system/osi/src/wakelock.cc - LeafOS-Project/android_packages_modules_Bluetooth - Gitiles

 /******************************************************************************
  *
  *  Copyright 2015 Google, Inc.
  *
  *  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.
  *
  ******************************************************************************/

 #define LOG_TAG "bt_osi_wakelock"

 #include "osi/include/wakelock.h"

 #include <fcntl.h>
 #include <hardware/bluetooth.h>
 #include <pthread.h>
 #include <string.h>
 #include <sys/stat.h>
 #include <sys/types.h>
 #include <time.h>
 #include <unistd.h>

 #include <mutex>
 #include <string>

 #include "base/logging.h"
 #include "common/metrics.h"
 #include "os/log.h"
 #include "osi/include/osi.h"

 using bluetooth::common::BluetoothMetricsLogger;

 static bt_os_callouts_t* wakelock_os_callouts = NULL;
 static bool is_native = true;

 static const clockid_t CLOCK_ID = CLOCK_BOOTTIME;
 static const char* WAKE_LOCK_ID = "bluetooth_timer";
 static const std::string DEFAULT_WAKE_LOCK_PATH = "/sys/power/wake_lock";
 static const std::string DEFAULT_WAKE_UNLOCK_PATH = "/sys/power/wake_unlock";
 static std::string wake_lock_path;
 static std::string wake_unlock_path;
 static ssize_t locked_id_len = -1;
 static pthread_once_t initialized = PTHREAD_ONCE_INIT;
 static int wake_lock_fd = INVALID_FD;
 static int wake_unlock_fd = INVALID_FD;

 // Wakelock statistics for the "bluetooth_timer"
 typedef struct {
   bool is_acquired;
   size_t acquired_count;
   size_t released_count;
   size_t acquired_errors;
   size_t released_errors;
   uint64_t min_acquired_interval_ms;
   uint64_t max_acquired_interval_ms;
   uint64_t last_acquired_interval_ms;
   uint64_t total_acquired_interval_ms;
   uint64_t last_acquired_timestamp_ms;
   uint64_t last_released_timestamp_ms;
   uint64_t last_reset_timestamp_ms;
   int last_acquired_error;
   int last_released_error;
 } wakelock_stats_t;

 static wakelock_stats_t wakelock_stats;

 // This mutex ensures that the functions that update and dump the statistics
 // are executed serially.
 static std::mutex stats_mutex;

 static bt_status_t wakelock_acquire_callout(void);
 static bt_status_t wakelock_acquire_native(void);
 static bt_status_t wakelock_release_callout(void);
 static bt_status_t wakelock_release_native(void);
 static void wakelock_initialize(void);
 static void wakelock_initialize_native(void);
 static void reset_wakelock_stats(void);
 static void update_wakelock_acquired_stats(bt_status_t acquired_status);
 static void update_wakelock_released_stats(bt_status_t released_status);

 void wakelock_set_os_callouts(bt_os_callouts_t* callouts) {
   wakelock_os_callouts = callouts;
   is_native = (wakelock_os_callouts == NULL);
   LOG_INFO("%s set to %s", __func__, (is_native) ? "native" : "non-native");
 }

 bool wakelock_acquire(void) {
   pthread_once(&initialized, wakelock_initialize);

   bt_status_t status = BT_STATUS_FAIL;

   if (is_native)
     status = wakelock_acquire_native();
   else
     status = wakelock_acquire_callout();

   update_wakelock_acquired_stats(status);

   if (status != BT_STATUS_SUCCESS)
     LOG_ERROR("%s unable to acquire wake lock: %d", __func__, status);

   return (status == BT_STATUS_SUCCESS);
 }

 static bt_status_t wakelock_acquire_callout(void) {
   return static_cast<bt_status_t>(
       wakelock_os_callouts->acquire_wake_lock(WAKE_LOCK_ID));
 }

 static bt_status_t wakelock_acquire_native(void) {
   if (wake_lock_fd == INVALID_FD) {
     LOG_ERROR("%s lock not acquired, invalid fd", __func__);
     return BT_STATUS_PARM_INVALID;
   }

   if (wake_unlock_fd == INVALID_FD) {
     LOG_ERROR("%s not acquiring lock: can't release lock", __func__);
     return BT_STATUS_PARM_INVALID;
   }

   long lock_name_len = strlen(WAKE_LOCK_ID);
   locked_id_len = write(wake_lock_fd, WAKE_LOCK_ID, lock_name_len);
   if (locked_id_len == -1) {
     LOG_ERROR("%s wake lock not acquired: %s", __func__, strerror(errno));
     return BT_STATUS_FAIL;
   } else if (locked_id_len < lock_name_len) {
     // TODO (jamuraa): this is weird. maybe we should release and retry.
     LOG_WARN("%s wake lock truncated to %zd chars", __func__, locked_id_len);
   }
   return BT_STATUS_SUCCESS;
 }

 bool wakelock_release(void) {
   pthread_once(&initialized, wakelock_initialize);

   bt_status_t status = BT_STATUS_FAIL;

   if (is_native)
     status = wakelock_release_native();
   else
     status = wakelock_release_callout();

   update_wakelock_released_stats(status);

   return (status == BT_STATUS_SUCCESS);
 }

 static bt_status_t wakelock_release_callout(void) {
   return static_cast<bt_status_t>(
       wakelock_os_callouts->release_wake_lock(WAKE_LOCK_ID));
 }

 static bt_status_t wakelock_release_native(void) {
   if (wake_unlock_fd == INVALID_FD) {
     LOG_ERROR("%s lock not released, invalid fd", __func__);
     return BT_STATUS_PARM_INVALID;
   }

   ssize_t wrote_name_len = write(wake_unlock_fd, WAKE_LOCK_ID, locked_id_len);
   if (wrote_name_len == -1) {
     LOG_ERROR("%s can't release wake lock: %s", __func__, strerror(errno));
   } else if (wrote_name_len < locked_id_len) {
     LOG_ERROR("%s lock release only wrote %zd, assuming released", __func__,
               wrote_name_len);
   }
   return BT_STATUS_SUCCESS;
 }

 static void wakelock_initialize(void) {
   reset_wakelock_stats();

   if (is_native) wakelock_initialize_native();
 }

 static void wakelock_initialize_native(void) {
   LOG_INFO("%s opening wake locks", __func__);

   if (wake_lock_path.empty()) wake_lock_path = DEFAULT_WAKE_LOCK_PATH;

   wake_lock_fd = open(wake_lock_path.c_str(), O_RDWR | O_CLOEXEC);
   if (wake_lock_fd == INVALID_FD) {
     LOG_ERROR("%s can't open wake lock %s: %s", __func__,
               wake_lock_path.c_str(), strerror(errno));
   }

   if (wake_unlock_path.empty()) wake_unlock_path = DEFAULT_WAKE_UNLOCK_PATH;

   wake_unlock_fd = open(wake_unlock_path.c_str(), O_RDWR | O_CLOEXEC);
   if (wake_unlock_fd == INVALID_FD) {
     LOG_ERROR("%s can't open wake unlock %s: %s", __func__,
               wake_unlock_path.c_str(), strerror(errno));
   }
 }

 void wakelock_cleanup(void) {
   if (wakelock_stats.is_acquired) {
     LOG_ERROR("%s releasing wake lock as part of cleanup", __func__);
     wakelock_release();
   }
   wake_lock_path.clear();
   wake_unlock_path.clear();
   initialized = PTHREAD_ONCE_INIT;
 }

 void wakelock_set_paths(const char* lock_path, const char* unlock_path) {
   if (lock_path) wake_lock_path = lock_path;

   if (unlock_path) wake_unlock_path = unlock_path;
 }

 static uint64_t now_ms(void) {
   struct timespec ts;
   if (clock_gettime(CLOCK_ID, &ts) == -1) {
     LOG_ERROR("%s unable to get current time: %s", __func__, strerror(errno));
     return 0;
   }

   return (ts.tv_sec * 1000LL) + (ts.tv_nsec / 1000000LL);
 }

 // Reset the Bluetooth wakelock statistics.
 // This function is thread-safe.
 static void reset_wakelock_stats(void) {
   std::lock_guard<std::mutex> lock(stats_mutex);

   wakelock_stats.is_acquired = false;
   wakelock_stats.acquired_count = 0;
   wakelock_stats.released_count = 0;
   wakelock_stats.acquired_errors = 0;
   wakelock_stats.released_errors = 0;
   wakelock_stats.min_acquired_interval_ms = 0;
   wakelock_stats.max_acquired_interval_ms = 0;
   wakelock_stats.last_acquired_interval_ms = 0;
   wakelock_stats.total_acquired_interval_ms = 0;
   wakelock_stats.last_acquired_timestamp_ms = 0;
   wakelock_stats.last_released_timestamp_ms = 0;
   wakelock_stats.last_reset_timestamp_ms = now_ms();
 }

 //
 // Update the Bluetooth acquire wakelock statistics.
 //
 // This function should be called every time when the wakelock is acquired.
 // |acquired_status| is the status code that was return when the wakelock was
 // acquired.
 // This function is thread-safe.
 //
 static void update_wakelock_acquired_stats(bt_status_t acquired_status) {
   const uint64_t just_now_ms = now_ms();

   std::lock_guard<std::mutex> lock(stats_mutex);

   if (acquired_status != BT_STATUS_SUCCESS) {
     wakelock_stats.acquired_errors++;
     wakelock_stats.last_acquired_error = acquired_status;
   }

   if (wakelock_stats.is_acquired) {
     return;
   }

   wakelock_stats.is_acquired = true;
   wakelock_stats.acquired_count++;
   wakelock_stats.last_acquired_timestamp_ms = just_now_ms;

   BluetoothMetricsLogger::GetInstance()->LogWakeEvent(
       bluetooth::common::WAKE_EVENT_ACQUIRED, "", "", just_now_ms);
 }

 //
 // Update the Bluetooth release wakelock statistics.
 //
 // This function should be called every time when the wakelock is released.
 // |released_status| is the status code that was return when the wakelock was
 // released.
 // This function is thread-safe.
 //
 static void update_wakelock_released_stats(bt_status_t released_status) {
   const uint64_t just_now_ms = now_ms();

   std::lock_guard<std::mutex> lock(stats_mutex);

   if (released_status != BT_STATUS_SUCCESS) {
     wakelock_stats.released_errors++;
     wakelock_stats.last_released_error = released_status;
   }

   if (!wakelock_stats.is_acquired) {
     return;
   }

   wakelock_stats.is_acquired = false;
   wakelock_stats.released_count++;
   wakelock_stats.last_released_timestamp_ms = just_now_ms;

   // Compute the acquired interval and update the statistics
   uint64_t delta_ms = just_now_ms - wakelock_stats.last_acquired_timestamp_ms;
   if (delta_ms < wakelock_stats.min_acquired_interval_ms ||
       wakelock_stats.released_count == 1) {
     wakelock_stats.min_acquired_interval_ms = delta_ms;
   }
   if (delta_ms > wakelock_stats.max_acquired_interval_ms) {
     wakelock_stats.max_acquired_interval_ms = delta_ms;
   }
   wakelock_stats.last_acquired_interval_ms = delta_ms;
   wakelock_stats.total_acquired_interval_ms += delta_ms;

   BluetoothMetricsLogger::GetInstance()->LogWakeEvent(
       bluetooth::common::WAKE_EVENT_RELEASED, "", "", just_now_ms);
 }

 void wakelock_debug_dump(int fd) {
   const uint64_t just_now_ms = now_ms();

   std::lock_guard<std::mutex> lock(stats_mutex);

   // Compute the last acquired interval if the wakelock is still acquired
   uint64_t delta_ms = 0;
   uint64_t last_interval_ms = wakelock_stats.last_acquired_interval_ms;
   uint64_t min_interval_ms = wakelock_stats.min_acquired_interval_ms;
   uint64_t max_interval_ms = wakelock_stats.max_acquired_interval_ms;
   uint64_t avg_interval_ms = 0;

   if (wakelock_stats.is_acquired) {
     delta_ms = just_now_ms - wakelock_stats.last_acquired_timestamp_ms;
     if (delta_ms > max_interval_ms) max_interval_ms = delta_ms;
     if (delta_ms < min_interval_ms) min_interval_ms = delta_ms;
     last_interval_ms = delta_ms;
   }
   uint64_t total_interval_ms =
       wakelock_stats.total_acquired_interval_ms + delta_ms;

   if (wakelock_stats.acquired_count > 0)
     avg_interval_ms = total_interval_ms / wakelock_stats.acquired_count;

   dprintf(fd, "\nBluetooth Wakelock Statistics:\n");
   dprintf(fd, "  Is acquired                    : %s\n",
           wakelock_stats.is_acquired ? "true" : "false");
   dprintf(fd, "  Acquired/released count        : %zu / %zu\n",
           wakelock_stats.acquired_count, wakelock_stats.released_count);
   dprintf(fd, "  Acquired/released error count  : %zu / %zu\n",
           wakelock_stats.acquired_errors, wakelock_stats.released_errors);
   dprintf(fd, "  Last acquire/release error code: %d / %d\n",
           wakelock_stats.last_acquired_error,
           wakelock_stats.last_released_error);
   dprintf(fd, "  Last acquired time (ms)        : %llu\n",
           (unsigned long long)last_interval_ms);
   dprintf(fd, "  Acquired time min/max/avg (ms) : %llu / %llu / %llu\n",
           (unsigned long long)min_interval_ms,
           (unsigned long long)max_interval_ms,
           (unsigned long long)avg_interval_ms);
   dprintf(fd, "  Total acquired time (ms)       : %llu\n",
           (unsigned long long)total_interval_ms);
   dprintf(fd, "  Total run time (ms)            : %llu\n",
           (unsigned long long)(just_now_ms -
                                wakelock_stats.last_reset_timestamp_ms));
 }
	/******************************************************************************
	*
	* Copyright 2015 Google, Inc.
	*
	* 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.
	*
	******************************************************************************/

	#define LOG_TAG "bt_osi_wakelock"

	#include "osi/include/wakelock.h"

	#include <fcntl.h>
	#include <hardware/bluetooth.h>
	#include <pthread.h>
	#include <string.h>
	#include <sys/stat.h>
	#include <sys/types.h>
	#include <time.h>
	#include <unistd.h>

	#include <mutex>
	#include <string>

	#include "base/logging.h"
	#include "common/metrics.h"
	#include "os/log.h"
	#include "osi/include/osi.h"

	using bluetooth::common::BluetoothMetricsLogger;

	static bt_os_callouts_t* wakelock_os_callouts = NULL;
	static bool is_native = true;

	static const clockid_t CLOCK_ID = CLOCK_BOOTTIME;
	static const char* WAKE_LOCK_ID = "bluetooth_timer";
	static const std::string DEFAULT_WAKE_LOCK_PATH = "/sys/power/wake_lock";
	static const std::string DEFAULT_WAKE_UNLOCK_PATH = "/sys/power/wake_unlock";
	static std::string wake_lock_path;
	static std::string wake_unlock_path;
	static ssize_t locked_id_len = -1;
	static pthread_once_t initialized = PTHREAD_ONCE_INIT;
	static int wake_lock_fd = INVALID_FD;
	static int wake_unlock_fd = INVALID_FD;

	// Wakelock statistics for the "bluetooth_timer"
	typedef struct {
	bool is_acquired;
	size_t acquired_count;
	size_t released_count;
	size_t acquired_errors;
	size_t released_errors;
	uint64_t min_acquired_interval_ms;
	uint64_t max_acquired_interval_ms;
	uint64_t last_acquired_interval_ms;
	uint64_t total_acquired_interval_ms;
	uint64_t last_acquired_timestamp_ms;
	uint64_t last_released_timestamp_ms;
	uint64_t last_reset_timestamp_ms;
	int last_acquired_error;
	int last_released_error;
	} wakelock_stats_t;

	static wakelock_stats_t wakelock_stats;

	// This mutex ensures that the functions that update and dump the statistics
	// are executed serially.
	static std::mutex stats_mutex;

	static bt_status_t wakelock_acquire_callout(void);
	static bt_status_t wakelock_acquire_native(void);
	static bt_status_t wakelock_release_callout(void);
	static bt_status_t wakelock_release_native(void);
	static void wakelock_initialize(void);
	static void wakelock_initialize_native(void);
	static void reset_wakelock_stats(void);
	static void update_wakelock_acquired_stats(bt_status_t acquired_status);
	static void update_wakelock_released_stats(bt_status_t released_status);

	void wakelock_set_os_callouts(bt_os_callouts_t* callouts) {
	wakelock_os_callouts = callouts;
	is_native = (wakelock_os_callouts == NULL);
	LOG_INFO("%s set to %s", __func__, (is_native) ? "native" : "non-native");
	}

	bool wakelock_acquire(void) {
	pthread_once(&initialized, wakelock_initialize);

	bt_status_t status = BT_STATUS_FAIL;

	if (is_native)
	status = wakelock_acquire_native();
	else
	status = wakelock_acquire_callout();

	update_wakelock_acquired_stats(status);

	if (status != BT_STATUS_SUCCESS)
	LOG_ERROR("%s unable to acquire wake lock: %d", __func__, status);

	return (status == BT_STATUS_SUCCESS);
	}

	static bt_status_t wakelock_acquire_callout(void) {
	return static_cast<bt_status_t>(
	wakelock_os_callouts->acquire_wake_lock(WAKE_LOCK_ID));
	}

	static bt_status_t wakelock_acquire_native(void) {
	if (wake_lock_fd == INVALID_FD) {
	LOG_ERROR("%s lock not acquired, invalid fd", __func__);
	return BT_STATUS_PARM_INVALID;
	}

	if (wake_unlock_fd == INVALID_FD) {
	LOG_ERROR("%s not acquiring lock: can't release lock", __func__);
	return BT_STATUS_PARM_INVALID;
	}

	long lock_name_len = strlen(WAKE_LOCK_ID);
	locked_id_len = write(wake_lock_fd, WAKE_LOCK_ID, lock_name_len);
	if (locked_id_len == -1) {
	LOG_ERROR("%s wake lock not acquired: %s", __func__, strerror(errno));
	return BT_STATUS_FAIL;
	} else if (locked_id_len < lock_name_len) {
	// TODO (jamuraa): this is weird. maybe we should release and retry.
	LOG_WARN("%s wake lock truncated to %zd chars", __func__, locked_id_len);
	}
	return BT_STATUS_SUCCESS;
	}

	bool wakelock_release(void) {
	pthread_once(&initialized, wakelock_initialize);

	bt_status_t status = BT_STATUS_FAIL;

	if (is_native)
	status = wakelock_release_native();
	else
	status = wakelock_release_callout();

	update_wakelock_released_stats(status);

	return (status == BT_STATUS_SUCCESS);
	}

	static bt_status_t wakelock_release_callout(void) {
	return static_cast<bt_status_t>(
	wakelock_os_callouts->release_wake_lock(WAKE_LOCK_ID));
	}

	static bt_status_t wakelock_release_native(void) {
	if (wake_unlock_fd == INVALID_FD) {
	LOG_ERROR("%s lock not released, invalid fd", __func__);
	return BT_STATUS_PARM_INVALID;
	}

	ssize_t wrote_name_len = write(wake_unlock_fd, WAKE_LOCK_ID, locked_id_len);
	if (wrote_name_len == -1) {
	LOG_ERROR("%s can't release wake lock: %s", __func__, strerror(errno));
	} else if (wrote_name_len < locked_id_len) {
	LOG_ERROR("%s lock release only wrote %zd, assuming released", __func__,
	wrote_name_len);
	}
	return BT_STATUS_SUCCESS;
	}

	static void wakelock_initialize(void) {
	reset_wakelock_stats();

	if (is_native) wakelock_initialize_native();
	}

	static void wakelock_initialize_native(void) {
	LOG_INFO("%s opening wake locks", __func__);

	if (wake_lock_path.empty()) wake_lock_path = DEFAULT_WAKE_LOCK_PATH;

	wake_lock_fd = open(wake_lock_path.c_str(), O_RDWR \| O_CLOEXEC);
	if (wake_lock_fd == INVALID_FD) {
	LOG_ERROR("%s can't open wake lock %s: %s", __func__,
	wake_lock_path.c_str(), strerror(errno));
	}

	if (wake_unlock_path.empty()) wake_unlock_path = DEFAULT_WAKE_UNLOCK_PATH;

	wake_unlock_fd = open(wake_unlock_path.c_str(), O_RDWR \| O_CLOEXEC);
	if (wake_unlock_fd == INVALID_FD) {
	LOG_ERROR("%s can't open wake unlock %s: %s", __func__,
	wake_unlock_path.c_str(), strerror(errno));
	}
	}

	void wakelock_cleanup(void) {
	if (wakelock_stats.is_acquired) {
	LOG_ERROR("%s releasing wake lock as part of cleanup", __func__);
	wakelock_release();
	}
	wake_lock_path.clear();
	wake_unlock_path.clear();
	initialized = PTHREAD_ONCE_INIT;
	}

	void wakelock_set_paths(const char* lock_path, const char* unlock_path) {
	if (lock_path) wake_lock_path = lock_path;

	if (unlock_path) wake_unlock_path = unlock_path;
	}

	static uint64_t now_ms(void) {
	struct timespec ts;
	if (clock_gettime(CLOCK_ID, &ts) == -1) {
	LOG_ERROR("%s unable to get current time: %s", __func__, strerror(errno));
	return 0;
	}

	return (ts.tv_sec * 1000LL) + (ts.tv_nsec / 1000000LL);
	}

	// Reset the Bluetooth wakelock statistics.
	// This function is thread-safe.
	static void reset_wakelock_stats(void) {
	std::lock_guard<std::mutex> lock(stats_mutex);

	wakelock_stats.is_acquired = false;
	wakelock_stats.acquired_count = 0;
	wakelock_stats.released_count = 0;
	wakelock_stats.acquired_errors = 0;
	wakelock_stats.released_errors = 0;
	wakelock_stats.min_acquired_interval_ms = 0;
	wakelock_stats.max_acquired_interval_ms = 0;
	wakelock_stats.last_acquired_interval_ms = 0;
	wakelock_stats.total_acquired_interval_ms = 0;
	wakelock_stats.last_acquired_timestamp_ms = 0;
	wakelock_stats.last_released_timestamp_ms = 0;
	wakelock_stats.last_reset_timestamp_ms = now_ms();
	}

	//
	// Update the Bluetooth acquire wakelock statistics.
	//
	// This function should be called every time when the wakelock is acquired.
	// \|acquired_status\| is the status code that was return when the wakelock was
	// acquired.
	// This function is thread-safe.
	//
	static void update_wakelock_acquired_stats(bt_status_t acquired_status) {
	const uint64_t just_now_ms = now_ms();

	std::lock_guard<std::mutex> lock(stats_mutex);

	if (acquired_status != BT_STATUS_SUCCESS) {
	wakelock_stats.acquired_errors++;
	wakelock_stats.last_acquired_error = acquired_status;
	}

	if (wakelock_stats.is_acquired) {
	return;
	}

	wakelock_stats.is_acquired = true;
	wakelock_stats.acquired_count++;
	wakelock_stats.last_acquired_timestamp_ms = just_now_ms;

	BluetoothMetricsLogger::GetInstance()->LogWakeEvent(
	bluetooth::common::WAKE_EVENT_ACQUIRED, "", "", just_now_ms);
	}

	//
	// Update the Bluetooth release wakelock statistics.
	//
	// This function should be called every time when the wakelock is released.
	// \|released_status\| is the status code that was return when the wakelock was
	// released.
	// This function is thread-safe.
	//
	static void update_wakelock_released_stats(bt_status_t released_status) {
	const uint64_t just_now_ms = now_ms();

	std::lock_guard<std::mutex> lock(stats_mutex);

	if (released_status != BT_STATUS_SUCCESS) {
	wakelock_stats.released_errors++;
	wakelock_stats.last_released_error = released_status;
	}

	if (!wakelock_stats.is_acquired) {
	return;
	}

	wakelock_stats.is_acquired = false;
	wakelock_stats.released_count++;
	wakelock_stats.last_released_timestamp_ms = just_now_ms;

	// Compute the acquired interval and update the statistics
	uint64_t delta_ms = just_now_ms - wakelock_stats.last_acquired_timestamp_ms;
	if (delta_ms < wakelock_stats.min_acquired_interval_ms \|\|
	wakelock_stats.released_count == 1) {
	wakelock_stats.min_acquired_interval_ms = delta_ms;
	}
	if (delta_ms > wakelock_stats.max_acquired_interval_ms) {
	wakelock_stats.max_acquired_interval_ms = delta_ms;
	}
	wakelock_stats.last_acquired_interval_ms = delta_ms;
	wakelock_stats.total_acquired_interval_ms += delta_ms;

	BluetoothMetricsLogger::GetInstance()->LogWakeEvent(
	bluetooth::common::WAKE_EVENT_RELEASED, "", "", just_now_ms);
	}

	void wakelock_debug_dump(int fd) {
	const uint64_t just_now_ms = now_ms();

	std::lock_guard<std::mutex> lock(stats_mutex);

	// Compute the last acquired interval if the wakelock is still acquired
	uint64_t delta_ms = 0;
	uint64_t last_interval_ms = wakelock_stats.last_acquired_interval_ms;
	uint64_t min_interval_ms = wakelock_stats.min_acquired_interval_ms;
	uint64_t max_interval_ms = wakelock_stats.max_acquired_interval_ms;
	uint64_t avg_interval_ms = 0;

	if (wakelock_stats.is_acquired) {
	delta_ms = just_now_ms - wakelock_stats.last_acquired_timestamp_ms;
	if (delta_ms > max_interval_ms) max_interval_ms = delta_ms;
	if (delta_ms < min_interval_ms) min_interval_ms = delta_ms;
	last_interval_ms = delta_ms;
	}
	uint64_t total_interval_ms =
	wakelock_stats.total_acquired_interval_ms + delta_ms;

	if (wakelock_stats.acquired_count > 0)
	avg_interval_ms = total_interval_ms / wakelock_stats.acquired_count;

	dprintf(fd, "\nBluetooth Wakelock Statistics:\n");
	dprintf(fd, " Is acquired : %s\n",
	wakelock_stats.is_acquired ? "true" : "false");
	dprintf(fd, " Acquired/released count : %zu / %zu\n",
	wakelock_stats.acquired_count, wakelock_stats.released_count);
	dprintf(fd, " Acquired/released error count : %zu / %zu\n",
	wakelock_stats.acquired_errors, wakelock_stats.released_errors);
	dprintf(fd, " Last acquire/release error code: %d / %d\n",
	wakelock_stats.last_acquired_error,
	wakelock_stats.last_released_error);
	dprintf(fd, " Last acquired time (ms) : %llu\n",
	(unsigned long long)last_interval_ms);
	dprintf(fd, " Acquired time min/max/avg (ms) : %llu / %llu / %llu\n",
	(unsigned long long)min_interval_ms,
	(unsigned long long)max_interval_ms,
	(unsigned long long)avg_interval_ms);
	dprintf(fd, " Total acquired time (ms) : %llu\n",
	(unsigned long long)total_interval_ms);
	dprintf(fd, " Total run time (ms) : %llu\n",
	(unsigned long long)(just_now_ms -
	wakelock_stats.last_reset_timestamp_ms));
	}