1 /* SPDX-License-Identifier: (GPL-2.0 OR CDDL-1.0) */
2 /*
3 * vboxguest vmm-req and hgcm-call code, VBoxGuestR0LibHGCMInternal.cpp,
4 * VBoxGuestR0LibGenericRequest.cpp and RTErrConvertToErrno.cpp in vbox svn.
5 *
6 * Copyright (C) 2006-2016 Oracle Corporation
7 */
8
9 #include <linux/errno.h>
10 #include <linux/io.h>
11 #include <linux/kernel.h>
12 #include <linux/mm.h>
13 #include <linux/module.h>
14 #include <linux/sizes.h>
15 #include <linux/slab.h>
16 #include <linux/uaccess.h>
17 #include <linux/vmalloc.h>
18 #include <linux/vbox_err.h>
19 #include <linux/vbox_utils.h>
20 #include "vboxguest_core.h"
21
22 /* Get the pointer to the first parameter of a HGCM call request. */
23 #define VMMDEV_HGCM_CALL_PARMS(a) \
24 ((struct vmmdev_hgcm_function_parameter *)( \
25 (u8 *)(a) + sizeof(struct vmmdev_hgcm_call)))
26
27 /* The max parameter buffer size for a user request. */
28 #define VBG_MAX_HGCM_USER_PARM (24 * SZ_1M)
29 /* The max parameter buffer size for a kernel request. */
30 #define VBG_MAX_HGCM_KERNEL_PARM (16 * SZ_1M)
31
32 #define VBG_DEBUG_PORT 0x504
33
34 /* This protects vbg_log_buf and serializes VBG_DEBUG_PORT accesses */
35 static DEFINE_SPINLOCK(vbg_log_lock);
36 static char vbg_log_buf[128];
37
38 #define VBG_LOG(name, pr_func) \
39 void name(const char *fmt, ...) \
40 { \
41 unsigned long flags; \
42 va_list args; \
43 int i, count; \
44 \
45 va_start(args, fmt); \
46 spin_lock_irqsave(&vbg_log_lock, flags); \
47 \
48 count = vscnprintf(vbg_log_buf, sizeof(vbg_log_buf), fmt, args);\
49 for (i = 0; i < count; i++) \
50 outb(vbg_log_buf[i], VBG_DEBUG_PORT); \
51 \
52 pr_func("%s", vbg_log_buf); \
53 \
54 spin_unlock_irqrestore(&vbg_log_lock, flags); \
55 va_end(args); \
56 } \
57 EXPORT_SYMBOL(name)
58
59 VBG_LOG(vbg_info, pr_info);
60 VBG_LOG(vbg_warn, pr_warn);
61 VBG_LOG(vbg_err, pr_err);
62 VBG_LOG(vbg_err_ratelimited, pr_err_ratelimited);
63 #if defined(DEBUG) && !defined(CONFIG_DYNAMIC_DEBUG)
64 VBG_LOG(vbg_debug, pr_debug);
65 #endif
66
vbg_req_alloc(size_t len,enum vmmdev_request_type req_type,u32 requestor)67 void *vbg_req_alloc(size_t len, enum vmmdev_request_type req_type,
68 u32 requestor)
69 {
70 struct vmmdev_request_header *req;
71 int order = get_order(PAGE_ALIGN(len));
72
73 req = (void *)__get_free_pages(GFP_KERNEL | GFP_DMA32, order);
74 if (!req)
75 return NULL;
76
77 memset(req, 0xaa, len);
78
79 req->size = len;
80 req->version = VMMDEV_REQUEST_HEADER_VERSION;
81 req->request_type = req_type;
82 req->rc = VERR_GENERAL_FAILURE;
83 req->reserved1 = 0;
84 req->requestor = requestor;
85
86 return req;
87 }
88
vbg_req_free(void * req,size_t len)89 void vbg_req_free(void *req, size_t len)
90 {
91 if (!req)
92 return;
93
94 free_pages((unsigned long)req, get_order(PAGE_ALIGN(len)));
95 }
96
97 /* Note this function returns a VBox status code, not a negative errno!! */
vbg_req_perform(struct vbg_dev * gdev,void * req)98 int vbg_req_perform(struct vbg_dev *gdev, void *req)
99 {
100 unsigned long phys_req = virt_to_phys(req);
101
102 outl(phys_req, gdev->io_port + VMMDEV_PORT_OFF_REQUEST);
103 /*
104 * The host changes the request as a result of the outl, make sure
105 * the outl and any reads of the req happen in the correct order.
106 */
107 mb();
108
109 return ((struct vmmdev_request_header *)req)->rc;
110 }
111
hgcm_req_done(struct vbg_dev * gdev,struct vmmdev_hgcmreq_header * header)112 static bool hgcm_req_done(struct vbg_dev *gdev,
113 struct vmmdev_hgcmreq_header *header)
114 {
115 unsigned long flags;
116 bool done;
117
118 spin_lock_irqsave(&gdev->event_spinlock, flags);
119 done = header->flags & VMMDEV_HGCM_REQ_DONE;
120 spin_unlock_irqrestore(&gdev->event_spinlock, flags);
121
122 return done;
123 }
124
vbg_hgcm_connect(struct vbg_dev * gdev,u32 requestor,struct vmmdev_hgcm_service_location * loc,u32 * client_id,int * vbox_status)125 int vbg_hgcm_connect(struct vbg_dev *gdev, u32 requestor,
126 struct vmmdev_hgcm_service_location *loc,
127 u32 *client_id, int *vbox_status)
128 {
129 struct vmmdev_hgcm_connect *hgcm_connect = NULL;
130 int rc;
131
132 hgcm_connect = vbg_req_alloc(sizeof(*hgcm_connect),
133 VMMDEVREQ_HGCM_CONNECT, requestor);
134 if (!hgcm_connect)
135 return -ENOMEM;
136
137 hgcm_connect->header.flags = 0;
138 memcpy(&hgcm_connect->loc, loc, sizeof(*loc));
139 hgcm_connect->client_id = 0;
140
141 rc = vbg_req_perform(gdev, hgcm_connect);
142
143 if (rc == VINF_HGCM_ASYNC_EXECUTE)
144 wait_event(gdev->hgcm_wq,
145 hgcm_req_done(gdev, &hgcm_connect->header));
146
147 if (rc >= 0) {
148 *client_id = hgcm_connect->client_id;
149 rc = hgcm_connect->header.result;
150 }
151
152 vbg_req_free(hgcm_connect, sizeof(*hgcm_connect));
153
154 *vbox_status = rc;
155 return 0;
156 }
157 EXPORT_SYMBOL(vbg_hgcm_connect);
158
vbg_hgcm_disconnect(struct vbg_dev * gdev,u32 requestor,u32 client_id,int * vbox_status)159 int vbg_hgcm_disconnect(struct vbg_dev *gdev, u32 requestor,
160 u32 client_id, int *vbox_status)
161 {
162 struct vmmdev_hgcm_disconnect *hgcm_disconnect = NULL;
163 int rc;
164
165 hgcm_disconnect = vbg_req_alloc(sizeof(*hgcm_disconnect),
166 VMMDEVREQ_HGCM_DISCONNECT,
167 requestor);
168 if (!hgcm_disconnect)
169 return -ENOMEM;
170
171 hgcm_disconnect->header.flags = 0;
172 hgcm_disconnect->client_id = client_id;
173
174 rc = vbg_req_perform(gdev, hgcm_disconnect);
175
176 if (rc == VINF_HGCM_ASYNC_EXECUTE)
177 wait_event(gdev->hgcm_wq,
178 hgcm_req_done(gdev, &hgcm_disconnect->header));
179
180 if (rc >= 0)
181 rc = hgcm_disconnect->header.result;
182
183 vbg_req_free(hgcm_disconnect, sizeof(*hgcm_disconnect));
184
185 *vbox_status = rc;
186 return 0;
187 }
188 EXPORT_SYMBOL(vbg_hgcm_disconnect);
189
hgcm_call_buf_size_in_pages(void * buf,u32 len)190 static u32 hgcm_call_buf_size_in_pages(void *buf, u32 len)
191 {
192 u32 size = PAGE_ALIGN(len + ((unsigned long)buf & ~PAGE_MASK));
193
194 return size >> PAGE_SHIFT;
195 }
196
hgcm_call_add_pagelist_size(void * buf,u32 len,size_t * extra)197 static void hgcm_call_add_pagelist_size(void *buf, u32 len, size_t *extra)
198 {
199 u32 page_count;
200
201 page_count = hgcm_call_buf_size_in_pages(buf, len);
202 *extra += offsetof(struct vmmdev_hgcm_pagelist, pages[page_count]);
203 }
204
hgcm_call_preprocess_linaddr(const struct vmmdev_hgcm_function_parameter * src_parm,void ** bounce_buf_ret,size_t * extra)205 static int hgcm_call_preprocess_linaddr(
206 const struct vmmdev_hgcm_function_parameter *src_parm,
207 void **bounce_buf_ret, size_t *extra)
208 {
209 void *buf, *bounce_buf;
210 bool copy_in;
211 u32 len;
212 int ret;
213
214 buf = (void *)src_parm->u.pointer.u.linear_addr;
215 len = src_parm->u.pointer.size;
216 copy_in = src_parm->type != VMMDEV_HGCM_PARM_TYPE_LINADDR_OUT;
217
218 if (len > VBG_MAX_HGCM_USER_PARM)
219 return -E2BIG;
220
221 bounce_buf = kvmalloc(len, GFP_KERNEL);
222 if (!bounce_buf)
223 return -ENOMEM;
224
225 *bounce_buf_ret = bounce_buf;
226
227 if (copy_in) {
228 ret = copy_from_user(bounce_buf, (void __user *)buf, len);
229 if (ret)
230 return -EFAULT;
231 } else {
232 memset(bounce_buf, 0, len);
233 }
234
235 hgcm_call_add_pagelist_size(bounce_buf, len, extra);
236 return 0;
237 }
238
239 /**
240 * Preprocesses the HGCM call, validate parameters, alloc bounce buffers and
241 * figure out how much extra storage we need for page lists.
242 * Return: 0 or negative errno value.
243 * @src_parm: Pointer to source function call parameters
244 * @parm_count: Number of function call parameters.
245 * @bounce_bufs_ret: Where to return the allocated bouncebuffer array
246 * @extra: Where to return the extra request space needed for
247 * physical page lists.
248 */
hgcm_call_preprocess(const struct vmmdev_hgcm_function_parameter * src_parm,u32 parm_count,void *** bounce_bufs_ret,size_t * extra)249 static int hgcm_call_preprocess(
250 const struct vmmdev_hgcm_function_parameter *src_parm,
251 u32 parm_count, void ***bounce_bufs_ret, size_t *extra)
252 {
253 void *buf, **bounce_bufs = NULL;
254 u32 i, len;
255 int ret;
256
257 for (i = 0; i < parm_count; i++, src_parm++) {
258 switch (src_parm->type) {
259 case VMMDEV_HGCM_PARM_TYPE_32BIT:
260 case VMMDEV_HGCM_PARM_TYPE_64BIT:
261 break;
262
263 case VMMDEV_HGCM_PARM_TYPE_LINADDR:
264 case VMMDEV_HGCM_PARM_TYPE_LINADDR_IN:
265 case VMMDEV_HGCM_PARM_TYPE_LINADDR_OUT:
266 if (!bounce_bufs) {
267 bounce_bufs = kcalloc(parm_count,
268 sizeof(void *),
269 GFP_KERNEL);
270 if (!bounce_bufs)
271 return -ENOMEM;
272
273 *bounce_bufs_ret = bounce_bufs;
274 }
275
276 ret = hgcm_call_preprocess_linaddr(src_parm,
277 &bounce_bufs[i],
278 extra);
279 if (ret)
280 return ret;
281
282 break;
283
284 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL:
285 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL_IN:
286 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL_OUT:
287 buf = (void *)src_parm->u.pointer.u.linear_addr;
288 len = src_parm->u.pointer.size;
289 if (WARN_ON(len > VBG_MAX_HGCM_KERNEL_PARM))
290 return -E2BIG;
291
292 hgcm_call_add_pagelist_size(buf, len, extra);
293 break;
294
295 default:
296 return -EINVAL;
297 }
298 }
299
300 return 0;
301 }
302
303 /**
304 * Translates linear address types to page list direction flags.
305 *
306 * Return: page list flags.
307 * @type: The type.
308 */
hgcm_call_linear_addr_type_to_pagelist_flags(enum vmmdev_hgcm_function_parameter_type type)309 static u32 hgcm_call_linear_addr_type_to_pagelist_flags(
310 enum vmmdev_hgcm_function_parameter_type type)
311 {
312 switch (type) {
313 default:
314 WARN_ON(1);
315 fallthrough;
316 case VMMDEV_HGCM_PARM_TYPE_LINADDR:
317 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL:
318 return VMMDEV_HGCM_F_PARM_DIRECTION_BOTH;
319
320 case VMMDEV_HGCM_PARM_TYPE_LINADDR_IN:
321 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL_IN:
322 return VMMDEV_HGCM_F_PARM_DIRECTION_TO_HOST;
323
324 case VMMDEV_HGCM_PARM_TYPE_LINADDR_OUT:
325 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL_OUT:
326 return VMMDEV_HGCM_F_PARM_DIRECTION_FROM_HOST;
327 }
328 }
329
hgcm_call_init_linaddr(struct vmmdev_hgcm_call * call,struct vmmdev_hgcm_function_parameter * dst_parm,void * buf,u32 len,enum vmmdev_hgcm_function_parameter_type type,u32 * off_extra)330 static void hgcm_call_init_linaddr(struct vmmdev_hgcm_call *call,
331 struct vmmdev_hgcm_function_parameter *dst_parm, void *buf, u32 len,
332 enum vmmdev_hgcm_function_parameter_type type, u32 *off_extra)
333 {
334 struct vmmdev_hgcm_pagelist *dst_pg_lst;
335 struct page *page;
336 bool is_vmalloc;
337 u32 i, page_count;
338
339 dst_parm->type = type;
340
341 if (len == 0) {
342 dst_parm->u.pointer.size = 0;
343 dst_parm->u.pointer.u.linear_addr = 0;
344 return;
345 }
346
347 dst_pg_lst = (void *)call + *off_extra;
348 page_count = hgcm_call_buf_size_in_pages(buf, len);
349 is_vmalloc = is_vmalloc_addr(buf);
350
351 dst_parm->type = VMMDEV_HGCM_PARM_TYPE_PAGELIST;
352 dst_parm->u.page_list.size = len;
353 dst_parm->u.page_list.offset = *off_extra;
354 dst_pg_lst->flags = hgcm_call_linear_addr_type_to_pagelist_flags(type);
355 dst_pg_lst->offset_first_page = (unsigned long)buf & ~PAGE_MASK;
356 dst_pg_lst->page_count = page_count;
357
358 for (i = 0; i < page_count; i++) {
359 if (is_vmalloc)
360 page = vmalloc_to_page(buf);
361 else
362 page = virt_to_page(buf);
363
364 dst_pg_lst->pages[i] = page_to_phys(page);
365 buf += PAGE_SIZE;
366 }
367
368 *off_extra += offsetof(struct vmmdev_hgcm_pagelist, pages[page_count]);
369 }
370
371 /**
372 * Initializes the call request that we're sending to the host.
373 * @call: The call to initialize.
374 * @client_id: The client ID of the caller.
375 * @function: The function number of the function to call.
376 * @src_parm: Pointer to source function call parameters.
377 * @parm_count: Number of function call parameters.
378 * @bounce_bufs: The bouncebuffer array.
379 */
hgcm_call_init_call(struct vmmdev_hgcm_call * call,u32 client_id,u32 function,const struct vmmdev_hgcm_function_parameter * src_parm,u32 parm_count,void ** bounce_bufs)380 static void hgcm_call_init_call(
381 struct vmmdev_hgcm_call *call, u32 client_id, u32 function,
382 const struct vmmdev_hgcm_function_parameter *src_parm,
383 u32 parm_count, void **bounce_bufs)
384 {
385 struct vmmdev_hgcm_function_parameter *dst_parm =
386 VMMDEV_HGCM_CALL_PARMS(call);
387 u32 i, off_extra = (uintptr_t)(dst_parm + parm_count) - (uintptr_t)call;
388 void *buf;
389
390 call->header.flags = 0;
391 call->header.result = VINF_SUCCESS;
392 call->client_id = client_id;
393 call->function = function;
394 call->parm_count = parm_count;
395
396 for (i = 0; i < parm_count; i++, src_parm++, dst_parm++) {
397 switch (src_parm->type) {
398 case VMMDEV_HGCM_PARM_TYPE_32BIT:
399 case VMMDEV_HGCM_PARM_TYPE_64BIT:
400 *dst_parm = *src_parm;
401 break;
402
403 case VMMDEV_HGCM_PARM_TYPE_LINADDR:
404 case VMMDEV_HGCM_PARM_TYPE_LINADDR_IN:
405 case VMMDEV_HGCM_PARM_TYPE_LINADDR_OUT:
406 hgcm_call_init_linaddr(call, dst_parm, bounce_bufs[i],
407 src_parm->u.pointer.size,
408 src_parm->type, &off_extra);
409 break;
410
411 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL:
412 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL_IN:
413 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL_OUT:
414 buf = (void *)src_parm->u.pointer.u.linear_addr;
415 hgcm_call_init_linaddr(call, dst_parm, buf,
416 src_parm->u.pointer.size,
417 src_parm->type, &off_extra);
418 break;
419
420 default:
421 WARN_ON(1);
422 dst_parm->type = VMMDEV_HGCM_PARM_TYPE_INVALID;
423 }
424 }
425 }
426
427 /**
428 * Tries to cancel a pending HGCM call.
429 *
430 * Return: VBox status code
431 */
hgcm_cancel_call(struct vbg_dev * gdev,struct vmmdev_hgcm_call * call)432 static int hgcm_cancel_call(struct vbg_dev *gdev, struct vmmdev_hgcm_call *call)
433 {
434 int rc;
435
436 /*
437 * We use a pre-allocated request for cancellations, which is
438 * protected by cancel_req_mutex. This means that all cancellations
439 * get serialized, this should be fine since they should be rare.
440 */
441 mutex_lock(&gdev->cancel_req_mutex);
442 gdev->cancel_req->phys_req_to_cancel = virt_to_phys(call);
443 rc = vbg_req_perform(gdev, gdev->cancel_req);
444 mutex_unlock(&gdev->cancel_req_mutex);
445
446 if (rc == VERR_NOT_IMPLEMENTED) {
447 call->header.flags |= VMMDEV_HGCM_REQ_CANCELLED;
448 call->header.header.request_type = VMMDEVREQ_HGCM_CANCEL;
449
450 rc = vbg_req_perform(gdev, call);
451 if (rc == VERR_INVALID_PARAMETER)
452 rc = VERR_NOT_FOUND;
453 }
454
455 if (rc >= 0)
456 call->header.flags |= VMMDEV_HGCM_REQ_CANCELLED;
457
458 return rc;
459 }
460
461 /**
462 * Performs the call and completion wait.
463 * Return: 0 or negative errno value.
464 * @gdev: The VBoxGuest device extension.
465 * @call: The call to execute.
466 * @timeout_ms: Timeout in ms.
467 * @leak_it: Where to return the leak it / free it, indicator.
468 * Cancellation fun.
469 */
vbg_hgcm_do_call(struct vbg_dev * gdev,struct vmmdev_hgcm_call * call,u32 timeout_ms,bool interruptible,bool * leak_it)470 static int vbg_hgcm_do_call(struct vbg_dev *gdev, struct vmmdev_hgcm_call *call,
471 u32 timeout_ms, bool interruptible, bool *leak_it)
472 {
473 int rc, cancel_rc, ret;
474 long timeout;
475
476 *leak_it = false;
477
478 rc = vbg_req_perform(gdev, call);
479
480 /*
481 * If the call failed, then pretend success. Upper layers will
482 * interpret the result code in the packet.
483 */
484 if (rc < 0) {
485 call->header.result = rc;
486 return 0;
487 }
488
489 if (rc != VINF_HGCM_ASYNC_EXECUTE)
490 return 0;
491
492 /* Host decided to process the request asynchronously, wait for it */
493 if (timeout_ms == U32_MAX)
494 timeout = MAX_SCHEDULE_TIMEOUT;
495 else
496 timeout = msecs_to_jiffies(timeout_ms);
497
498 if (interruptible) {
499 timeout = wait_event_interruptible_timeout(gdev->hgcm_wq,
500 hgcm_req_done(gdev, &call->header),
501 timeout);
502 } else {
503 timeout = wait_event_timeout(gdev->hgcm_wq,
504 hgcm_req_done(gdev, &call->header),
505 timeout);
506 }
507
508 /* timeout > 0 means hgcm_req_done has returned true, so success */
509 if (timeout > 0)
510 return 0;
511
512 if (timeout == 0)
513 ret = -ETIMEDOUT;
514 else
515 ret = -EINTR;
516
517 /* Cancel the request */
518 cancel_rc = hgcm_cancel_call(gdev, call);
519 if (cancel_rc >= 0)
520 return ret;
521
522 /*
523 * Failed to cancel, this should mean that the cancel has lost the
524 * race with normal completion, wait while the host completes it.
525 */
526 if (cancel_rc == VERR_NOT_FOUND || cancel_rc == VERR_SEM_DESTROYED)
527 timeout = msecs_to_jiffies(500);
528 else
529 timeout = msecs_to_jiffies(2000);
530
531 timeout = wait_event_timeout(gdev->hgcm_wq,
532 hgcm_req_done(gdev, &call->header),
533 timeout);
534
535 if (WARN_ON(timeout == 0)) {
536 /* We really should never get here */
537 vbg_err("%s: Call timedout and cancellation failed, leaking the request\n",
538 __func__);
539 *leak_it = true;
540 return ret;
541 }
542
543 /* The call has completed normally after all */
544 return 0;
545 }
546
547 /**
548 * Copies the result of the call back to the caller info structure and user
549 * buffers.
550 * Return: 0 or negative errno value.
551 * @call: HGCM call request.
552 * @dst_parm: Pointer to function call parameters destination.
553 * @parm_count: Number of function call parameters.
554 * @bounce_bufs: The bouncebuffer array.
555 */
hgcm_call_copy_back_result(const struct vmmdev_hgcm_call * call,struct vmmdev_hgcm_function_parameter * dst_parm,u32 parm_count,void ** bounce_bufs)556 static int hgcm_call_copy_back_result(
557 const struct vmmdev_hgcm_call *call,
558 struct vmmdev_hgcm_function_parameter *dst_parm,
559 u32 parm_count, void **bounce_bufs)
560 {
561 const struct vmmdev_hgcm_function_parameter *src_parm =
562 VMMDEV_HGCM_CALL_PARMS(call);
563 void __user *p;
564 int ret;
565 u32 i;
566
567 /* Copy back parameters. */
568 for (i = 0; i < parm_count; i++, src_parm++, dst_parm++) {
569 switch (dst_parm->type) {
570 case VMMDEV_HGCM_PARM_TYPE_32BIT:
571 case VMMDEV_HGCM_PARM_TYPE_64BIT:
572 *dst_parm = *src_parm;
573 break;
574
575 case VMMDEV_HGCM_PARM_TYPE_PAGELIST:
576 dst_parm->u.page_list.size = src_parm->u.page_list.size;
577 break;
578
579 case VMMDEV_HGCM_PARM_TYPE_LINADDR_IN:
580 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL:
581 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL_IN:
582 case VMMDEV_HGCM_PARM_TYPE_LINADDR_KERNEL_OUT:
583 dst_parm->u.pointer.size = src_parm->u.pointer.size;
584 break;
585
586 case VMMDEV_HGCM_PARM_TYPE_LINADDR:
587 case VMMDEV_HGCM_PARM_TYPE_LINADDR_OUT:
588 dst_parm->u.pointer.size = src_parm->u.pointer.size;
589
590 p = (void __user *)dst_parm->u.pointer.u.linear_addr;
591 ret = copy_to_user(p, bounce_bufs[i],
592 min(src_parm->u.pointer.size,
593 dst_parm->u.pointer.size));
594 if (ret)
595 return -EFAULT;
596 break;
597
598 default:
599 WARN_ON(1);
600 return -EINVAL;
601 }
602 }
603
604 return 0;
605 }
606
vbg_hgcm_call(struct vbg_dev * gdev,u32 requestor,u32 client_id,u32 function,u32 timeout_ms,struct vmmdev_hgcm_function_parameter * parms,u32 parm_count,int * vbox_status)607 int vbg_hgcm_call(struct vbg_dev *gdev, u32 requestor, u32 client_id,
608 u32 function, u32 timeout_ms,
609 struct vmmdev_hgcm_function_parameter *parms, u32 parm_count,
610 int *vbox_status)
611 {
612 struct vmmdev_hgcm_call *call;
613 void **bounce_bufs = NULL;
614 bool leak_it;
615 size_t size;
616 int i, ret;
617
618 size = sizeof(struct vmmdev_hgcm_call) +
619 parm_count * sizeof(struct vmmdev_hgcm_function_parameter);
620 /*
621 * Validate and buffer the parameters for the call. This also increases
622 * call_size with the amount of extra space needed for page lists.
623 */
624 ret = hgcm_call_preprocess(parms, parm_count, &bounce_bufs, &size);
625 if (ret) {
626 /* Even on error bounce bufs may still have been allocated */
627 goto free_bounce_bufs;
628 }
629
630 call = vbg_req_alloc(size, VMMDEVREQ_HGCM_CALL, requestor);
631 if (!call) {
632 ret = -ENOMEM;
633 goto free_bounce_bufs;
634 }
635
636 hgcm_call_init_call(call, client_id, function, parms, parm_count,
637 bounce_bufs);
638
639 ret = vbg_hgcm_do_call(gdev, call, timeout_ms,
640 requestor & VMMDEV_REQUESTOR_USERMODE, &leak_it);
641 if (ret == 0) {
642 *vbox_status = call->header.result;
643 ret = hgcm_call_copy_back_result(call, parms, parm_count,
644 bounce_bufs);
645 }
646
647 if (!leak_it)
648 vbg_req_free(call, size);
649
650 free_bounce_bufs:
651 if (bounce_bufs) {
652 for (i = 0; i < parm_count; i++)
653 kvfree(bounce_bufs[i]);
654 kfree(bounce_bufs);
655 }
656
657 return ret;
658 }
659 EXPORT_SYMBOL(vbg_hgcm_call);
660
661 #ifdef CONFIG_COMPAT
vbg_hgcm_call32(struct vbg_dev * gdev,u32 requestor,u32 client_id,u32 function,u32 timeout_ms,struct vmmdev_hgcm_function_parameter32 * parm32,u32 parm_count,int * vbox_status)662 int vbg_hgcm_call32(
663 struct vbg_dev *gdev, u32 requestor, u32 client_id, u32 function,
664 u32 timeout_ms, struct vmmdev_hgcm_function_parameter32 *parm32,
665 u32 parm_count, int *vbox_status)
666 {
667 struct vmmdev_hgcm_function_parameter *parm64 = NULL;
668 u32 i, size;
669 int ret = 0;
670
671 /* KISS allocate a temporary request and convert the parameters. */
672 size = parm_count * sizeof(struct vmmdev_hgcm_function_parameter);
673 parm64 = kzalloc(size, GFP_KERNEL);
674 if (!parm64)
675 return -ENOMEM;
676
677 for (i = 0; i < parm_count; i++) {
678 switch (parm32[i].type) {
679 case VMMDEV_HGCM_PARM_TYPE_32BIT:
680 parm64[i].type = VMMDEV_HGCM_PARM_TYPE_32BIT;
681 parm64[i].u.value32 = parm32[i].u.value32;
682 break;
683
684 case VMMDEV_HGCM_PARM_TYPE_64BIT:
685 parm64[i].type = VMMDEV_HGCM_PARM_TYPE_64BIT;
686 parm64[i].u.value64 = parm32[i].u.value64;
687 break;
688
689 case VMMDEV_HGCM_PARM_TYPE_LINADDR_OUT:
690 case VMMDEV_HGCM_PARM_TYPE_LINADDR:
691 case VMMDEV_HGCM_PARM_TYPE_LINADDR_IN:
692 parm64[i].type = parm32[i].type;
693 parm64[i].u.pointer.size = parm32[i].u.pointer.size;
694 parm64[i].u.pointer.u.linear_addr =
695 parm32[i].u.pointer.u.linear_addr;
696 break;
697
698 default:
699 ret = -EINVAL;
700 }
701 if (ret < 0)
702 goto out_free;
703 }
704
705 ret = vbg_hgcm_call(gdev, requestor, client_id, function, timeout_ms,
706 parm64, parm_count, vbox_status);
707 if (ret < 0)
708 goto out_free;
709
710 /* Copy back. */
711 for (i = 0; i < parm_count; i++, parm32++, parm64++) {
712 switch (parm64[i].type) {
713 case VMMDEV_HGCM_PARM_TYPE_32BIT:
714 parm32[i].u.value32 = parm64[i].u.value32;
715 break;
716
717 case VMMDEV_HGCM_PARM_TYPE_64BIT:
718 parm32[i].u.value64 = parm64[i].u.value64;
719 break;
720
721 case VMMDEV_HGCM_PARM_TYPE_LINADDR_OUT:
722 case VMMDEV_HGCM_PARM_TYPE_LINADDR:
723 case VMMDEV_HGCM_PARM_TYPE_LINADDR_IN:
724 parm32[i].u.pointer.size = parm64[i].u.pointer.size;
725 break;
726
727 default:
728 WARN_ON(1);
729 ret = -EINVAL;
730 }
731 }
732
733 out_free:
734 kfree(parm64);
735 return ret;
736 }
737 #endif
738
739 static const int vbg_status_code_to_errno_table[] = {
740 [-VERR_ACCESS_DENIED] = -EPERM,
741 [-VERR_FILE_NOT_FOUND] = -ENOENT,
742 [-VERR_PROCESS_NOT_FOUND] = -ESRCH,
743 [-VERR_INTERRUPTED] = -EINTR,
744 [-VERR_DEV_IO_ERROR] = -EIO,
745 [-VERR_TOO_MUCH_DATA] = -E2BIG,
746 [-VERR_BAD_EXE_FORMAT] = -ENOEXEC,
747 [-VERR_INVALID_HANDLE] = -EBADF,
748 [-VERR_TRY_AGAIN] = -EAGAIN,
749 [-VERR_NO_MEMORY] = -ENOMEM,
750 [-VERR_INVALID_POINTER] = -EFAULT,
751 [-VERR_RESOURCE_BUSY] = -EBUSY,
752 [-VERR_ALREADY_EXISTS] = -EEXIST,
753 [-VERR_NOT_SAME_DEVICE] = -EXDEV,
754 [-VERR_NOT_A_DIRECTORY] = -ENOTDIR,
755 [-VERR_PATH_NOT_FOUND] = -ENOTDIR,
756 [-VERR_INVALID_NAME] = -ENOENT,
757 [-VERR_IS_A_DIRECTORY] = -EISDIR,
758 [-VERR_INVALID_PARAMETER] = -EINVAL,
759 [-VERR_TOO_MANY_OPEN_FILES] = -ENFILE,
760 [-VERR_INVALID_FUNCTION] = -ENOTTY,
761 [-VERR_SHARING_VIOLATION] = -ETXTBSY,
762 [-VERR_FILE_TOO_BIG] = -EFBIG,
763 [-VERR_DISK_FULL] = -ENOSPC,
764 [-VERR_SEEK_ON_DEVICE] = -ESPIPE,
765 [-VERR_WRITE_PROTECT] = -EROFS,
766 [-VERR_BROKEN_PIPE] = -EPIPE,
767 [-VERR_DEADLOCK] = -EDEADLK,
768 [-VERR_FILENAME_TOO_LONG] = -ENAMETOOLONG,
769 [-VERR_FILE_LOCK_FAILED] = -ENOLCK,
770 [-VERR_NOT_IMPLEMENTED] = -ENOSYS,
771 [-VERR_NOT_SUPPORTED] = -ENOSYS,
772 [-VERR_DIR_NOT_EMPTY] = -ENOTEMPTY,
773 [-VERR_TOO_MANY_SYMLINKS] = -ELOOP,
774 [-VERR_NO_MORE_FILES] = -ENODATA,
775 [-VERR_NO_DATA] = -ENODATA,
776 [-VERR_NET_NO_NETWORK] = -ENONET,
777 [-VERR_NET_NOT_UNIQUE_NAME] = -ENOTUNIQ,
778 [-VERR_NO_TRANSLATION] = -EILSEQ,
779 [-VERR_NET_NOT_SOCKET] = -ENOTSOCK,
780 [-VERR_NET_DEST_ADDRESS_REQUIRED] = -EDESTADDRREQ,
781 [-VERR_NET_MSG_SIZE] = -EMSGSIZE,
782 [-VERR_NET_PROTOCOL_TYPE] = -EPROTOTYPE,
783 [-VERR_NET_PROTOCOL_NOT_AVAILABLE] = -ENOPROTOOPT,
784 [-VERR_NET_PROTOCOL_NOT_SUPPORTED] = -EPROTONOSUPPORT,
785 [-VERR_NET_SOCKET_TYPE_NOT_SUPPORTED] = -ESOCKTNOSUPPORT,
786 [-VERR_NET_OPERATION_NOT_SUPPORTED] = -EOPNOTSUPP,
787 [-VERR_NET_PROTOCOL_FAMILY_NOT_SUPPORTED] = -EPFNOSUPPORT,
788 [-VERR_NET_ADDRESS_FAMILY_NOT_SUPPORTED] = -EAFNOSUPPORT,
789 [-VERR_NET_ADDRESS_IN_USE] = -EADDRINUSE,
790 [-VERR_NET_ADDRESS_NOT_AVAILABLE] = -EADDRNOTAVAIL,
791 [-VERR_NET_DOWN] = -ENETDOWN,
792 [-VERR_NET_UNREACHABLE] = -ENETUNREACH,
793 [-VERR_NET_CONNECTION_RESET] = -ENETRESET,
794 [-VERR_NET_CONNECTION_ABORTED] = -ECONNABORTED,
795 [-VERR_NET_CONNECTION_RESET_BY_PEER] = -ECONNRESET,
796 [-VERR_NET_NO_BUFFER_SPACE] = -ENOBUFS,
797 [-VERR_NET_ALREADY_CONNECTED] = -EISCONN,
798 [-VERR_NET_NOT_CONNECTED] = -ENOTCONN,
799 [-VERR_NET_SHUTDOWN] = -ESHUTDOWN,
800 [-VERR_NET_TOO_MANY_REFERENCES] = -ETOOMANYREFS,
801 [-VERR_TIMEOUT] = -ETIMEDOUT,
802 [-VERR_NET_CONNECTION_REFUSED] = -ECONNREFUSED,
803 [-VERR_NET_HOST_DOWN] = -EHOSTDOWN,
804 [-VERR_NET_HOST_UNREACHABLE] = -EHOSTUNREACH,
805 [-VERR_NET_ALREADY_IN_PROGRESS] = -EALREADY,
806 [-VERR_NET_IN_PROGRESS] = -EINPROGRESS,
807 [-VERR_MEDIA_NOT_PRESENT] = -ENOMEDIUM,
808 [-VERR_MEDIA_NOT_RECOGNIZED] = -EMEDIUMTYPE,
809 };
810
vbg_status_code_to_errno(int rc)811 int vbg_status_code_to_errno(int rc)
812 {
813 if (rc >= 0)
814 return 0;
815
816 rc = -rc;
817 if (rc >= ARRAY_SIZE(vbg_status_code_to_errno_table) ||
818 vbg_status_code_to_errno_table[rc] == 0) {
819 vbg_warn("%s: Unhandled err %d\n", __func__, -rc);
820 return -EPROTO;
821 }
822
823 return vbg_status_code_to_errno_table[rc];
824 }
825 EXPORT_SYMBOL(vbg_status_code_to_errno);
826