lxdream.org :: lxdream/src/aica/armcore.c r44:8da2cbcffe24 (annotated)

tree revision 44:8da2cbcffe24

filename	src/aica/armcore.c
changeset	44:8da2cbcffe24
prev	43:0cf3e339cc59
next	46:30d123047e16
author	nkeynes
date	Mon Dec 26 11:52:56 2005 +0000 (18 years ago)
permissions	-rw-r--r--
last change	Default ARM to not-running for sanity's sake Stop machine on UNIMP abort

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nkeynes@30	1	/**
nkeynes@44	2	* $Id: armcore.c,v 1.9 2005-12-26 11:52:56 nkeynes Exp $
nkeynes@30	3	*
nkeynes@30	4	* ARM7TDMI CPU emulation core.
nkeynes@30	5	*
nkeynes@30	6	* Copyright (c) 2005 Nathan Keynes.
nkeynes@30	7	*
nkeynes@30	8	* This program is free software; you can redistribute it and/or modify
nkeynes@30	9	* it under the terms of the GNU General Public License as published by
nkeynes@30	10	* the Free Software Foundation; either version 2 of the License, or
nkeynes@30	11	* (at your option) any later version.
nkeynes@30	12	*
nkeynes@30	13	* This program is distributed in the hope that it will be useful,
nkeynes@30	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@30	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@30	16	* GNU General Public License for more details.
nkeynes@30	17	*/
nkeynes@2	18
nkeynes@37	19	#define MODULE aica_module
nkeynes@37	20	#include "dream.h"
nkeynes@7	21	#include "aica/armcore.h"
nkeynes@43	22	#include "mem.h"
nkeynes@2	23
nkeynes@2	24	struct arm_registers armr;
nkeynes@2	25
nkeynes@35	26	void arm_set_mode( int mode );
nkeynes@35	27
nkeynes@35	28	uint32_t arm_exceptions[][2] = {{ MODE_SVC, 0x00000000 },
nkeynes@35	29	{ MODE_UND, 0x00000004 },
nkeynes@35	30	{ MODE_SVC, 0x00000008 },
nkeynes@35	31	{ MODE_ABT, 0x0000000C },
nkeynes@35	32	{ MODE_ABT, 0x00000010 },
nkeynes@35	33	{ MODE_IRQ, 0x00000018 },
nkeynes@35	34	{ MODE_FIQ, 0x0000001C } };
nkeynes@35	35
nkeynes@35	36	#define EXC_RESET 0
nkeynes@35	37	#define EXC_UNDEFINED 1
nkeynes@35	38	#define EXC_SOFTWARE 2
nkeynes@35	39	#define EXC_PREFETCH_ABORT 3
nkeynes@35	40	#define EXC_DATA_ABORT 4
nkeynes@35	41	#define EXC_IRQ 5
nkeynes@35	42	#define EXC_FAST_IRQ 6
nkeynes@35	43
nkeynes@35	44	uint32_t arm_cpu_freq = ARM_BASE_RATE;
nkeynes@35	45	uint32_t arm_cpu_period = 1000 / ARM_BASE_RATE;
nkeynes@35	46
nkeynes@43	47
nkeynes@43	48	static struct breakpoint_struct arm_breakpoints[MAX_BREAKPOINTS];
nkeynes@43	49	static int arm_breakpoint_count = 0;
nkeynes@43	50
nkeynes@43	51	void arm_set_breakpoint( uint32_t pc, int type )
nkeynes@43	52	{
nkeynes@43	53	arm_breakpoints[arm_breakpoint_count].address = pc;
nkeynes@43	54	arm_breakpoints[arm_breakpoint_count].type = type;
nkeynes@43	55	arm_breakpoint_count++;
nkeynes@43	56	}
nkeynes@43	57
nkeynes@43	58	gboolean arm_clear_breakpoint( uint32_t pc, int type )
nkeynes@43	59	{
nkeynes@43	60	int i;
nkeynes@43	61
nkeynes@43	62	for( i=0; i<arm_breakpoint_count; i++ ) {
nkeynes@43	63	if( arm_breakpoints[i].address == pc &&
nkeynes@43	64	arm_breakpoints[i].type == type ) {
nkeynes@43	65	while( ++i < arm_breakpoint_count ) {
nkeynes@43	66	arm_breakpoints[i-1].address = arm_breakpoints[i].address;
nkeynes@43	67	arm_breakpoints[i-1].type = arm_breakpoints[i].type;
nkeynes@43	68	}
nkeynes@43	69	arm_breakpoint_count--;
nkeynes@43	70	return TRUE;
nkeynes@43	71	}
nkeynes@43	72	}
nkeynes@43	73	return FALSE;
nkeynes@43	74	}
nkeynes@43	75
nkeynes@43	76	int arm_get_breakpoint( uint32_t pc )
nkeynes@43	77	{
nkeynes@43	78	int i;
nkeynes@43	79	for( i=0; i<arm_breakpoint_count; i++ ) {
nkeynes@43	80	if( arm_breakpoints[i].address == pc )
nkeynes@43	81	return arm_breakpoints[i].type;
nkeynes@43	82	}
nkeynes@43	83	return 0;
nkeynes@43	84	}
nkeynes@43	85
nkeynes@35	86	uint32_t arm_run_slice( uint32_t nanosecs )
nkeynes@35	87	{
nkeynes@43	88	int i;
nkeynes@35	89	uint32_t target = armr.icount + nanosecs / arm_cpu_period;
nkeynes@35	90	uint32_t start = armr.icount;
nkeynes@35	91	while( armr.icount < target ) {
nkeynes@35	92	armr.icount++;
nkeynes@35	93	if( !arm_execute_instruction() )
nkeynes@35	94	break;
nkeynes@43	95	#ifdef ENABLE_DEBUG_MODE
nkeynes@43	96	for( i=0; i<arm_breakpoint_count; i++ ) {
nkeynes@43	97	if( arm_breakpoints[i].address == armr.r[15] ) {
nkeynes@43	98	break;
nkeynes@43	99	}
nkeynes@43	100	}
nkeynes@43	101	if( i != arm_breakpoint_count ) {
nkeynes@43	102	dreamcast_stop();
nkeynes@43	103	if( arm_breakpoints[i].type == BREAK_ONESHOT )
nkeynes@43	104	arm_clear_breakpoint( armr.r[15], BREAK_ONESHOT );
nkeynes@43	105	break;
nkeynes@43	106	}
nkeynes@43	107	#endif
nkeynes@35	108	}
nkeynes@35	109
nkeynes@35	110	if( target != armr.icount ) {
nkeynes@35	111	/* Halted - compute time actually executed */
nkeynes@35	112	nanosecs = (armr.icount - start) * arm_cpu_period;
nkeynes@35	113	}
nkeynes@35	114	return nanosecs;
nkeynes@35	115	}
nkeynes@35	116
nkeynes@35	117	void arm_save_state( FILE *f )
nkeynes@35	118	{
nkeynes@35	119	fwrite( &armr, sizeof(armr), 1, f );
nkeynes@35	120	}
nkeynes@35	121
nkeynes@35	122	int arm_load_state( FILE *f )
nkeynes@35	123	{
nkeynes@35	124	fread( &armr, sizeof(armr), 1, f );
nkeynes@35	125	return 0;
nkeynes@35	126	}
nkeynes@35	127
nkeynes@35	128	/* Exceptions */
nkeynes@35	129	void arm_reset( void )
nkeynes@35	130	{
nkeynes@35	131	/* Wipe all processor state */
nkeynes@35	132	memset( &armr, 0, sizeof(armr) );
nkeynes@35	133
nkeynes@35	134	armr.cpsr = MODE_SVC \| CPSR_I \| CPSR_F;
nkeynes@35	135	armr.r[15] = 0x00000000;
nkeynes@35	136	}
nkeynes@35	137
nkeynes@37	138	#define SET_CPSR_CONTROL 0x00010000
nkeynes@37	139	#define SET_CPSR_EXTENSION 0x00020000
nkeynes@37	140	#define SET_CPSR_STATUS 0x00040000
nkeynes@37	141	#define SET_CPSR_FLAGS 0x00080000
nkeynes@37	142
nkeynes@37	143	uint32_t arm_get_cpsr( void )
nkeynes@37	144	{
nkeynes@37	145	/* write back all flags to the cpsr */
nkeynes@37	146	armr.cpsr = armr.cpsr & CPSR_COMPACT_MASK;
nkeynes@37	147	if( armr.n ) armr.cpsr \|= CPSR_N;
nkeynes@37	148	if( armr.z ) armr.cpsr \|= CPSR_Z;
nkeynes@37	149	if( armr.c ) armr.cpsr \|= CPSR_C;
nkeynes@37	150	if( armr.v ) armr.cpsr \|= CPSR_V;
nkeynes@37	151	if( armr.t ) armr.cpsr \|= CPSR_T;
nkeynes@37	152	return armr.cpsr;
nkeynes@37	153	}
nkeynes@37	154
nkeynes@37	155	/**
nkeynes@37	156	* Set the CPSR to the specified value.
nkeynes@37	157	*
nkeynes@37	158	* @param value values to set in CPSR
nkeynes@37	159	* @param fields set of mask values to define which sections of the
nkeynes@37	160	* CPSR to set (one of the SET_CPSR_* values above)
nkeynes@37	161	*/
nkeynes@37	162	void arm_set_cpsr( uint32_t value, uint32_t fields )
nkeynes@37	163	{
nkeynes@37	164	if( IS_PRIVILEGED_MODE() ) {
nkeynes@37	165	if( fields & SET_CPSR_CONTROL ) {
nkeynes@37	166	int mode = value & CPSR_MODE;
nkeynes@37	167	arm_set_mode( mode );
nkeynes@37	168	armr.t = ( value & CPSR_T ); /* Technically illegal to change */
nkeynes@37	169	armr.cpsr = (armr.cpsr & 0xFFFFFF00) \| (value & 0x000000FF);
nkeynes@37	170	}
nkeynes@37	171
nkeynes@37	172	/* Middle 16 bits not currently defined */
nkeynes@37	173	}
nkeynes@37	174	if( fields & SET_CPSR_FLAGS ) {
nkeynes@37	175	/* Break flags directly out of given value - don't bother writing
nkeynes@37	176	* back to CPSR
nkeynes@37	177	*/
nkeynes@37	178	armr.n = ( value & CPSR_N );
nkeynes@37	179	armr.z = ( value & CPSR_Z );
nkeynes@37	180	armr.c = ( value & CPSR_C );
nkeynes@37	181	armr.v = ( value & CPSR_V );
nkeynes@37	182	}
nkeynes@37	183	}
nkeynes@37	184
nkeynes@37	185	void arm_set_spsr( uint32_t value, uint32_t fields )
nkeynes@37	186	{
nkeynes@37	187	/* Only defined if we actually have an SPSR register */
nkeynes@37	188	if( IS_EXCEPTION_MODE() ) {
nkeynes@37	189	if( fields & SET_CPSR_CONTROL ) {
nkeynes@37	190	armr.spsr = (armr.spsr & 0xFFFFFF00) \| (value & 0x000000FF);
nkeynes@37	191	}
nkeynes@37	192
nkeynes@37	193	/* Middle 16 bits not currently defined */
nkeynes@37	194
nkeynes@37	195	if( fields & SET_CPSR_FLAGS ) {
nkeynes@37	196	armr.spsr = (armr.spsr & 0x00FFFFFF) \| (value & 0xFF000000);
nkeynes@37	197	}
nkeynes@37	198	}
nkeynes@37	199	}
nkeynes@37	200
nkeynes@35	201	/**
nkeynes@35	202	* Raise an ARM exception (other than reset, which uses arm_reset().
nkeynes@35	203	* @param exception one of the EXC_* exception codes defined above.
nkeynes@35	204	*/
nkeynes@35	205	void arm_raise_exception( int exception )
nkeynes@35	206	{
nkeynes@35	207	int mode = arm_exceptions[exception][0];
nkeynes@37	208	uint32_t spsr = arm_get_cpsr();
nkeynes@35	209	arm_set_mode( mode );
nkeynes@37	210	armr.spsr = spsr;
nkeynes@35	211	armr.r[14] = armr.r[15];
nkeynes@37	212	armr.cpsr = (spsr & (~CPSR_T)) \| CPSR_I;
nkeynes@35	213	if( mode == MODE_FIQ )
nkeynes@35	214	armr.cpsr \|= CPSR_F;
nkeynes@35	215	armr.r[15] = arm_exceptions[exception][1];
nkeynes@35	216	}
nkeynes@35	217
nkeynes@37	218	void arm_restore_cpsr( void )
nkeynes@35	219	{
nkeynes@35	220	int spsr = armr.spsr;
nkeynes@35	221	int mode = spsr & CPSR_MODE;
nkeynes@35	222	arm_set_mode( mode );
nkeynes@35	223	armr.cpsr = spsr;
nkeynes@37	224	armr.n = ( spsr & CPSR_N );
nkeynes@37	225	armr.z = ( spsr & CPSR_Z );
nkeynes@37	226	armr.c = ( spsr & CPSR_C );
nkeynes@37	227	armr.v = ( spsr & CPSR_V );
nkeynes@37	228	armr.t = ( spsr & CPSR_T );
nkeynes@35	229	}
nkeynes@35	230
nkeynes@35	231
nkeynes@35	232
nkeynes@35	233	/**
nkeynes@35	234	* Change the current executing ARM mode to the requested mode.
nkeynes@35	235	* Saves any required registers to banks and restores those for the
nkeynes@35	236	* correct mode. (Note does not actually update CPSR at the moment).
nkeynes@35	237	*/
nkeynes@35	238	void arm_set_mode( int targetMode )
nkeynes@35	239	{
nkeynes@35	240	int currentMode = armr.cpsr & CPSR_MODE;
nkeynes@35	241	if( currentMode == targetMode )
nkeynes@35	242	return;
nkeynes@35	243
nkeynes@35	244	switch( currentMode ) {
nkeynes@35	245	case MODE_USER:
nkeynes@35	246	case MODE_SYS:
nkeynes@35	247	armr.user_r[5] = armr.r[13];
nkeynes@35	248	armr.user_r[6] = armr.r[14];
nkeynes@35	249	break;
nkeynes@35	250	case MODE_SVC:
nkeynes@35	251	armr.svc_r[0] = armr.r[13];
nkeynes@35	252	armr.svc_r[1] = armr.r[14];
nkeynes@35	253	armr.svc_r[2] = armr.spsr;
nkeynes@35	254	break;
nkeynes@35	255	case MODE_ABT:
nkeynes@35	256	armr.abt_r[0] = armr.r[13];
nkeynes@35	257	armr.abt_r[1] = armr.r[14];
nkeynes@35	258	armr.abt_r[2] = armr.spsr;
nkeynes@35	259	break;
nkeynes@35	260	case MODE_UND:
nkeynes@35	261	armr.und_r[0] = armr.r[13];
nkeynes@35	262	armr.und_r[1] = armr.r[14];
nkeynes@35	263	armr.und_r[2] = armr.spsr;
nkeynes@35	264	break;
nkeynes@35	265	case MODE_IRQ:
nkeynes@35	266	armr.irq_r[0] = armr.r[13];
nkeynes@35	267	armr.irq_r[1] = armr.r[14];
nkeynes@35	268	armr.irq_r[2] = armr.spsr;
nkeynes@35	269	break;
nkeynes@35	270	case MODE_FIQ:
nkeynes@35	271	armr.fiq_r[0] = armr.r[8];
nkeynes@35	272	armr.fiq_r[1] = armr.r[9];
nkeynes@35	273	armr.fiq_r[2] = armr.r[10];
nkeynes@35	274	armr.fiq_r[3] = armr.r[11];
nkeynes@35	275	armr.fiq_r[4] = armr.r[12];
nkeynes@35	276	armr.fiq_r[5] = armr.r[13];
nkeynes@35	277	armr.fiq_r[6] = armr.r[14];
nkeynes@35	278	armr.fiq_r[7] = armr.spsr;
nkeynes@35	279	armr.r[8] = armr.user_r[0];
nkeynes@35	280	armr.r[9] = armr.user_r[1];
nkeynes@35	281	armr.r[10] = armr.user_r[2];
nkeynes@35	282	armr.r[11] = armr.user_r[3];
nkeynes@35	283	armr.r[12] = armr.user_r[4];
nkeynes@35	284	break;
nkeynes@35	285	}
nkeynes@35	286
nkeynes@35	287	switch( targetMode ) {
nkeynes@35	288	case MODE_USER:
nkeynes@35	289	case MODE_SYS:
nkeynes@35	290	armr.r[13] = armr.user_r[5];
nkeynes@35	291	armr.r[14] = armr.user_r[6];
nkeynes@35	292	break;
nkeynes@35	293	case MODE_SVC:
nkeynes@35	294	armr.r[13] = armr.svc_r[0];
nkeynes@35	295	armr.r[14] = armr.svc_r[1];
nkeynes@35	296	armr.spsr = armr.svc_r[2];
nkeynes@35	297	break;
nkeynes@35	298	case MODE_ABT:
nkeynes@35	299	armr.r[13] = armr.abt_r[0];
nkeynes@35	300	armr.r[14] = armr.abt_r[1];
nkeynes@35	301	armr.spsr = armr.abt_r[2];
nkeynes@35	302	break;
nkeynes@35	303	case MODE_UND:
nkeynes@35	304	armr.r[13] = armr.und_r[0];
nkeynes@35	305	armr.r[14] = armr.und_r[1];
nkeynes@35	306	armr.spsr = armr.und_r[2];
nkeynes@35	307	break;
nkeynes@35	308	case MODE_IRQ:
nkeynes@35	309	armr.r[13] = armr.irq_r[0];
nkeynes@35	310	armr.r[14] = armr.irq_r[1];
nkeynes@35	311	armr.spsr = armr.irq_r[2];
nkeynes@35	312	break;
nkeynes@35	313	case MODE_FIQ:
nkeynes@35	314	armr.user_r[0] = armr.r[8];
nkeynes@35	315	armr.user_r[1] = armr.r[9];
nkeynes@35	316	armr.user_r[2] = armr.r[10];
nkeynes@35	317	armr.user_r[3] = armr.r[11];
nkeynes@35	318	armr.user_r[4] = armr.r[12];
nkeynes@35	319	armr.r[8] = armr.fiq_r[0];
nkeynes@35	320	armr.r[9] = armr.fiq_r[1];
nkeynes@35	321	armr.r[10] = armr.fiq_r[2];
nkeynes@35	322	armr.r[11] = armr.fiq_r[3];
nkeynes@35	323	armr.r[12] = armr.fiq_r[4];
nkeynes@35	324	armr.r[13] = armr.fiq_r[5];
nkeynes@35	325	armr.r[14] = armr.fiq_r[6];
nkeynes@35	326	armr.spsr = armr.fiq_r[7];
nkeynes@35	327	break;
nkeynes@35	328	}
nkeynes@35	329	}
nkeynes@35	330
nkeynes@5	331	/* Page references are as per ARM DDI 0100E (June 2000) */
nkeynes@2	332
nkeynes@11	333	#define MEM_READ_BYTE( addr ) arm_read_byte(addr)
nkeynes@11	334	#define MEM_READ_WORD( addr ) arm_read_word(addr)
nkeynes@11	335	#define MEM_READ_LONG( addr ) arm_read_long(addr)
nkeynes@11	336	#define MEM_WRITE_BYTE( addr, val ) arm_write_byte(addr, val)
nkeynes@11	337	#define MEM_WRITE_WORD( addr, val ) arm_write_word(addr, val)
nkeynes@11	338	#define MEM_WRITE_LONG( addr, val ) arm_write_long(addr, val)
nkeynes@2	339
nkeynes@5	340
nkeynes@5	341	#define IS_NOTBORROW( result, op1, op2 ) (op2 > op1 ? 0 : 1)
nkeynes@5	342	#define IS_CARRY( result, op1, op2 ) (result < op1 ? 1 : 0)
nkeynes@5	343	#define IS_SUBOVERFLOW( result, op1, op2 ) (((op1^op2) & (result^op1)) >> 31)
nkeynes@5	344	#define IS_ADDOVERFLOW( result, op1, op2 ) (((op1&op2) & (result^op1)) >> 31)
nkeynes@5	345
nkeynes@7	346	#define PC armr.r[15]
nkeynes@2	347
nkeynes@5	348	/* Instruction fields */
nkeynes@5	349	#define COND(ir) (ir>>28)
nkeynes@5	350	#define GRP(ir) ((ir>>26)&0x03)
nkeynes@5	351	#define OPCODE(ir) ((ir>>20)&0x1F)
nkeynes@5	352	#define IFLAG(ir) (ir&0x02000000)
nkeynes@5	353	#define SFLAG(ir) (ir&0x00100000)
nkeynes@5	354	#define PFLAG(ir) (ir&0x01000000)
nkeynes@5	355	#define UFLAG(ir) (ir&0x00800000)
nkeynes@5	356	#define BFLAG(ir) (ir&0x00400000)
nkeynes@5	357	#define WFLAG(ir) (IR&0x00200000)
nkeynes@5	358	#define LFLAG(ir) SFLAG(ir)
nkeynes@5	359	#define RN(ir) (armr.r[((ir>>16)&0x0F)] + (((ir>>16)&0x0F) == 0x0F ? 4 : 0))
nkeynes@37	360	#define RD(ir) (armr.r[((ir>>12)&0x0F)] + (((ir>>12)&0x0F) == 0x0F ? 4 : 0))
nkeynes@5	361	#define RDn(ir) ((ir>>12)&0x0F)
nkeynes@37	362	#define RS(ir) (armr.r[((ir>>8)&0x0F)] + (((ir>>8)&0x0F) == 0x0F ? 4 : 0))
nkeynes@37	363	#define RM(ir) (armr.r[(ir&0x0F)] + (((ir&0x0F) == 0x0F ? 4 : 0)) )
nkeynes@5	364	#define LRN(ir) armr.r[((ir>>16)&0x0F)]
nkeynes@5	365	#define LRD(ir) armr.r[((ir>>12)&0x0F)]
nkeynes@5	366	#define LRS(ir) armr.r[((ir>>8)&0x0F)]
nkeynes@5	367	#define LRM(ir) armr.r[(ir&0x0F)]
nkeynes@5	368
nkeynes@5	369	#define IMM8(ir) (ir&0xFF)
nkeynes@5	370	#define IMM12(ir) (ir&0xFFF)
nkeynes@7	371	#define SHIFTIMM(ir) ((ir>>7)&0x1F)
nkeynes@7	372	#define IMMROT(ir) ((ir>>7)&0x1E)
nkeynes@37	373	#define ROTIMM12(ir) ROTATE_RIGHT_LONG(IMM8(ir),IMMROT(ir))
nkeynes@37	374	#define SIGNEXT24(n) ((n&0x00800000) ? (n\|0xFF000000) : (n&0x00FFFFFF))
nkeynes@5	375	#define SHIFT(ir) ((ir>>4)&0x07)
nkeynes@5	376	#define DISP24(ir) ((ir&0x00FFFFFF))
nkeynes@37	377	#define UNDEF(ir) do{ arm_raise_exception( EXC_UNDEFINED ); return TRUE; } while(0)
nkeynes@44	378	#define UNIMP(ir) do{ ERROR( "Halted on unimplemented instruction at %08x, opcode = %04x", PC-4, ir ); dreamcast_stop(); return FALSE; }while(0)
nkeynes@7	379
nkeynes@37	380	/**
nkeynes@37	381	* Determine the value of the shift-operand for a data processing instruction,
nkeynes@37	382	* without determing a value for shift_C (optimized form for instructions that
nkeynes@37	383	* don't require shift_C ).
nkeynes@37	384	* @see s5.1 Addressing Mode 1 - Data-processing operands (p A5-2, 218)
nkeynes@37	385	*/
nkeynes@5	386	static uint32_t arm_get_shift_operand( uint32_t ir )
nkeynes@5	387	{
nkeynes@5	388	uint32_t operand, tmp;
nkeynes@5	389	if( IFLAG(ir) == 0 ) {
nkeynes@5	390	operand = RM(ir);
nkeynes@5	391	switch(SHIFT(ir)) {
nkeynes@5	392	case 0: /* (Rm << imm) */
nkeynes@5	393	operand = operand << SHIFTIMM(ir);
nkeynes@5	394	break;
nkeynes@5	395	case 1: /* (Rm << Rs) */
nkeynes@5	396	tmp = RS(ir)&0xFF;
nkeynes@5	397	if( tmp > 31 ) operand = 0;
nkeynes@5	398	else operand = operand << tmp;
nkeynes@5	399	break;
nkeynes@5	400	case 2: /* (Rm >> imm) */
nkeynes@5	401	operand = operand >> SHIFTIMM(ir);
nkeynes@5	402	break;
nkeynes@5	403	case 3: /* (Rm >> Rs) */
nkeynes@5	404	tmp = RS(ir) & 0xFF;
nkeynes@5	405	if( tmp > 31 ) operand = 0;
nkeynes@5	406	else operand = operand >> ir;
nkeynes@5	407	break;
nkeynes@5	408	case 4: /* (Rm >>> imm) */
nkeynes@5	409	tmp = SHIFTIMM(ir);
nkeynes@5	410	if( tmp == 0 ) operand = ((int32_t)operand) >> 31;
nkeynes@5	411	else operand = ((int32_t)operand) >> tmp;
nkeynes@5	412	break;
nkeynes@5	413	case 5: /* (Rm >>> Rs) */
nkeynes@5	414	tmp = RS(ir) & 0xFF;
nkeynes@5	415	if( tmp > 31 ) operand = ((int32_t)operand) >> 31;
nkeynes@5	416	else operand = ((int32_t)operand) >> tmp;
nkeynes@5	417	break;
nkeynes@5	418	case 6:
nkeynes@5	419	tmp = SHIFTIMM(ir);
nkeynes@5	420	if( tmp == 0 ) /* RRX aka rotate with carry */
nkeynes@7	421	operand = (operand >> 1) \| (armr.c<<31);
nkeynes@5	422	else
nkeynes@5	423	operand = ROTATE_RIGHT_LONG(operand,tmp);
nkeynes@5	424	break;
nkeynes@5	425	case 7:
nkeynes@5	426	tmp = RS(ir)&0x1F;
nkeynes@5	427	operand = ROTATE_RIGHT_LONG(operand,tmp);
nkeynes@5	428	break;
nkeynes@5	429	}
nkeynes@5	430	} else {
nkeynes@5	431	operand = IMM8(ir);
nkeynes@5	432	tmp = IMMROT(ir);
nkeynes@5	433	operand = ROTATE_RIGHT_LONG(operand, tmp);
nkeynes@5	434	}
nkeynes@5	435	return operand;
nkeynes@5	436	}
nkeynes@5	437
nkeynes@5	438	/**
nkeynes@37	439	* Determine the value of the shift-operand for a data processing instruction,
nkeynes@37	440	* and set armr.shift_c accordingly.
nkeynes@37	441	* @see s5.1 Addressing Mode 1 - Data-processing operands (p A5-2, 218)
nkeynes@5	442	*/
nkeynes@5	443	static uint32_t arm_get_shift_operand_s( uint32_t ir )
nkeynes@5	444	{
nkeynes@5	445	uint32_t operand, tmp;
nkeynes@5	446	if( IFLAG(ir) == 0 ) {
nkeynes@5	447	operand = RM(ir);
nkeynes@5	448	switch(SHIFT(ir)) {
nkeynes@5	449	case 0: /* (Rm << imm) */
nkeynes@5	450	tmp = SHIFTIMM(ir);
nkeynes@5	451	if( tmp == 0 ) { /* Rm */
nkeynes@5	452	armr.shift_c = armr.c;
nkeynes@5	453	} else { /* Rm << imm */
nkeynes@5	454	armr.shift_c = (operand >> (32-tmp)) & 0x01;
nkeynes@5	455	operand = operand << tmp;
nkeynes@5	456	}
nkeynes@5	457	break;
nkeynes@5	458	case 1: /* (Rm << Rs) */
nkeynes@5	459	tmp = RS(ir)&0xFF;
nkeynes@5	460	if( tmp == 0 ) {
nkeynes@5	461	armr.shift_c = armr.c;
nkeynes@5	462	} else {
nkeynes@5	463	if( tmp <= 32 )
nkeynes@5	464	armr.shift_c = (operand >> (32-tmp)) & 0x01;
nkeynes@5	465	else armr.shift_c = 0;
nkeynes@5	466	if( tmp < 32 )
nkeynes@5	467	operand = operand << tmp;
nkeynes@5	468	else operand = 0;
nkeynes@5	469	}
nkeynes@5	470	break;
nkeynes@5	471	case 2: /* (Rm >> imm) */
nkeynes@5	472	tmp = SHIFTIMM(ir);
nkeynes@5	473	if( tmp == 0 ) {
nkeynes@5	474	armr.shift_c = operand >> 31;
nkeynes@5	475	operand = 0;
nkeynes@5	476	} else {
nkeynes@5	477	armr.shift_c = (operand >> (tmp-1)) & 0x01;
nkeynes@5	478	operand = RM(ir) >> tmp;
nkeynes@5	479	}
nkeynes@5	480	break;
nkeynes@5	481	case 3: /* (Rm >> Rs) */
nkeynes@5	482	tmp = RS(ir) & 0xFF;
nkeynes@5	483	if( tmp == 0 ) {
nkeynes@5	484	armr.shift_c = armr.c;
nkeynes@5	485	} else {
nkeynes@5	486	if( tmp <= 32 )
nkeynes@5	487	armr.shift_c = (operand >> (tmp-1))&0x01;
nkeynes@5	488	else armr.shift_c = 0;
nkeynes@5	489	if( tmp < 32 )
nkeynes@5	490	operand = operand >> tmp;
nkeynes@5	491	else operand = 0;
nkeynes@5	492	}
nkeynes@5	493	break;
nkeynes@5	494	case 4: /* (Rm >>> imm) */
nkeynes@5	495	tmp = SHIFTIMM(ir);
nkeynes@5	496	if( tmp == 0 ) {
nkeynes@5	497	armr.shift_c = operand >> 31;
nkeynes@5	498	operand = -armr.shift_c;
nkeynes@5	499	} else {
nkeynes@5	500	armr.shift_c = (operand >> (tmp-1)) & 0x01;
nkeynes@5	501	operand = ((int32_t)operand) >> tmp;
nkeynes@5	502	}
nkeynes@5	503	break;
nkeynes@5	504	case 5: /* (Rm >>> Rs) */
nkeynes@5	505	tmp = RS(ir) & 0xFF;
nkeynes@5	506	if( tmp == 0 ) {
nkeynes@5	507	armr.shift_c = armr.c;
nkeynes@5	508	} else {
nkeynes@5	509	if( tmp < 32 ) {
nkeynes@5	510	armr.shift_c = (operand >> (tmp-1))&0x01;
nkeynes@5	511	operand = ((int32_t)operand) >> tmp;
nkeynes@5	512	} else {
nkeynes@5	513	armr.shift_c = operand >> 31;
nkeynes@5	514	operand = ((int32_t)operand) >> 31;
nkeynes@5	515	}
nkeynes@5	516	}
nkeynes@5	517	break;
nkeynes@5	518	case 6:
nkeynes@5	519	tmp = SHIFTIMM(ir);
nkeynes@5	520	if( tmp == 0 ) { /* RRX aka rotate with carry */
nkeynes@5	521	armr.shift_c = operand&0x01;
nkeynes@7	522	operand = (operand >> 1) \| (armr.c<<31);
nkeynes@5	523	} else {
nkeynes@5	524	armr.shift_c = operand>>(tmp-1);
nkeynes@5	525	operand = ROTATE_RIGHT_LONG(operand,tmp);
nkeynes@5	526	}
nkeynes@5	527	break;
nkeynes@5	528	case 7:
nkeynes@5	529	tmp = RS(ir)&0xFF;
nkeynes@5	530	if( tmp == 0 ) {
nkeynes@5	531	armr.shift_c = armr.c;
nkeynes@5	532	} else {
nkeynes@5	533	tmp &= 0x1F;
nkeynes@5	534	if( tmp == 0 ) {
nkeynes@5	535	armr.shift_c = operand>>31;
nkeynes@5	536	} else {
nkeynes@5	537	armr.shift_c = (operand>>(tmp-1))&0x1;
nkeynes@5	538	operand = ROTATE_RIGHT_LONG(operand,tmp);
nkeynes@5	539	}
nkeynes@5	540	}
nkeynes@5	541	break;
nkeynes@5	542	}
nkeynes@5	543	} else {
nkeynes@5	544	operand = IMM8(ir);
nkeynes@5	545	tmp = IMMROT(ir);
nkeynes@5	546	if( tmp == 0 ) {
nkeynes@5	547	armr.shift_c = armr.c;
nkeynes@5	548	} else {
nkeynes@5	549	operand = ROTATE_RIGHT_LONG(operand, tmp);
nkeynes@5	550	armr.shift_c = operand>>31;
nkeynes@5	551	}
nkeynes@5	552	}
nkeynes@5	553	return operand;
nkeynes@5	554	}
nkeynes@5	555
nkeynes@5	556	/**
nkeynes@5	557	* Another variant of the shifter code for index-based memory addressing.
nkeynes@5	558	* Distinguished by the fact that it doesn't support register shifts, and
nkeynes@5	559	* ignores the I flag (WTF do the load/store instructions use the I flag to
nkeynes@5	560	* mean the _exact opposite_ of what it means for the data processing
nkeynes@5	561	* instructions ???)
nkeynes@5	562	*/
nkeynes@5	563	static uint32_t arm_get_address_index( uint32_t ir )
nkeynes@5	564	{
nkeynes@5	565	uint32_t operand = RM(ir);
nkeynes@7	566	uint32_t tmp;
nkeynes@7	567
nkeynes@5	568	switch(SHIFT(ir)) {
nkeynes@5	569	case 0: /* (Rm << imm) */
nkeynes@5	570	operand = operand << SHIFTIMM(ir);
nkeynes@5	571	break;
nkeynes@5	572	case 2: /* (Rm >> imm) */
nkeynes@5	573	operand = operand >> SHIFTIMM(ir);
nkeynes@5	574	break;
nkeynes@5	575	case 4: /* (Rm >>> imm) */
nkeynes@5	576	tmp = SHIFTIMM(ir);
nkeynes@5	577	if( tmp == 0 ) operand = ((int32_t)operand) >> 31;
nkeynes@5	578	else operand = ((int32_t)operand) >> tmp;
nkeynes@5	579	break;
nkeynes@5	580	case 6:
nkeynes@5	581	tmp = SHIFTIMM(ir);
nkeynes@5	582	if( tmp == 0 ) /* RRX aka rotate with carry */
nkeynes@7	583	operand = (operand >> 1) \| (armr.c<<31);
nkeynes@5	584	else
nkeynes@5	585	operand = ROTATE_RIGHT_LONG(operand,tmp);
nkeynes@5	586	break;
nkeynes@5	587	default: UNIMP(ir);
nkeynes@5	588	}
nkeynes@5	589	return operand;
nkeynes@5	590	}
nkeynes@5	591
nkeynes@37	592	/**
nkeynes@37	593	* Determine the address operand of a load/store instruction, including
nkeynes@37	594	* applying any pre/post adjustments to the address registers.
nkeynes@37	595	* @see s5.2 Addressing Mode 2 - Load and Store Word or Unsigned Byte
nkeynes@37	596	* @param The instruction word.
nkeynes@37	597	* @return The calculated address
nkeynes@37	598	*/
nkeynes@5	599	static uint32_t arm_get_address_operand( uint32_t ir )
nkeynes@5	600	{
nkeynes@5	601	uint32_t addr;
nkeynes@5	602
nkeynes@5	603	/* I P U . W */
nkeynes@5	604	switch( (ir>>21)&0x1D ) {
nkeynes@5	605	case 0: /* Rn -= imm offset (post-indexed) [5.2.8 A5-28] */
nkeynes@5	606	case 1:
nkeynes@5	607	addr = RN(ir);
nkeynes@7	608	LRN(ir) = addr - IMM12(ir);
nkeynes@5	609	break;
nkeynes@5	610	case 4: /* Rn += imm offsett (post-indexed) [5.2.8 A5-28] */
nkeynes@5	611	case 5:
nkeynes@5	612	addr = RN(ir);
nkeynes@7	613	LRN(ir) = addr + IMM12(ir);
nkeynes@5	614	break;
nkeynes@5	615	case 8: /* Rn - imm offset [5.2.2 A5-20] */
nkeynes@5	616	addr = RN(ir) - IMM12(ir);
nkeynes@5	617	break;
nkeynes@5	618	case 9: /* Rn -= imm offset (pre-indexed) [5.2.5 A5-24] */
nkeynes@5	619	addr = RN(ir) - IMM12(ir);
nkeynes@7	620	LRN(ir) = addr;
nkeynes@5	621	break;
nkeynes@5	622	case 12: /* Rn + imm offset [5.2.2 A5-20] */
nkeynes@5	623	addr = RN(ir) + IMM12(ir);
nkeynes@5	624	break;
nkeynes@5	625	case 13: /* Rn += imm offset [5.2.5 A5-24 ] */
nkeynes@5	626	addr = RN(ir) + IMM12(ir);
nkeynes@7	627	LRN(ir) = addr;
nkeynes@5	628	break;
nkeynes@5	629	case 16: /* Rn -= Rm (post-indexed) [5.2.10 A5-32 ] */
nkeynes@5	630	case 17:
nkeynes@5	631	addr = RN(ir);
nkeynes@7	632	LRN(ir) = addr - arm_get_address_index(ir);
nkeynes@5	633	break;
nkeynes@5	634	case 20: /* Rn += Rm (post-indexed) [5.2.10 A5-32 ] */
nkeynes@5	635	case 21:
nkeynes@5	636	addr = RN(ir);
nkeynes@7	637	LRN(ir) = addr - arm_get_address_index(ir);
nkeynes@5	638	break;
nkeynes@5	639	case 24: /* Rn - Rm [5.2.4 A5-23] */
nkeynes@5	640	addr = RN(ir) - arm_get_address_index(ir);
nkeynes@5	641	break;
nkeynes@5	642	case 25: /* RN -= Rm (pre-indexed) [5.2.7 A5-26] */
nkeynes@5	643	addr = RN(ir) - arm_get_address_index(ir);
nkeynes@7	644	LRN(ir) = addr;
nkeynes@5	645	break;
nkeynes@5	646	case 28: /* Rn + Rm [5.2.4 A5-23] */
nkeynes@5	647	addr = RN(ir) + arm_get_address_index(ir);
nkeynes@5	648	break;
nkeynes@5	649	case 29: /* RN += Rm (pre-indexed) [5.2.7 A5-26] */
nkeynes@5	650	addr = RN(ir) + arm_get_address_index(ir);
nkeynes@7	651	LRN(ir) = addr;
nkeynes@5	652	break;
nkeynes@5	653	}
nkeynes@5	654	return addr;
nkeynes@5	655	}
nkeynes@5	656
nkeynes@30	657	gboolean arm_execute_instruction( void )
nkeynes@2	658	{
nkeynes@37	659	uint32_t pc = PC;
nkeynes@37	660	uint32_t ir = MEM_READ_LONG(pc);
nkeynes@37	661	uint32_t operand, operand2, tmp, cond;
nkeynes@2	662
nkeynes@37	663	pc += 4;
nkeynes@37	664	PC = pc;
nkeynes@2	665
nkeynes@37	666	/**
nkeynes@37	667	* Check the condition bits first - if the condition fails return
nkeynes@37	668	* immediately without actually looking at the rest of the instruction.
nkeynes@37	669	*/
nkeynes@37	670	switch( COND(ir) ) {
nkeynes@37	671	case 0: /* EQ */
nkeynes@37	672	cond = armr.z;
nkeynes@37	673	break;
nkeynes@37	674	case 1: /* NE */
nkeynes@37	675	cond = !armr.z;
nkeynes@37	676	break;
nkeynes@37	677	case 2: /* CS/HS */
nkeynes@37	678	cond = armr.c;
nkeynes@37	679	break;
nkeynes@37	680	case 3: /* CC/LO */
nkeynes@37	681	cond = !armr.c;
nkeynes@37	682	break;
nkeynes@37	683	case 4: /* MI */
nkeynes@37	684	cond = armr.n;
nkeynes@37	685	break;
nkeynes@37	686	case 5: /* PL */
nkeynes@37	687	cond = !armr.n;
nkeynes@37	688	break;
nkeynes@37	689	case 6: /* VS */
nkeynes@37	690	cond = armr.v;
nkeynes@37	691	break;
nkeynes@37	692	case 7: /* VC */
nkeynes@37	693	cond = !armr.v;
nkeynes@37	694	break;
nkeynes@37	695	case 8: /* HI */
nkeynes@37	696	cond = armr.c && !armr.z;
nkeynes@37	697	break;
nkeynes@37	698	case 9: /* LS */
nkeynes@37	699	cond = (!armr.c) \|\| armr.z;
nkeynes@37	700	break;
nkeynes@37	701	case 10: /* GE */
nkeynes@37	702	cond = (armr.n == armr.v);
nkeynes@37	703	break;
nkeynes@37	704	case 11: /* LT */
nkeynes@37	705	cond = (armr.n != armr.v);
nkeynes@37	706	break;
nkeynes@37	707	case 12: /* GT */
nkeynes@37	708	cond = (!armr.z) && (armr.n == armr.v);
nkeynes@37	709	break;
nkeynes@37	710	case 13: /* LE */
nkeynes@37	711	cond = armr.z \|\| (armr.n != armr.v);
nkeynes@37	712	break;
nkeynes@37	713	case 14: /* AL */
nkeynes@37	714	cond = 1;
nkeynes@37	715	break;
nkeynes@37	716	case 15: /* (NV) */
nkeynes@37	717	cond = 0;
nkeynes@37	718	UNDEF(ir);
nkeynes@37	719	}
nkeynes@37	720	if( !cond )
nkeynes@37	721	return TRUE;
nkeynes@5	722
nkeynes@37	723	/**
nkeynes@37	724	* Condition passed, now for the actual instructions...
nkeynes@37	725	*/
nkeynes@37	726	switch( GRP(ir) ) {
nkeynes@37	727	case 0:
nkeynes@37	728	if( (ir & 0x0D900000) == 0x01000000 ) {
nkeynes@37	729	/* Instructions that aren't actual data processing even though
nkeynes@37	730	* they sit in the DP instruction block.
nkeynes@37	731	*/
nkeynes@37	732	switch( ir & 0x0FF000F0 ) {
nkeynes@37	733	case 0x01200010: /* BX Rd */
nkeynes@37	734	armr.t = ir & 0x01;
nkeynes@37	735	armr.r[15] = RM(ir) & 0xFFFFFFFE;
nkeynes@37	736	break;
nkeynes@37	737	case 0x01000000: /* MRS Rd, CPSR */
nkeynes@37	738	LRD(ir) = arm_get_cpsr();
nkeynes@37	739	break;
nkeynes@37	740	case 0x01400000: /* MRS Rd, SPSR */
nkeynes@37	741	LRD(ir) = armr.spsr;
nkeynes@37	742	break;
nkeynes@37	743	case 0x01200000: /* MSR CPSR, Rd */
nkeynes@37	744	arm_set_cpsr( RM(ir), ir );
nkeynes@37	745	break;
nkeynes@37	746	case 0x01600000: /* MSR SPSR, Rd */
nkeynes@37	747	arm_set_spsr( RM(ir), ir );
nkeynes@37	748	break;
nkeynes@37	749	case 0x03200000: /* MSR CPSR, imm */
nkeynes@37	750	arm_set_cpsr( ROTIMM12(ir), ir );
nkeynes@37	751	break;
nkeynes@37	752	case 0x03600000: /* MSR SPSR, imm */
nkeynes@37	753	arm_set_spsr( ROTIMM12(ir), ir );
nkeynes@37	754	break;
nkeynes@37	755	default:
nkeynes@37	756	UNIMP(ir);
nkeynes@37	757	}
nkeynes@37	758	} else if( (ir & 0x0E000090) == 0x00000090 ) {
nkeynes@37	759	/* Neither are these */
nkeynes@37	760	switch( (ir>>5)&0x03 ) {
nkeynes@37	761	case 0:
nkeynes@37	762	/* Arithmetic extension area */
nkeynes@37	763	switch(OPCODE(ir)) {
nkeynes@37	764	case 0: /* MUL */
nkeynes@37	765	break;
nkeynes@37	766	case 1: /* MULS */
nkeynes@37	767	break;
nkeynes@37	768	case 2: /* MLA */
nkeynes@37	769	break;
nkeynes@37	770	case 3: /* MLAS */
nkeynes@37	771	break;
nkeynes@37	772	case 8: /* UMULL */
nkeynes@37	773	break;
nkeynes@37	774	case 9: /* UMULLS */
nkeynes@37	775	break;
nkeynes@37	776	case 10: /* UMLAL */
nkeynes@37	777	break;
nkeynes@37	778	case 11: /* UMLALS */
nkeynes@37	779	break;
nkeynes@37	780	case 12: /* SMULL */
nkeynes@37	781	break;
nkeynes@37	782	case 13: /* SMULLS */
nkeynes@37	783	break;
nkeynes@37	784	case 14: /* SMLAL */
nkeynes@37	785	break;
nkeynes@37	786	case 15: /* SMLALS */
nkeynes@37	787	break;
nkeynes@37	788	case 16: /* SWP */
nkeynes@37	789	break;
nkeynes@37	790	case 20: /* SWPB */
nkeynes@37	791	break;
nkeynes@37	792	default:
nkeynes@37	793	UNIMP(ir);
nkeynes@5	794	}
nkeynes@5	795	break;
nkeynes@37	796	case 1:
nkeynes@37	797	if( LFLAG(ir) ) {
nkeynes@37	798	/* LDRH */
nkeynes@37	799	} else {
nkeynes@37	800	/* STRH */
nkeynes@37	801	}
nkeynes@5	802	break;
nkeynes@37	803	case 2:
nkeynes@37	804	if( LFLAG(ir) ) {
nkeynes@37	805	/* LDRSB */
nkeynes@37	806	} else {
nkeynes@37	807	UNIMP(ir);
nkeynes@37	808	}
nkeynes@5	809	break;
nkeynes@37	810	case 3:
nkeynes@37	811	if( LFLAG(ir) ) {
nkeynes@37	812	/* LDRSH */
nkeynes@37	813	} else {
nkeynes@37	814	UNIMP(ir);
nkeynes@37	815	}
nkeynes@5	816	break;
nkeynes@37	817	}
nkeynes@37	818	} else {
nkeynes@37	819	/* Data processing */
nkeynes@37	820
nkeynes@37	821	switch(OPCODE(ir)) {
nkeynes@37	822	case 0: /* AND Rd, Rn, operand */
nkeynes@37	823	LRD(ir) = RN(ir) & arm_get_shift_operand(ir);
nkeynes@37	824	break;
nkeynes@37	825	case 1: /* ANDS Rd, Rn, operand */
nkeynes@37	826	operand = arm_get_shift_operand_s(ir) & RN(ir);
nkeynes@37	827	LRD(ir) = operand;
nkeynes@37	828	if( RDn(ir) == 15 ) {
nkeynes@37	829	arm_restore_cpsr();
nkeynes@37	830	} else {
nkeynes@37	831	armr.n = operand>>31;
nkeynes@37	832	armr.z = (operand == 0);
nkeynes@37	833	armr.c = armr.shift_c;
nkeynes@37	834	}
nkeynes@37	835	break;
nkeynes@37	836	case 2: /* EOR Rd, Rn, operand */
nkeynes@37	837	LRD(ir) = RN(ir) ^ arm_get_shift_operand(ir);
nkeynes@37	838	break;
nkeynes@37	839	case 3: /* EORS Rd, Rn, operand */
nkeynes@37	840	operand = arm_get_shift_operand_s(ir) ^ RN(ir);
nkeynes@37	841	LRD(ir) = operand;
nkeynes@37	842	if( RDn(ir) == 15 ) {
nkeynes@37	843	arm_restore_cpsr();
nkeynes@37	844	} else {
nkeynes@37	845	armr.n = operand>>31;
nkeynes@37	846	armr.z = (operand == 0);
nkeynes@37	847	armr.c = armr.shift_c;
nkeynes@37	848	}
nkeynes@37	849	break;
nkeynes@37	850	case 4: /* SUB Rd, Rn, operand */
nkeynes@37	851	LRD(ir) = RN(ir) - arm_get_shift_operand(ir);
nkeynes@37	852	break;
nkeynes@37	853	case 5: /* SUBS Rd, Rn, operand */
nkeynes@37	854	operand = RN(ir);
nkeynes@37	855	operand2 = arm_get_shift_operand(ir);
nkeynes@37	856	tmp = operand - operand2;
nkeynes@37	857	LRD(ir) = tmp;
nkeynes@37	858	if( RDn(ir) == 15 ) {
nkeynes@37	859	arm_restore_cpsr();
nkeynes@37	860	} else {
nkeynes@37	861	armr.n = tmp>>31;
nkeynes@37	862	armr.z = (tmp == 0);
nkeynes@37	863	armr.c = IS_NOTBORROW(tmp,operand,operand2);
nkeynes@37	864	armr.v = IS_SUBOVERFLOW(tmp,operand,operand2);
nkeynes@37	865	}
nkeynes@37	866	break;
nkeynes@37	867	case 6: /* RSB Rd, operand, Rn */
nkeynes@37	868	LRD(ir) = arm_get_shift_operand(ir) - RN(ir);
nkeynes@37	869	break;
nkeynes@37	870	case 7: /* RSBS Rd, operand, Rn */
nkeynes@37	871	operand = arm_get_shift_operand(ir);
nkeynes@37	872	operand2 = RN(ir);
nkeynes@37	873	tmp = operand - operand2;
nkeynes@37	874	LRD(ir) = tmp;
nkeynes@37	875	if( RDn(ir) == 15 ) {
nkeynes@37	876	arm_restore_cpsr();
nkeynes@37	877	} else {
nkeynes@37	878	armr.n = tmp>>31;
nkeynes@37	879	armr.z = (tmp == 0);
nkeynes@37	880	armr.c = IS_NOTBORROW(tmp,operand,operand2);
nkeynes@37	881	armr.v = IS_SUBOVERFLOW(tmp,operand,operand2);
nkeynes@37	882	}
nkeynes@37	883	break;
nkeynes@37	884	case 8: /* ADD Rd, Rn, operand */
nkeynes@37	885	LRD(ir) = RN(ir) + arm_get_shift_operand(ir);
nkeynes@37	886	break;
nkeynes@37	887	case 9: /* ADDS Rd, Rn, operand */
nkeynes@37	888	operand = arm_get_shift_operand(ir);
nkeynes@37	889	operand2 = RN(ir);
nkeynes@37	890	tmp = operand + operand2;
nkeynes@37	891	LRD(ir) = tmp;
nkeynes@37	892	if( RDn(ir) == 15 ) {
nkeynes@37	893	arm_restore_cpsr();
nkeynes@37	894	} else {
nkeynes@37	895	armr.n = tmp>>31;
nkeynes@37	896	armr.z = (tmp == 0);
nkeynes@37	897	armr.c = IS_CARRY(tmp,operand,operand2);
nkeynes@37	898	armr.v = IS_ADDOVERFLOW(tmp,operand,operand2);
nkeynes@37	899	}
nkeynes@37	900	break;
nkeynes@37	901	case 10: /* ADC */
nkeynes@37	902	case 11: /* ADCS */
nkeynes@37	903	case 12: /* SBC */
nkeynes@37	904	case 13: /* SBCS */
nkeynes@37	905	case 14: /* RSC */
nkeynes@37	906	case 15: /* RSCS */
nkeynes@37	907	break;
nkeynes@37	908	case 17: /* TST Rn, operand */
nkeynes@37	909	operand = arm_get_shift_operand_s(ir) & RN(ir);
nkeynes@37	910	armr.n = operand>>31;
nkeynes@37	911	armr.z = (operand == 0);
nkeynes@37	912	armr.c = armr.shift_c;
nkeynes@37	913	break;
nkeynes@37	914	case 19: /* TEQ Rn, operand */
nkeynes@37	915	operand = arm_get_shift_operand_s(ir) ^ RN(ir);
nkeynes@37	916	armr.n = operand>>31;
nkeynes@37	917	armr.z = (operand == 0);
nkeynes@37	918	armr.c = armr.shift_c;
nkeynes@37	919	break;
nkeynes@37	920	case 21: /* CMP Rn, operand */
nkeynes@37	921	operand = RN(ir);
nkeynes@37	922	operand2 = arm_get_shift_operand(ir);
nkeynes@37	923	tmp = operand - operand2;
nkeynes@37	924	armr.n = tmp>>31;
nkeynes@37	925	armr.z = (tmp == 0);
nkeynes@37	926	armr.c = IS_NOTBORROW(tmp,operand,operand2);
nkeynes@37	927	armr.v = IS_SUBOVERFLOW(tmp,operand,operand2);
nkeynes@37	928	break;
nkeynes@37	929	case 23: /* CMN Rn, operand */
nkeynes@37	930	operand = RN(ir);
nkeynes@37	931	operand2 = arm_get_shift_operand(ir);
nkeynes@37	932	tmp = operand + operand2;
nkeynes@37	933	armr.n = tmp>>31;
nkeynes@37	934	armr.z = (tmp == 0);
nkeynes@37	935	armr.c = IS_CARRY(tmp,operand,operand2);
nkeynes@37	936	armr.v = IS_ADDOVERFLOW(tmp,operand,operand2);
nkeynes@37	937	break;
nkeynes@37	938	case 24: /* ORR Rd, Rn, operand */
nkeynes@37	939	LRD(ir) = RN(ir) \| arm_get_shift_operand(ir);
nkeynes@37	940	break;
nkeynes@37	941	case 25: /* ORRS Rd, Rn, operand */
nkeynes@37	942	operand = arm_get_shift_operand_s(ir) \| RN(ir);
nkeynes@37	943	LRD(ir) = operand;
nkeynes@37	944	if( RDn(ir) == 15 ) {
nkeynes@37	945	arm_restore_cpsr();
nkeynes@37	946	} else {
nkeynes@37	947	armr.n = operand>>31;
nkeynes@37	948	armr.z = (operand == 0);
nkeynes@37	949	armr.c = armr.shift_c;
nkeynes@37	950	}
nkeynes@37	951	break;
nkeynes@37	952	case 26: /* MOV Rd, operand */
nkeynes@37	953	LRD(ir) = arm_get_shift_operand(ir);
nkeynes@37	954	break;
nkeynes@37	955	case 27: /* MOVS Rd, operand */
nkeynes@37	956	operand = arm_get_shift_operand_s(ir);
nkeynes@37	957	LRD(ir) = operand;
nkeynes@37	958	if( RDn(ir) == 15 ) {
nkeynes@37	959	arm_restore_cpsr();
nkeynes@37	960	} else {
nkeynes@37	961	armr.n = operand>>31;
nkeynes@37	962	armr.z = (operand == 0);
nkeynes@37	963	armr.c = armr.shift_c;
nkeynes@37	964	}
nkeynes@37	965	break;
nkeynes@37	966	case 28: /* BIC Rd, Rn, operand */
nkeynes@37	967	LRD(ir) = RN(ir) & (~arm_get_shift_operand(ir));
nkeynes@37	968	break;
nkeynes@37	969	case 29: /* BICS Rd, Rn, operand */
nkeynes@37	970	operand = RN(ir) & (~arm_get_shift_operand_s(ir));
nkeynes@37	971	LRD(ir) = operand;
nkeynes@37	972	if( RDn(ir) == 15 ) {
nkeynes@37	973	arm_restore_cpsr();
nkeynes@37	974	} else {
nkeynes@37	975	armr.n = operand>>31;
nkeynes@37	976	armr.z = (operand == 0);
nkeynes@37	977	armr.c = armr.shift_c;
nkeynes@37	978	}
nkeynes@37	979	break;
nkeynes@37	980	case 30: /* MVN Rd, operand */
nkeynes@37	981	LRD(ir) = ~arm_get_shift_operand(ir);
nkeynes@37	982	break;
nkeynes@37	983	case 31: /* MVNS Rd, operand */
nkeynes@37	984	operand = ~arm_get_shift_operand_s(ir);
nkeynes@37	985	LRD(ir) = operand;
nkeynes@37	986	if( RDn(ir) == 15 ) {
nkeynes@37	987	arm_restore_cpsr();
nkeynes@37	988	} else {
nkeynes@37	989	armr.n = operand>>31;
nkeynes@37	990	armr.z = (operand == 0);
nkeynes@37	991	armr.c = armr.shift_c;
nkeynes@37	992	}
nkeynes@37	993	break;
nkeynes@37	994	default:
nkeynes@37	995	UNIMP(ir);
nkeynes@37	996	}
nkeynes@5	997	}
nkeynes@37	998	break;
nkeynes@37	999	case 1: /* Load/store */
nkeynes@37	1000	operand = arm_get_address_operand(ir);
nkeynes@37	1001	switch( (ir>>20)&0x17 ) {
nkeynes@37	1002	case 0: case 16: case 18: /* STR Rd, address */
nkeynes@37	1003	arm_write_long( operand, RD(ir) );
nkeynes@37	1004	break;
nkeynes@37	1005	case 1: case 17: case 19: /* LDR Rd, address */
nkeynes@37	1006	LRD(ir) = arm_read_long(operand);
nkeynes@37	1007	break;
nkeynes@37	1008	case 2: /* STRT Rd, address */
nkeynes@37	1009	arm_write_long_user( operand, RD(ir) );
nkeynes@37	1010	break;
nkeynes@37	1011	case 3: /* LDRT Rd, address */
nkeynes@37	1012	LRD(ir) = arm_read_long_user( operand );
nkeynes@37	1013	break;
nkeynes@37	1014	case 4: case 20: case 22: /* STRB Rd, address */
nkeynes@37	1015	arm_write_byte( operand, RD(ir) );
nkeynes@37	1016	break;
nkeynes@37	1017	case 5: case 21: case 23: /* LDRB Rd, address */
nkeynes@37	1018	LRD(ir) = arm_read_byte( operand );
nkeynes@37	1019	break;
nkeynes@37	1020	case 6: /* STRBT Rd, address */
nkeynes@37	1021	arm_write_byte_user( operand, RD(ir) );
nkeynes@37	1022	break;
nkeynes@37	1023	case 7: /* LDRBT Rd, address */
nkeynes@37	1024	LRD(ir) = arm_read_byte_user( operand );
nkeynes@37	1025	break;
nkeynes@37	1026	}
nkeynes@37	1027	break;
nkeynes@37	1028	case 2: /* Load/store multiple, branch*/
nkeynes@37	1029	if( (ir & 0x02000000) == 0x02000000 ) { /* B[L] imm24 */
nkeynes@37	1030	operand = (SIGNEXT24(ir&0x00FFFFFF) << 2);
nkeynes@37	1031	if( (ir & 0x01000000) == 0x01000000 ) {
nkeynes@37	1032	armr.r[14] = pc; /* BL */
nkeynes@37	1033	}
nkeynes@37	1034	armr.r[15] = pc + 4 + operand;
nkeynes@37	1035	} else { /* Load/store multiple */
nkeynes@37	1036	UNIMP(ir);
nkeynes@37	1037	}
nkeynes@37	1038	break;
nkeynes@37	1039	case 3: /* Copro */
nkeynes@37	1040	UNIMP(ir);
nkeynes@37	1041	break;
nkeynes@37	1042	}
nkeynes@37	1043	return TRUE;
nkeynes@2	1044	}