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mirror of https://github.com/DigitalDevices/dddvb.git synced 2023-10-10 13:37:43 +02:00

Merge branch 'internal'

This commit is contained in:
Ralph Metzler 2018-09-17 14:35:04 +02:00
commit 405eb3e5b4
22 changed files with 2454 additions and 64 deletions

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@ -4,11 +4,16 @@ PWD := $(shell pwd)
MODDEFS := CONFIG_DVB_CORE=m CONFIG_DVB_DDBRIDGE=m CONFIG_DVB_DRXK=m CONFIG_DVB_TDA18271C2DD=m CONFIG_DVB_CXD2099=m CONFIG_DVB_LNBP21=m CONFIG_DVB_STV090x=m CONFIG_DVB_STV6110x=m CONFIG_DVB_STV0367=m CONFIG_DVB_TDA18212=m CONFIG_DVB_STV0367DD=m CONFIG_DVB_TDA18212DD=m CONFIG_DVB_OCTONET=m CONFIG_DVB_CXD2843=m CONFIG_DVB_STV0910=m CONFIG_DVB_STV6111=m CONFIG_DVB_LNBH25=m CONFIG_DVB_MXL5XX=m CONFIG_DVB_NET=m MODDEFS := CONFIG_DVB_CORE=m CONFIG_DVB_DDBRIDGE=m CONFIG_DVB_DRXK=m CONFIG_DVB_TDA18271C2DD=m CONFIG_DVB_CXD2099=m CONFIG_DVB_LNBP21=m CONFIG_DVB_STV090x=m CONFIG_DVB_STV6110x=m CONFIG_DVB_STV0367=m CONFIG_DVB_TDA18212=m CONFIG_DVB_STV0367DD=m CONFIG_DVB_TDA18212DD=m CONFIG_DVB_OCTONET=m CONFIG_DVB_CXD2843=m CONFIG_DVB_STV0910=m CONFIG_DVB_STV6111=m CONFIG_DVB_LNBH25=m CONFIG_DVB_MXL5XX=m CONFIG_DVB_NET=m
all: all:
$(MAKE) -C $(KDIR) SUBDIRS=$(PWD) $(MODDEFS) modules $(MAKE) -C $(KDIR) SUBDIRS=$(PWD) $(MODDEFS) modules
$(MAKE) -C apps $(MAKE) -C apps
libdddvb:
$(MAKE) -C lib
libdddvb-install:
$(MAKE) -C lib install
dep: dep:
DIR=`pwd`; (cd $(TOPDIR); make SUBDIRS=$$DIR dep) DIR=`pwd`; (cd $(TOPDIR); make SUBDIRS=$$DIR dep)

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@ -249,6 +249,10 @@ int main(int argc, char **argv)
fname="DVBBridgeV2B_DD01_0013_PRO.fpga"; fname="DVBBridgeV2B_DD01_0013_PRO.fpga";
printf("Octopus PRO\n"); printf("Octopus PRO\n");
break; break;
case 0x0020:
fname="DVBBridgeV2B_DD01_0020.fpga";
printf("Octopus GT Mini\n");
break;
case 0x0201: case 0x0201:
fname="DVBModulatorV1B_DVBModulatorV1B.bit"; fname="DVBModulatorV1B_DVBModulatorV1B.bit";
printf("Modulator\n"); printf("Modulator\n");

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@ -1560,11 +1560,30 @@ static void dvb_input_detach(struct ddb_input *input)
static int dvb_register_adapters(struct ddb *dev) static int dvb_register_adapters(struct ddb *dev)
{ {
int i, ret = 0; int i, ret = 0, l = 0;
struct ddb_port *port; struct ddb_port *port;
struct dvb_adapter *adap; struct dvb_adapter *adap;
if (adapter_alloc == 3 || dev->link[0].info->type == DDB_MOD || if (adapter_alloc == 4) {
for (i = 0; i < dev->port_num; i++) {
port = &dev->port[i];
if (port->lnr >= l) {
adap = port->dvb[0].adap;
ret = dvb_register_adapter(adap, "DDBridge", THIS_MODULE,
port->dev->dev,
adapter_nr);
if (ret < 0)
return ret;
port->dvb[0].adap_registered = 1;
l = port->lnr + 1;
}
port->dvb[0].adap = adap;
port->dvb[1].adap = adap;
}
return 0;
}
if (adapter_alloc >= 3 || dev->link[0].info->type == DDB_MOD ||
dev->link[0].info->type == DDB_OCTONET || dev->link[0].info->type == DDB_OCTONET ||
dev->link[0].info->type == DDB_OCTOPRO ) { dev->link[0].info->type == DDB_OCTOPRO ) {
port = &dev->port[0]; port = &dev->port[0];
@ -1644,7 +1663,7 @@ static void dvb_unregister_adapters(struct ddb *dev)
struct ddb_port *port; struct ddb_port *port;
struct ddb_dvb *dvb; struct ddb_dvb *dvb;
for (i = 0; i < dev->link[0].info->port_num; i++) { for (i = 0; i < dev->port_num; i++) {
port = &dev->port[i]; port = &dev->port[i];
dvb = &port->dvb[0]; dvb = &port->dvb[0];

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@ -640,7 +640,7 @@ static const struct ddb_info ddb_m4 = {
}; };
static const struct ddb_info ddb_gtl_mini = { static const struct ddb_info ddb_gtl_mini = {
.type = DDB_OCTONET, .type = DDB_OCTOPUS,
.name = "Digital Devices Octopus GT Mini", .name = "Digital Devices Octopus GT Mini",
.regmap = &gtl_mini, .regmap = &gtl_mini,
.port_num = 0, .port_num = 0,

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@ -473,7 +473,6 @@ extern struct mci_cfg ddb_max_m4_cfg;
int ddb_fe_attach_mci(struct ddb_input *input, u32 type) int ddb_fe_attach_mci(struct ddb_input *input, u32 type)
{ {
struct ddb *dev = input->port->dev; struct ddb *dev = input->port->dev;
//struct i2c_adapter *i2c = &input->port->i2c->adap;
struct ddb_dvb *dvb = &input->port->dvb[input->nr & 1]; struct ddb_dvb *dvb = &input->port->dvb[input->nr & 1];
struct ddb_port *port = input->port; struct ddb_port *port = input->port;
struct ddb_link *link = &dev->link[port->lnr]; struct ddb_link *link = &dev->link[port->lnr];
@ -514,8 +513,14 @@ int ddb_fe_attach_mci(struct ddb_input *input, u32 type)
dvb->fe->ops.diseqc_send_master_cmd = max_send_master_cmd; dvb->fe->ops.diseqc_send_master_cmd = max_send_master_cmd;
dvb->fe->ops.diseqc_send_burst = max_send_burst; dvb->fe->ops.diseqc_send_burst = max_send_burst;
dvb->fe->sec_priv = input; dvb->fe->sec_priv = input;
dvb->set_input = dvb->fe->ops.set_input; switch (type) {
dvb->fe->ops.set_input = max_set_input; case DDB_TUNER_MCI_M4:
break;
default:
dvb->set_input = dvb->fe->ops.set_input;
dvb->fe->ops.set_input = max_set_input;
break;
}
dvb->input = tuner; dvb->input = tuner;
return 0; return 0;
} }

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@ -93,17 +93,23 @@
/********************************************************/ /********************************************************/
#define SX8_DEMOD_STOPPED (0) #define MCI_DEMOD_STOPPED (0)
#define SX8_DEMOD_IQ_MODE (1) #define MCI_DEMOD_WAIT_SIGNAL (2)
#define SX8_DEMOD_WAIT_SIGNAL (2) #define MCI_DEMOD_TIMEOUT (14)
#define SX8_DEMOD_WAIT_MATYPE (3) #define MCI_DEMOD_LOCKED (15)
#define SX8_DEMOD_TIMEOUT (14)
#define SX8_DEMOD_LOCKED (15)
#define M4_DEMOD_STOPPED (0) #define SX8_DEMOD_IQ_MODE (1)
#define M4_DEMOD_WAIT_SIGNAL (1) #define SX8_DEMOD_WAIT_MATYPE (3)
#define M4_DEMOD_TIMEOUT (14)
#define M4_DEMOD_LOCKED (15) #define M4_DEMOD_WAIT_TS (6)
#define M4_DEMOD_C2SCAN (16)
#define MCI_STATUS_OK (0x00)
#define MCI_STATUS_UNSUPPORTED (0x80)
#define MCI_STATUS_INVALID_PARAMETER (0xFC)
#define MCI_STATUS_RETRY (0xFD)
#define MCI_STATUS_NOT_READY (0xFE)
#define MCI_STATUS_ERROR (0xFF)
#define MCI_CMD_STOP (0x01) #define MCI_CMD_STOP (0x01)
#define MCI_CMD_GETSTATUS (0x02) #define MCI_CMD_GETSTATUS (0x02)
@ -111,11 +117,16 @@
#define MCI_CMD_RFPOWER (0x04) #define MCI_CMD_RFPOWER (0x04)
#define MCI_CMD_SEARCH_DVBS (0x10) #define MCI_CMD_SEARCH_DVBS (0x10)
#define MCI_CMD_SEARCH_ISDBS (0x11)
#define MCI_CMD_SEARCH_DVBC (0x20) #define MCI_CMD_SEARCH_DVBC (0x20)
#define MCI_CMD_SEARCH_DVBT (0x21) #define MCI_CMD_SEARCH_DVBT (0x21)
#define MCI_CMD_SEARCH_DVBT2 (0x22) #define MCI_CMD_SEARCH_DVBT2 (0x22)
#define MCI_CMD_SEARCH_DVBC2 (0x23) #define MCI_CMD_SEARCH_DVBC2 (0x23)
#define MCI_CMD_SEARCH_ISDBT (0x24) #define MCI_CMD_SEARCH_ISDBT (0x24)
#define MCI_CMD_SEARCH_ISDBC (0x25)
#define MCI_CMD_SEARCH_J83B (0x26)
#define MCI_CMD_GET_IQSYMBOL (0x30) #define MCI_CMD_GET_IQSYMBOL (0x30)
@ -126,13 +137,6 @@
#define MCI_BANDWIDTH_7MHZ (7) #define MCI_BANDWIDTH_7MHZ (7)
#define MCI_BANDWIDTH_8MHZ (8) #define MCI_BANDWIDTH_8MHZ (8)
#define M4_MODE_DVBSX (2)
#define M4_MODE_DVBC (3)
#define M4_MODE_DVBT (4)
#define M4_MODE_DVBT2 (5)
#define M4_MODE_DVBC2 (6)
#define M4_MODE_ISDBT (7)
#define SX8_CMD_INPUT_ENABLE (0x40) #define SX8_CMD_INPUT_ENABLE (0x40)
#define SX8_CMD_INPUT_DISABLE (0x41) #define SX8_CMD_INPUT_DISABLE (0x41)
#define SX8_CMD_START_IQ (0x42) #define SX8_CMD_START_IQ (0x42)
@ -140,15 +144,40 @@
#define SX8_CMD_ENABLE_IQOUTPUT (0x44) #define SX8_CMD_ENABLE_IQOUTPUT (0x44)
#define SX8_CMD_DISABLE_IQOUTPUT (0x45) #define SX8_CMD_DISABLE_IQOUTPUT (0x45)
#define M4_CMD_GET_T2_L1INFO (0x50) #define M4_CMD_GET_L1INFO (0x50)
#define M4_CMD_GET_C2_L1P2 (0x50)
#define M4_CMD_GET_IDS (0x51) #define M4_CMD_GET_IDS (0x51)
#define M4_CMD_GET_DVBT_TPS (0x52)
#define M4_CMD_GET_BBHEADER (0x53)
#define M4_CMD_GET_ISDBT_TMCC (0x54)
#define M4_CMD_GET_ISDBS_TMCC (0x55)
#define M4_CMD_GET_ISDBC_TSMF (0x56)
#define MCI_STATUS_OK (0x00) #define M4_L1INFO_SEL_PRE (0)
#define MCI_STATUS_UNSUPPORTED (0x80) #define M4_L1INFO_SEL_DSINFO (1)
#define MCI_STATUS_RETRY (0xFD) #define M4_L1INFO_SEL_PLPINFO (2)
#define MCI_STATUS_NOT_READY (0xFE) #define M4_L1INFO_SEL_PLPINFO_C (3)
#define MCI_STATUS_ERROR (0xFF) #define M4_L1INFO_SEL_SETID (0x80)
#define MCI_BANDWIDTH_EXTENSION (0x80) // currently used only for J83B in Japan
#define M4_MODE_DVBSX (2)
#define M4_MODE_DVBC (3)
#define M4_MODE_DVBT (4)
#define M4_MODE_DVBT2 (5)
#define M4_MODE_DVBC2 (6)
#define M4_MODE_J83B (7)
#define M4_MODE_ISDBT (8)
#define M4_MODE_ISDBC (9)
#define M4_MODE_ISDBS (10)
#define M4_DVBC_CONSTELLATION_16QAM (0)
#define M4_DVBC_CONSTELLATION_32QAM (1)
#define M4_DVBC_CONSTELLATION_64QAM (2) // also valid for J83B and ISDB-C
#define M4_DVBC_CONSTELLATION_128QAM (3)
#define M4_DVBC_CONSTELLATION_256QAM (4) // also valid for J83B and ISDB-C
#define M4_SIGNALINFO_FLAG_CHANGE (0x01)
#define M4_SIGNALINFO_FLAG_EWS (0x02)
#define MCI_SUCCESS(status) ((status & MCI_STATUS_UNSUPPORTED) == 0) #define MCI_SUCCESS(status) ((status & MCI_STATUS_UNSUPPORTED) == 0)
@ -181,6 +210,16 @@ struct mci_command {
u32 frequency_range; u32 frequency_range;
} dvbs2_search; } dvbs2_search;
struct {
u8 flags; /* Bit 0: 0 = TSID is Transport Stream ID, 1 = TSID is relative stream number */
u8 rsvd1[2];
u8 retry;
u32 frequency;
u32 rsvd2;
u16 rsvd3;
u16 tsid;
} isdbs_search;
struct { struct {
u8 flags; u8 flags;
u8 bandwidth; u8 bandwidth;
@ -228,6 +267,26 @@ struct mci_command {
u32 frequency; u32 frequency;
} isdbt_search; } isdbt_search;
struct {
u8 flags; /* Bit 0: 0 = TSID is Transport Stream ID, 1 = TSID is relative stream number */
/* Bit 2..1: 0 = force single, 1 = force multi, 2 = auto detect */
u8 bandwidth;
u8 rsvd1;
u8 retry;
u32 frequency;
u32 rsvd2;
u16 onid;
u16 tsid;
} isdbc_search;
struct {
u8 flags;
u8 bandwidth;
u8 rsvd1;
u8 retry;
u32 frequency;
} j83b_Search;
struct { struct {
u8 tap; u8 tap;
u8 rsvd; u8 rsvd;
@ -251,16 +310,19 @@ struct mci_command {
} sx8_input_enable; } sx8_input_enable;
struct { struct {
u8 Offset; // Offset into list, must be multiple of 64 u8 offset; // Offset into list, must be multiple of 64
u8 Select; // 0 = Slices, 1 = PLPs (C2 Only) u8 select; // 0 = Slices, 1 = PLPs (C2 Only)
u8 DataSlice; // DataSlice to get PLPList (C2 Only) u8 data_slice; // DataSlice to get PLPList (C2 Only)
} get_ids; } get_ids;
struct { struct {
u8 select; // 0 = Base, 1 = DataSilce, 2 = PLP, Bit 7: Set new ID u8 select; // 0 = Base, 1 = DataSilce, 2 = PLP, Bit 7: Set new ID
u8 id; // DataSliceID, PLPId u8 id; // DataSliceID, PLPId
} get_l1_info; } get_l1_info;
struct {
u8 select; // 0 = Data PLP, 1 = Common PLP, only DVB-T2 and DVB-C2
} get_bb_header;
}; };
}; };
@ -273,13 +335,31 @@ struct mci_result {
u16 time; u16 time;
}; };
}; };
union { union {
u32 result[27]; u32 result[27];
struct {
u8 Rsvd0[3];
u8 Flags;
u32 frequency; // actual frequency in Hz
u32 rsvd1;
s16 channel_power; // channel power in dBm x 100
s16 rsvd2;
s16 signal_to_noise; // SNR in dB x 100, Note: negativ values are valid in DVB-S2
s16 rsvd3;
u32 rsvd4;
u32 ber_numerator; /* Bit error rate: PreRS in DVB-S, PreBCH in DVB-S2X */
u32 ber_denominator;
u32 ber_rsvd1; // Place holder for modulation bit error rate
u32 ber_rsvd2;
} common_signal_info;
struct { struct {
u8 standard; /* 1 = DVB-S, 2 = DVB-S2X */ u8 standard; /* 1 = DVB-S, 2 = DVB-S2X */
u8 pls_code; /* puncture rate for DVB-S */ u8 pls_code; /* puncture rate for DVB-S */
u8 roll_off; /* 2-0: rolloff */ u8 roll_off; /* 2-0: rolloff */
u8 rsvd; u8 flags;
u32 frequency; /* actual frequency in Hz */ u32 frequency; /* actual frequency in Hz */
u32 symbol_rate; /* actual symbolrate in Hz */ u32 symbol_rate; /* actual symbolrate in Hz */
s16 channel_power; /* channel power in dBm x 100 */ s16 channel_power; /* channel power in dBm x 100 */
@ -292,8 +372,9 @@ struct mci_result {
} dvbs2_signal_info; } dvbs2_signal_info;
struct { struct {
u8 modulation; u8 constellation;
u8 rsvd1[3]; u8 rsvd0[2];
u8 flags;
u32 frequency; /* actual frequency in Hz */ u32 frequency; /* actual frequency in Hz */
u32 symbol_rate; /* actual symbolrate in Hz */ u32 symbol_rate; /* actual symbolrate in Hz */
s16 channel_power; /* channel power in dBm x 100 */ s16 channel_power; /* channel power in dBm x 100 */
@ -306,9 +387,12 @@ struct mci_result {
} dvbc_signal_info; } dvbc_signal_info;
struct { struct {
u8 tps_25_32; /* Constellation (2), Hierarchy (3), Coderate HP (3) */ u8 modulation1; // bit 7..6: Constellation, bit 5..3 Hierachy, bit 2..0 CodeRate High
u8 tps_33_39; /* Coderate LP (3), Guardinterval (2), FFT (2), 0 (1) */ u8 modulation2; // bit 7..5: CodeRate Low, bit 4..3 Guard Interval, bit 2..1 FFT Mode
u16 tps_cell_id; /* Cell Identifier */ u8 Rsvd0;
u8 Flags;
//u16 tps_cell_id; /* Cell Identifier */
u32 frequency; /* actual frequency in Hz */ u32 frequency; /* actual frequency in Hz */
u32 rsvd1; u32 rsvd1;
s16 channel_power; /* channel power in dBm x 100 */ s16 channel_power; /* channel power in dBm x 100 */
@ -321,7 +405,8 @@ struct mci_result {
} dvbt_signal_info; } dvbt_signal_info;
struct { struct {
u32 rsvd0; u8 rsvd0[3];
u8 flags;
u32 frequency; /* actual frequency in Hz */ u32 frequency; /* actual frequency in Hz */
u32 rsvd1; u32 rsvd1;
s16 channel_power; /* channel power in dBm x 100 */ s16 channel_power; /* channel power in dBm x 100 */
@ -333,8 +418,9 @@ struct mci_result {
u32 ber_denominator; u32 ber_denominator;
} dvbt2_signal_info; } dvbt2_signal_info;
struct { // Work in Progress struct {
u32 rsvd0 ; // Cell Identifier u8 rsvd0[3];
u8 flags;
u32 frequency; // actual frequency in Hz u32 frequency; // actual frequency in Hz
u32 rsvd1; // u32 rsvd1; //
@ -348,8 +434,9 @@ struct mci_result {
} dvbc2_signal_info; } dvbc2_signal_info;
struct { struct {
u32 rsvd0; u8 rsvd0[3];
u8 flags;
u32 frequency; // actual frequency in Hz u32 frequency; // actual frequency in Hz
u32 rsvd1; // u32 rsvd1; //
s16 channel_power; // channel power in dBm x 100 s16 channel_power; // channel power in dBm x 100
@ -357,24 +444,117 @@ struct mci_result {
s16 signal_to_noise; // SNR in dB x 100, Note: negativ values are valid in DVB-S2 s16 signal_to_noise; // SNR in dB x 100, Note: negativ values are valid in DVB-S2
s16 rsvd2; s16 rsvd2;
u32 packet_errors; // Counter for packet errors. (set to 0 on Start command) u32 packet_errors; // Counter for packet errors. (set to 0 on Start command)
u32 ber_numerator; // Bit error rate: PreRS
u32 ber_denominator; u32 ber_denominator;
u32 ber_rsvd1; // Place holder for modulation bit error rate
u8 tmcc_info[13]; // TMCC B20 - B121 u32 ber_rsvd2;
u32 ber_numeratorB; // Bit error rate: PreRS Segment B
u32 ber_numeratorC; // Bit error rate: PreRS Segment C
} isdbt_signal_info; } isdbt_signal_info;
struct {
u8 Constellation;
u8 Rsvd0[2];
u8 Flags;
u32 Frequency; // actual frequency in Hz
u32 SymbolRate; // actual symbolrate in Hz
s16 ChannelPower; // channel power in dBm x 100
s16 BandPower; // band power in dBm x 100
s16 SignalToNoise; // SNR in dB x 100, Note: negativ values are valid in DVB-S2
s16 Rsvd2;
u32 PacketErrors; // Counter for packet errors. (set to 0 on Start command)
u32 BERNumerator; // Bit error rate: PreRS in DVB-S, PreBCH in DVB-S2X
u32 BERDenominator;
} ISDBC_SignalInfo;
struct {
u8 Constellation;
u8 Interleaving;
u8 Rsvd0;
u8 Flags;
u32 Frequency; // actual frequency in Hz
u32 SymbolRate; // actual symbolrate in Hz
s16 ChannelPower; // channel power in dBm x 100
s16 BandPower; // band power in dBm x 100
s16 SignalToNoise; // SNR in dB x 100, Note: negativ values are valid in DVB-S2
s16 Rsvd2;
u32 PacketErrors; // Counter for packet errors. (set to 0 on Start command)
u32 BERNumerator; // Bit error rate: PreRS in DVB-S, PreBCH in DVB-S2X
u32 BERDenominator;
} J83B_SignalInfo;
struct { struct {
s16 i; s16 i;
s16 q; s16 q;
} iq_symbol; } iq_symbol;
struct { struct {
u8 t2_l1_pre[37]; u8 TPSInfo[7];
u8 t2_l1_post[15]; } DVBT_TPSInfo;
u8 t2_l1_post_d[19];
u8 t2_l1_post_c[19]; struct {
} dvbt2_l1_info; struct {
u8 Type;
u8 BWExtension;
u8 S1;
u8 S2;
u8 L1RepetitionFlag;
u8 GuardInterval;
u8 PAPR;
u8 L1Mod;
u8 L1Cod;
u8 L1FECType;
u8 L1PostSize[3];
u8 L1PostInfoSize[3];
u8 PilotPattern;
u8 TXIDAvailabilty;
u8 CellID[2];
u8 NetworkID[2];
u8 T2SystemID[2];
u8 NumT2Frames;
u8 NumDataSymbols[2];
u8 RegenFlag;
u8 L1PostExtension;
u8 NumRF;
u8 CurrentRFIndex;
u8 T2Version_PostScrambled_BaseLite_Rsvd[2]; // 4,1,1,4 bit
u8 CRC32[4];
} DVBT2_L1Pre;
struct {
u8 SubSlicesPerFrame[2];
u8 NumPLP;
u8 NumAux;
u8 AuxConfigRFU;
u8 RFIndex;
u8 Frequency[4];
u8 FEFType;
u8 FEFLength[3];
u8 FEFInterval;
} DVBT2_L1Post;
} DVBT2_L1Info;
struct {
u8 PLPID;
u8 Type;
u8 PayloadType;
u8 FFFlag;
u8 FirstRFIndex;
u8 FirstFrameIndex;
u8 GroupID;
u8 Cod;
u8 Mod;
u8 Rotation;
u8 FECType;
u8 NumBlocksMax[2];
u8 FrameInterval;
u8 TimeILLength;
u8 TimeILType;
u8 InBandAFlag;
u8 InBandBFlag_Rsvd1_Mode_StaticFlag_StaticPaddingFlag[2]; // 1,11,2,1,1
} DVBT2_PLPInfo;
struct { struct {
u8 NetworkID[2]; u8 NetworkID[2];
u8 C2SystemID[2]; u8 C2SystemID[2];
@ -385,21 +565,21 @@ struct mci_result {
u8 L1P2ChangeCounter; u8 L1P2ChangeCounter;
u8 NumDataSlices; u8 NumDataSlices;
u8 NumNotches; u8 NumNotches;
struct { struct {
u8 Start[2]; u8 Start[2];
u8 Width[2]; u8 Width[2];
u8 Reserved3; u8 Reserved3;
} NotchData[15]; } NotchData[15];
u8 ReservedTone; u8 ReservedTone;
u8 Reserved4[2]; // EWS 1 bit, C2_Version 4 bit, Rsvd 11 bit u8 Reserved4[2]; // EWS 1 bit, C2_Version 4 bit, Rsvd 11 bit
} DVBC2_L1Part2; } DVBC2_L1Part2;
struct { struct {
u8 NumIDs; u8 NumIDs;
u8 Offset; u8 Offset;
u8 IDs[64]; u8 IDs[64];
} DVBC2_IDList; } DVBC2_IDList;
struct { struct {
u8 SliceID; u8 SliceID;
u8 TunePosition[2]; u8 TunePosition[2];
@ -413,7 +593,7 @@ struct mci_result {
u8 NumPLP; u8 NumPLP;
u8 Reserved2; u8 Reserved2;
} DVBC2_SliceInfo; } DVBC2_SliceInfo;
struct { struct {
u8 PLPID; u8 PLPID;
u8 Bundled; u8 Bundled;
@ -421,7 +601,7 @@ struct mci_result {
u8 PayloadType; u8 PayloadType;
u8 GroupID; u8 GroupID;
u8 Start[2]; u8 Start[2];
u8 FEC_Type; u8 FECType;
u8 Mod; u8 Mod;
u8 Cod; u8 Cod;
u8 PSISIReprocessing; u8 PSISIReprocessing;
@ -429,10 +609,46 @@ struct mci_result {
u8 OrginalNetworkID[2]; u8 OrginalNetworkID[2];
u8 Reserved1; u8 Reserved1;
} DVBC2_PLPInfo; } DVBC2_PLPInfo;
struct {
u8 Valid;
u8 MATYPE_1;
u8 MATYPE_2;
u8 UPL[2];
u8 DFL[2];
u8 SYNC;
u8 SYNCD[2];
u8 rsvd;
u8 ISSY[3];
} BBHeader;
struct {
u8 Mode; // FFT Mode 1,2,3
u8 GuardInterval; // 1/32, 1/16, 1/8, /14
u8 TMCCInfo[13]; // TMCC B20 - B121, byte 0 bit 7: B20, byte 12 bit 2: B121
} ISDBT_TMCCInfo;
struct {
u8 Change; // 5 bits, increments with every change
struct {
u8 ModCod; // 4 bits
u8 NumSlots; // 6 bits
} Mode[4];
u8 RelTSID[24]; // bit 6..4 Relative TSID for slot i*2 + 1, bit 2..0 Relative TSID for slot i*2 + 2
struct {
u8 highByte;
u8 lowByte;
} TSID[8];
u8 Flags; // Bit 5: EWS flag, bit 4: Site Diversity flag, bit 3..1: Site Diversity information, bit 0: Extension flag
u8 Extension[8]; // 61 bits, right aligned
} ISDBS_TMCCInfo;
}; };
u32 version[4]; u32 version[4];
}; };
/* Helper Macros */ /* Helper Macros */
/* DVB-T2 L1-Pre Signalling Data ( ETSI EN 302 755 V1.4.1 Chapter 7.2.2 ) */ /* DVB-T2 L1-Pre Signalling Data ( ETSI EN 302 755 V1.4.1 Chapter 7.2.2 ) */

502
lib/COPYING.LGPLv2.1 Normal file
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@ -0,0 +1,502 @@
GNU LESSER GENERAL PUBLIC LICENSE
Version 2.1, February 1999
Copyright (C) 1991, 1999 Free Software Foundation, Inc.
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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That's all there is to it!

23
lib/Makefile Normal file
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all:
make -C ./src
make dddvb_test ddzap
install: all
cp -d src/libdddvb.so* /usr/local/lib
cp -d src/libdddvb.h /usr/local/include/
cp -d src/dddvb.h /usr/local/include/
cp -d ddzap /usr/local/bin
ldconfig
%.o: %.c
$(CC) $(CFLAGS) -fPIC -c $<
dddvb_test: dddvb_test.o
$(CC) -o dddvb_test $< -L ./src -l dddvb -l pthread
ddzap: ddzap.o
$(CC) -o ddzap $< -L ./src -l dddvb -l pthread
clean:
make -C ./src clean
rm *.o

19
lib/config/dddvb.conf Normal file
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[scif]
# SCIF Settings
# Manufacturer = nn : Index to selected manaufacturer (only used in config webpage)
# Unit = nn : Index to selected unit (only used in config webpage)
# Type = nn : Type of unit: 1: EN 50494, 2: TS 50607
# TunerN = Slot,Frequency[,Pin] Slot = 1..nn, Frequency = 950..2150, Pin = 0-255
# Slot = 0 (no SCIF)
# Slot = 1..8 for EN 50494, 1..32 for TS 50607
Manufacturer=0
Unit=8
Type=2
Tuner1=1,1210
Tuner2=2,1420
Tuner3=3,1680
Tuner4=4,2040
Tuner5=5,984
Tuner6=6,1020
Tuner7=7,1056
Tuner8=8,1092

11
lib/dddvb_test.c Normal file
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@ -0,0 +1,11 @@
#include "src/libdddvb.h"
#include <stdio.h>
int main()
{
struct dddvb *dd = dddvb_init("", 0xffff);
if (!dd)
printf("dddvb_init failed\n");
printf("dvbnum = %u\n", dd->dvbfe_num);
}

152
lib/ddzap.c Normal file
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#include <linux/dvb/frontend.h>
#include "src/libdddvb.h"
#include <stdio.h>
#include <string.h>
#include <getopt.h>
#include <stdint.h>
#include <unistd.h>
static uint32_t root2gold(uint32_t root)
{
uint32_t x, g;
for (g = 0, x = 1; g < 0x3ffff; g++) {
if (root == x)
return g;
x = (((x ^ (x >> 7)) & 1) << 17) | (x >> 1);
}
return 0xffffffff;
}
int main(int argc, char **argv)
{
struct dddvb *dd;
struct dddvb_fe *fe;
struct dddvb_params p;
uint32_t frequency = 0, symbol_rate = 0, pol = DDDVB_UNDEF;
uint32_t id = DDDVB_UNDEF, pls = DDDVB_UNDEF, num = DDDVB_UNDEF;
enum fe_code_rate fec = FEC_AUTO;
enum fe_delivery_system delsys = ~0;
char *config = "config/";
while (1) {
int cur_optind = optind ? optind : 1;
int option_index = 0;
int c;
static struct option long_options[] = {
{"config", required_argument, 0, 'c'},
{"frequency", required_argument, 0, 'f'},
{"symbolrate", required_argument, 0, 's'},
{"delsys", required_argument, 0, 'd'},
{"id", required_argument, 0, 'i'},
{"pls", required_argument, 0, 'g'},
{"root", required_argument, 0, 'r'},
{"num", required_argument, 0, 'n'},
{"help", no_argument , 0, 'h'},
{0, 0, 0, 0}
};
c = getopt_long(argc, argv,
"c:i:f:s:d:p:hg:r:n:",
long_options, &option_index);
if (c==-1)
break;
switch (c) {
case 'c':
config = strdup(optarg);
break;
case 'f':
frequency = strtoul(optarg, NULL, 0);
break;
case 's':
symbol_rate = strtoul(optarg, NULL, 0);
break;
case 'g':
pls = strtoul(optarg, NULL, 0);
break;
case 'r':
pls = root2gold(strtoul(optarg, NULL, 0));
break;
case 'i':
id = strtoul(optarg, NULL, 0);
break;
case 'n':
num = strtoul(optarg, NULL, 0);
break;
case 'd':
if (!strcmp(optarg, "C"))
delsys = SYS_DVBC_ANNEX_A;
if (!strcmp(optarg, "S"))
delsys = SYS_DVBS;
if (!strcmp(optarg, "S2"))
delsys = SYS_DVBS2;
if (!strcmp(optarg, "T"))
delsys = SYS_DVBT;
if (!strcmp(optarg, "T2"))
delsys = SYS_DVBT2;
break;
case 'p':
if (!strcmp(optarg, "h"))
pol = 1;
if (!strcmp(optarg, "v"))
pol = 0;
break;
case 'h':
printf("no help yet\n");
exit(-1);
default:
break;
}
}
if (optind < argc) {
printf("Warning: unused arguments\n");
}
if (delsys == ~0) {
printf("You have to choose a delivery system: -d (C|S|S2|T|T2)\n");
exit(-1);
}
switch (delsys) {
case SYS_DVBC_ANNEX_A:
if (!symbol_rate)
symbol_rate = 6900000;
break;
}
dd = dddvb_init(config, 0xffff);
if (!dd) {
printf("dddvb_init failed\n");
exit(-1);
}
printf("dvbnum = %u\n", dd->dvbfe_num);
if (num != DDDVB_UNDEF)
fe = dddvb_fe_alloc_num(dd, delsys, num);
else
fe = dddvb_fe_alloc(dd, delsys);
if (!fe) {
printf("dddvb_fe_alloc failed\n");
exit(-1);
}
dddvb_param_init(&p);
dddvb_set_frequency(&p, frequency);
dddvb_set_symbol_rate(&p, symbol_rate);
dddvb_set_polarization(&p, pol);
dddvb_set_delsys(&p, delsys);
dddvb_set_id(&p, id);
dddvb_set_pls(&p, pls);
dddvb_dvb_tune(fe, &p);
while (1) {
fe_status_t stat;
int64_t str, cnr;
stat = dddvb_get_stat(fe);
str = dddvb_get_strength(fe);
cnr = dddvb_get_cnr(fe);
printf("stat=%02x, str=%lld.%03llddB, snr=%lld.%03llddB \n",
stat, str/1000, abs(str%1000), cnr/1000, abs(cnr%1000));
sleep(1);
}
}

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LIB_FLAGS = -fvisibility=hidden -fPIC -DBUILDING_LIBDDDVB
all: libdddvb.so.1.0.1
%.o: %.c
$(CC) $(LIB_FLAGS) $(CFLAGS) -c $<
libdddvb.a: dvb.o dddvb.o tools.o config.o
$(AR) -cvq libdddvb.a $^
libdddvb.so.1.0.1: dvb.o dddvb.o tools.o config.o
$(CC) $(LIB_FLAGS) $(CFLAGS) -shared -Wl,-soname,libdddvb.so.1 -o libdddvb.so.1.0.1 $^ -lc
ln -sf libdddvb.so.1.0.1 libdddvb.so.1
ln -sf libdddvb.so.1.0.1 libdddvb.so
dddvb_test: dddvb_test.o
$(CC) -o dddvb_test $< -L . -l dddvb
clean:
rm *.o

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/*
(C) 2012-17 Digital Devices GmbH.
This file is part of the libdddvb.
Libdddvb is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Octoserve is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with octoserve. If not, see <http://www.gnu.org/licenses/>.
*/
#include "dddvb.h"
#include <string.h>
int parse_config(struct dddvb *dd, char *name, char *sec,
void (*cb)(struct dddvb *, char *, char *) )
{
char line[256], csec[80], par[80], val[80], *p;
FILE *f;
char fname[90];
size_t name_len, config_len;
name_len = strlen(name);
config_len = strlen(dd->config);
if (name_len + config_len > sizeof(fname) - 1)
return -1;
memcpy(fname, dd->config, config_len);
if (name_len)
memcpy(fname + config_len, name, name_len);
else
memcpy(fname + config_len, "dddvb.conf", 11);
if ((f = fopen (fname, "r")) == NULL) {
printf("config fiile %s not found\n", fname);
return -1;
}
while ((p = fgets(line, sizeof(line), f))) {
if (*p == '\r' || *p == '\n' || *p == '#')
continue;
if (*p == '[') {
if ((p = strtok(line + 1, "]")) == NULL)
continue;
strncpy(csec, p, sizeof(csec));
//printf("current section %s\n", csec);
if (!strcmp(sec, csec) && cb)
cb(dd, NULL, NULL);
continue;
}
if (!(p = strtok(line, "=")))
continue;
strncpy(par, p, sizeof(par));
if (!(p = strtok(NULL, "=")))
continue;
strncpy (val, p, sizeof(val));
//printf("%s=%s\n", par, val);
if (!strcmp(sec, csec) && cb)
cb(dd, par, val);
}
if (!strcmp(sec, csec) && cb)
cb(dd, NULL, NULL);
fclose(f);
return 0;
}

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#include "libdddvb.h"
#include "dddvb.h"
#include "debug.h"
#include <string.h>
LIBDDDVB_EXPORTED uint32_t dddvb_debug;
LIBDDDVB_EXPORTED struct dddvb *global_dd = NULL;
LIBDDDVB_EXPORTED pthread_mutex_t dddvb_mutex = PTHREAD_MUTEX_INITIALIZER;
void __attribute__ ((constructor)) setup(void) {
printf("SETUP\n");
}
LIBDDDVB_EXPORTED struct dddvb_fe *dddvb_fe_alloc_num(struct dddvb *dd, uint32_t type, uint32_t num)
{
struct dddvb_fe *fe;
if (num >= dd->dvbfe_num)
return NULL;
dbgprintf(DEBUG_SYS, "alloc_fe_num %u type %u\n", num, type);
pthread_mutex_lock(&dd->lock);
fe = &dd->dvbfe[num];
if (fe->state || !(fe->type & (1UL << type))) {
dbgprintf(DEBUG_SYS, "fe %d state = %d, type = %08x wanted %08x\n",
fe->nr, fe->state, fe->type, 1UL << type);
pthread_mutex_unlock(&dd->lock);
return NULL;
}
fe->state = 1;
pthread_mutex_unlock(&dd->lock);
if (dddvb_fe_start(fe) < 0) {
dbgprintf(DEBUG_SYS, "fe %d busy\n", fe->nr);
return 0;
}
dbgprintf(DEBUG_SYS, "Allocated fe %d = %d/%d, fd=%d\n",
fe->nr, fe->anum, fe->fnum, fe->fd);
return fe;
}
LIBDDDVB_EXPORTED struct dddvb_fe *dddvb_fe_alloc(struct dddvb *dd, uint32_t type)
{
int i;
struct dddvb_fe *fe = NULL;
pthread_mutex_lock(&dd->lock);
dbgprintf(DEBUG_SYS, "alloc_fe type %u\n", type);
for (i = 0; i < dd->dvbfe_num; i++) {
fe = &dd->dvbfe[i];
if (fe->state == 0 &&
(fe->type & (1UL << type))) {
fe = dddvb_fe_alloc_num(dd, type, i);
if (fe)
break;
}
}
pthread_mutex_unlock(&dd->lock);
return fe;
}
LIBDDDVB_EXPORTED int dddvb_dvb_tune(struct dddvb_fe *fe, struct dddvb_params *p)
{
return dddvb_fe_tune(fe, p);
}
LIBDDDVB_EXPORTED struct dddvb *dddvb_init(char *config, uint32_t flags)
{
struct dddvb *dd;
pthread_mutexattr_t mta;
dddvb_debug = flags;
pthread_mutex_lock(&dddvb_mutex);
if (global_dd) {
pthread_mutex_unlock(&dddvb_mutex);
return global_dd;
}
dd = calloc(1, sizeof(struct dddvb));
if (!dd)
goto fail;
dd->config[0] = 0;
if (config && strlen(config) < 80)
strcpy(dd->config, config);
pthread_mutexattr_init(&mta);
pthread_mutexattr_settype(&mta, PTHREAD_MUTEX_RECURSIVE);
pthread_mutex_init(&dd->lock, &mta);
dddvb_dvb_init(dd);
global_dd = dd;
fail:
pthread_mutex_unlock(&dddvb_mutex);
return dd;
}

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#ifndef _DDDVB_H_
#define _DDDVB_H_
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <pthread.h>
#include <sys/ioctl.h>
#include <linux/dvb/dmx.h>
#include <linux/dvb/frontend.h>
#include <linux/dvb/video.h>
#include <linux/dvb/net.h>
#define DDDVB_MAX_DVB_FE 256
#define DDDVB_MAX_SOURCE 4
#define MAX_PMT 16
struct dddvb_params {
uint32_t param[32];
uint8_t pid[1024];
};
struct dddvb_status {
struct dddvb_params params;
fe_status_t stat;
int64_t strength;
int64_t snr;
};
struct dddvb_fe {
struct dddvb *dd;
uint32_t state;
pthread_t pt;
pthread_mutex_t mutex;
char name[120];
uint32_t source;
#define DDDVB_FE_SOURCE_DEMOD 0
#define DDDVB_FE_SOURCE_SATIP 1
#define DDDVB_FE_SOURCE_RTP 2
#define DDDVB_FE_SOURCE_MCAST 3
uint32_t modulation;
#define DDDVB_MODULATION_DVB_C 1
#define DDDVB_MODULATION_DVB_S 2
#define DDDVB_MODULATION_DVB_T 3
uint32_t nr;
uint32_t type;
uint32_t anum;
uint32_t fnum;
uint32_t scif_type;
uint32_t scif_slot;
uint32_t scif_freq;
uint32_t input;
uint32_t lof1[DDDVB_MAX_SOURCE];
uint32_t lof2[DDDVB_MAX_SOURCE];
uint32_t lofs[DDDVB_MAX_SOURCE];
uint32_t prev_delay[DDDVB_MAX_SOURCE];
int fd;
int dmx;
fe_status_t stat;
uint32_t level;
uint32_t lock;
uint32_t quality;
int64_t strength;
int64_t cnr;
int first;
uint32_t tune;
struct dddvb_params param;
uint32_t n_tune;
struct dddvb_params n_param;
struct dddvb_status status;
};
struct dddvb {
pthread_mutex_t lock;
pthread_mutex_t uni_lock;
char config[80];
uint32_t state;
uint32_t dvbnum;
uint32_t dvbtnum;
uint32_t dvbs2num;
uint32_t dvbt2num;
uint32_t dvbcnum;
uint32_t dvbc2num;
uint32_t dvbfe_num;
uint32_t scif_type;
struct dddvb_fe dvbfe[DDDVB_MAX_DVB_FE];
};
int dddvb_dvb_init(struct dddvb *dd);
int parse_config(struct dddvb *dd, char *name, char *sec,
void (*cb)(struct dddvb *, char *, char *) );
void dddvb_fe_handle(struct dddvb_fe *fe);
int dddvb_fe_tune(struct dddvb_fe *fe, struct dddvb_params *p);
int dddvb_fe_start(struct dddvb_fe *fe);
#endif /* _DDDVB_H_ */

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#ifndef _DDDVB_DEBUG_H_
#define _DDDVB_DEBUG_H_
#include "tools.h"
#if BUILDING_LIBDDDVB
extern uint32_t dddvb_debug;
#endif
#define DEBUG_RTSP 1
#define DEBUG_SSDP 2
#define DEBUG_NET 4
#define DEBUG_SYS 8
#define DEBUG_DVB 16
#define DEBUG_IGMP 32
#define DEBUG_SWITCH 64
#define DEBUG_DEBUG 256
#if 0
#define dbgprintf(_mask_, ...) \
do { if (dddvb_debug & _mask_) fprintf(stderr, __VA_ARGS__); } while (0)
#else
#define dbgprintf(_mask_, ...) \
do { if (dddvb_debug & _mask_) { fprintf(stderr, "[%5u] ", mtime(NULL)); \
fprintf(stderr, __VA_ARGS__); } } while (0)
#endif
#endif

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#include "libdddvb.h"
#include "dddvb.h"
#include "tools.h"
#include "debug.h"
#include <linux/dvb/dmx.h>
#include <linux/dvb/frontend.h>
#include <linux/dvb/video.h>
#include <linux/dvb/net.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <string.h>
#include <unistd.h>
#define DTV_SCRAMBLING_SEQUENCE_INDEX 70
#define DTV_INPUT 71
#define SYS_DVBC2 19
#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
/******************************************************************************/
static int set_property(int fd, uint32_t cmd, uint32_t data)
{
struct dtv_property p;
struct dtv_properties c;
int ret;
p.cmd = cmd;
c.num = 1;
c.props = &p;
p.u.data = data;
ret = ioctl(fd, FE_SET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_SET_PROPERTY returned %d\n", ret);
return -1;
}
return 0;
}
static int get_property(int fd, uint32_t cmd, uint32_t *data)
{
struct dtv_property p;
struct dtv_properties c;
int ret;
p.cmd = cmd;
c.num = 1;
c.props = &p;
ret = ioctl(fd, FE_GET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_GET_PROPERTY returned %d\n", ret);
return -1;
}
*data = p.u.data;
return 0;
}
static int get_stat(int fd, uint32_t cmd, struct dtv_fe_stats *stats)
{
struct dtv_property p;
struct dtv_properties c;
int ret;
p.cmd = cmd;
c.num = 1;
c.props = &p;
ret = ioctl(fd, FE_GET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_GET_PROPERTY returned %d\n", ret);
return -1;
}
memcpy(stats, &p.u.st, sizeof(struct dtv_fe_stats));
return 0;
}
static int set_fe_input(struct dddvb_fe *fe, uint32_t fr,
uint32_t sr, fe_delivery_system_t ds,
uint32_t input)
{
struct dtv_property p[] = {
{ .cmd = DTV_CLEAR },
{ .cmd = DTV_DELIVERY_SYSTEM, .u.data = ds },
{ .cmd = DTV_FREQUENCY, .u.data = fr },
{ .cmd = DTV_INVERSION, .u.data = INVERSION_AUTO },
{ .cmd = DTV_SYMBOL_RATE, .u.data = sr },
{ .cmd = DTV_INNER_FEC, .u.data = FEC_AUTO },
};
struct dtv_properties c;
int ret;
int fd = fe->fd;
if (fe->param.param[PARAM_FEC] != DDDVB_UNDEF)
p[5].u.data = fe->param.param[PARAM_FEC];
c.num = ARRAY_SIZE(p);
c.props = p;
ret = ioctl(fd, FE_SET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_SET_PROPERTY returned %d\n", ret);
return -1;
}
if (input != DDDVB_UNDEF)
set_property(fd, DTV_INPUT, input);
if (fe->param.param[PARAM_ISI] != DDDVB_UNDEF)
set_property(fd, DTV_STREAM_ID, fe->param.param[PARAM_ISI]);
if (fe->param.param[PARAM_PLS] != DDDVB_UNDEF)
set_property(fd, DTV_SCRAMBLING_SEQUENCE_INDEX,
fe->param.param[PARAM_PLS]);
set_property(fd, DTV_TUNE, 0);
return 0;
}
static void diseqc_send_msg(int fd, fe_sec_voltage_t v,
struct dvb_diseqc_master_cmd *cmd,
fe_sec_tone_mode_t t, fe_sec_mini_cmd_t b,
int wait)
{
if (ioctl(fd, FE_SET_TONE, SEC_TONE_OFF) == -1)
perror("FE_SET_TONE failed");
if (ioctl(fd, FE_SET_VOLTAGE, v) == -1)
perror("FE_SET_VOLTAGE failed");
usleep(15 * 1000);
if (ioctl(fd, FE_DISEQC_SEND_MASTER_CMD, cmd) == -1)
perror("FE_DISEQC_SEND_MASTER_CMD failed");
usleep(wait * 1000);
usleep(15 * 1000);
if (ioctl(fd, FE_DISEQC_SEND_BURST, b) == -1)
perror("FE_DISEQC_SEND_BURST failed");
usleep(15 * 1000);
if (ioctl(fd, FE_SET_TONE, t) == -1)
perror("FE_SET_TONE failed");
}
static int diseqc(int fd, int sat, int hor, int band)
{
struct dvb_diseqc_master_cmd cmd = {
.msg = {0xe0, 0x10, 0x38, 0xf0, 0x00, 0x00},
.msg_len = 4
};
hor &= 1;
cmd.msg[3] = 0xf0 | ( ((sat << 2) & 0x0c) | (band ? 1 : 0) | (hor ? 2 : 0));
diseqc_send_msg(fd, hor ? SEC_VOLTAGE_18 : SEC_VOLTAGE_13,
&cmd, band ? SEC_TONE_ON : SEC_TONE_OFF,
(sat & 1) ? SEC_MINI_B : SEC_MINI_A, 0);
dbgprintf(DEBUG_DVB, "MS %02x %02x %02x %02x\n",
cmd.msg[0], cmd.msg[1], cmd.msg[2], cmd.msg[3]);
return 0;
}
static int set_en50494(struct dddvb_fe *fe, uint32_t freq, uint32_t sr,
int sat, int hor, int band,
uint32_t slot, uint32_t ubfreq,
fe_delivery_system_t ds)
{
struct dvb_diseqc_master_cmd cmd = {
.msg = {0xe0, 0x11, 0x5a, 0x00, 0x00},
.msg_len = 5
};
uint16_t t;
uint32_t input = 3 & (sat >> 6);
int fd = fe->fd;
t = (freq + ubfreq + 2) / 4 - 350;
hor &= 1;
cmd.msg[3] = ((t & 0x0300) >> 8) |
(slot << 5) | ((sat & 0x3f) ? 0x10 : 0) | (band ? 4 : 0) | (hor ? 8 : 0);
cmd.msg[4] = t & 0xff;
set_property(fd, DTV_INPUT, input);
if (ioctl(fd, FE_SET_TONE, SEC_TONE_OFF) == -1)
perror("FE_SET_TONE failed");
if (ioctl(fd, FE_SET_VOLTAGE, SEC_VOLTAGE_18) == -1)
perror("FE_SET_VOLTAGE failed");
usleep(15000);
if (ioctl(fd, FE_DISEQC_SEND_MASTER_CMD, &cmd) == -1)
perror("FE_DISEQC_SEND_MASTER_CMD failed");
usleep(15000);
if (ioctl(fd, FE_SET_VOLTAGE, SEC_VOLTAGE_13) == -1)
perror("FE_SET_VOLTAGE failed");
set_fe_input(fe, ubfreq * 1000, sr, ds, input);
dbgprintf(DEBUG_DVB, "EN50494 %02x %02x %02x %02x %02x\n",
cmd.msg[0], cmd.msg[1], cmd.msg[2], cmd.msg[3], cmd.msg[4]);
}
static int set_en50607(struct dddvb_fe *fe, uint32_t freq, uint32_t sr,
int sat, int hor, int band,
uint32_t slot, uint32_t ubfreq,
fe_delivery_system_t ds)
{
struct dvb_diseqc_master_cmd cmd = {
.msg = {0x70, 0x00, 0x00, 0x00, 0x00},
.msg_len = 4
};
uint32_t t = freq - 100;
uint32_t input = 3 & (sat >> 6);
int fd = fe->fd;
hor &= 1;
cmd.msg[1] = slot << 3;
cmd.msg[1] |= ((t >> 8) & 0x07);
cmd.msg[2] = (t & 0xff);
cmd.msg[3] = ((sat & 0x3f) << 2) | (hor ? 2 : 0) | (band ? 1 : 0);
set_property(fd, DTV_INPUT, input);
if (ioctl(fd, FE_SET_TONE, SEC_TONE_OFF) == -1)
perror("FE_SET_TONE failed");
if (ioctl(fd, FE_SET_VOLTAGE, SEC_VOLTAGE_18) == -1)
perror("FE_SET_VOLTAGE failed");
usleep(15000);
if (ioctl(fd, FE_DISEQC_SEND_MASTER_CMD, &cmd) == -1)
perror("FE_DISEQC_SEND_MASTER_CMD failed");
usleep(15000);
if (ioctl(fd, FE_SET_VOLTAGE, SEC_VOLTAGE_13) == -1)
perror("FE_SET_VOLTAGE failed");
set_fe_input(fe, ubfreq * 1000, sr, ds, input);
dbgprintf(DEBUG_DVB, "EN50607 %02x %02x %02x %02x\n",
cmd.msg[0], cmd.msg[1], cmd.msg[2], cmd.msg[3]);
dbgprintf(DEBUG_DVB, "EN50607 freq %u sr %u hor %u\n",
freq, sr, hor);
}
static int tune_sat(struct dddvb_fe *fe)
{
uint32_t freq, hi = 0, src, lnb = 0, lnbc = 0, lofs;
fe_delivery_system_t ds = fe->param.param[PARAM_MSYS];
freq = fe->param.param[PARAM_FREQ];
dbgprintf(DEBUG_DVB, "tune_sat freq=%u\n", freq);
if (fe->param.param[PARAM_SRC] != DDDVB_UNDEF)
lnb = fe->param.param[PARAM_SRC];
lnbc = lnb & (DDDVB_MAX_SOURCE - 1);
lofs = fe->lofs[lnbc];
#if 0
if (freq < 5000000) { //3400 - 4200 ->5150
lofs = 5150000;
if (freq > lofs)
freq -= lofs;
else
freq = lofs - freq;
} else if (freq > 19700000 && freq < 22000000) { //19700-22000 ->21200
lofs = 21200000;
if (freq > lofs)
freq -= lofs;
else
freq = lofs - freq;
} else
#endif
{
if (lofs)
hi = (freq > lofs) ? 1 : 0;
if (hi)
freq -= fe->lof2[lnbc];
else
freq -= fe->lof1[lnbc];
}
dbgprintf(DEBUG_DVB, "tune_sat IF=%u\n", freq);
if (fe->first) {
fe->first = 0;
dbgprintf(DEBUG_DVB, "pre voltage %d\n", fe->prev_delay[lnbc]);
if (ioctl(fe->fd, FE_SET_VOLTAGE, SEC_VOLTAGE_13) == -1)
perror("FE_SET_VOLTAGE failed");
usleep(fe->prev_delay[lnbc]);
}
dbgprintf(DEBUG_DVB, "scif_type = %u\n", fe->scif_type);
if (fe->scif_type == 1) {
pthread_mutex_lock(&fe->dd->uni_lock);
set_en50494(fe, freq / 1000, fe->param.param[PARAM_SR],
lnb, fe->param.param[PARAM_POL], hi,
fe->scif_slot, fe->scif_freq, ds);
pthread_mutex_unlock(&fe->dd->uni_lock);
} else if (fe->scif_type == 2) {
pthread_mutex_lock(&fe->dd->uni_lock);
set_en50607(fe, freq / 1000, fe->param.param[PARAM_SR],
lnb, fe->param.param[PARAM_POL], hi,
fe->scif_slot, fe->scif_freq, ds);
pthread_mutex_unlock(&fe->dd->uni_lock);
} else {
//set_property(fe->fd, DTV_INPUT, 3 & (lnb >> 6));
diseqc(fe->fd, lnb, fe->param.param[PARAM_POL], hi);
set_fe_input(fe, freq, fe->param.param[PARAM_SR], ds, ~(0U));
}
}
static int tune_c(struct dddvb_fe *fe)
{
struct dtv_property p[] = {
{ .cmd = DTV_CLEAR },
{ .cmd = DTV_FREQUENCY, .u.data = fe->param.param[PARAM_FREQ] },
{ .cmd = DTV_BANDWIDTH_HZ, .u.data = (fe->param.param[PARAM_BW_HZ] != DDDVB_UNDEF) ?
fe->param.param[PARAM_BW_HZ] : 8000000 },
{ .cmd = DTV_SYMBOL_RATE, .u.data = fe->param.param[PARAM_SR] },
{ .cmd = DTV_INNER_FEC, .u.data = (fe->param.param[PARAM_FEC] != DDDVB_UNDEF) ?
fe->param.param[PARAM_FEC] : FEC_AUTO },
{ .cmd = DTV_MODULATION,
.u.data = (fe->param.param[PARAM_MTYPE] != DDDVB_UNDEF) ?
fe->param.param[PARAM_MTYPE] : QAM_AUTO },
{ .cmd = DTV_TUNE },
};
struct dtv_properties c;
int ret;
printf("tune_c()\n");
set_property(fe->fd, DTV_DELIVERY_SYSTEM, SYS_DVBC_ANNEX_A);
c.num = ARRAY_SIZE(p);
c.props = p;
ret = ioctl(fe->fd, FE_SET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_SET_PROPERTY returned %d\n", ret);
return -1;
}
return 0;
}
static int tune_cable(struct dddvb_fe *fe)
{
uint32_t freq;
struct dvb_frontend_parameters p = {
.frequency = fe->param.param[PARAM_FREQ] * 1000,
.u.qam.symbol_rate = fe->param.param[PARAM_SR],
.u.qam.fec_inner = (fe->param.param[PARAM_FEC] != DDDVB_UNDEF) ?
(fe->param.param[PARAM_FEC]) : FEC_AUTO,
.u.qam.modulation = fe->param.param[PARAM_MTYPE],
};
set_property(fe->fd, DTV_DELIVERY_SYSTEM, SYS_DVBC_ANNEX_A);
if (ioctl(fe->fd, FE_SET_FRONTEND, &p) == -1) {
perror("FE_SET_FRONTEND error");
return -1;
}
return 0;
}
static int tune_terr(struct dddvb_fe *fe)
{
struct dtv_property p[] = {
{ .cmd = DTV_CLEAR },
{ .cmd = DTV_FREQUENCY, .u.data = fe->param.param[PARAM_FREQ] * 1000 },
{ .cmd = DTV_BANDWIDTH_HZ, .u.data = fe->param.param[PARAM_BW_HZ] },
{ .cmd = DTV_TUNE },
};
struct dtv_properties c;
int ret;
set_property(fe->fd, DTV_DELIVERY_SYSTEM, SYS_DVBT);
c.num = ARRAY_SIZE(p);
c.props = p;
ret = ioctl(fe->fd, FE_SET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_SET_PROPERTY returned %d\n", ret);
return -1;
}
return 0;
}
#if 0
static int tune_terr(struct dddvb_fe *fe)
{
uint32_t freq;
enum fe_bandwidth bw;
struct dvb_frontend_parameters p = {
.frequency = fe->param.param[PARAM_FREQ] * 1000,
.inversion = INVERSION_AUTO,
.u.ofdm.code_rate_HP = FEC_AUTO,
.u.ofdm.code_rate_LP = FEC_AUTO,
.u.ofdm.constellation = fe->param.param[PARAM_MTYPE],
.u.ofdm.transmission_mode = TRANSMISSION_MODE_AUTO,
.u.ofdm.guard_interval = GUARD_INTERVAL_AUTO,
.u.ofdm.hierarchy_information = HIERARCHY_AUTO,
.u.ofdm.bandwidth = (fe->param.param[PARAM_BW] != DDDVB_UNDEF) ?
(fe->param.param[PARAM_BW]) : BANDWIDTH_AUTO,
};
set_property(fe->fd, DTV_DELIVERY_SYSTEM, SYS_DVBT);
if (ioctl(fe->fd, FE_SET_FRONTEND, &p) == -1) {
perror("FE_SET_FRONTEND error");
return -1;
}
return 0;
}
#endif
static int tune_c2(struct dddvb_fe *fe)
{
struct dtv_property p[] = {
{ .cmd = DTV_CLEAR },
{ .cmd = DTV_FREQUENCY, .u.data = fe->param.param[PARAM_FREQ] * 1000 },
{ .cmd = DTV_BANDWIDTH_HZ, .u.data = fe->param.param[PARAM_BW_HZ] },
{ .cmd = DTV_STREAM_ID, .u.data = fe->param.param[PARAM_PLP] },
{ .cmd = DTV_TUNE },
};
struct dtv_properties c;
int ret;
set_property(fe->fd, DTV_DELIVERY_SYSTEM, SYS_DVBC2);
c.num = ARRAY_SIZE(p);
c.props = p;
ret = ioctl(fe->fd, FE_SET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_SET_PROPERTY returned %d\n", ret);
return -1;
}
return 0;
}
static int tune_terr2(struct dddvb_fe *fe)
{
struct dtv_property p[] = {
{ .cmd = DTV_CLEAR },
{ .cmd = DTV_FREQUENCY, .u.data = fe->param.param[PARAM_FREQ] * 1000 },
{ .cmd = DTV_BANDWIDTH_HZ, .u.data = fe->param.param[PARAM_BW_HZ] },
{ .cmd = DTV_STREAM_ID, .u.data = fe->param.param[PARAM_PLP] },
{ .cmd = DTV_TUNE },
};
struct dtv_properties c;
int ret;
set_property(fe->fd, DTV_DELIVERY_SYSTEM, SYS_DVBT2);
c.num = ARRAY_SIZE(p);
c.props = p;
ret = ioctl(fe->fd, FE_SET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_SET_PROPERTY returned %d\n", ret);
return -1;
}
return 0;
}
static int tune_isdbt(struct dddvb_fe *fe)
{
struct dtv_property p[] = {
{ .cmd = DTV_CLEAR },
{ .cmd = DTV_FREQUENCY, .u.data = fe->param.param[PARAM_FREQ] * 1000 },
{ .cmd = DTV_BANDWIDTH_HZ, .u.data = fe->param.param[PARAM_BW_HZ] },
{ .cmd = DTV_TUNE },
};
struct dtv_properties c;
int ret;
set_property(fe->fd, DTV_DELIVERY_SYSTEM, SYS_ISDBT);
c.num = ARRAY_SIZE(p);
c.props = p;
ret = ioctl(fe->fd, FE_SET_PROPERTY, &c);
if (ret < 0) {
fprintf(stderr, "FE_SET_PROPERTY returned %d\n", ret);
return -1;
}
return 0;
}
static int tune(struct dddvb_fe *fe)
{
int ret;
printf("tune()\n");
switch (fe->n_param.param[PARAM_MSYS]) {
case SYS_DVBS:
case SYS_DVBS2:
ret = tune_sat(fe);
break;
case SYS_DVBC_ANNEX_A:
ret = tune_c(fe);
break;
case SYS_DVBT:
ret = tune_terr(fe);
break;
case SYS_DVBT2:
ret = tune_terr2(fe);
break;
case SYS_DVBC2:
ret = tune_c2(fe);
break;
case SYS_ISDBT:
ret = tune_isdbt(fe);
break;
default:
break;
}
return ret;
}
static int open_dmx(struct dddvb_fe *fe)
{
char fname[80];
struct dmx_pes_filter_params pesFilterParams;
sprintf(fname, "/dev/dvb/adapter%u/demux%u", fe->anum, fe->fnum);
fe->dmx = open(fname, O_RDWR);
if (fe->dmx < 0)
return -1;
pesFilterParams.input = DMX_IN_FRONTEND;
pesFilterParams.output = DMX_OUT_TS_TAP;
pesFilterParams.pes_type = DMX_PES_OTHER;
pesFilterParams.flags = DMX_IMMEDIATE_START;
pesFilterParams.pid = 0x2000;
if (ioctl(fe->dmx, DMX_SET_PES_FILTER, &pesFilterParams) < 0)
return -1;
return 0;
}
static int open_fe(struct dddvb_fe *fe)
{
char fname[80];
sprintf(fname, "/dev/dvb/adapter%d/frontend%d", fe->anum, fe->fnum);
fe->fd = open(fname, O_RDWR);
printf("open = %d\n", fe->fd);
if (fe->fd < 0)
return -1;
return 0;
}
static void get_stats(struct dddvb_fe *fe)
{
uint16_t sig = 0, snr = 0;
fe_status_t stat;
int64_t str, cnr;
int64_t val;
uint64_t uval;
struct dtv_fe_stats st;
ioctl(fe->fd, FE_READ_STATUS, &stat);
fe->stat = stat;
fe->lock = (stat == 0x1f) ? 1 : 0;
//calc_lq(fe);
if (!get_stat(fe->fd, DTV_STAT_SIGNAL_STRENGTH, &st)) {
fe->strength = str = st.stat[0].svalue;
dbgprintf(DEBUG_DVB, "fe%d: str=%lld.%03llddB\n",
fe->nr, str/1000, abs(str%1000));
}
if (!get_stat(fe->fd, DTV_STAT_CNR, &st)) {
fe->cnr = cnr = st.stat[0].svalue;
dbgprintf(DEBUG_DVB, "fe%d: cnr=%lld.%03llddB\n",
fe->nr, cnr/1000, abs(cnr%1000));
}
if (!get_stat(fe->fd, DTV_STAT_PRE_TOTAL_BIT_COUNT, &st) &&
(st.stat[0].scale == FE_SCALE_COUNTER)) {
uval = st.stat[0].uvalue;
dbgprintf(DEBUG_DVB, "fe%d: pre_total_bit_count = %08x\n",
fe->nr, (uint32_t)uval);
}
if (!get_stat(fe->fd, DTV_STAT_PRE_ERROR_BIT_COUNT, &st) &&
(st.stat[0].scale == FE_SCALE_COUNTER)) {
uval = st.stat[0].uvalue;
dbgprintf(DEBUG_DVB, "fe%d: pre_error_bit_count = %llu\n",
fe->nr, uval);
}
if (!get_stat(fe->fd, DTV_STAT_ERROR_BLOCK_COUNT, &st) &&
(st.stat[0].scale == FE_SCALE_COUNTER)) {
uval = st.stat[0].uvalue;
dbgprintf(DEBUG_DVB, "fe%d: error_block_count = %llu\n",
fe->nr, uval);
}
if (!get_stat(fe->fd, DTV_STAT_TOTAL_BLOCK_COUNT, &st) &&
(st.stat[0].scale == FE_SCALE_COUNTER)) {
uval = st.stat[0].uvalue;
dbgprintf(DEBUG_DVB, "fe%d: total_block_count = %llu\n",
fe->nr, uval);
}
}
void dddvb_fe_handle(struct dddvb_fe *fe)
{
uint32_t newtune, count = 0, max, nolock = 0;
int ret;
printf("fe_handle\n");
open_dmx(fe);
printf("fe_handle 2\n");
while (fe->state == 1) {
pthread_mutex_lock(&fe->mutex);
newtune = fe->n_tune;
if (newtune == 1) {
fe->n_tune = 0;
if (!memcmp(fe->param.param, fe->n_param.param, sizeof(fe->param.param))) {
dbgprintf(DEBUG_DVB, "same params\n");
fe->tune = 2;
count = 0;
nolock = 10;
max = 2;
} else {
memcpy(fe->param.param, fe->n_param.param, sizeof(fe->param.param));
fe->tune = 1;
}
}
pthread_mutex_unlock(&fe->mutex);
switch (fe->tune) {
case 1:
dbgprintf(DEBUG_DVB, "fe %d tune\n", fe->nr);
tune(fe);
nolock = 0;
count = 0;
max = 2;
dbgprintf(DEBUG_DVB, "fe %d tune done\n", fe->nr);
fe->tune = 2;
break;
case 2:
count++;
if (count < max)
break;
count = 0;
get_stats(fe);
if (fe->lock) {
max = 20;
nolock = 0;
} else {
max = 1;
nolock++;
if (nolock > 100)
fe->tune = 1;
}
break;
default:
break;
}
if (fe->state != 1)
break;
usleep(50000);
}
close(fe->fd);
if (fe->dmx > 0)
close(fe->dmx);
fe->fd = -1;
fe->dmx = -1;
fe->stat = fe->lock = fe->level = fe->quality = 0;
fe->state = 0;
dbgprintf(DEBUG_DVB, "fe %d done\n", fe->nr);
}
int dddvb_fe_start(struct dddvb_fe *fe)
{
fe->dmx = -1;
fe->tune = 0;
dddvb_param_init(&fe->param);
fe->first = 1;
if (open_fe(fe))
return -1;
return pthread_create(&fe->pt, NULL, (void *) dddvb_fe_handle, fe);
}
int dddvb_fe_tune(struct dddvb_fe *fe, struct dddvb_params *p)
{
int ret = 0;
dbgprintf(DEBUG_DVB, "dvb_tune\n");
pthread_mutex_lock(&fe->mutex);
memcpy(fe->n_param.param, p->param, sizeof(fe->n_param.param));
fe->n_tune = 1;
pthread_mutex_unlock(&fe->mutex);
return ret;
}
int dddvb_fe_get(struct dddvb_fe *fe, struct dddvb_params *p)
{
int ret = 0;
dbgprintf(DEBUG_DVB, "fe_get\n");
pthread_mutex_lock(&fe->mutex);
memcpy(fe->n_param.param, p->param, sizeof(fe->n_param.param));
fe->n_tune = 1;
pthread_mutex_unlock(&fe->mutex);
return ret;
}
static int dddvb_fe_init(struct dddvb *dd, int a, int f, int fd)
{
struct dtv_properties dps;
struct dtv_property dp[10];
struct dddvb_fe *fe;
int r;
uint32_t i, ds;
fe = &dd->dvbfe[dd->dvbfe_num];
r = snprintf(fe->name, sizeof(fe->name), "/dev/dvb/adapter%d/frontend%d", a, f);
if (r >= sizeof(fe->name))
return -1;
dbgprintf(DEBUG_DVB, "fe_init a=%d f=%d name=%s\n", a, f, fe->name);
dps.num = 1;
dps.props = dp;
dp[0].cmd = DTV_ENUM_DELSYS;
r = ioctl(fd, FE_GET_PROPERTY, &dps);
if (r < 0)
return -1;
for (i = 0; i < dp[0].u.buffer.len; i++) {
ds = dp[0].u.buffer.data[i];
dbgprintf(DEBUG_DVB, "delivery system %d\n", ds);
fe->type |= (1UL << ds);
}
dbgprintf(DEBUG_DVB, "fe %d type = %08x\n", dd->dvbfe_num, fe->type);
if (!fe->type)
return -1;
fe->dd = dd;
fe->anum = a;
fe->fnum = f;
fe->nr = dd->dvbfe_num;
dps.num = 1;
dps.props = dp;
dp[0].cmd = DTV_INPUT;
r = ioctl(fd, FE_GET_PROPERTY, &dps);
if (r < 0)
return -1;
#if 0
for (i = 0; i < dp[0].u.buffer.len; i++) {
fe->input[i] = dp[0].u.buffer.data[i];
//dbgprintf(DEBUG_DVB, "input prop %u = %u\n", i, fe->input[i]);
}
if (fe->input[3]) {
dd->has_feswitch = 1;
if (!dd->scif_type && !msmode) {
if (fe->input[2] >= fe->input[1]) {
fe->type = 0;
return -1;
}
}
}
#endif
if (fe->type & (1UL << SYS_DVBS2))
dd->dvbs2num++;
if (fe->type & (1UL << SYS_DVBT2))
dd->dvbt2num++;
else if (fe->type & (1UL << SYS_DVBT))
dd->dvbtnum++;
if (fe->type & (1UL << SYS_DVBC2))
dd->dvbc2num++;
else if (fe->type & (1UL << SYS_DVBC_ANNEX_A))
dd->dvbcnum++;
dd->dvbfe_num++;
pthread_mutex_init(&fe->mutex, 0);
return 0;
}
static int scan_dvbfe(struct dddvb *dd)
{
int a, f, fd;
char fname[80];
for (a = 0; a < 16; a++) {
for (f = 0; f < 24; f++) {
sprintf(fname, "/dev/dvb/adapter%d/frontend%d", a, f);
fd = open(fname, O_RDONLY);
if (fd >= 0) {
dddvb_fe_init(dd, a, f, fd);
close(fd);
}
}
}
dbgprintf(DEBUG_DVB, "Found %d frontends\n", dd->dvbfe_num);
}
void scif_config(struct dddvb *dd, char *name, char *val)
{
if (!name || !val)
return;
if (!strncasecmp(name, "type", 4) &&
val[0] >= 0x30 && val[0] <= 0x32) {
dd->scif_type = val[0] - 0x30;
dbgprintf(DEBUG_DVB, "setting type = %d\n", dd->scif_type);
}
if (!strncasecmp(name, "tuner", 5) &&
name[5] >= 0x31 && name[5] <= 0x39) {
int fe = strtol(name + 5, NULL, 10 );
if (fe >= 0 && fe < DDDVB_MAX_DVB_FE) {
char *end;
unsigned long int nr = strtoul(val, &end, 10), freq = 0;
if (*end == ',') {
val = end + 1;
freq = strtoul(val, &end, 10);
if (val == end)
return;
}
fe--;
if (nr == 0)
dd->dvbfe[fe].scif_type = 0;
else {
dd->dvbfe[fe].scif_slot = nr - 1;
dd->dvbfe[fe].scif_freq = freq;
dd->dvbfe[fe].scif_type = dd->scif_type;
}
dbgprintf(DEBUG_DVB, "fe%d: type=%d, slot=%d, freq=%d\n", fe,
dd->dvbfe[fe].scif_type,
dd->dvbfe[fe].scif_slot,
dd->dvbfe[fe].scif_freq);
}
}
}
void set_lnb(struct dddvb *dd, int tuner,
uint32_t source, uint32_t lof1, uint32_t lof2, uint32_t lofs)
{
int i, j;
int i1 = 0, i2 = DDDVB_MAX_DVB_FE;
int j1 = 0, j2 = DDDVB_MAX_SOURCE;
if (tuner > DDDVB_MAX_DVB_FE)
return;
if (source > DDDVB_MAX_SOURCE)
return;
if (tuner) {
i1 = tuner - 1;
i2 = i1 + 1;
}
if (source) {
j1 = source - 1;
j2 = j1 + 1;
}
for (i = i1; i < i2; i++) {
struct dddvb_fe *fe = &dd->dvbfe[i];
for (j = j1; j < j2; j++) {
dbgprintf(DEBUG_DVB, "setting %d %d %u %u %u\n",
i, j, lof1, lof2, lofs);
fe->lof1[j] = lof1;
fe->lof2[j] = lof2;
fe->lofs[j] = lofs;
fe->prev_delay[j] = 250000;
}
}
}
void lnb_config(struct dddvb *dd, char *name, char *val)
{
static int lnb = -1;
static uint32_t lof1, lof2, lofs, tuner, source;
char *end;
if (!name || !val) {
if (lnb >= 0)
set_lnb(dd, tuner, source,
lof1 * 1000, lof2 * 1000, lofs * 1000);
lnb++;
tuner = source = lof1 = lof2 = lofs = 0;
return;
}
if (!strcasecmp(name, "tuner")) {
tuner = strtoul(val, &end, 10);
} else if (!strcasecmp(name, "source")) {
source = strtoul(val, &end, 10);
} else if (!strcasecmp(name, "lof1")) {
lof1 = strtoul(val, &end, 10);
} else if (!strcasecmp(name, "lof2")) {
lof2 = strtoul(val, &end, 10);
} else if (!strcasecmp(name, "lofs")) {
lofs = strtoul(val, &end, 10);
}
}
int dddvb_dvb_init(struct dddvb *dd)
{
pthread_mutex_init(&dd->uni_lock, 0);
scan_dvbfe(dd);
parse_config(dd, "", "scif", &scif_config);
set_lnb(dd, 0, 0, 9750000, 10600000, 11700000);
parse_config(dd, "", "LNB", &lnb_config);
}
int dddvb_dvb_exit(struct dddvb *dd)
{
}

7
lib/src/dvb.h Normal file
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#ifndef _DDDVB_DVB_H_
#define _DDDVB_DVB_H_
#endif

60
lib/src/fe.c Normal file
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#if 0
static void release_fe(struct octoserve *os, struct dvbfe *fe)
{
if (!fe)
return;
dbgprintf(DEBUG_SYS, "release fe %d\n", fe->nr);
fe->state = 2;
pthread_join(fe->pt, NULL);
}
static struct dvbfe *alloc_fe_num(struct octoserve *os, int i, int type)
{
struct dvbfe *fe;
if (i > os->dvbfe_num)
return NULL;
dbgprintf(DEBUG_SYS, "alloc_fe_num %d\n", i);
pthread_mutex_lock(&os->lock);
fe = &os->dvbfe[i];
if (fe->state || !(fe->type & (1UL << type))) {
pthread_mutex_unlock(&os->lock);
return NULL;
}
fe->n_tune = 0;
fe->state = 1;
pthread_create(&fe->pt, NULL, (void *) handle_fe, fe);
pthread_mutex_unlock(&os->lock);
dbgprintf(DEBUG_SYS, "Allocated fe %d = %d/%d, fd=%d\n",
fe->nr, fe->anum, fe->fnum, fe->fd);
return fe;
}
static struct dvbfe *alloc_fe(struct octoserve *os, int type)
{
int i;
struct dvbfe *fe;
pthread_mutex_lock(&os->lock);
for (i = 0; i < os->dvbfe_num; i++) {
fe = &os->dvbfe[i];
if (fe->state == 0 &&
(fe->type & (1UL << type))) {
pthread_mutex_unlock(&os->lock);
return alloc_fe_num(os, i, type);
}
}
pthread_mutex_unlock(&os->lock);
return NULL;
}
#endif
static struct dddvb_fe *alloc_fe_num(struct dddvb *dd, int num, int type, int source)
{
if (num > dd->dvbfe_num)
return NULL;
}

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lib/src/libdddvb.h Normal file
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#ifndef _LIBDDDVB_H_
#define _LIBDDDVB_H_
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <pthread.h>
#include <sys/ioctl.h>
#include <linux/dvb/dmx.h>
#include <linux/dvb/frontend.h>
#include <linux/dvb/video.h>
#include <linux/dvb/net.h>
#define DDDVB_UNDEF (~0U)
#define PARAM_STREAMID 0
#define PARAM_FE 1
#define PARAM_SRC 3
#define PARAM_FEC 4
#define PARAM_FREQ 5
#define PARAM_SR 6
#define PARAM_POL 7
#define PARAM_RO 8
#define PARAM_MSYS 9
#define PARAM_MTYPE 10
#define PARAM_PLTS 11
#define PARAM_BW 12
#define PARAM_BW_HZ 13
#define PARAM_TMODE 14
#define PARAM_GI 15
#define PARAM_PLP 16
#define PARAM_ISI 16
#define PARAM_PLS 17
#define PARAM_T2ID 17
#define PARAM_SM 18
#define PARAM_C2TFT 19
#define PARAM_DS 20
#define PARAM_SPECINV 21
#define PARAM_CI 27
#define PARAM_PMT 28
#define PARAM_PID 29
#define PARAM_APID 30
#define PARAM_DPID 31
#include "dddvb.h"
#if BUILDING_LIBDDDVB
#define LIBDDDVB_EXPORTED __attribute__((__visibility__("default")))
#else
#define LIBDDDVB_EXPORTED
#endif
LIBDDDVB_EXPORTED struct dddvb *dddvb_init(char *config, uint32_t flags);
LIBDDDVB_EXPORTED int dddvb_dvb_tune(struct dddvb_fe *fe, struct dddvb_params *p);
LIBDDDVB_EXPORTED struct dddvb_fe *dddvb_fe_alloc(struct dddvb *dd, uint32_t type);
LIBDDDVB_EXPORTED struct dddvb_fe *dddvb_fe_alloc_num(struct dddvb *dd, uint32_t type, uint32_t num);
static inline void dddvb_set_frequency(struct dddvb_params *p, uint32_t freq) {
p->param[PARAM_FREQ] = freq;
};
static inline void dddvb_set_symbol_rate(struct dddvb_params *p, uint32_t srate) {
p->param[PARAM_SR] = srate;
};
static inline void dddvb_set_delsys(struct dddvb_params *p, enum fe_delivery_system delsys) {
p->param[PARAM_MSYS] = delsys;
};
static inline void dddvb_set_polarization(struct dddvb_params *p, uint32_t pol) {
p->param[PARAM_POL] = pol;
};
static inline void dddvb_set_src(struct dddvb_params *p, uint32_t src) {
p->param[PARAM_SRC] = src;
};
static inline void dddvb_set_fec(struct dddvb_params *p, enum fe_code_rate fec) {
p->param[PARAM_FEC] = fec;
};
static inline void dddvb_set_pls(struct dddvb_params *p, uint32_t pls) {
p->param[PARAM_PLS] = pls;
};
static inline void dddvb_set_id(struct dddvb_params *p, uint32_t id) {
p->param[PARAM_ISI] = id;
};
static inline uint32_t dddvb_get_stat(struct dddvb_fe *fe) {
return fe->stat;
};
static inline int64_t dddvb_get_strength(struct dddvb_fe *fe) {
return fe->strength;
};
static inline int64_t dddvb_get_cnr(struct dddvb_fe *fe) {
return fe->cnr;
};
static inline void dddvb_param_init(struct dddvb_params *p) {
int i;
for (i = 0; i < 32; i++)
p->param[i] = DDDVB_UNDEF;
};
#endif /* _LIBDDDVB_H_ */

12
lib/src/tools.c Normal file
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@ -0,0 +1,12 @@
#include "time.h"
time_t mtime(time_t *t)
{
struct timespec ts;
if (clock_gettime(CLOCK_MONOTONIC_RAW, &ts))
return 0;
if (t)
*t = ts.tv_sec;
return ts.tv_sec;
}

6
lib/src/tools.h Normal file
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@ -0,0 +1,6 @@
#ifndef _DDDVB_TOOLS_H_
#define _DDDVB_TOOLS_H_
time_t mtime(time_t *t);
#endif /* _DDDVB_TOOLS_H_ */