Triss 444d805f0b | ||
---|---|---|
CMSIS_5@13b9f72f21 | ||
bsp | ||
cmake | ||
host | ||
libco | ||
scripts | ||
src | ||
tinyusb@d49938d0f5 | ||
.clang-format | ||
.gitignore | ||
.gitmodules | ||
CMakeLists.txt | ||
COPYING | ||
LICENSE | ||
LICENSE.dappermime | ||
README.md | ||
dmctl.py | ||
dmctl2.py | ||
dmctl3.py |
README.md
DapperMime-JTAG
(name is still WIP)
This project attempts to add Bus Pirate/...-like functionality to a number of MCUs, mainly the Raspberry Pi Pico. It was originally based on Dapper Mime, an SWD debugger probe implementation, with the goal of adding JTAG support as well. However, more and more features got added over time.
Variants
Most support and development effort goes to the RP2040/Pico, but, due to the projects' structure still being based on Dapper Mime's, it is relatively easy to add support for another MCU/board. Any MCU supported by TinyUSB should work. Features can also be disabled per MCU.
Adding support for another MCU is a matter of adding another subfolder in the
./bsp
folder, implementing the functionality (which only concerns itself with
sending commands to the hardware, protocol parsing is done by shared code),
and handling it in the CMakeFiles.txt
file.
Building
After initially downloading this project's code, issue the following command to download TinyUSB and CMSIS 5 code:
git submodule update --init --recursive
Compilation is done using CMake:
mkdir cmake-build && cd cmake-build
cmake -DBOARD=raspberry_pi_pico -DFAMILY=rp2040 -DCMAKE_BUILD_TYPE=RelWithDebInfo ..
BOARD
and FAMILY
should correspond to those used in the TinyUSB hw
folder,
and with the folders used in ./bsp
as well.
A non-exhaustive list of possible BOARD/FAMILY combinations:
FAMILY |
BOARD |
description | notes |
---|---|---|---|
rp2040 |
raspberry_pi_pico |
Raspberry Pi Pico | default |
Notes on compiling for the RP2040 Pico
If you have the Pico SDK installed on your system, and the PICO_SDK_PATH
environment variable is specified properly, you can omit the --recursive
flag
in the git submodule
invocation (to avoid many many git clones), and pass
the -DUSE_SYSTEMWIDE_PICOSDK=On
flag to CMake, too.
Other options are:
-DPICO_NO_FLASH=[On|Off]
: store the binary in RAM only, useful for development.-DPICO_COPY_TO_RAM=[On|Off]
: write to flash, but always run from RAM-DUSE_USBCDC_FOR_STDIO=[On|Off]
: export an extra USB-CDC interface for debugging
Usage
These microcontrollers support the following protocols:
MCU | SWD | JTAG | UART | SPI (flashrom) | I2C | Other stuff |
---|---|---|---|---|---|---|
RP2040 | X | X | X | X | X | Planned |
The original repository (Dapper Mime) supported only SWD and UART, and worked for the RP2040 Pico and the STM32F072 Discovery. This fork focusses on adding more protocols, but the author of this fork only has a Raspberry Pi Pico.
The pin mapping for the RP2040 is as follows:
Pin number | Usage | Usage | Pin number |
---|---|---|---|
GP0 | stdio UART TX | VBUS | |
GP1 | stdio UART RX | VSYS | |
GND | <ground> | <ground> | GND |
GP2 | SWCLK/TCK | 3V3 EN | |
GP3 | SWDIO/TMS | 3V3 OUT | |
GP4 | TDI | ADC VREF | |
GP5 | TDO | GP28 / ADC2 | |
GND | <ground> | <ground> | GND / AGND |
GP6 | nTRST | GP27 / ADC1 | |
GP7 | nRESET | GP26 / ADC0 | |
GP8 | UART TX | RUN | |
GP9 | UART RX | (1-wire, TODO) | GP22 |
GND | <ground> | <ground> | GND |
GP10 | UART CTS | SCL | GP21 |
GP11 | UART RTS | SDA | GP20 |
GP12 | MISO | GP19 | |
GP13 | nCS | GP18 | |
GND | <ground> | <ground> | GND |
GP14 | SCLK | GP17 | |
GP15 | MOSI | GP16 | |
<end> | <bottom> | <bottom> | <end> |
On the RP2040, two USB CDC interfaces are exposed: the first is the UART
interface, the second is for Serprog. If you have no other USB-CDC intefaces,
these will be /dev/ttyACM0
and /dev/ttyACM1
, respectively. If you have
enabled the USE_USBCDC_FOR_STDIO
option, there will be a third device file.
UART
The UART pins are for connecting to the device to be debugged, the data is
echoed back over the USB CDC interface (typically a /dev/ttyACMx
device on
Linux). If you want to get stdio readout of this program on your computer,
connect GP0 to GP5, and GP1 to GP4, or alternatively, use the
USE_USBCDC_FOR_STDIO
CMake flag, which adds an extra USB-CDC interface for
which stdio is used exclusively, while disabling stdio on the UART.
SWD and JTAG debugging
In SWD mode, the pin mapping is entirely as with the standard Picoprobe setup, as described in Chapter 5 and Appendix A of Getting Started with Raspberry Pi Pico
In JTAG mode, TCK and TMS have the same pins as SWCLK and SWDIO, respectively, TDI and TDO are on the next two consecutive free pins.
In your OpenOCD flags, use -f interface/cmsis-dap.cfg
. Default transport is
JTAG, if OpenOCD doesn't specify a default to the probe.
Serprog/Flashrom
For Serprog, use the following flashrom
options (if /dev/ttyACM1
is the USB
serial device on your machine corresponding to the Serprog CDC interface of the
Pico):
flashrom -c <flashchip> -p serprog:dev=/dev/ttyACM1:115200 <rest of the read/write cmd>
Different serial speeds can be used, too. Serprog support is techincally untested, as in it does output the correct SPI commands as seen by my logic analyzer, but I don't have a SPI flash chip to test it on.
I2C-Tiny-USB
The I2C-Tiny-USB functionality can be used as follows: first, load the
i2c-dev
and i2c-tiny-usb
modules (for now you need a patched version of the
latter, can be found in the i2c-tiny-usb-misc/
folder in this repo). Then you
can use the I2C USB bridge as any other I2C device on your computer. For
example, the i2cdetect
, i2cget
and i2cset
tools from i2c-tools
should
all work. You can find which I2C device corresponds to the I2C-Tiny-USB, by
running i2cdetect -l
:
$ sudo i2cdetect -l
[...]
i2c-1 i2c i915 gmbus dpb I2C adapter
i2c-8 i2c Radeon i2c bit bus 0x95 I2C adapter
i2c-15 i2c i2c-tiny-usb at bus 001 device 011 I2C adapter # <---- !
i2c-6 i2c Radeon i2c bit bus 0x93 I2C adapter
i2c-13 i2c AUX C/DDI C/PHY C I2C adapter
[...]
NOTE: I2C functionality sometimes breaks with certain USB hubs. If this is the case, try unplugging and replugging the entire hub.
I2C temperature sensor emulation
If the board/MCU has a builtin temperature sensor, a fake I2C device on the bus
can optionally be enabled to use it as a Jedec JC42.2-compliant temperature
sensor (the exact sensor emulated is the Microchip MCP9808). To have it show
up in sensors
, do the following (with BUSNUM
the number from the above
i2cdetect -l
output):
$ ./dmctl.py /dev/ttyACM1 --i2ctemp 0x18 # need to give it an address first
$ sudo modprobe jc42
$ # now tell the jc42 module that the device can be found at this address
$ echo "jc42 0x18" | sudo tee /sys/bus/i2c/devices/i2c-BUSNUM/new_device
$ sudo sensors # it should show up now:
jc42-i2c-BUSNUM-18
Adapter: i2c-tiny-usb at bus 001 device 032
temp1: +23.1°C (low = -20.0°C)
(high = +75.0°C, hyst = +75.0°C)
(crit = +80.0°C, hyst = +80.0°C)
Temperature readout may be a bit higher than the ambient temperature.
Runtime configuration
Several settings can be applied at runtime, using the dmctl
Python script.
Settings are communicated over the Serprog USB serial port.
The currently implemented options are:
support
: tells you which features this implementation/board supportsctsrts
: Enable/disable CTS/RTS-based hardware flow control for the UART porti2ctemp
: Get or set the I2C address of the fake I2C device of the temperature sensor. Use 0 for getting the value, 0xff for disabling, and any other for setting the address. The I2C device emulated is an MCP9808. When setting a value, the old value is printed.
usage: dmctl [-h] [-v] [--ctsrts [CTSRTS]] tty
Runtime configuration control for DapperMime-JTAG
positional arguments:
tty Path to DapperMime-JTAG Serprog UART device
optional arguments:
-h, --help show this help message and exit
-v, --verbose Verbose logging (for this utility)
--ctsrts [CTSRTS] Enable or disable CTS/RTS flow control (--ctsrts [true|false])
--i2ctemp [I2CTEMP] Control the builtin I2C temperature controller: get (0),
disable (-1/0xff) or set/enable (other) the current
status and I2C bus address
--support Get list of supported/implemented functionality
example:
$ ./dmctl.py /dev/ttyACM1 --ctsrts true
License
TinyUSB is licensed under the MIT license.
ARM's CMSIS 5 code is licensed under the Apache 2.0 license.
libco is licensed under the ISC license
TODO
- A name
- A (VID and) PID, and maybe better subclass & protocol IDs for the vnd cfg itf
- CMSIS-DAP JTAG implementation
- Flashrom/SPI support using Serprog
- Parallel ROM flashing support, too, by having the device switch into a
separate mode that temporarily disables all other IO protocols
- Not enough IO, rip.
- Parallel ROM flashing support, too, by having the device switch into a
separate mode that temporarily disables all other IO protocols
- UART with CTS/RTS flow control
- Needs configurable stuff as well, as some UART interfaces won't use this.
- Debug interface to send printf stuff directly to USB, instead of having
to use the UART interface as a loopback thing.
- Second UART port for when stdio UART is disabled?
- I2C support by emulating the I2C Tiny USB
- Expose RP2040-internal temperature ADC on I2C-over-USB bus?
Does SMBus stuff need special treatment here?No.Actually, some parts do, but, laziness.- 10-bit I2C address support (Needs poking at the Pico SDK, as it only supports 7-bit ones).
- Better USB interface stuff, because I2C-Tiny-USB sucks and serprog can only do flash chips instead of being a real spidev. General idea can probably be taken from the DLN2 Linux drivers, except better (dynamic interface signalled in the protocol (eg. does the device actually have I2C/SPI/..?), dynamic I2C and SPI capabilities, add 1wire stuff, maybe yeet the GPIO bc it'll be used for other stuff anyway, etc.). Means a custom Linux driver but oh well, I2C-Tiny-USB needs patching either way.
- 1-wire using ↑
- A proper interface for sending commands etc. instead of shoehorning it
into Serprog.
- Can probably be included in the "Better USB interface stuff".
- JTAG pinout detector
- Host-side script that is an XVC (or hw_server) cable and communicates
with the device to perform the JTAG commands, because Vivado no likey
OpenOCD.
- CMSIS-DAP interface can be used directly, see CMSIS_5/CMSIS/DoxyGen/DAP/src/dap_USB_cmds.txt
- https://github.com/BerkeleyLab/XVC-FTDI-JTAG
- https://www.eevblog.com/forum/fpga/xilinx-jtag-and-tcf/
- https://git.eclipse.org/c/tcf/org.eclipse.tcf.git/plain/docs/TCF%20Linux%20Agent%20Prototype.html
- http://www.eclipse.org/tcf/
- https://debugmo.de/2012/02/xvcd-the-xilinx-virtual-cable-daemon/
- https://github.com/Xilinx/XilinxVirtualCable/
- https://github.com/derekmulcahy/xvcpi
- OpenOCD as XVC client??
- SUMP logic analyzer mode?
- see also this
- FT2232 emulation mode?
- watch out, still need a vnd cfg interface! libftdi expects the following stuff: (TODO: acquire detailed protocol description)
- interface 0 ("A"): index 1, epin 0x02, epout 0x81
- interface 1 ("B"): index 2, epin 0x04, epout 0x83
- interface 2 ("C"): index 3, epin 0x06, epout 0x85
- interface 3 ("D"): index 4, epin 0x08, epout 0x87
- or, FX2 emulation mode??? (useful links: https://sigrok.org/wiki/Fx2lafw ; https://sigrok.org/wiki/CWAV_USBee_SX/Info )
- watch out, still need a vnd cfg interface! libftdi expects the following stuff: (TODO: acquire detailed protocol description)
- Mode where you can define custom PIO stuff for custom pinouts/protocols??????
- Maybe also with code that auto-reacts to stuff from the environment?
- Facedancer implementation by connecting two picos via GPIO, one doing host stuff, the other device, commands being sent over GPIO to do stuff
- Maybe use the ADCs for something?
- SD/MMC/SDIO (will be a pain)
- MSP430 programming
- AVR programming (USBavr emulation?)
- AVR ISP is hardly used anymore
- TPI/UPDI requires 5V levels, Pico doesn't do that :/
- debugWIRE????
- https://github.com/travisgoodspeed/goodfet/blob/master/firmware/apps/avr/avr.c
- PIC programming
- iCE40 programming??
- Renesas E7-{0,1,2} programming thing????
- Renesas tell us how this works pls
- Maybe steal other features from the Bus Pirate, HydraBus or Glasgow or so
- 3-wire? Never seen this one in the wild
- CAN? LIN? MOD? If I'd first be able to find a CAN device to test it with, sure