lxdream.org :: lxdream/src/sh4/sh4.c r401:f79327f39818 (annotated)

tree revision 408:af496b734734

filename	src/sh4/sh4.c
changeset	401:f79327f39818
prev	378:f10fbdd4e24b
next	412:d58e4d69de16
author	nkeynes
date	Fri Sep 28 07:27:20 2007 +0000 (16 years ago)
permissions	-rw-r--r--
last change	Change block signature to return pointer to next block (if known) Rewrite block-exit code

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nkeynes@378	1	/**
nkeynes@401	2	* $Id: sh4.c,v 1.2 2007-09-20 08:37:19 nkeynes Exp $
nkeynes@378	3	*
nkeynes@378	4	* SH4 parent module for all CPU modes and SH4 peripheral
nkeynes@378	5	* modules.
nkeynes@378	6	*
nkeynes@378	7	* Copyright (c) 2005 Nathan Keynes.
nkeynes@378	8	*
nkeynes@378	9	* This program is free software; you can redistribute it and/or modify
nkeynes@378	10	* it under the terms of the GNU General Public License as published by
nkeynes@378	11	* the Free Software Foundation; either version 2 of the License, or
nkeynes@378	12	* (at your option) any later version.
nkeynes@378	13	*
nkeynes@378	14	* This program is distributed in the hope that it will be useful,
nkeynes@378	15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@378	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@378	17	* GNU General Public License for more details.
nkeynes@378	18	*/
nkeynes@378	19
nkeynes@378	20	#define MODULE sh4_module
nkeynes@378	21	#include <math.h>
nkeynes@378	22	#include "dream.h"
nkeynes@378	23	#include "sh4/sh4core.h"
nkeynes@378	24	#include "sh4/sh4mmio.h"
nkeynes@378	25	#include "sh4/intc.h"
nkeynes@378	26	#include "mem.h"
nkeynes@378	27	#include "clock.h"
nkeynes@378	28	#include "syscall.h"
nkeynes@378	29
nkeynes@401	30	#define EXV_EXCEPTION 0x100 /* General exception vector */
nkeynes@401	31	#define EXV_TLBMISS 0x400 /* TLB-miss exception vector */
nkeynes@401	32	#define EXV_INTERRUPT 0x600 /* External interrupt vector */
nkeynes@401	33
nkeynes@378	34	void sh4_init( void );
nkeynes@378	35	void sh4_reset( void );
nkeynes@378	36	void sh4_start( void );
nkeynes@378	37	void sh4_stop( void );
nkeynes@378	38	void sh4_save_state( FILE *f );
nkeynes@378	39	int sh4_load_state( FILE *f );
nkeynes@378	40
nkeynes@378	41	uint32_t sh4_run_slice( uint32_t );
nkeynes@378	42	uint32_t sh4_xlat_run_slice( uint32_t );
nkeynes@378	43
nkeynes@378	44	struct dreamcast_module sh4_module = { "SH4", sh4_init, sh4_reset,
nkeynes@378	45	NULL, sh4_run_slice, sh4_stop,
nkeynes@378	46	sh4_save_state, sh4_load_state };
nkeynes@378	47
nkeynes@378	48	struct sh4_registers sh4r;
nkeynes@378	49	struct breakpoint_struct sh4_breakpoints[MAX_BREAKPOINTS];
nkeynes@378	50	int sh4_breakpoint_count = 0;
nkeynes@378	51
nkeynes@378	52	void sh4_set_use_xlat( gboolean use )
nkeynes@378	53	{
nkeynes@378	54	if( use ) {
nkeynes@378	55	xlat_cache_init();
nkeynes@378	56	sh4_x86_init();
nkeynes@378	57	sh4_module.run_time_slice = sh4_xlat_run_slice;
nkeynes@378	58	} else {
nkeynes@378	59	sh4_module.run_time_slice = sh4_run_slice;
nkeynes@378	60	}
nkeynes@378	61	}
nkeynes@378	62
nkeynes@378	63	void sh4_init(void)
nkeynes@378	64	{
nkeynes@378	65	register_io_regions( mmio_list_sh4mmio );
nkeynes@378	66	MMU_init();
nkeynes@378	67	sh4_reset();
nkeynes@378	68	}
nkeynes@378	69
nkeynes@378	70	void sh4_reset(void)
nkeynes@378	71	{
nkeynes@378	72	/* zero everything out, for the sake of having a consistent state. */
nkeynes@378	73	memset( &sh4r, 0, sizeof(sh4r) );
nkeynes@378	74
nkeynes@378	75	/* Resume running if we were halted */
nkeynes@378	76	sh4r.sh4_state = SH4_STATE_RUNNING;
nkeynes@378	77
nkeynes@378	78	sh4r.pc = 0xA0000000;
nkeynes@378	79	sh4r.new_pc= 0xA0000002;
nkeynes@378	80	sh4r.vbr = 0x00000000;
nkeynes@378	81	sh4r.fpscr = 0x00040001;
nkeynes@378	82	sh4r.sr = 0x700000F0;
nkeynes@378	83	sh4r.fr_bank = &sh4r.fr[0][0];
nkeynes@378	84
nkeynes@378	85	/* Mem reset will do this, but if we want to reset _just_ the SH4... */
nkeynes@378	86	MMIO_WRITE( MMU, EXPEVT, EXC_POWER_RESET );
nkeynes@378	87
nkeynes@378	88	/* Peripheral modules */
nkeynes@378	89	CPG_reset();
nkeynes@378	90	INTC_reset();
nkeynes@378	91	MMU_reset();
nkeynes@378	92	TMU_reset();
nkeynes@378	93	SCIF_reset();
nkeynes@401	94	sh4_stats_reset();
nkeynes@378	95	}
nkeynes@378	96
nkeynes@378	97	void sh4_stop(void)
nkeynes@378	98	{
nkeynes@378	99
nkeynes@378	100	}
nkeynes@378	101
nkeynes@378	102	void sh4_save_state( FILE *f )
nkeynes@378	103	{
nkeynes@401	104	if( sh4_module.run_time_slice == sh4_xlat_run_slice ) {
nkeynes@401	105	/* If we were running with the translator, update new_pc and in_delay_slot */
nkeynes@401	106	sh4r.new_pc = sh4r.pc+2;
nkeynes@401	107	sh4r.in_delay_slot = FALSE;
nkeynes@401	108	}
nkeynes@401	109
nkeynes@378	110	fwrite( &sh4r, sizeof(sh4r), 1, f );
nkeynes@378	111	MMU_save_state( f );
nkeynes@378	112	INTC_save_state( f );
nkeynes@378	113	TMU_save_state( f );
nkeynes@378	114	SCIF_save_state( f );
nkeynes@378	115	}
nkeynes@378	116
nkeynes@378	117	int sh4_load_state( FILE * f )
nkeynes@378	118	{
nkeynes@378	119	fread( &sh4r, sizeof(sh4r), 1, f );
nkeynes@378	120	MMU_load_state( f );
nkeynes@378	121	INTC_load_state( f );
nkeynes@378	122	TMU_load_state( f );
nkeynes@378	123	return SCIF_load_state( f );
nkeynes@378	124	}
nkeynes@378	125
nkeynes@378	126
nkeynes@378	127	void sh4_set_breakpoint( uint32_t pc, int type )
nkeynes@378	128	{
nkeynes@378	129	sh4_breakpoints[sh4_breakpoint_count].address = pc;
nkeynes@378	130	sh4_breakpoints[sh4_breakpoint_count].type = type;
nkeynes@378	131	sh4_breakpoint_count++;
nkeynes@378	132	}
nkeynes@378	133
nkeynes@378	134	gboolean sh4_clear_breakpoint( uint32_t pc, int type )
nkeynes@378	135	{
nkeynes@378	136	int i;
nkeynes@378	137
nkeynes@378	138	for( i=0; i<sh4_breakpoint_count; i++ ) {
nkeynes@378	139	if( sh4_breakpoints[i].address == pc &&
nkeynes@378	140	sh4_breakpoints[i].type == type ) {
nkeynes@378	141	while( ++i < sh4_breakpoint_count ) {
nkeynes@378	142	sh4_breakpoints[i-1].address = sh4_breakpoints[i].address;
nkeynes@378	143	sh4_breakpoints[i-1].type = sh4_breakpoints[i].type;
nkeynes@378	144	}
nkeynes@378	145	sh4_breakpoint_count--;
nkeynes@378	146	return TRUE;
nkeynes@378	147	}
nkeynes@378	148	}
nkeynes@378	149	return FALSE;
nkeynes@378	150	}
nkeynes@378	151
nkeynes@378	152	int sh4_get_breakpoint( uint32_t pc )
nkeynes@378	153	{
nkeynes@378	154	int i;
nkeynes@378	155	for( i=0; i<sh4_breakpoint_count; i++ ) {
nkeynes@378	156	if( sh4_breakpoints[i].address == pc )
nkeynes@378	157	return sh4_breakpoints[i].type;
nkeynes@378	158	}
nkeynes@378	159	return 0;
nkeynes@378	160	}
nkeynes@378	161
nkeynes@401	162	void sh4_set_pc( int pc )
nkeynes@401	163	{
nkeynes@401	164	sh4r.pc = pc;
nkeynes@401	165	sh4r.new_pc = pc+2;
nkeynes@401	166	}
nkeynes@401	167
nkeynes@401	168
nkeynes@401	169	/***************************** Support methods *************************/
nkeynes@401	170
nkeynes@401	171	static void sh4_switch_banks( )
nkeynes@401	172	{
nkeynes@401	173	uint32_t tmp[8];
nkeynes@401	174
nkeynes@401	175	memcpy( tmp, sh4r.r, sizeof(uint32_t)*8 );
nkeynes@401	176	memcpy( sh4r.r, sh4r.r_bank, sizeof(uint32_t)*8 );
nkeynes@401	177	memcpy( sh4r.r_bank, tmp, sizeof(uint32_t)*8 );
nkeynes@401	178	}
nkeynes@401	179
nkeynes@401	180	void sh4_write_sr( uint32_t newval )
nkeynes@401	181	{
nkeynes@401	182	if( (newval ^ sh4r.sr) & SR_RB )
nkeynes@401	183	sh4_switch_banks();
nkeynes@401	184	sh4r.sr = newval;
nkeynes@401	185	sh4r.t = (newval&SR_T) ? 1 : 0;
nkeynes@401	186	sh4r.s = (newval&SR_S) ? 1 : 0;
nkeynes@401	187	sh4r.m = (newval&SR_M) ? 1 : 0;
nkeynes@401	188	sh4r.q = (newval&SR_Q) ? 1 : 0;
nkeynes@401	189	intc_mask_changed();
nkeynes@401	190	}
nkeynes@401	191
nkeynes@401	192	uint32_t sh4_read_sr( void )
nkeynes@401	193	{
nkeynes@401	194	/* synchronize sh4r.sr with the various bitflags */
nkeynes@401	195	sh4r.sr &= SR_MQSTMASK;
nkeynes@401	196	if( sh4r.t ) sh4r.sr \|= SR_T;
nkeynes@401	197	if( sh4r.s ) sh4r.sr \|= SR_S;
nkeynes@401	198	if( sh4r.m ) sh4r.sr \|= SR_M;
nkeynes@401	199	if( sh4r.q ) sh4r.sr \|= SR_Q;
nkeynes@401	200	return sh4r.sr;
nkeynes@401	201	}
nkeynes@401	202
nkeynes@401	203
nkeynes@401	204
nkeynes@401	205	#define RAISE( x, v ) do{ \
nkeynes@401	206	if( sh4r.vbr == 0 ) { \
nkeynes@401	207	ERROR( "%08X: VBR not initialized while raising exception %03X, halting", sh4r.pc, x ); \
nkeynes@401	208	dreamcast_stop(); return FALSE; \
nkeynes@401	209	} else { \
nkeynes@401	210	sh4r.spc = sh4r.pc; \
nkeynes@401	211	sh4r.ssr = sh4_read_sr(); \
nkeynes@401	212	sh4r.sgr = sh4r.r[15]; \
nkeynes@401	213	MMIO_WRITE(MMU,EXPEVT,x); \
nkeynes@401	214	sh4r.pc = sh4r.vbr + v; \
nkeynes@401	215	sh4r.new_pc = sh4r.pc + 2; \
nkeynes@401	216	sh4_write_sr( sh4r.ssr \|SR_MD\|SR_BL\|SR_RB ); \
nkeynes@401	217	if( sh4r.in_delay_slot ) { \
nkeynes@401	218	sh4r.in_delay_slot = 0; \
nkeynes@401	219	sh4r.spc -= 2; \
nkeynes@401	220	} \
nkeynes@401	221	} \
nkeynes@401	222	return TRUE; } while(0)
nkeynes@401	223
nkeynes@401	224	/**
nkeynes@401	225	* Raise a general CPU exception for the specified exception code.
nkeynes@401	226	* (NOT for TRAPA or TLB exceptions)
nkeynes@401	227	*/
nkeynes@401	228	gboolean sh4_raise_exception( int code )
nkeynes@401	229	{
nkeynes@401	230	RAISE( code, EXV_EXCEPTION );
nkeynes@401	231	}
nkeynes@401	232
nkeynes@401	233	gboolean sh4_raise_trap( int trap )
nkeynes@401	234	{
nkeynes@401	235	MMIO_WRITE( MMU, TRA, trap<<2 );
nkeynes@401	236	return sh4_raise_exception( EXC_TRAP );
nkeynes@401	237	}
nkeynes@401	238
nkeynes@401	239	gboolean sh4_raise_slot_exception( int normal_code, int slot_code ) {
nkeynes@401	240	if( sh4r.in_delay_slot ) {
nkeynes@401	241	return sh4_raise_exception(slot_code);
nkeynes@401	242	} else {
nkeynes@401	243	return sh4_raise_exception(normal_code);
nkeynes@401	244	}
nkeynes@401	245	}
nkeynes@401	246
nkeynes@401	247	gboolean sh4_raise_tlb_exception( int code )
nkeynes@401	248	{
nkeynes@401	249	RAISE( code, EXV_TLBMISS );
nkeynes@401	250	}
nkeynes@401	251
nkeynes@401	252	void sh4_accept_interrupt( void )
nkeynes@401	253	{
nkeynes@401	254	uint32_t code = intc_accept_interrupt();
nkeynes@401	255	sh4r.ssr = sh4_read_sr();
nkeynes@401	256	sh4r.spc = sh4r.pc;
nkeynes@401	257	sh4r.sgr = sh4r.r[15];
nkeynes@401	258	sh4_write_sr( sh4r.ssr\|SR_BL\|SR_MD\|SR_RB );
nkeynes@401	259	MMIO_WRITE( MMU, INTEVT, code );
nkeynes@401	260	sh4r.pc = sh4r.vbr + 0x600;
nkeynes@401	261	sh4r.new_pc = sh4r.pc + 2;
nkeynes@401	262	// WARN( "Accepting interrupt %03X, from %08X => %08X", code, sh4r.spc, sh4r.pc );
nkeynes@401	263	}
nkeynes@401	264
nkeynes@401	265	void signsat48( void )
nkeynes@401	266	{
nkeynes@401	267	if( ((int64_t)sh4r.mac) < (int64_t)0xFFFF800000000000LL )
nkeynes@401	268	sh4r.mac = 0xFFFF800000000000LL;
nkeynes@401	269	else if( ((int64_t)sh4r.mac) > (int64_t)0x00007FFFFFFFFFFFLL )
nkeynes@401	270	sh4r.mac = 0x00007FFFFFFFFFFFLL;
nkeynes@401	271	}
nkeynes@401	272
nkeynes@401	273	void sh4_fsca( uint32_t anglei, float *fr )
nkeynes@401	274	{
nkeynes@401	275	float angle = (((float)(anglei&0xFFFF))/65536.0) * 2 * M_PI;
nkeynes@401	276	*fr++ = cosf(angle);
nkeynes@401	277	*fr = sinf(angle);
nkeynes@401	278	}
nkeynes@401	279
nkeynes@401	280	void sh4_sleep(void)
nkeynes@401	281	{
nkeynes@401	282	if( MMIO_READ( CPG, STBCR ) & 0x80 ) {
nkeynes@401	283	sh4r.sh4_state = SH4_STATE_STANDBY;
nkeynes@401	284	} else {
nkeynes@401	285	sh4r.sh4_state = SH4_STATE_SLEEP;
nkeynes@401	286	}
nkeynes@401	287	}
nkeynes@401	288
nkeynes@401	289	/**
nkeynes@401	290	* Compute the matrix tranform of fv given the matrix xf.
nkeynes@401	291	* Both fv and xf are word-swapped as per the sh4r.fr banks
nkeynes@401	292	*/
nkeynes@401	293	void sh4_ftrv( float target, float xf )
nkeynes@401	294	{
nkeynes@401	295	float fv[4] = { target[1], target[0], target[3], target[2] };
nkeynes@401	296	target[1] = xf[1] * fv[0] + xf[5]*fv[1] +
nkeynes@401	297	xf[9]fv[2] + xf[13]fv[3];
nkeynes@401	298	target[0] = xf[0] * fv[0] + xf[4]*fv[1] +
nkeynes@401	299	xf[8]fv[2] + xf[12]fv[3];
nkeynes@401	300	target[3] = xf[3] * fv[0] + xf[7]*fv[1] +
nkeynes@401	301	xf[11]fv[2] + xf[15]fv[3];
nkeynes@401	302	target[2] = xf[2] * fv[0] + xf[6]*fv[1] +
nkeynes@401	303	xf[10]fv[2] + xf[14]fv[3];
nkeynes@401	304	}
nkeynes@401	305