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|
#include "esd-server.h"
#include "esd-config.h"
#include <arpa/inet.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/un.h>
#include <errno.h>
#include <signal.h>
#include <time.h>
#ifndef HAVE_NANOSLEEP
#include <sys/time.h>
#include <sys/types.h>
#include <unistd.h>
#endif
#include <netdb.h>
/* Older resolvers don't have gethostbyname2() */
#ifndef HAVE_GETHOSTBYNAME2
#define gethostbyname2(host, family) gethostbyname((host))
#endif /* HAVE_GETHOSTBYNAME2 */
#ifndef SUN_LEN
#define SUN_LEN(ptr) ((size_t) (((struct sockaddr_un *) 0)->sun_path) \
+ strlen ((ptr)->sun_path))
#endif
/* AIX defines this */
#ifndef h_errno
extern int h_errno;
#endif
/* max arguments (argc + tokenized esd.conf) can't be more than this */
#define MAX_OPTS 128
typedef const char *(*audio_devices_t)(void);
typedef int (*audio_open_t)(void);
typedef void (*audio_close_t)(void);
typedef void (*audio_pause_t)(void);
typedef void (*audio_flush_t)(void);
typedef int (*audio_write_t)( void *buffer, int buf_size );
typedef int (*audio_read_t)( void *buffer, int buf_size );
audio_devices_t impl_esd_audio_devices = esd_audio_devices;
audio_open_t impl_esd_audio_open = esd_audio_open;
audio_close_t impl_esd_audio_close = esd_audio_close;
audio_pause_t impl_esd_audio_pause = esd_audio_pause;
audio_flush_t impl_esd_audio_flush = esd_audio_flush;
audio_write_t impl_esd_audio_write = esd_audio_write;
audio_read_t impl_esd_audio_read = esd_audio_read;
#define esd_audio_devices impl_esd_audio_devices
#define esd_audio_open impl_esd_audio_open
#define esd_audio_close impl_esd_audio_close
#define esd_audio_pause impl_esd_audio_pause
#define esd_audio_flush impl_esd_audio_flush
#define esd_audio_write impl_esd_audio_write
#define esd_audio_read impl_esd_audio_read
#ifdef DRIVER_ARTS
#include "audio_arts.c"
#endif
/*******************************************************************/
/* esd.c - prototypes */
void set_audio_buffer( void *buf, esd_format_t format, int magl, int magr,
int freq, int speed, int length, long offset );
void clean_exit( int signum );
void reset_signal( int signum );
void reset_daemon( int signum );
void reconnect_driver( int signum );
int open_listen_socket( const char *hostname, int port );
/* from esd_config.c */
void esd_config_read(void);
/*******************************************************************/
/* globals */
int esd_is_owned = 0; /* start without owner, first client claims it */
int esd_is_locked = 1; /* if owned, will prohibit foreign sources */
char esd_owner_key[ESD_KEY_LEN]; /* the key that locks the daemon */
int esd_pending_driver_reconnect = 0; /* set by SIGUSR1 handler for
reconnecting to the audio card */
int esd_on_standby = 0; /* set to ignore incoming audio data */
int esdbg_trace = 0; /* show warm fuzzy debug messages */
int esdbg_comms = 0; /* show protocol level debug messages */
int esdbg_mixer = 0; /* show mixer engine debug messages */
int esd_buf_size_octets = 0; /* size of audio buffer in bytes */
int esd_buf_size_samples = 0; /* size of audio buffer in samples */
int esd_sample_size = 0; /* size of sample in bytes */
int esd_beeps = 1; /* whether or not to beep on startup */
int listen_socket = -1; /* socket to accept connections on */
int esd_trustval = -1; /* be paranoid, don't trust the owner of ESD_UNIX_SOCKET_DIR */
int esd_autostandby_secs = -1; /* timeout before releasing the audio device, disabled <0 */
time_t esd_last_activity = 0; /* seconds since last activity */
int esd_on_autostandby = 0; /* set when auto paused for auto reawaken */
int esd_use_tcpip = 0; /* use tcp/ip sockets instead of unix domain */
int esd_terminate = 0; /* terminate after the last client exits */
int esd_public = 0; /* allow connects from hosts other than localhost */
int esd_spawnpid = 0; /* The PID of the process that spawned us (for use by esdlib only) */
int esd_spawnfd = -1; /* The FD of the process that spawned us (for use by esdlib only) */
#if defined ENABLE_IPV6
int esd_use_ipv6 = 0; /* We need it in accept () to know if we use
AF_NET or AF_INET6*/
#endif
static char *programname = NULL;
/*******************************************************************/
/* create the startup tones for the fun of it */
void set_audio_buffer( void *buf, esd_format_t format,
int magl, int magr,
int freq, int speed, int length, long offset )
{
int i;
float sample;
float kf = 2.0 * 3.14 * (float)freq / (float)speed;
unsigned char *uc_buf = (unsigned char *)buf;
signed short *ss_buf = (signed short *)buf;
/* printf( "fmt=%d, ml=%d, mr=%d, freq=%d, speed=%d, len=%ld\n",
format, magl, magr, freq, speed, length ); */
switch ( format & ESD_MASK_BITS )
{
case ESD_BITS8:
for ( i = 0 ; i < length ; i+=2 ) {
sample = sin( (float)(i+offset) * kf );
uc_buf[i] = 127 + magl * sample;
uc_buf[i+1] = 127 + magr * sample;
}
break;
case ESD_BITS16: /* assume same endianness */
for ( i = 0 ; i < length ; i+=2 ) {
sample = sin( (float)(i+offset) * kf );
ss_buf[i] = magl * sample;
ss_buf[i+1] = magr * sample;
}
break;
default:
fprintf( stderr,
"unsupported format for set_audio_buffer: 0x%08x\n",
format );
exit( 1 );
}
return;
}
/*******************************************************************/
/* handle signals properly */
void reset_daemon( int signum )
{
int tumbler;
ESDBG_TRACE(
printf( "(ca) resetting sound daemon on signal %d\n",
signum ); );
/* reset the access rights */
esd_is_owned = 0;
esd_is_locked = 1;
/* scramble the stored key */
srand( time(NULL) );
for ( tumbler = 0 ; tumbler < ESD_KEY_LEN ; tumbler++ ) {
esd_owner_key[ tumbler ] = rand() % 256;
}
/* close the clients */
while ( esd_clients_list != NULL )
{
erase_client( esd_clients_list );
}
/* free samples */
while ( esd_samples_list != NULL )
{
esd_sample_kill( esd_samples_list->sample_id, 1 );
erase_sample( esd_samples_list->sample_id, 1 );
}
/* reset next sample id */
esd_next_sample_id = 1;
/* reset signal handler, if not called from a signal, no effect */
signal( SIGHUP, reset_daemon );
}
void clean_exit(int signum) {
/* just clean up as best we can and terminate from here */
esd_client_t * client = esd_clients_list;
/* fprintf( stderr, "received signal %d: terminating...\n", signum );*/
/* free the sound device */
esd_audio_close();
/* close the listening socket */
close( listen_socket );
/* close the clients */
while ( client != NULL )
{
close( client->fd );
client = client->next;
}
if (!esd_use_tcpip)
{
unlink(ESD_UNIX_SOCKET_NAME);
rmdir(ESD_UNIX_SOCKET_DIR);
}
/* trust the OS to clean up the memory for the samples and such */
exit( 0 );
}
void reconnect_driver( int signum )
{
ESDBG_TRACE(
printf( "(ca) reconnecting to driver on signal %d\n",
signum ); );
esd_pending_driver_reconnect = 1;
signal( signum, reconnect_driver );
}
void reset_signal(int signum) {
/* fprintf( stderr, "received signal %d: resetting...\n", signum );*/
signal( signum, reset_signal);
return;
}
static int
esd_connect_unix(void)
{
struct sockaddr_un socket_unix;
int socket_out = -1;
int curstate = 1;
/* create the socket, and set for non-blocking */
socket_out = socket( AF_UNIX, SOCK_STREAM, 0 );
if ( socket_out < 0 )
return -1;
/* this was borrowed blindly from the Tcl socket stuff */
if ( fcntl( socket_out, F_SETFD, FD_CLOEXEC ) < 0 ) {
close (socket_out);
return -1;
}
if ( setsockopt( socket_out, SOL_SOCKET, SO_REUSEADDR,
&curstate, sizeof(curstate) ) < 0 ) {
close (socket_out);
return -1;
}
/* set the connect information */
socket_unix.sun_family = AF_UNIX;
strncpy(socket_unix.sun_path, ESD_UNIX_SOCKET_NAME, sizeof(socket_unix.sun_path)-1);
socket_unix.sun_path[sizeof(socket_unix.sun_path)-1] = '\0';
if ( connect( socket_out,
(struct sockaddr *) &socket_unix, SUN_LEN(&socket_unix) ) < 0 )
return -1;
return socket_out;
}
/*******************************************************************/
/* safely create directory for socket
Code inspired by trans_mkdir from XFree86 source code
For more credits see xc/lib/xtrans/Xtransutil.c. */
int
safe_mksocketdir(void)
{
struct stat dir_stats;
#if defined(S_ISVTX)
#define ESD_UNIX_SOCKET_DIR_MODE (S_IRUSR|S_IWUSR|S_IXUSR|\
S_IRGRP|S_IWGRP|S_IXGRP|\
S_IROTH|S_IWOTH|S_IXOTH|S_ISVTX)
#else
#define ESD_UNIX_SOCKET_DIR_MODE (S_IRUSR|S_IWUSR|S_IXUSR|\
S_IRGRP|S_IWGRP|S_IXGRP|\
S_IROTH|S_IWOTH|S_IXOTH)
#endif
if (mkdir(ESD_UNIX_SOCKET_DIR, ESD_UNIX_SOCKET_DIR_MODE) == 0) {
if (chmod(ESD_UNIX_SOCKET_DIR, ESD_UNIX_SOCKET_DIR_MODE) != 0) {
return -1;
}
return 0;
}
/* If mkdir failed with EEXIST, test if it is a directory with
the right modes, else fail */
if (errno == EEXIST) {
#if !defined(S_IFLNK) && !defined(S_ISLNK)
#define lstat(a,b) stat(a,b)
#endif
if (lstat(ESD_UNIX_SOCKET_DIR, &dir_stats) != 0) {
return -1;
}
if (S_ISDIR(dir_stats.st_mode)) {
int updateOwner = 0;
int updateMode = 0;
int updatedOwner = 0;
int updatedMode = 0;
/* Check if the directory's ownership is OK. */
if ((dir_stats.st_uid != 0) && (dir_stats.st_uid != getuid()))
updateOwner = 1;
/*
* Check if the directory's mode is OK. An exact match isn't
* required, just a mode that isn't more permissive than the
* one requested.
*/
if ( ~ESD_UNIX_SOCKET_DIR_MODE & (dir_stats.st_mode & ~S_IFMT))
updateMode = 1;
#if defined(S_ISVTX)
if ((dir_stats.st_mode & S_IWOTH) && !(dir_stats.st_mode & S_ISVTX))
updateMode = 1;
#endif
#if defined(HAVE_FCHOWN) && defined(HAVE_FCHMOD)
/*
* If fchown(2) and fchmod(2) are available, try to correct the
* directory's owner and mode. Otherwise it isn't safe to attempt
* to do this.
*/
if (updateMode || updateOwner) {
int fd = -1;
struct stat fdir_stats;
if ((fd = open(ESD_UNIX_SOCKET_DIR, O_RDONLY)) != -1) {
if (fstat(fd, &fdir_stats) == -1) {
return esd_trustval;
}
/*
* Verify that we've opened the same directory as was
* checked above.
*/
if (!S_ISDIR(fdir_stats.st_mode) ||
dir_stats.st_dev != fdir_stats.st_dev ||
dir_stats.st_ino != fdir_stats.st_ino) {
return esd_trustval;
}
if (updateOwner && fchown(fd, getuid(), getgid()) == 0)
updatedOwner = 1;
if (updateMode && fchmod(fd, ESD_UNIX_SOCKET_DIR_MODE) == 0)
updatedMode = 1;
close(fd);
}
}
#endif
if (updateOwner && !updatedOwner) {
fprintf(stderr,
"esd: Failed to fix owner of %s.\n",
ESD_UNIX_SOCKET_DIR);
if (esd_trustval) fprintf(stderr, "Try -trust to force esd to start.\n");
return esd_trustval;
}
if (updateMode && !updatedMode) {
fprintf(stderr, "esd: Failed to fix mode of %s to %04o.\n",
ESD_UNIX_SOCKET_DIR, ESD_UNIX_SOCKET_DIR_MODE);
if (esd_trustval) fprintf(stderr, "Try -trust to force esd to start.\n");
return esd_trustval;
}
return 0;
}
}
/* In all other cases, fail */
return -1;
}
/*******************************************************************/
/* returns the listening socket descriptor */
int open_listen_socket(const char *hostname, int port )
{
/*********************/
/* socket test setup */
#if defined (ENABLE_IPV6)
struct addrinfo hints, *res, *result = NULL;
#endif
struct sockaddr_in socket_addr;
struct sockaddr_un socket_unix;
int socket_listen = -1;
struct linger lin;
size_t socket_len = 0;
struct sockaddr *saddr = NULL;
struct hostent *resolved;
/* create the socket, and set for non-blocking */
if (esd_use_tcpip) {
#if defined(ENABLE_IPV6)
if(have_ipv6()) {
memset(&hints, 0, sizeof(hints));
hints.ai_socktype = SOCK_STREAM;
/* If host name is set then bind to its first address */
if (hostname) {
if (getaddrinfo(hostname, NULL, &hints, &result) != 0) {
fprintf (stderr,"Unable to resolve the host\n");
return (-1);
}
for (res = result; res; res = res->ai_next)
if(res->ai_family != AF_INET || res->ai_family != AF_INET6)
break;
if(res->ai_family == AF_INET) {
((struct sockaddr_in *)res->ai_addr)->sin_port = htons(port);
esd_use_ipv6 = 0;
}
if(res->ai_family == AF_INET6) {
((struct sockaddr_in6 *)res->ai_addr)->sin6_port = htons(port);
esd_use_ipv6 = 1;
}
socket_listen = socket(res->ai_family, SOCK_STREAM, 0);
saddr = res->ai_addr;
socket_len = res->ai_addrlen;
}
else {
struct sockaddr_in6 socket6_addr;
memset(&socket6_addr, 0, sizeof(struct sockaddr_in6));
socket6_addr.sin6_family = AF_INET6;
socket6_addr.sin6_port = htons(port);
if (esd_public)
socket6_addr.sin6_addr = in6addr_any;
else
socket6_addr.sin6_addr = in6addr_loopback;
socket_listen = socket(AF_INET6, SOCK_STREAM, 0);
saddr = (struct sockaddr *)&socket6_addr;
socket_len = sizeof(socket6_addr);
esd_use_ipv6 = 1;
}
}
else
#endif
{
/* set the listening information */
memset(&socket_addr, 0, sizeof(struct sockaddr_in));
socket_addr.sin_family = AF_INET;
socket_addr.sin_port = htons( port );
/* if hostname is set, bind to its first address */
if (hostname)
{
if (!(resolved=gethostbyname2(hostname, AF_INET)))
{
return -1;
}
memcpy(&(socket_addr.sin_addr), resolved->h_addr_list[0], resolved->h_length);
} else if (esd_public)
socket_addr.sin_addr.s_addr = htonl( INADDR_ANY );
else
socket_addr.sin_addr.s_addr = htonl( INADDR_LOOPBACK );
socket_listen = socket(AF_INET, SOCK_STREAM, 0);
saddr = (struct sockaddr *)&socket_addr;
socket_len = sizeof(socket_addr);
}
}
else
{
if (safe_mksocketdir())
{
fprintf(stderr,
"esd: Esound sound daemon unable to create unix domain socket:\n"
"%s\n"
"The socket is not accessible by esd.\n"
"Exiting...\n", ESD_UNIX_SOCKET_NAME);
exit(1);
}
else
{
if (esd_connect_unix() >= 0)
{
/* not allowed access */
fprintf(stderr,
"esd: Esound sound daemon already running or stale UNIX socket\n"
"%s\n"
"This socket already exists indicating esd is already running.\n"
"Exiting...\n", ESD_UNIX_SOCKET_NAME);
exit(1);
}
}
unlink(ESD_UNIX_SOCKET_NAME);
socket_listen=socket(AF_UNIX, SOCK_STREAM, 0);
}
if (socket_listen < 0)
{
fprintf(stderr,"Unable to create socket\n");
return( -1 );
}
if (fcntl(socket_listen, F_SETFL, O_NONBLOCK) < 0)
{
fprintf(stderr,"Unable to set socket to non-blocking\n");
return( -1 );
}
/* set socket for linger? */
lin.l_onoff=1; /* block a closing socket for 1 second */
lin.l_linger=100; /* if data is waiting to be sent */
if ( setsockopt( socket_listen, SOL_SOCKET, SO_LINGER,
&lin, sizeof(struct linger) ) < 0 )
{
fprintf(stderr,"Unable to set socket linger value to %d\n",
lin.l_linger);
return( -1 );
}
{
int n = 1;
setsockopt(socket_listen, SOL_SOCKET, SO_REUSEADDR, &n, sizeof(n));
/* if it fails, so what */
}
if ( esd_use_tcpip ) {
if ( bind( socket_listen, saddr, socket_len ) != 0 )
{
fprintf(stderr,"Unable to bind port %d\n", port );
exit(1);
}
#if defined (ENABLE_IPV6)
if ( result )
freeaddrinfo ( result );
#endif
}
else
{
mode_t old_umask;
old_umask = umask(0);
socket_unix.sun_family=AF_UNIX;
strncpy(socket_unix.sun_path, ESD_UNIX_SOCKET_NAME, sizeof(socket_unix.sun_path));
if ( bind( socket_listen,
(struct sockaddr *) &socket_unix, SUN_LEN(&socket_unix) ) < 0 )
{
fprintf(stderr,"Unable to connect to UNIX socket %s\n", ESD_UNIX_SOCKET_NAME);
if (!esd_use_tcpip)
{
unlink(ESD_UNIX_SOCKET_NAME);
rmdir(ESD_UNIX_SOCKET_DIR);
}
exit(1);
}
umask(old_umask);
}
if (listen(socket_listen,16)<0)
{
fprintf(stderr,"Unable to set socket listen buffer length\n");
if (!esd_use_tcpip)
{
unlink(ESD_UNIX_SOCKET_NAME);
rmdir(ESD_UNIX_SOCKET_DIR);
}
exit(1);
}
return socket_listen;
}
/*******************************************************************/
/* daemon eats sound data, without playing anything, return boolean ok */
int esd_server_standby(void)
{
int ok = 1;
/* only bother if we're not already on standby */
if ( !esd_on_standby ) {
ESDBG_TRACE( printf( "setting sound daemon to standby\n" ); );
/* TODO: close down any recorders, too */
esd_on_standby = 1;
esd_audio_close();
}
return ok;
}
/*******************************************************************/
/* daemon goes back to playing sound data, returns boolean ok */
int esd_server_resume(void)
{
int ok = 1;
/* only bother if we're already on standby */
if ( esd_on_standby ) {
ESDBG_TRACE( printf( "resuming sound daemon\n" ); );
/* reclaim the audio device */
if ( esd_audio_open() < 0 ) {
/* device was busy or something, return error, try again later */
ok = 0;
} else {
/* turn ourselves back on */
esd_on_standby = 0;
esd_on_autostandby = 0;
esd_forced_standby = 0;
}
}
return ok;
}
/*******************************************************************/
int main ( int argc, char *argv[] )
{
/***************************/
/* Enlightened sound Daemon */
int esd_port = ESD_DEFAULT_PORT;
int arg = 0;
int itmp;
void *output_buffer = NULL;
extern signed int *mixed_buffer;
char *hostname=NULL;
char *endptr;
int fd0;
int max_fds;
/* from esd_config.c */
extern char esd_spawn_options[];
extern char esd_default_options[];
extern int esd_no_spawn;
int esd_spawning;
/* for merging argv and esd.conf */
char tmp_str[2*LINEBUF_SIZE] = "";
int num_opts = 0;
char *opts[MAX_OPTS];
char *tok;
int base;
/* begin test scaffolding parameters */
/* int format = AFMT_U8; AFMT_S16_LE; */
/* int stereo = 0; */ /* 0=mono, 1=stereo */
int default_rate = ESD_DEFAULT_RATE;
int i, j, freq=440;
int magl, magr;
int default_format = ESD_BITS16 | ESD_STEREO;
/* end test scaffolding parameters */
programname = *argv;
#ifdef DRIVER_ARTS
artschk();
#endif
/* read in esd.conf, ~/.esd.conf, ESD_SPAWN_OPTIONS or ESD_OPTIONS*/
esd_config_read();
/* copy default options */
strncat (tmp_str, esd_default_options, LINEBUF_SIZE);
/* has server been spawned */
esd_spawning = 0;
if (!esd_no_spawn && (argc > 1)) {
for (i = 1; i < argc - 1 ; i++) {
if (argv[i] && strcmp("-spawnfd", argv[i]) == 0) {
esd_spawning = 1;
break;
}
}
}
/* copy esd_spawn_options to tmp_str because of strtok */
if (esd_spawning) {
strncpy(tmp_str, esd_spawn_options, LINEBUF_SIZE);
}
/* add esd.conf options */
num_opts = 0;
tok = DO_STRTOK(tmp_str, " ");
while (tok && num_opts < MAX_OPTS) {
opts[num_opts] = tok;
num_opts++;
tok = DO_STRTOK(NULL, " ");
}
/* now add argv to the end of opts, so command line args take
* precedence over config options. we don't add argv[0] */
base = num_opts;
for (i = 0; i < argc - 1 && num_opts < MAX_OPTS; i++) {
opts[base + i] = argv[i+1];
num_opts++;
}
/* parse all args */
for ( arg = 0 ; arg < num_opts ; arg++ ) {
if ( !strcmp( opts[ arg ], "-d" ) ) {
if ( ++arg != num_opts ) {
esd_audio_device = opts[ arg ];
if ( !esd_audio_device ) {
esd_port = ESD_DEFAULT_PORT;
fprintf( stderr, "- could not read device: %s\n",
opts[ arg ] );
}
fprintf( stderr, "- using device %s\n",
esd_audio_device );
}
} else if ( !strcmp( opts[ arg ], "-port" ) ) {
if ( ++arg != num_opts ) {
esd_port = atoi( opts[ arg ] );
if ( !esd_port ) {
esd_port = ESD_DEFAULT_PORT;
fprintf( stderr, "- could not read port: %s\n",
opts[ arg ] );
}
fprintf( stderr, "- accepting connections on port %d\n",
esd_port );
}
} else if ( !strcmp( opts[ arg ], "-bind" ) ) {
if ( ++arg != num_opts )
{
hostname = opts[ arg ];
}
fprintf( stderr, "- accepting connections on port %d\n",
esd_port );
} else if ( !strcmp( opts[ arg ], "-b" ) ) {
fprintf( stderr, "- server format: 8 bit samples\n" );
default_format &= ~ESD_MASK_BITS; default_format |= ESD_BITS8;
} else if ( !strcmp( opts[ arg ], "-r" ) ) {
if ( ++arg != num_opts ) {
default_rate = atoi( opts[ arg ] );
if ( !default_rate ) {
default_rate = ESD_DEFAULT_RATE;
fprintf( stderr, "- could not read rate: %s\n",
opts[ arg ] );
}
fprintf( stderr, "- server format: sample rate = %d Hz\n",
default_rate );
}
} else if ( !strcmp( opts[ arg ], "-as" ) ) {
if ( ++arg != num_opts ) {
esd_autostandby_secs = strtol ( opts[arg], &endptr, 10);
if ( !esd_autostandby_secs && (!endptr || !*endptr) ) {
esd_autostandby_secs = ESD_DEFAULT_AUTOSTANDBY_SECS;
fprintf( stderr, "- could not read autostandby timeout: %s\n",
opts[ arg ] );
}
/* fprintf( stderr, "- autostandby timeout: %d seconds\n",
esd_autostandby_secs );*/
}
#ifdef ESDBG
} else if ( !strcmp( opts[ arg ], "-vt" ) ) {
esdbg_trace = 1;
fprintf( stderr, "- enabling trace diagnostic info\n" );
} else if ( !strcmp( opts[ arg ], "-vc" ) ) {
esdbg_comms = 1;
fprintf( stderr, "- enabling comms diagnostic info\n" );
} else if ( !strcmp( opts[ arg ], "-vm" ) ) {
esdbg_mixer = 1;
fprintf( stderr, "- enabling mixer diagnostic info\n" );
#endif
} else if ( !strcmp( opts[ arg ], "-nobeeps" ) ) {
esd_beeps = 0;
} else if ( !strcmp( opts[ arg ], "-beeps" ) ) {
esd_beeps = 1;
} else if ( !strcmp( opts[ arg ], "-unix" ) ) {
esd_use_tcpip = 0;
} else if ( !strcmp( opts[ arg ], "-tcp" ) ) {
esd_use_tcpip = 1;
} else if ( !strcmp( opts[ arg ], "-public" ) ) {
esd_public = 1;
} else if ( !strcmp( opts[ arg ], "-promiscuous" ) ) {
esd_is_owned = 1;
esd_is_locked = 0;
} else if ( !strcmp( opts[ arg ], "-terminate" ) ) {
esd_terminate = 1;
} else if ( !strcmp( opts[ arg ], "-noterminate" ) ) {
esd_terminate = 0;
} else if ( !strcmp( opts[ arg ], "-spawnpid" ) ) {
if ( ++arg < num_opts )
esd_spawnpid = atoi( opts[ arg ] );
} else if ( !strcmp( opts[ arg ], "-spawnfd" ) ) {
if ( ++arg < num_opts )
sscanf ( opts [ arg ], "%i", &esd_spawnfd);
} else if ( !strcmp( opts[ arg ], "-trust" ) ) {
esd_trustval = 0;
} else if ( !strcmp( opts[ arg ], "-v" ) || !strcmp( opts[ arg ], "--version" ) ) {
fprintf(stderr, "Esound version " VERSION "\n");
exit (0);
} else if ( !strcmp( opts[ arg ], "-h" ) || !strcmp( opts[ arg ], "--help" ) ) {
fprintf( stderr, "Esound version " VERSION "\n\n");
fprintf( stderr, "Usage: esd [options]\n\n" );
fprintf( stderr, " -v --version print version information\n" );
fprintf( stderr, " -d DEVICE force esd to use sound device DEVICE\n" );
fprintf( stderr, " -b run server in 8 bit sound mode\n" );
fprintf( stderr, " -r RATE run server at sample rate of RATE\n" );
fprintf( stderr, " -as SECS free audio device after SECS of inactivity (-1 to disable)\n" );
fprintf( stderr, " -unix use unix domain sockets instead of tcp/ip\n" );
fprintf( stderr, " -tcp use tcp/ip sockets instead of unix domain\n" );
fprintf( stderr, " -public make tcp/ip access public (other than localhost)\n" );
fprintf( stderr, " -promiscuous start unlocked and owned (disable authenticaton) NOT RECOMMENDED\n" );
fprintf( stderr, " -terminate terminate esd daemon after last client exits\n" );
fprintf( stderr, " -noterminate do not terminate esd daemon after last client exits\n" );
fprintf( stderr, " -nobeeps disable startup beeps\n" );
fprintf( stderr, " -beeps enable startup beeps\n" );
fprintf( stderr, " -trust start esd even if use of %s can be insecure\n",
ESD_UNIX_SOCKET_DIR );
#ifdef ESDBG
fprintf( stderr, " -vt enable trace diagnostic info\n" );
fprintf( stderr, " -vc enable comms diagnostic info\n" );
fprintf( stderr, " -vm enable mixer diagnostic info\n" );
#endif
fprintf( stderr, " -port PORT listen for connections on PORT (only for tcp/ip)\n" );
fprintf( stderr, " -bind ADDRESS binds to ADDRESS (only for tcp/ip)\n" );
fprintf( stderr, "\nPossible devices are: %s\n", esd_audio_devices() );
exit( 0 );
} else {
fprintf( stderr, "unrecognized option: %s\n", opts[ arg ] );
}
}
/* cd to / */
chdir ("/");
/* close all open file descriptors */
max_fds = getdtablesize();
for(i=0;i<max_fds;i++){
close(i);
}
fd0 = open("/dev/null", O_RDWR);
dup(0);
dup(0);
/* open the listening socket */
listen_socket = open_listen_socket(hostname, esd_port );
if ( listen_socket < 0 ) {
fprintf( stderr, "fatal error opening socket\n" );
if (!esd_use_tcpip)
{
unlink(ESD_UNIX_SOCKET_NAME);
rmdir(ESD_UNIX_SOCKET_DIR);
}
exit( 1 );
}
/* start the initializatin process */
/* printf( "ESound daemon initializing...\n" );*/
/* set the data size parameters */
esd_audio_format = default_format;
esd_audio_rate = default_rate;
/* open and initialize the audio device, /dev/dsp */
itmp = esd_audio_open();
if (itmp == -2) { /* Special return value indicates that opening the device failed. Don't bother
trying */
if(esd_spawnpid)
kill(esd_spawnpid, SIGALRM); /* Startup failed */
if(esd_spawnfd >= 0) {
char c = 0; /* Startup failed */
write (esd_spawnfd, &c, 1);
}
if (!esd_use_tcpip) {
unlink(ESD_UNIX_SOCKET_NAME);
rmdir(ESD_UNIX_SOCKET_DIR);
}
exit (2);
} else if ( itmp < 0 ) {
fprintf(stderr, "Audio device open for 44.1Khz, stereo, 16bit failed\n"
"Trying 44.1Khz, 8bit stereo.\n");
/* cant do defaults ... try 44.1 kkz 8bit stereo */
esd_audio_format = ESD_BITS8 | ESD_STEREO;
esd_audio_rate = 44100;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Audio device open for 44.1Khz, stereo, 8bit failed\n"
"Trying 48Khz, 16bit stereo.\n");
/* cant do defaults ... try 48 kkz 16bit stereo */
esd_audio_format = ESD_BITS16 | ESD_STEREO;
esd_audio_rate = 48000;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Audio device open for 48Khz, stereo,16bit failed\n"
"Trying 22.05Khz, 8bit stereo.\n");
/* cant do defaults ... try 22.05 kkz 8bit stereo */
esd_audio_format = ESD_BITS8 | ESD_STEREO;
esd_audio_rate = 22050;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Audio device open for 22.05Khz, stereo, 8bit failed\n"
"Trying 44.1Khz, 16bit mono.\n");
/* cant do defaults ... try 44.1Khz kkz 16bit mono */
esd_audio_format = ESD_BITS16;
esd_audio_rate = 44100;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Audio device open for 44.1Khz, mono, 8bit failed\n"
"Trying 22.05Khz, 8bit mono.\n");
/* cant do defaults ... try 22.05 kkz 8bit mono */
esd_audio_format = ESD_BITS8;
esd_audio_rate = 22050;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Audio device open for 22.05Khz, mono, 8bit failed\n"
"Trying 11.025Khz, 8bit stereo.\n");
/* cant to defaults ... try 11.025 kkz 8bit stereo */
esd_audio_format = ESD_BITS8 | ESD_STEREO;
esd_audio_rate = 11025;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Audio device open for 11.025Khz, stereo, 8bit failed\n"
"Trying 11.025Khz, 8bit mono.\n");
/* cant to defaults ... try 11.025 kkz 8bit mono */
esd_audio_format = ESD_BITS8;
esd_audio_rate = 11025;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Audio device open for 11.025Khz, mono, 8bit failed\n"
"Trying 8.192Khz, 8bit mono.\n");
/* cant to defaults ... try 8.192 kkz 8bit mono */
esd_audio_format = ESD_BITS8;
esd_audio_rate = 8192;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Audio device open for 8.192Khz, mono, 8bit failed\n"
"Trying 8Khz, 8bit mono.\n");
/* cant to defaults ... try 8 kkz 8bit mono */
esd_audio_format = ESD_BITS8;
esd_audio_rate = 8000;
if ( esd_audio_open() < 0 ) {
fprintf(stderr, "Sound device inadequate for Esound. Fatal.\n");
if (!esd_use_tcpip)
{
unlink(ESD_UNIX_SOCKET_NAME);
rmdir(ESD_UNIX_SOCKET_DIR);
}
if(esd_spawnpid)
kill(esd_spawnpid, SIGALRM); /* Startup failed */
if(esd_spawnfd >= 0) {
char c = 0; /* Startup failed */
write (esd_spawnfd, &c, 1);
}
exit( 1 );
}
}
}
}
}
}
}
}
}
}
esd_sample_size = ( (esd_audio_format & ESD_MASK_BITS) == ESD_BITS16 )
? sizeof(signed short) : sizeof(unsigned char);
esd_buf_size_samples = esound_getblksize() / esd_sample_size;
esd_buf_size_octets = esound_getblksize();
/* allocate and zero out buffer */
output_buffer = (void *) malloc( esd_buf_size_octets );
mixed_buffer = malloc( esd_buf_size_samples * sizeof(*mixed_buffer) );
memset( output_buffer, 0, esd_buf_size_octets );
/* install signal handlers for program integrity */
signal( SIGINT, clean_exit ); /* for ^C */
signal( SIGTERM, clean_exit ); /* for default kill */
signal( SIGPIPE, reset_signal ); /* for closed rec/mon clients */
signal( SIGHUP, reset_daemon ); /* kill -HUP clear ownership */
signal( SIGUSR1, reconnect_driver ); /* react to changed sound card */
/* send some sine waves just to check the sound connection */
i = 0;
if ( esd_spawnfd >= 0 && esd_beeps ) {
magl = magr = ( (esd_audio_format & ESD_MASK_BITS) == ESD_BITS16)
? 30000 : 100;
for ( freq = 55 ; freq < esd_audio_rate/2 ; freq *= 2, i++ ) {
/* repeat the freq for a few buffer lengths */
for ( j = 0 ; j < esd_audio_rate / 4 / esd_buf_size_samples ; j++ ) {
set_audio_buffer( output_buffer, esd_audio_format,
( (i%2) ? magl : 0 ), ( (i%2) ? 0 : magr ),
freq, esd_audio_rate, esd_buf_size_samples,
j * esd_buf_size_samples );
esd_audio_write( output_buffer, esd_buf_size_octets );
}
}
esd_audio_pause();
}
/* Startup succeeded */
if(esd_spawnpid)
kill(esd_spawnpid, SIGUSR1);
if(esd_spawnfd >= 0) {
char c = 1; /* Startup succeeded */
write (esd_spawnfd, &c, 1);
close (esd_spawnfd);
}
esd_comm_loop(listen_socket,output_buffer,esd_terminate);
close (listen_socket);
/* how we'd get here, i have no idea, should only exit on signal */
clean_exit( -1 );
exit( 0 );
}
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