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357 lines
8.7 KiB
C
357 lines
8.7 KiB
C
/* OpenRISC simulator support code
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Copyright (C) 2017-2021 Free Software Foundation, Inc.
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This file is part of GDB, the GNU debugger.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#define WANT_CPU_OR1K32BF
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#define WANT_CPU
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#include "sim-main.h"
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#include "symcat.h"
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#include "cgen-ops.h"
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#include "cgen-mem.h"
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#include "cpuall.h"
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#include <string.h>
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int
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or1k32bf_fetch_register (sim_cpu *current_cpu, int rn, unsigned char *buf,
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int len)
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{
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if (rn < 32)
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SETTWI (buf, GET_H_GPR (rn));
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else
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switch (rn)
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{
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case PPC_REGNUM:
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SETTWI (buf, GET_H_SYS_PPC ());
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break;
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case PC_REGNUM:
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SETTWI (buf, GET_H_PC ());
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break;
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case SR_REGNUM:
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SETTWI (buf, GET_H_SYS_SR ());
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break;
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default:
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return 0;
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}
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return sizeof (WI); /* WI from arch.h */
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}
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int
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or1k32bf_store_register (sim_cpu *current_cpu, int rn, unsigned char *buf,
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int len)
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{
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if (rn < 32)
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SET_H_GPR (rn, GETTWI (buf));
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else
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switch (rn)
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{
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case PPC_REGNUM:
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SET_H_SYS_PPC (GETTWI (buf));
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break;
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case PC_REGNUM:
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SET_H_PC (GETTWI (buf));
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break;
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case SR_REGNUM:
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SET_H_SYS_SR (GETTWI (buf));
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break;
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default:
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return 0;
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}
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return sizeof (WI); /* WI from arch.h */
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}
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int
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or1k32bf_model_or1200_u_exec (sim_cpu *current_cpu, const IDESC *idesc,
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int unit_num, int referenced)
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{
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return -1;
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}
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int
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or1k32bf_model_or1200nd_u_exec (sim_cpu *current_cpu, const IDESC *idesc,
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int unit_num, int referenced)
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{
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return -1;
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}
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void
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or1k32bf_model_insn_before (sim_cpu *current_cpu, int first_p)
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{
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}
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void
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or1k32bf_model_insn_after (sim_cpu *current_cpu, int last_p, int cycles)
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{
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}
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USI
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or1k32bf_h_spr_get_raw (sim_cpu *current_cpu, USI addr)
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{
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SIM_DESC sd = CPU_STATE (current_cpu);
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SIM_ASSERT (addr < NUM_SPR);
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return current_cpu->spr[addr];
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}
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void
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or1k32bf_h_spr_set_raw (sim_cpu *current_cpu, USI addr, USI val)
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{
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SIM_DESC sd = CPU_STATE (current_cpu);
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SIM_ASSERT (addr < NUM_SPR);
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current_cpu->spr[addr] = val;
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}
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USI
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or1k32bf_h_spr_field_get_raw (sim_cpu *current_cpu, USI addr, int msb, int lsb)
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{
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SIM_DESC sd = CPU_STATE (current_cpu);
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SIM_ASSERT (addr < NUM_SPR);
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return LSEXTRACTED (current_cpu->spr[addr], msb, lsb);
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}
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void
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or1k32bf_h_spr_field_set_raw (sim_cpu *current_cpu, USI addr, int msb, int lsb,
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USI val)
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{
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current_cpu->spr[addr] &= ~LSMASK32 (msb, lsb);
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current_cpu->spr[addr] |= LSINSERTED (val, msb, lsb);
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}
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/* Initialize a sim cpu object. */
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void
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or1k_cpu_init (SIM_DESC sd, sim_cpu *current_cpu, const USI or1k_vr,
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const USI or1k_upr, const USI or1k_cpucfgr)
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{
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/* Set the configuration registers passed from the user. */
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SET_H_SYS_VR (or1k_vr);
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SET_H_SYS_UPR (or1k_upr);
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SET_H_SYS_CPUCFGR (or1k_cpucfgr);
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#define CHECK_SPR_FIELD(GROUP, INDEX, FIELD, test) \
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do \
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{ \
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USI field = GET_H_##SYS##_##INDEX##_##FIELD (); \
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if (!(test)) \
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sim_io_eprintf \
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(sd, "WARNING: unsupported %s field in %s register: 0x%x\n", \
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#FIELD, #INDEX, field); \
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} while (0)
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/* Set flags indicating if we are in a delay slot or not. */
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current_cpu->next_delay_slot = 0;
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current_cpu->delay_slot = 0;
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/* Verify any user passed fields and warn on configurations we don't
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support. */
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CHECK_SPR_FIELD (SYS, UPR, UP, field == 1);
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CHECK_SPR_FIELD (SYS, UPR, DCP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, ICP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, DMP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, MP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, IMP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, DUP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, PCUP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, PICP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, PMP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, TTP, field == 0);
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CHECK_SPR_FIELD (SYS, UPR, CUP, field == 0);
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CHECK_SPR_FIELD (SYS, CPUCFGR, NSGR, field == 0);
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CHECK_SPR_FIELD (SYS, CPUCFGR, CGF, field == 0);
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CHECK_SPR_FIELD (SYS, CPUCFGR, OB32S, field == 1);
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CHECK_SPR_FIELD (SYS, CPUCFGR, OF32S, field == 1);
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CHECK_SPR_FIELD (SYS, CPUCFGR, OB64S, field == 0);
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CHECK_SPR_FIELD (SYS, CPUCFGR, OF64S, field == 0);
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CHECK_SPR_FIELD (SYS, CPUCFGR, OV64S, field == 0);
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#undef CHECK_SPR_FIELD
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/* Configure the fpu operations and mark fpu available. */
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cgen_init_accurate_fpu (current_cpu, CGEN_CPU_FPU (current_cpu),
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or1k32bf_fpu_error);
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SET_H_SYS_CPUCFGR_OF32S (1);
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/* Set the UPR[UP] flag, even if the user tried to unset it, as we always
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support the Unit Present Register. */
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SET_H_SYS_UPR_UP (1);
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/* Set the supervisor register to indicate we are in supervisor mode and
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set the Fixed-One bit which must always be set. */
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SET_H_SYS_SR (SPR_FIELD_MASK_SYS_SR_SM | SPR_FIELD_MASK_SYS_SR_FO);
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/* Clear the floating point control status register. */
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SET_H_SYS_FPCSR (0);
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}
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void
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or1k32bf_insn_before (sim_cpu *current_cpu, SEM_PC vpc, const IDESC *idesc)
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{
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SIM_DESC sd = CPU_STATE (current_cpu);
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current_cpu->delay_slot = current_cpu->next_delay_slot;
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current_cpu->next_delay_slot = 0;
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if (current_cpu->delay_slot &&
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CGEN_ATTR_BOOLS (CGEN_INSN_ATTRS ((idesc)->idata)) &
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CGEN_ATTR_MASK (CGEN_INSN_NOT_IN_DELAY_SLOT))
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{
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USI pc;
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#ifdef WITH_SCACHE
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pc = vpc->argbuf.addr;
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#else
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pc = vpc;
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#endif
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sim_io_error (sd, "invalid instruction in a delay slot at PC 0x%08x",
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pc);
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}
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}
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void
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or1k32bf_insn_after (sim_cpu *current_cpu, SEM_PC vpc, const IDESC *idesc)
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{
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SIM_DESC sd = CPU_STATE (current_cpu);
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USI ppc;
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#ifdef WITH_SCACHE
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ppc = vpc->argbuf.addr;
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#else
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ppc = vpc;
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#endif
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SET_H_SYS_PPC (ppc);
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if (!GET_H_SYS_CPUCFGR_ND () &&
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CGEN_ATTR_BOOLS (CGEN_INSN_ATTRS ((idesc)->idata)) &
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CGEN_ATTR_MASK (CGEN_INSN_DELAYED_CTI))
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{
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SIM_ASSERT (!current_cpu->delay_slot);
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current_cpu->next_delay_slot = 1;
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}
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}
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void
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or1k32bf_nop (sim_cpu *current_cpu, USI uimm16)
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{
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SIM_DESC sd = CPU_STATE (current_cpu);
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switch (uimm16)
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{
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case NOP_NOP:
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break;
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case NOP_EXIT:
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sim_io_printf (CPU_STATE (current_cpu), "exit(%d)\n", GET_H_GPR (3));
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/* fall through */
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case NOP_EXIT_SILENT:
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sim_engine_halt (sd, current_cpu, NULL, CPU_PC_GET (current_cpu),
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sim_exited, GET_H_GPR (3));
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break;
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case NOP_REPORT:
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sim_io_printf (CPU_STATE (current_cpu), "report(0x%08x);\n",
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GET_H_GPR (3));
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break;
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case NOP_PUTC:
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sim_io_printf (CPU_STATE (current_cpu), "%c",
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(char) (GET_H_GPR (3) & 0xff));
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break;
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default:
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sim_io_eprintf (sd, "WARNING: l.nop with unsupported code 0x%08x\n",
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uimm16);
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break;
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}
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}
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/* Build an address value used for load and store instructions. For example,
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the instruction 'l.lws rD, I(rA)' will require to load data from the 4 byte
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address represented by rA + I. Here the argument base is rA, offset is I
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and the size is the read size in bytes. Note, OpenRISC requires that word
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and half-word access be word and half-word aligned respectively, the check
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for alignment is not needed here. */
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USI
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or1k32bf_make_load_store_addr (sim_cpu *current_cpu, USI base, SI offset,
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int size)
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{
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SIM_DESC sd = CPU_STATE (current_cpu);
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USI addr = base + offset;
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/* If little endian load/store is enabled we adjust the byte and half-word
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addresses to the little endian equivalent. */
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if (GET_H_SYS_SR_LEE ())
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{
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switch (size)
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{
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case 4: /* We are retrieving the entire word no adjustment. */
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break;
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case 2: /* Perform half-word adjustment 0 -> 2, 2 -> 0. */
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addr ^= 0x2;
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break;
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case 1: /* Perform byte adjustment, 0 -> 3, 2 -> 3, etc. */
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addr ^= 0x3;
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break;
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default:
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SIM_ASSERT (0);
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return 0;
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}
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}
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return addr;
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}
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/* The find first 1 instruction returns the location of the first set bit
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in the argument register. */
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USI
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or1k32bf_ff1 (sim_cpu *current_cpu, USI val)
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{
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USI bit;
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USI ret;
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for (bit = 1, ret = 1; bit; bit <<= 1, ret++)
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{
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if (val & bit)
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return ret;
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}
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return 0;
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}
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/* The find last 1 instruction returns the location of the last set bit in
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the argument register. */
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USI
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or1k32bf_fl1 (sim_cpu *current_cpu, USI val)
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{
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USI bit;
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USI ret;
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for (bit = 1 << 31, ret = 32; bit; bit >>= 1, ret--)
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{
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if (val & bit)
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return ret;
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}
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return 0;
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}
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