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1	79aceca5	bellard	/*
2	79aceca5	bellard	* PPC emulation cpu definitions for qemu.
3	79aceca5	bellard	*
4	79aceca5	bellard	* Copyright (c) 2003 Jocelyn Mayer
5	79aceca5	bellard	*
6	79aceca5	bellard	* This library is free software; you can redistribute it and/or
7	79aceca5	bellard	* modify it under the terms of the GNU Lesser General Public
8	79aceca5	bellard	* License as published by the Free Software Foundation; either
9	79aceca5	bellard	* version 2 of the License, or (at your option) any later version.
10	79aceca5	bellard	*
11	79aceca5	bellard	* This library is distributed in the hope that it will be useful,
12	79aceca5	bellard	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	79aceca5	bellard	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14	79aceca5	bellard	* Lesser General Public License for more details.
15	79aceca5	bellard	*
16	79aceca5	bellard	* You should have received a copy of the GNU Lesser General Public
17	79aceca5	bellard	* License along with this library; if not, write to the Free Software
18	79aceca5	bellard	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19	79aceca5	bellard	*/
20	79aceca5	bellard	#if !defined (__CPU_PPC_H__)
21	79aceca5	bellard	#define __CPU_PPC_H__
22	79aceca5	bellard
23	3cf1e035	bellard	#define TARGET_LONG_BITS 32
24	3cf1e035	bellard
25	79aceca5	bellard	#include "cpu-defs.h"
26	79aceca5	bellard
27	79aceca5	bellard	#include "config.h"
28	79aceca5	bellard	#include <setjmp.h>
29	79aceca5	bellard
30	4ecc3190	bellard	#include "softfloat.h"
31	4ecc3190	bellard
32	1fddef4b	bellard	#define TARGET_HAS_ICE 1
33	1fddef4b	bellard
34	9a64fbe4	bellard	/* Instruction types */
35	9a64fbe4	bellard	enum {
36	9a64fbe4	bellard	PPC_NONE = 0x0000,
37	9a64fbe4	bellard	PPC_INTEGER = 0x0001, /* CPU has integer operations instructions */
38	9a64fbe4	bellard	PPC_FLOAT = 0x0002, /* CPU has floating point operations instructions */
39	9a64fbe4	bellard	PPC_FLOW = 0x0004, /* CPU has flow control instructions */
40	9a64fbe4	bellard	PPC_MEM = 0x0008, /* CPU has virtual memory instructions */
41	9a64fbe4	bellard	PPC_RES = 0x0010, /* CPU has ld/st with reservation instructions */
42	9a64fbe4	bellard	PPC_CACHE = 0x0020, /* CPU has cache control instructions */
43	9a64fbe4	bellard	PPC_MISC = 0x0040, /* CPU has spr/msr access instructions */
44	9a64fbe4	bellard	PPC_EXTERN = 0x0080, /* CPU has external control instructions */
45	9a64fbe4	bellard	PPC_SEGMENT = 0x0100, /* CPU has memory segment instructions */
46	9a64fbe4	bellard	PPC_CACHE_OPT= 0x0200,
47	9a64fbe4	bellard	PPC_FLOAT_OPT= 0x0400,
48	9a64fbe4	bellard	PPC_MEM_OPT = 0x0800,
49	9a64fbe4	bellard	};
50	79aceca5	bellard
51	9a64fbe4	bellard	#define PPC_COMMON (PPC_INTEGER \| PPC_FLOAT \| PPC_FLOW \| PPC_MEM \| \
52	9a64fbe4	bellard	PPC_RES \| PPC_CACHE \| PPC_MISC \| PPC_SEGMENT)
53	85c4adf6	bellard	/* PPC 604 */
54	85c4adf6	bellard	#define PPC_604 (PPC_INTEGER \| PPC_FLOAT \| PPC_FLOW \| PPC_MEM \| \
55	85c4adf6	bellard	PPC_RES \| PPC_CACHE \| PPC_MISC \| PPC_EXTERN \| PPC_SEGMENT \
56	85c4adf6	bellard	PPC_MEM_OPT)
57	9a64fbe4	bellard	/* PPC 740/745/750/755 (aka G3) has external access instructions */
58	9a64fbe4	bellard	#define PPC_750 (PPC_INTEGER \| PPC_FLOAT \| PPC_FLOW \| PPC_MEM \| \
59	9a64fbe4	bellard	PPC_RES \| PPC_CACHE \| PPC_MISC \| PPC_EXTERN \| PPC_SEGMENT)
60	79aceca5	bellard
61	9fddaa0c	bellard	typedef struct ppc_tb_t ppc_tb_t;
62	9fddaa0c	bellard
63	79aceca5	bellard	/* Supervisor mode registers */
64	79aceca5	bellard	/* Machine state register */
65	79aceca5	bellard	#define MSR_POW 18
66	79aceca5	bellard	#define MSR_ILE 16
67	79aceca5	bellard	#define MSR_EE 15
68	79aceca5	bellard	#define MSR_PR 14
69	79aceca5	bellard	#define MSR_FP 13
70	79aceca5	bellard	#define MSR_ME 12
71	79aceca5	bellard	#define MSR_FE0 11
72	79aceca5	bellard	#define MSR_SE 10
73	79aceca5	bellard	#define MSR_BE 9
74	79aceca5	bellard	#define MSR_FE1 8
75	79aceca5	bellard	#define MSR_IP 6
76	79aceca5	bellard	#define MSR_IR 5
77	79aceca5	bellard	#define MSR_DR 4
78	79aceca5	bellard	#define MSR_RI 1
79	79aceca5	bellard	#define MSR_LE 0
80	79aceca5	bellard	#define msr_pow env->msr[MSR_POW]
81	79aceca5	bellard	#define msr_ile env->msr[MSR_ILE]
82	79aceca5	bellard	#define msr_ee env->msr[MSR_EE]
83	79aceca5	bellard	#define msr_pr env->msr[MSR_PR]
84	79aceca5	bellard	#define msr_fp env->msr[MSR_FP]
85	79aceca5	bellard	#define msr_me env->msr[MSR_ME]
86	79aceca5	bellard	#define msr_fe0 env->msr[MSR_FE0]
87	79aceca5	bellard	#define msr_se env->msr[MSR_SE]
88	79aceca5	bellard	#define msr_be env->msr[MSR_BE]
89	79aceca5	bellard	#define msr_fe1 env->msr[MSR_FE1]
90	79aceca5	bellard	#define msr_ip env->msr[MSR_IP]
91	79aceca5	bellard	#define msr_ir env->msr[MSR_IR]
92	79aceca5	bellard	#define msr_dr env->msr[MSR_DR]
93	79aceca5	bellard	#define msr_ri env->msr[MSR_RI]
94	79aceca5	bellard	#define msr_le env->msr[MSR_LE]
95	79aceca5	bellard
96	79aceca5	bellard	/* Segment registers */
97	79aceca5	bellard	typedef struct CPUPPCState {
98	79aceca5	bellard	/* general purpose registers */
99	79aceca5	bellard	uint32_t gpr[32];
100	79aceca5	bellard	/* floating point registers */
101	4ecc3190	bellard	float64 fpr[32];
102	79aceca5	bellard	/* segment registers */
103	9a64fbe4	bellard	uint32_t sdr1;
104	9a64fbe4	bellard	uint32_t sr[16];
105	79aceca5	bellard	/* XER */
106	9a64fbe4	bellard	uint8_t xer[4];
107	79aceca5	bellard	/* Reservation address */
108	79aceca5	bellard	uint32_t reserve;
109	79aceca5	bellard	/* machine state register */
110	79aceca5	bellard	uint8_t msr[32];
111	79aceca5	bellard	/* condition register */
112	79aceca5	bellard	uint8_t crf[8];
113	79aceca5	bellard	/* floating point status and control register */
114	9a64fbe4	bellard	uint8_t fpscr[8];
115	79aceca5	bellard	uint32_t nip;
116	9a64fbe4	bellard	/* special purpose registers */
117	9a64fbe4	bellard	uint32_t lr;
118	9a64fbe4	bellard	uint32_t ctr;
119	9a64fbe4	bellard	/* BATs */
120	9a64fbe4	bellard	uint32_t DBAT[2][8];
121	9a64fbe4	bellard	uint32_t IBAT[2][8];
122	9a64fbe4	bellard	/* all others */
123	9a64fbe4	bellard	uint32_t spr[1024];
124	79aceca5	bellard	/* qemu dedicated */
125	fb0eaffc	bellard	/* temporary float registers */
126	4ecc3190	bellard	float64 ft0;
127	4ecc3190	bellard	float64 ft1;
128	4ecc3190	bellard	float64 ft2;
129	4ecc3190	bellard	float_status fp_status;
130	4ecc3190	bellard
131	79aceca5	bellard	int interrupt_request;
132	79aceca5	bellard	jmp_buf jmp_env;
133	79aceca5	bellard	int exception_index;
134	79aceca5	bellard	int error_code;
135	ac9eb073	bellard	int access_type; /* when a memory exception occurs, the access
136	ac9eb073	bellard	type is stored here */
137	79aceca5	bellard	int user_mode_only; /* user mode only simulation */
138	79aceca5	bellard	struct TranslationBlock current_tb; / currently executing TB */
139	9a64fbe4	bellard	/* soft mmu support */
140	d720b93d	bellard	/* in order to avoid passing too many arguments to the memory
141	d720b93d	bellard	write helpers, we store some rarely used information in the CPU
142	d720b93d	bellard	context) */
143	d720b93d	bellard	unsigned long mem_write_pc; /* host pc at which the memory was
144	d720b93d	bellard	written */
145	d720b93d	bellard	unsigned long mem_write_vaddr; /* target virtual addr at which the
146	d720b93d	bellard	memory was written */
147	a541f297	bellard	/* 0 = kernel, 1 = user (may have 2 = kernel code, 3 = user code ?) */
148	9a64fbe4	bellard	CPUTLBEntry tlb_read[2][CPU_TLB_SIZE];
149	9a64fbe4	bellard	CPUTLBEntry tlb_write[2][CPU_TLB_SIZE];
150	a541f297	bellard
151	a541f297	bellard	/* ice debug support */
152	a541f297	bellard	uint32_t breakpoints[MAX_BREAKPOINTS];
153	a541f297	bellard	int nb_breakpoints;
154	9fddaa0c	bellard	int singlestep_enabled; /* XXX: should use CPU single step mode instead */
155	9fddaa0c	bellard
156	9fddaa0c	bellard	/* Time base and decrementer */
157	9fddaa0c	bellard	ppc_tb_t *tb_env;
158	9fddaa0c	bellard
159	9fddaa0c	bellard	/* Power management */
160	9fddaa0c	bellard	int power_mode;
161	a541f297	bellard
162	6d506e6d	bellard	/* temporary hack to handle OSI calls (only used if non NULL) */
163	6d506e6d	bellard	int (osi_call)(struct CPUPPCState env);
164	6d506e6d	bellard
165	79aceca5	bellard	/* user data */
166	79aceca5	bellard	void *opaque;
167	79aceca5	bellard	} CPUPPCState;
168	79aceca5	bellard
169	79aceca5	bellard	CPUPPCState *cpu_ppc_init(void);
170	79aceca5	bellard	int cpu_ppc_exec(CPUPPCState *s);
171	79aceca5	bellard	void cpu_ppc_close(CPUPPCState *s);
172	79aceca5	bellard	/* you can call this signal handler from your SIGBUS and SIGSEGV
173	79aceca5	bellard	signal handlers to inform the virtual CPU of exceptions. non zero
174	79aceca5	bellard	is returned if the signal was handled by the virtual CPU. */
175	79aceca5	bellard	struct siginfo;
176	79aceca5	bellard	int cpu_ppc_signal_handler(int host_signum, struct siginfo *info,
177	79aceca5	bellard	void *puc);
178	79aceca5	bellard
179	a541f297	bellard	void do_interrupt (CPUPPCState *env);
180	9a64fbe4	bellard	void cpu_loop_exit(void);
181	a541f297	bellard
182	9a64fbe4	bellard	void dump_stack (CPUPPCState *env);
183	a541f297	bellard
184	a541f297	bellard	uint32_t _load_xer (CPUPPCState *env);
185	a541f297	bellard	void _store_xer (CPUPPCState *env, uint32_t value);
186	a541f297	bellard	uint32_t _load_msr (CPUPPCState *env);
187	a541f297	bellard	void _store_msr (CPUPPCState *env, uint32_t value);
188	a541f297	bellard
189	85c4adf6	bellard	int cpu_ppc_register (CPUPPCState *env, uint32_t pvr);
190	85c4adf6	bellard
191	9fddaa0c	bellard	/* Time-base and decrementer management */
192	9fddaa0c	bellard	#ifndef NO_CPU_IO_DEFS
193	9fddaa0c	bellard	uint32_t cpu_ppc_load_tbl (CPUPPCState *env);
194	9fddaa0c	bellard	uint32_t cpu_ppc_load_tbu (CPUPPCState *env);
195	9fddaa0c	bellard	void cpu_ppc_store_tbu (CPUPPCState *env, uint32_t value);
196	9fddaa0c	bellard	void cpu_ppc_store_tbl (CPUPPCState *env, uint32_t value);
197	9fddaa0c	bellard	uint32_t cpu_ppc_load_decr (CPUPPCState *env);
198	9fddaa0c	bellard	void cpu_ppc_store_decr (CPUPPCState *env, uint32_t value);
199	9fddaa0c	bellard	#endif
200	79aceca5	bellard
201	79aceca5	bellard	#define TARGET_PAGE_BITS 12
202	79aceca5	bellard	#include "cpu-all.h"
203	79aceca5	bellard
204	79aceca5	bellard	#define ugpr(n) (env->gpr[n])
205	9a64fbe4	bellard	#define fprd(n) (env->fpr[n])
206	9a64fbe4	bellard	#define fprs(n) ((float)env->fpr[n])
207	9a64fbe4	bellard	#define fpru(n) ((uint32_t)env->fpr[n])
208	9a64fbe4	bellard	#define fpri(n) ((int32_t)env->fpr[n])
209	79aceca5	bellard
210	79aceca5	bellard	#define SPR_ENCODE(sprn) \
211	79aceca5	bellard	(((sprn) >> 5) \| (((sprn) & 0x1F) << 5))
212	79aceca5	bellard
213	79aceca5	bellard	/* User mode SPR */
214	79aceca5	bellard	#define spr(n) env->spr[n]
215	79aceca5	bellard	#define XER_SO 31
216	79aceca5	bellard	#define XER_OV 30
217	79aceca5	bellard	#define XER_CA 29
218	79aceca5	bellard	#define XER_BC 0
219	9a64fbe4	bellard	#define xer_so env->xer[3]
220	9a64fbe4	bellard	#define xer_ov env->xer[2]
221	9a64fbe4	bellard	#define xer_ca env->xer[1]
222	9a64fbe4	bellard	#define xer_bc env->xer[0]
223	79aceca5	bellard
224	85c4adf6	bellard	#define MQ SPR_ENCODE(0)
225	9a64fbe4	bellard	#define XER SPR_ENCODE(1)
226	85c4adf6	bellard	#define RTCUR SPR_ENCODE(4)
227	85c4adf6	bellard	#define RTCLR SPR_ENCODE(5)
228	9a64fbe4	bellard	#define LR SPR_ENCODE(8)
229	9a64fbe4	bellard	#define CTR SPR_ENCODE(9)
230	79aceca5	bellard	/* VEA mode SPR */
231	9a64fbe4	bellard	#define V_TBL SPR_ENCODE(268)
232	9a64fbe4	bellard	#define V_TBU SPR_ENCODE(269)
233	79aceca5	bellard	/* supervisor mode SPR */
234	9a64fbe4	bellard	#define DSISR SPR_ENCODE(18)
235	9a64fbe4	bellard	#define DAR SPR_ENCODE(19)
236	85c4adf6	bellard	#define RTCUW SPR_ENCODE(20)
237	85c4adf6	bellard	#define RTCLW SPR_ENCODE(21)
238	9a64fbe4	bellard	#define DECR SPR_ENCODE(22)
239	9a64fbe4	bellard	#define SDR1 SPR_ENCODE(25)
240	9a64fbe4	bellard	#define SRR0 SPR_ENCODE(26)
241	9a64fbe4	bellard	#define SRR1 SPR_ENCODE(27)
242	9a64fbe4	bellard	#define SPRG0 SPR_ENCODE(272)
243	9a64fbe4	bellard	#define SPRG1 SPR_ENCODE(273)
244	9a64fbe4	bellard	#define SPRG2 SPR_ENCODE(274)
245	9a64fbe4	bellard	#define SPRG3 SPR_ENCODE(275)
246	9a64fbe4	bellard	#define SPRG4 SPR_ENCODE(276)
247	9a64fbe4	bellard	#define SPRG5 SPR_ENCODE(277)
248	9a64fbe4	bellard	#define SPRG6 SPR_ENCODE(278)
249	9a64fbe4	bellard	#define SPRG7 SPR_ENCODE(279)
250	9a64fbe4	bellard	#define ASR SPR_ENCODE(280)
251	9a64fbe4	bellard	#define EAR SPR_ENCODE(282)
252	9a64fbe4	bellard	#define O_TBL SPR_ENCODE(284)
253	9a64fbe4	bellard	#define O_TBU SPR_ENCODE(285)
254	9a64fbe4	bellard	#define PVR SPR_ENCODE(287)
255	9a64fbe4	bellard	#define IBAT0U SPR_ENCODE(528)
256	9a64fbe4	bellard	#define IBAT0L SPR_ENCODE(529)
257	9a64fbe4	bellard	#define IBAT1U SPR_ENCODE(530)
258	9a64fbe4	bellard	#define IBAT1L SPR_ENCODE(531)
259	9a64fbe4	bellard	#define IBAT2U SPR_ENCODE(532)
260	9a64fbe4	bellard	#define IBAT2L SPR_ENCODE(533)
261	9a64fbe4	bellard	#define IBAT3U SPR_ENCODE(534)
262	9a64fbe4	bellard	#define IBAT3L SPR_ENCODE(535)
263	9a64fbe4	bellard	#define DBAT0U SPR_ENCODE(536)
264	9a64fbe4	bellard	#define DBAT0L SPR_ENCODE(537)
265	9a64fbe4	bellard	#define DBAT1U SPR_ENCODE(538)
266	9a64fbe4	bellard	#define DBAT1L SPR_ENCODE(539)
267	9a64fbe4	bellard	#define DBAT2U SPR_ENCODE(540)
268	9a64fbe4	bellard	#define DBAT2L SPR_ENCODE(541)
269	9a64fbe4	bellard	#define DBAT3U SPR_ENCODE(542)
270	9a64fbe4	bellard	#define DBAT3L SPR_ENCODE(543)
271	9a64fbe4	bellard	#define IBAT4U SPR_ENCODE(560)
272	9a64fbe4	bellard	#define IBAT4L SPR_ENCODE(561)
273	9a64fbe4	bellard	#define IBAT5U SPR_ENCODE(562)
274	9a64fbe4	bellard	#define IBAT5L SPR_ENCODE(563)
275	9a64fbe4	bellard	#define IBAT6U SPR_ENCODE(564)
276	9a64fbe4	bellard	#define IBAT6L SPR_ENCODE(565)
277	9a64fbe4	bellard	#define IBAT7U SPR_ENCODE(566)
278	9a64fbe4	bellard	#define IBAT7L SPR_ENCODE(567)
279	9a64fbe4	bellard	#define DBAT4U SPR_ENCODE(568)
280	9a64fbe4	bellard	#define DBAT4L SPR_ENCODE(569)
281	9a64fbe4	bellard	#define DBAT5U SPR_ENCODE(570)
282	9a64fbe4	bellard	#define DBAT5L SPR_ENCODE(571)
283	9a64fbe4	bellard	#define DBAT6U SPR_ENCODE(572)
284	9a64fbe4	bellard	#define DBAT6L SPR_ENCODE(573)
285	9a64fbe4	bellard	#define DBAT7U SPR_ENCODE(574)
286	9a64fbe4	bellard	#define DBAT7L SPR_ENCODE(575)
287	85c4adf6	bellard	#define UMMCR0 SPR_ENCODE(936)
288	85c4adf6	bellard	#define UPMC1 SPR_ENCODE(937)
289	85c4adf6	bellard	#define UPMC2 SPR_ENCODE(938)
290	85c4adf6	bellard	#define USIA SPR_ENCODE(939)
291	85c4adf6	bellard	#define UMMCR1 SPR_ENCODE(940)
292	85c4adf6	bellard	#define UPMC3 SPR_ENCODE(941)
293	85c4adf6	bellard	#define UPMC4 SPR_ENCODE(942)
294	85c4adf6	bellard	#define MMCR0 SPR_ENCODE(952)
295	85c4adf6	bellard	#define PMC1 SPR_ENCODE(953)
296	85c4adf6	bellard	#define PMC2 SPR_ENCODE(954)
297	85c4adf6	bellard	#define SIA SPR_ENCODE(955)
298	85c4adf6	bellard	#define MMCR1 SPR_ENCODE(956)
299	85c4adf6	bellard	#define PMC3 SPR_ENCODE(957)
300	85c4adf6	bellard	#define PMC4 SPR_ENCODE(958)
301	85c4adf6	bellard	#define SDA SPR_ENCODE(959)
302	85c4adf6	bellard	#define DMISS SPR_ENCODE(976)
303	85c4adf6	bellard	#define DCMP SPR_ENCODE(977)
304	85c4adf6	bellard	#define DHASH1 SPR_ENCODE(978)
305	85c4adf6	bellard	#define DHASH2 SPR_ENCODE(979)
306	85c4adf6	bellard	#define IMISS SPR_ENCODE(980)
307	85c4adf6	bellard	#define ICMP SPR_ENCODE(981)
308	85c4adf6	bellard	#define RPA SPR_ENCODE(982)
309	85c4adf6	bellard	#define TCR SPR_ENCODE(984)
310	85c4adf6	bellard	#define IBR SPR_ENCODE(986)
311	85c4adf6	bellard	#define ESASRR SPR_ENCODE(987)
312	85c4adf6	bellard	#define SEBR SPR_ENCODE(990)
313	85c4adf6	bellard	#define SER SPR_ENCODE(991)
314	85c4adf6	bellard	#define HID0 SPR_ENCODE(1008)
315	85c4adf6	bellard	#define HID1 SPR_ENCODE(1009)
316	85c4adf6	bellard	#define IABR SPR_ENCODE(1010)
317	85c4adf6	bellard	#define HID2 SPR_ENCODE(1011)
318	9a64fbe4	bellard	#define DABR SPR_ENCODE(1013)
319	85c4adf6	bellard	#define L2PM SPR_ENCODE(1016)
320	85c4adf6	bellard	#define L2CR SPR_ENCODE(1017)
321	85c4adf6	bellard	#define ICTC SPR_ENCODE(1019)
322	85c4adf6	bellard	#define THRM1 SPR_ENCODE(1020)
323	85c4adf6	bellard	#define THRM2 SPR_ENCODE(1021)
324	85c4adf6	bellard	#define THRM3 SPR_ENCODE(1022)
325	85c4adf6	bellard	#define SP SPR_ENCODE(1021)
326	ce93da6f	bellard	#define SPR_LP SPR_ENCODE(1022)
327	79aceca5	bellard	#define DABR_MASK 0xFFFFFFF8
328	9a64fbe4	bellard	#define FPECR SPR_ENCODE(1022)
329	9a64fbe4	bellard	#define PIR SPR_ENCODE(1023)
330	79aceca5	bellard
331	9a64fbe4	bellard	/* Memory access type :
332	9a64fbe4	bellard	* may be needed for precise access rights control and precise exceptions.
333	9a64fbe4	bellard	*/
334	79aceca5	bellard	enum {
335	9a64fbe4	bellard	/* 1 bit to define user level / supervisor access */
336	9a64fbe4	bellard	ACCESS_USER = 0x00,
337	9a64fbe4	bellard	ACCESS_SUPER = 0x01,
338	9a64fbe4	bellard	/* Type of instruction that generated the access */
339	9a64fbe4	bellard	ACCESS_CODE = 0x10, /* Code fetch access */
340	9a64fbe4	bellard	ACCESS_INT = 0x20, /* Integer load/store access */
341	9a64fbe4	bellard	ACCESS_FLOAT = 0x30, /* floating point load/store access */
342	9a64fbe4	bellard	ACCESS_RES = 0x40, /* load/store with reservation */
343	9a64fbe4	bellard	ACCESS_EXT = 0x50, /* external access */
344	9a64fbe4	bellard	ACCESS_CACHE = 0x60, /* Cache manipulation */
345	9a64fbe4	bellard	};
346	9a64fbe4	bellard
347	9a64fbe4	bellard	/*****************************************************************************/
348	9a64fbe4	bellard	/* Exceptions */
349	9a64fbe4	bellard	enum {
350	9a64fbe4	bellard	EXCP_NONE = -1,
351	79aceca5	bellard	/* PPC hardware exceptions : exception vector / 0x100 */
352	79aceca5	bellard	EXCP_RESET = 0x01, /* System reset */
353	79aceca5	bellard	EXCP_MACHINE_CHECK = 0x02, /* Machine check exception */
354	79aceca5	bellard	EXCP_DSI = 0x03, /* Impossible memory access */
355	79aceca5	bellard	EXCP_ISI = 0x04, /* Impossible instruction fetch */
356	79aceca5	bellard	EXCP_EXTERNAL = 0x05, /* External interruption */
357	79aceca5	bellard	EXCP_ALIGN = 0x06, /* Alignment exception */
358	79aceca5	bellard	EXCP_PROGRAM = 0x07, /* Program exception */
359	79aceca5	bellard	EXCP_NO_FP = 0x08, /* No floating point */
360	79aceca5	bellard	EXCP_DECR = 0x09, /* Decrementer exception */
361	79aceca5	bellard	EXCP_RESA = 0x0A, /* Implementation specific */
362	79aceca5	bellard	EXCP_RESB = 0x0B, /* Implementation specific */
363	79aceca5	bellard	EXCP_SYSCALL = 0x0C, /* System call */
364	79aceca5	bellard	EXCP_TRACE = 0x0D, /* Trace exception (optional) */
365	79aceca5	bellard	EXCP_FP_ASSIST = 0x0E, /* Floating-point assist (optional) */
366	9a64fbe4	bellard	/* MPC740/745/750 & IBM 750 */
367	9a64fbe4	bellard	EXCP_PERF = 0x0F, /* Performance monitor */
368	9a64fbe4	bellard	EXCP_IABR = 0x13, /* Instruction address breakpoint */
369	9a64fbe4	bellard	EXCP_SMI = 0x14, /* System management interrupt */
370	9a64fbe4	bellard	EXCP_THRM = 0x15, /* Thermal management interrupt */
371	9a64fbe4	bellard	/* MPC755 */
372	9a64fbe4	bellard	EXCP_TLBMISS = 0x10, /* Instruction TLB miss */
373	9a64fbe4	bellard	EXCP_TLBMISS_DL = 0x11, /* Data TLB miss for load */
374	9a64fbe4	bellard	EXCP_TLBMISS_DS = 0x12, /* Data TLB miss for store */
375	9a64fbe4	bellard	EXCP_PPC_MAX = 0x16,
376	9a64fbe4	bellard	/* Qemu exception */
377	9a64fbe4	bellard	EXCP_OFCALL = 0x20, /* Call open-firmware emulator */
378	9a64fbe4	bellard	EXCP_RTASCALL = 0x21, /* Call RTAS emulator */
379	9a64fbe4	bellard	/* Special cases where we want to stop translation */
380	9a64fbe4	bellard	EXCP_MTMSR = 0x104, /* mtmsr instruction: */
381	9a64fbe4	bellard	/* may change privilege level */
382	9a64fbe4	bellard	EXCP_BRANCH = 0x108, /* branch instruction */
383	9a64fbe4	bellard	EXCP_RFI = 0x10C, /* return from interrupt */
384	9a64fbe4	bellard	EXCP_SYSCALL_USER = 0x110, /* System call in user mode only */
385	9a64fbe4	bellard	};
386	9a64fbe4	bellard	/* Error codes */
387	9a64fbe4	bellard	enum {
388	9a64fbe4	bellard	/* Exception subtypes for EXCP_DSI */
389	9a64fbe4	bellard	EXCP_DSI_TRANSLATE = 0x01, /* Data address can't be translated */
390	9a64fbe4	bellard	EXCP_DSI_NOTSUP = 0x02, /* Access type not supported */
391	9a64fbe4	bellard	EXCP_DSI_PROT = 0x03, /* Memory protection violation */
392	9a64fbe4	bellard	EXCP_DSI_EXTERNAL = 0x04, /* External access disabled */
393	9a64fbe4	bellard	EXCP_DSI_DABR = 0x05, /* Data address breakpoint */
394	9a64fbe4	bellard	/* flags for EXCP_DSI */
395	9a64fbe4	bellard	EXCP_DSI_DIRECT = 0x10,
396	9a64fbe4	bellard	EXCP_DSI_STORE = 0x20,
397	a541f297	bellard	EXCP_DSI_ECXW = 0x40,
398	9a64fbe4	bellard	/* Exception subtypes for EXCP_ISI */
399	9a64fbe4	bellard	EXCP_ISI_TRANSLATE = 0x01, /* Code address can't be translated */
400	9a64fbe4	bellard	EXCP_ISI_NOEXEC = 0x02, /* Try to fetch from a data segment */
401	9a64fbe4	bellard	EXCP_ISI_GUARD = 0x03, /* Fetch from guarded memory */
402	9a64fbe4	bellard	EXCP_ISI_PROT = 0x04, /* Memory protection violation */
403	a541f297	bellard	EXCP_ISI_DIRECT = 0x05, /* Trying to fetch from *
404	a541f297	bellard	* a direct store segment */
405	9a64fbe4	bellard	/* Exception subtypes for EXCP_ALIGN */
406	9a64fbe4	bellard	EXCP_ALIGN_FP = 0x01, /* FP alignment exception */
407	9a64fbe4	bellard	EXCP_ALIGN_LST = 0x02, /* Unaligned mult/extern load/store */
408	9a64fbe4	bellard	EXCP_ALIGN_LE = 0x03, /* Multiple little-endian access */
409	9a64fbe4	bellard	EXCP_ALIGN_PROT = 0x04, /* Access cross protection boundary */
410	9a64fbe4	bellard	EXCP_ALIGN_BAT = 0x05, /* Access cross a BAT/seg boundary */
411	9a64fbe4	bellard	EXCP_ALIGN_CACHE = 0x06, /* Impossible dcbz access */
412	9a64fbe4	bellard	/* Exception subtypes for EXCP_PROGRAM */
413	79aceca5	bellard	/* FP exceptions */
414	9a64fbe4	bellard	EXCP_FP = 0x10,
415	9a64fbe4	bellard	EXCP_FP_OX = 0x01, /* FP overflow */
416	9a64fbe4	bellard	EXCP_FP_UX = 0x02, /* FP underflow */
417	9a64fbe4	bellard	EXCP_FP_ZX = 0x03, /* FP divide by zero */
418	9a64fbe4	bellard	EXCP_FP_XX = 0x04, /* FP inexact */
419	9a64fbe4	bellard	EXCP_FP_VXNAN = 0x05, /* FP invalid SNaN op */
420	9a64fbe4	bellard	EXCP_FP_VXISI = 0x06, /* FP invalid infinite substraction */
421	9a64fbe4	bellard	EXCP_FP_VXIDI = 0x07, /* FP invalid infinite divide */
422	9a64fbe4	bellard	EXCP_FP_VXZDZ = 0x08, /* FP invalid zero divide */
423	9a64fbe4	bellard	EXCP_FP_VXIMZ = 0x09, /* FP invalid infinite * zero */
424	9a64fbe4	bellard	EXCP_FP_VXVC = 0x0A, /* FP invalid compare */
425	9a64fbe4	bellard	EXCP_FP_VXSOFT = 0x0B, /* FP invalid operation */
426	9a64fbe4	bellard	EXCP_FP_VXSQRT = 0x0C, /* FP invalid square root */
427	9a64fbe4	bellard	EXCP_FP_VXCVI = 0x0D, /* FP invalid integer conversion */
428	79aceca5	bellard	/* Invalid instruction */
429	9a64fbe4	bellard	EXCP_INVAL = 0x20,
430	9a64fbe4	bellard	EXCP_INVAL_INVAL = 0x01, /* Invalid instruction */
431	9a64fbe4	bellard	EXCP_INVAL_LSWX = 0x02, /* Invalid lswx instruction */
432	9a64fbe4	bellard	EXCP_INVAL_SPR = 0x03, /* Invalid SPR access */
433	9a64fbe4	bellard	EXCP_INVAL_FP = 0x04, /* Unimplemented mandatory fp instr */
434	79aceca5	bellard	/* Privileged instruction */
435	9a64fbe4	bellard	EXCP_PRIV = 0x30,
436	9a64fbe4	bellard	EXCP_PRIV_OPC = 0x01,
437	9a64fbe4	bellard	EXCP_PRIV_REG = 0x02,
438	79aceca5	bellard	/* Trap */
439	9a64fbe4	bellard	EXCP_TRAP = 0x40,
440	79aceca5	bellard	};
441	79aceca5	bellard
442	9a64fbe4	bellard	/*****************************************************************************/
443	9a64fbe4	bellard
444	79aceca5	bellard	#endif /* !defined (__CPU_PPC_H__) */

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