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CW308T-SAM4L

4,819 bytes removed, 19:33, 29 July 2020
Replaced content with "== Page Moved == See [https://rtfm.newae.com/Targets/UFO%20Targets/CW308T-ATSAM4L/ NewAE RTFM Page] which is now built from the [https://github.com/newaetech/chipwhispere..."
{{Infobox cw308target|name = CW308T-SAM4L|image = SAM4L-Top-small.jpg|caption Page Moved = |Target Device = Atmel SAM4L|Target Architecture = ARM Cortex M4|Hardware Crypto = Yes|Purchase Hardware = |Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]
See [https://oshparkrtfm.newae.com/projectsTargets/Dkr9ybuJ OSH Park PCBsUFO%20Targets/CW308T-ATSAM4L/ NewAE RTFM Page]|Supported Applications = which is now built from the [[SimpleSerial | Simple Serial Enchttps:/Auth/github.com/newaetech/chipwhisperer-target-cw308t GIT Repo]]|Status = Released}}.
This board supports the Atmel SAM4L microcontroller. The default build has the Atmel ATSAM4LC2AA-AU, which has 128KB flash and 32KB SRAM. == Power Supply == The Atmel SAM4L has an internal 1.8V regulator. This regulator is not used in the board, instead power for the core is supplied by an external LDO previous content on the UFO board. Be sure to enable the 1.8V and 3.3V regulators on the UFO board for the SAM4L board to function. == Hardware AES == The SAM4L has a hardware AES module, with optional countermeasures that can be enabled. These countermeasures are described in the SAM4L datasheet as the following options: * Type 1: Randomly add one cycle to data processing* Type 2: Randomly add one cycle to data processing (other version)* Type 3: Add a random number of clock cycles to data processing, subject to a maximum of 11 clock cycles for key size of 128 bits* Type 4: Add random spurious power consumption during data processing Interestingly they can be individually enabled/disabled. This makes the SAM4L a useful training target for power analysis attacks against various hardware countermeasures. == Programming == An external programmer is needed for this target. The SAM4L wiki has an internal bootloader you can use via an external serial port, which is not yet supported directly by the ChipWhisperer-Capture software. === JTAG Programmer === The 20-pin JTAG port (J6 on CW308 Board) can be used with the [https://www.digikey.com/product-detail/en/microchip-technology/ATATMEL-ICE/ATATMEL-ICE-ND/4753379 ATATMEL-ICE] which is Atmel's JTAG programmer. You can use any other ARM programmer you might have as well (i.e., OpenOCD, Segger J-Link, etc). [[File:sam_jtag_small.jpg|400px]] === Using Atmel SAM-BA === Atmel SAM4L has a built-in bootloader. Not this bootloader is NOT ROM-Resident - if you reprogram the device the bootloader is lost, since it is stored in flash memory. It is recommended been moved to use an external JTAG programmer for this target, as since the bootloader is not ROM-resident it can easily be overwritten by accident (iabove link.e., See wiki history if connecting a JTAG programmer). == SimpleSerial Program == The SimpleSerial-AES program can be built for this target. This can use either hardware crypto or a software AES. This project is currently built via the Atmel Studio IDE, and the project file is located at [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/firmware/simpleserial-aes/ide_projects/asf/sam4l-simpleserial-aes hardware/victims/firmware/simpleserial-aes/ide_projects/asf/sam4l-simpleserial-aes] with the ChipWhisperer release. If an Atmel ICE is attached as above, you should be able would like to build and run the example in 'debug' mode: [[File:sam4l_ide.png|400px]] An automatically generated makefile can be modified to built in Linux, but currently has not been integrated into the rest view exact older versions of the system. This makefile is checked into the GIT repository. === Adjusting Hardware AES === Inside the file ''hwaes.c'' you will find the AES hardware initilization. This is given in the following code sample: <syntaxhighlight lang=c>void aes_init(void){ periclk_aesa_init(); SCIF->SCIF_GCCTRL[AESA_GCLK_NUM].SCIF_GCCTRL = SCIF_GCCTRL_OSCSEL(GENCLK_SRC_CLK_CPU) | SCIF_GCCTRL_CEN;  /* AES Enable */ AESA->AESA_CTRL = AESA_CTRL_ENABLE | AESA_CTRL_NEWMSG; /* Enable, auto-accept new messages */ //Use with debugger to check PARAMETER register value //volatile uint32_t param = AESA->AESA_PARAMETER; /* AES Mode */ AESA->AESA_MODE = AESA_MODE_ENCRYPT | (AESA_MODE_CTYPE(0x0F)); /* Encrypt Mode, with all countermeasures */ //AESA->AESA_MODE = AESA_MODE_ENCRYPT; /* Encrypt Mode, without countermeasures */ /* Setup random seed for countermeasures to work */ AESA->AESA_DRNGSEED = 0xDEADBEEF; //A very random number }</syntaxhighlight> Note there are two options shown, where countermeasures can be enabled or disabled. You can see the SAM4L datasheet for a description of the countermeasures. The following compares the power traces with and without countermeasures: The following shows countermeasures enabled, you can see various execution paths taken during the encryption: [[File:sam4l_wcountermeasures.png|600px]] Compare this to the countermeasures disabled: [[File:sam4l_nocountermeasures.png|600px]] == Schematic == See GIT Repo for PDF of schematic. [[File:CW308T-SAM4L-02_schematic_Page_1.png|1000px]] [[File:CW308T-SAM4L-02_schematic_Page_2.png|1000px]] == Board Layout == See GIT Repo for gerber filespage== Hardware == {{Template:Hardware}}[[Category:CW308 Targets]]
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