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https://github.com/dougg3/mac-rom-simm-programmer.git
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335 lines
10 KiB
C
335 lines
10 KiB
C
/*
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* usb_serial.c
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*
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* Created on: Dec 9, 2011
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* Author: Doug
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*/
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#include "usb_serial.h"
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#include "../LUFA/Drivers/USB/USB.h"
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#include "../cdc_device_definition.h"
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#include "../external_mem.h"
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#include "../tests/simm_electrical_test.h"
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#include "../programmer_protocol.h"
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#define CHIP_SIZE (512UL * 1024UL)
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#define READ_CHUNK_SIZE_BYTES 1024UL
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#define WRITE_CHUNK_SIZE_BYTES 1024UL
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#if ((READ_CHUNK_SIZE_BYTES % 4) != 0)
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#error Read chunk size should be a multiple of 4 bytes
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#endif
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#if ((WRITE_CHUNK_SIZE_BYTES % 4) != 0)
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#error Write chunk size should be a multiple of 4 bytes
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#endif
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void USBSerial_Init(void)
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{
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USB_Init();
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}
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// Internal state so we know how to interpret the next-received byte
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typedef enum ProgrammerCommandState
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{
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WaitingForCommand = 0,
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ReadingByteWaitingForAddress,
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ReadingChips,
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ReadingChipsUnableSendError,
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WritingChips
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} ProgrammerCommandState;
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static ProgrammerCommandState curCommandState = WaitingForCommand;
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// State info for reading/writing
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static uint8_t byteAddressReceiveCount = 0;
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static uint16_t curReadIndex;
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static int16_t writePosInChunk = -1;
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static uint16_t curWriteIndex = 0;
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// Private functions
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void USBSerial_HandleWaitingForCommandByte(uint8_t byte);
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void USBSerial_HandleReadingChipsByte(uint8_t byte);
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void USBSerial_SendReadDataChunk(void);
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void USBSerial_HandleWritingChipsByte(uint8_t byte);
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void USBSerial_ElectricalTest_Fail_Handler(uint8_t index1, uint8_t index2);
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// Read/write to USB serial macros -- easier than retyping
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// CDC_Device_XXX(&VirtualSerial_CDC_Interface...) every time
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#define SendByte(b) CDC_Device_SendByte(&VirtualSerial_CDC_Interface, b)
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#define ReadByte() CDC_Device_ReceiveByte(&VirtualSerial_CDC_Interface)
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#define SendData(d, l) CDC_Device_SendData(&VirtualSerial_CDC_Interface, d, l)
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// Should be called periodically in the main loop
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void USBSerial_Check(void)
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{
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// If we're configured, read a byte (if one is available) and process it
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if (USB_DeviceState == DEVICE_STATE_Configured)
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{
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int16_t recvByte = ReadByte();
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// Did we get a byte? If so, hand it off to the correct handler
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// function based on the current state
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if (recvByte >= 0)
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{
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switch (curCommandState)
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{
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case WaitingForCommand:
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USBSerial_HandleWaitingForCommandByte((uint8_t)recvByte);
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break;
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case ReadingChips:
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USBSerial_HandleReadingChipsByte((uint8_t)recvByte);
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break;
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case WritingChips:
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USBSerial_HandleWritingChipsByte((uint8_t)recvByte);
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break;
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}
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}
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}
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// And do the periodic CDC and USB tasks...
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CDC_Device_USBTask(&VirtualSerial_CDC_Interface);
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USB_USBTask();
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}
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// If we're in the "waiting for command" state, handle the command...
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void USBSerial_HandleWaitingForCommandByte(uint8_t byte)
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{
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switch (byte)
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{
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// Asked to enter waiting mode -- we're already there, so say OK.
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case EnterWaitingMode:
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SendByte(CommandReplyOK);
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curCommandState = WaitingForCommand;
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break;
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// Asked to do the electrical test. Reply OK, and then do the test,
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// sending whatever replies necessary
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case DoElectricalTest:
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SendByte(CommandReplyOK);
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SIMMElectricalTest_Run(USBSerial_ElectricalTest_Fail_Handler);
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SendByte(ProgrammerElectricalTestDone);
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curCommandState = WaitingForCommand;
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break;
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// Asked to identify the chips in the SIMM. Identify them and send reply.
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case IdentifyChips:
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{
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struct ChipID chips[4];
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SendByte(CommandReplyOK);
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ExternalMem_IdentifyChips(chips);
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int x;
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for (x = 0; x < 4; x++)
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{
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SendByte(chips[x].manufacturerID);
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SendByte(chips[x].deviceID);
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}
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SendByte(ProgrammerIdentifyDone);
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break;
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}
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// Asked to read a single byte from each SIMM. Change the state and reply.
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case ReadByte:
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curCommandState = ReadingByteWaitingForAddress;
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byteAddressReceiveCount = 0;
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SendByte(CommandReplyOK);
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break;
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// Asked to read all four chips. Set the state, reply with the first chunk
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case ReadChips:
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curCommandState = ReadingChips;
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curReadIndex = 0;
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SendByte(CommandReplyOK);
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USBSerial_SendReadDataChunk();
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break;
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// Erase the chips and reply OK. (TODO: Sometimes erase might fail)
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case EraseChips:
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ExternalMem_EraseChips(ALL_CHIPS);
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SendByte(CommandReplyOK);
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break;
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// Begin writing the chips. Change the state, reply, wait for chunk of data
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case WriteChips:
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curCommandState = WritingChips;
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curWriteIndex = 0;
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writePosInChunk = -1;
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SendByte(CommandReplyOK);
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break;
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// Asked for the current bootloader state. We are in the program right now,
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// so reply accordingly.
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case GetBootloaderState:
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SendByte(CommandReplyOK);
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SendByte(BootloaderStateInProgrammer);
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break;
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// Enter the bootloader. Wait a bit, then jump to the bootloader location.
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case EnterBootloader:
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SendByte(CommandReplyOK);
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// Done with the USB interface -- the bootloader will re-initialize it.
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USB_Disable();
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// Disable interrupts so nothing weird happens...
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cli();
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// Wait a little bit to let everything settle and let the program
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// close the port after the USB disconnect
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_delay_ms(2000);
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// And, of course, go into the bootloader.
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__asm__ __volatile__ ( "jmp 0xE000" );
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break;
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// Enter the programmer. We're already there, so reply OK.
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case EnterProgrammer:
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// Already in the programmer
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SendByte(CommandReplyOK);
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break;
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// We don't know what this command is, so reply that it was invalid.
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default:
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SendByte(CommandReplyInvalid);
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break;
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}
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}
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// If we're in the "reading chips" state, handle the incoming byte...
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void USBSerial_HandleReadingChipsByte(uint8_t byte)
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{
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// The byte should be a reply from the computer. It should be either:
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// 1) ComputerReadOK -- meaning it got the chunk we just sent
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// or
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// 2) ComputerReadCancel -- meaning the user canceled the read
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switch (byte)
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{
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case ComputerReadOK:
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// If they have confirmed the final data chunk, let them know
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// that they have finished, and enter command state.
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if (curReadIndex >= (CHIP_SIZE / (READ_CHUNK_SIZE_BYTES/4)))
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{
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SendByte(ProgrammerReadFinished);
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curCommandState = WaitingForCommand;
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}
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else // There's more data left to read, so read it and send it to them!
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{
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SendByte(ProgrammerReadMoreData);
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USBSerial_SendReadDataChunk();
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}
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break;
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case ComputerReadCancel:
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// If they've canceled, let them know we got their request and go back
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// to "waiting for command" state
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SendByte(ProgrammerReadConfirmCancel);
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curCommandState = WaitingForCommand;
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break;
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}
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}
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// Read the next chunk of data from the SIMM and send it off over the serial.
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void USBSerial_SendReadDataChunk(void)
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{
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// Here's a buffer we will use to read the next chunk of data.
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// It's static because the stack is NOT big enough for it. If I start
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// running low on RAM, I could pull this out of the function and share it
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// with other functions, but I'm not bothering with that for now.
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static union
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{
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uint32_t readChunks[READ_CHUNK_SIZE_BYTES / 4];
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uint8_t readChunkBytes[READ_CHUNK_SIZE_BYTES];
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} chunks;
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// Read the next chunk of data, send it over USB, and make sure
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// we sent it correctly.
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ExternalMem_Read(curReadIndex * (READ_CHUNK_SIZE_BYTES/4),
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chunks.readChunks, READ_CHUNK_SIZE_BYTES/4);
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uint8_t retVal = SendData((const char *)chunks.readChunkBytes,
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READ_CHUNK_SIZE_BYTES);
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// If for some reason there was an error, mark it as such. Otherwise,
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// increment our pointer so we know the next chunk of data to send.
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if (retVal != ENDPOINT_RWSTREAM_NoError)
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{
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curCommandState = ReadingChipsUnableSendError;
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}
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else
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{
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curReadIndex++;
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}
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}
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// Handles a received byte from the computer while we're in the "writing chips"
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// mode.
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void USBSerial_HandleWritingChipsByte(uint8_t byte)
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{
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// A buffer we use to store the incoming data. This, too, could be shared
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// with other functions if I end up running out of RAM. Again, I'm not
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// bothering with that yet, but this could easily be shared with the
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// read function.
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static union
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{
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uint32_t writeChunks[WRITE_CHUNK_SIZE_BYTES / 4];
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uint8_t writeChunkBytes[WRITE_CHUNK_SIZE_BYTES];
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} chunks;
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// This means we have just started the entire process or just finished
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// a chunk, so see what the computer has decided for us to do.
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if (writePosInChunk == -1)
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{
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switch (byte)
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{
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// The computer asked to write more data to the SIMM.
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case ComputerWriteMore:
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writePosInChunk = 0;
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// Make sure we don't write past the capacity of the chips.
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if (curWriteIndex < CHIP_SIZE / (WRITE_CHUNK_SIZE_BYTES/4))
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{
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SendByte(ProgrammerWriteOK);
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}
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else
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{
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SendByte(ProgrammerWriteError);
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// TODO: Enter waiting for command mode?
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}
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break;
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// The computer said that it's done writing.
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case ComputerWriteFinish:
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SendByte(ProgrammerWriteOK);
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curCommandState = WaitingForCommand;
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break;
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// The computer asked to cancel.
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case ComputerWriteCancel:
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SendByte(ProgrammerWriteConfirmCancel);
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curCommandState = WaitingForCommand;
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break;
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}
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}
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else // Interpret the incoming byte as data to write to the SIMM.
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{
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// Save the byte, and check if we've filled up an entire chunk
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chunks.writeChunkBytes[writePosInChunk++] = byte;
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if (writePosInChunk >= WRITE_CHUNK_SIZE_BYTES)
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{
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// We filled up the chunk, write it out and confirm it, then wait
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// for the next command from the computer!
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ExternalMem_Write(curWriteIndex * (WRITE_CHUNK_SIZE_BYTES/4),
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chunks.writeChunks, WRITE_CHUNK_SIZE_BYTES/4, ALL_CHIPS);
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SendByte(ProgrammerWriteOK);
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curWriteIndex++;
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writePosInChunk = -1;
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}
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}
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}
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// Whenever an electrical test failure occurs, this handler will be called
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// by it. It sends out a failure notice followed by indexes of the two
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// shorted pins.
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void USBSerial_ElectricalTest_Fail_Handler(uint8_t index1, uint8_t index2)
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{
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SendByte(ProgrammerElectricalTestFail);
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SendByte(index1);
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SendByte(index2);
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}
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// LUFA event handler for when the USB configuration changes.
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void EVENT_USB_Device_ConfigurationChanged(void)
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{
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bool ConfigSuccess = true;
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ConfigSuccess &= CDC_Device_ConfigureEndpoints(&VirtualSerial_CDC_Interface);
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}
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// LUFA event handler for when a USB control request is received
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void EVENT_USB_Device_ControlRequest(void)
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{
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CDC_Device_ProcessControlRequest(&VirtualSerial_CDC_Interface);
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}
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