- 20 Mar, 2017 1 commit
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Andre Przywara authored
ARM erratum 855873 applies to all Cortex-A53 CPUs. The recommended workaround is to promote "data cache clean" instructions to "data cache clean and invalidate" instructions. For core revisions of r0p3 and later this can be done by setting a bit in the CPUACTLR_EL1 register, so that hardware takes care of the promotion. As CPUACTLR_EL1 is both IMPLEMENTATION DEFINED and can be trapped to EL3, we set the bit in firmware. Also we dump this register upon crashing to provide more debug information. Enable the workaround for the Juno boards. Change-Id: I3840114291958a406574ab6c49b01a9d9847fec8 Signed-off-by: Andre Przywara <andre.przywara@arm.com>
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- 28 Feb, 2017 1 commit
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Varun Wadekar authored
This patch enables L2 ECC and Parity Protection for ARM Cortex-A57 CPUs for Tegra SoCs. Change-Id: I038fcd529991d0201a4951ce2730ab71b1c980f9 Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 23 Feb, 2017 1 commit
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Varun Wadekar authored
This patch moves the code to disable DCO operations out from common CPU files. This allows the platform code to call thsi API as and when required. There are certain CPU power down states which require the DCO to be kept ON and platforms can decide selectively now. Change-Id: Icb946fe2545a7d8c5903c420d1ee169c4921a2d1 Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 22 Feb, 2017 1 commit
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Varun Wadekar authored
This patch adds support for all variants of the Denver CPUs. The variants export their cpu_ops to allow all Denver platforms to run the Trusted Firmware stack. Change-Id: I1488813ddfd506ffe363d8a32cda1b575e437035 Signed-off-by: Varun Wadekar <vwadekar@nvidia.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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- 23 Jan, 2017 1 commit
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Masahiro Yamada authored
One nasty part of ATF is some of boolean macros are always defined as 1 or 0, and the rest of them are only defined under certain conditions. For the former group, "#if FOO" or "#if !FOO" must be used because "#ifdef FOO" is always true. (Options passed by $(call add_define,) are the cases.) For the latter, "#ifdef FOO" or "#ifndef FOO" should be used because checking the value of an undefined macro is strange. Here, IMAGE_BL* is handled by make_helpers/build_macro.mk like follows: $(eval IMAGE := IMAGE_BL$(call uppercase,$(3))) $(OBJ): $(2) @echo " CC $$<" $$(Q)$$(CC) $$(TF_CFLAGS) $$(CFLAGS) -D$(IMAGE) -c $$< -o $$@ This means, IMAGE_BL* is defined when building the corresponding image, but *undefined* for the other images. So, IMAGE_BL* belongs to the latter group where we should use #ifdef or #ifndef. Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com>
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- 15 Dec, 2016 1 commit
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Jeenu Viswambharan authored
Various CPU drivers in ARM Trusted Firmware register functions to handle power-down operations. At present, separate functions are registered to power down individual cores and clusters. This scheme operates on the basis of core and cluster, and doesn't cater for extending the hierarchy for power-down operations. For example, future CPUs might support multiple threads which might need powering down individually. This patch therefore reworks the CPU operations framework to allow for registering power down handlers on specific level basis. Henceforth: - Generic code invokes CPU power down operations by the level required. - CPU drivers explicitly mention CPU_NO_RESET_FUNC when the CPU has no reset function. - CPU drivers register power down handlers as a list: a mandatory handler for level 0, and optional handlers for higher levels. All existing CPU drivers are adapted to the new CPU operations framework without needing any functional changes within. Also update firmware design guide. Change-Id: I1826842d37a9e60a9e85fdcee7b4b8f6bc1ad043 Signed-off-by: Jeenu Viswambharan <jeenu.viswambharan@arm.com>
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- 12 Jul, 2016 1 commit
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Naga Sureshkumar Relli authored
This patch adds cpumerrsr_el1 and l2merrsr_el1 to the register dump on error for applicable CPUs. These registers hold the ECC errors on L1 and L2 caches. This patch updates the A53, A57, A72, A73 (l2merrsr_el1 only) CPU libraries. Signed-off-by: Naga Sureshkumar Relli <nagasure@xilinx.com>
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- 01 Jun, 2016 1 commit
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Yatharth Kochar authored
This patch adds ARM Cortex-A73 MPCore Processor support in the CPU specific operations framework. It also includes this support for the Base FVP port. Change-Id: I0e26b594f2ec1d28eb815db9810c682e3885716d
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- 21 Apr, 2016 5 commits
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Sandrine Bailleux authored
Change-Id: I86ac81ffd7cd094ce68c4cceb01c16563671a063
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Sandrine Bailleux authored
Change-Id: Icaacd19c4cef9c10d02adcc2f84a4d7c97d4bcfa
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Sandrine Bailleux authored
Change-Id: Ia2ce8aa752efb090cfc734c1895c8f2539e82439
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Sandrine Bailleux authored
Change-Id: I632a8c5bb517ff89c69268e865be33101059be7d
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Sandrine Bailleux authored
Change-Id: I45641551474f4c58c638aff8c42c0ab9a8ec78b4
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- 08 Feb, 2016 1 commit
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Sandrine Bailleux authored
The LDNP/STNP instructions as implemented on Cortex-A53 and Cortex-A57 do not behave in a way most programmers expect, and will most probably result in a significant speed degradation to any code that employs them. The ARMv8-A architecture (see Document ARM DDI 0487A.h, section D3.4.3) allows cores to ignore the non-temporal hint and treat LDNP/STNP as LDP/STP instead. This patch introduces 2 new build flags: A53_DISABLE_NON_TEMPORAL_HINT and A57_DISABLE_NON_TEMPORAL_HINT to enforce this behaviour on Cortex-A53 and Cortex-A57. They are enabled by default. The string printed in debug builds when a specific CPU errata workaround is compiled in but skipped at runtime has been generalised, so that it can be reused for the non-temporal hint use case as well. Change-Id: I3e354f4797fd5d3959872a678e160322b13867a1
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- 12 Jan, 2016 1 commit
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Sandrine Bailleux authored
This patch adds support for ARM Cortex-A35 processor in the CPU specific framework, as described in the Cortex-A35 TRM (r0p0). Change-Id: Ief930a0bdf6cd82f6cb1c3b106f591a71c883464
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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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- 19 Nov, 2015 1 commit
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Sandrine Bailleux authored
The default reset values for the L2 Data & Tag RAM latencies on the Cortex-A72 on Juno R2 are not suitable. This patch modifies the Juno platform reset handler to configure the right settings on Juno R2. Change-Id: I20953de7ba0619324a389e0b7bbf951b64057db8
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- 24 Aug, 2015 1 commit
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Varun Wadekar authored
This patch adds macros suitable for programming the Advanced SIMD/Floating-point (only Cortex-A53), CPU and L2 dynamic retention control policy in the CPUECTLR_EL1 and L2ECTLR registers. Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 05 Aug, 2015 1 commit
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Jimmy Huang authored
- Apply a53 errata #826319 to revision <= r0p2 - Apply a53 errata #836870 to revision <= r0p3 - Update docs/cpu-specific-build-macros.md for newly added errata build flags Change-Id: I44918e36b47dca1fa29695b68700ff9bf888865e Signed-off-by: Jimmy Huang <jimmy.huang@mediatek.com>
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- 24 Jul, 2015 1 commit
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Varun Wadekar authored
Denver is NVIDIA's own custom-designed, 64-bit, dual-core CPU which is fully ARMv8 architecture compatible. Each of the two Denver cores implements a 7-way superscalar microarchitecture (up to 7 concurrent micro-ops can be executed per clock), and includes a 128KB 4-way L1 instruction cache, a 64KB 4-way L1 data cache, and a 2MB 16-way L2 cache, which services both cores. Denver implements an innovative process called Dynamic Code Optimization, which optimizes frequently used software routines at runtime into dense, highly tuned microcode-equivalent routines. These are stored in a dedicated, 128MB main-memory-based optimization cache. After being read into the instruction cache, the optimized micro-ops are executed, re-fetched and executed from the instruction cache as long as needed and capacity allows. Effectively, this reduces the need to re-optimize the software routines. Instead of using hardware to extract the instruction-level parallelism (ILP) inherent in the code, Denver extracts the ILP once via software techniques, and then executes those routines repeatedly, thus amortizing the cost of ILP extraction over the many execution instances. Denver also features new low latency power-state transitions, in addition to extensive power-gating and dynamic voltage and clock scaling based on workloads. Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 27 Apr, 2015 1 commit
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Dan Handley authored
Some assembly files containing macros are included like header files into other assembly files. This will cause assembler errors if they are included multiple times. Add header guards to assembly macro files to avoid assembler errors. Change-Id: Ia632e767ed7df7bf507b294982b8d730a6f8fe69
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- 18 Mar, 2015 1 commit
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Vikram Kanigiri authored
This patch adds support for ARM Cortex-A72 processor in the CPU specific framework. Change-Id: I5986855fc1b875aadf3eba8c36e989d8a05e5175
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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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- 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 3 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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