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LibrePilot/flight/OpenPilot/Modules/Telemetry/telemetry.c

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/**
******************************************************************************
* @addtogroup OpenPilotModules OpenPilot Modules
* @{
* @addtogroup TelemetryModule Telemetry Module
* @brief Main telemetry module
* Starts three tasks (RX, TX, and priority TX) that watch event queues
* and handle all the telemetry of the UAVobjects
* @{
*
* @file telemetry.c
* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010.
* @brief Telemetry module, handles telemetry and UAVObject updates
* @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"
#include "flighttelemetrystats.h"
#include "gcstelemetrystats.h"
#include "telemetrysettings.h"
// Private constants
#define MAX_QUEUE_SIZE 20
#define STACK_SIZE configMINIMAL_STACK_SIZE
#define TASK_PRIORITY_RX (tskIDLE_PRIORITY + 2)
#define TASK_PRIORITY_TX (tskIDLE_PRIORITY + 2)
#define TASK_PRIORITY_TXPRI (tskIDLE_PRIORITY + 2)
#define REQ_TIMEOUT_MS 250
#define MAX_RETRIES 2
#define STATS_UPDATE_PERIOD_MS 4000
#define CONNECTION_TIMEOUT_MS 8000
// Private types
// Private variables
static uint8_t telemetryPort;
static xQueueHandle queue;
static xQueueHandle priorityQueue;
static xTaskHandle telemetryTxTaskHandle;
static xTaskHandle telemetryTxPriTaskHandle;
static xTaskHandle telemetryRxTaskHandle;
static uint32_t txErrors;
static uint32_t txRetries;
static TelemetrySettingsData settings;
static uint32_t timeOfLastObjectUpdate;
// Private functions
static void telemetryTxTask(void* parameters);
static void telemetryTxPriTask(void* parameters);
static void telemetryRxTask(void* parameters);
static int32_t transmitData(uint8_t* data, int32_t length);
static void registerObject(UAVObjHandle obj);
static void updateObject(UAVObjHandle obj);
static int32_t addObject(UAVObjHandle obj);
static int32_t setUpdatePeriod(UAVObjHandle obj, int32_t updatePeriodMs);
static void processObjEvent(UAVObjEvent* ev);
static void updateTelemetryStats();
static void gcsTelemetryStatsUpdated();
static void updateSettings();
/**
* Initialise the telemetry module
* \return -1 if initialisation failed
* \return 0 on success
*/
int32_t TelemetryInitialize(void)
{
UAVObjEvent ev;
// Initialize vars
timeOfLastObjectUpdate = 0;
// Create object queues
queue = xQueueCreate(MAX_QUEUE_SIZE, sizeof(UAVObjEvent));
priorityQueue = xQueueCreate(MAX_QUEUE_SIZE, sizeof(UAVObjEvent));
// Get telemetry settings object
updateSettings();
// Initialise UAVTalk
UAVTalkInitialize(&transmitData);
// Process all registered objects and connect queue for updates
UAVObjIterate(&registerObject);
// Create periodic event that will be used to update the telemetry stats
txErrors = 0;
txRetries = 0;
memset(&ev, 0, sizeof(UAVObjEvent));
EventPeriodicQueueCreate(&ev, priorityQueue, STATS_UPDATE_PERIOD_MS);
// Listen to objects of interest
GCSTelemetryStatsConnectQueue(priorityQueue);
TelemetrySettingsConnectQueue(priorityQueue);
// Start telemetry tasks
xTaskCreate(telemetryTxTask, (signed char*)"TelTx", STACK_SIZE, NULL, TASK_PRIORITY_TX, &telemetryTxTaskHandle);
xTaskCreate(telemetryTxPriTask, (signed char*)"TelPriTx", STACK_SIZE, NULL, TASK_PRIORITY_TXPRI, &telemetryTxPriTaskHandle);
xTaskCreate(telemetryRxTask, (signed char*)"TelRx", STACK_SIZE, NULL, TASK_PRIORITY_RX, &telemetryRxTaskHandle);
return 0;
}
/**
* Register a new object, adds object to local list and connects the queue depending on the object's
* telemetry settings.
* \param[in] obj Object to connect
*/
static void registerObject(UAVObjHandle obj)
{
// Setup object for periodic updates
addObject(obj);
// Setup object for telemetry updates
updateObject(obj);
}
/**
* Update object's queue connections and timer, depending on object's settings
* \param[in] obj Object to updates
*/
static void updateObject(UAVObjHandle obj)
{
UAVObjMetadata metadata;
int32_t eventMask;
// Get metadata
UAVObjGetMetadata(obj, &metadata);
// Setup object depending on update mode
if(metadata.telemetryUpdateMode == UPDATEMODE_PERIODIC)
{
// Set update period
setUpdatePeriod(obj, metadata.telemetryUpdatePeriod);
// Connect queue
eventMask = EV_UPDATED_MANUAL | EV_UPDATE_REQ;
if(UAVObjIsMetaobject(obj))
{
eventMask |= EV_UNPACKED; // we also need to act on remote updates (unpack events)
}
UAVObjConnectQueue(obj, priorityQueue, eventMask);
}
else if(metadata.telemetryUpdateMode == UPDATEMODE_ONCHANGE)
{
// Set update period
setUpdatePeriod(obj, 0);
// Connect queue
eventMask = EV_UPDATED | EV_UPDATED_MANUAL | EV_UPDATE_REQ;
if(UAVObjIsMetaobject(obj))
{
eventMask |= EV_UNPACKED; // we also need to act on remote updates (unpack events)
}
UAVObjConnectQueue(obj, priorityQueue, eventMask);
}
else if(metadata.telemetryUpdateMode == UPDATEMODE_MANUAL)
{
// Set update period
setUpdatePeriod(obj, 0);
// Connect queue
eventMask = EV_UPDATED_MANUAL | EV_UPDATE_REQ;
if(UAVObjIsMetaobject(obj))
{
eventMask |= EV_UNPACKED; // we also need to act on remote updates (unpack events)
}
UAVObjConnectQueue(obj, priorityQueue, eventMask);
}
else if(metadata.telemetryUpdateMode == UPDATEMODE_NEVER)
{
// Set update period
setUpdatePeriod(obj, 0);
// Disconnect queue
UAVObjDisconnectQueue(obj, priorityQueue);
}
}
/**
* Processes queue events
*/
static void processObjEvent(UAVObjEvent* ev)
{
UAVObjMetadata metadata;
FlightTelemetryStatsData flightStats;
int32_t retries;
int32_t success;
if ( ev->obj == 0 )
{
updateTelemetryStats();
}
else if ( ev->obj == GCSTelemetryStatsHandle() )
{
gcsTelemetryStatsUpdated();
}
else if ( ev->obj == TelemetrySettingsHandle() )
{
updateSettings();
}
else
{
// Only process event if connected to GCS or if object FlightTelemetryStats is updated
FlightTelemetryStatsGet(&flightStats);
if ( flightStats.Status == FLIGHTTELEMETRYSTATS_STATUS_CONNECTED || ev->obj == FlightTelemetryStatsHandle() )
{
// Get object metadata
UAVObjGetMetadata(ev->obj, &metadata);
// Act on event
retries = 0;
success = -1;
if(ev->event == EV_UPDATED || ev->event == EV_UPDATED_MANUAL)
{
// Send update to GCS (with retries)
while(retries < MAX_RETRIES && success == -1)
{
success = UAVTalkSendObject(ev->obj, ev->instId, metadata.telemetryAcked, REQ_TIMEOUT_MS); // call blocks until ack is received or timeout
++retries;
}
// Update stats
txRetries += (retries-1);
if ( success == -1 )
{
++txErrors;
}
}
else if(ev->event == EV_UPDATE_REQ)
{
// Request object update from GCS (with retries)
while(retries < MAX_RETRIES && success == -1)
{
success = UAVTalkSendObjectRequest(ev->obj, ev->instId, REQ_TIMEOUT_MS); // call blocks until update is received or timeout
++retries;
}
// Update stats
txRetries += (retries-1);
if ( success == -1 )
{
++txErrors;
}
}
// If this is a metaobject then make necessary telemetry updates
if(UAVObjIsMetaobject(ev->obj))
{
updateObject(UAVObjGetLinkedObj(ev->obj)); // linked object will be the actual object the metadata are for
}
}
}
}
/**
* Telemetry transmit task, regular priority
*/
static void telemetryTxTask(void* parameters)
{
UAVObjEvent ev;
// Loop forever
while(1)
{
// Wait for queue message
if(xQueueReceive(queue, &ev, portMAX_DELAY) == pdTRUE)
{
// Process event
processObjEvent(&ev);
}
}
}
/**
* Telemetry transmit task, high priority
*/
static void telemetryTxPriTask(void* parameters)
{
UAVObjEvent ev;
// Loop forever
while(1)
{
// Wait for queue message
if(xQueueReceive(priorityQueue, &ev, portMAX_DELAY) == pdTRUE)
{
// Process event
processObjEvent(&ev);
}
}
}
/**
* Telemetry transmit task. Processes queue events and periodic updates.
*/
static void telemetryRxTask(void* parameters)
{
uint8_t inputPort;
int32_t len;
// Task loop
while (1)
{
#if defined(PIOS_INCLUDE_USB_HID)
// Determine input port (USB takes priority over telemetry port)
if(PIOS_USB_HID_CheckAvailable(0))
{
inputPort = PIOS_COM_TELEM_USB;
}
else
#endif /* PIOS_INCLUDE_USB_HID */
{
inputPort = telemetryPort;
}
// Block until data are available
// TODO: Currently we periodically check the buffer for data, update once the PIOS_COM is made blocking
len = PIOS_COM_ReceiveBufferUsed(inputPort);
for (int32_t n = 0; n < len; ++n)
{
UAVTalkProcessInputStream(PIOS_COM_ReceiveBuffer(inputPort));
}
vTaskDelay(5); // <- remove when blocking calls are implemented
}
}
/**
* Transmit data buffer to the modem or USB port.
* \param[in] data Data buffer to send
* \param[in] length Length of buffer
* \return 0 Success
*/
static int32_t transmitData(uint8_t* data, int32_t length)
{
uint8_t outputPort;
// Determine input port (USB takes priority over telemetry port)
#if defined(PIOS_INCLUDE_USB_HID)
if(PIOS_USB_HID_CheckAvailable(0))
{
outputPort = PIOS_COM_TELEM_USB;
}
else
#endif /* PIOS_INCLUDE_USB_HID */
{
outputPort = telemetryPort;
}
// TODO: Update once the PIOS_COM is made blocking (it is implemented as a busy loop for now!)
//PIOS_LED_Toggle(LED2);
return PIOS_COM_SendBuffer(outputPort, data, length);
}
/**
* Setup object for periodic updates.
* \param[in] obj The object to update
* \return 0 Success
* \return -1 Failure
*/
static int32_t addObject(UAVObjHandle obj)
{
UAVObjEvent ev;
// Add object for periodic updates
ev.obj = obj;
ev.instId = UAVOBJ_ALL_INSTANCES;
ev.event = EV_UPDATED_MANUAL;
return EventPeriodicQueueCreate(&ev, queue, 0);
}
/**
* Set update period of object (it must be already setup for periodic updates)
* \param[in] obj The object to update
* \param[in] updatePeriodMs The update period in ms, if zero then periodic updates are disabled
* \return 0 Success
* \return -1 Failure
*/
static int32_t setUpdatePeriod(UAVObjHandle obj, int32_t updatePeriodMs)
{
UAVObjEvent ev;
// Add object for periodic updates
ev.obj = obj;
ev.instId = UAVOBJ_ALL_INSTANCES;
ev.event = EV_UPDATED_MANUAL;
return EventPeriodicQueueUpdate(&ev, queue, updatePeriodMs);
}
/**
* Called each time the GCS telemetry stats object is updated.
* Trigger a flight telemetry stats update if a connection is not
* yet established.
*/
static void gcsTelemetryStatsUpdated()
{
FlightTelemetryStatsData flightStats;
GCSTelemetryStatsData gcsStats;
FlightTelemetryStatsGet(&flightStats);
GCSTelemetryStatsGet(&gcsStats);
if ( flightStats.Status != FLIGHTTELEMETRYSTATS_STATUS_CONNECTED ||
gcsStats.Status != GCSTELEMETRYSTATS_STATUS_CONNECTED )
{
updateTelemetryStats();
}
}
/**
* Update telemetry statistics and handle connection handshake
*/
static void updateTelemetryStats()
{
UAVTalkStats utalkStats;
FlightTelemetryStatsData flightStats;
GCSTelemetryStatsData gcsStats;
uint8_t forceUpdate;
uint8_t connectionTimeout;
uint32_t timeNow;
// Get stats
UAVTalkGetStats(&utalkStats);
UAVTalkResetStats();
// Get object data
FlightTelemetryStatsGet(&flightStats);
GCSTelemetryStatsGet(&gcsStats);
// Update stats object
if ( flightStats.Status == FLIGHTTELEMETRYSTATS_STATUS_CONNECTED )
{
flightStats.RxDataRate = (float)utalkStats.rxBytes / ((float)STATS_UPDATE_PERIOD_MS/1000.0);
flightStats.TxDataRate = (float)utalkStats.txBytes / ((float)STATS_UPDATE_PERIOD_MS/1000.0);
flightStats.RxFailures += utalkStats.rxErrors;
flightStats.TxFailures += txErrors;
flightStats.TxRetries += txRetries;
txErrors = 0;
txRetries = 0;
}
else
{
flightStats.RxDataRate = 0;
flightStats.TxDataRate = 0;
flightStats.RxFailures = 0;
flightStats.TxFailures = 0;
flightStats.TxRetries = 0;
txErrors = 0;
txRetries = 0;
}
// Check for connection timeout
timeNow = xTaskGetTickCount()*portTICK_RATE_MS;
if ( utalkStats.rxObjects > 0 )
{
timeOfLastObjectUpdate = timeNow;
}
if ( (timeNow - timeOfLastObjectUpdate) > CONNECTION_TIMEOUT_MS )
{
connectionTimeout = 1;
}
else
{
connectionTimeout = 0;
}
// Update connection state
forceUpdate = 1;
if ( flightStats.Status == FLIGHTTELEMETRYSTATS_STATUS_DISCONNECTED )
{
// Wait for connection request
if ( gcsStats.Status == GCSTELEMETRYSTATS_STATUS_HANDSHAKEREQ )
{
flightStats.Status = FLIGHTTELEMETRYSTATS_STATUS_HANDSHAKEACK;
}
}
else if ( flightStats.Status == FLIGHTTELEMETRYSTATS_STATUS_HANDSHAKEACK )
{
// Wait for connection
if ( gcsStats.Status == GCSTELEMETRYSTATS_STATUS_CONNECTED )
{
flightStats.Status = FLIGHTTELEMETRYSTATS_STATUS_CONNECTED;
}
else if ( gcsStats.Status == GCSTELEMETRYSTATS_STATUS_DISCONNECTED )
{
flightStats.Status = FLIGHTTELEMETRYSTATS_STATUS_DISCONNECTED;
}
}
else if ( flightStats.Status == FLIGHTTELEMETRYSTATS_STATUS_CONNECTED )
{
if ( gcsStats.Status != GCSTELEMETRYSTATS_STATUS_CONNECTED || connectionTimeout )
{
flightStats.Status = FLIGHTTELEMETRYSTATS_STATUS_DISCONNECTED;
}
else
{
forceUpdate = 0;
}
}
else
{
flightStats.Status = FLIGHTTELEMETRYSTATS_STATUS_DISCONNECTED;
}
// Update the telemetry alarm
if ( flightStats.Status == FLIGHTTELEMETRYSTATS_STATUS_CONNECTED )
{
AlarmsClear(SYSTEMALARMS_ALARM_TELEMETRY);
}
else
{
AlarmsSet(SYSTEMALARMS_ALARM_TELEMETRY, SYSTEMALARMS_ALARM_ERROR);
}
// Update object
FlightTelemetryStatsSet(&flightStats);
// Force telemetry update if not connected
if ( forceUpdate )
{
FlightTelemetryStatsUpdated();
}
}
/**
* Update the telemetry settings, called on startup and
* each time the settings object is updated
*/
static void updateSettings()
{
// Set port
telemetryPort = PIOS_COM_TELEM_RF;
// Retrieve settings
TelemetrySettingsGet(&settings);
// Set port speed
if (settings.Speed == TELEMETRYSETTINGS_SPEED_9600) PIOS_COM_ChangeBaud(telemetryPort, 9600);
else
if (settings.Speed == TELEMETRYSETTINGS_SPEED_38400) PIOS_COM_ChangeBaud(telemetryPort, 38400);
else
if (settings.Speed == TELEMETRYSETTINGS_SPEED_57600) PIOS_COM_ChangeBaud(telemetryPort, 57600);
else
if (settings.Speed == TELEMETRYSETTINGS_SPEED_115200) PIOS_COM_ChangeBaud(telemetryPort, 115200);
}
/**
* @}
* @}
*/