/* * Copyright (c) 2017-2020, ARM Limited and Contributors. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include static struct amu_ctx amu_ctxs[PLATFORM_CORE_COUNT]; /* Check if AMUv1 for Armv8.4 or 8.6 is implemented */ bool amu_supported(void) { uint64_t features = read_id_aa64pfr0_el1() >> ID_AA64PFR0_AMU_SHIFT; features &= ID_AA64PFR0_AMU_MASK; return ((features == 1U) || (features == 2U)); } #if AMU_GROUP1_NR_COUNTERS /* Check if group 1 counters is implemented */ bool amu_group1_supported(void) { uint64_t features = read_amcfgr_el0() >> AMCFGR_EL0_NCG_SHIFT; return (features & AMCFGR_EL0_NCG_MASK) == 1U; } #endif /* * Enable counters. This function is meant to be invoked * by the context management library before exiting from EL3. */ void amu_enable(bool el2_unused) { uint64_t v; if (!amu_supported()) { return; } #if AMU_GROUP1_NR_COUNTERS /* Check and set presence of group 1 counters */ if (!amu_group1_supported()) { ERROR("AMU Counter Group 1 is not implemented\n"); panic(); } /* Check number of group 1 counters */ uint64_t cnt_num = (read_amcgcr_el0() >> AMCGCR_EL0_CG1NC_SHIFT) & AMCGCR_EL0_CG1NC_MASK; VERBOSE("%s%llu. %s%u\n", "Number of AMU Group 1 Counters ", cnt_num, "Requested number ", AMU_GROUP1_NR_COUNTERS); if (cnt_num < AMU_GROUP1_NR_COUNTERS) { ERROR("%s%llu is less than %s%u\n", "Number of AMU Group 1 Counters ", cnt_num, "Requested number ", AMU_GROUP1_NR_COUNTERS); panic(); } #endif if (el2_unused) { /* * CPTR_EL2.TAM: Set to zero so any accesses to * the Activity Monitor registers do not trap to EL2. */ v = read_cptr_el2(); v &= ~CPTR_EL2_TAM_BIT; write_cptr_el2(v); } /* * CPTR_EL3.TAM: Set to zero so that any accesses to * the Activity Monitor registers do not trap to EL3. */ v = read_cptr_el3(); v &= ~TAM_BIT; write_cptr_el3(v); /* Enable group 0 counters */ write_amcntenset0_el0(AMU_GROUP0_COUNTERS_MASK); #if AMU_GROUP1_NR_COUNTERS /* Enable group 1 counters */ write_amcntenset1_el0(AMU_GROUP1_COUNTERS_MASK); #endif } /* Read the group 0 counter identified by the given `idx`. */ uint64_t amu_group0_cnt_read(unsigned int idx) { assert(amu_supported()); assert(idx < AMU_GROUP0_NR_COUNTERS); return amu_group0_cnt_read_internal(idx); } /* Write the group 0 counter identified by the given `idx` with `val` */ void amu_group0_cnt_write(unsigned int idx, uint64_t val) { assert(amu_supported()); assert(idx < AMU_GROUP0_NR_COUNTERS); amu_group0_cnt_write_internal(idx, val); isb(); } #if AMU_GROUP1_NR_COUNTERS /* Read the group 1 counter identified by the given `idx` */ uint64_t amu_group1_cnt_read(unsigned int idx) { assert(amu_supported()); assert(amu_group1_supported()); assert(idx < AMU_GROUP1_NR_COUNTERS); return amu_group1_cnt_read_internal(idx); } /* Write the group 1 counter identified by the given `idx` with `val` */ void amu_group1_cnt_write(unsigned int idx, uint64_t val) { assert(amu_supported()); assert(amu_group1_supported()); assert(idx < AMU_GROUP1_NR_COUNTERS); amu_group1_cnt_write_internal(idx, val); isb(); } /* * Program the event type register for the given `idx` with * the event number `val` */ void amu_group1_set_evtype(unsigned int idx, unsigned int val) { assert(amu_supported()); assert(amu_group1_supported()); assert(idx < AMU_GROUP1_NR_COUNTERS); amu_group1_set_evtype_internal(idx, val); isb(); } #endif /* AMU_GROUP1_NR_COUNTERS */ static void *amu_context_save(const void *arg) { struct amu_ctx *ctx = &amu_ctxs[plat_my_core_pos()]; unsigned int i; if (!amu_supported()) { return (void *)-1; } #if AMU_GROUP1_NR_COUNTERS if (!amu_group1_supported()) { return (void *)-1; } #endif /* Assert that group 0/1 counter configuration is what we expect */ assert(read_amcntenset0_el0() == AMU_GROUP0_COUNTERS_MASK); #if AMU_GROUP1_NR_COUNTERS assert(read_amcntenset1_el0() == AMU_GROUP1_COUNTERS_MASK); #endif /* * Disable group 0/1 counters to avoid other observers like SCP sampling * counter values from the future via the memory mapped view. */ write_amcntenclr0_el0(AMU_GROUP0_COUNTERS_MASK); #if AMU_GROUP1_NR_COUNTERS write_amcntenclr1_el0(AMU_GROUP1_COUNTERS_MASK); #endif isb(); /* Save all group 0 counters */ for (i = 0U; i < AMU_GROUP0_NR_COUNTERS; i++) { ctx->group0_cnts[i] = amu_group0_cnt_read(i); } #if AMU_GROUP1_NR_COUNTERS /* Save group 1 counters */ for (i = 0U; i < AMU_GROUP1_NR_COUNTERS; i++) { if ((AMU_GROUP1_COUNTERS_MASK & (1U << i)) != 0U) { ctx->group1_cnts[i] = amu_group1_cnt_read(i); } } #endif return (void *)0; } static void *amu_context_restore(const void *arg) { struct amu_ctx *ctx = &amu_ctxs[plat_my_core_pos()]; unsigned int i; if (!amu_supported()) { return (void *)-1; } #if AMU_GROUP1_NR_COUNTERS if (!amu_group1_supported()) { return (void *)-1; } #endif /* Counters were disabled in `amu_context_save()` */ assert(read_amcntenset0_el0() == 0U); #if AMU_GROUP1_NR_COUNTERS assert(read_amcntenset1_el0() == 0U); #endif /* Restore all group 0 counters */ for (i = 0U; i < AMU_GROUP0_NR_COUNTERS; i++) { amu_group0_cnt_write(i, ctx->group0_cnts[i]); } /* Restore group 0 counter configuration */ write_amcntenset0_el0(AMU_GROUP0_COUNTERS_MASK); #if AMU_GROUP1_NR_COUNTERS /* Restore group 1 counters */ for (i = 0U; i < AMU_GROUP1_NR_COUNTERS; i++) { if ((AMU_GROUP1_COUNTERS_MASK & (1U << i)) != 0U) { amu_group1_cnt_write(i, ctx->group1_cnts[i]); } } /* Restore group 1 counter configuration */ write_amcntenset1_el0(AMU_GROUP1_COUNTERS_MASK); #endif return (void *)0; } SUBSCRIBE_TO_EVENT(psci_suspend_pwrdown_start, amu_context_save); SUBSCRIBE_TO_EVENT(psci_suspend_pwrdown_finish, amu_context_restore);