command error_t Reset.init()
{
- while (call Queue.size()){
+ while (call Queue.size()) {
ieee154_txframe_t *txFrame = call Queue.dequeue();
signal FrameTx.transmitDone[txFrame->client](txFrame, IEEE154_TRANSACTION_OVERFLOW);
}
task void txTask()
{
- if (!m_busy && call Queue.size()){
+ if (!m_busy && call Queue.size()) {
ieee154_txframe_t *txFrame = call Queue.head();
- if (txFrame->headerLen == 0){
+ if (txFrame->headerLen == 0) {
// was purged
call Queue.dequeue();
signal Purge.purgeDone(txFrame, IEEE154_SUCCESS);
post txTask();
}
m_client = txFrame->client;
- if (call FrameTxCsma.transmit(txFrame) == IEEE154_SUCCESS){
+ if (call FrameTxCsma.transmit(txFrame) == IEEE154_SUCCESS) {
m_busy = TRUE;
}
}
return signal FrameExtracted.received[m_client](frame);
}
- default event void FrameTx.transmitDone[uint8_t client](ieee154_txframe_t *txFrame, ieee154_status_t status){}
+ default event void FrameTx.transmitDone[uint8_t client](ieee154_txframe_t *txFrame, ieee154_status_t status) {}
command ieee154_status_t Purge.purge(uint8_t msduHandle)
{
uint8_t qSize = call Queue.size(), i;
- if (qSize > 1){
- for (i=0; i<qSize-1; i++){
+ if (qSize > 1) {
+ for (i=0; i<qSize-1; i++) {
ieee154_txframe_t *txFrame = call Queue.element(i);
if (((txFrame->header->mhr[MHR_INDEX_FC1] & FC1_FRAMETYPE_MASK) == FC1_FRAMETYPE_DATA) &&
- txFrame->handle == msduHandle){
+ txFrame->handle == msduHandle) {
txFrame->headerLen = 0; // mark as invalid
return IEEE154_SUCCESS;
}
return IEEE154_INVALID_HANDLE;
}
- default event void Purge.purgeDone(ieee154_txframe_t *txFrame, ieee154_status_t status){}
+ default event void Purge.purgeDone(ieee154_txframe_t *txFrame, ieee154_status_t status) {}
}