xref: /openbmc/qemu/hw/s390x/css.c (revision 135b03cb)
1 /*
2  * Channel subsystem base support.
3  *
4  * Copyright 2012 IBM Corp.
5  * Author(s): Cornelia Huck <cornelia.huck@de.ibm.com>
6  *
7  * This work is licensed under the terms of the GNU GPL, version 2 or (at
8  * your option) any later version. See the COPYING file in the top-level
9  * directory.
10  */
11 
12 #include "qemu/osdep.h"
13 #include "qapi/error.h"
14 #include "qapi/visitor.h"
15 #include "qemu/bitops.h"
16 #include "qemu/error-report.h"
17 #include "exec/address-spaces.h"
18 #include "cpu.h"
19 #include "hw/s390x/ioinst.h"
20 #include "hw/qdev-properties.h"
21 #include "hw/s390x/css.h"
22 #include "trace.h"
23 #include "hw/s390x/s390_flic.h"
24 #include "hw/s390x/s390-virtio-ccw.h"
25 #include "hw/s390x/s390-ccw.h"
26 
27 typedef struct CrwContainer {
28     CRW crw;
29     QTAILQ_ENTRY(CrwContainer) sibling;
30 } CrwContainer;
31 
32 static const VMStateDescription vmstate_crw = {
33     .name = "s390_crw",
34     .version_id = 1,
35     .minimum_version_id = 1,
36     .fields = (VMStateField[]) {
37         VMSTATE_UINT16(flags, CRW),
38         VMSTATE_UINT16(rsid, CRW),
39         VMSTATE_END_OF_LIST()
40     },
41 };
42 
43 static const VMStateDescription vmstate_crw_container = {
44     .name = "s390_crw_container",
45     .version_id = 1,
46     .minimum_version_id = 1,
47     .fields = (VMStateField[]) {
48         VMSTATE_STRUCT(crw, CrwContainer, 0, vmstate_crw, CRW),
49         VMSTATE_END_OF_LIST()
50     },
51 };
52 
53 typedef struct ChpInfo {
54     uint8_t in_use;
55     uint8_t type;
56     uint8_t is_virtual;
57 } ChpInfo;
58 
59 static const VMStateDescription vmstate_chp_info = {
60     .name = "s390_chp_info",
61     .version_id = 1,
62     .minimum_version_id = 1,
63     .fields = (VMStateField[]) {
64         VMSTATE_UINT8(in_use, ChpInfo),
65         VMSTATE_UINT8(type, ChpInfo),
66         VMSTATE_UINT8(is_virtual, ChpInfo),
67         VMSTATE_END_OF_LIST()
68     }
69 };
70 
71 typedef struct SubchSet {
72     SubchDev *sch[MAX_SCHID + 1];
73     unsigned long schids_used[BITS_TO_LONGS(MAX_SCHID + 1)];
74     unsigned long devnos_used[BITS_TO_LONGS(MAX_SCHID + 1)];
75 } SubchSet;
76 
77 static const VMStateDescription vmstate_scsw = {
78     .name = "s390_scsw",
79     .version_id = 1,
80     .minimum_version_id = 1,
81     .fields = (VMStateField[]) {
82         VMSTATE_UINT16(flags, SCSW),
83         VMSTATE_UINT16(ctrl, SCSW),
84         VMSTATE_UINT32(cpa, SCSW),
85         VMSTATE_UINT8(dstat, SCSW),
86         VMSTATE_UINT8(cstat, SCSW),
87         VMSTATE_UINT16(count, SCSW),
88         VMSTATE_END_OF_LIST()
89     }
90 };
91 
92 static const VMStateDescription vmstate_pmcw = {
93     .name = "s390_pmcw",
94     .version_id = 1,
95     .minimum_version_id = 1,
96     .fields = (VMStateField[]) {
97         VMSTATE_UINT32(intparm, PMCW),
98         VMSTATE_UINT16(flags, PMCW),
99         VMSTATE_UINT16(devno, PMCW),
100         VMSTATE_UINT8(lpm, PMCW),
101         VMSTATE_UINT8(pnom, PMCW),
102         VMSTATE_UINT8(lpum, PMCW),
103         VMSTATE_UINT8(pim, PMCW),
104         VMSTATE_UINT16(mbi, PMCW),
105         VMSTATE_UINT8(pom, PMCW),
106         VMSTATE_UINT8(pam, PMCW),
107         VMSTATE_UINT8_ARRAY(chpid, PMCW, 8),
108         VMSTATE_UINT32(chars, PMCW),
109         VMSTATE_END_OF_LIST()
110     }
111 };
112 
113 static const VMStateDescription vmstate_schib = {
114     .name = "s390_schib",
115     .version_id = 1,
116     .minimum_version_id = 1,
117     .fields = (VMStateField[]) {
118         VMSTATE_STRUCT(pmcw, SCHIB, 0, vmstate_pmcw, PMCW),
119         VMSTATE_STRUCT(scsw, SCHIB, 0, vmstate_scsw, SCSW),
120         VMSTATE_UINT64(mba, SCHIB),
121         VMSTATE_UINT8_ARRAY(mda, SCHIB, 4),
122         VMSTATE_END_OF_LIST()
123     }
124 };
125 
126 
127 static const VMStateDescription vmstate_ccw1 = {
128     .name = "s390_ccw1",
129     .version_id = 1,
130     .minimum_version_id = 1,
131     .fields = (VMStateField[]) {
132         VMSTATE_UINT8(cmd_code, CCW1),
133         VMSTATE_UINT8(flags, CCW1),
134         VMSTATE_UINT16(count, CCW1),
135         VMSTATE_UINT32(cda, CCW1),
136         VMSTATE_END_OF_LIST()
137     }
138 };
139 
140 static const VMStateDescription vmstate_ciw = {
141     .name = "s390_ciw",
142     .version_id = 1,
143     .minimum_version_id = 1,
144     .fields = (VMStateField[]) {
145         VMSTATE_UINT8(type, CIW),
146         VMSTATE_UINT8(command, CIW),
147         VMSTATE_UINT16(count, CIW),
148         VMSTATE_END_OF_LIST()
149     }
150 };
151 
152 static const VMStateDescription vmstate_sense_id = {
153     .name = "s390_sense_id",
154     .version_id = 1,
155     .minimum_version_id = 1,
156     .fields = (VMStateField[]) {
157         VMSTATE_UINT8(reserved, SenseId),
158         VMSTATE_UINT16(cu_type, SenseId),
159         VMSTATE_UINT8(cu_model, SenseId),
160         VMSTATE_UINT16(dev_type, SenseId),
161         VMSTATE_UINT8(dev_model, SenseId),
162         VMSTATE_UINT8(unused, SenseId),
163         VMSTATE_STRUCT_ARRAY(ciw, SenseId, MAX_CIWS, 0, vmstate_ciw, CIW),
164         VMSTATE_END_OF_LIST()
165     }
166 };
167 
168 static const VMStateDescription vmstate_orb = {
169     .name = "s390_orb",
170     .version_id = 1,
171     .minimum_version_id = 1,
172     .fields = (VMStateField[]) {
173         VMSTATE_UINT32(intparm, ORB),
174         VMSTATE_UINT16(ctrl0, ORB),
175         VMSTATE_UINT8(lpm, ORB),
176         VMSTATE_UINT8(ctrl1, ORB),
177         VMSTATE_UINT32(cpa, ORB),
178         VMSTATE_END_OF_LIST()
179     }
180 };
181 
182 static bool vmstate_schdev_orb_needed(void *opaque)
183 {
184     return css_migration_enabled();
185 }
186 
187 static const VMStateDescription vmstate_schdev_orb = {
188     .name = "s390_subch_dev/orb",
189     .version_id = 1,
190     .minimum_version_id = 1,
191     .needed = vmstate_schdev_orb_needed,
192     .fields = (VMStateField[]) {
193         VMSTATE_STRUCT(orb, SubchDev, 1, vmstate_orb, ORB),
194         VMSTATE_END_OF_LIST()
195     }
196 };
197 
198 static int subch_dev_post_load(void *opaque, int version_id);
199 static int subch_dev_pre_save(void *opaque);
200 
201 const char err_hint_devno[] = "Devno mismatch, tried to load wrong section!"
202     " Likely reason: some sequences of plug and unplug  can break"
203     " migration for machine versions prior to  2.7 (known design flaw).";
204 
205 const VMStateDescription vmstate_subch_dev = {
206     .name = "s390_subch_dev",
207     .version_id = 1,
208     .minimum_version_id = 1,
209     .post_load = subch_dev_post_load,
210     .pre_save = subch_dev_pre_save,
211     .fields = (VMStateField[]) {
212         VMSTATE_UINT8_EQUAL(cssid, SubchDev, "Bug!"),
213         VMSTATE_UINT8_EQUAL(ssid, SubchDev, "Bug!"),
214         VMSTATE_UINT16(migrated_schid, SubchDev),
215         VMSTATE_UINT16_EQUAL(devno, SubchDev, err_hint_devno),
216         VMSTATE_BOOL(thinint_active, SubchDev),
217         VMSTATE_STRUCT(curr_status, SubchDev, 0, vmstate_schib, SCHIB),
218         VMSTATE_UINT8_ARRAY(sense_data, SubchDev, 32),
219         VMSTATE_UINT64(channel_prog, SubchDev),
220         VMSTATE_STRUCT(last_cmd, SubchDev, 0, vmstate_ccw1, CCW1),
221         VMSTATE_BOOL(last_cmd_valid, SubchDev),
222         VMSTATE_STRUCT(id, SubchDev, 0, vmstate_sense_id, SenseId),
223         VMSTATE_BOOL(ccw_fmt_1, SubchDev),
224         VMSTATE_UINT8(ccw_no_data_cnt, SubchDev),
225         VMSTATE_END_OF_LIST()
226     },
227     .subsections = (const VMStateDescription * []) {
228         &vmstate_schdev_orb,
229         NULL
230     }
231 };
232 
233 typedef struct IndAddrPtrTmp {
234     IndAddr **parent;
235     uint64_t addr;
236     int32_t len;
237 } IndAddrPtrTmp;
238 
239 static int post_load_ind_addr(void *opaque, int version_id)
240 {
241     IndAddrPtrTmp *ptmp = opaque;
242     IndAddr **ind_addr = ptmp->parent;
243 
244     if (ptmp->len != 0) {
245         *ind_addr = get_indicator(ptmp->addr, ptmp->len);
246     } else {
247         *ind_addr = NULL;
248     }
249     return 0;
250 }
251 
252 static int pre_save_ind_addr(void *opaque)
253 {
254     IndAddrPtrTmp *ptmp = opaque;
255     IndAddr *ind_addr = *(ptmp->parent);
256 
257     if (ind_addr != NULL) {
258         ptmp->len = ind_addr->len;
259         ptmp->addr = ind_addr->addr;
260     } else {
261         ptmp->len = 0;
262         ptmp->addr = 0L;
263     }
264 
265     return 0;
266 }
267 
268 const VMStateDescription vmstate_ind_addr_tmp = {
269     .name = "s390_ind_addr_tmp",
270     .pre_save = pre_save_ind_addr,
271     .post_load = post_load_ind_addr,
272 
273     .fields = (VMStateField[]) {
274         VMSTATE_INT32(len, IndAddrPtrTmp),
275         VMSTATE_UINT64(addr, IndAddrPtrTmp),
276         VMSTATE_END_OF_LIST()
277     }
278 };
279 
280 const VMStateDescription vmstate_ind_addr = {
281     .name = "s390_ind_addr_tmp",
282     .fields = (VMStateField[]) {
283         VMSTATE_WITH_TMP(IndAddr*, IndAddrPtrTmp, vmstate_ind_addr_tmp),
284         VMSTATE_END_OF_LIST()
285     }
286 };
287 
288 typedef struct CssImage {
289     SubchSet *sch_set[MAX_SSID + 1];
290     ChpInfo chpids[MAX_CHPID + 1];
291 } CssImage;
292 
293 static const VMStateDescription vmstate_css_img = {
294     .name = "s390_css_img",
295     .version_id = 1,
296     .minimum_version_id = 1,
297     .fields = (VMStateField[]) {
298         /* Subchannel sets have no relevant state. */
299         VMSTATE_STRUCT_ARRAY(chpids, CssImage, MAX_CHPID + 1, 0,
300                              vmstate_chp_info, ChpInfo),
301         VMSTATE_END_OF_LIST()
302     }
303 
304 };
305 
306 typedef struct IoAdapter {
307     uint32_t id;
308     uint8_t type;
309     uint8_t isc;
310     uint8_t flags;
311 } IoAdapter;
312 
313 typedef struct ChannelSubSys {
314     QTAILQ_HEAD(, CrwContainer) pending_crws;
315     bool sei_pending;
316     bool do_crw_mchk;
317     bool crws_lost;
318     uint8_t max_cssid;
319     uint8_t max_ssid;
320     bool chnmon_active;
321     uint64_t chnmon_area;
322     CssImage *css[MAX_CSSID + 1];
323     uint8_t default_cssid;
324     /* don't migrate, see css_register_io_adapters */
325     IoAdapter *io_adapters[CSS_IO_ADAPTER_TYPE_NUMS][MAX_ISC + 1];
326     /* don't migrate, see get_indicator and IndAddrPtrTmp */
327     QTAILQ_HEAD(, IndAddr) indicator_addresses;
328 } ChannelSubSys;
329 
330 static const VMStateDescription vmstate_css = {
331     .name = "s390_css",
332     .version_id = 1,
333     .minimum_version_id = 1,
334     .fields = (VMStateField[]) {
335         VMSTATE_QTAILQ_V(pending_crws, ChannelSubSys, 1, vmstate_crw_container,
336                          CrwContainer, sibling),
337         VMSTATE_BOOL(sei_pending, ChannelSubSys),
338         VMSTATE_BOOL(do_crw_mchk, ChannelSubSys),
339         VMSTATE_BOOL(crws_lost, ChannelSubSys),
340         /* These were kind of migrated by virtio */
341         VMSTATE_UINT8(max_cssid, ChannelSubSys),
342         VMSTATE_UINT8(max_ssid, ChannelSubSys),
343         VMSTATE_BOOL(chnmon_active, ChannelSubSys),
344         VMSTATE_UINT64(chnmon_area, ChannelSubSys),
345         VMSTATE_ARRAY_OF_POINTER_TO_STRUCT(css, ChannelSubSys, MAX_CSSID + 1,
346                 0, vmstate_css_img, CssImage),
347         VMSTATE_UINT8(default_cssid, ChannelSubSys),
348         VMSTATE_END_OF_LIST()
349     }
350 };
351 
352 static ChannelSubSys channel_subsys = {
353     .pending_crws = QTAILQ_HEAD_INITIALIZER(channel_subsys.pending_crws),
354     .do_crw_mchk = true,
355     .sei_pending = false,
356     .do_crw_mchk = true,
357     .crws_lost = false,
358     .chnmon_active = false,
359     .indicator_addresses =
360         QTAILQ_HEAD_INITIALIZER(channel_subsys.indicator_addresses),
361 };
362 
363 static int subch_dev_pre_save(void *opaque)
364 {
365     SubchDev *s = opaque;
366 
367     /* Prepare remote_schid for save */
368     s->migrated_schid = s->schid;
369 
370     return 0;
371 }
372 
373 static int subch_dev_post_load(void *opaque, int version_id)
374 {
375 
376     SubchDev *s = opaque;
377 
378     /* Re-assign the subchannel to remote_schid if necessary */
379     if (s->migrated_schid != s->schid) {
380         if (css_find_subch(true, s->cssid, s->ssid, s->schid) == s) {
381             /*
382              * Cleanup the slot before moving to s->migrated_schid provided
383              * it still belongs to us, i.e. it was not changed by previous
384              * invocation of this function.
385              */
386             css_subch_assign(s->cssid, s->ssid, s->schid, s->devno, NULL);
387         }
388         /* It's OK to re-assign without a prior de-assign. */
389         s->schid = s->migrated_schid;
390         css_subch_assign(s->cssid, s->ssid, s->schid, s->devno, s);
391     }
392 
393     if (css_migration_enabled()) {
394         /* No compat voodoo to do ;) */
395         return 0;
396     }
397     /*
398      * Hack alert. If we don't migrate the channel subsystem status
399      * we still need to find out if the guest enabled mss/mcss-e.
400      * If the subchannel is enabled, it certainly was able to access it,
401      * so adjust the max_ssid/max_cssid values for relevant ssid/cssid
402      * values. This is not watertight, but better than nothing.
403      */
404     if (s->curr_status.pmcw.flags & PMCW_FLAGS_MASK_ENA) {
405         if (s->ssid) {
406             channel_subsys.max_ssid = MAX_SSID;
407         }
408         if (s->cssid != channel_subsys.default_cssid) {
409             channel_subsys.max_cssid = MAX_CSSID;
410         }
411     }
412     return 0;
413 }
414 
415 void css_register_vmstate(void)
416 {
417     vmstate_register(NULL, 0, &vmstate_css, &channel_subsys);
418 }
419 
420 IndAddr *get_indicator(hwaddr ind_addr, int len)
421 {
422     IndAddr *indicator;
423 
424     QTAILQ_FOREACH(indicator, &channel_subsys.indicator_addresses, sibling) {
425         if (indicator->addr == ind_addr) {
426             indicator->refcnt++;
427             return indicator;
428         }
429     }
430     indicator = g_new0(IndAddr, 1);
431     indicator->addr = ind_addr;
432     indicator->len = len;
433     indicator->refcnt = 1;
434     QTAILQ_INSERT_TAIL(&channel_subsys.indicator_addresses,
435                        indicator, sibling);
436     return indicator;
437 }
438 
439 static int s390_io_adapter_map(AdapterInfo *adapter, uint64_t map_addr,
440                                bool do_map)
441 {
442     S390FLICState *fs = s390_get_flic();
443     S390FLICStateClass *fsc = s390_get_flic_class(fs);
444 
445     return fsc->io_adapter_map(fs, adapter->adapter_id, map_addr, do_map);
446 }
447 
448 void release_indicator(AdapterInfo *adapter, IndAddr *indicator)
449 {
450     assert(indicator->refcnt > 0);
451     indicator->refcnt--;
452     if (indicator->refcnt > 0) {
453         return;
454     }
455     QTAILQ_REMOVE(&channel_subsys.indicator_addresses, indicator, sibling);
456     if (indicator->map) {
457         s390_io_adapter_map(adapter, indicator->map, false);
458     }
459     g_free(indicator);
460 }
461 
462 int map_indicator(AdapterInfo *adapter, IndAddr *indicator)
463 {
464     int ret;
465 
466     if (indicator->map) {
467         return 0; /* already mapped is not an error */
468     }
469     indicator->map = indicator->addr;
470     ret = s390_io_adapter_map(adapter, indicator->map, true);
471     if ((ret != 0) && (ret != -ENOSYS)) {
472         goto out_err;
473     }
474     return 0;
475 
476 out_err:
477     indicator->map = 0;
478     return ret;
479 }
480 
481 int css_create_css_image(uint8_t cssid, bool default_image)
482 {
483     trace_css_new_image(cssid, default_image ? "(default)" : "");
484     /* 255 is reserved */
485     if (cssid == 255) {
486         return -EINVAL;
487     }
488     if (channel_subsys.css[cssid]) {
489         return -EBUSY;
490     }
491     channel_subsys.css[cssid] = g_new0(CssImage, 1);
492     if (default_image) {
493         channel_subsys.default_cssid = cssid;
494     }
495     return 0;
496 }
497 
498 uint32_t css_get_adapter_id(CssIoAdapterType type, uint8_t isc)
499 {
500     if (type >= CSS_IO_ADAPTER_TYPE_NUMS || isc > MAX_ISC ||
501         !channel_subsys.io_adapters[type][isc]) {
502         return -1;
503     }
504 
505     return channel_subsys.io_adapters[type][isc]->id;
506 }
507 
508 /**
509  * css_register_io_adapters: Register I/O adapters per ISC during init
510  *
511  * @swap: an indication if byte swap is needed.
512  * @maskable: an indication if the adapter is subject to the mask operation.
513  * @flags: further characteristics of the adapter.
514  *         e.g. suppressible, an indication if the adapter is subject to AIS.
515  * @errp: location to store error information.
516  */
517 void css_register_io_adapters(CssIoAdapterType type, bool swap, bool maskable,
518                               uint8_t flags, Error **errp)
519 {
520     uint32_t id;
521     int ret, isc;
522     IoAdapter *adapter;
523     S390FLICState *fs = s390_get_flic();
524     S390FLICStateClass *fsc = s390_get_flic_class(fs);
525 
526     /*
527      * Disallow multiple registrations for the same device type.
528      * Report an error if registering for an already registered type.
529      */
530     if (channel_subsys.io_adapters[type][0]) {
531         error_setg(errp, "Adapters for type %d already registered", type);
532     }
533 
534     for (isc = 0; isc <= MAX_ISC; isc++) {
535         id = (type << 3) | isc;
536         ret = fsc->register_io_adapter(fs, id, isc, swap, maskable, flags);
537         if (ret == 0) {
538             adapter = g_new0(IoAdapter, 1);
539             adapter->id = id;
540             adapter->isc = isc;
541             adapter->type = type;
542             adapter->flags = flags;
543             channel_subsys.io_adapters[type][isc] = adapter;
544         } else {
545             error_setg_errno(errp, -ret, "Unexpected error %d when "
546                              "registering adapter %d", ret, id);
547             break;
548         }
549     }
550 
551     /*
552      * No need to free registered adapters in kvm: kvm will clean up
553      * when the machine goes away.
554      */
555     if (ret) {
556         for (isc--; isc >= 0; isc--) {
557             g_free(channel_subsys.io_adapters[type][isc]);
558             channel_subsys.io_adapters[type][isc] = NULL;
559         }
560     }
561 
562 }
563 
564 static void css_clear_io_interrupt(uint16_t subchannel_id,
565                                    uint16_t subchannel_nr)
566 {
567     Error *err = NULL;
568     static bool no_clear_irq;
569     S390FLICState *fs = s390_get_flic();
570     S390FLICStateClass *fsc = s390_get_flic_class(fs);
571     int r;
572 
573     if (unlikely(no_clear_irq)) {
574         return;
575     }
576     r = fsc->clear_io_irq(fs, subchannel_id, subchannel_nr);
577     switch (r) {
578     case 0:
579         break;
580     case -ENOSYS:
581         no_clear_irq = true;
582         /*
583         * Ignore unavailability, as the user can't do anything
584         * about it anyway.
585         */
586         break;
587     default:
588         error_setg_errno(&err, -r, "unexpected error condition");
589         error_propagate(&error_abort, err);
590     }
591 }
592 
593 static inline uint16_t css_do_build_subchannel_id(uint8_t cssid, uint8_t ssid)
594 {
595     if (channel_subsys.max_cssid > 0) {
596         return (cssid << 8) | (1 << 3) | (ssid << 1) | 1;
597     }
598     return (ssid << 1) | 1;
599 }
600 
601 uint16_t css_build_subchannel_id(SubchDev *sch)
602 {
603     return css_do_build_subchannel_id(sch->cssid, sch->ssid);
604 }
605 
606 void css_inject_io_interrupt(SubchDev *sch)
607 {
608     uint8_t isc = (sch->curr_status.pmcw.flags & PMCW_FLAGS_MASK_ISC) >> 11;
609 
610     trace_css_io_interrupt(sch->cssid, sch->ssid, sch->schid,
611                            sch->curr_status.pmcw.intparm, isc, "");
612     s390_io_interrupt(css_build_subchannel_id(sch),
613                       sch->schid,
614                       sch->curr_status.pmcw.intparm,
615                       isc << 27);
616 }
617 
618 void css_conditional_io_interrupt(SubchDev *sch)
619 {
620     /*
621      * If the subchannel is not enabled, it is not made status pending
622      * (see PoP p. 16-17, "Status Control").
623      */
624     if (!(sch->curr_status.pmcw.flags & PMCW_FLAGS_MASK_ENA)) {
625         return;
626     }
627 
628     /*
629      * If the subchannel is not currently status pending, make it pending
630      * with alert status.
631      */
632     if (!(sch->curr_status.scsw.ctrl & SCSW_STCTL_STATUS_PEND)) {
633         uint8_t isc = (sch->curr_status.pmcw.flags & PMCW_FLAGS_MASK_ISC) >> 11;
634 
635         trace_css_io_interrupt(sch->cssid, sch->ssid, sch->schid,
636                                sch->curr_status.pmcw.intparm, isc,
637                                "(unsolicited)");
638         sch->curr_status.scsw.ctrl &= ~SCSW_CTRL_MASK_STCTL;
639         sch->curr_status.scsw.ctrl |=
640             SCSW_STCTL_ALERT | SCSW_STCTL_STATUS_PEND;
641         /* Inject an I/O interrupt. */
642         s390_io_interrupt(css_build_subchannel_id(sch),
643                           sch->schid,
644                           sch->curr_status.pmcw.intparm,
645                           isc << 27);
646     }
647 }
648 
649 int css_do_sic(CPUS390XState *env, uint8_t isc, uint16_t mode)
650 {
651     S390FLICState *fs = s390_get_flic();
652     S390FLICStateClass *fsc = s390_get_flic_class(fs);
653     int r;
654 
655     if (env->psw.mask & PSW_MASK_PSTATE) {
656         r = -PGM_PRIVILEGED;
657         goto out;
658     }
659 
660     trace_css_do_sic(mode, isc);
661     switch (mode) {
662     case SIC_IRQ_MODE_ALL:
663     case SIC_IRQ_MODE_SINGLE:
664         break;
665     default:
666         r = -PGM_OPERAND;
667         goto out;
668     }
669 
670     r = fsc->modify_ais_mode(fs, isc, mode) ? -PGM_OPERATION : 0;
671 out:
672     return r;
673 }
674 
675 void css_adapter_interrupt(CssIoAdapterType type, uint8_t isc)
676 {
677     S390FLICState *fs = s390_get_flic();
678     S390FLICStateClass *fsc = s390_get_flic_class(fs);
679     uint32_t io_int_word = (isc << 27) | IO_INT_WORD_AI;
680     IoAdapter *adapter = channel_subsys.io_adapters[type][isc];
681 
682     if (!adapter) {
683         return;
684     }
685 
686     trace_css_adapter_interrupt(isc);
687     if (fs->ais_supported) {
688         if (fsc->inject_airq(fs, type, isc, adapter->flags)) {
689             error_report("Failed to inject airq with AIS supported");
690             exit(1);
691         }
692     } else {
693         s390_io_interrupt(0, 0, 0, io_int_word);
694     }
695 }
696 
697 static void sch_handle_clear_func(SubchDev *sch)
698 {
699     SCHIB *schib = &sch->curr_status;
700     int path;
701 
702     /* Path management: In our simple css, we always choose the only path. */
703     path = 0x80;
704 
705     /* Reset values prior to 'issuing the clear signal'. */
706     schib->pmcw.lpum = 0;
707     schib->pmcw.pom = 0xff;
708     schib->scsw.flags &= ~SCSW_FLAGS_MASK_PNO;
709 
710     /* We always 'attempt to issue the clear signal', and we always succeed. */
711     sch->channel_prog = 0x0;
712     sch->last_cmd_valid = false;
713     schib->scsw.ctrl &= ~SCSW_ACTL_CLEAR_PEND;
714     schib->scsw.ctrl |= SCSW_STCTL_STATUS_PEND;
715 
716     schib->scsw.dstat = 0;
717     schib->scsw.cstat = 0;
718     schib->pmcw.lpum = path;
719 
720 }
721 
722 static void sch_handle_halt_func(SubchDev *sch)
723 {
724     SCHIB *schib = &sch->curr_status;
725     hwaddr curr_ccw = sch->channel_prog;
726     int path;
727 
728     /* Path management: In our simple css, we always choose the only path. */
729     path = 0x80;
730 
731     /* We always 'attempt to issue the halt signal', and we always succeed. */
732     sch->channel_prog = 0x0;
733     sch->last_cmd_valid = false;
734     schib->scsw.ctrl &= ~SCSW_ACTL_HALT_PEND;
735     schib->scsw.ctrl |= SCSW_STCTL_STATUS_PEND;
736 
737     if ((schib->scsw.ctrl & (SCSW_ACTL_SUBCH_ACTIVE |
738                              SCSW_ACTL_DEVICE_ACTIVE)) ||
739         !((schib->scsw.ctrl & SCSW_ACTL_START_PEND) ||
740           (schib->scsw.ctrl & SCSW_ACTL_SUSP))) {
741         schib->scsw.dstat = SCSW_DSTAT_DEVICE_END;
742     }
743     if ((schib->scsw.ctrl & (SCSW_ACTL_SUBCH_ACTIVE |
744                              SCSW_ACTL_DEVICE_ACTIVE)) ||
745         (schib->scsw.ctrl & SCSW_ACTL_SUSP)) {
746         schib->scsw.cpa = curr_ccw + 8;
747     }
748     schib->scsw.cstat = 0;
749     schib->pmcw.lpum = path;
750 
751 }
752 
753 /*
754  * As the SenseId struct cannot be packed (would cause unaligned accesses), we
755  * have to copy the individual fields to an unstructured area using the correct
756  * layout (see SA22-7204-01 "Common I/O-Device Commands").
757  */
758 static void copy_sense_id_to_guest(uint8_t *dest, SenseId *src)
759 {
760     int i;
761 
762     dest[0] = src->reserved;
763     stw_be_p(dest + 1, src->cu_type);
764     dest[3] = src->cu_model;
765     stw_be_p(dest + 4, src->dev_type);
766     dest[6] = src->dev_model;
767     dest[7] = src->unused;
768     for (i = 0; i < ARRAY_SIZE(src->ciw); i++) {
769         dest[8 + i * 4] = src->ciw[i].type;
770         dest[9 + i * 4] = src->ciw[i].command;
771         stw_be_p(dest + 10 + i * 4, src->ciw[i].count);
772     }
773 }
774 
775 static CCW1 copy_ccw_from_guest(hwaddr addr, bool fmt1)
776 {
777     CCW0 tmp0;
778     CCW1 tmp1;
779     CCW1 ret;
780 
781     if (fmt1) {
782         cpu_physical_memory_read(addr, &tmp1, sizeof(tmp1));
783         ret.cmd_code = tmp1.cmd_code;
784         ret.flags = tmp1.flags;
785         ret.count = be16_to_cpu(tmp1.count);
786         ret.cda = be32_to_cpu(tmp1.cda);
787     } else {
788         cpu_physical_memory_read(addr, &tmp0, sizeof(tmp0));
789         if ((tmp0.cmd_code & 0x0f) == CCW_CMD_TIC) {
790             ret.cmd_code = CCW_CMD_TIC;
791             ret.flags = 0;
792             ret.count = 0;
793         } else {
794             ret.cmd_code = tmp0.cmd_code;
795             ret.flags = tmp0.flags;
796             ret.count = be16_to_cpu(tmp0.count);
797         }
798         ret.cda = be16_to_cpu(tmp0.cda1) | (tmp0.cda0 << 16);
799     }
800     return ret;
801 }
802 /**
803  * If out of bounds marks the stream broken. If broken returns -EINVAL,
804  * otherwise the requested length (may be zero)
805  */
806 static inline int cds_check_len(CcwDataStream *cds, int len)
807 {
808     if (cds->at_byte + len > cds->count) {
809         cds->flags |= CDS_F_STREAM_BROKEN;
810     }
811     return cds->flags & CDS_F_STREAM_BROKEN ? -EINVAL : len;
812 }
813 
814 static inline bool cds_ccw_addrs_ok(hwaddr addr, int len, bool ccw_fmt1)
815 {
816     return (addr + len) < (ccw_fmt1 ? (1UL << 31) : (1UL << 24));
817 }
818 
819 static int ccw_dstream_rw_noflags(CcwDataStream *cds, void *buff, int len,
820                                   CcwDataStreamOp op)
821 {
822     int ret;
823 
824     ret = cds_check_len(cds, len);
825     if (ret <= 0) {
826         return ret;
827     }
828     if (!cds_ccw_addrs_ok(cds->cda, len, cds->flags & CDS_F_FMT)) {
829         return -EINVAL; /* channel program check */
830     }
831     if (op == CDS_OP_A) {
832         goto incr;
833     }
834     if (!cds->do_skip) {
835         ret = address_space_rw(&address_space_memory, cds->cda,
836                                MEMTXATTRS_UNSPECIFIED, buff, len, op);
837     } else {
838         ret = MEMTX_OK;
839     }
840     if (ret != MEMTX_OK) {
841         cds->flags |= CDS_F_STREAM_BROKEN;
842         return -EINVAL;
843     }
844 incr:
845     cds->at_byte += len;
846     cds->cda += len;
847     return 0;
848 }
849 
850 /* returns values between 1 and bsz, where bsz is a power of 2 */
851 static inline uint16_t ida_continuous_left(hwaddr cda, uint64_t bsz)
852 {
853     return bsz - (cda & (bsz - 1));
854 }
855 
856 static inline uint64_t ccw_ida_block_size(uint8_t flags)
857 {
858     if ((flags & CDS_F_C64) && !(flags & CDS_F_I2K)) {
859         return 1ULL << 12;
860     }
861     return 1ULL << 11;
862 }
863 
864 static inline int ida_read_next_idaw(CcwDataStream *cds)
865 {
866     union {uint64_t fmt2; uint32_t fmt1; } idaw;
867     int ret;
868     hwaddr idaw_addr;
869     bool idaw_fmt2 = cds->flags & CDS_F_C64;
870     bool ccw_fmt1 = cds->flags & CDS_F_FMT;
871 
872     if (idaw_fmt2) {
873         idaw_addr = cds->cda_orig + sizeof(idaw.fmt2) * cds->at_idaw;
874         if (idaw_addr & 0x07 || !cds_ccw_addrs_ok(idaw_addr, 0, ccw_fmt1)) {
875             return -EINVAL; /* channel program check */
876         }
877         ret = address_space_rw(&address_space_memory, idaw_addr,
878                                MEMTXATTRS_UNSPECIFIED, (void *) &idaw.fmt2,
879                                sizeof(idaw.fmt2), false);
880         cds->cda = be64_to_cpu(idaw.fmt2);
881     } else {
882         idaw_addr = cds->cda_orig + sizeof(idaw.fmt1) * cds->at_idaw;
883         if (idaw_addr & 0x03 || !cds_ccw_addrs_ok(idaw_addr, 0, ccw_fmt1)) {
884             return -EINVAL; /* channel program check */
885         }
886         ret = address_space_rw(&address_space_memory, idaw_addr,
887                                MEMTXATTRS_UNSPECIFIED, (void *) &idaw.fmt1,
888                                sizeof(idaw.fmt1), false);
889         cds->cda = be64_to_cpu(idaw.fmt1);
890         if (cds->cda & 0x80000000) {
891             return -EINVAL; /* channel program check */
892         }
893     }
894     ++(cds->at_idaw);
895     if (ret != MEMTX_OK) {
896         /* assume inaccessible address */
897         return -EINVAL; /* channel program check */
898     }
899     return 0;
900 }
901 
902 static int ccw_dstream_rw_ida(CcwDataStream *cds, void *buff, int len,
903                               CcwDataStreamOp op)
904 {
905     uint64_t bsz = ccw_ida_block_size(cds->flags);
906     int ret = 0;
907     uint16_t cont_left, iter_len;
908 
909     ret = cds_check_len(cds, len);
910     if (ret <= 0) {
911         return ret;
912     }
913     if (!cds->at_idaw) {
914         /* read first idaw */
915         ret = ida_read_next_idaw(cds);
916         if (ret) {
917             goto err;
918         }
919         cont_left = ida_continuous_left(cds->cda, bsz);
920     } else {
921         cont_left = ida_continuous_left(cds->cda, bsz);
922         if (cont_left == bsz) {
923             ret = ida_read_next_idaw(cds);
924             if (ret) {
925                 goto err;
926             }
927             if (cds->cda & (bsz - 1)) {
928                 ret = -EINVAL; /* channel program check */
929                 goto err;
930             }
931         }
932     }
933     do {
934         iter_len = MIN(len, cont_left);
935         if (op != CDS_OP_A) {
936             if (!cds->do_skip) {
937                 ret = address_space_rw(&address_space_memory, cds->cda,
938                                        MEMTXATTRS_UNSPECIFIED, buff, iter_len,
939                                        op);
940             } else {
941                 ret = MEMTX_OK;
942             }
943             if (ret != MEMTX_OK) {
944                 /* assume inaccessible address */
945                 ret = -EINVAL; /* channel program check */
946                 goto err;
947             }
948         }
949         cds->at_byte += iter_len;
950         cds->cda += iter_len;
951         len -= iter_len;
952         if (!len) {
953             break;
954         }
955         ret = ida_read_next_idaw(cds);
956         if (ret) {
957             goto err;
958         }
959         cont_left = bsz;
960     } while (true);
961     return ret;
962 err:
963     cds->flags |= CDS_F_STREAM_BROKEN;
964     return ret;
965 }
966 
967 void ccw_dstream_init(CcwDataStream *cds, CCW1 const *ccw, ORB const *orb)
968 {
969     /*
970      * We don't support MIDA (an optional facility) yet and we
971      * catch this earlier. Just for expressing the precondition.
972      */
973     g_assert(!(orb->ctrl1 & ORB_CTRL1_MASK_MIDAW));
974     cds->flags = (orb->ctrl0 & ORB_CTRL0_MASK_I2K ? CDS_F_I2K : 0) |
975                  (orb->ctrl0 & ORB_CTRL0_MASK_C64 ? CDS_F_C64 : 0) |
976                  (orb->ctrl0 & ORB_CTRL0_MASK_FMT ? CDS_F_FMT : 0) |
977                  (ccw->flags & CCW_FLAG_IDA ? CDS_F_IDA : 0);
978 
979     cds->count = ccw->count;
980     cds->cda_orig = ccw->cda;
981     /* skip is only effective for read, read backwards, or sense commands */
982     cds->do_skip = (ccw->flags & CCW_FLAG_SKIP) &&
983         ((ccw->cmd_code & 0x0f) == CCW_CMD_BASIC_SENSE ||
984          (ccw->cmd_code & 0x03) == 0x02 /* read */ ||
985          (ccw->cmd_code & 0x0f) == 0x0c /* read backwards */);
986     ccw_dstream_rewind(cds);
987     if (!(cds->flags & CDS_F_IDA)) {
988         cds->op_handler = ccw_dstream_rw_noflags;
989     } else {
990         cds->op_handler = ccw_dstream_rw_ida;
991     }
992 }
993 
994 static int css_interpret_ccw(SubchDev *sch, hwaddr ccw_addr,
995                              bool suspend_allowed)
996 {
997     int ret;
998     bool check_len;
999     int len;
1000     CCW1 ccw;
1001 
1002     if (!ccw_addr) {
1003         return -EINVAL; /* channel-program check */
1004     }
1005     /* Check doubleword aligned and 31 or 24 (fmt 0) bit addressable. */
1006     if (ccw_addr & (sch->ccw_fmt_1 ? 0x80000007 : 0xff000007)) {
1007         return -EINVAL;
1008     }
1009 
1010     /* Translate everything to format-1 ccws - the information is the same. */
1011     ccw = copy_ccw_from_guest(ccw_addr, sch->ccw_fmt_1);
1012 
1013     /* Check for invalid command codes. */
1014     if ((ccw.cmd_code & 0x0f) == 0) {
1015         return -EINVAL;
1016     }
1017     if (((ccw.cmd_code & 0x0f) == CCW_CMD_TIC) &&
1018         ((ccw.cmd_code & 0xf0) != 0)) {
1019         return -EINVAL;
1020     }
1021     if (!sch->ccw_fmt_1 && (ccw.count == 0) &&
1022         (ccw.cmd_code != CCW_CMD_TIC)) {
1023         return -EINVAL;
1024     }
1025 
1026     /* We don't support MIDA. */
1027     if (ccw.flags & CCW_FLAG_MIDA) {
1028         return -EINVAL;
1029     }
1030 
1031     if (ccw.flags & CCW_FLAG_SUSPEND) {
1032         return suspend_allowed ? -EINPROGRESS : -EINVAL;
1033     }
1034 
1035     check_len = !((ccw.flags & CCW_FLAG_SLI) && !(ccw.flags & CCW_FLAG_DC));
1036 
1037     if (!ccw.cda) {
1038         if (sch->ccw_no_data_cnt == 255) {
1039             return -EINVAL;
1040         }
1041         sch->ccw_no_data_cnt++;
1042     }
1043 
1044     /* Look at the command. */
1045     ccw_dstream_init(&sch->cds, &ccw, &(sch->orb));
1046     switch (ccw.cmd_code) {
1047     case CCW_CMD_NOOP:
1048         /* Nothing to do. */
1049         ret = 0;
1050         break;
1051     case CCW_CMD_BASIC_SENSE:
1052         if (check_len) {
1053             if (ccw.count != sizeof(sch->sense_data)) {
1054                 ret = -EINVAL;
1055                 break;
1056             }
1057         }
1058         len = MIN(ccw.count, sizeof(sch->sense_data));
1059         ccw_dstream_write_buf(&sch->cds, sch->sense_data, len);
1060         sch->curr_status.scsw.count = ccw_dstream_residual_count(&sch->cds);
1061         memset(sch->sense_data, 0, sizeof(sch->sense_data));
1062         ret = 0;
1063         break;
1064     case CCW_CMD_SENSE_ID:
1065     {
1066         /* According to SA22-7204-01, Sense-ID can store up to 256 bytes */
1067         uint8_t sense_id[256];
1068 
1069         copy_sense_id_to_guest(sense_id, &sch->id);
1070         /* Sense ID information is device specific. */
1071         if (check_len) {
1072             if (ccw.count != sizeof(sense_id)) {
1073                 ret = -EINVAL;
1074                 break;
1075             }
1076         }
1077         len = MIN(ccw.count, sizeof(sense_id));
1078         /*
1079          * Only indicate 0xff in the first sense byte if we actually
1080          * have enough place to store at least bytes 0-3.
1081          */
1082         if (len >= 4) {
1083             sense_id[0] = 0xff;
1084         } else {
1085             sense_id[0] = 0;
1086         }
1087         ccw_dstream_write_buf(&sch->cds, sense_id, len);
1088         sch->curr_status.scsw.count = ccw_dstream_residual_count(&sch->cds);
1089         ret = 0;
1090         break;
1091     }
1092     case CCW_CMD_TIC:
1093         if (sch->last_cmd_valid && (sch->last_cmd.cmd_code == CCW_CMD_TIC)) {
1094             ret = -EINVAL;
1095             break;
1096         }
1097         if (ccw.flags || ccw.count) {
1098             /* We have already sanitized these if converted from fmt 0. */
1099             ret = -EINVAL;
1100             break;
1101         }
1102         sch->channel_prog = ccw.cda;
1103         ret = -EAGAIN;
1104         break;
1105     default:
1106         if (sch->ccw_cb) {
1107             /* Handle device specific commands. */
1108             ret = sch->ccw_cb(sch, ccw);
1109         } else {
1110             ret = -ENOSYS;
1111         }
1112         break;
1113     }
1114     sch->last_cmd = ccw;
1115     sch->last_cmd_valid = true;
1116     if (ret == 0) {
1117         if (ccw.flags & CCW_FLAG_CC) {
1118             sch->channel_prog += 8;
1119             ret = -EAGAIN;
1120         }
1121     }
1122 
1123     return ret;
1124 }
1125 
1126 static void sch_handle_start_func_virtual(SubchDev *sch)
1127 {
1128     SCHIB *schib = &sch->curr_status;
1129     int path;
1130     int ret;
1131     bool suspend_allowed;
1132 
1133     /* Path management: In our simple css, we always choose the only path. */
1134     path = 0x80;
1135 
1136     if (!(schib->scsw.ctrl & SCSW_ACTL_SUSP)) {
1137         /* Start Function triggered via ssch, i.e. we have an ORB */
1138         ORB *orb = &sch->orb;
1139         schib->scsw.cstat = 0;
1140         schib->scsw.dstat = 0;
1141         /* Look at the orb and try to execute the channel program. */
1142         schib->pmcw.intparm = orb->intparm;
1143         if (!(orb->lpm & path)) {
1144             /* Generate a deferred cc 3 condition. */
1145             schib->scsw.flags |= SCSW_FLAGS_MASK_CC;
1146             schib->scsw.ctrl &= ~SCSW_CTRL_MASK_STCTL;
1147             schib->scsw.ctrl |= (SCSW_STCTL_ALERT | SCSW_STCTL_STATUS_PEND);
1148             return;
1149         }
1150         sch->ccw_fmt_1 = !!(orb->ctrl0 & ORB_CTRL0_MASK_FMT);
1151         schib->scsw.flags |= (sch->ccw_fmt_1) ? SCSW_FLAGS_MASK_FMT : 0;
1152         sch->ccw_no_data_cnt = 0;
1153         suspend_allowed = !!(orb->ctrl0 & ORB_CTRL0_MASK_SPND);
1154     } else {
1155         /* Start Function resumed via rsch */
1156         schib->scsw.ctrl &= ~(SCSW_ACTL_SUSP | SCSW_ACTL_RESUME_PEND);
1157         /* The channel program had been suspended before. */
1158         suspend_allowed = true;
1159     }
1160     sch->last_cmd_valid = false;
1161     do {
1162         ret = css_interpret_ccw(sch, sch->channel_prog, suspend_allowed);
1163         switch (ret) {
1164         case -EAGAIN:
1165             /* ccw chain, continue processing */
1166             break;
1167         case 0:
1168             /* success */
1169             schib->scsw.ctrl &= ~SCSW_ACTL_START_PEND;
1170             schib->scsw.ctrl &= ~SCSW_CTRL_MASK_STCTL;
1171             schib->scsw.ctrl |= SCSW_STCTL_PRIMARY | SCSW_STCTL_SECONDARY |
1172                     SCSW_STCTL_STATUS_PEND;
1173             schib->scsw.dstat = SCSW_DSTAT_CHANNEL_END | SCSW_DSTAT_DEVICE_END;
1174             schib->scsw.cpa = sch->channel_prog + 8;
1175             break;
1176         case -EIO:
1177             /* I/O errors, status depends on specific devices */
1178             break;
1179         case -ENOSYS:
1180             /* unsupported command, generate unit check (command reject) */
1181             schib->scsw.ctrl &= ~SCSW_ACTL_START_PEND;
1182             schib->scsw.dstat = SCSW_DSTAT_UNIT_CHECK;
1183             /* Set sense bit 0 in ecw0. */
1184             sch->sense_data[0] = 0x80;
1185             schib->scsw.ctrl &= ~SCSW_CTRL_MASK_STCTL;
1186             schib->scsw.ctrl |= SCSW_STCTL_PRIMARY | SCSW_STCTL_SECONDARY |
1187                     SCSW_STCTL_ALERT | SCSW_STCTL_STATUS_PEND;
1188             schib->scsw.cpa = sch->channel_prog + 8;
1189             break;
1190         case -EINPROGRESS:
1191             /* channel program has been suspended */
1192             schib->scsw.ctrl &= ~SCSW_ACTL_START_PEND;
1193             schib->scsw.ctrl |= SCSW_ACTL_SUSP;
1194             break;
1195         default:
1196             /* error, generate channel program check */
1197             schib->scsw.ctrl &= ~SCSW_ACTL_START_PEND;
1198             schib->scsw.cstat = SCSW_CSTAT_PROG_CHECK;
1199             schib->scsw.ctrl &= ~SCSW_CTRL_MASK_STCTL;
1200             schib->scsw.ctrl |= SCSW_STCTL_PRIMARY | SCSW_STCTL_SECONDARY |
1201                     SCSW_STCTL_ALERT | SCSW_STCTL_STATUS_PEND;
1202             schib->scsw.cpa = sch->channel_prog + 8;
1203             break;
1204         }
1205     } while (ret == -EAGAIN);
1206 
1207 }
1208 
1209 static void sch_handle_halt_func_passthrough(SubchDev *sch)
1210 {
1211     int ret;
1212 
1213     ret = s390_ccw_halt(sch);
1214     if (ret == -ENOSYS) {
1215         sch_handle_halt_func(sch);
1216     }
1217 }
1218 
1219 static void sch_handle_clear_func_passthrough(SubchDev *sch)
1220 {
1221     int ret;
1222 
1223     ret = s390_ccw_clear(sch);
1224     if (ret == -ENOSYS) {
1225         sch_handle_clear_func(sch);
1226     }
1227 }
1228 
1229 static IOInstEnding sch_handle_start_func_passthrough(SubchDev *sch)
1230 {
1231     SCHIB *schib = &sch->curr_status;
1232     ORB *orb = &sch->orb;
1233     if (!(schib->scsw.ctrl & SCSW_ACTL_SUSP)) {
1234         assert(orb != NULL);
1235         schib->pmcw.intparm = orb->intparm;
1236     }
1237     return s390_ccw_cmd_request(sch);
1238 }
1239 
1240 /*
1241  * On real machines, this would run asynchronously to the main vcpus.
1242  * We might want to make some parts of the ssch handling (interpreting
1243  * read/writes) asynchronous later on if we start supporting more than
1244  * our current very simple devices.
1245  */
1246 IOInstEnding do_subchannel_work_virtual(SubchDev *sch)
1247 {
1248     SCHIB *schib = &sch->curr_status;
1249 
1250     if (schib->scsw.ctrl & SCSW_FCTL_CLEAR_FUNC) {
1251         sch_handle_clear_func(sch);
1252     } else if (schib->scsw.ctrl & SCSW_FCTL_HALT_FUNC) {
1253         sch_handle_halt_func(sch);
1254     } else if (schib->scsw.ctrl & SCSW_FCTL_START_FUNC) {
1255         /* Triggered by both ssch and rsch. */
1256         sch_handle_start_func_virtual(sch);
1257     }
1258     css_inject_io_interrupt(sch);
1259     /* inst must succeed if this func is called */
1260     return IOINST_CC_EXPECTED;
1261 }
1262 
1263 IOInstEnding do_subchannel_work_passthrough(SubchDev *sch)
1264 {
1265     SCHIB *schib = &sch->curr_status;
1266 
1267     if (schib->scsw.ctrl & SCSW_FCTL_CLEAR_FUNC) {
1268         sch_handle_clear_func_passthrough(sch);
1269     } else if (schib->scsw.ctrl & SCSW_FCTL_HALT_FUNC) {
1270         sch_handle_halt_func_passthrough(sch);
1271     } else if (schib->scsw.ctrl & SCSW_FCTL_START_FUNC) {
1272         return sch_handle_start_func_passthrough(sch);
1273     }
1274     return IOINST_CC_EXPECTED;
1275 }
1276 
1277 static IOInstEnding do_subchannel_work(SubchDev *sch)
1278 {
1279     if (!sch->do_subchannel_work) {
1280         return IOINST_CC_STATUS_PRESENT;
1281     }
1282     g_assert(sch->curr_status.scsw.ctrl & SCSW_CTRL_MASK_FCTL);
1283     return sch->do_subchannel_work(sch);
1284 }
1285 
1286 static void copy_pmcw_to_guest(PMCW *dest, const PMCW *src)
1287 {
1288     int i;
1289 
1290     dest->intparm = cpu_to_be32(src->intparm);
1291     dest->flags = cpu_to_be16(src->flags);
1292     dest->devno = cpu_to_be16(src->devno);
1293     dest->lpm = src->lpm;
1294     dest->pnom = src->pnom;
1295     dest->lpum = src->lpum;
1296     dest->pim = src->pim;
1297     dest->mbi = cpu_to_be16(src->mbi);
1298     dest->pom = src->pom;
1299     dest->pam = src->pam;
1300     for (i = 0; i < ARRAY_SIZE(dest->chpid); i++) {
1301         dest->chpid[i] = src->chpid[i];
1302     }
1303     dest->chars = cpu_to_be32(src->chars);
1304 }
1305 
1306 void copy_scsw_to_guest(SCSW *dest, const SCSW *src)
1307 {
1308     dest->flags = cpu_to_be16(src->flags);
1309     dest->ctrl = cpu_to_be16(src->ctrl);
1310     dest->cpa = cpu_to_be32(src->cpa);
1311     dest->dstat = src->dstat;
1312     dest->cstat = src->cstat;
1313     dest->count = cpu_to_be16(src->count);
1314 }
1315 
1316 static void copy_schib_to_guest(SCHIB *dest, const SCHIB *src)
1317 {
1318     int i;
1319     /*
1320      * We copy the PMCW and SCSW in and out of local variables to
1321      * avoid taking the address of members of a packed struct.
1322      */
1323     PMCW src_pmcw, dest_pmcw;
1324     SCSW src_scsw, dest_scsw;
1325 
1326     src_pmcw = src->pmcw;
1327     copy_pmcw_to_guest(&dest_pmcw, &src_pmcw);
1328     dest->pmcw = dest_pmcw;
1329     src_scsw = src->scsw;
1330     copy_scsw_to_guest(&dest_scsw, &src_scsw);
1331     dest->scsw = dest_scsw;
1332     dest->mba = cpu_to_be64(src->mba);
1333     for (i = 0; i < ARRAY_SIZE(dest->mda); i++) {
1334         dest->mda[i] = src->mda[i];
1335     }
1336 }
1337 
1338 int css_do_stsch(SubchDev *sch, SCHIB *schib)
1339 {
1340     /* Use current status. */
1341     copy_schib_to_guest(schib, &sch->curr_status);
1342     return 0;
1343 }
1344 
1345 static void copy_pmcw_from_guest(PMCW *dest, const PMCW *src)
1346 {
1347     int i;
1348 
1349     dest->intparm = be32_to_cpu(src->intparm);
1350     dest->flags = be16_to_cpu(src->flags);
1351     dest->devno = be16_to_cpu(src->devno);
1352     dest->lpm = src->lpm;
1353     dest->pnom = src->pnom;
1354     dest->lpum = src->lpum;
1355     dest->pim = src->pim;
1356     dest->mbi = be16_to_cpu(src->mbi);
1357     dest->pom = src->pom;
1358     dest->pam = src->pam;
1359     for (i = 0; i < ARRAY_SIZE(dest->chpid); i++) {
1360         dest->chpid[i] = src->chpid[i];
1361     }
1362     dest->chars = be32_to_cpu(src->chars);
1363 }
1364 
1365 static void copy_scsw_from_guest(SCSW *dest, const SCSW *src)
1366 {
1367     dest->flags = be16_to_cpu(src->flags);
1368     dest->ctrl = be16_to_cpu(src->ctrl);
1369     dest->cpa = be32_to_cpu(src->cpa);
1370     dest->dstat = src->dstat;
1371     dest->cstat = src->cstat;
1372     dest->count = be16_to_cpu(src->count);
1373 }
1374 
1375 static void copy_schib_from_guest(SCHIB *dest, const SCHIB *src)
1376 {
1377     int i;
1378     /*
1379      * We copy the PMCW and SCSW in and out of local variables to
1380      * avoid taking the address of members of a packed struct.
1381      */
1382     PMCW src_pmcw, dest_pmcw;
1383     SCSW src_scsw, dest_scsw;
1384 
1385     src_pmcw = src->pmcw;
1386     copy_pmcw_from_guest(&dest_pmcw, &src_pmcw);
1387     dest->pmcw = dest_pmcw;
1388     src_scsw = src->scsw;
1389     copy_scsw_from_guest(&dest_scsw, &src_scsw);
1390     dest->scsw = dest_scsw;
1391     dest->mba = be64_to_cpu(src->mba);
1392     for (i = 0; i < ARRAY_SIZE(dest->mda); i++) {
1393         dest->mda[i] = src->mda[i];
1394     }
1395 }
1396 
1397 IOInstEnding css_do_msch(SubchDev *sch, const SCHIB *orig_schib)
1398 {
1399     SCHIB *schib = &sch->curr_status;
1400     uint16_t oldflags;
1401     SCHIB schib_copy;
1402 
1403     if (!(schib->pmcw.flags & PMCW_FLAGS_MASK_DNV)) {
1404         return IOINST_CC_EXPECTED;
1405     }
1406 
1407     if (schib->scsw.ctrl & SCSW_STCTL_STATUS_PEND) {
1408         return IOINST_CC_STATUS_PRESENT;
1409     }
1410 
1411     if (schib->scsw.ctrl &
1412         (SCSW_FCTL_START_FUNC|SCSW_FCTL_HALT_FUNC|SCSW_FCTL_CLEAR_FUNC)) {
1413         return IOINST_CC_BUSY;
1414     }
1415 
1416     copy_schib_from_guest(&schib_copy, orig_schib);
1417     /* Only update the program-modifiable fields. */
1418     schib->pmcw.intparm = schib_copy.pmcw.intparm;
1419     oldflags = schib->pmcw.flags;
1420     schib->pmcw.flags &= ~(PMCW_FLAGS_MASK_ISC | PMCW_FLAGS_MASK_ENA |
1421                   PMCW_FLAGS_MASK_LM | PMCW_FLAGS_MASK_MME |
1422                   PMCW_FLAGS_MASK_MP);
1423     schib->pmcw.flags |= schib_copy.pmcw.flags &
1424             (PMCW_FLAGS_MASK_ISC | PMCW_FLAGS_MASK_ENA |
1425              PMCW_FLAGS_MASK_LM | PMCW_FLAGS_MASK_MME |
1426              PMCW_FLAGS_MASK_MP);
1427     schib->pmcw.lpm = schib_copy.pmcw.lpm;
1428     schib->pmcw.mbi = schib_copy.pmcw.mbi;
1429     schib->pmcw.pom = schib_copy.pmcw.pom;
1430     schib->pmcw.chars &= ~(PMCW_CHARS_MASK_MBFC | PMCW_CHARS_MASK_CSENSE);
1431     schib->pmcw.chars |= schib_copy.pmcw.chars &
1432             (PMCW_CHARS_MASK_MBFC | PMCW_CHARS_MASK_CSENSE);
1433     schib->mba = schib_copy.mba;
1434 
1435     /* Has the channel been disabled? */
1436     if (sch->disable_cb && (oldflags & PMCW_FLAGS_MASK_ENA) != 0
1437         && (schib->pmcw.flags & PMCW_FLAGS_MASK_ENA) == 0) {
1438         sch->disable_cb(sch);
1439     }
1440     return IOINST_CC_EXPECTED;
1441 }
1442 
1443 IOInstEnding css_do_xsch(SubchDev *sch)
1444 {
1445     SCHIB *schib = &sch->curr_status;
1446 
1447     if (~(schib->pmcw.flags) & (PMCW_FLAGS_MASK_DNV | PMCW_FLAGS_MASK_ENA)) {
1448         return IOINST_CC_NOT_OPERATIONAL;
1449     }
1450 
1451     if (schib->scsw.ctrl & SCSW_CTRL_MASK_STCTL) {
1452         return IOINST_CC_STATUS_PRESENT;
1453     }
1454 
1455     if (!(schib->scsw.ctrl & SCSW_CTRL_MASK_FCTL) ||
1456         ((schib->scsw.ctrl & SCSW_CTRL_MASK_FCTL) != SCSW_FCTL_START_FUNC) ||
1457         (!(schib->scsw.ctrl &
1458            (SCSW_ACTL_RESUME_PEND | SCSW_ACTL_START_PEND | SCSW_ACTL_SUSP))) ||
1459         (schib->scsw.ctrl & SCSW_ACTL_SUBCH_ACTIVE)) {
1460         return IOINST_CC_BUSY;
1461     }
1462 
1463     /* Cancel the current operation. */
1464     schib->scsw.ctrl &= ~(SCSW_FCTL_START_FUNC |
1465                  SCSW_ACTL_RESUME_PEND |
1466                  SCSW_ACTL_START_PEND |
1467                  SCSW_ACTL_SUSP);
1468     sch->channel_prog = 0x0;
1469     sch->last_cmd_valid = false;
1470     schib->scsw.dstat = 0;
1471     schib->scsw.cstat = 0;
1472     return IOINST_CC_EXPECTED;
1473 }
1474 
1475 IOInstEnding css_do_csch(SubchDev *sch)
1476 {
1477     SCHIB *schib = &sch->curr_status;
1478 
1479     if (~(schib->pmcw.flags) & (PMCW_FLAGS_MASK_DNV | PMCW_FLAGS_MASK_ENA)) {
1480         return IOINST_CC_NOT_OPERATIONAL;
1481     }
1482 
1483     /* Trigger the clear function. */
1484     schib->scsw.ctrl &= ~(SCSW_CTRL_MASK_FCTL | SCSW_CTRL_MASK_ACTL);
1485     schib->scsw.ctrl |= SCSW_FCTL_CLEAR_FUNC | SCSW_ACTL_CLEAR_PEND;
1486 
1487     return do_subchannel_work(sch);
1488 }
1489 
1490 IOInstEnding css_do_hsch(SubchDev *sch)
1491 {
1492     SCHIB *schib = &sch->curr_status;
1493 
1494     if (~(schib->pmcw.flags) & (PMCW_FLAGS_MASK_DNV | PMCW_FLAGS_MASK_ENA)) {
1495         return IOINST_CC_NOT_OPERATIONAL;
1496     }
1497 
1498     if (((schib->scsw.ctrl & SCSW_CTRL_MASK_STCTL) == SCSW_STCTL_STATUS_PEND) ||
1499         (schib->scsw.ctrl & (SCSW_STCTL_PRIMARY |
1500                     SCSW_STCTL_SECONDARY |
1501                     SCSW_STCTL_ALERT))) {
1502         return IOINST_CC_STATUS_PRESENT;
1503     }
1504 
1505     if (schib->scsw.ctrl & (SCSW_FCTL_HALT_FUNC | SCSW_FCTL_CLEAR_FUNC)) {
1506         return IOINST_CC_BUSY;
1507     }
1508 
1509     /* Trigger the halt function. */
1510     schib->scsw.ctrl |= SCSW_FCTL_HALT_FUNC;
1511     schib->scsw.ctrl &= ~SCSW_FCTL_START_FUNC;
1512     if (((schib->scsw.ctrl & SCSW_CTRL_MASK_ACTL) ==
1513          (SCSW_ACTL_SUBCH_ACTIVE | SCSW_ACTL_DEVICE_ACTIVE)) &&
1514         ((schib->scsw.ctrl & SCSW_CTRL_MASK_STCTL) ==
1515          SCSW_STCTL_INTERMEDIATE)) {
1516         schib->scsw.ctrl &= ~SCSW_STCTL_STATUS_PEND;
1517     }
1518     schib->scsw.ctrl |= SCSW_ACTL_HALT_PEND;
1519 
1520     return do_subchannel_work(sch);
1521 }
1522 
1523 static void css_update_chnmon(SubchDev *sch)
1524 {
1525     if (!(sch->curr_status.pmcw.flags & PMCW_FLAGS_MASK_MME)) {
1526         /* Not active. */
1527         return;
1528     }
1529     /* The counter is conveniently located at the beginning of the struct. */
1530     if (sch->curr_status.pmcw.chars & PMCW_CHARS_MASK_MBFC) {
1531         /* Format 1, per-subchannel area. */
1532         uint32_t count;
1533 
1534         count = address_space_ldl(&address_space_memory,
1535                                   sch->curr_status.mba,
1536                                   MEMTXATTRS_UNSPECIFIED,
1537                                   NULL);
1538         count++;
1539         address_space_stl(&address_space_memory, sch->curr_status.mba, count,
1540                           MEMTXATTRS_UNSPECIFIED, NULL);
1541     } else {
1542         /* Format 0, global area. */
1543         uint32_t offset;
1544         uint16_t count;
1545 
1546         offset = sch->curr_status.pmcw.mbi << 5;
1547         count = address_space_lduw(&address_space_memory,
1548                                    channel_subsys.chnmon_area + offset,
1549                                    MEMTXATTRS_UNSPECIFIED,
1550                                    NULL);
1551         count++;
1552         address_space_stw(&address_space_memory,
1553                           channel_subsys.chnmon_area + offset, count,
1554                           MEMTXATTRS_UNSPECIFIED, NULL);
1555     }
1556 }
1557 
1558 IOInstEnding css_do_ssch(SubchDev *sch, ORB *orb)
1559 {
1560     SCHIB *schib = &sch->curr_status;
1561 
1562     if (~(schib->pmcw.flags) & (PMCW_FLAGS_MASK_DNV | PMCW_FLAGS_MASK_ENA)) {
1563         return IOINST_CC_NOT_OPERATIONAL;
1564     }
1565 
1566     if (schib->scsw.ctrl & SCSW_STCTL_STATUS_PEND) {
1567         return IOINST_CC_STATUS_PRESENT;
1568     }
1569 
1570     if (schib->scsw.ctrl & (SCSW_FCTL_START_FUNC |
1571                    SCSW_FCTL_HALT_FUNC |
1572                    SCSW_FCTL_CLEAR_FUNC)) {
1573         return IOINST_CC_BUSY;
1574     }
1575 
1576     /* If monitoring is active, update counter. */
1577     if (channel_subsys.chnmon_active) {
1578         css_update_chnmon(sch);
1579     }
1580     sch->orb = *orb;
1581     sch->channel_prog = orb->cpa;
1582     /* Trigger the start function. */
1583     schib->scsw.ctrl |= (SCSW_FCTL_START_FUNC | SCSW_ACTL_START_PEND);
1584     schib->scsw.flags &= ~SCSW_FLAGS_MASK_PNO;
1585 
1586     return do_subchannel_work(sch);
1587 }
1588 
1589 static void copy_irb_to_guest(IRB *dest, const IRB *src, const PMCW *pmcw,
1590                               int *irb_len)
1591 {
1592     int i;
1593     uint16_t stctl = src->scsw.ctrl & SCSW_CTRL_MASK_STCTL;
1594     uint16_t actl = src->scsw.ctrl & SCSW_CTRL_MASK_ACTL;
1595 
1596     copy_scsw_to_guest(&dest->scsw, &src->scsw);
1597 
1598     for (i = 0; i < ARRAY_SIZE(dest->esw); i++) {
1599         dest->esw[i] = cpu_to_be32(src->esw[i]);
1600     }
1601     for (i = 0; i < ARRAY_SIZE(dest->ecw); i++) {
1602         dest->ecw[i] = cpu_to_be32(src->ecw[i]);
1603     }
1604     *irb_len = sizeof(*dest) - sizeof(dest->emw);
1605 
1606     /* extended measurements enabled? */
1607     if ((src->scsw.flags & SCSW_FLAGS_MASK_ESWF) ||
1608         !(pmcw->flags & PMCW_FLAGS_MASK_TF) ||
1609         !(pmcw->chars & PMCW_CHARS_MASK_XMWME)) {
1610         return;
1611     }
1612     /* extended measurements pending? */
1613     if (!(stctl & SCSW_STCTL_STATUS_PEND)) {
1614         return;
1615     }
1616     if ((stctl & SCSW_STCTL_PRIMARY) ||
1617         (stctl == SCSW_STCTL_SECONDARY) ||
1618         ((stctl & SCSW_STCTL_INTERMEDIATE) && (actl & SCSW_ACTL_SUSP))) {
1619         for (i = 0; i < ARRAY_SIZE(dest->emw); i++) {
1620             dest->emw[i] = cpu_to_be32(src->emw[i]);
1621         }
1622     }
1623     *irb_len = sizeof(*dest);
1624 }
1625 
1626 int css_do_tsch_get_irb(SubchDev *sch, IRB *target_irb, int *irb_len)
1627 {
1628     SCHIB *schib = &sch->curr_status;
1629     PMCW p;
1630     uint16_t stctl;
1631     IRB irb;
1632 
1633     if (~(schib->pmcw.flags) & (PMCW_FLAGS_MASK_DNV | PMCW_FLAGS_MASK_ENA)) {
1634         return 3;
1635     }
1636 
1637     stctl = schib->scsw.ctrl & SCSW_CTRL_MASK_STCTL;
1638 
1639     /* Prepare the irb for the guest. */
1640     memset(&irb, 0, sizeof(IRB));
1641 
1642     /* Copy scsw from current status. */
1643     irb.scsw = schib->scsw;
1644     if (stctl & SCSW_STCTL_STATUS_PEND) {
1645         if (schib->scsw.cstat & (SCSW_CSTAT_DATA_CHECK |
1646                         SCSW_CSTAT_CHN_CTRL_CHK |
1647                         SCSW_CSTAT_INTF_CTRL_CHK)) {
1648             irb.scsw.flags |= SCSW_FLAGS_MASK_ESWF;
1649             irb.esw[0] = 0x04804000;
1650         } else {
1651             irb.esw[0] = 0x00800000;
1652         }
1653         /* If a unit check is pending, copy sense data. */
1654         if ((schib->scsw.dstat & SCSW_DSTAT_UNIT_CHECK) &&
1655             (schib->pmcw.chars & PMCW_CHARS_MASK_CSENSE)) {
1656             int i;
1657 
1658             irb.scsw.flags |= SCSW_FLAGS_MASK_ESWF | SCSW_FLAGS_MASK_ECTL;
1659             /* Attention: sense_data is already BE! */
1660             memcpy(irb.ecw, sch->sense_data, sizeof(sch->sense_data));
1661             for (i = 0; i < ARRAY_SIZE(irb.ecw); i++) {
1662                 irb.ecw[i] = be32_to_cpu(irb.ecw[i]);
1663             }
1664             irb.esw[1] = 0x01000000 | (sizeof(sch->sense_data) << 8);
1665         }
1666     }
1667     /* Store the irb to the guest. */
1668     p = schib->pmcw;
1669     copy_irb_to_guest(target_irb, &irb, &p, irb_len);
1670 
1671     return ((stctl & SCSW_STCTL_STATUS_PEND) == 0);
1672 }
1673 
1674 void css_do_tsch_update_subch(SubchDev *sch)
1675 {
1676     SCHIB *schib = &sch->curr_status;
1677     uint16_t stctl;
1678     uint16_t fctl;
1679     uint16_t actl;
1680 
1681     stctl = schib->scsw.ctrl & SCSW_CTRL_MASK_STCTL;
1682     fctl = schib->scsw.ctrl & SCSW_CTRL_MASK_FCTL;
1683     actl = schib->scsw.ctrl & SCSW_CTRL_MASK_ACTL;
1684 
1685     /* Clear conditions on subchannel, if applicable. */
1686     if (stctl & SCSW_STCTL_STATUS_PEND) {
1687         schib->scsw.ctrl &= ~SCSW_CTRL_MASK_STCTL;
1688         if ((stctl != (SCSW_STCTL_INTERMEDIATE | SCSW_STCTL_STATUS_PEND)) ||
1689             ((fctl & SCSW_FCTL_HALT_FUNC) &&
1690              (actl & SCSW_ACTL_SUSP))) {
1691             schib->scsw.ctrl &= ~SCSW_CTRL_MASK_FCTL;
1692         }
1693         if (stctl != (SCSW_STCTL_INTERMEDIATE | SCSW_STCTL_STATUS_PEND)) {
1694             schib->scsw.flags &= ~SCSW_FLAGS_MASK_PNO;
1695             schib->scsw.ctrl &= ~(SCSW_ACTL_RESUME_PEND |
1696                          SCSW_ACTL_START_PEND |
1697                          SCSW_ACTL_HALT_PEND |
1698                          SCSW_ACTL_CLEAR_PEND |
1699                          SCSW_ACTL_SUSP);
1700         } else {
1701             if ((actl & SCSW_ACTL_SUSP) &&
1702                 (fctl & SCSW_FCTL_START_FUNC)) {
1703                 schib->scsw.flags &= ~SCSW_FLAGS_MASK_PNO;
1704                 if (fctl & SCSW_FCTL_HALT_FUNC) {
1705                     schib->scsw.ctrl &= ~(SCSW_ACTL_RESUME_PEND |
1706                                  SCSW_ACTL_START_PEND |
1707                                  SCSW_ACTL_HALT_PEND |
1708                                  SCSW_ACTL_CLEAR_PEND |
1709                                  SCSW_ACTL_SUSP);
1710                 } else {
1711                     schib->scsw.ctrl &= ~SCSW_ACTL_RESUME_PEND;
1712                 }
1713             }
1714         }
1715         /* Clear pending sense data. */
1716         if (schib->pmcw.chars & PMCW_CHARS_MASK_CSENSE) {
1717             memset(sch->sense_data, 0 , sizeof(sch->sense_data));
1718         }
1719     }
1720 }
1721 
1722 static void copy_crw_to_guest(CRW *dest, const CRW *src)
1723 {
1724     dest->flags = cpu_to_be16(src->flags);
1725     dest->rsid = cpu_to_be16(src->rsid);
1726 }
1727 
1728 int css_do_stcrw(CRW *crw)
1729 {
1730     CrwContainer *crw_cont;
1731     int ret;
1732 
1733     crw_cont = QTAILQ_FIRST(&channel_subsys.pending_crws);
1734     if (crw_cont) {
1735         QTAILQ_REMOVE(&channel_subsys.pending_crws, crw_cont, sibling);
1736         copy_crw_to_guest(crw, &crw_cont->crw);
1737         g_free(crw_cont);
1738         ret = 0;
1739     } else {
1740         /* List was empty, turn crw machine checks on again. */
1741         memset(crw, 0, sizeof(*crw));
1742         channel_subsys.do_crw_mchk = true;
1743         ret = 1;
1744     }
1745 
1746     return ret;
1747 }
1748 
1749 static void copy_crw_from_guest(CRW *dest, const CRW *src)
1750 {
1751     dest->flags = be16_to_cpu(src->flags);
1752     dest->rsid = be16_to_cpu(src->rsid);
1753 }
1754 
1755 void css_undo_stcrw(CRW *crw)
1756 {
1757     CrwContainer *crw_cont;
1758 
1759     crw_cont = g_try_new0(CrwContainer, 1);
1760     if (!crw_cont) {
1761         channel_subsys.crws_lost = true;
1762         return;
1763     }
1764     copy_crw_from_guest(&crw_cont->crw, crw);
1765 
1766     QTAILQ_INSERT_HEAD(&channel_subsys.pending_crws, crw_cont, sibling);
1767 }
1768 
1769 int css_collect_chp_desc(int m, uint8_t cssid, uint8_t f_chpid, uint8_t l_chpid,
1770                          int rfmt, void *buf)
1771 {
1772     int i, desc_size;
1773     uint32_t words[8];
1774     uint32_t chpid_type_word;
1775     CssImage *css;
1776 
1777     if (!m && !cssid) {
1778         css = channel_subsys.css[channel_subsys.default_cssid];
1779     } else {
1780         css = channel_subsys.css[cssid];
1781     }
1782     if (!css) {
1783         return 0;
1784     }
1785     desc_size = 0;
1786     for (i = f_chpid; i <= l_chpid; i++) {
1787         if (css->chpids[i].in_use) {
1788             chpid_type_word = 0x80000000 | (css->chpids[i].type << 8) | i;
1789             if (rfmt == 0) {
1790                 words[0] = cpu_to_be32(chpid_type_word);
1791                 words[1] = 0;
1792                 memcpy(buf + desc_size, words, 8);
1793                 desc_size += 8;
1794             } else if (rfmt == 1) {
1795                 words[0] = cpu_to_be32(chpid_type_word);
1796                 words[1] = 0;
1797                 words[2] = 0;
1798                 words[3] = 0;
1799                 words[4] = 0;
1800                 words[5] = 0;
1801                 words[6] = 0;
1802                 words[7] = 0;
1803                 memcpy(buf + desc_size, words, 32);
1804                 desc_size += 32;
1805             }
1806         }
1807     }
1808     return desc_size;
1809 }
1810 
1811 void css_do_schm(uint8_t mbk, int update, int dct, uint64_t mbo)
1812 {
1813     /* dct is currently ignored (not really meaningful for our devices) */
1814     /* TODO: Don't ignore mbk. */
1815     if (update && !channel_subsys.chnmon_active) {
1816         /* Enable measuring. */
1817         channel_subsys.chnmon_area = mbo;
1818         channel_subsys.chnmon_active = true;
1819     }
1820     if (!update && channel_subsys.chnmon_active) {
1821         /* Disable measuring. */
1822         channel_subsys.chnmon_area = 0;
1823         channel_subsys.chnmon_active = false;
1824     }
1825 }
1826 
1827 IOInstEnding css_do_rsch(SubchDev *sch)
1828 {
1829     SCHIB *schib = &sch->curr_status;
1830 
1831     if (~(schib->pmcw.flags) & (PMCW_FLAGS_MASK_DNV | PMCW_FLAGS_MASK_ENA)) {
1832         return IOINST_CC_NOT_OPERATIONAL;
1833     }
1834 
1835     if (schib->scsw.ctrl & SCSW_STCTL_STATUS_PEND) {
1836         return IOINST_CC_STATUS_PRESENT;
1837     }
1838 
1839     if (((schib->scsw.ctrl & SCSW_CTRL_MASK_FCTL) != SCSW_FCTL_START_FUNC) ||
1840         (schib->scsw.ctrl & SCSW_ACTL_RESUME_PEND) ||
1841         (!(schib->scsw.ctrl & SCSW_ACTL_SUSP))) {
1842         return IOINST_CC_BUSY;
1843     }
1844 
1845     /* If monitoring is active, update counter. */
1846     if (channel_subsys.chnmon_active) {
1847         css_update_chnmon(sch);
1848     }
1849 
1850     schib->scsw.ctrl |= SCSW_ACTL_RESUME_PEND;
1851     return do_subchannel_work(sch);
1852 }
1853 
1854 int css_do_rchp(uint8_t cssid, uint8_t chpid)
1855 {
1856     uint8_t real_cssid;
1857 
1858     if (cssid > channel_subsys.max_cssid) {
1859         return -EINVAL;
1860     }
1861     if (channel_subsys.max_cssid == 0) {
1862         real_cssid = channel_subsys.default_cssid;
1863     } else {
1864         real_cssid = cssid;
1865     }
1866     if (!channel_subsys.css[real_cssid]) {
1867         return -EINVAL;
1868     }
1869 
1870     if (!channel_subsys.css[real_cssid]->chpids[chpid].in_use) {
1871         return -ENODEV;
1872     }
1873 
1874     if (!channel_subsys.css[real_cssid]->chpids[chpid].is_virtual) {
1875         fprintf(stderr,
1876                 "rchp unsupported for non-virtual chpid %x.%02x!\n",
1877                 real_cssid, chpid);
1878         return -ENODEV;
1879     }
1880 
1881     /* We don't really use a channel path, so we're done here. */
1882     css_queue_crw(CRW_RSC_CHP, CRW_ERC_INIT, 1,
1883                   channel_subsys.max_cssid > 0 ? 1 : 0, chpid);
1884     if (channel_subsys.max_cssid > 0) {
1885         css_queue_crw(CRW_RSC_CHP, CRW_ERC_INIT, 1, 0, real_cssid << 8);
1886     }
1887     return 0;
1888 }
1889 
1890 bool css_schid_final(int m, uint8_t cssid, uint8_t ssid, uint16_t schid)
1891 {
1892     SubchSet *set;
1893     uint8_t real_cssid;
1894 
1895     real_cssid = (!m && (cssid == 0)) ? channel_subsys.default_cssid : cssid;
1896     if (ssid > MAX_SSID ||
1897         !channel_subsys.css[real_cssid] ||
1898         !channel_subsys.css[real_cssid]->sch_set[ssid]) {
1899         return true;
1900     }
1901     set = channel_subsys.css[real_cssid]->sch_set[ssid];
1902     return schid > find_last_bit(set->schids_used,
1903                                  (MAX_SCHID + 1) / sizeof(unsigned long));
1904 }
1905 
1906 unsigned int css_find_free_chpid(uint8_t cssid)
1907 {
1908     CssImage *css = channel_subsys.css[cssid];
1909     unsigned int chpid;
1910 
1911     if (!css) {
1912         return MAX_CHPID + 1;
1913     }
1914 
1915     for (chpid = 0; chpid <= MAX_CHPID; chpid++) {
1916         /* skip reserved chpid */
1917         if (chpid == VIRTIO_CCW_CHPID) {
1918             continue;
1919         }
1920         if (!css->chpids[chpid].in_use) {
1921             return chpid;
1922         }
1923     }
1924     return MAX_CHPID + 1;
1925 }
1926 
1927 static int css_add_chpid(uint8_t cssid, uint8_t chpid, uint8_t type,
1928                          bool is_virt)
1929 {
1930     CssImage *css;
1931 
1932     trace_css_chpid_add(cssid, chpid, type);
1933     css = channel_subsys.css[cssid];
1934     if (!css) {
1935         return -EINVAL;
1936     }
1937     if (css->chpids[chpid].in_use) {
1938         return -EEXIST;
1939     }
1940     css->chpids[chpid].in_use = 1;
1941     css->chpids[chpid].type = type;
1942     css->chpids[chpid].is_virtual = is_virt;
1943 
1944     css_generate_chp_crws(cssid, chpid);
1945 
1946     return 0;
1947 }
1948 
1949 void css_sch_build_virtual_schib(SubchDev *sch, uint8_t chpid, uint8_t type)
1950 {
1951     SCHIB *schib = &sch->curr_status;
1952     int i;
1953     CssImage *css = channel_subsys.css[sch->cssid];
1954 
1955     assert(css != NULL);
1956     memset(&schib->pmcw, 0, sizeof(PMCW));
1957     schib->pmcw.flags |= PMCW_FLAGS_MASK_DNV;
1958     schib->pmcw.devno = sch->devno;
1959     /* single path */
1960     schib->pmcw.pim = 0x80;
1961     schib->pmcw.pom = 0xff;
1962     schib->pmcw.pam = 0x80;
1963     schib->pmcw.chpid[0] = chpid;
1964     if (!css->chpids[chpid].in_use) {
1965         css_add_chpid(sch->cssid, chpid, type, true);
1966     }
1967 
1968     memset(&schib->scsw, 0, sizeof(SCSW));
1969     schib->mba = 0;
1970     for (i = 0; i < ARRAY_SIZE(schib->mda); i++) {
1971         schib->mda[i] = 0;
1972     }
1973 }
1974 
1975 SubchDev *css_find_subch(uint8_t m, uint8_t cssid, uint8_t ssid, uint16_t schid)
1976 {
1977     uint8_t real_cssid;
1978 
1979     real_cssid = (!m && (cssid == 0)) ? channel_subsys.default_cssid : cssid;
1980 
1981     if (!channel_subsys.css[real_cssid]) {
1982         return NULL;
1983     }
1984 
1985     if (!channel_subsys.css[real_cssid]->sch_set[ssid]) {
1986         return NULL;
1987     }
1988 
1989     return channel_subsys.css[real_cssid]->sch_set[ssid]->sch[schid];
1990 }
1991 
1992 /**
1993  * Return free device number in subchannel set.
1994  *
1995  * Return index of the first free device number in the subchannel set
1996  * identified by @p cssid and @p ssid, beginning the search at @p
1997  * start and wrapping around at MAX_DEVNO. Return a value exceeding
1998  * MAX_SCHID if there are no free device numbers in the subchannel
1999  * set.
2000  */
2001 static uint32_t css_find_free_devno(uint8_t cssid, uint8_t ssid,
2002                                     uint16_t start)
2003 {
2004     uint32_t round;
2005 
2006     for (round = 0; round <= MAX_DEVNO; round++) {
2007         uint16_t devno = (start + round) % MAX_DEVNO;
2008 
2009         if (!css_devno_used(cssid, ssid, devno)) {
2010             return devno;
2011         }
2012     }
2013     return MAX_DEVNO + 1;
2014 }
2015 
2016 /**
2017  * Return first free subchannel (id) in subchannel set.
2018  *
2019  * Return index of the first free subchannel in the subchannel set
2020  * identified by @p cssid and @p ssid, if there is any. Return a value
2021  * exceeding MAX_SCHID if there are no free subchannels in the
2022  * subchannel set.
2023  */
2024 static uint32_t css_find_free_subch(uint8_t cssid, uint8_t ssid)
2025 {
2026     uint32_t schid;
2027 
2028     for (schid = 0; schid <= MAX_SCHID; schid++) {
2029         if (!css_find_subch(1, cssid, ssid, schid)) {
2030             return schid;
2031         }
2032     }
2033     return MAX_SCHID + 1;
2034 }
2035 
2036 /**
2037  * Return first free subchannel (id) in subchannel set for a device number
2038  *
2039  * Verify the device number @p devno is not used yet in the subchannel
2040  * set identified by @p cssid and @p ssid. Set @p schid to the index
2041  * of the first free subchannel in the subchannel set, if there is
2042  * any. Return true if everything succeeded and false otherwise.
2043  */
2044 static bool css_find_free_subch_for_devno(uint8_t cssid, uint8_t ssid,
2045                                           uint16_t devno, uint16_t *schid,
2046                                           Error **errp)
2047 {
2048     uint32_t free_schid;
2049 
2050     assert(schid);
2051     if (css_devno_used(cssid, ssid, devno)) {
2052         error_setg(errp, "Device %x.%x.%04x already exists",
2053                    cssid, ssid, devno);
2054         return false;
2055     }
2056     free_schid = css_find_free_subch(cssid, ssid);
2057     if (free_schid > MAX_SCHID) {
2058         error_setg(errp, "No free subchannel found for %x.%x.%04x",
2059                    cssid, ssid, devno);
2060         return false;
2061     }
2062     *schid = free_schid;
2063     return true;
2064 }
2065 
2066 /**
2067  * Return first free subchannel (id) and device number
2068  *
2069  * Locate the first free subchannel and first free device number in
2070  * any of the subchannel sets of the channel subsystem identified by
2071  * @p cssid. Return false if no free subchannel / device number could
2072  * be found. Otherwise set @p ssid, @p devno and @p schid to identify
2073  * the available subchannel and device number and return true.
2074  *
2075  * May modify @p ssid, @p devno and / or @p schid even if no free
2076  * subchannel / device number could be found.
2077  */
2078 static bool css_find_free_subch_and_devno(uint8_t cssid, uint8_t *ssid,
2079                                           uint16_t *devno, uint16_t *schid,
2080                                           Error **errp)
2081 {
2082     uint32_t free_schid, free_devno;
2083 
2084     assert(ssid && devno && schid);
2085     for (*ssid = 0; *ssid <= MAX_SSID; (*ssid)++) {
2086         free_schid = css_find_free_subch(cssid, *ssid);
2087         if (free_schid > MAX_SCHID) {
2088             continue;
2089         }
2090         free_devno = css_find_free_devno(cssid, *ssid, free_schid);
2091         if (free_devno > MAX_DEVNO) {
2092             continue;
2093         }
2094         *schid = free_schid;
2095         *devno = free_devno;
2096         return true;
2097     }
2098     error_setg(errp, "Virtual channel subsystem is full!");
2099     return false;
2100 }
2101 
2102 bool css_subch_visible(SubchDev *sch)
2103 {
2104     if (sch->ssid > channel_subsys.max_ssid) {
2105         return false;
2106     }
2107 
2108     if (sch->cssid != channel_subsys.default_cssid) {
2109         return (channel_subsys.max_cssid > 0);
2110     }
2111 
2112     return true;
2113 }
2114 
2115 bool css_present(uint8_t cssid)
2116 {
2117     return (channel_subsys.css[cssid] != NULL);
2118 }
2119 
2120 bool css_devno_used(uint8_t cssid, uint8_t ssid, uint16_t devno)
2121 {
2122     if (!channel_subsys.css[cssid]) {
2123         return false;
2124     }
2125     if (!channel_subsys.css[cssid]->sch_set[ssid]) {
2126         return false;
2127     }
2128 
2129     return !!test_bit(devno,
2130                       channel_subsys.css[cssid]->sch_set[ssid]->devnos_used);
2131 }
2132 
2133 void css_subch_assign(uint8_t cssid, uint8_t ssid, uint16_t schid,
2134                       uint16_t devno, SubchDev *sch)
2135 {
2136     CssImage *css;
2137     SubchSet *s_set;
2138 
2139     trace_css_assign_subch(sch ? "assign" : "deassign", cssid, ssid, schid,
2140                            devno);
2141     if (!channel_subsys.css[cssid]) {
2142         fprintf(stderr,
2143                 "Suspicious call to %s (%x.%x.%04x) for non-existing css!\n",
2144                 __func__, cssid, ssid, schid);
2145         return;
2146     }
2147     css = channel_subsys.css[cssid];
2148 
2149     if (!css->sch_set[ssid]) {
2150         css->sch_set[ssid] = g_new0(SubchSet, 1);
2151     }
2152     s_set = css->sch_set[ssid];
2153 
2154     s_set->sch[schid] = sch;
2155     if (sch) {
2156         set_bit(schid, s_set->schids_used);
2157         set_bit(devno, s_set->devnos_used);
2158     } else {
2159         clear_bit(schid, s_set->schids_used);
2160         clear_bit(devno, s_set->devnos_used);
2161     }
2162 }
2163 
2164 void css_queue_crw(uint8_t rsc, uint8_t erc, int solicited,
2165                    int chain, uint16_t rsid)
2166 {
2167     CrwContainer *crw_cont;
2168 
2169     trace_css_crw(rsc, erc, rsid, chain ? "(chained)" : "");
2170     /* TODO: Maybe use a static crw pool? */
2171     crw_cont = g_try_new0(CrwContainer, 1);
2172     if (!crw_cont) {
2173         channel_subsys.crws_lost = true;
2174         return;
2175     }
2176     crw_cont->crw.flags = (rsc << 8) | erc;
2177     if (solicited) {
2178         crw_cont->crw.flags |= CRW_FLAGS_MASK_S;
2179     }
2180     if (chain) {
2181         crw_cont->crw.flags |= CRW_FLAGS_MASK_C;
2182     }
2183     crw_cont->crw.rsid = rsid;
2184     if (channel_subsys.crws_lost) {
2185         crw_cont->crw.flags |= CRW_FLAGS_MASK_R;
2186         channel_subsys.crws_lost = false;
2187     }
2188 
2189     QTAILQ_INSERT_TAIL(&channel_subsys.pending_crws, crw_cont, sibling);
2190 
2191     if (channel_subsys.do_crw_mchk) {
2192         channel_subsys.do_crw_mchk = false;
2193         /* Inject crw pending machine check. */
2194         s390_crw_mchk();
2195     }
2196 }
2197 
2198 void css_generate_sch_crws(uint8_t cssid, uint8_t ssid, uint16_t schid,
2199                            int hotplugged, int add)
2200 {
2201     uint8_t guest_cssid;
2202     bool chain_crw;
2203 
2204     if (add && !hotplugged) {
2205         return;
2206     }
2207     if (channel_subsys.max_cssid == 0) {
2208         /* Default cssid shows up as 0. */
2209         guest_cssid = (cssid == channel_subsys.default_cssid) ? 0 : cssid;
2210     } else {
2211         /* Show real cssid to the guest. */
2212         guest_cssid = cssid;
2213     }
2214     /*
2215      * Only notify for higher subchannel sets/channel subsystems if the
2216      * guest has enabled it.
2217      */
2218     if ((ssid > channel_subsys.max_ssid) ||
2219         (guest_cssid > channel_subsys.max_cssid) ||
2220         ((channel_subsys.max_cssid == 0) &&
2221          (cssid != channel_subsys.default_cssid))) {
2222         return;
2223     }
2224     chain_crw = (channel_subsys.max_ssid > 0) ||
2225             (channel_subsys.max_cssid > 0);
2226     css_queue_crw(CRW_RSC_SUBCH, CRW_ERC_IPI, 0, chain_crw ? 1 : 0, schid);
2227     if (chain_crw) {
2228         css_queue_crw(CRW_RSC_SUBCH, CRW_ERC_IPI, 0, 0,
2229                       (guest_cssid << 8) | (ssid << 4));
2230     }
2231     /* RW_ERC_IPI --> clear pending interrupts */
2232     css_clear_io_interrupt(css_do_build_subchannel_id(cssid, ssid), schid);
2233 }
2234 
2235 void css_generate_chp_crws(uint8_t cssid, uint8_t chpid)
2236 {
2237     /* TODO */
2238 }
2239 
2240 void css_generate_css_crws(uint8_t cssid)
2241 {
2242     if (!channel_subsys.sei_pending) {
2243         css_queue_crw(CRW_RSC_CSS, CRW_ERC_EVENT, 0, 0, cssid);
2244     }
2245     channel_subsys.sei_pending = true;
2246 }
2247 
2248 void css_clear_sei_pending(void)
2249 {
2250     channel_subsys.sei_pending = false;
2251 }
2252 
2253 int css_enable_mcsse(void)
2254 {
2255     trace_css_enable_facility("mcsse");
2256     channel_subsys.max_cssid = MAX_CSSID;
2257     return 0;
2258 }
2259 
2260 int css_enable_mss(void)
2261 {
2262     trace_css_enable_facility("mss");
2263     channel_subsys.max_ssid = MAX_SSID;
2264     return 0;
2265 }
2266 
2267 void css_reset_sch(SubchDev *sch)
2268 {
2269     SCHIB *schib = &sch->curr_status;
2270 
2271     if ((schib->pmcw.flags & PMCW_FLAGS_MASK_ENA) != 0 && sch->disable_cb) {
2272         sch->disable_cb(sch);
2273     }
2274 
2275     schib->pmcw.intparm = 0;
2276     schib->pmcw.flags &= ~(PMCW_FLAGS_MASK_ISC | PMCW_FLAGS_MASK_ENA |
2277                   PMCW_FLAGS_MASK_LM | PMCW_FLAGS_MASK_MME |
2278                   PMCW_FLAGS_MASK_MP | PMCW_FLAGS_MASK_TF);
2279     schib->pmcw.flags |= PMCW_FLAGS_MASK_DNV;
2280     schib->pmcw.devno = sch->devno;
2281     schib->pmcw.pim = 0x80;
2282     schib->pmcw.lpm = schib->pmcw.pim;
2283     schib->pmcw.pnom = 0;
2284     schib->pmcw.lpum = 0;
2285     schib->pmcw.mbi = 0;
2286     schib->pmcw.pom = 0xff;
2287     schib->pmcw.pam = 0x80;
2288     schib->pmcw.chars &= ~(PMCW_CHARS_MASK_MBFC | PMCW_CHARS_MASK_XMWME |
2289                   PMCW_CHARS_MASK_CSENSE);
2290 
2291     memset(&schib->scsw, 0, sizeof(schib->scsw));
2292     schib->mba = 0;
2293 
2294     sch->channel_prog = 0x0;
2295     sch->last_cmd_valid = false;
2296     sch->thinint_active = false;
2297 }
2298 
2299 void css_reset(void)
2300 {
2301     CrwContainer *crw_cont;
2302 
2303     /* Clean up monitoring. */
2304     channel_subsys.chnmon_active = false;
2305     channel_subsys.chnmon_area = 0;
2306 
2307     /* Clear pending CRWs. */
2308     while ((crw_cont = QTAILQ_FIRST(&channel_subsys.pending_crws))) {
2309         QTAILQ_REMOVE(&channel_subsys.pending_crws, crw_cont, sibling);
2310         g_free(crw_cont);
2311     }
2312     channel_subsys.sei_pending = false;
2313     channel_subsys.do_crw_mchk = true;
2314     channel_subsys.crws_lost = false;
2315 
2316     /* Reset maximum ids. */
2317     channel_subsys.max_cssid = 0;
2318     channel_subsys.max_ssid = 0;
2319 }
2320 
2321 static void get_css_devid(Object *obj, Visitor *v, const char *name,
2322                           void *opaque, Error **errp)
2323 {
2324     DeviceState *dev = DEVICE(obj);
2325     Property *prop = opaque;
2326     CssDevId *dev_id = qdev_get_prop_ptr(dev, prop);
2327     char buffer[] = "xx.x.xxxx";
2328     char *p = buffer;
2329     int r;
2330 
2331     if (dev_id->valid) {
2332 
2333         r = snprintf(buffer, sizeof(buffer), "%02x.%1x.%04x", dev_id->cssid,
2334                      dev_id->ssid, dev_id->devid);
2335         assert(r == sizeof(buffer) - 1);
2336 
2337         /* drop leading zero */
2338         if (dev_id->cssid <= 0xf) {
2339             p++;
2340         }
2341     } else {
2342         snprintf(buffer, sizeof(buffer), "<unset>");
2343     }
2344 
2345     visit_type_str(v, name, &p, errp);
2346 }
2347 
2348 /*
2349  * parse <cssid>.<ssid>.<devid> and assert valid range for cssid/ssid
2350  */
2351 static void set_css_devid(Object *obj, Visitor *v, const char *name,
2352                           void *opaque, Error **errp)
2353 {
2354     DeviceState *dev = DEVICE(obj);
2355     Property *prop = opaque;
2356     CssDevId *dev_id = qdev_get_prop_ptr(dev, prop);
2357     Error *local_err = NULL;
2358     char *str;
2359     int num, n1, n2;
2360     unsigned int cssid, ssid, devid;
2361 
2362     if (dev->realized) {
2363         qdev_prop_set_after_realize(dev, name, errp);
2364         return;
2365     }
2366 
2367     visit_type_str(v, name, &str, &local_err);
2368     if (local_err) {
2369         error_propagate(errp, local_err);
2370         return;
2371     }
2372 
2373     num = sscanf(str, "%2x.%1x%n.%4x%n", &cssid, &ssid, &n1, &devid, &n2);
2374     if (num != 3 || (n2 - n1) != 5 || strlen(str) != n2) {
2375         error_set_from_qdev_prop_error(errp, EINVAL, dev, prop, str);
2376         goto out;
2377     }
2378     if ((cssid > MAX_CSSID) || (ssid > MAX_SSID)) {
2379         error_setg(errp, "Invalid cssid or ssid: cssid %x, ssid %x",
2380                    cssid, ssid);
2381         goto out;
2382     }
2383 
2384     dev_id->cssid = cssid;
2385     dev_id->ssid = ssid;
2386     dev_id->devid = devid;
2387     dev_id->valid = true;
2388 
2389 out:
2390     g_free(str);
2391 }
2392 
2393 const PropertyInfo css_devid_propinfo = {
2394     .name = "str",
2395     .description = "Identifier of an I/O device in the channel "
2396                    "subsystem, example: fe.1.23ab",
2397     .get = get_css_devid,
2398     .set = set_css_devid,
2399 };
2400 
2401 const PropertyInfo css_devid_ro_propinfo = {
2402     .name = "str",
2403     .description = "Read-only identifier of an I/O device in the channel "
2404                    "subsystem, example: fe.1.23ab",
2405     .get = get_css_devid,
2406 };
2407 
2408 SubchDev *css_create_sch(CssDevId bus_id, Error **errp)
2409 {
2410     uint16_t schid = 0;
2411     SubchDev *sch;
2412 
2413     if (bus_id.valid) {
2414         if (!channel_subsys.css[bus_id.cssid]) {
2415             css_create_css_image(bus_id.cssid, false);
2416         }
2417 
2418         if (!css_find_free_subch_for_devno(bus_id.cssid, bus_id.ssid,
2419                                            bus_id.devid, &schid, errp)) {
2420             return NULL;
2421         }
2422     } else {
2423         for (bus_id.cssid = channel_subsys.default_cssid;;) {
2424             if (!channel_subsys.css[bus_id.cssid]) {
2425                 css_create_css_image(bus_id.cssid, false);
2426             }
2427 
2428             if   (css_find_free_subch_and_devno(bus_id.cssid, &bus_id.ssid,
2429                                                 &bus_id.devid, &schid,
2430                                                 NULL)) {
2431                 break;
2432             }
2433             bus_id.cssid = (bus_id.cssid + 1) % MAX_CSSID;
2434             if (bus_id.cssid == channel_subsys.default_cssid) {
2435                 error_setg(errp, "Virtual channel subsystem is full!");
2436                 return NULL;
2437             }
2438         }
2439     }
2440 
2441     sch = g_new0(SubchDev, 1);
2442     sch->cssid = bus_id.cssid;
2443     sch->ssid = bus_id.ssid;
2444     sch->devno = bus_id.devid;
2445     sch->schid = schid;
2446     css_subch_assign(sch->cssid, sch->ssid, schid, sch->devno, sch);
2447     return sch;
2448 }
2449 
2450 static int css_sch_get_chpids(SubchDev *sch, CssDevId *dev_id)
2451 {
2452     char *fid_path;
2453     FILE *fd;
2454     uint32_t chpid[8];
2455     int i;
2456     SCHIB *schib = &sch->curr_status;
2457 
2458     fid_path = g_strdup_printf("/sys/bus/css/devices/%x.%x.%04x/chpids",
2459                                dev_id->cssid, dev_id->ssid, dev_id->devid);
2460     fd = fopen(fid_path, "r");
2461     if (fd == NULL) {
2462         error_report("%s: open %s failed", __func__, fid_path);
2463         g_free(fid_path);
2464         return -EINVAL;
2465     }
2466 
2467     if (fscanf(fd, "%x %x %x %x %x %x %x %x",
2468         &chpid[0], &chpid[1], &chpid[2], &chpid[3],
2469         &chpid[4], &chpid[5], &chpid[6], &chpid[7]) != 8) {
2470         fclose(fd);
2471         g_free(fid_path);
2472         return -EINVAL;
2473     }
2474 
2475     for (i = 0; i < ARRAY_SIZE(schib->pmcw.chpid); i++) {
2476         schib->pmcw.chpid[i] = chpid[i];
2477     }
2478 
2479     fclose(fd);
2480     g_free(fid_path);
2481 
2482     return 0;
2483 }
2484 
2485 static int css_sch_get_path_masks(SubchDev *sch, CssDevId *dev_id)
2486 {
2487     char *fid_path;
2488     FILE *fd;
2489     uint32_t pim, pam, pom;
2490     SCHIB *schib = &sch->curr_status;
2491 
2492     fid_path = g_strdup_printf("/sys/bus/css/devices/%x.%x.%04x/pimpampom",
2493                                dev_id->cssid, dev_id->ssid, dev_id->devid);
2494     fd = fopen(fid_path, "r");
2495     if (fd == NULL) {
2496         error_report("%s: open %s failed", __func__, fid_path);
2497         g_free(fid_path);
2498         return -EINVAL;
2499     }
2500 
2501     if (fscanf(fd, "%x %x %x", &pim, &pam, &pom) != 3) {
2502         fclose(fd);
2503         g_free(fid_path);
2504         return -EINVAL;
2505     }
2506 
2507     schib->pmcw.pim = pim;
2508     schib->pmcw.pam = pam;
2509     schib->pmcw.pom = pom;
2510     fclose(fd);
2511     g_free(fid_path);
2512 
2513     return 0;
2514 }
2515 
2516 static int css_sch_get_chpid_type(uint8_t chpid, uint32_t *type,
2517                                   CssDevId *dev_id)
2518 {
2519     char *fid_path;
2520     FILE *fd;
2521 
2522     fid_path = g_strdup_printf("/sys/devices/css%x/chp0.%02x/type",
2523                                dev_id->cssid, chpid);
2524     fd = fopen(fid_path, "r");
2525     if (fd == NULL) {
2526         error_report("%s: open %s failed", __func__, fid_path);
2527         g_free(fid_path);
2528         return -EINVAL;
2529     }
2530 
2531     if (fscanf(fd, "%x", type) != 1) {
2532         fclose(fd);
2533         g_free(fid_path);
2534         return -EINVAL;
2535     }
2536 
2537     fclose(fd);
2538     g_free(fid_path);
2539 
2540     return 0;
2541 }
2542 
2543 /*
2544  * We currently retrieve the real device information from sysfs to build the
2545  * guest subchannel information block without considering the migration feature.
2546  * We need to revisit this problem when we want to add migration support.
2547  */
2548 int css_sch_build_schib(SubchDev *sch, CssDevId *dev_id)
2549 {
2550     CssImage *css = channel_subsys.css[sch->cssid];
2551     SCHIB *schib = &sch->curr_status;
2552     uint32_t type;
2553     int i, ret;
2554 
2555     assert(css != NULL);
2556     memset(&schib->pmcw, 0, sizeof(PMCW));
2557     schib->pmcw.flags |= PMCW_FLAGS_MASK_DNV;
2558     /* We are dealing with I/O subchannels only. */
2559     schib->pmcw.devno = sch->devno;
2560 
2561     /* Grab path mask from sysfs. */
2562     ret = css_sch_get_path_masks(sch, dev_id);
2563     if (ret) {
2564         return ret;
2565     }
2566 
2567     /* Grab chpids from sysfs. */
2568     ret = css_sch_get_chpids(sch, dev_id);
2569     if (ret) {
2570         return ret;
2571     }
2572 
2573    /* Build chpid type. */
2574     for (i = 0; i < ARRAY_SIZE(schib->pmcw.chpid); i++) {
2575         if (schib->pmcw.chpid[i] && !css->chpids[schib->pmcw.chpid[i]].in_use) {
2576             ret = css_sch_get_chpid_type(schib->pmcw.chpid[i], &type, dev_id);
2577             if (ret) {
2578                 return ret;
2579             }
2580             css_add_chpid(sch->cssid, schib->pmcw.chpid[i], type, false);
2581         }
2582     }
2583 
2584     memset(&schib->scsw, 0, sizeof(SCSW));
2585     schib->mba = 0;
2586     for (i = 0; i < ARRAY_SIZE(schib->mda); i++) {
2587         schib->mda[i] = 0;
2588     }
2589 
2590     return 0;
2591 }
2592