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rk65c02/src/rk65c02.c

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#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <stdbool.h>
#include <errno.h>
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#include <assert.h>
#include <string.h>
#include <gc/gc.h>
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#include "bus.h"
#include "instruction.h"
#include "rk65c02.h"
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#include "log.h"
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#include "debug.h"
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void rk65c02_exec(rk65c02emu_t *);
/*
* Prepare the emulator for use, set initial CPU state.
*/
rk65c02emu_t
rk65c02_init(bus_t *b)
{
rk65c02emu_t e;
e.bus = b;
e.state = STOPPED;
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e.stopreason = HOST;
e.regs.P = P_UNDEFINED|P_IRQ_DISABLE;
/* reset also clears the decimal flag */
e.regs.P &= ~P_DECIMAL;
e.irq = false;
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e.bps_head = NULL;
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e.trace = false;
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e.trace_head = NULL;
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e.runtime_disassembly = false;
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rk65c02_log(LOG_DEBUG, "Initialized new emulator.");
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return e;
}
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/*
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* Assert the IRQ line.
*/
void
rk65c02_assert_irq(rk65c02emu_t *e)
{
/*
* Clearly this is too simpleton'ish, because more than one device
* might want to assert the interrupt line (on hardware level it is
* active low, so can just be pulled down by any device connected
* to it.
*/
e->irq = true;
if ((e->state == STOPPED) && (e->stopreason == WAI))
rk65c02_start(e);
}
/*
* Respond to interrupt and start the interrupt service routine.
*/
void
rk65c02_irq(rk65c02emu_t *e)
{
/* push return address to the stack */
stack_push(e, e->regs.PC >> 8);
stack_push(e, e->regs.PC & 0xFF);
/* push processor status to the stack with break flag set */
stack_push(e, e->regs.P);
/*
* The IRQ disable is set, decimal flags is cleared _after_ pushing
* the P register to the stack.
*/
e->regs.P |= P_IRQ_DISABLE;
e->regs.P &= ~P_DECIMAL;
/* break flag is only saved to the stack, it is not present in the ISR... */
e->regs.P &= ~P_BREAK;
/* load address from IRQ vector into program counter */
e->regs.PC = bus_read_1(e->bus, VECTOR_IRQ);
e->regs.PC |= bus_read_1(e->bus, VECTOR_IRQ + 1) << 8;
}
/*
* Execute a single instruction within emulator.
*/
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void
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rk65c02_exec(rk65c02emu_t *e)
{
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instruction_t i;
instrdef_t id;
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uint16_t tpc; /* saved PC for tracing */
tpc = e->regs.PC;
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if (e->irq && (!(e->regs.P & P_IRQ_DISABLE)))
rk65c02_irq(e);
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/* XXX: handle watchpoints toos */
if (debug_PC_is_breakpoint(e)) {
e->state = STOPPED;
e->stopreason = BREAKPOINT;
return;
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}
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if (e->runtime_disassembly)
disassemble(e->bus, e->regs.PC);
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i = instruction_fetch(e->bus, e->regs.PC);
id = instruction_decode(i.opcode);
if (id.emul != NULL) {
id.emul(e, &id, &i);
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if (!instruction_modify_pc(&id))
program_counter_increment(e, &id);
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} else {
rk65c02_log(LOG_ERROR, "unimplemented opcode %X @ %X\n",
i.opcode, e->regs.PC);
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e->state = STOPPED;
e->stopreason = EMUERROR;
}
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if (e->trace)
debug_trace_savestate(e, tpc, &id, &i);
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}
/*
* Start the emulator.
*/
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void
rk65c02_start(rk65c02emu_t *e) {
assert(e != NULL);
e->state = RUNNING;
while (e->state == RUNNING) {
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rk65c02_exec(e);
}
}
/*
* Execute as many instructions as specified in steps argument.
*/
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void
rk65c02_step(rk65c02emu_t *e, uint16_t steps) {
uint16_t i = 0;
assert(e != NULL);
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e->state = STEPPING;
while ((e->state == STEPPING) && (i < steps)) {
rk65c02_exec(e);
i++;
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}
e->state = STOPPED;
e->stopreason = STEPPED;
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}
void
rk65c02_dump_stack(rk65c02emu_t *e, uint8_t n)
{
uint16_t stackaddr;
stackaddr = STACK_END-n;
while (stackaddr <= STACK_END) {
if ((stackaddr == STACK_END-n) || !((stackaddr % 0x10)))
printf("stack %#02x: ", stackaddr);
printf("%#02x ", bus_read_1(e->bus, stackaddr));
stackaddr++;
if (!(stackaddr % 0x10))
printf("\n");
}
}
void
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rk65c02_dump_regs(reg_state_t regs)
{
char *str;
str = rk65c02_regs_string_get(regs);
printf ("%s\n", str);
}
char *
rk65c02_regs_string_get(reg_state_t regs)
{
#define REGS_STR_LEN 50
char *str;
/* XXX: string allocation to a separate utility function? */
str = GC_MALLOC(REGS_STR_LEN);
if (str == NULL) {
rk65c02_log(LOG_CRIT, "Error allocating memory for buffer: %s.",
strerror(errno));
return NULL;
}
memset(str, 0, REGS_STR_LEN);
snprintf(str, REGS_STR_LEN, "A: %X X: %X Y: %X PC: %X SP: %X P: %c%c%c%c%c%c%c%c",
regs.A, regs.X, regs.Y, regs.PC, regs.SP,
(regs.P & P_NEGATIVE) ? 'N' : '-',
(regs.P & P_SIGN_OVERFLOW) ? 'V' : '-',
(regs.P & P_UNDEFINED) ? '1' : '-',
(regs.P & P_BREAK) ? 'B' : '-',
(regs.P & P_DECIMAL) ? 'D' : '-',
(regs.P & P_IRQ_DISABLE) ? 'I' : '-',
(regs.P & P_ZERO) ? 'Z' : '-',
(regs.P & P_CARRY) ? 'C' : '-');
return str;
}
/*
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int
main(void)
{
bus_t b;
b = bus_init();
bus_write_1(&b, 0, OP_INX);
bus_write_1(&b, 1, OP_NOP);
bus_write_1(&b, 2, OP_LDY_IMM);
bus_write_1(&b, 3, 0x1);
bus_write_1(&b, 4, OP_TSB_ZP);
bus_write_1(&b, 5, 0x3);
bus_write_1(&b, 6, OP_JSR);
bus_write_1(&b, 7, 0x09);
bus_write_1(&b, 8, 0x0);
bus_write_1(&b, 9, OP_STP);
rk65c02_start(&b, 0);
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bus_finish(&b);
}
*/