jtag
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jtag [2016/02/17 10:22] – fix JTAG to SWJ, restructure kingkevin | jtag [2017/04/25 14:07] – kingkevin | ||
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The Debug Port is often called JTAG-DP for JTAG and SW-DP for SWD. | The Debug Port is often called JTAG-DP for JTAG and SW-DP for SWD. | ||
SWJ capable device include and often combine both, as the SWD signal pins SWDIO and SWCLK re-use the JTAG signal pin JTMS and JTCK (backwards compatible). | SWJ capable device include and often combine both, as the SWD signal pins SWDIO and SWCLK re-use the JTAG signal pin JTMS and JTCK (backwards compatible). | ||
+ | Most 32 bits micro-controllers and SoCs have one of both (or both). | ||
- | Most 32 bits micro-controllers and SoCs have one of both (or both).\\ | ||
On the other side you need a SWJ adapter so the host can speak to the device using the JTAG and/or SWD protocol. | On the other side you need a SWJ adapter so the host can speak to the device using the JTAG and/or SWD protocol. | ||
SWJ adapters can go from cheap (<5$) to expensive (> | SWJ adapters can go from cheap (<5$) to expensive (> | ||
Line 57: | Line 57: | ||
I am using cheap clones. | I am using cheap clones. | ||
+ | ==== ST-LINK/V2 clone ==== | ||
- | ==== BAITE ==== | + | {{: |
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
- | The first clone is a [[http:// | + | This is a complete rip-off of the [[http:// |
- | It supports JTAG, SWD, and SWIM (for STM8). | + | It comes in the same box, with the same cables, the enclosure is the same, even the board name has been taken over (MB936), but the board isn't the same. |
+ | The BOM doesn' | ||
+ | The original adapter come with ESD protection, protection resistors, and a transceiver to allow operating with target signal levels of 1.65V to 5.5V. | ||
+ | This is completely missing on the clone since the connector pins are directly connected to the micro-controller. | ||
+ | Thus it only supports target signal levels of 3.3V and sometimes 5V since the pins are 5V tolerant. | ||
+ | |||
+ | For $9 you can't expect more, and if you want a cheap adapter I recommend the other ones (see below). | ||
+ | |||
+ | ==== ST-LINK V2 aluminium ==== | ||
+ | |||
+ | These adapters come in a small dongle sized aluminium case. | ||
+ | They supports SWD, and SWIM (for STM8), but not JTAG. | ||
+ | |||
+ | At $2.5 they are the cheapest clones you can find.\\ | ||
+ | One trick to get this ridiculously low price is to use STM32F101 micro-controllers. | ||
+ | Compared to the STM32F103 micro-controllers they offer less functionalities, | ||
+ | Well this is because these micro-controllers use the same die, but if not all STM32F103 feature tests pass after production they get packages as STM32F101, but it seems that USB still works well enough. | ||
+ | At least this is my guess. | ||
+ | It would be interesting to check if the other STM32F103 peripherals normally not present on the STM32F101 work as well, but I wouldn' | ||
+ | After all, they are probably marked as STM32F101 for a good reason.\\ | ||
+ | Similarly the STM32F103C8 is only rated having 64 kB of flash because it didn't pass the flash test, compared to the 128 kB for the STM32F103CB, | ||
+ | |||
+ | Several board versions exist and it is hard to know what you will get. | ||
+ | Always check the pinout on the aluminium case since this also varies. | ||
+ | |||
+ | === 2014-06-22 ST-LINK V2 === | ||
+ | |||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
+ | |||
+ | I've also reversed the {{: | ||
+ | |||
+ | One other nice trick they used is to have twos LEDs on the same pin (PA9): | ||
+ | * when the pin is set to output high, only one LED lights up | ||
+ | * when the pin is set to output low, the other LED light up | ||
+ | * when set to input floating, both LEDs are off | ||
+ | * when PWM output is used, you can mix the two colors (red and blue) quite well due to the persistence of vision (also because the LEDs are next to each other and the small hole in the case is in the center). | ||
+ | |||
+ | === swapped === | ||
+ | |||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
+ | |||
+ | From the outside this looks very similar to the previous one, except that the connector pinout is very different (except for power) and there is only one LED.\\ | ||
+ | No markings are on the board. | ||
+ | |||
+ | === 2016-01-18 MX-LINK V2 === | ||
+ | |||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
+ | |||
+ | This one has an " | ||
+ | ==== Baite ==== | ||
+ | |||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
+ | |||
+ | The [[http:// | ||
+ | |||
+ | The seem to use the same board also for several other programmers, | ||
- | {{: | ||
- | {{: | ||
- | {{: | ||
{{: | {{: | ||
{{: | {{: | ||
- | STM32F103C8 connection: | + | I've also reversed the board layout to get the {{:jtag: |
- | ^ STM32F103C8 signal ^ STM32F103C8 pin ^ adapter pin ^ adapter signal ^ | + | The connector pins are all protected with 220 ohms resistors. |
- | | PA7 | 17 | 1 | JRST | | + | |
- | | AMS1117 | | 2 | 3V3 | | + | |
- | | USB VCC | | 3 | 5V | | + | |
- | | PA4 | 14 | 4 | JTCK/SWCLK | | + | |
- | | PB11 | 22 | 5 | SWIM | | + | |
- | | PA14 | 37 | 6 | JTMS/SWDIO | | + | |
- | | USB GND | | 7 | GND | | + | |
- | | PA5 | 15 | 8 | JTDO | | + | |
- | | PB6 | 42 | 9 | SWIM_RST | | + | |
- | | PA6 | 16 | 10 | JTDI | | + | |
- | | PB12,PB14 | 25,27 | | 100 ohms | | + | |
- | | PB5 | 41 | | LED | | + | |
- | the adapter pins are protected with a 220 ohms resistor. | + | {{: |
+ | {{: | ||
- | ==== aluminium ==== | + | There is a newer version marked as " |
+ | * all pads for the micro-controller are present (there is even solder mask between them) | ||
+ | * they added a SWD port | ||
+ | * the STM32F103C8 has been replaced with a STM32F101CB, | ||
+ | * the passives are smaller | ||
+ | * the routing is horrible | ||
- | This [[http:// | + | ===== Black Magic Probe ===== |
- | It supports SWD, and SWIM (for STM8), but not JTAG. | + | |
- | They replaced the additional JTAG pins with power pins. | + | |
- | {{:jtag: | + | The [[https://github.com/ |
- | {{: | + | Thus no need to have an OpenOCD server to control the SWJ adapter. |
- | {{: | + | You can directly connect GDB to this adapter (over USB CDC ACM).\\ |
- | {{: | + | It also comes with a UART port (over a second USB CDC ACM). |
+ | This is very useful while developing (for printf debugging). | ||
- | STM32F103C8 connection: | + | The hardware comes with some disadvantages though: |
- | ^ STM32F103C8 signal ^ STM32F103C8 pin ^ adapter pin ^ adapter signal ^ | + | |
- | | PB6 | 42 | 1 | RST | | + | |
- | | PB14 | 27 | 2 | SWDIO | | + | |
- | | USB GND | | 3 | GND | | + | |
- | | USB GND | | 4 | GND | | + | |
- | | PB8/PB11 | 45/22 | 5 | SWIM | | + | |
- | | PA5/PB13 | 15/26 | 6 | SWCLK | | + | |
- | | LDO VCC | | 7 | 3.3V | | + | |
- | | LDO VCC | | 8 | 3.3V | | + | |
- | | USB VCC | | 9 | 5V | | + | |
- | | USB VCC | | 10 | 5V | | + | |
- | | PA9 | 30 | current source | + | |
+ | But because the firmware is open source it is possible to port it to other hardware, and [[https:// | ||
+ | It has been [[https:// | ||
+ | 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 | ||
+ | wget -O 0001-add-new-platform-Baite-ST-Link-V2-clone.patch " | ||
+ | patch -p1 < 0001-add-new-platform-Baite-ST-Link-V2-clone.patch | ||
+ | make | ||
+ | cd src | ||
+ | make clean | ||
+ | make PROBE_HOST=baite | ||
+ | </ | ||
+ | |||
+ | First we need to re-program 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 DFU bootloader 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 DFU bootloader | ||
+ | stm32flash -w blackmagic/ | ||
+ | </ | ||
+ | |||
+ | Unplug and re-plug the Baite dongle and you should see the device in DFU bootlader mode. | ||
+ | Flash the main application firmware using dfu-util: | ||
+ | <code bash> | ||
+ | dfu-util -d 1d50:6017 -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 dfu-util: | ||
+ | <code bash> | ||
+ | dfu-util -d 1d50:6018 -s 0x08002000: | ||
+ | </ | ||
+ | |||
+ | or short RX to ground (pin 5 and 7) to force the DFU bootloader start when plugin in the dongle (in case the main application is buggy). | ||
+ | |||
+ | 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 ===== | ||
jtag.txt · Last modified: 2024/01/07 17:49 by 127.0.0.1