/* OpenRISC exception, interrupts, syscall and trap support Copyright (C) 2017-2021 Free Software Foundation, Inc. This file is part of GDB, the GNU debugger. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* This must come before any other includes. */ #include "defs.h" #define WANT_CPU_OR1K32BF #define WANT_CPU #include "sim-main.h" #include "sim-signal.h" #include "cgen-ops.h" /* Implement the sim invalid instruction function. This will set the error effective address to that of the invalid instruction then call the exception handler. */ SEM_PC sim_engine_invalid_insn (SIM_CPU *current_cpu, IADDR cia, SEM_PC vpc) { SET_H_SYS_EEAR0 (cia); #ifdef WANT_CPU_OR1K32BF or1k32bf_exception (current_cpu, cia, EXCEPT_ILLEGAL); #endif return vpc; } /* Generate the appropriate OpenRISC fpu exception based on the status code from the sim fpu. */ void or1k32bf_fpu_error (CGEN_FPU* fpu, int status) { SIM_CPU *current_cpu = (SIM_CPU *)fpu->owner; /* If floating point exceptions are enabled. */ if (GET_H_SYS_FPCSR_FPEE() != 0) { /* Set all of the status flag bits. */ if (status & (sim_fpu_status_invalid_snan | sim_fpu_status_invalid_qnan | sim_fpu_status_invalid_isi | sim_fpu_status_invalid_idi | sim_fpu_status_invalid_zdz | sim_fpu_status_invalid_imz | sim_fpu_status_invalid_cvi | sim_fpu_status_invalid_cmp | sim_fpu_status_invalid_sqrt)) SET_H_SYS_FPCSR_IVF (1); if (status & sim_fpu_status_invalid_snan) SET_H_SYS_FPCSR_SNF (1); if (status & sim_fpu_status_invalid_qnan) SET_H_SYS_FPCSR_QNF (1); if (status & sim_fpu_status_overflow) SET_H_SYS_FPCSR_OVF (1); if (status & sim_fpu_status_underflow) SET_H_SYS_FPCSR_UNF (1); if (status & (sim_fpu_status_invalid_isi | sim_fpu_status_invalid_idi)) SET_H_SYS_FPCSR_INF (1); if (status & sim_fpu_status_invalid_div0) SET_H_SYS_FPCSR_DZF (1); if (status & sim_fpu_status_inexact) SET_H_SYS_FPCSR_IXF (1); /* If any of the exception bits were actually set. */ if (GET_H_SYS_FPCSR() & (SPR_FIELD_MASK_SYS_FPCSR_IVF | SPR_FIELD_MASK_SYS_FPCSR_SNF | SPR_FIELD_MASK_SYS_FPCSR_QNF | SPR_FIELD_MASK_SYS_FPCSR_OVF | SPR_FIELD_MASK_SYS_FPCSR_UNF | SPR_FIELD_MASK_SYS_FPCSR_INF | SPR_FIELD_MASK_SYS_FPCSR_DZF | SPR_FIELD_MASK_SYS_FPCSR_IXF)) { SIM_DESC sd = CPU_STATE (current_cpu); /* If the sim is running in fast mode, i.e. not profiling, per-instruction callbacks are not triggered which would allow us to track the PC. This means we cannot track which instruction caused the FPU error. */ if (!PROFILE_ANY_P (current_cpu) && !TRACE_ANY_P (current_cpu)) sim_io_eprintf (sd, "WARNING: ignoring fpu error caught in fast mode.\n"); else or1k32bf_exception (current_cpu, GET_H_SYS_PPC (), EXCEPT_FPE); } } } /* Implement the OpenRISC exception function. This is mostly used by the CGEN generated files. For example, this is used when handling a overflow exception during a multiplication instruction. */ void or1k32bf_exception (sim_cpu *current_cpu, USI pc, USI exnum) { SIM_DESC sd = CPU_STATE (current_cpu); if (exnum == EXCEPT_TRAP) { /* Trap, used for breakpoints, sends control back to gdb breakpoint handling. */ sim_engine_halt (sd, current_cpu, NULL, pc, sim_stopped, SIM_SIGTRAP); } else { IADDR handler_pc; /* Calculate the exception program counter. */ switch (exnum) { case EXCEPT_RESET: break; case EXCEPT_FPE: case EXCEPT_SYSCALL: SET_H_SYS_EPCR0 (pc + 4 - (current_cpu->delay_slot ? 4 : 0)); break; case EXCEPT_BUSERR: case EXCEPT_ALIGN: case EXCEPT_ILLEGAL: case EXCEPT_RANGE: SET_H_SYS_EPCR0 (pc - (current_cpu->delay_slot ? 4 : 0)); break; default: sim_io_error (sd, "unexpected exception 0x%x raised at PC 0x%08x", exnum, pc); break; } /* Store the current SR into ESR0. */ SET_H_SYS_ESR0 (GET_H_SYS_SR ()); /* Indicate in SR if the failed instruction is in delay slot or not. */ SET_H_SYS_SR_DSX (current_cpu->delay_slot); current_cpu->next_delay_slot = 0; /* Jump program counter into handler. */ handler_pc = (GET_H_SYS_SR_EPH () ? 0xf0000000 : 0x00000000) + (exnum << 8); sim_engine_restart (sd, current_cpu, NULL, handler_pc); } } /* Implement the return from exception instruction. This is used to return the CPU to its previous state from within an exception handler. */ void or1k32bf_rfe (sim_cpu *current_cpu) { SET_H_SYS_SR (GET_H_SYS_ESR0 ()); SET_H_SYS_SR_FO (1); current_cpu->next_delay_slot = 0; sim_engine_restart (CPU_STATE (current_cpu), current_cpu, NULL, GET_H_SYS_EPCR0 ()); } /* Implement the move from SPR instruction. This is used to read from the CPU's special purpose registers. */ USI or1k32bf_mfspr (sim_cpu *current_cpu, USI addr) { SIM_DESC sd = CPU_STATE (current_cpu); SI val; if (!GET_H_SYS_SR_SM () && !GET_H_SYS_SR_SUMRA ()) { sim_io_eprintf (sd, "WARNING: l.mfspr in user mode (SR 0x%x)\n", GET_H_SYS_SR ()); return 0; } if (addr >= NUM_SPR) goto bad_address; val = GET_H_SPR (addr); switch (addr) { case SPR_ADDR (SYS, VR): case SPR_ADDR (SYS, UPR): case SPR_ADDR (SYS, CPUCFGR): case SPR_ADDR (SYS, SR): case SPR_ADDR (SYS, PPC): case SPR_ADDR (SYS, FPCSR): case SPR_ADDR (SYS, EPCR0): case SPR_ADDR (MAC, MACLO): case SPR_ADDR (MAC, MACHI): break; default: if (addr < SPR_ADDR (SYS, GPR0) || addr > SPR_ADDR (SYS, GPR511)) goto bad_address; break; } return val; bad_address: sim_io_eprintf (sd, "WARNING: l.mfspr with invalid SPR address 0x%x\n", addr); return 0; } /* Implement the move to SPR instruction. This is used to write too the CPU's special purpose registers. */ void or1k32bf_mtspr (sim_cpu *current_cpu, USI addr, USI val) { SIM_DESC sd = CPU_STATE (current_cpu); if (!GET_H_SYS_SR_SM () && !GET_H_SYS_SR_SUMRA ()) { sim_io_eprintf (sd, "WARNING: l.mtspr with address 0x%x in user mode (SR 0x%x)\n", addr, GET_H_SYS_SR ()); return; } if (addr >= NUM_SPR) goto bad_address; switch (addr) { case SPR_ADDR (SYS, FPCSR): case SPR_ADDR (SYS, EPCR0): case SPR_ADDR (SYS, ESR0): case SPR_ADDR (MAC, MACHI): case SPR_ADDR (MAC, MACLO): SET_H_SPR (addr, val); break; case SPR_ADDR (SYS, SR): SET_H_SPR (addr, val); SET_H_SYS_SR_FO (1); break; case SPR_ADDR (SYS, NPC): current_cpu->next_delay_slot = 0; sim_engine_restart (CPU_STATE (current_cpu), current_cpu, NULL, val); break; case SPR_ADDR (TICK, TTMR): /* Allow some registers to be silently cleared. */ if (val != 0) sim_io_eprintf (sd, "WARNING: l.mtspr to SPR address 0x%x with invalid value 0x%x\n", addr, val); break; default: if (addr >= SPR_ADDR (SYS, GPR0) && addr <= SPR_ADDR (SYS, GPR511)) SET_H_SPR (addr, val); else goto bad_address; break; } return; bad_address: sim_io_eprintf (sd, "WARNING: l.mtspr with invalid SPR address 0x%x\n", addr); }