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/*
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LUFA Library
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Copyright (C) Dean Camera, 2009.
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dean [at] fourwalledcubicle [dot] com
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www.fourwalledcubicle.com
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*/
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/*
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Copyright 2009 Dean Camera (dean [at] fourwalledcubicle [dot] com)
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Permission to use, copy, modify, and distribute this software
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and its documentation for any purpose and without fee is hereby
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granted, provided that the above copyright notice appear in all
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copies and that both that the copyright notice and this
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permission notice and warranty disclaimer appear in supporting
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documentation, and that the name of the author not be used in
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advertising or publicity pertaining to distribution of the
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software without specific, written prior permission.
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The author disclaim all warranties with regard to this
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software, including all implied warranties of merchantability
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and fitness. In no event shall the author be liable for any
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special, indirect or consequential damages or any damages
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whatsoever resulting from loss of use, data or profits, whether
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in an action of contract, negligence or other tortious action,
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arising out of or in connection with the use or performance of
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this software.
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*/
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/** \file
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*
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* Target-related functions for the target's NVM module.
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*/
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#define INCLUDE_FROM_NVMTARGET_C
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#include "NVMTarget.h"
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#if defined(ENABLE_PDI_PROTOCOL) || defined(__DOXYGEN__)
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void NVMTarget_SendNVMRegAddress(uint8_t Register)
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{
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/* Determine the absolute register address from the NVM base memory address and the NVM register address */
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uint32_t Address = XPROG_Param_NVMBase | Register;
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/* Send the calculated 32-bit address to the target, LSB first */
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PDITarget_SendByte(Address & 0xFF);
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PDITarget_SendByte(Address >> 8);
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PDITarget_SendByte(Address >> 16);
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PDITarget_SendByte(Address >> 24);
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}
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void NVMTarget_SendAddress(uint32_t AbsoluteAddress)
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{
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/* Send the given 32-bit address to the target, LSB first */
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PDITarget_SendByte(AbsoluteAddress & 0xFF);
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PDITarget_SendByte(AbsoluteAddress >> 8);
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PDITarget_SendByte(AbsoluteAddress >> 16);
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PDITarget_SendByte(AbsoluteAddress >> 24);
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}
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bool NVMTarget_WaitWhileNVMControllerBusy(void)
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{
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TCNT0 = 0;
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/* Poll the NVM STATUS register while the NVM controller is busy */
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while (TCNT0 < NVM_BUSY_TIMEOUT_MS)
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{
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/* Send a LDS command to read the NVM STATUS register to check the BUSY flag */
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PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_STATUS);
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/* Check to see if the BUSY flag is still set */
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if (!(PDITarget_ReceiveByte() & (1 << 7)))
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return true;
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}
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return false;
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}
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uint32_t NVMTarget_GetMemoryCRC(uint8_t MemoryCommand)
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{
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uint32_t MemoryCRC;
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NVMTarget_WaitWhileNVMControllerBusy();
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/* Set the NVM command to the correct CRC read command */
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PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_CMD);
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PDITarget_SendByte(MemoryCommand);
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/* Set CMDEX bit in NVM CTRLA register to start the CRC generation */
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PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_CTRLA);
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PDITarget_SendByte(1 << 0);
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/* Wait until the NVM bus and controller is no longer busy */
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PDITarget_WaitWhileNVMBusBusy();
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NVMTarget_WaitWhileNVMControllerBusy();
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/* Read the first generated CRC byte value */
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PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_DAT0);
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MemoryCRC = PDITarget_ReceiveByte();
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/* Read the second generated CRC byte value */
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PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_DAT1);
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MemoryCRC |= ((uint16_t)PDITarget_ReceiveByte() << 8);
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/* Read the third generated CRC byte value */
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PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_DAT2);
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MemoryCRC |= ((uint32_t)PDITarget_ReceiveByte() << 16);
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return MemoryCRC;
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}
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void NVMTarget_ReadMemory(uint32_t ReadAddress, uint8_t* ReadBuffer, uint16_t ReadSize)
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{
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NVMTarget_WaitWhileNVMControllerBusy();
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/* Send the READNVM command to the NVM controller for reading of an aribtrary location */
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PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_CMD);
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PDITarget_SendByte(NVM_CMD_READNVM);
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/* Send the address of the first location to read from - this also primes the internal address
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* counters so that we can use the REPEAT command later to save on overhead for multiple bytes */
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PDITarget_SendByte(PDI_CMD_LDS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendAddress(ReadAddress);
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*(ReadBuffer++) = PDITarget_ReceiveByte();
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/* Check to see if we are reading more than a single byte */
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if (ReadSize > 1)
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{
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/* Decrement the ReadSize counter as we have already read once byte of memory */
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ReadSize--;
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/* Send the REPEAT command with the specified number of bytes remaining to read */
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PDITarget_SendByte(PDI_CMD_REPEAT | PDI_DATSIZE_2BYTES);
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PDITarget_SendByte(ReadSize & 0xFF);
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PDITarget_SendByte(ReadSize >> 8);
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/* Send a LD command with indirect access and postincrement to read out the remaining bytes */
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PDITarget_SendByte(PDI_CMD_LD | (PDI_POINTER_INDIRECT_PI << 2) | PDI_DATSIZE_1BYTE);
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for (uint16_t i = 1; i < ReadSize; i++)
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*(ReadBuffer++) = PDITarget_ReceiveByte();
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}
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}
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void NVMTarget_EraseMemory(uint8_t EraseCommand, uint32_t Address)
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{
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NVMTarget_WaitWhileNVMControllerBusy();
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PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_CMD);
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PDITarget_SendByte(EraseCommand);
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/* Chip erase is handled seperately, since it's procedure is different to other erase types */
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if (EraseCommand == NVM_CMD_CHIPERASE)
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{
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/* Set CMDEX bit in NVM CTRLA register to start the chip erase */
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PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendNVMRegAddress(NVM_REG_CTRLA);
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PDITarget_SendByte(1 << 0);
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}
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else
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{
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/* Other erase modes just need us to address a byte within the target memory space */
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PDITarget_SendByte(PDI_CMD_STS | (PDI_DATSIZE_4BYTES << 2));
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NVMTarget_SendAddress(Address);
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PDITarget_SendByte(0x00);
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}
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/* Wait until both the NVM bus and NVM controller are ready again */
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PDITarget_WaitWhileNVMBusBusy();
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NVMTarget_WaitWhileNVMControllerBusy();
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}
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#endif
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