/* * Copyright (c) 2017-2018, ARM Limited and Contributors. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef __SDEI_H__ #define __SDEI_H__ #include #include /* Range 0xC4000020 - 0xC400003F reserved for SDE 64bit smc calls */ #define SDEI_VERSION 0xC4000020 #define SDEI_EVENT_REGISTER 0xC4000021 #define SDEI_EVENT_ENABLE 0xC4000022 #define SDEI_EVENT_DISABLE 0xC4000023 #define SDEI_EVENT_CONTEXT 0xC4000024 #define SDEI_EVENT_COMPLETE 0xC4000025 #define SDEI_EVENT_COMPLETE_AND_RESUME 0xC4000026 #define SDEI_EVENT_UNREGISTER 0xC4000027 #define SDEI_EVENT_STATUS 0xC4000028 #define SDEI_EVENT_GET_INFO 0xC4000029 #define SDEI_EVENT_ROUTING_SET 0xC400002A #define SDEI_PE_MASK 0xC400002B #define SDEI_PE_UNMASK 0xC400002C #define SDEI_INTERRUPT_BIND 0xC400002D #define SDEI_INTERRUPT_RELEASE 0xC400002E #define SDEI_EVENT_SIGNAL 0xC400002F #define SDEI_FEATURES 0xC4000030 #define SDEI_PRIVATE_RESET 0xC4000031 #define SDEI_SHARED_RESET 0xC4000032 /* SDEI_EVENT_REGISTER flags */ #define SDEI_REGF_RM_ANY 0 #define SDEI_REGF_RM_PE 1 /* SDEI_EVENT_COMPLETE status flags */ #define SDEI_EV_HANDLED 0 #define SDEI_EV_FAILED 1 /* SDE event status values in bit position */ #define SDEI_STATF_REGISTERED 0 #define SDEI_STATF_ENABLED 1 #define SDEI_STATF_RUNNING 2 /* Internal: SDEI flag bit positions */ #define _SDEI_MAPF_DYNAMIC_SHIFT 1 #define _SDEI_MAPF_BOUND_SHIFT 2 #define _SDEI_MAPF_SIGNALABLE_SHIFT 3 #define _SDEI_MAPF_PRIVATE_SHIFT 4 #define _SDEI_MAPF_CRITICAL_SHIFT 5 #define _SDEI_MAPF_EXPLICIT_SHIFT 6 /* SDEI event 0 */ #define SDEI_EVENT_0 0 /* Placeholder interrupt for dynamic mapping */ #define SDEI_DYN_IRQ 0 /* SDEI flags */ /* * These flags determine whether or not an event can be associated with an * interrupt. Static events are permanently associated with an interrupt, and * can't be changed at runtime. Association of dynamic events with interrupts * can be changed at run time using the SDEI_INTERRUPT_BIND and * SDEI_INTERRUPT_RELEASE calls. * * SDEI_MAPF_DYNAMIC only indicates run time configurability, where as * SDEI_MAPF_BOUND indicates interrupt association. For example: * * - Calling SDEI_INTERRUPT_BIND on a dynamic event will have both * SDEI_MAPF_DYNAMIC and SDEI_MAPF_BOUND set. * * - Statically-bound events will always have SDEI_MAPF_BOUND set, and neither * SDEI_INTERRUPT_BIND nor SDEI_INTERRUPT_RELEASE can be called on them. * * See also the is_map_bound() macro. */ #define SDEI_MAPF_DYNAMIC BIT(_SDEI_MAPF_DYNAMIC_SHIFT) #define SDEI_MAPF_BOUND BIT(_SDEI_MAPF_BOUND_SHIFT) #define SDEI_MAPF_EXPLICIT BIT(_SDEI_MAPF_EXPLICIT_SHIFT) #define SDEI_MAPF_SIGNALABLE BIT(_SDEI_MAPF_SIGNALABLE_SHIFT) #define SDEI_MAPF_PRIVATE BIT(_SDEI_MAPF_PRIVATE_SHIFT) #define SDEI_MAPF_NORMAL 0 #define SDEI_MAPF_CRITICAL BIT(_SDEI_MAPF_CRITICAL_SHIFT) /* Indices of private and shared mappings */ #define _SDEI_MAP_IDX_PRIV 0 #define _SDEI_MAP_IDX_SHRD 1 #define _SDEI_MAP_IDX_MAX 2 /* The macros below are used to identify SDEI calls from the SMC function ID */ #define SDEI_FID_MASK U(0xffe0) #define SDEI_FID_VALUE U(0x20) #define is_sdei_fid(_fid) \ ((((_fid) & SDEI_FID_MASK) == SDEI_FID_VALUE) && \ (((_fid >> FUNCID_CC_SHIFT) & FUNCID_CC_MASK) == SMC_64)) #define SDEI_EVENT_MAP(_event, _intr, _flags) \ { \ .ev_num = _event, \ .intr = _intr, \ .map_flags = _flags \ } #define SDEI_SHARED_EVENT(_event, _intr, _flags) \ SDEI_EVENT_MAP(_event, _intr, _flags) #define SDEI_PRIVATE_EVENT(_event, _intr, _flags) \ SDEI_EVENT_MAP(_event, _intr, _flags | SDEI_MAPF_PRIVATE) #define SDEI_DEFINE_EVENT_0(_intr) \ SDEI_PRIVATE_EVENT(SDEI_EVENT_0, _intr, SDEI_MAPF_SIGNALABLE) #define SDEI_EXPLICIT_EVENT(_event, _pri) \ SDEI_EVENT_MAP(_event, 0, _pri | SDEI_MAPF_EXPLICIT | SDEI_MAPF_PRIVATE) /* * Declare shared and private entries for each core. Also declare a global * structure containing private and share entries. * * This macro must be used in the same file as the platform SDEI mappings are * declared. Only then would ARRAY_SIZE() yield a meaningful value. */ #define REGISTER_SDEI_MAP(_private, _shared) \ sdei_entry_t sdei_private_event_table \ [PLATFORM_CORE_COUNT * ARRAY_SIZE(_private)]; \ sdei_entry_t sdei_shared_event_table[ARRAY_SIZE(_shared)]; \ const sdei_mapping_t sdei_global_mappings[] = { \ [_SDEI_MAP_IDX_PRIV] = { \ .map = _private, \ .num_maps = ARRAY_SIZE(_private) \ }, \ [_SDEI_MAP_IDX_SHRD] = { \ .map = _shared, \ .num_maps = ARRAY_SIZE(_shared) \ }, \ } typedef uint8_t sdei_state_t; /* Runtime data of SDEI event */ typedef struct sdei_entry { uint64_t ep; /* Entry point */ uint64_t arg; /* Entry point argument */ uint64_t affinity; /* Affinity of shared event */ unsigned int reg_flags; /* Registration flags */ /* Event handler states: registered, enabled, running */ sdei_state_t state; } sdei_entry_t; /* Mapping of SDEI events to interrupts, and associated data */ typedef struct sdei_ev_map { int32_t ev_num; /* Event number */ unsigned int intr; /* Physical interrupt number for a bound map */ unsigned int map_flags; /* Mapping flags, see SDEI_MAPF_* */ int reg_count; /* Registration count */ spinlock_t lock; /* Per-event lock */ } sdei_ev_map_t; typedef struct sdei_mapping { sdei_ev_map_t *map; size_t num_maps; } sdei_mapping_t; /* Handler to be called to handle SDEI smc calls */ uint64_t sdei_smc_handler(uint32_t smc_fid, uint64_t x1, uint64_t x2, uint64_t x3, uint64_t x4, void *cookie, void *handle, uint64_t flags); void sdei_init(void); /* Public API to dispatch an event to Normal world */ int sdei_dispatch_event(int ev_num, unsigned int preempted_sec_state); #endif /* __SDEI_H__ */