1/*
2 * fp_emu.S
3 *
4 * Copyright Roman Zippel, 1997.  All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions
8 * are met:
9 * 1. Redistributions of source code must retain the above copyright
10 *    notice, and the entire permission notice in its entirety,
11 *    including the disclaimer of warranties.
12 * 2. Redistributions in binary form must reproduce the above copyright
13 *    notice, this list of conditions and the following disclaimer in the
14 *    documentation and/or other materials provided with the distribution.
15 * 3. The name of the author may not be used to endorse or promote
16 *    products derived from this software without specific prior
17 *    written permission.
18 *
19 * ALTERNATIVELY, this product may be distributed under the terms of
20 * the GNU General Public License, in which case the provisions of the GPL are
21 * required INSTEAD OF the above restrictions.  (This clause is
22 * necessary due to a potential bad interaction between the GPL and
23 * the restrictions contained in a BSD-style copyright.)
24 *
25 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED
26 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
27 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
28 * DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
29 * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
30 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
31 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
32 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
33 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
34 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
35 * OF THE POSSIBILITY OF SUCH DAMAGE.
36 */
37
38#include <linux/linkage.h>
39#include <asm/entry.h>
40
41#include "fp_emu.h"
42
43	.globl	fpu_emu
44	.globl	fp_debugprint
45	.globl	fp_err_ua1,fp_err_ua2
46
47	.text
48fpu_emu:
49	SAVE_ALL_INT
50	GET_CURRENT(%d0)
51
52#if defined(CPU_M68020_OR_M68030) && defined(CPU_M68040_OR_M68060)
53        tst.l	m68k_is040or060
54        jeq	1f
55#endif
56#if defined(CPU_M68040_OR_M68060)
57	move.l	(FPS_PC2,%sp),(FPS_PC,%sp)
58#endif
591:
60	| emulate the instruction
61	jsr	fp_scan
62
63#if defined(CONFIG_M68060)
64#if !defined(CPU_M68060_ONLY)
65	btst	#3,m68k_cputype+3
66	jeq	1f
67#endif
68	btst	#7,(FPS_SR,%sp)
69	jne	fp_sendtrace060
70#endif
711:
72	| emulation successful?
73	tst.l	%d0
74	jeq	ret_from_exception
75
76	| send some signal to program here
77
78	jra	ret_from_exception
79
80	| we jump here after an access error while trying to access
81	| user space, we correct stackpointer and send a SIGSEGV to
82	| the user process
83fp_err_ua2:
84	addq.l	#4,%sp
85fp_err_ua1:
86	addq.l	#4,%sp
87	move.l	%a0,-(%sp)
88	pea	LSEGV_MAPERR
89	pea	LSIGSEGV
90	jsr	fpemu_signal
91	add.w	#12,%sp
92	jra	ret_from_exception
93
94#if defined(CONFIG_M68060)
95	| send a trace signal if we are debugged
96	| it does not really belong here, but...
97fp_sendtrace060:
98	move.l	(FPS_PC,%sp),-(%sp)
99	pea	LTRAP_TRACE
100	pea	LSIGTRAP
101	jsr	fpemu_signal
102	add.w	#12,%sp
103	jra	ret_from_exception
104#endif
105
106	.globl	fp_get_data_reg, fp_put_data_reg
107	.globl	fp_get_addr_reg, fp_put_addr_reg
108
109	| Entry points to get/put a register. Some of them can be get/put
110	| directly, others are on the stack, as we read/write the stack
111	| directly here, these function may only be called from within
112	| instruction decoding, otherwise the stack pointer is incorrect
113	| and the stack gets corrupted.
114fp_get_data_reg:
115	jmp	([0f:w,%pc,%d0.w*4])
116
117	.align	4
1180:
119	.long	fp_get_d0, fp_get_d1
120	.long	fp_get_d2, fp_get_d3
121	.long	fp_get_d4, fp_get_d5
122	.long	fp_get_d6, fp_get_d7
123
124fp_get_d0:
125	move.l	(PT_OFF_D0+8,%sp),%d0
126	printf	PREGISTER,"{d0->%08x}",1,%d0
127	rts
128
129fp_get_d1:
130	move.l	(PT_OFF_D1+8,%sp),%d0
131	printf	PREGISTER,"{d1->%08x}",1,%d0
132	rts
133
134fp_get_d2:
135	move.l	(PT_OFF_D2+8,%sp),%d0
136	printf	PREGISTER,"{d2->%08x}",1,%d0
137	rts
138
139fp_get_d3:
140	move.l	%d3,%d0
141	printf	PREGISTER,"{d3->%08x}",1,%d0
142	rts
143
144fp_get_d4:
145	move.l	%d4,%d0
146	printf	PREGISTER,"{d4->%08x}",1,%d0
147	rts
148
149fp_get_d5:
150	move.l	%d5,%d0
151	printf	PREGISTER,"{d5->%08x}",1,%d0
152	rts
153
154fp_get_d6:
155	move.l	%d6,%d0
156	printf	PREGISTER,"{d6->%08x}",1,%d0
157	rts
158
159fp_get_d7:
160	move.l	%d7,%d0
161	printf	PREGISTER,"{d7->%08x}",1,%d0
162	rts
163
164fp_put_data_reg:
165	jmp	([0f:w,%pc,%d1.w*4])
166
167	.align	4
1680:
169	.long	fp_put_d0, fp_put_d1
170	.long	fp_put_d2, fp_put_d3
171	.long	fp_put_d4, fp_put_d5
172	.long	fp_put_d6, fp_put_d7
173
174fp_put_d0:
175	printf	PREGISTER,"{d0<-%08x}",1,%d0
176	move.l	%d0,(PT_OFF_D0+8,%sp)
177	rts
178
179fp_put_d1:
180	printf	PREGISTER,"{d1<-%08x}",1,%d0
181	move.l	%d0,(PT_OFF_D1+8,%sp)
182	rts
183
184fp_put_d2:
185	printf	PREGISTER,"{d2<-%08x}",1,%d0
186	move.l	%d0,(PT_OFF_D2+8,%sp)
187	rts
188
189fp_put_d3:
190	printf	PREGISTER,"{d3<-%08x}",1,%d0
191|	move.l	%d0,%d3
192	move.l	%d0,(PT_OFF_D3+8,%sp)
193	rts
194
195fp_put_d4:
196	printf	PREGISTER,"{d4<-%08x}",1,%d0
197|	move.l	%d0,%d4
198	move.l	%d0,(PT_OFF_D4+8,%sp)
199	rts
200
201fp_put_d5:
202	printf	PREGISTER,"{d5<-%08x}",1,%d0
203|	move.l	%d0,%d5
204	move.l	%d0,(PT_OFF_D5+8,%sp)
205	rts
206
207fp_put_d6:
208	printf	PREGISTER,"{d6<-%08x}",1,%d0
209	move.l	%d0,%d6
210	rts
211
212fp_put_d7:
213	printf	PREGISTER,"{d7<-%08x}",1,%d0
214	move.l	%d0,%d7
215	rts
216
217fp_get_addr_reg:
218	jmp	([0f:w,%pc,%d0.w*4])
219
220	.align	4
2210:
222	.long	fp_get_a0, fp_get_a1
223	.long	fp_get_a2, fp_get_a3
224	.long	fp_get_a4, fp_get_a5
225	.long	fp_get_a6, fp_get_a7
226
227fp_get_a0:
228	move.l	(PT_OFF_A0+8,%sp),%a0
229	printf	PREGISTER,"{a0->%08x}",1,%a0
230	rts
231
232fp_get_a1:
233	move.l	(PT_OFF_A1+8,%sp),%a0
234	printf	PREGISTER,"{a1->%08x}",1,%a0
235	rts
236
237fp_get_a2:
238	move.l	(PT_OFF_A2+8,%sp),%a0
239	printf	PREGISTER,"{a2->%08x}",1,%a0
240	rts
241
242fp_get_a3:
243	move.l	%a3,%a0
244	printf	PREGISTER,"{a3->%08x}",1,%a0
245	rts
246
247fp_get_a4:
248	move.l	%a4,%a0
249	printf	PREGISTER,"{a4->%08x}",1,%a0
250	rts
251
252fp_get_a5:
253	move.l	%a5,%a0
254	printf	PREGISTER,"{a5->%08x}",1,%a0
255	rts
256
257fp_get_a6:
258	move.l	%a6,%a0
259	printf	PREGISTER,"{a6->%08x}",1,%a0
260	rts
261
262fp_get_a7:
263	move.l	%usp,%a0
264	printf	PREGISTER,"{a7->%08x}",1,%a0
265	rts
266
267fp_put_addr_reg:
268	jmp	([0f:w,%pc,%d0.w*4])
269
270	.align	4
2710:
272	.long	fp_put_a0, fp_put_a1
273	.long	fp_put_a2, fp_put_a3
274	.long	fp_put_a4, fp_put_a5
275	.long	fp_put_a6, fp_put_a7
276
277fp_put_a0:
278	printf	PREGISTER,"{a0<-%08x}",1,%a0
279	move.l	%a0,(PT_OFF_A0+8,%sp)
280	rts
281
282fp_put_a1:
283	printf	PREGISTER,"{a1<-%08x}",1,%a0
284	move.l	%a0,(PT_OFF_A1+8,%sp)
285	rts
286
287fp_put_a2:
288	printf	PREGISTER,"{a2<-%08x}",1,%a0
289	move.l	%a0,(PT_OFF_A2+8,%sp)
290	rts
291
292fp_put_a3:
293	printf	PREGISTER,"{a3<-%08x}",1,%a0
294	move.l	%a0,%a3
295	rts
296
297fp_put_a4:
298	printf	PREGISTER,"{a4<-%08x}",1,%a0
299	move.l	%a0,%a4
300	rts
301
302fp_put_a5:
303	printf	PREGISTER,"{a5<-%08x}",1,%a0
304	move.l	%a0,%a5
305	rts
306
307fp_put_a6:
308	printf	PREGISTER,"{a6<-%08x}",1,%a0
309	move.l	%a0,%a6
310	rts
311
312fp_put_a7:
313	printf	PREGISTER,"{a7<-%08x}",1,%a0
314	move.l	%a0,%usp
315	rts
316
317	.data
318	.align	4
319
320fp_debugprint:
321|	.long	PMDECODE
322	.long	PMINSTR+PMDECODE+PMCONV+PMNORM
323|	.long	PMCONV+PMNORM+PMINSTR
324|	.long	0
325