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[/] [or1k/] [trunk/] [insight/] [sim/] [v850/] [interp.c] - Rev 1775
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#include "sim-main.h" #include "sim-options.h" #include "v850_sim.h" #include "sim-assert.h" #include "itable.h" #ifdef HAVE_STDLIB_H #include <stdlib.h> #endif #ifdef HAVE_STRING_H #include <string.h> #else #ifdef HAVE_STRINGS_H #include <strings.h> #endif #endif #include "bfd.h" #ifndef INLINE #ifdef __GNUC__ #define INLINE inline #else #define INLINE #endif #endif static const char * get_insn_name (sim_cpu *, int); /* For compatibility */ SIM_DESC simulator; /* v850 interrupt model */ enum interrupt_type { int_reset, int_nmi, int_intov1, int_intp10, int_intp11, int_intp12, int_intp13, int_intcm4, num_int_types }; char *interrupt_names[] = { "reset", "nmi", "intov1", "intp10", "intp11", "intp12", "intp13", "intcm4", NULL }; static void do_interrupt (sd, data) SIM_DESC sd; void *data; { char **interrupt_name = (char**)data; enum interrupt_type inttype; inttype = (interrupt_name - STATE_WATCHPOINTS (sd)->interrupt_names); /* For a hardware reset, drop everything and jump to the start address */ if (inttype == int_reset) { PC = 0; PSW = 0x20; ECR = 0; sim_engine_restart (sd, NULL, NULL, NULL_CIA); } /* Deliver an NMI when allowed */ if (inttype == int_nmi) { if (PSW & PSW_NP) { /* We're already working on an NMI, so this one must wait around until the previous one is done. The processor ignores subsequent NMIs, so we don't need to count them. Just keep re-scheduling a single NMI until it manages to be delivered */ if (STATE_CPU (sd, 0)->pending_nmi != NULL) sim_events_deschedule (sd, STATE_CPU (sd, 0)->pending_nmi); STATE_CPU (sd, 0)->pending_nmi = sim_events_schedule (sd, 1, do_interrupt, data); return; } else { /* NMI can be delivered. Do not deschedule pending_nmi as that, if still in the event queue, is a second NMI that needs to be delivered later. */ FEPC = PC; FEPSW = PSW; /* Set the FECC part of the ECR. */ ECR &= 0x0000ffff; ECR |= 0x10; PSW |= PSW_NP; PSW &= ~PSW_EP; PSW |= PSW_ID; PC = 0x10; sim_engine_restart (sd, NULL, NULL, NULL_CIA); } } /* deliver maskable interrupt when allowed */ if (inttype > int_nmi && inttype < num_int_types) { if ((PSW & PSW_NP) || (PSW & PSW_ID)) { /* Can't deliver this interrupt, reschedule it for later */ sim_events_schedule (sd, 1, do_interrupt, data); return; } else { /* save context */ EIPC = PC; EIPSW = PSW; /* Disable further interrupts. */ PSW |= PSW_ID; /* Indicate that we're doing interrupt not exception processing. */ PSW &= ~PSW_EP; /* Clear the EICC part of the ECR, will set below. */ ECR &= 0xffff0000; switch (inttype) { case int_intov1: PC = 0x80; ECR |= 0x80; break; case int_intp10: PC = 0x90; ECR |= 0x90; break; case int_intp11: PC = 0xa0; ECR |= 0xa0; break; case int_intp12: PC = 0xb0; ECR |= 0xb0; break; case int_intp13: PC = 0xc0; ECR |= 0xc0; break; case int_intcm4: PC = 0xd0; ECR |= 0xd0; break; default: /* Should never be possible. */ sim_engine_abort (sd, NULL, NULL_CIA, "do_interrupt - internal error - bad switch"); break; } } sim_engine_restart (sd, NULL, NULL, NULL_CIA); } /* some other interrupt? */ sim_engine_abort (sd, NULL, NULL_CIA, "do_interrupt - internal error - interrupt %d unknown", inttype); } /* Return name of an insn, used by insn profiling. */ static const char * get_insn_name (sim_cpu *cpu, int i) { return itable[i].name; } /* These default values correspond to expected usage for the chip. */ uint32 OP[4]; SIM_DESC sim_open (kind, cb, abfd, argv) SIM_OPEN_KIND kind; host_callback *cb; struct _bfd *abfd; char **argv; { SIM_DESC sd = sim_state_alloc (kind, cb); int mach; SIM_ASSERT (STATE_MAGIC (sd) == SIM_MAGIC_NUMBER); /* for compatibility */ simulator = sd; /* FIXME: should be better way of setting up interrupts */ STATE_WATCHPOINTS (sd)->pc = &(PC); STATE_WATCHPOINTS (sd)->sizeof_pc = sizeof (PC); STATE_WATCHPOINTS (sd)->interrupt_handler = do_interrupt; STATE_WATCHPOINTS (sd)->interrupt_names = interrupt_names; /* Initialize the mechanism for doing insn profiling. */ CPU_INSN_NAME (STATE_CPU (sd, 0)) = get_insn_name; CPU_MAX_INSNS (STATE_CPU (sd, 0)) = nr_itable_entries; if (sim_pre_argv_init (sd, argv[0]) != SIM_RC_OK) return 0; /* Allocate core managed memory */ /* "Mirror" the ROM addresses below 1MB. */ sim_do_commandf (sd, "memory region 0,0x100000,0x%lx", V850_ROM_SIZE); /* Chunk of ram adjacent to rom */ sim_do_commandf (sd, "memory region 0x100000,0x%lx", V850_LOW_END-0x100000); /* peripheral I/O region - mirror 1K across 4k (0x1000) */ sim_do_command (sd, "memory region 0xfff000,0x1000,1024"); /* similarly if in the internal RAM region */ sim_do_command (sd, "memory region 0xffe000,0x1000,1024"); /* getopt will print the error message so we just have to exit if this fails. FIXME: Hmmm... in the case of gdb we need getopt to call print_filtered. */ if (sim_parse_args (sd, argv) != SIM_RC_OK) { /* Uninstall the modules to avoid memory leaks, file descriptor leaks, etc. */ sim_module_uninstall (sd); return 0; } /* check for/establish the a reference program image */ if (sim_analyze_program (sd, (STATE_PROG_ARGV (sd) != NULL ? *STATE_PROG_ARGV (sd) : NULL), abfd) != SIM_RC_OK) { sim_module_uninstall (sd); return 0; } /* establish any remaining configuration options */ if (sim_config (sd) != SIM_RC_OK) { sim_module_uninstall (sd); return 0; } if (sim_post_argv_init (sd) != SIM_RC_OK) { /* Uninstall the modules to avoid memory leaks, file descriptor leaks, etc. */ sim_module_uninstall (sd); return 0; } /* determine the machine type */ if (STATE_ARCHITECTURE (sd) != NULL && STATE_ARCHITECTURE (sd)->arch == bfd_arch_v850) mach = STATE_ARCHITECTURE (sd)->mach; else mach = bfd_mach_v850; /* default */ /* set machine specific configuration */ switch (mach) { case bfd_mach_v850: case bfd_mach_v850e: STATE_CPU (sd, 0)->psw_mask = (PSW_NP | PSW_EP | PSW_ID | PSW_SAT | PSW_CY | PSW_OV | PSW_S | PSW_Z); break; case bfd_mach_v850ea: PSW |= PSW_US; STATE_CPU (sd, 0)->psw_mask = (PSW_US | PSW_NP | PSW_EP | PSW_ID | PSW_SAT | PSW_CY | PSW_OV | PSW_S | PSW_Z); break; } return sd; } void sim_close (sd, quitting) SIM_DESC sd; int quitting; { sim_module_uninstall (sd); } SIM_RC sim_create_inferior (sd, prog_bfd, argv, env) SIM_DESC sd; struct _bfd *prog_bfd; char **argv; char **env; { memset (&State, 0, sizeof (State)); if (prog_bfd != NULL) PC = bfd_get_start_address (prog_bfd); /* For v850ea, set PSW[US] by default */ if (STATE_ARCHITECTURE (sd) != NULL && STATE_ARCHITECTURE (sd)->arch == bfd_arch_v850 && STATE_ARCHITECTURE (sd)->mach == bfd_mach_v850ea) PSW |= PSW_US; return SIM_RC_OK; } int sim_fetch_register (sd, rn, memory, length) SIM_DESC sd; int rn; unsigned char *memory; int length; { *(unsigned32*)memory = H2T_4 (State.regs[rn]); return -1; } int sim_store_register (sd, rn, memory, length) SIM_DESC sd; int rn; unsigned char *memory; int length; { State.regs[rn] = T2H_4 (*(unsigned32*)memory); return -1; } void sim_do_command (sd, cmd) SIM_DESC sd; char *cmd; { char *mm_cmd = "memory-map"; char *int_cmd = "interrupt"; if (sim_args_command (sd, cmd) != SIM_RC_OK) { if (strncmp (cmd, mm_cmd, strlen (mm_cmd) == 0)) sim_io_eprintf (sd, "`memory-map' command replaced by `sim memory'\n"); else if (strncmp (cmd, int_cmd, strlen (int_cmd)) == 0) sim_io_eprintf (sd, "`interrupt' command replaced by `sim watch'\n"); else sim_io_eprintf (sd, "Unknown command `%s'\n", cmd); } }
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