/* * Copyright (c) 2018, ARM Limited and Contributors. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include #include #include #include static int sgi_ras_intr_handler(const struct err_record_info *err_rec, int probe_data, const struct err_handler_data *const data); struct efi_guid { uint32_t data1; uint16_t data2; uint16_t data3; uint8_t data4[8]; }; typedef struct mm_communicate_header { struct efi_guid header_guid; size_t message_len; uint8_t data[8]; } mm_communicate_header_t; struct sgi_ras_ev_map sgi575_ras_map[] = { /* DMC620 error overflow interrupt*/ {SP_DMC_ERROR_OVERFLOW_EVENT_AARCH64, SGI_SDEI_DS_EVENT_1, 33}, /* DMC620 error ECC error interrupt*/ {SP_DMC_ERROR_ECC_EVENT_AARCH64, SGI_SDEI_DS_EVENT_0, 35}, }; #define SGI575_RAS_MAP_SIZE ARRAY_SIZE(sgi575_ras_map) struct err_record_info sgi_err_records[] = { { .handler = &sgi_ras_intr_handler, }, }; struct ras_interrupt sgi_ras_interrupts[] = { { .intr_number = 33, .err_record = &sgi_err_records[0], }, { .intr_number = 35, .err_record = &sgi_err_records[0], } }; REGISTER_ERR_RECORD_INFO(sgi_err_records); REGISTER_RAS_INTERRUPTS(sgi_ras_interrupts); static struct sgi_ras_ev_map *plat_sgi_get_ras_ev_map(void) { return sgi575_ras_map; } static int plat_sgi_get_ras_ev_map_size(void) { return SGI575_RAS_MAP_SIZE; } /* * Find event mapping for a given interrupt number: On success, returns pointer * to the event mapping. On error, returns NULL. */ static struct sgi_ras_ev_map *find_ras_event_map_by_intr(uint32_t intr_num) { struct sgi_ras_ev_map *map = plat_sgi_get_ras_ev_map(); int i; int size = plat_sgi_get_ras_ev_map_size(); for (i = 0; i < size; i++) { if (map->intr == intr_num) return map; map++; } return NULL; } static void sgi_ras_intr_configure(int intr) { plat_ic_set_interrupt_type(intr, INTR_TYPE_EL3); plat_ic_set_interrupt_priority(intr, PLAT_RAS_PRI); plat_ic_clear_interrupt_pending(intr); plat_ic_set_spi_routing(intr, INTR_ROUTING_MODE_ANY, (u_register_t)read_mpidr_el1()); plat_ic_enable_interrupt(intr); } static int sgi_ras_intr_handler(const struct err_record_info *err_rec, int probe_data, const struct err_handler_data *const data) { struct sgi_ras_ev_map *ras_map; mm_communicate_header_t *header; uint32_t intr; cm_el1_sysregs_context_save(NON_SECURE); intr = data->interrupt; /* * Find if this is a RAS interrupt. There must be an event against * this interrupt */ ras_map = find_ras_event_map_by_intr(intr); assert(ras_map); /* * Populate the MM_COMMUNICATE payload to share the * event info with StandaloneMM code. This allows us to use * MM_COMMUNICATE as a common entry mechanism into S-EL0. The * header data will be parsed in StandaloneMM to process the * corresponding event. * * TBD - Currently, the buffer allocated by SPM for communication * between EL3 and S-EL0 is being used(PLAT_SPM_BUF_BASE). But this * should happen via a dynamic mem allocation, which should be * managed by SPM -- the individual platforms then call the mem * alloc api to get memory for the payload. */ header = (void *) PLAT_SPM_BUF_BASE; memset(header, 0, sizeof(*header)); memcpy(&header->data, &ras_map->ras_ev_num, sizeof(ras_map->ras_ev_num)); header->message_len = 4; spm_sp_call(MM_COMMUNICATE_AARCH64, (uint64_t)header, 0, plat_my_core_pos()); /* * Do an EOI of the RAS interuupt. This allows the * sdei event to be dispatched at the SDEI event's * priority. */ plat_ic_end_of_interrupt(intr); /* Dispatch the event to the SDEI client */ sdei_dispatch_event(ras_map->sdei_ev_num); return 0; } int sgi_ras_intr_handler_setup(void) { int i; struct sgi_ras_ev_map *map = plat_sgi_get_ras_ev_map(); int size = plat_sgi_get_ras_ev_map_size(); for (i = 0; i < size; i++) { sgi_ras_intr_configure(map->intr); map++; } INFO("SGI: RAS Interrupt Handler successfully registered\n"); return 0; }