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|
/*
* Copyright (C) 2003-2011 The Music Player Daemon Project
* http://www.musicpd.org
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "output_api.h"
#include "mixer_list.h"
#include "raop_output_plugin.h"
#include <glib.h>
#include <unistd.h>
#include <openssl/err.h>
#include <openssl/rand.h>
#include <openssl/rsa.h>
#include <openssl/engine.h>
#ifndef WIN32
#include <arpa/inet.h>
#include <sys/socket.h>
#include <sys/select.h>
#include <sys/poll.h>
#include <netdb.h>
#endif
#include <fcntl.h>
#undef G_LOG_DOMAIN
#define G_LOG_DOMAIN "raop"
static struct raop_session_data *raop_session = NULL;
/**
* The quark used for GError.domain.
*/
static inline GQuark
raop_output_quark(void)
{
return g_quark_from_static_string("raop_output");
}
static struct raop_data *
new_raop_data(void)
{
struct raop_data *ret = g_new(struct raop_data, 1);
int i;
ret->control_mutex = g_mutex_new();
ret->next = NULL;
ret->is_master = 0;
ret->started = 0;
ret->paused = 0;
if (raop_session == NULL) {
raop_session = (struct raop_session_data *) malloc(sizeof(struct raop_session_data));
raop_session->raop_list = NULL;
raop_session->ntp.port = 6002;
raop_session->ntp.fd = -1;
raop_session->ctrl.port = 6001;
raop_session->ctrl.fd = -1;
raop_session->play_state.playing = false;
raop_session->play_state.seq_num = (short) g_random_int();
raop_session->play_state.rtptime = g_random_int();
raop_session->play_state.sync_src = g_random_int();
raop_session->play_state.last_send.tv_sec = 0;
raop_session->play_state.last_send.tv_usec = 0;
if (!RAND_bytes(raop_session->encrypt.iv, sizeof(raop_session->encrypt.iv)) || !RAND_bytes(raop_session->encrypt.key, sizeof(raop_session->encrypt.key))) {
g_warning("%s:RAND_bytes error code=%ld\n",__func__,ERR_get_error());
return NULL;
}
memcpy(raop_session->encrypt.nv, raop_session->encrypt.iv, sizeof(raop_session->encrypt.nv));
for (i = 0; i < 16; i++) {
printf("0x%x ", raop_session->encrypt.key[i]);
}
printf("\n");
AES_set_encrypt_key(raop_session->encrypt.key, 128, &raop_session->encrypt.ctx);
raop_session->data_fd = -1;
bzero(raop_session->buffer, RAOP_BUFFER_SIZE);
raop_session->bufferSize = 0;
raop_session->data_mutex = g_mutex_new();
raop_session->list_mutex = g_mutex_new();
}
return ret;
}
/*
* read one line from the file descriptor
* timeout: msec unit, -1 for infinite
* if CR comes then following LF is expected
* returned string in line is always null terminated, maxlen-1 is maximum string length
*/
static int
read_line(int fd, char *line, int maxlen, int timeout, int no_poll)
{
int i, rval;
int count = 0;
struct pollfd pfds;
char ch;
*line = 0;
pfds.events = POLLIN;
pfds.fd = fd;
for (i = 0;i < maxlen; i++) {
if (no_poll || poll(&pfds, 1, timeout))
rval=read(fd,&ch,1);
else return 0;
if (rval == -1) {
if (errno == EAGAIN) return 0;
g_warning("%s:read error: %s\n", __func__, strerror(errno));
return -1;
}
if (rval == 0) {
g_debug("%s:disconnected on the other end\n", __func__);
return -1;
}
if(ch == '\n') {
*line = 0;
return count;
}
if (ch == '\r') continue;
*line++ = ch;
count++;
if (count >= maxlen - 1) break;
}
*line = 0;
return count;
}
/*
* Free all memory associated with key_data
*/
static void
free_kd(struct key_data *kd)
{
struct key_data *iter = kd;
while (iter) {
free(iter->key);
if(iter->data) free(iter->data);
iter = iter->next;
free(kd);
kd = iter;
}
}
/*
* key_data type data look up
*/
static char *
kd_lookup(struct key_data *kd, const char *key)
{
while (kd) {
g_debug("checking key %s %s\n", kd->key, key);
if (!strcmp((char*)kd->key, key)) {
g_debug("found %s\n", kd->data);
return (char*) kd->data;
}
kd = kd->next;
}
return NULL;
}
/*
* remove one character from a string
* return the number of deleted characters
*/
static int
remove_char_from_string(char *str, char rc)
{
int i = 0, j = 0, len;
int num = 0;
len = strlen(str);
while (i < len) {
if (str[i] == rc) {
for (j = i; j < len; j++) str[j] = str[j + 1];
len--;
num++;
} else {
i++;
}
}
return num;
}
#define SLEEP_MSEC(val) usleep(val*1000)
/* bind an opened socket to specified hostname and port.
* if hostname=NULL, use INADDR_ANY.
* if *port=0, use dynamically assigned port
*/
static int bind_host(int sd, char *hostname, unsigned long ulAddr, unsigned short *port)
{
struct sockaddr_in my_addr;
socklen_t nlen = sizeof(struct sockaddr);
struct hostent *h;
memset(&my_addr, 0, sizeof(my_addr));
/* use specified hostname */
if (hostname) {
/* get server IP address (no check if input is IP address or DNS name) */
h = gethostbyname(hostname);
if (h == NULL) {
if (strstr(hostname, "255.255.255.255") == hostname) {
my_addr.sin_addr.s_addr=-1;
} else {
if ((my_addr.sin_addr.s_addr = inet_addr(hostname)) == 0xFFFFFFFF) {
g_warning("gethostbyname: '%s' \n", hostname);
return -1;
}
}
my_addr.sin_family = AF_INET;
} else {
my_addr.sin_family = h->h_addrtype;
memcpy((char *) &my_addr.sin_addr.s_addr,
h->h_addr_list[0], h->h_length);
}
} else {
// if hostname=NULL, use INADDR_ANY
if (ulAddr)
my_addr.sin_addr.s_addr = ulAddr;
else
my_addr.sin_addr.s_addr = htonl(INADDR_ANY);
my_addr.sin_family = AF_INET;
}
/* bind a specified port */
my_addr.sin_port = htons(*port);
if (bind(sd, (struct sockaddr *) &my_addr, sizeof(my_addr)) < 0) {
g_warning("bind error: %s\n", strerror(errno));
return -1;
}
if (*port == 0) {
getsockname(sd, (struct sockaddr *) &my_addr, &nlen);
*port = ntohs(my_addr.sin_port);
}
return 0;
}
/*
* open tcp port
*/
static int open_tcp_socket(char *hostname, unsigned short *port)
{
int sd;
/* socket creation */
sd = socket(AF_INET, SOCK_STREAM, 0);
if (sd < 0) {
g_warning("cannot create tcp socket\n");
return -1;
}
if (bind_host(sd, hostname,0, port)) {
close(sd);
return -1;
}
return sd;
}
/*
* open udp port
*/
static int open_udp_socket(char *hostname, unsigned short *port)
{
int sd;
int size = 30000;
/* socket creation */
sd = socket(PF_INET, SOCK_DGRAM, 0);
if (sd < 0) {
g_warning("cannot create udp socket\n");
return -1;
}
if (setsockopt(sd, SOL_SOCKET, SO_SNDBUF, (void *) &size, sizeof(size)) < 0) {
g_warning("Could not set udp send buffer to %d\n", size);
return -1;
}
if (bind_host(sd, hostname,0, port)) {
close(sd);
return -1;
}
return sd;
}
/*
* create tcp connection
* as long as the socket is not non-blocking, this can block the process
* nsport is network byte order
*/
static bool
get_tcp_connect(int sd, struct sockaddr_in dest_addr)
{
if (connect(sd, (struct sockaddr *)&dest_addr, sizeof(struct sockaddr))){
SLEEP_MSEC(100L);
// try one more time
if (connect(sd, (struct sockaddr *)&dest_addr, sizeof(struct sockaddr))) {
g_warning("error:get_tcp_nconnect addr=%s, port=%d\n",
inet_ntoa(dest_addr.sin_addr), ntohs(dest_addr.sin_port));
return false;
}
}
return true;
}
static bool
get_sockaddr_by_host(const char *host, short destport, struct sockaddr_in *addr)
{
struct hostent *h;
h = gethostbyname(host);
if (h) {
addr->sin_family = h->h_addrtype;
memcpy((char *) &addr->sin_addr.s_addr, h->h_addr_list[0], h->h_length);
} else {
addr->sin_family = AF_INET;
if ((addr->sin_addr.s_addr=inet_addr(host))==0xFFFFFFFF) {
g_warning("gethostbyname: '%s' \n", host);
return false;
}
}
addr->sin_port = htons(destport);
return true;
}
static bool
get_tcp_connect_by_host(int sd, const char *host, short destport)
{
struct sockaddr_in addr;
get_sockaddr_by_host(host, destport, &addr);
return get_tcp_connect(sd, addr);
}
/*
* Store time in the NTP format in the buffer
*/
static void
fill_time_buffer_with_time(unsigned char *buffer, struct timeval *tout)
{
unsigned long secs_to_baseline = 964697997;
int iter;
double fraction;
unsigned long long_fraction;
unsigned long secs;
fraction = ((double) tout->tv_usec) / 1000000.0;
long_fraction = (unsigned long) (fraction * 256.0 * 256.0 * 256.0 * 256.0);
secs = secs_to_baseline + tout->tv_sec;
for (iter = 0; iter < 4; iter++) {
buffer[iter] = (secs >> ((3 - iter) * 8)) & 0xff;
}
for (iter = 0; iter < 4; iter++) {
buffer[4 + iter] = (long_fraction >> ((3 - iter) * 8)) & 0xff;
}
}
/*
* Calculate the current NTP time, store it in the buffer.
*/
static void
fill_time_buffer(unsigned char *buffer)
{
struct timeval current_time;
gettimeofday(¤t_time,NULL);
fill_time_buffer_with_time(buffer, ¤t_time);
}
/*
* Calculate the current NTP time, store it in the buffer.
*/
static void
fill_int(unsigned char *buffer, unsigned int rtp_time)
{
int iter;
for (iter = 0; iter < 4; iter++) {
buffer[iter] = (rtp_time >> ((3 - iter) * 8)) & 0xff;
}
}
/*
* Recv the NTP datagram from the AirTunes, send back an NTP response.
*/
static bool
send_timing_response(int fd)
{
unsigned char buf[32];
struct sockaddr addr;
int iter;
unsigned int addr_len = sizeof(addr);
int num_bytes = recvfrom(fd, buf, sizeof(buf), 0, &addr, &addr_len);
if (num_bytes == 0) {
return false;
}
fill_time_buffer(buf + 16);
// set to response
buf[1] = 0xd3;
// copy request
for (iter = 0; iter < 8; iter++) {
buf[8 + iter] = buf[24 + iter];
}
fill_time_buffer(buf + 24);
num_bytes = sendto(fd, buf, num_bytes, 0, &addr, addr_len);
return num_bytes == sizeof(buf);
}
static bool
get_time_for_rtp(struct play_state *state, struct timeval *tout)
{
unsigned long rtp_diff = state->rtptime - state->start_rtptime;
unsigned long add_secs = rtp_diff / 44100;
unsigned long add_usecs = (((rtp_diff % 44100) * 10000) / 441) % 1000000;
tout->tv_sec = state->start_time.tv_sec + add_secs;
tout->tv_usec = state->start_time.tv_usec + add_usecs;
if (tout->tv_usec >= 1000000) {
tout->tv_sec++;
tout->tv_usec = tout->tv_usec % 1000000;
}
return true;
}
/*
* Send a control command
*/
bool
send_control_command(struct control_data *ctrl, struct raop_data *rd, struct play_state *state)
{
unsigned char buf[20];
int diff;
int num_bytes;
struct timeval ctrl_time;
diff = 88200;
if (rd->started) {
buf[0] = 0x80;
diff += NUMSAMPLES;
} else {
buf[0] = 0x90;
state->playing = true;
state->start_rtptime = state->rtptime;
}
buf[1] = 0xd4;
buf[2] = 0x00;
buf[3] = 0x07;
fill_int(buf + 4, state->rtptime - diff);
get_time_for_rtp(state, &ctrl_time);
fill_time_buffer_with_time(buf + 8, &ctrl_time);
fill_int(buf + 16, state->rtptime);
num_bytes = sendto(ctrl->fd, buf, sizeof(buf), 0, (struct sockaddr *) &rd->ctrl_addr, sizeof(rd->ctrl_addr));
return true;
}
/*
* check to see if there are any timing requests, and respond if there are any
*/
static bool
check_timing(struct timeval *tout)
{
fd_set rdfds;
int fdmax = 0;
FD_ZERO(&rdfds);
FD_SET(raop_session->ntp.fd, &rdfds);
fdmax = raop_session->ntp.fd;
select(fdmax + 1, &rdfds,NULL, NULL, tout);
if (FD_ISSET(raop_session->ntp.fd, &rdfds)) {
if (!send_timing_response(raop_session->ntp.fd)) {
g_debug("unable to send timing response\n");
return false;
}
}
return true;
}
/*
* send RTSP request, and get response if it's needed
* if this gets a success, *kd is allocated or reallocated (if *kd is not NULL)
*/
static bool
exec_request(struct rtspcl_data *rtspcld, const char *cmd, const char *content_type,
char *content, int get_response, struct key_data *hds, struct key_data **kd)
{
char line[1024];
char req[1024];
char reql[128];
const char delimiters[] = " ";
char *token, *dp;
int i,dsize = 0,rval;
struct key_data *hd_iter, *cur_kd = *kd;
unsigned int j;
int timeout = 5000; // msec unit
fd_set rdfds;
int fdmax = 0;
struct timeval tout = {.tv_sec=10, .tv_usec=0};
if (!rtspcld) return false;
sprintf(req, "%s %s RTSP/1.0\r\nCSeq: %d\r\n", cmd, rtspcld->url, ++rtspcld->cseq );
if ( rtspcld->session != NULL ) {
sprintf(reql,"Session: %s\r\n", rtspcld->session );
strncat(req,reql,sizeof(req));
}
hd_iter = hds;
while (hd_iter) {
sprintf(reql, "%s: %s\r\n", hd_iter->key, hd_iter->data);
strncat(req, reql, sizeof(req));
hd_iter = hd_iter->next;
}
if (content_type && content) {
sprintf(reql, "Content-Type: %s\r\nContent-Length: %d\r\n",
content_type, (int) strlen(content));
strncat(req,reql,sizeof(req));
}
sprintf(reql, "User-Agent: %s\r\n", rtspcld->useragent);
strncat(req, reql, sizeof(req));
hd_iter = rtspcld->exthds;
while (hd_iter) {
sprintf(reql, "%s: %s\r\n", hd_iter->key, hd_iter->data);
strncat(req, reql, sizeof(req));
hd_iter = hd_iter->next;
}
strncat(req, "\r\n", sizeof(req));
if (content_type && content)
strncat(req, content, sizeof(req));
rval = write(rtspcld->fd, req, strlen(req));
g_debug("sent %s", req);
if (!get_response) return true;
while (true) {
FD_ZERO(&rdfds);
FD_SET(rtspcld->fd, &rdfds);
FD_SET(raop_session->ntp.fd, &rdfds);
fdmax = raop_session->ntp.fd > rtspcld->fd ? raop_session->ntp.fd : rtspcld->fd;;
select(fdmax + 1, &rdfds, NULL, NULL, &tout);
if (FD_ISSET(rtspcld->fd, &rdfds)) {
break;
}
if (FD_ISSET(raop_session->ntp.fd, &rdfds)) {
send_timing_response(raop_session->ntp.fd);
}
}
if (read_line(rtspcld->fd, line, sizeof(line), timeout, 0) <= 0) {
g_warning("%s: request failed\n",__func__);
return false;
}
g_debug("received %s", line);
token = strtok(line, delimiters);
token = strtok(NULL, delimiters);
if (token == NULL || strcmp(token,"200")) {
g_warning("%s: request failed, error %s\n", __func__, token);
return false;
}
i = 0;
while (read_line(rtspcld->fd, line, sizeof(line), timeout, 0) > 0) {
struct key_data *new_kd = NULL;
g_debug("%s -\n",line);
timeout = 1000; // once it started, it shouldn't take a long time
if (i && line[0] == ' ') {
for (j = 0; j < strlen(line); j++) if (line[j] != ' ') break;
dsize += strlen(line + j);
if ((new_kd->data = realloc(new_kd->data, dsize))) return false;
strcat((char*)new_kd->data, line + j);
continue;
}
dp = strstr(line, ":");
if (!dp) {
g_warning("%s: Request failed, bad header\n", __func__);
free_kd(*kd);
*kd = NULL;
return false;
}
*dp = 0;
new_kd = malloc(sizeof(struct key_data));
new_kd->key = malloc(strlen(line) + 1);
strcpy((char *) new_kd->key, line);
dsize = strlen(dp + 1) + 1;
new_kd->data = malloc(dsize);
strcpy((char*)new_kd->data, dp + 1);
new_kd->next = NULL;
if (cur_kd == NULL) {
cur_kd = *kd = new_kd;
} else {
cur_kd->next = new_kd;
cur_kd = new_kd;
}
i++;
}
return true;
}
static bool
rtspcl_set_parameter(struct rtspcl_data *rtspcld, char *parameter)
{
return exec_request(rtspcld, "SET_PARAMETER", "text/parameters",
parameter, 1, NULL, &rtspcld->kd);
}
static struct rtspcl_data *
rtspcl_open(void)
{
struct rtspcl_data *rtspcld;
rtspcld = malloc(sizeof(struct rtspcl_data));
memset(rtspcld, 0, sizeof(struct rtspcl_data));
rtspcld->useragent = "RTSPClient";
return rtspcld;
}
static bool
rtspcl_remove_all_exthds(struct rtspcl_data *rtspcld)
{
free_kd(rtspcld->exthds);
rtspcld->exthds = NULL;
return true;
}
static bool
rtspcl_disconnect(struct rtspcl_data *rtspcld)
{
if (rtspcld->fd > 0) close(rtspcld->fd);
rtspcld->fd = 0;
return true;
}
static bool
rtspcl_set_useragent(struct rtspcl_data *rtspcld, const char *name)
{
rtspcld->useragent = name;
return true;
}
static bool
rtspcl_add_exthds(struct rtspcl_data *rtspcld, const char *key, char *data)
{
struct key_data *new_kd;
new_kd = (struct key_data *) malloc(sizeof(struct key_data));
new_kd->key = malloc(strlen(key) + 1);
new_kd->data = malloc(strlen(data) + 1);
strcpy((char*)new_kd->key, key);
strcpy((char*)new_kd->data, data);
new_kd->next = NULL;
if (!rtspcld->exthds) {
rtspcld->exthds = new_kd;
} else {
struct key_data *iter = rtspcld->exthds;
while (iter->next) {
iter = iter->next;
}
iter->next = new_kd;
}
return true;
}
static bool
rtspcl_connect(struct rtspcl_data *rtspcld, const char *host, short destport, char *sid)
{
unsigned short myport = 0;
struct sockaddr_in name;
socklen_t namelen = sizeof(name);
if ((rtspcld->fd = open_tcp_socket(NULL, &myport)) == -1) return -1;
if (!get_tcp_connect_by_host(rtspcld->fd, host, destport)) return -1;
getsockname(rtspcld->fd, (struct sockaddr*)&name, &namelen);
memcpy(&rtspcld->local_addr, &name.sin_addr,sizeof(struct in_addr));
sprintf(rtspcld->url, "rtsp://%s/%s", inet_ntoa(name.sin_addr), sid);
getpeername(rtspcld->fd, (struct sockaddr*)&name, &namelen);
memcpy(&rtspcld->host_addr, &name.sin_addr, sizeof(struct in_addr));
return true;
}
static bool
rtspcl_announce_sdp(struct rtspcl_data *rtspcld, char *sdp)
{
return exec_request(rtspcld, "ANNOUNCE", "application/sdp", sdp, 1, NULL, &rtspcld->kd);
}
static bool
rtspcl_setup(struct rtspcl_data *rtspcld, struct key_data **kd)
{
struct key_data *rkd = NULL, hds;
const char delimiters[] = ";";
char *buf = NULL;
char *token, *pc;
int rval = false;
buf = (char *) malloc(256);
sprintf(buf, "RTP/AVP/UDP;unicast;interleaved=0-1;mode=record;control_port=%d;timing_port=%d", raop_session->ctrl.port, raop_session->ntp.port);
hds.key = (unsigned char*) strdup("Transport");
hds.data = (unsigned char*) buf;
hds.next = NULL;
buf = NULL;
if (!exec_request(rtspcld, "SETUP", NULL, NULL, 1, &hds, &rkd)) return false;
free(hds.key);
free(hds.data);
if (!(rtspcld->session = strdup(kd_lookup(rkd, "Session")))) {
g_warning("%s: no session in response\n",__func__);
goto erexit;
}
if (!(rtspcld->transport = kd_lookup(rkd, "Transport"))) {
g_warning("%s: no transport in response\n",__func__);
goto erexit;
}
if (!(buf = malloc(strlen(rtspcld->transport) + 1))) {
goto erexit;
}
strcpy(buf, rtspcld->transport);
token = strtok(buf, delimiters);
rtspcld->server_port = 0;
rtspcld->control_port = 0;
while (token) {
if ((pc = strstr(token, "="))) {
*pc = 0;
if (!strcmp(token,"server_port")) {
rtspcld->server_port=atoi(pc + 1);
}
if (!strcmp(token,"control_port")) {
rtspcld->control_port=atoi(pc + 1);
}
}
token = strtok(NULL, delimiters);
}
if (rtspcld->server_port == 0) {
g_warning("%s: no server_port in response\n",__func__);
goto erexit;
}
if (rtspcld->control_port == 0) {
g_warning("%s: no control_port in response\n",__func__);
goto erexit;
}
rval = true;
erexit:
if (buf) free(buf);
if (!rval) {
free_kd(rkd);
rkd = NULL;
}
*kd = rkd;
return rval;
}
static bool
rtspcl_record(struct rtspcl_data *rtspcld)
{
struct key_data *kdRange, *kdRtp;
int rval;
unsigned char *buf = (unsigned char *) malloc(128);
if (!rtspcld->session) {
g_warning("%s: no session in progress\n", __func__);
free(buf);
return false;
}
sprintf((char *) buf, "seq=%d,rtptime=%u", raop_session->play_state.seq_num, raop_session->play_state.rtptime);
kdRange = malloc(sizeof(struct key_data));
kdRtp = malloc(sizeof(struct key_data));
kdRange->key = (unsigned char*) strdup("Range");
kdRange->data = (unsigned char*) strdup("npt=0-");
kdRange->next = kdRtp;
kdRtp->key = (unsigned char*) strdup("RTP-Info");
kdRtp->data = buf;
kdRtp->next = NULL;
rval = exec_request(rtspcld, "RECORD", NULL, NULL, 1, kdRange, &rtspcld->kd);
free_kd(kdRange);
return rval;
}
static bool
rtspcl_close(struct rtspcl_data *rtspcld)
{
rtspcl_disconnect(rtspcld);
rtspcl_remove_all_exthds(rtspcld);
free(rtspcld->session);
free(rtspcld);
return true;
}
static char* rtspcl_local_ip(struct rtspcl_data *rtspcld)
{
return inet_ntoa(rtspcld->local_addr);
}
static int rsa_encrypt(const unsigned char *text, int len, unsigned char *res)
{
RSA *rsa;
gsize usize;
unsigned char *modulus;
unsigned char *exponent;
int size;
char n[] =
"59dE8qLieItsH1WgjrcFRKj6eUWqi+bGLOX1HL3U3GhC/j0Qg90u3sG/1CUtwC"
"5vOYvfDmFI6oSFXi5ELabWJmT2dKHzBJKa3k9ok+8t9ucRqMd6DZHJ2YCCLlDR"
"KSKv6kDqnw4UwPdpOMXziC/AMj3Z/lUVX1G7WSHCAWKf1zNS1eLvqr+boEjXuB"
"OitnZ/bDzPHrTOZz0Dew0uowxf/+sG+NCK3eQJVxqcaJ/vEHKIVd2M+5qL71yJ"
"Q+87X6oV3eaYvt3zWZYD6z5vYTcrtij2VZ9Zmni/UAaHqn9JdsBWLUEpVviYnh"
"imNVvYFZeCXg/IdTQ+x4IRdiXNv5hEew==";
char e[] = "AQAB";
rsa = RSA_new();
modulus = g_base64_decode(n, &usize);
rsa->n = BN_bin2bn(modulus, usize, NULL);
exponent = g_base64_decode(e, &usize);
rsa->e = BN_bin2bn(exponent, usize, NULL);
g_free(modulus);
g_free(exponent);
size = RSA_public_encrypt(len, text, res, rsa, RSA_PKCS1_OAEP_PADDING);
RSA_free(rsa);
return size;
}
static int
raop_encrypt(struct encrypt_data *encryp, unsigned char *data, int size)
{
// any bytes that fall beyond the last 16 byte page should be sent
// in the clear
int alt_size = size - (size % 16);
memcpy(encryp->nv, encryp->iv, 16);
AES_cbc_encrypt(data, data, alt_size, &encryp->ctx, encryp->nv, 1);
return size;
}
/* write bits filed data, *bpos=0 for msb, *bpos=7 for lsb
d=data, blen=length of bits field
*/
static inline void
bits_write(unsigned char **p, unsigned char d, int blen, int *bpos)
{
int lb, rb, bd;
lb =7 - *bpos;
rb = lb - blen + 1;
if (rb >= 0) {
bd = d << rb;
if (*bpos)
**p |= bd;
else
**p = bd;
*bpos += blen;
} else {
bd = d >> -rb;
**p |= bd;
*p += 1;
**p = d << (8 + rb);
*bpos = -rb;
}
}
static bool
wrap_pcm(unsigned char *buffer, int bsize, int *size, unsigned char *inData, int inSize)
{
unsigned char one[4];
int count = 0;
int bpos = 0;
unsigned char *bp = buffer;
int i, nodata = 0;
bits_write(&bp, 1, 3, &bpos); // channel=1, stereo
bits_write(&bp, 0, 4, &bpos); // unknown
bits_write(&bp, 0, 8, &bpos); // unknown
bits_write(&bp, 0, 4, &bpos); // unknown
if (bsize != 4096 && false)
bits_write(&bp, 1, 1, &bpos); // hassize
else
bits_write(&bp, 0, 1, &bpos); // hassize
bits_write(&bp, 0, 2, &bpos); // unused
bits_write(&bp, 1, 1, &bpos); // is-not-compressed
if (bsize != 4096 && false) {
// size of data, integer, big endian
bits_write(&bp, (bsize >> 24) & 0xff, 8, &bpos);
bits_write(&bp, (bsize >> 16) & 0xff, 8, &bpos);
bits_write(&bp, (bsize >> 8) & 0xff, 8, &bpos);
bits_write(&bp, bsize&0xff, 8, &bpos);
}
while (1) {
if (inSize <= count * 4) nodata = 1;
if (nodata) break;
one[0] = inData[count * 4];
one[1] = inData[count * 4 + 1];
one[2] = inData[count * 4 + 2];
one[3] = inData[count * 4 + 3];
#if BYTE_ORDER == BIG_ENDIAN
bits_write(&bp, one[0], 8, &bpos);
bits_write(&bp, one[1], 8, &bpos);
bits_write(&bp, one[2], 8, &bpos);
bits_write(&bp, one[3], 8, &bpos);
#else
bits_write(&bp, one[1], 8, &bpos);
bits_write(&bp, one[0], 8, &bpos);
bits_write(&bp, one[3], 8, &bpos);
bits_write(&bp, one[2], 8, &bpos);
#endif
if (++count == bsize) break;
}
if (!count) return false; // when no data at all, it should stop playing
/* when readable size is less than bsize, fill 0 at the bottom */
for(i = 0; i < (bsize - count) * 4; i++) {
bits_write(&bp, 0, 8, &bpos);
}
*size = (int)(bp - buffer);
if (bpos) *size += 1;
return true;
}
static bool
raopcl_stream_connect(G_GNUC_UNUSED struct raop_data *rd)
{
return true;
}
static bool
raopcl_connect(struct raop_data *rd)
{
unsigned char buf[4 + 8 + 16];
char sid[16];
char sci[24];
char act_r[17];
char *sac=NULL, *key = NULL, *iv = NULL;
char sdp[1024];
int rval = false;
struct key_data *setup_kd = NULL;
char *aj, *token, *pc;
const char delimiters[] = ";";
unsigned char rsakey[512];
struct timeval current_time;
unsigned int sessionNum;
int i;
gettimeofday(¤t_time,NULL);
sessionNum = current_time.tv_sec + 2082844804;
RAND_bytes(buf, sizeof(buf));
sprintf(act_r, "%u", (unsigned int) g_random_int());
sprintf(sid, "%u", sessionNum);
sprintf(sci, "%08x%08x", *((int *)(buf + 4)), *((int *)(buf + 8)));
sac = g_base64_encode(buf + 12, 16);
if (!(rd->rtspcl = rtspcl_open())) goto erexit;
if (!rtspcl_set_useragent(rd->rtspcl, "iTunes/8.1.1 (Macintosh; U; PPC Mac OS X 10.4)")) goto erexit;
if (!rtspcl_add_exthds(rd->rtspcl, "Client-Instance", sci)) goto erexit;
if (!rtspcl_add_exthds(rd->rtspcl, "DACP-ID", sci)) goto erexit;
if (!rtspcl_add_exthds(rd->rtspcl, "Active-Remote", act_r)) goto erexit;
if (!rtspcl_connect(rd->rtspcl, rd->addr, rd->rtsp_port, sid)) goto erexit;
i = rsa_encrypt(raop_session->encrypt.key, 16, rsakey);
key = g_base64_encode(rsakey, i);
remove_char_from_string(key, '=');
iv = g_base64_encode(raop_session->encrypt.iv, 16);
remove_char_from_string(iv, '=');
sprintf(sdp,
"v=0\r\n"
"o=iTunes %s 0 IN IP4 %s\r\n"
"s=iTunes\r\n"
"c=IN IP4 %s\r\n"
"t=0 0\r\n"
"m=audio 0 RTP/AVP 96\r\n"
"a=rtpmap:96 AppleLossless\r\n"
"a=fmtp:96 %d 0 16 40 10 14 2 255 0 0 44100\r\n"
"a=rsaaeskey:%s\r\n"
"a=aesiv:%s\r\n",
sid, rtspcl_local_ip(rd->rtspcl), rd->addr, NUMSAMPLES, key, iv);
remove_char_from_string(sac, '=');
// if (!rtspcl_add_exthds(rd->rtspcl, "Apple-Challenge", sac)) goto erexit;
if (!rtspcl_announce_sdp(rd->rtspcl, sdp)) goto erexit;
// if (!rtspcl_mark_del_exthds(rd->rtspcl, "Apple-Challenge")) goto erexit;
if (!rtspcl_setup(rd->rtspcl, &setup_kd)) goto erexit;
if (!(aj = kd_lookup(setup_kd,"Audio-Jack-Status"))) {
g_warning("%s: Audio-Jack-Status is missing\n",__func__);
goto erexit;
}
token = strtok(aj, delimiters);
while (token) {
if ((pc = strstr(token,"="))) {
*pc = 0;
if (!strcmp(token,"type") && !strcmp(pc+1,"digital")) {
// rd->ajtype = JACK_TYPE_DIGITAL;
}
} else {
if (!strcmp(token,"connected")) {
// rd->ajstatus = JACK_STATUS_CONNECTED;
}
}
token = strtok(NULL, delimiters);
}
if (!get_sockaddr_by_host(rd->addr, rd->rtspcl->control_port, &rd->ctrl_addr)) goto erexit;
if (!get_sockaddr_by_host(rd->addr, rd->rtspcl->server_port, &rd->data_addr)) goto erexit;
if (!rtspcl_record(rd->rtspcl)) goto erexit;
if (!raopcl_stream_connect(rd)) goto erexit;
rval = true;
erexit:
if (sac) g_free(sac);
if (key) g_free(key);
if (iv) g_free(iv);
free_kd(setup_kd);
return rval;
}
static bool
raopcl_close(struct raop_data *rd)
{
if (rd->rtspcl)
rtspcl_close(rd->rtspcl);
rd->rtspcl = NULL;
free(rd);
return true;
}
static int
difference (struct timeval *t1, struct timeval *t2)
{
int ret = 150000000;
if (t1->tv_sec - t2->tv_sec < 150) {
ret = (t1->tv_sec - t2->tv_sec) * 1000000;
ret += t1->tv_usec - t2->tv_usec;
}
return ret;
}
/*
* With airtunes version 2, we don't get responses back when we send audio
* data. The only requests we get from the airtunes device are timing
* requests.
*/
static bool
send_audio_data(int fd)
{
int i = 0;
struct timeval current_time, tout, rtp_time;
int diff, olddiff;
struct raop_data *rd = raop_session->raop_list;
get_time_for_rtp(&raop_session->play_state, &rtp_time);
gettimeofday(¤t_time, NULL);
olddiff = diff = difference(¤t_time, &rtp_time);
while (diff < -10000) {
tout.tv_sec = 0;
tout.tv_usec = -diff;
check_timing(&tout);
gettimeofday(¤t_time, NULL);
diff = difference(¤t_time, &rtp_time);
}
gettimeofday(&raop_session->play_state.last_send, NULL);
while (rd) {
if (rd->started) {
raop_session->data[1] = 0x60;
} else {
rd->started = true;
raop_session->data[1] = 0xe0;
}
i = sendto(fd, raop_session->data + raop_session->wblk_wsize,
raop_session->wblk_remsize, 0, (struct sockaddr *) &rd->data_addr,
sizeof(rd->data_addr));
if (i < 0) {
g_warning("%s: write error: %s\n", __func__, strerror(errno));
return false;
}
if (i == 0) {
g_warning("%s: write, disconnected on the other end\n", __func__);
return false;
}
rd = rd->next;
}
raop_session->wblk_wsize += i;
raop_session->wblk_remsize -= i;
//g_debug("%d bytes are sent, remaining size=%d\n",i,rd->wblk_remsize);
return true;
}
static bool
raop_output_test_default_device(void)
{
return false;
}
static void *
raop_output_init(G_GNUC_UNUSED const struct audio_format *audio_format,
G_GNUC_UNUSED const struct config_param *param,
G_GNUC_UNUSED GError **error)
{
struct raop_data *rd;
rd = new_raop_data();
rd->addr = config_get_block_string(param, "host", NULL);
rd->rtsp_port = config_get_block_unsigned(param, "port", 5000);
rd->volume = config_get_block_unsigned(param, "volume", 75);
return rd;
}
static bool
raop_set_volume_local(struct raop_data *rd, int volume)
{
char vol_str[128];
sprintf(vol_str, "volume: %d.000000\r\n", volume);
return rtspcl_set_parameter(rd->rtspcl, vol_str);
}
static void
raop_output_finish(void *data)
{
struct raop_data *rd = data;
raopcl_close(rd);
g_mutex_free(rd->control_mutex);
}
#define RAOP_VOLUME_MIN -30
#define RAOP_VOLUME_MAX 0
int
raop_get_volume(struct raop_data *rd)
{
return rd->volume;
}
bool
raop_set_volume(struct raop_data *rd, unsigned volume)
{
int raop_volume;
bool rval;
//set parameter volume
if (volume == 0) {
raop_volume = -144;
} else {
raop_volume = RAOP_VOLUME_MIN +
(RAOP_VOLUME_MAX - RAOP_VOLUME_MIN) * volume / 100;
}
g_mutex_lock(rd->control_mutex);
rval = raop_set_volume_local(rd, raop_volume);
if (rval) rd->volume = volume;
g_mutex_unlock(rd->control_mutex);
return rval;
}
static void
raop_output_cancel(void *data)
{
//flush
struct key_data kd;
struct raop_data *rd = (struct raop_data *) data;
unsigned char *buf;
int flush_diff = 1;
rd->started = 0;
if (rd->is_master) {
raop_session->play_state.playing = false;
}
if (rd->paused) {
return;
}
buf = malloc(128);
g_mutex_lock(rd->control_mutex);
kd.key = (unsigned char *)strdup("RTP-Info");
sprintf((char *) buf, "seq=%d; rtptime=%d", raop_session->play_state.seq_num + flush_diff, raop_session->play_state.rtptime + NUMSAMPLES * flush_diff);
kd.data = (unsigned char *)buf;
kd.next = NULL;
exec_request(rd->rtspcl, "FLUSH", NULL, NULL, 1, &kd, &(rd->rtspcl->kd));
free(kd.key);
free(kd.data);
g_mutex_unlock(rd->control_mutex);
}
static bool
raop_output_pause(void *data)
{
struct timeval tout = {.tv_sec = 0, .tv_usec = 0};
struct raop_data *rd = (struct raop_data *) data;
check_timing(&tout);
rd->paused = true;
return true;
}
static void
raop_output_close(void *data)
{
//teardown
struct raop_data *rd = data;
struct raop_data *iter = raop_session->raop_list;
struct raop_data *prev = NULL;
g_mutex_lock(raop_session->list_mutex);
while (iter) {
if (iter == rd) {
if (prev != NULL) {
prev->next = rd->next;
} else {
raop_session->raop_list = rd->next;
if (raop_session->raop_list == NULL) {
// TODO clean up everything else
raop_session->play_state.playing = false;
close(raop_session->data_fd);
close(raop_session->ntp.fd);
close(raop_session->ctrl.fd);
}
}
if (rd->is_master && raop_session->raop_list) {
raop_session->raop_list->is_master = true;
}
rd->next = NULL;
rd->is_master = false;
break;
}
prev = iter;
iter = iter->next;
}
g_mutex_unlock(raop_session->list_mutex);
g_mutex_lock(rd->control_mutex);
exec_request(rd->rtspcl, "TEARDOWN", NULL, NULL, 0, NULL, &(rd->rtspcl->kd));
g_mutex_unlock(rd->control_mutex);
rd->started = 0;
}
static bool
raop_output_open(void *data, struct audio_format *audio_format, GError **error_r)
{
//setup, etc.
struct raop_data *rd = data;
g_mutex_lock(raop_session->list_mutex);
if (raop_session->raop_list == NULL) {
// first raop, need to initialize session data
unsigned short myport = 0;
raop_session->raop_list = rd;
rd->is_master = true;
if ((raop_session->data_fd = open_udp_socket(NULL, &myport)) == -1) return -1;
if ((raop_session->ntp.fd = open_udp_socket(NULL, &raop_session->ntp.port)) == -1) return false;
if ((raop_session->ctrl.fd = open_udp_socket(NULL, &raop_session->ctrl.port)) == -1) {
close(raop_session->ntp.fd);
raop_session->ctrl.fd = -1;
g_mutex_unlock(raop_session->list_mutex);
return false;
}
}
g_mutex_unlock(raop_session->list_mutex);
audio_format->format = SAMPLE_FORMAT_S16;
g_debug("raop_openDevice %s %d\n", rd->addr, rd->rtsp_port);
if (!raopcl_connect(rd)) {
g_set_error(error_r, raop_output_quark(), -1,
"Unable to connect to device");
return false;
}
if (!raop_set_volume(rd, rd->volume)) {
g_set_error(error_r, raop_output_quark(), -1,
"Unable to set volume after connecting to device");
return false;
}
g_mutex_lock(raop_session->list_mutex);
if (!rd->is_master) {
rd->next = raop_session->raop_list;
raop_session->raop_list = rd;
}
g_mutex_unlock(raop_session->list_mutex);
return true;
}
static size_t
raop_output_play(void *data, const void *chunk, size_t size,
GError **error_r)
{
//raopcl_send_sample
struct raop_data *rd = data;
struct timeval tout = {.tv_sec = 0, .tv_usec = 0};
size_t rval = 0, orig_size = size;
bool first = false;
rd->paused = false;
if (!rd->is_master) {
// only process data for the master raop
return size;
}
g_mutex_lock(raop_session->data_mutex);
check_timing(&tout);
if (raop_session->play_state.rtptime <= NUMSAMPLES) {
// looped over, need new reference point to calculate correct times
raop_session->play_state.playing = false;
}
first = !raop_session->play_state.playing;
while (raop_session->bufferSize + size >= RAOP_BUFFER_SIZE) {
// ntp header
unsigned char header[] = {
0x80, 0x60, 0x00, 0x00,
// rtptime
0x00, 0x00, 0x00, 0x00,
// device
0x7e, 0xad, 0xd2, 0xd3,
};
int count = 0;
int copyBytes = RAOP_BUFFER_SIZE - raop_session->bufferSize;
if (!raop_session->play_state.playing ||
raop_session->play_state.seq_num % (44100 / NUMSAMPLES + 1) == 0) {
struct raop_data *iter;
g_mutex_lock(raop_session->list_mutex);
if (!raop_session->play_state.playing) {
gettimeofday(&raop_session->play_state.start_time,NULL);
}
iter = raop_session->raop_list;
while (iter) {
if (!send_control_command(&raop_session->ctrl, iter, &raop_session->play_state)) {
g_mutex_unlock(raop_session->list_mutex);
g_set_error(error_r, raop_output_quark(), -1,
"Unable to send control command");
goto erexit;
}
iter = iter->next;
}
g_mutex_unlock(raop_session->list_mutex);
}
fill_int(header + 8, raop_session->play_state.sync_src);
memcpy(raop_session->buffer + raop_session->bufferSize, chunk, copyBytes);
raop_session->bufferSize += copyBytes;
chunk = ((const char *)chunk) + copyBytes;
size -= copyBytes;
if (!wrap_pcm(raop_session->data + RAOP_HEADER_SIZE, NUMSAMPLES, &count, raop_session->buffer, RAOP_BUFFER_SIZE)) {
g_warning("unable to encode %d bytes properly\n", RAOP_BUFFER_SIZE);
}
memcpy(raop_session->data, header, RAOP_HEADER_SIZE);
raop_session->data[2] = raop_session->play_state.seq_num >> 8;
raop_session->data[3] = raop_session->play_state.seq_num & 0xff;
raop_session->play_state.seq_num ++;
fill_int(raop_session->data + 4, raop_session->play_state.rtptime);
raop_session->play_state.rtptime += NUMSAMPLES;
raop_encrypt(&raop_session->encrypt, raop_session->data + RAOP_HEADER_SIZE, count);
raop_session->wblk_remsize = count + RAOP_HEADER_SIZE;
raop_session->wblk_wsize = 0;
if (!send_audio_data(raop_session->data_fd)) {
g_set_error(error_r, raop_output_quark(), -1,
"Unable to write to device");
goto erexit;
}
raop_session->bufferSize = 0;
}
if (size > 0) {
memcpy(raop_session->buffer + raop_session->bufferSize, chunk, size);
raop_session->bufferSize += size;
}
rval = orig_size;
erexit:
g_mutex_unlock(raop_session->data_mutex);
return rval;
}
const struct audio_output_plugin raopPlugin = {
.name = "raop",
.test_default_device = raop_output_test_default_device,
.init = raop_output_init,
.finish = raop_output_finish,
.open = raop_output_open,
.play = raop_output_play,
.cancel = raop_output_cancel,
.pause = raop_output_pause,
.close = raop_output_close,
.mixer_plugin = &raop_mixer_plugin,
};
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