lxdream.org :: lxdream/src/sh4/sh4core.h r1065:bc1cc0c54917 (annotated)

filename	src/sh4/sh4core.h
changeset	1065:bc1cc0c54917
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author	nkeynes
date	Sun Jul 05 13:52:50 2009 +1000 (14 years ago)
permissions	-rw-r--r--
last change	No-op merge lxdream-mmu to remove head (actually merged long ago)

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nkeynes@10	1	/**
nkeynes@561	2	* $Id$
nkeynes@10	3	*
nkeynes@953	4	* This file defines the internal functions used by the SH4 core,
nkeynes@10	5	*
nkeynes@953	6	* Copyright (c) 2005-2008 Nathan Keynes.
nkeynes@10	7	*
nkeynes@10	8	* This program is free software; you can redistribute it and/or modify
nkeynes@10	9	* it under the terms of the GNU General Public License as published by
nkeynes@10	10	* the Free Software Foundation; either version 2 of the License, or
nkeynes@10	11	* (at your option) any later version.
nkeynes@10	12	*
nkeynes@10	13	* This program is distributed in the hope that it will be useful,
nkeynes@10	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@10	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@10	16	* GNU General Public License for more details.
nkeynes@1	17	*/
nkeynes@30	18
nkeynes@736	19	#ifndef lxdream_sh4core_H
nkeynes@736	20	#define lxdream_sh4core_H 1
nkeynes@1	21
nkeynes@27	22	#include <glib/gtypes.h>
nkeynes@1	23	#include <stdint.h>
nkeynes@23	24	#include <stdio.h>
nkeynes@378	25	#include "mem.h"
nkeynes@564	26	#include "sh4/sh4.h"
nkeynes@1	27
nkeynes@1	28	#ifdef __cplusplus
nkeynes@1	29	extern "C" {
nkeynes@1	30	#endif
nkeynes@1	31
nkeynes@564	32	/* Breakpoint data structure */
nkeynes@378	33	extern struct breakpoint_struct sh4_breakpoints[MAX_BREAKPOINTS];
nkeynes@378	34	extern int sh4_breakpoint_count;
nkeynes@591	35	extern gboolean sh4_starting;
nkeynes@569	36
nkeynes@569	37	/**
nkeynes@569	38	* Cached direct pointer to the current instruction page. If AT is on, this
nkeynes@569	39	* is derived from the ITLB, otherwise this will be the entire memory region.
nkeynes@569	40	* This is actually a fairly useful optimization, as we can make a lot of
nkeynes@569	41	* assumptions about the "current page" that we can't make in general for
nkeynes@569	42	* arbitrary virtual addresses.
nkeynes@569	43	*/
nkeynes@569	44	struct sh4_icache_struct {
nkeynes@569	45	sh4ptr_t page; // Page pointer (NULL if no page)
nkeynes@569	46	sh4vma_t page_vma; // virtual address of the page.
nkeynes@569	47	sh4addr_t page_ppa; // physical address of the page
nkeynes@569	48	uint32_t mask; // page mask
nkeynes@569	49	};
nkeynes@569	50	extern struct sh4_icache_struct sh4_icache;
nkeynes@569	51
nkeynes@569	52	/**
nkeynes@569	53	* Test if a given address is contained in the current icache entry
nkeynes@569	54	*/
nkeynes@569	55	#define IS_IN_ICACHE(addr) (sh4_icache.page_vma == ((addr) & sh4_icache.mask))
nkeynes@569	56	/**
nkeynes@569	57	* Return a pointer for the given vma, under the assumption that it is
nkeynes@569	58	* actually contained in the current icache entry.
nkeynes@569	59	*/
nkeynes@569	60	#define GET_ICACHE_PTR(addr) (sh4_icache.page + ((addr)-sh4_icache.page_vma))
nkeynes@569	61	/**
nkeynes@569	62	* Return the physical (external) address for the given vma, assuming that it is
nkeynes@569	63	* actually contained in the current icache entry.
nkeynes@569	64	*/
nkeynes@569	65	#define GET_ICACHE_PHYS(addr) (sh4_icache.page_ppa + ((addr)-sh4_icache.page_vma))
nkeynes@378	66
nkeynes@589	67	/**
nkeynes@589	68	* Return the virtual (vma) address for the first address past the end of the
nkeynes@589	69	* cache entry. Assumes that there is in fact a current icache entry.
nkeynes@589	70	*/
nkeynes@589	71	#define GET_ICACHE_END() (sh4_icache.page_vma + (~sh4_icache.mask) + 1)
nkeynes@589	72
nkeynes@740	73
nkeynes@740	74	/**
nkeynes@953	75	* SH4 vm-exit flag - exit the current block but continue normally
nkeynes@740	76	*/
nkeynes@740	77	#define CORE_EXIT_CONTINUE 1
nkeynes@740	78
nkeynes@740	79	/**
nkeynes@740	80	* SH4 vm-exit flag - exit the current block and halt immediately (eg fatal error)
nkeynes@740	81	*/
nkeynes@740	82	#define CORE_EXIT_HALT 2
nkeynes@740	83
nkeynes@740	84	/**
nkeynes@740	85	* SH4 vm-exit flag - exit the current block and halt immediately for a system
nkeynes@740	86	* breakpoint.
nkeynes@740	87	*/
nkeynes@740	88	#define CORE_EXIT_BREAKPOINT 3
nkeynes@740	89
nkeynes@740	90	/**
nkeynes@740	91	* SH4 vm-exit flag - exit the current block and continue after performing a full
nkeynes@740	92	* system reset (dreamcast_reset())
nkeynes@740	93	*/
nkeynes@740	94	#define CORE_EXIT_SYSRESET 4
nkeynes@740	95
nkeynes@740	96	/**
nkeynes@740	97	* SH4 vm-exit flag - exit the current block and continue after the next IRQ.
nkeynes@740	98	*/
nkeynes@740	99	#define CORE_EXIT_SLEEP 5
nkeynes@740	100
nkeynes@740	101	/**
nkeynes@953	102	* SH4 vm-exit flag - exit the current block and flush all instruction caches (ie
nkeynes@740	103	* if address translation has changed)
nkeynes@740	104	*/
nkeynes@740	105	#define CORE_EXIT_FLUSH_ICACHE 6
nkeynes@740	106
nkeynes@953	107	/**
nkeynes@953	108	* SH4 vm-exit flag - exit the current block following a taken exception. sh4r.spc
nkeynes@953	109	* is fixed up by recovery rather than sh4r.pc.
nkeynes@953	110	*/
nkeynes@953	111	#define CORE_EXIT_EXCEPTION 7
nkeynes@953	112
nkeynes@740	113	typedef uint32_t (*sh4_run_slice_fn)(uint32_t);
nkeynes@740	114
nkeynes@564	115	/* SH4 module functions */
nkeynes@1	116	void sh4_init( void );
nkeynes@1	117	void sh4_reset( void );
nkeynes@1	118	void sh4_run( void );
nkeynes@1	119	void sh4_stop( void );
nkeynes@617	120	uint32_t sh4_run_slice( uint32_t nanos ); // Run single timeslice using emulator
nkeynes@617	121	uint32_t sh4_xlat_run_slice( uint32_t nanos ); // Run single timeslice using translator
nkeynes@617	122	uint32_t sh4_sleep_run_slice( uint32_t nanos ); // Run single timeslice while the CPU is asleep
nkeynes@586	123
nkeynes@740	124	/**
nkeynes@740	125	* Immediately exit from the currently executing instruction with the given
nkeynes@740	126	* exit code. This method does not return.
nkeynes@740	127	*/
nkeynes@740	128	void sh4_core_exit( int exit_code );
nkeynes@740	129
nkeynes@740	130	/**
nkeynes@740	131	* Exit the current block at the end of the current instruction, flush the
nkeynes@740	132	* translation cache (completely) and return control to sh4_xlat_run_slice.
nkeynes@740	133	*
nkeynes@740	134	* As a special case, if the current instruction is actually the last
nkeynes@740	135	* instruction in the block (ie it's in a delay slot), this function
nkeynes@740	136	* returns to allow normal completion of the translation block. Otherwise
nkeynes@740	137	* this function never returns.
nkeynes@740	138	*
nkeynes@740	139	* Must only be invoked (indirectly) from within translated code.
nkeynes@740	140	*/
nkeynes@740	141	void sh4_flush_icache();
nkeynes@564	142
nkeynes@564	143	/* SH4 peripheral module functions */
nkeynes@564	144	void CPG_reset( void );
nkeynes@564	145	void DMAC_reset( void );
nkeynes@564	146	void DMAC_run_slice( uint32_t );
nkeynes@564	147	void DMAC_save_state( FILE * );
nkeynes@564	148	int DMAC_load_state( FILE * );
nkeynes@564	149	void INTC_reset( void );
nkeynes@564	150	void INTC_save_state( FILE *f );
nkeynes@564	151	int INTC_load_state( FILE *f );
nkeynes@564	152	void MMU_init( void );
nkeynes@564	153	void MMU_reset( void );
nkeynes@564	154	void MMU_save_state( FILE *f );
nkeynes@564	155	int MMU_load_state( FILE *f );
nkeynes@564	156	void MMU_ldtlb();
nkeynes@986	157	void CCN_reset();
nkeynes@968	158	void CCN_set_cache_control( int reg );
nkeynes@953	159	void CCN_save_state( FILE *f );
nkeynes@953	160	int CCN_load_state( FILE *f );
nkeynes@564	161	void SCIF_reset( void );
nkeynes@564	162	void SCIF_run_slice( uint32_t );
nkeynes@564	163	void SCIF_save_state( FILE *f );
nkeynes@564	164	int SCIF_load_state( FILE *f );
nkeynes@564	165	void SCIF_update_line_speed(void);
nkeynes@669	166	void TMU_init( void );
nkeynes@564	167	void TMU_reset( void );
nkeynes@564	168	void TMU_run_slice( uint32_t );
nkeynes@564	169	void TMU_save_state( FILE * );
nkeynes@564	170	int TMU_load_state( FILE * );
nkeynes@564	171	void TMU_update_clocks( void );
nkeynes@841	172	void PMM_reset( void );
nkeynes@841	173	void PMM_write_control( int, uint32_t );
nkeynes@841	174	void PMM_save_state( FILE * );
nkeynes@841	175	int PMM_load_state( FILE * );
nkeynes@841	176	uint32_t PMM_run_slice( uint32_t );
nkeynes@759	177	uint32_t sh4_translate_run_slice(uint32_t);
nkeynes@759	178	uint32_t sh4_emulate_run_slice(uint32_t);
nkeynes@564	179
nkeynes@564	180	/* SH4 instruction support methods */
nkeynes@953	181	mem_region_fn_t FASTCALL sh7750_decode_address( sh4addr_t address );
nkeynes@953	182	void FASTCALL sh7750_decode_address_copy( sh4addr_t address, mem_region_fn_t result );
nkeynes@905	183	void FASTCALL sh4_sleep( void );
nkeynes@905	184	void FASTCALL sh4_fsca( uint32_t angle, float *fr );
nkeynes@905	185	void FASTCALL sh4_ftrv( float *fv );
nkeynes@905	186	uint32_t FASTCALL sh4_read_sr(void);
nkeynes@905	187	void FASTCALL sh4_write_sr(uint32_t val);
nkeynes@905	188	void FASTCALL sh4_write_fpscr(uint32_t val);
nkeynes@905	189	void FASTCALL sh4_switch_fr_banks(void);
nkeynes@905	190	void FASTCALL signsat48(void);
nkeynes@597	191	gboolean sh4_has_page( sh4vma_t vma );
nkeynes@378	192
nkeynes@10	193	/* SH4 Memory */
nkeynes@603	194	#define MMU_VMA_ERROR 0x80000000
nkeynes@570	195	/**
nkeynes@570	196	* Update the sh4_icache structure to contain the specified vma. If the vma
nkeynes@570	197	* cannot be resolved, an MMU exception is raised and the function returns
nkeynes@570	198	* FALSE. Otherwise, returns TRUE and updates sh4_icache accordingly.
nkeynes@570	199	* Note: If the vma resolves to a non-memory area, sh4_icache will be
nkeynes@570	200	* invalidated, but the function will still return TRUE.
nkeynes@570	201	* @return FALSE if an MMU exception was raised, otherwise TRUE.
nkeynes@570	202	*/
nkeynes@905	203	gboolean FASTCALL mmu_update_icache( sh4vma_t addr );
nkeynes@570	204
nkeynes@905	205	int64_t FASTCALL sh4_read_quad( sh4addr_t addr );
nkeynes@905	206	int32_t FASTCALL sh4_read_long( sh4addr_t addr );
nkeynes@905	207	int32_t FASTCALL sh4_read_word( sh4addr_t addr );
nkeynes@905	208	int32_t FASTCALL sh4_read_byte( sh4addr_t addr );
nkeynes@905	209	void FASTCALL sh4_write_quad( sh4addr_t addr, uint64_t val );
nkeynes@905	210	void FASTCALL sh4_write_long( sh4addr_t addr, uint32_t val );
nkeynes@905	211	void FASTCALL sh4_write_word( sh4addr_t addr, uint32_t val );
nkeynes@905	212	void FASTCALL sh4_write_byte( sh4addr_t addr, uint32_t val );
nkeynes@527	213	int32_t sh4_read_phys_word( sh4addr_t addr );
nkeynes@911	214	void FASTCALL sh4_flush_store_queue( sh4addr_t addr );
nkeynes@953	215	void FASTCALL sh4_flush_store_queue_mmu( sh4addr_t addr, void *exc );
nkeynes@10	216
nkeynes@564	217	/* SH4 Exceptions */
nkeynes@564	218	#define EXC_POWER_RESET 0x000 /* reset vector */
nkeynes@564	219	#define EXC_MANUAL_RESET 0x020 /* reset vector */
nkeynes@564	220	#define EXC_TLB_MISS_READ 0x040 /* TLB vector */
nkeynes@564	221	#define EXC_TLB_MISS_WRITE 0x060 /* TLB vector */
nkeynes@564	222	#define EXC_INIT_PAGE_WRITE 0x080
nkeynes@564	223	#define EXC_TLB_PROT_READ 0x0A0
nkeynes@564	224	#define EXC_TLB_PROT_WRITE 0x0C0
nkeynes@564	225	#define EXC_DATA_ADDR_READ 0x0E0
nkeynes@564	226	#define EXC_DATA_ADDR_WRITE 0x100
nkeynes@564	227	#define EXC_TLB_MULTI_HIT 0x140
nkeynes@564	228	#define EXC_SLOT_ILLEGAL 0x1A0
nkeynes@564	229	#define EXC_ILLEGAL 0x180
nkeynes@564	230	#define EXC_TRAP 0x160
nkeynes@564	231	#define EXC_FPU_DISABLED 0x800
nkeynes@564	232	#define EXC_SLOT_FPU_DISABLED 0x820
nkeynes@374	233
nkeynes@564	234	#define EXV_EXCEPTION 0x100 /* General exception vector */
nkeynes@564	235	#define EXV_TLBMISS 0x400 /* TLB-miss exception vector */
nkeynes@564	236	#define EXV_INTERRUPT 0x600 /* External interrupt vector */
nkeynes@564	237
nkeynes@953	238	void FASTCALL sh4_raise_exception( int );
nkeynes@953	239	void FASTCALL sh4_raise_reset( int );
nkeynes@953	240	void FASTCALL sh4_raise_trap( int );
nkeynes@953	241	void FASTCALL sh4_raise_tlb_exception( int, sh4vma_t );
nkeynes@953	242	void FASTCALL sh4_raise_tlb_multihit( sh4vma_t );
nkeynes@905	243	void FASTCALL sh4_accept_interrupt( void );
nkeynes@1	244
nkeynes@953	245	/**
nkeynes@953	246	* Complete the current instruction as part of a core exit. Prevents the
nkeynes@953	247	* system from being left in an inconsistent state when an exit is
nkeynes@953	248	* triggered during a memory write.
nkeynes@953	249	*/
nkeynes@953	250	void sh4_finalize_instruction( void );
nkeynes@1	251
nkeynes@1	252	/* Status Register (SR) bits */
nkeynes@1	253	#define SR_MD 0x40000000 /* Processor mode ( User=0, Privileged=1 ) */
nkeynes@1	254	#define SR_RB 0x20000000 /* Register bank (priviledged mode only) */
nkeynes@1	255	#define SR_BL 0x10000000 /* Exception/interupt block (1 = masked) */
nkeynes@1	256	#define SR_FD 0x00008000 /* FPU disable */
nkeynes@1	257	#define SR_M 0x00000200
nkeynes@1	258	#define SR_Q 0x00000100
nkeynes@1	259	#define SR_IMASK 0x000000F0 /* Interrupt mask level */
nkeynes@1	260	#define SR_S 0x00000002 /* Saturation operation for MAC instructions */
nkeynes@1	261	#define SR_T 0x00000001 /* True/false or carry/borrow */
nkeynes@1	262	#define SR_MASK 0x700083F3
nkeynes@1	263	#define SR_MQSTMASK 0xFFFFFCFC /* Mask to clear the flags we're keeping separately */
nkeynes@571	264	#define SR_MDRB 0x60000000 /* MD+RB mask for convenience */
nkeynes@1	265
nkeynes@1	266	#define IS_SH4_PRIVMODE() (sh4r.sr&SR_MD)
nkeynes@1	267	#define SH4_INTMASK() ((sh4r.sr&SR_IMASK)>>4)
nkeynes@265	268	#define SH4_EVENT_PENDING() (sh4r.event_pending <= sh4r.slice_cycle && !sh4r.in_delay_slot)
nkeynes@1	269
nkeynes@1	270	#define FPSCR_FR 0x00200000 /* FPU register bank */
nkeynes@1	271	#define FPSCR_SZ 0x00100000 /* FPU transfer size (0=32 bits, 1=64 bits) */
nkeynes@1	272	#define FPSCR_PR 0x00080000 /* Precision (0=32 bites, 1=64 bits) */
nkeynes@1	273	#define FPSCR_DN 0x00040000 /* Denormalization mode (1 = treat as 0) */
nkeynes@1	274	#define FPSCR_CAUSE 0x0003F000
nkeynes@1	275	#define FPSCR_ENABLE 0x00000F80
nkeynes@1	276	#define FPSCR_FLAG 0x0000007C
nkeynes@1	277	#define FPSCR_RM 0x00000003 /* Rounding mode (0=nearest, 1=to zero) */
nkeynes@823	278	#define FPSCR_MASK 0x003FFFFF
nkeynes@1	279
nkeynes@1	280	#define IS_FPU_DOUBLEPREC() (sh4r.fpscr&FPSCR_PR)
nkeynes@1	281	#define IS_FPU_DOUBLESIZE() (sh4r.fpscr&FPSCR_SZ)
nkeynes@1	282	#define IS_FPU_ENABLED() ((sh4r.sr&SR_FD)==0)
nkeynes@1	283
nkeynes@669	284	#define FR(x) sh4r.fr[0][(x)^1]
nkeynes@669	285	#define DRF(x) ((double )&sh4r.fr[0][(x)<<1])
nkeynes@669	286	#define XF(x) sh4r.fr[1][(x)^1]
nkeynes@669	287	#define XDR(x) ((double )&sh4r.fr[1][(x)<<1])
nkeynes@669	288	#define DRb(x,b) ((double )&sh4r.fr[b][(x)<<1])
nkeynes@669	289	#define DR(x) ((double )&sh4r.fr[x&1][x&0x0E])
nkeynes@669	290	#define FPULf (sh4r.fpul.f)
nkeynes@669	291	#define FPULi (sh4r.fpul.i)
nkeynes@359	292
nkeynes@953	293	/************** SH4 internal memory regions ***************/
nkeynes@953	294	extern struct mem_region_fn p4_region_itlb_addr;
nkeynes@953	295	extern struct mem_region_fn p4_region_itlb_data;
nkeynes@953	296	extern struct mem_region_fn p4_region_utlb_addr;
nkeynes@953	297	extern struct mem_region_fn p4_region_utlb_data;
nkeynes@953	298	extern struct mem_region_fn p4_region_icache_addr;
nkeynes@953	299	extern struct mem_region_fn p4_region_icache_data;
nkeynes@953	300	extern struct mem_region_fn p4_region_ocache_addr;
nkeynes@953	301	extern struct mem_region_fn p4_region_ocache_data;
nkeynes@953	302
nkeynes@971	303	#define OC_ENABLED 1
nkeynes@1	304
nkeynes@1	305	#ifdef __cplusplus
nkeynes@1	306	}
nkeynes@1	307	#endif
nkeynes@359	308
nkeynes@736	309	#endif /* !lxdream_sh4core_H */
nkeynes@736	310