/* SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include uint8_t exception_stack[2*KiB] __attribute__((aligned(16))); static const char *exception_names[NUM_EXC_VIDS] = { [EXC_VID_CUR_SP_EL0_SYNC] = "_sync_sp_el0", [EXC_VID_CUR_SP_EL0_IRQ] = "_irq_sp_el0", [EXC_VID_CUR_SP_EL0_FIRQ] = "_fiq_sp_el0", [EXC_VID_CUR_SP_EL0_SERR] = "_serror_sp_el0", [EXC_VID_CUR_SP_ELX_SYNC] = "_sync_sp_el3", [EXC_VID_CUR_SP_ELX_IRQ] = "_irq_sp_el3", [EXC_VID_CUR_SP_ELX_FIQ] = "_fiq_sp_el3", [EXC_VID_CUR_SP_ELX_SERR] = "_serror_sp_el3", [EXC_VID_LOW64_SYNC] = "_sync_elx_64", [EXC_VID_LOW64_IRQ] = "_irq_elx_64", [EXC_VID_LOW64_FIQ] = "_fiq_elx_64", [EXC_VID_LOW64_SERR] = "_serror_elx_64", [EXC_VID_LOW32_SYNC] = "_sync_elx_32", [EXC_VID_LOW32_IRQ] = "_irq_elx_32", [EXC_VID_LOW32_FIQ] = "_fiq_elx_32", [EXC_VID_LOW32_SERR] = "_serror_elx_32" }; static void dump_stack(uintptr_t addr, size_t bytes) { int i, j; const int words_per_line = 8; uint64_t *ptr = (void *)ALIGN_DOWN(addr, words_per_line * sizeof(*ptr)); printk(BIOS_DEBUG, "Dumping stack:\n"); for (i = bytes / sizeof(*ptr); i >= 0; i -= words_per_line) { printk(BIOS_DEBUG, "%p: ", ptr + i); for (j = i; j < i + words_per_line; j++) printk(BIOS_DEBUG, "%016llx ", *(ptr + j)); printk(BIOS_DEBUG, "\n"); } } static void print_regs(struct exc_state *exc_state) { int i; struct elx_state *elx = &exc_state->elx; struct regs *regs = &exc_state->regs; printk(BIOS_DEBUG, "ELR = 0x%016llx ESR = 0x%08llx\n", elx->elr, raw_read_esr_el3()); printk(BIOS_DEBUG, "FAR = 0x%016llx SPSR = 0x%08llx\n", raw_read_far_el3(), raw_read_spsr_el3()); for (i = 0; i < 30; i += 2) { printk(BIOS_DEBUG, "X%02d = 0x%016llx X%02d = 0x%016llx\n", i, regs->x[i], i + 1, regs->x[i + 1]); } printk(BIOS_DEBUG, "X30 = 0x%016llx SP = 0x%016llx\n", regs->x[30], regs->sp); } static struct exception_handler *handlers[NUM_EXC_VIDS]; enum cb_err exception_handler_register(uint64_t vid, struct exception_handler *h) { if (vid >= NUM_EXC_VIDS) return CB_ERR; /* Just place at head of queue. */ h->next = handlers[vid]; store_release(&handlers[vid], h); return CB_SUCCESS; } enum cb_err exception_handler_unregister(uint64_t vid, struct exception_handler *h) { struct exception_handler *cur; struct exception_handler **prev; if (vid >= NUM_EXC_VIDS) return CB_ERR; prev = &handlers[vid]; for (cur = handlers[vid]; cur != NULL; cur = cur->next) { if (cur != h) continue; /* Update previous pointer. */ store_release(prev, cur->next); return CB_SUCCESS; } /* Not found */ return CB_ERR; } static void print_exception_info(struct exc_state *state, uint64_t idx) { /* * Sign of life in case printk() is shot. Prints !EXCEPT! to UART * Not using a loop but instead calling __uart_tx_byte separately is intentionally here * because in rare cases it will not print if it needs to access memory addresses */ __uart_tx_byte('\r'); __uart_tx_byte('\n'); __uart_tx_byte('!'); __uart_tx_byte('E'); __uart_tx_byte('X'); __uart_tx_byte('C'); __uart_tx_byte('E'); __uart_tx_byte('P'); __uart_tx_byte('T'); __uart_tx_byte('!'); printk(BIOS_DEBUG, "\nexception %s\n", idx < NUM_EXC_VIDS ? exception_names[idx] : "_unknown"); print_regs(state); /* Few words below SP in case we need state from a returned function. */ dump_stack(state->regs.sp - 32, 512); } static void print_exception_and_die(struct exc_state *state, uint64_t idx) { print_exception_info(state, idx); die("exception death"); } static int handle_exception(struct exc_state *state, uint64_t idx) { int ret = EXC_RET_ABORT; struct exception_handler *h; for (h = handlers[idx]; h != NULL; h = h->next) { int hret; hret = h->handler(state, idx); if (hret > ret) ret = hret; } return ret; } void exc_dispatch(struct exc_state *state, uint64_t idx) { int ret; if (idx >= NUM_EXC_VIDS) { printk(BIOS_DEBUG, "Bad exception index %x.\n", (int)idx); print_exception_and_die(state, idx); } ret = handle_exception(state, idx); if (ret == EXC_RET_ABORT) print_exception_and_die(state, idx); if (ret == EXC_RET_IGNORED || ret == EXC_RET_HANDLED_DUMP_STATE) print_exception_info(state, idx); exc_exit(&state->regs); } static int test_exception_handler(struct exc_state *state, uint64_t vector_id) { /* Update instruction pointer to next instruction. */ state->elx.elr += sizeof(uint32_t); raw_write_elr_el3(state->elx.elr); return EXC_RET_HANDLED; } static uint64_t test_exception(void) { struct exception_handler sync_elx; struct exception_handler sync_el0; unsigned long long *a = (void *)0xffffffff00000000ULL; sync_elx.handler = &test_exception_handler; sync_el0.handler = &test_exception_handler; exception_handler_register(EXC_VID_CUR_SP_ELX_SYNC, &sync_elx); exception_handler_register(EXC_VID_CUR_SP_EL0_SYNC, &sync_el0); force_read(*a); exception_handler_unregister(EXC_VID_CUR_SP_ELX_SYNC, &sync_elx); exception_handler_unregister(EXC_VID_CUR_SP_EL0_SYNC, &sync_el0); return 0; } void exception_init(void) { /* Load the exception table and initialize SP_EL3. */ exception_init_asm(exception_stack + ARRAY_SIZE(exception_stack)); printk(BIOS_DEBUG, "ARM64: Exception handlers installed.\n"); /* Only spend time testing on debug builds that are trying to detect more errors. */ if (CONFIG(FATAL_ASSERTS)) { printk(BIOS_DEBUG, "ARM64: Testing exception\n"); test_exception(); printk(BIOS_DEBUG, "ARM64: Done test exception\n"); } }