xref: /titanic_52/usr/src/uts/sun4v/promif/promif_emul.c (revision 69112edd987c28fa551d4f8d9362a84a45365f17)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #include <sys/promif_impl.h>
28 #include <sys/machsystm.h>
29 #include <sys/lpad.h>
30 #include <sys/vmsystm.h>
31 #include <sys/prom_plat.h>
32 #include <sys/ldoms.h>
33 #include <sys/kobj.h>
34 #include <sys/reboot.h>
35 #include <sys/hypervisor_api.h>
36 #include <sys/mdesc.h>
37 #include <sys/mach_descrip.h>
38 #include <sys/cpu_module.h>
39 #include <vm/seg_kmem.h>
40 
41 #ifndef _KMDB
42 #include <sys/pte.h>
43 #include <vm/hat_sfmmu.h>
44 #include <sys/memlist_impl.h>
45 
46 static processorid_t cif_cpu;
47 static struct translation *cif_prom_trans;
48 static size_t cif_prom_ntrans;
49 
50 int cif_cpu_mp_ready;
51 int (*prom_cif_handler)(void *) = NULL;
52 
53 extern struct memlist *phys_avail;
54 extern struct vnode promvp;
55 extern void kdi_tlb_page_unlock(caddr_t, int);
56 
57 #define	COMBINE(hi, lo) (((uint64_t)(uint32_t)(hi) << 32) | (uint32_t)(lo))
58 #define	OFW_PT_START_ADDR	0xfffffffc00000000	/* OBP PT start */
59 #define	OFW_PT_END_ADDR		0xffffffffffffffff	/* OBP PT end */
60 
61 #define	PROM_ADDR(a)	(((a) >= OFW_START_ADDR && (a) <= OFW_END_ADDR) || \
62 			((a) >= OFW_PT_START_ADDR && (a) <= OFW_PT_END_ADDR))
63 #endif
64 
65 #ifdef DEBUG
66 uint_t cif_debug;
67 int prom_free_debug;
68 #define	PMFREE_DEBUG(args...) if (prom_free_debug) printf(args)
69 #else
70 #define	PMFREE_DEBUG(args...)
71 #endif
72 
73 extern int (*cif_handler)(void *);
74 
75 typedef struct {
76 	char		*name;
77 	cif_func_t	func;
78 } cif_callback_t;
79 
80 static cif_callback_t cb_table[] = {
81 	{ "getprop",			promif_getprop		    },
82 	{ "getproplen",			promif_getproplen	    },
83 	{ "nextprop",			promif_nextprop		    },
84 	{ "peer",			promif_nextnode		    },
85 	{ "child",			promif_childnode	    },
86 	{ "parent",			promif_parentnode	    },
87 	{ "enter",			promif_enter_mon	    },
88 	{ "exit",			promif_exit_to_mon	    },
89 	{ "boot",			promif_reboot		    },
90 	{ "write",			promif_write		    },
91 	{ "read",			promif_read		    },
92 	{ "interpret",			promif_interpret	    },
93 	{ "finddevice",			promif_finddevice	    },
94 	{ "instance-to-package",	promif_instance_to_package  },
95 #ifndef _KMDB
96 	{ "setprop",			promif_setprop		    },
97 	{ "test",			promif_test		    },
98 	{ "instance-to-path",		promif_instance_to_path	    },
99 	{ "SUNW,power-off",		promif_power_off	    },
100 	{ "SUNW,asr-list-keys-len",	promif_asr_list_keys_len    },
101 	{ "SUNW,asr-list-keys",		promif_asr_list_keys	    },
102 	{ "SUNW,asr-export-len",	promif_asr_export_len	    },
103 	{ "SUNW,asr-export",		promif_asr_export	    },
104 	{ "SUNW,set-security-key",	promif_set_security_key	    },
105 	{ "SUNW,get-security-key",	promif_get_security_key	    },
106 	{ "SUNW,start-cpu-by-cpuid",	promif_start_cpu	    },
107 	{ "SUNW,set-trap-table",	promif_set_mmfsa_traptable  },
108 	{ "SUNW,set-sun4v-api-version",	promif_set_sun4v_api_version },
109 	{ "SUNW,get-sun4v-api-version",	promif_get_sun4v_api_version },
110 #endif
111 	{ NULL,				NULL			    }
112 };
113 
114 cif_func_t
115 promif_find_cif_callback(char *opname)
116 {
117 	cif_callback_t	*cb;
118 
119 	if (opname == NULL)
120 		return (NULL);
121 
122 	for (cb = cb_table; cb->name; cb++) {
123 		if (prom_strcmp(cb->name, opname) == 0)
124 			break;
125 	}
126 
127 	return (cb->func);
128 }
129 
130 static int
131 kern_cif_handler(void *p)
132 {
133 	cell_t		*ci = (cell_t *)p;
134 	char		*opname;
135 	cif_func_t	func;
136 	int		rv;
137 
138 	ASSERT(cif_handler == kern_cif_handler);
139 
140 #ifndef _KMDB
141 	cif_cpu = getprocessorid();
142 #endif
143 
144 	opname = p1275_cell2ptr(ci[0]);
145 
146 	/* lookup the callback for the desired operation */
147 	func = promif_find_cif_callback(opname);
148 
149 	if (func == NULL) {
150 #ifdef _KMDB
151 		prom_fatal_error("sun4v unsupported CIFs\n");
152 #else
153 		cmn_err(CE_CONT, "!sun4v unsupported CIF: %s\n", opname);
154 		return (-1);
155 #endif
156 	}
157 
158 	/* callback found, execute it */
159 	rv = func(p);
160 
161 #ifndef _KMDB
162 	cif_cpu = -1;
163 #endif
164 
165 	return (rv);
166 }
167 
168 #ifdef _KMDB
169 
170 void
171 cif_init(char *pgmname, caddr_t root, ihandle_t in, ihandle_t out,
172     phandle_t pin, phandle_t pout, pnode_t chosen, pnode_t options)
173 {
174 	/* initialize pointer to a copy of OBP device tree */
175 	promif_stree_setroot(root);
176 
177 	promif_set_nodes(chosen, options);
178 
179 	/* initialize io parameters */
180 	promif_io_init(in, out, pin, pout);
181 
182 	/*
183 	 * Switch CIF handler to the kernel.
184 	 */
185 	if (pgmname != NULL)
186 		prom_init(pgmname, (void *)kern_cif_handler);
187 	else
188 		cif_handler = kern_cif_handler;
189 }
190 
191 #else
192 
193 static struct translation *
194 read_prom_mappings(size_t *ntransp)
195 {
196 	char *prop = "translations";
197 	pnode_t node;
198 	size_t translen;
199 	ihandle_t immu;
200 	struct translation *transroot;
201 
202 	*ntransp = 0;
203 
204 	/*
205 	 * the "translations" property is associated with the mmu node
206 	 */
207 	if ((immu = prom_mmu_ihandle()) == (ihandle_t)-1) {
208 		PMFREE_DEBUG("no mmu ihandle");
209 		return (NULL);
210 	}
211 	node = (pnode_t)prom_getphandle(immu);
212 	if (node == OBP_NONODE || node == OBP_BADNODE) {
213 		PMFREE_DEBUG("no mmu node");
214 		return (NULL);
215 	}
216 
217 	if ((translen = prom_getproplen(node, prop)) == -1) {
218 		PMFREE_DEBUG("no translations property");
219 		return (NULL);
220 	}
221 	transroot = (struct translation *)kmem_zalloc(translen, KM_SLEEP);
222 
223 	if (prom_getprop(node, prop, (caddr_t)transroot) == -1) {
224 		PMFREE_DEBUG("translations getprop failed");
225 		kmem_free(transroot, translen);
226 		return (NULL);
227 	}
228 	*ntransp = translen / sizeof (*transroot);
229 
230 	return (transroot);
231 }
232 
233 static void
234 unmap_prom_mappings(struct translation *transroot, size_t ntransroot)
235 {
236 	int i, j, rv;
237 	int npgs, nunmapped, nfreed, nskipped, nskipped_io;
238 	char *p;
239 	tte_t tte;
240 	pfn_t pfn;
241 	page_t *pp;
242 	uint64_t vaddr;
243 	struct translation *promt;
244 	cpuset_t other_cpus;
245 
246 	/*
247 	 * During startup isa_list is allocated in OBP address space
248 	 * so it needs to be re-allocated in kernel address space
249 	 * before OBP memory is unmapped.
250 	 *
251 	 * see cpu_setup_common().
252 	 */
253 	p = kmem_zalloc(strlen(isa_list) + 1, KM_SLEEP);
254 	(void) strcpy(p, isa_list);
255 	isa_list = p;
256 
257 	nfreed = 0;
258 	nunmapped = 0;
259 	nskipped = 0;
260 	nskipped_io = 0;
261 
262 	for (i = 0, promt = transroot; i < ntransroot; i++, promt++) {
263 		ASSERT(promt->tte_hi != 0);
264 		ASSERT32(promt->virt_hi == 0 && promt->size_hi == 0);
265 
266 		vaddr = COMBINE(promt->virt_hi, promt->virt_lo);
267 
268 		if (!PROM_ADDR(vaddr)) {
269 			nskipped++;
270 			continue;
271 		}
272 
273 		npgs = mmu_btopr(COMBINE(promt->size_hi, promt->size_lo));
274 
275 		if (npgs > 1) {
276 			PMFREE_DEBUG("large trans vaddr=0x%lx, npgs=%d\n",
277 			    vaddr, npgs);
278 		}
279 		for (j = 0; j < npgs; j++) {
280 
281 			pfn = sfmmu_vatopfn((caddr_t)vaddr, KHATID, &tte);
282 
283 			if (pfn == PFN_INVALID) {
284 				tte.tte_inthi = promt->tte_hi;
285 				tte.tte_intlo = promt->tte_lo;
286 				pfn = TTE_TO_PFN((caddr_t)COMBINE(
287 				    promt->virt_hi, promt->virt_lo), &tte);
288 				PMFREE_DEBUG(
289 				    "no mapping for vaddr=0x%lx (opfn=0x%lx)\n",
290 				    vaddr, pfn);
291 				break;
292 			}
293 			ASSERT(!TTE_IS_LOCKED(&tte));
294 			ASSERT(TTE_IS_8K(&tte));
295 
296 			/*
297 			 * Unload the current mapping for the pfn and
298 			 * if it is the last mapping for a memory page,
299 			 * free the page.
300 			 */
301 			PMFREE_DEBUG("unmap vaddr=0x%lx pfn=0x%lx", vaddr, pfn);
302 
303 			hat_unload(kas.a_hat, (caddr_t)vaddr, PAGESIZE,
304 			    HAT_UNLOAD_UNLOCK);
305 
306 			if (pf_is_memory(pfn)) {
307 				pp = page_numtopp_nolock(pfn);
308 				PMFREE_DEBUG(" pp=0x%p", (void *)pp);
309 				ASSERT(pp);
310 				ASSERT(PAGE_EXCL(pp));
311 				ASSERT(PP_ISNORELOC(pp));
312 				ASSERT(!PP_ISFREE(pp));
313 				ASSERT(page_find(&promvp, pfn));
314 				ASSERT(page_get_pagecnt(pp->p_szc) == 1);
315 
316 				if (pp->p_mapping) {
317 					PMFREE_DEBUG(" skip\n");
318 				} else {
319 					PP_CLRNORELOC(pp);
320 					page_destroy(pp, 0);
321 					memlist_write_lock();
322 					rv = memlist_add_span(pfn << PAGESHIFT,
323 					    PAGESIZE, &phys_avail);
324 					ASSERT(rv == MEML_SPANOP_OK);
325 					memlist_write_unlock();
326 					PMFREE_DEBUG(" free\n");
327 					nfreed++;
328 				}
329 			} else {
330 				nskipped_io++;
331 				PMFREE_DEBUG(" skip IO\n");
332 			}
333 			nunmapped++;
334 			vaddr += PAGESIZE;
335 		}
336 	}
337 
338 	if (transroot) {
339 		PMFREE_DEBUG(
340 		    "nunmapped=%d nfreed=%d nskipped=%d nskipped_io=%d\n",
341 		    nunmapped, nfreed, nskipped, nskipped_io);
342 		kmem_free(transroot, ntransroot * sizeof (*transroot));
343 	}
344 
345 	/*
346 	 * Unload OBP permanent mappings.
347 	 */
348 	kdi_tlb_page_unlock((caddr_t)OFW_START_ADDR, 1);
349 	kpreempt_disable();
350 	other_cpus = cpu_ready_set;
351 	CPUSET_DEL(other_cpus, CPU->cpu_id);
352 	xt_some(other_cpus, vtag_unmap_perm_tl1, (uint64_t)OFW_START_ADDR,
353 	    KCONTEXT);
354 	kpreempt_enable();
355 }
356 
357 static void cache_prom_data(void);
358 
359 /*
360  * This function returns 1 if the current thread is executing in
361  * the CIF and 0 otherwise. This is useful information to know
362  * since code that implements CIF handlers can assume that it has
363  * gone through the kern_preprom() entry point, implying it is
364  * running single threaded, has preemption disabled, etc.
365  */
366 int
367 promif_in_cif(void)
368 {
369 	int	mycpuid = getprocessorid();
370 
371 	return ((cif_cpu == mycpuid) ? 1 : 0);
372 }
373 
374 /*
375  * Check that all cpus in the MD are within range (< NCPU).  Attempt
376  * to stop any that aren't.
377  */
378 static void
379 cif_check_cpus(void)
380 {
381 	md_t		*mdp;
382 	mde_cookie_t	rootnode;
383 	size_t		listsz;
384 	int		i;
385 	mde_cookie_t	*listp = NULL;
386 	int		num_nodes;
387 	uint64_t	cpuid;
388 	int		status;
389 
390 	mdp = md_get_handle();
391 	ASSERT(mdp);
392 
393 	rootnode = md_root_node(mdp);
394 	ASSERT(rootnode != MDE_INVAL_ELEM_COOKIE);
395 
396 	num_nodes = md_node_count(mdp);
397 	ASSERT(num_nodes > 0);
398 
399 	listsz = num_nodes * sizeof (mde_cookie_t);
400 	listp = kmem_zalloc(listsz, KM_SLEEP);
401 
402 	num_nodes = md_scan_dag(mdp, rootnode, md_find_name(mdp, "cpu"),
403 	    md_find_name(mdp, "fwd"), listp);
404 
405 	if (num_nodes <= 0)
406 		goto done;
407 
408 	for (i = 0; i < num_nodes; i++) {
409 		if (md_get_prop_val(mdp, listp[i], "id", &cpuid)) {
410 			cmn_err(CE_WARN, "cif_check_cpus: "
411 			    "CPU instance %d has no 'id' property", i);
412 			continue;
413 		}
414 
415 		mutex_enter(&cpu_lock);
416 
417 		if (cpuid >= NCPU) {
418 			status = stopcpu_bycpuid(cpuid);
419 			if (status != 0 && status != ENOTSUP)
420 				cmn_err(CE_PANIC, "failed to stop cpu %lu (%d)",
421 				    cpuid, status);
422 		}
423 
424 		mutex_exit(&cpu_lock);
425 	}
426 
427 done:
428 	kmem_free(listp, listsz);
429 	(void) md_fini_handle(mdp);
430 }
431 
432 void
433 cif_init(void)
434 {
435 	void (*kmdb_cb)(void);
436 	uint64_t rtba;
437 	uint64_t rv;
438 	size_t ntransroot;
439 	struct translation *transroot;
440 
441 	/*
442 	 * Check if domaining is enabled. If not, do not
443 	 * initialize the kernel CIF handler.
444 	 */
445 	if (!domaining_enabled())
446 		return;
447 
448 	transroot = read_prom_mappings(&ntransroot);
449 
450 	/*
451 	 * Cache PROM data that is needed later, e.g. a shadow
452 	 * copy of the device tree, IO mappings, etc.
453 	 */
454 	cache_prom_data();
455 
456 	/*
457 	 * Prepare to take over the get/set of environmental variables.
458 	 */
459 	promif_prop_init();
460 
461 	/*
462 	 * Switch CIF handler to the kernel.
463 	 */
464 	prom_cif_handler = cif_handler;
465 
466 	promif_preprom();
467 	cif_handler = kern_cif_handler;
468 
469 	/*
470 	 * Take over rtba for the boot CPU. The rtba for
471 	 * all other CPUs are set as they enter the system.
472 	 */
473 	rtba = va_to_pa(&trap_table);
474 	if ((rv = hv_cpu_set_rtba(&rtba)) != H_EOK)
475 		panic("hv_cpu_set_rtba failed: %ld\n", rv);
476 
477 	promif_postprom();
478 
479 	/*
480 	 * If the system has been booted with kmdb we need kmdb to
481 	 * use the kernel cif handler instead of the PROM cif handler.
482 	 */
483 	if (boothowto & RB_KMDB) {
484 		kmdb_cb = (void (*)(void))modlookup("misc/kmdbmod",
485 		    "kctl_switch_promif");
486 		ASSERT(kmdb_cb != NULL);
487 		(*kmdb_cb)();
488 	}
489 
490 	cif_check_cpus();
491 
492 	if (transroot != NULL)
493 		unmap_prom_mappings(transroot, ntransroot);
494 }
495 
496 static void
497 cache_prom_data(void)
498 {
499 	/* initialize copy of OBP device tree */
500 	promif_stree_init();
501 
502 	/* initialize io parameters */
503 	promif_io_init();
504 }
505 
506 #endif	/* _KMDB */
507