lxdream.org :: lxdream/src/sh4/sh4trans.c r398:16b0856ea511 (annotated)

tree revision 401:f79327f39818

filename	src/sh4/sh4trans.c
changeset	398:16b0856ea511
prev	390:d066209999f1
next	408:af496b734734
author	nkeynes
date	Thu Sep 20 08:37:19 2007 +0000 (16 years ago)
permissions	-rw-r--r--
last change	Move support routines to sh4.c

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nkeynes@359	1	/**
nkeynes@398	2	* $Id: sh4trans.c,v 1.4 2007-09-19 12:09:33 nkeynes Exp $
nkeynes@359	3	*
nkeynes@359	4	* SH4 translation core module. This part handles the non-target-specific
nkeynes@359	5	* section of the translation.
nkeynes@359	6	*
nkeynes@359	7	* Copyright (c) 2005 Nathan Keynes.
nkeynes@359	8	*
nkeynes@359	9	* This program is free software; you can redistribute it and/or modify
nkeynes@359	10	* it under the terms of the GNU General Public License as published by
nkeynes@359	11	* the Free Software Foundation; either version 2 of the License, or
nkeynes@359	12	* (at your option) any later version.
nkeynes@359	13	*
nkeynes@359	14	* This program is distributed in the hope that it will be useful,
nkeynes@359	15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@359	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@359	17	* GNU General Public License for more details.
nkeynes@359	18	*/
nkeynes@398	19	#include <assert.h>
nkeynes@359	20	#include "sh4core.h"
nkeynes@359	21	#include "sh4trans.h"
nkeynes@359	22	#include "xltcache.h"
nkeynes@359	23
nkeynes@359	24	/**
nkeynes@359	25	* Execute a timeslice using translated code only (ie translate/execute loop)
nkeynes@359	26	* Note this version does not support breakpoints
nkeynes@359	27	*/
nkeynes@359	28	uint32_t sh4_xlat_run_slice( uint32_t nanosecs )
nkeynes@359	29	{
nkeynes@368	30	int i;
nkeynes@359	31	sh4r.slice_cycle = 0;
nkeynes@359	32
nkeynes@359	33	if( sh4r.sh4_state != SH4_STATE_RUNNING ) {
nkeynes@359	34	if( sh4r.event_pending < nanosecs ) {
nkeynes@359	35	sh4r.sh4_state = SH4_STATE_RUNNING;
nkeynes@359	36	sh4r.slice_cycle = sh4r.event_pending;
nkeynes@359	37	}
nkeynes@359	38	}
nkeynes@359	39
nkeynes@368	40	while( sh4r.slice_cycle < nanosecs ) {
nkeynes@359	41	if( SH4_EVENT_PENDING() ) {
nkeynes@359	42	if( sh4r.event_types & PENDING_EVENT ) {
nkeynes@359	43	event_execute();
nkeynes@359	44	}
nkeynes@359	45	/* Eventq execute may (quite likely) deliver an immediate IRQ */
nkeynes@359	46	if( sh4r.event_types & PENDING_IRQ ) {
nkeynes@359	47	sh4_accept_interrupt();
nkeynes@359	48	}
nkeynes@359	49	}
nkeynes@359	50
nkeynes@390	51	if( sh4r.pc > 0xFFFFFF00 ) {
nkeynes@390	52	syscall_invoke( sh4r.pc );
nkeynes@390	53	sh4r.in_delay_slot = 0;
nkeynes@390	54	sh4r.pc = sh4r.pr;
nkeynes@390	55	}
nkeynes@390	56
nkeynes@368	57	gboolean (*code)() = xlat_get_code(sh4r.pc);
nkeynes@359	58	if( code == NULL ) {
nkeynes@359	59	code = sh4_translate_basic_block( sh4r.pc );
nkeynes@359	60	}
nkeynes@368	61	if( !code() )
nkeynes@368	62	break;
nkeynes@359	63	}
nkeynes@359	64
nkeynes@359	65	/* If we aborted early, but the cpu is still technically running,
nkeynes@359	66	* we're doing a hard abort - cut the timeslice back to what we
nkeynes@359	67	* actually executed
nkeynes@359	68	*/
nkeynes@359	69	if( sh4r.slice_cycle < nanosecs && sh4r.sh4_state == SH4_STATE_RUNNING ) {
nkeynes@359	70	nanosecs = sh4r.slice_cycle;
nkeynes@359	71	}
nkeynes@359	72	if( sh4r.sh4_state != SH4_STATE_STANDBY ) {
nkeynes@359	73	TMU_run_slice( nanosecs );
nkeynes@359	74	SCIF_run_slice( nanosecs );
nkeynes@359	75	}
nkeynes@359	76	return nanosecs;
nkeynes@359	77	}
nkeynes@359	78
nkeynes@359	79	uint8_t *xlat_output;
nkeynes@359	80
nkeynes@359	81	/**
nkeynes@359	82	* Translate a linear basic block, ie all instructions from the start address
nkeynes@359	83	* (inclusive) until the next branch/jump instruction or the end of the page
nkeynes@359	84	* is reached.
nkeynes@359	85	* @return the address of the translated block
nkeynes@359	86	* eg due to lack of buffer space.
nkeynes@359	87	*/
nkeynes@359	88	void * sh4_translate_basic_block( sh4addr_t start )
nkeynes@359	89	{
nkeynes@359	90	uint32_t pc = start;
nkeynes@359	91	int done;
nkeynes@359	92	xlat_cache_block_t block = xlat_start_block( start );
nkeynes@359	93	xlat_output = (uint8_t *)block->code;
nkeynes@359	94	uint8_t *eob = xlat_output + block->size;
nkeynes@359	95	sh4_translate_begin_block();
nkeynes@359	96
nkeynes@359	97	while( (done = sh4_x86_translate_instruction( pc )) == 0 ) {
nkeynes@359	98	if( eob - xlat_output < MAX_INSTRUCTION_SIZE ) {
nkeynes@359	99	uint8_t *oldstart = block->code;
nkeynes@359	100	block = xlat_extend_block();
nkeynes@359	101	xlat_output = block->code + (xlat_output - oldstart);
nkeynes@359	102	eob = block->code + block->size;
nkeynes@359	103	}
nkeynes@359	104	pc += 2;
nkeynes@359	105	}
nkeynes@390	106	pc+=2;
nkeynes@368	107	sh4_translate_end_block(pc);
nkeynes@368	108	xlat_commit_block( xlat_output - block->code, pc-start );
nkeynes@359	109	return block->code;
nkeynes@359	110	}
nkeynes@359	111
nkeynes@398	112	/**
nkeynes@398	113	* Translate a linear basic block to a temporary buffer, execute it, and return
nkeynes@398	114	* the result of the execution. The translation is discarded.
nkeynes@398	115	*/
nkeynes@398	116	gboolean sh4_translate_and_run( sh4addr_t start )
nkeynes@398	117	{
nkeynes@398	118	char buf[65536];
nkeynes@359	119
nkeynes@398	120	uint32_t pc = start;
nkeynes@398	121	int done;
nkeynes@398	122	xlat_output = buf;
nkeynes@398	123	uint8_t *eob = xlat_output + sizeof(buf);
nkeynes@398	124
nkeynes@398	125	sh4_translate_begin_block();
nkeynes@398	126
nkeynes@398	127	while( (done = sh4_x86_translate_instruction( pc )) == 0 ) {
nkeynes@398	128	assert( (eob - xlat_output) >= MAX_INSTRUCTION_SIZE );
nkeynes@398	129	pc += 2;
nkeynes@398	130	}
nkeynes@398	131	pc+=2;
nkeynes@398	132	sh4_translate_end_block(pc);
nkeynes@398	133
nkeynes@398	134	gboolean (code)() = (void )buf;
nkeynes@398	135	return code();
nkeynes@398	136	}