokenAndSystemSlot(int token_slot_id,
base::OnceCallback<void(bool)> callback) {
g_token_manager.Get().InitializeTPMTokenAndSystemSlot(token_slot_id,
std::move(callback));
}
void FinishInitializingTPMTokenAndSystemSlot() {
g_token_manager.Get().FinishInitializingTPMTokenAndSystemSlot();
}
bool InitializeNSSForChromeOSUser(const std::string& username_hash,
const base::FilePath& path) {
return g_token_manager.Get().InitializeNSSForChromeOSUser(username_hash,
path);
}
bool ShouldInitializeTPMForChromeOSUser(const std::string& username_hash) {
return g_token_manager.Get().ShouldInitializeTPMForChromeOSUser(
username_hash);
}
void WillInitializeTPMForChromeOSUser(const std::string& username_hash) {
g_token_manager.Get().WillInitializeTPMForChromeOSUser(username_hash);
}
void InitializeTPMForChromeOSUser(const std::string& username_hash,
CK_SLOT_ID slot_id) {
g_token_manager.Get().InitializeTPMForChromeOSUser(username_hash, slot_id);
}
void InitializePrivateSoftwareSlotForChromeOSUser(
const std::string& username_hash) {
g_token_manager.Get().InitializePrivateSoftwareSlotForChromeOSUser(
username_hash);
}
ScopedPK11Slot GetPublicSlotForChromeOSUser(const std::string& username_hash) {
return g_token_manager.Get().GetPublicSlotForChromeOSUser(username_hash);
}
ScopedPK11Slot GetPrivateSlotForChromeOSUser(
const std::string& username_hash,
base::OnceCallback<void(ScopedPK11Slot)> callback) {
return g_token_manager.Get().GetPrivateSlotForChromeOSUser(
username_hash, std::move(callback));
}
void CloseChromeOSUserForTesting(const std::string& username_hash) {
g_token_manager.Get().CloseChromeOSUserForTesting(username_hash);
}
void SetPrivateSoftwareSlotForChromeOSUserForTesting(ScopedPK11Slot slot) {
g_token_manager.Get().SetPrivateSoftwareSlotForChromeOSUserForTesting(
std::move(slot));
}
} // namespace crypto