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OPENZAP-54 

git-svn-id: http://svn.openzap.org/svn/openzap/trunk@680 a93c3328-9c30-0410-af19-c9cd2b2d52af
This commit is contained in:
Mathieu Rene 2009-03-04 21:31:08 +00:00
parent 77e180f2e2
commit 39f3539d63
2 changed files with 227 additions and 41 deletions
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210
libs/openzap/src/ozmod/ozmod_zt/ozmod_zt.c
View File

@ -44,8 +44,122 @@ static struct {
uint32_t etlevel;
} zt_globals;
struct ioctl_codes {
int GET_BLOCKSIZE;
int SET_BLOCKSIZE;
int FLUSH;
int SYNC;
int GET_PARAMS;
int SET_PARAMS;
int HOOK;
int GETEVENT;
int IOMUX;
int SPANSTAT;
int MAINT;
int GETCONF;
int SETCONF;
int CONFLINK;
int CONFDIAG;
int GETGAINS;
int SETGAINS;
int SPANCONFIG;
int CHANCONFIG;
int SET_BUFINFO;
int GET_BUFINFO;
int AUDIOMODE;
int ECHOCANCEL;
int HDLCRAWMODE;
int HDLCFCSMODE;
int SPECIFY;
int SETLAW;
int SETLINEAR;
int GETCONFMUTE;
int ECHOTRAIN;
int SETTXBITS;
int GETRXBITS;
};
static struct ioctl_codes zt_ioctl_codes = {
.GET_BLOCKSIZE = ZT_GET_BLOCKSIZE,
.SET_BLOCKSIZE = ZT_SET_BLOCKSIZE,
.FLUSH = ZT_FLUSH,
.SYNC = ZT_SYNC,
.GET_PARAMS = ZT_GET_PARAMS,
.SET_PARAMS = ZT_SET_PARAMS,
.HOOK = ZT_HOOK,
.GETEVENT = ZT_GETEVENT,
.IOMUX = ZT_IOMUX,
.SPANSTAT = ZT_SPANSTAT,
.MAINT = ZT_MAINT,
.GETCONF = ZT_GETCONF,
.SETCONF = ZT_SETCONF,
.CONFLINK = ZT_CONFLINK,
.CONFDIAG = ZT_CONFDIAG,
.GETGAINS = ZT_GETGAINS,
.SETGAINS = ZT_SETGAINS,
.SPANCONFIG = ZT_SPANCONFIG,
.CHANCONFIG = ZT_CHANCONFIG,
.SET_BUFINFO = ZT_SET_BUFINFO,
.GET_BUFINFO = ZT_GET_BUFINFO,
.AUDIOMODE = ZT_AUDIOMODE,
.ECHOCANCEL = ZT_ECHOCANCEL,
.HDLCRAWMODE = ZT_HDLCRAWMODE,
.HDLCFCSMODE = ZT_HDLCFCSMODE,
.SPECIFY = ZT_SPECIFY,
.SETLAW = ZT_SETLAW,
.SETLINEAR = ZT_SETLINEAR,
.GETCONFMUTE = ZT_GETCONFMUTE,
.ECHOTRAIN = ZT_ECHOTRAIN,
.SETTXBITS = ZT_SETTXBITS,
.GETRXBITS = ZT_GETRXBITS
};
static struct ioctl_codes dahdi_ioctl_codes = {
.GET_BLOCKSIZE = DAHDI_GET_BLOCKSIZE,
.SET_BLOCKSIZE = DAHDI_SET_BLOCKSIZE,
.FLUSH = DAHDI_FLUSH,
.SYNC = DAHDI_SYNC,
.GET_PARAMS = DAHDI_GET_PARAMS,
.SET_PARAMS = DAHDI_SET_PARAMS,
.HOOK = DAHDI_HOOK,
.GETEVENT = DAHDI_GETEVENT,
.IOMUX = DAHDI_IOMUX,
.SPANSTAT = DAHDI_SPANSTAT,
.MAINT = DAHDI_MAINT,
.GETCONF = DAHDI_GETCONF,
.SETCONF = DAHDI_SETCONF,
.CONFLINK = DAHDI_CONFLINK,
.CONFDIAG = DAHDI_CONFDIAG,
.GETGAINS = DAHDI_GETGAINS,
.SETGAINS = DAHDI_SETGAINS,
.SPANCONFIG = DAHDI_SPANCONFIG,
.CHANCONFIG = DAHDI_CHANCONFIG,
.SET_BUFINFO = DAHDI_SET_BUFINFO,
.GET_BUFINFO = DAHDI_GET_BUFINFO,
.AUDIOMODE = DAHDI_AUDIOMODE,
.ECHOCANCEL = DAHDI_ECHOCANCEL,
.HDLCRAWMODE = DAHDI_HDLCRAWMODE,
.HDLCFCSMODE = DAHDI_HDLCFCSMODE,
.SPECIFY = DAHDI_SPECIFY,
.SETLAW = DAHDI_SETLAW,
.SETLINEAR = DAHDI_SETLINEAR,
.GETCONFMUTE = DAHDI_GETCONFMUTE,
.ECHOTRAIN = DAHDI_ECHOTRAIN,
.SETTXBITS = DAHDI_SETTXBITS,
.GETRXBITS = DAHDI_GETRXBITS
};
#define ZT_INVALID_SOCKET -1
static const char ctlpath[] = "/dev/zap/ctl";
static struct ioctl_codes codes;
static const char *ctlpath = NULL;
static const char *chanpath = NULL;
static const char dahdi_ctlpath[] = "/dev/dahdi/ctl";
static const char dahdi_chanpath[] = "/dev/dahdi/channel";
static const char zt_ctlpath[] = "/dev/zap/ctl";
static const char zt_chanpath[] = "/dev/zap/channel";
static zap_socket_t CONTROL_FD = ZT_INVALID_SOCKET;
ZIO_SPAN_NEXT_EVENT_FUNCTION(zt_next_event);
@ -54,7 +168,6 @@ ZIO_SPAN_POLL_EVENT_FUNCTION(zt_poll_event);
static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, zap_chan_type_t type, char *name, char *number, unsigned char cas_bits)
{
unsigned configured = 0, x;
char path[] = "/dev/zap/channel";
zt_params_t ztp;
memset(&ztp, 0, sizeof(ztp));
@ -67,11 +180,11 @@ static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, za
zap_socket_t sockfd = ZT_INVALID_SOCKET;
int len;
sockfd = open(path, O_RDWR);
sockfd = open(chanpath, O_RDWR);
if (sockfd != ZT_INVALID_SOCKET && zap_span_add_channel(span, sockfd, type, &zchan) == ZAP_SUCCESS) {
if (ioctl(sockfd, ZT_SPECIFY, &x)) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s chan %d fd %d (%s)\n", path, x, sockfd, strerror(errno));
if (ioctl(sockfd, codes.SPECIFY, &x)) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s chan %d fd %d (%s)\n", chanpath, x, sockfd, strerror(errno));
close(sockfd);
continue;
}
@ -83,8 +196,8 @@ static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, za
binfo.rxbufpolicy = 0;
binfo.numbufs = 32;
binfo.bufsize = 1024;
if (ioctl(sockfd, ZT_SET_BUFINFO, &binfo)) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d\n", path, zchan->span_id, zchan->chan_id, sockfd);
if (ioctl(sockfd, codes.SET_BUFINFO, &binfo)) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d\n", chanpath, zchan->span_id, zchan->chan_id, sockfd);
close(sockfd);
continue;
}
@ -134,8 +247,8 @@ static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, za
break;
}
if (ioctl(CONTROL_FD, ZT_CHANCONFIG, &cc)) {
zap_log(ZAP_LOG_WARNING, "this ioctl fails on older zaptel but is harmless if you used ztcfg\n[device %s chan %d fd %d (%s)]\n", path, x, CONTROL_FD, strerror(errno));
if (ioctl(CONTROL_FD, codes.CHANCONFIG, &cc)) {
zap_log(ZAP_LOG_WARNING, "this ioctl fails on older zaptel but is harmless if you used ztcfg\n[device %s chan %d fd %d (%s)]\n", chanpath, x, CONTROL_FD, strerror(errno));
}
}
@ -145,8 +258,8 @@ static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, za
cc.chan = cc.master = x;
cc.sigtype = ZT_SIG_CAS;
cc.idlebits = cas_bits;
if (ioctl(CONTROL_FD, ZT_CHANCONFIG, &cc)) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d err:%s", path, zchan->span_id, zchan->chan_id, sockfd, strerror(errno));
if (ioctl(CONTROL_FD, codes.CHANCONFIG, &cc)) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d err:%s", chanpath, zchan->span_id, zchan->chan_id, sockfd, strerror(errno));
close(sockfd);
continue;
}
@ -154,9 +267,9 @@ static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, za
if (zchan->type != ZAP_CHAN_TYPE_DQ921 && zchan->type != ZAP_CHAN_TYPE_DQ931) {
len = zt_globals.codec_ms * 8;
if (ioctl(zchan->sockfd, ZT_SET_BLOCKSIZE, &len)) {
if (ioctl(zchan->sockfd, codes.SET_BLOCKSIZE, &len)) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d err:%s\n",
path, zchan->span_id, zchan->chan_id, sockfd, strerror(errno));
chanpath, zchan->span_id, zchan->chan_id, sockfd, strerror(errno));
close(sockfd);
continue;
}
@ -169,21 +282,21 @@ static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, za
}
}
if (ioctl(sockfd, ZT_GET_PARAMS, &ztp) < 0) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d\n", path, zchan->span_id, zchan->chan_id, sockfd);
if (ioctl(sockfd, codes.GET_PARAMS, &ztp) < 0) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d\n", chanpath, zchan->span_id, zchan->chan_id, sockfd);
close(sockfd);
continue;
}
if (zchan->type == ZAP_CHAN_TYPE_DQ921) {
if ((ztp.sig_type != ZT_SIG_HDLCRAW) && (ztp.sig_type != ZT_SIG_HDLCFCS)) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d\n", path, zchan->span_id, zchan->chan_id, sockfd);
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d\n", chanpath, zchan->span_id, zchan->chan_id, sockfd);
close(sockfd);
continue;
}
}
zap_log(ZAP_LOG_INFO, "configuring device %s channel %d as OpenZAP device %d:%d fd:%d\n", path, x, zchan->span_id, zchan->chan_id, sockfd);
zap_log(ZAP_LOG_INFO, "configuring device %s channel %d as OpenZAP device %d:%d fd:%d\n", chanpath, x, zchan->span_id, zchan->chan_id, sockfd);
zchan->rate = 8000;
zchan->physical_span_id = ztp.span_no;
@ -212,8 +325,8 @@ static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, za
ztp.wink_time = zt_globals.wink_ms;
ztp.flash_time = zt_globals.flash_ms;
if (ioctl(sockfd, ZT_SET_PARAMS, &ztp) < 0) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d\n", path, zchan->span_id, zchan->chan_id, sockfd);
if (ioctl(sockfd, codes.SET_PARAMS, &ztp) < 0) {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s as OpenZAP device %d:%d fd:%d\n", chanpath, zchan->span_id, zchan->chan_id, sockfd);
close(sockfd);
continue;
}
@ -227,7 +340,7 @@ static unsigned zt_open_range(zap_span_t *span, unsigned start, unsigned end, za
}
configured++;
} else {
zap_log(ZAP_LOG_ERROR, "failure configuring device %s\n", path);
zap_log(ZAP_LOG_ERROR, "failure configuring device %s\n", chanpath);
}
}
@ -347,7 +460,7 @@ static ZIO_OPEN_FUNCTION(zt_open)
} else {
int blocksize = zt_globals.codec_ms * (zchan->rate / 1000);
int err;
if ((err = ioctl(zchan->sockfd, ZT_SET_BLOCKSIZE, &blocksize))) {
if ((err = ioctl(zchan->sockfd, codes.SET_BLOCKSIZE, &blocksize))) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "%s", strerror(errno));
return ZAP_FAIL;
} else {
@ -358,21 +471,21 @@ static ZIO_OPEN_FUNCTION(zt_open)
if (zchan->type == ZAP_CHAN_TYPE_B) {
int one = 1;
if (ioctl(zchan->sockfd, ZT_AUDIOMODE, &one)) {
if (ioctl(zchan->sockfd, codes.AUDIOMODE, &one)) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "%s", strerror(errno));
zap_log(ZAP_LOG_ERROR, "%s\n", zchan->last_error);
return ZAP_FAIL;
}
} else if (zchan->type == ZAP_CHAN_TYPE_FXS || zchan->type == ZAP_CHAN_TYPE_FXO || zchan->type == ZAP_CHAN_TYPE_EM) {
int len = zt_globals.eclevel;
if (ioctl(zchan->sockfd, ZT_ECHOCANCEL, &len)) {
if (ioctl(zchan->sockfd, codes.ECHOCANCEL, &len)) {
zap_log(ZAP_LOG_WARNING, "Echo cancel not available for %d:%d\n", zchan->span_id, zchan->chan_id);
//snprintf(zchan->last_error, sizeof(zchan->last_error), "%s", strerror(errno));
//zap_log(ZAP_LOG_ERROR, "%s\n", zchan->last_error);
//return ZAP_FAIL;
} else {
len = zt_globals.etlevel;
if (ioctl(zchan->sockfd, ZT_ECHOTRAIN, &len)) {
if (ioctl(zchan->sockfd, codes.ECHOTRAIN, &len)) {
zap_log(ZAP_LOG_WARNING, "Echo training not available for %d:%d\n", zchan->span_id, zchan->chan_id);
//snprintf(zchan->last_error, sizeof(zchan->last_error), "%s", strerror(errno));
//zap_log(ZAP_LOG_ERROR, "%s\n", zchan->last_error);
@ -400,33 +513,33 @@ static ZIO_COMMAND_FUNCTION(zt_command)
case ZAP_COMMAND_ENABLE_ECHOCANCEL:
{
int level = ZAP_COMMAND_OBJ_INT;
err = ioctl(zchan->sockfd, ZT_ECHOCANCEL, &level);
err = ioctl(zchan->sockfd, codes.ECHOCANCEL, &level);
ZAP_COMMAND_OBJ_INT = level;
}
case ZAP_COMMAND_DISABLE_ECHOCANCEL:
{
int level = 0;
err = ioctl(zchan->sockfd, ZT_ECHOCANCEL, &level);
err = ioctl(zchan->sockfd, codes.ECHOCANCEL, &level);
ZAP_COMMAND_OBJ_INT = level;
}
break;
case ZAP_COMMAND_ENABLE_ECHOTRAIN:
{
int level = ZAP_COMMAND_OBJ_INT;
err = ioctl(zchan->sockfd, ZT_ECHOTRAIN, &level);
err = ioctl(zchan->sockfd, codes.ECHOTRAIN, &level);
ZAP_COMMAND_OBJ_INT = level;
}
case ZAP_COMMAND_DISABLE_ECHOTRAIN:
{
int level = 0;
err = ioctl(zchan->sockfd, ZT_ECHOTRAIN, &level);
err = ioctl(zchan->sockfd, codes.ECHOTRAIN, &level);
ZAP_COMMAND_OBJ_INT = level;
}
break;
case ZAP_COMMAND_OFFHOOK:
{
int command = ZT_OFFHOOK;
if (ioctl(zchan->sockfd, ZT_HOOK, &command)) {
if (ioctl(zchan->sockfd, codes.HOOK, &command)) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "OFFHOOK Failed");
return ZAP_FAIL;
}
@ -436,7 +549,7 @@ static ZIO_COMMAND_FUNCTION(zt_command)
case ZAP_COMMAND_ONHOOK:
{
int command = ZT_ONHOOK;
if (ioctl(zchan->sockfd, ZT_HOOK, &command)) {
if (ioctl(zchan->sockfd, codes.HOOK, &command)) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "ONHOOK Failed");
return ZAP_FAIL;
}
@ -446,7 +559,7 @@ static ZIO_COMMAND_FUNCTION(zt_command)
case ZAP_COMMAND_FLASH:
{
int command = ZT_FLASH;
if (ioctl(zchan->sockfd, ZT_HOOK, &command)) {
if (ioctl(zchan->sockfd, codes.HOOK, &command)) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "FLASH Failed");
return ZAP_FAIL;
}
@ -455,7 +568,7 @@ static ZIO_COMMAND_FUNCTION(zt_command)
case ZAP_COMMAND_WINK:
{
int command = ZT_WINK;
if (ioctl(zchan->sockfd, ZT_HOOK, &command)) {
if (ioctl(zchan->sockfd, codes.HOOK, &command)) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "WINK Failed");
return ZAP_FAIL;
}
@ -464,7 +577,7 @@ static ZIO_COMMAND_FUNCTION(zt_command)
case ZAP_COMMAND_GENERATE_RING_ON:
{
int command = ZT_RING;
if (ioctl(zchan->sockfd, ZT_HOOK, &command)) {
if (ioctl(zchan->sockfd, codes.HOOK, &command)) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "Ring Failed");
return ZAP_FAIL;
}
@ -474,7 +587,7 @@ static ZIO_COMMAND_FUNCTION(zt_command)
case ZAP_COMMAND_GENERATE_RING_OFF:
{
int command = ZT_RINGOFF;
if (ioctl(zchan->sockfd, ZT_HOOK, &command)) {
if (ioctl(zchan->sockfd, codes.HOOK, &command)) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "Ring-off failed");
return ZAP_FAIL;
}
@ -484,7 +597,7 @@ static ZIO_COMMAND_FUNCTION(zt_command)
case ZAP_COMMAND_GET_INTERVAL:
{
if (!(err = ioctl(zchan->sockfd, ZT_GET_BLOCKSIZE, &zchan->packet_len))) {
if (!(err = ioctl(zchan->sockfd, codes.GET_BLOCKSIZE, &zchan->packet_len))) {
zchan->native_interval = zchan->packet_len / 8;
if (zchan->effective_codec == ZAP_CODEC_SLIN) {
zchan->packet_len *= 2;
@ -498,7 +611,7 @@ static ZIO_COMMAND_FUNCTION(zt_command)
int interval = ZAP_COMMAND_OBJ_INT;
int len = interval * 8;
if (!(err = ioctl(zchan->sockfd, ZT_SET_BLOCKSIZE, &len))) {
if (!(err = ioctl(zchan->sockfd, codes.SET_BLOCKSIZE, &len))) {
zchan->packet_len = len;
zchan->effective_interval = zchan->native_interval = zchan->packet_len / 8;
@ -512,7 +625,7 @@ static ZIO_COMMAND_FUNCTION(zt_command)
case ZAP_COMMAND_SET_CAS_BITS:
{
int bits = ZAP_COMMAND_OBJ_INT;
err = ioctl(zchan->sockfd, ZT_SETTXBITS, &bits);
err = ioctl(zchan->sockfd, codes.SETTXBITS, &bits);
}
break;
case ZAP_COMMAND_GET_CAS_BITS:
@ -541,7 +654,7 @@ static ZIO_GET_ALARMS_FUNCTION(zt_get_alarms)
memset(&info, 0, sizeof(info));
info.span_no = zchan->physical_span_id;
if (ioctl(CONTROL_FD, ZT_SPANSTAT, &info)) {
if (ioctl(CONTROL_FD, codes.SPANSTAT, &info)) {
snprintf(zchan->last_error, sizeof(zchan->last_error), "ioctl failed (%s)", strerror(errno));
snprintf(zchan->span->last_error, sizeof(zchan->span->last_error), "ioctl failed (%s)", strerror(errno));
return ZAP_FAIL;
@ -658,7 +771,7 @@ ZIO_SPAN_NEXT_EVENT_FUNCTION(zt_next_event)
for(i = 1; i <= span->chan_count; i++) {
if (zap_test_flag(span->channels[i], ZAP_CHANNEL_EVENT)) {
zap_clear_flag(span->channels[i], ZAP_CHANNEL_EVENT);
if (ioctl(span->channels[i]->sockfd, ZT_GETEVENT, &zt_event_id) == -1) {
if (ioctl(span->channels[i]->sockfd, codes.GETEVENT, &zt_event_id) == -1) {
snprintf(span->last_error, sizeof(span->last_error), "%s", strerror(errno));
return ZAP_FAIL;
}
@ -717,7 +830,7 @@ ZIO_SPAN_NEXT_EVENT_FUNCTION(zt_next_event)
{
event_id = ZAP_OOB_CAS_BITS_CHANGE;
int bits = 0;
int err = ioctl(span->channels[i]->sockfd, ZT_GETRXBITS, &bits);
int err = ioctl(span->channels[i]->sockfd, codes.GETRXBITS, &bits);
if (err) {
return ZAP_FAIL;
}
@ -801,11 +914,26 @@ static zap_io_interface_t zt_interface;
static ZIO_IO_LOAD_FUNCTION(zt_init)
{
assert(zio != NULL);
struct stat statbuf;
memset(&zt_interface, 0, sizeof(zt_interface));
memset(&zt_globals, 0, sizeof(zt_globals));
if (!stat(zt_ctlpath, &statbuf)) {
zap_log(ZAP_LOG_NOTICE, "Using Zaptel control device\n");
ctlpath = zt_ctlpath;
chanpath = zt_chanpath;
memcpy(&codes, &zt_ioctl_codes, sizeof(codes));
} else if (!stat(dahdi_ctlpath, &statbuf)) {
zap_log(ZAP_LOG_NOTICE, "Using DAHDI control device\n");
ctlpath = dahdi_ctlpath;
chanpath = dahdi_chanpath;
memcpy(&codes, &dahdi_ioctl_codes, sizeof(codes));
} else {
zap_log(ZAP_LOG_ERROR, "No DAHDI or Zap control device found in /dev/\n");
return ZAP_FAIL;
}
if ((CONTROL_FD = open(ctlpath, O_RDWR)) < 0) {
zap_log(ZAP_LOG_ERROR, "Cannot open control device\n");
zap_log(ZAP_LOG_ERROR, "Cannot open control device %s: %s\n", ctlpath, strerror(errno));
return ZAP_FAIL;
}

58
libs/openzap/src/ozmod/ozmod_zt/ozmod_zt.h
View File

@ -75,6 +75,8 @@ struct zt_params {
int pulse_break_time;
int pulse_make_time;
int pulse_after_time;
/* latest version of this struct include chan_alarms field */
uint32_t chan_alarms;
};
typedef struct zt_params zt_params_t;
@ -110,6 +112,18 @@ struct zt_spaninfo {
int configured_chan_count; /* Count of channels configured on the span */
int channel_count; /* Total count of channels on the span */
int span_count; /* Total count of zaptel spans on the system*/
/* end v1 of the struct */
/* as long as we don't use the fields below we should be ok regardless of the zaptel/dahdi version */
int lbo; /* Line Build Out */
int lineconfig; /* framing/coding */
/* end of v2 of the struct */
char lboname[40]; /* Line Build Out in text form */
char location[40]; /* span's device location in system */
char manufacturer[40]; /* manufacturer of span's device */
char devicetype[40]; /* span's device type */
int irq; /* span's device IRQ */
int linecompat; /* signaling modes possible on this span */
char spantype[6]; /* type of span in text form */
};
struct zt_maintinfo {
@ -245,6 +259,7 @@ ZT_ABIT = 8
/* ioctl defines */
#define ZT_CODE 'J'
#define DAHDI_CODE 0xDA
#define ZT_GET_BLOCKSIZE _IOR (ZT_CODE, 1, int) /* Get Transfer Block Size. */
@ -290,6 +305,49 @@ ZT_ABIT = 8
#define ZT_SETTXBITS _IOW (ZT_CODE, 43, int)
#define ZT_GETRXBITS _IOR (ZT_CODE, 45, int)
#define DAHDI_GET_BLOCKSIZE _IOR (DAHDI_CODE, 1, int) /* Get Transfer Block Size. */
#define DAHDI_SET_BLOCKSIZE _IOW (DAHDI_CODE, 1, int) /* Set Transfer Block Size. */
#define DAHDI_FLUSH _IOW (DAHDI_CODE, 3, int) /* Flush Buffer(s) and stop I/O */
#define DAHDI_SYNC _IO (DAHDI_CODE, 4) /* Wait for Write to Finish */
#define DAHDI_GET_PARAMS _IOR (DAHDI_CODE, 5, struct zt_params) /* Get channel parameters */
#define DAHDI_SET_PARAMS _IOW (DAHDI_CODE, 5, struct zt_params) /* Set channel parameters */
#define DAHDI_HOOK _IOW (DAHDI_CODE, 7, int) /* Set Hookswitch Status */
#define DAHDI_GETEVENT _IOR (DAHDI_CODE, 8, int) /* Get Signalling Event */
#define DAHDI_IOMUX _IOWR (DAHDI_CODE, 9, int) /* Wait for something to happen (IO Mux) */
#define DAHDI_SPANSTAT _IOWR (DAHDI_CODE, 10, struct zt_spaninfo) /* Get Span Status */
#define DAHDI_MAINT _IOW (DAHDI_CODE, 11, struct zt_maintinfo) /* Set Maintenance Mode for a span */
#define DAHDI_GETCONF _IOR (DAHDI_CODE, 12, struct zt_confinfo) /* Get Conference Mode */
#define DAHDI_SETCONF _IOW (DAHDI_CODE, 12, struct zt_confinfo) /* Set Conference Mode */
#define DAHDI_CONFLINK _IOW (DAHDI_CODE, 14, struct zt_confinfo) /* Setup or Remove Conference Link */
#define DAHDI_CONFDIAG _IOR (DAHDI_CODE, 15, int) /* Display Conference Diagnostic Information on Console */
#define DAHDI_GETGAINS _IOR (DAHDI_CODE, 16, struct zt_gains) /* Get Channel audio gains */
#define DAHDI_SETGAINS _IOW (DAHDI_CODE, 16, struct zt_gains) /* Set Channel audio gains */
#define DAHDI_SPANCONFIG _IOW (DAHDI_CODE, 18, struct zt_lineconfig)/* Set Line (T1) Configurations and start system */
#define DAHDI_CHANCONFIG _IOW (DAHDI_CODE, 19, struct zt_chanconfig)/* Set Channel Configuration */
#define DAHDI_SET_BUFINFO _IOW (DAHDI_CODE, 27, struct zt_bufferinfo)/* Set buffer policy */
#define DAHDI_GET_BUFINFO _IOR (DAHDI_CODE, 27, struct zt_bufferinfo)/* Get current buffer info */
#define DAHDI_AUDIOMODE _IOW (DAHDI_CODE, 32, int) /* Set a clear channel into audio mode */
#define DAHDI_ECHOCANCEL _IOW (DAHDI_CODE, 33, int) /* Control Echo Canceller */
#define DAHDI_HDLCRAWMODE _IOW (DAHDI_CODE, 36, int) /* Set a clear channel into HDLC w/out FCS checking/calculation mode */
#define DAHDI_HDLCFCSMODE _IOW (DAHDI_CODE, 37, int) /* Set a clear channel into HDLC w/ FCS mode */
/* Specify a channel on /dev/dahdi/chan -- must be done before any other ioctl's and is only valid on /dev/dahdi/chan */
#define DAHDI_SPECIFY _IOW (DAHDI_CODE, 38, int)
/* Temporarily set the law on a channel to DAHDI_LAW_DEFAULT, DAHDI_LAW_ALAW, or DAHDI_LAW_MULAW. Is reset on close. */
#define DAHDI_SETLAW _IOW (DAHDI_CODE, 39, int)
/* Temporarily set the channel to operate in linear mode when non-zero or default law if 0 */
#define DAHDI_SETLINEAR _IOW (DAHDI_CODE, 40, int)
#define DAHDI_GETCONFMUTE _IOR (DAHDI_CODE, 49, int) /* Get Conference to mute mode */
#define DAHDI_ECHOTRAIN _IOW (DAHDI_CODE, 50, int) /* Control Echo Trainer */
/* Set/Get CAS bits */
#define DAHDI_SETTXBITS _IOW (DAHDI_CODE, 43, int)
#define DAHDI_GETRXBITS _IOR (DAHDI_CODE, 43, int)
#endif