If CC points to clang the linker was set to ld.lld. Copy the diectory
name from CC is it has one.
Change-Id: I50aef5dddee4d2540b12b6d4e68068ad004446f7
Signed-off-by: Arve Hjønnevåg <arve@android.com>
Forced hash generation used to always generate hash via RSA encryption.
This patch changes encryption based on ARM_ROTPK_LOCATION.
Also removes setting KEY_ALG based on ARM_ROTPL_LOCATION - there is no
relation between these two.
Signed-off-by: Max Shvetsov <maksims.svecovs@arm.com>
Change-Id: Id727d2ed06176a243719fd0adfa0cae26c325005
* changes:
SPMD: enable SPM dispatcher support
SPMD: hook SPMD into standard services framework
SPMD: add SPM dispatcher based upon SPCI Beta 0 spec
SPMD: add support to run BL32 in TDRAM and BL31 in secure DRAM on Arm FVP
SPMD: add support for an example SPM core manifest
SPMD: add SPCI Beta 0 specification header file
This patch adds support to the build system to include support for the SPM
dispatcher when the SPD configuration option is spmd.
Signed-off-by: Achin Gupta <achin.gupta@arm.com>
Signed-off-by: Artsem Artsemenka <artsem.artsemenka@arm.com>
Change-Id: Ic1ae50ecd7403fcbcf1d318abdbd6ebdc642f732
This patch adds support to initialise the SPM dispatcher as a standard
secure service. It also registers a handler for SPCI SMCs exported by
the SPM dispatcher.
Signed-off-by: Achin Gupta <achin.gupta@arm.com>
Signed-off-by: Artsem Artsemenka <artsem.artsemenka@arm.com>
Change-Id: I2183adf826d08ff3fee9aee75f021021162b6477
This patch adds a rudimentary SPM dispatcher component in EL3.
It does the following:
- Consumes the TOS_FW_CONFIG to determine properties of the SPM core
component
- Initialises the SPM core component which resides in the BL32 image
- Implements a handler for SPCI calls from either security state. Some
basic validation is done for each call but in most cases it is simply
forwarded as-is to the "other" security state.
Signed-off-by: Achin Gupta <achin.gupta@arm.com>
Signed-off-by: Artsem Artsemenka <artsem.artsemenka@arm.com>
Change-Id: I7d116814557f7255f4f4ebb797d1619d4fbab590
This patch reserves and maps the Trusted DRAM for SPM core execution.
It also configures the TrustZone address space controller to run BL31
in secure DRAM.
Signed-off-by: Achin Gupta <achin.gupta@arm.com>
Signed-off-by: Artsem Artsemenka <artsem.artsemenka@arm.com>
Change-Id: I7e1bb3bbc61a0fec6a9cb595964ff553620c21dc
This patch repurposes the TOS FW configuration file as the manifest for
the SPM core component which will reside at the secure EL adjacent to
EL3. The SPM dispatcher component will use the manifest to determine how
the core component must be initialised. Routines and data structure to
parse the manifest have also been added.
Signed-off-by: Achin Gupta <achin.gupta@arm.com>
Signed-off-by: Artsem Artsemenka <artsem.artsemenka@arm.com>
Change-Id: Id94f8ece43b4e05609f0a1d364708a912f6203cb
* changes:
plat/arm: add board support for rd-daniel platform
plat/arm/sgi: move GIC related constants to board files
platform/arm/sgi: add multi-chip mode parameter in HW_CONFIG dts
board/rdn1edge: add support for dual-chip configuration
drivers/arm/scmi: allow use of multiple SCMI channels
drivers/mhu: derive doorbell base address
plat/arm/sgi: include AFF3 affinity in core position calculation
plat/arm/sgi: add macros for remote chip device region
plat/arm/sgi: add chip_id and multi_chip_mode to platform variant info
plat/arm/sgi: move bl31_platform_setup to board file
Currently sptool generates a single blob containing all the Secure
Partitions, with latest SPM implementation, it is desirable to have
individual blobs for each Secure Partition. It allows to leverage
packaging and parsing of SP on existing FIP framework. It also allows
SP packages coming from different sources.
This patch modifies sptool so that it takes number of SP payload pairs
as input and generates number of SP blobs instead of a single blob.
Each SP blob can optionally have its own header containing offsets and
sizes of different payloads along with a SP magic number and version.
It is also associated in FIP with a UUID, provided by SP owner.
Usage example:
sptool -i sp1.bin:sp1.dtb -o sp1.pkg -i sp2.bin:sp2.dtb -o sp2.pkg ...
Signed-off-by: Manish Pandey <manish.pandey2@arm.com>
Change-Id: Ie2db8e601fa1d4182d0a1d22e78e9533dce231bc
At the moment, address demangling is only used by the backtrace
functionality. However, at some point, other parts of the TF-A
codebase may want to use it.
The 'demangle_address' function is replaced with a single XPACI
instruction which is also added in 'do_crash_reporting()'.
Signed-off-by: Alexei Fedorov <Alexei.Fedorov@arm.com>
Change-Id: I4424dcd54d5bf0a5f9b2a0a84c4e565eec7329ec
RD-E1-Edge platform consists of two clusters with eight CPUs each and
two processing elements (PE) per CPU. Commit a9fbf13e04 (plat/arm/sgi:
move topology information to board folder) defined the RD-E1-Edge
topology tree to have two clusters with eight CPUs each but PE per CPU
entries were not added. This patch fixes the topology tree accordingly.
Change-Id: I7f97f0013be60e5d51c214fce3962e246bae8a0b
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
In preparation for adding support for Reference Design platforms
which have different base addresses for GIC Distributor or
Redistributor, move GIC related base addresses to individual platform
definition files.
Change-Id: Iecf52b4392a30b86905e1cd047c0ff87d59d0191
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
Introduce macro 'CSS_SGI_CHIP_COUNT' to allow Arm CSS platforms with
multi-chip support to define number of chiplets on the platform. By
default, this flag is set to 1 and does not affect the existing single
chip platforms.
For multi-chip platforms, override the default value of
CSS_SGI_CHIP_COUNT with the number of chiplets supported on the
platform. As an example, the command below sets the number of chiplets
to two on the RD-N1-Edge multi-chip platform:
export CROSS_COMPILE=<path-to-cross-compiler>
make PLAT=rdn1edge CSS_SGI_CHIP_COUNT=2 ARCH=aarch64 all
Change-Id: If364dc36bd34b30cc356f74b3e97633933e6c8ee
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
Include multi-chip-mode parameter in HW_CONFIG dts to let next stage of
boot firmware know about the multi-chip operation mode.
Change-Id: Ic7535c2280fd57180ad14aa0ae277cf0c4d1337b
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
RD-N1-Edge based platforms can operate in dual-chip configuration
wherein two rdn1edge SoCs are connected through a high speed coherent
CCIX link.
This patch adds a function to check if the RD-N1-Edge platform is
operating in multi-chip mode by reading the SID register's NODE_ID
value. If operating in multi-chip mode, initialize GIC-600 multi-chip
operation by overriding the default GICR frames with array of GICR
frames and setting the chip 0 as routing table owner.
The address space of the second RD-N1-Edge chip (chip 1) starts from the
address 4TB. So increase the physical and virtual address space size to
43 bits to accommodate the multi-chip configuration. If the multi-chip
mode configuration is detected, dynamically add mmap entry for the
peripherals memory region of the second RD-N1-Edge SoC. This is required
to let the BL31 platform setup stage to configure the devices in the
second chip.
PLATFORM_CORE_COUNT macro is set to be multiple of CSS_SGI_CHIP_COUNT
and topology changes are added to represent the dual-chip configuration.
In order the build the dual-chip platform, CSS_SGI_CHIP_COUNT macro
should be set to 2:
export CROSS_COMPILE=<path-to-cross-compiler>
make PLAT=rdn1edge CSS_SGI_CHIP_COUNT=2 ARCH=aarch64 all
Change-Id: I576cdaf71f0b0e41b9a9181fa4feb7091f8c7bb4
Signed-off-by: Aditya Angadi <aditya.angadi@arm.com>
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
On systems that have multiple platform components that can interpret the
SCMI messages, there is a need to support multiple SCMI channels (one
each to those platform components). Extend the existing SCMI interface
that currently supports only a single SCMI channel to support multiple
SCMI channels.
Change-Id: Ice4062475b903aef3b5e5bc37df364c9778a62c5
Signed-off-by: Aditya Angadi <aditya.angadi@arm.com>
In order to allow the MHUv2 driver to be usable with multiple MHUv2
controllers, use the base address of the controller from the platform
information instead of the MHUV2_BASE_ADDR macro.
Change-Id: I4dbab87b929fb0568935e6c8b339ce67937f8cd1
Signed-off-by: Aditya Angadi <aditya.angadi@arm.com>
AFF3 bits of MPIDR corresponds to Chip-Id in Arm multi-chip platforms.
For calculating linear core position of CPU cores from slave chips, AFF3
bits has to be used. Update `plat_arm_calc_core_pos` assembly function
to include AFF3 bits in calculation.
Change-Id: I4af2bd82ab8e31e18bc61de22705a73893954260
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
Some of the Reference Design platforms like RD-N1-Edge can operate in
multi-chip configuration wherein two or more SoCs are connected through
a high speed coherent CCIX link. For the RD platforms, the remote chip
address space is at the offset of 4TB per chip. In order for the primary
chip to access the device memory region on the remote chip, the required
memory region entries need to be added as mmap entry. This patch adds
macros related to the remote chip device memory region.
Change-Id: I833810b96f1a0e7c3c289ac32597b6ba03344c80
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
Multi-chip platforms have two or more identical chips connected using a
high speed coherent link. In order to identify such platforms,
add chip_id and multi_chip_mode information in the platform variant
info structure. The values of these two new elements is populated
during boot.
Change-Id: Ie6e89cb33b3f0f408814f6239cd06647053e23ed
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
For SGI-575 and RD platforms, move bl31_platform_setup handler to
individual board files to allow the platforms to perform board specific
bl31 setup.
Change-Id: Ia44bccc0a7f40a155b33909bcb438a0909b20d42
Signed-off-by: Vijayenthiran Subramaniam <vijayenthiran.subramaniam@arm.com>
Currently, an IO setup failure will be ignored on arm platform release
build. Change this to panic instead.
Change-Id: I027a045bce2422b0a0fc4ff9e9d4c6e7bf5d2f98
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
Change the return type of "arm_io_is_toc_valid()" and
"plat_arm_bl1_fwu_needed()" to bool, to match function behavior.
Change-Id: I503fba211219a241cb263149ef36ca14e3362a1c
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
Use the firmware configuration framework to store the io_policies
information inside the configuration device tree instead of the static
structure in the code base.
The io_policies required by BL1 can't be inside the dtb, as this one is
loaded by BL1, and only available at BL2.
This change currently only applies to FVP platform.
Change-Id: Ic9c1ac3931a4a136aa36f7f58f66d3764c1bfca1
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
Use the firmware configuration framework in arm dynamic configuration
to retrieve mbedtls heap information between bl1 and bl2.
For this, a new fconf getter is added to expose the device tree base
address and size.
Change-Id: Ifa5ac9366ae100e2cdd1f4c8e85fc591b170f4b6
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
Use fconf to retrieve the `disable_authentication` property.
Move this access from arm dynamic configuration to bl common.
Change-Id: Ibf184a5c6245d04839222f5457cf5e651f252b86
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
This patch introduces a better separation between the trusted-boot
related properties, and the dynamic configuration DTBs loading
information.
The dynamic configuration DTBs properties are moved to a new node:
`dtb-registry`. All the sub-nodes present will be provided to the
dynamic config framework to be loaded. The node currently only contains
the already defined configuration DTBs, but can be extended for future
features if necessary.
The dynamic config framework is modified to use the abstraction provided
by the fconf framework, instead of directly accessing the DTBs.
The trusted-boot properties are kept under the "arm,tb_fw" compatible
string, but in a separate `tb_fw-config` node.
The `tb_fw-config` property of the `dtb-registry` node simply points
to the load address of `fw_config`, as the `tb_fw-config` is currently
part of the same DTB.
Change-Id: Iceb6c4c2cb92b692b6e28dbdc9fb060f1c46de82
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
Use the dtb provided by bl1 as configuration file for fconf.
Change-Id: I3f466ad9b7047e1a361d94e71ac6d693e31496d9
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
Move the loading of the dtb from arm_dym_cfg to fconf. The new loading
function is not associated to arm platform anymore, and can be moved
to bl_main if wanted.
Change-Id: I847d07eaba36d31d9d3ed9eba8e58666ea1ba563
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
Introduce the Firmware CONfiguration Framework (fconf).
The fconf is an abstraction layer for platform specific data, allowing
a "property" to be queried and a value retrieved without the requesting
entity knowing what backing store is being used to hold the data.
The default backing store used is C structure. If another backing store
has to be used, the platform integrator needs to provide a "populate()"
function to fill the corresponding C structure.
The "populate()" function must be registered to the fconf framework with
the "FCONF_REGISTER_POPULATOR()". This ensures that the function would
be called inside the "fconf_populate()" function.
A two level macro is used as getter:
- the first macro takes 3 parameters and converts it to a function
call: FCONF_GET_PROPERTY(a,b,c) -> a__b_getter(c).
- the second level defines a__b_getter(c) to the matching C structure,
variable, array, function, etc..
Ex: Get a Chain of trust property:
1) FCONF_GET_PROPERY(tbbr, cot, BL2_id) -> tbbr__cot_getter(BL2_id)
2) tbbr__cot_getter(BL2_id) -> cot_desc_ptr[BL2_id]
Change-Id: Id394001353ed295bc680c3f543af0cf8da549469
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
Commit 8f73663b59 ("plat/arm: Support for Cortex A5 in FVP Versatile
Express platform") has conditioned the enabling of the Advanced SIMD
and floating point features to platforms that have:
(ARM_ARCH_MAJOR > 7) || defined(ARMV7_SUPPORTS_VFP)
QEMU does support VFP so it should set ARMV7_SUPPORTS_VFP.
Signed-off-by: Jerome Forissier <jerome@forissier.org>
Change-Id: I3bab7c2ed04766d0628c14094557b2751f60a428