Rename isFirstIteration to isFirstCycle and kStatus_Uhk_NoTransfer to kStatus_Uhk_IdleCycle.

This commit is contained in:
László Monda
2018-01-06 17:05:37 +01:00
parent e75d366245
commit ae1240c103
4 changed files with 18 additions and 18 deletions

View File

@@ -39,7 +39,7 @@ status_t KbootSlaveDriver_Update(uint8_t kbootInstanceId)
case 1: case 1:
KbootDriverState.status = Slaves[SlaveId_KbootDriver].previousStatus; KbootDriverState.status = Slaves[SlaveId_KbootDriver].previousStatus;
KbootDriverState.phase = KbootDriverState.status == kStatus_Success ? 2 : 0; KbootDriverState.phase = KbootDriverState.status == kStatus_Success ? 2 : 0;
return kStatus_Uhk_NoTransfer; return kStatus_Uhk_IdleCycle;
case 2: case 2:
status = rx(10); status = rx(10);
KbootDriverState.phase++; KbootDriverState.phase++;
@@ -50,7 +50,7 @@ status_t KbootSlaveDriver_Update(uint8_t kbootInstanceId)
KbootDriverState.commandType = KbootCommand_Idle; KbootDriverState.commandType = KbootCommand_Idle;
} else { } else {
KbootDriverState.phase = 0; KbootDriverState.phase = 0;
return kStatus_Uhk_NoTransfer; return kStatus_Uhk_IdleCycle;
} }
} }
break; break;

View File

@@ -91,7 +91,7 @@ status_t UhkModuleSlaveDriver_Update(uint8_t uhkModuleDriverId)
case UhkModulePhase_ProcessSync: { case UhkModulePhase_ProcessSync: {
bool isMessageValid = CRC16_IsMessageValid(rxMessage); bool isMessageValid = CRC16_IsMessageValid(rxMessage);
bool isSyncValid = memcmp(rxMessage->data, SlaveSyncString, SLAVE_SYNC_STRING_LENGTH) == 0; bool isSyncValid = memcmp(rxMessage->data, SlaveSyncString, SLAVE_SYNC_STRING_LENGTH) == 0;
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
*uhkModulePhase = isSyncValid && isMessageValid *uhkModulePhase = isSyncValid && isMessageValid
? UhkModulePhase_RequestModuleProtocolVersion ? UhkModulePhase_RequestModuleProtocolVersion
: UhkModulePhase_RequestSync; : UhkModulePhase_RequestSync;
@@ -115,7 +115,7 @@ status_t UhkModuleSlaveDriver_Update(uint8_t uhkModuleDriverId)
if (isMessageValid) { if (isMessageValid) {
memcpy(&uhkModuleState->moduleProtocolVersion, rxMessage->data, sizeof(version_t)); memcpy(&uhkModuleState->moduleProtocolVersion, rxMessage->data, sizeof(version_t));
} }
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
*uhkModulePhase = isMessageValid ? UhkModulePhase_RequestFirmwareVersion : UhkModulePhase_RequestModuleProtocolVersion; *uhkModulePhase = isMessageValid ? UhkModulePhase_RequestFirmwareVersion : UhkModulePhase_RequestModuleProtocolVersion;
break; break;
} }
@@ -137,7 +137,7 @@ status_t UhkModuleSlaveDriver_Update(uint8_t uhkModuleDriverId)
if (isMessageValid) { if (isMessageValid) {
memcpy(&uhkModuleState->firmwareVersion, rxMessage->data, sizeof(version_t)); memcpy(&uhkModuleState->firmwareVersion, rxMessage->data, sizeof(version_t));
} }
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
*uhkModulePhase = isMessageValid ? UhkModulePhase_RequestModuleId : UhkModulePhase_RequestFirmwareVersion; *uhkModulePhase = isMessageValid ? UhkModulePhase_RequestModuleId : UhkModulePhase_RequestFirmwareVersion;
break; break;
} }
@@ -159,7 +159,7 @@ status_t UhkModuleSlaveDriver_Update(uint8_t uhkModuleDriverId)
if (isMessageValid) { if (isMessageValid) {
uhkModuleState->moduleId = rxMessage->data[0]; uhkModuleState->moduleId = rxMessage->data[0];
} }
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
*uhkModulePhase = isMessageValid ? UhkModulePhase_RequestModuleKeyCount : UhkModulePhase_RequestModuleId; *uhkModulePhase = isMessageValid ? UhkModulePhase_RequestModuleKeyCount : UhkModulePhase_RequestModuleId;
break; break;
} }
@@ -181,7 +181,7 @@ status_t UhkModuleSlaveDriver_Update(uint8_t uhkModuleDriverId)
if (isMessageValid) { if (isMessageValid) {
uhkModuleState->keyCount = rxMessage->data[0]; uhkModuleState->keyCount = rxMessage->data[0];
} }
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
*uhkModulePhase = isMessageValid ? UhkModulePhase_RequestModulePointerCount : UhkModulePhase_RequestModuleKeyCount; *uhkModulePhase = isMessageValid ? UhkModulePhase_RequestModulePointerCount : UhkModulePhase_RequestModuleKeyCount;
break; break;
} }
@@ -203,7 +203,7 @@ status_t UhkModuleSlaveDriver_Update(uint8_t uhkModuleDriverId)
if (isMessageValid) { if (isMessageValid) {
uhkModuleState->pointerCount = rxMessage->data[0]; uhkModuleState->pointerCount = rxMessage->data[0];
} }
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
*uhkModulePhase = isMessageValid ? UhkModulePhase_RequestKeyStates : UhkModulePhase_RequestModulePointerCount; *uhkModulePhase = isMessageValid ? UhkModulePhase_RequestKeyStates : UhkModulePhase_RequestModulePointerCount;
break; break;
} }
@@ -227,14 +227,14 @@ status_t UhkModuleSlaveDriver_Update(uint8_t uhkModuleDriverId)
KeyStates[slotId][keyId].current = keyStatesBuffer[keyId]; KeyStates[slotId][keyId].current = keyStatesBuffer[keyId];
} }
} }
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
*uhkModulePhase = UhkModulePhase_SetTestLed; *uhkModulePhase = UhkModulePhase_SetTestLed;
break; break;
// Set test LED // Set test LED
case UhkModulePhase_SetTestLed: case UhkModulePhase_SetTestLed:
if (uhkModuleSourceVars->isTestLedOn == uhkModuleTargetVars->isTestLedOn) { if (uhkModuleSourceVars->isTestLedOn == uhkModuleTargetVars->isTestLedOn) {
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
} else { } else {
txMessage.data[0] = SlaveCommand_SetTestLed; txMessage.data[0] = SlaveCommand_SetTestLed;
txMessage.data[1] = uhkModuleSourceVars->isTestLedOn; txMessage.data[1] = uhkModuleSourceVars->isTestLedOn;
@@ -248,7 +248,7 @@ status_t UhkModuleSlaveDriver_Update(uint8_t uhkModuleDriverId)
// Set PWM brightness // Set PWM brightness
case UhkModulePhase_SetLedPwmBrightness: case UhkModulePhase_SetLedPwmBrightness:
if (uhkModuleSourceVars->ledPwmBrightness == uhkModuleTargetVars->ledPwmBrightness) { if (uhkModuleSourceVars->ledPwmBrightness == uhkModuleTargetVars->ledPwmBrightness) {
status = kStatus_Uhk_NoTransfer; status = kStatus_Uhk_IdleCycle;
} else { } else {
txMessage.data[0] = SlaveCommand_SetLedPwmBrightness; txMessage.data[0] = SlaveCommand_SetLedPwmBrightness;
txMessage.data[1] = uhkModuleSourceVars->ledPwmBrightness; txMessage.data[1] = uhkModuleSourceVars->ledPwmBrightness;

View File

@@ -52,7 +52,7 @@ uhk_slave_t Slaves[] = {
static void slaveSchedulerCallback(I2C_Type *base, i2c_master_handle_t *handle, status_t previousStatus, void *userData) static void slaveSchedulerCallback(I2C_Type *base, i2c_master_handle_t *handle, status_t previousStatus, void *userData)
{ {
bool isFirstIteration = true; bool isFirstCycle = true;
bool isTransferScheduled = false; bool isTransferScheduled = false;
I2cSlaveScheduler_Counter++; I2cSlaveScheduler_Counter++;
@@ -60,7 +60,7 @@ static void slaveSchedulerCallback(I2C_Type *base, i2c_master_handle_t *handle,
uhk_slave_t *previousSlave = Slaves + previousSlaveId; uhk_slave_t *previousSlave = Slaves + previousSlaveId;
uhk_slave_t *currentSlave = Slaves + currentSlaveId; uhk_slave_t *currentSlave = Slaves + currentSlaveId;
if (isFirstIteration) { if (isFirstCycle) {
previousSlave->previousStatus = previousStatus; previousSlave->previousStatus = previousStatus;
if (IS_STATUS_I2C_ERROR(previousStatus)) { if (IS_STATUS_I2C_ERROR(previousStatus)) {
LogI2cError(previousSlaveId, previousStatus); LogI2cError(previousSlaveId, previousStatus);
@@ -72,7 +72,7 @@ static void slaveSchedulerCallback(I2C_Type *base, i2c_master_handle_t *handle,
previousSlave->disconnect(previousSlaveId); previousSlave->disconnect(previousSlaveId);
} }
isFirstIteration = false; isFirstCycle = false;
} }
if (!currentSlave->isConnected) { if (!currentSlave->isConnected) {
@@ -83,12 +83,12 @@ static void slaveSchedulerCallback(I2C_Type *base, i2c_master_handle_t *handle,
if (IS_STATUS_I2C_ERROR(currentStatus)) { if (IS_STATUS_I2C_ERROR(currentStatus)) {
LogI2cError(currentSlaveId, currentStatus); LogI2cError(currentSlaveId, currentStatus);
} }
isTransferScheduled = currentStatus != kStatus_Uhk_IdleSlave && currentStatus != kStatus_Uhk_NoTransfer; isTransferScheduled = currentStatus != kStatus_Uhk_IdleSlave && currentStatus != kStatus_Uhk_IdleCycle;
if (isTransferScheduled) { if (isTransferScheduled) {
currentSlave->isConnected = true; currentSlave->isConnected = true;
} }
if (currentStatus != kStatus_Uhk_NoTransfer) { if (currentStatus != kStatus_Uhk_IdleCycle) {
previousSlaveId = currentSlaveId++; previousSlaveId = currentSlaveId++;
if (currentSlaveId >= SLAVE_COUNT) { if (currentSlaveId >= SLAVE_COUNT) {
currentSlaveId = 0; currentSlaveId = 0;

View File

@@ -44,8 +44,8 @@
} uhk_status_group_t; } uhk_status_group_t;
typedef enum { typedef enum {
kStatus_Uhk_IdleSlave = MAKE_STATUS(kStatusGroup_Uhk, 0), // Another slave should be scheduled kStatus_Uhk_IdleSlave = MAKE_STATUS(kStatusGroup_Uhk, 0), // Another slave should be scheduled
kStatus_Uhk_NoTransfer = MAKE_STATUS(kStatusGroup_Uhk, 1), // The same slave should be rescheduled kStatus_Uhk_IdleCycle = MAKE_STATUS(kStatusGroup_Uhk, 1), // The same slave should be rescheduled
} uhk_status_t; } uhk_status_t;
// Variables: // Variables: