bt/service/common/bluetooth/scan_settings.h - nest-cam/4320010/flouride_bluetooth - Git at Google

 //
 //  Copyright (C) 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.
 //

 #pragma once

 #include <base/time/time.h>

 namespace bluetooth {

 // ScanSettings encapsulates Bluetooth LE device scan parameters. This is the
 // native equivalent of the Android framework class defined in
 // frameworks/base/core/java/android/bluetooth/le/ScanSettings.java.
 class ScanSettings {
  public:
   // A scan mode describes the power consumption involved in LE scans.
   enum Mode {
     // A special Bluetooth LE scan mode. Applications using this scan mode will
     // passively listen for other scan results without starting BLE scans
     // themselves.
     MODE_OPPORTUNISTIC = -1,

     // Perform Bluetooth LE scan in low power mode. This is the default scan
     // mode as it consumes the least power.
     MODE_LOW_POWER = 0,

     // Perform Bluetooth LE scan in balanced power mode. Scan results are
     // returned at a rate that provides a good trade-off between scan frequency
     // and power consumption.
     MODE_BALANCED = 1,

     // Scan using the highest duty cycle. It's recommended to only use this mode
     // when the application is running in the foreground.
     MODE_LOW_LATENCY = 2,
   };

   // A callback type describes how scan results will be reported to applications
   // in asynchronous callbacks.
   enum CallbackType {
     // Trigger a callback for every Bluetooth advertisement found that matches
     // the filter criteria. If no filter is active, all advertisement packets
     // are reported.
     CALLBACK_TYPE_ALL_MATCHES = 1,

     // A result callback is only triggered for the first advertisement packet
     // received that matches the filter criteria. This requires that the
     // hardware support the offloaded filtering feature.
     CALLBACK_TYPE_FIRST_MATCH = 2,

     // Receive a callback when advertisements are no longer received from a
     // device that has been previously reported by a first match callback. This
     // requires that the hardware support the offloaded filtering feature.
     CALLBACK_TYPE_MATCH_LOST = 4,
   };
   using CallbackTypeBitField = int;

   // Determines how many advertisements to match per filter.
   enum MatchCount {
     // Match one advertisement per filter.
     MATCH_COUNT_ONE_ADVERTISEMENT = 1,

     // Match few advertisements per filter depending on the current capability
     // and availability of hardware resources.
     MATCH_COUNT_FEW_ADVERTISEMENTS = 2,

     // Match as many advertisements per filter as the underlying hardware can
     // allow, depending on the current capability and availability of hardware
     // resources.
     MATCH_COUNT_MAX_ADVERTISEMENTS = 3,
   };

   // Hardware filter match mode.
   enum MatchMode {
     // In aggressive mode the hardware will determine a match sooner even with
     // feeble signal strength and a low number of sightings in a duration.
     MATCH_MODE_AGGRESSIVE = 1,

     // In sticky mode a higher threshold of signal strength and sightings is
     // required before a scan result is reported by the hardware.
     MATCH_MODE_STICKY = 2,
   };

   // Scan result type describes the contents of each scan result.
   enum ResultType {
     // Request full scan results which contain the device name, RSSI,
     // advertising data, scan response data, and the scan timestamp.
     RESULT_TYPE_FULL = 0,

     // Request abbreviated scan results which contain the device name, RSSI, and
     // scan timestamp.
     // Note: It is possible for an application to get more scan results than it
     // asked for, if there are multiple apps using this type.
     RESULT_TYPE_ABBREVIATED = 1,
   };

   // The default constructor sets all fields to defaults:
   //   mode: MODE_LOW_POWER
   //   callback_type: CALLBACK_TYPE_ALL_MATCHES
   //   result_type: RESULT_TYPE_FULL
   //   report_delay_ms: 0
   //   match_mode: MATCH_MODE_AGGRESSIVE
   //   match_count_per_filter: MATCH_COUNT_MAX_ADVERTISEMENTS
   ScanSettings();
   ScanSettings(Mode mode,
                CallbackTypeBitField callback_type,
                ResultType result_type,
                base::TimeDelta report_delay_ms,
                MatchMode match_mode,
                MatchCount match_count_per_filter);
   ~ScanSettings() = default;

   // Returns the scan mode.
   Mode mode() const { return mode_; }
   void set_mode(Mode mode) { mode_ = mode; }

   // Returns the callback type.
   CallbackTypeBitField callback_type() const { return callback_type_; }
   void set_callback_type(CallbackTypeBitField type) { callback_type_ = type; }

   // Returns the scan result type.
   ResultType result_type() const { return result_type_; }
   void set_result_type(ResultType type) { result_type_ = type; }

   // Returns the report delay value in milliseconds.
   const base::TimeDelta& report_delay() const { return report_delay_ms_; }
   void set_report_delay(const base::TimeDelta& delay) {
     report_delay_ms_ = delay;
   }

   // Returns the hardware filter match mode.
   MatchMode match_mode() const { return match_mode_; }
   void set_match_mode(MatchMode mode) { match_mode_ = mode; }

   // Returns the count of advertisements to match per filter.
   MatchCount match_count_per_filter() const { return match_count_per_filter_; }
   void set_match_count_per_filter(MatchCount count) {
     match_count_per_filter_ = count;
   }

   // Comparison operator.
   bool operator==(const ScanSettings& rhs) const;

  protected:
   Mode mode_;
   CallbackTypeBitField callback_type_;
   ResultType result_type_;
   base::TimeDelta report_delay_ms_;
   MatchMode match_mode_;
   MatchCount match_count_per_filter_;
 };

 }  // namespace bluetooth
	//
	// Copyright (C) 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.
	//

	#pragma once

	#include <base/time/time.h>

	namespace bluetooth {

	// ScanSettings encapsulates Bluetooth LE device scan parameters. This is the
	// native equivalent of the Android framework class defined in
	// frameworks/base/core/java/android/bluetooth/le/ScanSettings.java.
	class ScanSettings {
	public:
	// A scan mode describes the power consumption involved in LE scans.
	enum Mode {
	// A special Bluetooth LE scan mode. Applications using this scan mode will
	// passively listen for other scan results without starting BLE scans
	// themselves.
	MODE_OPPORTUNISTIC = -1,

	// Perform Bluetooth LE scan in low power mode. This is the default scan
	// mode as it consumes the least power.
	MODE_LOW_POWER = 0,

	// Perform Bluetooth LE scan in balanced power mode. Scan results are
	// returned at a rate that provides a good trade-off between scan frequency
	// and power consumption.
	MODE_BALANCED = 1,

	// Scan using the highest duty cycle. It's recommended to only use this mode
	// when the application is running in the foreground.
	MODE_LOW_LATENCY = 2,
	};

	// A callback type describes how scan results will be reported to applications
	// in asynchronous callbacks.
	enum CallbackType {
	// Trigger a callback for every Bluetooth advertisement found that matches
	// the filter criteria. If no filter is active, all advertisement packets
	// are reported.
	CALLBACK_TYPE_ALL_MATCHES = 1,

	// A result callback is only triggered for the first advertisement packet
	// received that matches the filter criteria. This requires that the
	// hardware support the offloaded filtering feature.
	CALLBACK_TYPE_FIRST_MATCH = 2,

	// Receive a callback when advertisements are no longer received from a
	// device that has been previously reported by a first match callback. This
	// requires that the hardware support the offloaded filtering feature.
	CALLBACK_TYPE_MATCH_LOST = 4,
	};
	using CallbackTypeBitField = int;

	// Determines how many advertisements to match per filter.
	enum MatchCount {
	// Match one advertisement per filter.
	MATCH_COUNT_ONE_ADVERTISEMENT = 1,

	// Match few advertisements per filter depending on the current capability
	// and availability of hardware resources.
	MATCH_COUNT_FEW_ADVERTISEMENTS = 2,

	// Match as many advertisements per filter as the underlying hardware can
	// allow, depending on the current capability and availability of hardware
	// resources.
	MATCH_COUNT_MAX_ADVERTISEMENTS = 3,
	};

	// Hardware filter match mode.
	enum MatchMode {
	// In aggressive mode the hardware will determine a match sooner even with
	// feeble signal strength and a low number of sightings in a duration.
	MATCH_MODE_AGGRESSIVE = 1,

	// In sticky mode a higher threshold of signal strength and sightings is
	// required before a scan result is reported by the hardware.
	MATCH_MODE_STICKY = 2,
	};

	// Scan result type describes the contents of each scan result.
	enum ResultType {
	// Request full scan results which contain the device name, RSSI,
	// advertising data, scan response data, and the scan timestamp.
	RESULT_TYPE_FULL = 0,

	// Request abbreviated scan results which contain the device name, RSSI, and
	// scan timestamp.
	// Note: It is possible for an application to get more scan results than it
	// asked for, if there are multiple apps using this type.
	RESULT_TYPE_ABBREVIATED = 1,
	};

	// The default constructor sets all fields to defaults:
	// mode: MODE_LOW_POWER
	// callback_type: CALLBACK_TYPE_ALL_MATCHES
	// result_type: RESULT_TYPE_FULL
	// report_delay_ms: 0
	// match_mode: MATCH_MODE_AGGRESSIVE
	// match_count_per_filter: MATCH_COUNT_MAX_ADVERTISEMENTS
	ScanSettings();
	ScanSettings(Mode mode,
	CallbackTypeBitField callback_type,
	ResultType result_type,
	base::TimeDelta report_delay_ms,
	MatchMode match_mode,
	MatchCount match_count_per_filter);
	~ScanSettings() = default;

	// Returns the scan mode.
	Mode mode() const { return mode_; }
	void set_mode(Mode mode) { mode_ = mode; }

	// Returns the callback type.
	CallbackTypeBitField callback_type() const { return callback_type_; }
	void set_callback_type(CallbackTypeBitField type) { callback_type_ = type; }

	// Returns the scan result type.
	ResultType result_type() const { return result_type_; }
	void set_result_type(ResultType type) { result_type_ = type; }

	// Returns the report delay value in milliseconds.
	const base::TimeDelta& report_delay() const { return report_delay_ms_; }
	void set_report_delay(const base::TimeDelta& delay) {
	report_delay_ms_ = delay;
	}

	// Returns the hardware filter match mode.
	MatchMode match_mode() const { return match_mode_; }
	void set_match_mode(MatchMode mode) { match_mode_ = mode; }

	// Returns the count of advertisements to match per filter.
	MatchCount match_count_per_filter() const { return match_count_per_filter_; }
	void set_match_count_per_filter(MatchCount count) {
	match_count_per_filter_ = count;
	}

	// Comparison operator.
	bool operator==(const ScanSettings& rhs) const;

	protected:
	Mode mode_;
	CallbackTypeBitField callback_type_;
	ResultType result_type_;
	base::TimeDelta report_delay_ms_;
	MatchMode match_mode_;
	MatchCount match_count_per_filter_;
	};

	} // namespace bluetooth