121b818c0SJeenu Viswambharan /* 221b818c0SJeenu Viswambharan * Copyright (c) 2017, ARM Limited and Contributors. All rights reserved. 321b818c0SJeenu Viswambharan * 421b818c0SJeenu Viswambharan * SPDX-License-Identifier: BSD-3-Clause 521b818c0SJeenu Viswambharan */ 621b818c0SJeenu Viswambharan 721b818c0SJeenu Viswambharan /* 821b818c0SJeenu Viswambharan * Exception handlers at EL3, their priority levels, and management. 921b818c0SJeenu Viswambharan */ 1021b818c0SJeenu Viswambharan 1121b818c0SJeenu Viswambharan #include <assert.h> 1221b818c0SJeenu Viswambharan #include <cpu_data.h> 1321b818c0SJeenu Viswambharan #include <debug.h> 1421b818c0SJeenu Viswambharan #include <ehf.h> 15*3d732e23SJeenu Viswambharan #include <gic_common.h> 1621b818c0SJeenu Viswambharan #include <interrupt_mgmt.h> 1721b818c0SJeenu Viswambharan #include <platform.h> 18*3d732e23SJeenu Viswambharan #include <pubsub_events.h> 1921b818c0SJeenu Viswambharan 2021b818c0SJeenu Viswambharan /* Output EHF logs as verbose */ 2121b818c0SJeenu Viswambharan #define EHF_LOG(...) VERBOSE("EHF: " __VA_ARGS__) 2221b818c0SJeenu Viswambharan 2321b818c0SJeenu Viswambharan #define EHF_INVALID_IDX (-1) 2421b818c0SJeenu Viswambharan 2521b818c0SJeenu Viswambharan /* For a valid handler, return the actual function pointer; otherwise, 0. */ 2621b818c0SJeenu Viswambharan #define RAW_HANDLER(h) \ 2721b818c0SJeenu Viswambharan ((ehf_handler_t) ((h & _EHF_PRI_VALID) ? (h & ~_EHF_PRI_VALID) : 0)) 2821b818c0SJeenu Viswambharan 2921b818c0SJeenu Viswambharan #define PRI_BIT(idx) (((ehf_pri_bits_t) 1) << idx) 3021b818c0SJeenu Viswambharan 3121b818c0SJeenu Viswambharan /* 3221b818c0SJeenu Viswambharan * Convert index into secure priority using the platform-defined priority bits 3321b818c0SJeenu Viswambharan * field. 3421b818c0SJeenu Viswambharan */ 3521b818c0SJeenu Viswambharan #define IDX_TO_PRI(idx) \ 3621b818c0SJeenu Viswambharan ((idx << (7 - exception_data.pri_bits)) & 0x7f) 3721b818c0SJeenu Viswambharan 3821b818c0SJeenu Viswambharan /* Check whether a given index is valid */ 3921b818c0SJeenu Viswambharan #define IS_IDX_VALID(idx) \ 4021b818c0SJeenu Viswambharan ((exception_data.ehf_priorities[idx].ehf_handler & _EHF_PRI_VALID) != 0) 4121b818c0SJeenu Viswambharan 4221b818c0SJeenu Viswambharan /* Returns whether given priority is in secure priority range */ 4321b818c0SJeenu Viswambharan #define IS_PRI_SECURE(pri) ((pri & 0x80) == 0) 4421b818c0SJeenu Viswambharan 4521b818c0SJeenu Viswambharan /* To be defined by the platform */ 4621b818c0SJeenu Viswambharan extern const ehf_priorities_t exception_data; 4721b818c0SJeenu Viswambharan 4821b818c0SJeenu Viswambharan /* Translate priority to the index in the priority array */ 4921b818c0SJeenu Viswambharan static int pri_to_idx(unsigned int priority) 5021b818c0SJeenu Viswambharan { 5121b818c0SJeenu Viswambharan int idx; 5221b818c0SJeenu Viswambharan 5321b818c0SJeenu Viswambharan idx = EHF_PRI_TO_IDX(priority, exception_data.pri_bits); 5421b818c0SJeenu Viswambharan assert((idx >= 0) && (idx < exception_data.num_priorities)); 5521b818c0SJeenu Viswambharan assert(IS_IDX_VALID(idx)); 5621b818c0SJeenu Viswambharan 5721b818c0SJeenu Viswambharan return idx; 5821b818c0SJeenu Viswambharan } 5921b818c0SJeenu Viswambharan 6021b818c0SJeenu Viswambharan /* Return whether there are outstanding priority activation */ 6121b818c0SJeenu Viswambharan static int has_valid_pri_activations(pe_exc_data_t *pe_data) 6221b818c0SJeenu Viswambharan { 6321b818c0SJeenu Viswambharan return pe_data->active_pri_bits != 0; 6421b818c0SJeenu Viswambharan } 6521b818c0SJeenu Viswambharan 6621b818c0SJeenu Viswambharan static pe_exc_data_t *this_cpu_data(void) 6721b818c0SJeenu Viswambharan { 6821b818c0SJeenu Viswambharan return &get_cpu_data(ehf_data); 6921b818c0SJeenu Viswambharan } 7021b818c0SJeenu Viswambharan 7121b818c0SJeenu Viswambharan /* 7221b818c0SJeenu Viswambharan * Return the current priority index of this CPU. If no priority is active, 7321b818c0SJeenu Viswambharan * return EHF_INVALID_IDX. 7421b818c0SJeenu Viswambharan */ 7521b818c0SJeenu Viswambharan static int get_pe_highest_active_idx(pe_exc_data_t *pe_data) 7621b818c0SJeenu Viswambharan { 7721b818c0SJeenu Viswambharan if (!has_valid_pri_activations(pe_data)) 7821b818c0SJeenu Viswambharan return EHF_INVALID_IDX; 7921b818c0SJeenu Viswambharan 8021b818c0SJeenu Viswambharan /* Current priority is the right-most bit */ 8121b818c0SJeenu Viswambharan return __builtin_ctz(pe_data->active_pri_bits); 8221b818c0SJeenu Viswambharan } 8321b818c0SJeenu Viswambharan 8421b818c0SJeenu Viswambharan /* 8521b818c0SJeenu Viswambharan * Mark priority active by setting the corresponding bit in active_pri_bits and 8621b818c0SJeenu Viswambharan * programming the priority mask. 8721b818c0SJeenu Viswambharan * 8821b818c0SJeenu Viswambharan * This API is to be used as part of delegating to lower ELs other than for 8921b818c0SJeenu Viswambharan * interrupts; e.g. while handling synchronous exceptions. 9021b818c0SJeenu Viswambharan * 9121b818c0SJeenu Viswambharan * This API is expected to be invoked before restoring context (Secure or 9221b818c0SJeenu Viswambharan * Non-secure) in preparation for the respective dispatch. 9321b818c0SJeenu Viswambharan */ 9421b818c0SJeenu Viswambharan void ehf_activate_priority(unsigned int priority) 9521b818c0SJeenu Viswambharan { 9621b818c0SJeenu Viswambharan int idx, cur_pri_idx; 9721b818c0SJeenu Viswambharan unsigned int old_mask, run_pri; 9821b818c0SJeenu Viswambharan pe_exc_data_t *pe_data = this_cpu_data(); 9921b818c0SJeenu Viswambharan 10021b818c0SJeenu Viswambharan /* 10121b818c0SJeenu Viswambharan * Query interrupt controller for the running priority, or idle priority 10221b818c0SJeenu Viswambharan * if no interrupts are being handled. The requested priority must be 10321b818c0SJeenu Viswambharan * less (higher priority) than the active running priority. 10421b818c0SJeenu Viswambharan */ 10521b818c0SJeenu Viswambharan run_pri = plat_ic_get_running_priority(); 10621b818c0SJeenu Viswambharan if (priority >= run_pri) { 10721b818c0SJeenu Viswambharan ERROR("Running priority higher (0x%x) than requested (0x%x)\n", 10821b818c0SJeenu Viswambharan run_pri, priority); 10921b818c0SJeenu Viswambharan panic(); 11021b818c0SJeenu Viswambharan } 11121b818c0SJeenu Viswambharan 11221b818c0SJeenu Viswambharan /* 11321b818c0SJeenu Viswambharan * If there were priority activations already, the requested priority 11421b818c0SJeenu Viswambharan * must be less (higher priority) than the current highest priority 11521b818c0SJeenu Viswambharan * activation so far. 11621b818c0SJeenu Viswambharan */ 11721b818c0SJeenu Viswambharan cur_pri_idx = get_pe_highest_active_idx(pe_data); 11821b818c0SJeenu Viswambharan idx = pri_to_idx(priority); 11921b818c0SJeenu Viswambharan if ((cur_pri_idx != EHF_INVALID_IDX) && (idx >= cur_pri_idx)) { 12021b818c0SJeenu Viswambharan ERROR("Activation priority mismatch: req=0x%x current=0x%x\n", 12121b818c0SJeenu Viswambharan priority, IDX_TO_PRI(cur_pri_idx)); 12221b818c0SJeenu Viswambharan panic(); 12321b818c0SJeenu Viswambharan } 12421b818c0SJeenu Viswambharan 12521b818c0SJeenu Viswambharan /* Set the bit corresponding to the requested priority */ 12621b818c0SJeenu Viswambharan pe_data->active_pri_bits |= PRI_BIT(idx); 12721b818c0SJeenu Viswambharan 12821b818c0SJeenu Viswambharan /* 12921b818c0SJeenu Viswambharan * Program priority mask for the activated level. Check that the new 13021b818c0SJeenu Viswambharan * priority mask is setting a higher priority level than the existing 13121b818c0SJeenu Viswambharan * mask. 13221b818c0SJeenu Viswambharan */ 13321b818c0SJeenu Viswambharan old_mask = plat_ic_set_priority_mask(priority); 13421b818c0SJeenu Viswambharan if (priority >= old_mask) { 13521b818c0SJeenu Viswambharan ERROR("Requested priority (0x%x) lower than Priority Mask (0x%x)\n", 13621b818c0SJeenu Viswambharan priority, old_mask); 13721b818c0SJeenu Viswambharan panic(); 13821b818c0SJeenu Viswambharan } 13921b818c0SJeenu Viswambharan 14021b818c0SJeenu Viswambharan /* 14121b818c0SJeenu Viswambharan * If this is the first activation, save the priority mask. This will be 14221b818c0SJeenu Viswambharan * restored after the last deactivation. 14321b818c0SJeenu Viswambharan */ 14421b818c0SJeenu Viswambharan if (cur_pri_idx == EHF_INVALID_IDX) 14521b818c0SJeenu Viswambharan pe_data->init_pri_mask = old_mask; 14621b818c0SJeenu Viswambharan 14721b818c0SJeenu Viswambharan EHF_LOG("activate prio=%d\n", get_pe_highest_active_idx(pe_data)); 14821b818c0SJeenu Viswambharan } 14921b818c0SJeenu Viswambharan 15021b818c0SJeenu Viswambharan /* 15121b818c0SJeenu Viswambharan * Mark priority inactive by clearing the corresponding bit in active_pri_bits, 15221b818c0SJeenu Viswambharan * and programming the priority mask. 15321b818c0SJeenu Viswambharan * 15421b818c0SJeenu Viswambharan * This API is expected to be used as part of delegating to to lower ELs other 15521b818c0SJeenu Viswambharan * than for interrupts; e.g. while handling synchronous exceptions. 15621b818c0SJeenu Viswambharan * 15721b818c0SJeenu Viswambharan * This API is expected to be invoked after saving context (Secure or 15821b818c0SJeenu Viswambharan * Non-secure), having concluded the respective dispatch. 15921b818c0SJeenu Viswambharan */ 16021b818c0SJeenu Viswambharan void ehf_deactivate_priority(unsigned int priority) 16121b818c0SJeenu Viswambharan { 16221b818c0SJeenu Viswambharan int idx, cur_pri_idx; 16321b818c0SJeenu Viswambharan pe_exc_data_t *pe_data = this_cpu_data(); 16421b818c0SJeenu Viswambharan unsigned int old_mask, run_pri; 16521b818c0SJeenu Viswambharan 16621b818c0SJeenu Viswambharan /* 16721b818c0SJeenu Viswambharan * Query interrupt controller for the running priority, or idle priority 16821b818c0SJeenu Viswambharan * if no interrupts are being handled. The requested priority must be 16921b818c0SJeenu Viswambharan * less (higher priority) than the active running priority. 17021b818c0SJeenu Viswambharan */ 17121b818c0SJeenu Viswambharan run_pri = plat_ic_get_running_priority(); 17221b818c0SJeenu Viswambharan if (priority >= run_pri) { 17321b818c0SJeenu Viswambharan ERROR("Running priority higher (0x%x) than requested (0x%x)\n", 17421b818c0SJeenu Viswambharan run_pri, priority); 17521b818c0SJeenu Viswambharan panic(); 17621b818c0SJeenu Viswambharan } 17721b818c0SJeenu Viswambharan 17821b818c0SJeenu Viswambharan /* 17921b818c0SJeenu Viswambharan * Deactivation is allowed only when there are priority activations, and 18021b818c0SJeenu Viswambharan * the deactivation priority level must match the current activated 18121b818c0SJeenu Viswambharan * priority. 18221b818c0SJeenu Viswambharan */ 18321b818c0SJeenu Viswambharan cur_pri_idx = get_pe_highest_active_idx(pe_data); 18421b818c0SJeenu Viswambharan idx = pri_to_idx(priority); 18521b818c0SJeenu Viswambharan if ((cur_pri_idx == EHF_INVALID_IDX) || (idx != cur_pri_idx)) { 18621b818c0SJeenu Viswambharan ERROR("Deactivation priority mismatch: req=0x%x current=0x%x\n", 18721b818c0SJeenu Viswambharan priority, IDX_TO_PRI(cur_pri_idx)); 18821b818c0SJeenu Viswambharan panic(); 18921b818c0SJeenu Viswambharan } 19021b818c0SJeenu Viswambharan 19121b818c0SJeenu Viswambharan /* Clear bit corresponding to highest priority */ 19221b818c0SJeenu Viswambharan pe_data->active_pri_bits &= (pe_data->active_pri_bits - 1); 19321b818c0SJeenu Viswambharan 19421b818c0SJeenu Viswambharan /* 19521b818c0SJeenu Viswambharan * Restore priority mask corresponding to the next priority, or the 19621b818c0SJeenu Viswambharan * one stashed earlier if there are no more to deactivate. 19721b818c0SJeenu Viswambharan */ 19821b818c0SJeenu Viswambharan idx = get_pe_highest_active_idx(pe_data); 19921b818c0SJeenu Viswambharan if (idx == EHF_INVALID_IDX) 20021b818c0SJeenu Viswambharan old_mask = plat_ic_set_priority_mask(pe_data->init_pri_mask); 20121b818c0SJeenu Viswambharan else 20221b818c0SJeenu Viswambharan old_mask = plat_ic_set_priority_mask(priority); 20321b818c0SJeenu Viswambharan 20421b818c0SJeenu Viswambharan if (old_mask >= priority) { 20521b818c0SJeenu Viswambharan ERROR("Deactivation priority (0x%x) lower than Priority Mask (0x%x)\n", 20621b818c0SJeenu Viswambharan priority, old_mask); 20721b818c0SJeenu Viswambharan panic(); 20821b818c0SJeenu Viswambharan } 20921b818c0SJeenu Viswambharan 21021b818c0SJeenu Viswambharan EHF_LOG("deactivate prio=%d\n", get_pe_highest_active_idx(pe_data)); 21121b818c0SJeenu Viswambharan } 21221b818c0SJeenu Viswambharan 21321b818c0SJeenu Viswambharan /* 214*3d732e23SJeenu Viswambharan * After leaving Non-secure world, stash current Non-secure Priority Mask, and 215*3d732e23SJeenu Viswambharan * set Priority Mask to the highest Non-secure priority so that Non-secure 216*3d732e23SJeenu Viswambharan * interrupts cannot preempt Secure execution. 217*3d732e23SJeenu Viswambharan * 218*3d732e23SJeenu Viswambharan * If the current running priority is in the secure range, or if there are 219*3d732e23SJeenu Viswambharan * outstanding priority activations, this function does nothing. 220*3d732e23SJeenu Viswambharan * 221*3d732e23SJeenu Viswambharan * This function subscribes to the 'cm_exited_normal_world' event published by 222*3d732e23SJeenu Viswambharan * the Context Management Library. 223*3d732e23SJeenu Viswambharan */ 224*3d732e23SJeenu Viswambharan static void *ehf_exited_normal_world(const void *arg) 225*3d732e23SJeenu Viswambharan { 226*3d732e23SJeenu Viswambharan unsigned int run_pri; 227*3d732e23SJeenu Viswambharan pe_exc_data_t *pe_data = this_cpu_data(); 228*3d732e23SJeenu Viswambharan 229*3d732e23SJeenu Viswambharan /* If the running priority is in the secure range, do nothing */ 230*3d732e23SJeenu Viswambharan run_pri = plat_ic_get_running_priority(); 231*3d732e23SJeenu Viswambharan if (IS_PRI_SECURE(run_pri)) 232*3d732e23SJeenu Viswambharan return 0; 233*3d732e23SJeenu Viswambharan 234*3d732e23SJeenu Viswambharan /* Do nothing if there are explicit activations */ 235*3d732e23SJeenu Viswambharan if (has_valid_pri_activations(pe_data)) 236*3d732e23SJeenu Viswambharan return 0; 237*3d732e23SJeenu Viswambharan 238*3d732e23SJeenu Viswambharan assert(pe_data->ns_pri_mask == 0); 239*3d732e23SJeenu Viswambharan 240*3d732e23SJeenu Viswambharan pe_data->ns_pri_mask = 241*3d732e23SJeenu Viswambharan plat_ic_set_priority_mask(GIC_HIGHEST_NS_PRIORITY); 242*3d732e23SJeenu Viswambharan 243*3d732e23SJeenu Viswambharan /* The previous Priority Mask is not expected to be in secure range */ 244*3d732e23SJeenu Viswambharan if (IS_PRI_SECURE(pe_data->ns_pri_mask)) { 245*3d732e23SJeenu Viswambharan ERROR("Priority Mask (0x%x) already in secure range\n", 246*3d732e23SJeenu Viswambharan pe_data->ns_pri_mask); 247*3d732e23SJeenu Viswambharan panic(); 248*3d732e23SJeenu Viswambharan } 249*3d732e23SJeenu Viswambharan 250*3d732e23SJeenu Viswambharan EHF_LOG("Priority Mask: 0x%x => 0x%x\n", pe_data->ns_pri_mask, 251*3d732e23SJeenu Viswambharan GIC_HIGHEST_NS_PRIORITY); 252*3d732e23SJeenu Viswambharan 253*3d732e23SJeenu Viswambharan return 0; 254*3d732e23SJeenu Viswambharan } 255*3d732e23SJeenu Viswambharan 256*3d732e23SJeenu Viswambharan /* 257*3d732e23SJeenu Viswambharan * Conclude Secure execution and prepare for return to Non-secure world. Restore 258*3d732e23SJeenu Viswambharan * the Non-secure Priority Mask previously stashed upon leaving Non-secure 259*3d732e23SJeenu Viswambharan * world. 260*3d732e23SJeenu Viswambharan * 261*3d732e23SJeenu Viswambharan * If there the current running priority is in the secure range, or if there are 262*3d732e23SJeenu Viswambharan * outstanding priority activations, this function does nothing. 263*3d732e23SJeenu Viswambharan * 264*3d732e23SJeenu Viswambharan * This function subscribes to the 'cm_entering_normal_world' event published by 265*3d732e23SJeenu Viswambharan * the Context Management Library. 266*3d732e23SJeenu Viswambharan */ 267*3d732e23SJeenu Viswambharan static void *ehf_entering_normal_world(const void *arg) 268*3d732e23SJeenu Viswambharan { 269*3d732e23SJeenu Viswambharan unsigned int old_pmr, run_pri; 270*3d732e23SJeenu Viswambharan pe_exc_data_t *pe_data = this_cpu_data(); 271*3d732e23SJeenu Viswambharan 272*3d732e23SJeenu Viswambharan /* If the running priority is in the secure range, do nothing */ 273*3d732e23SJeenu Viswambharan run_pri = plat_ic_get_running_priority(); 274*3d732e23SJeenu Viswambharan if (IS_PRI_SECURE(run_pri)) 275*3d732e23SJeenu Viswambharan return 0; 276*3d732e23SJeenu Viswambharan 277*3d732e23SJeenu Viswambharan /* 278*3d732e23SJeenu Viswambharan * If there are explicit activations, do nothing. The Priority Mask will 279*3d732e23SJeenu Viswambharan * be restored upon the last deactivation. 280*3d732e23SJeenu Viswambharan */ 281*3d732e23SJeenu Viswambharan if (has_valid_pri_activations(pe_data)) 282*3d732e23SJeenu Viswambharan return 0; 283*3d732e23SJeenu Viswambharan 284*3d732e23SJeenu Viswambharan /* Do nothing if we don't have a valid Priority Mask to restore */ 285*3d732e23SJeenu Viswambharan if (pe_data->ns_pri_mask == 0) 286*3d732e23SJeenu Viswambharan return 0; 287*3d732e23SJeenu Viswambharan 288*3d732e23SJeenu Viswambharan old_pmr = plat_ic_set_priority_mask(pe_data->ns_pri_mask); 289*3d732e23SJeenu Viswambharan 290*3d732e23SJeenu Viswambharan /* 291*3d732e23SJeenu Viswambharan * When exiting secure world, the current Priority Mask must be 292*3d732e23SJeenu Viswambharan * GIC_HIGHEST_NS_PRIORITY (as set during entry), or the Non-secure 293*3d732e23SJeenu Viswambharan * priority mask set upon calling ehf_allow_ns_preemption() 294*3d732e23SJeenu Viswambharan */ 295*3d732e23SJeenu Viswambharan if ((old_pmr != GIC_HIGHEST_NS_PRIORITY) && 296*3d732e23SJeenu Viswambharan (old_pmr != pe_data->ns_pri_mask)) { 297*3d732e23SJeenu Viswambharan ERROR("Invalid Priority Mask (0x%x) restored\n", old_pmr); 298*3d732e23SJeenu Viswambharan panic(); 299*3d732e23SJeenu Viswambharan } 300*3d732e23SJeenu Viswambharan 301*3d732e23SJeenu Viswambharan EHF_LOG("Priority Mask: 0x%x => 0x%x\n", old_pmr, pe_data->ns_pri_mask); 302*3d732e23SJeenu Viswambharan 303*3d732e23SJeenu Viswambharan pe_data->ns_pri_mask = 0; 304*3d732e23SJeenu Viswambharan 305*3d732e23SJeenu Viswambharan return 0; 306*3d732e23SJeenu Viswambharan } 307*3d732e23SJeenu Viswambharan 308*3d732e23SJeenu Viswambharan /* 309*3d732e23SJeenu Viswambharan * Program Priority Mask to the original Non-secure priority such that 310*3d732e23SJeenu Viswambharan * Non-secure interrupts may preempt Secure execution, viz. during Yielding SMC 311*3d732e23SJeenu Viswambharan * calls. 312*3d732e23SJeenu Viswambharan * 313*3d732e23SJeenu Viswambharan * This API is expected to be invoked before delegating a yielding SMC to Secure 314*3d732e23SJeenu Viswambharan * EL1. I.e. within the window of secure execution after Non-secure context is 315*3d732e23SJeenu Viswambharan * saved (after entry into EL3) and Secure context is restored (before entering 316*3d732e23SJeenu Viswambharan * Secure EL1). 317*3d732e23SJeenu Viswambharan */ 318*3d732e23SJeenu Viswambharan void ehf_allow_ns_preemption(void) 319*3d732e23SJeenu Viswambharan { 320*3d732e23SJeenu Viswambharan unsigned int old_pmr __unused; 321*3d732e23SJeenu Viswambharan pe_exc_data_t *pe_data = this_cpu_data(); 322*3d732e23SJeenu Viswambharan 323*3d732e23SJeenu Viswambharan /* 324*3d732e23SJeenu Viswambharan * We should have been notified earlier of entering secure world, and 325*3d732e23SJeenu Viswambharan * therefore have stashed the Non-secure priority mask. 326*3d732e23SJeenu Viswambharan */ 327*3d732e23SJeenu Viswambharan assert(pe_data->ns_pri_mask != 0); 328*3d732e23SJeenu Viswambharan 329*3d732e23SJeenu Viswambharan /* Make sure no priority levels are active when requesting this */ 330*3d732e23SJeenu Viswambharan if (has_valid_pri_activations(pe_data)) { 331*3d732e23SJeenu Viswambharan ERROR("PE %lx has priority activations: 0x%x\n", 332*3d732e23SJeenu Viswambharan read_mpidr_el1(), pe_data->active_pri_bits); 333*3d732e23SJeenu Viswambharan panic(); 334*3d732e23SJeenu Viswambharan } 335*3d732e23SJeenu Viswambharan 336*3d732e23SJeenu Viswambharan old_pmr = plat_ic_set_priority_mask(pe_data->ns_pri_mask); 337*3d732e23SJeenu Viswambharan 338*3d732e23SJeenu Viswambharan EHF_LOG("Priority Mask: 0x%x => 0x%x\n", old_pmr, pe_data->ns_pri_mask); 339*3d732e23SJeenu Viswambharan 340*3d732e23SJeenu Viswambharan pe_data->ns_pri_mask = 0; 341*3d732e23SJeenu Viswambharan } 342*3d732e23SJeenu Viswambharan 343*3d732e23SJeenu Viswambharan /* 344*3d732e23SJeenu Viswambharan * Return whether Secure execution has explicitly allowed Non-secure interrupts 345*3d732e23SJeenu Viswambharan * to preempt itself, viz. during Yielding SMC calls. 346*3d732e23SJeenu Viswambharan */ 347*3d732e23SJeenu Viswambharan unsigned int ehf_is_ns_preemption_allowed(void) 348*3d732e23SJeenu Viswambharan { 349*3d732e23SJeenu Viswambharan unsigned int run_pri; 350*3d732e23SJeenu Viswambharan pe_exc_data_t *pe_data = this_cpu_data(); 351*3d732e23SJeenu Viswambharan 352*3d732e23SJeenu Viswambharan /* If running priority is in secure range, return false */ 353*3d732e23SJeenu Viswambharan run_pri = plat_ic_get_running_priority(); 354*3d732e23SJeenu Viswambharan if (IS_PRI_SECURE(run_pri)) 355*3d732e23SJeenu Viswambharan return 0; 356*3d732e23SJeenu Viswambharan 357*3d732e23SJeenu Viswambharan /* 358*3d732e23SJeenu Viswambharan * If Non-secure preemption was permitted by calling 359*3d732e23SJeenu Viswambharan * ehf_allow_ns_preemption() earlier: 360*3d732e23SJeenu Viswambharan * 361*3d732e23SJeenu Viswambharan * - There wouldn't have been priority activations; 362*3d732e23SJeenu Viswambharan * - We would have cleared the stashed the Non-secure Priority Mask. 363*3d732e23SJeenu Viswambharan */ 364*3d732e23SJeenu Viswambharan if (has_valid_pri_activations(pe_data)) 365*3d732e23SJeenu Viswambharan return 0; 366*3d732e23SJeenu Viswambharan if (pe_data->ns_pri_mask != 0) 367*3d732e23SJeenu Viswambharan return 0; 368*3d732e23SJeenu Viswambharan 369*3d732e23SJeenu Viswambharan return 1; 370*3d732e23SJeenu Viswambharan } 371*3d732e23SJeenu Viswambharan 372*3d732e23SJeenu Viswambharan /* 37321b818c0SJeenu Viswambharan * Top-level EL3 interrupt handler. 37421b818c0SJeenu Viswambharan */ 37521b818c0SJeenu Viswambharan static uint64_t ehf_el3_interrupt_handler(uint32_t id, uint32_t flags, 37621b818c0SJeenu Viswambharan void *handle, void *cookie) 37721b818c0SJeenu Viswambharan { 37821b818c0SJeenu Viswambharan int pri, idx, intr, intr_raw, ret = 0; 37921b818c0SJeenu Viswambharan ehf_handler_t handler; 38021b818c0SJeenu Viswambharan 38121b818c0SJeenu Viswambharan /* 38221b818c0SJeenu Viswambharan * Top-level interrupt type handler from Interrupt Management Framework 38321b818c0SJeenu Viswambharan * doesn't acknowledge the interrupt; so the interrupt ID must be 38421b818c0SJeenu Viswambharan * invalid. 38521b818c0SJeenu Viswambharan */ 38621b818c0SJeenu Viswambharan assert(id == INTR_ID_UNAVAILABLE); 38721b818c0SJeenu Viswambharan 38821b818c0SJeenu Viswambharan /* 38921b818c0SJeenu Viswambharan * Acknowledge interrupt. Proceed with handling only for valid interrupt 39021b818c0SJeenu Viswambharan * IDs. This situation may arise because of Interrupt Management 39121b818c0SJeenu Viswambharan * Framework identifying an EL3 interrupt, but before it's been 39221b818c0SJeenu Viswambharan * acknowledged here, the interrupt was either deasserted, or there was 39321b818c0SJeenu Viswambharan * a higher-priority interrupt of another type. 39421b818c0SJeenu Viswambharan */ 39521b818c0SJeenu Viswambharan intr_raw = plat_ic_acknowledge_interrupt(); 39621b818c0SJeenu Viswambharan intr = plat_ic_get_interrupt_id(intr_raw); 39721b818c0SJeenu Viswambharan if (intr == INTR_ID_UNAVAILABLE) 39821b818c0SJeenu Viswambharan return 0; 39921b818c0SJeenu Viswambharan 40021b818c0SJeenu Viswambharan /* Having acknowledged the interrupt, get the running priority */ 40121b818c0SJeenu Viswambharan pri = plat_ic_get_running_priority(); 40221b818c0SJeenu Viswambharan 40321b818c0SJeenu Viswambharan /* Check EL3 interrupt priority is in secure range */ 40421b818c0SJeenu Viswambharan assert(IS_PRI_SECURE(pri)); 40521b818c0SJeenu Viswambharan 40621b818c0SJeenu Viswambharan /* 40721b818c0SJeenu Viswambharan * Translate the priority to a descriptor index. We do this by masking 40821b818c0SJeenu Viswambharan * and shifting the running priority value (platform-supplied). 40921b818c0SJeenu Viswambharan */ 41021b818c0SJeenu Viswambharan idx = pri_to_idx(pri); 41121b818c0SJeenu Viswambharan 41221b818c0SJeenu Viswambharan /* Validate priority */ 41321b818c0SJeenu Viswambharan assert(pri == IDX_TO_PRI(idx)); 41421b818c0SJeenu Viswambharan 41521b818c0SJeenu Viswambharan handler = RAW_HANDLER(exception_data.ehf_priorities[idx].ehf_handler); 41621b818c0SJeenu Viswambharan if (!handler) { 41721b818c0SJeenu Viswambharan ERROR("No EL3 exception handler for priority 0x%x\n", 41821b818c0SJeenu Viswambharan IDX_TO_PRI(idx)); 41921b818c0SJeenu Viswambharan panic(); 42021b818c0SJeenu Viswambharan } 42121b818c0SJeenu Viswambharan 42221b818c0SJeenu Viswambharan /* 42321b818c0SJeenu Viswambharan * Call registered handler. Pass the raw interrupt value to registered 42421b818c0SJeenu Viswambharan * handlers. 42521b818c0SJeenu Viswambharan */ 42621b818c0SJeenu Viswambharan ret = handler(intr_raw, flags, handle, cookie); 42721b818c0SJeenu Viswambharan 42821b818c0SJeenu Viswambharan return ret; 42921b818c0SJeenu Viswambharan } 43021b818c0SJeenu Viswambharan 43121b818c0SJeenu Viswambharan /* 43221b818c0SJeenu Viswambharan * Initialize the EL3 exception handling. 43321b818c0SJeenu Viswambharan */ 43421b818c0SJeenu Viswambharan void ehf_init(void) 43521b818c0SJeenu Viswambharan { 43621b818c0SJeenu Viswambharan unsigned int flags = 0; 43721b818c0SJeenu Viswambharan int ret __unused; 43821b818c0SJeenu Viswambharan 43921b818c0SJeenu Viswambharan /* Ensure EL3 interrupts are supported */ 44021b818c0SJeenu Viswambharan assert(plat_ic_has_interrupt_type(INTR_TYPE_EL3)); 44121b818c0SJeenu Viswambharan 44221b818c0SJeenu Viswambharan /* 44321b818c0SJeenu Viswambharan * Make sure that priority water mark has enough bits to represent the 44421b818c0SJeenu Viswambharan * whole priority array. 44521b818c0SJeenu Viswambharan */ 44621b818c0SJeenu Viswambharan assert(exception_data.num_priorities <= (sizeof(ehf_pri_bits_t) * 8)); 44721b818c0SJeenu Viswambharan 44821b818c0SJeenu Viswambharan assert(exception_data.ehf_priorities); 44921b818c0SJeenu Viswambharan 45021b818c0SJeenu Viswambharan /* 45121b818c0SJeenu Viswambharan * Bit 7 of GIC priority must be 0 for secure interrupts. This means 45221b818c0SJeenu Viswambharan * platforms must use at least 1 of the remaining 7 bits. 45321b818c0SJeenu Viswambharan */ 45421b818c0SJeenu Viswambharan assert((exception_data.pri_bits >= 1) || (exception_data.pri_bits < 8)); 45521b818c0SJeenu Viswambharan 45621b818c0SJeenu Viswambharan /* Route EL3 interrupts when in Secure and Non-secure. */ 45721b818c0SJeenu Viswambharan set_interrupt_rm_flag(flags, NON_SECURE); 45821b818c0SJeenu Viswambharan set_interrupt_rm_flag(flags, SECURE); 45921b818c0SJeenu Viswambharan 46021b818c0SJeenu Viswambharan /* Register handler for EL3 interrupts */ 46121b818c0SJeenu Viswambharan ret = register_interrupt_type_handler(INTR_TYPE_EL3, 46221b818c0SJeenu Viswambharan ehf_el3_interrupt_handler, flags); 46321b818c0SJeenu Viswambharan assert(ret == 0); 46421b818c0SJeenu Viswambharan } 46521b818c0SJeenu Viswambharan 46621b818c0SJeenu Viswambharan /* 46721b818c0SJeenu Viswambharan * Register a handler at the supplied priority. Registration is allowed only if 46821b818c0SJeenu Viswambharan * a handler hasn't been registered before, or one wasn't provided at build 46921b818c0SJeenu Viswambharan * time. The priority for which the handler is being registered must also accord 47021b818c0SJeenu Viswambharan * with the platform-supplied data. 47121b818c0SJeenu Viswambharan */ 47221b818c0SJeenu Viswambharan void ehf_register_priority_handler(unsigned int pri, ehf_handler_t handler) 47321b818c0SJeenu Viswambharan { 47421b818c0SJeenu Viswambharan int idx; 47521b818c0SJeenu Viswambharan 47621b818c0SJeenu Viswambharan /* Sanity check for handler */ 47721b818c0SJeenu Viswambharan assert(handler != NULL); 47821b818c0SJeenu Viswambharan 47921b818c0SJeenu Viswambharan /* Handler ought to be 4-byte aligned */ 48021b818c0SJeenu Viswambharan assert((((uintptr_t) handler) & 3) == 0); 48121b818c0SJeenu Viswambharan 48221b818c0SJeenu Viswambharan /* Ensure we register for valid priority */ 48321b818c0SJeenu Viswambharan idx = pri_to_idx(pri); 48421b818c0SJeenu Viswambharan assert(idx < exception_data.num_priorities); 48521b818c0SJeenu Viswambharan assert(IDX_TO_PRI(idx) == pri); 48621b818c0SJeenu Viswambharan 48721b818c0SJeenu Viswambharan /* Return failure if a handler was already registered */ 48821b818c0SJeenu Viswambharan if (exception_data.ehf_priorities[idx].ehf_handler != _EHF_NO_HANDLER) { 48921b818c0SJeenu Viswambharan ERROR("Handler already registered for priority 0x%x\n", pri); 49021b818c0SJeenu Viswambharan panic(); 49121b818c0SJeenu Viswambharan } 49221b818c0SJeenu Viswambharan 49321b818c0SJeenu Viswambharan /* 49421b818c0SJeenu Viswambharan * Install handler, and retain the valid bit. We assume that the handler 49521b818c0SJeenu Viswambharan * is 4-byte aligned, which is usually the case. 49621b818c0SJeenu Viswambharan */ 49721b818c0SJeenu Viswambharan exception_data.ehf_priorities[idx].ehf_handler = 49821b818c0SJeenu Viswambharan (((uintptr_t) handler) | _EHF_PRI_VALID); 49921b818c0SJeenu Viswambharan 50021b818c0SJeenu Viswambharan EHF_LOG("register pri=0x%x handler=%p\n", pri, handler); 50121b818c0SJeenu Viswambharan } 502*3d732e23SJeenu Viswambharan 503*3d732e23SJeenu Viswambharan SUBSCRIBE_TO_EVENT(cm_entering_normal_world, ehf_entering_normal_world); 504*3d732e23SJeenu Viswambharan SUBSCRIBE_TO_EVENT(cm_exited_normal_world, ehf_exited_normal_world); 505