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[/] [openrisc/] [trunk/] [gnu-stable/] [gdb-7.2/] [sim/] [lm32/] [traps.c] - Rev 851
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/* Lattice Mico32 exception and system call support. Contributed by Jon Beniston <jon@beniston.com> Copyright (C) 2009, 2010 Free Software Foundation, Inc. This file is part of GDB. 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 <http://www.gnu.org/licenses/>. */ #define WANT_CPU lm32bf #define WANT_CPU_LM32BF #include "sim-main.h" #include "lm32-sim.h" #include "targ-vals.h" /* Read memory function for system call interface. */ static int syscall_read_mem (host_callback * cb, struct cb_syscall *sc, unsigned long taddr, char *buf, int bytes) { SIM_DESC sd = (SIM_DESC) sc->p1; SIM_CPU *cpu = (SIM_CPU *) sc->p2; return sim_core_read_buffer (sd, cpu, read_map, buf, taddr, bytes); } /* Write memory function for system call interface. */ static int syscall_write_mem (host_callback * cb, struct cb_syscall *sc, unsigned long taddr, const char *buf, int bytes) { SIM_DESC sd = (SIM_DESC) sc->p1; SIM_CPU *cpu = (SIM_CPU *) sc->p2; return sim_core_write_buffer (sd, cpu, write_map, buf, taddr, bytes); } /* Handle invalid instructions. */ SEM_PC sim_engine_invalid_insn (SIM_CPU * current_cpu, IADDR cia, SEM_PC pc) { SIM_DESC sd = CPU_STATE (current_cpu); sim_engine_halt (sd, current_cpu, NULL, cia, sim_stopped, SIM_SIGILL); return pc; } /* Handle divide instructions. */ USI lm32bf_divu_insn (SIM_CPU * current_cpu, IADDR pc, USI r0, USI r1, USI r2) { SIM_DESC sd = CPU_STATE (current_cpu); host_callback *cb = STATE_CALLBACK (sd); /* Check for divide by zero */ if (GET_H_GR (r1) == 0) { if (STATE_ENVIRONMENT (sd) != OPERATING_ENVIRONMENT) sim_engine_halt (sd, current_cpu, NULL, pc, sim_stopped, SIM_SIGFPE); else { /* Save PC in exception address register. */ SET_H_GR (30, pc); /* Save and clear interrupt enable. */ SET_H_CSR (LM32_CSR_IE, (GET_H_CSR (LM32_CSR_IE) & 1) << 1); /* Branch to divide by zero exception handler. */ return GET_H_CSR (LM32_CSR_EBA) + LM32_EID_DIVIDE_BY_ZERO * 32; } } else { SET_H_GR (r2, (USI) GET_H_GR (r0) / (USI) GET_H_GR (r1)); return pc + 4; } } USI lm32bf_modu_insn (SIM_CPU * current_cpu, IADDR pc, USI r0, USI r1, USI r2) { SIM_DESC sd = CPU_STATE (current_cpu); host_callback *cb = STATE_CALLBACK (sd); /* Check for divide by zero. */ if (GET_H_GR (r1) == 0) { if (STATE_ENVIRONMENT (sd) != OPERATING_ENVIRONMENT) sim_engine_halt (sd, current_cpu, NULL, pc, sim_stopped, SIM_SIGFPE); else { /* Save PC in exception address register. */ SET_H_GR (30, pc); /* Save and clear interrupt enable. */ SET_H_CSR (LM32_CSR_IE, (GET_H_CSR (LM32_CSR_IE) & 1) << 1); /* Branch to divide by zero exception handler. */ return GET_H_CSR (LM32_CSR_EBA) + LM32_EID_DIVIDE_BY_ZERO * 32; } } else { SET_H_GR (r2, (USI) GET_H_GR (r0) % (USI) GET_H_GR (r1)); return pc + 4; } } /* Handle break instructions. */ USI lm32bf_break_insn (SIM_CPU * current_cpu, IADDR pc) { SIM_DESC sd = CPU_STATE (current_cpu); host_callback *cb = STATE_CALLBACK (sd); /* Breakpoint. */ if (STATE_ENVIRONMENT (sd) != OPERATING_ENVIRONMENT) { sim_engine_halt (sd, current_cpu, NULL, pc, sim_stopped, SIM_SIGTRAP); return pc; } else { /* Save PC in breakpoint address register. */ SET_H_GR (31, pc); /* Save and clear interrupt enable. */ SET_H_CSR (LM32_CSR_IE, (GET_H_CSR (LM32_CSR_IE) & 1) << 2); /* Branch to breakpoint exception handler. */ return GET_H_CSR (LM32_CSR_DEBA) + LM32_EID_BREAKPOINT * 32; } } /* Handle scall instructions. */ USI lm32bf_scall_insn (SIM_CPU * current_cpu, IADDR pc) { SIM_DESC sd = CPU_STATE (current_cpu); host_callback *cb = STATE_CALLBACK (sd); if ((STATE_ENVIRONMENT (sd) != OPERATING_ENVIRONMENT) || (GET_H_GR (8) == TARGET_SYS_exit)) { /* Delegate system call to host O/S. */ CB_SYSCALL s; CB_SYSCALL_INIT (&s); s.p1 = (PTR) sd; s.p2 = (PTR) current_cpu; s.read_mem = syscall_read_mem; s.write_mem = syscall_write_mem; /* Extract parameters. */ s.func = GET_H_GR (8); s.arg1 = GET_H_GR (1); s.arg2 = GET_H_GR (2); s.arg3 = GET_H_GR (3); /* Halt the simulator if the requested system call is _exit. */ if (s.func == TARGET_SYS_exit) sim_engine_halt (sd, current_cpu, NULL, pc, sim_exited, s.arg1); /* Perform the system call. */ cb_syscall (cb, &s); /* Store the return value in the CPU's registers. */ SET_H_GR (1, s.result); SET_H_GR (2, s.result2); SET_H_GR (3, s.errcode); /* Skip over scall instruction. */ return pc + 4; } else { /* Save PC in exception address register. */ SET_H_GR (30, pc); /* Save and clear interrupt enable */ SET_H_CSR (LM32_CSR_IE, (GET_H_CSR (LM32_CSR_IE) & 1) << 1); /* Branch to system call exception handler. */ return GET_H_CSR (LM32_CSR_EBA) + LM32_EID_SYSTEM_CALL * 32; } } /* Handle b instructions. */ USI lm32bf_b_insn (SIM_CPU * current_cpu, USI r0, USI f_r0) { SIM_DESC sd = CPU_STATE (current_cpu); host_callback *cb = STATE_CALLBACK (sd); /* Restore interrupt enable. */ if (f_r0 == 30) SET_H_CSR (LM32_CSR_IE, (GET_H_CSR (LM32_CSR_IE) & 2) >> 1); else if (f_r0 == 31) SET_H_CSR (LM32_CSR_IE, (GET_H_CSR (LM32_CSR_IE) & 4) >> 2); return r0; } /* Handle wcsr instructions. */ void lm32bf_wcsr_insn (SIM_CPU * current_cpu, USI f_csr, USI r1) { SIM_DESC sd = CPU_STATE (current_cpu); host_callback *cb = STATE_CALLBACK (sd); /* Writing a 1 to IP CSR clears a bit, writing 0 has no effect. */ if (f_csr == LM32_CSR_IP) SET_H_CSR (f_csr, GET_H_CSR (f_csr) & ~r1); else SET_H_CSR (f_csr, r1); } /* Handle signals. */ void lm32_core_signal (SIM_DESC sd, sim_cpu * cpu, sim_cia cia, unsigned map, int nr_bytes, address_word addr, transfer_type transfer, sim_core_signals sig) { const char *copy = (transfer == read_transfer ? "read" : "write"); address_word ip = CIA_ADDR (cia); SIM_CPU *current_cpu = cpu; switch (sig) { case sim_core_unmapped_signal: sim_io_eprintf (sd, "core: %d byte %s to unmapped address 0x%lx at 0x%lx\n", nr_bytes, copy, (unsigned long) addr, (unsigned long) ip); SET_H_GR (30, ip); /* Save and clear interrupt enable. */ SET_H_CSR (LM32_CSR_IE, (GET_H_CSR (LM32_CSR_IE) & 1) << 1); CIA_SET (cpu, GET_H_CSR (LM32_CSR_EBA) + LM32_EID_DATA_BUS_ERROR * 32); sim_engine_halt (sd, cpu, NULL, LM32_EID_DATA_BUS_ERROR * 32, sim_stopped, SIM_SIGSEGV); break; case sim_core_unaligned_signal: sim_io_eprintf (sd, "core: %d byte misaligned %s to address 0x%lx at 0x%lx\n", nr_bytes, copy, (unsigned long) addr, (unsigned long) ip); SET_H_GR (30, ip); /* Save and clear interrupt enable. */ SET_H_CSR (LM32_CSR_IE, (GET_H_CSR (LM32_CSR_IE) & 1) << 1); CIA_SET (cpu, GET_H_CSR (LM32_CSR_EBA) + LM32_EID_DATA_BUS_ERROR * 32); sim_engine_halt (sd, cpu, NULL, LM32_EID_DATA_BUS_ERROR * 32, sim_stopped, SIM_SIGBUS); break; default: sim_engine_abort (sd, cpu, cia, "sim_core_signal - internal error - bad switch"); } }
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