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webrtc / src / 8f8c96d1924c96f3a5c149ca31883d296ddceca7 / . / webrtc / modules / rtp_rtcp / source / rtp_packet_history.cc
blob: 713fba87707c1a22b041aab31202b574482659eb [file] [log] [blame]
/*
* Copyright (c) 2012 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.
*/
#include "webrtc/modules/rtp_rtcp/source/rtp_packet_history.h"
#include <assert.h>
#include <stdlib.h>
#include <string.h> // memset
#include <algorithm>
#include <limits>
#include <set>
#include "webrtc/base/checks.h"
#include "webrtc/base/logging.h"
#include "webrtc/modules/rtp_rtcp/source/rtp_utility.h"
namespace webrtc {
static const int kMinPacketRequestBytes = 50;
RTPPacketHistory::RTPPacketHistory(Clock* clock)
: clock_(clock),
store_(false),
prev_index_(0) {}
RTPPacketHistory::~RTPPacketHistory() {
}
void RTPPacketHistory::SetStorePacketsStatus(bool enable,
uint16_t number_to_store) {
rtc::CritScope cs(&critsect_);
if (enable) {
if (store_) {
LOG(LS_WARNING) << "Purging packet history in order to re-set status.";
Free();
}
assert(!store_);
Allocate(number_to_store);
} else {
Free();
}
}
void RTPPacketHistory::Allocate(size_t number_to_store) {
assert(number_to_store > 0);
assert(number_to_store <= kMaxHistoryCapacity);
store_ = true;
stored_packets_.resize(number_to_store);
}
void RTPPacketHistory::Free() {
if (!store_) {
return;
}
stored_packets_.clear();
store_ = false;
prev_index_ = 0;
}
bool RTPPacketHistory::StorePackets() const {
rtc::CritScope cs(&critsect_);
return store_;
}
int32_t RTPPacketHistory::PutRTPPacket(const uint8_t* packet,
size_t packet_length,
int64_t capture_time_ms,
StorageType type) {
rtc::CritScope cs(&critsect_);
if (!store_) {
return 0;
}
assert(packet);
assert(packet_length > 3);
if (packet_length > IP_PACKET_SIZE) {
LOG(LS_WARNING) << "Failed to store RTP packet with length: "
<< packet_length;
return -1;
}
const uint16_t seq_num = (packet[2] << 8) + packet[3];
// If index we're about to overwrite contains a packet that has not
// yet been sent (probably pending in paced sender), we need to expand
// the buffer.
if (stored_packets_[prev_index_].length > 0 &&
stored_packets_[prev_index_].send_time == 0) {
size_t current_size = static_cast<uint16_t>(stored_packets_.size());
if (current_size < kMaxHistoryCapacity) {
size_t expanded_size = std::max(current_size * 3 / 2, current_size + 1);
expanded_size = std::min(expanded_size, kMaxHistoryCapacity);
Allocate(expanded_size);
// Causes discontinuity, but that's OK-ish. FindSeqNum() will still work,
// but may be slower - at least until buffer has wrapped around once.
prev_index_ = current_size;
}
}
// Store packet
// TODO(sprang): Overhaul this class and get rid of this copy step.
// (Finally introduce the RtpPacket class?)
memcpy(stored_packets_[prev_index_].data, packet, packet_length);
stored_packets_[prev_index_].length = packet_length;
stored_packets_[prev_index_].sequence_number = seq_num;
stored_packets_[prev_index_].time_ms =
(capture_time_ms > 0) ? capture_time_ms : clock_->TimeInMilliseconds();
stored_packets_[prev_index_].send_time = 0; // Packet not sent.
stored_packets_[prev_index_].storage_type = type;
stored_packets_[prev_index_].has_been_retransmitted = false;
++prev_index_;
if (prev_index_ >= stored_packets_.size()) {
prev_index_ = 0;
}
return 0;
}
bool RTPPacketHistory::HasRTPPacket(uint16_t sequence_number) const {
rtc::CritScope cs(&critsect_);
if (!store_) {
return false;
}
int32_t index = 0;
bool found = FindSeqNum(sequence_number, &index);
if (!found) {
return false;
}
if (stored_packets_[index].length == 0) {
// Invalid length.
return false;
}
return true;
}
bool RTPPacketHistory::SetSent(uint16_t sequence_number) {
rtc::CritScope cs(&critsect_);
if (!store_) {
return false;
}
int32_t index = 0;
bool found = FindSeqNum(sequence_number, &index);
if (!found) {
return false;
}
// Send time already set.
if (stored_packets_[index].send_time != 0) {
return false;
}
stored_packets_[index].send_time = clock_->TimeInMilliseconds();
return true;
}
bool RTPPacketHistory::GetPacketAndSetSendTime(uint16_t sequence_number,
int64_t min_elapsed_time_ms,
bool retransmit,
uint8_t* packet,
size_t* packet_length,
int64_t* stored_time_ms) {
rtc::CritScope cs(&critsect_);
RTC_CHECK_GE(*packet_length, static_cast<size_t>(IP_PACKET_SIZE));
if (!store_)
return false;
int32_t index = 0;
bool found = FindSeqNum(sequence_number, &index);
if (!found) {
LOG(LS_WARNING) << "No match for getting seqNum " << sequence_number;
return false;
}
size_t length = stored_packets_[index].length;
assert(length <= IP_PACKET_SIZE);
if (length == 0) {
LOG(LS_WARNING) << "No match for getting seqNum " << sequence_number
<< ", len " << length;
return false;
}
// Verify elapsed time since last retrieve, but only for retransmissions and
// always send packet upon first retransmission request.
int64_t now = clock_->TimeInMilliseconds();
if (min_elapsed_time_ms > 0 && retransmit &&
stored_packets_[index].has_been_retransmitted &&
((now - stored_packets_[index].send_time) < min_elapsed_time_ms)) {
return false;
}
if (retransmit) {
if (stored_packets_[index].storage_type == kDontRetransmit) {
// No bytes copied since this packet shouldn't be retransmitted or is
// of zero size.
return false;
}
stored_packets_[index].has_been_retransmitted = true;
}
stored_packets_[index].send_time = clock_->TimeInMilliseconds();
GetPacket(index, packet, packet_length, stored_time_ms);
return true;
}
void RTPPacketHistory::GetPacket(int index,
uint8_t* packet,
size_t* packet_length,
int64_t* stored_time_ms) const {
// Get packet.
size_t length = stored_packets_[index].length;
memcpy(packet, stored_packets_[index].data, length);
*packet_length = length;
*stored_time_ms = stored_packets_[index].time_ms;
}
bool RTPPacketHistory::GetBestFittingPacket(uint8_t* packet,
size_t* packet_length,
int64_t* stored_time_ms) {
rtc::CritScope cs(&critsect_);
if (!store_)
return false;
int index = FindBestFittingPacket(*packet_length);
if (index < 0)
return false;
GetPacket(index, packet, packet_length, stored_time_ms);
return true;
}
// private, lock should already be taken
bool RTPPacketHistory::FindSeqNum(uint16_t sequence_number,
int32_t* index) const {
uint16_t temp_sequence_number = 0;
if (prev_index_ > 0) {
*index = prev_index_ - 1;
temp_sequence_number = stored_packets_[*index].sequence_number;
} else {
*index = stored_packets_.size() - 1;
temp_sequence_number = stored_packets_[*index].sequence_number; // wrap
}
int32_t idx = (prev_index_ - 1) - (temp_sequence_number - sequence_number);
if (idx >= 0 && idx < static_cast<int>(stored_packets_.size())) {
*index = idx;
temp_sequence_number = stored_packets_[*index].sequence_number;
}
if (temp_sequence_number != sequence_number) {
// We did not found a match, search all.
for (uint16_t m = 0; m < stored_packets_.size(); m++) {
if (stored_packets_[m].sequence_number == sequence_number) {
*index = m;
temp_sequence_number = stored_packets_[*index].sequence_number;
break;
}
}
}
if (temp_sequence_number == sequence_number) {
// We found a match.
return true;
}
return false;
}
int RTPPacketHistory::FindBestFittingPacket(size_t size) const {
if (size < kMinPacketRequestBytes || stored_packets_.empty())
return -1;
size_t min_diff = std::numeric_limits<size_t>::max();
int best_index = -1; // Returned unchanged if we don't find anything.
for (size_t i = 0; i < stored_packets_.size(); ++i) {
if (stored_packets_[i].length == 0)
continue;
size_t diff = (stored_packets_[i].length > size)
? (stored_packets_[i].length - size)
: (size - stored_packets_[i].length);
if (diff < min_diff) {
min_diff = diff;
best_index = static_cast<int>(i);
}
}
return best_index;
}
RTPPacketHistory::StoredPacket::StoredPacket() {}
} // namespace webrtc