- 19 Apr, 2017 1 commit
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Soby Mathew authored
This patch introduces a build option to enable D-cache early on the CPU after warm boot. This is applicable for platforms which do not require interconnect programming to enable cache coherency (eg: single cluster platforms). If this option is enabled, then warm boot path enables D-caches immediately after enabling MMU. Fixes ARM-Software/tf-issues#456 Change-Id: I44c8787d116d7217837ced3bcf0b1d3441c8d80e Signed-off-by: Soby Mathew <soby.mathew@arm.com>
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- 08 Mar, 2017 1 commit
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Antonio Nino Diaz authored
The files affected by this patch don't really depend on `xlat_tables.h`. By changing the included file it becomes easier to switch between the two versions of the translation tables library. Change-Id: Idae9171c490e0865cb55883b19eaf942457c4ccc Signed-off-by: Antonio Nino Diaz <antonio.ninodiaz@arm.com>
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- 02 Mar, 2017 1 commit
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Jeenu Viswambharan authored
At present, warm-booted CPUs keep their caches disabled when enabling MMU, and remains so until they enter coherency later. On systems with hardware-assisted coherency, for which HW_ASSISTED_COHERENCY build flag would be enabled, warm-booted CPUs can have both caches and MMU enabled at once. Change-Id: Icb0adb026e01aecf34beadf49c88faa9dd368327 Signed-off-by: Jeenu Viswambharan <jeenu.viswambharan@arm.com>
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- 12 Oct, 2016 1 commit
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dp-arm authored
In order to quantify the overall time spent in the PSCI software implementation, an initial collection of PMF instrumentation points has been added. Instrumentation has been added to the following code paths: - Entry to PSCI SMC handler. The timestamp is captured as early as possible during the runtime exception and stored in memory before entering the PSCI SMC handler. - Exit from PSCI SMC handler. The timestamp is captured after normal return from the PSCI SMC handler or if a low power state was requested it is captured in the bl31 warm boot path before return to normal world. - Entry to low power state. The timestamp is captured before entry to a low power state which implies either standby or power down. As these power states are mutually exclusive, only one timestamp is defined to describe both. It is possible to differentiate between the two power states using the PSCI STAT interface. - Exit from low power state. The timestamp is captured after a standby or power up operation has completed. To calculate the number of cycles spent running code in Trusted Firmware one can perform the following calculation: (exit_psci - enter_psci) - (exit_low_pwr - enter_low_pwr). The resulting number of cycles can be converted to time given the frequency of the counter. Change-Id: Ie3b8f3d16409b6703747093b3a2d5c7429ad0166 Signed-off-by: dp-arm <dimitris.papastamos@arm.com>
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- 19 Jul, 2016 1 commit
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Soby Mathew authored
This patch introduces the PSCI Library interface. The major changes introduced are as follows: * Earlier BL31 was responsible for Architectural initialization during cold boot via bl31_arch_setup() whereas PSCI was responsible for the same during warm boot. This functionality is now consolidated by the PSCI library and it does Architectural initialization via psci_arch_setup() during both cold and warm boots. * Earlier the warm boot entry point was always `psci_entrypoint()`. This was not flexible enough as a library interface. Now PSCI expects the runtime firmware to provide the entry point via `psci_setup()`. A new function `bl31_warm_entrypoint` is introduced in BL31 and the previous `psci_entrypoint()` is deprecated. * The `smc_helpers.h` is reorganized to separate the SMC Calling Convention defines from the Trusted Firmware SMC helpers. The former is now in a new header file `smcc.h` and the SMC helpers are moved to Architecture specific header. * The CPU context is used by PSCI for context initialization and restoration after power down (PSCI Context). It is also used by BL31 for SMC handling and context management during Normal-Secure world switch (SMC Context). The `psci_smc_handler()` interface is redefined to not use SMC helper macros thus enabling to decouple the PSCI context from EL3 runtime firmware SMC context. This enables PSCI to be integrated with other runtime firmware using a different SMC context. NOTE: With this patch the architectural setup done in `bl31_arch_setup()` is done as part of `psci_setup()` and hence `bl31_platform_setup()` will be invoked prior to architectural setup. It is highly unlikely that the platform setup will depend on architectural setup and cause any failure. Please be be aware of this change in sequence. Change-Id: I7f497a08d33be234bbb822c28146250cb20dab73
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- 14 Dec, 2015 1 commit
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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
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- 26 Nov, 2015 1 commit
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Sandrine Bailleux authored
This patch introduces a new build option named COLD_BOOT_SINGLE_CPU, which allows platforms that only release a single CPU out of reset to slightly optimise their cold boot code, both in terms of code size and performance. COLD_BOOT_SINGLE_CPU defaults to 0, which assumes that the platform may release several CPUs out of reset. In this case, the cold reset code needs to coordinate all CPUs via the usual primary/secondary CPU distinction. If a platform guarantees that only a single CPU will ever be released out of reset, there is no need to arbitrate execution ; the notion of primary and secondary CPUs itself no longer exists. Such platforms may set COLD_BOOT_SINGLE_CPU to 1 in order to compile out the primary/secondary CPU identification in the cold reset code. All ARM standard platforms can release several CPUs out of reset so they use COLD_BOOT_SINGLE_CPU=0. However, on CSS platforms like Juno, bringing up more than one CPU at reset should only be attempted when booting an EL3 payload, as it is not fully supported in the normal boot flow. For platforms using COLD_BOOT_SINGLE_CPU=1, the following 2 platform APIs become optional: - plat_secondary_cold_boot_setup(); - plat_is_my_cpu_primary(). The Porting Guide has been updated to reflect that. User Guide updated as well. Change-Id: Ic5b474e61b7aec1377d1e0b6925d17dfc376c46b
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- 14 Sep, 2015 1 commit
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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
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- 04 Jun, 2015 2 commits
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Sandrine Bailleux authored
This patch introduces a new platform build option, called PROGRAMMABLE_RESET_ADDRESS, which tells whether the platform has a programmable or fixed reset vector address. If the reset vector address is fixed then the code relies on the platform_get_entrypoint() mailbox mechanism to figure out where it is supposed to jump. On the other hand, if it is programmable then it is assumed that the platform code will program directly the right address into the RVBAR register (instead of using the mailbox redirection) so the mailbox is ignored in this case. Change-Id: If59c3b11fb1f692976e1d8b96c7e2da0ebfba308
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Sandrine Bailleux authored
The attempt to run the CPU reset code as soon as possible after reset results in highly complex conditional code relating to the RESET_TO_BL31 option. This patch relaxes this requirement a little. In the BL1, BL3-1 and PSCI entrypoints code, the sequence of operations is now as follows: 1) Detect whether it is a cold or warm boot; 2) For cold boot, detect whether it is the primary or a secondary CPU. This is needed to handle multiple CPUs entering cold reset simultaneously; 3) Run the CPU init code. This patch also abstracts the EL3 registers initialisation done by the BL1, BL3-1 and PSCI entrypoints into common code. This improves code re-use and consolidates the code flows for different types of systems. NOTE: THE FUNCTION plat_secondary_cold_boot() IS NOW EXPECTED TO NEVER RETURN. THIS PATCH FORCES PLATFORM PORTS THAT RELIED ON THE FORMER RETRY LOOP AT THE CALL SITE TO MODIFY THEIR IMPLEMENTATION. OTHERWISE, SECONDARY CPUS WILL PANIC. Change-Id: If5ecd74d75bee700b1bd718d23d7556b8f863546
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- 08 Apr, 2015 1 commit
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Kévin Petit authored
In order for the symbol table in the ELF file to contain the size of functions written in assembly, it is necessary to report it to the assembler using the .size directive. To fulfil the above requirements, this patch introduces an 'endfunc' macro which contains the .endfunc and .size directives. It also adds a .func directive to the 'func' assembler macro. The .func/.endfunc have been used so the assembler can fail if endfunc is omitted. Fixes ARM-Software/tf-issues#295 Change-Id: If8cb331b03d7f38fe7e3694d4de26f1075b278fc Signed-off-by: Kévin Petit <kevin.petit@arm.com>
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- 13 Mar, 2015 1 commit
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Vikram Kanigiri authored
The cpu-ops pointer was initialized before enabling the data cache in the cold and warm boot paths. This required a DCIVAC cache maintenance operation to invalidate any stale cache lines resident in other cpus. This patch moves this initialization to the bl31_arch_setup() function which is always called after the data cache and MMU has been enabled. This change removes the need: 1. for the DCIVAC cache maintenance operation. 2. to initialise the CPU ops upon resumption from a PSCI CPU_SUSPEND call since memory contents are always preserved in this case. Change-Id: Ibb2fa2f7460d1a1f1e721242025e382734c204c6
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- 26 Jan, 2015 1 commit
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Yatharth Kochar authored
This patch adds support to call the reset_handler() function in BL3-1 in the cold and warm boot paths when another Boot ROM reset_handler() has already run. This means the BL1 and BL3-1 versions of the CPU and platform specific reset handlers may execute different code to each other. This enables a developer to perform additional actions or undo actions already performed during the first call of the reset handlers e.g. apply additional errata workarounds. Typically, the reset handler will be first called from the BL1 Boot ROM. Any additional functionality can be added to the reset handler when it is called from BL3-1 resident in RW memory. The constant FIRST_RESET_HANDLER_CALL is used to identify whether this is the first version of the reset handler code to be executed or an overridden version of the code. The Cortex-A57 errata workarounds are applied only if they have not already been applied. Fixes ARM-software/tf-issue#275 Change-Id: Id295f106e4fda23d6736debdade2ac7f2a9a9053
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- 22 Jan, 2015 1 commit
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Soby Mathew authored
This patch extends the build option `USE_COHERENT_MEMORY` to conditionally remove coherent memory from the memory maps of all boot loader stages. The patch also adds necessary documentation for coherent memory removal in firmware-design, porting and user guides. Fixes ARM-Software/tf-issues#106 Change-Id: I260e8768c6a5c2efc402f5804a80657d8ce38773
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- 27 Aug, 2014 1 commit
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Sandrine Bailleux authored
This patch gathers miscellaneous minor fixes to the documentation, and comments in the source code. Change-Id: I631e3dda5abafa2d90f464edaee069a1e58b751b Co-Authored-By: Soby Mathew <soby.mathew@arm.com> Co-Authored-By: Dan Handley <dan.handley@arm.com>
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- 20 Aug, 2014 2 commits
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Soby Mathew authored
This patch adds CPU core and cluster power down sequences to the CPU specific operations framework introduced in a earlier patch. Cortex-A53, Cortex-A57 and generic AEM sequences have been added. The latter is suitable for the Foundation and Base AEM FVPs. A pointer to each CPU's operations structure is saved in the per-cpu data so that it can be easily accessed during power down seqeunces. An optional platform API has been introduced to allow a platform to disable the Accelerator Coherency Port (ACP) during a cluster power down sequence. The weak definition of this function (plat_disable_acp()) does not take any action. It should be overriden with a strong definition if the ACP is present on a platform. Change-Id: I8d09bd40d2f528a28d2d3f19b77101178778685d
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Soby Mathew authored
This patch introduces a framework which will allow CPUs to perform implementation defined actions after a CPU reset, during a CPU or cluster power down, and when a crash occurs. CPU specific reset handlers have been implemented in this patch. Other handlers will be implemented in subsequent patches. Also moved cpu_helpers.S to the new directory lib/cpus/aarch64/. Change-Id: I1ca1bade4d101d11a898fb30fea2669f9b37b956
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- 15 Aug, 2014 1 commit
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Achin Gupta authored
This patch disables routing of external aborts from lower exception levels to EL3 and ensures that a SError interrupt generated as a result of execution in EL3 is taken locally instead of a lower exception level. The SError interrupt is enabled in the TSP code only when the operation has not been directly initiated by the normal world. This is to prevent the possibility of an asynchronous external abort which originated in normal world from being taken when execution is in S-EL1. Fixes ARM-software/tf-issues#153 Change-Id: I157b996c75996d12fd86d27e98bc73dd8bce6cd5
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- 01 Aug, 2014 1 commit
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Juan Castillo authored
The purpose of platform_is_primary_cpu() is to determine after reset (BL1 or BL3-1 with reset handler) if the current CPU must follow the cold boot path (primary CPU), or wait in a safe state (secondary CPU) until the primary CPU has finished the system initialization. This patch removes redundant calls to platform_is_primary_cpu() in subsequent bootloader entrypoints since the reset handler already guarantees that code is executed exclusively on the primary CPU. Additionally, this patch removes the weak definition of platform_is_primary_cpu(), so the implementation of this function becomes mandatory. Removing the weak symbol avoids other bootloaders accidentally picking up an invalid definition in case the porting layer makes the real function available only to BL1. The define PRIMARY_CPU is no longer mandatory in the platform porting because platform_is_primary_cpu() hides the implementation details (for instance, there may be platforms that report the primary CPU in a system register). The primary CPU definition in FVP has been moved to fvp_def.h. The porting guide has been updated accordingly. Fixes ARM-software/tf-issues#219 Change-Id: If675a1de8e8d25122b7fef147cb238d939f90b5e
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- 28 Jul, 2014 2 commits
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Soby Mathew authored
This patch reworks the crash reporting mechanism to further optimise the stack and code size. The reporting makes use of assembly console functions to avoid calling C Runtime to report the CPU state. The crash buffer requirement is reduced to 64 bytes with this implementation. The crash buffer is now part of per-cpu data which makes retrieving the crash buffer trivial. Also now panic() will use crash reporting if invoked from BL3-1. Fixes ARM-software/tf-issues#199 Change-Id: I79d27a4524583d723483165dc40801f45e627da5
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Achin Gupta authored
This patch reworks the manner in which the M,A, C, SA, I, WXN & EE bits of SCTLR_EL3 & SCTLR_EL1 are managed. The EE bit is cleared immediately after reset in EL3. The I, A and SA bits are set next in EL3 and immediately upon entry in S-EL1. These bits are no longer managed in the blX_arch_setup() functions. They do not have to be saved and restored either. The M, WXN and optionally the C bit are set in the enable_mmu_elX() function. This is done during both the warm and cold boot paths. Fixes ARM-software/tf-issues#226 Change-Id: Ie894d1a07b8697c116960d858cd138c50bc7a069
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- 19 Jul, 2014 1 commit
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Achin Gupta authored
This patch reworks the cold boot path across the BL1, BL2, BL3-1 and BL3-2 boot loader stages to not use stacks allocated in coherent memory for early platform setup and enabling the MMU. Stacks allocated in normal memory are used instead. Attributes for stack memory change from nGnRnE when the MMU is disabled to Normal WBWA Inner-shareable when the MMU and data cache are enabled. It is possible for the CPU to read stale stack memory after the MMU is enabled from another CPUs cache. Hence, it is unsafe to turn on the MMU and data cache while using normal stacks when multiple CPUs are a part of the same coherency domain. It is safe to do so in the cold boot path as only the primary cpu executes it. The secondary cpus are in a quiescent state. This patch does not remove the allocation of coherent stack memory. That is done in a subsequent patch. Change-Id: I12c80b7c7ab23506d425c5b3a8a7de693498f830
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- 24 Jun, 2014 1 commit
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Vikram Kanigiri authored
This patch reworks FVP specific code responsible for determining the entry point information for BL3-2 and BL3-3 stages when BL3-1 is configured as the reset handler. Change-Id: Ia661ff0a6a44c7aabb0b6c1684b2e8d3642d11ec
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- 17 Jun, 2014 1 commit
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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
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- 16 Jun, 2014 1 commit
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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
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- 22 May, 2014 4 commits
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Achin Gupta authored
This patch adds a common handler for FIQ and IRQ exceptions in the BL3-1 runtime exception vector table. This function determines the interrupt type and calls its handler. A crash is reported if an inconsistency in the interrupt management framework is detected. In the event of a spurious interrupt, execution resumes from the instruction where the interrupt was generated. This patch also removes 'cm_macros.S' as its contents have been moved to 'runtime_exceptions.S' Change-Id: I3c85ecf8eaf43a3fac429b119ed0bd706d2e2093
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Vikram Kanigiri authored
This change adds optional reset vector support to BL3-1 which means BL3-1 entry point can detect cold/warm boot, initialise primary cpu, set up cci and mail box. When using BL3-1 as a reset vector it is assumed that the BL3-1 platform code can determine the location of the BL3-2 images, or load them as there are no parameters that can be passed to BL3-1 at reset. It also fixes the incorrect initialisation of mailbox registers on the FVP platform This feature can be enabled by building the code with make variable RESET_TO_BL31 set as 1 Fixes ARM-software/TF-issues#133 Fixes ARM-software/TF-issues#20 Change-Id: I4e23939b1c518614b899f549f1e8d412538ee570
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Vikram Kanigiri authored
This patch is based on spec published at https://github.com/ARM-software/tf-issues/issues/133 It rearranges the bl31_args struct into bl31_params and bl31_plat_params which provide the information needed for Trusted firmware and platform specific data via x0 and x1 On the FVP platform BL3-1 params and BL3-1 plat params and its constituents are stored at the start of TZDRAM. The information about memory availability and size for BL3-1, BL3-2 and BL3-3 is moved into platform specific data. Change-Id: I8b32057a3d0dd3968ea26c2541a0714177820da9
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Vikram Kanigiri authored
This patch reworks the handover interface from: BL1 to BL2 and BL2 to BL3-1. It removes the raise_el(), change_el(), drop_el() and run_image() functions as they catered for code paths that were never exercised. BL1 calls bl1_run_bl2() to jump into BL2 instead of doing the same by calling run_image(). Similarly, BL2 issues the SMC to transfer execution to BL3-1 through BL1 directly. Only x0 and x1 are used to pass arguments to BL31. These arguments and parameters for running BL3-1 are passed through a reference to a 'el_change_info_t' structure. They were being passed value in general purpose registers earlier. Change-Id: Id4fd019a19a9595de063766d4a66295a2c9307e1
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- 08 May, 2014 1 commit
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Soby Mathew authored
Previously exception handlers in BL3-1, X19-X29 were not saved and restored on every SMC/trap into EL3. Instead these registers were 'saved as needed' as a side effect of the A64 ABI used by the C compiler. That approach failed when world switching but was not visible with the TSP/TSPD code because the TSP is 64-bit, did not clobber these registers when running and did not support pre-emption by normal world interrupts. These scenarios showed that the values in these registers can be passed through a world switch, which broke the normal and trusted world assumptions about these registers being preserved. The Ideal solution saves and restores these registers when a world switch occurs - but that type of implementation is more complex. So this patch always saves and restores these registers on entry and exit of EL3. Fixes ARM-software/tf-issues#141 Change-Id: I9a727167bbc594454e81cf78a97ca899dfb11c27
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- 07 May, 2014 2 commits
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Andrew Thoelke authored
Instead of using the system register helper functions to read or write system registers, assembler coded functions should use MRS/MSR instructions. This results in faster and more compact code. This change replaces all usage of the helper functions with direct register accesses. Change-Id: I791d5f11f257010bb3e6a72c6c5ab8779f1982b3
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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
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- 06 May, 2014 2 commits
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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
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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
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- 26 Mar, 2014 1 commit
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Andrew Thoelke authored
This extends the --gc-sections behaviour to the many assembler support functions in the firmware images by placing each function into its own code section. This is achieved by creating a 'func' macro used to declare each function label. Fixes ARM-software/tf-issues#80 Change-Id: I301937b630add292d2dec6d2561a7fcfa6fec690
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- 20 Feb, 2014 2 commits
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Achin Gupta authored
This patch adds the following support to the BL3-1 stage: 1. BL3-1 allows runtime services to specify and determine the security state of the next image after BL3-1. This has been done by adding the `bl31_set_next_image_type()` & `bl31_get_next_image_type()` apis. The default security state is non-secure. The platform api `bl31_get_next_image_info()` has been modified to let the platform decide which is the next image in the desired security state. 2. BL3-1 exports the `bl31_prepare_next_image_entry()` function to program entry into the target security state. It uses the apis introduced in 1. to do so. 3. BL3-1 reads the information populated by BL2 about the BL3-2 image into its internal data structures. 4. BL3-1 introduces a weakly defined reference `bl32_init()` to allow initialisation of a BL3-2 image. A runtime service like the Secure payload dispatcher will define this function if present. Change-Id: Icc46dcdb9e475ce6575dd3f9a5dc7a48a83d21d1
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Achin Gupta authored
This patch reworks BL2 to BL3-1 hand over interface by introducing a composite structure (bl31_args) that holds the superset of information that needs to be passed from BL2 to BL3-1. - The extents of secure memory available to BL3-1 - The extents of memory available to BL3-2 (not yet implemented) and BL3-3 - Information to execute BL3-2 (not yet implemented) and BL3-3 images This patch also introduces a new platform API (bl2_get_bl31_args_ptr) that needs to be implemented by the platform code to export reference to bl31_args structure which has been allocated in platform-defined memory. The platform will initialize the extents of memory available to BL3-3 during early platform setup in bl31_args structure. This obviates the need for bl2_get_ns_mem_layout platform API. BL2 calls the bl2_get_bl31_args_ptr function to get a reference to bl31_args structure. It uses the 'bl33_meminfo' field of this structure to load the BL3-3 image. It sets the entry point information for the BL3-3 image in the 'bl33_image_info' field of this structure. The reference to this structure is passed to the BL3-1 image. Also fixes issue ARM-software/tf-issues#25 Change-Id: Ic36426196dd5ebf89e60ff42643bed01b3500517
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- 17 Feb, 2014 2 commits
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Jeenu Viswambharan authored
This patch uses the reworked exception handling support to handle runtime service requests through SMCs following the SMC calling convention. This is a giant commit since all the changes are inter-related. It does the following: 1. Replace the old exception handling mechanism with the new one 2. Enforce that SP_EL0 is used C runtime stacks. 3. Ensures that the cold and warm boot paths use the 'cpu_context' structure to program an ERET into the next lower EL. 4. Ensures that SP_EL3 always points to the next 'cpu_context' structure prior to an ERET into the next lower EL 5. Introduces a PSCI SMC handler which completes the use of PSCI as a runtime service Change-Id: I661797f834c0803d2c674d20f504df1b04c2b852 Co-authored-by: Achin Gupta <achin.gupta@arm.com>
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Achin Gupta authored
This patch ensures that VBAR_EL3 points to the simple stack-less 'early_exceptions' when the C runtime stack is not correctly setup to use the more complex 'runtime_exceptions'. It is initialised to 'runtime_exceptions' once this is done. This patch also moves all exception vectors into a '.vectors' section and modifies linker scripts to place all such sections together. This will minimize space wastage from alignment restrictions. Change-Id: I8c3e596ea3412c8bd582af9e8d622bb1cb2e049d
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- 17 Jan, 2014 1 commit
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Jeenu Viswambharan authored
Ctags seem to have a problem with generating tags for assembler symbols when a comment immediately follows an assembly label. This patch inserts a single space character between the label definition and the following comments to help ctags. The patch is generated by the command: git ls-files -- \*.S | xargs sed -i 's/^\([^:]\+\):;/\1: ;/1' Change-Id: If7a3c9d0f51207ea033cc8b8e1b34acaa0926475
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