Fix error in AVRISP programmer when repeatedly using PDI mode via the hardware USART due to the SendByte routine not clearing the Transmit Complete USART flag.

pull/1469/head
Dean Camera 15 years ago
parent bb38793312
commit a7880ac1cd

@ -94,14 +94,15 @@ bool NVMTarget_WaitWhileNVMControllerBusy(void)
/** Retrieves the CRC value of the given memory space.
*
* \param[in] CRCCommand NVM CRC command to issue to the target
* \param[out] CRCDest CRC Destination when read from the target
*
* \return 24-bit CRC value for the given address space
* \return Boolean true if the command sequence complete sucessfully
*/
uint32_t NVMTarget_GetMemoryCRC(uint8_t CRCCommand)
bool NVMTarget_GetMemoryCRC(uint8_t CRCCommand, uint32_t* CRCDest)
{
uint32_t MemoryCRC;
NVMTarget_WaitWhileNVMControllerBusy();
/* Wait until the NVM controller is no longer busy */
if (!(NVMTarget_WaitWhileNVMControllerBusy()))
return false;
/* Set the NVM command to the correct CRC read command */
PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
@ -113,26 +114,28 @@ uint32_t NVMTarget_GetMemoryCRC(uint8_t CRCCommand)
NVMTarget_SendNVMRegAddress(NVM_REG_CTRLA);
PDITarget_SendByte(1 << 0);
/* Wait until the NVM bus and controller is no longer busy */
PDITarget_WaitWhileNVMBusBusy();
NVMTarget_WaitWhileNVMControllerBusy();
/* Wait until the NVM controller is no longer busy */
if (!(NVMTarget_WaitWhileNVMControllerBusy()))
return false;
*CRCDest = 0;
/* Read the first generated CRC byte value */
PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
NVMTarget_SendNVMRegAddress(NVM_REG_DAT0);
MemoryCRC = PDITarget_ReceiveByte();
*CRCDest = PDITarget_ReceiveByte();
/* Read the second generated CRC byte value */
PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
NVMTarget_SendNVMRegAddress(NVM_REG_DAT1);
MemoryCRC |= ((uint16_t)PDITarget_ReceiveByte() << 8);
*CRCDest |= ((uint16_t)PDITarget_ReceiveByte() << 8);
/* Read the third generated CRC byte value */
PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
NVMTarget_SendNVMRegAddress(NVM_REG_DAT2);
MemoryCRC |= ((uint32_t)PDITarget_ReceiveByte() << 16);
*CRCDest |= ((uint32_t)PDITarget_ReceiveByte() << 16);
return MemoryCRC;
return true;
}
/** Reads memory from the target's memory spaces.
@ -140,10 +143,14 @@ uint32_t NVMTarget_GetMemoryCRC(uint8_t CRCCommand)
* \param[in] ReadAddress Start address to read from within the target's address space
* \param[out] ReadBuffer Buffer to store read data into
* \param[in] ReadSize Number of bytes to read
*
* \return Boolean true if the command sequence complete sucessfully
*/
void NVMTarget_ReadMemory(uint32_t ReadAddress, uint8_t* ReadBuffer, uint16_t ReadSize)
bool NVMTarget_ReadMemory(uint32_t ReadAddress, uint8_t* ReadBuffer, uint16_t ReadSize)
{
NVMTarget_WaitWhileNVMControllerBusy();
/* Wait until the NVM controller is no longer busy */
if (!(NVMTarget_WaitWhileNVMControllerBusy()))
return false;
/* Send the READNVM command to the NVM controller for reading of an aribtrary location */
PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
@ -154,14 +161,11 @@ void NVMTarget_ReadMemory(uint32_t ReadAddress, uint8_t* ReadBuffer, uint16_t Re
* counters so that we can use the REPEAT command later to save on overhead for multiple bytes */
PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
NVMTarget_SendAddress(ReadAddress);
*(ReadBuffer++) = PDITarget_ReceiveByte();
*ReadBuffer = PDITarget_ReceiveByte();
/* Check to see if we are reading more than a single byte */
if (ReadSize > 1)
{
/* Decrement the ReadSize counter as we have already read once byte of memory */
ReadSize--;
/* Send the REPEAT command with the specified number of bytes remaining to read */
PDITarget_SendByte(PDI_CMD_REPEAT | PDI_DATSIZE_2BYTES);
PDITarget_SendByte(ReadSize & 0xFF);
@ -169,20 +173,27 @@ void NVMTarget_ReadMemory(uint32_t ReadAddress, uint8_t* ReadBuffer, uint16_t Re
/* Send a LD command with indirect access and postincrement to read out the remaining bytes */
PDITarget_SendByte(PDI_CMD_LD | (PDI_POINTER_INDIRECT_PI << 2) | PDI_DATSIZE_1BYTE);
for (uint16_t i = 1; i < ReadSize; i++)
for (uint16_t i = 0; i < ReadSize; i++)
*(ReadBuffer++) = PDITarget_ReceiveByte();
}
return true;
}
/** Erases a specific memory space of the target.
*
* \param[in] EraseCommand NVM erase command to send to the device
* \param[in] Address Address inside the memory space to erase
*
* \return Boolean true if the command sequence complete sucessfully
*/
void NVMTarget_EraseMemory(uint8_t EraseCommand, uint32_t Address)
bool NVMTarget_EraseMemory(uint8_t EraseCommand, uint32_t Address)
{
NVMTarget_WaitWhileNVMControllerBusy();
/* Wait until the NVM controller is no longer busy */
if (!(NVMTarget_WaitWhileNVMControllerBusy()))
return false;
/* Send the memory erase command to the target */
PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
NVMTarget_SendNVMRegAddress(NVM_REG_CMD);
PDITarget_SendByte(EraseCommand);
@ -203,9 +214,11 @@ void NVMTarget_EraseMemory(uint8_t EraseCommand, uint32_t Address)
PDITarget_SendByte(0x00);
}
/* Wait until both the NVM bus and NVM controller are ready again */
PDITarget_WaitWhileNVMBusBusy();
NVMTarget_WaitWhileNVMControllerBusy();
/* Wait until the NVM bus is ready again */
if (!(PDITarget_WaitWhileNVMBusBusy()))
return false;
return true;
}
#endif

@ -109,8 +109,8 @@
void NVMTarget_SendNVMRegAddress(uint8_t Register);
void NVMTarget_SendAddress(uint32_t AbsoluteAddress);
bool NVMTarget_WaitWhileNVMControllerBusy(void);
uint32_t NVMTarget_GetMemoryCRC(uint8_t CRCCommand);
void NVMTarget_ReadMemory(uint32_t ReadAddress, uint8_t* ReadBuffer, uint16_t ReadSize);
void NVMTarget_EraseMemory(uint8_t EraseCommand, uint32_t Address);
bool NVMTarget_GetMemoryCRC(uint8_t CRCCommand, uint32_t* CRCDest);
bool NVMTarget_ReadMemory(uint32_t ReadAddress, uint8_t* ReadBuffer, uint16_t ReadSize);
bool NVMTarget_EraseMemory(uint8_t EraseCommand, uint32_t Address);
#endif

@ -181,7 +181,8 @@ static void PDIProtocol_Erase(void)
else if (Erase_XPROG_Params.MemoryType == XPRG_ERASE_USERSIG)
EraseCommand = NVM_CMD_ERASEUSERSIG;
NVMTarget_EraseMemory(EraseCommand, Erase_XPROG_Params.Address);
if (!(NVMTarget_EraseMemory(EraseCommand, Erase_XPROG_Params.Address)))
ReturnStatus = XPRG_ERR_TIMEOUT;
Endpoint_Write_Byte(CMD_XPROG);
Endpoint_Write_Byte(XPRG_CMD_ERASE);
@ -241,7 +242,9 @@ static void PDIProtocol_ReadMemory(void)
Endpoint_SetEndpointDirection(ENDPOINT_DIR_IN);
uint8_t ReadBuffer[ReadMemory_XPROG_Params.Length];
NVMTarget_ReadMemory(ReadMemory_XPROG_Params.Address, ReadBuffer, ReadMemory_XPROG_Params.Length);
if (!(NVMTarget_ReadMemory(ReadMemory_XPROG_Params.Address, ReadBuffer, ReadMemory_XPROG_Params.Length)))
ReturnStatus = XPRG_ERR_TIMEOUT;
Endpoint_Write_Byte(CMD_XPROG);
Endpoint_Write_Byte(XPRG_CMD_READ_MEM);
@ -279,7 +282,8 @@ static void PDIProtocol_ReadCRC(void)
else
CRCCommand = NVM_CMD_FLASHCRC;
MemoryCRC = NVMTarget_GetMemoryCRC(CRCCommand);
if (!(NVMTarget_GetMemoryCRC(CRCCommand, &MemoryCRC)))
ReturnStatus = XPRG_ERR_TIMEOUT;
Endpoint_Write_Byte(CMD_XPROG);
Endpoint_Write_Byte(XPRG_CMD_CRC);

@ -102,7 +102,7 @@ void PDITarget_EnableTargetPDI(void)
/* Set up the synchronous USART for XMEGA communications -
8 data bits, even parity, 2 stop bits */
UBRR1 = 10;
UBRR1 = (F_CPU / 1000000UL);
UCSR1B = (1 << TXEN1);
UCSR1C = (1 << UMSEL10) | (1 << UPM11) | (1 << USBS1) | (1 << UCSZ11) | (1 << UCSZ10) | (1 << UCPOL1);
@ -167,14 +167,15 @@ void PDITarget_SendByte(uint8_t Byte)
PORTD |= (1 << 3);
DDRD |= (1 << 3);
UCSR1B &= ~(1 << RXEN1);
UCSR1B |= (1 << TXEN1);
UCSR1B &= ~(1 << RXEN1);
IsSending = true;
}
/* Wait until there is space in the hardware Tx buffer before writing */
while (!(UCSR1A & (1 << UDRE1)));
UCSR1A |= (1 << TXC1);
UDR1 = Byte;
#else
/* Switch to Tx mode if currently in Rx mode */

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