1. 14 Sep, 2015 1 commit
    • Achin Gupta's avatar
      Make generic code work in presence of system caches · 54dc71e7
      Achin Gupta authored
      On the ARMv8 architecture, cache maintenance operations by set/way on the last
      level of integrated cache do not affect the system cache. This means that such a
      flush or clean operation could result in the data being pushed out to the system
      cache rather than main memory. Another CPU could access this data before it
      enables its data cache or MMU. Such accesses could be serviced from the main
      memory instead of the system cache. If the data in the sysem cache has not yet
      been flushed or evicted to main memory then there could be a loss of
      coherency. The only mechanism to guarantee that the main memory will be updated
      is to use cache maintenance operations to the PoC by MVA(See section D3.4.11
      (System level caches) of ARMv8-A Reference Manual (Issue A.g/ARM DDI0487A.G).
      
      This patch removes the reliance of Trusted Firmware on the flush by set/way
      operation to ensure visibility of data in the main memory. Cache maintenance
      operations by MVA are now used instead. The following are the broad category of
      changes:
      
      1. The RW areas of BL2/BL31/BL32 are invalidated by MVA before the C runtime is
         initialised. This ensures that any stale cache lines at any level of cache
         are removed.
      
      2. Updates to global data in runtime firmware (BL31) by the primary CPU are made
         visible to secondary CPUs using a cache clean operation by MVA.
      
      3. Cache maintenance by set/way operations are only used prior to power down.
      
      NOTE: NON-UPSTREAM TRUSTED FIRMWARE CODE SHOULD MAKE EQUIVALENT CHANGES IN
      ORDER TO FUNCTION CORRECTLY ON PLATFORMS WITH SUPPORT FOR SYSTEM CACHES.
      
      Fixes ARM-software/tf-issues#205
      
      Change-Id: I64f1b398de0432813a0e0881d70f8337681f6e9a
      54dc71e7
  2. 10 Sep, 2015 1 commit
    • Achin Gupta's avatar
      Pass the target suspend level to SPD suspend hooks · f1054c93
      Achin Gupta authored
      In certain Trusted OS implementations it is a requirement to pass them the
      highest power level which will enter a power down state during a PSCI
      CPU_SUSPEND or SYSTEM_SUSPEND API invocation. This patch passes this power level
      to the SPD in the "max_off_pwrlvl" parameter of the svc_suspend() hook.
      
      Currently, the highest power level which was requested to be placed in a low
      power state (retention or power down) is passed to the SPD svc_suspend_finish()
      hook. This hook is called after emerging from the low power state. It is more
      useful to pass the highest power level which was powered down instead. This
      patch does this by changing the semantics of the parameter passed to an SPD's
      svc_suspend_finish() hook. The name of the parameter has been changed from
      "suspend_level" to "max_off_pwrlvl" as well. Same changes have been made to the
      parameter passed to the tsp_cpu_resume_main() function.
      
      NOTE: THIS PATCH CHANGES THE SEMANTICS OF THE EXISTING "svc_suspend_finish()"
            API BETWEEN THE PSCI AND SPD/SP IMPLEMENTATIONS. THE LATTER MIGHT NEED
            UPDATES TO ENSURE CORRECT BEHAVIOUR.
      
      Change-Id: If3a9d39b13119bbb6281f508a91f78a2f46a8b90
      f1054c93
  3. 13 Aug, 2015 6 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: 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
    • 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
  4. 05 Aug, 2015 3 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
  5. 05 Mar, 2015 1 commit
    • Sandrine Bailleux's avatar
      Fix violations to the coding style · ba592e28
      Sandrine Bailleux authored
      All coding style violations have been fixed in a previous patch and
      since then, each individual patch has been checked in this regard.
      However, the latest version of the checkpatch.pl script from the Linux
      kernel is more advanced and it is able to flag new errors in the
      Trusted Firmware codebase. This patch fixes them.
      
      Change-Id: I1f332f2440984be85d36b231bb83260368987077
      ba592e28
  6. 26 Jan, 2015 1 commit
    • Soby Mathew's avatar
      Verify capabilities before handling PSCI calls · b234b2c4
      Soby Mathew authored
      This patch implements conditional checks in psci_smc_handler() to verify
      that the psci function invoked by the caller is supported by the platform
      or SPD implementation. The level of support is saved in the 'psci_caps'
      variable. This check allows the PSCI implementation to return an error
      early.
      
      As a result of the above verification, the checks performed within the psci
      handlers for the pm hooks are now removed and replaced with assertions.
      
      Change-Id: I9b5b646a01d8566dc28c4d77dd3aa54e9bf3981a
      b234b2c4
  7. 23 Jan, 2015 5 commits
    • Soby Mathew's avatar
      Return success if an interrupt is seen during PSCI CPU_SUSPEND · 22f08973
      Soby Mathew authored
      This patch adds support to return SUCCESS if a pending interrupt is
      detected during a CPU_SUSPEND call to a power down state. The check
      is performed as late as possible without losing the ability to return
      to the caller. This reduces the overhead incurred by a CPU in
      undergoing a complete power cycle when a wakeup interrupt is already
      pending.
      
      Fixes ARM-Software/tf-issues#102
      
      Change-Id: I1aff04a74b704a2f529734428030d1d10750fd4b
      22f08973
    • Soby Mathew's avatar
      Validate power_state and entrypoint when executing PSCI calls · 539dcedb
      Soby Mathew authored
      This patch allows the platform to validate the power_state and
      entrypoint information from the normal world early on in PSCI
      calls so that we can return the error safely. New optional
      pm_ops hooks `validate_power_state` and `validate_ns_entrypoint`
      are introduced to do this.
      
      As a result of these changes, all the other pm_ops handlers except
      the PSCI_ON handler are expected to be successful. Also, the PSCI
      implementation will now assert if a PSCI API is invoked without the
      corresponding pm_ops handler being registered by the platform.
      
      NOTE : PLATFORM PORTS WILL BREAK ON MERGE OF THIS COMMIT. The
      pm hooks have 2 additional optional callbacks and the return type
      of the other hooks have changed.
      
      Fixes ARM-Software/tf-issues#229
      
      Change-Id: I036bc0cff2349187c7b8b687b9ee0620aa7e24dc
      539dcedb
    • Soby Mathew's avatar
      Save 'power_state' early in PSCI CPU_SUSPEND call · 31244d74
      Soby Mathew authored
      This patch adds support to save the "power state" parameter before the
      affinity level specific handlers are called in a CPU_SUSPEND call.
      This avoids the need to pass the power_state as a parameter to the
      handlers and Secure Payload Dispatcher (SPD) suspend spd_pm_ops.
      The power_state arguments in the spd_pm_ops operations are now reserved
      and must not be used. The SPD can query the relevant power_state fields
      by using the psci_get_suspend_afflvl() & psci_get_suspend_stateid() APIs.
      
      NOTE: THIS PATCH WILL BREAK THE SPD_PM_OPS INTERFACE. HENCE THE SECURE
      PAYLOAD DISPATCHERS WILL NEED TO BE REWORKED TO USE THE NEW INTERFACE.
      
      Change-Id: I1293d7dc8cf29cfa6a086a009eee41bcbf2f238e
      31244d74
    • Soby Mathew's avatar
      Rework internal API to save non-secure entry point info · 78879b9a
      Soby Mathew authored
      This patch replaces the internal psci_save_ns_entry() API with a
      psci_get_ns_ep_info() API. The new function splits the work done by the
      previous one such that it populates and returns an 'entry_point_info_t'
      structure with the information to enter the normal world upon completion
      of the CPU_SUSPEND or CPU_ON call. This information is used to populate
      the non-secure context structure separately.
      
      This allows the new internal API `psci_get_ns_ep_info` to return error
      and enable the code to return safely.
      
      Change-Id: Ifd87430a4a3168eac0ebac712f59c93cbad1b231
      78879b9a
    • Soby Mathew's avatar
      Remove `ns_entrypoint` and `mpidr` from parameters in pm_ops · e146f4cc
      Soby Mathew authored
      This patch removes the non-secure entry point information being passed
      to the platform pm_ops which is not needed. Also, it removes the `mpidr`
      parameter for  platform pm hooks which are meant to do power management
      operations only on the current cpu.
      
      NOTE: PLATFORM PORTS MUST BE UPDATED AFTER MERGING THIS COMMIT.
      
      Change-Id: If632376a990b7f3b355f910e78771884bf6b12e7
      e146f4cc
  8. 19 Aug, 2014 4 commits
    • Achin Gupta's avatar
      Miscellaneous PSCI code cleanups · a4a8eaeb
      Achin Gupta authored
      This patch implements the following cleanups in PSCI generic code:
      
      1. It reworks the affinity level specific handlers in the PSCI implementation
         such that.
      
         a. Usage of the 'rc' local variable is restricted to only where it is
            absolutely needed
      
         b. 'plat_state' local variable is defined only when a direct invocation of
            plat_get_phys_state() does not suffice.
      
         c. If a platform handler is not registered then the level specific handler
            returns early.
      
      2. It limits the use of the mpidr_aff_map_nodes_t typedef to declaration of
         arrays of the type instead of using it in function prototypes as well.
      
      3. It removes dangling declarations of __psci_cpu_off() and
         __psci_cpu_suspend(). The definitions of these functions were removed in
         earlier patches.
      
      Change-Id: I51e851967c148be9c2eeda3a3c41878f7b4d6978
      a4a8eaeb
    • Achin Gupta's avatar
      Add APIs to preserve highest affinity level in OFF state · 0a46e2c3
      Achin Gupta authored
      This patch adds APIs to find, save and retrieve the highest affinity level which
      will enter or exit from the physical OFF state during a PSCI power management
      operation. The level is stored in per-cpu data.
      
      It then reworks the PSCI implementation to perform cache maintenance only
      when the handler for the highest affinity level to enter/exit the OFF state is
      called.
      
      For example. during a CPU_SUSPEND operation, state management is done prior to
      calling the affinity level specific handlers. The highest affinity level which
      will be turned off is determined using the psci_find_max_phys_off_afflvl()
      API. This level is saved using the psci_set_max_phys_off_afflvl() API. In the
      code that does generic handling for each level, prior to performing cache
      maintenance it is first determined if the current affinity level matches the
      value returned by psci_get_max_phys_off_afflvl(). Cache maintenance is done if
      the values match.
      
      This change allows the last CPU in a cluster to perform cache maintenance
      independently. Earlier, cache maintenance was started in the level 0 handler and
      finished in the level 1 handler. This change in approach will facilitate
      implementation of tf-issues#98.
      
      Change-Id: I57233f0a27b3ddd6ddca6deb6a88b234525b0ae6
      0a46e2c3
    • Achin Gupta's avatar
      Rework state management in the PSCI implementation · 84c9f100
      Achin Gupta authored
      This patch pulls out state management from the affinity level specific handlers
      into the top level functions specific to the operation
      i.e. psci_afflvl_suspend(), psci_afflvl_on() etc.
      
      In the power down path this patch will allow an affinity instance at level X to
      determine the state that an affinity instance at level X+1 will enter before the
      level specific handlers are called. This will be useful to determine whether a
      CPU is the last in the cluster during a suspend/off request and so on.
      
      Similarly, in the power up path this patch will allow an affinity instance at
      level X to determine the state that an affinity instance at level X+1 has
      emerged from, even after the level specific handlers have been called. This will
      be useful in determining whether a CPU is the first in the cluster during a
      on/resume request and so on.
      
      As before, while powering down, state is updated before the level specific
      handlers are invoked so that they can perform actions based upon their target
      state. While powering up, state is updated after the level specific handlers have
      been invoked so that they can perform actions based upon the state they emerged
      from.
      
      Change-Id: I40fe64cb61bb096c66f88f6d493a1931243cfd37
      84c9f100
    • Achin Gupta's avatar
      Add PSCI service specific per-CPU data · 776b68ae
      Achin Gupta authored
      This patch adds a structure defined by the PSCI service to the per-CPU data
      array. The structure is used to save the 'power_state' parameter specified
      during a 'cpu_suspend' call on the current CPU. This parameter was being saved
      in the cpu node in the PSCI topology tree earlier.
      
      The existing API to return the state id specified during a PSCI CPU_SUSPEND call
      i.e. psci_get_suspend_stateid(mpidr) has been renamed to
      psci_get_suspend_stateid_by_mpidr(mpidr). The new psci_get_suspend_stateid() API
      returns the state id of the current cpu.
      
      The psci_get_suspend_afflvl() API has been changed to return the target affinity
      level of the current CPU. This was specified using the 'mpidr' parameter in the
      old implementation.
      
      The behaviour of the get_power_on_target_afflvl() has been tweaked such that
      traversal of the PSCI topology tree to locate the affinity instance node for the
      current CPU is done only in the debug build as it is an expensive operation.
      
      Change-Id: Iaad49db75abda471f6a82d697ee6e0df554c4caf
      776b68ae
  9. 31 Jul, 2014 1 commit
    • Soby Mathew's avatar
      Optimize EL3 register state stored in cpu_context structure · fdfabec1
      Soby Mathew authored
      This patch further optimizes the EL3 register state stored in
      cpu_context. The 2 registers which are removed from cpu_context are:
      
        * cntfrq_el0 is the system timer register which is writable
          only in EL3 and it can be programmed during cold/warm boot. Hence
          it need not be saved to cpu_context.
      
        * cptr_el3 controls access to Trace, Floating-point, and Advanced
          SIMD functionality and it is programmed every time during cold
          and warm boot. The current BL3-1 implementation does not need to
          modify the access controls during normal execution and hence
          they are expected to remain static.
      
      Fixes ARM-software/tf-issues#197
      
      Change-Id: I599ceee3b73a7dcfd37069fd41b60e3d397a7b18
      fdfabec1
  10. 28 Jul, 2014 1 commit
    • Achin Gupta's avatar
      Remove the concept of coherent stacks · 539a7b38
      Achin Gupta authored
      This patch removes the allocation of memory for coherent stacks, associated
      accessor function and some dead code which called the accessor function. It also
      updates the porting guide to remove the concept and the motivation behind using
      stacks allocated in coherent memory.
      
      Fixes ARM-software/tf-issues#198
      
      Change-Id: I00ff9a04f693a03df3627ba39727e3497263fc38
      539a7b38
  11. 19 Jul, 2014 1 commit
    • Achin Gupta's avatar
      Remove coherent stack usage from the warm boot path · b51da821
      Achin Gupta authored
      This patch uses stacks allocated in normal memory to enable the MMU early in the
      warm boot path thus removing the dependency on stacks allocated in coherent
      memory. Necessary cache and stack maintenance is performed when a cpu is being
      powered down and up. This avoids any coherency issues that can arise from
      reading speculatively fetched stale stack memory from another CPUs cache. These
      changes affect the warm boot path in both BL3-1 and BL3-2.
      
      The EL3 system registers responsible for preserving the MMU state are not saved
      and restored any longer. Static values are used to program these system
      registers when a cpu is powered on or resumed from suspend.
      
      Change-Id: I8357e2eb5eb6c5f448492c5094b82b8927603784
      b51da821
  12. 25 Jun, 2014 1 commit
    • Andrew Thoelke's avatar
      Remove current CPU mpidr from PSCI common code · 56378aa6
      Andrew Thoelke authored
      Many of the interfaces internal to PSCI pass the current CPU
      MPIDR_EL1 value from function to function. This is not required,
      and with inline access to the system registers is less efficient
      than requiring the code to read that register whenever required.
      
      This patch remove the mpidr parameter from the affected interfaces
      and reduces code in FVP BL3-1 size by 160 bytes.
      
      Change-Id: I16120a7c6944de37232016d7e109976540775602
      56378aa6
  13. 23 Jun, 2014 2 commits
    • Andrew Thoelke's avatar
      Eliminate psci_suspend_context array · 13ac44a5
      Andrew Thoelke authored
      psci_suspend_context is an array of cache-line aligned structures
      containing the single power_state integer per cpu. This array is
      the only structure indexed by the aff_map_node.data integer.
      
      This patch saves 2KB of BL3-1 memory by placing the CPU
      power_state value directly in the aff_map_node structure. As a
      result, this value is now never cached and the cache clean when
      writing the value is no longer required.
      
      Fixes ARM-software/tf-issues#195
      
      Change-Id: Ib4c70c8f79eed295ea541e7827977a588a19ef9b
      13ac44a5
    • Andrew Thoelke's avatar
      Initialise CPU contexts from entry_point_info · 167a9357
      Andrew Thoelke authored
      Consolidate all BL3-1 CPU context initialization for cold boot, PSCI
      and SPDs into two functions:
      *  The first uses entry_point_info to initialize the relevant
         cpu_context for first entry into a lower exception level on a CPU
      *  The second populates the EL1 and EL2 system registers as needed
         from the cpu_context to ensure correct entry into the lower EL
      
      This patch alters the way that BL3-1 determines which exception level
      is used when first entering EL1 or EL2 during cold boot - this is now
      fully determined by the SPSR value in the entry_point_info for BL3-3,
      as set up by the platform code in BL2 (or otherwise provided to BL3-1).
      
      In the situation that EL1 (or svc mode) is selected for a processor
      that supports EL2, the context management code will now configure all
      essential EL2 register state to ensure correct execution of EL1. This
      allows the platform code to run non-secure EL1 payloads directly
      without requiring a small EL2 stub or OS loader.
      
      Change-Id: If9fbb2417e82d2226e47568203d5a369f39d3b0f
      167a9357
  14. 17 Jun, 2014 1 commit
    • Andrew Thoelke's avatar
      Remove early_exceptions from BL3-1 · ee94cc6f
      Andrew Thoelke authored
      The crash reporting support and early initialisation of the
      cpu_data allow the runtime_exception vectors to be used from
      the start in BL3-1, removing the need for the additional
      early_exception vectors and 2KB of code from BL3-1.
      
      Change-Id: I5f8997dabbaafd8935a7455910b7db174a25d871
      ee94cc6f
  15. 16 Jun, 2014 1 commit
    • Andrew Thoelke's avatar
      Per-cpu data cache restructuring · 5e910074
      Andrew Thoelke authored
      This patch prepares the per-cpu pointer cache for wider use by:
      * renaming the structure to cpu_data and placing in new header
      * providing accessors for this CPU, or other CPUs
      * splitting the initialization of the TPIDR pointer from the
        initialization of the cpu_data content
      * moving the crash stack initialization to a crash stack function
      * setting the TPIDR pointer very early during boot
      
      Change-Id: Icef9004ff88f8eb241d48c14be3158087d7e49a3
      5e910074
  16. 11 Jun, 2014 1 commit
    • Andrew Thoelke's avatar
      Provide cm_get/set_context() for current CPU · 08ab89d3
      Andrew Thoelke authored
      All callers of cm_get_context() pass the calling CPU MPIDR to the
      function. Providing a specialised version for the current
      CPU results in a reduction in code size and better readability.
      
      The current function has been renamed to cm_get_context_by_mpidr()
      and the existing name is now used for the current-CPU version.
      
      The same treatment has been done to cm_set_context(), although
      only both forms are used at present in the PSCI and TSPD code.
      
      Change-Id: I91cb0c2f7bfcb950a045dbd9ff7595751c0c0ffb
      08ab89d3
  17. 16 May, 2014 1 commit
    • Soby Mathew's avatar
      Rework BL3-1 unhandled exception handling and reporting · a43d431b
      Soby Mathew authored
      This patch implements the register reporting when unhandled exceptions are
      taken in BL3-1. Unhandled exceptions will result in a dump of registers
      to the console, before halting execution by that CPU. The Crash Stack,
      previously called the Exception Stack, is used for this activity.
      This stack is used to preserve the CPU context and runtime stack
      contents for debugging and analysis.
      
      This also introduces the per_cpu_ptr_cache, referenced by tpidr_el3,
      to provide easy access to some of BL3-1 per-cpu data structures.
      Initially, this is used to provide a pointer to the Crash stack.
      
      panic() now prints the the error file and line number in Debug mode
      and prints the PC value in release mode.
      
      The Exception Stack is renamed to Crash Stack with this patch.
      The original intention of exception stack is no longer valid
      since we intend to support several valid exceptions like IRQ
      and FIQ in the trusted firmware context. This stack is now
      utilized for dumping and reporting the system state when a
      crash happens and hence the rename.
      
      Fixes ARM-software/tf-issues#79 Improve reporting of unhandled exception
      
      Change-Id: I260791dc05536b78547412d147193cdccae7811a
      a43d431b
  18. 07 May, 2014 1 commit
    • Andrew Thoelke's avatar
      Correct usage of data and instruction barriers · 8cec598b
      Andrew Thoelke authored
      The current code does not always use data and instruction
      barriers as required by the architecture and frequently uses
      barriers excessively due to their inclusion in all of the
      write_*() helper functions.
      
      Barriers should be used explicitly in assembler or C code
      when modifying processor state that requires the barriers in
      order to enable review of correctness of the code.
      
      This patch removes the barriers from the helper functions and
      introduces them as necessary elsewhere in the code.
      
      PORTING NOTE: check any port of Trusted Firmware for use of
      system register helper functions for reliance on the previous
      barrier behaviour and add explicit barriers as necessary.
      
      Fixes ARM-software/tf-issues#92
      
      Change-Id: Ie63e187404ff10e0bdcb39292dd9066cb84c53bf
      8cec598b
  19. 06 May, 2014 4 commits
    • Dan Handley's avatar
      Reduce deep nesting of header files · 97043ac9
      Dan Handley authored
      Reduce the number of header files included from other header
      files as much as possible without splitting the files. Use forward
      declarations where possible. This allows removal of some unnecessary
      "#ifndef __ASSEMBLY__" statements.
      
      Also, review the .c and .S files for which header files really need
      including and reorder the #include statements alphabetically.
      
      Fixes ARM-software/tf-issues#31
      
      Change-Id: Iec92fb976334c77453e010b60bcf56f3be72bd3e
      97043ac9
    • Dan Handley's avatar
      Always use named structs in header files · fb037bfb
      Dan Handley authored
      Add tag names to all unnamed structs in header files. This
      allows forward declaration of structs, which is necessary to
      reduce header file nesting (to be implemented in a subsequent
      commit).
      
      Also change the typedef names across the codebase to use the _t
      suffix to be more conformant with the Linux coding style. The
      coding style actually prefers us not to use typedefs at all but
      this is considered a step too far for Trusted Firmware.
      
      Also change the IO framework structs defintions to use typedef'd
      structs to be consistent with the rest of the codebase.
      
      Change-Id: I722b2c86fc0d92e4da3b15e5cab20373dd26786f
      fb037bfb
    • Dan Handley's avatar
      Separate BL functions out of arch.h · 5b827a8f
      Dan Handley authored
      Move the BL function prototypes out of arch.h and into the
      appropriate header files to allow more efficient header file
      inclusion. Create new BL private header files where there is no
      sensible existing header file.
      
      Change-Id: I45f3e10b72b5d835254a6f25a5e47cf4cfb274c3
      5b827a8f
    • Dan Handley's avatar
      Make use of user/system includes more consistent · 35e98e55
      Dan Handley authored
      Make codebase consistent in its use of #include "" syntax for
      user includes and #include <> syntax for system includes.
      
      Fixes ARM-software/tf-issues#65
      
      Change-Id: If2f7c4885173b1fd05ac2cde5f1c8a07000c7a33
      35e98e55
  20. 29 Apr, 2014 1 commit
    • Vikram Kanigiri's avatar
      Preserve PSCI cpu_suspend 'power_state' parameter. · 759ec93b
      Vikram Kanigiri authored
      This patch saves the 'power_state' parameter prior to suspending
      a cpu and invalidates it upon its resumption. The 'affinity level'
      and 'state id' fields of this parameter can be read using a set of
      public and private apis. Validation of power state parameter is
      introduced which checks for SBZ bits are zero.
      This change also takes care of flushing the parameter from the cache
      to main memory. This ensures that it is available after cpu reset
      when the caches and mmu are turned off. The earlier support for
      saving only the 'affinity level' field of the 'power_state' parameter
      has also been reworked.
      
      Fixes ARM-Software/tf-issues#26
      Fixes ARM-Software/tf-issues#130
      
      Change-Id: Ic007ccb5e39bf01e0b67390565d3b4be33f5960a
      759ec93b
  21. 21 Mar, 2014 1 commit
    • Vikram Kanigiri's avatar
      Remove partially qualified asm helper functions · 6ba0b6d6
      Vikram Kanigiri authored
      Each ARM Trusted Firmware image should know in which EL it is running
      and it should use the corresponding register directly instead of reading
      currentEL and knowing which asm register to read/write
      
      Change-Id: Ief35630190b6f07c8fbb7ba6cb20db308f002945
      6ba0b6d6
  22. 20 Mar, 2014 1 commit
    • Jeenu Viswambharan's avatar
      Implement ARM Standard Service · 64f6ea9b
      Jeenu Viswambharan authored
      This patch implements ARM Standard Service as a runtime service and adds
      support for call count, UID and revision information SMCs. The existing
      PSCI implementation is subsumed by the Standard Service calls and all
      PSCI calls are therefore dispatched by the Standard Service to the PSCI
      handler.
      
      At present, PSCI is the only specification under Standard Service. Thus
      call count returns the number of PSCI calls implemented. As this is the
      initial implementation, a revision number of 0.1 is returned for call
      revision.
      
      Fixes ARM-software/tf-issues#62
      
      Change-Id: I6d4273f72ad6502636efa0f872e288b191a64bc1
      64f6ea9b