bool LocationInfo::parseClients(const Async::Config &cfg, const string &name)
{
string aprs_server_list(cfg.getValue(name, "APRS_SERVER_LIST"));
stringstream clientStream(aprs_server_list);
string client, host;
int port;
bool success = true;
while (clientStream >> client)
{
if (!parseClientStr(host, port, client))
{
print_error(name, "APRS_SERVER_LIST", aprs_server_list,
"APRS_SERVER_LIST=euro.aprs2.net:14580");
success = false;
}
else
{
AprsTcpClient *client = new AprsTcpClient(loc_cfg, host, port);
clients.push_back(client);
}
}
clientStream.clear();
string status_server_list(cfg.getValue(name, "STATUS_SERVER_LIST"));
clientStream.str(status_server_list);
while (clientStream >> client)
{
if (!parseClientStr(host, port, client))
{
print_error(name, "STATUS_SERVER_LIST", status_server_list,
"STATUS_SERVER_LIST=aprs.echolink.org:5199");
success = false;
}
else
{
AprsUdpClient *client = new AprsUdpClient(loc_cfg, host, port);
clients.push_back(client);
}
}
return success;
} /* LocationInfo::parseClients */
bool PttSerialPin::initialize(Async::Config &cfg, const std::string name)
{
string ptt_port;
if (!cfg.getValue(name, "PTT_PORT", ptt_port))
{
cerr << "*** ERROR: Config variable " << name << "/PTT_PORT not set\n";
return false;
}
serial = new Serial(ptt_port.c_str());
if (!serial->open())
{
perror("open serial port");
return false;
}
if (!setPins(cfg, name))
{
return false;
}
string ptt_pin_str;
if (!cfg.getValue(name, "PTT_PIN", ptt_pin_str))
{
cerr << "*** ERROR: Config variable " << name << "/PTT_PIN not set\n";
return false;
}
const char *ptr = ptt_pin_str.c_str();
int cnt;
cnt = parsePttPin(name, ptr, ptt_pin1, ptt_pin1_rev);
if (cnt == 0)
{
return false;
}
ptr += cnt;
if (*ptr != 0)
{
if (parsePttPin(name, ptr, ptt_pin2, ptt_pin2_rev) == 0)
{
return false;
}
}
return true;
} /* PttSerialPin::initialize */
bool PttSerialPin::setPins(const Async::Config &cfg, const std::string &name)
{
std::string pins;
if (!cfg.getValue(name, "SERIAL_SET_PINS", pins))
{
return true;
}
std::string::iterator it(pins.begin());
while (it != pins.end())
{
bool do_set = true;
if (*it == '!')
{
do_set = false;
++it;
}
std::string pin_name(it, it+3);
it += 3;
if (pin_name == "RTS")
{
serial->setPin(Async::Serial::PIN_RTS, do_set);
}
else if (pin_name == "DTR")
{
serial->setPin(Async::Serial::PIN_DTR, do_set);
}
else
{
std::cerr << "*** ERROR: Illegal pin name \"" << pin_name << "\" for the "
<< name << "/SERIAL_SET_PINS configuration variable. "
<< "Accepted values are \"[!]RTS\" and/or \"[!]DTR\".\n";
return false;
}
}
return true;
} /* PttSerialPin::setPins */
bool SquelchEvDev::initialize(Async::Config& cfg, const std::string& rx_name)
{
if (!Squelch::initialize(cfg, rx_name))
{
return false;
}
std::string devname;
if (!cfg.getValue(rx_name, "EVDEV_DEVNAME", devname))
{
std::cerr << "*** ERROR: Config variable " << rx_name
<< "/EVDEV_NAME not set\n";
return false;
}
string value;
if (!cfg.getValue(rx_name, "EVDEV_OPEN", value))
{
std::cerr << "*** ERROR: Config variable " << rx_name
<< "/EVDEV_OPEN not set\n";
return false;
}
SvxLink::splitStr(open_ev, value, ",");
if (open_ev.size() != 3)
{
std::cerr << "*** ERROR: Wrong number of arguments for config variable "
<< rx_name << "/EVDEV_OPEN. There should be three: "
<< "type code value (e.g. 1,163,1)\n";
return false;
}
if (!cfg.getValue(rx_name, "EVDEV_CLOSE", value))
{
std::cerr << "*** ERROR: Config variable " << rx_name
<< "/EVDEV_CLOSE not set\n";
return false;
}
SvxLink::splitStr(close_ev, value, ",");
if (close_ev.size() != 3)
{
std::cerr << "*** ERROR: Wrong number of arguments for config variable "
<< rx_name << "/EVDEV_CLOSE. There should be three: "
<< "type code value (e.g. 1,163,0)\n";
return false;
}
if ((fd = open(devname.c_str(), O_RDONLY)) == -1)
{
cerr << "*** ERROR: Could not open event device " << devname
<< ": " << strerror(errno)
<< endl;
return false;
}
watch = new FdWatch(fd, FdWatch::FD_WATCH_RD);
assert(watch != 0);
watch->activity.connect(slot(*this, &SquelchEvDev::readEvDevData));
// Print Device Name
char name[256] = "Unknown";
ioctl(fd, EVIOCGNAME (sizeof (name)), name);
cout << rx_name << ": EvDev Squelch: " << devname << "(" << name << ")\n";
return true;
}
bool PttHidraw::initialize(Async::Config &cfg, const std::string name)
{
map<string, char> pin_mask;
pin_mask["GPIO1"] = 0x01;
pin_mask["GPIO2"] = 0x02;
pin_mask["GPIO3"] = 0x04;
pin_mask["GPIO4"] = 0x08;
string hidraw_pin;
if (!cfg.getValue(name, "HID_PTT_PIN", hidraw_pin) || hidraw_pin.empty())
{
cerr << "*** ERROR: Config variable " << name << "/HID_PTT_PIN not set\n";
return false;
}
string hidraw_dev;
if (!cfg.getValue(name, "HID_DEVICE", hidraw_dev) || hidraw_dev.empty())
{
cerr << "*** ERROR: Config variable " << name << "/HID_DEVICE not set\n";
return false;
}
if ((fd = open(hidraw_dev.c_str(), O_WRONLY, 0)) < 0)
{
cerr << "*** ERROR: Can't open port " << hidraw_dev << endl;
return false;
}
struct hidraw_devinfo hiddevinfo;
if ((ioctl(fd, HIDIOCGRAWINFO, &hiddevinfo) != -1) &&
(hiddevinfo.vendor == 0x0d8c))
{
cout << "--- Hidraw sound chip is ";
if (hiddevinfo.product == 0x000c)
{
cout << "CM108";
}
else if (hiddevinfo.product == 0x013c)
{
cout << "CM108A";
}
else if (hiddevinfo.product == 0x000e)
{
cout << "CM109";
}
else if (hiddevinfo.product == 0x013a)
{
cout << "CM119";
}
else
{
cout << "unknown";
}
cout << endl;
}
else
{
cerr << "*** ERROR: unknown/unsupported sound chip detected...\n";
return false;
}
if (hidraw_pin[0] == '!')
{
active_low = true;
hidraw_pin.erase(0, 1);
}
map<string, char>::iterator it = pin_mask.find(hidraw_pin);
if (it == pin_mask.end())
{
cerr << "*** ERROR: Wrong value for " << name << "/HID_PIN=" << hidraw_pin
<< ", valid are GPIO1, GPIO2, GPIO3, GPIO4" << endl;
return false;
}
pin = (*it).second;
return true;
} /* PttHidraw::initialize */
bool LocationInfo::parsePath(const Async::Config &cfg, const string &name)
{
// FIXME: Verify the path syntax!
loc_cfg.path = cfg.getValue(name, "PATH");
return true;
} /* LocationInfo::parsePath */
bool LocationInfo::parseStationHW(const Async::Config &cfg, const string &name)
{
float frequency = 0;
bool success = true;
if (!cfg.getValue(name, "FREQUENCY", frequency))
{
print_error(name, "FREQUENCY", cfg.getValue(name, "FREQUENCY"),
"FREQUENCY=438.875");
success = false;
}
else
{
loc_cfg.frequency = lrintf(1000.0 * frequency);
}
if (!cfg.getValue(name, "TX_POWER", 1U, numeric_limits<unsigned int>::max(),
loc_cfg.power))
{
print_error(name, "TX_POWER", cfg.getValue(name, "TX_POWER"),
"TX_POWER=8");
success = false;
}
if (!cfg.getValue(name, "ANTENNA_GAIN", loc_cfg.gain, true))
{
print_error(name, "ANTENNA_GAIN", cfg.getValue(name, "ANTENNA_GAIN"),
"ANTENNA_GAIN=6");
success = false;
}
if (!parseAntennaHeight(loc_cfg, cfg.getValue(name, "ANTENNA_HEIGHT")))
{
print_error(name, "ANTENNA_HEIGHT", cfg.getValue(name, "ANTENNA_HEIGHT"),
"ANTENNA_HEIGHT=10m");
success = false;
}
if (!cfg.getValue(name, "ANTENNA_DIR", loc_cfg.beam_dir, true))
{
print_error(name, "ANTENNA_DIR", cfg.getValue(name, "ANTENNA_DIR"),
"ANTENNA_DIR=-1");
success = false;
}
if (!cfg.getValue(name, "TONE", loc_cfg.tone, true))
{
print_error(name, "TONE", cfg.getValue(name, "TONE"), "TONE=0");
success = false;
}
int interval = 10;
int max = numeric_limits<int>::max();
if (!cfg.getValue(name, "BEACON_INTERVAL", 10, max, interval, true))
{
print_error(name, "BEACON_INTERVAL", cfg.getValue(name, "BEACON_INTERVAL"),
"BEACON_INTERVAL=10");
success = false;
}
else
{
loc_cfg.interval = 60 * 1000 * interval;
}
loc_cfg.range = calculateRange(loc_cfg);
return success;
} /* LocationInfo::parseStationHW */
bool LocationInfo::initialize(const Async::Config &cfg, const std::string &cfg_name)
{
// check if already initialized
if (LocationInfo::_instance->has_instance()) return false;
bool init_ok = true;
string value;
LocationInfo::_instance = new LocationInfo();
value = cfg.getValue(cfg_name, "CALLSIGN");
if (value.find("EL-") != string::npos)
{
LocationInfo::_instance->loc_cfg.prefix = "L";
}
else if (value.find("ER-") != string::npos)
{
LocationInfo::_instance->loc_cfg.prefix = "R";
}
else
{
cerr << "*** ERROR: variable CALLSIGN must have a prefix (ER- or EL-)" <<
" to indicate that is an Echolink station.\n" <<
"Example: CALLSIGN=ER-DL1ABC\n";
return false;
}
if (value.erase(0,3).length() < 4)
{
cerr << "*** ERROR: variable CALLSIGN in section " <<
cfg_name << " is missing or wrong\nExample: CALLSIGN=ER-DL1ABC\n";
return false;
}
LocationInfo::_instance->loc_cfg.mycall = value;
LocationInfo::_instance->loc_cfg.comment = cfg.getValue(cfg_name, "COMMENT");
init_ok &= LocationInfo::_instance->parsePosition(cfg, cfg_name);
init_ok &= LocationInfo::_instance->parseStationHW(cfg, cfg_name);
init_ok &= LocationInfo::_instance->parsePath(cfg, cfg_name);
init_ok &= LocationInfo::_instance->parseClients(cfg, cfg_name);
unsigned int iv = atoi(cfg.getValue(cfg_name, "STATISTICS_INTERVAL").c_str());
if (iv < 5 || iv > 60)
{
iv = 10;
}
LocationInfo::_instance->sinterval = iv;
LocationInfo::_instance->startStatisticsTimer(iv*60000);
if( !init_ok )
{
delete LocationInfo::_instance;
LocationInfo::_instance = NULL;
}
return init_ok;
} /* LocationInfo::initialize */
WbRxRtlSdr::WbRxRtlSdr(Async::Config &cfg, const string &name)
: auto_tune_enabled(true), m_name(name), xvrtr_offset(0)
{
//cout << "### Initializing WBRX " << name << endl;
string rtl_type = "RtlTcp";
cfg.getValue(name, "TYPE", rtl_type);
if (rtl_type == "RtlTcp")
{
string remote_host = "localhost";
cfg.getValue(name, "HOST", remote_host);
int tcp_port = 1234;
cfg.getValue(name, "PORT", tcp_port);
//cout << "### HOST = " << remote_host << endl;
//cout << "### PORT = " << tcp_port << endl;
rtl = new RtlTcp(remote_host, tcp_port);
}
#ifdef HAS_RTLSDR_SUPPORT
else if (rtl_type == "RtlUsb")
{
string dev_match = "0";
cfg.getValue(name, "DEV_MATCH", dev_match);
//cout << "### DEV_MATCH = " << dev_match << endl;
rtl = new RtlUsb(dev_match);
}
#endif
else
{
cerr << "*** ERROR: Unknown WbRx type: " << rtl_type << endl;
exit(1);
}
int sample_rate = 960000;
cfg.getValue(name, "SAMPLE_RATE", sample_rate);
//cout << "### SAMPLE_RATE = " << sample_rate << endl;
rtl->setSampleRate(sample_rate);
rtl->iqReceived.connect(iqReceived.make_slot());
rtl->readyStateChanged.connect(
mem_fun(*this, &WbRxRtlSdr::rtlReadyStateChanged));
int fq_corr = 0;
if (cfg.getValue(name, "FQ_CORR", fq_corr) && (fq_corr != 0))
{
//cout << "### FQ_CORR = " << (int32_t)fq_corr << "ppm\n";
rtl->setFqCorr(fq_corr);
}
uint32_t center_fq = 0;
if (cfg.getValue(name, "CENTER_FQ", center_fq))
{
//cout << "### CENTER_FQ = " << center_fq << "Hz\n";
auto_tune_enabled = false;
setCenterFq(center_fq);
}
cfg.getValue(name, "XVRTR_OFFSET", xvrtr_offset);
float gain = 0.0f;
if (cfg.getValue(name, "GAIN", gain))
{
//cout << "### GAIN = " << gain << "dB\n";
rtl->setGainMode(1);
int32_t int_gain = static_cast<int32_t>(10.0 * gain);
rtl->setGain(int_gain);
}
bool peak_meter = false;
cfg.getValue(name, "PEAK_METER", peak_meter);
rtl->enableDistPrint(peak_meter);
} /* WbRxRtlSdr::WbRxRtlSdr */
/**
Initializing the sound card as linux/hidraw device
For further information:
http://dmkeng.com
http://www.halicky.sk/om3cph/sb/CM108_DataSheet_v1.6.pdf
http://www.ti.com/lit/ml/sllu093/sllu093.pdf
http://www.ti.com/tool/usb-to-gpio
*/
bool SquelchHidraw::initialize(Async::Config& cfg, const std::string& rx_name)
{
if (!Squelch::initialize(cfg, rx_name))
{
return false;
}
string devicename;
if (!cfg.getValue(rx_name, "HID_DEVICE", devicename))
{
cerr << "*** ERROR: Config variable " << devicename <<
"/HID_DEVICE not set" << endl;
return false;
}
string sql_pin;
if (!cfg.getValue(rx_name, "HID_SQL_PIN", sql_pin) || sql_pin.empty())
{
cerr << "*** ERROR: Config variable " << rx_name
<< "/HID_SQL_PIN not set or invalid\n";
return false;
}
if ((sql_pin.size() > 1) && (sql_pin[0] == '!'))
{
active_low = true;
sql_pin.erase(0, 1);
}
map<string, char> pin_mask;
pin_mask["VOL_UP"] = 0x01;
pin_mask["VOL_DN"] = 0x02;
pin_mask["MUTE_PLAY"] = 0x04;
pin_mask["MUTE_REC"] = 0x08;
map<string, char>::iterator it = pin_mask.find(sql_pin);
if (it == pin_mask.end())
{
cerr << "*** ERROR: Invalid value for " << rx_name << "/HID_SQL_PIN="
<< sql_pin << ", must be VOL_UP, VOL_DN, MUTE_PLAY, MUTE_REC" << endl;
return false;
}
pin = (*it).second;
if ((fd = open(devicename.c_str(), O_RDWR, 0)) < 0)
{
cout << "*** ERROR: Could not open event device " << devicename
<< " specified in " << rx_name << "/HID_DEVICE: "
<< strerror(errno) << endl;
return false;
}
struct hidraw_devinfo hiddevinfo;
if ((ioctl(fd, HIDIOCGRAWINFO, &hiddevinfo) != -1) &&
(hiddevinfo.vendor == 0x0d8c))
{
cout << "--- Hidraw sound chip is ";
if (hiddevinfo.product == 0x000c)
{
cout << "CM108";
}
else if (hiddevinfo.product == 0x013c)
{
cout << "CM108A";
}
else if (hiddevinfo.product == 0x000e)
{
cout << "CM109";
}
else if (hiddevinfo.product == 0x013a)
{
cout << "CM119";
}
else
{
cout << "unknown";
}
cout << endl;
}
else
{
cout << "*** ERROR: unknown/unsupported sound chip detected...\n";
return false;
}
watch = new Async::FdWatch(fd, Async::FdWatch::FD_WATCH_RD);
assert(watch != 0);
watch->activity.connect(mem_fun(*this, &SquelchHidraw::hidrawActivity));
return true;
}
