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module-dvbapi-mca.c
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module-dvbapi-mca.c
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#define MODULE_LOG_PREFIX "dvbmca"
/**
* dvbapi-support for Matrix Cam Air
*
* The code is based partially on module-dvbapi-azbox.
* the (closed source) ncam that comes with the MCA is
* apparently based on svn-revision 5124-5242.
* DEMUXMATRIX is essentially the old DEMUXTYPE which
* has changed since then.
*
* We may be able to implement add/remove-filter
* by adding/removing them from DEMUXMATRIX
* and reexecute mca_write_flt
* In some cases the MCA will send ECMs for multiple PIDS
* So it is apparently able to handle multiple filters
*
* @author dirtyharry123
*/
#include "globals.h"
#if defined(HAVE_DVBAPI) && defined(WITH_MCA)
#include "extapi/openxcas/openxcas_message.h"
#include "module-dvbapi.h"
#include "module-dvbapi-mca.h"
#include "ncam-client.h"
#include "ncam-ecm.h"
#include "ncam-reader.h"
#include "ncam-string.h"
#include "ncam-time.h"
int8_t dummy(void)
{
return 0;
}
#define openxcas_start_filter_ex(...) dummy()
#define openxcas_stop_filter_ex(...) dummy()
#define openxcas_get_message mca_get_message
#define azbox_openxcas_ex_callback mca_ex_callback
#define openxcas_stop_filter(...) do { } while(0)
#define openxcas_remove_filter(...) do { } while(0)
#define openxcas_destory_cipher_ex(...) do { } while(0)
// These variables are declared in module-dvbapi.c
extern void *dvbapi_client;
extern DEMUXTYPE demux[MAX_DEMUX];
// These are used in module-dvbapi.c
int32_t openxcas_provid;
uint16_t openxcas_sid, openxcas_caid, openxcas_ecm_pid;
static uint8_t openxcas_cw[16];
static int32_t openxcas_seq, openxcas_filter_idx, openxcas_stream_id, openxcas_cipher_idx, openxcas_busy = 0;
static uint16_t openxcas_video_pid, openxcas_audio_pid, openxcas_data_pid;
static uint8_t found[MAX_DEMUX];
static int fd_mdvbi = -1;
static int fd_mdesc = -1;
static int fd_mflt = -1;
#define MCA_DVBI "/tmp/mdvbi"
#define MCA_DESC "/tmp/mdesc"
#define MCA_FLT "/tmp/mflt"
enum eOPENXCAS_FILTER_TYPE
{
OPENXCAS_FILTER_UNKNOWN = 0,
OPENXCAS_FILTER_ECM,
OPENXCAS_FILTER_EMM,
};
#define ECM_PIDS_MATRIX 20
#define MAX_FILTER_MATRIX 10
struct s_ecmpids_matrix
{
uint16_t CAID;
uint32_t PROVID;
uint16_t ECM_PID;
uint16_t EMM_PID;
int32_t irdeto_maxindex;
int32_t irdeto_curindex;
int32_t irdeto_cycle;
int32_t checked;
int32_t status;
uint8_t table;
int32_t index;
uint32_t streams;
};
typedef struct filter_s_matrix
{
uint32_t fd; //FilterHandle
int32_t pidindex;
int32_t pid;
uint16_t type;
int32_t count;
} FILTERTYPE_MATRIX;
struct s_emmpids_matrix
{
uint16_t CAID;
uint32_t PROVID;
uint16_t PID;
uint8_t type;
};
typedef struct demux_s_matrix
{
int32_t demux_index;
FILTERTYPE_MATRIX demux_fd[MAX_FILTER_MATRIX];
int32_t ca_mask;
int32_t adapter_index;
int32_t socket_fd;
int32_t ECMpidcount;
struct s_ecmpids_matrix ECMpids[ECM_PIDS_MATRIX];
int32_t EMMpidcount;
struct s_emmpids_matrix EMMpids[ECM_PIDS_MATRIX];
int32_t STREAMpidcount;
uint16_t STREAMpids[ECM_PIDS_MATRIX];
int32_t pidindex;
int32_t curindex;
int32_t tries;
int32_t max_status;
uint16_t program_number;
uint8_t lastcw[2][8];
int32_t emm_filter;
uint8_t hexserial[8];
struct s_reader *rdr;
char pmt_file[30];
int32_t pmt_time;
} DEMUXMATRIX;
static int mca_open(void)
{
if((fd_mdvbi = open(MCA_DVBI, O_RDONLY)) < 0)
{
cs_log("can't open \"%s\" (err=%d %s)", MCA_DVBI, errno, strerror(errno));
return -1;
}
if((fd_mdesc = open(MCA_DESC, O_WRONLY)) < 0)
{
cs_log("can't open \"%s\" (err=%d %s)", MCA_DESC, errno, strerror(errno));
return -1;
}
if((fd_mflt = open(MCA_FLT, O_WRONLY)) < 0)
{
cs_log("can't open \"%s\" (err=%d %s)", MCA_FLT, errno, strerror(errno));
return -1;
}
return 0;
}
static int mca_exit(void)
{
if((fd_mdvbi = close(fd_mdvbi)) < 0)
{
cs_log("can't close \"%s\" (err=%d %s)", MCA_DVBI, errno, strerror(errno));
return -1;
}
if((fd_mdvbi = close(fd_mdesc)) < 0)
{
cs_log("can't close \"%s\" (err=%d %s)", MCA_DESC, errno, strerror(errno));
return -1;
}
if((fd_mdvbi = close(fd_mflt)) < 0)
{
cs_log("can't close \"%s\" (err=%d %s)", MCA_FLT, errno, strerror(errno));
return -1;
}
return 0;
}
void mca_init(void)
{
if(mca_open() < 0)
{
cs_log("could not init");
}
}
void mca_close(void)
{
if(mca_exit() < 0)
{
cs_log("could not close");
}
}
static int mca_get_message(openxcas_msg_t *message, int timeout)
{
int rval = -1;
struct pollfd mdvbi_poll_fd;
mdvbi_poll_fd.fd = fd_mdvbi;
mdvbi_poll_fd.events = POLLIN | POLLPRI;
rval = poll(&mdvbi_poll_fd, 1, timeout == 0 ? -1 : timeout);
if((rval >= 1) && (mdvbi_poll_fd.revents & (POLLIN | POLLPRI)))
{
rval = read(fd_mdvbi, message, 568);
}
else { rval = -1; }
return rval;
}
static int mca_write_flt(DEMUXMATRIX *demux_matrix, int timeout)
{
int rval = -1;
struct pollfd mflt_poll_fd;
mflt_poll_fd.fd = fd_mflt;
mflt_poll_fd.events = POLLOUT;
rval = poll(&mflt_poll_fd, 1, timeout);
if((rval >= 1) && (mflt_poll_fd.revents & POLLOUT))
{
rval = write(fd_mflt, demux_matrix, sizeof(DEMUXMATRIX));
}
else { rval = -1; }
return rval;
}
static int mca_set_key(uint8_t *mca_cw)
{
int rval = -1;
struct pollfd mdesc_poll_fd;
mdesc_poll_fd.fd = fd_mdesc;
mdesc_poll_fd.events = POLLOUT;
rval = poll(&mdesc_poll_fd, 1, 0);
if((rval >= 1) && (mdesc_poll_fd.revents & POLLOUT))
{
rval = write(fd_mdesc, mca_cw, 16);
}
else { rval = -1; }
return rval;
}
static int mca_capmt_remove_duplicates(uint8_t *capmt, int len)
{
int i, newlen = len;
uint16_t descriptor_length = 0;
uint32_t program_info_length = ((capmt[4] & 0x0F) << 8) | capmt[5];
for(i = 7; i < len; i += descriptor_length + 2)
{
descriptor_length = capmt[i + 1];
if(capmt[i] != 0x09) { continue; }
if(!memcmp(&(capmt[i]), &(capmt[i + descriptor_length + 2]), descriptor_length + 2))
{
memmove(&(capmt[i + descriptor_length + 2]), &(capmt[i + (2 * (descriptor_length + 2))]), newlen - (descriptor_length + 2));
newlen -= descriptor_length + 2;
}
}
program_info_length -= (len - newlen);
capmt[4] = (uint8_t)((capmt[4] & 0xF0) | ((program_info_length & 0xF00) >> 8));
capmt[5] = (uint8_t)(program_info_length & 0x0FF);
return newlen;
}
static void mca_demux_convert(DEMUXTYPE *demux_orig, DEMUXMATRIX *demux_matrix)
{
int i = 0;
memset(demux_matrix, 0, sizeof(DEMUXMATRIX));
demux_matrix->demux_index = (int32_t)demux_orig->demux_index;
for(i = 0; i < MAX_FILTER_MATRIX; ++i)
{
demux_matrix->demux_fd[i].fd = (uint32_t) demux_orig->demux_fd[i].fd;
demux_matrix->demux_fd[i].pidindex = (int32_t) demux_orig->demux_fd[i].pidindex;
demux_matrix->demux_fd[i].pid = (int32_t) demux_orig->demux_fd[i].pid;
demux_matrix->demux_fd[i].type = (uint16_t) demux_orig->demux_fd[i].type;
demux_matrix->demux_fd[i].count = (int32_t) demux_orig->demux_fd[i].count;
}
demux_matrix->ca_mask = (int32_t)demux_orig->ca_mask;
demux_matrix->adapter_index = (int32_t)demux_orig->adapter_index;
demux_matrix->socket_fd = (int32_t)demux_orig->socket_fd;
demux_matrix->ECMpidcount = (int32_t)demux_orig->ECMpidcount;
for(i = 0; i < demux_matrix->ECMpidcount; ++i)
{
demux_matrix->ECMpids[i].CAID = (uint16_t)demux_orig->ECMpids[i].CAID;
demux_matrix->ECMpids[i].PROVID = (uint32_t)demux_orig->ECMpids[i].PROVID;
demux_matrix->ECMpids[i].ECM_PID = (uint16_t)demux_orig->ECMpids[i].ECM_PID;
demux_matrix->ECMpids[i].EMM_PID = (uint16_t)demux_orig->ECMpids[i].EMM_PID;
demux_matrix->ECMpids[i].irdeto_maxindex = (int32_t)demux_orig->ECMpids[i].irdeto_maxindex;
demux_matrix->ECMpids[i].irdeto_curindex = (int32_t)demux_orig->ECMpids[i].irdeto_curindex;
demux_matrix->ECMpids[i].irdeto_cycle = (int32_t)demux_orig->ECMpids[i].irdeto_cycle;
demux_matrix->ECMpids[i].checked = (int32_t)demux_orig->ECMpids[i].checked;
demux_matrix->ECMpids[i].status = (int32_t)demux_orig->ECMpids[i].status;
demux_matrix->ECMpids[i].table = (uint8_t)demux_orig->ECMpids[i].table;
demux_matrix->ECMpids[i].streams = (uint32_t)demux_orig->ECMpids[i].streams;
}
demux_matrix->STREAMpidcount = (int32_t)demux->STREAMpidcount;
memcpy(&demux_matrix->STREAMpids, &demux_orig->STREAMpids, demux_matrix->STREAMpidcount * sizeof(uint16_t));
demux_matrix->pidindex = (int32_t)demux_orig->pidindex;
demux_matrix->curindex = (int32_t)demux_orig->curindex;
demux_matrix->max_status = (int32_t)demux_orig->max_status;
demux_matrix->program_number = (uint16_t)demux_orig->program_number;
memcpy(&demux_matrix->lastcw[0], &demux_orig->last_cw[0][0], 8 * sizeof(uint8_t));
memcpy(&demux_matrix->lastcw[1], &demux_orig->last_cw[0][1], 8 * sizeof(uint8_t));
demux_matrix->emm_filter = (int32_t)demux_orig->emm_filter;
memcpy(&demux_matrix->hexserial, &demux_orig->hexserial, 8 * sizeof(uint8_t));
demux_matrix->rdr = (struct s_reader *)demux_orig->rdr;
memcpy(&demux_matrix->pmt_file, &demux_orig->pmt_file, 30);
demux_matrix->pmt_time = (int32_t)demux_orig->pmt_time;
}
static void mca_ecm_callback(int32_t stream_id, uint32_t UNUSED(seq), int32_t cipher_index, uint32_t caid, uint8_t *ecm_data, int32_t l, uint16_t pid)
{
cs_log_dbg(D_DVBAPI, "ecm callback received");
openxcas_stream_id = stream_id;
//openxcas_seq = seq;
//openxcas_caid = caid;
openxcas_ecm_pid = pid;
openxcas_busy = 1;
//char tmp[1024];
//As soon as we have received a valid CW we lock onto that CAID, otherwise we will have freezers.
if(openxcas_caid && caid && openxcas_caid != caid)
{
cs_log("ignoring caid: %04X, waiting for %04X", caid, openxcas_caid);
openxcas_busy = 0;
return;
}
if(l < 0 || l > MAX_ECM_SIZE)
{ return; }
ECM_REQUEST *er;
if(!(er = get_ecmtask()))
{ return; }
er->srvid = openxcas_sid;
er->caid = openxcas_caid;
er->pid = openxcas_ecm_pid;
er->prid = openxcas_provid;
er->ecmlen = l;
memcpy(er->ecm, ecm_data, er->ecmlen);
request_cw(dvbapi_client, er, 0, 0);
openxcas_stop_filter(openxcas_stream_id, OPENXCAS_FILTER_ECM);
openxcas_remove_filter(openxcas_stream_id, OPENXCAS_FILTER_ECM);
openxcas_cipher_idx = cipher_index;
struct timeb tp;
cs_ftime(&tp);
tp.time += 500;
}
static void mca_ex_callback(int32_t stream_id, uint32_t UNUSED(seq), int32_t idx, uint32_t pid, uint8_t *ecm_data, int32_t l)
{
cs_log_dbg(D_DVBAPI, "ex callback received");
openxcas_stream_id = stream_id;
openxcas_ecm_pid = pid;
openxcas_cipher_idx = idx; // is this really cipher_idx?
if(l < 0 || l > MAX_ECM_SIZE)
{ return; }
ECM_REQUEST *er;
if(!(er = get_ecmtask()))
{ return; }
er->srvid = openxcas_sid;
er->caid = openxcas_caid;
er->pid = openxcas_ecm_pid;
er->prid = openxcas_provid;
er->ecmlen = l;
memcpy(er->ecm, ecm_data, er->ecmlen);
request_cw(dvbapi_client, er, 0, 0);
if(openxcas_stop_filter_ex(stream_id, seq, openxcas_filter_idx) < 0)
{ cs_log("unable to stop ex filter"); }
else
{ cs_log_dbg(D_DVBAPI, "ex filter stopped"); }
uint8_t mask[12];
uint8_t comp[12];
memset(&mask, 0x00, sizeof(mask));
memset(&comp, 0x00, sizeof(comp));
mask[0] = 0xff;
comp[0] = ecm_data[0] ^ 1;
if((openxcas_filter_idx = openxcas_start_filter_ex(stream_id, seq, openxcas_ecm_pid, mask, comp, (void *)azbox_openxcas_ex_callback)) < 0)
{ cs_log("unable to start ex filter"); }
else
{ cs_log_dbg(D_DVBAPI, "ex filter started, pid = %x", openxcas_ecm_pid); }
}
static void *mca_main_thread(void *cli)
{
struct s_client *client = (struct s_client *) cli;
client->thread = pthread_self();
SAFE_SETSPECIFIC(getclient, cli);
dvbapi_client = cli;
struct s_auth *account;
int32_t ok = 0;
for(account = cfg.account; account; account = account->next)
{
if((ok = is_dvbapi_usr(account->usr)))
{ break; }
}
cs_auth_client(client, ok ? account : (struct s_auth *)(-1), "dvbapi");
dvbapi_read_priority();
openxcas_msg_t msg;
int32_t ret;
while((ret = openxcas_get_message(&msg, 0)) >= 0)
{
cs_sleepms(10);
if(ret)
{
openxcas_stream_id = msg.stream_id;
openxcas_seq = msg.sequence;
struct stOpenXCAS_Data data;
switch(msg.cmd)
{
case OPENXCAS_SELECT_CHANNEL:
cs_log_dbg(D_DVBAPI, "OPENXCAS_SELECT_CHANNEL");
// parse channel info
struct stOpenXCASChannel chan;
memcpy(&chan, msg.buf, msg.buf_len);
cs_log("channel change: sid = %x, vpid = %x. apid = %x", chan.service_id, chan.v_pid, chan.a_pid);
openxcas_video_pid = chan.v_pid;
openxcas_audio_pid = chan.a_pid;
openxcas_data_pid = chan.d_pid;
break;
case OPENXCAS_START_PMT_ECM:
//FIXME: Apparently this is what the original MCA-ncam does
cs_log_dbg(D_DVBAPI, "OPENXCAS_STOP_PMT_ECM");
memset(&demux, 0, sizeof(demux));
memset(&found, 0, sizeof(found));
cs_log_dbg(D_DVBAPI, "OPENXCAS_START_PMT_ECM");
// parse pmt
cs_log_dump_dbg(D_DVBAPI, msg.buf + 2, msg.buf_len - 2, "capmt:");
// For some reason the mca sometimes sends duplicate ECMpids,
// we remove them here so dvbapi will not try them twice.
int new_len = mca_capmt_remove_duplicates(msg.buf + 2, msg.buf_len - 2);
if(new_len < msg.buf_len - 2)
{ cs_log_dump_dbg(D_DVBAPI, msg.buf + 2, new_len, "capmt (duplicates removed):"); }
int demux_id = dvbapi_parse_capmt(msg.buf + 2, new_len, -1, NULL, 0, 0);
uint8_t mask[12];
uint8_t comp[12];
memset(&mask, 0x00, sizeof(mask));
memset(&comp, 0x00, sizeof(comp));
mask[0] = 0xfe;
comp[0] = 0x80;
if(demux_id < 0)
{
cs_log("could not parse pmt");
break;
}
//if ((ret = openxcas_add_filter(msg.stream_id, OPENXCAS_FILTER_ECM, 0, 0xffff, openxcas_ecm_pid, mask, comp, (void *)mca_ecm_callback)) < 0)
DEMUXMATRIX demux_matrix;
mca_demux_convert(&demux[demux_id], &demux_matrix);
if((ret = mca_write_flt(&demux_matrix, 0)) < 0)
{ cs_log("unable to add ecm filter"); }
else
{
cs_log_dbg(D_DVBAPI, "ecm filter added, pid = %x, caid = %x", openxcas_ecm_pid, 0);
cs_log_dbg(D_DVBAPI, "ecm filter started");
}
//if (!openxcas_create_cipher_ex(msg.stream_id, openxcas_seq, 0, openxcas_ecm_pid, openxcas_video_pid, 0xffff, openxcas_audio_pid, 0xffff, 0xffff, 0xffff))
// cs_log("failed to create cipher ex");
//else
cs_log_dbg(D_DVBAPI, "cipher created");
break;
case OPENXCAS_STOP_PMT_ECM:
cs_log_dbg(D_DVBAPI, "OPENXCAS_STOP_PMT_ECM");
openxcas_stop_filter(msg.stream_id, OPENXCAS_FILTER_ECM);
openxcas_remove_filter(msg.stream_id, OPENXCAS_FILTER_ECM);
openxcas_stop_filter_ex(msg.stream_id, msg.sequence, openxcas_filter_idx);
openxcas_destory_cipher_ex(msg.stream_id, msg.sequence);
memset(&demux, 0, sizeof(demux));
memset(&found, 0, sizeof(found));
break;
case OPENXCAS_ECM_CALLBACK:
cs_log_dbg(D_DVBAPI, "OPENXCAS_ECM_CALLBACK");
memcpy(&data, msg.buf, msg.buf_len);
if(!openxcas_busy)
//openxcas_filter_callback(msg.stream_id, msg.sequence, OPENXCAS_FILTER_ECM, &data);
{ mca_ecm_callback(msg.stream_id, msg.sequence, data.cipher_index, data.ca_system_id, (uint8_t *)&data.buf, data.len, data.pid); }
break;
case OPENXCAS_PID_FILTER_CALLBACK:
cs_log_dbg(D_DVBAPI, "OPENXCAS_PID_FILTER_CALLBACK");
memcpy(&data, msg.buf, msg.buf_len);
//openxcas_filter_callback_ex(msg.stream_id, msg.sequence, (struct stOpenXCAS_Data *)msg.buf);
mca_ex_callback(msg.stream_id, msg.sequence, data.cipher_index, data.pid, (uint8_t *)&data.buf, data.len);
break;
case OPENXCAS_QUIT:
cs_log_dbg(D_DVBAPI, "OPENXCAS_QUIT");
mca_exit();
cs_log("exited");
return NULL;
break;
case OPENXCAS_UKNOWN_MSG:
default:
cs_log_dbg(D_DVBAPI, "OPENXCAS_UKNOWN_MSG (%d)", msg.cmd);
//cs_log_dump_dbg(D_DVBAPI, &msg, sizeof(msg), "msg dump:");
break;
}
}
}
cs_log("invalid message");
return NULL;
}
void mca_send_dcw(struct s_client *client, ECM_REQUEST *er)
{
struct s_dvbapi_priority *delayentry = dvbapi_check_prio_match(0, demux[0].pidindex, 'd');
uint32_t delay = 0;
cs_log_dbg(D_DVBAPI, "send_dcw");
if(delayentry)
{
if(delayentry->delay < 1000)
{
delay = delayentry->delay;
cs_log_dbg(D_DVBAPI, "specific delay: write cw %d ms after ecmrequest", delay);
}
}
else if (cfg.dvbapi_delayer > 0)
{
delay = cfg.dvbapi_delayer;
cs_log_dbg(D_DVBAPI, "generic delay: write cw %d ms after ecmrequest", delay);
}
delayer(er, delay);
if(cfg.dvbapi_ecminfo_file != 0)
{
dvbapi_write_ecminfo_file(client, er, demux[0].last_cw[0][0], demux[0].last_cw[0][1], 8);
}
openxcas_busy = 0;
int32_t i;
for(i = 0; i < MAX_DEMUX; i++)
{
if(er->rc >= E_NOTFOUND && !found[i])
{
cs_log_dbg(D_DVBAPI, "cw not found");
if(demux[i].pidindex == -1)
{ dvbapi_try_next_caid(i, 0, 0); }
openxcas_stop_filter(openxcas_stream_id, OPENXCAS_FILTER_ECM);
openxcas_remove_filter(openxcas_stream_id, OPENXCAS_FILTER_ECM);
uint8_t mask[12];
uint8_t comp[12];
memset(&mask, 0x00, sizeof(mask));
memset(&comp, 0x00, sizeof(comp));
mask[0] = 0xfe;
comp[0] = 0x80;
DEMUXMATRIX demux_matrix;
mca_demux_convert(&demux[0], &demux_matrix);
if(mca_write_flt(&demux_matrix, 0) < 0)
{ cs_log("unable to add ecm filter (0)"); }
else
{
cs_log_dbg(D_DVBAPI, "ecm filter added, pid = %x, caid = %x", openxcas_ecm_pid, 0);
cs_log_dbg(D_DVBAPI, "ecm filter started");
}
return;
}
else
{
found[i] = 1;
}
}
uint8_t nullcw[8];
memset(nullcw, 0, 8);
int32_t n;
for(n = 0; n < 2; n++)
{
// Skip check for BISS1 - cw could be indeed zero
// Skip check for BISS2 - we use the extended cw, so the "simple" cw is always zero
if((memcmp(er->cw + (n * 8), demux[0].last_cw[0][0], 8) && memcmp(er->cw + (n * 8), demux[0].last_cw[0][1], 8))
&& (memcmp(er->cw + (n * 8), nullcw, 8) != 0 || caid_is_biss(er->caid)))
{
memcpy(demux[0].last_cw[0][n], er->cw + (n * 8), 8);
memcpy(openxcas_cw + (n * 8), er->cw + (n * 8), 8);
if(mca_set_key(openxcas_cw) < 0)
{ cs_log("set cw failed"); }
else
{ cs_log_dump_dbg(D_DVBAPI, openxcas_cw, 16, "write cws to descrambler"); }
}
}
}
void *mca_handler(struct s_client *cl, uint8_t *mbuf, int32_t module_idx)
{
return dvbapi_start_handler(cl, mbuf, module_idx, mca_main_thread);
}
#endif