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arm-trusted-firmware/common/feat_detect.c
Boyan Karatotev 83a4dae1af refactor(pmu): convert FEAT_MTPMU to C and move to persistent register init 
The FEAT_MTPMU feature disable runs very early after reset. This means,
it needs to be written in assembly, since the C runtime has not been
initialised yet.

However, there is no need for it to be initialised so soon. The PMU
state is only relevant after TF-A has relinquished control. The code
to do this is also very verbose and difficult to read. Delaying the
initialisation allows for it to happen with the rest of the PMU. Align
with FEAT_STATE in the process.

BREAKING CHANGE: This patch explicitly breaks the EL2 entry path. It is
currently unsupported.

Signed-off-by: Boyan Karatotev <boyan.karatotev@arm.com>
Change-Id: I2aa659d026fbdb75152469f6d19812ece3488c6f
2023-06-29 09:59:06 +01:00

237 lines
8.8 KiB
C
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/*
* Copyright (c) 2022-2023, Arm Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch_features.h>
#include <common/debug.h>
#include <common/feat_detect.h>
static bool tainted;
/*******************************************************************************
* This section lists the wrapper modules for each feature to evaluate the
* feature states (FEAT_STATE_ALWAYS and FEAT_STATE_CHECK) and perform
* necessary action as below:
*
* It verifies whether the FEAT_XXX (eg: FEAT_SB) is supported by the PE or not.
* Without this check an exception would occur during context save/restore
* routines, if the feature is enabled but not supported by PE.
******************************************************************************/
#define feat_detect_panic(a, b) ((a) ? (void)0 : feature_panic(b))
/*******************************************************************************
* Function : feature_panic
* Customised panic function with error logging mechanism to list the feature
* not supported by the PE.
******************************************************************************/
static inline void feature_panic(char *feat_name)
{
ERROR("FEAT_%s not supported by the PE\n", feat_name);
panic();
}
/*******************************************************************************
* Function : check_feature
* Check for a valid combination of build time flags (ENABLE_FEAT_xxx) and
* feature availability on the hardware. <min> is the smallest feature
* ID field value that is required for that feature.
* Triggers a panic later if a feature is forcefully enabled, but not
* available on the PE. Also will panic if the hardware feature ID field
* is larger than the maximum known and supported number, specified by <max>.
*
* We force inlining here to let the compiler optimise away the whole check
* if the feature is disabled at build time (FEAT_STATE_DISABLED).
******************************************************************************/
static inline void __attribute((__always_inline__))
check_feature(int state, unsigned long field, const char *feat_name,
unsigned int min, unsigned int max)
{
if (state == FEAT_STATE_ALWAYS && field < min) {
ERROR("FEAT_%s not supported by the PE\n", feat_name);
tainted = true;
}
if (state >= FEAT_STATE_ALWAYS && field > max) {
ERROR("FEAT_%s is version %ld, but is only known up to version %d\n",
feat_name, field, max);
tainted = true;
}
}
/************************************************
* Feature : FEAT_PAUTH (Pointer Authentication)
***********************************************/
static void read_feat_pauth(void)
{
#if (ENABLE_PAUTH == FEAT_STATE_ALWAYS) || (CTX_INCLUDE_PAUTH_REGS == FEAT_STATE_ALWAYS)
feat_detect_panic(is_armv8_3_pauth_present(), "PAUTH");
#endif
}
/************************************************
* Feature : FEAT_MTE (Memory Tagging Extension)
***********************************************/
static void read_feat_mte(void)
{
#if (CTX_INCLUDE_MTE_REGS == FEAT_STATE_ALWAYS)
unsigned int mte = get_armv8_5_mte_support();
feat_detect_panic((mte != MTE_UNIMPLEMENTED), "MTE");
#endif
}
/****************************************************
* Feature : FEAT_BTI (Branch Target Identification)
***************************************************/
static void read_feat_bti(void)
{
#if (ENABLE_BTI == FEAT_STATE_ALWAYS)
feat_detect_panic(is_armv8_5_bti_present(), "BTI");
#endif
}
/**************************************************
* Feature : FEAT_RME (Realm Management Extension)
*************************************************/
static void read_feat_rme(void)
{
#if (ENABLE_RME == FEAT_STATE_ALWAYS)
feat_detect_panic((get_armv9_2_feat_rme_support() !=
ID_AA64PFR0_FEAT_RME_NOT_SUPPORTED), "RME");
#endif
}
/******************************************************************
* Feature : FEAT_RNG_TRAP (Trapping support for RNDR/RNDRRS)
*****************************************************************/
static void read_feat_rng_trap(void)
{
#if (ENABLE_FEAT_RNG_TRAP == FEAT_STATE_ALWAYS)
feat_detect_panic(is_feat_rng_trap_present(), "RNG_TRAP");
#endif
}
/***********************************************************************************
* TF-A supports many Arm architectural features starting from arch version
* (8.0 till 8.7+). These features are mostly enabled through build flags. This
* mechanism helps in validating these build flags in the early boot phase
* either in BL1 or BL31 depending on the platform and assists in identifying
* and notifying the features which are enabled but not supported by the PE.
*
* It reads all the enabled features ID-registers and ensures the features
* are supported by the PE.
* In case if they aren't it stops booting at an early phase and logs the error
* messages, notifying the platforms about the features that are not supported.
*
* Further the procedure is implemented with a tri-state approach for each feature:
* ENABLE_FEAT_xxx = 0 : The feature is disabled statically at compile time
* ENABLE_FEAT_xxx = 1 : The feature is enabled and must be present in hardware.
* There will be panic if feature is not present at cold boot.
* ENABLE_FEAT_xxx = 2 : The feature is enabled but dynamically enabled at runtime
* depending on hardware capability.
*
* For better readability, state values are defined with macros, namely:
* { FEAT_STATE_DISABLED, FEAT_STATE_ALWAYS, FEAT_STATE_CHECK }, taking values
* { 0, 1, 2 }, respectively, as their naming.
**********************************************************************************/
void detect_arch_features(void)
{
tainted = false;
/* v8.0 features */
check_feature(ENABLE_FEAT_SB, read_feat_sb_id_field(), "SB", 1, 1);
check_feature(ENABLE_FEAT_CSV2_2, read_feat_csv2_id_field(),
"CSV2_2", 2, 3);
/*
* Even though the PMUv3 is an OPTIONAL feature, it is always
* implemented and Arm prescribes so. So assume it will be there and do
* away with a flag for it. This is used to check minor PMUv3px
* revisions so that we catch them as they come along
*/
check_feature(FEAT_STATE_ALWAYS, read_feat_pmuv3_id_field(),
"PMUv3", 1, ID_AA64DFR0_PMUVER_PMUV3P7);
/* v8.1 features */
check_feature(ENABLE_FEAT_PAN, read_feat_pan_id_field(), "PAN", 1, 3);
check_feature(ENABLE_FEAT_VHE, read_feat_vhe_id_field(), "VHE", 1, 1);
/* v8.2 features */
check_feature(ENABLE_SVE_FOR_NS, read_feat_sve_id_field(),
"SVE", 1, 1);
check_feature(ENABLE_FEAT_RAS, read_feat_ras_id_field(), "RAS", 1, 2);
/* v8.3 features */
read_feat_pauth();
/* v8.4 features */
check_feature(ENABLE_FEAT_DIT, read_feat_dit_id_field(), "DIT", 1, 1);
check_feature(ENABLE_FEAT_AMU, read_feat_amu_id_field(),
"AMUv1", 1, 2);
check_feature(ENABLE_MPAM_FOR_LOWER_ELS, read_feat_mpam_version(),
"MPAM", 1, 17);
check_feature(CTX_INCLUDE_NEVE_REGS, read_feat_nv_id_field(),
"NV2", 2, 2);
check_feature(ENABLE_FEAT_SEL2, read_feat_sel2_id_field(),
"SEL2", 1, 1);
check_feature(ENABLE_TRF_FOR_NS, read_feat_trf_id_field(),
"TRF", 1, 1);
/* v8.5 features */
read_feat_mte();
check_feature(ENABLE_FEAT_RNG, read_feat_rng_id_field(), "RNG", 1, 1);
read_feat_bti();
read_feat_rng_trap();
/* v8.6 features */
check_feature(ENABLE_FEAT_AMUv1p1, read_feat_amu_id_field(),
"AMUv1p1", 2, 2);
check_feature(ENABLE_FEAT_FGT, read_feat_fgt_id_field(), "FGT", 1, 1);
check_feature(ENABLE_FEAT_ECV, read_feat_ecv_id_field(), "ECV", 1, 2);
check_feature(ENABLE_FEAT_TWED, read_feat_twed_id_field(),
"TWED", 1, 1);
/*
* even though this is a "DISABLE" it does confusingly perform feature
* enablement duties like all other flags here. Check it against the HW
* feature when we intend to diverge from the default behaviour
*/
check_feature(DISABLE_MTPMU, read_feat_mtpmu_id_field(), "MTPMU", 1, 1);
/* v8.7 features */
check_feature(ENABLE_FEAT_HCX, read_feat_hcx_id_field(), "HCX", 1, 1);
/* v8.9 features */
check_feature(ENABLE_FEAT_TCR2, read_feat_tcrx_id_field(),
"TCR2", 1, 1);
check_feature(ENABLE_FEAT_S2PIE, read_feat_s2pie_id_field(),
"S2PIE", 1, 1);
check_feature(ENABLE_FEAT_S1PIE, read_feat_s1pie_id_field(),
"S1PIE", 1, 1);
check_feature(ENABLE_FEAT_S2POE, read_feat_s2poe_id_field(),
"S2POE", 1, 1);
check_feature(ENABLE_FEAT_S1POE, read_feat_s1poe_id_field(),
"S1POE", 1, 1);
/* v9.0 features */
check_feature(ENABLE_BRBE_FOR_NS, read_feat_brbe_id_field(),
"BRBE", 1, 2);
check_feature(ENABLE_TRBE_FOR_NS, read_feat_trbe_id_field(),
"TRBE", 1, 1);
/* v9.2 features */
check_feature(ENABLE_SME_FOR_NS, read_feat_sme_id_field(),
"SME", 1, 2);
check_feature(ENABLE_SME2_FOR_NS, read_feat_sme_id_field(),
"SME2", 2, 2);
/* v9.4 features */
check_feature(ENABLE_FEAT_GCS, read_feat_gcs_id_field(), "GCS", 1, 1);
read_feat_rme();
if (tainted) {
panic();
}
}
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