static void scan_process_msg_idle(void *p_handle, os_msg_t *p_msg)
{
scan_priv_t *p_scan_priv = (scan_priv_t *)p_handle;
scan_data_t *p_scan_data = p_scan_priv->p_priv_data;
MT_ASSERT(p_msg != NULL);
switch(p_msg->content)
{
case SCAN_CMD_START_SCAN:
scan_start(p_scan_priv, p_msg);
log_perf(LOG_AP_SCAN, PERF_BEGIN,0,0);
p_scan_data->state = SCAN_GET_TP;
log_perf(LOG_AP_SCAN, PERF_GET_TP_BEGIN,0,0);//start scan
log_perf(LOG_AP_SCAN, PERF_GET_ONETP_BEGIN,0,0);
//The implement policy may override message process of scan process
if(p_scan_priv->p_policy != NULL)
{
scan_policy_t *p_policy = p_scan_priv->p_policy;
#if 0 //for specified bouquet id
if(p_policy->require_extend_table(p_policy,DVB_TABLE_ID_BAT)
&& p_policy->get_bouquet_id_list != NULL)
{
p_scan_data->p_rt_data->bouquet_num =
p_policy->get_bouquet_id_list(p_policy, p_scan_data->p_rt_data->bouquet_id);
}
#else
#endif
p_policy->msg_proc(p_policy->p_priv_data, p_msg);
}
break;
default:
break;
}
}
static void scan_on_nc_locked(scan_priv_t *p_scan_priv, os_msg_t *p_msg)
{
scan_data_t *p_scan_data = p_scan_priv->p_priv_data;
dvb_request_t param = {0};
//The current tp is always the scan result
nc_channel_info_t *p_tp_info = &p_scan_data->p_rt_data->result.tp_info;
log_perf(LOG_AP_SCAN, PERF_LOCK_EVT, p_tp_info->channel_info.frequency, 0);
memcpy(p_tp_info, (void *)p_msg->para1, sizeof(nc_channel_info_t));
SCAN_DBG("scan get 22k %d, pol %d, freq %d, sym %d\n",p_tp_info->onoff22k,
p_tp_info->polarization, p_tp_info->channel_info.frequency,
p_tp_info->channel_info.param.dvbs.symbol_rate);
//Reset flag information for current tp
//MT_ASSERT(0 == p_scan_data->p_rt_data->pending_job);
memset(&p_scan_data->p_rt_data->job_dbg_info, 0, sizeof(job_dbg_info_t));
//Request PAT
param.req_mode = DATA_SINGLE;
param.table_id = DVB_TABLE_ID_PAT;
param.para1 = DVB_TABLE_ID_PAT;
p_scan_data->p_dvb_svc->do_cmd(p_scan_data->p_dvb_svc, DVB_REQUEST,
(u32)¶m, sizeof(dvb_request_t));
log_perf(LOG_AP_SCAN, PERF_PAT_REQUEST, 0, 0);
p_scan_data->p_rt_data->job_dbg_info.pat_num = 1;
p_scan_data->p_rt_data->pending_job = 1;
}
int
main(int argc, char *argv[])
{
int size, length, i;
int *data;
int *target;
double bt, at;
if (argc > 1) {
size = atoi(argv[1]);
length = size / sizeof(int);
size = sizeof(int) * length;
} else
exit(1);
log_perf("before init, size=%d", size);
data = malloc(size);
for(i=0; i<length; i++)
data[i] = i;
log_perf("after init");
target = malloc(size);
bt = log_perf("after target malloc");
memcpy(target, data, size);
at = log_perf("after memcpy");
for(i=0; i<length; i++)
assert(target[i] == i);
printf("TIME: %f\n", (at-bt));
return 0;
}
static void scan_on_pat_found(scan_priv_t *p_scan_priv, os_msg_t *p_msg)
{
scan_data_t *p_scan_data = p_scan_priv->p_priv_data;
scan_policy_t *p_policy = p_scan_priv->p_policy;
dvb_request_t param = {0};
// Request SDT
param.req_mode = DATA_SINGLE;
param.table_id = DVB_TABLE_ID_SDT_ACTUAL;
param.para1 = DVB_TABLE_ID_SDT_ACTUAL;
p_scan_data->p_dvb_svc->do_cmd(p_scan_data->p_dvb_svc, DVB_REQUEST,
(u32)¶m, sizeof(dvb_request_t));
log_perf(LOG_AP_SCAN, PERF_SDT_REQUEST, 0, 0);
if(p_policy->require_extend_table(p_policy,DVB_TABLE_ID_BAT))
{
// Request BAT
log_perf(LOG_AP_SCAN, PERF_BAT_REQUEST, 0, 0);
scan_request_bat(p_scan_priv);
}
if(p_policy->require_extend_table(p_policy,DVB_TABLE_ID_NIT_ACTUAL))
{
// Request NIT
OS_PRINTF("---------------------------------->>request nit in scan\n");
param.req_mode = DATA_SINGLE;
param.table_id = DVB_TABLE_ID_NIT_ACTUAL;
param.para1 = DVB_TABLE_ID_NIT_ACTUAL;
param.para2 = 0xFFFF;
p_scan_data->p_dvb_svc->do_cmd(p_scan_data->p_dvb_svc, DVB_REQUEST,
(u32)¶m, sizeof(dvb_request_t));
p_scan_data->p_rt_data->job_dbg_info.nit_num++;
p_scan_data->p_rt_data->pending_job++;
log_perf(LOG_AP_SCAN, PERF_NIT_REQUEST, 0, 0);
}
if(p_policy->require_extend_table(p_policy,DVB_TABLE_ID_CAT))
{
// Request CAT
OS_PRINTF("---------------------------------->>request cat in scan\n");
param.req_mode = DATA_SINGLE;
param.table_id = DVB_TABLE_ID_CAT;
p_scan_data->p_dvb_svc->do_cmd(p_scan_data->p_dvb_svc, DVB_REQUEST,
(u32)¶m, sizeof(dvb_request_t));
log_perf(LOG_AP_SCAN, PERF_CAT_REQUEST, 0, 0);
p_scan_data->p_rt_data->job_dbg_info.cat_num++;
p_scan_data->p_rt_data->pending_job++;
}
//Currently only pat has been requested
//MT_ASSERT(1 == p_scan_data->p_rt_data->pending_job);
p_scan_data->p_rt_data->job_dbg_info.pat_num --;
p_scan_data->p_rt_data->pending_job--;
p_scan_data->p_rt_data->job_dbg_info.sdt_num++;
p_scan_data->p_rt_data->pending_job++;
}
static RET_CODE on_locked_evt(bl_scan_priv_t *p_priv, nim_channel_info_t *p_ch)
{
nc_channel_info_t p_nc_channel_info = {0};
RET_CODE ret = SUCCESS;
bs_cfg_t *p_cur_cfg = p_priv->bs_cfg_info + p_priv->cur_bs_times;
BS_DBG("\n $$$$ on_locked_evt 1\n");
if(cancel_flag)
{
OS_PRINTF("%s,%s,cancel!\n",__FILE__,__FUNCTION__);
return ERR_FAILURE;
}
BS_DBG("\n $$$$ on_locked_evt 2\n");
if(p_priv->channel_count >= MAX_TP_NUM_PER_SAT)
{
OS_PRINTF("$$$$ %s,%s,channel_map is full!\n",__FILE__,__FUNCTION__);
return ERR_FAILURE;
}
if((p_ch->frequency + p_ch->param.dvbs.symbol_rate / 2 < p_cur_cfg->start_fre_khz)
|| (p_ch->frequency - p_ch->param.dvbs.symbol_rate / 2 > p_cur_cfg->end_fre_khz))
{
OS_PRINTF("$$$$ %s,%s,illegal freq!\n",__FILE__,__FUNCTION__);
return ERR_FAILURE;
}
memcpy(&p_priv->channel_map[ p_priv->channel_count], p_ch, sizeof(nim_channel_info_t));
memcpy(&p_priv->cur_channel_locked, p_ch, sizeof(nim_channel_info_t));
p_priv->tp_index_locked[p_priv->channel_count_locked] = p_priv->channel_count;
memcpy(&p_nc_channel_info.channel_info, p_ch, sizeof(nim_channel_info_t));
p_nc_channel_info.polarization = p_cur_cfg->polarization;
p_nc_channel_info.onoff22k = p_cur_cfg->onoff22k;
if(p_priv->hook.check_tp(&p_nc_channel_info) != SUCCESS)
{
OS_PRINTF("$$$$ %s,%s,tp is illegal!\n",__FILE__,__FUNCTION__);
return ERR_FAILURE;
}
log_perf(LOG_AP_SCAN, PERF_GET_TP_END, p_ch->frequency, 0);
log_perf(LOG_AP_SCAN, PERF_LOCK_EVT, (u32)(nc_channel_info_t *)(&p_nc_channel_info), 0);
ret = on_locked(p_priv, &p_nc_channel_info);
if(ret == SUCCESS)
{
p_priv->channel_count++;
p_priv->channel_count_locked++;
}
return ret;
}
static RET_CODE blind_scan_tp_done(void *p_data, void *p_tp_info)
{
bl_scan_priv_t *p_priv = (bl_scan_priv_t *)p_data;
scan_tp_info_t *p_tp = (scan_tp_info_t *)p_tp_info;
scan_tp_info_i_t tp_info = {{0}};
u8 ret = 0;
//Notify progress
notify_progress(progress_calc(p_data));
tp_info.pg_num = p_tp->pg_num;
tp_info.p_pg_list = p_tp->p_pg_list;
BS_UNLOCK();
/*BS_DBG("%s,line %d:tp [%d,%d]\n",__FUNCTION__,__LINE__,
p_tp->tp_info.channel_info.frequency,p_tp->tp_info.channel_info.param.dvbs.symbol_rate);*/
//return p_priv->hook.process_pg_list(&tp_info);
#ifdef BS_DEBUG_ON
g_tpdone_ticks = mtos_ticks_get();
/*BS_DBG("***************tp done ticks %d,used ticks[%d]\n",
g_tpdone_ticks, g_tpdone_ticks - g_lock_ticks);*/
g_used_ticks += (g_tpdone_ticks - g_lock_ticks);
#endif
ret = p_priv->hook.process_pg_list(&tp_info);
log_perf(LOG_AP_SCAN,PERF_DO_LOCK, 0, 0);
return ret;
}
static RET_CODE on_unlocked_evt(bl_scan_priv_t *p_priv, nim_channel_info_t *p_ch)
{
BS_DBG("\n $$$$ on_unlocked_evt 1\n");
if(cancel_flag)
{
if(pause_flag)
BS_UNLOCK_PAUSE();
return SUCCESS;
}
BS_DBG("\n $$$$ on_unlocked_evt 2\n");
memcpy(& p_priv->cur_channel_unlocked, p_ch, sizeof(nim_channel_info_t));
//add perf log
log_perf(LOG_AP_SCAN, PERF_GET_TP_END,
p_ch->frequency,0);
log_perf(LOG_AP_SCAN, PERF_UNLOCK_EVT,
p_ch->frequency, 0);
log_perf(LOG_AP_SCAN, PERF_GET_ONETP_END,0,0);
log_perf(LOG_AP_SCAN, PERF_GET_ONETP_BEGIN,0,0);
log_perf(LOG_AP_SCAN, PERF_GET_TP_BEGIN,0,0);
log_perf(LOG_AP_SCAN, PERF_SAVE_DB_START,UNLOCK_TP_DB,0);
log_perf(LOG_AP_SCAN, PERF_SAVE_DB_DONE,UNLOCK_TP_DB,0);
//Notify progress
notify_progress(progress_calc(p_priv));
return SUCCESS;
}
static void scan_on_timedout(scan_priv_t *p_scan_priv, os_msg_t *p_msg)
{
scan_data_t *p_scan_data = p_scan_priv->p_priv_data;
SCAN_DBG("time out table 0x%x, module %d\n",
p_msg->para1, p_msg->para2);
switch(p_msg->para1)
{
case DVB_TABLE_ID_PMT:
p_scan_data->p_rt_data->job_dbg_info.pmt_num --;
//log_perf(LOG_AP_SCAN, PERF_PMT_FOUND, ((dvb_section_t *)(&(p_msg->para2)))->sid, 0);
break;
case DVB_TABLE_ID_PAT:
scan_on_pat_time_out(p_scan_priv, p_msg);
log_perf(LOG_AP_SCAN, PERF_PAT_FOUND, 1, 0);
p_scan_data->p_rt_data->job_dbg_info.pat_num --;
break;
case DVB_TABLE_ID_NIT_ACTUAL:
log_perf(LOG_AP_SCAN, PERF_NIT_FOUND, 1, 0);
p_scan_data->p_rt_data->job_dbg_info.nit_num --;
break;
case DVB_TABLE_ID_SDT_ACTUAL:
log_perf(LOG_AP_SCAN, PERF_SDT_FOUND, 1, 0);
p_scan_data->p_rt_data->job_dbg_info.sdt_num --;
break;
case DVB_TABLE_ID_BAT:
log_perf(LOG_AP_SCAN, PERF_BAT_FOUND, 1, 0);
#if 0 //for specified bouquet id
p_scan_data->p_rt_data->job_dbg_info.bat_num --;
#else
scan_free_bat(p_scan_priv);
#endif
break;
case MPEG_TS_PACKET:
p_scan_data->p_rt_data->job_dbg_info.video_packet_num --;
break;
case DVB_TABLE_ID_CAT:
log_perf(LOG_AP_SCAN, PERF_CAT_FOUND, 1, 0);
p_scan_data->p_rt_data->job_dbg_info.cat_num --;
break;
}
p_scan_data->p_rt_data->pending_job--;
}
static RET_CODE on_locked(bl_scan_priv_t *p_priv, nc_channel_info_t *p_ch)
{
tp_rcv_para_t *p_tp_para = &p_priv->cur_tp_info.tp_info;
scan_sat_info_t *p_sat = p_priv->perset_sat_list + p_priv->cur_sat_idx;
RET_CODE ret = ERR_FAILURE;
bs_cfg_t *p_cur_cfg = p_priv->bs_cfg_info + p_priv->cur_bs_times;
if(C_BAND == p_cur_cfg->freqBand &&
DOUBLE_LOCAL_OSCILLATOR == p_cur_cfg->localOscillator)
{
p_ch->polarization =
p_ch->channel_info.frequency > (1550 * KHZ) ? 1 : 0;
BS_DBG("$$$$ %s,line %d,pol=%d\n",__FUNCTION__,__LINE__,p_ch->polarization);
}
else
{
p_ch->polarization = p_cur_cfg->polarization;
BS_DBG("$$$$ %s,line %d,pol=%d\n",__FUNCTION__,__LINE__,p_ch->polarization);
}
memset(&p_priv->cur_tp_info, 0, sizeof(scan_tp_info_i_t));
p_tp_para->freq = bs_calc_down_frq(p_ch, p_sat);
p_tp_para->sym = p_ch->channel_info.param.dvbs.symbol_rate;
p_tp_para->polarity = p_ch->polarization;
p_tp_para->is_on22k = p_ch->onoff22k;
p_tp_para->nim_type = p_ch->channel_info.param.dvbs.nim_type;
p_priv->cur_tp_info.sat_id = p_sat->sat_id;
p_priv->cur_tp_info.can_locked = 1;
p_priv->cur_tp_info.tp_origin = TP_FROM_SCAN;
memcpy(&p_priv->cur_tp_info.perf, &p_ch->channel_info.param.dvbs.perf,
sizeof(nim_channel_perf_t));
BS_DBG("agc[%ld], snr[%ld],ber[%d]\n", p_priv->cur_tp_info.perf.agc,
p_priv->cur_tp_info.perf.snr, (u8)p_priv->cur_tp_info.perf.ber);
//add perf log
log_perf(LOG_AP_SCAN, PERF_SAVE_DB_START,LOCK_TP_DB,0);
ret = p_priv->hook.process_tp(&p_priv->cur_tp_info);
log_perf(LOG_AP_SCAN, PERF_SAVE_DB_DONE,LOCK_TP_DB,0);
//Notify progress
notify_progress(progress_calc(p_priv));
return ret;
}
static void scan_on_pmt_info_found(scan_priv_t *p_scan_priv,
os_msg_t *p_msg)
{
scan_data_t *p_scan_data = p_scan_priv->p_priv_data;
u32 param = ((p_msg->para1 << 16) | p_msg->para2);
dvb_request_t req_param = {0};
//Request PMT information
req_param.req_mode = DATA_SINGLE;
req_param.table_id = DVB_TABLE_ID_PMT;
req_param.para1 = DVB_TABLE_ID_PMT;
req_param.para2 = param;
p_scan_data->p_dvb_svc->do_cmd(p_scan_data->p_dvb_svc,
DVB_REQUEST, (u32)&req_param, sizeof(dvb_request_t));
p_scan_data->p_rt_data->job_dbg_info.pmt_num++;
p_scan_data->p_rt_data->pending_job++;
log_perf(LOG_AP_SCAN, PERF_PMT_REQUEST, p_msg->para2, 0);
}
void sc_dump_and_reset(void)
{
uint64_t now = get_time_usec();
uint64_t dur_current = now - g_stat_collect.item_start_time;
uint64_t dur_total = now - g_stat_collect.total_start_time;
if (dur_current <= 0) dur_current = 1;
if (dur_total <= 0) dur_total = 1;
for (int i = 0; i < STAT_ITEM_MAX; i++) {
struct stat_item_t *item = &g_stat_collect.stats[i];
uint64_t total_count = item->total_count;
uint64_t count = item->count;
log_perf("%s," // item name
"%" PRIu64 "," // total count
"%.3f," // total average
"%.3f," // total throughput
"%" PRIu64 "," // current count
"%.3f," // current average
"%.3f," // current throughput
"%" PRIu64 "," // current max
"%" PRIu64, // current min
stat_item_names[i],
item->total_count,
total_count == 0 ? 0 : ((double)item->total_value_sum / total_count),
item->total_count / (double)dur_total * 1000000,
item->count,
count == 0 ? 0 : ((double)item->value_sum / count),
item->count / (double)dur_current * 1000000,
item->max_value,
((uint64_t)-1 == item->min_value) ? 0 : item->min_value);
}
reset_current(now);
}
static void blind_scan_next_time_process(bl_scan_priv_t *p_priv)
{
bs_cfg_t *p_cur_cfg = p_priv->bs_cfg_info + p_priv->cur_bs_times;
class_handle_t nc_handle = class_get_handle_by_id(NC_CLASS_ID);
scan_sat_info_t *p_sat = p_priv->perset_sat_list + p_priv->cur_sat_idx;
p_priv->tuner_id = p_sat->tuner_id;
nc_get_ts_by_tuner(nc_handle, p_priv->tuner_id, &p_priv->ts_in);
if(p_cur_cfg->unicable_param.use_uc)
{
//always 13V and disable 22K
nc_set_22k(nc_handle, p_priv->tuner_id, 0);
nc_set_polarization(nc_handle, p_priv->tuner_id, NIM_PORLAR_VERTICAL);
}
else
{
nc_set_22k(nc_handle, p_priv->tuner_id, p_cur_cfg->onoff22k);
nc_set_polarization(nc_handle, p_priv->tuner_id, p_cur_cfg->polarization);
BS_DBG("blind cfg[%d],onoff[%d],polarization[%d]\n",
p_priv->cur_bs_times, p_cur_cfg->onoff22k, p_cur_cfg->polarization);
}
nc_set_diseqc(nc_handle, p_priv->tuner_id, &p_sat->diseqc_info);
p_priv->lst_fre_khz = p_cur_cfg->start_fre_khz;
p_priv->scan_info.start_freq = p_cur_cfg->start_fre_khz;
p_priv->scan_info.end_freq = p_cur_cfg->end_fre_khz;
memcpy(&(p_priv->scan_info.uc_param), &(p_cur_cfg->unicable_param),
sizeof(nim_unicable_param_t));
memset(&p_priv->cur_channel_unlocked, 0, sizeof(nim_channel_info_t));
memset(&p_priv->cur_channel_locked, 0, sizeof(nim_channel_info_t));
BS_DBG("next blind cfg[%d],start[%d],end[%d]\n",
p_priv->cur_bs_times, p_priv->scan_info.start_freq, p_priv->scan_info.end_freq);
nim_blind_scan_start(p_priv->p_dev[p_priv->tuner_id], &p_priv->scan_info);//start nim scan
log_perf(LOG_AP_SCAN,PERF_DO_LOCK, 0, 0);
}
/*!
process the message mothed, it will be called by playback task.
\param[in] p_handle playback handle
\param[in] p_msg new message
*/
static void pb_single_step(handle_t handle, os_msg_t *p_msg)
{
pb_handle_t *p_handle = (pb_handle_t *)handle;
priv_data_t *p_data = &p_handle->data;
play_param_t *p_play_param = NULL;
if(p_msg != NULL)
{
switch(p_msg->content)
{
case NC_EVT_UNLOCKED:
case NC_EVT_LOCKED:
OS_PRINTF("!!!!!PB:PB_EVT_LOCK_RSL %d\n",
NC_EVT_LOCKED == p_msg->content);
if(p_data->status != PB_STOP)
{
if (check_same_tp(p_handle, &p_data->play_param))
{
OS_PRINTF("PB play ticks %d\n", mtos_ticks_get());
do_play(p_handle, &p_data->play_param);
p_data->status = PB_PLAYING;
p_handle->data.pat_monitor_start = mtos_ticks_get();
p_handle->data.pat_monitor_interval = 100;
p_handle->p_policy->on_play(p_handle->p_policy->p_data, &p_data->play_param);
p_data->sm = PB_SM_WAIT_VIDEO;
}
send_evt_to_ui(PB_EVT_LOCK_RSL, NC_EVT_LOCKED == p_msg->content, 0);
}
break;
case PB_CMD_PLAY:
OS_PRINTF("do lock ticks %d\n", mtos_ticks_get());
p_play_param = (play_param_t *)p_msg->para1;
memcpy(&p_data->play_param, p_play_param, sizeof(play_param_t));
p_data->status = PB_PLAYING;
do_play_chan_open(p_handle, &p_data->play_param);
log_perf(LOG_AP_CHANGE_CHANNEL, TAB_PB_START, 0, 0);
lock_tuner_1(p_handle, &p_data->play_param);
p_data->sm = PB_SM_WAIT_LOCK;
break;
case PB_CMD_STOP:
log_perf(LOG_AP_CHANGE_CHANNEL, TAB_PB_STOP,
(u32)(&p_data->play_param.inner.dvbs_lock_info.tp_rcv), (u32)(&p_data->play_param.pg_info));
do_stop(p_handle, p_msg->para1);
//pat_free(p_handle);
OS_PRINTF("PB stop ticks %d\n", mtos_ticks_get());
p_data->status = PB_STOP;
//p_data->status.cur_pg_id = INVALID_PG_ID;
p_data->sm = PB_SM_IDLE;
break;
case PB_CMD_STOP_SYNC:
log_perf(LOG_AP_CHANGE_CHANNEL, TAB_PB_STOP_SYNC,
(u32)(&p_data->play_param.inner.dvbs_lock_info.tp_rcv), (u32)(&p_data->play_param.pg_info));
do_stop(p_handle, p_msg->para1);
OS_PRINTF("PB stop by sync ticks %d\n", mtos_ticks_get());
p_data->status = PB_STOP;
p_data->sm = PB_SM_WAIT_STOP;
send_evt_to_ui(PB_EVT_STOPPED, 0, 0);
break;
case PB_CMD_SWITCH_AUDIO_CHANNEL:
switch_audio_channel(p_handle, p_msg->para1, p_msg->para2);
break;
case PB_CMD_SET_MUTE:
//avc_set_mute((BOOL)p_msg->para1, (BOOL)p_msg->para2);
send_evt_to_ui(PB_EVT_SET_MUTE, 0, 0);
break;
case PB_CMD_SET_VOL:
//avc_setvolume((u8)p_msg->para1);
send_evt_to_ui(PB_EVT_SET_VOL, 0, 0);
break;
case PB_CMD_RESET_TVMODE:
p_data->play_param.pg_info.tv_mode = (u16)p_msg->para1;
break;
case PB_CMD_RESET_VIDEO_ASPECT_MODE:
p_data->play_param.pg_info.aspect_ratio = p_msg->para1;
break;
case DVB_TABLE_TIMED_OUT:
if(p_msg->para1 == DVB_TABLE_ID_PAT)
{
p_data->pat_request_flag = 0;
}
if(p_msg->para1 == DVB_TABLE_ID_NIT_ACTUAL)
{
p_data->nit_request_flag = 0;
}
break;
case DVB_PAT_FOUND:
p_data->pat_request_flag = 0;
break;
case DVB_PAT_PMT_INFO:
if(p_data->play_param.pg_info.s_id == p_msg->para2)
{
pmt_request(p_handle, (u16)p_msg->para1, (u16)p_msg->para2);
}
break;
case DVB_PMT_FOUND:
if((p_data->status == PB_PLAYING) &&
(p_data->play_param.pg_info.s_id == (u32)(((pmt_t *)(p_msg->para1))->prog_num)))
{
do_dynamic_pid(p_handle, (pmt_t *)p_msg->para1);
pmt_update_1(p_handle->data.p_sub_ttx_data, (pmt_t *)p_msg->para1);
}
else
{
subt_txt_info_reset_1(p_handle->data.p_sub_ttx_data);
}
break;
case DVB_SDT_FOUND:
if(p_data->status == PB_PLAYING)
{
do_revise_eid(p_handle, (sdt_t *)p_msg->para1);
}
if(p_data->play_param.lock_mode == SYS_DVBC)
{
pb_on_sdt_found(p_handle, (sdt_t *)p_msg->para1);
}
break;
case DVB_NIT_FOUND:
p_data->nit_request_flag = 0;
pb_on_nit_found(p_handle, (nit_t *)p_msg->para1);
break;
//falcon debug
case PB_CMD_START_TTX:
vbi_ttx_start_vsb(p_msg->para1, p_msg->para2);
break;
case PB_CMD_STOP_TTX:
vbi_ttx_stop_vsb();
break;
case PB_CMD_SET_TTX_LANG:
set_ttx_lang_1(p_handle->data.p_sub_ttx_data, p_msg->para1);
break;
case PB_CMD_POST_TTX_KEY:
post_ttx_key_1(p_handle->data.p_sub_ttx_data, p_msg->para1);
break;
case PB_CMD_SHOW_TTX:
show_ttx_1(p_handle->data.p_sub_ttx_data, p_msg->para1);
break;
case PB_CMD_HIDE_TTX:
if(!hide_ttx_1(p_handle->data.p_sub_ttx_data))
{
send_evt_to_ui(PB_EVT_HIDE_TTX, 0, 0);
}
break;
case VBI_TTX_HIDED:
case VBI_TTX_STOPPED:
OS_PRINTF(">>>>>>VBI_TTX_HIDED!!!\n");
send_evt_to_ui(PB_EVT_HIDE_TTX, 0, 0);
break;
case PB_CMD_START_VBI_INSERTER:
start_vbi_inserter_1(p_handle->data.p_sub_ttx_data);
break;
case PB_CMD_STOP_VBI_INSERTER:
stop_vbi_inserter_1(p_handle->data.p_sub_ttx_data);
break;
case PB_CMD_START_SUBT:
start_subt_dec_1(p_handle->data.p_sub_ttx_data);
break;
case PB_CMD_STOP_SUBT:
stop_subt_dec_1(p_handle->data.p_sub_ttx_data);
break;
case PB_CMD_STOP_SUBT_SYNC:
stop_subt_dec_1(p_handle->data.p_sub_ttx_data);
break;
case SUBT_EVT_STOPPED:
//OS_PRINTF("\n\n\n=====OK======\n\n\n");
send_evt_to_ui(PB_EVT_SUBT_STOPED, 0, 0);
break;
case PB_CMD_SET_SUBT_SERVICE:
set_subt_service_1(p_handle->data.p_sub_ttx_data,
p_msg->para1, p_msg->para2);
break;
case PB_CMD_SHOW_SUBT:
show_subtitle_1(p_handle->data.p_sub_ttx_data);
break;
case PB_CMD_HIDE_SUBT:
if(FALSE == hide_subtitle_1(p_handle->data.p_sub_ttx_data))
{
send_evt_to_ui(PB_EVT_HIDE_SUBT, 0, 0);
}
//send_evt_to_ui(PB_EVT_HIDE_SUBT, 0, 0);
break;
default:
break;
}
}
else
{
switch(p_data->sm)
{
case PB_SM_IDLE:
break;
case PB_SM_WAIT_LOCK:
break;
case PB_SM_WAIT_VIDEO:
if(wait_video_frame_1(p_handle))
{
log_perf(LOG_AP_CHANGE_CHANNEL, TAB_PB_DO_PLAY,
(u32)(&p_data->play_param.inner.dvbs_lock_info.tp_rcv),
(u32)(&p_data->play_param.pg_info));
OS_PRINTF("video out ticks %d\n", mtos_ticks_get());
p_data->signal_monitor_start = mtos_ticks_get();
p_data->sm = PB_SM_MONITOR_SIGNAL;
sdt_request(p_handle);
p_data->pat_request_flag = 0;
}
break;
case PB_SM_MONITOR_SIGNAL:
if((mtos_ticks_get() - p_data->signal_monitor_start) > 50) // 50ticks
{
p_data->signal_monitor_start = mtos_ticks_get();
monitor(p_handle);
}
if(((mtos_ticks_get() - p_data->pat_monitor_start) > p_data->pat_monitor_interval)
&& (!p_data->pat_request_flag))
// && (p_data->play_param.lock_mode == SYS_DVBS))
{
pat_request(p_handle);
p_data->pat_request_flag = 1;
p_data->pat_monitor_start = mtos_ticks_get();
p_data->pat_monitor_interval = PAT_MONITOR_INTERVAL;
}
if(((mtos_ticks_get() - p_data->nit_monitor_start) > NIT_MONITOR_INTERVAL)
&& (!p_data->nit_request_flag)
&& (p_data->play_param.lock_mode == SYS_DVBC))
{
nit_request(p_handle);
p_data->nit_request_flag = 1;
p_data->nit_monitor_start = mtos_ticks_get();
}
break;
case PB_SM_WAIT_STOP:
p_data->sm = PB_SM_IDLE;
break;
default:
break;
}
}
}
int runTest(clFFT_Dim3 n, int batchSize, clFFT_Direction dir, clFFT_Dimension dim,
clFFT_DataFormat dataFormat, int numIter, clFFT_TestType testType)
{
cl_int err = CL_SUCCESS;
int iter;
double t;
uint64_t t0, t1;
int mx = log2(n.x);
int my = log2(n.y);
int mz = log2(n.z);
int length = n.x * n.y * n.z * batchSize;
double gflops = 5e-9 * ((double)mx + (double)my + (double)mz) * (double)n.x * (double)n.y * (double)n.z * (double)batchSize * (double)numIter;
clFFT_SplitComplex data_i_split = (clFFT_SplitComplex) { NULL, NULL };
clFFT_SplitComplex data_cl_split = (clFFT_SplitComplex) { NULL, NULL };
clFFT_Complex *data_i = NULL;
clFFT_Complex *data_cl = NULL;
clFFT_SplitComplexDouble data_iref = (clFFT_SplitComplexDouble) { NULL, NULL };
clFFT_SplitComplexDouble data_oref = (clFFT_SplitComplexDouble) { NULL, NULL };
clFFT_Plan plan = NULL;
cl_mem data_in = NULL;
cl_mem data_out = NULL;
cl_mem data_in_real = NULL;
cl_mem data_in_imag = NULL;
cl_mem data_out_real = NULL;
cl_mem data_out_imag = NULL;
if(dataFormat == clFFT_SplitComplexFormat) {
data_i_split.real = (float *) malloc(sizeof(float) * length);
data_i_split.imag = (float *) malloc(sizeof(float) * length);
data_cl_split.real = (float *) malloc(sizeof(float) * length);
data_cl_split.imag = (float *) malloc(sizeof(float) * length);
if(!data_i_split.real || !data_i_split.imag || !data_cl_split.real || !data_cl_split.imag)
{
err = -1;
log_error("Out-of-Resources\n");
goto cleanup;
}
}
else {
data_i = (clFFT_Complex *) malloc(sizeof(clFFT_Complex)*length);
data_cl = (clFFT_Complex *) malloc(sizeof(clFFT_Complex)*length);
if(!data_i || !data_cl)
{
err = -2;
log_error("Out-of-Resouces\n");
goto cleanup;
}
}
data_iref.real = (double *) malloc(sizeof(double) * length);
data_iref.imag = (double *) malloc(sizeof(double) * length);
data_oref.real = (double *) malloc(sizeof(double) * length);
data_oref.imag = (double *) malloc(sizeof(double) * length);
if(!data_iref.real || !data_iref.imag || !data_oref.real || !data_oref.imag)
{
err = -3;
log_error("Out-of-Resources\n");
goto cleanup;
}
int i;
if(dataFormat == clFFT_SplitComplexFormat) {
for(i = 0; i < length; i++)
{
data_i_split.real[i] = 2.0f * (float) rand() / (float) RAND_MAX - 1.0f;
data_i_split.imag[i] = 2.0f * (float) rand() / (float) RAND_MAX - 1.0f;
data_cl_split.real[i] = 0.0f;
data_cl_split.imag[i] = 0.0f;
data_iref.real[i] = data_i_split.real[i];
data_iref.imag[i] = data_i_split.imag[i];
data_oref.real[i] = data_iref.real[i];
data_oref.imag[i] = data_iref.imag[i];
}
}
else {
for(i = 0; i < length; i++)
{
data_i[i].real = 2.0f * (float) rand() / (float) RAND_MAX - 1.0f;
data_i[i].imag = 2.0f * (float) rand() / (float) RAND_MAX - 1.0f;
data_cl[i].real = 0.0f;
data_cl[i].imag = 0.0f;
data_iref.real[i] = data_i[i].real;
data_iref.imag[i] = data_i[i].imag;
data_oref.real[i] = data_iref.real[i];
data_oref.imag[i] = data_iref.imag[i];
}
}
plan = clFFT_CreatePlan( context, n, dim, dataFormat, &err );
if(!plan || err)
{
log_error("clFFT_CreatePlan failed\n");
goto cleanup;
}
//clFFT_DumpPlan(plan, stdout);
if(dataFormat == clFFT_SplitComplexFormat)
{
data_in_real = clCreateBuffer(context, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR, length*sizeof(float), data_i_split.real, &err);
if(!data_in_real || err)
{
log_error("clCreateBuffer failed\n");
goto cleanup;
}
data_in_imag = clCreateBuffer(context, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR, length*sizeof(float), data_i_split.imag, &err);
if(!data_in_imag || err)
{
log_error("clCreateBuffer failed\n");
goto cleanup;
}
if(testType == clFFT_OUT_OF_PLACE)
{
data_out_real = clCreateBuffer(context, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR, length*sizeof(float), data_cl_split.real, &err);
if(!data_out_real || err)
{
log_error("clCreateBuffer failed\n");
goto cleanup;
}
data_out_imag = clCreateBuffer(context, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR, length*sizeof(float), data_cl_split.imag, &err);
if(!data_out_imag || err)
{
log_error("clCreateBuffer failed\n");
goto cleanup;
}
}
else
{
data_out_real = data_in_real;
data_out_imag = data_in_imag;
}
}
else
{
data_in = clCreateBuffer(context, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR, length*sizeof(float)*2, data_i, &err);
if(!data_in)
{
log_error("clCreateBuffer failed\n");
goto cleanup;
}
if(testType == clFFT_OUT_OF_PLACE)
{
data_out = clCreateBuffer(context, CL_MEM_READ_WRITE | CL_MEM_COPY_HOST_PTR, length*sizeof(float)*2, data_cl, &err);
if(!data_out)
{
log_error("clCreateBuffer failed\n");
goto cleanup;
}
}
else
data_out = data_in;
}
err = CL_SUCCESS;
t0 = mach_absolute_time();
if(dataFormat == clFFT_SplitComplexFormat)
{
for(iter = 0; iter < numIter; iter++)
err |= clFFT_ExecutePlannar(queue, plan, batchSize, dir, data_in_real, data_in_imag, data_out_real, data_out_imag, 0, NULL, NULL);
}
else
{
for(iter = 0; iter < numIter; iter++)
err |= clFFT_ExecuteInterleaved(queue, plan, batchSize, dir, data_in, data_out, 0, NULL, NULL);
}
err |= clFinish(queue);
if(err)
{
log_error("clFFT_Execute\n");
goto cleanup;
}
t1 = mach_absolute_time();
t = subtractTimes(t1, t0);
char temp[100];
sprintf(temp, "GFlops achieved for n = (%d, %d, %d), batchsize = %d", n.x, n.y, n.z, batchSize);
log_perf(gflops / (float) t, 1, "GFlops/s", "%s", temp);
if(dataFormat == clFFT_SplitComplexFormat)
{
err |= clEnqueueReadBuffer(queue, data_out_real, CL_TRUE, 0, length*sizeof(float), data_cl_split.real, 0, NULL, NULL);
err |= clEnqueueReadBuffer(queue, data_out_imag, CL_TRUE, 0, length*sizeof(float), data_cl_split.imag, 0, NULL, NULL);
}
else
{
err |= clEnqueueReadBuffer(queue, data_out, CL_TRUE, 0, length*sizeof(float)*2, data_cl, 0, NULL, NULL);
}
if(err)
{
log_error("clEnqueueReadBuffer failed\n");
goto cleanup;
}
computeReferenceD(&data_oref, n, batchSize, dim, dir);
double diff_avg, diff_max, diff_min;
if(dataFormat == clFFT_SplitComplexFormat) {
diff_avg = computeL2Error(&data_cl_split, &data_oref, n.x*n.y*n.z, batchSize, &diff_max, &diff_min);
if(diff_avg > eps_avg)
log_error("Test failed (n=(%d, %d, %d), batchsize=%d): %s Test: rel. L2-error = %f eps (max=%f eps, min=%f eps)\n", n.x, n.y, n.z, batchSize, (testType == clFFT_OUT_OF_PLACE) ? "out-of-place" : "in-place", diff_avg, diff_max, diff_min);
else
log_info("Test passed (n=(%d, %d, %d), batchsize=%d): %s Test: rel. L2-error = %f eps (max=%f eps, min=%f eps)\n", n.x, n.y, n.z, batchSize, (testType == clFFT_OUT_OF_PLACE) ? "out-of-place" : "in-place", diff_avg, diff_max, diff_min);
}
else {
clFFT_SplitComplex result_split;
result_split.real = (float *) malloc(length*sizeof(float));
result_split.imag = (float *) malloc(length*sizeof(float));
convertInterleavedToSplit(&result_split, data_cl, length);
diff_avg = computeL2Error(&result_split, &data_oref, n.x*n.y*n.z, batchSize, &diff_max, &diff_min);
if(diff_avg > eps_avg)
log_error("Test failed (n=(%d, %d, %d), batchsize=%d): %s Test: rel. L2-error = %f eps (max=%f eps, min=%f eps)\n", n.x, n.y, n.z, batchSize, (testType == clFFT_OUT_OF_PLACE) ? "out-of-place" : "in-place", diff_avg, diff_max, diff_min);
else
log_info("Test passed (n=(%d, %d, %d), batchsize=%d): %s Test: rel. L2-error = %f eps (max=%f eps, min=%f eps)\n", n.x, n.y, n.z, batchSize, (testType == clFFT_OUT_OF_PLACE) ? "out-of-place" : "in-place", diff_avg, diff_max, diff_min);
free(result_split.real);
free(result_split.imag);
}
cleanup:
clFFT_DestroyPlan(plan);
if(dataFormat == clFFT_SplitComplexFormat)
{
if(data_i_split.real)
free(data_i_split.real);
if(data_i_split.imag)
free(data_i_split.imag);
if(data_cl_split.real)
free(data_cl_split.real);
if(data_cl_split.imag)
free(data_cl_split.imag);
if(data_in_real)
clReleaseMemObject(data_in_real);
if(data_in_imag)
clReleaseMemObject(data_in_imag);
if(data_out_real && testType == clFFT_OUT_OF_PLACE)
clReleaseMemObject(data_out_real);
if(data_out_imag && clFFT_OUT_OF_PLACE)
clReleaseMemObject(data_out_imag);
}
else
{
if(data_i)
free(data_i);
if(data_cl)
free(data_cl);
if(data_in)
clReleaseMemObject(data_in);
if(data_out && testType == clFFT_OUT_OF_PLACE)
clReleaseMemObject(data_out);
}
if(data_iref.real)
free(data_iref.real);
if(data_iref.imag)
free(data_iref.imag);
if(data_oref.real)
free(data_oref.real);
if(data_oref.imag)
free(data_oref.imag);
return err;
}
static void scan_on_nc_unlocked(scan_priv_t *p_scan_priv, os_msg_t *p_msg)
{
log_perf(LOG_AP_SCAN, PERF_UNLOCK_EVT,
((nc_channel_info_t *)(p_msg->para1))->channel_info.frequency, 0);
}
static void scan_state_machine(void *p_handle)
{
scan_priv_t *p_scan_priv = (scan_priv_t *)p_handle;
scan_policy_t *p_scan_policy = p_scan_priv->p_policy;
scan_data_t *p_scan_data = p_scan_priv->p_priv_data;
find_tp_ret_t ret = FIND_SUC;
class_handle_t nc_handle = class_get_handle_by_id(NC_CLASS_ID);
event_t evt = {0};
// State machine
switch(p_scan_data->state)
{
case SCAN_IDLE:
break;
case SCAN_GET_TP:
// Get current tp information
//log_perf(LOG_AP_SCAN, PERF_GET_TP_BEGIN,0,0);
//log_perf(LOG_AP_SCAN, PERF_GET_ONETP_BEGIN,0,0);
ret = p_scan_policy->get_tp_info(p_scan_policy->p_priv_data,
&p_scan_data->p_rt_data->find_tp);
if(FIND_SUC == ret) //found new tp
{
log_perf(LOG_AP_SCAN, PERF_GET_TP_END,
p_scan_data->p_rt_data->find_tp.channel_info.frequency,0);
p_scan_data->state = SCAN_LOCK_TP;
}
else if(FIND_DONE == ret)
{
log_perf(LOG_AP_SCAN, PERF_END,0,0);
p_scan_data->state = SCAN_FINISHED;
}
else if(FIND_BUSY == ret)
{
//waiting....
}
else
{
//what's happend? UFO?
MT_ASSERT(0);
}
break;
case SCAN_LOCK_TP:
//Set current tp information
log_perf(LOG_AP_SCAN,PERF_DO_LOCK, 0, 0);
nc_set_tp(nc_handle, p_scan_data->p_nc_svc,
&p_scan_data->p_rt_data->find_tp);
p_scan_data->p_rt_data->job_dbg_info.spend_ticks = mtos_ticks_get();
//reset parameter
init_para(p_scan_data);
memcpy(&p_scan_data->p_rt_data->result.tp_info,
&p_scan_data->p_rt_data->find_tp, sizeof(nc_channel_info_t));
//Wait new the lock status of recently set tp
p_scan_data->state = SCAN_WAIT_TP_LOCK;
break;
case SCAN_WAIT_TP_LOCK:
break;
case SCAN_FINISHED:
OS_PRINTF("scan state: SCAN_FINISHED\n");
log_perf(LOG_AP_SCAN, 100, 0, 0);
scan_stop(p_scan_priv);
evt.id = SCAN_EVT_FINISHED;
evt.data1 = 0;
ap_frm_send_evt_to_ui(APP_SCAN, &evt);
p_scan_data->state = SCAN_IDLE;
nvod_mosaic_buf_reset(class_get_handle_by_id(NVOD_MOSAIC_CLASS_ID));
break;
case SCAN_SCANING:
if(p_scan_data->p_rt_data->pending_job == 0)
{
RET_CODE ret = SUCCESS;
/*
MT_ASSERT(p_scan_data->p_rt_data->job_dbg_info.pat_num == 0);
MT_ASSERT(p_scan_data->p_rt_data->job_dbg_info.sdt_num == 0);
MT_ASSERT(p_scan_data->p_rt_data->job_dbg_info.pmt_num == 0);
MT_ASSERT(p_scan_data->p_rt_data->job_dbg_info.video_packet_num == 0);
MT_ASSERT(p_scan_data->p_rt_data->job_dbg_info.nit_num == 0);
*/
log_perf(LOG_AP_SCAN,PERF_SAVE_DB_START,PROG_DB,0);
p_scan_data->p_rt_data->result.pg_num = p_scan_data->p_rt_data->cur_pg_offset;
ret = p_scan_policy->on_tp_done(p_scan_policy->p_priv_data,
&p_scan_data->p_rt_data->result);
log_perf(LOG_AP_SCAN,PERF_SAVE_DB_DONE,PROG_DB,0);
if(ret == SUCCESS)
{
log_perf(LOG_AP_SCAN, PERF_GET_ONETP_END,0,0);
p_scan_data->state = SCAN_GET_TP;
log_perf(LOG_AP_SCAN, PERF_GET_TP_BEGIN,0,0);
log_perf(LOG_AP_SCAN, PERF_GET_ONETP_BEGIN,0,0);
}
else
{
//Database is full or some error, break scan
p_scan_data->state = SCAN_IDLE;
}
}
#if 0 //for specified bouquet id
#else
else if(p_scan_data->p_rt_data->bat_multi_mode)
{
if(mtos_ticks_get() - p_scan_data->p_rt_data->start_bat_tickets
> 100*2)
{
scan_free_bat(p_scan_priv);
}
}
#endif
/* //for debug
else
{
if(mtos_ticks_get() - p_scan_data->p_rt_data->job_dbg_info.spend_ticks
> 100*2)
{
job_dbg_info_t *p_dbg = &p_scan_data->p_rt_data->job_dbg_info;
SCAN_DBG("pending job %d, nit %d, pat %d, pmt %d, sdt %d, v %d\n",
p_scan_data->p_rt_data->pending_job,
p_dbg->nit_num, p_dbg->pat_num, p_dbg->pmt_num,
p_dbg->sdt_num, p_dbg->video_packet_num);
}
}
*/
break;
default:
break;
}
}
static void scan_process_msg_runing(void *p_handle, os_msg_t *p_msg)
{
scan_priv_t *p_scan_priv = (scan_priv_t *)p_handle;
scan_data_t *p_scan_data = p_scan_priv->p_priv_data;
BOOL is_proc_policy = TRUE;
RET_CODE ret = 0;
MT_ASSERT(p_msg != NULL);
//SCAN_DBG("scan get msg 0x%x\n", p_msg->content);
switch(p_msg->content)
{
case NC_EVT_LOCKED:
SCAN_DBG(("SCAN: NC_EVT_LOCKED\n"));
if((p_scan_priv->p_policy != NULL) &&
(p_scan_priv->p_policy->repeat_tp_check != NULL) &&
(!p_scan_priv->p_policy->repeat_tp_check
(p_scan_priv->p_policy->p_priv_data, (nc_channel_info_t *)p_msg->para1)))
{
p_scan_data->state = SCAN_GET_TP;
is_proc_policy = FALSE;
}
else
{
scan_on_nc_locked(p_scan_priv, p_msg);
p_scan_data->state = SCAN_SCANING;
}
break;
case NC_EVT_UNLOCKED:
SCAN_DBG(("SCAN: NC_EVT_UNLOCKED\n"));
scan_on_nc_unlocked(p_scan_priv, p_msg);
p_scan_data->state = SCAN_GET_TP;
break;
case DVB_PAT_FOUND:
SCAN_DBG(("SCAN: DVB_PAT_FOUND\n"));
scan_on_pat_found(p_scan_priv, p_msg);
break;
case DVB_NIT_FOUND:
SCAN_DBG(("SCAN: DVB_NIT_FOUND\n"));
log_perf(LOG_AP_SCAN, PERF_NIT_FOUND, 0, 0);
scan_on_nit_found(p_scan_priv, p_msg);
break;
case DVB_BAT_FOUND:
SCAN_DBG(("SCAN: DVB_BAT_FOUND\n"));
log_perf(LOG_AP_SCAN, PERF_BAT_FOUND, 0, 0);
scan_on_bat_found(p_scan_priv, p_msg);
break;
case DVB_PAT_PMT_INFO:
SCAN_DBG(("SCAN: DVB_PAT_PMT_INFO\n"));
log_perf(LOG_AP_SCAN, PERF_PAT_FOUND, 0, 0);
scan_on_pmt_info_found(p_scan_priv, p_msg);
break;
case DVB_PMT_FOUND:
log_perf(LOG_AP_SCAN, PERF_PMT_FOUND, ((pmt_t *)(p_msg->para1))->prog_num, 0);
SCAN_DBG(("SCAN: DVB_PMT_FOUND\n"));
scan_on_pmt_found(p_scan_priv, p_msg);
break;
case DVB_SCRAMBLE_FLAG_FOUND:
SCAN_DBG(("SCAN: DVB_SCRAMBLE_FLAG_FOUND\n"));
scan_on_scrambled(p_scan_priv, p_msg);
break;
case DVB_SDT_FOUND:
SCAN_DBG(("SCAN: DVB_SDT_FOUND\n"));
log_perf(LOG_AP_SCAN, PERF_SDT_FOUND, 0, 0);
scan_on_sdt_found(p_scan_priv, p_msg);
break;
case DVB_TABLE_TIMED_OUT:
SCAN_DBG("SCAN: DVB_TABLE_TIMED_OUT%x\n",p_msg->para1);
scan_on_timedout(p_scan_priv, p_msg);
break;
case SCAN_CMD_CANCEL_SCAN:
p_scan_data->state = SCAN_FINISHED;
#if 0 //for specified bouquet id
#else
if(p_scan_priv->p_priv_data->p_rt_data->bat_multi_mode == TRUE)
scan_free_bat(p_scan_priv);
#endif
break;
case DVB_CAT_FOUND:
log_perf(LOG_AP_SCAN, PERF_CAT_FOUND, 0, 0);
p_scan_data->p_rt_data->job_dbg_info.cat_num--;
p_scan_data->p_rt_data->pending_job--;
break;
default:
break;
}
//The implement policy may override message process of scan process
if(is_proc_policy && (p_scan_priv->p_policy != NULL))
{
scan_policy_t *p_policy = p_scan_priv->p_policy;
if(NC_EVT_LOCKED == p_msg->content)
{
log_perf(LOG_AP_SCAN, PERF_SAVE_DB_START,LOCK_TP_DB,0);
ret = p_policy->msg_proc(p_policy->p_priv_data, p_msg);
log_perf(LOG_AP_SCAN, PERF_SAVE_DB_DONE,LOCK_TP_DB,0);
}
else if(NC_EVT_UNLOCKED == p_msg->content)
{
log_perf(LOG_AP_SCAN, PERF_SAVE_DB_START,UNLOCK_TP_DB,0);
ret = p_policy->msg_proc(p_policy->p_priv_data, p_msg);
log_perf(LOG_AP_SCAN, PERF_SAVE_DB_DONE,UNLOCK_TP_DB,0);
log_perf(LOG_AP_SCAN, PERF_GET_ONETP_END,0,0);
log_perf(LOG_AP_SCAN, PERF_GET_TP_BEGIN,0,0);
log_perf(LOG_AP_SCAN, PERF_GET_ONETP_BEGIN,0,0);
}
else
{
ret = p_policy->msg_proc(p_policy->p_priv_data, p_msg);
}
if(ERR_NO_MEM == ret)
{
scan_cancel(p_handle);
}
}
}
static void epg_single_step(void *p_handle, os_msg_t *p_msg)
{
epg_priv_t *p_priv_data = (epg_priv_t *)p_handle;
epg_policy_t *p_epg_impl = p_priv_data->p_epg_impl;
epg_impl_data_t *p_impl_data = (epg_impl_data_t *)(p_epg_impl->p_data);
proc_para_t *p_proc_data = (proc_para_t *)p_priv_data->p_proc_data;
void *p_epg_db_handle = p_priv_data->p_epg_db_handle;
epg_event_para_t evt_para = {0};
u32 cur_tick = 0;
event_t evt = {0};
eit_t *p_eit = NULL;
eit_t *p_eit_impl = NULL;
eit_t eit_temp ={0};
dvb_section_t *p_sec = NULL;
u32 section_buf_len = 0;
dvb_request_t *p_eit_req = NULL;
epg_db_status_t ret = EPG_DB_NORM;
BOOL pf_new_ver = FALSE;
BOOL lang_switch = FALSE;
class_handle_t nc_handle = class_get_handle_by_id(NC_CLASS_ID);
if(p_msg != NULL)
{
switch(p_msg->content)
{
case DVB_ONE_SEC_FOUND:
p_eit = (eit_t *)p_msg->para1;
p_sec = (dvb_section_t *)p_msg->para1;
section_buf_len = p_msg->para2;
eit_section_processing(p_sec->p_buffer, &eit_temp);
p_eit_impl = (eit_t *)&eit_temp;
if (p_epg_impl->epg_impl_send_rc_epg != NULL)
{
if (p_eit_impl->table_id != 0x4e && p_eit_impl->table_id != 0x4f)
{
//send p_sec buffer
p_epg_impl->epg_impl_send_rc_epg(p_sec->p_buffer,section_buf_len);
}
}
log_perf(LOG_AP_EPG, PERF_20_EVTS_BEGIN, p_eit_impl->svc_id,
(u32)(sht_evt_desc_t *)(p_eit_impl->sht_evt_info));
/*****filter epg lang code*********/
lang_switch = epg_data_try_lang_code_priority(
p_epg_db_handle,p_eit_impl);
if(lang_switch == TRUE)
{
epg_data_delete(p_epg_db_handle, EPG_DEL_ALL_NODE, NULL);
evt.id = EPG_EVT_EVT_DELETED;
evt.data1 = 0;
evt.data2 = 0;
ap_frm_send_evt_to_ui(APP_EPG, &evt);
epg_process_on_tab_free4(p_proc_data, p_epg_impl);
epg_process_on_tab_req4(p_proc_data, p_epg_impl);
break;
}
epg_data_filter_evt_lang_code(p_epg_db_handle,p_eit_impl);
/**********filter epg lang code end**/
ret = epg_data_add(p_epg_db_handle, p_eit_impl, &pf_new_ver);
log_perf(LOG_AP_EPG, PERF_20_EVTS_END, p_eit_impl->svc_id,
(u32)(sht_evt_desc_t *)(p_eit_impl->sht_evt_info));
//epg_data_get_db_report(p_epg_db_handle);
break;
case EPG_CMD_START_SCAN:
p_impl_data->ts_in = p_msg->para1;
p_epg_impl->epg_impl_start(p_epg_impl->p_data, p_msg->para2);
epg_process_tab_status_reset4(p_proc_data);
epg_process_on_tab_req4(p_proc_data, p_epg_impl);
break;
case EPG_CMD_START_SCAN_PF:
req_single_eit(p_proc_data->p_svc, p_msg->para1, p_msg->para2, p_impl_data->ts_in);
break;
case EPG_CMD_EIT_TS_UPDATE:
nc_get_ts_by_tuner(nc_handle, p_msg->para1&0xff, &p_impl_data->ts_in);
p_proc_data->p_svc->do_cmd(p_proc_data->p_svc, DVB_TABLE_TS_UPDATE,
DVB_TABLE_ID_EIT_ACTUAL, p_impl_data->ts_in);
break;
case EPG_CMD_STOP_SCAN:
epg_process_on_tab_free4(p_proc_data, p_epg_impl);
break;
case DVB_FREED:
p_eit_req = (dvb_request_t *)p_msg->para1;
if(p_eit_req->table_id == DVB_TABLE_ID_EIT_SCH_ACTUAL_51)
{
epg_data_mem_release(p_epg_db_handle);
send_msg_to_ui(EPG_EVT_STOP);
}
break;
case EPG_CMD_SAMPLE:
EPG_PRINT("!!!!!!!!!!!!!rcv msg from UI");
break;
default:
break;
}
}
if(pf_new_ver == TRUE)
{
EPG_PRINT("!!!!EPG_EVT_NEW_PF_VER_FOUND:%d %d\n",
p_eit->svc_id, p_eit->sht_evt_info[0].parental_rating.rating);
evt_para.orig_network_id = p_eit->org_nw_id;
evt_para.ts_id = p_eit->stream_id;
evt_para.svc_id = p_eit->svc_id;
evt_para.parental_rating = p_eit->sht_evt_info[0].parental_rating.rating;
evt.id = EPG_EVT_NEW_PF_VER_FOUND;
evt.data1 = (u32)(&evt_para);
ap_frm_send_evt_to_ui(APP_EPG, &evt);
}
if(p_impl_data->pf_switch_enable == TRUE)
{
//check pf section status before state machine
if(p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].table_is_requested == TRUE)
{
cur_tick = mtos_ticks_get();
if((cur_tick - p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].tick_requsted)
> p_impl_data->pf_requested_interval)
{
free_eit_section4(p_proc_data->p_svc,
p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].table_id,
p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].p_buf_addr);
p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].table_is_requested = FALSE;
p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].tick_freed = mtos_ticks_get();
}
}
else
{
cur_tick = mtos_ticks_get();
if((cur_tick - p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].tick_freed)
> p_impl_data->pf_freed_interval)
{
//EPG_PRINT("!!!!!Before delete overdue!!\n");
epg_data_delete(p_epg_db_handle, EPG_DEL_OVERDEU_EVT, NULL);
///EPG_PRINT("!!!!!After delete overdue!!\n");
evt.id = EPG_EVT_EVT_DELETED;
evt.data1 = 0;
evt.data2 = 0;
ap_frm_send_evt_to_ui(APP_EPG, &evt);
//EPG_PRINT("!!!!!!!!!PF section OPEN!!!!!!!\n");
request_eit_section4(p_proc_data->p_svc,
p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].table_id,
p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].p_buf_addr,
p_impl_data->ts_in);
p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].table_is_requested = TRUE;
p_proc_data->default_tab_map[EIT_ACTUAL_INDEX].tick_requsted = mtos_ticks_get();
}
}
}
//state machine
switch(ret)
{
case EPG_DB_OVERFLOW:
// EPG_PRINT("!!!!!MEM_OVERFLOW!Before delete by dynamic policy!\n");
// epg_data_get_db_report(p_epg_db_handle);
epg_data_delete(p_epg_db_handle, EPG_DEL_EXP_DY_POLICY, NULL);
evt.id = EPG_EVT_EVT_DELETED;
evt.data1 = 0;
evt.data2 = 0;
ap_frm_send_evt_to_ui(APP_EPG, &evt);
// EPG_PRINT("!!!!!After delete by dynamic policy!\n");
// epg_data_get_db_report(p_epg_db_handle);
break;
case EPG_DB_NEW_SEC_FOUND:
if(++p_proc_data->captured_eit_num >= p_impl_data->new_section_num)
{
p_proc_data->captured_eit_num = 0;
evt.id = EPG_EVT_NEW_SEC_FOUND;
evt.data1 = p_eit->svc_id;
evt.data2 = p_eit->stream_id;
ap_frm_send_evt_to_ui(APP_EPG, &evt);
}
break;
default:
break;
}
}
static RET_CODE rec_pin_on_fill_sample(handle_t _this, media_sample_t *p_sample,
u32 fill_len, s64 position)
{
rec_pin_private_t *p_priv = get_priv(_this);
u8 *p_data = NULL;
u64 up = 0;
u64 data_size = 0;
u64 get_size = 0;
u64 unit_size = p_priv->cfg.fill_unit_size;
u64 unit_left = 0;
u64 offset = 0;
u64 overflow_len = 0;
u32 top = 0;
CHECK_FAIL_RET_CODE(_this != NULL);
if(p_priv->b_hold)
{
return ERR_FAILURE;
}
dmx_rec_get_data(p_priv->p_dmx_dev, p_priv->cfg.rec_in, &data_size);
if(data_size == 0)
{
//mtos_task_sleep(10); //wait stream in
return SUCCESS;
}
up = data_size - p_priv->obtain_data_len;
get_size = up - up % unit_size;
if(get_size >= p_priv->cfg.fill_expect_size)
{
if(get_size > p_priv->cfg.total_buf_len)
{
overflow_len = get_size - p_priv->cfg.total_buf_len;
OS_PRINTF("\n\n\nrec data overflow %lld packet !!\n\n\n", overflow_len / 188);
//find to the don't overwrite buffer
p_priv->obtain_data_len += overflow_len;
get_size -= overflow_len;
get_size = get_size - get_size % unit_size;
if(get_size < p_priv->cfg.fill_expect_size)
{
return ERR_FAILURE;
}
}
offset = p_priv->obtain_data_len % p_priv->cfg.total_buf_len;
p_data = p_priv->cfg.p_rec_buffer + (u32)offset;
#if 1
unit_left = (u64)p_priv->cfg.total_buf_len - offset;
if ((unit_left < unit_size) && (p_priv->cfg.total_buf_len % p_priv->cfg.fill_unit_size))
{
memcpy((void *)((u32)p_data + (u32)unit_left),
p_priv->cfg.p_rec_buffer, (u32)(unit_size - unit_left));
p_priv->obtain_data_len += unit_size;
p_sample->payload = unit_size;
p_sample->p_data = p_data;
return SUCCESS;
}
#endif
if(get_size + offset > p_priv->cfg.total_buf_len)
{
top = get_size + offset - p_priv->cfg.total_buf_len;
get_size -= top;
get_size = get_size - get_size % unit_size;
}
p_sample->p_data = p_data;
p_sample->payload = get_size;
p_priv->obtain_data_len += get_size;
//OS_PRINTF("rec_fill_sample: offset [%d]*188, get_size[%d]*188\n",
// offset/188, get_size / 188);
log_perf(LOG_DMX_FILTER_REC_PIN, TAG_GET_PALYLOAD,
(u32)(p_sample->payload / 188), 0);
return SUCCESS;
}
else
{
mtos_task_sleep(10); //wait stream in
return ERR_FAILURE;
}
}
int
main(int argc, char *argv[])
{
int size, length, i;
int *data;
int *target;
int fds[2];
int shm_size = SHM_SIZE;
char *areas[2];
double bs, as, br, ar;
if (argc > 1) {
size = atoi(argv[1]);
length = size / sizeof(int);
size = sizeof(int) * length;
} else
exit(1);
if (argc > 2) {
shm_size = atoi(argv[2]);
}
if (socketpair(AF_UNIX, SOCK_STREAM, 0, fds) == -1) {
perror("socketpair");
exit(1);
}
areas[0] = mmap(0, shm_size, PROT_READ|PROT_WRITE, MAP_ANON|MAP_SHARED, -1, 0);
if (areas[0] == MAP_FAILED) {
perror("mmap: ");
abort();
}
areas[1] = mmap(0, shm_size, PROT_READ|PROT_WRITE, MAP_ANON|MAP_SHARED, -1, 0);
if (areas[1] == MAP_FAILED) {
perror("mmap: ");
abort();
}
log_perf("before init, size=%d", size);
data = malloc(size);
for(i=0; i<length; i++)
data[i] = i;
log_perf("after init");
int idx;
int count = 0;
if (!fork()) { /* child */
free(data);
target = malloc(size);
idx = 0;
count = 0;
syncup(fds[1]);
br = log_perf("start read");
syncup(fds[1]);
while (count < size) {
int read_size = (size - count) > shm_size ? shm_size : (size - count);
memcpy(((void *)target)+count, areas[idx], read_size);
count += read_size;
idx = (idx + 1) % 2;
syncup(fds[1]);
}
ar = log_perf("done read");
internal_send(fds[1], &br, sizeof(double));
internal_send(fds[1], &ar, sizeof(double));
for(i=0; i<length; i++)
assert(target[i] == i);
} else { /* parent */
idx = 0;
count = 0;
syncup(fds[0]);
bs = log_perf("start write");
while (count < size) {
int write_size = (size - count) > shm_size ? shm_size : (size - count);
memcpy(areas[idx], ((void *)data)+count, write_size);
count += write_size;
idx = (idx + 1) % 2;
syncup(fds[0]);
}
syncup(fds[0]);
as = log_perf("done write");
internal_recv(fds[0], &br, sizeof(double));
internal_recv(fds[0], &ar, sizeof(double));
printf("TIME: %f\n", max(as,ar) - min(bs,br) );
/* wait for child to die */
wait(NULL);
}
return 0;
}
static find_tp_ret_t find_tp(bl_scan_priv_t *p_priv,
nc_channel_info_t *p_channel)
{
u16 count = 0;
u16 index = p_priv->cur_channel_idx;
bs_cfg_t *p_cur_cfg = NULL;
while(TRUE)
{
if(index < p_priv->channel_count)
{
p_cur_cfg = p_priv->bs_cfg_info + p_priv->cur_bs_times;
memcpy(&p_channel->channel_info,
p_priv->channel_map + index, sizeof(nim_channel_info_t));
p_channel->onoff22k = p_cur_cfg->onoff22k;
if(C_BAND == p_cur_cfg->freqBand &&
DOUBLE_LOCAL_OSCILLATOR == p_cur_cfg->localOscillator)
{
p_channel->polarization =
p_channel->channel_info.frequency > (1550 * KHZ) ? 1 : 0;
}
else
{
p_channel->polarization = p_cur_cfg->polarization;
}
//copy unicable information.
if(p_cur_cfg->unicable_param.use_uc)
{
memcpy(&p_channel->channel_info.param.dvbs.uc_param, &p_cur_cfg->unicable_param,
sizeof(nim_unicable_param_t));
}
else
{
memset(&p_channel->channel_info.param.dvbs.uc_param, 0x0, sizeof(nim_unicable_param_t));
}
return FIND_SUC;
}
log_perf(LOG_AP_SCAN, PERF_PRE_SCAN, 0, 0);
//pre scan current satellite
if(pre_scan(p_priv, &count))
{
if(count > 0)
{
p_priv->channel_count += count;
if(p_priv->channel_count > MAX_TP_NUM_PER_SAT)
{
return FIND_DONE;
}
}
else
{
log_perf(LOG_AP_SCAN, PERF_SCAN_EVT, 0, 0);
return FIND_BUSY;
}
}
else
{
log_perf(LOG_AP_SCAN, PERF_SCAN_EVT, 0, 0);
return FIND_DONE;
}
log_perf(LOG_AP_SCAN, PERF_SCAN_EVT, 0, 0);
}
}
