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https://github.com/dougg3/mac-rom-simm-programmer.git
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Added provisions to communication protocol for specifying readback size.
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@ -60,7 +60,10 @@ typedef enum ProgrammerIdentifyReply
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} ProgrammerIdentifyReply;
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// ------------------------- READ PROTOCOL -------------------------
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// After CommandReplyOK, the programmer will send a chunk of data.
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// After CommandReplyOK, the requester will send a 4-byte value containing
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// the number of bytes requested to read (should be a multiple of the read
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// chunk size of 1024 bytes, though). The programmer will reply with OK or
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// error, and if OK, also send a chunk of data.
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// The computer will send a reply (see the enum below this one)
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// The programmer will then reply to *that* reply (see this enum)
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typedef enum ProgrammerReadReply
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@ -12,7 +12,7 @@
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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 MAX_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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@ -32,6 +32,7 @@ typedef enum ProgrammerCommandState
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{
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WaitingForCommand = 0,
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ReadingByteWaitingForAddress,
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ReadingChipsReadLength,
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ReadingChips,
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ReadingChipsUnableSendError,
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WritingChips
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@ -41,12 +42,15 @@ 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 uint32_t readLength;
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static uint8_t readLengthByteIndex;
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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_HandleReadingChipsReadLengthByte(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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@ -74,6 +78,9 @@ void USBSerial_Check(void)
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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 ReadingChipsReadLength:
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USBSerial_HandleReadingChipsReadLengthByte((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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@ -133,10 +140,11 @@ void USBSerial_HandleWaitingForCommandByte(uint8_t byte)
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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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curCommandState = ReadingChipsReadLength;
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curReadIndex = 0;
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readLengthByteIndex = 0;
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readLength = 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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@ -197,7 +205,7 @@ void USBSerial_HandleReadingChipsByte(uint8_t byte)
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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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if (curReadIndex >= readLength)
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{
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SendByte(ProgrammerReadFinished);
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curCommandState = WaitingForCommand;
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@ -217,6 +225,33 @@ void USBSerial_HandleReadingChipsByte(uint8_t byte)
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}
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}
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// If we're figuring out the length to read, grab it now...
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void USBSerial_HandleReadingChipsReadLengthByte(uint8_t byte)
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{
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// There will be four bytes, so count up until we know the length. If they
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// have sent all four bytes, send the first read chunk.
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readLength |= (((uint32_t)byte) << (8*readLengthByteIndex));
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if (++readLengthByteIndex >= 4)
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{
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// Ensure it's within limits and a multiple of 1024
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if ((readLength > NUM_CHIPS * MAX_CHIP_SIZE) ||
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(readLength % READ_CHUNK_SIZE_BYTES) ||
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(readLength == 0))
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{
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SendByte(ProgrammerReadError);
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curCommandState = WaitingForCommand;
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}
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else
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{
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// Convert the length into the number of chunks we need to send
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readLength /= READ_CHUNK_SIZE_BYTES;
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curCommandState = ReadingChips;
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SendByte(ProgrammerReadOK);
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USBSerial_SendReadDataChunk();
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}
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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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@ -226,14 +261,14 @@ void USBSerial_SendReadDataChunk(void)
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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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uint32_t readChunks[READ_CHUNK_SIZE_BYTES / NUM_CHIPS];
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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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ExternalMem_Read(curReadIndex * (READ_CHUNK_SIZE_BYTES/NUM_CHIPS),
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chunks.readChunks, READ_CHUNK_SIZE_BYTES/NUM_CHIPS);
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uint8_t retVal = SendData((const char *)chunks.readChunkBytes,
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READ_CHUNK_SIZE_BYTES);
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@ -273,7 +308,7 @@ void USBSerial_HandleWritingChipsByte(uint8_t byte)
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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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if (curWriteIndex < MAX_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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