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view src/Docu/comm-docu.txt @ 650:bc214815deb2
3.19/10.75 release
author | heinrichsweikamp |
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date | Sun, 28 Aug 2022 13:13:38 +0200 |
parents | 4050675965ea |
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=================================================================================================== OSTC hwos3 COMM Mode Documentation 16.03.2020 =================================================================================================== Remarks: - send and receive as given here are from OSTC point of view, - timeouts restart on each next byte received, - when designing the peer side, account for additional delays caused by USB/BT low level drivers, - initiate a buffer flush after each command or parameter/data block and wait on the OSTC response before sending the next command/data, - the 3 byte start address and the 3 byte length are expected in network byte format (big endian). comm_mode_selection_loop: ## entry point when COMM Mode is started ## try to receive 1 byte, timeout after 4 minutes received 0xBB -> goto comm_download_mode received 0xAA -> goto comm_service_mode_check timeout -> send 0xFF quit comm mode comm_service_mode_check: ## received start byte for service mode, await service key ## send 0x4B | | Attention: do not send the next 3 bytes in one batch, wait for | the echo of each byte before sending the next one | try to receive 1 byte (upper byte of comm service key), timeout after 400 ms echo received byte try to receive 1 byte (high byte of comm service key), timeout after 400 ms echo received byte try to receive 1 byte (low byte of comm service key), timeout after 400 ms echo received byte service key correct -> enable comm_service_mode, goto comm_command_loop service key not correct -> goto comm_mode_selection_loop timeout -> goto comm_mode_selection_loop comm_download_mode: ## received start byte for download mode ## send 0xBB goto comm_command_loop comm_command_loop: ## wait for a command ## if comm_service_mode is enabled -> send 0x4C else -> send 0x4D try to receive 1 byte, timeout after 2 minutes timeout -> send 0xFF and quit comm mode received 0x6E -> goto comm_show_text n show a text on the screen received 0x69 -> goto comm_identify i send ID: serial, firmware, and custom text received 0x6A -> goto comm_hardware_descriptor j send ID: hardware descriptor byte received 0x60 -> goto comm_feature_and_hardware ' send ID: more detailed information received 0x6D -> goto comm_send_headers_short m send all headers in compact format received 0x61 -> goto comm_send_headers_full a send all headers is full format received 0x66 -> goto comm_send_dive f send header and profile for one dive received 0x62 -> goto comm_set_time b set the real time clock received 0x63 -> goto comm_set_custom_text c write a new custom text received 0x72 -> goto comm_read_option r read an option value received 0x77 -> goto comm_write_option w write an option value (into RAM) received 0x78 -> goto comm_option_reset_all x reset all option values to their factory default received 0xFF -> send 0xFF and quit comm mode the following commands are only evaluated if comm_service_mode is enabled: received 0x23 -> goto comm_reset_battery_gauge # reset the battery gauge registers received 0x22 -> goto comm_erase_complete_logbook " reset all logbook pointers and the logbook received 0x20 -> goto comm_read_range ' ' read a memory range from the external FLASH received 0x40 -> goto comm_erase_4kb @ erase one 4 kB block - Warning: no confirmation or built-in safety here... received 0x42 -> goto comm_erase_range4kb B erase a range of 4 kB blocks - Warning: no confirmation or built-in safety here... received 0x30 -> goto comm_write_range_stream 0 write a stream of bytes starting at ext_flash_address:3 until timeout received 0x31 -> goto comm_write_range_block 1 write a block of 256 bytes starting at ext_flash_address:3 (only available with FW >= 3.08) received 0x50 -> goto comm_firmware_update P initiate firmware update received 0xC1 -> goto comm_cold_start start low-level bootloader comm_set_time: ## set the real time clock ## send 0x62 try to receive 6 bytes in sequence: hour, minute, second, month, day, year, timeout 400 ms timeout -> goto comm_command_loop else -> set RTC, goto comm_command_loop comm_show_text: ## write a 15 char text to the OSTC display ## send 0x6E try to receive 16 characters, timeout 400 ms print whatever has been received to the display goto comm_command_loop comm_identify: ## reply serial, firmware and custom text ## send 0x69 send 1 byte serial number, low byte send 1 byte serial number, high byte send 1 byte firmware version, major send 1 byte firmware version, minor send 60 byte custom text goto comm_command_loop comm_hardware_descriptor: ## reply short hardware descriptor ## send 0x6A send 1 byte hardware descriptor goto comm_command_loop comm_feature_and_hardware: ## reply detailed hardware descriptor ## send 0x60 send 0x00 (hardware high byte) send 1 byte hardware descriptor (hardware low byte) send 0x00 (feature high byte) send 0x00 (feature low byte) send 0x00 (model) goto comm_command_loop comm_send_headers_short: ## send short version of dive headers ## send 0x6D send 256 x 16 bytes (extract from the headers) goto comm_command_loop comm_send_headers_full: ## send complete dive headers ## send 0x61 send 256 x 256 bytes goto comm_command_loop comm_send_dive: ## send one full dive ## send 0x66 try to receive 1 byte (dive index), timeout 400 ms timeout -> goto comm_command_loop header contains no dive -> goto comm_command_loop no profile data available -> send 256 byte dive header (begins with 0xFAFA), send empty profile: <length = 0x000008> <end = 0xFDFD>, goto comm_command_loop else -> send 256 byte dive header (begins with 0xFAFA), send xxx byte dive profile (ends with 0xFDFD), goto comm_command_loop comm_option_reset_all: ## reset all options to factory default ## send 0x78 reset all option values to default goto comm_command_loop comm_set_custom_text: ## set custom text ## send 0x63 try to receive 60 byte, timeout 400 ms clear complete old custom text store the 0...60 bytes that have been received as new custom text goto comm_command_loop comm_reset_battery_gauge: ## reset battery gauge ## (no acknowledge send) reset battery registers and battery gauge chip goto comm_command_loop comm_erase_complete_logbook: ## erase complete Logbook ## (no acknowledge send) erase complete logbook goto comm_command_loop comm_cold_start: ## start bootloader (cold start) ## (no acknowledge send) backup crucial data from RAM to EEPROM jump into the bootloader/cold start comm_firmware_update: ## initiate firmware update ## send 0x50 try to receive 5 byte checksum, timeout 400 ms timeout -> send 0xFF, goto comm_command_loop checksum faulty -> send 0xFF, goto comm_command_loop else -> send 0x4C backup crucial data from RAM to EEPROM jump into bootloader/FW update comm_erase_range4kb: ## erase a memory range ## send 0x42 try to receive 3 byte start address, timeout 400 ms try to receive 1 byte block count, timeout 400 ms any timeout -> goto comm_command_loop else -> erase FLASH from start address, range block_count x 4 kByte, takes up to block_count * 25 ms, i.e. for 120 kB (30 blocks) up to 750 ms goto comm_command_loop comm_erase_4kb: ## erase one 4 kB block ## (no acknowledge send) try to receive 3 byte start address, timeout 400 ms timeout -> goto comm_command_loop else -> erase FLASH from start address, range 4 kByte, takes up to 25 ms goto comm_command_loop comm_write_range_stream: ## write a stream of bytes to the FLASH ## send 0x30 try to receive 3 byte start address, timeout 400 ms timeout -> goto comm_command_loop else -> loop {try to receive 1 byte, write byte to FLASH } until timeout | | Attention: Do not send the bytes too fast as the OSTC needs | some time for each byte to write it to the FLASH. | | Bytes will be received and written to FLASH until a timeout occurs, | i.e. to end the writing stop sending and await the timeout to trigger. | timeout -> goto comm_command_loop comm_write_range_block: ## write a block of 256 bytes to the FLASH ## (only available with FW >= 3.09) send 0x31 try to receive 3 byte start address, timeout 400 ms timeout -> goto comm_command_loop low byte of start address <> 0 -> goto comm_command_loop else -> try to receive 256 byte, timeout 400 ms timeout -> goto comm_command_loop else -> write the 256 byte to FLASH, takes up to 2 or 5 ms dependent on FLASH chip goto comm_command_loop comm_read_range: ## read a range from FLASH ## send 0x20 try to receive 3 byte start address, timeout 400 ms try to receive 3 byte length, timeout 400 ms any timeout -> goto comm_command_loop else -> loop {read 1 byte from FLASH, send 1 byte } until #length bytes done goto comm_command_loop comm_read_option: ## read an option value ## send 0x72 try to receive 1 byte option index, timeout 400 ms timeout -> goto comm_command_loop index = 0x10 - 0x19 -> send 4 bytes in sequence O2%, He%, type, change depth goto comm_command_loop index = 0x1A - 0x1E -> send 2 bytes in sequence setpoint cbar, change depth goto comm_command_loop index = 0x1F - 0xXX -> send 1 byte option value (0xXX last index in use, depends on FW version) goto comm_command_loop else -> goto comm_command_loop comm_write_option: ## write an option value ## send 0x77 try to receive 1 byte option value, timeout 400 ms timeout -> goto comm_command_loop | | Attention: do not send the option values too fast after the option index, | as the OSTC does not know how many bytes will follow after the | index before it has actually evaluated the index! | This is a flaw in the protocol design... | index = 0x10 - 0x19 -> try to receive 4 byte in sequence O2%, He%, type, change depth timeout -> goto comm_command_loop else -> update option goto comm_command_loop index = 0x1A - 0x1E -> try to receive 2 bytes in sequence setpoint cbar, change depth timeout -> goto comm_command_loop else -> update option goto comm_command_loop index = 0x1F - 0xXX -> try to receive 1 byte option value (0xXX last index in use, depends on FW version) timeout -> goto comm_command_loop else -> update option goto comm_command_loop else -> goto comm_command_loop