- 13 Apr, 2017 1 commit
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Vignesh Radhakrishnan authored
This patch adds support for fake system suspend (SC7). This is a debug mode, to ensure that a different code path is executed for cases like pre-silicon development, where a full-fledged SC7 is not possible in early stages. This particular patch ensures that, if fake system suspend is enabled (denoted by tegra_fake_system_suspend variable having a non-zero value), instead of calling WFI, a request for a warm reset is made for starting the SC7 exit procedure. This ensures that the code path of kernel->ATF and back to kernel is executed without depending on other components involved in SC7 code path. Additionally, this patch also adds support for SMC call from kernel, enabling fake system suspend mode. Signed-off-by: Vignesh Radhakrishnan <vigneshr@nvidia.com> Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 27 Mar, 2017 1 commit
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Summer Qin authored
This patch modifies some of the functions in ARM platform layer to cater for the case when multi-threading `MT` is set in MPIDR. A new build flag `ARM_PLAT_MT` is added, and when enabled, the functions accessing MPIDR now assume that the `MT` bit is set for the platform and access the bit fields accordingly. Also, a new API plat_arm_get_cpu_pe_count is added when `ARM_PLAT_MT` is enabled, returning the PE count within the physical cpu corresponding to `mpidr`. Change-Id: I04ccf212ac3054a60882761f4087bae299af13cb Signed-off-by: Summer Qin <summer.qin@arm.com>
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- 08 Mar, 2017 1 commit
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Antonio Nino Diaz authored
Added APIs to add and remove regions to the translation tables dynamically while the MMU is enabled. Only static regions are allowed to overlap other static ones (for backwards compatibility). A new private attribute (MT_DYNAMIC / MT_STATIC) has been added to flag each region as such. The dynamic mapping functionality can be enabled or disabled when compiling by setting the build option PLAT_XLAT_TABLES_DYNAMIC to 1 or 0. This can be done per-image. TLB maintenance code during dynamic table mapping and unmapping has also been added. Fixes ARM-software/tf-issues#310 Change-Id: I19e8992005c4292297a382824394490c5387aa3b Signed-off-by: Antonio Nino Diaz <antonio.ninodiaz@arm.com>
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- 15 Feb, 2017 1 commit
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dp-arm authored
Trusted Firmware currently has no support for secure self-hosted debug. To avoid unexpected exceptions, disable software debug exceptions, other than software breakpoint instruction exceptions, from all exception levels in secure state. This applies to both AArch32 and AArch64 EL3 initialization. Change-Id: Id097e54a6bbcd0ca6a2be930df5d860d8d09e777 Signed-off-by: dp-arm <dimitris.papastamos@arm.com>
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- 30 Jan, 2017 1 commit
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Jeenu Viswambharan authored
The errata reporting policy is as follows: - If an errata workaround is enabled: - If it applies (i.e. the CPU is affected by the errata), an INFO message is printed, confirming that the errata workaround has been applied. - If it does not apply, a VERBOSE message is printed, confirming that the errata workaround has been skipped. - If an errata workaround is not enabled, but would have applied had it been, a WARN message is printed, alerting that errata workaround is missing. The CPU errata messages are printed by both BL1 (primary CPU only) and runtime firmware on debug builds, once for each CPU/errata combination. Relevant output from Juno r1 console when ARM Trusted Firmware is built with PLAT=juno LOG_LEVEL=50 DEBUG=1: VERBOSE: BL1: cortex_a57: errata workaround for 806969 was not applied VERBOSE: BL1: cortex_a57: errata workaround for 813420 was not applied INFO: BL1: cortex_a57: errata workaround for disable_ldnp_overread was applied WARNING: BL1: cortex_a57: errata workaround for 826974 was missing! WARNING: BL1: cortex_a57: errata workaround for 826977 was missing! WARNING: BL1: cortex_a57: errata workaround for 828024 was missing! WARNING: BL1: cortex_a57: errata workaround for 829520 was missing! WARNING: BL1: cortex_a57: errata workaround for 833471 was missing! ... VERBOSE: BL31: cortex_a57: errata workaround for 806969 was not applied VERBOSE: BL31: cortex_a57: errata workaround for 813420 was not applied INFO: BL31: cortex_a57: errata workaround for disable_ldnp_overread was applied WARNING: BL31: cortex_a57: errata workaround for 826974 was missing! WARNING: BL31: cortex_a57: errata workaround for 826977 was missing! WARNING: BL31: cortex_a57: errata workaround for 828024 was missing! WARNING: BL31: cortex_a57: errata workaround for 829520 was missing! WARNING: BL31: cortex_a57: errata workaround for 833471 was missing! ... VERBOSE: BL31: cortex_a53: errata workaround for 826319 was not applied INFO: BL31: cortex_a53: errata workaround for disable_non_temporal_hint was applied Also update documentation. Change-Id: Iccf059d3348adb876ca121cdf5207bdbbacf2aba Signed-off-by: Jeenu Viswambharan <jeenu.viswambharan@arm.com>
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- 13 Dec, 2016 1 commit
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Antonio Nino Diaz authored
Added the definitions `PLAT_PHY_ADDR_SPACE_SIZE` and `PLAT_VIRT_ADDR_SPACE_SIZE` which specify respectively the physical and virtual address space size a platform can use. `ADDR_SPACE_SIZE` is now deprecated. To maintain compatibility, if any of the previous defines aren't present, the value of `ADDR_SPACE_SIZE` will be used instead. For AArch64, register ID_AA64MMFR0_EL1 is checked to calculate the max PA supported by the hardware and to verify that the previously mentioned definition is valid. For AArch32, a 40 bit physical address space is considered. Added asserts to check for overflows. Porting guide updated. Change-Id: Ie8ce1da5967993f0c94dbd4eb9841fc03d5ef8d6 Signed-off-by: Antonio Nino Diaz <antonio.ninodiaz@arm.com>
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- 09 Nov, 2016 1 commit
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David Cunado authored
In order to avoid unexpected traps into EL3/MON mode, this patch resets the debug registers, MDCR_EL3 and MDCR_EL2 for AArch64, and SDCR and HDCR for AArch32. MDCR_EL3/SDCR is zero'ed when EL3/MON mode is entered, at the start of BL1 and BL31/SMP_MIN. For MDCR_EL2/HDCR, this patch zero's the bits that are architecturally UNKNOWN values on reset. This is done when exiting from EL3/MON mode but only on platforms that support EL2/HYP mode but choose to exit to EL1/SVC mode. Fixes ARM-software/tf-issues#430 Change-Id: Idb992232163c072faa08892251b5626ae4c3a5b6 Signed-off-by: David Cunado <david.cunado@arm.com>
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- 14 Oct, 2016 1 commit
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Soby Mathew authored
The values of CP15BEN, nTWI & nTWE bits in SCTLR_EL1 are architecturally unknown if EL3 is AARCH64 whereas they reset to 1 if EL3 is AArch32. This might be a compatibility break for legacy AArch32 normal world software if these bits are not set to 1 when EL3 is AArch64. This patch enables the CP15BEN, nTWI and nTWE bits in the SCTLR_EL1 if the lower non-secure EL is AArch32. This unifies the SCTLR settings for lower non-secure EL in AArch32 mode for both AArch64 and AArch32 builds of Trusted Firmware. Fixes ARM-software/tf-issues#428 Change-Id: I3152d1580e4869c0ea745c5bd9da765f9c254947 Signed-off-by: Soby Mathew <soby.mathew@arm.com>
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- 23 Aug, 2016 1 commit
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Antonio Nino Diaz authored
Instead of hardcoding a level 1 table as the base translation level table, let the code decide which level is the most appropriate given the virtual address space size. As the table granularity is 4 KB, this allows the code to select level 0, 1 or 2 as base level for AArch64. This way, instead of limiting the virtual address space width to 39-31 bits, widths of 48-25 bit can be used. For AArch32, this change allows the code to select level 1 or 2 as the base translation level table and use virtual address space width of 32-25 bits. Also removed some unused definitions related to translation tables. Fixes ARM-software/tf-issues#362 Change-Id: Ie3bb5d6d1a4730a26700b09827c79f37ca3cdb65
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- 09 Aug, 2016 1 commit
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Soby Mathew authored
This patch moves the macro SIZE_FROM_LOG2_WORDS() defined in `arch.h` to `utils.h` as it is utility macro. Change-Id: Ia8171a226978f053a1ee4037f80142c0a4d21430
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- 13 Apr, 2016 1 commit
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Soby Mathew authored
The AArch32 long descriptor format and the AArch64 descriptor format correspond to each other which allows possible sharing of xlat_tables library code between AArch64 and AArch32. This patch refactors the xlat_tables library code to seperate the common functionality from architecture specific code. Prior to this patch, all of the xlat_tables library code were in `lib/aarch64/xlat_tables.c` file. The refactored code is now in `lib/xlat_tables/` directory. The AArch64 specific programming for xlat_tables is in `lib/xlat_tables/aarch64/xlat_tables.c` and the rest of the code common to AArch64 and AArch32 is in `lib/xlat_tables/xlat_tables_common.c`. Also the data types used in xlat_tables library APIs are reworked to make it compatible between AArch64 and AArch32. The `lib/aarch64/xlat_tables.c` file now includes the new xlat_tables library files to retain compatibility for existing platform ports. The macros related to xlat_tables library are also moved from `include/lib/aarch64/arch.h` to the header `include/lib/xlat_tables.h`. NOTE: THE `lib/aarch64/xlat_tables.c` FILE IS DEPRECATED AND PLATFORM PORTS ARE EXPECTED TO INCLUDE THE NEW XLAT_TABLES LIBRARY FILES IN THEIR MAKEFILES. Change-Id: I3d17217d24aaf3a05a4685d642a31d4d56255a0f
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- 30 Mar, 2016 1 commit
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Gerald Lejeune authored
Bring ISR bits definition as a mnemonic for troublershooters as well. Signed-off-by: Gerald Lejeune <gerald.lejeune@st.com>
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- 03 Mar, 2016 1 commit
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Sandrine Bailleux authored
At the moment, the memory translation library allows to create memory mappings of 2 types: - Device nGnRE memory (named MT_DEVICE in the library); - Normal, Inner Write-back non-transient, Outer Write-back non-transient memory (named MT_MEMORY in the library). As a consequence, the library code treats the memory type field as a boolean: everything that is not device memory is normal memory and vice-versa. In reality, the ARMv8 architecture allows up to 8 types of memory to be used at a single time for a given exception level. This patch reworks the memory attributes such that the memory type is now defined as an integer ranging from 0 to 7 instead of a boolean. This makes it possible to extend the list of memory types supported by the memory translation library. The priority system dictating memory attributes for overlapping memory regions has been extended to cope with these changes but the algorithm at its core has been preserved. When a memory region is re-mapped with different memory attributes, the memory translation library examines the former attributes and updates them only if the new attributes create a more restrictive mapping. This behaviour is unchanged, only the manipulation of the value has been modified to cope with the new format. This patch also introduces a new type of memory mapping in the memory translation library: MT_NON_CACHEABLE, meaning Normal, Inner Non-cacheable, Outer Non-cacheable memory. This can be useful to map a non-cacheable memory region, such as a DMA buffer for example. The rules around the Execute-Never (XN) bit in a translation table for an MT_NON_CACHEABLE memory mapping have been aligned on the rules used for MT_MEMORY mappings: - If the memory is read-only then it is also executable (XN = 0); - If the memory is read-write then it is not executable (XN = 1). The shareability field for MT_NON_CACHEABLE mappings is always set as 'Outer-Shareable'. Note that this is not strictly needed since shareability is only relevant if the memory is a Normal Cacheable memory type, but this is to align with the existing device memory mappings setup. All Device and Normal Non-cacheable memory regions are always treated as Outer Shareable, regardless of the translation table shareability attributes. This patch also removes the 'ATTR_SO' and 'ATTR_SO_INDEX' #defines. They were introduced to map memory as Device nGnRnE (formerly called "Strongly-Ordered" memory in the ARMv7 architecture) but were not used anywhere in the code base. Removing them avoids any confusion about the memory types supported by the library. Upstream platforms do not currently use the MT_NON_CACHEABLE memory type. NOTE: THIS CHANGE IS SOURCE COMPATIBLE BUT PLATFORMS THAT RELY ON THE BINARY VALUES OF `mmap_attr_t` or the `attr` argument of `mmap_add_region()` MAY BE BROKEN. Change-Id: I717d6ed79b4c845a04e34132432f98b93d661d79
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- 26 Nov, 2015 1 commit
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Achin Gupta authored
This patch adds a driver for ARM GICv3 systems that need to run software stacks where affinity routing is enabled across all privileged exception levels for both security states. This driver is a partial implementation of the ARM Generic Interrupt Controller Architecture Specification, GIC architecture version 3.0 and version 4.0 (ARM IHI 0069A). The driver does not cater for legacy support of interrupts and asymmetric configurations. The existing GIC driver has been preserved unchanged. The common code for GICv2 and GICv3 systems has been refactored into a new file, `drivers/arm/gic/common/gic_common.c`. The corresponding header is in `include/drivers/arm/gic_common.h`. The driver interface is implemented in `drivers/arm/gic/v3/gicv3_main.c`. The corresponding header is in `include/drivers/arm/gicv3.h`. Helper functions are implemented in `drivers/arm/gic/v3/arm_gicv3_helpers.c` and are accessible through the `drivers/arm/gic/v3/gicv3_private.h` header. Change-Id: I8c3c834a1d049d05b776b4dcb76b18ccb927444a
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- 13 Nov, 2015 1 commit
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Vikram Kanigiri authored
As per Section D7.2.81 in the ARMv8-A Reference Manual (DDI0487A Issue A.h), bits[29:28], bits[23:22], bit[20] and bit[11] in the SCTLR_EL1 are RES1. This patch adds the missing bit[20] to the SCTLR_EL1_RES1 macro. Change-Id: I827982fa2856d04def6b22d8200a79fe6922a28e
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- 27 Apr, 2015 1 commit
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Dan Handley authored
The required platform constant PLATFORM_CACHE_LINE_SIZE is unnecessary since CACHE_WRITEBACK_GRANULE effectively provides the same information. CACHE_WRITEBACK_GRANULE is preferred since this is an architecturally defined term and allows comparison with the corresponding hardware register value. Replace all usage of PLATFORM_CACHE_LINE_SIZE with CACHE_WRITEBACK_GRANULE. Also, add a runtime assert in BL1 to check that the provided CACHE_WRITEBACK_GRANULE matches the value provided in CTR_EL0. Change-Id: If87286be78068424217b9f3689be358356500dcd
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- 16 Mar, 2015 1 commit
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Vikram Kanigiri authored
This patch updates the FVP and Juno platform ports to use the common driver for ARM Cache Coherent Interconnects. Change-Id: Ib142f456b9b673600592616a2ec99e9b230d6542
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- 04 Dec, 2014 1 commit
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Soby Mathew authored
This patch fixes the array size of mpidr_aff_map_nodes_t which was less by one element. Fixes ARM-software/tf-issues#264 Change-Id: I48264f6f9e7046a3d0f4cbcd63b9ba49657e8818
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- 29 Oct, 2014 1 commit
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Soby Mathew authored
Prior to this patch, the errata workarounds were applied for any version of the CPU in the release build and in the debug build an assert failure resulted when the revision did not match. This patch applies errata workarounds in the Cortex-A57 reset handler only if the 'variant' and 'revision' fields read from the MIDR_EL1 match. In the debug build, a warning message is printed for each errata workaround which is not applied. The patch modifies the register usage in 'reset_handler` so as to adhere to ARM procedure calling standards. Fixes ARM-software/tf-issues#242 Change-Id: I51b1f876474599db885afa03346e38a476f84c29
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- 16 Sep, 2014 1 commit
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Jens Wiklander authored
Initializes SCTLR_EL1 based on MODE_RW bit in SPSR for the entry point. The RES1 bits for SCTLR_EL1 differs for Aarch64 and Aarch32 mode.
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- 21 Aug, 2014 1 commit
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Sandrine Bailleux authored
This patch adds the initial port of the ARM Trusted Firmware on the Juno development platform. This port does not support a BL3-2 image or any PSCI APIs apart from PSCI_VERSION and PSCI_CPU_ON. It enables workarounds for selected Cortex-A57 (#806969 & #813420) errata and implements the workaround for a Juno platform errata (Defect id 831273). Change-Id: Ib3d92df3af53820cfbb2977582ed0d7abf6ef893
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- 20 Aug, 2014 4 commits
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Soby Mathew authored
This patch adds workarounds for selected errata which affect the Cortex-A57 r0p0 part. Each workaround has a build time flag which should be used by the platform port to enable or disable the corresponding workaround. The workarounds are disabled by default. An assertion is raised if the platform enables a workaround which does not match the CPU revision at runtime. Change-Id: I9ae96b01c6ff733d04dc733bd4e67dbf77b29fb0
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Soby Mathew authored
This patch adds handlers for dumping Cortex-A57 and Cortex-A53 specific register state to the CPU specific operations framework. The contents of CPUECTLR_EL1 are dumped currently. Change-Id: I63d3dbfc4ac52fef5e25a8cf6b937c6f0975c8ab
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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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- 28 Jul, 2014 1 commit
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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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- 09 Jul, 2014 1 commit
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Lin Ma authored
Currently the TCR bits are hardcoded in xlat_tables.c. In order to map higher physical address into low virtual address, the TCR bits need to be configured accordingly. This patch is to save the max VA and PA and calculate the TCR.PS/IPS and t0sz bits in init_xlat_tables function. Change-Id: Ia7a58e5372b20200153057d457f4be5ddbb7dae4
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- 23 Jun, 2014 1 commit
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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
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- 10 Jun, 2014 1 commit
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Andrew Thoelke authored
Replace the current out-of-line assembler implementations of the system register and system instruction operations with inline assembler. This enables better compiler optimisation and code generation when accessing system registers. Fixes ARM-software/tf-issues#91 Change-Id: I149af3a94e1e5e5140a3e44b9abfc37ba2324476
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- 23 May, 2014 1 commit
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Dan Handley authored
Previously, platform.h contained many declarations and definitions used for different purposes. This file has been split so that: * Platform definitions used by common code that must be defined by the platform are now in platform_def.h. The exact include path is exported through $PLAT_INCLUDES in the platform makefile. * Platform definitions specific to the FVP platform are now in /plat/fvp/fvp_def.h. * Platform API declarations specific to the FVP platform are now in /plat/fvp/fvp_private.h. * The remaining platform API declarations that must be ported by each platform are still in platform.h but this file has been moved to /include/plat/common since this can be shared by all platforms. Change-Id: Ieb3bb22fbab3ee8027413c6b39a783534aee474a
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- 22 May, 2014 3 commits
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Achin Gupta authored
This patch adds support in the TSP to program the secure physical generic timer to generate a EL-1 interrupt every half second. It also adds support for maintaining the timer state across power management operations. The TSPD ensures that S-EL1 can access the timer by programming the SCR_EL3.ST bit. This patch does not actually enable the timer. This will be done in a subsequent patch once the complete framework for handling S-EL1 interrupts is in place. Change-Id: I1b3985cfb50262f60824be3a51c6314ce90571bc
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Achin Gupta authored
This patch adds an API to write to any bit in the SCR_EL3 member of the 'cpu_context' structure of the current CPU for a specified security state. This API will be used in subsequent patches which introduce interrupt management in EL3 to specify the interrupt routing model when execution is not in EL3. It also renames the cm_set_el3_elr() function to cm_set_elr_el3() which is more in line with the system register name being targeted by the API. Change-Id: I310fa7d8f827ad3f350325eca2fb28cb350a85ed
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Vikram Kanigiri authored
This patch introduces macros (SPSR_64 and SPSR_32) to create a SPSR for both aarch32 and aarch64 execution states. These macros allow the user to set fields in the SPSR depending upon its format. The make_spsr() function which did not allow manipulation of all the fields in the aarch32 SPSR has been replaced by these new macros. Change-Id: I9425dda0923e8d5f03d03ddb8fa0e28392c4c61e
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- 06 May, 2014 3 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
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
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Dan Handley authored
Move almost all system include files to a logical sub-directory under ./include. The only remaining system include directories not under ./include are specific to the platform. Move the corresponding source files to match the include directory structure. Also remove pm.h as it is no longer used. Change-Id: Ie5ea6368ec5fad459f3e8a802ad129135527f0b3
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- 08 Apr, 2014 1 commit
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Sandrine Bailleux authored
BL3-1 architecture setup code programs the system counter frequency into the CNTFRQ_EL0 register. This frequency is defined by the platform, though. This patch introduces a new platform hook that the architecture setup code can call to retrieve this information. In the ARM FVP port, this returns the first entry of the frequency modes table from the memory mapped generic timer. All system counter setup code has been removed from BL1 as some platforms may not have initialized the system counters at this stage. The platform specific settings done exclusively in BL1 have been moved to BL3-1. In the ARM FVP port, this consists in enabling and initializing the System level generic timer. Also, the frequency change request in the counter control register has been set to 0 to make it explicit it's using the base frequency. The CNTCR_FCREQ() macro has been fixed in this context to give an entry number rather than a bitmask. In future, when support for firmware update is implemented, there is a case where BL1 platform specific code will need to program the counter frequency. This should be implemented at that time. This patch also updates the relevant documentation. It properly fixes ARM-software/tf-issues#24 Change-Id: If95639b279f75d66ac0576c48a6614b5ccb0e84b
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- 05 Mar, 2014 1 commit
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Jon Medhurst authored
Change-Id: I5b8d040ebc6672e40e4f13925e2fd5bc124103f4 Signed-off-by: Jon Medhurst <tixy@linaro.org>
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- 20 Feb, 2014 2 commits
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Achin Gupta authored
This patch factors out the ARM FVP specific code to create MMU translation tables so that it is possible for a boot loader stage to create a different set of tables instead of using the default ones. The default translation tables are created with the assumption that the calling boot loader stage executes out of secure SRAM. This might not be true for the BL3_2 stage in the future. A boot loader stage can define the `fill_xlation_tables()` function as per its requirements. It returns a reference to the level 1 translation table which is used by the common platform code to setup the TTBR_EL3. This patch is a temporary solution before a larger rework of translation table creation logic is introduced. Change-Id: I09a075d5da16822ee32a411a9dbe284718fb4ff6
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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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