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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 09:13:47 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 09:13:47 +0000 |
commit | 102b0d2daa97dae68d3eed54d8fe37a9cc38a892 (patch) | |
tree | bcf648efac40ca6139842707f0eba5a4496a6dd2 /docs/plat/imx8m.rst | |
parent | Initial commit. (diff) | |
download | arm-trusted-firmware-eab28e853379ac7fd9284999ce6a23ee432c4b6d.tar.xz arm-trusted-firmware-eab28e853379ac7fd9284999ce6a23ee432c4b6d.zip |
Adding upstream version 2.8.0+dfsg.upstream/2.8.0+dfsgupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'docs/plat/imx8m.rst')
-rw-r--r-- | docs/plat/imx8m.rst | 113 |
1 files changed, 113 insertions, 0 deletions
diff --git a/docs/plat/imx8m.rst b/docs/plat/imx8m.rst new file mode 100644 index 0000000..f8071f7 --- /dev/null +++ b/docs/plat/imx8m.rst @@ -0,0 +1,113 @@ +NXP i.MX 8M Series +================== + +The i.MX 8M family of applications processors based on Arm Corte-A53 and Cortex-M4 +cores provide high-performance computing, power efficiency, enhanced system +reliability and embedded security needed to drive the growth of fast-growing +edge node computing, streaming multimedia, and machine learning applications. + +imx8mq is dropped in TF-A CI build due to the small OCRAM size, but still actively +maintained in NXP official release. + +Boot Sequence +------------- + +Bootrom --> SPL --> BL31 --> BL33(u-boot) --> Linux kernel + +How to build +------------ + +Build Procedure +~~~~~~~~~~~~~~~ + +- Prepare AARCH64 toolchain. + +- Build spl and u-boot firstly, and get binary images: u-boot-spl.bin, + u-boot-nodtb.bin and dtb for the target board. + +- Build TF-A + + Build bl31: + + .. code:: shell + + CROSS_COMPILE=aarch64-linux-gnu- make PLAT=<Target_SoC> bl31 + + Target_SoC should be "imx8mq" for i.MX8MQ SoC. + Target_SoC should be "imx8mm" for i.MX8MM SoC. + Target_SoC should be "imx8mn" for i.MX8MN SoC. + Target_SoC should be "imx8mp" for i.MX8MP SoC. + +Deploy TF-A Images +~~~~~~~~~~~~~~~~~~ + +TF-A binary(bl31.bin), u-boot-spl.bin u-boot-nodtb.bin and dtb are combined +together to generate a binary file called flash.bin, the imx-mkimage tool is +used to generate flash.bin, and flash.bin needs to be flashed into SD card +with certain offset for BOOT ROM. the u-boot and imx-mkimage will be upstreamed +soon, this doc will be updated once they are ready, and the link will be posted. + +TBBR Boot Sequence +------------------ + +When setting NEED_BL2=1 on imx8mm. We support an alternative way of +boot sequence to support TBBR. + +Bootrom --> SPL --> BL2 --> BL31 --> BL33(u-boot with UEFI) --> grub + +This helps us to fulfill the SystemReady EBBR standard. +BL2 will be in the FIT image and SPL will verify it. +All of the BL3x will be put in the FIP image. BL2 will verify them. +In U-boot we turn on the UEFI secure boot features so it can verify +grub. And we use grub to verify linux kernel. + +Measured Boot +------------- + +When setting MEASURED_BOOT=1 on imx8mm we can let TF-A generate event logs +with a DTB overlay. The overlay will be put at PLAT_IMX8M_DTO_BASE with +maximum size PLAT_IMX8M_DTO_MAX_SIZE. Then in U-boot we can apply the DTB +overlay and let U-boot to parse the event log and update the PCRs. + +High Assurance Boot (HABv4) +--------------------------- + +All actively maintained platforms have a support for High Assurance +Boot (HABv4), which is implemented via ROM Vector Table (RVT) API to +extend the Root-of-Trust beyond the SPL. Those calls are done via SMC +and are executed in EL3, with results returned back to original caller. + +Note on DRAM Memory Mapping +~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +There is a special case of mapping the DRAM: entire DRAM available on the +platform is mapped into the EL3 with MT_RW attributes. + +Mapping the entire DRAM allows the usage of 2MB block mapping in Level-2 +Translation Table entries, which use less Page Table Entries (PTEs). If +Level-3 PTE mapping is used instead then additional PTEs would be required, +which leads to the increase of translation table size. + +Due to the fact that the size of SRAM is limited on some platforms in the +family it should rather be avoided creating additional Level-3 mapping and +introduce more PTEs, hence the implementation uses Level-2 mapping which +maps entire DRAM space. + +The reason for the MT_RW attribute mapping scheme is the fact that the SMC +API to get the status and events is called from NS world passing destination +pointers which are located in DRAM. Mapping DRAM without MT_RW permissions +causes those locations not to be filled, which in turn causing EL1&0 software +not to receive replies. + +Therefore, DRAM mapping is done with MT_RW attributes, as it is required for +data exchange between EL3 and EL1&0 software. + +Reference Documentation +~~~~~~~~~~~~~~~~~~~~~~~ + +Details on HABv4 usage and implementation could be found in following documents: + +- AN4581: "i.MX Secure Boot on HABv4 Supported Devices", Rev. 4 - June 2020 +- AN12263: "HABv4 RVT Guidelines and Recommendations", Rev. 1 - 06/2020 +- "HABv4 API Reference Manual". This document in the part of NXP Code Signing Tool (CST) distribution. + |