There is really no reason to use and pass around a struct when its only
member is the (fixed) base address.
Remove the struct and just use the base address on its own inside the
GPIO driver. Then set the base address automatically.
This simplifies GPIO setup for users, which now don't need to deal with
zeroing a struct and setting the base address anymore.
Change-Id: I3060f7859e3f8ef9a24cc8fb38307b5da943f127
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
* changes:
Factor xlat_table sections in linker scripts out into a header file
xlat_tables_v2: use ARRAY_SIZE in REGISTER_XLAT_CONTEXT_FULL_SPEC
xlat_tables_v2: merge REGISTER_XLAT_CONTEXT_{FULL_SPEC,RO_BASE_TABLE}
TF-A has so many linker scripts, at least one linker script for each BL
image, and some platforms have their own ones. They duplicate quite
similar code (and comments).
When we add some changes to linker scripts, we end up with touching
so many files. This is not nice in the maintainability perspective.
When you look at Linux kernel, the common code is macrofied in
include/asm-generic/vmlinux.lds.h, which is included from each arch
linker script, arch/*/kernel/vmlinux.lds.S
TF-A can follow this approach. Let's factor out the common code into
include/common/bl_common.ld.h
As a start point, this commit factors out the xlat_table section.
Change-Id: Ifa369e9b48e8e12702535d721cc2a16d12397895
Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com>
With this, it is clearer that .base_table_entries and .tables_num
are the array size of .base_table and .tables, respectively.
Change-Id: I634e65aba835ab9908cc3919355df6bc6e18d42a
Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com>
xlat_tables_v2_helpers.h defines two quite similar macros,
REGISTER_XLAT_CONTEXT_FULL_SPEC and REGISTER_XLAT_CONTEXT_RO_BASE_TABLE.
Only the difference is the section of _ctx_name##_base_xlat_table.
Parameterize it and unify these two macros.
The base xlat table goes into the .bss section by default.
If PLAT_RO_XLAT_TABLES is defined, it goes into the .rodata section.
Change-Id: I8b02f4da98f0c272e348a200cebd89f479099c55
Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com>
* changes:
plat/arm: Pass cookie argument down to arm_get_rotpk_info()
plat/arm: Add support for dualroot CoT
plat/arm: Provide some PROTK files for development
This patch provides separation of GICD, GICR accessor
functions and adds new macros for GICv3 registers access
as a preparation for GICv3.1 and GICv4 support.
NOTE: Platforms need to modify to include both
'gicdv3_helpers.c' and 'gicrv3_helpers.c' instead of the
single helper file previously.
Change-Id: I1641bd6d217d6eb7d1228be3c4177b2d556da60a
Signed-off-by: Alexei Fedorov <Alexei.Fedorov@arm.com>
This patch provides a fix for incorrect crash dump data for
lower EL when TF-A is built with HANDLE_EA_EL3_FIRST=1 option
which enables routing of External Aborts and SErrors to EL3.
Change-Id: I9d5e6775e6aad21db5b78362da6c3a3d897df977
Signed-off-by: Alexei Fedorov <Alexei.Fedorov@arm.com>
TBBR spec advocates for optional encryption of firmwares (see optional
requirement: R060_TBBR_FUNCTION). So add an IO abstaction layer to
support firmware decryption that can be stacked above any underlying IO/
packaging layer like FIP etc. It aims to provide a framework to load any
encrypted IO payload.
Also, add plat_get_enc_key_info() to be implemented in a platform
specific manner as handling of encryption key may vary from one platform
to another.
Signed-off-by: Sumit Garg <sumit.garg@linaro.org>
Change-Id: I9892e0ddf00ebecb8981301dbfa41ea23e078b03
Add framework for autheticated decryption of data. Currently this
patch optionally imports mbedtls library as a backend if build option
"DECRYPTION_SUPPORT = aes_gcm" is set to perform authenticated decryption
using AES-GCM algorithm.
Signed-off-by: Sumit Garg <sumit.garg@linaro.org>
Change-Id: I2966f0e79033151012bf4ffc66f484cd949e7271
This patch implements loading of Secure Partition packages using
existing framework of loading other bl images.
The current framework uses a statically defined array to store all the
possible image types and at run time generates a link list and traverse
through it to load different images.
To load SPs, a new array of fixed size is introduced which will be
dynamically populated based on number of SPs available in the system
and it will be appended to the loadable images list.
Change-Id: I8309f63595f2a71b28a73b922d20ccba9c4f6ae4
Signed-off-by: Manish Pandey <manish.pandey2@arm.com>
Added SPMD_SPM_AT_SEL2 build command line parameter.
Set to 1 to run SPM at S-EL2.
Set to 0 to run SPM at S-EL1 (pre-v8.4 or S-EL2 is disabled).
Removed runtime EL from SPM core manifest.
Change-Id: Icb4f5ea4c800f266880db1d410d63fe27a1171c0
Signed-off-by: Artsem Artsemenka <artsem.artsemenka@arm.com>
Signed-off-by: Max Shvetsov <maksims.svecovs@arm.com>
This patch adds EL2 registers that are supported up to ARMv8.6.
ARM_ARCH_MINOR has to specified to enable save/restore routine.
Note: Following registers are still not covered in save/restore.
* AMEVCNTVOFF0<n>_EL2
* AMEVCNTVOFF1<n>_EL2
* ICH_AP0R<n>_EL2
* ICH_AP1R<n>_EL2
* ICH_LR<n>_EL2
Change-Id: I4813f3243e56e21cb297b31ef549a4b38d4876e1
Signed-off-by: Max Shvetsov <maksims.svecovs@arm.com>
Use the firmware configuration framework to retrieve information about
Secure Partitions to facilitate loading them into memory.
To load a SP image we need UUID look-up into FIP and the load address
where it needs to be loaded in memory.
This patch introduces a SP populator function which gets UUID and load
address from firmware config device tree and updates its C data
structure.
Change-Id: I17faec41803df9a76712dcc8b67cadb1c9daf8cd
Signed-off-by: Olivier Deprez <olivier.deprez@arm.com>
Signed-off-by: Manish Pandey <manish.pandey2@arm.com>
NOTE: Not all EL-2 system registers are saved/restored.
This subset includes registers recognized by ARMv8.0
Change-Id: I9993c7d78d8f5f8e72d1c6c8d6fd871283aa3ce0
Signed-off-by: Jose Marinho <jose.marinho@arm.com>
Signed-off-by: Olivier Deprez <olivier.deprez@arm.com>
Signed-off-by: Artsem Artsemenka <artsem.artsemenka@arm.com>
Signed-off-by: Max Shvetsov <maksims.svecovs@arm.com>
aarch32 CPUs speculatively execute instructions following a
ERET as if it was not a jump instruction. This could lead to
cache-based side channel vulnerabilities. The software fix is
to place barrier instructions following ERET.
The counterpart patch for aarch64 is merged:
https://git.trustedfirmware.org/TF-A/trusted-firmware-a.git/commit/?id=f461fe346b728d0e88142fd7b8f2816415af18bc
Change-Id: I2aa3105bee0b92238f389830b3a3b8650f33af3d
Signed-off-by: Madhukar Pappireddy <madhukar.pappireddy@arm.com>
* changes:
board/rddaniel: intialize tzc400 controllers
plat/arm/tzc: add support to configure multiple tzc400
plat/arm: allow boards to specify second DRAM Base address
plat/arm: allow boards to define PLAT_ARM_TZC_FILTERS
MISRA C-2012 Rule 20.7:
Macro parameter expands into an expression without being wrapped by parentheses.
MISRA C-2012 Rule 12.1:
Missing explicit parentheses on sub-expression.
MISRA C-2012 Rule 18.4:
Essential type of the left hand operand is not the same as that of the right
operand.
Include does not provide any needed symbols.
Change-Id: Ie1c6451cfbc8f519146c28b2cf15c50b1f36adc8
Signed-off-by: Louis Mayencourt <louis.mayencourt@arm.com>
* changes:
marvell: Consolidate console register calls
uniphier: Use generic console_t data structure
spe: Use generic console_t data structure
LS 16550: Use generic console_t data structure
stm32: Use generic console_t data structure
rcar: Use generic console_t data structure
a3700: Use generic console_t data structure
16550: Use generic console_t data structure
imx: Use generic console_t data structure
Since now the generic console_t structure holds the UART base address as
well, let's use that generic location for the coreboot memory console.
This removes the base member from the coreboot specific data structure,
but keeps the struct console_cbmc_t and its size member.
Change-Id: I7f1dffd41392ba3fe5c07090aea761a42313fb5b
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
Since now the generic console_t structure holds the UART base address as
well, let's use that generic location and drop the UART driver specific
data structure at all.
Change-Id: I7a23327394d142af4b293ea7ccd90b843c54587c
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
Since now the generic console_t structure holds the UART base address as
well, let's use that generic location and drop the UART driver specific
data structure at all.
Change-Id: I07a07677153d3671ced776671e4f107824d3df16
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
*All* UART drivers in TF-A are storing their base address as a uintptr_t
pointer in the first location of the UART specific driver data.
Since the base address is a pretty natural and generic data item, we
should integrate this into the generic console_t structure.
That will not only allow to remove a lot of seemingly UART specific data
structures, but also enables to simplify runtime choices between different
UARTs, since they can share the same pointer.
This patch just adds the new member, the existing data structures will
be handled on a per-UART base in follow-up patches.
Change-Id: I59ce49471ccc8f3b870f2cfd8a72ebfd0cb14d12
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
Since now the generic console_t structure holds the UART base address as
well, let's use that generic location and drop the UART driver specific
data structure at all.
Change-Id: I9f8b55414ab7965e431e3e86d182eabd511f32a4
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
Since now the generic console_t structure holds the UART base address as
well, let's use that generic location and drop the UART driver specific
data structure at all.
Change-Id: Iea6ca26ff4903c33f0fad27fec96fdbabd4e0a91
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
Since now the generic console_t structure holds the UART base address as
well, let's use that generic location and drop the UART driver specific
data structure at all.
Change-Id: I836e26ff1771abf21fd460d0ee40e90a452e9b43
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
Since now the generic console_t structure holds the UART base address as
well, let's use that generic location and drop the UART driver specific
data structure at all.
Change-Id: I89c3ab2ed85ab941d8b38ced48474feb4aaa8b7e
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
Since now the generic console_t structure holds the UART base address as
well, let's use that generic location and drop the UART driver specific
data structure at all.
Change-Id: I5c2fe3b6a667acf80c808cfec4a64059a2c9c25f
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
This patch introduces a build flag which allows the xlat tables
to be mapped in a read-only region within BL31 memory. It makes it
much harder for someone who has acquired the ability to write to
arbitrary secure memory addresses to gain control of the
translation tables.
The memory attributes of the descriptors describing the tables
themselves are changed to read-only secure data. This change
happens at the end of BL31 runtime setup. Until this point, the
tables have read-write permissions. This gives a window of
opportunity for changes to be made to the tables with the MMU on
(e.g. reclaiming init code). No changes can be made to the tables
with the MMU turned on from this point onwards. This change is also
enabled for sp_min and tspd.
To make all this possible, the base table was moved to .rodata. The
penalty we pay is that now .rodata must be aligned to the size of
the base table (512B alignment). Still, this is better than putting
the base table with the higher level tables in the xlat_table
section, as that would cost us a full 4KB page.
Changing the tables from read-write to read-only cannot be done with
the MMU on, as the break-before-make sequence would invalidate the
descriptor which resolves the level 3 page table where that very
descriptor is located. This would make the translation required for
writing the changes impossible, generating an MMU fault.
The caches are also flushed.
Signed-off-by: Petre-Ionut Tudor <petre-ionut.tudor@arm.com>
Change-Id: Ibe5de307e6dc94c67d6186139ac3973516430466
The cookie will be leveraged in the next commit.
Change-Id: Ie8bad275d856d84c27466461cf815529dd860446
Signed-off-by: Sandrine Bailleux <sandrine.bailleux@arm.com>
This new chain of trust defines 2 independent signing domains:
1) One for the silicon firmware (BL1, BL2, BL31) and optionally the
Trusted OS. It is rooted in the Silicon ROTPK, just as in the TBBR
CoT.
2) One for the Normal World Bootloader (BL33). It is rooted in a new key
called Platform ROTPK, or PROTPK for short.
In terms of certificates chain,
- Signing domain 1) is similar to what TBBR advocates (see page 21 of
the TBBR specification), except that the Non-Trusted World Public Key
has been removed from the Trusted Key Certificate.
- Signing domain 2) only contains the Non-Trusted World Content
certificate, which provides the hash of the Non-Trusted World
Bootloader. Compared to the TBBR CoT, there's no Non-Trusted World
Key certificate for simplicity.
Change-Id: I62f1e952522d84470acc360cf5ee63e4c4b0b4d9
Signed-off-by: Sandrine Bailleux <sandrine.bailleux@arm.com>
This patch modifies the delay timer driver to switch to the ARM
secure physical timer instead of using Tegra's on-chip uS timer.
The secure timer is not accessible to the NS world and so eliminates
an important attack vector, where the Tegra timer source gets switched
off from the NS world leading to a DoS attack for the trusted world.
This timer is shared with the S-EL1 layer for now, but later patches
will mark it as exclusive to the EL3 exception mode.
Change-Id: I2c00f8cb4c48b25578971c626c314603906ad7cc
Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
This patch moves the MHZ_TICKS_PER_SEC macro to utils_def.h
for other platforms to use.
Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
Change-Id: I6c4dc733f548d73cfdb3515ec9ad89a9efaf4407
The CPUACTLR_EL1 register on Cortex-A57 CPUs supports a bit to enable
non-cacheable streaming enhancement. Platforms can set this bit only
if their memory system meets the requirement that cache line fill
requests from the Cortex-A57 processor are atomic.
This patch adds support to enable higher performance non-cacheable load
forwarding for such platforms. Platforms must enable this support by
setting the 'A57_ENABLE_NONCACHEABLE_LOAD_FWD' flag from their
makefiles. This flag is disabled by default.
Change-Id: Ib27e55dd68d11a50962c0bbc5b89072208b4bac5
Signed-off-by: Varun Wadekar <vwadekar@nvidia.com>
Removed duplicate error code present for SMCCC and used
proper error code for "SMCCC_ARCH_WORKAROUND_2" call.
Signed-off-by: Manish V Badarkhe <Manish.Badarkhe@arm.com>
Change-Id: I76fc7c88095f78a7e2c3d205838f8eaf3132ed5c
For platforms that have two or more TZC400 controllers instantiated,
allow the TZC400 driver to be usable with all those instances.
This is achieved by allowing 'arm_tzc400_setup' function to accept
the base address of the TZC400 controller.
Change-Id: I4add470e6ddb58432cd066145e644112400ab924
Signed-off-by: Suyash Pathak <suyash.pathak@arm.com>