Hi Robert, The FSR value of 0x1c06 represents an asynchronous abort. In this case, the address reported cannot be trusted! The abort occurs when a physical address is accessed that has no valid backing RAM or device register. We have had lots of fun with this feature on the SabreLite. Common causes are: * Accessing device registers that do exist (some devices have voids in the middle of their address map). * If you (for some reason) map a device with the cacheable attribute, all addresses which would be used to fill the cache line must be valid (again, watch out for voids). * Some UART registers are unavailable when the appropriate enable bits are not set. My advice to you is to check that you are using the correct physical address for your device mappings (Including the kernel IRQ controller and timer). Also, the first printf at userspace may trigger the initialisation of the default UART (which will be incorrect in your case). https://github.com/seL4/libplatsupport/blob/master/plat_include/imx6/platsup... There may also be slight differences in the availability of device registers between the 2 SoCs. - Alex ________________________________________ From: Devel [devel-bounces@sel4.systems] on behalf of Robert Kaiser [robert.kaiser@hs-rm.de] Sent: Sunday, 15 March 2015 19:03 To: devel@sel4.systems Subject: [seL4] Wandboard Port Hello, in an attempt to familiarize myself with the seL4 code, I am trying to "port" it to the Wandboard (see www.wandboard.org). This should be an easy task for a beginner (thought I) since the board is very similar to the SabeLite, and seL4 is already running well on that board. I have access to a SabreLite and a Wandboard Quad, both (according to U-boot) have the same revision of the iMX6 SoC installed. Differences between the Sabre and the Wand I have noticed so far are: - 2GB of RAM from (0x10000000 to 0x90000000) on the Wand (Sabrelite has 1GB) - Wand uses UART1 for debug output, Sabrelite: UART2 I compiled an sel4test project where I adapted the UART port in kernel/include/plat/imx6/plat/machine/devices.h and elfloader/src/arch-arm/plat-imx6/platform.h and the RAM size in kernel src/plat/imx6/machine/hardware.c. When I boot this system, I get: Jumping to kernel-image entry point... Bootstrapping kernel Caught cap fault in send phase at address 0x0 while trying to handle: vm fault on data at address 0x9f11c2e0 with status 0x1c06 in thread 0xffdfad00 at address 0x13294 (Needless to say, "all is well in the universe" on the SabreLite... ) What is not shown here are a ton of other debug messages which I have added to convince myself that kernel initialization completes as expected. The crash seems to happen upon entry into user code. The address 0x13294 is the virtual address of the entry point: $ nm build/arm/imx6/sel4test-driver/sel4test-driver.bin | grep 13294 00013294 T _sel4_start I suspect that this fault happens on opcode fetch, because the user code is not properly mapped when invoked. Does "status 0x1c06" confirm this? If so, *should* the code be mapped at this point or are these mappings expected to be installed "on demand", i.e. through page fault handling? Thanks for any help... Robert -- Robert Kaiser Computer Engineering RheinMain University of Applied Sciences _______________________________________________ Devel mailing list Devel@sel4.systems https://sel4.systems/lists/listinfo/devel ________________________________ The information in this e-mail may be confidential and subject to legal professional privilege and/or copyright. National ICT Australia Limited accepts no liability for any damage caused by this email or its attachments.