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/* This file is part of the program psim.
Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au>
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 2 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, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#ifndef _CPU_C_
#define _CPU_C_
#include <setjmp.h>
#include "cpu.h"
#include "idecode.h"
#ifdef HAVE_STRING_H
#include <string.h>
#else
#ifdef HAVE_STRINGS_H
#include <strings.h>
#endif
#endif
struct _cpu {
/* the registers */
registers regs;
/* current instruction address */
unsigned_word program_counter;
/* the memory maps */
core *physical; /* all of memory */
vm *virtual;
vm_instruction_map *instruction_map; /* instructions */
vm_data_map *data_map; /* data */
/* the system this processor is contained within */
cpu_mon *monitor;
os_emul *os_emulation;
psim *system;
event_queue *events;
int cpu_nr;
/* Current CPU model information */
model_data *model_ptr;
#if WITH_IDECODE_CACHE_SIZE
/* a cache to store cracked instructions */
idecode_cache icache[WITH_IDECODE_CACHE_SIZE];
#endif
/* any interrupt state */
interrupts ints;
/* address reservation: keep the physical address and the contents
of memory at that address */
memory_reservation reservation;
/* offset from event time to this cpu's idea of the local time */
signed64 time_base_local_time;
signed64 decrementer_local_time;
event_entry_tag decrementer_event;
};
INLINE_CPU\
(cpu *)
cpu_create(psim *system,
core *memory,
cpu_mon *monitor,
os_emul *os_emulation,
int cpu_nr)
{
cpu *processor = ZALLOC(cpu);
/* create the virtual memory map from the core */
processor->physical = memory;
processor->virtual = vm_create(memory);
processor->instruction_map = vm_create_instruction_map(processor->virtual);
processor->data_map = vm_create_data_map(processor->virtual);
if (CURRENT_MODEL_ISSUE > 0)
processor->model_ptr = model_create (processor);
/* link back to core system */
processor->system = system;
processor->events = psim_event_queue(system);
processor->cpu_nr = cpu_nr;
processor->monitor = monitor;
processor->os_emulation = os_emulation;
return processor;
}
INLINE_CPU\
(void)
cpu_init(cpu *processor)
{
memset(&processor->regs, 0, sizeof(processor->regs));
/* vm init is delayed until after the device tree has been init as
the devices may further init the cpu */
if (CURRENT_MODEL_ISSUE > 0)
model_init (processor->model_ptr);
}
/* find ones way home */
INLINE_CPU\
(psim *)
cpu_system(cpu *processor)
{
return processor->system;
}
INLINE_CPU\
(int)
cpu_nr(cpu *processor)
{
return processor->cpu_nr;
}
INLINE_CPU\
(cpu_mon *)
cpu_monitor(cpu *processor)
{
return processor->monitor;
}
INLINE_CPU\
(os_emul *)
cpu_os_emulation(cpu *processor)
{
return processor->os_emulation;
}
INLINE_CPU\
(model_data *)
cpu_model(cpu *processor)
{
return processor->model_ptr;
}
/* program counter manipulation */
INLINE_CPU\
(void)
cpu_set_program_counter(cpu *processor,
unsigned_word new_program_counter)
{
processor->program_counter = new_program_counter;
}
INLINE_CPU\
(unsigned_word)
cpu_get_program_counter(cpu *processor)
{
return processor->program_counter;
}
INLINE_CPU\
(void)
cpu_restart(cpu *processor,
unsigned_word nia)
{
ASSERT(processor != NULL);
cpu_set_program_counter(processor, nia);
psim_restart(processor->system, processor->cpu_nr);
}
INLINE_CPU\
(void)
cpu_halt(cpu *processor,
unsigned_word nia,
stop_reason reason,
int signal)
{
ASSERT(processor != NULL);
if (CURRENT_MODEL_ISSUE > 0)
model_halt(processor->model_ptr);
cpu_set_program_counter(processor, nia);
psim_halt(processor->system, processor->cpu_nr, reason, signal);
}
EXTERN_CPU\
(void)
cpu_error(cpu *processor,
unsigned_word cia,
const char *fmt,
...)
{
char message[1024];
va_list ap;
/* format the message */
va_start(ap, fmt);
vsprintf(message, fmt, ap);
va_end(ap);
/* sanity check */
if (strlen(message) >= sizeof(message))
error("cpu_error: buffer overflow");
if (processor != NULL) {
printf_filtered("cpu %d, cia 0x%lx: %s\n",
processor->cpu_nr + 1, (unsigned long)cia, message);
cpu_halt(processor, cia, was_signalled, -1);
}
else {
error("cpu: %s", message);
}
}
/* The processors local concept of time */
INLINE_CPU\
(signed64)
cpu_get_time_base(cpu *processor)
{
return (event_queue_time(processor->events)
- processor->time_base_local_time);
}
INLINE_CPU\
(void)
cpu_set_time_base(cpu *processor,
signed64 time_base)
{
processor->time_base_local_time = (event_queue_time(processor->events)
- time_base);
}
INLINE_CPU\
(signed32)
cpu_get_decrementer(cpu *processor)
{
return (processor->decrementer_local_time
- event_queue_time(processor->events));
}
STATIC_INLINE_CPU\
(void)
cpu_decrement_event(void *data)
{
cpu *processor = (cpu*)data;
processor->decrementer_event = NULL;
decrementer_interrupt(processor);
}
INLINE_CPU\
(void)
cpu_set_decrementer(cpu *processor,
signed32 decrementer)
{
signed64 old_decrementer = cpu_get_decrementer(processor);
event_queue_deschedule(processor->events, processor->decrementer_event);
processor->decrementer_event = NULL;
processor->decrementer_local_time = (event_queue_time(processor->events)
+ decrementer);
if (decrementer < 0 && old_decrementer >= 0)
/* A decrementer interrupt occures if the sign of the decrement
register is changed from positive to negative by the load
instruction */
decrementer_interrupt(processor);
else if (decrementer >= 0)
processor->decrementer_event = event_queue_schedule(processor->events,
decrementer,
cpu_decrement_event,
processor);
}
#if WITH_IDECODE_CACHE_SIZE
/* allow access to the cpu's instruction cache */
INLINE_CPU\
(idecode_cache *)
cpu_icache_entry(cpu *processor,
unsigned_word cia)
{
return &processor->icache[cia / 4 % WITH_IDECODE_CACHE_SIZE];
}
INLINE_CPU\
(void)
cpu_flush_icache(cpu *processor)
{
int i;
/* force all addresses to 0xff... so that they never hit */
for (i = 0; i < WITH_IDECODE_CACHE_SIZE; i++)
processor->icache[i].address = MASK(0, 63);
}
#endif
/* address map revelation */
INLINE_CPU\
(vm_instruction_map *)
cpu_instruction_map(cpu *processor)
{
return processor->instruction_map;
}
INLINE_CPU\
(vm_data_map *)
cpu_data_map(cpu *processor)
{
return processor->data_map;
}
INLINE_CPU\
(void)
cpu_page_tlb_invalidate_entry(cpu *processor,
unsigned_word ea)
{
vm_page_tlb_invalidate_entry(processor->virtual, ea);
}
INLINE_CPU\
(void)
cpu_page_tlb_invalidate_all(cpu *processor)
{
vm_page_tlb_invalidate_all(processor->virtual);
}
/* interrupt access */
INLINE_CPU\
(interrupts *)
cpu_interrupts(cpu *processor)
{
return &processor->ints;
}
/* reservation access */
INLINE_CPU\
(memory_reservation *)
cpu_reservation(cpu *processor)
{
return &processor->reservation;
}
/* register access */
INLINE_CPU\
(registers *)
cpu_registers(cpu *processor)
{
return &processor->regs;
}
INLINE_CPU\
(void)
cpu_synchronize_context(cpu *processor,
unsigned_word cia)
{
#if (WITH_IDECODE_CACHE_SIZE)
/* kill of the cache */
cpu_flush_icache(processor);
#endif
/* update virtual memory */
vm_synchronize_context(processor->virtual,
processor->regs.spr,
processor->regs.sr,
processor->regs.msr,
processor, cia);
}
/* might again be useful one day */
INLINE_CPU\
(void)
cpu_print_info(cpu *processor, int verbose)
{
}
#endif /* _CPU_C_ */
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