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module-dvbapi.c
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module-dvbapi.c
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#define MODULE_LOG_PREFIX "dvbapi"
#include "globals.h"
#ifdef HAVE_DVBAPI
#include "module-dvbapi.h"
#include "module-cacheex.h"
#ifdef WITH_TIARTOP
#include "module-xcam-a8plus.h"
#else
#include "module-dvbapi-azbox.h"
#endif
#include "module-dvbapi-mca.h"
#include "module-dvbapi-coolapi.h"
#include "module-dvbapi-stapi.h"
#include "module-dvbapi-chancache.h"
#include "module-stat.h"
#include "oscam-chk.h"
#include "oscam-client.h"
#include "oscam-config.h"
#include "oscam-ecm.h"
#include "oscam-emm.h"
#include "oscam-files.h"
#include "oscam-net.h"
#include "oscam-reader.h"
#include "oscam-string.h"
#include "oscam-time.h"
#include "oscam-work.h"
#include "reader-irdeto.h"
#include "cscrypt/md5.h"
extern int32_t exit_oscam;
#if defined (__CYGWIN__)
#define F_NOTIFY 0
#define F_SETSIG 0
#define DN_MODIFY 0
#define DN_CREATE 0
#define DN_DELETE 0
#define DN_MULTISHOT 0
#endif
int32_t priority_is_changed=0;
extern char cs_confdir[];
static const char *get_stream_type_txt(uint8_t stream_type)
{
switch(stream_type)
{
case 0x00: return "invalid";
case 0x01: return "MPEG-1 video";
case 0x02: return "MPEG-2 video"; // MPEG-1 (constrained parameter) or MPEG-2 video
case 0x03: return "MPEG-1 audio"; // MP1, MP2, MP3
case 0x04: return "MPEG-2 audio"; // MP1, MP2, MP3
case 0x05: return "MPEG-2 private sections";
case 0x06: return "MPEG-2 PES private data"; // AC-3, Enhanced AC-3, AC-4, DTS(-HD) audio, subtitles, etc (DVB) (depends on descriptor)
case 0x07: return "MHEG data";
case 0x08: return "DSM-CC data";
case 0x09: return "MPEG-2 over ATM data";
case 0x0A: return "DSM-CC data";
case 0x0B: return "DSM-CC data";
case 0x0C: return "DSM-CC data";
case 0x0D: return "DSM-CC data";
case 0x0E: return "MPEG-2 auxiliary data";
case 0x0F: return "MPEG-2 audio"; // AAC
case 0x10: return "MPEG-4 video";
case 0x11: return "MPEG-4 audio"; // AAC, HE AAC and AAC v2
case 0x12: return "MPEG-4 PES data";
case 0x13: return "MPEG-4 data";
case 0x14: return "DSM-CC data";
case 0x15: return "MPEG-7 MetaData";
case 0x16: return "MPEG-7 MetaData";
case 0x17: return "MPEG-7 MetaData";
case 0x18: return "MPEG-7 MetaData";
case 0x19: return "MPEG-7 MetaData";
case 0x1A: return "MPEG-2 IPMP data";
case 0x1B: return "AVC video";
case 0x1C: return "MPEG-4 audio"; // DST, ALS, SLS
case 0x24: return "HEVC video";
case 0x25: return "HEVC subset video";
case 0x2D: return "MPEG-H 3D audio"; // main stream
case 0x2E: return "MPEG-H 3D audio"; // auxiliary stream
case 0x42: return "Chinese video";
case 0x7F: return "IPMP data";
case 0x81: return "AC-3 audio (ATSC)"; // with descriptor tag 0x81
case 0x86: return "SCTE 35 data";
case 0x87: return "enhanced AC-3 audio (ATSC)";
//case 0x88: return "DTS-HD audio (ATSC 2.0)"; // fixme: has ATSC 2.0 ever been used?
//case 0x??: return "AC-4 audio (ATSC 3.0)"; // fixme: add the actual value when it gets published
//case 0x??: return "MPEG-H 3D audio (ATSC 3.0)"; // fixme: add the actual value when it gets published
case 0xD1: return "BBC Dirac video";
case 0xEA: return "VC-1 video";
default: return "user private";
}
}
static const char *get_descriptor_tag_txt(uint8_t descriptor_tag)
{
switch(descriptor_tag)
{
// Valid in all MPEG contexts:
case 0x00: return "reserved";
case 0x01: return "forbidden";
case 0x02: return "video stream";
case 0x03: return "audio stream";
case 0x04: return "hierarchy";
case 0x05: return "registration";
case 0x06: return "data stream alignment";
case 0x07: return "target background grid";
case 0x08: return "video window";
case 0x09: return "CA";
case 0x0A: return "ISO 639 language";
case 0x0B: return "system clock";
case 0x0C: return "multiplex buffer utilization";
case 0x0D: return "copyright";
case 0x0E: return "maximum bitrate";
case 0x0F: return "private data indicator";
case 0x10: return "smoothing buffer";
case 0x11: return "STD";
case 0x12: return "IBP";
case 0x13: return "DSM-CC carousel identifier";
case 0x14: return "DSM-CC association tag";
case 0x15: return "DSM-CC deferred association tags";
case 0x17: return "DSM-CC NPT reference";
case 0x18: return "DSM-CC NPT endpoint";
case 0x19: return "DSM-CC stream mode";
case 0x1A: return "DSM-CC stream event";
case 0x1B: return "MPEG-4 video";
case 0x1C: return "MPEG-4 audio";
case 0x1D: return "IOD";
case 0x1E: return "SL";
case 0x1F: return "FMC";
case 0x20: return "External ES id";
case 0x21: return "MuxCode";
case 0x22: return "FmxBufferSize";
case 0x23: return "MultiplexBuffer";
case 0x24: return "Content labeling";
case 0x25: return "Metadata association";
case 0x26: return "Metadata";
case 0x27: return "Metadata STD";
case 0x28: return "AVC video";
case 0x29: return "MPEG-2 IPMP";
case 0x2A: return "AVC timing and HRD";
case 0x2B: return "MPEG-2 AAC Audio";
case 0x2C: return "FlexMuxTiming";
case 0x2D: return "MPEG-4 Text";
case 0x2E: return "MPEG-4 Audio Extension";
case 0x2F: return "Auxiliary Video Stream";
case 0x30: return "SVC Extension";
case 0x31: return "MVC Extension";
case 0x32: return "J2K Video";
case 0x33: return "MVC Operation Point";
case 0x34: return "MPEG-2 Stereoscopic Video Format";
case 0x35: return "Stereoscopic Program Info";
case 0x36: return "Stereoscopic Video Info";
case 0x37: return "Transport Profile";
case 0x38: return "HEVC Video";
case 0x3F: return "MPEG-2 Extension";
// Valid in DVB context:
case 0x45: return "VBI data";
case 0x46: return "VBI teletext";
case 0x51: return "mosaic";
case 0x52: return "stream identifier";
case 0x56: return "teletext";
case 0x59: return "subtitling"; // with stream type 0x06
case 0x5F: return "private data specifier";
case 0x60: return "service move";
case 0x65: return "scrambling";
case 0x66: return "data broadcast id";
case 0x6A: return "AC-3"; // with stream type 0x06
case 0x6B: return "ancillary data";
case 0x6F: return "application signalling";
case 0x70: return "adaptation field data";
case 0x74: return "related content";
case 0x78: return "ECM repetition rate";
case 0x7A: return "enhanced AC-3"; // with stream type 0x06
case 0x7B: return "DTS"; // with stream type 0x06
case 0x7C: return "AAC"; // with stream type 0x06
case 0x7D: return "XAIT location";
case 0x7F: return "DVB extension";
// Valid in ATSC context:
case 0x81: return "AC-3"; // with stream type 0x81
case 0xCC: return "enhanced AC-3"; // with stream type 0x87
default: return "user private";
}
}
static const char *get_extension_descriptor_txt(uint8_t extension_tag)
{
switch(extension_tag)
{
case 0x02: return "CP";
case 0x06: return "supplementary audio";
case 0x0E: return "DTS-HD"; // with stream type 0x06
case 0x0F: return "DTS Neural"; // with stream type 0x06
case 0x11: return "T2MI";
case 0x13: return "URI linkage";
case 0x15: return "AC-4"; // with stream type 0x06
case 0x18: return "protection message";
case 0x19: return "audio preselection";
case 0x20: return "TTML subtitling"; // with stream type 0x06
default: return "Undefined";
}
}
void flush_read_fd(int32_t demux_id, int32_t num, int fd)
{
if(!cfg.dvbapi_listenport && cfg.dvbapi_boxtype != BOXTYPE_PC_NODMX)
{
cs_log_dbg(D_DVBAPI,"Demuxer %d flushing stale input data of filter %d (fd:%d)", demux_id, num + 1, fd);
fd_set rd;
struct timeval t;
char buff[100];
t.tv_sec = 0;
t.tv_usec = 0;
FD_ZERO(&rd);
FD_SET(fd, &rd);
while(select(fd + 1, &rd, NULL, NULL, &t) > 0)
{
if(read(fd, buff, 100)) { ; }
}
}
}
static int dvbapi_ioctl(int fd, uint32_t request, ...)
{
int ret = 0;
va_list args;
va_start(args, request);
if(!(cfg.dvbapi_boxtype == BOXTYPE_SAMYGO))
{
void *param = va_arg(args, void *);
ret = ioctl(fd, request, param);
}
else
{
switch(request)
{
case DMX_SET_FILTER:
{
struct dmx_sct_filter_params *sFP = va_arg(args, struct dmx_sct_filter_params *);
//fix filter for samygo
//note: we only have 14 available filter bytes (instead of 16) on samygo
memmove(&sFP->filter.filter[3], &sFP->filter.filter[1], 13);
memset(&sFP->filter.filter[1], 0, 2);
memmove(&sFP->filter.mask[3], &sFP->filter.mask[1], 13);
memset(&sFP->filter.mask[1], 0, 2);
// prepare packet
uint8_t packet[sizeof(request) + sizeof(struct dmx_sct_filter_params)];
memcpy(&packet, &request, sizeof(request));
memcpy(&packet[sizeof(request)], sFP, sizeof(struct dmx_sct_filter_params));
ret = send(fd, packet, sizeof(packet), 0);
break;
}
case DMX_SET_FILTER1:
{
cs_log("error: samygo does not support DMX_SET_FILTER1");
ret = -1;
break;
}
case DMX_STOP:
{
ret = send(fd, &request, sizeof(request), 0);
if(!(ret == 1)){ ret = 1; }
break;
}
case CA_GET_DESCR_INFO:
{
ca_descr_info_t *ca_descr_info = va_arg(args, ca_descr_info_t *);
// preparing packet
uint8_t packet[sizeof(request) + sizeof(ca_descr_info_t)];
memcpy(&packet[0], &request, sizeof(request));
memcpy(&packet[sizeof(request)], ca_descr_info, sizeof(ca_descr_info_t));
// sending data to UDP
ret = send(fd, &packet[0], sizeof(packet), 0);
break;
}
case CA_SET_DESCR:
{
ca_descr_t *ca_descr = va_arg(args, ca_descr_t *);
// preparing packet
uint8_t packet[sizeof(request) + sizeof(ca_descr_t)];
memcpy(&packet[0], &request, sizeof(request));
memcpy(&packet[sizeof(request)], ca_descr, sizeof(ca_descr_t));
// sending data to UDP
ret = send(fd, &packet[0], sizeof(packet), 0);
break;
}
case CA_SET_PID:
{
ca_pid_t *ca_pid2 = va_arg(args, ca_pid_t *);
// preparing packet
uint8_t packet[sizeof(request) + sizeof(ca_pid_t)];
memcpy(&packet[0], &request, sizeof(request));
memcpy(&packet[sizeof(request)], ca_pid2, sizeof(ca_pid_t));
// sending data to UDP
ret = send(fd, &packet[0], sizeof(packet), 0);
break;
}
case CA_SET_DESCR_MODE:
{
cs_log("error: samygo does not support CA_SET_DESCR_MODE");
ret = -1;
break;
}
case CA_SET_DESCR_DATA:
{
cs_log("error: samygo does not support CA_SET_DESCR_DATA");
ret = -1;
break;
}
}
if(ret > 0) // send() may return larger than 1
{
ret = 1;
}
}
#if defined(__powerpc__)
// Old dm500 boxes (ppc old) are using broken kernel, se we need some fixups
switch (request)
{
case DMX_STOP:
case CA_SET_DESCR:
case CA_SET_PID:
ret = 1;
}
#endif
// FIXME: Workaround for su980 bug
// See: https://board.streamboard.tv/?postid=533940
if(boxtype_is("su980"))
{
ret = 1;
}
va_end(args);
return ret;
}
// tunemm_caid_map
#define FROM_TO 0
#define TO_FROM 1
int32_t pausecam = 0, disable_pmt_files = 0;
DEMUXTYPE demux[MAX_DEMUX];
struct s_dvbapi_priority *dvbapi_priority;
struct s_client *dvbapi_client;
const char *boxdesc[] = { "none", "dreambox", "duckbox", "ufs910", "dbox2", "ipbox", "ipbox-pmt",
"dm7000", "qboxhd", "coolstream", "neumo", "pc", "pc-nodmx", "samygo" };
// when updating devices[BOX_COUNT] make sure to update these index defines
#define BOX_INDEX_QBOXHD 0
#define BOX_INDEX_DREAMBOX_DVBAPI3 1
#define BOX_INDEX_COOLSTREAM 6
static const struct box_devices devices[BOX_COUNT] =
{
/* QboxHD (dvb-api-3)*/ { "/tmp/virtual_adapter/", "ca%d", "demux%d", "/tmp/camd.socket", DVBAPI_3 },
/* dreambox (dvb-api-3)*/ { "/dev/dvb/adapter%d/", "ca%d", "demux%d", "/tmp/camd.socket", DVBAPI_3 },
/* wetek (dvb-api-3)*/ { "/dev/dvb%d.", "ca%d", "demux%d", "/tmp/camd.socket", DVBAPI_3 },
/* dreambox (dvb-api-1)*/ { "/dev/dvb/card%d/", "ca%d", "demux%d", "/tmp/camd.socket", DVBAPI_1 },
/* neumo (dvb-api-1)*/ { "/dev/", "demuxapi", "demuxapi", "/tmp/camd.socket", DVBAPI_1 },
#ifdef WITH_STAPI5
/* sh4 (stapi5)*/ { "/dev/stapi/", "stpti5_ioctl", "stpti5_ioctl", "/tmp/camd.socket", STAPI },
#else
/* sh4 (stapi)*/ { "/dev/stapi/", "stpti4_ioctl", "stpti4_ioctl", "/tmp/camd.socket", STAPI },
#endif
/* coolstream*/ { "/dev/cnxt/", "null", "null", "/tmp/camd.socket", COOLAPI },
};
static int32_t selected_box = -1;
static int32_t selected_api = -1;
static int32_t maxfilter = MAX_FILTER;
static int32_t dir_fd = -1;
static uint16_t last_client_proto_version = 0;
static char *last_client_name = NULL;
static uint32_t ca_descramblers_total = 0; // total number of available descramblers in box
static uint32_t ca_descramblers_used = 0; // total number of used descramblers during decoding
static int32_t ca_fd[CA_MAX]; // holds fd handle of all ca devices (0 not in use)
static LLIST *ll_activestreampids; // list of all enabled streampids on ca devices
static int32_t assoc_fd[MAX_ASSOC_FD]; // list of all client sockets
bool is_dvbapi_usr(char *usr)
{
return streq(cfg.dvbapi_usr, usr);
}
struct s_emm_filter
{
int32_t demux_id;
uint8_t filter[32];
uint16_t caid;
uint32_t provid;
uint16_t pid;
uint32_t num;
struct timeb time_started;
};
static LLIST *ll_emm_active_filter;
static LLIST *ll_emm_inactive_filter;
static LLIST *ll_emm_pending_filter;
int32_t add_emmfilter_to_list(int32_t demux_id, uint8_t *filter, uint16_t caid, uint32_t provid, uint16_t emmpid, int32_t num, bool enable)
{
if(!ll_emm_active_filter)
{
ll_emm_active_filter = ll_create("ll_emm_active_filter");
}
if(!ll_emm_inactive_filter)
{
ll_emm_inactive_filter = ll_create("ll_emm_inactive_filter");
}
if(!ll_emm_pending_filter)
{
ll_emm_pending_filter = ll_create("ll_emm_pending_filter");
}
struct s_emm_filter *filter_item;
if(!cs_malloc(&filter_item, sizeof(struct s_emm_filter)))
{
return 0;
}
filter_item->demux_id = demux_id;
memcpy(filter_item->filter, filter, 32);
filter_item->caid = caid;
filter_item->provid = provid;
filter_item->pid = emmpid;
filter_item->num = num;
if(enable)
{
cs_ftime(&filter_item->time_started);
}
else
{
memset(&filter_item->time_started, 0, sizeof(filter_item->time_started));
}
if(num > 0)
{
ll_append(ll_emm_active_filter, filter_item);
cs_log_dbg(D_DVBAPI, "Demuxer %d Filter %d added to active emmfilters (CAID %04X PROVID %06X EMMPID %04X)",
filter_item->demux_id, filter_item->num, filter_item->caid, filter_item->provid, filter_item->pid);
}
else if(num < 0)
{
ll_append(ll_emm_pending_filter, filter_item);
cs_log_dbg(D_DVBAPI, "Demuxer %d Filter added to pending emmfilters (CAID %04X PROVID %06X EMMPID %04X)",
filter_item->demux_id, filter_item->caid, filter_item->provid, filter_item->pid);
}
else
{
ll_append(ll_emm_inactive_filter, filter_item);
cs_log_dbg(D_DVBAPI, "Demuxer %d Filter added to inactive emmfilters (CAID %04X PROVID %06X EMMPID %04X)",
filter_item->demux_id, filter_item->caid, filter_item->provid, filter_item->pid);
}
return 1;
}
int32_t is_emmfilter_in_list_internal(LLIST *ll, uint8_t *filter, uint16_t emmpid, uint32_t provid, uint16_t caid)
{
struct s_emm_filter *filter_item;
LL_ITER itr;
if(ll_count(ll) > 0)
{
itr = ll_iter_create(ll);
while((filter_item = ll_iter_next(&itr)) != NULL)
{
if(!memcmp(filter_item->filter, filter, 32) && (filter_item->pid == emmpid)
&& (filter_item->provid == provid) && (filter_item->caid == caid))
{
return 1;
}
}
}
return 0;
}
int32_t is_emmfilter_in_list(uint8_t *filter, uint16_t emmpid, uint32_t provid, uint16_t caid)
{
if(!ll_emm_active_filter)
{
ll_emm_active_filter = ll_create("ll_emm_active_filter");
}
if(!ll_emm_inactive_filter)
{
ll_emm_inactive_filter = ll_create("ll_emm_inactive_filter");
}
if(!ll_emm_pending_filter)
{
ll_emm_pending_filter = ll_create("ll_emm_pending_filter");
}
if(is_emmfilter_in_list_internal(ll_emm_active_filter, filter, emmpid, provid, caid)
|| is_emmfilter_in_list_internal(ll_emm_inactive_filter, filter, emmpid, provid, caid)
|| is_emmfilter_in_list_internal(ll_emm_pending_filter, filter, emmpid, provid, caid))
{
return 1;
}
return 0;
}
struct s_emm_filter *get_emmfilter_by_filternum_internal(LLIST *ll, int32_t demux_id, uint32_t num)
{
struct s_emm_filter *filter;
LL_ITER itr;
if(ll_count(ll) > 0)
{
itr = ll_iter_create(ll);
while((filter = ll_iter_next(&itr)))
{
if(filter->demux_id == demux_id && filter->num == num)
{
return filter;
}
}
}
return NULL;
}
struct s_emm_filter *get_emmfilter_by_filternum(int32_t demux_id, uint32_t num)
{
if(!ll_emm_active_filter)
{
ll_emm_active_filter = ll_create("ll_emm_active_filter");
}
if(!ll_emm_inactive_filter)
{
ll_emm_inactive_filter = ll_create("ll_emm_inactive_filter");
}
if(!ll_emm_pending_filter)
{
ll_emm_pending_filter = ll_create("ll_emm_pending_filter");
}
struct s_emm_filter *emm_filter = NULL;
emm_filter = get_emmfilter_by_filternum_internal(ll_emm_active_filter, demux_id, num);
if(emm_filter)
{
return emm_filter;
}
emm_filter = get_emmfilter_by_filternum_internal(ll_emm_inactive_filter, demux_id, num);
if(emm_filter)
{
return emm_filter;
}
emm_filter = get_emmfilter_by_filternum_internal(ll_emm_pending_filter, demux_id, num);
if(emm_filter)
{
return emm_filter;
}
return NULL;
}
int8_t remove_emmfilter_from_list_internal(LLIST *ll, int32_t demux_id, uint16_t caid, uint32_t provid, uint16_t pid, uint32_t num)
{
struct s_emm_filter *filter;
LL_ITER itr;
if(ll_count(ll) > 0)
{
itr = ll_iter_create(ll);
while((filter = ll_iter_next(&itr)))
{
if(filter->demux_id == demux_id && filter->caid == caid && filter->provid == provid && filter->pid == pid && filter->num == num)
{
ll_iter_remove_data(&itr);
return 1;
}
}
}
return 0;
}
void remove_emmfilter_from_list(int32_t demux_id, uint16_t caid, uint32_t provid, uint16_t pid, uint32_t num)
{
if((ll_emm_active_filter && remove_emmfilter_from_list_internal(ll_emm_active_filter, demux_id, caid, provid, pid, num))
|| (ll_emm_inactive_filter && remove_emmfilter_from_list_internal(ll_emm_inactive_filter, demux_id, caid, provid, pid, num))
|| (ll_emm_pending_filter && remove_emmfilter_from_list_internal(ll_emm_pending_filter, demux_id, caid, provid, pid, num)))
{
return;
}
}
void dvbapi_net_add_str(uint8_t *packet, int *size, const char *str)
{
uint8_t *str_len = &packet[*size]; // string length
*size += 1;
*str_len = snprintf((char *) &packet[*size], DVBAPI_MAX_PACKET_SIZE - *size, "%s", str);
*size += *str_len;
}
int32_t dvbapi_net_send(uint32_t request, int32_t socket_fd, uint32_t msgid, int32_t demux_id,
uint32_t filter_number, uint8_t *data, struct s_client *client, ECM_REQUEST *er, uint16_t client_proto_version)
{
uint8_t packet[DVBAPI_MAX_PACKET_SIZE]; // maximum possible packet size
int32_t size = 0;
uint32_t u32;
// not connected?
if(socket_fd <= 0)
{
return 0;
}
// preparing packet - header
// in old protocol client expect this first byte as adapter index,
// changed in the new protocol to be always after request type (opcode)
if(client_proto_version <= 0)
{
packet[size++] = demux[demux_id].adapter_index; // adapter index - 1 byte
}
else if(client_proto_version >= 3)
{
packet[size++] = 0xa5; // message start
u32 = htonl(msgid);
memcpy(&packet[size], &u32, 4);
size += 4;
}
// type of request
u32 = request;
if(client_proto_version >= 1)
{
u32 = htonl(u32);
}
memcpy(&packet[size], &u32, 4);
size += 4;
// preparing packet - adapter index for proto >= 1
if((request != DVBAPI_SERVER_INFO) && client_proto_version >= 1)
{
packet[size++] = demux[demux_id].adapter_index; // adapter index - 1 byte
}
// struct with data
switch(request)
{
case DVBAPI_SERVER_INFO:
{
int16_t proto_version = htons(DVBAPI_PROTOCOL_VERSION); // our protocol version
char capabilities[128];
memset(capabilities, 0, sizeof(capabilities));
memcpy(&packet[size], &proto_version, 2);
size += 2;
uint8_t *info_len = &packet[size]; // info string length
size += 1;
if(cfg.dvbapi_extended_cw_api == 1)
{
cs_strncat(capabilities, ",e1mk", sizeof(capabilities)); // extended cw, key follows mode - supports CSA, DES, AES128
}
if(cfg.dvbapi_extended_cw_api == 2)
{
cs_strncat(capabilities, ",e2", sizeof(capabilities)); // usage of DES algo signalled through PID index - CSA and DES only
}
*info_len = snprintf((char *) &packet[size], sizeof(packet) - size, "OSCam v%s, build r%s (%s); %s",
CS_VERSION, CS_SVN_VERSION, CS_TARGET, capabilities + 1);
size += *info_len;
break;
}
case DVBAPI_ECM_INFO:
{
if(er->rc >= E_NOTFOUND)
{
return 0;
}
int8_t hops = 0;
uint16_t sid = htons(er->srvid); // service ID (program number)
memcpy(&packet[size], &sid, 2);
size += 2;
uint16_t caid = htons(er->caid); // CAID
memcpy(&packet[size], &caid, 2);
size += 2;
uint16_t pid = htons(er->pid); // PID
memcpy(&packet[size], &pid, 2);
size += 2;
uint32_t prid = htonl(er->prid); // Provider ID
memcpy(&packet[size], &prid, 4);
size += 4;
uint32_t ecmtime = htonl(client->cwlastresptime); // ECM time
memcpy(&packet[size], &ecmtime, 4);
size += 4;
dvbapi_net_add_str(packet, &size, get_cardsystem_desc_by_caid(er->caid)); // cardsystem name
switch (er->rc)
{
case E_FOUND:
if(er->selected_reader)
{
dvbapi_net_add_str(packet, &size, er->selected_reader->label); // reader
if(is_network_reader(er->selected_reader))
{
dvbapi_net_add_str(packet, &size, er->selected_reader->device); // from
}
else
{
dvbapi_net_add_str(packet, &size, "local"); // from
}
dvbapi_net_add_str(packet, &size, reader_get_type_desc(er->selected_reader, 1)); // protocol
hops = er->selected_reader->currenthops;
}
break;
case E_CACHE1:
dvbapi_net_add_str(packet, &size, "Cache"); // reader
dvbapi_net_add_str(packet, &size, "cache1"); // from
dvbapi_net_add_str(packet, &size, "none"); // protocol
break;
case E_CACHE2:
dvbapi_net_add_str(packet, &size, "Cache"); // reader
dvbapi_net_add_str(packet, &size, "cache2"); // from
dvbapi_net_add_str(packet, &size, "none"); // protocol
break;
case E_CACHEEX:
dvbapi_net_add_str(packet, &size, "Cache"); // reader
dvbapi_net_add_str(packet, &size, "cache3"); // from
dvbapi_net_add_str(packet, &size, "none"); // protocol
break;
}
packet[size++] = hops; // hops
break;
}
case DVBAPI_CA_GET_DESCR_INFO:
{
int sct_cadescr_info_size = sizeof(ca_descr_info_t);
if(client_proto_version >= 1)
{
ca_descr_info_t *cadescr_info = (ca_descr_info_t *) data;
cadescr_info->num = htonl(cadescr_info->num);
cadescr_info->type = htonl(cadescr_info->type);
}
memcpy(&packet[size], data, sct_cadescr_info_size);
size += sct_cadescr_info_size;
break;
}
case DVBAPI_CA_SET_DESCR:
{
int sct_cadescr_size = sizeof(ca_descr_t);
if(client_proto_version >= 1)
{
ca_descr_t *cadesc = (ca_descr_t *) data;
cadesc->index = htonl(cadesc->index);
cadesc->parity = htonl(cadesc->parity);
}
memcpy(&packet[size], data, sct_cadescr_size);
size += sct_cadescr_size;
break;
}
case DVBAPI_CA_SET_PID:
{
int sct_capid_size = sizeof(ca_pid_t);
if(client_proto_version >= 1)
{
ca_pid_t *capid = (ca_pid_t *) data;
capid->pid = htonl(capid->pid);
capid->index = htonl(capid->index);
}
memcpy(&packet[size], data, sct_capid_size);
size += sct_capid_size;
break;
}
case DVBAPI_CA_SET_DESCR_MODE:
{
int sct_cadescr_mode_size = sizeof(ca_descr_mode_t);
if(client_proto_version >= 1)
{
ca_descr_mode_t *cadesc_mode = (ca_descr_mode_t *) data;
cadesc_mode->index = htonl(cadesc_mode->index);
cadesc_mode->algo = htonl(cadesc_mode->algo);
cadesc_mode->cipher_mode = htonl(cadesc_mode->cipher_mode);
}
memcpy(&packet[size], data, sct_cadescr_mode_size);
size += sct_cadescr_mode_size;
break;
}
case DVBAPI_CA_SET_DESCR_DATA:
{
ca_descr_data_t *cadesc_data = (ca_descr_data_t *) data;
uint32_t length = cadesc_data->length;
if(client_proto_version >= 1)
{
cadesc_data->index = htonl(cadesc_data->index);
cadesc_data->parity = htonl(cadesc_data->parity);
cadesc_data->data_type = htonl(cadesc_data->data_type);
cadesc_data->length = htonl(cadesc_data->length);
}
memcpy(&packet[size], &cadesc_data->index, 4);
memcpy(&packet[size + 4], &cadesc_data->parity, 4);
memcpy(&packet[size + 8], &cadesc_data->data_type, 4);
memcpy(&packet[size + 12], &cadesc_data->length, 4);
memcpy(&packet[size + 16], cadesc_data->data, length);
size += 16 + length;
break;
}
case DVBAPI_DMX_SET_FILTER:
case DVBAPI_DMX_STOP:
{
int32_t sct_filter_size = sizeof(struct dmx_sct_filter_params);
packet[size++] = demux_id; // demux id - 1 byte
packet[size++] = filter_number; // filter number - 1 byte
if(data) // filter data when starting
{
if(client_proto_version >= 1)
{
struct dmx_sct_filter_params *fp = (struct dmx_sct_filter_params *)data;
// adding all dmx_sct_filter_params structure fields
// one by one to avoid padding problems
uint16_t pid = htons(fp->pid);
memcpy(&packet[size], &pid, 2);
size += 2;
memcpy(&packet[size], fp->filter.filter, 16);
size += 16;
memcpy(&packet[size], fp->filter.mask, 16);
size += 16;
memcpy(&packet[size], fp->filter.mode, 16);
size += 16;
uint32_t timeout = htonl(fp->timeout);
memcpy(&packet[size], &timeout, 4);
size += 4;
uint32_t flags = htonl(fp->flags);
memcpy(&packet[size], &flags, 4);
size += 4;
}
else
{
memcpy(&packet[size], data, sct_filter_size); // dmx_sct_filter_params struct
size += sct_filter_size;
}
}
else // pid when stopping
{
if(client_proto_version >= 1)
{
uint16_t pid = htons(demux[demux_id].demux_fd[filter_number].pid);
memcpy(&packet[size], &pid, 2);
size += 2;
}
else
{
uint16_t pid = demux[demux_id].demux_fd[filter_number].pid;
packet[size++] = pid >> 8;
packet[size++] = pid & 0xff;
}
}
break;
}
default: // unknown request
{
cs_log("ERROR: dvbapi_net_send: invalid request");
return 0;
}
}
// sending
cs_log_dump_dbg(D_DVBAPI, packet, size, "Sending packet to dvbapi client (fd=%d):", socket_fd);
send(socket_fd, &packet, size, MSG_DONTWAIT);
// always returning success as the client could close socket
return 0;
}
int32_t dvbapi_set_filter(int32_t demux_id, int32_t api, uint16_t pid, uint16_t caid, uint32_t provid,
uint8_t *filt, uint8_t *mask, int32_t timeout, int32_t pidindex, int32_t type, int8_t add_to_emm_list)
{
int32_t ret = -1, n = -1, i, filterfd = -1;
for(i = 0; i < maxfilter && demux[demux_id].demux_fd[i].fd > 0; i++) { ; }
if(i >= maxfilter)
{
cs_log_dbg(D_DVBAPI, "no free filter");
return -1;
}
n = i;
if(USE_OPENXCAS)
{
if(type == TYPE_ECM)
{
openxcas_set_caid(demux[demux_id].ECMpids[pidindex].CAID);
openxcas_set_ecm_pid(pid);
}
demux[demux_id].demux_fd[n].fd = DUMMY_FD;
demux[demux_id].demux_fd[n].pidindex = pidindex;
demux[demux_id].demux_fd[n].pid = pid;
demux[demux_id].demux_fd[n].caid = caid;
demux[demux_id].demux_fd[n].provid = provid;
demux[demux_id].demux_fd[n].type = type;
memcpy(demux[demux_id].demux_fd[n].filter, filt, 16); // copy filter to check later on if receiver delivered accordingly
memcpy(demux[demux_id].demux_fd[n].mask, mask, 16); // copy mask to check later on if receiver delivered accordingly
return 1;
}
switch(api)
{
case DVBAPI_3:
{
if(cfg.dvbapi_listenport || cfg.dvbapi_boxtype == BOXTYPE_PC_NODMX)
{
ret = filterfd = DUMMY_FD;
}
else
{
ret = filterfd = dvbapi_open_device(0, demux[demux_id].demux_index, demux[demux_id].adapter_index);
}
if(ret < 0)
{
return ret; // return if device cant be opened!
}
struct dmx_sct_filter_params sFP2;
memset(&sFP2, 0, sizeof(sFP2));
sFP2.pid = pid;
sFP2.timeout = timeout;
sFP2.flags = DMX_IMMEDIATE_START;
if(cfg.dvbapi_boxtype == BOXTYPE_NEUMO)
{
//DeepThought: on dgs/cubestation and neumo images, perhaps others
//the following code is needed to descramble
sFP2.filter.filter[0] = filt[0];
sFP2.filter.mask[0] = mask[0];
sFP2.filter.filter[1] = 0;
sFP2.filter.mask[1] = 0;
sFP2.filter.filter[2] = 0;
sFP2.filter.mask[2] = 0;
memcpy(sFP2.filter.filter + 3, filt + 1, 16 - 3);
memcpy(sFP2.filter.mask + 3, mask + 1, 16 - 3);
//DeepThought: in the drivers of the dgs/cubestation and neumo images,
//dvbapi 1 and 3 are somehow mixed. In the kernel drivers, the DMX_SET_FILTER
//ioctl expects to receive a dmx_sct_filter_params structure (DVBAPI 3) but
//due to a bug its sets the "positive mask" wrongly (they should be all 0).
//On the other hand, the DMX_SET_FILTER1 ioctl also uses the dmx_sct_filter_params
//structure, which is incorrect (it should be dmxSctFilterParams).
//The only way to get it right is to call DMX_SET_FILTER1 with the argument
//expected by DMX_SET_FILTER. Otherwise, the timeout parameter is not passed correctly.
ret = dvbapi_ioctl(filterfd, DMX_SET_FILTER1, &sFP2);
}
else
{
memcpy(sFP2.filter.filter, filt, 16);
memcpy(sFP2.filter.mask, mask, 16);
if(cfg.dvbapi_listenport || cfg.dvbapi_boxtype == BOXTYPE_PC_NODMX)
{
ret = dvbapi_net_send(DVBAPI_DMX_SET_FILTER,
demux[demux_id].socket_fd,
0,
demux_id,
n,
(uint8_t *) &sFP2,
NULL,
NULL,
demux[demux_id].client_proto_version);
}
else