1. 14 Apr, 2021 1 commit
  2. 29 Mar, 2021 3 commits
    • Aditya Angadi's avatar
      board/rdv1mc: initialize tzc400 controllers · f97b5795
      Aditya Angadi authored
      
      
      A TZC400 controller is placed inline on DRAM channels and regulates
      the secure and non-secure accesses to both secure and non-secure
      regions of the DRAM memory. Configure each of the TZC controllers
      across the Chips.
      
      For use by secure software, configure the first chip's trustzone
      controller to protect the upper 16MB of the memory of the first DRAM
      block for secure accesses only. The other regions are configured for
      non-secure read write access. For all the remote chips, all the DRAM
      regions are allowed for non-secure read and write access.
      Signed-off-by: default avatarAditya Angadi <aditya.angadi@arm.com>
      Change-Id: I809f27eccadfc23ea0ef64e2fd87f95eb8f195c1
      f97b5795
    • Thomas Abraham's avatar
      plat/sgi: define default list of memory regions for dmc620 tzc · b4d548f1
      Thomas Abraham authored
      
      
      Define a default DMC-620 TZC memory region configuration and use it to
      specify the TZC memory regions on sgi575, rdn1edge and rde1edge
      platforms. The default DMC-620 TZC memory regions are defined
      considering the support for secure paritition as well.
      Signed-off-by: default avatarThomas Abraham <thomas.abraham@arm.com>
      Change-Id: Iedee3e57d0d3de5b65321444da51ec990d3702db
      b4d548f1
    • Thomas Abraham's avatar
      plat/sgi: refactor SDEI specific macros · a8834474
      Thomas Abraham authored
      
      
      The macros specific to SDEI defined in the sgi_base_platform_def.h are
      not applicable for all the platforms supported by plat/sgi. So refactor
      the SDEI specific macros into a new header file and include this file on
      only on platforms it is applicable on.
      Signed-off-by: default avatarThomas Abraham <thomas.abraham@arm.com>
      Change-Id: I0cb7125334f02a21cae1837cdfd765c16ab50bf5
      a8834474
  3. 24 Mar, 2021 1 commit
  4. 15 Mar, 2021 1 commit
    • Olivier Deprez's avatar
      SPM: declare third cactus instance as UP SP · e96fc8e7
      Olivier Deprez authored
      
      
      The FF-A v1.0 spec allows two configurations for the number of EC/vCPU
      instantiated in a Secure Partition:
      -A MultiProcessor (MP) SP instantiates as many ECs as the number of PEs.
      An EC is pinned to a corresponding physical CPU.
      -An UniProcessor (UP) SP instantiates a single EC. The EC is migrated to
      the physical CPU from which the FF-A call is originating.
      This change permits exercising the latter case within the TF-A-tests
      framework.
      Signed-off-by: default avatarOlivier Deprez <olivier.deprez@arm.com>
      Change-Id: I7fae0e7b873f349b34e57de5cea496210123aea0
      e96fc8e7
  5. 10 Mar, 2021 1 commit
  6. 01 Mar, 2021 1 commit
  7. 16 Feb, 2021 1 commit
  8. 15 Feb, 2021 1 commit
    • Andre Przywara's avatar
      plat/arm: juno: Condition Juno entropy source with CRC instructions · eb18ce32
      Andre Przywara authored
      
      
      The Juno Trusted Entropy Source has a bias, which makes the generated
      raw numbers fail a FIPS 140-2 statistic test.
      
      To improve the quality of the numbers, we can use the CPU's CRC
      instructions, which do a decent job on conditioning the bits.
      
      This adds a *very* simple version of arm_acle.h, which is typically
      provided by the compiler, and contains the CRC instrinsics definitions
      we need. We need the original version by using -nostdinc.
      
      Change-Id: I83d3e6902d6a1164aacd5060ac13a38f0057bd1a
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      eb18ce32
  9. 11 Feb, 2021 2 commits
    • Andre Przywara's avatar
      plat/arm: juno: Refactor juno_getentropy() · 543f0d8b
      Andre Przywara authored
      
      
      Currently we use the Juno's TRNG hardware entropy source to initialise
      the stack canary. The current function allows to fill a buffer of any
      size, but we will actually only ever request 16 bytes, as this is what
      the hardware implements. Out of this, we only need at most 64 bits for
      the canary.
      
      In preparation for the introduction of the SMCCC TRNG interface, we
      can simplify this Juno specific interface by making it compatible with
      the generic one: We just deliver 64 bits of entropy on each call.
      This reduces the complexity of the code. As the raw entropy register
      readouts seem to be biased, it makes sense to do some conditioning
      inside the juno_getentropy() function already.
      Also initialise the TRNG hardware, if not already done.
      
      Change-Id: I11b977ddc5417d52ac38709a9a7b61499eee481f
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      543f0d8b
    • Vijayenthiran Subramaniam's avatar
      plat/arm/rdn2: update TZC base address · 4e8060d2
      Vijayenthiran Subramaniam authored
      
      
      Update TZC base address to align with the recent changes in the platform
      memory map.
      Signed-off-by: default avatarVijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
      Change-Id: I0d0ad528a2e236607c744979e1ddc5c6d426687a
      4e8060d2
  10. 09 Feb, 2021 2 commits
    • Manish V Badarkhe's avatar
      plat/arm: fvp: Protect GICR frames for fused/unused cores · f98630fb
      Manish V Badarkhe authored
      
      
      Currently, BLs are mapping the GIC memory region as read-write
      for all cores on boot-up.
      
      This opens up the security hole where the active core can write
      the GICR frame of fused/inactive core. To avoid this issue, disable
      the GICR frame of all inactive cores as below:
      
      1. After primary CPU boots up, map GICR region of all cores as
         read-only.
      2. After primary CPU boots up, map its GICR region as read-write
         and initialize its redistributor interface.
      3. After secondary CPU boots up, map its GICR region as read-write
         and initialize its redistributor interface.
      4. All unused/fused core's redistributor regions remain read-only and
         write attempt to such protected regions results in an exception.
      
      As mentioned above, this patch offers only the GICR memory-mapped
      region protection considering there is no facility at the GIC IP
      level to avoid writing the redistributor area.
      
      These changes are currently done in BL31 of Arm FVP and guarded under
      the flag 'FVP_GICR_REGION_PROTECTION'.
      
      As of now, this patch is tested manually as below:
      1. Disable the FVP cores (core 1, 2, 3) with core 0 as an active core.
      2. Verify data abort triggered by manually updating the ‘GICR_CTLR’
         register of core 1’s(fused) redistributor from core 0(active).
      
      Change-Id: I86c99c7b41bae137b2011cf2ac17fad0a26e776d
      Signed-off-by: default avatarManish V Badarkhe <Manish.Badarkhe@arm.com>
      f98630fb
    • Manish V Badarkhe's avatar
      plat/arm: fvp: Do not map GIC region in BL1 and BL2 · e0cea783
      Manish V Badarkhe authored
      
      
      GIC memory region is not getting used in BL1 and BL2.
      Hence avoid its mapping in BL1 and BL2 that freed some
      page table entries to map other memory regions in the
      future.
      
      Retains mapping of CCN interconnect region in BL1 and BL2
      overlapped with the GIC memory region.
      
      Change-Id: I880dd0690f94b140e59e4ff0c0d436961b9cb0a7
      Signed-off-by: default avatarManish V Badarkhe <Manish.Badarkhe@arm.com>
      e0cea783
  11. 08 Feb, 2021 1 commit
  12. 05 Feb, 2021 1 commit
  13. 03 Feb, 2021 1 commit
  14. 02 Feb, 2021 1 commit
  15. 29 Jan, 2021 2 commits
    • Pranav Madhu's avatar
      plat/arm/board: enable AMU for RD-N2 · f7bab276
      Pranav Madhu authored
      
      
      AMU counters are used for monitoring the CPU performance. RD-N2 platform
      has architected AMU available for each core. Enable the use of AMU by
      non-secure OS for supporting the use of counters for processor
      performance control (ACPI CPPC).
      
      Change-Id: I5cc749cf63c18fc5c7563dd754c2f42990a97e23
      Signed-off-by: default avatarPranav Madhu <pranav.madhu@arm.com>
      f7bab276
    • Pranav Madhu's avatar
      plat/arm/board: enable AMU for RD-V1 · c9bf2cf5
      Pranav Madhu authored
      
      
      AMU counters are used for monitoring the CPU performance. RD-V1 platform
      has architected AMU available for each core. Enable the use of AMU by
      non-secure OS for supporting the use of counters for processor
      performance control (ACPI CPPC).
      
      Change-Id: I4003d21407953f65b3ce99eaa8f496d6052546e0
      Signed-off-by: default avatarPranav Madhu <pranav.madhu@arm.com>
      c9bf2cf5
  16. 11 Jan, 2021 2 commits
  17. 07 Jan, 2021 1 commit
    • Pali Rohár's avatar
      Makefile: Do not mark file targets as .PHONY target · a9812206
      Pali Rohár authored
      
      
      Only non-file targets should be set a .PHONY. Otherwise if file target is
      set as .PHONY then targets which depends on those file .PHONY targets would
      be always rebuilt even when their prerequisites are not changed.
      
      File target which needs to be always rebuilt can be specified in Make
      system via having a prerequisite on some .PHONY target, instead of marking
      whole target as .PHONY. In Makefile projects it is common to create empty
      .PHONY target named FORCE for this purpose.
      
      This patch changes all file targets which are set as .PHONY to depends on
      new .PHONY target FORCE, to ensure that these file targets are always
      rebuilt (as before). Basically they are those targets which calls external
      make subprocess.
      
      After FORCE target is specified in main Makefile, remove it from other
      Makefile files to prevent duplicate definitions.
      Signed-off-by: default avatarPali Rohár <pali@kernel.org>
      Change-Id: Iee3b4e0de93879b95eb29a1745a041538412e69e
      a9812206
  18. 16 Dec, 2020 1 commit
  19. 14 Dec, 2020 2 commits
  20. 09 Dec, 2020 3 commits
  21. 08 Dec, 2020 4 commits
  22. 30 Nov, 2020 1 commit
  23. 21 Oct, 2020 1 commit
  24. 20 Oct, 2020 5 commits