jtag
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jtag [2020/06/21 06:27] – [SEGGER J-Link] mention clone kingkevin | jtag [2024/01/07 17:49] (current) – external edit 127.0.0.1 | ||
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It has been [[https:// | It has been [[https:// | ||
It has also been [[http:// | It has also been [[http:// | ||
- | So I decided to port it to the [[# | ||
- | This has less power pins (who needs 2xGND, 2x5V, 3x3.3V anyway), but provides enough function pins to add UART (and SRST). | ||
- | |||
- | To build the firmware ([[https:// | ||
- | <code bash> | ||
- | git clone https:// | ||
- | cd blackmagic | ||
- | git submodule init | ||
- | git submodule update | ||
- | make | ||
- | cd src | ||
- | make clean | ||
- | make PROBE_HOST=baite | ||
- | </ | ||
- | |||
- | Now we need to re-flash the Baite dongle.\\ | ||
- | As you can see on the {{: | ||
- | But on the back of the board you can find test points so to program the device using the serial bootloader: | ||
- | |||
- | ^ pin ^ signal ^ | ||
- | | 1 (square) | RX | | ||
- | | 2 | TX | | ||
- | | 3 | BOOT0 | | ||
- | | 4 | +5V | | ||
- | | 5 | GND | | ||
- | |||
- | Use any USB to UART converter and connect the corresponding pins to this port. | ||
- | Don't power the Baite dongle over USB since it might then boot the normal application. | ||
- | Instead let the USB to UART converter power it. | ||
- | To start the serial bootloader when powering the dongle you need to set BOOT0 high by connecting it to +3.3V or DTR (or any high signal present on the USB to UART converter). | ||
- | |||
- | To flash the Black Magic firmware I used [[https:// | ||
- | Since the flash is read/write protected you first need to clear these option bits. | ||
- | |||
- | <code bash> | ||
- | # disable flash read protection | ||
- | stm32flash -k / | ||
- | # disable flash write protection | ||
- | stm32flash -u / | ||
- | # erase flash | ||
- | stm32flash -o / | ||
- | # flash the DFU bootloader | ||
- | stm32flash -w blackmagic_dfu.bin -v / | ||
- | # flash the main firmware | ||
- | stm32flash -w blackmagic.bin -v -S 0x08002000 / | ||
- | </ | ||
- | |||
- | Unplug and re-plug the Baite dongle. | ||
- | The adapter should be running the main application and two USB CDC ACM ports will appear. | ||
- | |||
- | You can re-flash the device from the main application using the DFU bootloader with: | ||
- | <code bash> | ||
- | python2 ../ | ||
- | </ | ||
- | |||
- | Note: Since this adapter is based on an STM32F103C8 micro-controller with 64 kB of flash the DFU bootloader only advertises 56 kB of flash available for the main application. | ||
- | Because the blackmagic firmware exceeds this size it will not be possible to flash it through if the DFU software doesn' | ||
- | STM32F103C8 micro-controllers often have 128 kB of flash though, thus it is still possible to flash the blackmagic firmware using the serial bootloader (at address 0x08002000, with verification enbaled ot ensured the whole firmware has been written successfully) or '' | ||
- | |||
- | Here is the new "BMP Baite" {{ : | ||
- | ^ signal ^ pin ^ pin ^ signal ^ | ||
- | | SRST | 1 | 2| +3.3V | | ||
- | | +5V | 3 | 4 | JTCK/SWCLK | | ||
- | | RX | 5 (key) | 6 | JTMS/SWDIO | | ||
- | | GND | 7 | 8 | JTDO/ | ||
- | | TX | 9 | 10 | JTDI | | ||
- | |||
- | **note**: the RX pin is pulled up by a 620 ohms resistor. Thus the TX connected to BMP Baite must by strong enough to drive it low (e.g. not like with the CH340 USB to UART converter). | ||
- | |||
- | If you connect SRST to the target NRST, it is even possible to reset the target board without having to press on the on-board reset button (of there is any): | ||
- | <code bash> | ||
- | gdb --eval-command=" | ||
- | </ | ||
===== Altera USB-Blaster ===== | ===== Altera USB-Blaster ===== | ||
Line 385: | Line 312: | ||
==== PIC USB-Blaster ==== | ==== PIC USB-Blaster ==== | ||
- | This one uses a Microchip PIC18F14 micro-controller and has no buffer (thus only supporting | + | This one uses a Microchip PIC18F14 micro-controller |
{{: | {{: | ||
Line 438: | Line 365: | ||
Here a J-Link v10. | Here a J-Link v10. | ||
- | This is currently the only version being developed on. | ||
It uses a NXP LPC4337 which supports USB high speed, and allows faster debugging speeds. | It uses a NXP LPC4337 which supports USB high speed, and allows faster debugging speeds. | ||
In addition to the others, it adds cJTAG support: | In addition to the others, it adds cJTAG support: | ||
Line 444: | Line 370: | ||
{{: | {{: | ||
{{: | {{: | ||
+ | |||
+ | Here a [[https:// | ||
+ | It is supposed to be embedded on development board and provide an easy way to flash the main micro-controller. | ||
+ | It have much less capabilities (no JTAG, only SWD, ...) and less protections, | ||
+ | Additionally it provides a UART interface, ideal for printf debugging. | ||
+ | I actually can be implemented on several micro-controller, | ||
+ | |||
+ | {{: | ||
+ | {{: | ||
+ | |||
+ | |||
===== Texas Instruments XDS100v3 ===== | ===== Texas Instruments XDS100v3 ===== | ||
Line 456: | Line 393: | ||
===== DISTORTEC JTAG-lock-pick Tiny 2 ===== | ===== DISTORTEC JTAG-lock-pick Tiny 2 ===== | ||
- | The [[http:// | + | The [[http:// |
{{: | {{: |
jtag.txt · Last modified: 2024/01/07 17:49 by 127.0.0.1