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/***
This file is part of PulseAudio.
Copyright 2008 Colin Guthrie
PulseAudio 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.
PulseAudio 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.
***/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <unistd.h>
#include <sys/ioctl.h>
#ifdef HAVE_SYS_FILIO_H
#include <sys/filio.h>
#endif
/* TODO: Replace OpenSSL with NSS */
#include <openssl/err.h>
#include <openssl/rand.h>
#include <openssl/aes.h>
#include <openssl/rsa.h>
#include <openssl/engine.h>
#include <pulse/xmalloc.h>
#include <pulsecore/core-error.h>
#include <pulsecore/core-util.h>
#include <pulsecore/iochannel.h>
#include <pulsecore/socket-util.h>
#include <pulsecore/log.h>
#include <pulsecore/parseaddr.h>
#include <pulsecore/macro.h>
#include <pulsecore/memchunk.h>
#include <pulsecore/random.h>
#include "raop_client.h"
#include "rtsp_client.h"
#include "base64.h"
#define AES_CHUNKSIZE 16
#define JACK_STATUS_DISCONNECTED 0
#define JACK_STATUS_CONNECTED 1
#define JACK_TYPE_ANALOG 0
#define JACK_TYPE_DIGITAL 1
#define VOLUME_DEF -30
#define VOLUME_MIN -144
#define VOLUME_MAX 0
#define RAOP_PORT 5000
struct pa_raop_client {
pa_core *core;
char *host;
uint16_t port;
char *sid;
pa_rtsp_client *rtsp;
uint8_t jack_type;
uint8_t jack_status;
/* Encryption Related bits */
AES_KEY aes;
uint8_t aes_iv[AES_CHUNKSIZE]; /* initialization vector for aes-cbc */
uint8_t aes_nv[AES_CHUNKSIZE]; /* next vector for aes-cbc */
uint8_t aes_key[AES_CHUNKSIZE]; /* key for aes-cbc */
pa_socket_client *sc;
int fd;
uint16_t seq;
uint32_t rtptime;
pa_raop_client_cb_t callback;
void* userdata;
pa_raop_client_closed_cb_t closed_callback;
void* closed_userdata;
};
/**
* Function to write bits into a buffer.
* @param buffer Handle to the buffer. It will be incremented if new data requires it.
* @param bit_pos A pointer to a position buffer to keep track the current write location (0 for MSB, 7 for LSB)
* @param size A pointer to the byte size currently written. This allows the calling function to do simple buffer overflow checks
* @param data The data to write
* @param data_bit_len The number of bits from data to write
*/
static inline void bit_writer(uint8_t **buffer, uint8_t *bit_pos, int *size, uint8_t data, uint8_t data_bit_len) {
int bits_left, bit_overflow;
uint8_t bit_data;
if (!data_bit_len)
return;
/* If bit pos is zero, we will definately use at least one bit from the current byte so size increments. */
if (!*bit_pos)
*size += 1;
/* Calc the number of bits left in the current byte of buffer */
bits_left = 7 - *bit_pos + 1;
/* Calc the overflow of bits in relation to how much space we have left... */
bit_overflow = bits_left - data_bit_len;
if (bit_overflow >= 0) {
/* We can fit the new data in our current byte */
/* As we write from MSB->LSB we need to left shift by the overflow amount */
bit_data = data << bit_overflow;
if (*bit_pos)
**buffer |= bit_data;
else
**buffer = bit_data;
/* If our data fits exactly into the current byte, we need to increment our pointer */
if (0 == bit_overflow) {
/* Do not increment size as it will be incremented on next call as bit_pos is zero */
*buffer += 1;
*bit_pos = 0;
} else {
*bit_pos += data_bit_len;
}
} else {
/* bit_overflow is negative, there for we will need a new byte from our buffer */
/* Firstly fill up what's left in the current byte */
bit_data = data >> -bit_overflow;
**buffer |= bit_data;
/* Increment our buffer pointer and size counter*/
*buffer += 1;
*size += 1;
**buffer = data << (8 + bit_overflow);
*bit_pos = -bit_overflow;
}
}
static int rsa_encrypt(uint8_t *text, int len, uint8_t *res) {
const char n[] =
"59dE8qLieItsH1WgjrcFRKj6eUWqi+bGLOX1HL3U3GhC/j0Qg90u3sG/1CUtwC"
"5vOYvfDmFI6oSFXi5ELabWJmT2dKHzBJKa3k9ok+8t9ucRqMd6DZHJ2YCCLlDR"
"KSKv6kDqnw4UwPdpOMXziC/AMj3Z/lUVX1G7WSHCAWKf1zNS1eLvqr+boEjXuB"
"OitnZ/bDzPHrTOZz0Dew0uowxf/+sG+NCK3eQJVxqcaJ/vEHKIVd2M+5qL71yJ"
"Q+87X6oV3eaYvt3zWZYD6z5vYTcrtij2VZ9Zmni/UAaHqn9JdsBWLUEpVviYnh"
"imNVvYFZeCXg/IdTQ+x4IRdiXNv5hEew==";
const char e[] = "AQAB";
uint8_t modules[256];
uint8_t exponent[8];
int size;
RSA *rsa;
rsa = RSA_new();
size = pa_base64_decode(n, modules);
rsa->n = BN_bin2bn(modules, size, NULL);
size = pa_base64_decode(e, exponent);
rsa->e = BN_bin2bn(exponent, size, NULL);
size = RSA_public_encrypt(len, text, res, rsa, RSA_PKCS1_OAEP_PADDING);
RSA_free(rsa);
return size;
}
static int aes_encrypt(pa_raop_client* c, uint8_t *data, int size) {
uint8_t *buf;
int i=0, j;
pa_assert(c);
memcpy(c->aes_nv, c->aes_iv, AES_CHUNKSIZE);
while (i+AES_CHUNKSIZE <= size) {
buf = data + i;
for (j=0; j<AES_CHUNKSIZE; ++j)
buf[j] ^= c->aes_nv[j];
AES_encrypt(buf, buf, &c->aes);
memcpy(c->aes_nv, buf, AES_CHUNKSIZE);
i += AES_CHUNKSIZE;
}
return i;
}
static inline void rtrimchar(char *str, char rc) {
char *sp = str + strlen(str) - 1;
while (sp >= str && *sp == rc) {
*sp = '\0';
sp -= 1;
}
}
static void on_connection(pa_socket_client *sc, pa_iochannel *io, void *userdata) {
pa_raop_client *c = userdata;
pa_assert(sc);
pa_assert(c);
pa_assert(c->sc == sc);
pa_assert(c->fd < 0);
pa_assert(c->callback);
pa_socket_client_unref(c->sc);
c->sc = NULL;
if (!io) {
pa_log("Connection failed: %s", pa_cstrerror(errno));
return;
}
c->fd = pa_iochannel_get_send_fd(io);
pa_iochannel_set_noclose(io, TRUE);
pa_iochannel_free(io);
pa_make_tcp_socket_low_delay(c->fd);
pa_log_debug("Connection established");
c->callback(c->fd, c->userdata);
}
static void rtsp_cb(pa_rtsp_client *rtsp, pa_rtsp_state state, pa_headerlist* headers, void *userdata) {
pa_raop_client* c = userdata;
pa_assert(c);
pa_assert(rtsp);
pa_assert(rtsp == c->rtsp);
switch (state) {
case STATE_CONNECT: {
int i;
uint8_t rsakey[512];
char *key, *iv, *sac, *sdp;
uint16_t rand_data;
const char *ip;
char *url;
pa_log_debug("RAOP: CONNECTED");
ip = pa_rtsp_localip(c->rtsp);
/* First of all set the url properly */
url = pa_sprintf_malloc("rtsp://%s/%s", ip, c->sid);
pa_rtsp_set_url(c->rtsp, url);
pa_xfree(url);
/* Now encrypt our aes_public key to send to the device */
i = rsa_encrypt(c->aes_key, AES_CHUNKSIZE, rsakey);
pa_base64_encode(rsakey, i, &key);
rtrimchar(key, '=');
pa_base64_encode(c->aes_iv, AES_CHUNKSIZE, &iv);
rtrimchar(iv, '=');
pa_random(&rand_data, sizeof(rand_data));
pa_base64_encode(&rand_data, AES_CHUNKSIZE, &sac);
rtrimchar(sac, '=');
pa_rtsp_add_header(c->rtsp, "Apple-Challenge", sac);
sdp = pa_sprintf_malloc(
"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 4096 0 16 40 10 14 2 255 0 0 44100\r\n"
"a=rsaaeskey:%s\r\n"
"a=aesiv:%s\r\n",
c->sid, ip, c->host, key, iv);
pa_rtsp_announce(c->rtsp, sdp);
pa_xfree(key);
pa_xfree(iv);
pa_xfree(sac);
pa_xfree(sdp);
break;
}
case STATE_ANNOUNCE:
pa_log_debug("RAOP: ANNOUNCED");
pa_rtsp_remove_header(c->rtsp, "Apple-Challenge");
pa_rtsp_setup(c->rtsp);
break;
case STATE_SETUP: {
char *aj = pa_xstrdup(pa_headerlist_gets(headers, "Audio-Jack-Status"));
pa_log_debug("RAOP: SETUP");
if (aj) {
char *token, *pc;
char delimiters[] = ";";
const char* token_state = NULL;
c->jack_type = JACK_TYPE_ANALOG;
c->jack_status = JACK_STATUS_DISCONNECTED;
while ((token = pa_split(aj, delimiters, &token_state))) {
if ((pc = strstr(token, "="))) {
*pc = 0;
if (pa_streq(token, "type") && pa_streq(pc+1, "digital")) {
c->jack_type = JACK_TYPE_DIGITAL;
}
} else {
if (pa_streq(token, "connected"))
c->jack_status = JACK_STATUS_CONNECTED;
}
pa_xfree(token);
}
pa_xfree(aj);
} else {
pa_log_warn("Audio Jack Status missing");
}
pa_rtsp_record(c->rtsp, &c->seq, &c->rtptime);
break;
}
case STATE_RECORD: {
uint32_t port = pa_rtsp_serverport(c->rtsp);
pa_log_debug("RAOP: RECORDED");
if (!(c->sc = pa_socket_client_new_string(c->core->mainloop, TRUE, c->host, port))) {
pa_log("failed to connect to server '%s:%d'", c->host, port);
return;
}
pa_socket_client_set_callback(c->sc, on_connection, c);
break;
}
case STATE_FLUSH:
pa_log_debug("RAOP: FLUSHED");
break;
case STATE_TEARDOWN:
pa_log_debug("RAOP: TEARDOWN");
break;
case STATE_SET_PARAMETER:
pa_log_debug("RAOP: SET_PARAMETER");
break;
case STATE_DISCONNECTED:
pa_assert(c->closed_callback);
pa_assert(c->rtsp);
pa_log_debug("RTSP control channel closed");
pa_rtsp_client_free(c->rtsp);
c->rtsp = NULL;
if (c->fd > 0) {
/* We do not close the fd, we leave it to the closed callback to do that */
c->fd = -1;
}
if (c->sc) {
pa_socket_client_unref(c->sc);
c->sc = NULL;
}
pa_xfree(c->sid);
c->sid = NULL;
c->closed_callback(c->closed_userdata);
break;
}
}
pa_raop_client* pa_raop_client_new(pa_core *core, const char* host) {
pa_parsed_address a;
pa_raop_client* c = pa_xnew0(pa_raop_client, 1);
pa_assert(core);
pa_assert(host);
if (pa_parse_address(host, &a) < 0 || a.type == PA_PARSED_ADDRESS_UNIX)
return NULL;
c->core = core;
c->fd = -1;
c->host = pa_xstrdup(a.path_or_host);
if (a.port)
c->port = a.port;
else
c->port = RAOP_PORT;
if (pa_raop_connect(c)) {
pa_raop_client_free(c);
return NULL;
}
return c;
}
void pa_raop_client_free(pa_raop_client* c) {
pa_assert(c);
if (c->rtsp)
pa_rtsp_client_free(c->rtsp);
if (c->sid)
pa_xfree(c->sid);
pa_xfree(c->host);
pa_xfree(c);
}
int pa_raop_connect(pa_raop_client* c) {
char *sci;
struct {
uint32_t a;
uint32_t b;
uint32_t c;
} rand_data;
pa_assert(c);
if (c->rtsp) {
pa_log_debug("Connection already in progress");
return 0;
}
c->rtsp = pa_rtsp_client_new(c->core->mainloop, c->host, c->port, "iTunes/4.6 (Macintosh; U; PPC Mac OS X 10.3)");
/* Initialise the AES encryption system */
pa_random(c->aes_iv, sizeof(c->aes_iv));
pa_random(c->aes_key, sizeof(c->aes_key));
memcpy(c->aes_nv, c->aes_iv, sizeof(c->aes_nv));
AES_set_encrypt_key(c->aes_key, 128, &c->aes);
/* Generate random instance id */
pa_random(&rand_data, sizeof(rand_data));
c->sid = pa_sprintf_malloc("%u", rand_data.a);
sci = pa_sprintf_malloc("%08x%08x",rand_data.b, rand_data.c);
pa_rtsp_add_header(c->rtsp, "Client-Instance", sci);
pa_xfree(sci);
pa_rtsp_set_callback(c->rtsp, rtsp_cb, c);
return pa_rtsp_connect(c->rtsp);
}
int pa_raop_flush(pa_raop_client* c) {
pa_assert(c);
pa_rtsp_flush(c->rtsp, c->seq, c->rtptime);
return 0;
}
int pa_raop_client_set_volume(pa_raop_client* c, pa_volume_t volume) {
int rv;
double db;
char *param;
pa_assert(c);
db = pa_sw_volume_to_dB(volume);
if (db < VOLUME_MIN)
db = VOLUME_MIN;
else if (db > VOLUME_MAX)
db = VOLUME_MAX;
param = pa_sprintf_malloc("volume: %0.6f\r\n", db);
/* We just hit and hope, cannot wait for the callback */
rv = pa_rtsp_setparameter(c->rtsp, param);
pa_xfree(param);
return rv;
}
int pa_raop_client_encode_sample(pa_raop_client* c, pa_memchunk* raw, pa_memchunk* encoded) {
uint16_t len;
size_t bufmax;
uint8_t *bp, bpos;
uint8_t *ibp, *maxibp;
int size;
uint8_t *b, *p;
uint32_t bsize;
size_t length;
static uint8_t header[] = {
0x24, 0x00, 0x00, 0x00,
0xF0, 0xFF, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00,
};
int header_size = sizeof(header);
pa_assert(c);
pa_assert(c->fd > 0);
pa_assert(raw);
pa_assert(raw->memblock);
pa_assert(raw->length > 0);
pa_assert(encoded);
/* We have to send 4 byte chunks */
bsize = (int)(raw->length / 4);
length = bsize * 4;
/* Leave 16 bytes extra to allow for the ALAC header which is about 55 bits */
bufmax = length + header_size + 16;
pa_memchunk_reset(encoded);
encoded->memblock = pa_memblock_new(c->core->mempool, bufmax);
b = pa_memblock_acquire(encoded->memblock);
memcpy(b, header, header_size);
/* Now write the actual samples */
bp = b + header_size;
size = bpos = 0;
bit_writer(&bp,&bpos,&size,1,3); /* channel=1, stereo */
bit_writer(&bp,&bpos,&size,0,4); /* unknown */
bit_writer(&bp,&bpos,&size,0,8); /* unknown */
bit_writer(&bp,&bpos,&size,0,4); /* unknown */
bit_writer(&bp,&bpos,&size,1,1); /* hassize */
bit_writer(&bp,&bpos,&size,0,2); /* unused */
bit_writer(&bp,&bpos,&size,1,1); /* is-not-compressed */
/* size of data, integer, big endian */
bit_writer(&bp,&bpos,&size,(bsize>>24)&0xff,8);
bit_writer(&bp,&bpos,&size,(bsize>>16)&0xff,8);
bit_writer(&bp,&bpos,&size,(bsize>>8)&0xff,8);
bit_writer(&bp,&bpos,&size,(bsize)&0xff,8);
ibp = p = pa_memblock_acquire(raw->memblock);
maxibp = p + raw->length - 4;
while (ibp <= maxibp) {
/* Byte swap stereo data */
bit_writer(&bp,&bpos,&size,*(ibp+1),8);
bit_writer(&bp,&bpos,&size,*(ibp+0),8);
bit_writer(&bp,&bpos,&size,*(ibp+3),8);
bit_writer(&bp,&bpos,&size,*(ibp+2),8);
ibp += 4;
raw->index += 4;
raw->length -= 4;
}
pa_memblock_release(raw->memblock);
encoded->length = header_size + size;
/* store the length (endian swapped: make this better) */
len = size + header_size - 4;
*(b + 2) = len >> 8;
*(b + 3) = len & 0xff;
/* encrypt our data */
aes_encrypt(c, (b + header_size), size);
/* We're done with the chunk */
pa_memblock_release(encoded->memblock);
return 0;
}
void pa_raop_client_set_callback(pa_raop_client* c, pa_raop_client_cb_t callback, void *userdata) {
pa_assert(c);
c->callback = callback;
c->userdata = userdata;
}
void pa_raop_client_set_closed_callback(pa_raop_client* c, pa_raop_client_closed_cb_t callback, void *userdata) {
pa_assert(c);
c->closed_callback = callback;
c->closed_userdata = userdata;
}
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