- 08 Dec, 2015 3 commits
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danh-arm authored
Add CCI-400 specific driver to deprecated driver list
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Vikram Kanigiri authored
Add compile time `__warn_deprecated` flag to public api's in CCI-400 specific driver so that user is aware of the driver being deprecated. Similarly, it also adds an error message when `ERROR_DEPRECATED` is set to prevent succesful compilation if CCI-400 specific driver is used. Change-Id: Id7e61a560262abc01cbbd432ca85b9bf448a194d
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danh-arm authored
Tegra new platform apis v2
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- 04 Dec, 2015 1 commit
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Varun Wadekar authored
This patch modifies the Tegra port to support the new platform APIs so that we can disable the compat layer. This includes modifications to the power management and platform topology code. Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 02 Dec, 2015 5 commits
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danh-arm authored
Fix TZC-400 peripheral detection
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danh-arm authored
TBB: add ARM OIDs
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danh-arm authored
Jc/tbb wdog
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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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- 01 Dec, 2015 3 commits
- 27 Nov, 2015 3 commits
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Vikram Kanigiri authored
The TZC-400 driver implementation incorrectly uses the component ID registers to detect the TZC-400 peripheral. As all ARM peripherals share the same component ID, it doesn't allow to uniquely identify the TZC-400 peripheral. This patch fixes the TZC-400 driver by relying on the `part_number_0` and `part_number_1` fields in the `PID` registers instead. The `tzc_read_component_id` function has been replaced by `tzc_read_peripheral_id`, which reads the 'part_number' values and compares them with the TZC-400 peripheral ID. Also, it adds a debug assertion to detect when the TZC driver initialisation function is called multiple times. Change-Id: I35949f6501a51c0a794144cd1c3a6db62440dce6
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Juan Castillo authored
Based on SP805 Programmer's model (ARM DDI 0270B). This driver provides three public APIs: void sp805_start(uintptr_t base, unsigned long ticks); void sp805_stop(uintptr_t base); void sp805_refresh(uintptr_t base, unsigned long ticks); Upon start, the watchdog starts counting down from the number of ticks specified. When the count reaches 0 an interrupt is triggered. The watchdog restarts counting down from the number of ticks specified. If the count reaches 0 again, the system is reset. A mechanism to handle the interrupt has not been implemented. Instead, the API to refresh the watchdog should be used instead to prevent a system reset. Change-Id: I799d53f8d1213b10b341a4a67fde6486e89a3dab
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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 14 commits
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Sandrine Bailleux authored
The implications of the 'PROGRAMMABLE_RESET_ADDRESS' build option on the platform porting layer are simple enough to be described in the User Guide directly. This patch removes the reference to the Porting Guide. Change-Id: I7f753b18abd20effc4fd30836609e1fd51d9221d
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Sandrine Bailleux authored
This patch introduces a new build option named COLD_BOOT_SINGLE_CPU, which allows platforms that only release a single CPU out of reset to slightly optimise their cold boot code, both in terms of code size and performance. COLD_BOOT_SINGLE_CPU defaults to 0, which assumes that the platform may release several CPUs out of reset. In this case, the cold reset code needs to coordinate all CPUs via the usual primary/secondary CPU distinction. If a platform guarantees that only a single CPU will ever be released out of reset, there is no need to arbitrate execution ; the notion of primary and secondary CPUs itself no longer exists. Such platforms may set COLD_BOOT_SINGLE_CPU to 1 in order to compile out the primary/secondary CPU identification in the cold reset code. All ARM standard platforms can release several CPUs out of reset so they use COLD_BOOT_SINGLE_CPU=0. However, on CSS platforms like Juno, bringing up more than one CPU at reset should only be attempted when booting an EL3 payload, as it is not fully supported in the normal boot flow. For platforms using COLD_BOOT_SINGLE_CPU=1, the following 2 platform APIs become optional: - plat_secondary_cold_boot_setup(); - plat_is_my_cpu_primary(). The Porting Guide has been updated to reflect that. User Guide updated as well. Change-Id: Ic5b474e61b7aec1377d1e0b6925d17dfc376c46b
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Sandrine Bailleux authored
- Document the new build option EL3_PAYLOAD_BASE - Document the EL3 payload boot flow - Document the FVP model parameters to boot an EL3 payload Change-Id: Ie6535914a9a68626e4401659bee4fcfd53d4bd37
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Sandrine Bailleux authored
Normally, in the FVP port, secondary CPUs are immediately powered down if they are powered on at reset. However, when booting an EL3 payload, we need to keep them powered on as the requirement is for all CPUs to enter the EL3 payload image. This patch puts them in a holding pen instead of powering them off. Change-Id: I6526a88b907a0ddb820bead72f1d350a99b1692c
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Sandrine Bailleux authored
By default, only the primary CPU is powered on by SCP on CSS platforms. Secondary CPUs are then powered on later using PSCI calls. However, it is possible to power on more than one CPU at boot time using platform specific settings. In this case, several CPUs will enter the Trusted Firmware and execute the cold boot path code. This is currently not supported and secondary CPUs will panic. This patch preserves this behaviour in the normal boot flow. However, when booting an EL3 payload, secondary CPUs are now held in a pen until their mailbox is populated, at which point they jump to this address. Note that, since all CPUs share the same mailbox, they will all be released from their holding pen at the same time and the EL3 payload is responsible to arbitrate execution between CPUs if required. Change-Id: I83737e0c9f15ca5e73afbed2e9c761bc580735b9
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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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Sandrine Bailleux authored
This patch modifies the prototype of the bl1_plat_prepare_exit() platform API to pass the address of the entry point info structure received from BL2. The structure contains information that can be useful, depending on the kind of clean up or bookkeeping operations to perform. The weak implementation of this function ignores this argument to preserve platform backwards compatibility. NOTE: THIS PATCH MAY BREAK PLATFORM PORTS THAT ARE RELYING ON THE FORMER PROTOTYPE OF THE BL1_PLAT_PREPARE_EXIT() API. Change-Id: I3fc18f637de06c85719c4ee84c85d6a4572a0fdb
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Sandrine Bailleux authored
This patch introduces a new build flag, SPIN_ON_BL1_EXIT, which puts an infinite loop in BL1. It is intended to help debugging the post-BL2 phase of the Trusted Firmware by stopping execution in BL1 just before handing over to BL31. At this point, the developer may take control of the target using a debugger. This feature is disabled by default and can be enabled by rebuilding BL1 with SPIN_ON_BL1_EXIT=1. User Guide updated accordingly. Change-Id: I6b6779d5949c9e5571dd371255520ef1ac39685c
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Soby Mathew authored
The IMF_READ_INTERRUPT_ID build option enables a feature where the interrupt ID of the highest priority pending interrupt is passed as a parameter to the interrupt handler registered for that type of interrupt. This additional read of highest pending interrupt id from GIC is problematic as it is possible that the original interrupt may get deasserted and another interrupt of different type maybe become the highest pending interrupt. Hence it is safer to prevent such behaviour by removing the IMF_READ_INTERRUPT_ID build option. The `id` parameter of the interrupt handler `interrupt_type_handler_t` is now made a reserved parameter with this patch. It will always contain INTR_ID_UNAVAILABLE. Fixes ARM-software/tf-issues#307 Change-Id: I2173aae1dd37edad7ba6bdfb1a99868635fa34de
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Achin Gupta authored
Introduce new GICv3 and GICv2 drivers
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Soby Mathew authored
This patch deprecates the legacy ARM GIC driver and related header files (arm_gic.h, gic_v2.h, gic_v3.h). For GICv2 systems, platform ports should use the GICv2 driver in include/drivers/arm/gicv2.h and for GICv3 systems, platform ports should use the GICv3 driver in include/drivers/arm/gicv3.h NOTE: The ARM Legacy GIC drivers have been deprecated with this patch. Platform ports are encouraged to migrate to the new GIC drivers. Change-Id: Ic0460ef0427b54a6aac476279a7f29b81943e942
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Soby Mathew authored
This patch adds a driver for ARM GICv2 systems, example GIC-400. Unlike the existing GIC driver in `include/drivers/arm/arm_gic.h`, this driver is optimised for GICv2 and does not support GICv3 systems in GICv2 compatibility mode. The driver interface has been implemented in `drivers/arm/gic/v2/gicv2_main.c`. The corresponding header is in `include/drivers/arm/gicv2.h`. Helper functions are implemented in `drivers/arm/gic/v2/gicv2_helpers.c` and are accessible through the `drivers/arm/gic/v2/gicv2_private.h` header. Change-Id: I09fffa4e621fb99ba3c01204839894816cd89a2a
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Achin Gupta authored
This patch adds a driver for ARM GICv3 systems that need to run software stacks where affinity routing is enabled across all privileged exception levels for both security states. This driver is a partial implementation of the ARM Generic Interrupt Controller Architecture Specification, GIC architecture version 3.0 and version 4.0 (ARM IHI 0069A). The driver does not cater for legacy support of interrupts and asymmetric configurations. The existing GIC driver has been preserved unchanged. The common code for GICv2 and GICv3 systems has been refactored into a new file, `drivers/arm/gic/common/gic_common.c`. The corresponding header is in `include/drivers/arm/gic_common.h`. The driver interface is implemented in `drivers/arm/gic/v3/gicv3_main.c`. The corresponding header is in `include/drivers/arm/gicv3.h`. Helper functions are implemented in `drivers/arm/gic/v3/arm_gicv3_helpers.c` and are accessible through the `drivers/arm/gic/v3/gicv3_private.h` header. Change-Id: I8c3c834a1d049d05b776b4dcb76b18ccb927444a
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Achin Gupta authored
Replace build macro WARN_DEPRECATED with ERROR_DEPRECATED
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- 25 Nov, 2015 1 commit
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Varun Wadekar authored
This patch renames the tegra_fc_cpu_idle() function to a more appropriate tegra_fc_cpu_powerdn() to better reflect its usage. Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
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- 24 Nov, 2015 1 commit
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Soby Mathew authored
This patch changes the build time behaviour when using deprecated API within Trusted Firmware. Previously the use of deprecated APIs would only trigger a build warning (which was always treated as a build error), when WARN_DEPRECATED = 1. Now, the use of deprecated C declarations will always trigger a build time warning. Whether this warning is treated as error or not is determined by the build flag ERROR_DEPRECATED which is disabled by default. When the build flag ERROR_DEPRECATED=1, the invocation of deprecated API or inclusion of deprecated headers will result in a build error. Also the deprecated context management helpers in context_mgmt.c are now conditionally compiled depending on the value of ERROR_DEPRECATED flag so that the APIs themselves do not result in a build error when the ERROR_DEPRECATED flag is set. NOTE: Build systems that use the macro WARN_DEPRECATED must migrate to using ERROR_DEPRECATED, otherwise deprecated API usage will no longer trigger a build error. Change-Id: I843bceef6bde979af7e9b51dddf861035ec7965a
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- 19 Nov, 2015 5 commits
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Achin Gupta authored
Changes to platform reset handler for Juno r2
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Achin Gupta authored
Add missing RES1 bit in SCTLR_EL1
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Achin Gupta authored
Fix build error when `BL32` is not defined
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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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Sandrine Bailleux authored
This patch splits the Juno reset handler in 4 distinct pieces: - Detection of the board revision; - Juno R0 specific handler; - Juno R1 specific handler; - Juno R2 specific handler. Depending on the board revision, the appropriate handler is called. This makes the code easier to understand and maintain. This patch is mainly cosmetic. The only functional change introduced is that the Juno platform reset handler will now spin infinitely if the board revision is not recognised. Previously, it would have assumed that it was running on Juno R1 in this case. Change-Id: I54ed77c4665085ead9d1573316c9c884d7d3ffa0
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- 17 Nov, 2015 1 commit
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Juan Castillo authored
If an SPD wants to use a prebuilt binary as BL32 image (for example, the OPTEE Dispatcher), it must point the `BL32` variable to the image file. This dependency should apply only to the `fip` target. However, it also applies to the `all` target at the moment. If the user tries to build all individual TF images using `make all` without setting BL32, the build fails. The following command will throw the error: make CROSS_COMPILE=aarch64-linux-gnu- SPD=opteed all ... ... aarch64-linux-gnu-gcc: fatal error: no input files compilation terminated. make: *** [build/fvp/release/bl32/bl32.ld] Error 1 The reason is that the build system checks if BL32 is defined, and if it is not, it will try to build BL32 from source. If the SPD makefile does not provide support for that (as is the case of the OPTEE Dispatcher, since OPTEE is provided as an external binary), the build will fail. This patch fixes the issue by checking if `BL32_SOURCES` has been defined by the SPD before attempting to build BL32 from source. If neither `BL32` nor `BL32_SOURCES` is defined when building the FIP, a warning message will be printed and the process aborted. Fixes ARM-software/tf-issues#333 Change-Id: I5e801ad333103ed9b042e5c4757424c8df2ff6e4
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- 13 Nov, 2015 2 commits
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Vikram Kanigiri authored
As per Section D7.2.81 in the ARMv8-A Reference Manual (DDI0487A Issue A.h), bits[29:28], bits[23:22], bit[20] and bit[11] in the SCTLR_EL1 are RES1. This patch adds the missing bit[20] to the SCTLR_EL1_RES1 macro. Change-Id: I827982fa2856d04def6b22d8200a79fe6922a28e
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Juan Castillo authored
BL2 is responsible for loading BL32 and passing a pointer to the BL32 entrypoint info to BL31 in the BL31 parameters. If no BL32 image is loaded, a NULL pointer is passed. The platform is responsible for accessing BL31 parameters and extracting the corresponding BL32 EP info. In ARM platforms, arm_bl31_early_platform_setup() dereferences the pointer to the BL32 EP info without checking first if the pointer is NULL. This will cause an exception if a BL32 entrypoint has not been populated by BL2. FVP and Juno are not affected because they always define BL32_BASE, irrespective of whether a BL32 image is included in the FIP or not. This patches fixes the issue by checking the BL32 ep_info pointer before trying to access the data. If `RESET_TO_BL31` is enabled, the BL32 entrypoint is not populated if BL32_BASE is not defined. NOTE: Maintainers of partner platforms should check for this issue in their ports. Fixes ARM-software/tf-issues#320 Change-Id: I31456155503f2765766e8b7cd30ab4a40958fb96
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- 11 Nov, 2015 1 commit
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Achin Gupta authored
Add -mstrict-align to the gcc options
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