xref: /titanic_44/usr/src/uts/sun4u/boston/os/boston.c (revision f2f278521a1d65f81d30778b7bd252147b2d325f)
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 2006 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 #include <sys/param.h>
30 #include <sys/systm.h>
31 #include <sys/sysmacros.h>
32 #include <sys/sunddi.h>
33 #include <sys/esunddi.h>
34 
35 #include <sys/platform_module.h>
36 #include <sys/errno.h>
37 #include <sys/cpu_sgnblk_defs.h>
38 #include <sys/rmc_comm_dp.h>
39 #include <sys/rmc_comm_drvintf.h>
40 #include <sys/modctl.h>
41 #include <sys/lgrp.h>
42 #include <sys/memnode.h>
43 #include <sys/promif.h>
44 
45 #define	SHARED_MI2CV_PATH "/i2c@1f,520000"
46 static dev_info_t *shared_mi2cv_dip;
47 static kmutex_t mi2cv_mutex;
48 
49 int (*p2get_mem_unum)(int, uint64_t, char *, int, int *);
50 static void cpu_sgn_update(ushort_t, uchar_t, uchar_t, int);
51 int (*rmc_req_now)(rmc_comm_msg_t *, uint8_t) = NULL;
52 
53 void
54 startup_platform(void)
55 {
56 	mutex_init(&mi2cv_mutex, NULL, NULL, NULL);
57 }
58 
59 int
60 set_platform_tsb_spares()
61 {
62 	return (0);
63 }
64 
65 void
66 set_platform_defaults(void)
67 {
68 	extern char *tod_module_name;
69 	/* Set appropriate tod module */
70 	if (tod_module_name == NULL)
71 		tod_module_name = "todm5823";
72 
73 	cpu_sgn_func = cpu_sgn_update;
74 }
75 
76 /*
77  * Definitions for accessing the pci config space of the isa node
78  * of Southbridge.
79  */
80 static ddi_acc_handle_t isa_handle = NULL;	/* handle for isa pci space */
81 
82 /*
83  * Definition for accessing rmclomv
84  */
85 #define	RMCLOMV_PATHNAME	"/pseudo/rmclomv@0"
86 
87 void
88 load_platform_drivers(void)
89 {
90 	/*
91 	 * It is OK to return error because 'us' driver is not available
92 	 * in all clusters (e.g. missing in Core cluster).
93 	 */
94 	(void) i_ddi_attach_hw_nodes("us");
95 
96 
97 	/*
98 	 * mc-us3i must stay loaded for plat_get_mem_unum()
99 	 */
100 	if (i_ddi_attach_hw_nodes("mc-us3i") != DDI_SUCCESS)
101 		cmn_err(CE_WARN, "mc-us3i driver failed to install");
102 	(void) ddi_hold_driver(ddi_name_to_major("mc-us3i"));
103 
104 	/*
105 	 * load the power button driver
106 	 */
107 	if (i_ddi_attach_hw_nodes("power") != DDI_SUCCESS)
108 		cmn_err(CE_WARN, "power button driver failed to install");
109 	(void) ddi_hold_driver(ddi_name_to_major("power"));
110 
111 	/*
112 	 * load the GPIO driver for the ALOM reset and watchdog lines
113 	 */
114 	if (i_ddi_attach_hw_nodes("pmugpio") != DDI_SUCCESS)
115 		cmn_err(CE_WARN, "pmugpio failed to install");
116 	else {
117 		extern int watchdog_enable, watchdog_available;
118 		extern int disable_watchdog_on_exit;
119 
120 		/*
121 		 * Disable an active h/w watchdog timer upon exit to OBP.
122 		 */
123 		disable_watchdog_on_exit = 1;
124 
125 		watchdog_enable = 1;
126 		watchdog_available = 1;
127 	}
128 	(void) ddi_hold_driver(ddi_name_to_major("pmugpio"));
129 
130 	/*
131 	 * Figure out which mi2cv dip is shared with OBP for the nvram
132 	 * device, so the lock can be acquired.
133 	 */
134 	shared_mi2cv_dip = e_ddi_hold_devi_by_path(SHARED_MI2CV_PATH, 0);
135 
136 	/*
137 	 * Load the environmentals driver (rmclomv)
138 	 *
139 	 * We need this driver to handle events from the RMC when state
140 	 * changes occur in the environmental data.
141 	 */
142 	if (i_ddi_attach_hw_nodes("rmc_comm") != DDI_SUCCESS) {
143 		cmn_err(CE_WARN, "rmc_comm failed to install");
144 	} else {
145 		(void) ddi_hold_driver(ddi_name_to_major("rmc_comm"));
146 
147 		if (e_ddi_hold_devi_by_path(RMCLOMV_PATHNAME, 0) == NULL) {
148 			cmn_err(CE_WARN, "Could not install rmclomv driver\n");
149 		}
150 	}
151 	/*
152 	 * create a handle to the rmc_comm_request_nowait() function
153 	 * inside the rmc_comm module.
154 	 *
155 	 * The Seattle/Boston todm5823 driver will use this handle to
156 	 * use the rmc_comm_request_nowait() function to send time/date
157 	 * updates to ALOM.
158 	 */
159 	rmc_req_now = (int (*)(rmc_comm_msg_t *, uint8_t))
160 		modgetsymvalue("rmc_comm_request_nowait", 0);
161 }
162 
163 /*
164  * This routine is needed if a device error or timeout occurs before the
165  * driver is loaded.
166  */
167 /*ARGSUSED*/
168 int
169 plat_ide_chipreset(dev_info_t *dip, int chno)
170 {
171 	int	ret = DDI_SUCCESS;
172 
173 	if (isa_handle == NULL) {
174 		return (DDI_FAILURE);
175 	}
176 
177 	/*
178 	 * This will be filled in with the reset logic
179 	 * for the ULI1573 when that becomes available.
180 	 * currently this is just a stub.
181 	 */
182 	return (ret);
183 }
184 
185 
186 /*ARGSUSED*/
187 int
188 plat_cpu_poweron(struct cpu *cp)
189 {
190 	return (ENOTSUP);	/* not supported on this platform */
191 }
192 
193 /*ARGSUSED*/
194 int
195 plat_cpu_poweroff(struct cpu *cp)
196 {
197 	return (ENOTSUP);	/* not supported on this platform */
198 }
199 
200 /*ARGSUSED*/
201 void
202 plat_freelist_process(int mnode)
203 {
204 }
205 
206 char *platform_module_list[] = {
207 	"mi2cv",
208 	"pca9556",
209 	(char *)0
210 };
211 
212 /*ARGSUSED*/
213 void
214 plat_tod_fault(enum tod_fault_type tod_bad)
215 {
216 }
217 
218 /*ARGSUSED*/
219 int
220 plat_get_mem_unum(int synd_code, uint64_t flt_addr, int flt_bus_id,
221     int flt_in_memory, ushort_t flt_status, char *buf, int buflen, int *lenp)
222 {
223 	if (flt_in_memory && (p2get_mem_unum != NULL))
224 		return (p2get_mem_unum(synd_code, P2ALIGN(flt_addr, 8),
225 		    buf, buflen, lenp));
226 	else
227 		return (ENOTSUP);
228 }
229 
230 /*
231  * This platform hook gets called from mc_add_mem_unum_label() in the mc-us3i
232  * driver giving each platform the opportunity to add platform
233  * specific label information to the unum for ECC error logging purposes.
234  */
235 /*ARGSUSED*/
236 void
237 plat_add_mem_unum_label(char *unum, int mcid, int bank, int dimm)
238 {
239 	char old_unum[UNUM_NAMLEN];
240 	int printed;
241 	int buflen = UNUM_NAMLEN;
242 
243 	strcpy(old_unum, unum);
244 	printed = snprintf(unum, buflen, "MB/C%d/P0/B%d", mcid, bank);
245 	buflen -= printed;
246 	unum += printed;
247 
248 	if (dimm != -1) {
249 		printed = snprintf(unum, buflen, "/D%d", dimm);
250 		buflen -= printed;
251 		unum += printed;
252 	}
253 
254 	snprintf(unum, buflen, ": %s", old_unum);
255 }
256 
257 /*ARGSUSED*/
258 int
259 plat_get_cpu_unum(int cpuid, char *buf, int buflen, int *lenp)
260 {
261 	if (snprintf(buf, buflen, "MB/C%d", cpuid) >= buflen) {
262 		return (ENOSPC);
263 	} else {
264 		*lenp = strlen(buf);
265 		return (0);
266 	}
267 }
268 
269 /*
270  * Our nodename has been set, pass it along to the RMC.
271  */
272 void
273 plat_nodename_set(void)
274 {
275 	rmc_comm_msg_t	req;	/* request */
276 	int (*rmc_req_res)(rmc_comm_msg_t *, rmc_comm_msg_t *, time_t) = NULL;
277 
278 	/*
279 	 * find the symbol for the mailbox routine
280 	 */
281 	rmc_req_res = (int (*)(rmc_comm_msg_t *, rmc_comm_msg_t *, time_t))
282 		modgetsymvalue("rmc_comm_request_response", 0);
283 
284 	if (rmc_req_res == NULL) {
285 		return;
286 	}
287 
288 	/*
289 	 * construct the message telling the RMC our nodename
290 	 */
291 	req.msg_type = DP_SET_CPU_NODENAME;
292 	req.msg_len = strlen(utsname.nodename) + 1;
293 	req.msg_bytes = 0;
294 	req.msg_buf = (caddr_t)utsname.nodename;
295 
296 	/*
297 	 * ship it
298 	 */
299 	(void) (rmc_req_res)(&req, NULL, 2000);
300 }
301 
302 sig_state_t current_sgn;
303 
304 /*
305  * cpu signatures - we're only interested in the overall system
306  * "signature" on this platform - not individual cpu signatures
307  */
308 /*ARGSUSED*/
309 static void
310 cpu_sgn_update(ushort_t sig, uchar_t state, uchar_t sub_state, int cpuid)
311 {
312 	dp_cpu_signature_t signature;
313 	rmc_comm_msg_t	req;	/* request */
314 	int (*rmc_req_res)(rmc_comm_msg_t *, rmc_comm_msg_t *, time_t) = NULL;
315 	int (*rmc_req_now)(rmc_comm_msg_t *, uint8_t) = NULL;
316 
317 
318 	/*
319 	 * Differentiate a panic reboot from a non-panic reboot in the
320 	 * setting of the substate of the signature.
321 	 *
322 	 * If the new substate is REBOOT and we're rebooting due to a panic,
323 	 * then set the new substate to a special value indicating a panic
324 	 * reboot, SIGSUBST_PANIC_REBOOT.
325 	 *
326 	 * A panic reboot is detected by a current (previous) signature
327 	 * state of SIGST_EXIT, and a new signature substate of SIGSUBST_REBOOT.
328 	 * The domain signature state SIGST_EXIT is used as the panic flow
329 	 * progresses.
330 	 *
331 	 * At the end of the panic flow, the reboot occurs but we should know
332 	 * one that was involuntary, something that may be quite useful to know
333 	 * at OBP level.
334 	 */
335 	if (state == SIGST_EXIT && sub_state == SIGSUBST_REBOOT) {
336 		if (current_sgn.state_t.state == SIGST_EXIT &&
337 		    current_sgn.state_t.sub_state != SIGSUBST_REBOOT)
338 			sub_state = SIGSUBST_PANIC_REBOOT;
339 	}
340 
341 	/*
342 	 * offline and detached states only apply to a specific cpu
343 	 * so ignore them.
344 	 */
345 	if (state == SIGST_OFFLINE || state == SIGST_DETACHED) {
346 		return;
347 	}
348 
349 	current_sgn.signature = CPU_SIG_BLD(sig, state, sub_state);
350 
351 	/*
352 	 * find the symbol for the mailbox routine
353 	 */
354 	rmc_req_res = (int (*)(rmc_comm_msg_t *, rmc_comm_msg_t *, time_t))
355 		modgetsymvalue("rmc_comm_request_response", 0);
356 	if (rmc_req_res == NULL) {
357 		return;
358 	}
359 
360 	/*
361 	 * find the symbol for the mailbox routine
362 	 */
363 	rmc_req_now = (int (*)(rmc_comm_msg_t *, uint8_t))
364 		modgetsymvalue("rmc_comm_request_nowait", 0);
365 	if (rmc_req_now == NULL) {
366 		return;
367 	}
368 
369 	signature.cpu_id = -1;
370 	signature.sig = sig;
371 	signature.states = state;
372 	signature.sub_state = sub_state;
373 	req.msg_type = DP_SET_CPU_SIGNATURE;
374 	req.msg_len = (int)(sizeof (signature));
375 	req.msg_bytes = 0;
376 	req.msg_buf = (caddr_t)&signature;
377 
378 	/*
379 	 * ship it
380 	 * - note that for panic or reboot need to send with nowait/urgent
381 	 */
382 	if (state == SIGST_EXIT && (sub_state == SIGSUBST_HALT ||
383 	    sub_state == SIGSUBST_REBOOT || sub_state == SIGSUBST_ENVIRON ||
384 	    sub_state == SIGSUBST_PANIC_REBOOT))
385 		(void) (rmc_req_now)(&req, RMC_COMM_DREQ_URGENT);
386 	else
387 		(void) (rmc_req_now)(&req, 0);
388 }
389 
390 /*
391  * Fiesta support for lgroups.
392  *
393  * On fiesta platform, an lgroup platform handle == CPU id
394  */
395 
396 /*
397  * Macro for extracting the CPU number from the CPU id
398  */
399 #define	CPUID_TO_LGRP(id)	((id) & 0x7)
400 #define	PLATFORM_MC_SHIFT	36
401 
402 /*
403  * Return the platform handle for the lgroup containing the given CPU
404  */
405 void *
406 plat_lgrp_cpu_to_hand(processorid_t id)
407 {
408 	return ((void *)(uintptr_t)CPUID_TO_LGRP(id));
409 }
410 
411 /*
412  * Platform specific lgroup initialization
413  */
414 void
415 plat_lgrp_init(void)
416 {
417 	pnode_t		curnode;
418 	char		tmp_name[sizeof (OBP_CPU) + 1];  /* extra padding */
419 	int		portid;
420 	int		cpucnt = 0;
421 	int		max_portid = -1;
422 	extern uint32_t lgrp_expand_proc_thresh;
423 	extern uint32_t lgrp_expand_proc_diff;
424 	extern pgcnt_t	lgrp_mem_free_thresh;
425 	extern uint32_t lgrp_loadavg_tolerance;
426 	extern uint32_t lgrp_loadavg_max_effect;
427 	extern uint32_t lgrp_load_thresh;
428 	extern lgrp_mem_policy_t  lgrp_mem_policy_root;
429 
430 	/*
431 	 * Count the number of CPUs installed to determine if
432 	 * NUMA optimization should be enabled or not.
433 	 *
434 	 * All CPU nodes reside in the root node and have a
435 	 * device type "cpu".
436 	 */
437 	curnode = prom_rootnode();
438 	for (curnode = prom_childnode(curnode); curnode;
439 	    curnode = prom_nextnode(curnode)) {
440 		bzero(tmp_name,  sizeof (tmp_name));
441 		if (prom_bounded_getprop(curnode, OBP_DEVICETYPE, tmp_name,
442 		    sizeof (OBP_CPU)) == -1 || strcmp(tmp_name, OBP_CPU) != 0)
443 			continue;
444 
445 		cpucnt++;
446 
447 		if (prom_getprop(curnode, "portid", (caddr_t)&portid) !=
448 		    -1 && portid > max_portid)
449 			max_portid = portid;
450 	}
451 	if (cpucnt <= 1)
452 		max_mem_nodes = 1;
453 	else if (max_portid >= 0 && max_portid < MAX_MEM_NODES)
454 		max_mem_nodes = max_portid + 1;
455 
456 	/*
457 	 * Set tuneables for fiesta architecture
458 	 *
459 	 * lgrp_expand_proc_thresh is the minimum load on the lgroups
460 	 * this process is currently running on before considering
461 	 * expanding threads to another lgroup.
462 	 *
463 	 * lgrp_expand_proc_diff determines how much less the remote lgroup
464 	 * must be loaded before expanding to it.
465 	 *
466 	 * Optimize for memory bandwidth by spreading multi-threaded
467 	 * program to different lgroups.
468 	 */
469 	lgrp_expand_proc_thresh = lgrp_loadavg_max_effect - 1;
470 	lgrp_expand_proc_diff = lgrp_loadavg_max_effect / 2;
471 	lgrp_loadavg_tolerance = lgrp_loadavg_max_effect / 2;
472 	lgrp_mem_free_thresh = 1;	/* home lgrp must have some memory */
473 	lgrp_expand_proc_thresh = lgrp_loadavg_max_effect - 1;
474 	lgrp_mem_policy_root = LGRP_MEM_POLICY_NEXT;
475 	lgrp_load_thresh = 0;
476 
477 	mem_node_pfn_shift = PLATFORM_MC_SHIFT - MMU_PAGESHIFT;
478 }
479 
480 /*
481  * Return latency between "from" and "to" lgroups
482  *
483  * This latency number can only be used for relative comparison
484  * between lgroups on the running system, cannot be used across platforms,
485  * and may not reflect the actual latency.  It is platform and implementation
486  * specific, so platform gets to decide its value.  It would be nice if the
487  * number was at least proportional to make comparisons more meaningful though.
488  * NOTE: The numbers below are supposed to be load latencies for uncached
489  * memory divided by 10.
490  */
491 int
492 plat_lgrp_latency(void *from, void *to)
493 {
494 	/*
495 	 * Return remote latency when there are more than two lgroups
496 	 * (root and child) and getting latency between two different
497 	 * lgroups or root is involved
498 	 */
499 	if (lgrp_optimizations() && (from != to || from ==
500 	    (void *) LGRP_DEFAULT_HANDLE || to == (void *) LGRP_DEFAULT_HANDLE))
501 		return (17);
502 	else
503 		return (12);
504 }
505 
506 int
507 plat_pfn_to_mem_node(pfn_t pfn)
508 {
509 	ASSERT(max_mem_nodes > 1);
510 	return (pfn >> mem_node_pfn_shift);
511 }
512 
513 /*
514  * Assign memnode to lgroups
515  */
516 void
517 plat_fill_mc(pnode_t nodeid)
518 {
519 	int		portid;
520 
521 	/*
522 	 * Memory controller portid == global CPU id
523 	 */
524 	if ((prom_getprop(nodeid, "portid", (caddr_t)&portid) == -1) ||
525 	    (portid < 0))
526 		return;
527 
528 	if (portid < max_mem_nodes)
529 		plat_assign_lgrphand_to_mem_node((lgrp_handle_t)portid, portid);
530 }
531 
532 /* ARGSUSED */
533 void
534 plat_build_mem_nodes(u_longlong_t *list, size_t nelems)
535 {
536 	size_t	elem;
537 	pfn_t	basepfn;
538 	pgcnt_t	npgs;
539 
540 	/*
541 	 * Boot install lists are arranged <addr, len>, <addr, len>, ...
542 	 */
543 	for (elem = 0; elem < nelems; elem += 2) {
544 		basepfn = btop(list[elem]);
545 		npgs = btop(list[elem+1]);
546 		mem_node_add_slice(basepfn, basepfn + npgs - 1);
547 	}
548 }
549 
550 /*
551  * Common locking enter code
552  */
553 void
554 plat_setprop_enter(void)
555 {
556 	mutex_enter(&mi2cv_mutex);
557 }
558 
559 /*
560  * Common locking exit code
561  */
562 void
563 plat_setprop_exit(void)
564 {
565 	mutex_exit(&mi2cv_mutex);
566 }
567 
568 /*
569  * Called by mi2cv driver
570  */
571 void
572 plat_shared_i2c_enter(dev_info_t *i2cnexus_dip)
573 {
574 	if (i2cnexus_dip == shared_mi2cv_dip) {
575 		plat_setprop_enter();
576 	}
577 }
578 
579 /*
580  * Called by mi2cv driver
581  */
582 void
583 plat_shared_i2c_exit(dev_info_t *i2cnexus_dip)
584 {
585 	if (i2cnexus_dip == shared_mi2cv_dip) {
586 		plat_setprop_exit();
587 	}
588 }
589 
590 /*
591  * Called by todm5823 driver
592  */
593 void
594 plat_rmc_comm_req(struct rmc_comm_msg *request)
595 {
596 	if (rmc_req_now)
597 		(void) rmc_req_now(request, 0);
598 }
599