- 02 Sep, 2020 1 commit
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Pramod Kumar authored
The DSU contains system control registers in the SCU and L3 logic to control the functionality of the cluster. If "DIRECT CONNECT" L3 memory system variant is used, there won't be any L3 cache, snoop filter, and SCU logic present hence no system control register will be present. Hence check SCU presence before accessing DSU register for DSU_936184 errata. Signed-off-by: Pramod Kumar <pramod.kumar@broadcom.com> Change-Id: I1ffa8afb0447ae3bd1032c9dd678d68021fe5a63
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- 23 Jul, 2020 1 commit
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johpow01 authored
This reverts commit 11af40b6, reversing changes made to 2afcf1d4. This errata workaround did not work as intended so we are reverting this change. In the future, when the corrected workaround is published in an SDEN, we will push a new workaround. This is the patch being reverted: https://review.trustedfirmware.org/c/TF-A/trusted-firmware-a/+/4750 Signed-off-by: John Powell <john.powell@arm.com> Change-Id: I20aa064c1bac9671939e657bec269d32b9e75a97
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- 25 Jun, 2020 1 commit
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johpow01 authored
Neoverse N1 erratum 1800710 is a Cat B erratum, present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the ECTLR_EL1 system register, which disables allocation of splintered pages in the L2 TLB. This errata is explained in this SDEN: https://static.docs.arm.com/sden885747/f/Arm_Neoverse_N1_MP050_Software_Developer_Errata_Notice_v21.pdf Signed-off-by: John Powell <john.powell@arm.com> Change-Id: Ie5b15c8bc3235e474a06a57c3ec70684361857a6
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- 27 Jan, 2020 1 commit
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Manish Pandey authored
CPUECTLR_EL1.EXTLLC bit indicates the presense of internal or external last level cache(LLC) in the system, the reset value is internal LLC. To cater for the platforms(like N1SDP) which has external LLC present introduce a new build option 'NEOVERSE_N1_EXTERNAL_LLC' which can be enabled by platform port. Signed-off-by: Manish Pandey <manish.pandey2@arm.com> Change-Id: Ibf475fcd6fd44401897a71600f4eafe989921363
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- 22 Jan, 2020 1 commit
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Anthony Steinhauser authored
Even though ERET always causes a jump to another address, aarch64 CPUs speculatively execute following instructions as if the ERET instruction was not a jump instruction. The speculative execution does not cross privilege-levels (to the jump target as one would expect), but it continues on the kernel privilege level as if the ERET instruction did not change the control flow - thus execution anything that is accidentally linked after the ERET instruction. Later, the results of this speculative execution are always architecturally discarded, however they can leak data using microarchitectural side channels. This speculative execution is very reliable (seems to be unconditional) and it manages to complete even relatively performance-heavy operations (e.g. multiple dependent fetches from uncached memory). This was fixed in Linux, FreeBSD, OpenBSD and Optee OS: https://github.com/torvalds/linux/commit/679db70801da9fda91d26caf13bf5b5ccc74e8e8 https://github.com/freebsd/freebsd/commit/29fb48ace4186a41c409fde52bcf4216e9e50b61 https://github.com/openbsd/src/commit/3a08873ece1cb28ace89fd65e8f3c1375cc98de2 https://github.com/OP-TEE/optee_os/commit/abfd092aa19f9c0251e3d5551e2d68a9ebcfec8a It is demonstrated in a SafeSide example: https://github.com/google/safeside/blob/master/demos/eret_hvc_smc_wrapper.cc https://github.com/google/safeside/blob/master/kernel_modules/kmod_eret_hvc_smc/eret_hvc_smc_module.c Signed-off-by: Anthony Steinhauser <asteinhauser@google.com> Change-Id: Iead39b0b9fb4b8d8b5609daaa8be81497ba63a0f
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- 24 Oct, 2019 1 commit
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laurenw-arm authored
Fix a few white space errors and remove #if defined in workaround for N1 Errata 1542419. Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com> Change-Id: I07ac5a2fd50cd63de53c06e3d0f8262871b62fad
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- 04 Oct, 2019 1 commit
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laurenw-arm authored
Coherent I-cache is causing a prefetch violation where when the core executes an instruction that has recently been modified, the core might fetch a stale instruction which violates the ordering of instruction fetches. The workaround includes an instruction sequence to implementation defined registers to trap all EL0 IC IVAU instructions to EL3 and a trap handler to execute a TLB inner-shareable invalidation to an arbitrary address followed by a DSB. Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com> Change-Id: Ic3b7cbb11cf2eaf9005523ef5578a372593ae4d6
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- 19 Aug, 2019 1 commit
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laurenw-arm authored
ISB instruction was removed from the N1 1043202 Errata Workaround [1], this fix is adding the ISB instruction back in. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com> Change-Id: I74eac7f6ad38991c36d423ad6aa44558033ad388
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- 02 Jul, 2019 10 commits
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lauwal01 authored
Replacing ISB instructions in each Errata workaround with a single ISB instruction before the RET in the reset handler. Change-Id: I08afabc5b98986a6fe81664cd13822b36cab786f Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1275112 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the implementation defined CPUACTLR_EL1 system register, which delays instruction fetch after branch misprediction. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: If7fe55fe92e656fa6aea12327ab297f2e6119833 Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1262888 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the implementation defined CPUECTLR_EL1 system register, which disables the MMU hardware prefetcher. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: Ib733d748e32a7ea6a2783f3d5a9c5e13eee01105 Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1262606 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the implementation defined CPUACTLR_EL1 system register, which delays instruction fetch after branch misprediction. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: Idd980e9d5310232d38f0ce272862e1fb0f02ce9a Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1257314 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the implementation defined CPUACTLR3_EL1 system register, which prevents parallel execution of divide and square root instructions. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: I54f0f40ff9043efee40d51e796b92ed85b394cbb Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1220197 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set two bits in the implementation defined CPUECTLR_EL1 system register, which disables write streaming to the L2. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: I9c3373f1b6d67d21ee71b2b80aec5e96826818e8 Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1207823 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the implementation defined CPUACTLR2_EL1 system register. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: Ia932337821f1ef0d644db3612480462a8d924d21 Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1165347 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set two bits in the implementation defined CPUACTLR2_EL1 system register. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: I163d0ea00578245c1323d2340314cdc3088c450d Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1130799 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the implementation defined CPUACTLR2_EL1 system register. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: I252bc45f9733443ba0503fefe62f50fdea61da6d Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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lauwal01 authored
Neoverse N1 erratum 1073348 is a Cat B erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the implementation defined CPUACTLR_EL1 system register, which disables static prediction. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdoc-466751330-10325/index.html Change-Id: I674126c0af6e068eecb379a190bcf7c75dcbca8e Signed-off-by: Lauren Wehrmeister <lauren.wehrmeister@arm.com>
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- 11 Jun, 2019 1 commit
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Louis Mayencourt authored
Change-Id: Idd08914bcb945ad6aa0621e594c95df88ee8f9c8 Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
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- 06 Jun, 2019 1 commit
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Andre Przywara authored
Neoverse N1 erratum 1315703 is a Cat A (rare) erratum [1], present in older revisions of the Neoverse N1 processor core. The workaround is to set a bit in the implementation defined CPUACTLR2_EL1 system register, which will disable the load-bypass-store feature. [1] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.pjdocpjdoc-466751330-1032/index.html Change-Id: I5c708dbe0efa4daa0bcb6bd9622c5efe19c03af9 Signed-off-by: Andre Przywara <andre.przywara@arm.com>
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- 04 Jun, 2019 1 commit
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John Tsichritzis authored
Some cores support only AArch64 mode. In those cores, only a limited subset of the AArch32 system registers are implemented. Hence, if TF-A is supposed to run on AArch64-only cores, it must be compiled with CTX_INCLUDE_AARCH32_REGS=0. Currently, the default settings for compiling TF-A are with the AArch32 system registers included. So, if we compile TF-A the default way and attempt to run it on an AArch64-only core, we only get a runtime panic. Now a compile-time check has been added to ensure that this flag has the appropriate value when AArch64-only cores are included in the build. Change-Id: I298ec550037fafc9347baafb056926d149197d4c Signed-off-by: John Tsichritzis <john.tsichritzis@arm.com>
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- 14 May, 2019 1 commit
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Sami Mujawar authored
Examine the ID_AA64PFR1_EL1 bits 7:4 to see if speculative loads (SSBS) is implemented, before disabling speculative loads. Change-Id: I7607c45ed2889260d22a94f6fd9af804520acf67 Signed-off-by: Sami Mujawar <sami.mujawar@arm.com>
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- 03 May, 2019 1 commit
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John Tsichritzis authored
This patch fixes this issue: https://github.com/ARM-software/tf-issues/issues/660 The introduced changes are the following: 1) Some cores implement cache coherency maintenance operation on the hardware level. For those cores, such as - but not only - the DynamIQ cores, it is mandatory that TF-A is compiled with the HW_ASSISTED_COHERENCY flag. If not, the core behaviour at runtime is unpredictable. To prevent this, compile time checks have been added and compilation errors are generated, if needed. 2) To enable this change for FVP, a logical separation has been done for the core libraries. A system cannot contain cores of both groups, i.e. cores that manage coherency on hardware and cores that don't do it. As such, depending on the HW_ASSISTED_COHERENCY flag, FVP includes the libraries only of the relevant cores. 3) The neoverse_e1.S file has been added to the FVP sources. Change-Id: I787d15819b2add4ec0d238249e04bf0497dc12f3 Signed-off-by: John Tsichritzis <john.tsichritzis@arm.com>
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- 18 Apr, 2019 1 commit
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Louis Mayencourt authored
This patch forces all cacheable atomic instructions to be near, which improves performance in highly contended parallelized use-cases. Change-Id: I93fac62847f4af8d5eaaf3b52318c30893e947d3 Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
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- 14 Mar, 2019 1 commit
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John Tsichritzis authored
This patch applies the new MSR instruction to directly set the PSTATE.SSBS bit which controls speculative loads. This new instruction is available at Neoverse N1 core so it's utilised. Change-Id: Iee18a8b042c90fdb72d2b98f364dcfbb17510728 Signed-off-by: John Tsichritzis <john.tsichritzis@arm.com>
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- 19 Feb, 2019 2 commits
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John Tsichritzis authored
Change-Id: Ideb49011da35f39ff1959be6f5015fa212ca2b6b Signed-off-by: John Tsichritzis <john.tsichritzis@arm.com>
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John Tsichritzis authored
Change-Id: I0bb5aca9bb272332340b5baefc473a01f8a27896 Signed-off-by: John Tsichritzis <john.tsichritzis@arm.com>
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- 10 Sep, 2018 1 commit
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Soby Mathew authored
This patch fixes the name of the Cortex-ares errata function which was previously named `cortex_a72_errata_report` which was an error. Change-Id: Ia124df4628261021baa8d9a30308bc286d45712b Signed-off-by: Soby Mathew <soby.mathew@arm.com>
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- 08 Jun, 2018 3 commits
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Dimitris Papastamos authored
The workaround uses the instruction patching feature of the Ares cpu. Change-Id: I868fce0dc0e8e41853dcce311f01ee3867aabb59 Signed-off-by: Dimitris Papastamos <dimitris.papastamos@arm.com>
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Dimitris Papastamos authored
Change-Id: Ia170c12d3929a616ba80eb7645c301066641f5cc Signed-off-by: Dimitris Papastamos <dimitris.papastamos@arm.com>
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Isla Mitchell authored
Both Cortex-Ares and Cortex-A76 CPUs use the ARM DynamIQ Shared Unit (DSU). The power-down and power-up sequences are therefore mostly managed in hardware, and required software operations are simple. Change-Id: I3a9447b5bdbdbc5ed845b20f6564d086516fa161 Signed-off-by: Isla Mitchell <isla.mitchell@arm.com>
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- 12 Jul, 2017 1 commit
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Isla Mitchell authored
This fix modifies the order of system includes to meet the ARM TF coding standard. There are some exceptions in order to retain header groupings, minimise changes to imported headers, and where there are headers within the #if and #ifndef statements. Change-Id: I65085a142ba6a83792b26efb47df1329153f1624 Signed-off-by: Isla Mitchell <isla.mitchell@arm.com>
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- 01 Jun, 2017 1 commit
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David Wang authored
Both Cortex-A75 and Cortex-A55 CPUs use the ARM DynamIQ Shared Unit (DSU). The power-down and power-up sequences are therefore mostly managed in hardware, and required software operations are considerably simpler. Change-Id: I68b30e6e1ebe7c041d5e67f39c59f08575fc7ecc Co-authored-by: Sandrine Bailleux <sandrine.bailleux@arm.com> Signed-off-by: Jeenu Viswambharan <jeenu.viswambharan@arm.com>
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