/***************************************************************************** * * $Id$ * ****************************************************************************/ #include #include using namespace std; #include "CommandUpload.h" #include "coe_datatypes.h" #include "byteorder.h" /*****************************************************************************/ CommandUpload::CommandUpload(): Command("upload", "Read an Sdo entry from a slave.") { } /*****************************************************************************/ string CommandUpload::helpString() const { stringstream str; str << getName() << " [OPTIONS] " << endl << endl << getBriefDescription() << endl << endl << "This command requires a single slave to be selected." << endl << endl << "The data type of the Sdo entry is taken from the Sdo" << endl << "dictionary by default. It can be overridden with the" << endl << "--type option. If the slave does not support the Sdo" << endl << "information service or the Sdo is not in the dictionary," << endl << "the --type option is mandatory." << endl << endl << "These are the valid Sdo entry data types:" << endl << " int8, int16, int32, uint8, uint16, uint32, string." << endl << endl << "Arguments:" << endl << " INDEX is the Sdo index and must be an unsigned" << endl << " 16 bit number." << endl << " SUBINDEX is the Sdo entry subindex and must be an" << endl << " unsigned 8 bit number." << endl << endl << "Command-specific options:" << endl << " --alias -a " << endl << " --position -p Slave selection. See the help of" << endl << " the 'slaves' command." << endl << " --type -t Sdo entry data type (see above)." << endl << endl << numericInfo(); return str.str(); } /****************************************************************************/ void CommandUpload::execute(MasterDevice &m, const StringVector &args) { SlaveList slaves; stringstream err, strIndex, strSubIndex; int sval; ec_ioctl_slave_sdo_upload_t data; unsigned int uval; const CoEDataType *dataType = NULL; if (args.size() != 2) { err << "'" << getName() << "' takes two arguments!"; throwInvalidUsageException(err); } strIndex << args[0]; strIndex >> resetiosflags(ios::basefield) // guess base from prefix >> data.sdo_index; if (strIndex.fail()) { err << "Invalid Sdo index '" << args[0] << "'!"; throwInvalidUsageException(err); } strSubIndex << args[1]; strSubIndex >> resetiosflags(ios::basefield) // guess base from prefix >> uval; if (strSubIndex.fail() || uval > 0xff) { err << "Invalid Sdo subindex '" << args[1] << "'!"; throwInvalidUsageException(err); } data.sdo_entry_subindex = uval; m.open(MasterDevice::Read); slaves = selectedSlaves(m); if (slaves.size() != 1) { throwSingleSlaveRequired(slaves.size()); } data.slave_position = slaves.front().position; if (dataTypeStr != "") { // data type specified if (!(dataType = findDataType(dataTypeStr))) { err << "Invalid data type '" << dataTypeStr << "'!"; throwInvalidUsageException(err); } } else { // no data type specified: fetch from dictionary ec_ioctl_slave_sdo_entry_t entry; try { m.getSdoEntry(&entry, data.slave_position, data.sdo_index, data.sdo_entry_subindex); } catch (MasterDeviceException &e) { err << "Failed to determine Sdo entry data type. " << "Please specify --type."; throwCommandException(err); } if (!(dataType = findDataType(entry.data_type))) { err << "Pdo entry has unknown data type 0x" << hex << setfill('0') << setw(4) << entry.data_type << "!" << " Please specify --type."; throwCommandException(err); } } if (dataType->byteSize) { data.target_size = dataType->byteSize; } else { data.target_size = DefaultBufferSize; } data.target = new uint8_t[data.target_size + 1]; try { m.sdoUpload(&data); } catch (MasterDeviceException &e) { delete [] data.target; throw e; } m.close(); if (dataType->byteSize && data.data_size != dataType->byteSize) { err << "Data type mismatch. Expected " << dataType->name << " with " << dataType->byteSize << " byte, but got " << data.data_size << " byte."; throwCommandException(err); } cout << setfill('0'); switch (dataType->coeCode) { case 0x0002: // int8 sval = *(int8_t *) data.target; cout << sval << " 0x" << hex << setw(2) << sval << endl; break; case 0x0003: // int16 sval = le16tocpu(*(int16_t *) data.target); cout << sval << " 0x" << hex << setw(4) << sval << endl; break; case 0x0004: // int32 sval = le32tocpu(*(int32_t *) data.target); cout << sval << " 0x" << hex << setw(8) << sval << endl; break; case 0x0005: // uint8 uval = (unsigned int) *(uint8_t *) data.target; cout << uval << " 0x" << hex << setw(2) << uval << endl; break; case 0x0006: // uint16 uval = le16tocpu(*(uint16_t *) data.target); cout << uval << " 0x" << hex << setw(4) << uval << endl; break; case 0x0007: // uint32 uval = le32tocpu(*(uint32_t *) data.target); cout << uval << " 0x" << hex << setw(8) << uval << endl; break; case 0x0009: // string cout << string((const char *) data.target, data.data_size) << endl; break; default: printRawData(data.target, data.data_size); // FIXME break; } delete [] data.target; } /****************************************************************************/ void CommandUpload::printRawData( const uint8_t *data, unsigned int size ) { cout << hex << setfill('0'); while (size--) { cout << "0x" << setw(2) << (unsigned int) *data++; if (size) cout << " "; } cout << endl; } /*****************************************************************************/