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player.c
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/*
* Slave-clocked ALAC stream player. This file is part of Shairport.
* Copyright (c) James Laird 2011, 2013
* All rights reserved.
*
* Modifications for audio synchronisation, AirPlay 2
* and related work, copyright (c) Mike Brady 2014 -- 2023
* All rights reserved.
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use,
* copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
#include <assert.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <limits.h>
#include <math.h>
#include <pthread.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/syslog.h>
#include <sys/types.h>
#include <unistd.h>
#include "config.h"
#ifdef CONFIG_MBEDTLS
#include <mbedtls/aes.h>
#endif
#ifdef CONFIG_POLARSSL
#include <polarssl/aes.h>
#include <polarssl/havege.h>
#endif
#ifdef CONFIG_OPENSSL
#include <openssl/aes.h> // needed for older AES stuff
#include <openssl/bio.h> // needed for BIO_new_mem_buf
#include <openssl/err.h> // needed for ERR_error_string, ERR_get_error
#include <openssl/evp.h> // needed for EVP_PKEY_CTX_new, EVP_PKEY_sign_init, EVP_PKEY_sign
#include <openssl/pem.h> // needed for PEM_read_bio_RSAPrivateKey, EVP_PKEY_CTX_set_rsa_padding
#include <openssl/rsa.h> // needed for EVP_PKEY_CTX_set_rsa_padding
#endif
#ifdef CONFIG_SOXR
#include <soxr.h>
#endif
#ifdef CONFIG_CONVOLUTION
#include <FFTConvolver/convolver.h>
#endif
#ifdef CONFIG_METADATA_HUB
#include "metadata_hub.h"
#endif
#ifdef CONFIG_DACP_CLIENT
#include "dacp.h"
#endif
#include "common.h"
#include "mdns.h"
#include "player.h"
#include "rtp.h"
#include "rtsp.h"
#include "alac.h"
#ifdef CONFIG_APPLE_ALAC
#include "apple_alac.h"
#endif
#ifdef CONFIG_AIRPLAY_2
#include "ptp-utilities.h"
#endif
#include "loudness.h"
#include "activity_monitor.h"
// make the first audio packet deliberately early to bias the sync error of
// the very first packet, making the error more likely to be too early
// rather than too late. It it's too early,
// a delay exactly compensating for it can be sent just before the
// first packet. This should exactly compensate for the error.
int64_t first_frame_early_bias = 8;
// default buffer size
// needs to be a power of 2 because of the way BUFIDX(seqno) works
// #define BUFFER_FRAMES 512
#define MAX_PACKET 2048
// DAC buffer occupancy stuff
#define DAC_BUFFER_QUEUE_MINIMUM_LENGTH 2500
// static abuf_t audio_buffer[BUFFER_FRAMES];
#define BUFIDX(seqno) ((seq_t)(seqno) % BUFFER_FRAMES)
int32_t modulo_32_offset(uint32_t from, uint32_t to) { return to - from; }
void do_flush(uint32_t timestamp, rtsp_conn_info *conn);
void ab_resync(rtsp_conn_info *conn) {
int i;
for (i = 0; i < BUFFER_FRAMES; i++) {
conn->audio_buffer[i].ready = 0;
conn->audio_buffer[i].resend_request_number = 0;
conn->audio_buffer[i].resend_time =
0; // this is either zero or the time the last resend was requested.
conn->audio_buffer[i].initialisation_time =
0; // this is either the time the packet was received or the time it was noticed the packet
// was missing.
conn->audio_buffer[i].sequence_number = 0;
}
conn->ab_synced = 0;
conn->last_seqno_read = -1;
conn->ab_buffering = 1;
}
// the sequence numbers will wrap pretty often.
// this returns true if the second arg is strictly after the first
static inline int is_after(seq_t a, seq_t b) {
int16_t d = b - a;
return d > 0;
}
void reset_input_flow_metrics(rtsp_conn_info *conn) {
conn->play_number_after_flush = 0;
conn->packet_count_since_flush = 0;
conn->input_frame_rate_starting_point_is_valid = 0;
conn->initial_reference_time = 0;
conn->initial_reference_timestamp = 0;
}
void unencrypted_packet_decode(unsigned char *packet, int length, short *dest, int *outsize,
int size_limit, rtsp_conn_info *conn) {
if (conn->stream.type == ast_apple_lossless) {
#ifdef CONFIG_APPLE_ALAC
if (config.use_apple_decoder) {
if (conn->decoder_in_use != 1 << decoder_apple_alac) {
debug(2, "Apple ALAC Decoder used on encrypted audio.");
conn->decoder_in_use = 1 << decoder_apple_alac;
}
apple_alac_decode_frame(packet, length, (unsigned char *)dest, outsize);
*outsize = *outsize * 4; // bring the size to bytes
} else
#endif
{
if (conn->decoder_in_use != 1 << decoder_hammerton) {
debug(2, "Hammerton Decoder used on encrypted audio.");
conn->decoder_in_use = 1 << decoder_hammerton;
}
alac_decode_frame(conn->decoder_info, packet, (unsigned char *)dest, outsize);
}
} else if (conn->stream.type == ast_uncompressed) {
int length_to_use = length;
if (length_to_use > size_limit) {
warn("unencrypted_packet_decode: uncompressed audio packet too long (size: %d bytes) to "
"process -- truncated",
length);
length_to_use = size_limit;
}
int i;
short *source = (short *)packet;
for (i = 0; i < (length_to_use / 2); i++) {
*dest = ntohs(*source);
dest++;
source++;
}
*outsize = length_to_use;
}
}
#ifdef CONFIG_OPENSSL
// Thanks to
// https://stackoverflow.com/questions/27558625/how-do-i-use-aes-cbc-encrypt-128-openssl-properly-in-ubuntu
// for inspiration. Changed to a 128-bit key and no padding.
int openssl_aes_decrypt_cbc(unsigned char *ciphertext, int ciphertext_len, unsigned char *key,
unsigned char *iv, unsigned char *plaintext) {
EVP_CIPHER_CTX *ctx;
int len;
int plaintext_len = 0;
ctx = EVP_CIPHER_CTX_new();
if (ctx != NULL) {
if (EVP_DecryptInit_ex(ctx, EVP_aes_128_cbc(), NULL, key, iv) == 1) {
EVP_CIPHER_CTX_set_padding(ctx, 0); // no padding -- always returns 1
// no need to allow space for padding in the output, as padding is disabled
if (EVP_DecryptUpdate(ctx, plaintext, &len, ciphertext, ciphertext_len) == 1) {
plaintext_len = len;
if (EVP_DecryptFinal_ex(ctx, plaintext + len, &len) == 1) {
plaintext_len += len;
} else {
debug(1, "EVP_DecryptFinal_ex error \"%s\".", ERR_error_string(ERR_get_error(), NULL));
}
} else {
debug(1, "EVP_DecryptUpdate error \"%s\".", ERR_error_string(ERR_get_error(), NULL));
}
} else {
debug(1, "EVP_DecryptInit_ex error \"%s\".", ERR_error_string(ERR_get_error(), NULL));
}
EVP_CIPHER_CTX_free(ctx);
} else {
debug(1, "EVP_CIPHER_CTX_new error \"%s\".", ERR_error_string(ERR_get_error(), NULL));
}
return plaintext_len;
}
#endif
int audio_packet_decode(short *dest, int *destlen, uint8_t *buf, int len, rtsp_conn_info *conn) {
// parameters: where the decoded stuff goes, its length in samples,
// the incoming packet, the length of the incoming packet in bytes
// destlen should contain the allowed max number of samples on entry
if (len > MAX_PACKET) {
warn("Incoming audio packet size is too large at %d; it should not exceed %d.", len,
MAX_PACKET);
return -1;
}
unsigned char packet[MAX_PACKET];
// unsigned char packetp[MAX_PACKET];
assert(len <= MAX_PACKET);
int reply = 0; // everything okay
int outsize = conn->input_bytes_per_frame * (*destlen); // the size the output should be, in bytes
int maximum_possible_outsize = outsize;
if (conn->stream.encrypted) {
unsigned char iv[16];
int aeslen = len & ~0xf;
memcpy(iv, conn->stream.aesiv, sizeof(iv));
#ifdef CONFIG_MBEDTLS
mbedtls_aes_crypt_cbc(&conn->dctx, MBEDTLS_AES_DECRYPT, aeslen, iv, buf, packet);
#endif
#ifdef CONFIG_POLARSSL
aes_crypt_cbc(&conn->dctx, AES_DECRYPT, aeslen, iv, buf, packet);
#endif
#ifdef CONFIG_OPENSSL
openssl_aes_decrypt_cbc(buf, aeslen, conn->stream.aeskey, iv, packet);
#endif
memcpy(packet + aeslen, buf + aeslen, len - aeslen);
unencrypted_packet_decode(packet, len, dest, &outsize, maximum_possible_outsize, conn);
} else {
// not encrypted
unencrypted_packet_decode(buf, len, dest, &outsize, maximum_possible_outsize, conn);
}
if (outsize > maximum_possible_outsize) {
debug(2,
"Output from alac_decode larger (%d bytes, not frames) than expected (%d bytes) -- "
"truncated, but buffer overflow possible! Encrypted = %d.",
outsize, maximum_possible_outsize, conn->stream.encrypted);
reply = -1; // output packet is the wrong size
}
if (conn->input_bytes_per_frame != 0)
*destlen = outsize / conn->input_bytes_per_frame;
else
die("Unexpectedly, conn->input_bytes_per_frame is zero.");
if ((outsize % conn->input_bytes_per_frame) != 0)
debug(1,
"Number of audio frames (%d) does not correspond exactly to the number of bytes (%d) "
"and the audio frame size (%d).",
*destlen, outsize, conn->input_bytes_per_frame);
return reply;
}
static int init_alac_decoder(int32_t fmtp[12], rtsp_conn_info *conn) {
// clang-format off
// This is a guess, but the format of the fmtp looks identical to the format of an
// ALACSpecificCOnfig which is detailed in the file ALACMagicCookieDescription.txt
// in the Apple ALAC sample implementation
// Here it is:
/*
* ALAC Specific Info (24 bytes) (mandatory)
__________________________________________________________________________________________________________________________________
The Apple Lossless codec stores specific information about the encoded stream in the ALACSpecificConfig. This
info is vended by the encoder and is used to setup the decoder for a given encoded bitstream.
When read from and written to a file, the fields of this struct must be in big-endian order.
When vended by the encoder (and received by the decoder) the struct values will be in big-endian order.
struct ALACSpecificConfig (defined in ALACAudioTypes.h)
abstract This struct is used to describe codec provided information about the encoded Apple Lossless bitstream.
It must accompany the encoded stream in the containing audio file and be provided to the decoder.
field frameLength uint32_t indicating the frames per packet when no explicit frames per packet setting is
present in the packet header. The encoder frames per packet can be explicitly set
but for maximum compatibility, the default encoder setting of 4096 should be used.
field compatibleVersion uint8_t indicating compatible version,
value must be set to 0
field bitDepth uint8_t describes the bit depth of the source PCM data (maximum value = 32)
field pb uint8_t currently unused tuning parameter.
value should be set to 40
field mb uint8_t currently unused tuning parameter.
value should be set to 10
field kb uint8_t currently unused tuning parameter.
value should be set to 14
field numChannels uint8_t describes the channel count (1 = mono, 2 = stereo, etc...)
when channel layout info is not provided in the 'magic cookie', a channel count > 2
describes a set of discreet channels with no specific ordering
field maxRun uint16_t currently unused.
value should be set to 255
field maxFrameBytes uint32_t the maximum size of an Apple Lossless packet within the encoded stream.
value of 0 indicates unknown
field avgBitRate uint32_t the average bit rate in bits per second of the Apple Lossless stream.
value of 0 indicates unknown
field sampleRate uint32_t sample rate of the encoded stream
typedef struct ALACSpecificConfig
{
uint32_t frameLength;
uint8_t compatibleVersion;
uint8_t bitDepth;
uint8_t pb;
uint8_t mb;
uint8_t kb;
uint8_t numChannels;
uint16_t maxRun;
uint32_t maxFrameBytes;
uint32_t avgBitRate;
uint32_t sampleRate;
} ALACSpecificConfig;
*/
// We are going to go on that basis
// clang-format on
alac_file *alac;
alac = alac_create(conn->input_bit_depth,
conn->input_num_channels); // no pthread cancellation point in here
if (!alac)
return 1;
conn->decoder_info = alac;
alac->setinfo_max_samples_per_frame = conn->max_frames_per_packet;
alac->setinfo_7a = fmtp[2];
alac->setinfo_sample_size = conn->input_bit_depth;
alac->setinfo_rice_historymult = fmtp[4];
alac->setinfo_rice_initialhistory = fmtp[5];
alac->setinfo_rice_kmodifier = fmtp[6];
alac->setinfo_7f = fmtp[7];
alac->setinfo_80 = fmtp[8];
alac->setinfo_82 = fmtp[9];
alac->setinfo_86 = fmtp[10];
alac->setinfo_8a_rate = fmtp[11];
alac_allocate_buffers(alac); // no pthread cancellation point in here
#ifdef CONFIG_APPLE_ALAC
apple_alac_init(fmtp); // no pthread cancellation point in here
#endif
return 0;
}
static void terminate_decoders(rtsp_conn_info *conn) {
alac_free(conn->decoder_info);
#ifdef CONFIG_APPLE_ALAC
apple_alac_terminate();
#endif
}
uint64_t buffers_allocated = 0;
uint64_t buffers_released = 0;
static void init_buffer(rtsp_conn_info *conn) {
// debug(1,"input_bytes_per_frame: %d.", conn->input_bytes_per_frame);
// debug(1,"input_bit_depth: %d.", conn->input_bit_depth);
int i;
for (i = 0; i < BUFFER_FRAMES; i++) {
// conn->audio_buffer[i].data = malloc(conn->input_bytes_per_frame *
// conn->max_frames_per_packet);
void *allocation = malloc(8 * conn->max_frames_per_packet);
if (allocation == NULL) {
die("could not allocate memory for audio buffers. %" PRId64 " buffers allocated, %" PRId64
" buffers released.",
buffers_allocated, buffers_released);
} else {
conn->audio_buffer[i].data = allocation;
buffers_allocated++;
}
}
}
static void free_audio_buffers(rtsp_conn_info *conn) {
int i;
for (i = 0; i < BUFFER_FRAMES; i++) {
free(conn->audio_buffer[i].data);
buffers_released++;
}
debug(2, "%" PRId64 " buffers allocated, %" PRId64 " buffers released.", buffers_allocated,
buffers_released);
}
int first_possibly_missing_frame = -1;
void reset_buffer(rtsp_conn_info *conn) {
debug_mutex_lock(&conn->ab_mutex, 30000, 0);
ab_resync(conn);
debug_mutex_unlock(&conn->ab_mutex, 0);
if (config.output->flush) {
config.output->flush(); // no cancellation points
// debug(1, "reset_buffer: flush output device.");
}
}
void get_audio_buffer_size_and_occupancy(unsigned int *size, unsigned int *occupancy,
rtsp_conn_info *conn) {
debug_mutex_lock(&conn->ab_mutex, 30000, 0);
*size = BUFFER_FRAMES;
if (conn->ab_synced) {
int16_t occ =
conn->ab_write - conn->ab_read; // will be zero or positive if read and write are within
// 2^15 of each other and write is at or after read
*occupancy = occ;
} else {
*occupancy = 0;
}
debug_mutex_unlock(&conn->ab_mutex, 0);
}
void player_put_packet(int original_format, seq_t seqno, uint32_t actual_timestamp, uint8_t *data,
int len, rtsp_conn_info *conn) {
// if it's original format, it has a valid seqno and must be decoded
// otherwise, it can take the next seqno and doesn't need decoding.
// ignore a request to flush that has been made before the first packet...
if (conn->packet_count == 0) {
debug_mutex_lock(&conn->flush_mutex, 1000, 1);
conn->flush_requested = 0;
conn->flush_rtp_timestamp = 0;
debug_mutex_unlock(&conn->flush_mutex, 3);
}
debug_mutex_lock(&conn->ab_mutex, 30000, 0);
uint64_t time_now = get_absolute_time_in_ns();
conn->packet_count++;
conn->packet_count_since_flush++;
conn->time_of_last_audio_packet = time_now;
if (conn->connection_state_to_output) { // if we are supposed to be processing these packets
abuf_t *abuf = 0;
if (!conn->ab_synced) {
conn->ab_write = seqno;
conn->ab_read = seqno;
conn->ab_synced = 1;
conn->first_packet_timestamp = 0;
debug(2, "Connection %d: synced by first packet, seqno %u.", conn->connection_number, seqno);
} else if (original_format == 0) {
// if the packet is coming in original format, the sequence number is important
// otherwise, ignore is by setting it equal to the expected sequence number in ab_write
seqno = conn->ab_write;
}
if (conn->ab_write ==
seqno) { // if this is the expected packet (which could be the first packet...)
if (conn->input_frame_rate_starting_point_is_valid == 0) {
if ((conn->packet_count_since_flush >= 500) && (conn->packet_count_since_flush <= 510)) {
conn->frames_inward_measurement_start_time = time_now;
conn->frames_inward_frames_received_at_measurement_start_time = actual_timestamp;
conn->input_frame_rate_starting_point_is_valid = 1; // valid now
}
}
conn->frames_inward_measurement_time = time_now;
conn->frames_inward_frames_received_at_measurement_time = actual_timestamp;
abuf = conn->audio_buffer + BUFIDX(seqno);
conn->ab_write = seqno + 1; // move the write pointer to the next free space
} else if (is_after(conn->ab_write, seqno)) { // newer than expected
int32_t gap = seqno - conn->ab_write;
if (gap <= 0)
debug(1, "Unexpected gap size: %d.", gap);
int i;
for (i = 0; i < gap; i++) {
abuf = conn->audio_buffer + BUFIDX(conn->ab_write + i);
abuf->ready = 0; // to be sure, to be sure
abuf->resend_request_number = 0;
abuf->initialisation_time =
time_now; // this represents when the packet was noticed to be missing
abuf->status = 1 << 0; // signifying missing
abuf->resend_time = 0;
abuf->given_timestamp = 0;
abuf->sequence_number = 0;
}
abuf = conn->audio_buffer + BUFIDX(seqno);
// rtp_request_resend(ab_write, gap);
// resend_requests++;
conn->ab_write = seqno + 1;
} else if (is_after(conn->ab_read, seqno)) { // older than expected but not too late
conn->late_packets++;
abuf = conn->audio_buffer + BUFIDX(seqno);
} else { // too late.
conn->too_late_packets++;
}
if (abuf) {
int datalen = conn->max_frames_per_packet;
abuf->initialisation_time = time_now;
abuf->resend_time = 0;
if ((original_format != 0) &&
(audio_packet_decode(abuf->data, &datalen, data, len, conn) == 0)) {
abuf->ready = 1;
abuf->status = 0; // signifying that it was received
abuf->length = datalen;
abuf->given_timestamp = actual_timestamp;
abuf->sequence_number = seqno;
} else if (original_format == 0) {
memcpy(abuf->data, data, len * conn->input_bytes_per_frame);
abuf->ready = 1;
abuf->status = 0; // signifying that it was received
abuf->length = len;
abuf->given_timestamp = actual_timestamp;
abuf->sequence_number = seqno;
} else {
debug(1, "Bad audio packet detected and discarded.");
abuf->ready = 0;
abuf->status = 1 << 1; // bad packet, discarded
abuf->resend_request_number = 0;
abuf->given_timestamp = 0;
abuf->sequence_number = 0;
}
}
int rc = pthread_cond_signal(&conn->flowcontrol);
if (rc)
debug(1, "Error signalling flowcontrol.");
// resend checks
{
uint64_t minimum_wait_time =
(uint64_t)(config.resend_control_first_check_time * (uint64_t)1000000000);
uint64_t resend_repeat_interval =
(uint64_t)(config.resend_control_check_interval_time * (uint64_t)1000000000);
uint64_t minimum_remaining_time = (uint64_t)(
(config.resend_control_last_check_time + config.audio_backend_buffer_desired_length) *
(uint64_t)1000000000);
uint64_t latency_time = (uint64_t)(conn->latency * (uint64_t)1000000000);
latency_time = latency_time / (uint64_t)conn->input_rate;
// find the first frame that is missing, if known
int x = conn->ab_read;
if (first_possibly_missing_frame >= 0) {
// if it's within the range
int16_t buffer_size = conn->ab_write - conn->ab_read; // must be positive
if (buffer_size >= 0) {
int16_t position_in_buffer = first_possibly_missing_frame - conn->ab_read;
if ((position_in_buffer >= 0) && (position_in_buffer < buffer_size))
x = first_possibly_missing_frame;
}
}
first_possibly_missing_frame = -1; // has not been set
int missing_frame_run_count = 0;
int start_of_missing_frame_run = -1;
int number_of_missing_frames = 0;
while (x != conn->ab_write) {
abuf_t *check_buf = conn->audio_buffer + BUFIDX(x);
if (!check_buf->ready) {
if (first_possibly_missing_frame < 0)
first_possibly_missing_frame = x;
number_of_missing_frames++;
// debug(1, "frame %u's initialisation_time is 0x%" PRIx64 ", latency_time is 0x%"
// PRIx64 ", time_now is 0x%" PRIx64 ", minimum_remaining_time is 0x%" PRIx64 ".", x,
// check_buf->initialisation_time, latency_time, time_now, minimum_remaining_time);
int too_late = ((check_buf->initialisation_time < (time_now - latency_time)) ||
((check_buf->initialisation_time - (time_now - latency_time)) <
minimum_remaining_time));
int too_early = ((time_now - check_buf->initialisation_time) < minimum_wait_time);
int too_soon_after_last_request =
((check_buf->resend_time != 0) &&
((time_now - check_buf->resend_time) <
resend_repeat_interval)); // time_now can never be less than the time_tag
if (too_late)
check_buf->status |= 1 << 2; // too late
else
check_buf->status &= 0xFF - (1 << 2); // not too late
if (too_early)
check_buf->status |= 1 << 3; // too early
else
check_buf->status &= 0xFF - (1 << 3); // not too early
if (too_soon_after_last_request)
check_buf->status |= 1 << 4; // too soon after last request
else
check_buf->status &= 0xFF - (1 << 4); // not too soon after last request
if ((!too_soon_after_last_request) && (!too_late) && (!too_early)) {
if (start_of_missing_frame_run == -1) {
start_of_missing_frame_run = x;
missing_frame_run_count = 1;
} else {
missing_frame_run_count++;
}
check_buf->resend_time = time_now; // setting the time to now because we are
// definitely going to take action
check_buf->resend_request_number++;
debug(3, "Frame %d is missing with ab_read of %u and ab_write of %u.", x, conn->ab_read,
conn->ab_write);
}
// if (too_late) {
// debug(1,"too late to get missing frame %u.", x);
// }
}
// if (number_of_missing_frames != 0)
// debug(1,"check with x = %u, ab_read = %u, ab_write = %u, first_possibly_missing_frame
// = %d.", x, conn->ab_read, conn->ab_write, first_possibly_missing_frame);
x = (x + 1) & 0xffff;
if (((check_buf->ready) || (x == conn->ab_write)) && (missing_frame_run_count > 0)) {
// send a resend request
if (missing_frame_run_count > 1)
debug(3, "request resend of %d packets starting at seqno %u.", missing_frame_run_count,
start_of_missing_frame_run);
if (config.disable_resend_requests == 0) {
debug_mutex_unlock(&conn->ab_mutex, 3);
rtp_request_resend(start_of_missing_frame_run, missing_frame_run_count, conn);
debug_mutex_lock(&conn->ab_mutex, 20000, 1);
conn->resend_requests++;
}
start_of_missing_frame_run = -1;
missing_frame_run_count = 0;
}
}
if (number_of_missing_frames == 0)
first_possibly_missing_frame = conn->ab_write;
}
}
debug_mutex_unlock(&conn->ab_mutex, 0);
}
int32_t rand_in_range(int32_t exclusive_range_limit) {
static uint32_t lcg_prev = 12345;
// returns a pseudo random integer in the range 0 to (exclusive_range_limit-1) inclusive
int64_t sp = lcg_prev;
int64_t rl = exclusive_range_limit;
lcg_prev = lcg_prev * 69069 + 3; // crappy psrg
sp = sp * rl; // 64 bit calculation. Interesting part is above the 32 rightmost bits;
return sp >> 32;
}
static inline void process_sample(int32_t sample, char **outp, sps_format_t format, int volume,
int dither, rtsp_conn_info *conn) {
/*
{
static int old_volume = 0;
if (volume != old_volume) {
debug(1,"Volume is now %d.",volume);
old_volume = volume;
}
}
*/
int64_t hyper_sample = sample;
int result = 0;
if (config.loudness) {
hyper_sample <<=
32; // Do not apply volume as it has already been done with the Loudness DSP filter
} else {
int64_t hyper_volume = (int64_t)volume << 16;
hyper_sample = hyper_sample * hyper_volume; // this is 64 bit bit multiplication -- we may need
// to dither it down to its target resolution
}
// next, do dither, if necessary
if (dither) {
// add a TPDF dither -- see
// http://educypedia.karadimov.info/library/DitherExplained.pdf
// and the discussion around https://www.hydrogenaud.io/forums/index.php?showtopic=16963&st=25
// I think, for a 32 --> 16 bits, the range of
// random numbers needs to be from -2^16 to 2^16, i.e. from -65536 to 65536 inclusive, not from
// -32768 to +32767
// Actually, what would be generated here is from -65535 to 65535, i.e. one less on the limits.
// See the original paper at
// http://www.ece.rochester.edu/courses/ECE472/resources/Papers/Lipshitz_1992.pdf
// by Lipshitz, Wannamaker and Vanderkooy, 1992.
int64_t dither_mask = 0;
switch (format) {
case SPS_FORMAT_S32:
case SPS_FORMAT_S32_LE:
case SPS_FORMAT_S32_BE:
dither_mask = (int64_t)1 << (64 - 32);
break;
case SPS_FORMAT_S24:
case SPS_FORMAT_S24_LE:
case SPS_FORMAT_S24_BE:
case SPS_FORMAT_S24_3LE:
case SPS_FORMAT_S24_3BE:
dither_mask = (int64_t)1 << (64 - 24);
break;
case SPS_FORMAT_S16:
case SPS_FORMAT_S16_LE:
case SPS_FORMAT_S16_BE:
dither_mask = (int64_t)1 << (64 - 16);
break;
case SPS_FORMAT_S8:
case SPS_FORMAT_U8:
dither_mask = (int64_t)1 << (64 - 8);
break;
case SPS_FORMAT_UNKNOWN:
die("Unexpected SPS_FORMAT_UNKNOWN while calculating dither mask.");
break;
case SPS_FORMAT_AUTO:
die("Unexpected SPS_FORMAT_AUTO while calculating dither mask.");
break;
case SPS_FORMAT_INVALID:
die("Unexpected SPS_FORMAT_INVALID while calculating dither mask.");
break;
}
dither_mask -= 1;
int64_t r = r64i();
int64_t tpdf = (r & dither_mask) - (conn->previous_random_number & dither_mask);
conn->previous_random_number = r;
// add dither, allowing for clipping
if (tpdf >= 0) {
if (INT64_MAX - tpdf >= hyper_sample)
hyper_sample += tpdf;
else
hyper_sample = INT64_MAX;
} else {
if (INT64_MIN - tpdf <= hyper_sample)
hyper_sample += tpdf;
else
hyper_sample = INT64_MIN;
}
// dither is complete here
}
// move the result to the desired position in the int64_t
char *op = *outp;
uint8_t byt;
switch (format) {
case SPS_FORMAT_S32_LE:
hyper_sample >>= (64 - 32);
byt = (uint8_t)hyper_sample;
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 8);
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 16);
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 24);
*op++ = byt;
result = 4;
break;
case SPS_FORMAT_S32_BE:
hyper_sample >>= (64 - 32);
byt = (uint8_t)(hyper_sample >> 24);
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 16);
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 8);
*op++ = byt;
byt = (uint8_t)hyper_sample;
*op++ = byt;
result = 4;
break;
case SPS_FORMAT_S32:
hyper_sample >>= (64 - 32);
*(int32_t *)op = hyper_sample;
result = 4;
break;
case SPS_FORMAT_S24_3LE:
hyper_sample >>= (64 - 24);
byt = (uint8_t)hyper_sample;
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 8);
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 16);
*op++ = byt;
result = 3;
break;
case SPS_FORMAT_S24_3BE:
hyper_sample >>= (64 - 24);
byt = (uint8_t)(hyper_sample >> 16);
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 8);
*op++ = byt;
byt = (uint8_t)hyper_sample;
*op++ = byt;
result = 3;
break;
case SPS_FORMAT_S24_LE:
hyper_sample >>= (64 - 24);
byt = (uint8_t)hyper_sample;
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 8);
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 16);
*op++ = byt;
*op++ = 0;
result = 4;
break;
case SPS_FORMAT_S24_BE:
hyper_sample >>= (64 - 24);
*op++ = 0;
byt = (uint8_t)(hyper_sample >> 16);
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 8);
*op++ = byt;
byt = (uint8_t)hyper_sample;
*op++ = byt;
result = 4;
break;
case SPS_FORMAT_S24:
hyper_sample >>= (64 - 24);
*(int32_t *)op = hyper_sample;
result = 4;
break;
case SPS_FORMAT_S16_LE:
hyper_sample >>= (64 - 16);
byt = (uint8_t)hyper_sample;
*op++ = byt;
byt = (uint8_t)(hyper_sample >> 8);
*op++ = byt;
result = 2;
break;
case SPS_FORMAT_S16_BE:
hyper_sample >>= (64 - 16);
byt = (uint8_t)(hyper_sample >> 8);
*op++ = byt;
byt = (uint8_t)hyper_sample;
*op++ = byt;
result = 2;
break;
case SPS_FORMAT_S16:
hyper_sample >>= (64 - 16);
*(int16_t *)op = (int16_t)hyper_sample;
result = 2;
break;
case SPS_FORMAT_S8:
hyper_sample >>= (int8_t)(64 - 8);
*op = hyper_sample;
result = 1;
break;
case SPS_FORMAT_U8:
hyper_sample >>= (uint8_t)(64 - 8);
hyper_sample += 128;
*op = hyper_sample;
result = 1;
break;
case SPS_FORMAT_UNKNOWN:
die("Unexpected SPS_FORMAT_UNKNOWN while outputting samples");
break;
case SPS_FORMAT_AUTO:
die("Unexpected SPS_FORMAT_AUTO while outputting samples");
break;
case SPS_FORMAT_INVALID:
die("Unexpected SPS_FORMAT_INVALID while outputting samples");
break;
}
*outp += result;
}
void buffer_get_frame_cleanup_handler(void *arg) {
rtsp_conn_info *conn = (rtsp_conn_info *)arg;
debug_mutex_unlock(&conn->ab_mutex, 0);
}
// get the next frame, when available. return 0 if underrun/stream reset.
static abuf_t *buffer_get_frame(rtsp_conn_info *conn) {
// int16_t buf_fill;
uint64_t local_time_now;
// struct timespec tn;
abuf_t *curframe = NULL;
int notified_buffer_empty = 0; // diagnostic only
debug_mutex_lock(&conn->ab_mutex, 30000, 0);
int wait;
long dac_delay = 0; // long because alsa returns a long
int have_sent_prefiller_silence =
0; // set to true when we have sent at least one silent frame to the DAC
pthread_cleanup_push(buffer_get_frame_cleanup_handler,
(void *)conn); // undo what's been done so far
do {
pthread_testcancel(); // even if no packets are coming in...
// get the time
local_time_now = get_absolute_time_in_ns(); // type okay
// debug(3, "buffer_get_frame is iterating");
// we must have timing information before we can do anything here
if (have_timestamp_timing_information(conn)) {
int rco = get_requested_connection_state_to_output();
if (conn->connection_state_to_output != rco) {
conn->connection_state_to_output = rco;
// change happening
if (conn->connection_state_to_output == 0) { // going off
debug(2, "request flush because connection_state_to_output is off");
debug_mutex_lock(&conn->flush_mutex, 1000, 1);
conn->flush_requested = 1;
conn->flush_rtp_timestamp = 0;
debug_mutex_unlock(&conn->flush_mutex, 3);
}
}
if (config.output->is_running)
if (config.output->is_running() != 0) { // if the back end isn't running for any reason
debug(2, "request flush because back end is not running");
debug_mutex_lock(&conn->flush_mutex, 1000, 0);
conn->flush_requested = 1;
conn->flush_rtp_timestamp = 0;
debug_mutex_unlock(&conn->flush_mutex, 0);
}
debug_mutex_lock(&conn->flush_mutex, 1000, 0);
pthread_cleanup_push(mutex_unlock, &conn->flush_mutex);
if (conn->flush_requested == 1) {
if (conn->flush_output_flushed == 0)
if (config.output->flush) {
config.output->flush(); // no cancellation points
debug(2, "flush request: flush output device.");
}
conn->flush_output_flushed = 1;
}
// now check to see it the flush request is for frames in the buffer or not
// if the first_packet_timestamp is zero, don't check
int flush_needed = 0;
int drop_request = 0;
if (conn->flush_requested == 1) {
if (conn->flush_rtp_timestamp == 0) {
debug(1, "flush request: flush frame 0 -- flush assumed to be needed.");
flush_needed = 1;
drop_request = 1;
} else {
if ((conn->ab_synced) && ((conn->ab_write - conn->ab_read) > 0)) {
abuf_t *firstPacket = conn->audio_buffer + BUFIDX(conn->ab_read);
abuf_t *lastPacket = conn->audio_buffer + BUFIDX(conn->ab_write - 1);
if ((firstPacket != NULL) && (firstPacket->ready)) {
uint32_t first_frame_in_buffer = firstPacket->given_timestamp;
int32_t offset_from_first_frame = conn->flush_rtp_timestamp - first_frame_in_buffer;
if ((lastPacket != NULL) && (lastPacket->ready)) {
// we have enough information to check if the flush is needed or can be discarded
uint32_t last_frame_in_buffer =
lastPacket->given_timestamp + lastPacket->length - 1;
// clang-format off
// Now we have to work out if the flush frame is in the buffer.
// If it is later than the end of the buffer, flush everything and keep the
// request active.
// If it is in the buffer, we need to flush part of the buffer.
// (Actually we flush the entire buffer and drop the request.)
// If it is before the buffer, no flush is needed. Drop the request.
// clang-format on
if (offset_from_first_frame > 0) {
int32_t offset_to_last_frame = last_frame_in_buffer - conn->flush_rtp_timestamp;
if (offset_to_last_frame >= 0) {