/** ****************************************************************************** * * @file uavtalk.c * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * @brief UAVTalk library, implements to telemetry protocol. See the wiki for more details. * This library should not be called directly by the application, it is only used by the * Telemetry module. * @see The GNU Public License (GPL) Version 3 * *****************************************************************************/ /* * This program 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. * * This program 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 this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "openpilot.h" // Private constants #define TYPE_MASK 0xFC #define TYPE_VER 0x10 #define TYPE_OBJ (TYPE_VER | 0x00) #define TYPE_OBJ_REQ (TYPE_VER | 0x01) #define TYPE_OBJ_ACK (TYPE_VER | 0x02) #define TYPE_ACK (TYPE_VER | 0x03) #define HEADER_LENGTH 7 // type (1), object ID (4), instance ID (2, not used in single objects) #define CHECKSUM_LENGTH 2 #define MAX_PAYLOAD_LENGTH 256 #define MAX_PACKET_LENGTH (HEADER_LENGTH+MAX_PAYLOAD_LENGTH+CHECKSUM_LENGTH) // Private types typedef enum {STATE_SYNC, STATE_OBJID, STATE_INSTID, STATE_DATA, STATE_CS} RxState; // Private variables static UAVTalkOutputStream outStream; static xSemaphoreHandle lock; static xSemaphoreHandle respSema; static UAVObjHandle respObj; static uint16_t respInstId; static uint8_t rxBuffer[MAX_PACKET_LENGTH]; static uint8_t txBuffer[MAX_PACKET_LENGTH]; // Private functions static uint16_t updateChecksum(uint16_t cs, uint8_t* data, int32_t length); static int32_t objectTransaction(uint32_t objectId, uint16_t instId, uint8_t type, int32_t timeout); static int32_t sendObject(UAVObjHandle obj, uint16_t instId, uint8_t type); static int32_t sendSingleObject(UAVObjHandle obj, uint16_t instId, uint8_t type); static int32_t receiveObject(uint8_t type, UAVObjHandle obj, uint16_t instId, uint8_t* data, int32_t length); static void updateAck(UAVObjHandle obj, uint16_t instId); /** * Initialize the UAVTalk library * \param[in] outputStream Function pointer that is called to send a data buffer * \return 0 Success * \return -1 Failure */ int32_t UAVTalkInitialize(UAVTalkOutputStream outputStream) { outStream = outputStream; lock = xSemaphoreCreateRecursiveMutex(); vSemaphoreCreateBinary(respSema); return 0; } /** * Request an update for the specified object, on success the object data would have been * updated by the GCS. * \param[in] obj Object to update * \param[in] instId The instance ID or UAVOBJ_ALL_INSTANCES for all instances. * \param[in] timeout Time to wait for the response, when zero it will return immediately * \return 0 Success * \return -1 Failure */ int32_t UAVTalkSendObjectRequest(UAVObjHandle obj, uint16_t instId, int32_t timeout) { return objectTransaction(obj, instId, TYPE_OBJ_REQ, timeout); } /** * Send the specified object through the telemetry link. * \param[in] obj Object to send * \param[in] instId The instance ID or UAVOBJ_ALL_INSTANCES for all instances. * \param[in] acked Selects if an ack is required (1:ack required, 0: ack not required) * \param[in] timeoutMs Time to wait for the ack, when zero it will return immediately * \return 0 Success * \return -1 Failure */ int32_t UAVTalkSendObject(UAVObjHandle obj, uint16_t instId, uint8_t acked, int32_t timeoutMs) { // Send object if (acked == 1) { return objectTransaction(obj, instId, TYPE_OBJ_ACK, timeoutMs); } else { return objectTransaction(obj, instId, TYPE_OBJ, timeoutMs); } } /** * Execute the requested transaction on an object. * \param[in] obj Object * \param[in] instId The instance ID of UAVOBJ_ALL_INSTANCES for all instances. * \param[in] type Transaction type * TYPE_OBJ: send object, * TYPE_OBJ_REQ: request object update * TYPE_OBJ_ACK: send object with an ack * \return 0 Success * \return -1 Failure */ static int32_t objectTransaction(UAVObjHandle obj, uint16_t instId, uint8_t type, int32_t timeoutMs) { int32_t respReceived; // Lock xSemaphoreTakeRecursive(lock, portMAX_DELAY); // Send object depending on if a response is needed if (type == TYPE_OBJ_ACK || type == TYPE_OBJ_REQ) { sendObject(obj, instId, type); respObj = obj; respInstId = instId; xSemaphoreGiveRecursive(lock); // need to release lock since the next call will block until a response is received xSemaphoreTake(respSema, 0); // the semaphore needs to block on the next call, here we make sure the value is zero (binary sema) respReceived = xSemaphoreTake(respSema, timeoutMs/portTICK_RATE_MS); // lock on object until a response is received (or timeout) // Check if a response was received if (respReceived == pdFALSE) { return -1; } else { return 0; } } else if (type == TYPE_OBJ) { sendObject(obj, instId, TYPE_OBJ); xSemaphoreGiveRecursive(lock); return 0; } else { xSemaphoreGiveRecursive(lock); return -1; } } /** * Process an byte from the telemetry stream. * \param[in] rxbyte Received byte * \return 0 Success * \return -1 Failure */ int32_t UAVTalkProcessInputStream(uint8_t rxbyte) { static uint8_t tmpBuffer[4]; static UAVObjHandle obj; static uint8_t type; static uint32_t objId; static uint16_t instId; static uint32_t length; static uint16_t cs, csRx; static int32_t rxCount; static RxState state = STATE_SYNC; // Receive state machine switch (state) { case STATE_SYNC: if ((rxbyte & TYPE_MASK) == TYPE_VER ) { cs = rxbyte; type = rxbyte; state = STATE_OBJID; rxCount = 0; } break; case STATE_OBJID: tmpBuffer[rxCount++] = rxbyte; if (rxCount == 4) { // Search for object, if not found reset state machine //objId = (tmpBuffer[3] << 24) | (tmpBuffer[2] << 16) | (tmpBuffer[1] << 8) | (tmpBuffer[0]); objId = (tmpBuffer[0] << 24) | (tmpBuffer[1] << 16) | (tmpBuffer[2] << 8) | (tmpBuffer[3]); obj = UAVObjGetByID(objId); if (obj == 0) { state = STATE_SYNC; } else { // Update checksum cs = updateChecksum(cs, tmpBuffer, 4); // Determine data length if (type == TYPE_OBJ_REQ || type == TYPE_ACK) { length = 0; } else { length = UAVObjGetNumBytes(obj); } // Check length and determine next state if (length >= MAX_PAYLOAD_LENGTH) { state = STATE_SYNC; } else { // Check if this is a single instance object (i.e. if the instance ID field is coming next) if ( UAVObjIsSingleInstance(obj) ) { // If there is a payload get it, otherwise receive checksum if (length > 0) { state = STATE_DATA; } else { state = STATE_CS; } instId = 0; rxCount = 0; } else { state = STATE_INSTID; rxCount = 0; } } } } break; case STATE_INSTID: tmpBuffer[rxCount++] = rxbyte; if (rxCount == 2) { instId = (tmpBuffer[1] << 8) | (tmpBuffer[0]); cs = updateChecksum(cs, tmpBuffer, 2); rxCount = 0; // If there is a payload get it, otherwise receive checksum if (length > 0) { state = STATE_DATA; } else { state = STATE_CS; } } break; case STATE_DATA: rxBuffer[rxCount++] = rxbyte; if (rxCount == length) { cs = updateChecksum(cs, rxBuffer, length); state = STATE_CS; rxCount = 0; } break; case STATE_CS: tmpBuffer[rxCount++] = rxbyte; if (rxCount == 2) { csRx = (tmpBuffer[0] << 8) | (tmpBuffer[1]); if (csRx == cs) { xSemaphoreTakeRecursive(lock, portMAX_DELAY); receiveObject(type, obj, instId, rxBuffer, length); xSemaphoreGiveRecursive(lock); } state = STATE_SYNC; } break; default: state = STATE_SYNC; } // Done return 0; } /** * Receive an object. This function process objects received through the telemetry stream. * \param[in] type Type of received message (TYPE_OBJ, TYPE_OBJ_REQ, TYPE_OBJ_ACK, TYPE_ACK) * \param[in] obj Handle of the received object * \param[in] instId The instance ID of UAVOBJ_ALL_INSTANCES for all instances. * \param[in] data Data buffer * \param[in] length Buffer length * \return 0 Success * \return -1 Failure */ static int32_t receiveObject(uint8_t type, UAVObjHandle obj, uint16_t instId, uint8_t* data, int32_t length) { int32_t ret = 0; // Process message type switch (type) { case TYPE_OBJ: // All instances, not allowed for OBJ messages if (instId != UAVOBJ_ALL_INSTANCES) { // Unpack object, if the instance does not exist it will be created! UAVObjUnpack(obj, instId, data); // Check if an ack is pending updateAck(obj, instId); } else { ret = -1; } break; case TYPE_OBJ_ACK: // All instances, not allowed for OBJ_ACK messages if (instId != UAVOBJ_ALL_INSTANCES) { // Unpack object, if the instance does not exist it will be created! if ( UAVObjUnpack(obj, instId, data) == 0 ) { // Transmit ACK sendObject(obj, instId, TYPE_ACK); } else { ret = -1; } } else { ret = -1; } break; case TYPE_OBJ_REQ: // Send requested object if message is of type OBJ_REQ sendObject(obj, instId, TYPE_OBJ); break; case TYPE_ACK: // All instances, not allowed for ACK messages if (instId != UAVOBJ_ALL_INSTANCES) { // Check if an ack is pending updateAck(obj, instId); } else { ret = -1; } break; default: ret = -1; } // Done return ret; } /** * Check if an ack is pending on an object and give response semaphore */ static void updateAck(UAVObjHandle obj, uint16_t instId) { if (respObj == obj && (respInstId == instId || respInstId == UAVOBJ_ALL_INSTANCES)) { xSemaphoreGive(respSema); respObj = 0; } } /** * Send an object through the telemetry link. * \param[in] obj Object handle to send * \param[in] instId The instance ID or UAVOBJ_ALL_INSTANCES for all instances * \param[in] type Transaction type * \return 0 Success * \return -1 Failure */ static int32_t sendObject(UAVObjHandle obj, uint16_t instId, uint8_t type) { uint32_t numInst; uint32_t n; // If all instances are requested on a single instance object it is an error if ( instId == UAVOBJ_ALL_INSTANCES && UAVObjIsSingleInstance(obj) ) { return -1; } // Process message type if ( type == TYPE_OBJ || type == TYPE_OBJ_ACK ) { if (instId == UAVOBJ_ALL_INSTANCES) { // Get number of instances numInst = UAVObjGetNumInstances(obj); // Send all instances for (n = 0; n < numInst; ++n) { sendSingleObject(obj, n, type); } return 0; } else { return sendSingleObject(obj, instId, type); } } else if (type == TYPE_OBJ_REQ) { return sendSingleObject(obj, instId, TYPE_OBJ_REQ); } else if (type == TYPE_ACK) { if ( instId != UAVOBJ_ALL_INSTANCES ) { return sendSingleObject(obj, instId, TYPE_ACK); } else { return -1; } } else { return -1; } } /** * Send an object through the telemetry link. * \param[in] obj Object handle to send * \param[in] instId The instance ID (can NOT be UAVOBJ_ALL_INSTANCES, use sendObject() instead) * \param[in] type Transaction type * \return 0 Success * \return -1 Failure */ static int32_t sendSingleObject(UAVObjHandle obj, uint16_t instId, uint8_t type) { int32_t length; int32_t dataOffset; uint16_t cs = 0; uint32_t objId; // Setup type and object id fields objId = UAVObjGetID(obj); txBuffer[0] = type; txBuffer[1] = (uint8_t)(objId & 0xFF); txBuffer[2] = (uint8_t)((objId >> 8) & 0xFF); txBuffer[3] = (uint8_t)((objId >> 16) & 0xFF); txBuffer[4] = (uint8_t)((objId >> 24) & 0xFF); // Setup instance ID if one is required if (UAVObjIsSingleInstance(obj)) { dataOffset = 5; } else { txBuffer[5] = (uint8_t)(instId & 0xFF); txBuffer[6] = (uint8_t)((instId >> 8) & 0xFF); dataOffset = 7; } // Determine data length if (type == TYPE_OBJ_REQ || type == TYPE_ACK) { length = 0; } else { length = UAVObjGetNumBytes(obj); } // Check length if (length >= MAX_PAYLOAD_LENGTH) { return -1; } // Copy data (if any) if (length > 0) { if ( UAVObjPack(obj, instId, &txBuffer[dataOffset]) < 0 ) { return -1; } } // Calculate checksum cs = 0; cs = updateChecksum(cs, txBuffer, dataOffset+length); txBuffer[dataOffset+length] = (uint8_t)(cs & 0xFF); txBuffer[dataOffset+length+1] = (uint8_t)((cs >> 8) & 0xFF); // Send buffer if (outStream!=NULL) (*outStream)(txBuffer, dataOffset+length+CHECKSUM_LENGTH); // Done return 0; } /** * Update checksum. * TODO: Replace with CRC-16 * \param[in] data Data buffer to update checksum on * \param[in] length Length of buffer * \return Updated checksum */ static uint16_t updateChecksum(uint16_t cs, uint8_t* data, int32_t length) { int32_t n; for (n = 0; n < length; ++n) { cs += (uint16_t)data[n]; } return cs; }