xref: /freebsd/sys/powerpc/ofw/ofwcall64.S (revision e6bfd18d21b225af6a0ed67ceeaf1293b7b9eba5)
1/*-
2 * Copyright (C) 2009-2011 Nathan Whitehorn
3 * All rights reserved.
4 *
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions
7 * are met:
8 * 1. Redistributions of source code must retain the above copyright
9 *    notice, this list of conditions and the following disclaimer.
10 * 2. Redistributions in binary form must reproduce the above copyright
11 *    notice, this list of conditions and the following disclaimer in the
12 *    documentation and/or other materials provided with the distribution.
13 *
14 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
15 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
16 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
17 * IN NO EVENT SHALL TOOLS GMBH BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
18 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
19 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
20 * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
21 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
22 * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
23 * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
24 *
25 * $FreeBSD$
26 */
27
28#include <sys/syscall.h>
29
30#include <machine/trap.h>
31#include <machine/param.h>
32#include <machine/spr.h>
33#include <machine/asm.h>
34
35#include "opt_platform.h"
36
37#define	OFWSTKSZ	4096		/* 4K Open Firmware stack */
38
39/*
40 * Globals
41 */
42	.data
43	.align	4
44ofwstk:
45	.space	OFWSTKSZ
46rtas_regsave:
47	.space	32 /* 4 * sizeof(register_t) */
48GLOBAL(ofmsr)
49	.llong  0, 0, 0, 0, 0		/* msr/sprg0-3 used in Open Firmware */
50GLOBAL(rtasmsr)
51	.llong	0
52GLOBAL(openfirmware_entry)
53	.llong	0			/* Open Firmware entry point */
54GLOBAL(rtas_entry)
55	.llong	0			/* RTAS entry point */
56
57TOC_ENTRY(ofmsr)
58TOC_ENTRY(ofwstk)
59TOC_ENTRY(rtasmsr)
60TOC_ENTRY(openfirmware_entry)
61TOC_ENTRY(rtas_entry)
62TOC_ENTRY(rtas_regsave)
63
64/*
65 * Open Firmware Real-mode Entry Point. This is a huge pain.
66 */
67
68ASENTRY_NOPROF(ofwcall)
69	mflr	%r8
70	std	%r8,16(%r1)
71	stdu	%r1,-208(%r1)
72
73	/*
74	 * We need to save the following, because OF's register save/
75	 * restore code assumes that the contents of registers are
76	 * at most 32 bits wide: lr, cr, r2, r13-r31, the old MSR. These
77	 * get placed in that order in the stack.
78	 */
79
80	mfcr	%r4
81	std	%r4,48(%r1)
82	std	%r13,56(%r1)
83	std	%r14,64(%r1)
84	std	%r15,72(%r1)
85	std	%r16,80(%r1)
86	std	%r17,88(%r1)
87	std	%r18,96(%r1)
88	std	%r19,104(%r1)
89	std	%r20,112(%r1)
90	std	%r21,120(%r1)
91	std	%r22,128(%r1)
92	std	%r23,136(%r1)
93	std	%r24,144(%r1)
94	std	%r25,152(%r1)
95	std	%r26,160(%r1)
96	std	%r27,168(%r1)
97	std	%r28,176(%r1)
98	std	%r29,184(%r1)
99	std	%r30,192(%r1)
100	std	%r31,200(%r1)
101
102	/* Record the old MSR */
103	mfmsr	%r6
104
105	/* read client interface handler */
106	addis	%r4,%r2,TOC_REF(openfirmware_entry)@ha
107	ld	%r4,TOC_REF(openfirmware_entry)@l(%r4)
108	ld	%r4,0(%r4)
109
110	/* Get OF stack pointer */
111	addis	%r7,%r2,TOC_REF(ofwstk)@ha
112	ld	%r7,TOC_REF(ofwstk)@l(%r7)
113	addi	%r7,%r7,OFWSTKSZ-40
114
115	/*
116	 * Set the MSR to the OF value. This has the side effect of disabling
117	 * exceptions, which is important for the next few steps.
118	 * This does NOT, however, cause us to switch endianness.
119	 */
120
121	addis	%r5,%r2,TOC_REF(ofmsr)@ha
122	ld	%r5,TOC_REF(ofmsr)@l(%r5)
123	ld	%r5,0(%r5)
124#if defined(__LITTLE_ENDIAN__) && defined(QEMU)
125	/* QEMU hack: qemu does not emulate mtmsrd correctly! */
126	ori	%r5,%r5,1	/* Leave PSR_LE set */
127#endif
128	mtmsrd	%r5
129	isync
130
131	/*
132	 * Set up OF stack. This needs to be accessible in real mode and
133	 * use the 32-bit ABI stack frame format. The pointer to the current
134	 * kernel stack is placed at the very top of the stack along with
135	 * the old MSR so we can get them back later.
136	 */
137	mr	%r5,%r1
138	mr	%r1,%r7
139	std	%r5,8(%r1)	/* Save real stack pointer */
140	std	%r2,16(%r1)	/* Save old TOC */
141	std	%r6,24(%r1)	/* Save old MSR */
142	std	%r8,32(%r1)	/* Save high 32-bits of the kernel's PC */
143
144	li	%r5,0
145	stw	%r5,4(%r1)
146	stw	%r5,0(%r1)
147
148#ifdef __LITTLE_ENDIAN__
149	/* Atomic context switch w/ endian change */
150	mtmsrd	%r5, 1	/* Clear PSL_EE|PSL_RI */
151	addis	%r5,%r2,TOC_REF(ofmsr)@ha
152	ld	%r5,TOC_REF(ofmsr)@l(%r5)
153	ld	%r5,0(%r5)
154	mtsrr0	%r4
155	mtsrr1	%r5
156	LOAD_LR_NIA
1571:
158	mflr	%r5
159	addi	%r5, %r5, (2f-1b)
160	mtlr	%r5
161	li	%r5, 0
162	rfid
1632:
164	RETURN_TO_NATIVE_ENDIAN
165#else
166	/* Finally, branch to OF */
167	mtctr	%r4
168	bctrl
169#endif
170
171	/* Reload stack pointer, MSR, and reference PC from the OFW stack */
172	ld	%r7,32(%r1)
173	ld	%r6,24(%r1)
174	ld	%r2,16(%r1)
175	ld	%r1,8(%r1)
176
177	/* Get back to the MSR/PC we want, using the cached high bits of PC */
178	mtsrr1	%r6
179	clrrdi	%r7,%r7,32
180	bl	1f
1811:	mflr	%r8
182	or	%r8,%r8,%r7
183	addi	%r8,%r8,2f-1b
184	mtsrr0	%r8
185	rfid			/* Turn on MMU, exceptions, and 64-bit mode */
186
1872:
188	/* Sign-extend the return value from OF */
189	extsw	%r3,%r3
190
191	/* Restore all the non-volatile registers */
192	ld	%r5,48(%r1)
193	mtcr	%r5
194	ld	%r13,56(%r1)
195	ld	%r14,64(%r1)
196	ld	%r15,72(%r1)
197	ld	%r16,80(%r1)
198	ld	%r17,88(%r1)
199	ld	%r18,96(%r1)
200	ld	%r19,104(%r1)
201	ld	%r20,112(%r1)
202	ld	%r21,120(%r1)
203	ld	%r22,128(%r1)
204	ld	%r23,136(%r1)
205	ld	%r24,144(%r1)
206	ld	%r25,152(%r1)
207	ld	%r26,160(%r1)
208	ld	%r27,168(%r1)
209	ld	%r28,176(%r1)
210	ld	%r29,184(%r1)
211	ld	%r30,192(%r1)
212	ld	%r31,200(%r1)
213
214	/* Restore the stack and link register */
215	ld	%r1,0(%r1)
216	ld	%r0,16(%r1)
217	mtlr 	%r0
218	blr
219ASEND(ofwcall)
220
221/*
222 * RTAS 32-bit Entry Point. Similar to the OF one, but simpler (no separate
223 * stack)
224 *
225 * C prototype: int rtascall(void *callbuffer, void *rtas_privdat);
226 */
227
228ASENTRY_NOPROF(rtascall)
229	mflr	%r9
230	std	%r9,16(%r1)
231	stdu	%r1,-208(%r1)
232
233	/*
234	 * We need to save the following, because RTAS's register save/
235	 * restore code assumes that the contents of registers are
236	 * at most 32 bits wide: lr, cr, r2, r13-r31, the old MSR. These
237	 * get placed in that order in the stack.
238	 */
239
240	mfcr	%r5
241	std	%r5,48(%r1)
242	std	%r13,56(%r1)
243	std	%r14,64(%r1)
244	std	%r15,72(%r1)
245	std	%r16,80(%r1)
246	std	%r17,88(%r1)
247	std	%r18,96(%r1)
248	std	%r19,104(%r1)
249	std	%r20,112(%r1)
250	std	%r21,120(%r1)
251	std	%r22,128(%r1)
252	std	%r23,136(%r1)
253	std	%r24,144(%r1)
254	std	%r25,152(%r1)
255	std	%r26,160(%r1)
256	std	%r27,168(%r1)
257	std	%r28,176(%r1)
258	std	%r29,184(%r1)
259	std	%r30,192(%r1)
260	std	%r31,200(%r1)
261
262	/* Record the old MSR */
263	mfmsr	%r6
264
265	/* Read RTAS entry and reg save area pointers */
266	addis	%r5,%r2,TOC_REF(rtas_entry)@ha
267	ld	%r5,TOC_REF(rtas_entry)@l(%r5)
268	ld	%r5,0(%r5)
269	addis	%r8,%r2,TOC_REF(rtas_regsave)@ha
270	ld	%r8,TOC_REF(rtas_regsave)@l(%r8)
271
272	/*
273	 * Set the MSR to the RTAS value. This has the side effect of disabling
274	 * exceptions, which is important for the next few steps.
275	 */
276
277	addis	%r7,%r2,TOC_REF(rtasmsr)@ha
278	ld	%r7,TOC_REF(rtasmsr)@l(%r7)
279	ld	%r7,0(%r7)
280#ifdef	__LITTLE_ENDIAN__
281	/* QEMU hack: qemu does not emulate mtmsrd correctly! */
282	ori	%r7,%r7,1	/* Leave PSR_LE set */
283#endif
284	mtmsrd	%r7
285	isync
286
287	/*
288	 * Set up RTAS register save area, so that we can get back all of
289	 * our 64-bit pointers. Save our stack pointer, the TOC, and the MSR.
290	 * Put this in r1, since RTAS is obliged to save it. Kernel globals
291	 * are below 4 GB, so this is safe.
292	 */
293	mr	%r7,%r1
294	mr	%r1,%r8
295	std	%r7,0(%r1)	/* Save 64-bit stack pointer */
296	std	%r2,8(%r1)	/* Save TOC */
297	std	%r6,16(%r1)	/* Save MSR */
298	std	%r9,24(%r1)	/* Save reference PC for high 32 bits */
299
300#ifdef __LITTLE_ENDIAN__
301	/* Atomic context switch w/ endian change */
302	li	%r7, 0
303	mtmsrd	%r7, 1	/* Clear PSL_EE|PSL_RI */
304	addis	%r7,%r2,TOC_REF(rtasmsr)@ha
305	ld	%r7,TOC_REF(rtasmsr)@l(%r7)
306	ld	%r7,0(%r7)
307	mtsrr0	%r5
308	mtsrr1	%r7
309	LOAD_LR_NIA
3101:
311	mflr	%r5
312	addi	%r5, %r5, (2f-1b)
313	mtlr	%r5
314	li	%r5, 0
315	rfid
3162:
317	RETURN_TO_NATIVE_ENDIAN
318#else
319	/* Finally, branch to RTAS */
320	mtctr	%r5
321	bctrl
322#endif
323
324	/*
325	 * Reload stack pointer, MSR, reg PC from the reg save area in r1. We
326	 * are running in 32-bit mode at this point, so it doesn't matter if r1
327	 * has become sign-extended.
328	 */
329	ld	%r7,24(%r1)
330	ld	%r6,16(%r1)
331	ld	%r2,8(%r1)
332	ld	%r1,0(%r1)
333
334	/*
335	 * Get back to the right PC. We need to atomically re-enable
336	 * exceptions, 64-bit mode, and the MMU. One thing that has likely
337	 * happened is that, if we were running in the high-memory direct
338	 * map, we no longer are as a result of LR truncation in RTAS.
339	 * Fix this by copying the high-order bits of the LR at function
340	 * entry onto the current PC and then jumping there while flipping
341	 * all the MSR bits.
342	 */
343	mtsrr1	%r6
344	clrrdi	%r7,%r7,32
345	bl	1f
3461:	mflr	%r8
347	or	%r8,%r8,%r7
348	addi	%r8,%r8,2f-1b
349	mtsrr0	%r8
350	rfid			/* Turn on MMU, exceptions, and 64-bit mode */
351
3522:
353	/* Sign-extend the return value from RTAS */
354	extsw	%r3,%r3
355
356	/* Restore all the non-volatile registers */
357	ld	%r5,48(%r1)
358	mtcr	%r5
359	ld	%r13,56(%r1)
360	ld	%r14,64(%r1)
361	ld	%r15,72(%r1)
362	ld	%r16,80(%r1)
363	ld	%r17,88(%r1)
364	ld	%r18,96(%r1)
365	ld	%r19,104(%r1)
366	ld	%r20,112(%r1)
367	ld	%r21,120(%r1)
368	ld	%r22,128(%r1)
369	ld	%r23,136(%r1)
370	ld	%r24,144(%r1)
371	ld	%r25,152(%r1)
372	ld	%r26,160(%r1)
373	ld	%r27,168(%r1)
374	ld	%r28,176(%r1)
375	ld	%r29,184(%r1)
376	ld	%r30,192(%r1)
377	ld	%r31,200(%r1)
378
379	/* Restore the stack and link register */
380	ld	%r1,0(%r1)
381	ld	%r0,16(%r1)
382	mtlr 	%r0
383	blr
384ASEND(rtascall)
385