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/*
*
* Copyright 2019, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "TrustyConfirmationUI.h"
#include <android-base/logging.h>
#include <android/hardware/confirmationui/1.0/types.h>
#include <android/hardware/keymaster/4.0/types.h>
#include <fcntl.h>
#include <linux/input.h>
#include <poll.h>
#include <pthread.h>
#include <secure_input/evdev.h>
#include <secure_input/secure_input_device.h>
#include <secure_input/secure_input_proto.h>
#include <signal.h>
#include <sys/ioctl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <teeui/msg_formatting.h>
#include <teeui/utils.h>
#include <time.h>
#include <atomic>
#include <functional>
#include <memory>
#include <thread>
#include <tuple>
#include <vector>
namespace android {
namespace hardware {
namespace confirmationui {
namespace V1_0 {
namespace implementation {
using namespace secure_input;
using ::android::trusty::confirmationui::TrustyAppError;
using ::teeui::AbortMsg;
using ::teeui::DeliverTestCommandMessage;
using ::teeui::DeliverTestCommandResponse;
using ::teeui::FetchConfirmationResult;
using ::teeui::MsgString;
using ::teeui::MsgVector;
using ::teeui::PromptUserConfirmationMsg;
using ::teeui::PromptUserConfirmationResponse;
using ::teeui::ResultMsg;
using ::secure_input::createSecureInput;
using ::android::hardware::keymaster::V4_0::HardwareAuthToken;
using ::std::tie;
using TeeuiRc = ::teeui::ResponseCode;
constexpr const char kTrustyDeviceName[] = "/dev/trusty-ipc-dev0";
constexpr const char kConfirmationuiAppName[] = CONFIRMATIONUI_PORT;
namespace {
class Finalize {
private:
std::function<void()> f_;
public:
Finalize(std::function<void()> f) : f_(f) {}
~Finalize() {
if (f_) f_();
}
void release() { f_ = {}; }
};
ResponseCode convertRc(TeeuiRc trc) {
static_assert(
uint32_t(TeeuiRc::OK) == uint32_t(ResponseCode::OK) &&
uint32_t(TeeuiRc::Canceled) == uint32_t(ResponseCode::Canceled) &&
uint32_t(TeeuiRc::Aborted) == uint32_t(ResponseCode::Aborted) &&
uint32_t(TeeuiRc::OperationPending) == uint32_t(ResponseCode::OperationPending) &&
uint32_t(TeeuiRc::Ignored) == uint32_t(ResponseCode::Ignored) &&
uint32_t(TeeuiRc::SystemError) == uint32_t(ResponseCode::SystemError) &&
uint32_t(TeeuiRc::Unimplemented) == uint32_t(ResponseCode::Unimplemented) &&
uint32_t(TeeuiRc::Unexpected) == uint32_t(ResponseCode::Unexpected) &&
uint32_t(TeeuiRc::UIError) == uint32_t(ResponseCode::UIError) &&
uint32_t(TeeuiRc::UIErrorMissingGlyph) == uint32_t(ResponseCode::UIErrorMissingGlyph) &&
uint32_t(TeeuiRc::UIErrorMessageTooLong) ==
uint32_t(ResponseCode::UIErrorMessageTooLong) &&
uint32_t(TeeuiRc::UIErrorMalformedUTF8Encoding) ==
uint32_t(ResponseCode::UIErrorMalformedUTF8Encoding),
"teeui::ResponseCode and "
"::android::hardware::confirmationui::V1_0::Responsecude are out of "
"sync");
return ResponseCode(trc);
}
teeui::UIOption convertUIOption(UIOption uio) {
static_assert(uint32_t(UIOption::AccessibilityInverted) ==
uint32_t(teeui::UIOption::AccessibilityInverted) &&
uint32_t(UIOption::AccessibilityMagnified) ==
uint32_t(teeui::UIOption::AccessibilityMagnified),
"teeui::UIOPtion and ::android::hardware::confirmationui::V1_0::UIOption "
"anre out of sync");
return teeui::UIOption(uio);
}
inline MsgString hidl2MsgString(const hidl_string& s) {
return {s.c_str(), s.c_str() + s.size()};
}
template <typename T> inline MsgVector<T> hidl2MsgVector(const hidl_vec<T>& v) {
return {v};
}
inline MsgVector<teeui::UIOption> hidl2MsgVector(const hidl_vec<UIOption>& v) {
MsgVector<teeui::UIOption> result(v.size());
for (unsigned int i = 0; i < v.size(); ++i) {
result[i] = convertUIOption(v[i]);
}
return result;
}
} // namespace
TrustyConfirmationUI::TrustyConfirmationUI()
: listener_state_(ListenerState::None), prompt_result_(ResponseCode::Ignored) {}
TrustyConfirmationUI::~TrustyConfirmationUI() {
ListenerState state = listener_state_;
if (state == ListenerState::SetupDone || state == ListenerState::Interactive) {
abort();
}
if (state != ListenerState::None) {
callback_thread_.join();
}
}
std::tuple<TeeuiRc, MsgVector<uint8_t>, MsgVector<uint8_t>>
TrustyConfirmationUI::promptUserConfirmation_(const MsgString& promptText,
const MsgVector<uint8_t>& extraData,
const MsgString& locale,
const MsgVector<teeui::UIOption>& uiOptions) {
std::unique_lock<std::mutex> stateLock(listener_state_lock_);
/*
* This is the main listener thread function. The listener thread life cycle
* is equivalent to the life cycle of a single confirmation request. The life
* cycle is devided in four phases.
* * The starting phase:
* * The Trusted App gets loaded and/or the connection to it gets established.
* * A connection to the secure input device is established.
* * The prompt is initiated. This sends all information required by the
* confirmation dialog to the TA. The dialog is not yet displayed.
* * An event loop is created.
* * The event loop listens for user input events, fetches them from the
* secure input device, and delivers them to the TA.
* * All evdev devices are grabbed to give confirmationui exclusive access
* to user input.
*
* Note: During the starting phase the hwbinder service thread is blocked and
* waiting for possible Errors. If the setup phase concludes sucessfully, the
* hwbinder service thread gets unblocked and returns successfully. Errors
* that occur after the first phase are delivered by callback interface.
*
* * The 2nd phase - non interactive phase
* * The event loop thread is started.
* * After a grace period:
* * A handshake between the secure input device SecureInput and the TA
* is performed.
* * The input event handler are armed to process user input events.
*
* * The 3rd phase - interactive phase
* * We wait to any external event
* * Abort
* * Secure user input asserted
* * Secure input delivered (for non interactive VTS testing)
* * The result is fetched from the TA.
*
* * The 4th phase - cleanup
* The cleanup phase is given by the scope of automatic variables created
* in this function. The cleanup commences in reverse order of their creation.
* Here is a list of more complex items in the order in which they go out of
* scope
* * finalizeSecureTouch - signals and joins the secure touch thread.
* * eventloop - signals and joins the event loop thread. The event
* handlers also own all EventDev instances which ungrab the event devices.
* When the eventloop goes out of scope the EventDevs get destroyed
* relinquishing the exclusive hold on the event devices.
* * finalizeConfirmationPrompt - calls abort on the TA, making sure a
* pending operation gets canceled. If the prompt concluded successfully this
* is a spurious call but semantically a no op.
* * secureInput - shuts down the connection to the secure input device
* SecureInput.
* * app - disconnects the TA. Since app is a shared pointer this may not
* unload the app here. It is possible that more instances of the shared
* pointer are held in TrustyConfirmationUI::deliverSecureInputEvent and
* TrustyConfirmationUI::abort. But these instances are extremely short lived
* and it is safe if they are destroyed by either.
* * stateLock - unlocks the listener_state_lock_ if it happens to be held
* at the time of return.
*/
std::tuple<TeeuiRc, MsgVector<uint8_t>, MsgVector<uint8_t>> result;
TeeuiRc& rc = std::get<TeeuiRc>(result);
rc = TeeuiRc::SystemError;
listener_state_ = ListenerState::Starting;
auto app = std::make_shared<TrustyApp>(kTrustyDeviceName, kConfirmationuiAppName);
if (!app) return result; // TeeuiRc::SystemError
app_ = app;
auto hsBegin = [&]() -> std::tuple<TeeuiRc, Nonce> {
auto [error, result] =
app->issueCmd<secure_input::InputHandshake, secure_input::InputHandshakeResponse>();
auto& [rc, nCo] = result;
if (error != TrustyAppError::OK || rc != TeeuiRc::OK) {
LOG(ERROR) << "Failed to begin secure input handshake (" << int32_t(error) << "/"
<< uint32_t(rc) << ")";
rc = error != TrustyAppError::OK ? TeeuiRc::SystemError : rc;
}
return result;
};
auto hsFinalize = [&](const Signature& sig, const Nonce& nCi) -> TeeuiRc {
auto [error, finalizeResponse] =
app->issueCmd<FinalizeInputSessionHandshake, FinalizeInputSessionHandshakeResponse>(
nCi, sig);
auto& [rc] = finalizeResponse;
if (error != TrustyAppError::OK || rc != TeeuiRc::OK) {
LOG(ERROR) << "Failed to finalize secure input handshake (" << int32_t(error) << "/"
<< uint32_t(rc) << ")";
rc = error != TrustyAppError::OK ? TeeuiRc::SystemError : rc;
}
return rc;
};
auto deliverInput = [&](DTupKeyEvent event,
const Signature& sig) -> std::tuple<TeeuiRc, InputResponse> {
auto [error, result] =
app->issueCmd<DeliverInputEvent, DeliverInputEventResponse>(event, sig);
auto& [rc, ir] = result;
if (error != TrustyAppError::OK) {
LOG(ERROR) << "Failed to deliver input command";
rc = TeeuiRc::SystemError;
}
return result;
};
std::atomic<TeeuiRc> eventRC = TeeuiRc::OperationPending;
auto inputResult = [&](TeeuiRc rc) {
TeeuiRc expected = TeeuiRc::OperationPending;
if (eventRC.compare_exchange_strong(expected, rc)) {
listener_state_condv_.notify_all();
}
};
// create Secure Input device.
auto secureInput = createSecureInput(hsBegin, hsFinalize, deliverInput, inputResult);
if (!secureInput || !(*secureInput)) {
LOG(ERROR) << "Failed to open secure input device";
return result; // TeeuiRc::SystemError;
}
Finalize finalizeConfirmationPrompt([app] {
LOG(INFO) << "Calling abort for cleanup";
app->issueCmd<AbortMsg>();
});
// initiate prompt
LOG(INFO) << "Initiating prompt";
TrustyAppError error;
auto initResponse = std::tie(rc);
std::tie(error, initResponse) =
app->issueCmd<PromptUserConfirmationMsg, PromptUserConfirmationResponse>(
promptText, extraData, locale, uiOptions);
if (error == TrustyAppError::MSG_TOO_LONG) {
LOG(ERROR) << "PromptUserConfirmationMsg failed: message too long";
rc = TeeuiRc::UIErrorMessageTooLong;
return result;
} else if (error != TrustyAppError::OK) {
LOG(ERROR) << "PromptUserConfirmationMsg failed: " << int32_t(error);
return result; // TeeuiRc::SystemError;
}
if (rc != TeeuiRc::OK) {
LOG(ERROR) << "PromptUserConfirmationMsg failed: " << uint32_t(rc);
return result;
}
LOG(INFO) << "Grabbing event devices";
EventLoop eventloop;
bool grabbed =
grabAllEvDevsAndRegisterCallbacks(&eventloop, [&](short flags, const EventDev& evDev) {
if (!(flags & POLLIN)) return;
secureInput->handleEvent(evDev);
});
if (!grabbed) {
rc = TeeuiRc::SystemError;
return result;
}
abort_called_ = false;
secureInputDelivered_ = false;
// ############################## Start 2nd Phase #############################################
listener_state_ = ListenerState::SetupDone;
stateLock.unlock();
listener_state_condv_.notify_all();
if (!eventloop.start()) {
rc = TeeuiRc::SystemError;
return result;
}
stateLock.lock();
LOG(INFO) << "going to sleep for the grace period";
auto then = std::chrono::system_clock::now() +
std::chrono::milliseconds(kUserPreInputGracePeriodMillis) +
std::chrono::microseconds(50);
listener_state_condv_.wait_until(stateLock, then, [&]() { return abort_called_; });
LOG(INFO) << "waking up";
if (abort_called_) {
LOG(ERROR) << "Abort called";
result = {TeeuiRc::Aborted, {}, {}};
return result;
}
LOG(INFO) << "Arming event poller";
// tell the event poller to act on received input events from now on.
secureInput->start();
// ############################## Start 3rd Phase - interactive phase #########################
LOG(INFO) << "Transition to Interactive";
listener_state_ = ListenerState::Interactive;
stateLock.unlock();
listener_state_condv_.notify_all();
stateLock.lock();
listener_state_condv_.wait(stateLock, [&]() {
return eventRC != TeeuiRc::OperationPending || abort_called_ || secureInputDelivered_;
});
LOG(INFO) << "Listener waking up";
if (abort_called_) {
LOG(ERROR) << "Abort called";
result = {TeeuiRc::Aborted, {}, {}};
return result;
}
if (!secureInputDelivered_) {
if (eventRC != TeeuiRc::OK) {
LOG(ERROR) << "Bad input response";
result = {eventRC, {}, {}};
return result;
}
}
stateLock.unlock();
LOG(INFO) << "Fetching Result";
std::tie(error, result) = app->issueCmd<FetchConfirmationResult, ResultMsg>();
LOG(INFO) << "Result yields " << int32_t(error) << "/" << uint32_t(rc);
if (error != TrustyAppError::OK) {
result = {TeeuiRc::SystemError, {}, {}};
}
return result;
// ############################## Start 4th Phase - cleanup ##################################
}
// Methods from ::android::hardware::confirmationui::V1_0::IConfirmationUI
// follow.
Return<ResponseCode> TrustyConfirmationUI::promptUserConfirmation(
const sp<IConfirmationResultCallback>& resultCB, const hidl_string& promptText,
const hidl_vec<uint8_t>& extraData, const hidl_string& locale,
const hidl_vec<UIOption>& uiOptions) {
std::unique_lock<std::mutex> stateLock(listener_state_lock_, std::defer_lock);
if (!stateLock.try_lock()) {
return ResponseCode::OperationPending;
}
switch (listener_state_) {
case ListenerState::None:
break;
case ListenerState::Starting:
case ListenerState::SetupDone:
case ListenerState::Interactive:
return ResponseCode::OperationPending;
case ListenerState::Terminating:
callback_thread_.join();
listener_state_ = ListenerState::None;
break;
default:
return ResponseCode::Unexpected;
}
assert(listener_state_ == ListenerState::None);
callback_thread_ = std::thread(
[this](sp<IConfirmationResultCallback> resultCB, hidl_string promptText,
hidl_vec<uint8_t> extraData, hidl_string locale, hidl_vec<UIOption> uiOptions) {
auto [trc, msg, token] =
promptUserConfirmation_(hidl2MsgString(promptText), hidl2MsgVector(extraData),
hidl2MsgString(locale), hidl2MsgVector(uiOptions));
bool do_callback = (listener_state_ == ListenerState::Interactive ||
listener_state_ == ListenerState::SetupDone) &&
resultCB;
prompt_result_ = convertRc(trc);
listener_state_ = ListenerState::Terminating;
if (do_callback) {
auto error = resultCB->result(prompt_result_, msg, token);
if (!error.isOk()) {
LOG(ERROR) << "Result callback failed " << error.description();
}
} else {
listener_state_condv_.notify_all();
}
},
resultCB, promptText, extraData, locale, uiOptions);
listener_state_condv_.wait(stateLock, [this] {
return listener_state_ == ListenerState::SetupDone ||
listener_state_ == ListenerState::Interactive ||
listener_state_ == ListenerState::Terminating;
});
if (listener_state_ == ListenerState::Terminating) {
callback_thread_.join();
listener_state_ = ListenerState::None;
return prompt_result_;
}
return ResponseCode::OK;
}
Return<ResponseCode>
TrustyConfirmationUI::deliverSecureInputEvent(const HardwareAuthToken& secureInputToken) {
ResponseCode rc = ResponseCode::Ignored;
{
/*
* deliverSecureInputEvent is only used by the VTS test to mock human input. A correct
* implementation responds with a mock confirmation token signed with a test key. The
* problem is that the non interactive grace period was not formalized in the HAL spec,
* so that the VTS test does not account for the grace period. (It probably should.)
* This means we can only pass the VTS test if we block until the grace period is over
* (SetupDone -> Interactive) before we deliver the input event.
*
* The true secure input is delivered by a different mechanism and gets ignored -
* not queued - until the grace period is over.
*
*/
std::unique_lock<std::mutex> stateLock(listener_state_lock_);
listener_state_condv_.wait(stateLock,
[this] { return listener_state_ != ListenerState::SetupDone; });
if (listener_state_ != ListenerState::Interactive) return ResponseCode::Ignored;
auto sapp = app_.lock();
if (!sapp) return ResponseCode::Ignored;
auto [error, response] =
sapp->issueCmd<DeliverTestCommandMessage, DeliverTestCommandResponse>(
static_cast<teeui::TestModeCommands>(secureInputToken.challenge));
if (error != TrustyAppError::OK) return ResponseCode::SystemError;
auto& [trc] = response;
if (trc != TeeuiRc::Ignored) secureInputDelivered_ = true;
rc = convertRc(trc);
}
if (secureInputDelivered_) listener_state_condv_.notify_all();
// VTS test expect an OK response if the event was successfully delivered.
// But since the TA returns the callback response now, we have to translate
// Canceled into OK. Canceled is only returned if the delivered event canceled
// the operation, which means that the event was successfully delivered. Thus
// we return OK.
if (rc == ResponseCode::Canceled) return ResponseCode::OK;
return rc;
}
Return<void> TrustyConfirmationUI::abort() {
{
std::unique_lock<std::mutex> stateLock(listener_state_lock_);
if (listener_state_ == ListenerState::SetupDone ||
listener_state_ == ListenerState::Interactive) {
auto sapp = app_.lock();
if (sapp) sapp->issueCmd<AbortMsg>();
abort_called_ = true;
}
}
listener_state_condv_.notify_all();
return Void();
}
android::sp<IConfirmationUI> createTrustyConfirmationUI() {
return new TrustyConfirmationUI();
}
} // namespace implementation
} // namespace V1_0
} // namespace confirmationui
} // namespace hardware
} // namespace android