1. 16 Jun, 2016 1 commit
    • Soby Mathew's avatar
      Enable PSCI_STAT_COUNT/RESIDENCY for ARM standard platforms · d75f2578
      Soby Mathew authored
      This patch enables optional PSCI functions `PSCI_STAT_COUNT` and
      `PSCI_STAT_RESIDENCY` for ARM standard platforms. The optional platform
      API 'translate_power_state_by_mpidr()' is implemented for the Juno
      platform. 'validate_power_state()' on Juno downgrades PSCI CPU_SUSPEND
      requests for the system power level to the cluster power level.
      Hence, it is not suitable for validating the 'power_state' parameter
      passed in a PSCI_STAT_COUNT/RESIDENCY call.
      
      Change-Id: I9548322676fa468d22912392f2325c2a9f96e4d2
      d75f2578
  2. 03 Jun, 2016 1 commit
    • Sandrine Bailleux's avatar
      Fix a syntax error · b4127c1f
      Sandrine Bailleux authored
      Building TF with ERROR_DEPRECATED=1 fails because of a missing
      semi-column. This patch fixes this syntax error.
      
      Change-Id: I98515840ce74245b0a0215805f85c8e399094f68
      b4127c1f
  3. 25 May, 2016 1 commit
    • Soby Mathew's avatar
      Add CCN support to FVP platform port · 71237876
      Soby Mathew authored
      This patch adds support to select CCN driver for FVP during build.
      A new build option `FVP_INTERCONNECT_DRIVER` is added to allow
      selection between the CCI and CCN driver. Currently only the CCN-502
      variant is supported on FVP.
      
      The common ARM CCN platform helper file now verifies the cluster
      count declared by platform is equal to the number of root node
      masters exported by the ARM Standard platform.
      
      Change-Id: I71d7b4785f8925ed499c153b2e9b9925fcefd57a
      71237876
  4. 20 May, 2016 1 commit
  5. 27 Apr, 2016 1 commit
    • Soby Mathew's avatar
      Remove support for legacy VE memory map in FVP · 21a3973d
      Soby Mathew authored
      This patch removes support for legacy Versatile Express memory map for the
      GIC peripheral in the FVP platform. The user guide is also updated for the
      same.
      
      Change-Id: Ib8cfb819083aca359e5b46b5757cb56cb0ea6533
      21a3973d
  6. 26 Apr, 2016 1 commit
    • Yatharth Kochar's avatar
      Conditionally compile `plat_get_syscnt_freq()` in ARM standard platforms · 1969625a
      Yatharth Kochar authored
      This patch puts the definition of `plat_get_syscnt_freq()`
      under `#ifdef ARM_SYS_CNTCTL_BASE` in arm_common.c file.
      This is the fix for compilation error introduced by commit-id
      `749ade45`, for platforms that use arm_common.c but do not
      provide a memory mapped interface to the generic counter.
      
      Fixes ARM-software/tf-issues#395
      
      Change-Id: I2f2b10bd9500fa15308541ccb15829306a76a745
      1969625a
  7. 21 Apr, 2016 1 commit
    • Yatharth Kochar's avatar
      Move `plat_get_syscnt_freq()` to arm_common.c · c073fda1
      Yatharth Kochar authored
      This patch moves the definition for `plat_get_syscnt_freq()`
      from arm_bl31_setup.c to arm_common.c. This could be useful
      in case a delay timer needs to be installed based on the
      generic timer in other BLs.
      This patch also modifies the return type for this function
      from `uint64_t` to `unsigned long long` within ARM and other
      platform files.
      
      Change-Id: Iccdfa811948e660d4fdcaae60ad1d700e4eda80d
      c073fda1
  8. 13 Apr, 2016 1 commit
    • Soby Mathew's avatar
      Migrate platform ports to the new xlat_tables library · 3e4b8fdc
      Soby Mathew authored
      This patch modifies the upstream platform port makefiles to use the new
      xlat_tables library files. This patch also makes mmap region setup common
      between AArch64 and AArch32 for FVP platform port. The file `fvp_common.c`
      is moved from the `plat/arm/board/fvp/aarch64` folder to the parent folder
      as it is not specific to AArch64.
      
      Change-Id: Id2e9aac45e46227b6f83cccfd1e915404018ea0b
      3e4b8fdc
  9. 08 Apr, 2016 3 commits
    • Antonio Nino Diaz's avatar
      Rename BL33_BASE option to PRELOADED_BL33_BASE · 68450a6d
      Antonio Nino Diaz authored
      To avoid confusion the build option BL33_BASE has been renamed to
      PRELOADED_BL33_BASE, which is more descriptive of what it does and
      doesn't get mistaken by similar names like BL32_BASE that work in a
      completely different way.
      
      NOTE: PLATFORMS USING BUILD OPTION `BL33_BASE` MUST CHANGE TO THE NEW
      BUILD OPTION `PRELOADED_BL33_BASE`.
      
      Change-Id: I658925ebe95406edf0325f15aa1752e1782aa45b
      68450a6d
    • Antonio Nino Diaz's avatar
      Fix BL33_BASE option to work with RESET_TO_BL31 · d5d6b896
      Antonio Nino Diaz authored
      The BL33 address is now set in arm_bl31_early_platform_setup() so
      that the preloaded BL33 boot option is available when RESET_TO_BL31
      is also used.
      
      Change-Id: Iab93e3916f9199c3387886b055c7cd2315efed29
      d5d6b896
    • Antonio Nino Diaz's avatar
      Remove BL32_BASE when building without SPD for FVP · 81d139d5
      Antonio Nino Diaz authored
      Previously, when building TF without SPD support, BL2 tried to load a
      BL32 image from the FIP and fails to find one, which resulted on
      warning messages on the console. Even if there is a BL32 image in the
      FIP it shouldn't be loaded because there is no way to transfer
      control to the Secure Payload without SPD support.
      
      The Makefile has been modified to pass a define of the form
      SPD_${SPD} to the source code the same way it's done for PLAT. The
      define SPD_none is then used to undefine BL32_BASE when BL32 is not
      used to prevent BL2 from trying to load a BL32 image and failing,
      thus removing the warning messages mentioned above.
      
      Fixes ARM-software/tf-issues#287
      
      Change-Id: Ifeb6f1c26935efb76afd353fea88e87ba09e9658
      81d139d5
  10. 01 Apr, 2016 2 commits
  11. 31 Mar, 2016 3 commits
    • Vikram Kanigiri's avatar
      Add support to program a DMC-500 TZC on ARM platforms · 618f0fee
      Vikram Kanigiri authored
      This patch adds support to program TrustZone protection on ARM platforms that
      implement a DMC-500. arm_dmc_500.c has been added which implements the
      arm_dmc_tzc_setup() function. This function relies on constants related to TZC
      programming that are exported by each platform to program TrustZone protection
      using the DMC-500 TrustZone controller driver. This function should be called
      from plat_arm_security_setup() which is implemented by each platform.
      
      Change-Id: I5400bdee9e4b29155fd11296a40693d512312f29
      618f0fee
    • Soby Mathew's avatar
      Migrate ARM standard platforms to the refactored TZC driver · 57f78201
      Soby Mathew authored
      This patch migrates ARM Standard platforms to the refactored TZC driver.
      
      Change-Id: I2a2f60b645f73e14d8f416740c4551cec87cb1fb
      57f78201
    • David Wang's avatar
      Add support to load BL31 in DRAM · 4518dd9a
      David Wang authored
      This patch adds an option to the ARM common platforms to load BL31 in the
      TZC secured DRAM instead of the default secure SRAM.
      
      To enable this feature, set `ARM_BL31_IN_DRAM` to 1 in build options.
      If TSP is present, then setting this option also sets the TSP location
      to DRAM and ignores the `ARM_TSP_RAM_LOCATION` build flag.
      
      To use this feature, BL2 platform code must map in the DRAM used by
      BL31. The macro ARM_MAP_BL31_SEC_DRAM is provided for this purpose.
      Currently, only the FVP BL2 platform code maps in this DRAM.
      
      Change-Id: If5f7cc9deb569cfe68353a174d4caa48acd78d67
      4518dd9a
  12. 22 Feb, 2016 1 commit
    • Yatharth Kochar's avatar
      Fix the inconsistencies in bl1_tbbr_image_descs[] · 843ddee4
      Yatharth Kochar authored
      This patch fixes inconsistencies in bl1_tbbr_image_descs[]
      and miscellaneous fixes in Firmware Update code.
      
      Following are the changes:
      * As part of the original FWU changes, a `copied_size`
        field was added to `image_info_t`. This was a subtle binary
        compatibility break because it changed the size of the
        `bl31_params_t` struct, which could cause problems if
        somebody used different versions of BL2 or BL31, one with
        the old `image_info_t` and one with the new version.
        This patch put the `copied_size` within the `image_desc_t`.
      * EXECUTABLE flag is now stored in `ep_info.h.attr` in place
        of `image_info.h.attr`, associating it to an entrypoint.
      * The `image_info.image_base` is only relevant for secure
        images that are copied from non-secure memory into secure
        memory. This patch removes initializing `image_base` for
        non secure images in the bl1_tbbr_image_descs[].
      * A new macro `SET_STATIC_PARAM_HEAD` is added for populating
        bl1_tbbr_image_descs[].ep_info/image_info.h members statically.
        The version, image_type and image attributes are now
        populated using this new macro.
      * Added PLAT_ARM_NVM_BASE and PLAT_ARM_NVM_SIZE to avoid direct
        usage of V2M_FLASH0_XXX in plat/arm/common/arm_bl1_fwu.c.
      * Refactoring of code/macros related to SECURE and EXECUTABLE flags.
      
      NOTE: PLATFORM PORTS THAT RELY ON THE SIZE OF `image_info_t`
            OR USE the "EXECUTABLE" BIT WITHIN `image_info_t.h.attr`
            OR USE THEIR OWN `image_desc_t` ARRAY IN BL1, MAY BE
            BROKEN BY THIS CHANGE. THIS IS CONSIDERED UNLIKELY.
      
      Change-Id: Id4e5989af7bf0ed263d19d3751939da1169b561d
      843ddee4
  13. 19 Feb, 2016 1 commit
    • Soby Mathew's avatar
      Allow multi cluster topology definitions for ARM platforms · 0108047a
      Soby Mathew authored
      The common topology description helper funtions and macros for
      ARM Standard platforms assumed a dual cluster system. This is not
      flexible enough to scale to multi cluster platforms. This patch does
      the following changes for more flexibility in defining topology:
      
      1. The `plat_get_power_domain_tree_desc()` definition is moved from
         `arm_topology.c` to platform specific files, that is `fvp_topology.c`
         and `juno_topology.c`. Similarly the common definition of the porting
         macro `PLATFORM_CORE_COUNT` in `arm_def.h` is moved to platform
         specific `platform_def.h` header.
      
      2. The ARM common layer porting macros which were dual cluster specific
         are now removed and a new macro PLAT_ARM_CLUSTER_COUNT is introduced
         which must be defined by each ARM standard platform.
      
      3. A new mandatory ARM common layer porting API
         `plat_arm_get_cluster_core_count()` is introduced to enable the common
         implementation of `arm_check_mpidr()` to validate MPIDR.
      
      4. For the FVP platforms, a new build option `FVP_NUM_CLUSTERS` has been
         introduced which allows the user to specify the cluster count to be
         used to build the topology tree within Trusted Firmare. This enables
         Trusted Firmware to be built for multi cluster FVP models.
      
      Change-Id: Ie7a2e38e5661fe2fdb2c8fdf5641d2b2614c2b6b
      0108047a
  14. 18 Feb, 2016 1 commit
    • Juan Castillo's avatar
      ARM platforms: rationalise memory attributes of shared memory · 74eb26e4
      Juan Castillo authored
      The shared memory region on ARM platforms contains the mailboxes and,
      on Juno, the payload area for communication with the SCP. This shared
      memory may be configured as normal memory or device memory at build
      time by setting the platform flag 'PLAT_ARM_SHARED_RAM_CACHED' (on
      Juno, the value of this flag is defined by 'MHU_PAYLOAD_CACHED').
      When set as normal memory, the platform port performs the corresponding
      cache maintenance operations. From a functional point of view, this is
      the equivalent of setting the shared memory as device memory, so there
      is no need to maintain both options.
      
      This patch removes the option to specify the shared memory as normal
      memory on ARM platforms. Shared memory is always treated as device
      memory. Cache maintenance operations are no longer needed and have
      been replaced by data memory barriers to guarantee that payload and
      MHU are accessed in the right order.
      
      Change-Id: I7f958621d6a536dd4f0fa8768385eedc4295e79f
      74eb26e4
  15. 16 Feb, 2016 1 commit
    • Vikram Kanigiri's avatar
      Rework use of interconnect drivers · 6355f234
      Vikram Kanigiri authored
      ARM Trusted Firmware supports 2 different interconnect peripheral
      drivers: CCI and CCN. ARM platforms are implemented using either of the
      interconnect peripherals.
      
      This patch adds a layer of abstraction to help ARM platform ports to
      choose the right interconnect driver and corresponding platform support.
      This is as described below:
      
      1. A set of ARM common functions have been implemented to initialise an
      interconnect and for entering/exiting a cluster from coherency. These
      functions are prefixed as "plat_arm_interconnect_". Weak definitions of
      these functions have been provided for each type of driver.
      
      2.`plat_print_interconnect_regs` macro used for printing CCI registers is
      moved from a common arm_macros.S to cci_macros.S.
      
      3. The `ARM_CONFIG_HAS_CCI` flag used in `arm_config_flags` structure
      is renamed to `ARM_CONFIG_HAS_INTERCONNECT`.
      
      Change-Id: I02f31184fbf79b784175892d5ce1161b65a0066c
      6355f234
  16. 15 Feb, 2016 2 commits
    • Vikram Kanigiri's avatar
      Perform security setup separately for each ARM platform · a9cc84d7
      Vikram Kanigiri authored
      Prior to this patch, it was assumed that on all ARM platforms the bare
      minimal security setup required is to program TrustZone protection. This
      would always be done by programming the TZC-400 which was assumed to be
      present in all ARM platforms. The weak definition of
      platform_arm_security_setup() in plat/arm/common/arm_security.c
      reflected these assumptions.
      
      In reality, each ARM platform either decides at runtime whether
      TrustZone protection needs to be programmed (e.g. FVPs) or performs
      some security setup in addition to programming TrustZone protection
      (e.g. NIC setup on Juno). As a result, the weak definition of
      plat_arm_security_setup() is always overridden.
      
      When a platform needs to program TrustZone protection and implements the
      TZC-400 peripheral, it uses the arm_tzc_setup() function to do so. It is
      also possible to program TrustZone protection through other peripherals
      that include a TrustZone controller e.g. DMC-500. The programmer's
      interface is slightly different across these various peripherals.
      
      In order to satisfy the above requirements, this patch makes the
      following changes to the way security setup is done on ARM platforms.
      
      1. arm_security.c retains the definition of arm_tzc_setup() and has been
         renamed to arm_tzc400.c. This is to reflect the reliance on the
         TZC-400 peripheral to perform TrustZone programming. The new file is
         not automatically included in all platform ports through
         arm_common.mk. Each platform must include it explicitly in a platform
         specific makefile if needed.
      
         This approach enables introduction of similar library code to program
         TrustZone protection using a different peripheral. This code would be
         used by the subset of ARM platforms that implement this peripheral.
      
      2. Due to #1 above, existing platforms which implements the TZC-400 have been
         updated to include the necessary files for both BL2, BL2U and BL31
         images.
      
      Change-Id: I513c58f7a19fff2e9e9c3b95721592095bcb2735
      a9cc84d7
    • Vikram Kanigiri's avatar
      Add API to return memory map on ARM platforms · 65cb1c4c
      Vikram Kanigiri authored
      Functions to configure the MMU in S-EL1 and EL3 on ARM platforms
      expect each platform to export its memory map in the `plat_arm_mmap`
      data structure. This approach does not scale well in case the memory
      map cannot be determined until runtime. To cater for this possibility,
      this patch introduces the plat_arm_get_mmap() API. It returns a
      reference to the `plat_arm_mmap` by default but can be overridden
      by a platform if required.
      
      Change-Id: Idae6ad8fdf40cdddcd8b992abc188455fa047c74
      65cb1c4c
  17. 21 Jan, 2016 1 commit
    • Juan Castillo's avatar
      Disable PL011 UART before configuring it · 9400b40e
      Juan Castillo authored
      The PL011 TRM (ARM DDI 0183G) specifies that the UART must be
      disabled before any of the control registers are programmed. The
      PL011 driver included in TF does not disable the UART, so the
      initialization in BL2 and BL31 is violating this requirement
      (and potentially in BL1 if the UART is enabled after reset).
      
      This patch modifies the initialization function in the PL011
      console driver to disable the UART before programming the
      control registers.
      
      Register clobber list and documentation updated.
      
      Fixes ARM-software/tf-issues#300
      
      Change-Id: I839b2d681d48b03f821ac53663a6a78e8b30a1a1
      9400b40e
  18. 20 Jan, 2016 1 commit
    • Juan Castillo's avatar
      ARM plat: add build option to unlock access to non-secure timer · 0e5dcdd2
      Juan Castillo authored
      Currently, Trusted Firmware on ARM platforms unlocks access to the
      timer frame registers that will be used by the Non-Secure world. This
      unlock operation should be done by the Non-Secure software itself,
      instead of relying on secure firmware settings.
      
      This patch adds a new ARM specific build option 'ARM_CONFIG_CNTACR'
      to unlock access to the timer frame by setting the corresponding
      bits in the CNTACR<N> register. The frame id <N> is defined by
      'PLAT_ARM_NSTIMER_FRAME_ID'. Default value is true (unlock timer
      access).
      
      Documentation updated accordingly.
      
      Fixes ARM-software/tf-issues#170
      
      Change-Id: Id9d606efd781e43bc581868cd2e5f9c8905bdbf6
      0e5dcdd2
  19. 14 Jan, 2016 1 commit
  20. 05 Jan, 2016 1 commit
    • Juan Castillo's avatar
      Apply TBBR naming convention to the fip_create options · 8f0617ef
      Juan Castillo authored
      The fip_create tool specifies images in the command line using the
      ARM TF naming convention (--bl2, --bl31, etc), while the cert_create
      tool uses the TBBR convention (--tb-fw, --soc-fw, etc). This double
      convention is confusing and should be aligned.
      
      This patch updates the fip_create command line options to follow the
      TBBR naming convention. Usage examples in the User Guide have been
      also updated.
      
      NOTE: users that build the FIP by calling the fip_create tool directly
      from the command line must update the command line options in their
      scripts. Users that build the FIP by invoking the main ARM TF Makefile
      should not notice any difference.
      
      Change-Id: I84d602630a2585e558d927b50dfde4dd2112496f
      8f0617ef
  21. 14 Dec, 2015 3 commits
    • Juan Castillo's avatar
      Remove dashes from image names: 'BL3-x' --> 'BL3x' · d178637d
      Juan Castillo authored
      This patch removes the dash character from the image name, to
      follow the image terminology in the Trusted Firmware Wiki page:
      
          https://github.com/ARM-software/arm-trusted-firmware/wiki
      
      Changes apply to output messages, comments and documentation.
      
      non-ARM platform files have been left unmodified.
      
      Change-Id: Ic2a99be4ed929d52afbeb27ac765ceffce46ed76
      d178637d
    • Juan Castillo's avatar
      Replace all SCP FW (BL0, BL3-0) references · f59821d5
      Juan Castillo authored
      This patch replaces all references to the SCP Firmware (BL0, BL30,
      BL3-0, bl30) with the image terminology detailed in the TF wiki
      (https://github.com/ARM-software/arm-trusted-firmware/wiki):
      
          BL0          -->  SCP_BL1
          BL30, BL3-0  -->  SCP_BL2
          bl30         -->  scp_bl2
      
      This change affects code, documentation, build system, tools and
      platform ports that load SCP firmware. ARM plaforms have been
      updated to the new porting API.
      
      IMPORTANT: build option to specify the SCP FW image has changed:
      
          BL30 --> SCP_BL2
      
      IMPORTANT: This patch breaks compatibility for platforms that use BL2
      to load SCP firmware. Affected platforms must be updated as follows:
      
          BL30_IMAGE_ID --> SCP_BL2_IMAGE_ID
          BL30_BASE --> SCP_BL2_BASE
          bl2_plat_get_bl30_meminfo() --> bl2_plat_get_scp_bl2_meminfo()
          bl2_plat_handle_bl30() --> bl2_plat_handle_scp_bl2()
      
      Change-Id: I24c4c1a4f0e4b9f17c9e4929da815c4069549e58
      f59821d5
    • Juan Castillo's avatar
      TBB: apply TBBR naming convention to certificates and extensions · 516beb58
      Juan Castillo authored
      This patch applies the TBBR naming convention to the certificates
      and the corresponding extensions defined by the CoT:
      
          * Certificate UUID names
          * Certificate identifier names
          * OID names
      
      Changes apply to:
      
          * Generic code (variables and defines)
          * The default certificate identifiers provided in the generic
            code
          * Build system
          * ARM platforms port
          * cert_create tool internal definitions
          * fip_create and cert_create tools command line options
          * Documentation
      
      IMPORTANT: this change breaks the compatibility with platforms
      that use TBBR. The platform will need to adapt the identifiers
      and OIDs to the TBBR naming convention introduced by this patch:
      
      Certificate UUIDs:
      
          UUID_TRUSTED_BOOT_FIRMWARE_BL2_CERT --> UUID_TRUSTED_BOOT_FW_CERT
          UUID_SCP_FIRMWARE_BL30_KEY_CERT --> UUID_SCP_FW_KEY_CERT
          UUID_SCP_FIRMWARE_BL30_CERT --> UUID_SCP_FW_CONTENT_CERT
          UUID_EL3_RUNTIME_FIRMWARE_BL31_KEY_CERT --> UUID_SOC_FW_KEY_CERT
          UUID_EL3_RUNTIME_FIRMWARE_BL31_CERT --> UUID_SOC_FW_CONTENT_CERT
          UUID_SECURE_PAYLOAD_BL32_KEY_CERT --> UUID_TRUSTED_OS_FW_KEY_CERT
          UUID_SECURE_PAYLOAD_BL32_CERT --> UUID_TRUSTED_OS_FW_CONTENT_CERT
          UUID_NON_TRUSTED_FIRMWARE_BL33_KEY_CERT --> UUID_NON_TRUSTED_FW_KEY_CERT
          UUID_NON_TRUSTED_FIRMWARE_BL33_CERT --> UUID_NON_TRUSTED_FW_CONTENT_CERT
      
      Certificate identifiers:
      
          BL2_CERT_ID --> TRUSTED_BOOT_FW_CERT_ID
          BL30_KEY_CERT_ID --> SCP_FW_KEY_CERT_ID
          BL30_CERT_ID --> SCP_FW_CONTENT_CERT_ID
          BL31_KEY_CERT_ID --> SOC_FW_KEY_CERT_ID
          BL31_CERT_ID --> SOC_FW_CONTENT_CERT_ID
          BL32_KEY_CERT_ID --> TRUSTED_OS_FW_KEY_CERT_ID
          BL32_CERT_ID --> TRUSTED_OS_FW_CONTENT_CERT_ID
          BL33_KEY_CERT_ID --> NON_TRUSTED_FW_KEY_CERT_ID
          BL33_CERT_ID --> NON_TRUSTED_FW_CONTENT_CERT_ID
      
      OIDs:
      
          TZ_FW_NVCOUNTER_OID --> TRUSTED_FW_NVCOUNTER_OID
          NTZ_FW_NVCOUNTER_OID --> NON_TRUSTED_FW_NVCOUNTER_OID
          BL2_HASH_OID --> TRUSTED_BOOT_FW_HASH_OID
          TZ_WORLD_PK_OID --> TRUSTED_WORLD_PK_OID
          NTZ_WORLD_PK_OID --> NON_TRUSTED_WORLD_PK_OID
          BL30_CONTENT_CERT_PK_OID --> SCP_FW_CONTENT_CERT_PK_OID
          BL30_HASH_OID --> SCP_FW_HASH_OID
          BL31_CONTENT_CERT_PK_OID --> SOC_FW_CONTENT_CERT_PK_OID
          BL31_HASH_OID --> SOC_AP_FW_HASH_OID
          BL32_CONTENT_CERT_PK_OID --> TRUSTED_OS_FW_CONTENT_CERT_PK_OID
          BL32_HASH_OID --> TRUSTED_OS_FW_HASH_OID
          BL33_CONTENT_CERT_PK_OID --> NON_TRUSTED_FW_CONTENT_CERT_PK_OID
          BL33_HASH_OID --> NON_TRUSTED_WORLD_BOOTLOADER_HASH_OID
          BL2U_HASH_OID --> AP_FWU_CFG_HASH_OID
          SCP_BL2U_HASH_OID --> SCP_FWU_CFG_HASH_OID
          NS_BL2U_HASH_OID --> FWU_HASH_OID
      
      Change-Id: I1e047ae046299ca913911c39ac3a6e123bd41079
      516beb58
  22. 09 Dec, 2015 6 commits
    • Yatharth Kochar's avatar
      FWU: Add support for `fwu_fip` target · 0191262d
      Yatharth Kochar authored
      Firmware update feature needs a new FIP called `fwu_fip.bin` that
      includes Secure(SCP_BL2U, BL2U) and Normal world(NS_BL2U) images
      along with the FWU_CERT certificate in order for NS_BL1U to load
      the images and help the Firmware update process to complete.
      
      This patch adds the capability to support the new target `fwu_fip`
      which includes above mentioned FWU images in the make files.
      
      The new target of `fwu_fip` and its dependencies are included for
      compilation only when `TRUSTED_BOARD_BOOT` is defined.
      
      Change-Id: Ie780e3aac6cbd0edfaff3f9af96a2332bd69edbc
      0191262d
    • Yatharth Kochar's avatar
      FWU: Add Firmware Update support in BL2U for ARM platforms · dcda29f6
      Yatharth Kochar authored
      This patch adds support for Firmware update in BL2U for ARM
      platforms such that TZC initialization is performed on all
      ARM platforms and (optionally) transfer of SCP_BL2U image on
      ARM CSS platforms.
      
      BL2U specific functions are added to handle early_platform and
      plat_arch setup. The MMU is configured to map in the BL2U
      code/data area and other required memory.
      
      Change-Id: I57863295a608cc06e6cbf078b7ce34cbd9733e4f
      dcda29f6
    • Yatharth Kochar's avatar
      FWU: Add Firmware Update support in BL1 for ARM platforms · 436223de
      Yatharth Kochar authored
      This patch adds Firmware Update support for ARM platforms.
      
      New files arm_bl1_fwu.c and juno_bl1_setup.c were added to provide
      platform specific Firmware update code.
      
      BL1 now includes mmap entry for `ARM_MAP_NS_DRAM1` to map DRAM for
      authenticating NS_BL2U image(For both FVP and JUNO platform).
      
      Change-Id: Ie116cd83f5dc00aa53d904c2f1beb23d58926555
      436223de
    • Yatharth Kochar's avatar
      Add descriptor based image management support in BL1 · 7baff11f
      Yatharth Kochar authored
      As of now BL1 loads and execute BL2 based on hard coded information
      provided in BL1. But due to addition of support for upcoming Firmware
      Update feature, BL1 now require more flexible approach to load and
      run different images using information provided by the platform.
      
      This patch adds new mechanism to load and execute images based on
      platform provided image id's. BL1 now queries the platform to fetch
      the image id of the next image to be loaded and executed. In order
      to achieve this, a new struct image_desc_t was added which holds the
      information about images, such as: ep_info and image_info.
      
      This patch introduces following platform porting functions:
      
      unsigned int bl1_plat_get_next_image_id(void);
      	This is used to identify the next image to be loaded
      	and executed by BL1.
      
      struct image_desc *bl1_plat_get_image_desc(unsigned int image_id);
      	This is used to retrieve the image_desc for given image_id.
      
      void bl1_plat_set_ep_info(unsigned int image_id,
      struct entry_point_info *ep_info);
      	This function allows platforms to update ep_info for given
      	image_id.
      
      The plat_bl1_common.c file provides default weak implementations of
      all above functions, the `bl1_plat_get_image_desc()` always return
      BL2 image descriptor, the `bl1_plat_get_next_image_id()` always return
      BL2 image ID and `bl1_plat_set_ep_info()` is empty and just returns.
      These functions gets compiled into all BL1 platforms by default.
      
      Platform setup in BL1, using `bl1_platform_setup()`, is now done
      _after_ the initialization of authentication module. This change
      provides the opportunity to use authentication while doing the
      platform setup in BL1.
      
      In order to store secure/non-secure context, BL31 uses percpu_data[]
      to store context pointer for each core. In case of BL1 only the
      primary CPU will be active hence percpu_data[] is not required to
      store the context pointer.
      
      This patch introduce bl1_cpu_context[] and bl1_cpu_context_ptr[] to
      store the context and context pointers respectively. It also also
      re-defines cm_get_context() and cm_set_context() for BL1 in
      bl1/bl1_context_mgmt.c.
      
      BL1 now follows the BL31 pattern of using SP_EL0 for the C runtime
      environment, to support resuming execution from a previously saved
      context.
      
      NOTE: THE `bl1_plat_set_bl2_ep_info()` PLATFORM PORTING FUNCTION IS
            NO LONGER CALLED BY BL1 COMMON CODE. PLATFORMS THAT OVERRIDE
            THIS FUNCTION MAY NEED TO IMPLEMENT `bl1_plat_set_ep_info()`
            INSTEAD TO MAINTAIN EXISTING BEHAVIOUR.
      
      Change-Id: Ieee4c124b951c2e9bc1c1013fa2073221195d881
      7baff11f
    • Soby Mathew's avatar
      Specify BL31 runtime console for ARM Standard platforms · 080225da
      Soby Mathew authored
      This patch overrides the default weak definition of
      `bl31_plat_runtime_setup()` for ARM Standard platforms to
      specify a BL31 runtime console. ARM Standard platforms are
      now expected to define `PLAT_ARM_BL31_RUN_UART_BASE` and
      `PLAT_ARM_BL31_RUN_UART_CLK_IN_HZ` macros which is required
      by `arm_bl31_plat_runtime_setup()` to initialize the runtime
      console.
      
      The system suspend resume helper `arm_system_pwr_domain_resume()`
      is fixed to initialize the runtime console rather than the boot
      console on resumption from system suspend.
      
      Fixes ARM-software/tf-issues#220
      
      Change-Id: I80eafe5b6adcfc7f1fdf8b99659aca1c64d96975
      080225da
    • Achin Gupta's avatar
      Rework use of ARM GIC drivers on ARM platforms · 27573c59
      Achin Gupta authored
      Suport for ARM GIC v2.0 and v3.0 drivers has been reworked to create three
      separate drivers instead of providing a single driver that can work on both
      versions of the GIC architecture. These drivers correspond to the following
      software use cases:
      
      1. A GICv2 only driver that can run only on ARM GIC v2.0 implementations
         e.g. GIC-400
      
      2. A GICv3 only driver that can run only on ARM GIC v3.0 implementations
         e.g. GIC-500 in a mode where all interrupt regimes use GICv3 features
      
      3. A deprecated GICv3 driver that operates in legacy mode. This driver can
         operate only in the GICv2 mode in the secure world. On a GICv3 system, this
         driver allows normal world to run in either GICv3 mode (asymmetric mode)
         or in the GICv2 mode. Both modes of operation are deprecated on GICv3
         systems.
      
      ARM platforms implement both versions of the GIC architecture. This patch adds a
      layer of abstraction to help ARM platform ports chose the right GIC driver and
      corresponding platform support. This is as described below:
      
      1. A set of ARM common functions have been introduced to initialise the GIC and
         the driver during cold and warm boot. These functions are prefixed as
         "plat_arm_gic_". Weak definitions of these functions have been provided for
         each type of driver.
      
      2. Each platform includes the sources that implement the right functions
         directly into the its makefile. The FVP can be instantiated with different
         versions of the GIC architecture. It uses the FVP_USE_GIC_DRIVER build option
         to specify which of the three drivers should be included in the build.
      
      3. A list of secure interrupts has to be provided to initialise each of the
        three GIC drivers. For GIC v3.0 the interrupt ids have to be further
        categorised as Group 0 and Group 1 Secure interrupts. For GIC v2.0, the two
        types are merged and treated as Group 0 interrupts.
      
        The two lists of interrupts are exported from the platform_def.h. The lists
        are constructed by adding a list of board specific interrupt ids to a list of
        ids common to all ARM platforms and Compute sub-systems.
      
      This patch also makes some fields of `arm_config` data structure in FVP redundant
      and these unused fields are removed.
      
      Change-Id: Ibc8c087be7a8a6b041b78c2c3bd0c648cd2035d8
      27573c59
  23. 02 Dec, 2015 1 commit
    • Juan Castillo's avatar
      TBB: add Trusted Watchdog support on ARM platforms · 7b4c1405
      Juan Castillo authored
      This patch adds watchdog support on ARM platforms (FVP and Juno).
      A secure instance of SP805 is used as Trusted Watchdog. It is
      entirely managed in BL1, being enabled in the early platform setup
      hook and disabled in the exit hook. By default, the watchdog is
      enabled in every build (even when TBB is disabled).
      
      A new ARM platform specific build option `ARM_DISABLE_TRUSTED_WDOG`
      has been introduced to allow the user to disable the watchdog at
      build time. This feature may be used for testing or debugging
      purposes.
      
      Specific error handlers for Juno and FVP are also provided in this
      patch. These handlers will be called after an image load or
      authentication error. On FVP, the Table of Contents (ToC) in the FIP
      is erased. On Juno, the corresponding error code is stored in the
      V2M Non-Volatile flags register. In both cases, the CPU spins until
      a watchdog reset is generated after 256 seconds (as specified in
      the TBBR document).
      
      Change-Id: I9ca11dcb0fe15af5dbc5407ab3cf05add962f4b4
      7b4c1405
  24. 26 Nov, 2015 1 commit
    • Sandrine Bailleux's avatar
      CSS: Enable booting of EL3 payloads · 4c117f6c
      Sandrine Bailleux authored
      This patch adds support for booting EL3 payloads on CSS platforms,
      for example Juno. In this scenario, the Trusted Firmware follows
      its normal boot flow up to the point where it would normally pass
      control to the BL31 image. At this point, it jumps to the EL3
      payload entry point address instead.
      
      Before handing over to the EL3 payload, the data SCP writes for AP
      at the beginning of the Trusted SRAM is restored, i.e. we zero the
      first 128 bytes and restore the SCP Boot configuration. The latter
      is saved before transferring the BL30 image to SCP and is restored
      just after the transfer (in BL2). The goal is to make it appear that
      the EL3 payload is the first piece of software to run on the target.
      
      The BL31 entrypoint info structure is updated to make the primary
      CPU jump to the EL3 payload instead of the BL31 image.
      
      The mailbox is populated with the EL3 payload entrypoint address,
      which releases the secondary CPUs out of their holding pen (if the
      SCP has powered them on). The arm_program_trusted_mailbox() function
      has been exported for this purpose.
      
      The TZC-400 configuration in BL2 is simplified: it grants secure
      access only to the whole DRAM. Other security initialization is
      unchanged.
      
      This alternative boot flow is disabled by default. A new build option
      EL3_PAYLOAD_BASE has been introduced to enable it and provide the EL3
      payload's entry point address. The build system has been modified
      such that BL31 and BL33 are not compiled and/or not put in the FIP in
      this case, as those images are not used in this boot flow.
      
      Change-Id: Id2e26fa57988bbc32323a0effd022ab42f5b5077
      4c117f6c
  25. 13 Nov, 2015 1 commit
    • Juan Castillo's avatar
      Add NULL pointer check before reading BL32 entry point information · 5ea8aa72
      Juan Castillo authored
      BL2 is responsible for loading BL32 and passing a pointer to the
      BL32 entrypoint info to BL31 in the BL31 parameters. If no BL32
      image is loaded, a NULL pointer is passed. The platform is
      responsible for accessing BL31 parameters and extracting the
      corresponding BL32 EP info.
      
      In ARM platforms, arm_bl31_early_platform_setup() dereferences the
      pointer to the BL32 EP info without checking first if the pointer
      is NULL. This will cause an exception if a BL32 entrypoint has not
      been populated by BL2. FVP and Juno are not affected because they
      always define BL32_BASE, irrespective of whether a BL32 image is
      included in the FIP or not.
      
      This patches fixes the issue by checking the BL32 ep_info pointer
      before trying to access the data.
      
      If `RESET_TO_BL31` is enabled, the BL32 entrypoint is not
      populated if BL32_BASE is not defined.
      
      NOTE: Maintainers of partner platforms should check for this issue
      in their ports.
      
      Fixes ARM-software/tf-issues#320
      
      Change-Id: I31456155503f2765766e8b7cd30ab4a40958fb96
      5ea8aa72
  26. 02 Nov, 2015 1 commit
    • Juan Castillo's avatar
      Remove deprecated IO return definitions · e098e244
      Juan Castillo authored
      Patch 7e26fe1f deprecates IO specific return definitions in favour
      of standard errno codes. This patch removes those definitions
      and its usage from the IO framework, IO drivers and IO platform
      layer. Following this patch, standard errno codes must be used
      when checking the return value of an IO function.
      
      Change-Id: Id6e0e9d0a7daf15a81ec598cf74de83d5768650f
      e098e244
  27. 30 Oct, 2015 1 commit
    • Soby Mathew's avatar
      Support PSCI SYSTEM SUSPEND on Juno · c1bb8a05
      Soby Mathew authored
      This patch adds the capability to power down at system power domain level
      on Juno via the PSCI SYSTEM SUSPEND API. The CSS power management helpers
      are modified to add support for power management operations at system
      power domain level. A new helper for populating `get_sys_suspend_power_state`
      handler in plat_psci_ops is defined. On entering the system suspend state,
      the SCP powers down the SYSTOP power domain on the SoC and puts the memory
      into retention mode. On wakeup from the power down, the system components
      on the CSS will be reinitialized by the platform layer and the PSCI client
      is responsible for restoring the context of these system components.
      
      According to PSCI Specification, interrupts targeted to cores in PSCI CPU
      SUSPEND should be able to resume it. On Juno, when the system power domain
      is suspended, the GIC is also powered down. The SCP resumes the final core
      to be suspend when an external wake-up event is received. But the other
      cores cannot be woken up by a targeted interrupt, because GIC doesn't
      forward these interrupts to the SCP. Due to this hardware limitation,
      we down-grade PSCI CPU SUSPEND requests targeted to the system power domain
      level to cluster power domain level in `juno_validate_power_state()`
      and the CSS default `plat_arm_psci_ops` is overridden in juno_pm.c.
      
      A system power domain resume helper `arm_system_pwr_domain_resume()` is
      defined for ARM standard platforms which resumes/re-initializes the
      system components on wakeup from system suspend. The security setup also
      needs to be done on resume from system suspend, which means
      `plat_arm_security_setup()` must now be included in the BL3-1 image in
      addition to previous BL images if system suspend need to be supported.
      
      Change-Id: Ie293f75f09bad24223af47ab6c6e1268f77bcc47
      c1bb8a05