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pulseaudio/src/modules/raop/raop_packet_buffer.c
Matthias Wabersich 29385da239 raop: Packet retransmission support for UDP 
This patch adds an RTP audio packet retransmission support and a
circular buffer implementation for it.

This patch was originally written by Matthias Wabersich [1] and
later debugged and integrated into the latest tree by Hajime Fujita

[1]: https://bugs.freedesktop.org/show_bug.cgi?id=42804#c44
2017-01-19 03:00:45 +02:00

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/***
Circular buffer for RTP audio packets with random access support
by RTP sequence number.
Copyright 2013 Matthias Wabersich, Hajime Fujita
This is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published
by the Free Software Foundation; either version 2.1 of the License,
or (at your option) any later version.
This is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with PulseAudio; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
USA.
***/
#include <stdlib.h>
#include <limits.h>
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <pulsecore/core-error.h>
#include "raop_client.h"
#include "raop_packet_buffer.h"
/* FRAMES_PER_PACKET*2*2 + sizeof(udp_audio_header) + sizeof(ALAC header), unencoded */
#define PACKET_SIZE_MAX (UDP_FRAMES_PER_PACKET*2*2 + 12 + 7)
/* Header room for packet retransmission header */
#define RETRANS_HEADER_ROOM 4
/* Packet element */
struct pa_raop_packet_element {
uint16_t seq_num; /* RTP sequence number (in host byte order) */
ssize_t length; /* Actual packet length */
/* Packet data including RTP header */
uint8_t data[PACKET_SIZE_MAX + RETRANS_HEADER_ROOM];
};
/* Buffer struct */
struct pa_raop_packet_buffer {
size_t size; /* max number of packets in buffer */
size_t start; /* index of oldest packet */
size_t count; /* number of packets in buffer */
uint16_t first_seq_num; /* Sequence number of first packet in buffer */
uint16_t latest_seq_num; /* Debug purpose */
pa_raop_packet_element *packets; /* Packet element pointer */
};
pa_raop_packet_buffer *pa_raop_pb_new(size_t size) {
pa_raop_packet_buffer *pb = pa_xmalloc0(sizeof(*pb));
pb->size = size;
pb->packets = (pa_raop_packet_element *)
pa_xmalloc(size * sizeof(pa_raop_packet_element));
pa_raop_pb_clear(pb);
return pb;
}
void pa_raop_pb_clear(pa_raop_packet_buffer *pb) {
pb->start = 0;
pb->count = 0;
pb->first_seq_num = 0;
pb->latest_seq_num = 0;
memset(pb->packets, 0, pb->size * sizeof(pa_raop_packet_element));
}
void pa_raop_pb_delete(pa_raop_packet_buffer *pb) {
pa_xfree(pb->packets);
pa_xfree(pb);
}
static int pb_is_full(pa_raop_packet_buffer *pb) {
return pb->count == pb->size;
}
static int pb_is_empty(pa_raop_packet_buffer *pb) {
return pb->count == 0;
}
static pa_raop_packet_element *pb_prepare_write(pa_raop_packet_buffer *pb, uint16_t seq) {
size_t end = (pb->start + pb->count) % pb->size;
pa_raop_packet_element *packet;
/* Set first packet sequence number in buffer if buffer is empty */
if (pb_is_empty(pb))
pb->first_seq_num = seq;
else
pa_assert((uint16_t) (pb->latest_seq_num + 1) == seq);
packet = &pb->packets[end];
if (pb_is_full(pb)) {
pb->start = (pb->start + 1) % pb->size; /* full, overwrite */
/* Set first packet sequence number in buffer
to new start packet sequence number */
pb->first_seq_num = pb->packets[pb->start].seq_num;
} else
++ pb->count;
pb->latest_seq_num = seq;
return packet;
}
/* Write packet data to packet buffer */
void pa_raop_pb_write_packet(pa_raop_packet_buffer *pb, uint16_t seq_num, const uint8_t *packet_data, ssize_t packet_length) {
pa_raop_packet_element *packet;
pa_assert(pb);
pa_assert(packet_data);
pa_assert(packet_length <= PACKET_SIZE_MAX);
packet = pb_prepare_write(pb, seq_num);
packet->seq_num = seq_num;
packet->length = packet_length + RETRANS_HEADER_ROOM;
/* Insert RETRANS_HEADER_ROOM bytes in front of packet data,
for retransmission header */
memset(packet->data, 0, RETRANS_HEADER_ROOM);
memcpy(packet->data + RETRANS_HEADER_ROOM, packet_data, packet_length);
}
/* l < r?, considers wrapping */
static bool seq_lt(uint16_t l, uint16_t r) {
return l - r > USHRT_MAX/2;
}
/* Random access to packet from buffer by sequence number for (re-)sending. */
ssize_t pa_raop_pb_read_packet(pa_raop_packet_buffer *pb, uint16_t seq_num, uint8_t **packet_data) {
uint16_t index = 0; /* Index of requested packet */
pa_raop_packet_element *packet;
/* If the buffer is empty, there is no use in calculating indices */
if (pb_is_empty(pb))
return -1;
/* If the requested packet is too old (seq_num below first seq number
in buffer) or too young (seq_num greater than current seq number),
do nothing and return */
if (seq_lt(seq_num, pb->first_seq_num))
return -1;
index = (uint16_t) (seq_num - pb->first_seq_num);
if (index >= pb->count)
return -1;
/* Index of the requested packet in the buffer is calculated
using the first sequence number stored in the buffer.
The offset (seq_num - first_seq_num) is used to access the array. */
packet = &pb->packets[(pb->start + index) % pb->size];
pa_assert(packet->data[RETRANS_HEADER_ROOM + 2] == (seq_num >> 8));
pa_assert(packet->data[RETRANS_HEADER_ROOM + 3] == (seq_num & 0xff));
pa_assert(packet_data);
*packet_data = packet->data;
return packet->length;
}
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