.. _faq: ########################## Frequently Asked Questions ########################## .. contents:: Table of Contents ---- Abbreviations ************* :OP-TEE: Open Portable TEE :TA: Trusted Application :TEE: Trusted Execution Environment :TZASC: TrustZone Address Space Controller :TZPC: TrustZone Protection Controller ---- Architecture ************ Q: Which platforms/architectures are supported? =============================================== - The :ref:`platforms_supported` page lists all platforms and architectures currently supported in the official tree. Q: Are 32-bit as well as 64-bit support? ======================================== - Both 32- and 64-bit are fully supported for all OP-TEE components. Q: Does OP-TEE support mixed-mode, i.e., both AArch32 and AArch64 Trusted Applications on top of an AArch64 core? ================================================================================================================= - Yes! Q: What’s the maximum size for heap and stack? Can it be changed? ================================================================= - Yes, it can be changed. In the current setup (for vexpress for example), there are ``32MB DDR`` dedicated for OP-TEE. ``1MB`` for ``TEE RAM`` and ``1MB`` for ``PUB RAM``, this leaves ``30MB`` for Trusted Applications. In the Trusted Applications, you set ``TA_STACK_SIZE`` and ``TA_DATA_SIZE``. Typically, we set stack to ``2KB`` and data to ``32K``. But you are free to adjust those according to the amount of memory you have available. If you need them to be bigger than ``1MB`` then you also must adjust TA’s MMU L1 table accordingly, since default section mapping is 1MB. Q: What is the size of OP-TEE itself? ===================================== - As of 2016.01, optee_os is about ``244KB`` (release build). It is preferred to run :ref:`optee_os` entirely in SRAM, but if there is not enough room, DRAM can be used and protected with TZASC. We are also looking into the possibility of creating a ‘minimal’ OP-TEE, i.e. a limited OP-TEE usable even in a very memory constrained environment, by eliminating as many memory-hungry parts as possible. There is however no ETA for this at the moment. - You can check the memory usage by using the ``make mem_usage`` target in :ref:`optee_os`, for example: .. code-block:: bash $ make ... mem_usage # Which will output a file with the figures here: # out/arm/core/tee.mem_usage You will of course get different sizes depending on what compile time flags you have enabled when running `make mem_usage`. Q: Can NEON optimizations be done in OP-TEE? ============================================ - Yes (for additional information, please also see `Issue#953`_) Q: Can I use C++ libraries in OP-TEE? ===================================== - C++ libraries are currently not supported. Technically, it is possible but will require a fair amount of work to implement, especially more so if exceptions are required. There are currently no plans to do this. - See `Issue#2628`_ for related information. Q: Would using `malloc()` in OP-TEE give physically contiguous memory? ====================================================================== - ``malloc()`` in OP-TEE currently gives physically contiguous memory. It is not guaranteed as it is not mentioned anywhere in the documentation, but in practice the heap only has physically contiguous memory in the pool(s). The heap in OP-TEE is normally quite small, ~24KiB, and could be a bit fragmented. Q: Can I limit what CPUs / cores OP-TEE runs on? ================================================ - Currently it’s up to the kernel to decide which core it runs on, i.e, it will be the same core as the one initiating the SMC in Linux. Please also see `Issue#1194`_. Q: How is OP-TEE being scheduled? ================================= - OP-TEE does not have its own scheduler, instead it is being scheduled by Linux kernel. For more information, please see `Issue#1036` and `Issue#1183`_. ---- Board support ************* Q: How do I port OP-TEE to another platform? ============================================ - Start by reading the :ref:`porting_guidelines`. - See the :ref:`presentations` page. There might be some interesting information in the "LCU14-302 How To Port OP-TEE To Another Platform" deck and video. Beware that the presentation is more than five years old, so even though it is a good source, there might be parts that are not relevant any longer. - As a good example for - **Armv8-A** patch enabling OP-TEE support on a new device, please see the `ZynqMP port`_ that enabled support for running OP-TEE on `Xilinx UltraScale+ Zynq MPSoC`. Besides that there are similar patches for `Juno port`_, `Raspberry Pi3 port`_, `HiKey port`_. - **ARMv7-A**, please have a look at the `Freescale ls1021a port`_, another example would be the `TI DRA7xx port`_. ---- Building ******** Q: I got build errors running latest, why? ========================================== - What did you try to build? Only :ref:`optee_os`? A full OP-TEE developer setup using QEMU, HiKey, RPi3, Juno using repo? AOSP? OpenEmbedded? What we build on daily basis are the OP-TEE developer setups (see :ref:`optee_developer_setup`) , but other builds like AOSP and OpenEmbedded are builds that we try from time to time, but we have no CI/regression testing configured for those builds. - By running latest instead of stable also comes with a risk of getting build errors due to version and/or interdependency skew which can result in build error. Now, such issues most often affects running xtest and not the building. If you however clean all gits and do a ``repo sync -d``. Then we're almost 100% sure you will get back to a working state again, since as mentioned in next bullet, we build (and run xtest) on all QEMU on all patches sent to OP-TEE. - Every pull request in OP-TEE are tested on hardware (see :ref:`how_are_you_testing_optee`). Q: I got build errors running stable tag x.y.z, why? ==================================================== - Stable releases are quite well tested both in terms of building for all supported platforms and running xtest on all platforms, so if you cannot get that to build and run, then there is a great chance you have something wrong on your side. All platforms that has been tested on a stable release can be found in `CHANGELOG.md`_ file. Having that said, we do make mistakes on stable builds also from time to time. Q: I get `gcc XYZ` or `g++ XYZ` compiler error messages? ======================================================== - Most likely you're trying to build OP-TEE using the regular x86 compiler and not the using the Arm toolchain. Please install the :ref:`prerequisites` and make sure you have gotten and installed the Arm toolchains as described at the :ref:`toolchains` page. (for additional information, please see `Issue#846`_). Q: I found this build.git, what is that? ======================================== - :ref:`build` is a git that is used in conjunction with the :ref:`manifest` to create full OP-TEE developer builds. It contains helper makefiles that makes it easy to get OP-TEE up and running on the setups that are using repo. Q: When running `make` from build.git it fails to download the toolchains? ========================================================================== - We try to stay somewhat up to date with running recent ``GCC`` versions. But just like everywhere else on the net things moves around. In some cases like `Issue#1195`_, the URL was changed without us noticing it. If you find and fix such an issue, please send the fix as pull request and we will be happy to merge it. .. _faq_llvm_bti: Q: How can I build LLVM compiler-rt with BTI enabled ? ====================================================== - Download the llvm-12 sources either from the releases page or you can checkout the "release/12.x" from llvm's github. (12 to match your chosen clang version). - Make a build directory and cd into that. - Run this cmake command to configure a standalone build of compiler-rt. .. code-block:: bash cmake -G Ninja /compiler-rt/ -DCMAKE_BUILD_TYPE=Release \ -DLLVM_CONFIG_PATH=/llvm-config" \ -DCMAKE_CXX_FLAGS="-mbranch-protection=bti" \ -DCMAKE_C_FLAGS="-mbranch-protection=bti" \ -DCMAKE_ASM_FLAGS="-mbranch-protection=bti" \ -DCOMPILER_RT_BUILD_SANITIZERS=OFF \ -DCOMPILER_RT_BUILD_XRAY=OFF \ -DCOMPILER_RT_BUILD_LIBFUZZER=OFF \ -DCOMPILER_RT_BUILD_PROFILE=OFF \ -DCOMPILER_RT_BUILD_MEMPROF=OFF Replace the path to llvm-config with the path to the clang install you want to use to compile. What this does is enable BTI protection for c/cxx/assembly files (all the types in compiler-rt) and disable some parts of the build that you wouldn't need. If you need more components you can find cmake options for them in ``compiler-rt/CMakeLists.txt``. Once you've built that you will find the libraries in ``/lib/linux``. You can verify that each object in the builtins has the BTI marker by doing the following: .. code-block:: bash /build-llvm-aarch64/lib/linux$ mkdir tmp && cd tmp /build-llvm-aarch64/lib/linux/tmp$ cp ../libclang_rt.builtins-aarch64.a . /build-llvm-aarch64/lib/linux/tmp$ ar x libclang_rt.builtins-aarch64.a /build-llvm-aarch64/lib/linux/tmp$ rm libclang_rt.builtins-aarch64.a /build-llvm-aarch64/lib/linux/tmp$ for i in *.o; do echo "$i:" && readelf -a $i | grep -i bti ; done This should find a BTI line for every file. .. code-block:: bash $ for i in *.o; do echo "$i:" && readelf -a $i | grep -i bti ; done | wc -l 502 $ ls | wc -l 251 251 * 2 = 502 so all objects in the archive are bti compatible. How you take this set of libraries and integrate it into your overall build system is up to you. The major thing to note is that the name of the library does not change when you enable BTI protection .. _faq_gcc_bti: Q: How can I build GCC with BTI enabled? ======================================== - A GCC toolchain with BTI enabled can easily be built using Crosstool-NG: .. code-block:: bash $ git clone https://github.com/crosstool-ng/crosstool-ng $ cd crosstool-ng $ ./bootstrap && ./configure --enable-local && make $ ./ct-ng aarch64-unknown-linux-gnu $ cat >>.config <<_EOF_ CT_CC_GCC_EXTRA_CONFIG_ARRAY="--enable-standard-branch-protection" CT_CC_GCC_CORE_EXTRA_CONFIG_ARRAY="--enable-standard-branch-protection" _EOF_ $ ./ct-ng build.$(nproc) The above commands will install the new toolchain in ``~/x-tools/aarch64-unknown-linux-gnu``. You can then use this toolchain to build and run OP-TEE for :ref:`qemu_v8` with full BTI support by adding a few arguments to the ``make run`` command: .. code-block:: bash $ make CFG_CORE_BTI=y CFG_TA_BTI=y CFG_USER_TA_TARGETS=ta_arm64 \ AARCH64_CROSS_COMPILE=~/x-tools/aarch64-unknown-linux-gnu/bin/aarch64-linux-gnu- \ run .. _faq_try_optee: Q: What is the quickest and easiest way to try OP-TEE? ====================================================== - That would be running it on QEMU on a local PC. To do that you would need to: - Install the OP-TEE :ref:`prerequisites`. - Build for QEMU according to the instructions at :ref:`qemu_v7`. - And :ref:`optee_test_run_xtest`. - By summarizing the above, you would need to: .. code-block:: bash $ sudo apt-get install [pre-reqs] $ mkdir optee-qemu && cd optee-qemu $ repo init -u https://github.com/OP-TEE/manifest.git $ repo sync $ cd build $ make toolchains -j2 $ make run QEMU console: (qemu) c Normal world shell: # xtest ---- Certification and security reviews ********************************** Q: Will TrustedFirmware.org be involved in GlobalPlatform certification/qualification? ====================================================================================== - No, not as of now. Most often certification is performed using a certain software version and on a unique device. I.e., it is the combination software + hardware that gets certified. This is typically something that the SoC or OEM needs to do on their own. - But it is worth mentioning that since OP-TEE is coming from a proprietary TEE solution that was GlobalPlatform certified on some products in the past and we regularly have people from some member companies running the extended test suite from GlobalPlatform we know that the gap to become GlobalPlatform certified/qualified isn’t that big. .. _q_has_any_test_lab_been_testing_op-tee: Q: Has any test lab been testing OP-TEE? ======================================== - `Applus Laboratories`_ have done some side-channel attack testing and fault injection testing on OP-TEE using the :ref:`hikey` device. Their findings and fixes can be found at the `Security Advisories`_ page at optee.org. - Riscure_ did a mini-audit of OP-TEE which generated a couple of patches (see `PR#2745`). The `OP-TEE OS Security Advisories`_ page on Github will be updated with more information regarding that in the future. Q: Where are listed security vulnerabilities addressed in OP-TEE ================================================================ - Please see `OP-TEE OS Security Advisories`_ page. Q: Have there been any code audit / code review done? ===================================================== - Full audit? No! But in the past Linaro have been collaborating with Riscure trying to identify and fix potential security issues. There has also been some companies that have done audits internally and they have then shared the result with us and where relevant, we have created patches resolving the issues reported to us (see :ref:`q_has_any_test_lab_been_testing_op-tee`). - Code review, yes! Every single patch going into OP-TEE has been reviewed in a pull request on GitHub. We more or less have a requirement that every patch going into OP-TEE shall at least have one "Reviewed-by" tag in the patch. - Third party / test lab code review, no! Again some companies have reviewed internally and shared the result with us, but other than that no (see related :ref:`q_has_any_test_lab_been_testing_op-tee`) Contribution ************ Q: How do I contribute? ======================= - Please see the :ref:`contribute` page. Q: Where can I get help? ======================== - Please see the :ref:`contact` page. Q: I'm new to OP-TEE but I would like to help out, what can I do? ================================================================= - We always need help with code reviews, feel free to review any of the open `OP-TEE OS Pull Requests`_. Please also note that there could be open pull request in the other :ref:`optee_gits` that needs reviews too. - We always need help answering all the questions asked at `OP-TEE OS Issues`_. - If you want to try to solve a bug, please have a look at the `OP-TEE OS Bugs`_ or the `OP-TEE OS Enhancements`_. - Documentation tends to become obsolete if not maintained on regular basis. We try to do our best, but we're not perfect. Please have a look at :ref:`optee_docs` and try to update where you find gaps. - Enable `repo` for the device in :ref:`manifest` and :ref:`build` (and also :ref:`platforms_supported`) currently not using repo. - If you would like to implement a bigger feature, please reach out to us (see :ref:`contact`) and we can discuss what is most relevant to look into for the moment. If you already have an idea, feel free to send the proposal to us. ---- Interfaces ********** Q: Which API’s have been implemented in OP-TEE? =============================================== - GlobalPlatform (see :ref:`globalplatform_api` for more details). - GlobalPlatform's TEE Client API v1.0 (Errata and Precisions 2.0) specification - GlobalPlatform's TEE Internal Core API v1.3.1 specification. - GlobalPlatform's Secure Elements v1.0 (**now deprecated**, see ``git log``). - GlobalPlatform's Socket API v1.0 (TCP and UDP, but not TLS). - AOSP Keymaster_ (v3) and AOSP Gatekeeper_ (see :ref:`aosp` for more details). - `Android Verified Boot 2.0`_ (AVB 2.0) Q: Which Linux kernel version supports ? ============================================================= - The OP-TEE Linux driver is maintained in the official Linux tree at `kernel.org`_ under `drivers/tee`. This is normally where you find the latest code. That being said, some platforms need minor customizations, such as device tree updates, in order to be used in the OP-TEE developer builds (:ref:`manifest` files). That is why the `linaro-swg kernel`_ branch ``optee`` is used in the manifest files. It is rebased onto upstream on a regular basis. - Older kernels may lack support for newer OP-TEE features. In order to assess in which kernel version some commit has been introduced, you may use the following shell command: .. code-block:: bash $ cd linux $ git log --no-merges --oneline drivers/tee | \ while read hash sub; do \ name=$(git name-rev --tags --name-only $hash | sed 's/\([^~]*\)~.*/[\1]/'); \ printf "%-20s %s %s\n" "$name" "$hash" "$sub"; \ done The output looks like this: .. code-block:: text [v5.12-rc4] 6417f03132a6 module: remove never implemented MODULE_SUPPORTED_DEVICE [v5.12-rc1-dontuse] 67bc80975279 optee: simplify i2c access [v5.12-rc1-dontuse] 958567600517 tee: optee: remove need_resched() before cond_resched() [v5.12-rc1-dontuse] 617d8e8b347e optee: sync OP-TEE headers [v5.12-rc1-dontuse] bed13b5fc4f3 tee: optee: fix 'physical' typos [v5.12-rc1-dontuse] fda90b29e271 drivers: optee: use flexible-array member instead of zero-length array [v5.11-rc6] dcb3b06d9c34 tee: optee: replace might_sleep with cond_resched [v5.10-rc6] 853735e40424 optee: add writeback to valid memory type [v5.11-rc1] a24d22b225ce crypto: sha - split sha.h into sha1.h and sha2.h [v5.10-rc5] be353be27874 tee: amdtee: synchronize access to shm list ... ---- Hardware and peripherals ************************ Q: Can I use my own hardware IP for crypto acceleration? ======================================================== - Yes, OP-TEE has a Crypto Abstraction Layer (see :ref:`cryptographic_implementation` that was designed mainly to make it easy to add support for hardware crypto acceleration. There you will find information about the abstraction layer itself and what you need to do to be able to support new software/hardware “drivers” in OP-TEE. ---- License ******* Q: Under what license is OP-TEE released? ========================================= - The software is mostly provided under the `BSD 2-Clause`_ license. - The TEE kernel driver is released under GPLv2 for obvious reasons. - xtest (:ref:`optee_test`) uses BSD 2-Clause for code running in secure world (Trusted Applications etc) and GPLv2 for code running in normal world (client code). Q: GlobalPlatform click-through license ======================================= - Since OP-TEE is a GlobalPlatform based TEE which implements the APIs as specified by GlobalPlatform one has to accept, the click-through license which is presented when trying to download the :ref:`globalplatform_api` specifications before start using OP-TEE. Q: I've modified OP-TEE by using code with non BSD 2-Clause license, will you accept it? ======================================================================================== - That is something we deal with case by case. But as a general answer, if it does not contaminate the BSD 2-Clause license we will accept it. Reach out to us (see :ref:`contact`) and we will take it from there. ---- Promotion ********* Q: I want to get my company logo on op-tee.org, how? ==================================================== - If your company has done significant contributions to OP-TEE, then please :ref:`contact` us and we will do our best to include your company. Pay attention to that we will review this on regular basis and inactive supporting companies might be removed in the future again. ---- Security vulnerabilities ************************ Q: I have a found a security flaw in OP-TEE, how can I disclose it with you? ============================================================================ - Please see the :ref:`Contact` page. ---- Source code *********** Q: Where is the source code? ============================ - It is located on GitHub under the project `OP-TEE`_ and `linaro-swg`_. Q: Where do I download the test suite called xtest? =================================================== - All the source code for that can be found in the git called :ref:`optee_test`. - The :ref:`globalplatform_tests` can be purchased separately. Q: Where is the Linux kernel TEE driver? ======================================== - You can find both the generic TEE framework including the OP-TEE driver included in the official Linux kernel project since v4.12. Having that said, we "buffer up" pending patches on a our :ref:`linux_kernel` branch. I.e., that is where we keep new features being developed for OP-TEE. In the long run we aim to completely stop using our own branch and just send all patches to the official Linux kernel tree directly. But as of now we cannot do that. ---- Testing ******* .. _how_are_you_testing_optee: Q: How are you testing OP-TEE? ============================== - There is a test suite called xtest that tests the complete TEE-solution to ensure that the communication between all architectural layers is working as it should. The test suite also tests the majority of the GlobalPlatform TEE Internal Core API. It has close to 50,000 and ever increasing test cases, and is also extendable to include the official GlobalPlatform test suite (see :ref:`globalplatform_tests`). - Every pull request in OP-TEE are built for a multitude of different platforms automatically using `Azure DevOps pipelines`_ and IBART_. Please have a look there to see whether it failed building on the platform you're using before submitting any issue about build errors. - For more information see :ref:`optee_test`. ---- Trusted Applications ******************** Q: How do I write a Trusted Application (TA)? ============================================= - Have a look at the :ref:`build_trusted_applications` page as well as the :ref:`optee_examples` page. Those provides guidelines and examples on how to implement basic Trusted Applications. - If you want to see more advanced uses cases of Trusted Applications, then we encourage that you have a look at the Trusted Applications :ref:`optee_test`. Q: How do I link a library into a Trusted Application? ====================================================== - See the example in :ref:`build_trusted_applications_submk`. - Also see `Issue#280`_, `Issue#601`_, `Issue#901`_, `Issue#1003`_. Q: Where should I put my compiled Trusted Application on the device? ==================================================================== - ``/lib/optee_armtz``, that is the default location where tee-supplicant will look for Trusted Applications. .. _what_is_a_pseudo_ta_and_how_do_i_write_one: Q: What is a Pseudo TA and how do I write one? ============================================== - A Pseudo TA is an OP-TEE firmware service offered through the generic API used to invoke Trusted Applications. Pseudo TA interface and services all runs in TEE kernel / core context. I.e., it will have access to the same functions, memory and hardware etc as the TEE core itself. If we're talking ARMv8-A it is running in ``S-EL1``. Q: Are Pseudo **user space** TAs supported? =========================================== - No! Q: Can a static TA Open/Invoke dynamic TA? ========================================== - Yes, for a longer discussion see `Issue#967`_, `Issue#1085`_, `Issue#1132`_. Q: How can I extend the GlobalPlatform Internal Core API? ========================================================= - You may develop your own “Pseudo TA”, which is part of the core (see :ref:`what_is_a_pseudo_ta_and_how_do_i_write_one` for more information about the Pseudo TA). Q: How are Trusted Applications verified? ========================================= - Please see the section :ref:`core_pub_priv_keypair` in the :ref:`porting_guidelines`. - Alternatively one can also build a Trusted Application and embed its raw binary content into the OP-TEE firmware binary. At runtime, if invoked, the Trusted Application will be loaded from the OP-TEE firmware image instead of being fetched from the normal world and authenticated in the secure world (see :ref:`early_ta` for more information). Q: Is multi-core TA supported? ============================== - Yes, you can have two or more TAs running simultaneously. Please see also `Issue#1194`_. Q: Is multi-threading supported in a TA? ======================================== - No, there is no such concept as ``pthreads`` or similar. I.e, you cannot spawn thread from a TA. If you need to run tasks in parallel, then you should probably look into running two TAs or more simultaneously and then let them communicate with each other using the ``TA2TA`` interface. Q: How can I use or call OP-TEE from native Android (apk) applications? ======================================================================= - Use the `Java Native Interface`_ (JNI). - First get familiar with `sample_hellojni.html`_ and make sure you can run the sample. After that, replace the C-side Implementation with for example :ref:`hello_world` or one of the other examples in :ref:`optee_examples`. .. note:: Note that :ref:`hello_world` and other binaries in optee_examples are built as executables, and have to be modified to be built as a .so shared library instead so that it can be loaded by the Java-side Implementation. - Note that ``*.apk`` apps by default have no access to the TEE driver. See `Issue#903`_ for details. The workaround is to disable SELinux before launching any ``*.apk`` app that calls into OP-TEE. The solution is to create/write SELinux domains/rules to allow any required access, but since this is not a TEE-related issue, it is left as an exercise for the users. - For a reference implementation contributed by one of our community users, see `optee_android_hello_world_example`_. Q: I've heard that there is a Widevine and PlayReady TA, how do I get access? ============================================================================= - TrustedFirmware have no such implementation, but Linaro do have reference implementations for that that they share with their members who have signed the WMLA and NDA/MLA with Google and Microsoft. So the advice is to reach out to Linaro if you have questions about that. .. _Issue#280: https://github.com/OP-TEE/optee_os/issues/280 .. _Issue#601: https://github.com/OP-TEE/optee_os/issues/601 .. _Issue#846: https://github.com/OP-TEE/optee_os/issues/846 .. _Issue#901: https://github.com/OP-TEE/optee_os/issues/901 .. _Issue#903: https://github.com/OP-TEE/optee_os/issues/903 .. _Issue#953: https://github.com/OP-TEE/optee_os/issues/953 .. _Issue#967: https://github.com/OP-TEE/optee_os/issues/967 .. _Issue#1003: https://github.com/OP-TEE/optee_os/issues/1003 .. _Issue#1036: https://github.com/OP-TEE/optee_os/issues/1036 .. _Issue#1085: https://github.com/OP-TEE/optee_os/issues/1085 .. _Issue#1132: https://github.com/OP-TEE/optee_os/issues/1132 .. _Issue#1183: https://github.com/OP-TEE/optee_os/issues/1183 .. _Issue#1194: https://github.com/OP-TEE/optee_os/issues/1194 .. _Issue#1195: https://github.com/OP-TEE/optee_os/issues/1195 .. _Issue#2628: https://github.com/OP-TEE/optee_os/issues/2628 .. _PR#2745: https://github.com/OP-TEE/optee_os/pull/2745 .. _Android Verified Boot 2.0: https://android.googlesource.com/platform/external/avb/+/master/README.md .. _Applus Laboratories: http://www.appluslaboratories.com/en/ .. _Azure DevOps pipelines: https://dev.azure.com/OPTEE/optee_os .. _BSD 2-Clause: http://opensource.org/licenses/BSD-2-Clause .. _CHANGELOG.md: https://github.com/OP-TEE/optee_os/blob/master/CHANGELOG.md .. _Freescale ls1021a port: https://github.com/OP-TEE/optee_os/commit/85278139a8f914dddb36808861c86a472ecb0271 .. _Gatekeeper: https://source.android.com/security/authentication/gatekeeper .. _HiKey port: https://github.com/OP-TEE/optee_os/commit/d70e78c49fc9c63b2d37c596b7ad3cbd38f8e574 .. _IBART: https://optee.mooo.com:5000 .. _Java Native Interface: http://docs.oracle.com/javase/7/docs/technotes/guides/jni/spec/jniTOC.html .. _Juno port: https://github.com/OP-TEE/optee_os/commit/90e7497e0480892e2c262cec64e6c47242d4db7f .. _kernel.org: https://kernel.org/ .. _Keymaster: https://source.android.com/security/keystore .. _linaro-swg: https://github.com/linaro-swg .. _linaro-swg kernel: https://github.com/linaro-swg/linux .. _OP-TEE: https://github.com/OP-TEE .. _OP-TEE OS Bugs: https://github.com/OP-TEE/optee_os/labels/bug .. _OP-TEE OS Enhancements: https://github.com/OP-TEE/optee_os/labels/enhancement .. _OP-TEE OS Issues: https://github.com/OP-TEE/optee_os/issues .. _OP-TEE OS Pull Requests: https://github.com/OP-TEE/optee_os/pulls .. _optee_android_hello_world_example: https://github.com/rafagameiro/optee_android_hello_world_example .. _Raspberry Pi3 port: https://github.com/OP-TEE/optee_os/commit/66d9cacf37e6bd4b0d86e7b32e4e5edefe8decfd .. _Riscure: https://www.riscure.com .. _sample_hellojni.html: https://developer.android.com/ndk/samples/sample_hellojni.html .. _Security Advisories: https://www.op-tee.org/security-advisories/ .. _OP-TEE OS Security Advisories: https://github.com/OP-TEE/optee_os/security/advisories .. _TI DRA7xx port: https://github.com/OP-TEE/optee_os/commit/9b5060cd92a19b4d114a1ce8a338b18424974037 .. _ZynqMP port: https://github.com/OP-TEE/optee_os/commit/dc57f5a0e8f3b502fc958bc64a5ec0b0f46ef11a