pw_bluetooth/public/pw_bluetooth/low_energy/connection.h - pigweed/pigweed - Git at Google

 // Copyright 2022 The Pigweed Authors
 //
 // 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
 //
 //     https://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 "pw_bluetooth/gatt/client.h"
 #include "pw_bluetooth/types.h"

 namespace pw::bluetooth::low_energy {

 // Actual connection parameters returned by the controller.
 struct ConnectionParameters {
   // The connection interval indicates the frequency of link layer connection
   // events over which data channel PDUs can be transmitted. See Core Spec v5.3,
   // Vol 6, Part B, Section 4.5.1 for more information on the link layer
   // connection events.
   // Range: 0x0006 to 0x0C80
   // Time: N * 1.25 ms
   // Time Range: 7.5 ms to 4 s.
   uint16_t interval;

   // The maximum allowed peripheral connection latency in number of connection
   // events. See Core Spec v5.3, Vol 6, Part B, Section 4.5.2.
   // Range: 0x0000 to 0x01F3
   uint16_t latency;

   // This defines the maximum time between two received data packet PDUs
   // before the connection is considered lost. See Core Spec v5.3, Vol 6, Part
   // B, Section 4.5.2.
   // Range: 0x000A to 0x0C80
   // Time: N * 10 ms
   // Time Range: 100 ms to 32 s
   uint16_t supervision_timeout;
 };

 // Connection parameters that either the local device or a peer device are
 // requesting.
 struct RequestedConnectionParameters {
   // Minimum value for the connection interval. This shall be less than or equal
   // to `max_interval`. The connection interval indicates the frequency of link
   // layer connection events over which data channel PDUs can be transmitted.
   // See Core Spec v5.3, Vol 6, Part B, Section 4.5.1 for more information on
   // the link layer connection events.
   // Range: 0x0006 to 0x0C80
   // Time: N * 1.25 ms
   // Time Range: 7.5 ms to 4 s.
   uint16_t min_interval;

   // Maximum value for the connection interval. This shall be greater than or
   // equal to `min_interval`. The connection interval indicates the frequency
   // of link layer connection events over which data channel PDUs can be
   // transmitted.  See Core Spec v5.3, Vol 6, Part B, Section 4.5.1 for more
   // information on the link layer connection events.
   // Range: 0x0006 to 0x0C80
   // Time: N * 1.25 ms
   // Time Range: 7.5 ms to 4 s.
   uint16_t max_interval;

   // Maximum peripheral latency for the connection in number of connection
   // events. See Core Spec v5.3, Vol 6, Part B, Section 4.5.2.
   // Range: 0x0000 to 0x01F3
   uint16_t max_latency;

   // This defines the maximum time between two received data packet PDUs
   // before the connection is considered lost. See Core Spec v5.3, Vol 6, Part
   // B, Section 4.5.2.
   // Range: 0x000A to 0x0C80
   // Time: N * 10 ms
   // Time Range: 100 ms to 32 s
   uint16_t supervision_timeout;
 };

 // Represents parameters that are set on a per-connection basis.
 struct ConnectionOptions {
   // When true, the connection operates in bondable mode. This means pairing
   // will form a bond, or persist across disconnections, if the peer is also
   // in bondable mode. When false, the connection operates in non-bondable
   // mode, which means the local device only allows pairing that does not form
   // a bond.
   bool bondable_mode = true;

   // When present, service discovery performed following the connection is
   // restricted to primary services that match this field. Otherwise, by
   // default all available services are discovered.
   std::optional<Uuid> service_filter;

   // When present, specifies the initial connection parameters. Otherwise, the
   // connection parameters will be selected by the implementation.
   std::optional<RequestedConnectionParameters> parameters;
 };

 /// Class that represents a connection to a peer. This can be used to interact
 /// with GATT services and establish LE L2CAP channels.
 ///
 /// This lifetime of this object is tied to that of the LE connection it
 /// represents. Destroying the object results in a disconnection.
 class Connection {
  public:
   // Possible errors when updating the connection parameters.
   enum class ConnectionParameterUpdateError : uint8_t {
     kFailure,
     kInvalidParameters,
     kRejected,
   };

   // Possible reasons a connection was disconnected.
   enum class DisconnectReason : uint8_t {
     kFailure,
     kRemoteUserTerminatedConnection,
     // This usually indicates that the link supervision timeout expired.
     kConnectionTimeout,
   };

   // If a disconnection has not occurred, destroying this object will result in
   // disconnection.
   virtual ~Connection() = default;

   // Sets a callback that will be called when the peer disconnects or there is a
   // connection error that causes a disconnection. This should be configured by
   // the client immediately after establishing the connection. `callback` will
   // not be called for disconnections iniated by the client (e.g. by destroying
   // `Connection`). It is OK to destroy this object from within `callback`.
   virtual void SetDisconnectCallback(
       Function<void(DisconnectReason)>&& callback) = 0;

   // Returns a GATT client to the connected peer that is valid for the lifetime
   // of this connection. The client is valid for the lifetime of this
   // connection.
   virtual gatt::Client* GattClient() = 0;

   // Returns the current ATT Maximum Transmission Unit. By subtracting ATT
   // headers from the MTU, the maximum payload size of messages can be
   // calculated.
   virtual uint16_t AttMtu() = 0;

   // Sets a callback that will be called with the new ATT MTU whenever it is
   // updated.
   virtual void SetAttMtuChangeCallback(Function<void(uint16_t)> callback) = 0;

   // Returns the current connection parameters.
   virtual ConnectionParameters Parameters() = 0;

   // Requests an update to the connection parameters. `callback` will be called
   // with the result of the request.
   virtual void RequestConnectionParameterUpdate(
       RequestedConnectionParameters parameters,
       Function<void(Result<ConnectionParameterUpdateError>)>&& callback) = 0;
 };

 }  // namespace pw::bluetooth::low_energy
	// Copyright 2022 The Pigweed Authors
	//
	// 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
	//
	// https://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 "pw_bluetooth/gatt/client.h"
	#include "pw_bluetooth/types.h"

	namespace pw::bluetooth::low_energy {

	// Actual connection parameters returned by the controller.
	struct ConnectionParameters {
	// The connection interval indicates the frequency of link layer connection
	// events over which data channel PDUs can be transmitted. See Core Spec v5.3,
	// Vol 6, Part B, Section 4.5.1 for more information on the link layer
	// connection events.
	// Range: 0x0006 to 0x0C80
	// Time: N * 1.25 ms
	// Time Range: 7.5 ms to 4 s.
	uint16_t interval;

	// The maximum allowed peripheral connection latency in number of connection
	// events. See Core Spec v5.3, Vol 6, Part B, Section 4.5.2.
	// Range: 0x0000 to 0x01F3
	uint16_t latency;

	// This defines the maximum time between two received data packet PDUs
	// before the connection is considered lost. See Core Spec v5.3, Vol 6, Part
	// B, Section 4.5.2.
	// Range: 0x000A to 0x0C80
	// Time: N * 10 ms
	// Time Range: 100 ms to 32 s
	uint16_t supervision_timeout;
	};

	// Connection parameters that either the local device or a peer device are
	// requesting.
	struct RequestedConnectionParameters {
	// Minimum value for the connection interval. This shall be less than or equal
	// to `max_interval`. The connection interval indicates the frequency of link
	// layer connection events over which data channel PDUs can be transmitted.
	// See Core Spec v5.3, Vol 6, Part B, Section 4.5.1 for more information on
	// the link layer connection events.
	// Range: 0x0006 to 0x0C80
	// Time: N * 1.25 ms
	// Time Range: 7.5 ms to 4 s.
	uint16_t min_interval;

	// Maximum value for the connection interval. This shall be greater than or
	// equal to `min_interval`. The connection interval indicates the frequency
	// of link layer connection events over which data channel PDUs can be
	// transmitted. See Core Spec v5.3, Vol 6, Part B, Section 4.5.1 for more
	// information on the link layer connection events.
	// Range: 0x0006 to 0x0C80
	// Time: N * 1.25 ms
	// Time Range: 7.5 ms to 4 s.
	uint16_t max_interval;

	// Maximum peripheral latency for the connection in number of connection
	// events. See Core Spec v5.3, Vol 6, Part B, Section 4.5.2.
	// Range: 0x0000 to 0x01F3
	uint16_t max_latency;

	// This defines the maximum time between two received data packet PDUs
	// before the connection is considered lost. See Core Spec v5.3, Vol 6, Part
	// B, Section 4.5.2.
	// Range: 0x000A to 0x0C80
	// Time: N * 10 ms
	// Time Range: 100 ms to 32 s
	uint16_t supervision_timeout;
	};

	// Represents parameters that are set on a per-connection basis.
	struct ConnectionOptions {
	// When true, the connection operates in bondable mode. This means pairing
	// will form a bond, or persist across disconnections, if the peer is also
	// in bondable mode. When false, the connection operates in non-bondable
	// mode, which means the local device only allows pairing that does not form
	// a bond.
	bool bondable_mode = true;

	// When present, service discovery performed following the connection is
	// restricted to primary services that match this field. Otherwise, by
	// default all available services are discovered.
	std::optional<Uuid> service_filter;

	// When present, specifies the initial connection parameters. Otherwise, the
	// connection parameters will be selected by the implementation.
	std::optional<RequestedConnectionParameters> parameters;
	};

	/// Class that represents a connection to a peer. This can be used to interact
	/// with GATT services and establish LE L2CAP channels.
	///
	/// This lifetime of this object is tied to that of the LE connection it
	/// represents. Destroying the object results in a disconnection.
	class Connection {
	public:
	// Possible errors when updating the connection parameters.
	enum class ConnectionParameterUpdateError : uint8_t {
	kFailure,
	kInvalidParameters,
	kRejected,
	};

	// Possible reasons a connection was disconnected.
	enum class DisconnectReason : uint8_t {
	kFailure,
	kRemoteUserTerminatedConnection,
	// This usually indicates that the link supervision timeout expired.
	kConnectionTimeout,
	};

	// If a disconnection has not occurred, destroying this object will result in
	// disconnection.
	virtual ~Connection() = default;

	// Sets a callback that will be called when the peer disconnects or there is a
	// connection error that causes a disconnection. This should be configured by
	// the client immediately after establishing the connection. `callback` will
	// not be called for disconnections iniated by the client (e.g. by destroying
	// `Connection`). It is OK to destroy this object from within `callback`.
	virtual void SetDisconnectCallback(
	Function<void(DisconnectReason)>&& callback) = 0;

	// Returns a GATT client to the connected peer that is valid for the lifetime
	// of this connection. The client is valid for the lifetime of this
	// connection.
	virtual gatt::Client* GattClient() = 0;

	// Returns the current ATT Maximum Transmission Unit. By subtracting ATT
	// headers from the MTU, the maximum payload size of messages can be
	// calculated.
	virtual uint16_t AttMtu() = 0;

	// Sets a callback that will be called with the new ATT MTU whenever it is
	// updated.
	virtual void SetAttMtuChangeCallback(Function<void(uint16_t)> callback) = 0;

	// Returns the current connection parameters.
	virtual ConnectionParameters Parameters() = 0;

	// Requests an update to the connection parameters. `callback` will be called
	// with the result of the request.
	virtual void RequestConnectionParameterUpdate(
	RequestedConnectionParameters parameters,
	Function<void(Result<ConnectionParameterUpdateError>)>&& callback) = 0;
	};

	} // namespace pw::bluetooth::low_energy