asterisk/contrib/utils/eagi_proxy.c

420 lines
9.1 KiB
C

/*
* Asterisk EAGI -> TCP/IP proxy
* by Danijel Korzinek (devil_slayer _at_ hotmail.com)
*
* This simple C application allows you to control asterisk thru one TCP/IP
* socket and listen to the conversation thru another socket.
*
* Great for ASR or wizzard-of-oz telephony systems!
*
* HOWTO:
* The program is compiled using the following command:
* gcc eagi_proxy.c -o eagi_proxy -lpthread
*
* In the dialplan, you can add something like this to the main context:
* exten => s,1,Answer
* exten => s,n,EAGI(/path/to/eagi_proxy)
* exten => s,n,Hangup
*
* To test the program you can use the netcat utility:
* (http://netcat.sourceforge.net/)
*
* -in one console run:
* nc -vv -l -p 8418 > /path/to/file.raw
* -in another run:
* nc -vv -l -p 8417
* -you can use any file for the signal or even /dev/null
* -you can change the port numbers in the sourcecode below
*
* Once you make the call, both programs will accept the incoming
* connection. The program on port 8417 will print out the enviornemnt
* (unless the appropriate define below is commented) and you can write
* any AGI command there (http://www.voip-info.org/wiki-Asterisk+AGI),
* e.g.:
* GET DATA /path/to/gsm/file 10000 4
*
* Finally, you can open the RAW file in any sound editor. The format is:
* RAW little-endian 8kHz 16bit
*/
#include <stdlib.h>
#include <unistd.h>
#include <stdio.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include <string.h>
#include <time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <arpa/inet.h>
#include <netdb.h>
#include <fcntl.h>
#include <errno.h>
#include <ctype.h>
#include <pthread.h>
/* DEFINES */
#define SIGNAL_PORT 8418
#define COMMAND_PORT 8417
#define SEND_ENVIORNMENT /*send the enviornment thru the socket*/
/************************/
#define BUFSIZE 1024
char buf[BUFSIZE];
#define WINSIZE 400 /* 25 ms @ 8 kHz and 16bit */
char window[WINSIZE];
#define WINBUF_NUM 2400 /* number of WINSIZE windows = 1 minute */
char* winbuf;
char *end, *bs, *be;
/* winbuf - start of buffer
* end - end of buffer
* bs - start of data
* be - end of data
*/
int command_desc; /* command transfer descriptor */
int speech_desc; /* speech signal descrriptor */
char connected=1; /* connection state */
int connect_to_host(char* host, int port); /* connect to a given host (name or IP) and given port number in nonblocking mode returning socket descriptor*/
void read_full(int file, char* buffer, int num); /* read EXACTLY "num" ammount of bytes from "file" descriptor to "buffer"*/
int read_some(int file, char* buffer, int size); /* read AT MOST "size" ammount of bytes */
void write_buf(int file, char* buffer, int num); /* write "num" ammount of bytes to "file" descriptor and buffer the surplus if the write would block */
int write_amap(int file, char* buffer, int num); /*write AT MOST "num" ammount of bytes and return ammount that was written*/
void setnonblocking(int desc); /*sets the socket non-blocking; for polling */
void finalize(); /* this function is run at exit */
pthread_mutex_t command_mutex;/* command socket mutex */
pthread_t stdin_thread,signal_thread;
void* readStdin(void* ptr);
void* readSignal(void* ptr);
/* The program creates 3 threads:
* 1) Main thread - reads commands from the socket and sends them to asterisk
* 2) stdin_thread - reads asterisk output and sends it to the command socket
* 3) signal_thread - reads the sound from asterisk and sends it to the signal socket
*/
int main()
{
int ret;
atexit(finalize);
setlinebuf(stdin);
setlinebuf(stdout);
winbuf=(char*)malloc(WINSIZE*WINBUF_NUM);
end=winbuf+WINSIZE*WINBUF_NUM;
bs=be=winbuf;
speech_desc=connect_to_host("localhost",SIGNAL_PORT);
if(speech_desc<0)
{
perror("signal socket");
return -1;
}
command_desc=connect_to_host("localhost",COMMAND_PORT);
if(command_desc<0)
{
perror("command socket");
return -1;
}
pthread_mutex_init(&command_mutex,NULL);
pthread_create(&stdin_thread,NULL,readStdin,NULL);
pthread_create(&signal_thread,NULL,readSignal,NULL);
while(connected)
{
pthread_mutex_lock(&command_mutex);
ret=read_some(command_desc,buf,BUFSIZE);
pthread_mutex_unlock(&command_mutex);
if(ret>0)
{
buf[ret]=0;
printf("%s",buf);
}
}
return 0;
}
void finalize()
{
close(command_desc);
close(speech_desc);
free(winbuf);
}
void* readStdin(void* ptr)
{
while(1)/*read enviornment*/
{
fgets(buf,BUFSIZE,stdin);
#ifdef SEND_ENVIORNMENT
pthread_mutex_lock(&command_mutex);
write_buf(command_desc,buf,strlen(buf));
pthread_mutex_unlock(&command_mutex);
#endif
if(feof(stdin) || buf[0]=='\n')
{
break;
}
}
while(connected)
{
fgets(buf,BUFSIZE,stdin);
pthread_mutex_lock(&command_mutex);
write_buf(command_desc,buf,strlen(buf));
pthread_mutex_unlock(&command_mutex);
}
pthread_exit(NULL);
}
void* readSignal(void* ptr)
{
while(connected)
{
read_full(3,window,WINSIZE);
write_buf(speech_desc,window,WINSIZE);
}
pthread_exit(NULL);
}
void read_full(int file, char* buffer, int num)
{
int count,pos=0;
while(num)
{
count=read(file,buffer+pos,num);
if(count==0 || (count<0 && errno!=EAGAIN))
{
connected=0;
return;
}
num-=count;
pos+=count;
}
}
int connect_to_host(char* name, int port)
{
int address;
struct hostent* host_entity;
int res,desc;
int opts;
struct sockaddr_in host;
/* get address */
if(!strcmp(name,"localhost"))
address=htonl(2130706433); /*127.0.0.1*/
else
{
address=inet_addr(name); /* check if it's an IP that's written in the string */
if(address==(in_addr_t)-1)
{
host_entity = gethostbyname(name); /* search for the host under this name */
if(!host_entity)
{
fprintf(stderr,"EAGI proxy: Wrong address!\n"); /* can't find anything*/
return -1;
}
address=*((int*)host_entity->h_addr);
}
}
desc=socket(AF_INET,SOCK_STREAM,IPPROTO_TCP);
if(desc<0)
{
fprintf(stderr,"EAGI proxy: Cannot create socket!\n");
return -1;
}
memset((void*)&host,0,sizeof(struct sockaddr_in));
host.sin_family=AF_INET;
host.sin_port=htons(port);
host.sin_addr.s_addr=address;
res=connect(desc,(struct sockaddr*)&host,sizeof(host));
if(res<0)
{
fprintf(stderr,"EAGI proxy: Cannot connect!\n");
return -1;
}
/* set to non-blocking mode */
opts = fcntl(desc,F_GETFL);
if (opts < 0) {
perror("fcntl(F_GETFL)");
exit(EXIT_FAILURE);
}
opts = (opts | O_NONBLOCK);
if (fcntl(desc,F_SETFL,opts) < 0) {
perror("fcntl(F_SETFL)");
exit(EXIT_FAILURE);
}
return desc;
}
int read_some(int desc, char* buffer, int size)
{
unsigned char c;
int res,i=0;
for(;;)
{
res=read(desc,&c,1);
if(res<1)
{
if(errno!=EAGAIN)
{
perror("Error reading");
connected=0;
}
break;
}
if(res==0)
{
connected=0;
break;
}
buffer[i]=c;
i++;
}
return i;
}
/* This is a tricky function! */
void write_buf(int desc, char* buf, int size)
{
int ret;
/*NOTE: AMAP -> as much as possible */
if(be!=bs)/* if data left in buffer */
{
if(be>bs)/* if buffer not split */
{
ret=write_amap(desc,bs,be-bs);/* write AMAP */
bs+=ret;/* shift the start of the buffer */
}
else/* if buffer is split */
{
ret=write_amap(desc,bs,end-bs);/* write higher part first */
if(ret==end-bs)/* if wrote whole of the higher part */
{
ret=write_amap(desc,winbuf,be-winbuf);/* write lower part */
bs=winbuf+ret;/* shift start to new position */
}
else bs+=ret;/* if not wrote whole of higher part, only shift start */
}
}
if(be==bs)/* if buffer is empty now */
{
ret=write_amap(desc,buf,size);/* write AMAP of the new data */
buf+=ret;/* shift start of new data */
size-=ret;/* lower size of new data */
}
if(size)/* if new data still remains unsent */
{
if(be>=bs)/* if data not split */
{
if(size>end-be)/* if new data size doesn't fit higher end */
{
size-=end-be;/* reduce new data size by the higher end size */
memcpy(be,buf,end-be);/* copy to higher end */
be=winbuf;/* shift end to begining of buffer */
buf+=end-be;/* shift start of new data */
}
else/* if new data fits the higher end */
{
memcpy(be,buf,size);/* copy to higher end */
be+=size;/* shift end by size */
if(be>=end)/* if end goes beyond the buffer */
be=winbuf;/* restart */
size=0;/* everything copied */
}
}
if(size)/* if new data still remains */
{
if(size>=bs-be)/* if new data doesn't fit between end and start */
{
fprintf(stderr,"Buffer overflow!\n");
size=bs-be-1;/* reduce the size that we can copy */
}
if(size)/* if we can copy anything */
{
memcpy(be,buf,size);/* copy the new data between end and start */
be+=size;/* shift end by size */
}
}
}
}
int write_amap(int desc, char* buf, int size)
{
int ret;
ret=write(desc,buf,size);
if(ret<0)
{
if(errno!=EAGAIN)
{
perror("Error writing");
connected=0;
}
return 0;
}
if(ret==0)
connected=0;
return ret;
}
void setnonblocking(int desc)
{
int opts;
opts = fcntl(desc,F_GETFL);
if(opts < 0)
{
perror("fcntl(F_GETFL)");
exit(-1);
}
opts = (opts | O_NONBLOCK );
if(fcntl(desc,F_SETFL,opts) < 0)
{
perror("fcntl(F_SETFL)");
exit(-1);
}
}