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1 /** @file
2 
3   Utility functions used by virtio device drivers.
4 
5   Copyright (C) 2012-2016, Red Hat, Inc.
6   Portion of Copyright (C) 2013, ARM Ltd.
7 
8   This program and the accompanying materials are licensed and made available
9   under the terms and conditions of the BSD License which accompanies this
10   distribution. The full text of the license may be found at
11   http://opensource.org/licenses/bsd-license.php
12 
13   THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT
14   WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
15 
16 **/
17 
18 #include <Library/BaseLib.h>
19 #include <Library/BaseMemoryLib.h>
20 #include <Library/DebugLib.h>
21 #include <Library/MemoryAllocationLib.h>
22 #include <Library/UefiBootServicesTableLib.h>
23 
24 #include <Library/VirtioLib.h>
25 
26 
27 /**
28 
29   Configure a virtio ring.
30 
31   This function sets up internal storage (the guest-host communication area)
32   and lays out several "navigation" (ie. no-ownership) pointers to parts of
33   that storage.
34 
35   Relevant sections from the virtio-0.9.5 spec:
36   - 1.1 Virtqueues,
37   - 2.3 Virtqueue Configuration.
38 
39   @param[in]                    The number of descriptors to allocate for the
40                                 virtio ring, as requested by the host.
41 
42   @param[out] Ring              The virtio ring to set up.
43 
44   @retval EFI_OUT_OF_RESOURCES  AllocatePages() failed to allocate contiguous
45                                 pages for the requested QueueSize. Fields of
46                                 Ring have indeterminate value.
47 
48   @retval EFI_SUCCESS           Allocation and setup successful. Ring->Base
49                                 (and nothing else) is responsible for
50                                 deallocation.
51 
52 **/
53 EFI_STATUS
54 EFIAPI
VirtioRingInit(IN UINT16 QueueSize,OUT VRING * Ring)55 VirtioRingInit (
56   IN  UINT16 QueueSize,
57   OUT VRING  *Ring
58   )
59 {
60   UINTN          RingSize;
61   volatile UINT8 *RingPagesPtr;
62 
63   RingSize = ALIGN_VALUE (
64                sizeof *Ring->Desc            * QueueSize +
65                sizeof *Ring->Avail.Flags                 +
66                sizeof *Ring->Avail.Idx                   +
67                sizeof *Ring->Avail.Ring      * QueueSize +
68                sizeof *Ring->Avail.UsedEvent,
69                EFI_PAGE_SIZE);
70 
71   RingSize += ALIGN_VALUE (
72                 sizeof *Ring->Used.Flags                  +
73                 sizeof *Ring->Used.Idx                    +
74                 sizeof *Ring->Used.UsedElem   * QueueSize +
75                 sizeof *Ring->Used.AvailEvent,
76                 EFI_PAGE_SIZE);
77 
78   Ring->NumPages = EFI_SIZE_TO_PAGES (RingSize);
79   Ring->Base = AllocatePages (Ring->NumPages);
80   if (Ring->Base == NULL) {
81     return EFI_OUT_OF_RESOURCES;
82   }
83   SetMem (Ring->Base, RingSize, 0x00);
84   RingPagesPtr = Ring->Base;
85 
86   Ring->Desc = (volatile VOID *) RingPagesPtr;
87   RingPagesPtr += sizeof *Ring->Desc * QueueSize;
88 
89   Ring->Avail.Flags = (volatile VOID *) RingPagesPtr;
90   RingPagesPtr += sizeof *Ring->Avail.Flags;
91 
92   Ring->Avail.Idx = (volatile VOID *) RingPagesPtr;
93   RingPagesPtr += sizeof *Ring->Avail.Idx;
94 
95   Ring->Avail.Ring = (volatile VOID *) RingPagesPtr;
96   RingPagesPtr += sizeof *Ring->Avail.Ring * QueueSize;
97 
98   Ring->Avail.UsedEvent = (volatile VOID *) RingPagesPtr;
99   RingPagesPtr += sizeof *Ring->Avail.UsedEvent;
100 
101   RingPagesPtr = (volatile UINT8 *) Ring->Base +
102                  ALIGN_VALUE (RingPagesPtr - (volatile UINT8 *) Ring->Base,
103                    EFI_PAGE_SIZE);
104 
105   Ring->Used.Flags = (volatile VOID *) RingPagesPtr;
106   RingPagesPtr += sizeof *Ring->Used.Flags;
107 
108   Ring->Used.Idx = (volatile VOID *) RingPagesPtr;
109   RingPagesPtr += sizeof *Ring->Used.Idx;
110 
111   Ring->Used.UsedElem = (volatile VOID *) RingPagesPtr;
112   RingPagesPtr += sizeof *Ring->Used.UsedElem * QueueSize;
113 
114   Ring->Used.AvailEvent = (volatile VOID *) RingPagesPtr;
115   RingPagesPtr += sizeof *Ring->Used.AvailEvent;
116 
117   Ring->QueueSize = QueueSize;
118   return EFI_SUCCESS;
119 }
120 
121 
122 /**
123 
124   Tear down the internal resources of a configured virtio ring.
125 
126   The caller is responsible to stop the host from using this ring before
127   invoking this function: the VSTAT_DRIVER_OK bit must be clear in
128   VhdrDeviceStatus.
129 
130   @param[out] Ring  The virtio ring to clean up.
131 
132 **/
133 VOID
134 EFIAPI
VirtioRingUninit(IN OUT VRING * Ring)135 VirtioRingUninit (
136   IN OUT VRING *Ring
137   )
138 {
139   FreePages (Ring->Base, Ring->NumPages);
140   SetMem (Ring, sizeof *Ring, 0x00);
141 }
142 
143 
144 /**
145 
146   Turn off interrupt notifications from the host, and prepare for appending
147   multiple descriptors to the virtio ring.
148 
149   The calling driver must be in VSTAT_DRIVER_OK state.
150 
151   @param[in,out] Ring  The virtio ring we intend to append descriptors to.
152 
153   @param[out] Indices  The DESC_INDICES structure to initialize.
154 
155 **/
156 VOID
157 EFIAPI
VirtioPrepare(IN OUT VRING * Ring,OUT DESC_INDICES * Indices)158 VirtioPrepare (
159   IN OUT VRING        *Ring,
160   OUT    DESC_INDICES *Indices
161   )
162 {
163   //
164   // Prepare for virtio-0.9.5, 2.4.2 Receiving Used Buffers From the Device.
165   // We're going to poll the answer, the host should not send an interrupt.
166   //
167   *Ring->Avail.Flags = (UINT16) VRING_AVAIL_F_NO_INTERRUPT;
168 
169   //
170   // Prepare for virtio-0.9.5, 2.4.1 Supplying Buffers to the Device.
171   //
172   // Since we support only one in-flight descriptor chain, we can always build
173   // that chain starting at entry #0 of the descriptor table.
174   //
175   Indices->HeadDescIdx = 0;
176   Indices->NextDescIdx = Indices->HeadDescIdx;
177 }
178 
179 
180 /**
181 
182   Append a contiguous buffer for transmission / reception via the virtio ring.
183 
184   This function implements the following section from virtio-0.9.5:
185   - 2.4.1.1 Placing Buffers into the Descriptor Table
186 
187   Free space is taken as granted, since the individual drivers support only
188   synchronous requests and host side status is processed in lock-step with
189   request submission. It is the calling driver's responsibility to verify the
190   ring size in advance.
191 
192   The caller is responsible for initializing *Indices with VirtioPrepare()
193   first.
194 
195   @param[in,out] Ring        The virtio ring to append the buffer to, as a
196                              descriptor.
197 
198   @param[in] BufferPhysAddr  (Guest pseudo-physical) start address of the
199                              transmit / receive buffer.
200 
201   @param[in] BufferSize      Number of bytes to transmit or receive.
202 
203   @param[in] Flags           A bitmask of VRING_DESC_F_* flags. The caller
204                              computes this mask dependent on further buffers to
205                              append and transfer direction.
206                              VRING_DESC_F_INDIRECT is unsupported. The
207                              VRING_DESC.Next field is always set, but the host
208                              only interprets it dependent on VRING_DESC_F_NEXT.
209 
210   @param[in,out] Indices     Indices->HeadDescIdx is not accessed.
211                              On input, Indices->NextDescIdx identifies the next
212                              descriptor to carry the buffer. On output,
213                              Indices->NextDescIdx is incremented by one, modulo
214                              2^16.
215 
216 **/
217 VOID
218 EFIAPI
VirtioAppendDesc(IN OUT VRING * Ring,IN UINTN BufferPhysAddr,IN UINT32 BufferSize,IN UINT16 Flags,IN OUT DESC_INDICES * Indices)219 VirtioAppendDesc (
220   IN OUT VRING        *Ring,
221   IN     UINTN        BufferPhysAddr,
222   IN     UINT32       BufferSize,
223   IN     UINT16       Flags,
224   IN OUT DESC_INDICES *Indices
225   )
226 {
227   volatile VRING_DESC *Desc;
228 
229   Desc        = &Ring->Desc[Indices->NextDescIdx++ % Ring->QueueSize];
230   Desc->Addr  = BufferPhysAddr;
231   Desc->Len   = BufferSize;
232   Desc->Flags = Flags;
233   Desc->Next  = Indices->NextDescIdx % Ring->QueueSize;
234 }
235 
236 
237 /**
238 
239   Notify the host about the descriptor chain just built, and wait until the
240   host processes it.
241 
242   @param[in] VirtIo       The target virtio device to notify.
243 
244   @param[in] VirtQueueId  Identifies the queue for the target device.
245 
246   @param[in,out] Ring     The virtio ring with descriptors to submit.
247 
248   @param[in] Indices      Indices->NextDescIdx is not accessed.
249                           Indices->HeadDescIdx identifies the head descriptor
250                           of the descriptor chain.
251 
252   @param[out] UsedLen     On success, the total number of bytes, consecutively
253                           across the buffers linked by the descriptor chain,
254                           that the host wrote. May be NULL if the caller
255                           doesn't care, or can compute the same information
256                           from device-specific request structures linked by the
257                           descriptor chain.
258 
259   @return              Error code from VirtIo->SetQueueNotify() if it fails.
260 
261   @retval EFI_SUCCESS  Otherwise, the host processed all descriptors.
262 
263 **/
264 EFI_STATUS
265 EFIAPI
VirtioFlush(IN VIRTIO_DEVICE_PROTOCOL * VirtIo,IN UINT16 VirtQueueId,IN OUT VRING * Ring,IN DESC_INDICES * Indices,OUT UINT32 * UsedLen OPTIONAL)266 VirtioFlush (
267   IN     VIRTIO_DEVICE_PROTOCOL *VirtIo,
268   IN     UINT16                 VirtQueueId,
269   IN OUT VRING                  *Ring,
270   IN     DESC_INDICES           *Indices,
271   OUT    UINT32                 *UsedLen    OPTIONAL
272   )
273 {
274   UINT16     NextAvailIdx;
275   UINT16     LastUsedIdx;
276   EFI_STATUS Status;
277   UINTN      PollPeriodUsecs;
278 
279   //
280   // virtio-0.9.5, 2.4.1.2 Updating the Available Ring
281   //
282   // It is not exactly clear from the wording of the virtio-0.9.5
283   // specification, but each entry in the Available Ring references only the
284   // head descriptor of any given descriptor chain.
285   //
286   NextAvailIdx = *Ring->Avail.Idx;
287   //
288   // (Due to our lock-step progress, this is where the host will produce the
289   // used element with the head descriptor's index in it.)
290   //
291   LastUsedIdx = NextAvailIdx;
292   Ring->Avail.Ring[NextAvailIdx++ % Ring->QueueSize] =
293     Indices->HeadDescIdx % Ring->QueueSize;
294 
295   //
296   // virtio-0.9.5, 2.4.1.3 Updating the Index Field
297   //
298   MemoryFence();
299   *Ring->Avail.Idx = NextAvailIdx;
300 
301   //
302   // virtio-0.9.5, 2.4.1.4 Notifying the Device -- gratuitous notifications are
303   // OK.
304   //
305   MemoryFence();
306   Status = VirtIo->SetQueueNotify (VirtIo, VirtQueueId);
307   if (EFI_ERROR (Status)) {
308     return Status;
309   }
310 
311   //
312   // virtio-0.9.5, 2.4.2 Receiving Used Buffers From the Device
313   // Wait until the host processes and acknowledges our descriptor chain. The
314   // condition we use for polling is greatly simplified and relies on the
315   // synchronous, lock-step progress.
316   //
317   // Keep slowing down until we reach a poll period of slightly above 1 ms.
318   //
319   PollPeriodUsecs = 1;
320   MemoryFence();
321   while (*Ring->Used.Idx != NextAvailIdx) {
322     gBS->Stall (PollPeriodUsecs); // calls AcpiTimerLib::MicroSecondDelay
323 
324     if (PollPeriodUsecs < 1024) {
325       PollPeriodUsecs *= 2;
326     }
327     MemoryFence();
328   }
329 
330   MemoryFence();
331 
332   if (UsedLen != NULL) {
333     volatile CONST VRING_USED_ELEM *UsedElem;
334 
335     UsedElem = &Ring->Used.UsedElem[LastUsedIdx % Ring->QueueSize];
336     ASSERT (UsedElem->Id == Indices->HeadDescIdx);
337     *UsedLen = UsedElem->Len;
338   }
339 
340   return EFI_SUCCESS;
341 }
342 
343 
344 /**
345 
346   Report the feature bits to the VirtIo 1.0 device that the VirtIo 1.0 driver
347   understands.
348 
349   In VirtIo 1.0, a device can reject a self-inconsistent feature bitmap through
350   the new VSTAT_FEATURES_OK status bit. (For example if the driver requests a
351   higher level feature but clears a prerequisite feature.) This function is a
352   small wrapper around VIRTIO_DEVICE_PROTOCOL.SetGuestFeatures() that also
353   verifies if the VirtIo 1.0 device accepts the feature bitmap.
354 
355   @param[in]     VirtIo        Report feature bits to this device.
356 
357   @param[in]     Features      The set of feature bits that the driver wishes
358                                to report. The caller is responsible to perform
359                                any masking before calling this function; the
360                                value is directly written with
361                                VIRTIO_DEVICE_PROTOCOL.SetGuestFeatures().
362 
363   @param[in,out] DeviceStatus  On input, the status byte most recently written
364                                to the device's status register. On output (even
365                                on error), DeviceStatus will be updated so that
366                                it is suitable for further status bit
367                                manipulation and writing to the device's status
368                                register.
369 
370   @retval  EFI_SUCCESS      The device accepted the configuration in Features.
371 
372   @return  EFI_UNSUPPORTED  The device rejected the configuration in Features.
373 
374   @retval  EFI_UNSUPPORTED  VirtIo->Revision is smaller than 1.0.0.
375 
376   @return                   Error codes from the SetGuestFeatures(),
377                             SetDeviceStatus(), GetDeviceStatus() member
378                             functions.
379 
380 **/
381 EFI_STATUS
382 EFIAPI
Virtio10WriteFeatures(IN VIRTIO_DEVICE_PROTOCOL * VirtIo,IN UINT64 Features,IN OUT UINT8 * DeviceStatus)383 Virtio10WriteFeatures (
384   IN     VIRTIO_DEVICE_PROTOCOL *VirtIo,
385   IN     UINT64                 Features,
386   IN OUT UINT8                  *DeviceStatus
387   )
388 {
389   EFI_STATUS Status;
390 
391   if (VirtIo->Revision < VIRTIO_SPEC_REVISION (1, 0, 0)) {
392     return EFI_UNSUPPORTED;
393   }
394 
395   Status = VirtIo->SetGuestFeatures (VirtIo, Features);
396   if (EFI_ERROR (Status)) {
397     return Status;
398   }
399 
400   *DeviceStatus |= VSTAT_FEATURES_OK;
401   Status = VirtIo->SetDeviceStatus (VirtIo, *DeviceStatus);
402   if (EFI_ERROR (Status)) {
403     return Status;
404   }
405 
406   Status = VirtIo->GetDeviceStatus (VirtIo, DeviceStatus);
407   if (EFI_ERROR (Status)) {
408     return Status;
409   }
410 
411   if ((*DeviceStatus & VSTAT_FEATURES_OK) == 0) {
412     Status = EFI_UNSUPPORTED;
413   }
414 
415   return Status;
416 }
417