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2e4e303c0c
I can't use GPLv2 as soon as I need to start using the Nuvoton sample code which is licensed with an Apache 2.0 license.
188 lines
6.9 KiB
C
188 lines
6.9 KiB
C
/*
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* programmer_protocol.h
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*
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* Created on: Dec 26, 2011
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* Author: Doug
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*
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* Copyright (C) 2011-2023 Doug Brown
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
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*
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*/
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#ifndef PROGRAMMER_PROTOCOL_H_
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#define PROGRAMMER_PROTOCOL_H_
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/// When the programmer is in "waiting for command" mode,
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/// you send it one of the bytes below to do something (or begin to do something)
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typedef enum ProgrammerCommand
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{
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EnterWaitingMode = 0,
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DoElectricalTest,
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IdentifyChips,
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ReadByte,
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ReadChips,
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EraseChips,
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WriteChips,
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GetBootloaderState,
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EnterBootloader,
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EnterProgrammer,
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BootloaderEraseAndWriteProgram,
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SetSIMMTypePLCC32_2MB,
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SetSIMMTypeLarger,
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SetVerifyWhileWriting,
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SetNoVerifyWhileWriting,
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ErasePortion,
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WriteChipsAt,
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ReadChipsAt,
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SetChipsMask
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} ProgrammerCommand;
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// After a command is sent, the programmer will always respond with
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// one of the replies below. (Depending on the command, it may reply with other
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// stuff after that, too)
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typedef enum ProgrammerReply
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{
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CommandReplyOK = 0,
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CommandReplyError,
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CommandReplyInvalid
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} ProgrammerReply;
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// ------------------------- ELECTRICAL TEST PROTOCOL -------------------------
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// After CommandReplyOK, any failures are reported by the programmer.
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// It will send ProgrammerElectricalTestFail followed by two more bytes -- each
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// representing an index of the failure location. Any more electrical test failures
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// will result in another 3-byte sequence as described above.
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// When it's totally finished, it will send ProgrammerElectricalTestDone.
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// So a pass would be indicated by no ProgrammerElectricalTestFail sequences being
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// sent.
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typedef enum ProgrammerElectricalTestReply
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{
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ProgrammerElectricalTestFail = 0,
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ProgrammerElectricalTestDone
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} ProgrammerElectricalTestReply;
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// ------------------------- IDENTIFY CHIPS PROTOCOL -------------------------
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// After CommandReplyOK, it will send the manufacturer ID and device ID of each
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// of the 4 chips:
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// M1, D1, M2, D2, M3, D3, M4, D4
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// followed by ProgrammerIdentifyDone.
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typedef enum ProgrammerIdentifyReply
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{
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ProgrammerIdentifyDone = 0
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} ProgrammerIdentifyReply;
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// ------------------------- READ PROTOCOL -------------------------
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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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{
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ProgrammerReadOK = 0,
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ProgrammerReadError,
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ProgrammerReadMoreData,
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ProgrammerReadFinished,
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ProgrammerReadConfirmCancel
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} ProgrammerReadReply;
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// When the computer is confirming reception of a block of data from the device,
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// it should reply with either OK that it received the data OK, or cancel
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// to tell the device that the user canceled the read.
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typedef enum ComputerReadReply
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{
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ComputerReadOK = 0,
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ComputerReadCancel
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} ComputerReadReply;
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// ------------------------- ERASE PROTOCOL -------------------------
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// There is none -- a reply of CommandReplyOK will indicate that the erase
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// completed successfully.
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// ------------------------- WRITE PROTOCOL -------------------------
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// After CommandReplyOK, the computer should send one of the commands below.
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// The programmer will reply with one of the replies seen in the enum below
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// this one, and then the computer can send a 1024-byte chunk of data.
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// The programmer will reply with ProgrammerWriteOK, and then the cycle can
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// continue (the computer sends another request in this enum)
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//
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// If the programmer was asked to verify while writing and a verification error
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// occurs, it will respond with ProgrammerWriteVerificationError ORed with a bit
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// mask of chips that are acting up (so it could be 0x81 if IC1 is acting up,
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// for example)
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typedef enum ComputerWriteRequest
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{
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ComputerWriteMore = 0,
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ComputerWriteFinish,
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ComputerWriteCancel
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} ComputerWriteRequest;
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typedef enum ProgrammerWriteReply
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{
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ProgrammerWriteOK = 0,
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ProgrammerWriteError,
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ProgrammerWriteConfirmCancel,
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ProgrammerWriteVerificationError = 0x80 /* high bit signifies verify error, low bits signify which chips are bad */
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} ProgrammerWriteReply;
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// ------------------------- BOOTLOADER STATE PROTOCOL -------------------------
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// If the command is GetBootloaderState, it will reply with CommandReplyOK followed
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// by one of the two replies below to tell the control program which mode
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// the device is currently in.
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typedef enum BootloaderStateReply
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{
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BootloaderStateInBootloader = 0,
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BootloaderStateInProgrammer
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} BootloaderStateReply;
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// ------------------------- BOOTLOADER ERASE/WRITE PROTOCOL -------------------------
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// If the command is BootloaderEraseAndWriteProgram, it will reply with CommandReplyOK
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// followed by either BootloaderEraseOK or BootloaderEraseError. At this point
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// the program can ask to write more data or finish or cancel, and then the appropriate
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// reply will be sent back to it. Works very similar to the write protocol.
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typedef enum ProgrammerBootloaderEraseWriteReply
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{
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BootloaderWriteOK,
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BootloaderWriteError,
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BootloaderWriteConfirmCancel
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} ProgrammerBootloaderEraseWriteReply;
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typedef enum ComputerBootloaderEraseWriteRequest
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{
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ComputerBootloaderWriteMore = 0,
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ComputerBootloaderFinish,
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ComputerBootloaderCancel
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} ComputerBootloaderEraseWriteRequest;
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// ------------------------- ERASE PORTION OF CHIP PROTOCOL -------------------------
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// If the command is ErasePortion, the programmer will reply CommandReplyOK.
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// Next, the program will send the beginning position to erase as a 4-byte little
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// endian integer, followed by the length to erase as a 4-byte little endian
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// integer. The programmer will reply with ProgrammerErasePortionOK to signify
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// that the erase is beginning, followed by ProgrammerErasePortionFinished when
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// everything is done.
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// The length and position to erase must be on 256 KB boundaries and shouldn't
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// go past the end of the selected type of chip. If any error occurs, it will
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// reply with ProgrammerErasePortionError instead.
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typedef enum ProgrammerErasePortionOfChipReply
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{
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ProgrammerErasePortionOK = 0,
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ProgrammerErasePortionError,
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ProgrammerErasePortionFinished
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} ProgrammerErasePortionOfChipReply;
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#endif /* PROGRAMMER_PROTOCOL_H_ */
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