ubiquity_motor: motor_message.cc Source File

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00001 
00031 #include <ubiquity_motor/motor_message.h>
00032 // #include <ubiquity_motor/motor_message_registers.h>
00033 #include <ros/console.h>
00034 
00035 uint8_t const MotorMessage::valid_types[] = {
00036   TYPE_READ,
00037   TYPE_WRITE,
00038   TYPE_RESPONSE
00039 };
00040 
00041 uint8_t const MotorMessage::valid_registers[] = {
00042   REG_STOP_START,
00043   REG_BRAKE_STOP,
00044   REG_CRUISE_STOP,
00045   REG_LEFT_PWM,
00046   REG_RIGHT_PWM,
00047   REG_LEFT_SPEED_SET,
00048   REG_RIGHT_SPEED_SET,
00049   REG_LEFT_RAMP,
00050   REG_RIGHT_RAMP,
00051   REG_LEFT_ODOM,
00052   REG_RIGHT_ODOM,
00053   REG_DEADMAN,
00054   REG_LEFT_CURRENT,
00055   REG_RIGHT_CURRENT,
00056   REG_ERROR_COUNT,
00057   REG_5V_MAIN_ERROR,
00058   REG_5V_AUX_ERROR,
00059   REG_12V_MAIN_ERROR,
00060   REG_12V_AUX_ERROR,
00061   REG_5V_MAIN_OL,
00062   REG_5V_AUX_OL,
00063   REG_12V_MAIN_OL,
00064   REG_12V_AUX_OL,
00065   REG_LEFT_MOTOR_ERROR,
00066   REG_RIGHT_MOTOR_ERROR,
00067   REG_PARAM_P,
00068   REG_PARAM_I,
00069   REG_PARAM_D,
00070   REG_PARAM_C,
00071   REG_LED_1,
00072   REG_LED_2,
00073   REG_HARDWARE_VERSION,
00074   REG_FIRMWARE_VERSION,
00075   REG_BATTERY_VOLTAGE,
00076   REG_5V_MAIN_CURRENT,
00077   REG_12V_MAIN_CURRENT,
00078   REG_5V_AUX_CURRENT,
00079   REG_12V_AUX_CURRENT,
00080   REG_LEFT_SPEED_MEASURED,
00081   REG_RIGHT_SPEED_MEASURED
00082 };
00083 
00084 void MotorMessage::setType(MotorMessage::MessageTypes type){
00085   if (verifyType(type)){
00086     this->type = type;
00087   }
00088 }
00089 
00090 MotorMessage::MessageTypes MotorMessage::getType() const{
00091   if (verifyType(this->type)){
00092     return static_cast<MotorMessage::MessageTypes>(this->type);
00093   }
00094 }
00095 
00096 void MotorMessage::setRegister(MotorMessage::Registers reg){
00097   if (verifyRegister(reg)){
00098     this->register_addr = reg;
00099   }
00100 }
00101 
00102 MotorMessage::Registers MotorMessage::getRegister() const{
00103   return static_cast<MotorMessage::Registers>(this->register_addr);
00104 }
00105 
00106 /*bool MotorMessage::isDelimeter(uint8_t data) {
00107   return (delimeter == data);
00108   }*/
00109 
00110 void MotorMessage::setData(int32_t data){
00111   // Spilt 32 bit data (system byte order) into 4 8bit elements in big endian (network byte order)
00112   this->data[3] = (data >> 0) & 0xFF;
00113   this->data[2] = (data >> 8) & 0xFF;
00114   this->data[1] = (data >> 16) & 0xFF;
00115   this->data[0] = (data >> 24) & 0xFF;
00116 }
00117 
00118 int32_t MotorMessage::getData() const{
00119   // Take big endian (network byte order) elements and return 32 bit int
00120   return (this->data[0] << 24)
00121                | (this->data[1] << 16)
00122                | (this->data[2] << 8)
00123                | (this->data[3] << 0);
00124 }
00125 
00126 std::vector<uint8_t> MotorMessage::serialize() const{
00127   std::vector<uint8_t> out(9);
00128   out[0] = delimeter;
00129   out[1] = protocol_version;
00130   out[2] = type;
00131   out[3] = register_addr;
00132   out[4] = data[0];
00133   out[5] = data[1];
00134   out[6] = data[2];
00135   out[7] = data[3];
00136   out[8] = generateChecksum(out);
00137   return out;
00138 }
00139 
00140 int MotorMessage::deserialize(const std::vector<uint8_t> &serialized){
00141   if(serialized[0] == delimeter) {
00142     if (serialized[1] == protocol_version) {
00143       if (generateChecksum(serialized) == serialized[8]) {
00144         if (verifyType(serialized[2])) {
00145           if (verifyRegister(serialized[3])) {
00146             this->type = serialized[2];
00147             this->register_addr = serialized[3];
00148             this->data[0] = serialized[4];
00149             this->data[1] = serialized[5];
00150             this->data[2] = serialized[6];
00151             this->data[3] = serialized[7];
00152             return 0;
00153           }
00154           else 
00155             return 5;
00156         }
00157         else 
00158           return 4;
00159       }
00160       else
00161         return 3;
00162     }
00163     else return 2;
00164   }
00165   else
00166     return 1;
00167 
00168   // TODO use exceptions instead of cryptic error codes
00169 
00170   // ERROR codes returned:
00171   // 1 First char not delimiter
00172   // 2 wrong protocol version
00173   // 3 bad checksum
00174   // 4 bad type
00175   // 5 bad register
00176 }
00177 int MotorMessage::verifyType(uint8_t t) {
00178   //Return 1 good
00179   //Return 0 for bad
00180   for (int i = 0; i < sizeof(valid_types) / sizeof(valid_types[0]); ++i)
00181   {
00182     if (t == valid_types[i])
00183       return 1;
00184   }
00185   return 0;
00186 }
00187 
00188 int MotorMessage::verifyRegister(uint8_t r) {
00189   //Return 1 good
00190   //Return 0 for bad
00191   for (int i = 0; i < sizeof(valid_registers) / sizeof(valid_registers[0]); ++i)
00192   {
00193     if (r == valid_registers[i])
00194       return 1;
00195   }
00196   return 0;
00197 }
00198 
00199 uint8_t MotorMessage::generateChecksum(const std::vector<uint8_t> &data) {
00200   int sum = data [1] + data[2] + data[3] + data[4] + data[5] + data[6] + data[7];
00201 
00202   if (sum > 0xFF) {
00203     int tmp;
00204     tmp = sum >> 8;
00205     tmp = tmp << 8;
00206     return 0xFF - (sum-tmp);
00207   }
00208   else {
00209     return 0xFF - sum;
00210   }
00211 
00212 }