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|
/* ------------------------ mp3streamout~ ------------------------------------- */
/* */
/* Tilde object to send mp3-stream to a peer using mp3streamin~. */
/* Written by Yves Degoyon (ydegoyon@free.fr). */
/* Tarballs and updates @ http://ydegoyon.free.fr */
/* */
/* 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. */
/* */
/* See file LICENSE for further informations on licensing terms. */
/* */
/* 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
/* */
/* Based on PureData by Miller Puckette and others. */
/* Uses the LAME MPEG 1 Layer 3 encoding library (lame_enc.dll) which can */
/* be found at http://www.cdex.n3.net. */
/* */
/* "I'd sell my soul to god" */
/* "If it could take away the pain." */
/* Theo Hakola -- */
/* ---------------------------------------------------------------------------- */
#include <sys/types.h>
#include <string.h>
#include <stdio.h>
#include <errno.h>
#include <stdlib.h>
#include <fcntl.h>
#include <sys/stat.h>
#ifndef __APPLE__
#include <malloc.h>
#endif
#include <ctype.h>
#ifdef _WIN32
#include <io.h>
#include <windows.h>
#include <winsock.h>
#include <windef.h>
#else
#include <unistd.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <netdb.h>
#include <time.h>
#include <sys/time.h>
#define SOCKET_ERROR -1
#endif
#if defined(__APPLE__) || defined(_WIN32)
#define MSG_NOSIGNAL 0
#endif
#include <lame/lame.h> /* lame encoder stuff */
#include "m_pd.h" /* standard pd stuff */
#include "mpg123.h" /* sub-library MPGLIB included in lame */
/* useful debugging functions from mpglib */
extern int decode_header( struct frame* fr, unsigned long newhead );
extern void print_header_compact( struct frame* fr );
extern int head_check( unsigned long head, int check_layer );
#define MY_MP3_MALLOC_IN_SIZE 65536
/* max size taken from lame readme */
#define MY_MP3_MALLOC_OUT_SIZE 1.25*MY_MP3_MALLOC_IN_SIZE+7200
#define MAXDATARATE 320 /* maximum mp3 data rate is 320kbit/s */
#define STRBUF_SIZE 32
static char *mp3streamout_version = "mp3streamout~: mp3 peer-to-peer streamer version 0.3, written by ydegoyon@free.fr";
static t_class *mp3streamout_class;
typedef struct _mp3streamout
{
t_object x_obj;
/* LAME stuff */
int x_lame; /* info about encoder status */
int x_lamechunk; /* chunk size for LAME encoder */
int x_mp3size; /* number of returned mp3 samples */
/* buffer stuff */
unsigned short x_inp; /* in position for buffer */
unsigned short x_outp; /* out position for buffer*/
short *x_mp3inbuf; /* data to be sent to LAME */
char *x_mp3outbuf; /* data returned by LAME -> our mp3 stream */
short *x_buffer; /* data to be buffered */
int x_bytesbuffered; /* number of unprocessed bytes in buffer */
int x_start;
/* mp3 format stuff */
int x_samplerate;
int x_bitrate; /* bitrate of mp3 stream */
int x_mp3mode; /* mode (mono, joint stereo, stereo, dual mono) */
int x_mp3quality; /* quality of encoding */
/* connection data */
int x_fd; /* info about connection status */
int x_outpackets; /* mp3 packets sent */
t_float x_f; /* float needed for signal input */
lame_global_flags* lgfp;
} t_mp3streamout;
/* encode PCM data to mp3 stream */
static void mp3streamout_encode(t_mp3streamout *x)
{
unsigned short i, wp;
int err = -1;
int n = x->x_lamechunk;
#ifdef UNIX
if(x->x_lamechunk < (int)sizeof(x->x_mp3inbuf))
#else
if(x->x_lamechunk < sizeof(x->x_mp3inbuf))
#endif
{
error("not enough memory!");
return;
}
/* on start/reconnect set outpoint that it not interferes with inpoint */
if(x->x_start == -1)
{
post("mp3streamout~: initializing buffers");
/* we try to keep 2.5 times the data the encoder needs in the buffer */
if(x->x_inp > (2 * x->x_lamechunk))
{
x->x_outp = (short) x->x_inp - (2.5 * x->x_lamechunk);
}
else if(x->x_inp < (2 * x->x_lamechunk))
{
x->x_outp = (short) MY_MP3_MALLOC_IN_SIZE - (2.5 * x->x_lamechunk);
}
x->x_start = 1;
}
if((unsigned short)(x->x_outp - x->x_inp) < x->x_lamechunk)error("mp3streamout~: buffers overlap!");
i = MY_MP3_MALLOC_IN_SIZE - x->x_outp;
/* read from buffer */
if(x->x_lamechunk <= i)
{
/* enough data until end of buffer */
for(n = 0; n < x->x_lamechunk; n++) /* fill encode buffer */
{
x->x_mp3inbuf[n] = x->x_buffer[n + x->x_outp];
}
x->x_outp += x->x_lamechunk;
}
else /* split data */
{
for(wp = 0; wp < i; wp++) /* data at end of buffer */
{
x->x_mp3inbuf[wp] = x->x_buffer[wp + x->x_outp];
}
for(wp = i; wp < x->x_lamechunk; wp++) /* write rest of data at beginning of buffer */
{
x->x_mp3inbuf[wp] = x->x_buffer[wp - i];
}
x->x_outp = x->x_lamechunk - i;
}
/* encode mp3 data */
x->x_mp3size = lame_encode_buffer_interleaved(x->lgfp, x->x_mp3inbuf,
x->x_lamechunk/lame_get_num_channels(x->lgfp),
x->x_mp3outbuf, MY_MP3_MALLOC_OUT_SIZE);
x->x_mp3size+=lame_encode_flush( x->lgfp, x->x_mp3outbuf+x->x_mp3size, MY_MP3_MALLOC_OUT_SIZE-x->x_mp3size );
// post( "mp3streamout~ : encoding returned %d frames", x->x_mp3size );
/* check result */
if(x->x_mp3size<0)
{
lame_close( x->lgfp );
error("mp3streamout~: lame_encode_buffer_interleaved failed (%d)", x->x_mp3size);
x->x_lame = -1;
}
}
/* stream mp3 to the peer */
static void mp3streamout_stream(t_mp3streamout *x)
{
int count = -1, i;
struct frame hframe;
/* header needs to be included in each packet */
for( i=0; i<x->x_mp3size; i++ )
{
// track valid data
if ( head_check( *((unsigned long*)x->x_mp3outbuf+i), 3 ) )
{
// post( "valid header emitted @ %d (byte %d)", i, i*sizeof(unsigned long) );
}
}
count = send(x->x_fd, x->x_mp3outbuf, x->x_mp3size, MSG_NOSIGNAL);
if(count < 0)
{
error("mp3streamout~: could not send encoded data to the peer (%d)", count);
lame_close( x->lgfp );
x->x_lame = -1;
#ifndef UNIX
closesocket(x->x_fd);
#else
close(x->x_fd);
#endif
x->x_fd = -1;
outlet_float(x->x_obj.ob_outlet, 0);
}
else
{
x->x_outpackets++;
if ( x->x_outpackets%100 == 0 )
{
// post( "mp3streamout~ : emitted %d bytes (packets = %d)", count, x->x_outpackets );
}
}
if((count > 0)&&(count != x->x_mp3size))
{
error("mp3streamout~: %d bytes skipped", x->x_mp3size - count);
}
}
/* buffer data as channel interleaved PCM */
static t_int *mp3streamout_perform(t_int *w)
{
t_float *in1 = (t_float *)(w[1]); /* left audio inlet */
t_float *in2 = (t_float *)(w[2]); /* right audio inlet */
t_mp3streamout *x = (t_mp3streamout *)(w[3]);
int n = (int)(w[4]); /* number of samples */
unsigned short i,wp;
float in;
/* copy the data into the buffer */
i = MY_MP3_MALLOC_IN_SIZE - x->x_inp; /* space left at the end of buffer */
n *= 2; /* two channels go into one buffer */
if( n <= i )
{
/* the place between inp and MY_MP3_MALLOC_IN_SIZE */
/* is big enough to hold the data */
for(wp = 0; wp < n; wp++)
{
if(wp%2)
{
in = *(in2++); /* right channel / inlet */
}
else
{
in = *(in1++); /* left channel / inlet */
}
if (in > 1.0) { in = 1.0; }
if (in < -1.0) { in = -1.0; }
x->x_buffer[wp + x->x_inp] = (short) (32767.0 * in);
}
x->x_inp += n; /* n more samples written to buffer */
}
else
{
/* the place between inp and MY_MP3_MALLOC_IN_SIZE is not */
/* big enough to hold the data */
/* writing will take place in two turns, one from */
/* x->x_inp -> MY_MP3_MALLOC_IN_SIZE, then from 0 on */
for(wp = 0; wp < i; wp++) /* fill up to end of buffer */
{
if(wp%2)
{
in = *(in2++);
}
else
{
in = *(in1++);
}
if (in > 1.0) { in = 1.0; }
if (in < -1.0) { in = -1.0; }
x->x_buffer[wp + x->x_inp] = (short) (32767.0 * in);
}
for(wp = i; wp < n; wp++) /* write rest at start of buffer */
{
if(wp%2)
{
in = *(in2++);
}
else
{
in = *(in1++);
}
if (in > 1.0) { in = 1.0; }
if (in < -1.0) { in = -1.0; }
x->x_buffer[wp - i] = (short) (32767.0 * in);
}
x->x_inp = n - i; /* new writeposition in buffer */
}
if((x->x_fd >= 0)&&(x->x_lame >= 0))
{
/* count buffered samples when things are running */
x->x_bytesbuffered += n;
/* encode and send to the peer */
if(x->x_bytesbuffered > x->x_lamechunk)
{
mp3streamout_encode(x); /* encode to mp3 */
mp3streamout_stream(x); /* stream mp3 to the peer */
x->x_bytesbuffered -= x->x_lamechunk;
}
}
else
{
x->x_start = -1;
}
return (w+5);
}
static void mp3streamout_dsp(t_mp3streamout *x, t_signal **sp)
{
dsp_add(mp3streamout_perform, 4, sp[0]->s_vec, sp[1]->s_vec, x, sp[0]->s_n);
}
/* initialize the lame library */
static void mp3streamout_tilde_lame_init(t_mp3streamout *x)
{
int ret;
x->lgfp = lame_init(); /* set default parameters for now */
#ifndef UNIX
/* load lame_enc.dll library */
HINSTANCE dll;
dll=LoadLibrary("lame_enc.dll");
if(dll==NULL)
{
error("mp3streamout~: error loading lame_enc.dll");
closesocket(x->x_fd);
x->x_fd = -1;
outlet_float(x->x_obj.ob_outlet, 0);
post("mp3streamout~: connection closed");
return;
}
#endif
{
const char *lameVersion = get_lame_version();
post( "mp3streamout~ : using lame version : %s", lameVersion );
}
/* setting lame parameters */
lame_set_num_channels( x->lgfp, 2);
lame_set_in_samplerate( x->lgfp, sys_getsr() );
lame_set_out_samplerate( x->lgfp, x->x_samplerate );
lame_set_brate( x->lgfp, x->x_bitrate );
lame_set_mode( x->lgfp, x->x_mp3mode );
lame_set_quality( x->lgfp, x->x_mp3quality );
lame_set_emphasis( x->lgfp, 1 );
lame_set_original( x->lgfp, 1 );
lame_set_copyright( x->lgfp, 1 ); /* viva free music societies !!! */
lame_set_disable_reservoir( x->lgfp, 0 );
lame_set_padding_type( x->lgfp, PAD_NO );
ret = lame_init_params( x->lgfp );
if ( ret<0 ) {
post( "mp3streamout~ : error : lame params initialization returned : %d", ret );
} else {
x->x_lame=1;
/* magic formula copied from windows dll for MPEG-I */
x->x_lamechunk = 2*1152;
post( "mp3streamout~ : lame initialization done. (%d)", x->x_lame );
}
lame_init_bitstream( x->lgfp );
}
/* connect to the peer */
static void mp3streamout_connect(t_mp3streamout *x, t_symbol *hostname, t_floatarg fportno)
{
struct sockaddr_in csocket;
struct hostent *hp;
int portno = fportno; /* get port from message box */
/* variables used for communication with the peer */
const char *buf = 0;
char resp[STRBUF_SIZE];
unsigned int len;
int sockfd;
#ifndef UNIX
unsigned int ret;
#else
int ret;
#endif
if (x->x_fd >= 0)
{
error("mp3streamout~: already connected");
return;
}
sockfd = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
if (sockfd < 0)
{
error("mp3streamout~: internal error while attempting to open socket");
return;
}
/* connect socket using hostname provided in command line */
csocket.sin_family = AF_INET;
hp = gethostbyname(hostname->s_name);
if (hp == 0)
{
post("mp3streamout~: bad host?");
#ifndef UNIX
closesocket(sockfd);
#else
close(sockfd);
#endif
return;
}
memcpy((char *)&csocket.sin_addr, (char *)hp->h_addr, hp->h_length);
/* assign client port number */
csocket.sin_port = htons((unsigned short)portno);
/* try to connect. */
post("mp3streamout~: connecting to port %d", portno);
if (connect(sockfd, (struct sockaddr *) &csocket, sizeof (csocket)) < 0)
{
error("mp3streamout~: connection failed!\n");
#ifndef UNIX
closesocket(sockfd);
#else
close(sockfd);
#endif
return;
}
x->x_fd = sockfd;
x->x_outpackets = 0;
outlet_float( x->x_obj.ob_outlet, 1 );
post( "mp3streamout~ : connected to peer" );
mp3streamout_tilde_lame_init(x);
}
/* close connection to the peer */
static void mp3streamout_disconnect(t_mp3streamout *x)
{
int err = -1;
if(x->x_lame >= 0)
{
/* ignore remaining bytes */
if ( x->x_mp3size = lame_encode_flush( x->lgfp, x->x_mp3outbuf, 0) < 0 ) {
post( "mp3streamout~ : warning : remaining encoded bytes" );
}
lame_close( x->lgfp );
x->x_lame = -1;
post("mp3streamout~: encoder stream closed");
}
if(x->x_fd >= 0) /* close socket */
{
#ifndef UNIX
closesocket(x->x_fd);
#else
close(x->x_fd);
#endif
x->x_fd = -1;
outlet_float( x->x_obj.ob_outlet, 0 );
post("mp3streamout~: connection closed");
}
}
/* settings for mp3 encoding */
static void mp3streamout_mpeg(t_mp3streamout *x, t_floatarg fbitrate,
t_floatarg fmode, t_floatarg fquality)
{
if ( fbitrate != 32 && fbitrate != 40 && fbitrate != 48 && fbitrate != 56 &&
fbitrate != 64 && fbitrate != 80 && fbitrate != 96 && fbitrate != 112 &&
fbitrate != 128 && fbitrate != 160 && fbitrate != 192 && fbitrate != 224 &&
fbitrate != 256 && fbitrate != 320 ) {
post( "mp3streamout~ : wrong bitrate." );
return;
}
if ( fmode <0 || fmode>2 ) {
post( "mp3streamout~ : wrong mp3 mode." );
if ( fmode == 3 )
{
post( "mp3streamout~ : mone is not supported by streamout~ for now." );
}
return;
}
/* there is a bug in lame 3.92 and quality below 5 will not work */
/* WAIT FOR A FIX */
if ( fquality <5 || fquality>9 ) {
post( "mp3streamout~ : wrong quality." );
return;
}
x->x_bitrate = fbitrate;
x->x_mp3mode = fmode;
x->x_mp3quality = (int)fquality;
post("mp3streamout~: setting mp3 stream to %dHz, %dkbit/s, mode %d, quality %d",
x->x_samplerate, x->x_bitrate, x->x_mp3mode, x->x_mp3quality);
mp3streamout_tilde_lame_init(x);
}
/* print settings */
static void mp3streamout_print(t_mp3streamout *x)
{
const char * buf = 0;
post(mp3streamout_version);
post(" LAME mp3 settings:\n"
" output sample rate: %d Hz\n"
" bitrate: %d kbit/s", x->x_samplerate, x->x_bitrate);
switch(x->x_mp3mode)
{
case 0 :
buf = "stereo";
break;
case 1 :
buf = "joint stereo";
break;
case 2 :
buf = "dual channel";
break;
case 3 :
buf = "mono";
break;
}
post(" mode: %s\n"
" quality: %d", buf, x->x_mp3quality);
#ifndef UNIX
if(x->x_lamechunk!=0)post(" calculated mp3 chunk size: %d", x->x_lamechunk);
#else
post(" mp3 chunk size: %d", x->x_lamechunk);
#endif
if(x->x_samplerate!=sys_getsr())
{
post(" resampling from %d to %d Hz!", (int)sys_getsr(), x->x_samplerate);
}
}
/* clean up */
static void mp3streamout_free(t_mp3streamout *x)
{
if(x->x_lame >= 0)
lame_close( x->lgfp );
if(x->x_fd >= 0)
#ifndef UNIX
closesocket(x->x_fd);
#else
close(x->x_fd);
#endif
freebytes(x->x_mp3inbuf, MY_MP3_MALLOC_IN_SIZE*sizeof(short));
freebytes(x->x_mp3outbuf, MY_MP3_MALLOC_OUT_SIZE);
freebytes(x->x_buffer, MY_MP3_MALLOC_IN_SIZE*sizeof(short));
}
static void *mp3streamout_new(void)
{
t_mp3streamout *x = (t_mp3streamout *)pd_new(mp3streamout_class);
inlet_new (&x->x_obj, &x->x_obj.ob_pd, gensym ("signal"), gensym ("signal"));
outlet_new( &x->x_obj, &s_float );
x->lgfp = NULL;
x->x_fd = -1;
x->x_outpackets = 0;
x->x_lame = -1;
x->x_samplerate = sys_getsr();
x->x_bitrate = 128;
x->x_mp3mode = 1;
x->x_mp3quality = 5;
x->x_mp3inbuf = getbytes(MY_MP3_MALLOC_IN_SIZE*sizeof(short)); /* buffer for encoder input */
x->x_mp3outbuf = getbytes(MY_MP3_MALLOC_OUT_SIZE); /* our mp3 stream */
x->x_buffer = getbytes(MY_MP3_MALLOC_IN_SIZE*sizeof(short)); /* what we get from pd, converted to PCM */
if ((!x->x_buffer)||(!x->x_mp3inbuf)||(!x->x_mp3outbuf)) /* check buffers... */
{
error("out of memory!");
}
x->x_bytesbuffered = 0;
x->x_inp = 0;
x->x_outp = 0;
x->x_start = -1;
return(x);
}
void mp3streamout_tilde_setup(void)
{
post(mp3streamout_version);
mp3streamout_class = class_new(gensym("mp3streamout~"), (t_newmethod)mp3streamout_new, (t_method)mp3streamout_free,
sizeof(t_mp3streamout), 0, 0);
CLASS_MAINSIGNALIN(mp3streamout_class, t_mp3streamout, x_f );
class_addmethod(mp3streamout_class, (t_method)mp3streamout_dsp, gensym("dsp"), 0);
class_addmethod(mp3streamout_class, (t_method)mp3streamout_connect, gensym("connect"), A_SYMBOL, A_FLOAT, 0);
class_addmethod(mp3streamout_class, (t_method)mp3streamout_disconnect, gensym("disconnect"), 0);
class_addmethod(mp3streamout_class, (t_method)mp3streamout_mpeg, gensym("mpeg"), A_FLOAT, A_FLOAT, A_FLOAT, 0);
class_addmethod(mp3streamout_class, (t_method)mp3streamout_print, gensym("print"), 0);
}
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