- 17 Oct, 2017 4 commits
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Antonio Nino Diaz authored
The implementation is the same as those used to disable it in EL3. Change-Id: Ibfe7e69034a691fbf57477c5a76a8cdca28f6b26 Signed-off-by:Antonio Nino Diaz <antonio.ninodiaz@arm.com>
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Sandrine Bailleux authored
This patch introduces a new API in the translation tables library (v2), that allows to change the memory attributes of a memory region. It may be used to change its execution permissions and data access permissions. As a prerequisite, the memory must be already mapped. Moreover, it must be mapped at the finest granularity (currently 4 KB). Change-Id: I242a8c6f0f3ef2b0a81a61e28706540462faca3c Co-authored-by:
Sandrine Bailleux <sandrine.bailleux@arm.com> Co-authored-by:
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Sandrine Bailleux authored
This patch introduces a new API in the translation tables library (v2), that allows to query the memory attributes of a memory block or a memory page. Change-Id: I45a8b39a53da39e7617cbac4bff5658dc1b20a11 Co-authored-by:
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Antonio Nino Diaz authored
Previously, in AArch32, `IMAGE_XLAT_DEFAULT_REGIME` wasn't defined. The translation regime is only used in the AArch64 port of the translation tables library v2, so this is not a problem for now, but future patches will use it. `IMAGE_EL` isn't used in AArch32, so it isn't needed to define it. Change-Id: I4acdb01a58658956ab94bd82ed5b7fee1aa6ba90 Signed-off-by:
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- 16 Oct, 2017 15 commits
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Jeenu Viswambharan authored
The GIC driver initialization currently allows an array of interrupts to be configured as secure. Future use cases would require more interrupt configuration other than just security, such as priority. This patch introduces a new interrupt property array as part of both GICv2 and GICv3 driver data. The platform can populate the array with interrupt numbers and respective properties. The corresponding driver initialization iterates through the array, and applies interrupt configuration as required. This capability, and the current way of supplying array (or arrays, in case of GICv3) of secure interrupts, are however mutually exclusive. Henceforth, the platform should supply either: - A list of interrupts to be mapped as secure (the current way). Platforms that do this will continue working as they were. With this patch, this scheme is deprecated. - A list of interrupt properties (properties include interrupt group). Individual interrupt properties are specified via. descriptors of type 'interrupt_prop_desc_t', which can be populated with the macro INTR_PROP_DESC(). A run time assert checks that the platform doesn't specify both. Henceforth the old scheme of providing list of secure interrupts is deprecated. When built with ERROR_DEPRECATED=1, GIC drivers will require that the interrupt properties are supplied instead of an array of secure interrupts. Add a section to firmware design about configuring secure interrupts. Fixes ARM-software/tf-issues#262 Change-Id: I8eec29e72eb69dbb6bce77879febf32c95376942 Signed-off-by:Jeenu Viswambharan <jeenu.viswambharan@arm.com>
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Jeenu Viswambharan authored
The helpers perform read-modify-write on GIC*_ICFGR registers, but don't serialise callers. Any serialisation must be taken care of by the callers. Change-Id: I71995f82ff2c7f70d37af0ede30d6ee18682fd3f Signed-off-by: -
Jeenu Viswambharan authored
An earlier patch added provision for the platform to provide secure interrupt properties. ARM platforms already has a list of interrupts that fall into different secure groups. This patch defines macros that enumerate interrupt properties in the same fashion, and points the driver driver data to a list of interrupt properties rather than list of secure interrupts on ARM platforms. The deprecated interrupt list definitions are however retained to support legacy builds. Configuration applied to individual interrupts remain unchanged, so no runtime behaviour change expected. NOTE: Platforms that use the arm/common function plat_arm_gic_driver_init() must replace their PLAT_ARM_G1S_IRQS and PLAT_ARM_G0_IRQS macro definitions with PLAT_ARM_G1S_IRQ_PROPS and PLAT_ARM_G0_IRQ_PROPS macros respectively, using the provided INTR_PROP_DESC macro. Change-Id: I24d643b83e3333753a3ba97d4b6fb71e16bb0952 Signed-off-by: -
Jeenu Viswambharan authored
API documentation updated. Change-Id: I40feec1fe67a960d035061b54dd55610bc34ce1d Signed-off-by: -
Jeenu Viswambharan authored
API documentation updated. Change-Id: I14e33cfc7dfa93257c82d76fae186b17a1b6d266 Co-authored-by:
Yousuf A <yousuf.sait@arm.com> Signed-off-by:
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Jeenu Viswambharan authored
SPIs can be routed to either a specific PE, or to any one of all available PEs. API documentation updated. Change-Id: I28675f634568aaf4ea1aa8aa7ebf25b419a963ed Co-authored-by:
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Jeenu Viswambharan authored
API documentation updated. Change-Id: I129725059299af6cc612bafa8d74817f779d7c4f Signed-off-by: -
Jeenu Viswambharan authored
The back end GIC driver converts and assigns the interrupt type to suitable group. For GICv2, a build option GICV2_G0_FOR_EL3 is introduced, which determines to which type Group 0 interrupts maps to. - When the build option is set 0 (the default), Group 0 interrupts are meant for Secure EL1. This is presently the case. - Otherwise, Group 0 interrupts are meant for EL3. This means the SPD will have to synchronously hand over the interrupt to Secure EL1. The query API allows the platform to query whether the platform supports interrupts of a given type. API documentation updated. Change-Id: I60fdb4053ffe0bd006b3b20914914ebd311fc858 Co-authored-by:
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Jeenu Viswambharan authored
API documentation updated. Change-Id: Ib700eb1b8ca65503aeed0ac4ce0e7b934df67ff9 Co-authored-by:
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Jeenu Viswambharan authored
API documentation updated. Change-Id: Ice7511f8df5356851001d2f7dc2a46cfe318f9ba Co-authored-by:
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Jeenu Viswambharan authored
API documentation updated. Change-Id: I6d61785af0d5330930c709de971a904dc7c3516c Co-authored-by:
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Jeenu Viswambharan authored
These APIs allow the GIC implementation to categorize interrupt numbers into SPIs, PPIs, and SGIs. The default implementations for GICv2 and GICv3 follows interrupt numbering as specified by the ARM GIC architecture. API documentation updated. Change-Id: Ia6aa379dc955994333232e6138f259535d4fa087 Signed-off-by: -
Jeenu Viswambharan authored
The PE target mask is used to translate linear PE index (returned by platform core position) to a bit mask used when targeting interrupts to a PE, viz. when raising SGIs and routing SPIs. The platform shall: - Populate the driver data with a pointer to array that's to contain per-PE target masks. - Invoke the new driver API 'gicv2_set_pe_target_mask()' during per-CPU initialization so that the driver populates the target mask for that CPU. Platforms that don't intend to target interrupts or raise SGIs need not populate this. Change-Id: Ic0db54da86915e9dccd82fff51479bc3c1fdc968 Signed-off-by: -
Jeenu Viswambharan authored
Document the API in separate platform interrupt controller API document. Change-Id: If18f208e10a8a243f5c59d226fcf48e985941949 Co-authored-by:
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Roberto Vargas authored
The macro DEFINE_SYSREG_WRITE_CONST_FUNC defines an inline function to an assembly statement that uses the MSR (immediate) instruction to access the PSTATE. The "i" (immediate) assembly constraint on the operand was only satisfied when compiling with optimizations enabled which resulted in the function being optimized out - the "const uint64_t v" parameter was optimized out and replaced by a literal value. When compiling without optimizations, the function call remained and therefore the parameter is not optimized out - compilation fails as the constraint is impossible to satisfy by the compiler. This patch replaces the function encapsulating the use of the MSR (immediate) with a macro that allows the literal value to be directly fed to the inline assembly statement Change-Id: Ib379a7acc48ef3cb83090a680cd8a6ce1a94a9d9 Signed-off-by:Roberto Vargas <roberto.vargas@arm.com>
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- 13 Oct, 2017 3 commits
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Roberto Vargas authored
Updated the PSCI version conforming to the PSCI v1.1 specification (ARM DEN022D). Change-Id: I1f34772ef6de37ec1ade719a1ab3aa062152d995 Signed-off-by: -
David Cunado authored
Currently TF does not initialise the PMCR_EL0 register in the secure context or save/restore the register. In particular, the DP field may not be set to one to prohibit cycle counting in the secure state, even though event counting generally is prohibited via the default setting of MDCR_EL3.SMPE to 0. This patch initialises PMCR_EL0.DP to one in the secure state to prohibit cycle counting and also initialises other fields that have an architectually UNKNOWN reset value. Additionally, PMCR_EL0 is added to the list of registers that are saved and restored during a world switch. Similar changes are made for PMCR for the AArch32 execution state. NOTE: secure world code at lower ELs that assume other values in PMCR_EL0 will be impacted. Change-Id: Iae40e8c0a196d74053accf97063ebc257b4d2f3a Signed-off-by:David Cunado <david.cunado@arm.com>
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Roberto Vargas authored
This patch implements PSCI_SYSTEM_RESET2 API as defined in PSCI v1.1 specification. The specification allows architectural and vendor-specific resets via this API. In the current specification, there is only one architectural reset, the warm reset. This reset is intended to provide a fast reboot path that guarantees not to reset system main memory. Change-Id: I057bb81a60cd0fe56465dbb5791d8e1cca025bd3 Signed-off-by:
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- 06 Oct, 2017 1 commit
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David Cunado authored
The MEM_PROTECT support adds a MMAP region for DRAM2, which when building with TBBR support and OP-TEE tsp requires an additional entry in the MMAP region array in BL2 - PLAT_ARM_MMAP_ENTRIES is increased. The MEM_PROTECT support also adds a new region in BL31, and when BL31 is placed in DRAM, the memory mappings require an additional translation table - MAX_XLAT_TABLES is increased. Change-Id: I0b76260da817dcfd0b8f73a7193c36efda977625 Signed-off-by:
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- 05 Oct, 2017 5 commits
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Soby Mathew authored
This patch adds functions to save and restore GICv3 ITS registers during system suspend. Please note that the power management of GIC ITS is implementation defined. These functions only implements the architectural part of the ITS power management and they do not restore memory structures or register content required to support ITS. Even if the ITS implementation stores structures in memory, an implementation defined power down sequence is likely to be required to flush some internal ITS caches to memory. If such implementation defined sequence is not followed, the platform must ensure that the ITS is not power gated during system suspend. Change-Id: I5f31e5541975aa7dcaab69b0b7f67583c0e27678 Signed-off-by:
Soby Mathew <soby.mathew@arm.com> Signed-off-by:
Douglas Raillard <douglas.raillard@arm.com>
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Soby Mathew authored
During system suspend, the GICv3 Distributor and Redistributor context can be lost due to power gating of the system power domain. This means that the GICv3 context needs to be saved prior to system suspend and restored on wakeup. Currently the consensus is that the Firmware should be in charge of this. See tf-issues#464 for more details. This patch introduces helper APIs in the GICv3 driver to save and restore the Distributor and Redistributor contexts. The GICv3 ITS context is not considered in this patch because the specification says that the details of ITS power management is implementation-defined. These APIs are expected to be appropriately invoked by the platform layer during system suspend. Fixes ARM-software/tf-issues#464 Change-Id: Iebb9c6770ab8c4d522546f161fa402d2fe02ec00 Signed-off-by:
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Antonio Nino Diaz authored
This patch introduces the ability of the xlat tables library to manage EL0 and EL1 mappings from a higher exception level. Attributes MT_USER and MT_PRIVILEGED have been added to allow the user specify the target EL in the translation regime EL1&0. REGISTER_XLAT_CONTEXT2 macro is introduced to allow creating a xlat_ctx_t that targets a given translation regime (EL1&0 or EL3). A new member is added to xlat_ctx_t to represent the translation regime the xlat_ctx_t manages. The execute_never mask member is removed as it is computed from existing information. Change-Id: I95e14abc3371d7a6d6a358cc54c688aa9975c110 Co-authored-by:
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Douglas Raillard authored
Introduce a variant of the TLB invalidation helper function that allows the targeted translation regime to be specified, rather than defaulting to the current one. This new function is useful in the context of EL3 software managing translation tables for the S-EL1&0 translation regime, as then it might need to invalidate S-EL1&0 TLB entries rather than EL3 ones. Define a new enumeration to be able to represent translation regimes in the xlat tables library. Change-Id: Ibe4438dbea2d7a6e7470bfb68ff805d8bf6b07e5 Co-authored-by:
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Sandrine Bailleux authored
The current implementation of the memory mapping API favours mapping memory regions using the biggest possible block size in order to reduce the number of translation tables needed. In some cases, this behaviour might not be desirable. When translation tables are edited at run-time, coarse-grain mappings like that might need splitting into finer-grain tables. This operation has a performance cost. The MAP_REGION2() macro allows to specify the granularity of translation tables used for the initial mapping of a memory region. This might increase performance for memory regions that are likely to be edited in the future, at the expense of a potentially increased memory footprint. The Translation Tables Library Design Guide has been updated to explain the use case for this macro. Also added a few intermediate titles to make the guide easier to digest. Change-Id: I04de9302e0ee3d326b8877043a9f638766b81b7b Co-authored-by:
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- 26 Sep, 2017 1 commit
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Masahiro Yamada authored
Since commit 769d65da ("xlat: Use MAP_REGION macro as compatibility layer"), building with GCC 4.9 fails. CC plat/arm/board/fvp/fvp_common.c plat/arm/board/fvp/fvp_common.c:60:2: error: initializer element is not constant ARM_MAP_SHARED_RAM, ^ plat/arm/board/fvp/fvp_common.c:60:2: error: (near initialization for 'plat_arm_mmap[0]') make: *** [Makefile:535: build/fvp/release/bl1/fvp_common.o] Error 1 Taking into account that MAP_REGION(_FLAT) is widely used in array initializers, do not use cast. Fixes: 769d65da ("xlat: Use MAP_REGION macro as compatibility layer") Signed-off-by:
Masahiro Yamada <yamada.masahiro@socionext.com>
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- 25 Sep, 2017 4 commits
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Roberto Vargas authored
On ARM platforms, the maximum size of the address space is limited to 32-bits as defined in arm_def.h. In order to access DRAM2, which is defined beyond the 32-bit address space, the maximum address space is increased to 36-bits in AArch64. It is possible to increase the virtual space for AArch32, but it is more difficult and not supported for now. NOTE - the actual maximum memory address space is platform dependent and is checked at run-time by querying the PARange field in the ID_AA64MMFR0_EL1 register. Change-Id: I6cb05c78a63b1fed96db9a9773faca04a5b93d67 Signed-off-by: -
Roberto Vargas authored
mem_protect needs some kind of non-volatile memory because it has to remember its state across reset and power down events. The most suitable electronic part for this feature is a NVRAM which should be only accesible from the secure world. Juno and FVP lack such hardware and for this reason the MEM_PROTECT functionality is implemented with Flash EEPROM memory on both boards, even though this memory is accesible from the non-secure world. This is done only to show a full implementation of these PSCI features, but an actual system shouldn't use a non-secure NVRAM to implement it. The EL3 runtime software will write the mem_protect flag and BL2 will read and clear the memory ranges if enabled. It is done in BL2 because it reduces the time that TF needs access to the full non-secure memory. The memory layout of both boards is defined using macros which take different values in Juno and FVP platforms. Generic platform helpers are added that use the platform specific macros to generate a mem_region_t that is valid for the platform. Change-Id: I2c6818ac091a2966fa07a52c5ddf8f6fde4941e9 Signed-off-by: -
Roberto Vargas authored
This commit introduces a new type (mem_region_t) used to describe memory regions and it adds two utility functions: - clear_mem_regions: This function clears (write 0) to a set of regions described with an array of mem_region_t. - mem_region_in_array_chk This function checks if a region is covered by some of the regions described with an array of mem_region_t. Change-Id: I12ce549f5e81dd15ac0981645f6e08ee7c120811 Signed-off-by: -
Roberto Vargas authored
This patch adds the generic code that links the psci smc handler with the platform function that implements the mem_protect and mem_check_range functionalities. These functions are optional APIs added in PSCI v1.1 (ARM DEN022D). Change-Id: I3bac1307a5ce2c7a196ace76db8317e8d8c8bb3f Signed-off-by:
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- 22 Sep, 2017 3 commits
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Qixiang Xu authored
Add new option rsa+ecdsa for TF_MBEDTLS_KEY_ALG, which selects rsa or ecdsa depending on the certificate used. Change-Id: I08d9e99bdbba361ed2ec5624248dc382c750ad47 Signed-off-by:Qixiang Xu <qixiang.xu@arm.com>
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Qixiang Xu authored
- fixed compile error when KEY_ALG=ecdsa - add new option ecdsa for TF_MBEDTLS_KEY_ALG - add new option devel_ecdsa for ARM_ROTPK_LOCATION - add ecdsa key at plat/arm/board/common/rotpk/ - reduce the mbedtls heap memory size to 13k Change-Id: I3f7a6170af93fdbaaa7bf2fffb4680a9f6113c13 Signed-off-by: -
Qixiang Xu authored
For Trusted Board Boot, BL1 RW section and BL2 need more space to support the ECDSA algorithm. Specifically, PLAT_ARM_MAX_BL1_RW_SIZE is increased on ARM platforms. And on the Juno platform: - BL2 size, PLAT_ARM_MAX_BL2_SIZE is increased. - SCP_BL2 is loaded into the space defined by BL31_BASE -> BL31_RW_BASE. In order to maintain the same size space for SCP_BL2,PLAT_ARM_MAX_BL31_SIZE is increased. Change-Id: I379083f918b40ab1c765da4e71780d89f0058040 Co-Authored-By:
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- 21 Sep, 2017 2 commits
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Antonio Nino Diaz authored
The type `unsigned long` is 32 bit wide in AArch32, but 64 bit wide in AArch64. This is inconsistent and that's why we avoid using it as per the Coding Guidelines. This patch changes all `UL` occurrences to `U` or `ULL` depending on the context so that the size of the constant is clear. This problem affected the macro `BIT(nr)`. As long as this macro is used to fill fields of registers, that's not a problem, since all registers are 32 bit wide in AArch32 and 64 bit wide in AArch64. However, if the macro is used to fill the fields of a 64-bit integer, it won't be able to set the upper 32 bits in AArch32. By changing the type of this macro to `unsigned long long` the behaviour is always the same regardless of the architecture, as this type is 64-bit wide in both cases. Some Tegra platform files have been modified by this patch. Change-Id: I918264c03e7d691a931f0d1018df25a2796cc221 Signed-off-by: -
Antonio Nino Diaz authored
In the S-EL1&0 translation regime we aren't using the higher VA range, whose translation table base address is held in TTBR1_EL1. The bit TCR_EL1.EPD1 can be used to disable translations using TTBR1_EL1, but the code wasn't setting it to 1. Additionally, other fields in TCR1_EL1 associated with the higher VA range (TBI1, TG1, SH1, ORGN1, IRGN1 and A1) weren't set correctly as they were left as 0. In particular, 0 is a reserved value for TG1. Also, TBBR1_EL1 was not explicitly set and its reset value is UNKNOWN. Therefore memory accesses to the higher VA range would result in unpredictable behaviour as a translation table walk would be attempted using an UNKNOWN value in TTBR1_EL1. On the FVP and Juno platforms accessing the higher VA range resulted in a translation fault, but this may not always be the case on all platforms. This patch sets the bit TCR_EL1.EPD1 to 1 so that any kind of unpredictable behaviour is prevented. This bug only affects the AArch64 version of the code, the AArch32 version sets this bit to 1 as expected. Change-Id: I481c000deda5bc33a475631301767b9e0474a303 Signed-off-by:
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- 12 Sep, 2017 1 commit
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Qixiang Xu authored
The value of BL31_BASE currently depends on the size of BL31. This causes problems in the RESET_TO_BL31 case because the value of BL31_BASE is used in the model launch parameters, which often changes. Therefore, this patch fixes BL31_BASE to the middle of Trusted SRAM, to avoid further model parameter changes in future. Change-Id: I6d7fa4fe293717d84768974679539c0e0cb6d935 Signed-off-by:
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- 11 Sep, 2017 1 commit
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Isla Mitchell authored
This patch provides helper macros for both Device and Normal memory MAIR encodings as defined by the ARM Architecture Reference Manual for ARMv8-A (ARM DDI0487B.A). Change-Id: I5faae7f2cf366390ad4ba1d9253c6f3b60fd5e20 Signed-off-by:
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