181 lines
6.3 KiB
Plaintext
181 lines
6.3 KiB
Plaintext
I2C interface to the firmware
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-----------------------------
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To control the operation of the keyboard's firmware, the firmware
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exposes some "registers" that the user can read/write using the
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two kinds of I2C transfers.
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1) set values of consecutive block of registers starting from REG_ADDR:
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START TX(DEV_ADDR+WR REG_ADDR [REG_DATA REG+1_DATA REG+2_DATA ...]) STOP
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2) read values of consecutive block of registers starting from REG_ADDR:
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START TX(DEV_ADDR+WR REG_ADDR) STOP
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START TX(DEV_ADDR+RD) RX(REG_ADDR [REG_DATA REG+1_DATA REG+2_DATA ...]) STOP
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Device address is 0x15.
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Registers
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---------
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General ranges:
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0x00 - 0x1f - Read-only status range
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0x20 - 0x2f - Writable keyboard control range
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0x70 - 0xf4 - Flashing interface
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0xff - Debug log
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0x00: Device ID1 (0x4b)
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0x01: Device ID2 (0x42)
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0x02: Firmware revision
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0x03: Firmware features
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bit 0: USB debugger
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bit 1: Flashing mode
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bit 2: Self-test features
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bit 3: Stock firmware flag (only stock firmware should have this set)
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bit 4: Charger register read/writes are supported
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0x06: bits 3-0: number of rows, bits 7-4 number of cols
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0x07: CRC8 of keyboard data from 0x08-0x13
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0x08: Keyboard data for column 1
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...
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0x13: Keyboard data for column 12 (up to number of cols, in this case 12)
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0x20: System configuration
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bit 0: disable KB scanning (1: scanning disabled, 0: scanning enabled)
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0x21: Charger register address
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0x22: Charger register value
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0x23: System command
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Writing values into this register causes the firmware to perform
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certain one-shot actions:
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0x72 ('r') - reset the MCU
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0x69 ('i') - jump to USB bootloader
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0x74 ('t') - run a self-test
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(results are as a text in debug log)
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0x91 - read charger register
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0xA1 - write charger register
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The register is set to 0x00 or 0xff after the operation completes.
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0xff means error.
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0x24: Writing value 0x53 ('S') to this register stops the main app from
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jumping to the user app.
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0x70: 128B block of EEPROM data (either read from code memory or to be
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... written)
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0xef
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0xf0: target address low byte
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0xf1: target address high byte
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0xf2: CRC8 calculated for the 128B block of data from 0x70-0xef
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- this must be written by the user when preparing data for write
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operation, MCU checks the CRC8 of the data and compares it against
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the value in this register before starting the execution of
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0x57 command
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- this is updated by the MCU after reading the data from flash memory
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so the user can check the checksum against the data read from
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0x70-0xef
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0xf3: Flashing mode unlock key
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- writing 0x46 to this register unlocks the flashing mode.
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- this register is cleared after command completion
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0xf4: Flashing control
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Writing various commands to this register makes the MCU execute them,
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if the MCU is not executing the previous command. Available commands:
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0x52 - read a block of data from code ROM
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0x57 - write a block of data to code ROM
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0x45 - erase the code rom memory block (128B)
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0x43 - confirm the validity of the firmware and enable redirection
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to it from the main app (this redirection is automatically
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disabled before executing the 0x57 command)
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This register will ignore further commands as long as the last operation
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is still in progress. This register will contain the code of the
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currently executed operation, and will be cleared after the operation
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finishes.
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If the operation fails, this register will contain value 0xff. If it
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succeeds it will contain value 0x00.
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0xff: Debug log
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- reading from this register returns next character of the debug log
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or 0
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- register address is not auto-advanced for the 0xff address, so you
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can read any number of bytes from 0xff to get the debug log text
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- debug log stores results of self-tests
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Usage
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-----
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User can modify register 0x20 to choose how the firmware should operate.
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The settings are not persistent across resets.
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To read the keyboard matrix status, the user can perform a 13B read transaction
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from address 0x07. Data for each column start at 0x08, 0x07 contains CRC8 checksum
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of the 12 bytes starting from 0x08.
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You can verify the data by calculating CRC8 on the last 12 bytes and compare it
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with the 1st byte.
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Bit 0 corresponds to row 1, bit 5 to row 6, bits 6 and 7 are always 0.
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Flashing
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--------
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The firmware is split into 3 parts:
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0x0000 - 0x2000: Stock USB bootloader
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0x2000 - 0x4000: Stock FOSS firmware (flashable from stock bootloader)
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0x4000 - 0x8000: User app (optional, flashable over I2C from stock FOSS firmware)
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It is necessary to execute stock firmware to flash the user firmware. Stock
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firmware will normally re-direct execution to user firmware if user firmware
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is flashed.
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After MCU powerup or reset, stock firmware will listen for 1s on I2C interface,
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before passing control to the user firmware. If 0x53 is not written to register
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0x24 during that time, this will prevent execution of the user's firmware.
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If the user firmware execution is not prevented in this way, stock firmware
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will redirect interrupt vectors from 0x0000+offset to 0x4000+offset and jump
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to 0x4000, which will start execution of user's firmware. User firmware must
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not change last byte of IRAM, because it is used by the stock firmware's
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interrupt redirection mechanism.
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User's firmware should always implement some way to reset the MCU via I2C
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interface. This will make development and flashing easier. Failing that,
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I2C flashing tool also allows for manual entry to stock firmware which
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is done by holding the power key for > 12s to force power cycle on the MCU.
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Flashing steps:
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1) Write 128 B of data to 0x70-0xef and data CRC8 to 0xf2
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2) Write address to 0xf0 (low) and 0xf1 (high byte)
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(only range from 0x4000 to 0x7fff) is writeable
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3) Unlock by writing 0x46 to register 0xf3
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4) Write command 0x57 to 0xf4
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5) Poll 0xf4 for result (either 0x00 or 0xff)
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... repeat 1-5 for all memory locations to be flashed
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6) Write command 0x43 to reg 0xf4
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7) Poll 0xf4 for result (either 0x00 or 0xff)
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8) Reset the MCU by writing command 0x72 to reg 0x23
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Self-tests
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----------
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1) Write command 't' to reg 0x23
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2) Read repeatedly from register 0xff to get the self-test results
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in human readable text form
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