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This is the source code for SIMtrace 2 firmwares.
= Hardware
== Micro-Controller
The firmware is for Microchip (formerly Atmel) ATSAM3S4B micro-controllers (MCU).
Product page:
Note: The SAM3S is now not recommended for new designs.
It can be replaced by the pin-compatible SAM4S.
The MCU can be specified using the environment variable `CHIP` (set to `sam3s4` per default) for future MCU support.
== Boards
The SIMtrace 2 firmware supports multiple boards.
A board defines a given circuit board.
While compiling the firmware, set the target board using the `BOARD` environment variable (set to `qmod` per default).
The supported boards correspond to sub-folders under `libboard`.
Current boards supported are:
* `simtrace`: The good old Osmocom SIMtrace PCB with SAM3 instead of SAM7, open hardware.
* `qmod`: A sysmocom-proprietary quad mPCIe carrier board, publicly available
* `owhw`: An undisclosed sysmocom-internal board, not publicly available
* `octsimtest`: A sysmocom-proprietary production testing board, not publicly available
= Firmware
== Library
The firmware uses the manufacturer provided Software Package (SoftPack) micro-controller library.
The original library is available at .
Version 2.1 from 2001 is used:
The SIMtrace 2 project uses the `libboard_sam3s-ek`, `libchip_sam3s`, and `usb` sub-libraries, saved in `atmel_softpack_libraries` (with local modifications).
Note: SoftPack is the legacy micro-controller library.
This library is now replaced by the Advanced Software Framework (ASF): .
The SAM3S ASF documentation is available at .
== Applications
An application is a specific piece of software with given functionality.
While compiling the firmware, set the target application using the `APP` environment variable (set to `dfu` per default).
The supported applications correspond to sub-folder under `apps`.
Current applications supported are:
* `dfu`: The USB DFU bootloader to flash further main appliction firmwares.
* `ccid`: To use SIMtrace 2 as USB CCID smartcard reader.
* `cardem`: To provide remote SIM operation capabilities.
* `trace`: To monitor the communication between a SIM card and a phone (corresponds to the functionality provide by the first SIMtrace)
* `triple_play`: To support the three previous functionalities, using USB configurations.
* `gpio_test`: internal test code
== Memories
Firmwares can be run from several memory locations:
* flash: Run natively from start of flash memory
* dfu: Run after a DFU bootloader from an offset after the first 16k of flash (the first 16k are reserved for the bootloader)
* ram: Run from within the RAM of the chip, downloaded via JTAG/SWD
== Building
A given firmware build is made for a specific combination of an application `APP` running in a certain memory `MEM` on a given board `BOARD`.
When building using `make`, set the target application using the `APP` environment variable and target board using the `BOARD` environment variable, e.g.:
* make APP=cardem BOARD=qmod
* make APP=dfu BOARD=qmod
The Makefile will create output files in the format: `bin/$(BOARD)-$(APP)-$(MEM).{elf,bin}`
The level of debug messages can be altered at compile time:
$ make TRACE_LEVEL=4
Accepted values: 0 (NO_TRACE) to 5 (DEBUG)
The qmod specific option `ALLOW_PEER_ERASE` controls if the UART debug command to assert the peer SAM3S ERASE line is present in the code.
Per default this is set to 0 to prevent accidentally erasing all firmware, including the DFU bootloader, which would then need to be flashed using SAM-BA or JTAG/SWD.
Setting `ALLOW_PEER_ERASE` to 1 enables back the debug command and should be used only for debugging or development purposes.
= Flashing
To flash a firmware image follow the instructions provided in the [wiki](