1. 02 Sep, 2015 1 commit
    • Vikram Kanigiri's avatar
      Ensure BL2 security state is secure · a2f8b166
      Vikram Kanigiri authored
      BL2 loads secure runtime code(BL3-1, BL3-2) and hence it has to
      run in secure world otherwise BL3-1/BL3-2 have to execute from
      non-secure memory. Hence, This patch removes the change_security_state()
      call in bl1_run_bl2() and replaces it with an assert to confirm
      the BL2 as secure.
      
      Fixes ARM-software/tf-issues#314
      
      Change-Id: I611b83f5c4090e58a76a2e950b0d797b46df3c29
      a2f8b166
  2. 01 Sep, 2015 1 commit
    • Vikram Kanigiri's avatar
      Configure all secure interrupts on ARM platforms · a7270d35
      Vikram Kanigiri authored
      ARM TF configures all interrupts as non-secure except those which
      are present in irq_sec_array. This patch updates the irq_sec_array
      with the missing secure interrupts for ARM platforms.
      
      It also updates the documentation to be inline with the latest
      implementation.
      
      Fixes ARM-software/tf-issues#312
      
      Change-Id: I39956c56a319086e3929d1fa89030b4ec4b01fcc
      a7270d35
  3. 24 Aug, 2015 1 commit
  4. 20 Aug, 2015 1 commit
    • Juan Castillo's avatar
      TBB: abort boot if BL3-2 cannot be authenticated · fedbc049
      Juan Castillo authored
      BL3-2 image (Secure Payload) is optional. If the image cannot be
      loaded a warning message is printed and the boot process continues.
      According to the TBBR document, this behaviour should not apply in
      case of an authentication error, where the boot process should be
      aborted.
      
      This patch modifies the load_auth_image() function to distinguish
      between a load error and an authentication error. The caller uses
      the return value to abort the boot process or continue.
      
      In case of authentication error, the memory region used to store
      the image is wiped clean.
      
      Change-Id: I534391d526d514b2a85981c3dda00de67e0e7992
      fedbc049
  5. 13 Aug, 2015 15 commits
    • Soby Mathew's avatar
      PSCI: Rework generic code to conform to coding guidelines · 9d070b99
      Soby Mathew authored
      This patch reworks the PSCI generic implementation to conform to ARM
      Trusted Firmware coding guidelines as described here:
      https://github.com/ARM-software/arm-trusted-firmware/wiki
      
      This patch also reviews the use of signed data types within PSCI
      Generic code and replaces them with their unsigned counterparts wherever
      they are not appropriate. The PSCI_INVALID_DATA macro which was defined
      to -1 is now replaced with PSCI_INVALID_PWR_LVL macro which is defined
      to PLAT_MAX_PWR_LVL + 1.
      
      Change-Id: Iaea422d0e46fc314e0b173c2b4c16e0d56b2515a
      9d070b99
    • Soby Mathew's avatar
      PSCI: Add documentation and fix plat_is_my_cpu_primary() · 58523c07
      Soby Mathew authored
      This patch adds the necessary documentation updates to porting_guide.md
      for the changes in the platform interface mandated as a result of the new
      PSCI Topology and power state management frameworks. It also adds a
      new document `platform-migration-guide.md` to aid the migration of existing
      platform ports to the new API.
      
      The patch fixes the implementation and callers of
      plat_is_my_cpu_primary() to use w0 as the return parameter as implied by
      the function signature rather than x0 which was used previously.
      
      Change-Id: Ic11e73019188c8ba2bd64c47e1729ff5acdcdd5b
      58523c07
    • Soby Mathew's avatar
      PSCI: Validate non secure entrypoint on ARM platforms · f9e858b1
      Soby Mathew authored
      This patch implements the platform power managment handler to verify
      non secure entrypoint for ARM platforms. The handler ensures that the
      entry point specified by the normal world during CPU_SUSPEND, CPU_ON
      or SYSTEM_SUSPEND PSCI API is a valid address within the non secure
      DRAM.
      
      Change-Id: I4795452df99f67a24682b22f0e0967175c1de429
      f9e858b1
    • Soby Mathew's avatar
      PSCI: Fix the return code for invalid entrypoint · 617540d8
      Soby Mathew authored
      As per PSCI1.0 specification, the error code to be returned when an invalid
      non secure entrypoint address is specified by the PSCI client for CPU_SUSPEND,
      CPU_ON or SYSTEM_SUSPEND must be PSCI_E_INVALID_ADDRESS. The current PSCI
      implementation returned PSCI_E_INVAL_PARAMS. This patch rectifies this error
      and also implements a common helper function to validate the entrypoint
      information to be used across these PSCI API implementations.
      
      Change-Id: I52d697d236c8bf0cd3297da4008c8e8c2399b170
      617540d8
    • Sandrine Bailleux's avatar
      PSCI: Use a single mailbox for warm reset for FVP and Juno · 804040d1
      Sandrine Bailleux authored
      Since there is a unique warm reset entry point, the FVP and Juno
      port can use a single mailbox instead of maintaining one per core.
      The mailbox gets programmed only once when plat_setup_psci_ops()
      is invoked during PSCI initialization. This means mailbox is not
      zeroed out during wakeup.
      
      Change-Id: Ieba032a90b43650f970f197340ebb0ce5548d432
      804040d1
    • Soby Mathew's avatar
      PSCI: Demonstrate support for composite power states · 2204afde
      Soby Mathew authored
      This patch adds support to the Juno and FVP ports for composite power states
      with both the original and extended state-id power-state formats. Both the
      platform ports use the recommended state-id encoding as specified in
      Section 6.5 of the PSCI specification (ARM DEN 0022C). The platform build flag
      ARM_RECOM_STATE_ID_ENC is used to include this support.
      
      By default, to maintain backwards compatibility, the original power state
      parameter format is used and the state-id field is expected to be zero.
      
      Change-Id: Ie721b961957eaecaca5bf417a30952fe0627ef10
      2204afde
    • Soby Mathew's avatar
      PSCI: Migrate ARM reference platforms to new platform API · 38dce70f
      Soby Mathew authored
      This patch migrates ARM reference platforms, Juno and FVP, to the new platform
      API mandated by the new PSCI power domain topology and composite power state
      frameworks. The platform specific makefiles now exports the build flag
      ENABLE_PLAT_COMPAT=0 to disable the platform compatibility layer.
      
      Change-Id: I3040ed7cce446fc66facaee9c67cb54a8cd7ca29
      38dce70f
    • Soby Mathew's avatar
      PSCI: Migrate TF to the new platform API and CM helpers · 85a181ce
      Soby Mathew authored
      This patch migrates the rest of Trusted Firmware excluding Secure Payload and
      the dispatchers to the new platform and context management API. The per-cpu
      data framework APIs which took MPIDRs as their arguments are deleted and only
      the ones which take core index as parameter are retained.
      
      Change-Id: I839d05ad995df34d2163a1cfed6baa768a5a595d
      85a181ce
    • Soby Mathew's avatar
      PSCI: Add deprecated API for SPD when compatibility is disabled · 5c8babcd
      Soby Mathew authored
      This patch defines deprecated platform APIs to enable Trusted
      Firmware components like Secure Payload and their dispatchers(SPD)
      to continue to build and run when platform compatibility is disabled.
      This decouples the migration of platform ports to the new platform API
      from SPD and enables them to be migrated independently. The deprecated
      platform APIs defined in this patch are : platform_get_core_pos(),
      platform_get_stack() and platform_set_stack().
      
      The patch also deprecates MPIDR based context management helpers like
      cm_get_context_by_mpidr(), cm_set_context_by_mpidr() and cm_init_context().
      A mechanism to deprecate APIs and identify callers of these APIs during
      build is introduced, which is controlled by the build flag WARN_DEPRECATED.
      If WARN_DEPRECATED is defined to 1, the users of the deprecated APIs will be
      flagged either as a link error for assembly files or compile time warning
      for C files during build.
      
      Change-Id: Ib72c7d5dc956e1a74d2294a939205b200f055613
      5c8babcd
    • Soby Mathew's avatar
      PSCI: Switch to the new PSCI frameworks · 67487846
      Soby Mathew authored
      This commit does the switch to the new PSCI framework implementation replacing
      the existing files in PSCI folder with the ones in PSCI1.0 folder. The
      corresponding makefiles are modified as required for the new implementation.
      The platform.h header file is also is switched to the new one
      as required by the new frameworks. The build flag ENABLE_PLAT_COMPAT defaults
      to 1 to enable compatibility layer which let the existing platform ports to
      continue to build and run with minimal changes.
      
      The default weak implementation of platform_get_core_pos() is now removed from
      platform_helpers.S and is provided by the compatibility layer.
      
      Note: The Secure Payloads and their dispatchers still use the old platform
      and framework APIs and hence it is expected that the ENABLE_PLAT_COMPAT build
      flag will remain enabled in subsequent patch. The compatibility for SPDs using
      the older APIs on platforms migrated to the new APIs will be added in the
      following patch.
      
      Change-Id: I18c51b3a085b564aa05fdd98d11c9f3335712719
      67487846
    • Soby Mathew's avatar
      PSCI: Implement platform compatibility layer · 32bc85f2
      Soby Mathew authored
      The new PSCI topology framework and PSCI extended State framework introduces
      a breaking change in the platform port APIs. To ease the migration of the
      platform ports to the new porting interface, a compatibility layer is
      introduced which essentially defines the new platform API in terms of the
      old API. The old PSCI helpers to retrieve the power-state, its associated
      fields and the highest coordinated physical OFF affinity level of a core
      are also implemented for compatibility. This allows the existing
      platform ports to work with the new PSCI framework without significant
      rework. This layer will be enabled by default once the switch to the new
      PSCI framework is done and is controlled by the build flag ENABLE_PLAT_COMPAT.
      
      Change-Id: I4b17cac3a4f3375910a36dba6b03d8f1700d07e3
      32bc85f2
    • Sandrine Bailleux's avatar
      PSCI: Unify warm reset entry points · eb975f52
      Sandrine Bailleux authored
      There used to be 2 warm reset entry points:
      
       - the "on finisher", for when the core has been turned on using a
         PSCI CPU_ON call;
      
       - the "suspend finisher", entered upon resumption from a previous
         PSCI CPU_SUSPEND call.
      
      The appropriate warm reset entry point used to be programmed into the
      mailboxes by the power management hooks.
      
      However, it is not required to provide this information to the PSCI
      entry point code, as it can figure it out by itself. By querying affinity
      info state, a core is able to determine on which execution path it is.
      If the state is ON_PENDING then it means it's been turned on else
      it is resuming from suspend.
      
      This patch unifies the 2 warm reset entry points into a single one:
      psci_entrypoint(). The patch also implements the necessary logic
      to distinguish between the 2 types of warm resets in the power up
      finisher.
      
      The plat_setup_psci_ops() API now takes the
      secure entry point as an additional parameter to enable the platforms
      to configure their mailbox. The platform hooks `pwr_domain_on`
      and `pwr_domain_suspend` no longer take secure entry point as
      a parameter.
      
      Change-Id: I7d1c93787b54213aefdbc046b8cd66a555dfbfd9
      eb975f52
    • Soby Mathew's avatar
      PSCI: Add framework to handle composite power states · 8ee24980
      Soby Mathew authored
      The state-id field in the power-state parameter of a CPU_SUSPEND call can be
      used to describe composite power states specific to a platform. The current PSCI
      implementation does not interpret the state-id field. It relies on the target
      power level and the state type fields in the power-state parameter to perform
      state coordination and power management operations. The framework introduced
      in this patch allows the PSCI implementation to intepret generic global states
      like RUN, RETENTION or OFF from the State-ID to make global state coordination
      decisions and reduce the complexity of platform ports. It adds support to
      involve the platform in state coordination which facilitates the use of
      composite power states and improves the support for entering standby states
      at multiple power domains.
      
      The patch also includes support for extended state-id format for the power
      state parameter as specified by PSCIv1.0.
      
      The PSCI implementation now defines a generic representation of the power-state
      parameter. It depends on the platform port to convert the power-state parameter
      (possibly encoding a composite power state) passed in a CPU_SUSPEND call to this
      representation via the `validate_power_state()` plat_psci_ops handler. It is an
      array where each index corresponds to a power level. Each entry contains the
      local power state the power domain at that power level could enter.
      
      The meaning of the local power state values is platform defined, and may vary
      between levels in a single platform. The PSCI implementation constrains the
      values only so that it can classify the state as RUN, RETENTION or OFF as
      required by the specification:
         * zero means RUN
         * all OFF state values at all levels must be higher than all RETENTION
           state values at all levels
         * the platform provides PLAT_MAX_RET_STATE and PLAT_MAX_OFF_STATE values
           to the framework
      
      The platform also must define the macros PLAT_MAX_RET_STATE and
      PLAT_MAX_OFF_STATE which lets the PSCI implementation find out which power
      domains have been requested to enter a retention or power down state. The PSCI
      implementation does not interpret the local power states defined by the
      platform. The only constraint is that the PLAT_MAX_RET_STATE <
      PLAT_MAX_OFF_STATE.
      
      For a power domain tree, the generic implementation maintains an array of local
      power states. These are the states requested for each power domain by all the
      cores contained within the domain. During a request to place multiple power
      domains in a low power state, the platform is passed an array of requested
      power-states for each power domain through the plat_get_target_pwr_state()
      API. It coordinates amongst these states to determine a target local power
      state for the power domain. A default weak implementation of this API is
      provided in the platform layer which returns the minimum of the requested
      power-states back to the PSCI state coordination.
      
      Finally, the plat_psci_ops power management handlers are passed the target
      local power states for each affected power domain using the generic
      representation described above. The platform executes operations specific to
      these target states.
      
      The platform power management handler for placing a power domain in a standby
      state (plat_pm_ops_t.pwr_domain_standby()) is now only used as a fast path for
      placing a core power domain into a standby or retention state should now be
      used to only place the core power domain in a standby or retention state.
      
      The extended state-id power state format can be enabled by setting the
      build flag PSCI_EXTENDED_STATE_ID=1 and it is disabled by default.
      
      Change-Id: I9d4123d97e179529802c1f589baaa4101759d80c
      8ee24980
    • Soby Mathew's avatar
      PSCI: Introduce new platform interface to describe topology · 82dcc039
      Soby Mathew authored
      This patch removes the assumption in the current PSCI implementation that MPIDR
      based affinity levels map directly to levels in a power domain tree. This
      enables PSCI generic code to support complex power domain topologies as
      envisaged by PSCIv1.0 specification. The platform interface for querying
      the power domain topology has been changed such that:
      
      1. The generic PSCI code does not generate MPIDRs and use them to query the
         platform about the number of power domains at a particular power level. The
         platform now provides a description of the power domain tree on the SoC
         through a data structure. The existing platform APIs to provide the same
         information have been removed.
      
      2. The linear indices returned by plat_core_pos_by_mpidr() and
         plat_my_core_pos() are used to retrieve core power domain nodes from the
         power domain tree. Power domains above the core level are accessed using a
         'parent' field in the tree node descriptors.
      
      The platform describes the power domain tree in an array of 'unsigned
      char's. The first entry in the array specifies the number of power domains at
      the highest power level implemented in the system. Each susbsequent entry
      corresponds to a power domain and contains the number of power domains that are
      its direct children. This array is exported to the generic PSCI implementation
      via the new `plat_get_power_domain_tree_desc()` platform API.
      
      The PSCI generic code uses this array to populate its internal power domain tree
      using the Breadth First Search like algorithm. The tree is split into two
      arrays:
      
      1. An array that contains all the core power domain nodes
      
      2. An array that contains all the other power domain nodes
      
      A separate array for core nodes allows certain core specific optimisations to
      be implemented e.g. remove the bakery lock, re-use per-cpu data framework for
      storing some information.
      
      Entries in the core power domain array are allocated such that the
      array index of the domain is equal to the linear index returned by
      plat_core_pos_by_mpidr() and plat_my_core_pos() for the MPIDR
      corresponding to that domain. This relationship is key to be able to use
      an MPIDR to find the corresponding core power domain node, traverse to higher
      power domain nodes and index into arrays that contain core specific
      information.
      
      An introductory document has been added to briefly describe the new interface.
      
      Change-Id: I4b444719e8e927ba391cae48a23558308447da13
      82dcc039
    • Soby Mathew's avatar
      PSCI: Introduce new platform and CM helper APIs · 12d0d00d
      Soby Mathew authored
      This patch introduces new platform APIs and context management helper APIs
      to support the new topology framework based on linear core position. This
      framework will be introduced in the follwoing patch and it removes the
      assumption that the MPIDR based affinity levels map directly to levels
      in a power domain tree. The new platforms APIs and context management
      helpers based on core position are as described below:
      
      * plat_my_core_pos() and plat_core_pos_by_mpidr()
      
      These 2 new mandatory platform APIs are meant to replace the existing
      'platform_get_core_pos()' API. The 'plat_my_core_pos()' API returns the
      linear index of the calling core and 'plat_core_pos_by_mpidr()' returns
      the linear index of a core specified by its MPIDR. The latter API will also
      validate the MPIDR passed as an argument and will return an error code (-1)
      if an invalid MPIDR is passed as the argument. This enables the caller to
      safely convert an MPIDR of another core to its linear index without querying
      the PSCI topology tree e.g. during a call to PSCI CPU_ON.
      
      Since the 'plat_core_pos_by_mpidr()' API verifies an MPIDR, which is always
      platform specific, it is no longer possible to maintain a default implementation
      of this API. Also it might not be possible for a platform port to verify an
      MPIDR before the C runtime has been setup or the topology has been initialized.
      This would prevent 'plat_core_pos_by_mpidr()' from being callable prior to
      topology setup. As a result, the generic Trusted Firmware code does not call
      this API before the topology setup has been done.
      
      The 'plat_my_core_pos' API should be able to run without a C runtime.
      Since this API needs to return a core position which is equal to the one
      returned by 'plat_core_pos_by_mpidr()' API for the corresponding MPIDR,
      this too cannot have default implementation and is a mandatory API for
      platform ports. These APIs will be implemented by the ARM reference platform
      ports later in the patch stack.
      
      * plat_get_my_stack() and plat_set_my_stack()
      
      These APIs are the stack management APIs which set/return stack addresses
      appropriate for the calling core. These replace the 'platform_get_stack()' and
      'platform_set_stack()' APIs. A default weak MP version and a global UP version
      of these APIs are provided for the platforms.
      
      * Context management helpers based on linear core position
      
      A set of new context management(CM) helpers viz cm_get_context_by_index(),
      cm_set_context_by_index(), cm_init_my_context() and cm_init_context_by_index()
      are defined which are meant to replace the old helpers which took MPIDR
      as argument. The old CM helpers are implemented based on the new helpers to
      allow for code consolidation and will be deprecated once the switch to the new
      framework is done.
      
      Change-Id: I89758632b370c2812973a4b2efdd9b81a41f9b69
      12d0d00d
  6. 05 Aug, 2015 6 commits
    • Soby Mathew's avatar
      PSCI: Remove references to affinity based power management · 4067dc31
      Soby Mathew authored
      As per Section 4.2.2. in the PSCI specification, the term "affinity"
      is used in the context of describing the hierarchical arrangement
      of cores. This often, but not always, maps directly to the processor
      power domain topology of the system. The current PSCI implementation
      assumes that this is always the case i.e. MPIDR based levels of
      affinity always map to levels in a power domain topology tree.
      
      This patch is the first in a series of patches which remove this
      assumption. It removes all occurences of the terms "affinity
      instances and levels" when used to describe the power domain
      topology. Only the terminology is changed in this patch. Subsequent
      patches will implement functional changes to remove the above
      mentioned assumption.
      
      Change-Id: Iee162f051b228828310610c5a320ff9d31009b4e
      4067dc31
    • Soby Mathew's avatar
      PSCI: Invoke PM hooks only for the highest level · 6590ce22
      Soby Mathew authored
      This patch optimizes the invocation of the platform power management hooks for
      ON, OFF and SUSPEND such that they are called only for the highest affinity
      level which will be powered off/on. Earlier, the hooks were being invoked for
      all the intermediate levels as well.
      
      This patch requires that the platforms migrate to the new semantics of the PM
      hooks.  It also removes the `state` parameter from the pm hooks as the `afflvl`
      parameter now indicates the highest affinity level for which power management
      operations are required.
      
      Change-Id: I57c87931d8a2723aeade14acc710e5b78ac41732
      6590ce22
    • Soby Mathew's avatar
      PSCI: Create new directory to implement new frameworks · b48349eb
      Soby Mathew authored
      This patch creates a copy of the existing PSCI files and related psci.h and
      platform.h header files in a new `PSCI1.0` directory. The changes for the
      new PSCI power domain topology and extended state-ID frameworks will be
      added incrementally to these files. This incremental approach will
      aid in review and in understanding the changes better. Once all the
      changes have been introduced, these files will replace the existing PSCI
      files.
      
      Change-Id: Ibb8a52e265daa4204e34829ed050bddd7e3316ff
      b48349eb
    • Jimmy Huang's avatar
      cortex_a53: Add A53 errata #826319, #836870 · 6b0d97b2
      Jimmy Huang authored
      
      
      - Apply a53 errata #826319 to revision <= r0p2
      - Apply a53 errata #836870 to revision <= r0p3
      - Update docs/cpu-specific-build-macros.md for newly added errata build flags
      
      Change-Id: I44918e36b47dca1fa29695b68700ff9bf888865e
      Signed-off-by: default avatarJimmy Huang <jimmy.huang@mediatek.com>
      6b0d97b2
    • Jimmy Huang's avatar
      Add mmio utility functions · fd904df1
      Jimmy Huang authored
      
      
      - Add mmio 16 bits read/write functions.
      - Add clear/set/clear-and-set utility functions.
      
      Change-Id: I00fdbdf24af537424f8666b1cadaa5f77a2a46ed
      Signed-off-by: default avatarJimmy Huang <jimmy.huang@mediatek.com>
      fd904df1
    • Juan Castillo's avatar
      Fix build error with optimizations disabled (-O0) · 80bb6afd
      Juan Castillo authored
      If Trusted Firmware is built with optimizations disabled (-O0), the
      linker throws the following error:
      
          undefined reference to 'xxx'
      
      Where 'xxx' is a raw inline function defined in a header file. The
      reason is that, with optimizations disabled, GCC may decide to skip
      the inlining. If that is the case, an external definition to the
      compilation unit must be provided. Because no external definition
      is present, the linker throws the error.
      
      This patch fixes the problem by declaring the following inline
      functions static, so the internal definition is used:
      
          inline void soc_css_security_setup(void)
          inline const arm_config_t *get_arm_config(void)
      
      Change-Id: Id650d6be1b1396bdb48af1ac8a4c7900d212e95f
      80bb6afd
  7. 24 Jul, 2015 1 commit
    • Varun Wadekar's avatar
      Add "Project Denver" CPU support · 3a8c55f6
      Varun Wadekar authored
      
      
      Denver is NVIDIA's own custom-designed, 64-bit, dual-core CPU which is
      fully ARMv8 architecture compatible.  Each of the two Denver cores
      implements a 7-way superscalar microarchitecture (up to 7 concurrent
      micro-ops can be executed per clock), and includes a 128KB 4-way L1
      instruction cache, a 64KB 4-way L1 data cache, and a 2MB 16-way L2
      cache, which services both cores.
      
      Denver implements an innovative process called Dynamic Code Optimization,
      which optimizes frequently used software routines at runtime into dense,
      highly tuned microcode-equivalent routines. These are stored in a
      dedicated, 128MB main-memory-based optimization cache. After being read
      into the instruction cache, the optimized micro-ops are executed,
      re-fetched and executed from the instruction cache as long as needed and
      capacity allows.
      
      Effectively, this reduces the need to re-optimize the software routines.
      Instead of using hardware to extract the instruction-level parallelism
      (ILP) inherent in the code, Denver extracts the ILP once via software
      techniques, and then executes those routines repeatedly, thus amortizing
      the cost of ILP extraction over the many execution instances.
      
      Denver also features new low latency power-state transitions, in addition
      to extensive power-gating and dynamic voltage and clock scaling based on
      workloads.
      Signed-off-by: default avatarVarun Wadekar <vwadekar@nvidia.com>
      3a8c55f6
  8. 09 Jul, 2015 1 commit
    • Juan Castillo's avatar
      Use uintptr_t as base address type in ARM driver APIs · 02462972
      Juan Castillo authored
      This patch changes the type of the base address parameter in the
      ARM device driver APIs to uintptr_t (GIC, CCI, TZC400, PL011). The
      uintptr_t type allows coverage of the whole memory space and to
      perform arithmetic operations on the addresses. ARM platform code
      has also been updated to use uintptr_t as GIC base address in the
      configuration.
      
      Fixes ARM-software/tf-issues#214
      
      Change-Id: I1b87daedadcc8b63e8f113477979675e07d788f1
      02462972
  9. 25 Jun, 2015 7 commits
    • Juan Castillo's avatar
      TBB: delete deprecated plat_match_rotpk() · f04585f3
      Juan Castillo authored
      The authentication framework deprecates plat_match_rotpk()
      in favour of plat_get_rotpk_info(). This patch removes
      plat_match_rotpk() from the platform port.
      
      Change-Id: I2250463923d3ef15496f9c39678b01ee4b33883b
      f04585f3
    • Juan Castillo's avatar
      TBB: switch to the new authentication framework · 1779ba6b
      Juan Castillo authored
      This patch modifies the Trusted Board Boot implementation to use
      the new authentication framework, making use of the authentication
      module, the cryto module and the image parser module to
      authenticate the images in the Chain of Trust.
      
      A new function 'load_auth_image()' has been implemented. When TBB
      is enabled, this function will call the authentication module to
      authenticate parent images following the CoT up to the root of
      trust to finally load and authenticate the requested image.
      
      The platform is responsible for picking up the right makefiles to
      build the corresponding cryptographic and image parser libraries.
      ARM platforms use the mbedTLS based libraries.
      
      The platform may also specify what key algorithm should be used
      to sign the certificates. This is done by declaring the 'KEY_ALG'
      variable in the platform makefile. FVP and Juno use ECDSA keys.
      
      On ARM platforms, BL2 and BL1-RW regions have been increased 4KB
      each to accommodate the ECDSA code.
      
      REMOVED BUILD OPTIONS:
      
        * 'AUTH_MOD'
      
      Change-Id: I47d436589fc213a39edf5f5297bbd955f15ae867
      1779ba6b
    • Juan Castillo's avatar
      TBB: add TBBR Chain of Trust · dff93c86
      Juan Castillo authored
      This patch adds a CoT based on the Trusted Board Boot Requirements
      document*. The CoT consists of an array of authentication image
      descriptors indexed by the image identifiers.
      
      A new header file with TBBR image identifiers has been added.
      Platforms that use the TBBR (i.e. ARM platforms) may reuse these
      definitions as part of their platform porting.
      
      PLATFORM PORT - IMPORTANT:
      
      Default image IDs have been removed from the platform common
      definitions file (common_def.h). As a consequence, platforms that
      used those common definitons must now either include the IDs
      provided by the TBBR header file or define their own IDs.
      
      *The NVCounter authentication method has not been implemented yet.
      
      Change-Id: I7c4d591863ef53bb0cd4ce6c52a60b06fa0102d5
      dff93c86
    • Juan Castillo's avatar
      TBB: add mbedTLS authentication related libraries · 7d37aa17
      Juan Castillo authored
      This patch adds the following mbedTLS based libraries:
      
      * Cryptographic library
      
      It is used by the crypto module to verify a digital signature
      and a hash. This library relies on mbedTLS to perform the
      cryptographic operations. mbedTLS sources must be obtained
      separately.
      
      Two key algorithms are currently supported:
      
          * RSA-2048
          * ECDSA-SECP256R1
      
      The platform is responsible for picking up the required
      algorithm by defining the 'MBEDTLS_KEY_ALG' variable in the
      platform makefile. Available options are:
      
          * 'rsa' (for RSA-2048) (default option)
          * 'ecdsa' (for ECDSA-SECP256R1)
      
      Hash algorithm currently supported is SHA-256.
      
      * Image parser library
      
      Used by the image parser module to extract the authentication
      parameters stored in X509v3 certificates.
      
      Change-Id: I597c4be3d29287f2f18b82846973afc142ee0bf0
      7d37aa17
    • Juan Castillo's avatar
      TBB: add authentication framework · 05799ae0
      Juan Castillo authored
      This patch adds the authentication framework that will be used as
      the base to implement Trusted Board Boot in the Trusted Firmware.
      The framework comprises the following modules:
      
      - Image Parser Module (IPM)
      
          This module is responsible for interpreting images, check
          their integrity and extract authentication information from
          them during Trusted Board Boot.
      
          The module currently supports three types of images i.e.
          raw binaries, X509v3 certificates and any type specific to
          a platform. An image parser library must be registered for
          each image type (the only exception is the raw image parser,
          which is included in the main module by default).
      
          Each parser library (if used) must export a structure in a
          specific linker section which contains function pointers to:
      
              1. Initialize the library
              2. Check the integrity of the image type supported by
                 the library
              3. Extract authentication information from the image
      
      - Cryptographic Module (CM)
      
          This module is responsible for verifying digital signatures
          and hashes. It relies on an external cryptographic library
          to perform the cryptographic operations.
      
          To register a cryptographic library, the library must use the
          REGISTER_CRYPTO_LIB macro, passing function pointers to:
      
              1. Initialize the library
              2. Verify a digital signature
              3. Verify a hash
      
          Failing to register a cryptographic library will generate
          a build time error.
      
      - Authentication Module (AM)
      
          This module provides methods to authenticate an image, like
          hash comparison or digital signatures. It uses the image parser
          module to extract authentication parameters, the crypto module
          to perform cryptographic operations and the Chain of Trust to
          authenticate the images.
      
          The Chain of Trust (CoT) is a data structure that defines the
          dependencies between images and the authentication methods
          that must be followed to authenticate an image.
      
      The Chain of Trust, when added, must provide a header file named
      cot_def.h with the following definitions:
      
      - COT_MAX_VERIFIED_PARAMS
      
          Integer value indicating the maximum number of authentication
          parameters an image can present. This value will be used by the
          authentication module to allocate the memory required to load
          the parameters in the image descriptor.
      
      Change-Id: Ied11bd5cd410e1df8767a1df23bb720ce7e58178
      05799ae0
    • Juan Castillo's avatar
      TBB: add platform API to read the ROTPK information · 95cfd4ad
      Juan Castillo authored
      This patch extends the platform port by adding an API that returns
      either the Root of Trust public key (ROTPK) or its hash. This is
      usually stored in ROM or eFUSE memory. The ROTPK returned must be
      encoded in DER format according to the following ASN.1 structure:
      
          SubjectPublicKeyInfo  ::=  SEQUENCE  {
              algorithm           AlgorithmIdentifier,
              subjectPublicKey    BIT STRING
          }
      
      In case the platform returns a hash of the key:
      
          DigestInfo  ::= SEQUENCE {
              digestAlgorithm     AlgorithmIdentifier,
              keyDigest           OCTET STRING
          }
      
      An implementation for ARM development platforms is provided in this
      patch. When TBB is enabled, the ROTPK hash location must be specified
      using the build option 'ARM_ROTPK_LOCATION'. Available options are:
      
          - 'regs' : return the ROTPK hash stored in the Trusted
            root-key storage registers.
      
          - 'devel_rsa' : return a ROTPK hash embedded in the BL1 and
            BL2 binaries. This hash has been obtained from the development
            RSA public key located in 'plat/arm/board/common/rotpk'.
      
      On FVP, the number of MMU tables has been increased to map and
      access the ROTPK registers.
      
      A new file 'board_common.mk' has been added to improve code sharing
      in the ARM develelopment platforms.
      
      Change-Id: Ib25862e5507d1438da10773e62bd338da8f360bf
      95cfd4ad
    • Juan Castillo's avatar
      Use numbers to identify images instead of names · 16948ae1
      Juan Castillo authored
      The Trusted firmware code identifies BL images by name. The platform
      port defines a name for each image e.g. the IO framework uses this
      mechanism in the platform function plat_get_image_source(). For
      a given image name, it returns the handle to the image file which
      involves comparing images names. In addition, if the image is
      packaged in a FIP, a name comparison is required to find the UUID
      for the image. This method is not optimal.
      
      This patch changes the interface between the generic and platform
      code with regard to identifying images. The platform port must now
      allocate a unique number (ID) for every image. The generic code will
      use the image ID instead of the name to access its attributes.
      
      As a result, the plat_get_image_source() function now takes an image
      ID as an input parameter. The organisation of data structures within
      the IO framework has been rationalised to use an image ID as an index
      into an array which contains attributes of the image such as UUID and
      name. This prevents the name comparisons.
      
      A new type 'io_uuid_spec_t' has been introduced in the IO framework
      to specify images identified by UUID (i.e. when the image is contained
      in a FIP file). There is no longer need to maintain a look-up table
      [iname_name --> uuid] in the io_fip driver code.
      
      Because image names are no longer mandatory in the platform port, the
      debug messages in the generic code will show the image identifier
      instead of the file name. The platforms that support semihosting to
      load images (i.e. FVP) must provide the file names as definitions
      private to the platform.
      
      The ARM platform ports and documentation have been updated accordingly.
      All ARM platforms reuse the image IDs defined in the platform common
      code. These IDs will be used to access other attributes of an image in
      subsequent patches.
      
      IMPORTANT: applying this patch breaks compatibility for platforms that
      use TF BL1 or BL2 images or the image loading code. The platform port
      must be updated to match the new interface.
      
      Change-Id: I9c1b04cb1a0684c6ee65dee66146dd6731751ea5
      16948ae1
  10. 24 Jun, 2015 1 commit
    • Sandrine Bailleux's avatar
      Bug fix: Build time condition to relocate RW data · c9915c0b
      Sandrine Bailleux authored
      This patch fixes the build time condition deciding whether the
      read-write data should be relocated from ROM to RAM. It was incorrectly
      using __DATA_ROM_START__, which is a linker symbol and not a compiler
      build flag. As a result, the relocation code was always compiled out.
      
      This bug has been introduced by the following patch:
      "Rationalize reset handling code"
      
      Change-Id: I1c8d49de32f791551ab4ac832bd45101d6934045
      c9915c0b
  11. 22 Jun, 2015 1 commit
    • Soby Mathew's avatar
      PSCI: Add SYSTEM_SUSPEND API support · c0aff0e0
      Soby Mathew authored
      This patch adds support for SYSTEM_SUSPEND API as mentioned in the PSCI 1.0
      specification. This API, on being invoked on the last running core on a
      supported platform, will put the system into a low power mode with memory
      retention.
      
      The psci_afflvl_suspend() internal API has been reused as most of the actions
      to suspend a system are the same as invoking the PSCI CPU_SUSPEND API with the
      target affinity level as 'system'. This API needs the 'power state' parameter
      for the target low power state. This parameter is not passed by the caller of
      the SYSTEM_SUSPEND API. Hence, the platform needs to implement the
      get_sys_suspend_power_state() platform function to provide this information.
      Also, the platform also needs to add support for suspending the system to the
      existing 'plat_pm_ops' functions: affinst_suspend() and
      affinst_suspend_finish().
      
      Change-Id: Ib6bf10809cb4e9b92f463755608889aedd83cef5
      c0aff0e0
  12. 18 Jun, 2015 2 commits
    • Ryan Harkin's avatar
      FVP: Add SP804 delay timer · b49b3221
      Ryan Harkin authored
      
      
      Add SP804 delay timer support to the FVP BSP.
      
      This commit simply provides the 3 constants needed by the SP804
      delay timer driver and calls sp804_timer_init() in
      bl2_platform_setup(). The BSP does not currently use the delay
      timer functions.
      
      Note that the FVP SP804 is a normal world accessible peripheral
      and should not be used by the secure world after transition
      to the normal world.
      
      Change-Id: I5f91d2ac9eb336fd81943b3bb388860dfb5f2b39
      Co-authored-by: default avatarDan Handley <dan.handley@arm.com>
      b49b3221
    • Ryan Harkin's avatar
      Add SP804 delay timer driver · cc58b2d0
      Ryan Harkin authored
      
      
      Add a delay timer driver for the ARM SP804 dual timer.
      
      This driver only uses the first timer, called timer 1 in the
      SP804 Technical Reference Manual (ARM DDI 0271D).
      
      To use this driver, the BSP must provide three constants:
      
      *   The base address of the SP804 dual timer
      *   The clock multiplier
      *   The clock divider
      
      The BSP is responsible for calling sp804_timer_init(). The SP804
      driver instantiates a constant timer_ops_t and calls the generic
      timer_init().
      
      Change-Id: I49ba0a52bdf6072f403d1d0a20e305151d4bc086
      Co-authored-by: default avatarDan Handley <dan.handley@arm.com>
      cc58b2d0
  13. 17 Jun, 2015 1 commit
    • Ryan Harkin's avatar
      Add a simple delay timer driver API · 9055c7d1
      Ryan Harkin authored
      
      
      The API is simple. The BSP or specific timer driver creates an
      instance of timer_ops_t, fills in the timer specific data, then calls
      timer_init(). The timer specific data includes a function pointer
      to return the timer value and a clock multiplier/divider. The ratio
      of the multiplier and the divider is the clock frequency in MHz.
      
      After that, mdelay() or udelay() can be called to delay execution for
      the specified time (milliseconds or microseconds, respectively).
      
      Change-Id: Icf8a295e1d25874f789bf28b7412156329dc975c
      Co-authored-by: default avatarDan Handley <dan.handley@arm.com>
      9055c7d1
  14. 09 Jun, 2015 1 commit
    • Sandrine Bailleux's avatar
      CSS: Remove the constants MHU_SECURE_BASE/SIZE · fe55612b
      Sandrine Bailleux authored
      For CSS based platforms, the constants MHU_SECURE_BASE and
      MHU_SECURE_SIZE used to define the extents of the Trusted Mailboxes.
      As such, they were misnamed because the mailboxes are completely
      unrelated to the MHU hardware.
      
      This patch removes the MHU_SECURE_BASE and MHU_SECURE_SIZE #defines.
      The address of the Trusted Mailboxes is now relative to the base of
      the Trusted SRAM.
      
      This patch also introduces a new constant, SCP_COM_SHARED_MEM_BASE,
      which is the address of the first memory region used for communication
      between AP and SCP. This is used by the BOM and SCPI protocols.
      
      Change-Id: Ib200f057b19816bf05e834d111271c3ea777291f
      fe55612b