diff options
author | Waldemar Brodkorb <wbx@openadk.org> | 2016-12-11 07:29:13 +0100 |
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committer | Waldemar Brodkorb <wbx@openadk.org> | 2016-12-13 05:47:44 +0100 |
commit | 4dbb0ebcf5381dc63ccbd51bd2eb6b0c618d5cbf (patch) | |
tree | a42b6d2511f0935b98ae71246383221266bf49cc /target | |
parent | 3aa598104ca4c6f8de67b228ced3e680fbcab677 (diff) |
numato-mimasv2: add latest bitstream and python tools for programming the FPGA
Diffstat (limited to 'target')
-rw-r--r-- | target/sh/numato-mimasv2/MimasV2Config.py | 531 | ||||
-rw-r--r-- | target/sh/numato-mimasv2/mimas_v2.bin | bin | 0 -> 330634 bytes |
2 files changed, 531 insertions, 0 deletions
diff --git a/target/sh/numato-mimasv2/MimasV2Config.py b/target/sh/numato-mimasv2/MimasV2Config.py new file mode 100644 index 000000000..048e9f4a0 --- /dev/null +++ b/target/sh/numato-mimasv2/MimasV2Config.py @@ -0,0 +1,531 @@ +import sys +import serial +import struct +import time + +ERROR_FILE_TOO_LARGE = 0xEFFF0001 +MAX_PORTS = 100 + +CDC_DATA_OUT_EP_SIZE = 70 +CDC_DATA_IN_EP_SIZE = 38 + +IN_BUFFER_FLUSH_DELAY = 0.05 + +IO_DIRECTION_OUT = 0 +IO_DIRECTION_IN = 1 + +MODE_00 = 0x00 # Setting for SPI bus Mode 0,0 +MODE_01 = 0x01 # Setting for SPI bus Mode 0,1 +MODE_10 = 0x02 # Setting for SPI bus Mode 1,0 +MODE_11 = 0x03 # Setting for SPI bus Mode 1,1 + +SPI_FOSC_64 = 0x02 +SMPMID = 0x00 + +CONFIG_OUT_PACKET_SPI_OPEN = 0 +CONFIG_OUT_PACKET_SPI_CLOSE = 1 +CONFIG_OUT_PACKET_SPI_GETSTRING = 2 +CONFIG_OUT_PACKET_SPI_PUTSTRING = 3 +CONFIG_OUT_PACKET_SPI_GETSTRING_ATADDRESS = 4 +CONFIG_OUT_PACKET_SPI_PUTSTRING_ATADDRESS = 5 +CONFIG_OUT_PACKET_SPI_GET_CHAR = 6 +CONFIG_OUT_PACKET_SPI_PUT_CHAR = 7 +CONFIG_OUT_PACKET_SPI_SET_IO_DIR = 8 +CONFIG_OUT_PACKET_SPI_SET_IO_VALUE = 9 +CONFIG_OUT_PACKET_SPI_GET_IO_VALUE = 10 +CONFIG_OUT_PACKET_SPI_GET_ALL_IO_VALUES = 11 + +CONFIG_IN_PACKET_STATUS = 0 +CONFIG_IN_PACKET_BUFFER = 1 + +CONFIG_IO_PIN_SI = 0 +CONFIG_IO_PIN_SO = 1 +CONFIG_IO_PIN_CS = 2 +CONFIG_IO_PIN_CLK = 3 +CONFIG_IO_PIN_PROGB = 4 +CONFIG_IO_PIN_DONE = 5 +CONFIG_IO_PIN_INITB = 6 + +IO_DIRECTION_OUT = 0 +IO_DIRECTION_IN = 1 + +DEV_ID_M45PE10VMN6P = 0x114020 +DEV_ID_ATMEL_AT45DB021D = 0x231F +DEV_ID_ATMEL_AT45DB161D = 0x261F +DEV_ID_MICRON_M25P16 = 0x152020 + +FLASH_ALGORITHM_M45PE10VMN6P = 0x01 +FLASH_ALGORITHM_ATMEL_DATAFLASH = 0x02 +FLASH_ALGORITHM_M25P16 = 0x03 + +#Generic SPI flash commands +SPI_FLASH_READ_ID_9F = 0x9F + +#Atmel Dataflash specific +ATMEL_DATAFLASH_READ = 0x03 +ATMEL_DATAFLASH_READ_STATUS = 0xD7 +ATMEL_DATAFLASH_BUFFER_WRITE = 0x84 +ATMEL_DATAFLASH_PAGE_PROGRAM = 0x83 + +#M45PE10VMN6P Specific +M45PE10VMN6P_WRITE_ENABLE = 0x06 +M45PE10VMN6P_WRITE_DISABLE = 0x04 +M45PE10VMN6P_READ_ID = 0x9F +M45PE10VMN6P_READ_STATUS = 0x05 +M45PE10VMN6P_READ = 0x03 +M45PE10VMN6P_FAST_READ = 0x0B +M45PE10VMN6P_PAGE_WRITE = 0x0A +M45PE10VMN6P_PAGE_PROGRAM = 0x02 +M45PE10VMN6P_PAGE_ERASE = 0xDB +M45PE10VMN6P_SECTOR_ERASE = 0xD8 +M45PE10VMN6P_DEEP_PWR_DOWN = 0xB9 +M45PE10VMN6P_REL_DEEP_PWR_DOWN = 0xB9 + +#M25P16 Specific +M25P16_WRITE_ENABLE = 0x06 +M25P16_WRITE_DISABLE = 0x04 +M25P16_READ_ID = 0x9F +M25P16_READ_STATUS = 0x05 +M25P16_READ = 0x03 +M25P16_FAST_READ = 0x0B +M25P16_PAGE_PROGRAM = 0x02 +M25P16_SECTOR_ERASE = 0xD8 +M25P16_BULK_ERASE = 0xC7 +M25P16_DEEP_PWR_DOWN = 0xB9 +M25P16_REL_DEEP_PWR_DOWN = 0xAB + +#-------------------------- class MimasV2ConfigDownloader ---------------------# +class MimasV2ConfigDownloader: + 'Configuration downloader class' + def __init__(self, Port): + 'Try to open the port and initialize the object' + self.PortObj = serial.Serial(Port, 19200, timeout=1) + if self.PortObj is None : + print("Unable to open port " + Port) + exit(1) + + def SendData(self, Data): + 'The lowest level routine to send raw data to Mimas V2' + 'Returns total number of writes written' + i = 0 + bytesWritten = 0; + #Send data 30 bytes at a time. Mimas V2 can recieve maximum 30 bytes per transaction + while i < len(Data): + bytesWritten += self.PortObj.write(Data[i:i+30]) + i += 30 + return bytesWritten + + def ReadData(self, count): + return self.PortObj.read(count) + + def SendCommand(self, Command): + 'Send a command to Mimas V2' + 'This routine will add padding to make all commands 70 bytes long' + if(len(Command) < 70): + Command += b" " * (70 - len(Command)) + + if self.SendData(Command) == 70: + return 0 + else: + return 1 + + def SpiOpen(self): + 'Set up SPI peripheral inside PIC18 chip on Mimas V2' + #Packet Structure : Sync Byte, PacketType, SpiNum, SyncMode, BusMode, SmpPhase + # ~ , 0x00 , 0x01 , 0x02 , 0x00 , 0x00 + return self.SendCommand(b"\x7e\x00\x01\x02\x00\x00") + + def SpiClose(self): + 'Deinitialize and free resources allocated with SpiOpen command' + #Packet Structure : Sync Byte, PacketType, SpiNum + # ~ , 0x01 , 0x01 + return self.SendCommand(b"\x7e\x01\x01") + + def SpiSetIoDirection(self, Io, Direction): + 'Set direction of IOs that are needed for configuration process' + #Packet Structure : Sync Byte, PacketType, SpiNum, Io, Direction + # ~ , 0x08 , 0x01 , Io, Direction + return self.SendCommand(b"\x7e\x08\x01" + struct.pack('BB', Io, Direction)) + + def SpiSetIoValue(self, Io, Value): + 'Set value of IOs that are needed for configuration process' + #Packet Structure : Sync Byte, PacketType, SpiNum, Io, Value + # ~ , 0x09 , 0x01 , Io, Value + return self.SendCommand(b"\x7e\x09\x01" + struct.pack('BB', Io, Value)) + + def FlushInBuffer(self): + 'Flush input buffer of the port' + #Sometimes flushInput fails to actually flush the contents of the buffer + #unless a slight delay is given + time.sleep(IN_BUFFER_FLUSH_DELAY) + self.PortObj.flushInput() + + def CheckStatus(self, LastCmd = None): + 'Checks the satus of the last command sent. Use this routine only with commands' + 'that returns generic status response.' + #Try to read 100 bytes from the input buffer. The maximum amount of data expected + #is 38 bytes. If we receive more than 38 bytes, that means the input buffer has + #response from more than one commands. This is means input buffer is not flushed + #before sending the last command. Input buffer can flushed by either calling + #FlushInBuffer() routine or by reading large enough data from the input buffer. + #In most cases, simply calling CheckStatus() should clear the input buffer. + response = mimasport.ReadData(100) + print (response) + if len(response) > 38: + return 1 + else: + if (response[0:1] == b'~') and (response[1:2] == struct.pack('B', CONFIG_IN_PACKET_STATUS)) and (response[3:4] == struct.pack('B', 0)): + if LastCmd == None: + return 0 + else: + if response[4:5] == struct.pack('B', LastCmd): + return 0 + else: + return 1 + else: + return 1 + + def ToggleCS(self): + 'Toggles Chip Select' + #Set CS to output + if self.SpiSetIoDirection(CONFIG_IO_PIN_CS, IO_DIRECTION_OUT): + return 1; + + #De-assert CS + if self.SpiSetIoValue(CONFIG_IO_PIN_CS, 1): + return 1 + + #Assert CS + return self.SpiSetIoValue(CONFIG_IO_PIN_CS, 0) + + def SpiPutChar(self, Char): + 'Writes a character to SPI port' + #Packet Structure : Sync Byte, PacketType, SpiNum, Char + # ~ , 0x07 , 0x01 , Char + if self.SendCommand(b"\x7e\x07\x01" + struct.pack('B', Char)): + return 1 + + def SpiPutString(self, Buffer, Length): + 'Writes a string/buffer to SPI port' + #Packet Structure : Sync Byte, PacketType, SpiNum, Char + # ~ , 0x03 , 0x01 , Length, Res0, Res1, data + if self.SendCommand(b"\x7e\x03\x01" + struct.pack('B', Length) + b"\x00\x00" + Buffer[0:Length]): + return 1 + + def GetString(self, Length): + 'Reads a string/buffer from SPI' + #Send CONFIG_OUT_PACKET_SPI_GETSTRING command + #Packet Structure : Sync Byte, PacketType, SpiNum, Length + # ~ , 0x02 , 0x01 , Length + if self.SendCommand(b"\x7e\x02\x01" + struct.pack('B', Length)): + return (1, None) + + #Read the response and extract data + response = self.ReadData(38) + if len(response) != 38: + return (1, None) + + return (0, response[6:6+Length]) + + def FlashReadID9Fh(self): + 'Reads flash ID using command 9Fh' + #Toggle CS to get SPI flash to a known state + if self.ToggleCS(): + return 1 + + #Write command 9Fh + if self.SpiPutChar(SPI_FLASH_READ_ID_9F): + return 1 + + #Flush input buffer + self.FlushInBuffer(); + + #Read three bytes from SPI flash + status, string = self.GetString(3) + + if status: + return None + else: + idTuple = struct.unpack("=I", string + b'\x00') + return idTuple[0] + + def M25P16WriteEnable(self): + 'Enable write for SPI flash M25P16' + #Toggle CS to get SPI flash to a known state + if self.ToggleCS(): + return 1 + + #Send write enable code + if self.SpiPutChar(M25P16_WRITE_ENABLE): + return 1 + + #De-assert CS + if self.SpiSetIoValue(CONFIG_IO_PIN_CS, 1): + return 1 + + return 0 + + def M25P16ReadStatus(self): + 'Reads M25P16 Status register' + #Toggle CS to get SPI flash to a known state + if self.ToggleCS(): + return 1 + + #Write M25P16_READ_STATUS command + if self.SpiPutChar(M25P16_READ_STATUS): + return 1 + + #Flush input buffer + self.FlushInBuffer(); + + #Read one byte from SPI flash + status, string = self.GetString(1) + + if status: + return None + else: + statusTuple = struct.unpack("B", string) + return int(statusTuple[0]) + + def M25P16sectorErase(self, EndAddress): + 'Erases sectors up to the sector that contains EndAddress' + EndAddress |= 0xFFFF; + + i = 0 + + for i in range(0, EndAddress, 0xFFFF): + + #Do write enable + if self.M25P16WriteEnable(): + return 1 + + #Toggle CS to get SPI flash to a known state + if self.ToggleCS(): + return 1 + + #Send Sector Erase command + if self.SpiPutChar(M25P16_SECTOR_ERASE): + return 1 + + #Send address + address = struct.pack("i", i) + + if self.SpiPutChar(address[2]): + return 1 + + if self.SpiPutChar(address[1]): + return 1 + + if self.SpiPutChar(address[0]): + return 1 + + #De-assert CS + if self.SpiSetIoValue(CONFIG_IO_PIN_CS, 1): + return 1 + + #Wait for sector erase to complete + while self.M25P16ReadStatus() & 0x01: + time.sleep(0.01) + + return 0 + + def M25P16PageProgram(self, Buffer, Address, Length): + 'SPI Flash page program' + if Length > 0x100: + return 1 + + #Do write enable + if self.M25P16WriteEnable(): + return 1 + + #Toggle CS to get SPI flash to a known state + if self.ToggleCS(): + return 1 + + #Send page program command + if self.SpiPutChar(M25P16_PAGE_PROGRAM): + return 1 + + #Send address + address = struct.pack("i", Address) + + if self.SpiPutChar(address[2]): + return 1 + + if self.SpiPutChar(address[1]): + return 1 + + if self.SpiPutChar(address[0]): + return 1 + + #Send data 64 bytes at a time + i = 0 + j = 0 + while Length: + j = 64 if Length > 64 else Length + if self.SpiPutString(Buffer[i:i+64], j): + return(1) + i += j + Length -= j; + + #De-assert CS + if self.SpiSetIoValue(CONFIG_IO_PIN_CS, 1): + return 1 + + def M25P16VerifyFlash(self, buffer): + 'Reads the contents of flash and compare with data in buffer' + #Toggle CS to get SPI flash to a known state + if self.ToggleCS(): + return 1 + + #Send page program command + if self.SpiPutChar(M25P16_READ): + return 1 + + #Send address bytes + if self.SpiPutChar(0): + return 1 + + if self.SpiPutChar(0): + return 1 + + if self.SpiPutChar(0): + return 1 + + #Flush input buffer + self.FlushInBuffer(); + + readLength = len(buffer) + + readBuffer = b"" + + while readLength: + j = 32 if readLength > 32 else readLength + status, string = self.GetString(j) + if status: + return 1 + + readBuffer += string + readLength -= j + + if readBuffer == buffer: + return 0 + else: + return 1 + + def ConfigureMimasV2(self, FileName): + 'Configures Mimas V2' + + #Set PROGB to output + if self.SpiSetIoDirection(CONFIG_IO_PIN_PROGB, IO_DIRECTION_OUT): + print ("Unable to set PROGB direction") + exit(1) + + #Pull PROGB Low while Flash is being programmed + if self.SpiSetIoValue(CONFIG_IO_PIN_PROGB, 0): + print ("Unable to assert PROGB") + exit(1) + + #Open SPI port + if self.SpiOpen(): + print ("Unable to openSPI port") + exit(1) + + id = self.FlashReadID9Fh() + + if id == None: + print("Unable to read SPI Flash ID") + exit(1) + + elif id == DEV_ID_MICRON_M25P16: + print("Micron M25P16 SPI Flash detected") + FlashAlgorithm = FLASH_ALGORITHM_M25P16 + + else: + print("Unknown flash part, exiting...") + exit(1) + + #Execute device specific programming algorithm + if FlashAlgorithm == FLASH_ALGORITHM_M25P16: + + #Open the binary file and load the contents to buffer + print("Loading file " + FileName + "...") + file = open(FileName, "rb") + if file == None: + print("Could not open file " + FileName) + + #Find out the size of the file + file.seek(0, 2) + fileSize = file.tell() + fileSizeForProgressInd = fileSize + + #Read file in to buffer + file.seek(0, 0) + dataBuff = file.read(fileSize) + file.close() + + #Erase flash sectors + print("Erasing flash sectors...") + if self.M25P16sectorErase(fileSize): + print ("Unable to erase flash sectors") + exit(1) + + i, j, address = 0, 0, 0 + + while fileSize: + j = 0x100 if fileSize > 0x100 else fileSize + self.M25P16PageProgram(dataBuff[address:address+j], address, j) + address += j + fileSize -= j + + #Wait for page program to complete + while self.M25P16ReadStatus() & 0x01: + time.sleep(0.01) + + sys.stdout.write("Writing to flash " + str(int((address/fileSizeForProgressInd)*100)) + "% complete...\r") + sys.stdout.flush() + + #verify the flash contents + print("\nVerifying flash contents...") + + if self.M25P16VerifyFlash(dataBuff): + print("Flash verification failed...") + else: + print("Flash verification successful...\nBooting FPGA...") + + #Set CS to input + if self.SpiSetIoDirection(CONFIG_IO_PIN_CS, IO_DIRECTION_IN): + return 1 + + #De-assert PROGB + if self.SpiSetIoValue(CONFIG_IO_PIN_PROGB, 1): + return 1 + + print("Done.") + + def __del__(self): + self.PortObj.close() + +#-------------------------- End class MimasV2ConfigDownloader -----------------# + +def main(): + print("****************************************") + print("* Numato Lab Mimas V2 Configuration Tool *") + print("****************************************") + + if(len(sys.argv) != 3): + print("ERROR: Invalid number of arguments.\n") + print("Usage : mimasv2config.py <PORT> <Binary File>\n") + print("PORT - The serial portcorresponds to Mimas V2 (Eg: COM1)\n") + print("Binary File - Binary file to be downloaded. Please see Mimas V2") + print("documentation for more details on generating binary file from") + print("your design.") + exit(1) + + + MimasV2configObj = MimasV2ConfigDownloader(sys.argv[1]) + MimasV2configObj.ConfigureMimasV2(sys.argv[2]) + + +if __name__ == "__main__": + main() diff --git a/target/sh/numato-mimasv2/mimas_v2.bin b/target/sh/numato-mimasv2/mimas_v2.bin Binary files differnew file mode 100644 index 000000000..1202c0771 --- /dev/null +++ b/target/sh/numato-mimasv2/mimas_v2.bin |