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/*
* Copyright (C) 2011 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 "recovery_ui/ui.h"
#include <errno.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/time.h>
#include <sys/types.h>
#include <time.h>
#include <unistd.h>
#include <chrono>
#include <functional>
#include <string>
#include <thread>
#include <android-base/file.h>
#include <android-base/logging.h>
#include <android-base/parseint.h>
#include <android-base/properties.h>
#include <android-base/strings.h>
#include "minui/minui.h"
#include "otautil/sysutil.h"
using namespace std::chrono_literals;
constexpr int UI_WAIT_KEY_TIMEOUT_SEC = 120;
constexpr const char* DEFAULT_BRIGHTNESS_FILE = "/sys/class/leds/lcd-backlight/brightness";
constexpr const char* DEFAULT_MAX_BRIGHTNESS_FILE = "/sys/class/leds/lcd-backlight/max_brightness";
constexpr const char* BRIGHTNESS_FILE_SDM = "/sys/class/backlight/panel0-backlight/brightness";
constexpr const char* MAX_BRIGHTNESS_FILE_SDM =
"/sys/class/backlight/panel0-backlight/max_brightness";
constexpr const char* BRIGHTNESS_FILE_PWM = "/sys/class/backlight/pwm-backlight.0/brightness";
constexpr const char* MAX_BRIGHTNESS_FILE_PWM =
"/sys/class/backlight/pwm-backlight.0/max_brightness";
constexpr int kDefaultTouchLowThreshold = 50;
constexpr int kDefaultTouchHighThreshold = 90;
constexpr int kDefaultNormalBrightnessPercent = 50;
constexpr int kDefaultDimmedBrightnessPercent = 25;
RecoveryUI::RecoveryUI()
: brightness_normal_(android::base::GetIntProperty("ro.recovery.ui.brightness_normal_percent",
kDefaultNormalBrightnessPercent)),
brightness_dimmed_(android::base::GetIntProperty("ro.recovery.ui.brightness_dimmed_percent",
kDefaultDimmedBrightnessPercent)),
brightness_file_(
android::base::GetProperty("ro.recovery.ui.brightness_file", DEFAULT_BRIGHTNESS_FILE)),
max_brightness_file_(android::base::GetProperty("ro.recovery.ui.max_brightness_file",
DEFAULT_MAX_BRIGHTNESS_FILE)),
touch_screen_allowed_(true),
fastbootd_logo_enabled_(false),
touch_low_threshold_(android::base::GetIntProperty("ro.recovery.ui.touch_low_threshold",
kDefaultTouchLowThreshold)),
touch_high_threshold_(android::base::GetIntProperty("ro.recovery.ui.touch_high_threshold",
kDefaultTouchHighThreshold)),
key_interrupted_(false),
event_queue_len(0),
key_last_down(-1),
key_long_press(false),
key_down_count(0),
enable_reboot(true),
consecutive_power_keys(0),
has_power_key(false),
has_up_key(false),
has_down_key(false),
has_touch_screen(false),
touch_slot_(0),
touch_finger_down_(false),
touch_saw_x_(false),
touch_saw_y_(false),
touch_reported_(false),
is_bootreason_recovery_ui_(false),
screensaver_state_(ScreensaverState::DISABLED) {
memset(key_pressed, 0, sizeof(key_pressed));
}
RecoveryUI::~RecoveryUI() {
ev_exit();
input_thread_stopped_ = true;
if (input_thread_.joinable()) {
input_thread_.join();
}
}
void RecoveryUI::OnTouchDeviceDetected(int fd) {
char name[256];
char path[PATH_MAX];
char buf[4096];
memset(name, 0, sizeof(name));
if (ioctl(fd, EVIOCGNAME(sizeof(name)), name) < 0) {
return;
}
sprintf(path, "/sys/board_properties/virtualkeys.%s", name);
int vkfd = open(path, O_RDONLY);
if (vkfd < 0) {
LOG(INFO) << "vkeys: could not open " << path;
return;
}
ssize_t len = read(vkfd, buf, sizeof(buf));
close(vkfd);
if (len <= 0) {
LOG(ERROR) << "vkeys: could not read " << path;
return;
}
buf[len] = '\0';
char* p = buf;
char* endp;
for (size_t n = 0; p < buf + len && *p == '0'; ++n) {
int val[6];
int f;
for (f = 0; *p && f < 6; ++f) {
val[f] = strtol(p, &endp, 0);
if (p == endp) break;
p = endp + 1;
}
if (f != 6 || val[0] != 0x01) break;
vkey_t vk;
vk.keycode = val[1];
vk.min_ = Point(val[2] - val[4] / 2, val[3] - val[5] / 2);
vk.max_ = Point(val[2] + val[4] / 2, val[3] + val[5] / 2);
virtual_keys_.push_back(vk);
}
}
void RecoveryUI::OnKeyDetected(int key_code) {
if (key_code == KEY_POWER) {
has_power_key = true;
} else if (key_code == KEY_DOWN || key_code == KEY_VOLUMEDOWN) {
has_down_key = true;
} else if (key_code == KEY_UP || key_code == KEY_VOLUMEUP) {
has_up_key = true;
} else if (key_code == ABS_MT_POSITION_X || key_code == ABS_MT_POSITION_Y) {
has_touch_screen = true;
}
}
bool RecoveryUI::InitScreensaver() {
// Disabled.
if (brightness_normal_ == 0 || brightness_dimmed_ > brightness_normal_) {
return false;
}
if (access(brightness_file_.c_str(), R_OK | W_OK)) {
if (!access(BRIGHTNESS_FILE_SDM, R_OK | W_OK)) {
brightness_file_ = BRIGHTNESS_FILE_SDM;
} else {
brightness_file_ = BRIGHTNESS_FILE_PWM;
}
}
if (access(max_brightness_file_.c_str(), R_OK)) {
if (!access(MAX_BRIGHTNESS_FILE_SDM, R_OK)) {
max_brightness_file_ = MAX_BRIGHTNESS_FILE_SDM;
} else {
max_brightness_file_ = MAX_BRIGHTNESS_FILE_PWM;
}
}
// Set the initial brightness level based on the max brightness. Note that reading the initial
// value from BRIGHTNESS_FILE doesn't give the actual brightness value (bullhead, sailfish), so
// we don't have a good way to query the default value.
std::string content;
if (!android::base::ReadFileToString(max_brightness_file_, &content)) {
PLOG(WARNING) << "Failed to read max brightness";
return false;
}
unsigned int max_value;
if (!android::base::ParseUint(android::base::Trim(content), &max_value)) {
LOG(WARNING) << "Failed to parse max brightness: " << content;
return false;
}
brightness_normal_value_ = max_value * brightness_normal_ / 100.0;
brightness_dimmed_value_ = max_value * brightness_dimmed_ / 100.0;
if (!android::base::WriteStringToFile(std::to_string(brightness_normal_value_),
brightness_file_)) {
PLOG(WARNING) << "Failed to set brightness";
return false;
}
LOG(INFO) << "Brightness: " << brightness_normal_value_ << " (" << brightness_normal_ << "%)";
screensaver_state_ = ScreensaverState::NORMAL;
return true;
}
bool RecoveryUI::Init(const std::string& /* locale */) {
ev_init(std::bind(&RecoveryUI::OnInputEvent, this, std::placeholders::_1, std::placeholders::_2),
touch_screen_allowed_);
ev_iterate_available_keys(std::bind(&RecoveryUI::OnKeyDetected, this, std::placeholders::_1));
if (touch_screen_allowed_) {
ev_iterate_touch_inputs(
std::bind(&RecoveryUI::OnTouchDeviceDetected, this, std::placeholders::_1),
std::bind(&RecoveryUI::OnKeyDetected, this, std::placeholders::_1));
// Parse /proc/cmdline to determine if it's booting into recovery with a bootreason of
// "recovery_ui". This specific reason is set by some (wear) bootloaders, to allow an easier way
// to turn on text mode. It will only be set if the recovery boot is triggered from fastboot, or
// with 'adb reboot recovery'. Note that this applies to all build variants. Otherwise the text
// mode will be turned on automatically on debuggable builds, even without a swipe.
std::string cmdline;
if (android::base::ReadFileToString("/proc/cmdline", &cmdline)) {
is_bootreason_recovery_ui_ = cmdline.find("bootreason=recovery_ui") != std::string::npos;
} else {
// Non-fatal, and won't affect Init() result.
PLOG(WARNING) << "Failed to read /proc/cmdline";
}
}
if (!InitScreensaver()) {
LOG(INFO) << "Screensaver disabled";
}
// Create a separate thread that handles input events.
input_thread_ = std::thread([this]() {
while (!this->input_thread_stopped_) {
if (!ev_wait(500)) {
ev_dispatch();
}
}
});
return true;
}
enum SwipeDirection { UP, DOWN, RIGHT, LEFT };
static SwipeDirection FlipSwipeDirection(SwipeDirection direction) {
switch (direction) {
case UP:
return SwipeDirection::DOWN;
case DOWN:
return SwipeDirection::UP;
case RIGHT:
return SwipeDirection::LEFT;
case LEFT:
return SwipeDirection::RIGHT;
}
}
void RecoveryUI::OnTouchPress() {
touch_start_ = touch_track_ = touch_pos_;
}
void RecoveryUI::OnTouchTrack() {
if (touch_pos_.y() <= gr_fb_height()) {
while (abs(touch_pos_.y() - touch_track_.y()) >= MenuItemHeight()) {
int dy = touch_pos_.y() - touch_track_.y();
int key = (dy < 0) ? KEY_SCROLLDOWN : KEY_SCROLLUP;
ProcessKey(key, 1); // press key
ProcessKey(key, 0); // and release it
int sgn = (dy > 0) - (dy < 0);
touch_track_.y(touch_track_.y() + sgn * MenuItemHeight());
}
}
}
void RecoveryUI::OnTouchRelease() {
// Allow turning on text mode with any swipe, if bootloader has set a bootreason of recovery_ui.
if (is_bootreason_recovery_ui_ && !IsTextVisible()) {
ShowText(true);
return;
}
// Check vkeys. Only report if touch both starts and ends in the vkey.
if (touch_start_.y() > gr_fb_height() && touch_pos_.y() > gr_fb_height()) {
for (const auto& vk : virtual_keys_) {
if (vk.inside(touch_start_) && vk.inside(touch_pos_)) {
ProcessKey(vk.keycode, 1); // press key
ProcessKey(vk.keycode, 0); // and release it
}
}
return;
}
// If we tracked a vertical swipe, ignore the release
if (touch_track_ != touch_start_) {
return;
}
// Simple touch
EnqueueTouch(touch_pos_);
}
int RecoveryUI::OnInputEvent(int fd, uint32_t epevents) {
struct input_event ev;
if (ev_get_input(fd, epevents, &ev) == -1) {
return -1;
}
// Touch inputs handling.
//
// Per the doc Multi-touch Protocol at below, there are two protocols.
// https://www.kernel.org/doc/Documentation/input/multi-touch-protocol.txt
//
// The main difference between the stateless type A protocol and the stateful type B slot protocol
// lies in the usage of identifiable contacts to reduce the amount of data sent to userspace. The
// slot protocol (i.e. type B) sends ABS_MT_TRACKING_ID with a unique id on initial contact, and
// sends ABS_MT_TRACKING_ID -1 upon lifting the contact. Protocol A doesn't send
// ABS_MT_TRACKING_ID -1 on lifting, but the driver may additionally report BTN_TOUCH event.
//
// For protocol A, we rely on BTN_TOUCH to recognize lifting, while for protocol B we look for
// ABS_MT_TRACKING_ID being -1.
//
// Touch input events will only be available if touch_screen_allowed_ is set.
if (ev.type == EV_SYN) {
if (touch_screen_allowed_ && ev.code == SYN_REPORT) {
// There might be multiple SYN_REPORT events. Only report press/release once.
if (!touch_reported_ && touch_finger_down_) {
if (touch_saw_x_ && touch_saw_y_) {
OnTouchPress();
touch_reported_ = true;
touch_saw_x_ = touch_saw_y_ = false;
}
} else if (touch_reported_ && !touch_finger_down_) {
OnTouchRelease();
touch_reported_ = false;
touch_saw_x_ = touch_saw_y_ = false;
}
}
return 0;
}
if (ev.type == EV_REL) {
if (ev.code == REL_Y) {
// accumulate the up or down motion reported by
// the trackball. When it exceeds a threshold
// (positive or negative), fake an up/down
// key event.
rel_sum += ev.value;
if (rel_sum > 3) {
ProcessKey(KEY_DOWN, 1); // press down key
ProcessKey(KEY_DOWN, 0); // and release it
rel_sum = 0;
} else if (rel_sum < -3) {
ProcessKey(KEY_UP, 1); // press up key
ProcessKey(KEY_UP, 0); // and release it
rel_sum = 0;
}
}
} else {
rel_sum = 0;
}
if (touch_screen_allowed_ && ev.type == EV_ABS) {
if (ev.code == ABS_MT_SLOT) {
touch_slot_ = ev.value;
}
// Ignore other fingers.
if (touch_slot_ > 0) return 0;
switch (ev.code) {
case ABS_MT_POSITION_X:
touch_finger_down_ = true;
touch_saw_x_ = true;
touch_pos_.x(ev.value);
if (touch_reported_ && touch_saw_y_) {
OnTouchTrack();
touch_saw_x_ = touch_saw_y_ = false;
}
break;
case ABS_MT_POSITION_Y:
touch_finger_down_ = true;
touch_saw_y_ = true;
touch_pos_.y(ev.value);
if (touch_reported_ && touch_saw_x_) {
OnTouchTrack();
touch_saw_x_ = touch_saw_y_ = false;
}
break;
case ABS_MT_TRACKING_ID:
// Protocol B: -1 marks lifting the contact.
if (ev.value < 0) touch_finger_down_ = false;
break;
}
return 0;
}
if (ev.type == EV_KEY && ev.code <= KEY_MAX) {
if (touch_screen_allowed_) {
if (ev.code == BTN_TOUCH) {
// A BTN_TOUCH with value 1 indicates the start of contact (protocol A), with 0 means
// lifting the contact.
touch_finger_down_ = (ev.value == 1);
}
// Intentionally ignore BTN_TOUCH and BTN_TOOL_FINGER, which would otherwise trigger
// additional scrolling (because in ScreenRecoveryUI::ShowFile(), we consider keys other than
// KEY_POWER and KEY_UP as KEY_DOWN).
if (ev.code == BTN_TOUCH || ev.code == BTN_TOOL_FINGER) {
return 0;
}
}
ProcessKey(ev.code, ev.value);
}
// For Lid switch handle
if (ev.type == EV_SW) {
SetSwCallback(ev.code, ev.value);
}
return 0;
}
// Processes a key-up or -down event. A key is "registered" when it is pressed and then released,
// with no other keypresses or releases in between. Registered keys are passed to CheckKey() to
// see if it should trigger a visibility toggle, an immediate reboot, or be queued to be processed
// next time the foreground thread wants a key (eg, for the menu).
//
// We also keep track of which keys are currently down so that CheckKey() can call IsKeyPressed()
// to see what other keys are held when a key is registered.
//
// updown == 1 for key down events; 0 for key up events
void RecoveryUI::ProcessKey(int key_code, int updown) {
bool register_key = false;
bool long_press = false;
{
std::lock_guard<std::mutex> lg(key_press_mutex);
key_pressed[key_code] = updown;
if (updown) {
++key_down_count;
key_last_down = key_code;
key_long_press = false;
std::thread time_key_thread(&RecoveryUI::TimeKey, this, key_code, key_down_count);
time_key_thread.detach();
} else {
if (key_last_down == key_code) {
long_press = key_long_press;
register_key = true;
}
key_last_down = -1;
}
}
bool reboot_enabled = enable_reboot;
if (register_key) {
switch (CheckKey(key_code, long_press)) {
case RecoveryUI::IGNORE:
break;
case RecoveryUI::TOGGLE:
ShowText(!IsTextVisible());
break;
case RecoveryUI::REBOOT:
if (reboot_enabled) {
Reboot("userrequested,recovery,ui");
}
break;
case RecoveryUI::ENQUEUE:
EnqueueKey(key_code);
break;
}
}
}
void RecoveryUI::TimeKey(int key_code, int count) {
std::this_thread::sleep_for(750ms); // 750 ms == "long"
bool long_press = false;
{
std::lock_guard<std::mutex> lg(key_press_mutex);
if (key_last_down == key_code && key_down_count == count) {
long_press = key_long_press = true;
}
}
if (long_press) KeyLongPress(key_code);
}
void RecoveryUI::EnqueueKey(int key_code) {
std::lock_guard<std::mutex> lg(event_queue_mutex);
const int queue_max = sizeof(event_queue) / sizeof(event_queue[0]);
if (event_queue_len < queue_max) {
InputEvent event(key_code);
event_queue[event_queue_len++] = event;
event_queue_cond.notify_one();
}
}
void RecoveryUI::EnqueueTouch(const Point& pos) {
std::lock_guard<std::mutex> lg(event_queue_mutex);
const int queue_max = sizeof(event_queue) / sizeof(event_queue[0]);
if (event_queue_len < queue_max) {
InputEvent event(pos);
event_queue[event_queue_len++] = event;
event_queue_cond.notify_one();
}
}
void RecoveryUI::SetScreensaverState(ScreensaverState state) {
switch (state) {
case ScreensaverState::NORMAL:
if (android::base::WriteStringToFile(std::to_string(brightness_normal_value_),
brightness_file_)) {
screensaver_state_ = ScreensaverState::NORMAL;
LOG(INFO) << "Brightness: " << brightness_normal_value_ << " (" << brightness_normal_
<< "%)";
} else {
LOG(WARNING) << "Unable to set brightness to normal";
}
break;
case ScreensaverState::DIMMED:
if (android::base::WriteStringToFile(std::to_string(brightness_dimmed_value_),
brightness_file_)) {
LOG(INFO) << "Brightness: " << brightness_dimmed_value_ << " (" << brightness_dimmed_
<< "%)";
screensaver_state_ = ScreensaverState::DIMMED;
} else {
LOG(WARNING) << "Unable to set brightness to dim";
}
break;
case ScreensaverState::OFF:
if (android::base::WriteStringToFile("0", brightness_file_)) {
LOG(INFO) << "Brightness: 0 (off)";
screensaver_state_ = ScreensaverState::OFF;
} else {
LOG(WARNING) << "Unable to set brightness to off";
}
break;
default:
LOG(ERROR) << "Invalid screensaver state";
}
}
RecoveryUI::InputEvent RecoveryUI::WaitInputEvent() {
std::unique_lock<std::mutex> lk(event_queue_mutex);
// Check for a saved key queue interruption.
if (key_interrupted_) {
SetScreensaverState(ScreensaverState::NORMAL);
return InputEvent(EventType::EXTRA, KeyError::INTERRUPTED);
}
// Time out after UI_WAIT_KEY_TIMEOUT_SEC, unless a USB cable is plugged in.
do {
bool rc = event_queue_cond.wait_for(lk, std::chrono::seconds(UI_WAIT_KEY_TIMEOUT_SEC), [this] {
return this->event_queue_len != 0 || key_interrupted_;
});
if (key_interrupted_) {
SetScreensaverState(ScreensaverState::NORMAL);
return InputEvent(EventType::EXTRA, KeyError::INTERRUPTED);
}
if (screensaver_state_ != ScreensaverState::DISABLED) {
if (!rc) {
// Must be after a timeout. Lower the brightness level: NORMAL -> DIMMED; DIMMED -> OFF.
if (screensaver_state_ == ScreensaverState::NORMAL) {
SetScreensaverState(ScreensaverState::DIMMED);
} else if (screensaver_state_ == ScreensaverState::DIMMED) {
SetScreensaverState(ScreensaverState::OFF);
}
} else if (screensaver_state_ != ScreensaverState::NORMAL) {
// Drop the first key if it's changing from OFF to NORMAL.
if (screensaver_state_ == ScreensaverState::OFF) {
if (event_queue_len > 0) {
memcpy(&event_queue[0], &event_queue[1], sizeof(int) * --event_queue_len);
}
}
// Reset the brightness to normal.
SetScreensaverState(ScreensaverState::NORMAL);
}
}
} while (IsUsbConnected() && event_queue_len == 0);
InputEvent event;
if (event_queue_len > 0) {
event = event_queue[0];
memcpy(&event_queue[0], &event_queue[1], sizeof(InputEvent) * --event_queue_len);
}
return event;
}
void RecoveryUI::CancelWaitKey() {
EnqueueKey(KEY_AGAIN);
}
void RecoveryUI::InterruptKey() {
{
std::lock_guard<std::mutex> lg(event_queue_mutex);
key_interrupted_ = true;
}
event_queue_cond.notify_one();
}
bool RecoveryUI::IsUsbConnected() {
int fd = open("/sys/class/android_usb/android0/state", O_RDONLY);
if (fd < 0) {
printf("failed to open /sys/class/android_usb/android0/state: %s\n", strerror(errno));
return 0;
}
char buf;
// USB is connected if android_usb state is CONNECTED or CONFIGURED.
int connected = (TEMP_FAILURE_RETRY(read(fd, &buf, 1)) == 1) && (buf == 'C');
if (close(fd) < 0) {
printf("failed to close /sys/class/android_usb/android0/state: %s\n", strerror(errno));
}
return connected;
}
bool RecoveryUI::IsKeyPressed(int key) {
std::lock_guard<std::mutex> lg(key_press_mutex);
int pressed = key_pressed[key];
return pressed;
}
bool RecoveryUI::IsLongPress() {
std::lock_guard<std::mutex> lg(key_press_mutex);
bool result = key_long_press;
return result;
}
bool RecoveryUI::HasThreeButtons() const {
return has_power_key && has_up_key && has_down_key;
}
bool RecoveryUI::HasPowerKey() const {
return has_power_key;
}
bool RecoveryUI::HasTouchScreen() const {
return has_touch_screen;
}
void RecoveryUI::FlushKeys() {
std::lock_guard<std::mutex> lg(event_queue_mutex);
event_queue_len = 0;
}
RecoveryUI::KeyAction RecoveryUI::CheckKey(int key, bool is_long_press) {
{
std::lock_guard<std::mutex> lg(key_press_mutex);
key_long_press = false;
}
// If we have power and volume up keys, that chord is the signal to toggle the text display.
if (HasThreeButtons() || (HasPowerKey() && HasTouchScreen() && touch_screen_allowed_)) {
if ((key == KEY_VOLUMEUP || key == KEY_UP) && IsKeyPressed(KEY_POWER)) {
return TOGGLE;
}
} else {
// Otherwise long press of any button toggles to the text display,
// and there's no way to toggle back (but that's pretty useless anyway).
if (is_long_press && !IsTextVisible()) {
return TOGGLE;
}
// Also, for button-limited devices, a long press is translated to KEY_ENTER.
if (is_long_press && IsTextVisible()) {
EnqueueKey(KEY_ENTER);
return IGNORE;
}
}
// Press power seven times in a row to reboot.
if (key == KEY_POWER) {
bool reboot_enabled = enable_reboot;
if (reboot_enabled) {
++consecutive_power_keys;
if (consecutive_power_keys >= 7) {
return REBOOT;
}
}
} else {
consecutive_power_keys = 0;
}
return (IsTextVisible() || screensaver_state_ == ScreensaverState::OFF) ? ENQUEUE : IGNORE;
}
void RecoveryUI::KeyLongPress(int) {}
void RecoveryUI::SetEnableReboot(bool enabled) {
std::lock_guard<std::mutex> lg(key_press_mutex);
enable_reboot = enabled;
}