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/*
* Copyright 2019 The WebRTC Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef P2P_BASE_BASIC_ICE_CONTROLLER_H_
#define P2P_BASE_BASIC_ICE_CONTROLLER_H_
#include <algorithm>
#include <map>
#include <set>
#include <utility>
#include <vector>
#include "p2p/base/ice_controller_factory_interface.h"
#include "p2p/base/ice_controller_interface.h"
#include "p2p/base/p2p_transport_channel.h"
namespace cricket {
class BasicIceController : public IceControllerInterface {
public:
explicit BasicIceController(const IceControllerFactoryArgs& args);
virtual ~BasicIceController();
void SetIceConfig(const IceConfig& config) override;
void SetSelectedConnection(const Connection* selected_connection) override;
void AddConnection(const Connection* connection) override;
void OnConnectionDestroyed(const Connection* connection) override;
rtc::ArrayView<const Connection*> connections() const override {
return rtc::ArrayView<const Connection*>(
const_cast<const Connection**>(connections_.data()),
connections_.size());
}
bool HasPingableConnection() const override;
PingResult SelectConnectionToPing(int64_t last_ping_sent_ms) override;
bool GetUseCandidateAttr(const Connection* conn,
NominationMode mode,
IceMode remote_ice_mode) const override;
SwitchResult ShouldSwitchConnection(IceSwitchReason reason,
const Connection* connection) override;
SwitchResult SortAndSwitchConnection(IceSwitchReason reason) override;
std::vector<const Connection*> PruneConnections() override;
// These methods are only for tests.
const Connection* FindNextPingableConnection() override;
void MarkConnectionPinged(const Connection* conn) override;
private:
// A transport channel is weak if the current best connection is either
// not receiving or not writable, or if there is no best connection at all.
bool weak() const {
return !selected_connection_ || selected_connection_->weak();
}
int weak_ping_interval() const {
return std::max(config_.ice_check_interval_weak_connectivity_or_default(),
config_.ice_check_min_interval_or_default());
}
int strong_ping_interval() const {
return std::max(config_.ice_check_interval_strong_connectivity_or_default(),
config_.ice_check_min_interval_or_default());
}
int check_receiving_interval() const {
return std::max(MIN_CHECK_RECEIVING_INTERVAL,
config_.receiving_timeout_or_default() / 10);
}
const Connection* FindOldestConnectionNeedingTriggeredCheck(int64_t now);
// Between `conn1` and `conn2`, this function returns the one which should
// be pinged first.
const Connection* MorePingable(const Connection* conn1,
const Connection* conn2);
// Select the connection which is Relay/Relay. If both of them are,
// UDP relay protocol takes precedence.
const Connection* MostLikelyToWork(const Connection* conn1,
const Connection* conn2);
// Compare the last_ping_sent time and return the one least recently pinged.
const Connection* LeastRecentlyPinged(const Connection* conn1,
const Connection* conn2);
bool IsPingable(const Connection* conn, int64_t now) const;
bool IsBackupConnection(const Connection* conn) const;
// Whether a writable connection is past its ping interval and needs to be
// pinged again.
bool WritableConnectionPastPingInterval(const Connection* conn,
int64_t now) const;
int CalculateActiveWritablePingInterval(const Connection* conn,
int64_t now) const;
std::map<const rtc::Network*, const Connection*> GetBestConnectionByNetwork()
const;
std::vector<const Connection*> GetBestWritableConnectionPerNetwork() const;
bool ReadyToSend(const Connection* connection) const;
bool PresumedWritable(const Connection* conn) const;
int CompareCandidatePairNetworks(
const Connection* a,
const Connection* b,
absl::optional<rtc::AdapterType> network_preference) const;
// The methods below return a positive value if `a` is preferable to `b`,
// a negative value if `b` is preferable, and 0 if they're equally preferable.
// If `receiving_unchanged_threshold` is set, then when `b` is receiving and
// `a` is not, returns a negative value only if `b` has been in receiving
// state and `a` has been in not receiving state since
// `receiving_unchanged_threshold` and sets
// `missed_receiving_unchanged_threshold` to true otherwise.
int CompareConnectionStates(
const Connection* a,
const Connection* b,
absl::optional<int64_t> receiving_unchanged_threshold,
bool* missed_receiving_unchanged_threshold) const;
int CompareConnectionCandidates(const Connection* a,
const Connection* b) const;
// Compares two connections based on the connection states
// (writable/receiving/connected), nomination states, last data received time,
// and static preferences. Does not include latency. Used by both sorting
// and ShouldSwitchSelectedConnection().
// Returns a positive value if `a` is better than `b`.
int CompareConnections(const Connection* a,
const Connection* b,
absl::optional<int64_t> receiving_unchanged_threshold,
bool* missed_receiving_unchanged_threshold) const;
SwitchResult HandleInitialSelectDampening(IceSwitchReason reason,
const Connection* new_connection);
std::function<IceTransportState()> ice_transport_state_func_;
std::function<IceRole()> ice_role_func_;
std::function<bool(const Connection*)> is_connection_pruned_func_;
IceConfig config_;
const IceFieldTrials* field_trials_;
// `connections_` is a sorted list with the first one always be the
// `selected_connection_` when it's not nullptr. The combination of
// `pinged_connections_` and `unpinged_connections_` has the same
// connections as `connections_`. These 2 sets maintain whether a
// connection should be pinged next or not.
const Connection* selected_connection_ = nullptr;
std::vector<const Connection*> connections_;
std::set<const Connection*> pinged_connections_;
std::set<const Connection*> unpinged_connections_;
// Timestamp for when we got the first selectable connection.
int64_t initial_select_timestamp_ms_ = 0;
};
} // namespace cricket
#endif // P2P_BASE_BASIC_ICE_CONTROLLER_H_
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