- 31 Mar, 2016 4 commits
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Vikram Kanigiri authored
This patch adds support to program TrustZone protection on ARM platforms that implement a DMC-500. arm_dmc_500.c has been added which implements the arm_dmc_tzc_setup() function. This function relies on constants related to TZC programming that are exported by each platform to program TrustZone protection using the DMC-500 TrustZone controller driver. This function should be called from plat_arm_security_setup() which is implemented by each platform. Change-Id: I5400bdee9e4b29155fd11296a40693d512312f29
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Soby Mathew authored
This patch migrates ARM Standard platforms to the refactored TZC driver. Change-Id: I2a2f60b645f73e14d8f416740c4551cec87cb1fb
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Juan Castillo authored
This patch adds support for non-volatile counter authentication to the Authentication Module. This method consists of matching the counter values provided in the certificates with the ones stored in the platform. If the value from the certificate is lower than the platform, the boot process is aborted. This mechanism protects the system against rollback. The TBBR CoT has been updated to include this method as part of the authentication process. Two counters are used: one for the trusted world images and another for the non trusted world images. ** NEW PLATFORM APIs (mandatory when TBB is enabled) ** int plat_get_nv_ctr(void *cookie, unsigned int *nv_ctr); This API returns the non-volatile counter value stored in the platform. The cookie in the first argument may be used to select the counter in case the platform provides more than one (i.e. TBSA compliant platforms must provide trusted and non-trusted counters). This cookie is specified in the CoT. int plat_set_nv_ctr(void *cookie, unsigned int nv_ctr); This API sets a new counter value. The cookie may be used to select the counter to be updated. An implementation of these new APIs for ARM platforms is also provided. The values are obtained from the Trusted Non-Volatile Counters peripheral. The cookie is used to pass the extension OID. This OID may be interpreted by the platform to know which counter must return. On Juno, The trusted and non-trusted counter values have been tied to 31 and 223, respectively, and cannot be modified. ** IMPORTANT ** THIS PATCH BREAKS THE BUILD WHEN TRUSTED_BOARD_BOOT IS ENABLED. THE NEW PLATFORM APIs INTRODUCED IN THIS PATCH MUST BE IMPLEMENTED IN ORDER TO SUCCESSFULLY BUILD TF. Change-Id: Ic943b76b25f2a37f490eaaab6d87b4a8b3cbc89a
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David Wang authored
This patch adds an option to the ARM common platforms to load BL31 in the TZC secured DRAM instead of the default secure SRAM. To enable this feature, set `ARM_BL31_IN_DRAM` to 1 in build options. If TSP is present, then setting this option also sets the TSP location to DRAM and ignores the `ARM_TSP_RAM_LOCATION` build flag. To use this feature, BL2 platform code must map in the DRAM used by BL31. The macro ARM_MAP_BL31_SEC_DRAM is provided for this purpose. Currently, only the FVP BL2 platform code maps in this DRAM. Change-Id: If5f7cc9deb569cfe68353a174d4caa48acd78d67
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- 22 Feb, 2016 2 commits
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Yatharth Kochar authored
This patch fixes inconsistencies in bl1_tbbr_image_descs[] and miscellaneous fixes in Firmware Update code. Following are the changes: * As part of the original FWU changes, a `copied_size` field was added to `image_info_t`. This was a subtle binary compatibility break because it changed the size of the `bl31_params_t` struct, which could cause problems if somebody used different versions of BL2 or BL31, one with the old `image_info_t` and one with the new version. This patch put the `copied_size` within the `image_desc_t`. * EXECUTABLE flag is now stored in `ep_info.h.attr` in place of `image_info.h.attr`, associating it to an entrypoint. * The `image_info.image_base` is only relevant for secure images that are copied from non-secure memory into secure memory. This patch removes initializing `image_base` for non secure images in the bl1_tbbr_image_descs[]. * A new macro `SET_STATIC_PARAM_HEAD` is added for populating bl1_tbbr_image_descs[].ep_info/image_info.h members statically. The version, image_type and image attributes are now populated using this new macro. * Added PLAT_ARM_NVM_BASE and PLAT_ARM_NVM_SIZE to avoid direct usage of V2M_FLASH0_XXX in plat/arm/common/arm_bl1_fwu.c. * Refactoring of code/macros related to SECURE and EXECUTABLE flags. NOTE: PLATFORM PORTS THAT RELY ON THE SIZE OF `image_info_t` OR USE the "EXECUTABLE" BIT WITHIN `image_info_t.h.attr` OR USE THEIR OWN `image_desc_t` ARRAY IN BL1, MAY BE BROKEN BY THIS CHANGE. THIS IS CONSIDERED UNLIKELY. Change-Id: Id4e5989af7bf0ed263d19d3751939da1169b561d
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Vikram Kanigiri authored
`board_arm_def.h` contains multiple definitions of `PLAT_ARM_MMAP_ENTRIES` and `MAX_XLAT_TABLES` that are optimised for memory usage depending upon the chosen build configuration. To ease maintenance of these constants, this patch replaces their multiple definitions with a single set of definitions that will work on all ARM platforms. Platforms can override the defaults with optimal values by enabling the `ARM_BOARD_OPTIMISE_MMAP` build option. An example has been provided in the Juno ADP port. Additionally, `PLAT_ARM_MMAP_ENTRIES` is increased by one to accomodate future ARM platforms. Change-Id: I5ba6490fdd1e118cc9cc2d988ad7e9c38492b6f0
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- 19 Feb, 2016 1 commit
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Soby Mathew authored
The common topology description helper funtions and macros for ARM Standard platforms assumed a dual cluster system. This is not flexible enough to scale to multi cluster platforms. This patch does the following changes for more flexibility in defining topology: 1. The `plat_get_power_domain_tree_desc()` definition is moved from `arm_topology.c` to platform specific files, that is `fvp_topology.c` and `juno_topology.c`. Similarly the common definition of the porting macro `PLATFORM_CORE_COUNT` in `arm_def.h` is moved to platform specific `platform_def.h` header. 2. The ARM common layer porting macros which were dual cluster specific are now removed and a new macro PLAT_ARM_CLUSTER_COUNT is introduced which must be defined by each ARM standard platform. 3. A new mandatory ARM common layer porting API `plat_arm_get_cluster_core_count()` is introduced to enable the common implementation of `arm_check_mpidr()` to validate MPIDR. 4. For the FVP platforms, a new build option `FVP_NUM_CLUSTERS` has been introduced which allows the user to specify the cluster count to be used to build the topology tree within Trusted Firmare. This enables Trusted Firmware to be built for multi cluster FVP models. Change-Id: Ie7a2e38e5661fe2fdb2c8fdf5641d2b2614c2b6b
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- 18 Feb, 2016 1 commit
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Juan Castillo authored
The shared memory region on ARM platforms contains the mailboxes and, on Juno, the payload area for communication with the SCP. This shared memory may be configured as normal memory or device memory at build time by setting the platform flag 'PLAT_ARM_SHARED_RAM_CACHED' (on Juno, the value of this flag is defined by 'MHU_PAYLOAD_CACHED'). When set as normal memory, the platform port performs the corresponding cache maintenance operations. From a functional point of view, this is the equivalent of setting the shared memory as device memory, so there is no need to maintain both options. This patch removes the option to specify the shared memory as normal memory on ARM platforms. Shared memory is always treated as device memory. Cache maintenance operations are no longer needed and have been replaced by data memory barriers to guarantee that payload and MHU are accessed in the right order. Change-Id: I7f958621d6a536dd4f0fa8768385eedc4295e79f
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- 16 Feb, 2016 2 commits
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Vikram Kanigiri authored
ARM Trusted Firmware supports 2 different interconnect peripheral drivers: CCI and CCN. ARM platforms are implemented using either of the interconnect peripherals. This patch adds a layer of abstraction to help ARM platform ports to choose the right interconnect driver and corresponding platform support. This is as described below: 1. A set of ARM common functions have been implemented to initialise an interconnect and for entering/exiting a cluster from coherency. These functions are prefixed as "plat_arm_interconnect_". Weak definitions of these functions have been provided for each type of driver. 2.`plat_print_interconnect_regs` macro used for printing CCI registers is moved from a common arm_macros.S to cci_macros.S. 3. The `ARM_CONFIG_HAS_CCI` flag used in `arm_config_flags` structure is renamed to `ARM_CONFIG_HAS_INTERCONNECT`. Change-Id: I02f31184fbf79b784175892d5ce1161b65a0066c
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Vikram Kanigiri authored
Current code mandates loading of SCP_BL2/SCP_BL2U images for all CSS platforms. On future ARM CSS platforms, the Application Processor (AP) might not need to load these images. So, these items can be removed from the FIP on those platforms. BL2 tries to load SCP_BL2/SCP_BL2U images if their base addresses are defined causing boot error if the images are not found in FIP. This change adds a make flag `CSS_LOAD_SCP_IMAGES` which if set to `1` does: 1. Adds SCP_BL2, SCP_BL2U images to FIP. 2. Defines the base addresses of these images so that AP loads them. And vice-versa if it is set to `0`. The default value is set to `1`. Change-Id: I5abfe22d5dc1e9d80d7809acefc87b42a462204a
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- 15 Feb, 2016 2 commits
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Vikram Kanigiri authored
Current code assumes `SCP_COM_SHARED_MEM_BASE` as the base address for BOM/SCPI protocol between AP<->SCP on all CSS platforms. To cater for future ARM platforms this is made platform specific. Similarly, the bit shifts of `SCP_BOOT_CONFIG_ADDR` are also made platform specific. Change-Id: Ie8866c167abf0229a37b3c72576917f085c142e8
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Vikram Kanigiri authored
Functions to configure the MMU in S-EL1 and EL3 on ARM platforms expect each platform to export its memory map in the `plat_arm_mmap` data structure. This approach does not scale well in case the memory map cannot be determined until runtime. To cater for this possibility, this patch introduces the plat_arm_get_mmap() API. It returns a reference to the `plat_arm_mmap` by default but can be overridden by a platform if required. Change-Id: Idae6ad8fdf40cdddcd8b992abc188455fa047c74
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- 11 Feb, 2016 2 commits
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Vikram Kanigiri authored
Each ARM Compute Subsystem based platform implements a System Security Control (SSC) Registers Unit. The SSC_VERSION register inside it carries information to identify the platform. This enables ARM Trusted Firmware to compile in support for multiple ARM platforms and choose one at runtime. This patch adds macros to enable access to this register. Each platform is expected to export its PART_NUMBER separately. Additionally, it also adds juno part number. Change-Id: I2b1d5f5b65a9c7b76c6f64480cc7cf0aef019422
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Vikram Kanigiri authored
This patch moves the definition of some macros used only on ARM platforms from common headers to platform specific headers. It also forces all ARM standard platforms to have distinct definitions (even if they are usually the same). 1. `PLAT_ARM_TZC_BASE` and `PLAT_ARM_NSTIMER_FRAME_ID` have been moved from `css_def.h` to `platform_def.h`. 2. `MHU_BASE` used in CSS platforms is moved from common css_def.h to platform specific header `platform_def.h` on Juno and renamed as `PLAT_ARM_MHU_BASE`. 3. To cater for different sizes of BL images, new macros like `PLAT_ARM_MAX_BL31_SIZE` have been created for each BL image. All ARM platforms need to define them for each image. Change-Id: I9255448bddfad734b387922aa9e68d2117338c3f
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- 01 Feb, 2016 1 commit
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Soby Mathew authored
The debug prints used to debug translation table setup in xlat_tables.c used the `printf()` standard library function instead of the stack optimized `tf_printf()` API. DEBUG_XLAT_TABLE option was used to enable debug logs within xlat_tables.c and it configured a much larger stack size for the platform in case it was enabled. This patch modifies these debug prints within xlat_tables.c to use tf_printf() and modifies the format specifiers to be compatible with tf_printf(). The debug prints are now enabled if the VERBOSE prints are enabled in Trusted Firmware via LOG_LEVEL build option. The much larger stack size definition when DEBUG_XLAT_TABLE is defined is no longer required and the platform ports are modified to remove this stack size definition. Change-Id: I2f7d77ea12a04b827fa15e2adc3125b1175e4c23
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- 14 Dec, 2015 3 commits
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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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Juan Castillo authored
This patch replaces all references to the SCP Firmware (BL0, BL30, BL3-0, bl30) with the image terminology detailed in the TF wiki (https://github.com/ARM-software/arm-trusted-firmware/wiki): BL0 --> SCP_BL1 BL30, BL3-0 --> SCP_BL2 bl30 --> scp_bl2 This change affects code, documentation, build system, tools and platform ports that load SCP firmware. ARM plaforms have been updated to the new porting API. IMPORTANT: build option to specify the SCP FW image has changed: BL30 --> SCP_BL2 IMPORTANT: This patch breaks compatibility for platforms that use BL2 to load SCP firmware. Affected platforms must be updated as follows: BL30_IMAGE_ID --> SCP_BL2_IMAGE_ID BL30_BASE --> SCP_BL2_BASE bl2_plat_get_bl30_meminfo() --> bl2_plat_get_scp_bl2_meminfo() bl2_plat_handle_bl30() --> bl2_plat_handle_scp_bl2() Change-Id: I24c4c1a4f0e4b9f17c9e4929da815c4069549e58
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Juan Castillo authored
This patch applies the TBBR naming convention to the certificates and the corresponding extensions defined by the CoT: * Certificate UUID names * Certificate identifier names * OID names Changes apply to: * Generic code (variables and defines) * The default certificate identifiers provided in the generic code * Build system * ARM platforms port * cert_create tool internal definitions * fip_create and cert_create tools command line options * Documentation IMPORTANT: this change breaks the compatibility with platforms that use TBBR. The platform will need to adapt the identifiers and OIDs to the TBBR naming convention introduced by this patch: Certificate UUIDs: UUID_TRUSTED_BOOT_FIRMWARE_BL2_CERT --> UUID_TRUSTED_BOOT_FW_CERT UUID_SCP_FIRMWARE_BL30_KEY_CERT --> UUID_SCP_FW_KEY_CERT UUID_SCP_FIRMWARE_BL30_CERT --> UUID_SCP_FW_CONTENT_CERT UUID_EL3_RUNTIME_FIRMWARE_BL31_KEY_CERT --> UUID_SOC_FW_KEY_CERT UUID_EL3_RUNTIME_FIRMWARE_BL31_CERT --> UUID_SOC_FW_CONTENT_CERT UUID_SECURE_PAYLOAD_BL32_KEY_CERT --> UUID_TRUSTED_OS_FW_KEY_CERT UUID_SECURE_PAYLOAD_BL32_CERT --> UUID_TRUSTED_OS_FW_CONTENT_CERT UUID_NON_TRUSTED_FIRMWARE_BL33_KEY_CERT --> UUID_NON_TRUSTED_FW_KEY_CERT UUID_NON_TRUSTED_FIRMWARE_BL33_CERT --> UUID_NON_TRUSTED_FW_CONTENT_CERT Certificate identifiers: BL2_CERT_ID --> TRUSTED_BOOT_FW_CERT_ID BL30_KEY_CERT_ID --> SCP_FW_KEY_CERT_ID BL30_CERT_ID --> SCP_FW_CONTENT_CERT_ID BL31_KEY_CERT_ID --> SOC_FW_KEY_CERT_ID BL31_CERT_ID --> SOC_FW_CONTENT_CERT_ID BL32_KEY_CERT_ID --> TRUSTED_OS_FW_KEY_CERT_ID BL32_CERT_ID --> TRUSTED_OS_FW_CONTENT_CERT_ID BL33_KEY_CERT_ID --> NON_TRUSTED_FW_KEY_CERT_ID BL33_CERT_ID --> NON_TRUSTED_FW_CONTENT_CERT_ID OIDs: TZ_FW_NVCOUNTER_OID --> TRUSTED_FW_NVCOUNTER_OID NTZ_FW_NVCOUNTER_OID --> NON_TRUSTED_FW_NVCOUNTER_OID BL2_HASH_OID --> TRUSTED_BOOT_FW_HASH_OID TZ_WORLD_PK_OID --> TRUSTED_WORLD_PK_OID NTZ_WORLD_PK_OID --> NON_TRUSTED_WORLD_PK_OID BL30_CONTENT_CERT_PK_OID --> SCP_FW_CONTENT_CERT_PK_OID BL30_HASH_OID --> SCP_FW_HASH_OID BL31_CONTENT_CERT_PK_OID --> SOC_FW_CONTENT_CERT_PK_OID BL31_HASH_OID --> SOC_AP_FW_HASH_OID BL32_CONTENT_CERT_PK_OID --> TRUSTED_OS_FW_CONTENT_CERT_PK_OID BL32_HASH_OID --> TRUSTED_OS_FW_HASH_OID BL33_CONTENT_CERT_PK_OID --> NON_TRUSTED_FW_CONTENT_CERT_PK_OID BL33_HASH_OID --> NON_TRUSTED_WORLD_BOOTLOADER_HASH_OID BL2U_HASH_OID --> AP_FWU_CFG_HASH_OID SCP_BL2U_HASH_OID --> SCP_FWU_CFG_HASH_OID NS_BL2U_HASH_OID --> FWU_HASH_OID Change-Id: I1e047ae046299ca913911c39ac3a6e123bd41079
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- 09 Dec, 2015 5 commits
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Yatharth Kochar authored
This patch adds support for Firmware update in BL2U for ARM platforms such that TZC initialization is performed on all ARM platforms and (optionally) transfer of SCP_BL2U image on ARM CSS platforms. BL2U specific functions are added to handle early_platform and plat_arch setup. The MMU is configured to map in the BL2U code/data area and other required memory. Change-Id: I57863295a608cc06e6cbf078b7ce34cbd9733e4f
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Yatharth Kochar authored
This patch adds Firmware Update support for ARM platforms. New files arm_bl1_fwu.c and juno_bl1_setup.c were added to provide platform specific Firmware update code. BL1 now includes mmap entry for `ARM_MAP_NS_DRAM1` to map DRAM for authenticating NS_BL2U image(For both FVP and JUNO platform). Change-Id: Ie116cd83f5dc00aa53d904c2f1beb23d58926555
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Soby Mathew authored
This patch overrides the default weak definition of `bl31_plat_runtime_setup()` for ARM Standard platforms to specify a BL31 runtime console. ARM Standard platforms are now expected to define `PLAT_ARM_BL31_RUN_UART_BASE` and `PLAT_ARM_BL31_RUN_UART_CLK_IN_HZ` macros which is required by `arm_bl31_plat_runtime_setup()` to initialize the runtime console. The system suspend resume helper `arm_system_pwr_domain_resume()` is fixed to initialize the runtime console rather than the boot console on resumption from system suspend. Fixes ARM-software/tf-issues#220 Change-Id: I80eafe5b6adcfc7f1fdf8b99659aca1c64d96975
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Achin Gupta authored
Suport for ARM GIC v2.0 and v3.0 drivers has been reworked to create three separate drivers instead of providing a single driver that can work on both versions of the GIC architecture. These drivers correspond to the following software use cases: 1. A GICv2 only driver that can run only on ARM GIC v2.0 implementations e.g. GIC-400 2. A GICv3 only driver that can run only on ARM GIC v3.0 implementations e.g. GIC-500 in a mode where all interrupt regimes use GICv3 features 3. A deprecated GICv3 driver that operates in legacy mode. This driver can operate only in the GICv2 mode in the secure world. On a GICv3 system, this driver allows normal world to run in either GICv3 mode (asymmetric mode) or in the GICv2 mode. Both modes of operation are deprecated on GICv3 systems. ARM platforms implement both versions of the GIC architecture. This patch adds a layer of abstraction to help ARM platform ports chose the right GIC driver and corresponding platform support. This is as described below: 1. A set of ARM common functions have been introduced to initialise the GIC and the driver during cold and warm boot. These functions are prefixed as "plat_arm_gic_". Weak definitions of these functions have been provided for each type of driver. 2. Each platform includes the sources that implement the right functions directly into the its makefile. The FVP can be instantiated with different versions of the GIC architecture. It uses the FVP_USE_GIC_DRIVER build option to specify which of the three drivers should be included in the build. 3. A list of secure interrupts has to be provided to initialise each of the three GIC drivers. For GIC v3.0 the interrupt ids have to be further categorised as Group 0 and Group 1 Secure interrupts. For GIC v2.0, the two types are merged and treated as Group 0 interrupts. The two lists of interrupts are exported from the platform_def.h. The lists are constructed by adding a list of board specific interrupt ids to a list of ids common to all ARM platforms and Compute sub-systems. This patch also makes some fields of `arm_config` data structure in FVP redundant and these unused fields are removed. Change-Id: Ibc8c087be7a8a6b041b78c2c3bd0c648cd2035d8
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Soby Mathew authored
This patch adds platform helpers for the new GICv2 and GICv3 drivers in plat_gicv2.c and plat_gicv3.c. The platforms can include the appropriate file in their build according to the GIC driver to be used. The existing plat_gic.c is only meant for the legacy GIC driver. In the case of ARM platforms, the major changes are as follows: 1. The crash reporting helper macro `arm_print_gic_regs` that prints the GIC CPU interface register values has been modified to detect the type of CPU interface being used (System register or memory mappped interface) before using the right interface to print the registers. 2. The power management helper function that is called after a core is powered up has been further refactored. This is to highlight that the per-cpu distributor interface should be initialised only when the core was originally powered down using the CPU_OFF PSCI API and not when the CPU_SUSPEND PSCI API was used. 3. In the case of CSS platforms, the system power domain restore helper `arm_system_pwr_domain_resume()` is now only invoked in the `suspend_finish` handler as the system power domain is always expected to be initialized when the `on_finish` handler is invoked. Change-Id: I7fc27d61fc6c2a60cea2436b676c5737d0257df6
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- 04 Dec, 2015 1 commit
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Juan Castillo authored
This patch fixes several issues with the SP804 delay timer on FVP: * By default, the SP804 dual timer on FVP runs at 32 KHz. In order to run the timer at 35 MHz (as specified in the FVP user manual) the Overwrite bit in the SP810 control register must be set. * The CLKMULT and CLKDIV definitions are mixed up: delta(us) = delta(ticks) * T(us) = delta(ticks) / f(MHz) From the delay function: delta_us = (delta * ops->clk_mult) / ops->clk_div; Matching both expressions: 1 / f(MHz) = ops->clk_mult / ops->clk_div And consequently: f(MHz) = ops->clk_div / ops->clk_mult Which, for a 35 MHz timer, translates to: ops->clk_div = 35 ops->clk_mult = 1 * The comment in the delay timer header file has been corrected: The ratio of the multiplier and the divider is the clock period in microseconds, not the frequency. Change-Id: Iffd5ce0a5a28fa47c0720c0336d81b678ff8fdf1
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- 02 Dec, 2015 2 commits
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Juan Castillo authored
This patch adds watchdog support on ARM platforms (FVP and Juno). A secure instance of SP805 is used as Trusted Watchdog. It is entirely managed in BL1, being enabled in the early platform setup hook and disabled in the exit hook. By default, the watchdog is enabled in every build (even when TBB is disabled). A new ARM platform specific build option `ARM_DISABLE_TRUSTED_WDOG` has been introduced to allow the user to disable the watchdog at build time. This feature may be used for testing or debugging purposes. Specific error handlers for Juno and FVP are also provided in this patch. These handlers will be called after an image load or authentication error. On FVP, the Table of Contents (ToC) in the FIP is erased. On Juno, the corresponding error code is stored in the V2M Non-Volatile flags register. In both cases, the CPU spins until a watchdog reset is generated after 256 seconds (as specified in the TBBR document). Change-Id: I9ca11dcb0fe15af5dbc5407ab3cf05add962f4b4
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Juan Castillo authored
This patch adds ARM specific OIDs which will be used to extract the extension data from the certificates. These OIDs are arranged as a subtree whose root node has been specifically allocated for ARM Ltd. { iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprise(1) 4128 } Change-Id: Ice20b3c8a31ddefe9102f3bd42f7429986f3ac34
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- 27 Nov, 2015 1 commit
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Juan Castillo authored
FVP and Juno platforms include a NOR flash memory to store and load the FIP, the kernel or a ramdisk. This NOR flash is arranged as 2 x 16 bit flash devices and can be programmed using CFI standard commands. This patch provides a basic API to write single 32 bit words of data into the NOR flash. Functions to lock/unlock blocks against erase or write operations are also provided. Change-Id: I1da7ad3105b1ea409c976adc863954787cbd90d2
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- 26 Nov, 2015 1 commit
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Sandrine Bailleux authored
This patch adds support for booting EL3 payloads on CSS platforms, for example Juno. In this scenario, the Trusted Firmware follows its normal boot flow up to the point where it would normally pass control to the BL31 image. At this point, it jumps to the EL3 payload entry point address instead. Before handing over to the EL3 payload, the data SCP writes for AP at the beginning of the Trusted SRAM is restored, i.e. we zero the first 128 bytes and restore the SCP Boot configuration. The latter is saved before transferring the BL30 image to SCP and is restored just after the transfer (in BL2). The goal is to make it appear that the EL3 payload is the first piece of software to run on the target. The BL31 entrypoint info structure is updated to make the primary CPU jump to the EL3 payload instead of the BL31 image. The mailbox is populated with the EL3 payload entrypoint address, which releases the secondary CPUs out of their holding pen (if the SCP has powered them on). The arm_program_trusted_mailbox() function has been exported for this purpose. The TZC-400 configuration in BL2 is simplified: it grants secure access only to the whole DRAM. Other security initialization is unchanged. This alternative boot flow is disabled by default. A new build option EL3_PAYLOAD_BASE has been introduced to enable it and provide the EL3 payload's entry point address. The build system has been modified such that BL31 and BL33 are not compiled and/or not put in the FIP in this case, as those images are not used in this boot flow. Change-Id: Id2e26fa57988bbc32323a0effd022ab42f5b5077
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- 30 Oct, 2015 3 commits
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Soby Mathew authored
This patch fixes a compilation issue for platforms that are aligned to ARM Standard platforms and include the `plat_arm.h` header in their platform port. The compilation would fail for such a platform because `xlat_tables.h` which has the definition for `mmap_region_t` is not included in `plat_arm.h`. This patch fixes this by including `xlat_tables.h` in `plat_arm.h` header. Fixes ARM-Software/tf-issues#318 Change-Id: I75f990cfb4078b3996fc353c8cd37c9de61d555e
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Soby Mathew authored
This patch adds the capability to power down at system power domain level on Juno via the PSCI SYSTEM SUSPEND API. The CSS power management helpers are modified to add support for power management operations at system power domain level. A new helper for populating `get_sys_suspend_power_state` handler in plat_psci_ops is defined. On entering the system suspend state, the SCP powers down the SYSTOP power domain on the SoC and puts the memory into retention mode. On wakeup from the power down, the system components on the CSS will be reinitialized by the platform layer and the PSCI client is responsible for restoring the context of these system components. According to PSCI Specification, interrupts targeted to cores in PSCI CPU SUSPEND should be able to resume it. On Juno, when the system power domain is suspended, the GIC is also powered down. The SCP resumes the final core to be suspend when an external wake-up event is received. But the other cores cannot be woken up by a targeted interrupt, because GIC doesn't forward these interrupts to the SCP. Due to this hardware limitation, we down-grade PSCI CPU SUSPEND requests targeted to the system power domain level to cluster power domain level in `juno_validate_power_state()` and the CSS default `plat_arm_psci_ops` is overridden in juno_pm.c. A system power domain resume helper `arm_system_pwr_domain_resume()` is defined for ARM standard platforms which resumes/re-initializes the system components on wakeup from system suspend. The security setup also needs to be done on resume from system suspend, which means `plat_arm_security_setup()` must now be included in the BL3-1 image in addition to previous BL images if system suspend need to be supported. Change-Id: Ie293f75f09bad24223af47ab6c6e1268f77bcc47
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Soby Mathew authored
This patch implements the necessary topology changes for supporting system power domain on CSS platforms. The definition of PLAT_MAX_PWR_LVL and PLAT_NUM_PWR_DOMAINS macros are removed from arm_def.h and are made platform specific. In addition, the `arm_power_domain_tree_desc[]` and `arm_pm_idle_states[]` are modified to support the system power domain at level 2. With this patch, even though the power management operations involving the system power domain will not return any error, the platform layer will silently ignore any operations to the power domain. The actual power management support for the system power domain will be added later. Change-Id: I791867eded5156754fe898f9cdc6bba361e5a379
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- 20 Oct, 2015 1 commit
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Soby Mathew authored
This patch does the following reorganization to psci power management (PM) handler setup for ARM standard platform ports : 1. The mailbox programming required during `plat_setup_psci_ops()` is identical for all ARM platforms. Hence the implementation of this API is now moved to the common `arm_pm.c` file. Each ARM platform now must define the PLAT_ARM_TRUSTED_MAILBOX_BASE macro, which in current platforms is the same as ARM_SHARED_RAM_BASE. 2. The PSCI PM handler callback structure, `plat_psci_ops`, must now be exported via `plat_arm_psci_pm_ops`. This allows the common implementation of `plat_setup_psci_ops()` to return a platform specific `plat_psci_ops`. In the case of CSS platforms, a default weak implementation of the same is provided in `css_pm.c` which can be overridden by each CSS platform. 3. For CSS platforms, the PSCI PM handlers defined in `css_pm.c` are now made library functions and a new header file `css_pm.h` is added to export these generic PM handlers. This allows the platform to reuse the adequate CSS PM handlers and redefine others which need to be customized when overriding the default `plat_arm_psci_pm_ops` in `css_pm.c`. Change-Id: I277910f609e023ee5d5ff0129a80ecfce4356ede
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- 11 Sep, 2015 3 commits
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Vikram Kanigiri authored
This patch updates ARM platform ports to use the new unified bakery locks API. The caller does not have to use a different bakery lock API depending upon the value of the USE_COHERENT_MEM build option. NOTE: THIS PATCH CAN BE USED AS A REFERENCE TO UPDATE OTHER PLATFORM PORTS. Change-Id: I1b26afc7c9a9808a6040eb22f603d30192251da7
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Vikram Kanigiri authored
On Juno and FVP platforms, the Non-Secure System timer corresponds to frame 1. However, this is a platform-specific decision and it shouldn't be hard-coded. Hence, this patch introduces PLAT_ARM_NSTIMER_FRAME_ID which should be used by all ARM platforms to specify the correct non-secure timer frame. Change-Id: I6c3a905d7d89200a2f58c20ce5d1e1d166832bba
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Vikram Kanigiri authored
This patch replaces the `ARM_TZC_BASE` constant with `PLAT_ARM_TZC_BASE` to support different TrustZone Controller base addresses across ARM platforms. Change-Id: Ie4e1c7600fd7a5875323c7cc35e067de0c6ef6dd
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- 01 Sep, 2015 1 commit
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Vikram Kanigiri authored
ARM TF configures all interrupts as non-secure except those which are present in irq_sec_array. This patch updates the irq_sec_array with the missing secure interrupts for ARM platforms. It also updates the documentation to be inline with the latest implementation. Fixes ARM-software/tf-issues#312 Change-Id: I39956c56a319086e3929d1fa89030b4ec4b01fcc
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- 13 Aug, 2015 4 commits
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Soby Mathew authored
This patch implements the platform power managment handler to verify non secure entrypoint for ARM platforms. The handler ensures that the entry point specified by the normal world during CPU_SUSPEND, CPU_ON or SYSTEM_SUSPEND PSCI API is a valid address within the non secure DRAM. Change-Id: I4795452df99f67a24682b22f0e0967175c1de429
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Sandrine Bailleux authored
Since there is a unique warm reset entry point, the FVP and Juno port can use a single mailbox instead of maintaining one per core. The mailbox gets programmed only once when plat_setup_psci_ops() is invoked during PSCI initialization. This means mailbox is not zeroed out during wakeup. Change-Id: Ieba032a90b43650f970f197340ebb0ce5548d432
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Soby Mathew authored
This patch adds support to the Juno and FVP ports for composite power states with both the original and extended state-id power-state formats. Both the platform ports use the recommended state-id encoding as specified in Section 6.5 of the PSCI specification (ARM DEN 0022C). The platform build flag ARM_RECOM_STATE_ID_ENC is used to include this support. By default, to maintain backwards compatibility, the original power state parameter format is used and the state-id field is expected to be zero. Change-Id: Ie721b961957eaecaca5bf417a30952fe0627ef10
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Soby Mathew authored
This patch migrates ARM reference platforms, Juno and FVP, to the new platform API mandated by the new PSCI power domain topology and composite power state frameworks. The platform specific makefiles now exports the build flag ENABLE_PLAT_COMPAT=0 to disable the platform compatibility layer. Change-Id: I3040ed7cce446fc66facaee9c67cb54a8cd7ca29
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