Linux 4.19.133
[linux/fpc-iii.git] / drivers / visorbus / visorchipset.c
blobcb1eb7e05f871229dc1861f1a9236a52d26f1078
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3 * Copyright (C) 2010 - 2015 UNISYS CORPORATION
4 * All rights reserved.
5 */
7 #include <linux/acpi.h>
8 #include <linux/crash_dump.h>
9 #include <linux/visorbus.h>
11 #include "visorbus_private.h"
13 /* {72120008-4AAB-11DC-8530-444553544200} */
14 #define VISOR_SIOVM_GUID GUID_INIT(0x72120008, 0x4AAB, 0x11DC, 0x85, 0x30, \
15 0x44, 0x45, 0x53, 0x54, 0x42, 0x00)
17 static const guid_t visor_vhba_channel_guid = VISOR_VHBA_CHANNEL_GUID;
18 static const guid_t visor_siovm_guid = VISOR_SIOVM_GUID;
19 static const guid_t visor_controlvm_channel_guid = VISOR_CONTROLVM_CHANNEL_GUID;
21 #define POLLJIFFIES_CONTROLVM_FAST 1
22 #define POLLJIFFIES_CONTROLVM_SLOW 100
24 #define MAX_CONTROLVM_PAYLOAD_BYTES (1024 * 128)
26 #define UNISYS_VISOR_LEAF_ID 0x40000000
28 /* The s-Par leaf ID returns "UnisysSpar64" encoded across ebx, ecx, edx */
29 #define UNISYS_VISOR_ID_EBX 0x73696e55
30 #define UNISYS_VISOR_ID_ECX 0x70537379
31 #define UNISYS_VISOR_ID_EDX 0x34367261
34 * When the controlvm channel is idle for at least MIN_IDLE_SECONDS, we switch
35 * to slow polling mode. As soon as we get a controlvm message, we switch back
36 * to fast polling mode.
38 #define MIN_IDLE_SECONDS 10
40 struct parser_context {
41 unsigned long allocbytes;
42 unsigned long param_bytes;
43 u8 *curr;
44 unsigned long bytes_remaining;
45 bool byte_stream;
46 struct visor_controlvm_parameters_header data;
49 /* VMCALL_CONTROLVM_ADDR: Used by all guests, not just IO. */
50 #define VMCALL_CONTROLVM_ADDR 0x0501
52 enum vmcall_result {
53 VMCALL_RESULT_SUCCESS = 0,
54 VMCALL_RESULT_INVALID_PARAM = 1,
55 VMCALL_RESULT_DATA_UNAVAILABLE = 2,
56 VMCALL_RESULT_FAILURE_UNAVAILABLE = 3,
57 VMCALL_RESULT_DEVICE_ERROR = 4,
58 VMCALL_RESULT_DEVICE_NOT_READY = 5
62 * struct vmcall_io_controlvm_addr_params - Structure for IO VMCALLS. Has
63 * parameters to VMCALL_CONTROLVM_ADDR
64 * interface.
65 * @address: The Guest-relative physical address of the ControlVm channel.
66 * This VMCall fills this in with the appropriate address.
67 * Contents provided by this VMCALL (OUT).
68 * @channel_bytes: The size of the ControlVm channel in bytes This VMCall fills
69 * this in with the appropriate address. Contents provided by
70 * this VMCALL (OUT).
71 * @unused: Unused Bytes in the 64-Bit Aligned Struct.
73 struct vmcall_io_controlvm_addr_params {
74 u64 address;
75 u32 channel_bytes;
76 u8 unused[4];
77 } __packed;
79 struct visorchipset_device {
80 struct acpi_device *acpi_device;
81 unsigned long poll_jiffies;
82 /* when we got our last controlvm message */
83 unsigned long most_recent_message_jiffies;
84 struct delayed_work periodic_controlvm_work;
85 struct visorchannel *controlvm_channel;
86 unsigned long controlvm_payload_bytes_buffered;
88 * The following variables are used to handle the scenario where we are
89 * unable to offload the payload from a controlvm message due to memory
90 * requirements. In this scenario, we simply stash the controlvm
91 * message, then attempt to process it again the next time
92 * controlvm_periodic_work() runs.
94 struct controlvm_message controlvm_pending_msg;
95 bool controlvm_pending_msg_valid;
96 struct vmcall_io_controlvm_addr_params controlvm_params;
99 static struct visorchipset_device *chipset_dev;
101 struct parahotplug_request {
102 struct list_head list;
103 int id;
104 unsigned long expiration;
105 struct controlvm_message msg;
108 /* prototypes for attributes */
109 static ssize_t toolaction_show(struct device *dev,
110 struct device_attribute *attr,
111 char *buf)
113 u8 tool_action = 0;
114 int err;
116 err = visorchannel_read(chipset_dev->controlvm_channel,
117 offsetof(struct visor_controlvm_channel,
118 tool_action),
119 &tool_action, sizeof(u8));
120 if (err)
121 return err;
122 return sprintf(buf, "%u\n", tool_action);
125 static ssize_t toolaction_store(struct device *dev,
126 struct device_attribute *attr,
127 const char *buf, size_t count)
129 u8 tool_action;
130 int err;
132 if (kstrtou8(buf, 10, &tool_action))
133 return -EINVAL;
134 err = visorchannel_write(chipset_dev->controlvm_channel,
135 offsetof(struct visor_controlvm_channel,
136 tool_action),
137 &tool_action, sizeof(u8));
138 if (err)
139 return err;
140 return count;
142 static DEVICE_ATTR_RW(toolaction);
144 static ssize_t boottotool_show(struct device *dev,
145 struct device_attribute *attr,
146 char *buf)
148 struct efi_visor_indication efi_visor_indication;
149 int err;
151 err = visorchannel_read(chipset_dev->controlvm_channel,
152 offsetof(struct visor_controlvm_channel,
153 efi_visor_ind),
154 &efi_visor_indication,
155 sizeof(struct efi_visor_indication));
156 if (err)
157 return err;
158 return sprintf(buf, "%u\n", efi_visor_indication.boot_to_tool);
161 static ssize_t boottotool_store(struct device *dev,
162 struct device_attribute *attr,
163 const char *buf, size_t count)
165 int val, err;
166 struct efi_visor_indication efi_visor_indication;
168 if (kstrtoint(buf, 10, &val))
169 return -EINVAL;
170 efi_visor_indication.boot_to_tool = val;
171 err = visorchannel_write(chipset_dev->controlvm_channel,
172 offsetof(struct visor_controlvm_channel,
173 efi_visor_ind),
174 &(efi_visor_indication),
175 sizeof(struct efi_visor_indication));
176 if (err)
177 return err;
178 return count;
180 static DEVICE_ATTR_RW(boottotool);
182 static ssize_t error_show(struct device *dev, struct device_attribute *attr,
183 char *buf)
185 u32 error = 0;
186 int err;
188 err = visorchannel_read(chipset_dev->controlvm_channel,
189 offsetof(struct visor_controlvm_channel,
190 installation_error),
191 &error, sizeof(u32));
192 if (err)
193 return err;
194 return sprintf(buf, "%u\n", error);
197 static ssize_t error_store(struct device *dev, struct device_attribute *attr,
198 const char *buf, size_t count)
200 u32 error;
201 int err;
203 if (kstrtou32(buf, 10, &error))
204 return -EINVAL;
205 err = visorchannel_write(chipset_dev->controlvm_channel,
206 offsetof(struct visor_controlvm_channel,
207 installation_error),
208 &error, sizeof(u32));
209 if (err)
210 return err;
211 return count;
213 static DEVICE_ATTR_RW(error);
215 static ssize_t textid_show(struct device *dev, struct device_attribute *attr,
216 char *buf)
218 u32 text_id = 0;
219 int err;
221 err = visorchannel_read(chipset_dev->controlvm_channel,
222 offsetof(struct visor_controlvm_channel,
223 installation_text_id),
224 &text_id, sizeof(u32));
225 if (err)
226 return err;
227 return sprintf(buf, "%u\n", text_id);
230 static ssize_t textid_store(struct device *dev, struct device_attribute *attr,
231 const char *buf, size_t count)
233 u32 text_id;
234 int err;
236 if (kstrtou32(buf, 10, &text_id))
237 return -EINVAL;
238 err = visorchannel_write(chipset_dev->controlvm_channel,
239 offsetof(struct visor_controlvm_channel,
240 installation_text_id),
241 &text_id, sizeof(u32));
242 if (err)
243 return err;
244 return count;
246 static DEVICE_ATTR_RW(textid);
248 static ssize_t remaining_steps_show(struct device *dev,
249 struct device_attribute *attr, char *buf)
251 u16 remaining_steps = 0;
252 int err;
254 err = visorchannel_read(chipset_dev->controlvm_channel,
255 offsetof(struct visor_controlvm_channel,
256 installation_remaining_steps),
257 &remaining_steps, sizeof(u16));
258 if (err)
259 return err;
260 return sprintf(buf, "%hu\n", remaining_steps);
263 static ssize_t remaining_steps_store(struct device *dev,
264 struct device_attribute *attr,
265 const char *buf, size_t count)
267 u16 remaining_steps;
268 int err;
270 if (kstrtou16(buf, 10, &remaining_steps))
271 return -EINVAL;
272 err = visorchannel_write(chipset_dev->controlvm_channel,
273 offsetof(struct visor_controlvm_channel,
274 installation_remaining_steps),
275 &remaining_steps, sizeof(u16));
276 if (err)
277 return err;
278 return count;
280 static DEVICE_ATTR_RW(remaining_steps);
282 static void controlvm_init_response(struct controlvm_message *msg,
283 struct controlvm_message_header *msg_hdr,
284 int response)
286 memset(msg, 0, sizeof(struct controlvm_message));
287 memcpy(&msg->hdr, msg_hdr, sizeof(struct controlvm_message_header));
288 msg->hdr.payload_bytes = 0;
289 msg->hdr.payload_vm_offset = 0;
290 msg->hdr.payload_max_bytes = 0;
291 if (response < 0) {
292 msg->hdr.flags.failed = 1;
293 msg->hdr.completion_status = (u32)(-response);
297 static int controlvm_respond_chipset_init(
298 struct controlvm_message_header *msg_hdr,
299 int response,
300 enum visor_chipset_feature features)
302 struct controlvm_message outmsg;
304 controlvm_init_response(&outmsg, msg_hdr, response);
305 outmsg.cmd.init_chipset.features = features;
306 return visorchannel_signalinsert(chipset_dev->controlvm_channel,
307 CONTROLVM_QUEUE_REQUEST, &outmsg);
310 static int chipset_init(struct controlvm_message *inmsg)
312 static int chipset_inited;
313 enum visor_chipset_feature features = 0;
314 int rc = CONTROLVM_RESP_SUCCESS;
315 int res = 0;
317 if (chipset_inited) {
318 rc = -CONTROLVM_RESP_ALREADY_DONE;
319 res = -EIO;
320 goto out_respond;
322 chipset_inited = 1;
324 * Set features to indicate we support parahotplug (if Command also
325 * supports it). Set the "reply" bit so Command knows this is a
326 * features-aware driver.
328 features = inmsg->cmd.init_chipset.features &
329 VISOR_CHIPSET_FEATURE_PARA_HOTPLUG;
330 features |= VISOR_CHIPSET_FEATURE_REPLY;
332 out_respond:
333 if (inmsg->hdr.flags.response_expected)
334 res = controlvm_respond_chipset_init(&inmsg->hdr, rc, features);
336 return res;
339 static int controlvm_respond(struct controlvm_message_header *msg_hdr,
340 int response, struct visor_segment_state *state)
342 struct controlvm_message outmsg;
344 controlvm_init_response(&outmsg, msg_hdr, response);
345 if (outmsg.hdr.flags.test_message == 1)
346 return -EINVAL;
347 if (state) {
348 outmsg.cmd.device_change_state.state = *state;
349 outmsg.cmd.device_change_state.flags.phys_device = 1;
351 return visorchannel_signalinsert(chipset_dev->controlvm_channel,
352 CONTROLVM_QUEUE_REQUEST, &outmsg);
355 enum crash_obj_type {
356 CRASH_DEV,
357 CRASH_BUS,
360 static int save_crash_message(struct controlvm_message *msg,
361 enum crash_obj_type cr_type)
363 u32 local_crash_msg_offset;
364 u16 local_crash_msg_count;
365 int err;
367 err = visorchannel_read(chipset_dev->controlvm_channel,
368 offsetof(struct visor_controlvm_channel,
369 saved_crash_message_count),
370 &local_crash_msg_count, sizeof(u16));
371 if (err) {
372 dev_err(&chipset_dev->acpi_device->dev,
373 "failed to read message count\n");
374 return err;
376 if (local_crash_msg_count != CONTROLVM_CRASHMSG_MAX) {
377 dev_err(&chipset_dev->acpi_device->dev,
378 "invalid number of messages\n");
379 return -EIO;
381 err = visorchannel_read(chipset_dev->controlvm_channel,
382 offsetof(struct visor_controlvm_channel,
383 saved_crash_message_offset),
384 &local_crash_msg_offset, sizeof(u32));
385 if (err) {
386 dev_err(&chipset_dev->acpi_device->dev,
387 "failed to read offset\n");
388 return err;
390 switch (cr_type) {
391 case CRASH_DEV:
392 local_crash_msg_offset += sizeof(struct controlvm_message);
393 err = visorchannel_write(chipset_dev->controlvm_channel,
394 local_crash_msg_offset, msg,
395 sizeof(struct controlvm_message));
396 if (err) {
397 dev_err(&chipset_dev->acpi_device->dev,
398 "failed to write dev msg\n");
399 return err;
401 break;
402 case CRASH_BUS:
403 err = visorchannel_write(chipset_dev->controlvm_channel,
404 local_crash_msg_offset, msg,
405 sizeof(struct controlvm_message));
406 if (err) {
407 dev_err(&chipset_dev->acpi_device->dev,
408 "failed to write bus msg\n");
409 return err;
411 break;
412 default:
413 dev_err(&chipset_dev->acpi_device->dev,
414 "Invalid crash_obj_type\n");
415 break;
417 return 0;
420 static int controlvm_responder(enum controlvm_id cmd_id,
421 struct controlvm_message_header *pending_msg_hdr,
422 int response)
424 if (pending_msg_hdr->id != (u32)cmd_id)
425 return -EINVAL;
427 return controlvm_respond(pending_msg_hdr, response, NULL);
430 static int device_changestate_responder(enum controlvm_id cmd_id,
431 struct visor_device *p, int response,
432 struct visor_segment_state state)
434 struct controlvm_message outmsg;
436 if (p->pending_msg_hdr->id != cmd_id)
437 return -EINVAL;
439 controlvm_init_response(&outmsg, p->pending_msg_hdr, response);
440 outmsg.cmd.device_change_state.bus_no = p->chipset_bus_no;
441 outmsg.cmd.device_change_state.dev_no = p->chipset_dev_no;
442 outmsg.cmd.device_change_state.state = state;
443 return visorchannel_signalinsert(chipset_dev->controlvm_channel,
444 CONTROLVM_QUEUE_REQUEST, &outmsg);
447 static int visorbus_create(struct controlvm_message *inmsg)
449 struct controlvm_message_packet *cmd = &inmsg->cmd;
450 struct controlvm_message_header *pmsg_hdr;
451 u32 bus_no = cmd->create_bus.bus_no;
452 struct visor_device *bus_info;
453 struct visorchannel *visorchannel;
454 int err;
456 bus_info = visorbus_get_device_by_id(bus_no, BUS_ROOT_DEVICE, NULL);
457 if (bus_info && bus_info->state.created == 1) {
458 dev_err(&chipset_dev->acpi_device->dev,
459 "failed %s: already exists\n", __func__);
460 err = -EEXIST;
461 goto err_respond;
463 bus_info = kzalloc(sizeof(*bus_info), GFP_KERNEL);
464 if (!bus_info) {
465 err = -ENOMEM;
466 goto err_respond;
468 INIT_LIST_HEAD(&bus_info->list_all);
469 bus_info->chipset_bus_no = bus_no;
470 bus_info->chipset_dev_no = BUS_ROOT_DEVICE;
471 if (guid_equal(&cmd->create_bus.bus_inst_guid, &visor_siovm_guid)) {
472 err = save_crash_message(inmsg, CRASH_BUS);
473 if (err)
474 goto err_free_bus_info;
476 if (inmsg->hdr.flags.response_expected == 1) {
477 pmsg_hdr = kzalloc(sizeof(*pmsg_hdr), GFP_KERNEL);
478 if (!pmsg_hdr) {
479 err = -ENOMEM;
480 goto err_free_bus_info;
482 memcpy(pmsg_hdr, &inmsg->hdr,
483 sizeof(struct controlvm_message_header));
484 bus_info->pending_msg_hdr = pmsg_hdr;
486 visorchannel = visorchannel_create(cmd->create_bus.channel_addr,
487 GFP_KERNEL,
488 &cmd->create_bus.bus_data_type_guid,
489 false);
490 if (!visorchannel) {
491 err = -ENOMEM;
492 goto err_free_pending_msg;
494 bus_info->visorchannel = visorchannel;
495 /* Response will be handled by visorbus_create_instance on success */
496 err = visorbus_create_instance(bus_info);
497 if (err)
498 goto err_destroy_channel;
499 return 0;
501 err_destroy_channel:
502 visorchannel_destroy(visorchannel);
504 err_free_pending_msg:
505 kfree(bus_info->pending_msg_hdr);
507 err_free_bus_info:
508 kfree(bus_info);
510 err_respond:
511 if (inmsg->hdr.flags.response_expected == 1)
512 controlvm_responder(inmsg->hdr.id, &inmsg->hdr, err);
513 return err;
516 static int visorbus_destroy(struct controlvm_message *inmsg)
518 struct controlvm_message_header *pmsg_hdr;
519 u32 bus_no = inmsg->cmd.destroy_bus.bus_no;
520 struct visor_device *bus_info;
521 int err;
523 bus_info = visorbus_get_device_by_id(bus_no, BUS_ROOT_DEVICE, NULL);
524 if (!bus_info) {
525 err = -ENODEV;
526 goto err_respond;
528 if (bus_info->state.created == 0) {
529 err = -ENOENT;
530 goto err_respond;
532 if (bus_info->pending_msg_hdr) {
533 /* only non-NULL if dev is still waiting on a response */
534 err = -EEXIST;
535 goto err_respond;
537 if (inmsg->hdr.flags.response_expected == 1) {
538 pmsg_hdr = kzalloc(sizeof(*pmsg_hdr), GFP_KERNEL);
539 if (!pmsg_hdr) {
540 err = -ENOMEM;
541 goto err_respond;
543 memcpy(pmsg_hdr, &inmsg->hdr,
544 sizeof(struct controlvm_message_header));
545 bus_info->pending_msg_hdr = pmsg_hdr;
547 /* Response will be handled by visorbus_remove_instance */
548 visorbus_remove_instance(bus_info);
549 return 0;
551 err_respond:
552 if (inmsg->hdr.flags.response_expected == 1)
553 controlvm_responder(inmsg->hdr.id, &inmsg->hdr, err);
554 return err;
557 static const guid_t *parser_id_get(struct parser_context *ctx)
559 return &ctx->data.id;
562 static void *parser_string_get(u8 *pscan, int nscan)
564 int value_length;
565 void *value;
567 if (nscan == 0)
568 return NULL;
570 value_length = strnlen(pscan, nscan);
571 value = kzalloc(value_length + 1, GFP_KERNEL);
572 if (!value)
573 return NULL;
574 if (value_length > 0)
575 memcpy(value, pscan, value_length);
576 return value;
579 static void *parser_name_get(struct parser_context *ctx)
581 struct visor_controlvm_parameters_header *phdr;
583 phdr = &ctx->data;
584 if ((unsigned long)phdr->name_offset +
585 (unsigned long)phdr->name_length > ctx->param_bytes)
586 return NULL;
587 ctx->curr = (char *)&phdr + phdr->name_offset;
588 ctx->bytes_remaining = phdr->name_length;
589 return parser_string_get(ctx->curr, phdr->name_length);
592 static int visorbus_configure(struct controlvm_message *inmsg,
593 struct parser_context *parser_ctx)
595 struct controlvm_message_packet *cmd = &inmsg->cmd;
596 u32 bus_no;
597 struct visor_device *bus_info;
598 int err = 0;
600 bus_no = cmd->configure_bus.bus_no;
601 bus_info = visorbus_get_device_by_id(bus_no, BUS_ROOT_DEVICE, NULL);
602 if (!bus_info) {
603 err = -EINVAL;
604 goto err_respond;
606 if (bus_info->state.created == 0) {
607 err = -EINVAL;
608 goto err_respond;
610 if (bus_info->pending_msg_hdr) {
611 err = -EIO;
612 goto err_respond;
614 err = visorchannel_set_clientpartition(bus_info->visorchannel,
615 cmd->configure_bus.guest_handle);
616 if (err)
617 goto err_respond;
618 if (parser_ctx) {
619 const guid_t *partition_guid = parser_id_get(parser_ctx);
621 guid_copy(&bus_info->partition_guid, partition_guid);
622 bus_info->name = parser_name_get(parser_ctx);
624 if (inmsg->hdr.flags.response_expected == 1)
625 controlvm_responder(inmsg->hdr.id, &inmsg->hdr, err);
626 return 0;
628 err_respond:
629 dev_err(&chipset_dev->acpi_device->dev,
630 "%s exited with err: %d\n", __func__, err);
631 if (inmsg->hdr.flags.response_expected == 1)
632 controlvm_responder(inmsg->hdr.id, &inmsg->hdr, err);
633 return err;
636 static int visorbus_device_create(struct controlvm_message *inmsg)
638 struct controlvm_message_packet *cmd = &inmsg->cmd;
639 struct controlvm_message_header *pmsg_hdr;
640 u32 bus_no = cmd->create_device.bus_no;
641 u32 dev_no = cmd->create_device.dev_no;
642 struct visor_device *dev_info;
643 struct visor_device *bus_info;
644 struct visorchannel *visorchannel;
645 int err;
647 bus_info = visorbus_get_device_by_id(bus_no, BUS_ROOT_DEVICE, NULL);
648 if (!bus_info) {
649 dev_err(&chipset_dev->acpi_device->dev,
650 "failed to get bus by id: %d\n", bus_no);
651 err = -ENODEV;
652 goto err_respond;
654 if (bus_info->state.created == 0) {
655 dev_err(&chipset_dev->acpi_device->dev,
656 "bus not created, id: %d\n", bus_no);
657 err = -EINVAL;
658 goto err_respond;
660 dev_info = visorbus_get_device_by_id(bus_no, dev_no, NULL);
661 if (dev_info && dev_info->state.created == 1) {
662 dev_err(&chipset_dev->acpi_device->dev,
663 "failed to get bus by id: %d/%d\n", bus_no, dev_no);
664 err = -EEXIST;
665 goto err_respond;
668 dev_info = kzalloc(sizeof(*dev_info), GFP_KERNEL);
669 if (!dev_info) {
670 err = -ENOMEM;
671 goto err_respond;
673 dev_info->chipset_bus_no = bus_no;
674 dev_info->chipset_dev_no = dev_no;
675 guid_copy(&dev_info->inst, &cmd->create_device.dev_inst_guid);
676 dev_info->device.parent = &bus_info->device;
677 visorchannel = visorchannel_create(cmd->create_device.channel_addr,
678 GFP_KERNEL,
679 &cmd->create_device.data_type_guid,
680 true);
681 if (!visorchannel) {
682 dev_err(&chipset_dev->acpi_device->dev,
683 "failed to create visorchannel: %d/%d\n",
684 bus_no, dev_no);
685 err = -ENOMEM;
686 goto err_free_dev_info;
688 dev_info->visorchannel = visorchannel;
689 guid_copy(&dev_info->channel_type_guid,
690 &cmd->create_device.data_type_guid);
691 if (guid_equal(&cmd->create_device.data_type_guid,
692 &visor_vhba_channel_guid)) {
693 err = save_crash_message(inmsg, CRASH_DEV);
694 if (err)
695 goto err_destroy_visorchannel;
697 if (inmsg->hdr.flags.response_expected == 1) {
698 pmsg_hdr = kzalloc(sizeof(*pmsg_hdr), GFP_KERNEL);
699 if (!pmsg_hdr) {
700 err = -ENOMEM;
701 goto err_destroy_visorchannel;
703 memcpy(pmsg_hdr, &inmsg->hdr,
704 sizeof(struct controlvm_message_header));
705 dev_info->pending_msg_hdr = pmsg_hdr;
707 /* create_visor_device will send response */
708 err = create_visor_device(dev_info);
709 if (err)
710 goto err_destroy_visorchannel;
712 return 0;
714 err_destroy_visorchannel:
715 visorchannel_destroy(visorchannel);
717 err_free_dev_info:
718 kfree(dev_info);
720 err_respond:
721 if (inmsg->hdr.flags.response_expected == 1)
722 controlvm_responder(inmsg->hdr.id, &inmsg->hdr, err);
723 return err;
726 static int visorbus_device_changestate(struct controlvm_message *inmsg)
728 struct controlvm_message_packet *cmd = &inmsg->cmd;
729 struct controlvm_message_header *pmsg_hdr;
730 u32 bus_no = cmd->device_change_state.bus_no;
731 u32 dev_no = cmd->device_change_state.dev_no;
732 struct visor_segment_state state = cmd->device_change_state.state;
733 struct visor_device *dev_info;
734 int err = 0;
736 dev_info = visorbus_get_device_by_id(bus_no, dev_no, NULL);
737 if (!dev_info) {
738 err = -ENODEV;
739 goto err_respond;
741 if (dev_info->state.created == 0) {
742 err = -EINVAL;
743 goto err_respond;
745 if (dev_info->pending_msg_hdr) {
746 /* only non-NULL if dev is still waiting on a response */
747 err = -EIO;
748 goto err_respond;
751 if (inmsg->hdr.flags.response_expected == 1) {
752 pmsg_hdr = kzalloc(sizeof(*pmsg_hdr), GFP_KERNEL);
753 if (!pmsg_hdr) {
754 err = -ENOMEM;
755 goto err_respond;
757 memcpy(pmsg_hdr, &inmsg->hdr,
758 sizeof(struct controlvm_message_header));
759 dev_info->pending_msg_hdr = pmsg_hdr;
761 if (state.alive == segment_state_running.alive &&
762 state.operating == segment_state_running.operating)
763 /* Response will be sent from visorchipset_device_resume */
764 err = visorchipset_device_resume(dev_info);
765 /* ServerNotReady / ServerLost / SegmentStateStandby */
766 else if (state.alive == segment_state_standby.alive &&
767 state.operating == segment_state_standby.operating)
769 * technically this is standby case where server is lost.
770 * Response will be sent from visorchipset_device_pause.
772 err = visorchipset_device_pause(dev_info);
773 if (err)
774 goto err_respond;
775 return 0;
777 err_respond:
778 dev_err(&chipset_dev->acpi_device->dev, "failed: %d\n", err);
779 if (inmsg->hdr.flags.response_expected == 1)
780 controlvm_responder(inmsg->hdr.id, &inmsg->hdr, err);
781 return err;
784 static int visorbus_device_destroy(struct controlvm_message *inmsg)
786 struct controlvm_message_packet *cmd = &inmsg->cmd;
787 struct controlvm_message_header *pmsg_hdr;
788 u32 bus_no = cmd->destroy_device.bus_no;
789 u32 dev_no = cmd->destroy_device.dev_no;
790 struct visor_device *dev_info;
791 int err;
793 dev_info = visorbus_get_device_by_id(bus_no, dev_no, NULL);
794 if (!dev_info) {
795 err = -ENODEV;
796 goto err_respond;
798 if (dev_info->state.created == 0) {
799 err = -EINVAL;
800 goto err_respond;
802 if (dev_info->pending_msg_hdr) {
803 /* only non-NULL if dev is still waiting on a response */
804 err = -EIO;
805 goto err_respond;
807 if (inmsg->hdr.flags.response_expected == 1) {
808 pmsg_hdr = kzalloc(sizeof(*pmsg_hdr), GFP_KERNEL);
809 if (!pmsg_hdr) {
810 err = -ENOMEM;
811 goto err_respond;
814 memcpy(pmsg_hdr, &inmsg->hdr,
815 sizeof(struct controlvm_message_header));
816 dev_info->pending_msg_hdr = pmsg_hdr;
818 kfree(dev_info->name);
819 remove_visor_device(dev_info);
820 return 0;
822 err_respond:
823 if (inmsg->hdr.flags.response_expected == 1)
824 controlvm_responder(inmsg->hdr.id, &inmsg->hdr, err);
825 return err;
829 * The general parahotplug flow works as follows. The visorchipset receives
830 * a DEVICE_CHANGESTATE message from Command specifying a physical device
831 * to enable or disable. The CONTROLVM message handler calls
832 * parahotplug_process_message, which then adds the message to a global list
833 * and kicks off a udev event which causes a user level script to enable or
834 * disable the specified device. The udev script then writes to
835 * /sys/devices/platform/visorchipset/parahotplug, which causes the
836 * parahotplug store functions to get called, at which point the
837 * appropriate CONTROLVM message is retrieved from the list and responded to.
840 #define PARAHOTPLUG_TIMEOUT_MS 2000
843 * parahotplug_next_id() - generate unique int to match an outstanding
844 * CONTROLVM message with a udev script /sys
845 * response
847 * Return: a unique integer value
849 static int parahotplug_next_id(void)
851 static atomic_t id = ATOMIC_INIT(0);
853 return atomic_inc_return(&id);
857 * parahotplug_next_expiration() - returns the time (in jiffies) when a
858 * CONTROLVM message on the list should expire
859 * -- PARAHOTPLUG_TIMEOUT_MS in the future
861 * Return: expected expiration time (in jiffies)
863 static unsigned long parahotplug_next_expiration(void)
865 return jiffies + msecs_to_jiffies(PARAHOTPLUG_TIMEOUT_MS);
869 * parahotplug_request_create() - create a parahotplug_request, which is
870 * basically a wrapper for a CONTROLVM_MESSAGE
871 * that we can stick on a list
872 * @msg: the message to insert in the request
874 * Return: the request containing the provided message
876 static struct parahotplug_request *parahotplug_request_create(
877 struct controlvm_message *msg)
879 struct parahotplug_request *req;
881 req = kmalloc(sizeof(*req), GFP_KERNEL);
882 if (!req)
883 return NULL;
884 req->id = parahotplug_next_id();
885 req->expiration = parahotplug_next_expiration();
886 req->msg = *msg;
887 return req;
891 * parahotplug_request_destroy() - free a parahotplug_request
892 * @req: the request to deallocate
894 static void parahotplug_request_destroy(struct parahotplug_request *req)
896 kfree(req);
899 static LIST_HEAD(parahotplug_request_list);
900 /* lock for above */
901 static DEFINE_SPINLOCK(parahotplug_request_list_lock);
904 * parahotplug_request_complete() - mark request as complete
905 * @id: the id of the request
906 * @active: indicates whether the request is assigned to active partition
908 * Called from the /sys handler, which means the user script has
909 * finished the enable/disable. Find the matching identifier, and
910 * respond to the CONTROLVM message with success.
912 * Return: 0 on success or -EINVAL on failure
914 static int parahotplug_request_complete(int id, u16 active)
916 struct list_head *pos;
917 struct list_head *tmp;
918 struct parahotplug_request *req;
920 spin_lock(&parahotplug_request_list_lock);
921 /* Look for a request matching "id". */
922 list_for_each_safe(pos, tmp, &parahotplug_request_list) {
923 req = list_entry(pos, struct parahotplug_request, list);
924 if (req->id == id) {
926 * Found a match. Remove it from the list and
927 * respond.
929 list_del(pos);
930 spin_unlock(&parahotplug_request_list_lock);
931 req->msg.cmd.device_change_state.state.active = active;
932 if (req->msg.hdr.flags.response_expected)
933 controlvm_respond(
934 &req->msg.hdr, CONTROLVM_RESP_SUCCESS,
935 &req->msg.cmd.device_change_state.state);
936 parahotplug_request_destroy(req);
937 return 0;
940 spin_unlock(&parahotplug_request_list_lock);
941 return -EINVAL;
945 * devicedisabled_store() - disables the hotplug device
946 * @dev: sysfs interface variable not utilized in this function
947 * @attr: sysfs interface variable not utilized in this function
948 * @buf: buffer containing the device id
949 * @count: the size of the buffer
951 * The parahotplug/devicedisabled interface gets called by our support script
952 * when an SR-IOV device has been shut down. The ID is passed to the script
953 * and then passed back when the device has been removed.
955 * Return: the size of the buffer for success or negative for error
957 static ssize_t devicedisabled_store(struct device *dev,
958 struct device_attribute *attr,
959 const char *buf, size_t count)
961 unsigned int id;
962 int err;
964 if (kstrtouint(buf, 10, &id))
965 return -EINVAL;
966 err = parahotplug_request_complete(id, 0);
967 if (err < 0)
968 return err;
969 return count;
971 static DEVICE_ATTR_WO(devicedisabled);
974 * deviceenabled_store() - enables the hotplug device
975 * @dev: sysfs interface variable not utilized in this function
976 * @attr: sysfs interface variable not utilized in this function
977 * @buf: buffer containing the device id
978 * @count: the size of the buffer
980 * The parahotplug/deviceenabled interface gets called by our support script
981 * when an SR-IOV device has been recovered. The ID is passed to the script
982 * and then passed back when the device has been brought back up.
984 * Return: the size of the buffer for success or negative for error
986 static ssize_t deviceenabled_store(struct device *dev,
987 struct device_attribute *attr,
988 const char *buf, size_t count)
990 unsigned int id;
992 if (kstrtouint(buf, 10, &id))
993 return -EINVAL;
994 parahotplug_request_complete(id, 1);
995 return count;
997 static DEVICE_ATTR_WO(deviceenabled);
999 static struct attribute *visorchipset_install_attrs[] = {
1000 &dev_attr_toolaction.attr,
1001 &dev_attr_boottotool.attr,
1002 &dev_attr_error.attr,
1003 &dev_attr_textid.attr,
1004 &dev_attr_remaining_steps.attr,
1005 NULL
1008 static const struct attribute_group visorchipset_install_group = {
1009 .name = "install",
1010 .attrs = visorchipset_install_attrs
1013 static struct attribute *visorchipset_parahotplug_attrs[] = {
1014 &dev_attr_devicedisabled.attr,
1015 &dev_attr_deviceenabled.attr,
1016 NULL
1019 static const struct attribute_group visorchipset_parahotplug_group = {
1020 .name = "parahotplug",
1021 .attrs = visorchipset_parahotplug_attrs
1024 static const struct attribute_group *visorchipset_dev_groups[] = {
1025 &visorchipset_install_group,
1026 &visorchipset_parahotplug_group,
1027 NULL
1031 * parahotplug_request_kickoff() - initiate parahotplug request
1032 * @req: the request to initiate
1034 * Cause uevent to run the user level script to do the disable/enable specified
1035 * in the parahotplug_request.
1037 static int parahotplug_request_kickoff(struct parahotplug_request *req)
1039 struct controlvm_message_packet *cmd = &req->msg.cmd;
1040 char env_cmd[40], env_id[40], env_state[40], env_bus[40], env_dev[40],
1041 env_func[40];
1042 char *envp[] = { env_cmd, env_id, env_state, env_bus, env_dev,
1043 env_func, NULL
1046 sprintf(env_cmd, "VISOR_PARAHOTPLUG=1");
1047 sprintf(env_id, "VISOR_PARAHOTPLUG_ID=%d", req->id);
1048 sprintf(env_state, "VISOR_PARAHOTPLUG_STATE=%d",
1049 cmd->device_change_state.state.active);
1050 sprintf(env_bus, "VISOR_PARAHOTPLUG_BUS=%d",
1051 cmd->device_change_state.bus_no);
1052 sprintf(env_dev, "VISOR_PARAHOTPLUG_DEVICE=%d",
1053 cmd->device_change_state.dev_no >> 3);
1054 sprintf(env_func, "VISOR_PARAHOTPLUG_FUNCTION=%d",
1055 cmd->device_change_state.dev_no & 0x7);
1056 return kobject_uevent_env(&chipset_dev->acpi_device->dev.kobj,
1057 KOBJ_CHANGE, envp);
1061 * parahotplug_process_message() - enables or disables a PCI device by kicking
1062 * off a udev script
1063 * @inmsg: the message indicating whether to enable or disable
1065 static int parahotplug_process_message(struct controlvm_message *inmsg)
1067 struct parahotplug_request *req;
1068 int err;
1070 req = parahotplug_request_create(inmsg);
1071 if (!req)
1072 return -ENOMEM;
1074 * For enable messages, just respond with success right away, we don't
1075 * need to wait to see if the enable was successful.
1077 if (inmsg->cmd.device_change_state.state.active) {
1078 err = parahotplug_request_kickoff(req);
1079 if (err)
1080 goto err_respond;
1081 controlvm_respond(&inmsg->hdr, CONTROLVM_RESP_SUCCESS,
1082 &inmsg->cmd.device_change_state.state);
1083 parahotplug_request_destroy(req);
1084 return 0;
1087 * For disable messages, add the request to the request list before
1088 * kicking off the udev script. It won't get responded to until the
1089 * script has indicated it's done.
1091 spin_lock(&parahotplug_request_list_lock);
1092 list_add_tail(&req->list, &parahotplug_request_list);
1093 spin_unlock(&parahotplug_request_list_lock);
1094 err = parahotplug_request_kickoff(req);
1095 if (err)
1096 goto err_respond;
1097 return 0;
1099 err_respond:
1100 controlvm_respond(&inmsg->hdr, err,
1101 &inmsg->cmd.device_change_state.state);
1102 return err;
1106 * chipset_ready_uevent() - sends chipset_ready action
1108 * Send ACTION=online for DEVPATH=/sys/devices/platform/visorchipset.
1110 * Return: 0 on success, negative on failure
1112 static int chipset_ready_uevent(struct controlvm_message_header *msg_hdr)
1114 int res;
1116 res = kobject_uevent(&chipset_dev->acpi_device->dev.kobj, KOBJ_ONLINE);
1117 if (msg_hdr->flags.response_expected)
1118 controlvm_respond(msg_hdr, res, NULL);
1119 return res;
1123 * chipset_selftest_uevent() - sends chipset_selftest action
1125 * Send ACTION=online for DEVPATH=/sys/devices/platform/visorchipset.
1127 * Return: 0 on success, negative on failure
1129 static int chipset_selftest_uevent(struct controlvm_message_header *msg_hdr)
1131 char env_selftest[20];
1132 char *envp[] = { env_selftest, NULL };
1133 int res;
1135 sprintf(env_selftest, "SPARSP_SELFTEST=%d", 1);
1136 res = kobject_uevent_env(&chipset_dev->acpi_device->dev.kobj,
1137 KOBJ_CHANGE, envp);
1138 if (msg_hdr->flags.response_expected)
1139 controlvm_respond(msg_hdr, res, NULL);
1140 return res;
1144 * chipset_notready_uevent() - sends chipset_notready action
1146 * Send ACTION=offline for DEVPATH=/sys/devices/platform/visorchipset.
1148 * Return: 0 on success, negative on failure
1150 static int chipset_notready_uevent(struct controlvm_message_header *msg_hdr)
1152 int res = kobject_uevent(&chipset_dev->acpi_device->dev.kobj,
1153 KOBJ_OFFLINE);
1155 if (msg_hdr->flags.response_expected)
1156 controlvm_respond(msg_hdr, res, NULL);
1157 return res;
1160 static int unisys_vmcall(unsigned long tuple, unsigned long param)
1162 int result = 0;
1163 unsigned int cpuid_eax, cpuid_ebx, cpuid_ecx, cpuid_edx;
1164 unsigned long reg_ebx;
1165 unsigned long reg_ecx;
1167 reg_ebx = param & 0xFFFFFFFF;
1168 reg_ecx = param >> 32;
1169 cpuid(0x00000001, &cpuid_eax, &cpuid_ebx, &cpuid_ecx, &cpuid_edx);
1170 if (!(cpuid_ecx & 0x80000000))
1171 return -EPERM;
1172 __asm__ __volatile__(".byte 0x00f, 0x001, 0x0c1" : "=a"(result) :
1173 "a"(tuple), "b"(reg_ebx), "c"(reg_ecx));
1174 if (result)
1175 goto error;
1176 return 0;
1178 /* Need to convert from VMCALL error codes to Linux */
1179 error:
1180 switch (result) {
1181 case VMCALL_RESULT_INVALID_PARAM:
1182 return -EINVAL;
1183 case VMCALL_RESULT_DATA_UNAVAILABLE:
1184 return -ENODEV;
1185 default:
1186 return -EFAULT;
1190 static int controlvm_channel_create(struct visorchipset_device *dev)
1192 struct visorchannel *chan;
1193 u64 addr;
1194 int err;
1196 err = unisys_vmcall(VMCALL_CONTROLVM_ADDR,
1197 virt_to_phys(&dev->controlvm_params));
1198 if (err)
1199 return err;
1200 addr = dev->controlvm_params.address;
1201 chan = visorchannel_create(addr, GFP_KERNEL,
1202 &visor_controlvm_channel_guid, true);
1203 if (!chan)
1204 return -ENOMEM;
1205 dev->controlvm_channel = chan;
1206 return 0;
1209 static void setup_crash_devices_work_queue(struct work_struct *work)
1211 struct controlvm_message local_crash_bus_msg;
1212 struct controlvm_message local_crash_dev_msg;
1213 struct controlvm_message msg = {
1214 .hdr.id = CONTROLVM_CHIPSET_INIT,
1215 .cmd.init_chipset = {
1216 .bus_count = 23,
1217 .switch_count = 0,
1220 u32 local_crash_msg_offset;
1221 u16 local_crash_msg_count;
1223 /* send init chipset msg */
1224 chipset_init(&msg);
1225 /* get saved message count */
1226 if (visorchannel_read(chipset_dev->controlvm_channel,
1227 offsetof(struct visor_controlvm_channel,
1228 saved_crash_message_count),
1229 &local_crash_msg_count, sizeof(u16)) < 0) {
1230 dev_err(&chipset_dev->acpi_device->dev,
1231 "failed to read channel\n");
1232 return;
1234 if (local_crash_msg_count != CONTROLVM_CRASHMSG_MAX) {
1235 dev_err(&chipset_dev->acpi_device->dev, "invalid count\n");
1236 return;
1238 /* get saved crash message offset */
1239 if (visorchannel_read(chipset_dev->controlvm_channel,
1240 offsetof(struct visor_controlvm_channel,
1241 saved_crash_message_offset),
1242 &local_crash_msg_offset, sizeof(u32)) < 0) {
1243 dev_err(&chipset_dev->acpi_device->dev,
1244 "failed to read channel\n");
1245 return;
1247 /* read create device message for storage bus offset */
1248 if (visorchannel_read(chipset_dev->controlvm_channel,
1249 local_crash_msg_offset,
1250 &local_crash_bus_msg,
1251 sizeof(struct controlvm_message)) < 0) {
1252 dev_err(&chipset_dev->acpi_device->dev,
1253 "failed to read channel\n");
1254 return;
1256 /* read create device message for storage device */
1257 if (visorchannel_read(chipset_dev->controlvm_channel,
1258 local_crash_msg_offset +
1259 sizeof(struct controlvm_message),
1260 &local_crash_dev_msg,
1261 sizeof(struct controlvm_message)) < 0) {
1262 dev_err(&chipset_dev->acpi_device->dev,
1263 "failed to read channel\n");
1264 return;
1266 /* reuse IOVM create bus message */
1267 if (!local_crash_bus_msg.cmd.create_bus.channel_addr) {
1268 dev_err(&chipset_dev->acpi_device->dev,
1269 "no valid create_bus message\n");
1270 return;
1272 visorbus_create(&local_crash_bus_msg);
1273 /* reuse create device message for storage device */
1274 if (!local_crash_dev_msg.cmd.create_device.channel_addr) {
1275 dev_err(&chipset_dev->acpi_device->dev,
1276 "no valid create_device message\n");
1277 return;
1279 visorbus_device_create(&local_crash_dev_msg);
1282 void visorbus_response(struct visor_device *bus_info, int response,
1283 int controlvm_id)
1285 if (!bus_info->pending_msg_hdr)
1286 return;
1288 controlvm_responder(controlvm_id, bus_info->pending_msg_hdr, response);
1289 kfree(bus_info->pending_msg_hdr);
1290 bus_info->pending_msg_hdr = NULL;
1293 void visorbus_device_changestate_response(struct visor_device *dev_info,
1294 int response,
1295 struct visor_segment_state state)
1297 if (!dev_info->pending_msg_hdr)
1298 return;
1300 device_changestate_responder(CONTROLVM_DEVICE_CHANGESTATE, dev_info,
1301 response, state);
1302 kfree(dev_info->pending_msg_hdr);
1303 dev_info->pending_msg_hdr = NULL;
1306 static void parser_done(struct parser_context *ctx)
1308 chipset_dev->controlvm_payload_bytes_buffered -= ctx->param_bytes;
1309 kfree(ctx);
1312 static struct parser_context *parser_init_stream(u64 addr, u32 bytes,
1313 bool *retry)
1315 unsigned long allocbytes;
1316 struct parser_context *ctx;
1317 void *mapping;
1319 *retry = false;
1320 /* alloc an extra byte to ensure payload is \0 terminated */
1321 allocbytes = (unsigned long)bytes + 1 + (sizeof(struct parser_context) -
1322 sizeof(struct visor_controlvm_parameters_header));
1323 if ((chipset_dev->controlvm_payload_bytes_buffered + bytes) >
1324 MAX_CONTROLVM_PAYLOAD_BYTES) {
1325 *retry = true;
1326 return NULL;
1328 ctx = kzalloc(allocbytes, GFP_KERNEL);
1329 if (!ctx) {
1330 *retry = true;
1331 return NULL;
1333 ctx->allocbytes = allocbytes;
1334 ctx->param_bytes = bytes;
1335 mapping = memremap(addr, bytes, MEMREMAP_WB);
1336 if (!mapping)
1337 goto err_finish_ctx;
1338 memcpy(&ctx->data, mapping, bytes);
1339 memunmap(mapping);
1340 ctx->byte_stream = true;
1341 chipset_dev->controlvm_payload_bytes_buffered += ctx->param_bytes;
1342 return ctx;
1344 err_finish_ctx:
1345 kfree(ctx);
1346 return NULL;
1350 * handle_command() - process a controlvm message
1351 * @inmsg: the message to process
1352 * @channel_addr: address of the controlvm channel
1354 * Return:
1355 * 0 - Successfully processed the message
1356 * -EAGAIN - ControlVM message was not processed and should be retried
1357 * reading the next controlvm message; a scenario where this can
1358 * occur is when we need to throttle the allocation of memory in
1359 * which to copy out controlvm payload data.
1360 * < 0 - error: ControlVM message was processed but an error occurred.
1362 static int handle_command(struct controlvm_message inmsg, u64 channel_addr)
1364 struct controlvm_message_packet *cmd = &inmsg.cmd;
1365 u64 parm_addr;
1366 u32 parm_bytes;
1367 struct parser_context *parser_ctx = NULL;
1368 struct controlvm_message ackmsg;
1369 int err = 0;
1371 /* create parsing context if necessary */
1372 parm_addr = channel_addr + inmsg.hdr.payload_vm_offset;
1373 parm_bytes = inmsg.hdr.payload_bytes;
1375 * Parameter and channel addresses within test messages actually lie
1376 * within our OS-controlled memory. We need to know that, because it
1377 * makes a difference in how we compute the virtual address.
1379 if (parm_bytes) {
1380 bool retry;
1382 parser_ctx = parser_init_stream(parm_addr, parm_bytes, &retry);
1383 if (!parser_ctx && retry)
1384 return -EAGAIN;
1386 controlvm_init_response(&ackmsg, &inmsg.hdr, CONTROLVM_RESP_SUCCESS);
1387 err = visorchannel_signalinsert(chipset_dev->controlvm_channel,
1388 CONTROLVM_QUEUE_ACK, &ackmsg);
1389 if (err)
1390 return err;
1391 switch (inmsg.hdr.id) {
1392 case CONTROLVM_CHIPSET_INIT:
1393 err = chipset_init(&inmsg);
1394 break;
1395 case CONTROLVM_BUS_CREATE:
1396 err = visorbus_create(&inmsg);
1397 break;
1398 case CONTROLVM_BUS_DESTROY:
1399 err = visorbus_destroy(&inmsg);
1400 break;
1401 case CONTROLVM_BUS_CONFIGURE:
1402 err = visorbus_configure(&inmsg, parser_ctx);
1403 break;
1404 case CONTROLVM_DEVICE_CREATE:
1405 err = visorbus_device_create(&inmsg);
1406 break;
1407 case CONTROLVM_DEVICE_CHANGESTATE:
1408 if (cmd->device_change_state.flags.phys_device) {
1409 err = parahotplug_process_message(&inmsg);
1410 } else {
1412 * save the hdr and cmd structures for later use when
1413 * sending back the response to Command
1415 err = visorbus_device_changestate(&inmsg);
1416 break;
1418 break;
1419 case CONTROLVM_DEVICE_DESTROY:
1420 err = visorbus_device_destroy(&inmsg);
1421 break;
1422 case CONTROLVM_DEVICE_CONFIGURE:
1423 /* no op just send a respond that we passed */
1424 if (inmsg.hdr.flags.response_expected)
1425 controlvm_respond(&inmsg.hdr, CONTROLVM_RESP_SUCCESS,
1426 NULL);
1427 break;
1428 case CONTROLVM_CHIPSET_READY:
1429 err = chipset_ready_uevent(&inmsg.hdr);
1430 break;
1431 case CONTROLVM_CHIPSET_SELFTEST:
1432 err = chipset_selftest_uevent(&inmsg.hdr);
1433 break;
1434 case CONTROLVM_CHIPSET_STOP:
1435 err = chipset_notready_uevent(&inmsg.hdr);
1436 break;
1437 default:
1438 err = -ENOMSG;
1439 if (inmsg.hdr.flags.response_expected)
1440 controlvm_respond(&inmsg.hdr,
1441 -CONTROLVM_RESP_ID_UNKNOWN, NULL);
1442 break;
1444 if (parser_ctx) {
1445 parser_done(parser_ctx);
1446 parser_ctx = NULL;
1448 return err;
1452 * read_controlvm_event() - retreives the next message from the
1453 * CONTROLVM_QUEUE_EVENT queue in the controlvm
1454 * channel
1455 * @msg: pointer to the retrieved message
1457 * Return: 0 if valid message was retrieved or -error
1459 static int read_controlvm_event(struct controlvm_message *msg)
1461 int err = visorchannel_signalremove(chipset_dev->controlvm_channel,
1462 CONTROLVM_QUEUE_EVENT, msg);
1464 if (err)
1465 return err;
1466 /* got a message */
1467 if (msg->hdr.flags.test_message == 1)
1468 return -EINVAL;
1469 return 0;
1473 * parahotplug_process_list() - remove any request from the list that's been on
1474 * there too long and respond with an error
1476 static void parahotplug_process_list(void)
1478 struct list_head *pos;
1479 struct list_head *tmp;
1481 spin_lock(&parahotplug_request_list_lock);
1482 list_for_each_safe(pos, tmp, &parahotplug_request_list) {
1483 struct parahotplug_request *req =
1484 list_entry(pos, struct parahotplug_request, list);
1486 if (!time_after_eq(jiffies, req->expiration))
1487 continue;
1488 list_del(pos);
1489 if (req->msg.hdr.flags.response_expected)
1490 controlvm_respond(
1491 &req->msg.hdr,
1492 CONTROLVM_RESP_DEVICE_UDEV_TIMEOUT,
1493 &req->msg.cmd.device_change_state.state);
1494 parahotplug_request_destroy(req);
1496 spin_unlock(&parahotplug_request_list_lock);
1499 static void controlvm_periodic_work(struct work_struct *work)
1501 struct controlvm_message inmsg;
1502 int count = 0;
1503 int err;
1505 /* Drain the RESPONSE queue make it empty */
1506 do {
1507 err = visorchannel_signalremove(chipset_dev->controlvm_channel,
1508 CONTROLVM_QUEUE_RESPONSE,
1509 &inmsg);
1510 } while ((!err) && (++count < CONTROLVM_MESSAGE_MAX));
1511 if (err != -EAGAIN)
1512 goto schedule_out;
1513 if (chipset_dev->controlvm_pending_msg_valid) {
1515 * we throttled processing of a prior msg, so try to process
1516 * it again rather than reading a new one
1518 inmsg = chipset_dev->controlvm_pending_msg;
1519 chipset_dev->controlvm_pending_msg_valid = false;
1520 err = 0;
1521 } else {
1522 err = read_controlvm_event(&inmsg);
1524 while (!err) {
1525 chipset_dev->most_recent_message_jiffies = jiffies;
1526 err = handle_command(inmsg,
1527 visorchannel_get_physaddr
1528 (chipset_dev->controlvm_channel));
1529 if (err == -EAGAIN) {
1530 chipset_dev->controlvm_pending_msg = inmsg;
1531 chipset_dev->controlvm_pending_msg_valid = true;
1532 break;
1535 err = read_controlvm_event(&inmsg);
1537 /* parahotplug_worker */
1538 parahotplug_process_list();
1541 * The controlvm messages are sent in a bulk. If we start receiving messages, we
1542 * want the polling to be fast. If we do not receive any message for
1543 * MIN_IDLE_SECONDS, we can slow down the polling.
1545 schedule_out:
1546 if (time_after(jiffies, chipset_dev->most_recent_message_jiffies +
1547 (HZ * MIN_IDLE_SECONDS))) {
1549 * it's been longer than MIN_IDLE_SECONDS since we processed
1550 * our last controlvm message; slow down the polling
1552 if (chipset_dev->poll_jiffies != POLLJIFFIES_CONTROLVM_SLOW)
1553 chipset_dev->poll_jiffies = POLLJIFFIES_CONTROLVM_SLOW;
1554 } else {
1555 if (chipset_dev->poll_jiffies != POLLJIFFIES_CONTROLVM_FAST)
1556 chipset_dev->poll_jiffies = POLLJIFFIES_CONTROLVM_FAST;
1558 schedule_delayed_work(&chipset_dev->periodic_controlvm_work,
1559 chipset_dev->poll_jiffies);
1562 static int visorchipset_init(struct acpi_device *acpi_device)
1564 int err = -ENODEV;
1565 struct visorchannel *controlvm_channel;
1567 chipset_dev = kzalloc(sizeof(*chipset_dev), GFP_KERNEL);
1568 if (!chipset_dev)
1569 goto error;
1570 err = controlvm_channel_create(chipset_dev);
1571 if (err)
1572 goto error_free_chipset_dev;
1573 acpi_device->driver_data = chipset_dev;
1574 chipset_dev->acpi_device = acpi_device;
1575 chipset_dev->poll_jiffies = POLLJIFFIES_CONTROLVM_FAST;
1576 err = sysfs_create_groups(&chipset_dev->acpi_device->dev.kobj,
1577 visorchipset_dev_groups);
1578 if (err < 0)
1579 goto error_destroy_channel;
1580 controlvm_channel = chipset_dev->controlvm_channel;
1581 if (!visor_check_channel(visorchannel_get_header(controlvm_channel),
1582 &chipset_dev->acpi_device->dev,
1583 &visor_controlvm_channel_guid,
1584 "controlvm",
1585 sizeof(struct visor_controlvm_channel),
1586 VISOR_CONTROLVM_CHANNEL_VERSIONID,
1587 VISOR_CHANNEL_SIGNATURE))
1588 goto error_delete_groups;
1589 /* if booting in a crash kernel */
1590 if (is_kdump_kernel())
1591 INIT_DELAYED_WORK(&chipset_dev->periodic_controlvm_work,
1592 setup_crash_devices_work_queue);
1593 else
1594 INIT_DELAYED_WORK(&chipset_dev->periodic_controlvm_work,
1595 controlvm_periodic_work);
1596 chipset_dev->most_recent_message_jiffies = jiffies;
1597 chipset_dev->poll_jiffies = POLLJIFFIES_CONTROLVM_FAST;
1598 schedule_delayed_work(&chipset_dev->periodic_controlvm_work,
1599 chipset_dev->poll_jiffies);
1600 err = visorbus_init();
1601 if (err < 0)
1602 goto error_cancel_work;
1603 return 0;
1605 error_cancel_work:
1606 cancel_delayed_work_sync(&chipset_dev->periodic_controlvm_work);
1608 error_delete_groups:
1609 sysfs_remove_groups(&chipset_dev->acpi_device->dev.kobj,
1610 visorchipset_dev_groups);
1612 error_destroy_channel:
1613 visorchannel_destroy(chipset_dev->controlvm_channel);
1615 error_free_chipset_dev:
1616 kfree(chipset_dev);
1618 error:
1619 dev_err(&acpi_device->dev, "failed with error %d\n", err);
1620 return err;
1623 static int visorchipset_exit(struct acpi_device *acpi_device)
1625 visorbus_exit();
1626 cancel_delayed_work_sync(&chipset_dev->periodic_controlvm_work);
1627 sysfs_remove_groups(&chipset_dev->acpi_device->dev.kobj,
1628 visorchipset_dev_groups);
1629 visorchannel_destroy(chipset_dev->controlvm_channel);
1630 kfree(chipset_dev);
1631 return 0;
1634 static const struct acpi_device_id unisys_device_ids[] = {
1635 {"PNP0A07", 0},
1636 {"", 0},
1639 static struct acpi_driver unisys_acpi_driver = {
1640 .name = "unisys_acpi",
1641 .class = "unisys_acpi_class",
1642 .owner = THIS_MODULE,
1643 .ids = unisys_device_ids,
1644 .ops = {
1645 .add = visorchipset_init,
1646 .remove = visorchipset_exit,
1650 MODULE_DEVICE_TABLE(acpi, unisys_device_ids);
1652 static __init int visorutil_spar_detect(void)
1654 unsigned int eax, ebx, ecx, edx;
1656 if (boot_cpu_has(X86_FEATURE_HYPERVISOR)) {
1657 /* check the ID */
1658 cpuid(UNISYS_VISOR_LEAF_ID, &eax, &ebx, &ecx, &edx);
1659 return (ebx == UNISYS_VISOR_ID_EBX) &&
1660 (ecx == UNISYS_VISOR_ID_ECX) &&
1661 (edx == UNISYS_VISOR_ID_EDX);
1663 return 0;
1666 static int __init init_unisys(void)
1668 int result;
1670 if (!visorutil_spar_detect())
1671 return -ENODEV;
1672 result = acpi_bus_register_driver(&unisys_acpi_driver);
1673 if (result)
1674 return -ENODEV;
1675 pr_info("Unisys Visorchipset Driver Loaded.\n");
1676 return 0;
1679 static void __exit exit_unisys(void)
1681 acpi_bus_unregister_driver(&unisys_acpi_driver);
1684 module_init(init_unisys);
1685 module_exit(exit_unisys);
1687 MODULE_AUTHOR("Unisys");
1688 MODULE_LICENSE("GPL");
1689 MODULE_DESCRIPTION("s-Par visorbus driver for virtual device buses");