Difference between revisions of "AXIOM Remote/Development"
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Revision as of 12:23, 11 July 2021
1 UART Connection
Any UART to USB adapter should work. We use an FT4232H adapter that is available from distributors for around 28€. You require a USB-A to USB-Mini-B cable to connect the FT4232H to your computer and 3 dupont cables to connect the FT4232H to the AXIOM Remote.
1.1 FT4232H Pinout
Chip Datasheet: https://ftdichip.com/wp-content/uploads/2020/08/DS_FT4232H.pdf
Mini Module Datasheet: https://www.ftdichip.com/Support/Documents/DataSheets/Modules/DS_FT4232H_Mini_Module.pdf
1.2 FT4232H wiring
FT4232H features 4 UART ports, in this example we utilize port C. Under Linux the FT4232H should simply show up as ports /dev/ttyUSB0 to /dev/ttyUSB3 where port C from the above example would correspond to /dev/ttyUSB2.
Note that the Transmit (TXD) and Receive (RCD) lines need to be cross wired meaning TXD needs to be connected to RXD and RXD to TXD. You can choose any GND pin though.
|Name||FT4232H pin||Remote pin|
2 JTAG connection
2.1 FT4232H wiring
5 dupont cables are required to hook up JTAG to the FT4232H.
|Name||FT4232H pin||Remote pin|
It is possible to flash the PIC32 firmware through pic32prog and FT2232H and FT4232H adapters (amongst others, like PICkit3). Multiple devices which use FT2232H are already supported in pic32prog, but not FT4232H. We've forked pic32prog, added FT4232H support and adjusted the build to reduce problems there.
./pic32prog -s 1500 -S AXIOM_Remote_Firmware_635.hex
Programmer for Microchip PIC32 microcontrollers, Version 2.0.258 Copyright: (C) 2011-2015 Serge Vakulenko IDCODE=5510e053 Adapter: Generic FT4232H adapter Processor: MZ2048ECG100 Flash memory: 2048 kbytes Boot memory: 80 kbytes Data: 135904 bytes Erase: .......done Program flash: ################################## done Program boot: ### done Program rate: 35484 bytes per second
Note: Don't forget to press reset button after flashing, as by default reset (MCLR) will be hold by the programmer.
Our tests with OpenOCD and FT4232H were only partially successful, PIC32 could be accessed, resetted and halted, also registers and disassembled code inspected, but breakpoints could not be set properly or were not stopping the execution. Luckily there is a tool called ejtagproxy, which can be used instead of OpenOCD. Also the connection from gdb-multiarch is working properly and breakpoints are stopping the execution.
ejtagproxy supports same devices as pic32prog. We've forked ejtagproxy' too and added FT4232H support.
Note: Use gdb-multiarch which is able to debug MIPS targets.
GDB proxy for Microchip PIC32 processors, Version 1.0.36 Copyright (C) 2012 Serge Vakulenko EJTAGproxy comes with ABSOLUTELY NO WARRANTY; for details use '--warranty' option. This is Open Source software. You are welcome to redistribute it under certain conditions. Use the '--copying' option for details. ejtagproxy: waiting on TCP port 2000
Connect to ejtagproxy:
target extended-remote localhost:2000
tar ext :2000
Load symbol file (to see the names of function where the target was halted, instead of addresses, and to be able to set breakpoints via names and not only addresses):
file <path to .elf file>
Some useful commands:
|reset||r||Reset target (PIC32)|
|CTRL+C||Halt the target|
|continue||c||Resume execution after halt|
|break PollButtons||b PollButtons||Set breakpoint on function PollButtons|
|break 0x9d001f73||b 0x9d001f73||Set breakpoint on address 0x9d001f73|
|info breakpoints||i b||Show set breakpoints|
|delete||del or d||Delete all breakpoints|
|delete breakpoint 3||del 3 or d 3||Delete breakpoint 3, see 'info breakpoints'|
|info registers||i r||Show available registers and their values|
2.3.1 Debugging in VSCode