]> git.proxmox.com Git - mirror_edk2.git/blame - MdeModulePkg/Bus/Pci/XhciDxe/XhciSched.c
projects / mirror_edk2.git / blame
? search:
summary | shortlog | log | commit | commitdiff | tree
blob | blame (incremental) | history | HEAD
Restore the question value before call the CHANGED callback type.
[mirror_edk2.git] / MdeModulePkg / Bus / Pci / XhciDxe / XhciSched.c
CommitLineData
92870c98 1/** @file\r
2\r
3 XHCI transfer scheduling routines.\r
4\r
e1f2dfec 5Copyright (c) 2011 - 2014, Intel Corporation. All rights reserved.<BR>\r
92870c98 6This program and the accompanying materials\r
7are licensed and made available under the terms and conditions of the BSD License\r
8which accompanies this distribution. The full text of the license may be found at\r
9http://opensource.org/licenses/bsd-license.php\r
10\r
11THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r
12WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r
13\r
14**/\r
15\r
16#include "Xhci.h"\r
17\r
92870c98 18/**\r
19 Create a command transfer TRB to support XHCI command interfaces.\r
20\r
a9292c13 21 @param Xhc The XHCI Instance.\r
92870c98 22 @param CmdTrb The cmd TRB to be executed.\r
23\r
24 @return Created URB or NULL.\r
25\r
26**/\r
27URB*\r
28XhcCreateCmdTrb (\r
a9292c13 29 IN USB_XHCI_INSTANCE *Xhc,\r
30 IN TRB_TEMPLATE *CmdTrb\r
92870c98 31 )\r
32{\r
33 URB *Urb;\r
34\r
35 Urb = AllocateZeroPool (sizeof (URB));\r
36 if (Urb == NULL) {\r
37 return NULL;\r
38 }\r
39\r
40 Urb->Signature = XHC_URB_SIG;\r
41\r
42 Urb->Ring = &Xhc->CmdRing;\r
43 XhcSyncTrsRing (Xhc, Urb->Ring);\r
44 Urb->TrbNum = 1;\r
45 Urb->TrbStart = Urb->Ring->RingEnqueue;\r
a9292c13 46 CopyMem (Urb->TrbStart, CmdTrb, sizeof (TRB_TEMPLATE));\r
92870c98 47 Urb->TrbStart->CycleBit = Urb->Ring->RingPCS & BIT0;\r
48 Urb->TrbEnd = Urb->TrbStart;\r
49\r
92870c98 50 return Urb;\r
51}\r
52\r
53/**\r
54 Execute a XHCI cmd TRB pointed by CmdTrb.\r
55\r
a9292c13 56 @param Xhc The XHCI Instance.\r
92870c98 57 @param CmdTrb The cmd TRB to be executed.\r
a9292c13 58 @param Timeout Indicates the maximum time, in millisecond, which the\r
92870c98 59 transfer is allowed to complete.\r
60 @param EvtTrb The event TRB corresponding to the cmd TRB.\r
61\r
62 @retval EFI_SUCCESS The transfer was completed successfully.\r
63 @retval EFI_INVALID_PARAMETER Some parameters are invalid.\r
64 @retval EFI_TIMEOUT The transfer failed due to timeout.\r
65 @retval EFI_DEVICE_ERROR The transfer failed due to host controller error.\r
66\r
67**/\r
68EFI_STATUS\r
69EFIAPI\r
70XhcCmdTransfer (\r
a9292c13 71 IN USB_XHCI_INSTANCE *Xhc,\r
72 IN TRB_TEMPLATE *CmdTrb,\r
73 IN UINTN Timeout,\r
74 OUT TRB_TEMPLATE **EvtTrb\r
92870c98 75 )\r
76{\r
77 EFI_STATUS Status;\r
78 URB *Urb;\r
79\r
80 //\r
81 // Validate the parameters\r
82 //\r
83 if ((Xhc == NULL) || (CmdTrb == NULL)) {\r
84 return EFI_INVALID_PARAMETER;\r
85 }\r
86\r
87 Status = EFI_DEVICE_ERROR;\r
88\r
89 if (XhcIsHalt (Xhc) || XhcIsSysError (Xhc)) {\r
90 DEBUG ((EFI_D_ERROR, "XhcCmdTransfer: HC is halted\n"));\r
91 goto ON_EXIT;\r
92 }\r
93\r
94 //\r
95 // Create a new URB, then poll the execution status.\r
96 //\r
97 Urb = XhcCreateCmdTrb (Xhc, CmdTrb);\r
98\r
99 if (Urb == NULL) {\r
100 DEBUG ((EFI_D_ERROR, "XhcCmdTransfer: failed to create URB\n"));\r
101 Status = EFI_OUT_OF_RESOURCES;\r
102 goto ON_EXIT;\r
103 }\r
104\r
a9292c13 105 Status = XhcExecTransfer (Xhc, TRUE, Urb, Timeout);\r
a50f7c4c 106 *EvtTrb = Urb->EvtTrb;\r
92870c98 107\r
108 if (Urb->Result == EFI_USB_NOERROR) {\r
109 Status = EFI_SUCCESS;\r
110 }\r
111\r
1847ed0b 112 XhcFreeUrb (Xhc, Urb);\r
92870c98 113\r
114ON_EXIT:\r
115 return Status;\r
116}\r
117\r
118/**\r
119 Create a new URB for a new transaction.\r
120\r
a9292c13 121 @param Xhc The XHCI Instance\r
6b4483cd 122 @param BusAddr The logical device address assigned by UsbBus driver\r
92870c98 123 @param EpAddr Endpoint addrress\r
124 @param DevSpeed The device speed\r
125 @param MaxPacket The max packet length of the endpoint\r
126 @param Type The transaction type\r
127 @param Request The standard USB request for control transfer\r
128 @param Data The user data to transfer\r
129 @param DataLen The length of data buffer\r
130 @param Callback The function to call when data is transferred\r
131 @param Context The context to the callback\r
132\r
133 @return Created URB or NULL\r
134\r
135**/\r
136URB*\r
137XhcCreateUrb (\r
a9292c13 138 IN USB_XHCI_INSTANCE *Xhc,\r
6b4483cd 139 IN UINT8 BusAddr,\r
92870c98 140 IN UINT8 EpAddr,\r
141 IN UINT8 DevSpeed,\r
142 IN UINTN MaxPacket,\r
143 IN UINTN Type,\r
144 IN EFI_USB_DEVICE_REQUEST *Request,\r
145 IN VOID *Data,\r
146 IN UINTN DataLen,\r
147 IN EFI_ASYNC_USB_TRANSFER_CALLBACK Callback,\r
148 IN VOID *Context\r
149 )\r
150{\r
151 USB_ENDPOINT *Ep;\r
152 EFI_STATUS Status;\r
153 URB *Urb;\r
154\r
155 Urb = AllocateZeroPool (sizeof (URB));\r
156 if (Urb == NULL) {\r
157 return NULL;\r
158 }\r
159\r
160 Urb->Signature = XHC_URB_SIG;\r
161 InitializeListHead (&Urb->UrbList);\r
162\r
163 Ep = &Urb->Ep;\r
6b4483cd 164 Ep->BusAddr = BusAddr;\r
ce9b5900 165 Ep->EpAddr = (UINT8)(EpAddr & 0x0F);\r
92870c98 166 Ep->Direction = ((EpAddr & 0x80) != 0) ? EfiUsbDataIn : EfiUsbDataOut;\r
167 Ep->DevSpeed = DevSpeed;\r
168 Ep->MaxPacket = MaxPacket;\r
169 Ep->Type = Type;\r
170\r
171 Urb->Request = Request;\r
172 Urb->Data = Data;\r
173 Urb->DataLen = DataLen;\r
174 Urb->Callback = Callback;\r
175 Urb->Context = Context;\r
176\r
177 Status = XhcCreateTransferTrb (Xhc, Urb);\r
7538d536 178 ASSERT_EFI_ERROR (Status);\r
260fbf53
EL		 179 if (EFI_ERROR (Status)) {\r
180 DEBUG ((EFI_D_ERROR, "XhcCreateUrb: XhcCreateTransferTrb Failed, Status = %r\n", Status));\r
181 FreePool (Urb);\r
182 Urb = NULL;\r
183 }\r
92870c98 184\r
185 return Urb;\r
186}\r
187\r
1847ed0b
EL		 188/**\r
189 Free an allocated URB.\r
190\r
191 @param Xhc The XHCI device.\r
192 @param Urb The URB to free.\r
193\r
194**/\r
195VOID\r
196XhcFreeUrb (\r
197 IN USB_XHCI_INSTANCE *Xhc,\r
198 IN URB *Urb\r
199 )\r
200{\r
201 if ((Xhc == NULL) || (Urb == NULL)) {\r
202 return;\r
203 }\r
204 \r
205 if (Urb->DataMap != NULL) {\r
206 Xhc->PciIo->Unmap (Xhc->PciIo, Urb->DataMap);\r
207 }\r
208\r
209 FreePool (Urb);\r
210}\r
211\r
92870c98 212/**\r
213 Create a transfer TRB.\r
214\r
a9292c13 215 @param Xhc The XHCI Instance\r
92870c98 216 @param Urb The urb used to construct the transfer TRB.\r
217\r
218 @return Created TRB or NULL\r
219\r
220**/\r
221EFI_STATUS\r
92870c98 222XhcCreateTransferTrb (\r
a9292c13 223 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 224 IN URB *Urb\r
225 )\r
226{\r
6b4483cd 227 VOID *OutputContext;\r
92870c98 228 TRANSFER_RING *EPRing;\r
229 UINT8 EPType;\r
230 UINT8 SlotId;\r
231 UINT8 Dci;\r
232 TRB *TrbStart;\r
233 UINTN TotalLen;\r
234 UINTN Len;\r
235 UINTN TrbNum;\r
1847ed0b
EL		 236 EFI_PCI_IO_PROTOCOL_OPERATION MapOp;\r
237 EFI_PHYSICAL_ADDRESS PhyAddr;\r
238 VOID *Map;\r
239 EFI_STATUS Status;\r
92870c98 240\r
6b4483cd 241 SlotId = XhcBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);\r
242 if (SlotId == 0) {\r
243 return EFI_DEVICE_ERROR;\r
244 }\r
245\r
a50f7c4c 246 Urb->Finished = FALSE;\r
247 Urb->StartDone = FALSE;\r
248 Urb->EndDone = FALSE;\r
249 Urb->Completed = 0;\r
250 Urb->Result = EFI_USB_NOERROR;\r
251\r
ce9b5900 252 Dci = XhcEndpointToDci (Urb->Ep.EpAddr, (UINT8)(Urb->Ep.Direction));\r
a9292c13 253 ASSERT (Dci < 32);\r
254 EPRing = (TRANSFER_RING *)(UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1];\r
92870c98 255 Urb->Ring = EPRing;\r
1847ed0b 256 OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;\r
6b4483cd 257 if (Xhc->HcCParams.Data.Csz == 0) {\r
258 EPType = (UINT8) ((DEVICE_CONTEXT *)OutputContext)->EP[Dci-1].EPType;\r
259 } else {\r
260 EPType = (UINT8) ((DEVICE_CONTEXT_64 *)OutputContext)->EP[Dci-1].EPType;\r
261 }\r
1847ed0b
EL		 262 \r
263 if (Urb->Data != NULL) {\r
264 if (((UINT8) (Urb->Ep.Direction)) == EfiUsbDataIn) {\r
265 MapOp = EfiPciIoOperationBusMasterWrite;\r
266 } else {\r
267 MapOp = EfiPciIoOperationBusMasterRead;\r
268 }\r
269 \r
270 Len = Urb->DataLen;\r
271 Status = Xhc->PciIo->Map (Xhc->PciIo, MapOp, Urb->Data, &Len, &PhyAddr, &Map);\r
272 \r
273 if (EFI_ERROR (Status) || (Len != Urb->DataLen)) {\r
274 DEBUG ((EFI_D_ERROR, "XhcCreateTransferTrb: Fail to map Urb->Data.\n"));\r
275 return EFI_OUT_OF_RESOURCES;\r
276 }\r
277 \r
278 Urb->DataPhy = (VOID *) ((UINTN) PhyAddr);\r
279 Urb->DataMap = Map;\r
280 }\r
92870c98 281\r
282 //\r
283 // Construct the TRB\r
284 //\r
285 XhcSyncTrsRing (Xhc, EPRing);\r
286 Urb->TrbStart = EPRing->RingEnqueue;\r
287 switch (EPType) {\r
288 case ED_CONTROL_BIDIR:\r
92870c98 289 //\r
290 // For control transfer, create SETUP_STAGE_TRB first.\r
291 //\r
a9292c13 292 TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;\r
293 TrbStart->TrbCtrSetup.bmRequestType = Urb->Request->RequestType;\r
294 TrbStart->TrbCtrSetup.bRequest = Urb->Request->Request;\r
295 TrbStart->TrbCtrSetup.wValue = Urb->Request->Value;\r
296 TrbStart->TrbCtrSetup.wIndex = Urb->Request->Index;\r
297 TrbStart->TrbCtrSetup.wLength = Urb->Request->Length;\r
298 TrbStart->TrbCtrSetup.Lenth = 8;\r
6b4483cd 299 TrbStart->TrbCtrSetup.IntTarget = 0;\r
a9292c13 300 TrbStart->TrbCtrSetup.IOC = 1;\r
301 TrbStart->TrbCtrSetup.IDT = 1;\r
302 TrbStart->TrbCtrSetup.Type = TRB_TYPE_SETUP_STAGE;\r
92870c98 303 if (Urb->Ep.Direction == EfiUsbDataIn) {\r
a9292c13 304 TrbStart->TrbCtrSetup.TRT = 3;\r
92870c98 305 } else if (Urb->Ep.Direction == EfiUsbDataOut) {\r
a9292c13 306 TrbStart->TrbCtrSetup.TRT = 2;\r
92870c98 307 } else {\r
a9292c13 308 TrbStart->TrbCtrSetup.TRT = 0;\r
92870c98 309 }\r
310 //\r
311 // Update the cycle bit\r
312 //\r
a9292c13 313 TrbStart->TrbCtrSetup.CycleBit = EPRing->RingPCS & BIT0;\r
92870c98 314 Urb->TrbNum++;\r
315\r
316 //\r
317 // For control transfer, create DATA_STAGE_TRB.\r
318 //\r
319 if (Urb->DataLen > 0) {\r
320 XhcSyncTrsRing (Xhc, EPRing);\r
a9292c13 321 TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;\r
1847ed0b
EL		 322 TrbStart->TrbCtrData.TRBPtrLo = XHC_LOW_32BIT(Urb->DataPhy);\r
323 TrbStart->TrbCtrData.TRBPtrHi = XHC_HIGH_32BIT(Urb->DataPhy);\r
a9292c13 324 TrbStart->TrbCtrData.Lenth = (UINT32) Urb->DataLen;\r
325 TrbStart->TrbCtrData.TDSize = 0;\r
6b4483cd 326 TrbStart->TrbCtrData.IntTarget = 0;\r
a9292c13 327 TrbStart->TrbCtrData.ISP = 1;\r
328 TrbStart->TrbCtrData.IOC = 1;\r
329 TrbStart->TrbCtrData.IDT = 0;\r
330 TrbStart->TrbCtrData.CH = 0;\r
331 TrbStart->TrbCtrData.Type = TRB_TYPE_DATA_STAGE;\r
92870c98 332 if (Urb->Ep.Direction == EfiUsbDataIn) {\r
a9292c13 333 TrbStart->TrbCtrData.DIR = 1;\r
92870c98 334 } else if (Urb->Ep.Direction == EfiUsbDataOut) {\r
a9292c13 335 TrbStart->TrbCtrData.DIR = 0;\r
92870c98 336 } else {\r
a9292c13 337 TrbStart->TrbCtrData.DIR = 0;\r
92870c98 338 }\r
339 //\r
340 // Update the cycle bit\r
341 //\r
a9292c13 342 TrbStart->TrbCtrData.CycleBit = EPRing->RingPCS & BIT0;\r
92870c98 343 Urb->TrbNum++;\r
344 }\r
345 //\r
346 // For control transfer, create STATUS_STAGE_TRB.\r
347 // Get the pointer to next TRB for status stage use\r
348 //\r
349 XhcSyncTrsRing (Xhc, EPRing);\r
a9292c13 350 TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;\r
6b4483cd 351 TrbStart->TrbCtrStatus.IntTarget = 0;\r
a9292c13 352 TrbStart->TrbCtrStatus.IOC = 1;\r
353 TrbStart->TrbCtrStatus.CH = 0;\r
354 TrbStart->TrbCtrStatus.Type = TRB_TYPE_STATUS_STAGE;\r
92870c98 355 if (Urb->Ep.Direction == EfiUsbDataIn) {\r
a9292c13 356 TrbStart->TrbCtrStatus.DIR = 0;\r
92870c98 357 } else if (Urb->Ep.Direction == EfiUsbDataOut) {\r
a9292c13 358 TrbStart->TrbCtrStatus.DIR = 1;\r
92870c98 359 } else {\r
a9292c13 360 TrbStart->TrbCtrStatus.DIR = 0;\r
92870c98 361 }\r
362 //\r
363 // Update the cycle bit\r
364 //\r
a9292c13 365 TrbStart->TrbCtrStatus.CycleBit = EPRing->RingPCS & BIT0;\r
92870c98 366 //\r
367 // Update the enqueue pointer\r
368 //\r
369 XhcSyncTrsRing (Xhc, EPRing);\r
370 Urb->TrbNum++;\r
a9292c13 371 Urb->TrbEnd = (TRB_TEMPLATE *)(UINTN)TrbStart;\r
92870c98 372\r
373 break;\r
374\r
375 case ED_BULK_OUT:\r
376 case ED_BULK_IN:\r
92870c98 377 TotalLen = 0;\r
378 Len = 0;\r
379 TrbNum = 0;\r
a9292c13 380 TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;\r
92870c98 381 while (TotalLen < Urb->DataLen) {\r
382 if ((TotalLen + 0x10000) >= Urb->DataLen) {\r
383 Len = Urb->DataLen - TotalLen;\r
384 } else {\r
385 Len = 0x10000;\r
386 }\r
a9292c13 387 TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;\r
1847ed0b
EL		 388 TrbStart->TrbNormal.TRBPtrLo = XHC_LOW_32BIT((UINT8 *) Urb->DataPhy + TotalLen);\r
389 TrbStart->TrbNormal.TRBPtrHi = XHC_HIGH_32BIT((UINT8 *) Urb->DataPhy + TotalLen);\r
a9292c13 390 TrbStart->TrbNormal.Lenth = (UINT32) Len;\r
391 TrbStart->TrbNormal.TDSize = 0;\r
6b4483cd 392 TrbStart->TrbNormal.IntTarget = 0;\r
a9292c13 393 TrbStart->TrbNormal.ISP = 1;\r
394 TrbStart->TrbNormal.IOC = 1;\r
395 TrbStart->TrbNormal.Type = TRB_TYPE_NORMAL;\r
92870c98 396 //\r
397 // Update the cycle bit\r
398 //\r
a9292c13 399 TrbStart->TrbNormal.CycleBit = EPRing->RingPCS & BIT0;\r
92870c98 400\r
401 XhcSyncTrsRing (Xhc, EPRing);\r
402 TrbNum++;\r
403 TotalLen += Len;\r
404 }\r
405\r
406 Urb->TrbNum = TrbNum;\r
a9292c13 407 Urb->TrbEnd = (TRB_TEMPLATE *)(UINTN)TrbStart;\r
92870c98 408 break;\r
409\r
410 case ED_INTERRUPT_OUT:\r
411 case ED_INTERRUPT_IN:\r
92870c98 412 TotalLen = 0;\r
413 Len = 0;\r
414 TrbNum = 0;\r
a9292c13 415 TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;\r
92870c98 416 while (TotalLen < Urb->DataLen) {\r
417 if ((TotalLen + 0x10000) >= Urb->DataLen) {\r
418 Len = Urb->DataLen - TotalLen;\r
419 } else {\r
420 Len = 0x10000;\r
421 }\r
a9292c13 422 TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;\r
1847ed0b
EL		 423 TrbStart->TrbNormal.TRBPtrLo = XHC_LOW_32BIT((UINT8 *) Urb->DataPhy + TotalLen);\r
424 TrbStart->TrbNormal.TRBPtrHi = XHC_HIGH_32BIT((UINT8 *) Urb->DataPhy + TotalLen);\r
a9292c13 425 TrbStart->TrbNormal.Lenth = (UINT32) Len;\r
426 TrbStart->TrbNormal.TDSize = 0;\r
6b4483cd 427 TrbStart->TrbNormal.IntTarget = 0;\r
a9292c13 428 TrbStart->TrbNormal.ISP = 1;\r
429 TrbStart->TrbNormal.IOC = 1;\r
430 TrbStart->TrbNormal.Type = TRB_TYPE_NORMAL;\r
92870c98 431 //\r
432 // Update the cycle bit\r
433 //\r
a9292c13 434 TrbStart->TrbNormal.CycleBit = EPRing->RingPCS & BIT0;\r
92870c98 435\r
436 XhcSyncTrsRing (Xhc, EPRing);\r
437 TrbNum++;\r
438 TotalLen += Len;\r
439 }\r
440\r
441 Urb->TrbNum = TrbNum;\r
a9292c13 442 Urb->TrbEnd = (TRB_TEMPLATE *)(UINTN)TrbStart;\r
92870c98 443 break;\r
444\r
445 default:\r
446 DEBUG ((EFI_D_INFO, "Not supported EPType 0x%x!\n",EPType));\r
447 ASSERT (FALSE);\r
448 break;\r
449 }\r
450\r
451 return EFI_SUCCESS;\r
452}\r
453\r
454\r
455/**\r
456 Initialize the XHCI host controller for schedule.\r
457\r
a9292c13 458 @param Xhc The XHCI Instance to be initialized.\r
92870c98 459\r
460**/\r
461VOID\r
462XhcInitSched (\r
a9292c13 463 IN USB_XHCI_INSTANCE *Xhc\r
92870c98 464 )\r
465{\r
466 VOID *Dcbaa;\r
1847ed0b 467 EFI_PHYSICAL_ADDRESS DcbaaPhy;\r
92870c98 468 UINT64 CmdRing;\r
1847ed0b 469 EFI_PHYSICAL_ADDRESS CmdRingPhy; \r
92870c98 470 UINTN Entries;\r
471 UINT32 MaxScratchpadBufs;\r
472 UINT64 *ScratchBuf;\r
1847ed0b
EL		 473 EFI_PHYSICAL_ADDRESS ScratchPhy;\r
474 UINT64 *ScratchEntry;\r
475 EFI_PHYSICAL_ADDRESS ScratchEntryPhy;\r
92870c98 476 UINT32 Index;\r
1847ed0b
EL		 477 UINTN *ScratchEntryMap;\r
478 EFI_STATUS Status;\r
479\r
480 //\r
481 // Initialize memory management.\r
482 //\r
483 Xhc->MemPool = UsbHcInitMemPool (Xhc->PciIo);\r
484 ASSERT (Xhc->MemPool != NULL);\r
92870c98 485\r
486 //\r
487 // Program the Max Device Slots Enabled (MaxSlotsEn) field in the CONFIG register (5.4.7)\r
488 // to enable the device slots that system software is going to use.\r
489 //\r
490 Xhc->MaxSlotsEn = Xhc->HcSParams1.Data.MaxSlots;\r
491 ASSERT (Xhc->MaxSlotsEn >= 1 && Xhc->MaxSlotsEn <= 255);\r
492 XhcWriteOpReg (Xhc, XHC_CONFIG_OFFSET, Xhc->MaxSlotsEn);\r
493\r
494 //\r
495 // The Device Context Base Address Array entry associated with each allocated Device Slot\r
496 // shall contain a 64-bit pointer to the base of the associated Device Context.\r
497 // The Device Context Base Address Array shall contain MaxSlotsEn + 1 entries.\r
498 // Software shall set Device Context Base Address Array entries for unallocated Device Slots to '0'.\r
499 //\r
500 Entries = (Xhc->MaxSlotsEn + 1) * sizeof(UINT64);\r
1847ed0b 501 Dcbaa = UsbHcAllocateMem (Xhc->MemPool, Entries);\r
92870c98 502 ASSERT (Dcbaa != NULL);\r
a9292c13 503 ZeroMem (Dcbaa, Entries);\r
92870c98 504\r
505 //\r
506 // A Scratchpad Buffer is a PAGESIZE block of system memory located on a PAGESIZE boundary.\r
507 // System software shall allocate the Scratchpad Buffer(s) before placing the xHC in to Run\r
508 // mode (Run/Stop(R/S) ='1').\r
509 //\r
510 MaxScratchpadBufs = ((Xhc->HcSParams2.Data.ScratchBufHi) << 5) | (Xhc->HcSParams2.Data.ScratchBufLo);\r
511 Xhc->MaxScratchpadBufs = MaxScratchpadBufs;\r
ce9b5900 512 ASSERT (MaxScratchpadBufs <= 1023);\r
92870c98 513 if (MaxScratchpadBufs != 0) {\r
1847ed0b
EL		 514 //\r
515 // Allocate the buffer to record the Mapping for each scratch buffer in order to Unmap them\r
516 //\r
517 ScratchEntryMap = AllocateZeroPool (sizeof (UINTN) * MaxScratchpadBufs);\r
518 ASSERT (ScratchEntryMap != NULL);\r
519 Xhc->ScratchEntryMap = ScratchEntryMap;\r
520 \r
521 //\r
522 // Allocate the buffer to record the host address for each entry\r
523 //\r
524 ScratchEntry = AllocateZeroPool (sizeof (UINT64) * MaxScratchpadBufs);\r
525 ASSERT (ScratchEntry != NULL);\r
526 Xhc->ScratchEntry = ScratchEntry;\r
527\r
528 Status = UsbHcAllocateAlignedPages (\r
529 Xhc->PciIo,\r
530 EFI_SIZE_TO_PAGES (MaxScratchpadBufs * sizeof (UINT64)),\r
531 Xhc->PageSize,\r
532 (VOID **) &ScratchBuf, \r
533 &ScratchPhy,\r
534 &Xhc->ScratchMap\r
535 );\r
536 ASSERT_EFI_ERROR (Status);\r
537\r
a9292c13 538 ZeroMem (ScratchBuf, MaxScratchpadBufs * sizeof (UINT64));\r
92870c98 539 Xhc->ScratchBuf = ScratchBuf;\r
540\r
1847ed0b
EL		 541 //\r
542 // Allocate each scratch buffer\r
543 //\r
92870c98 544 for (Index = 0; Index < MaxScratchpadBufs; Index++) {\r
1847ed0b
EL		 545 Status = UsbHcAllocateAlignedPages (\r
546 Xhc->PciIo,\r
547 EFI_SIZE_TO_PAGES (Xhc->PageSize),\r
548 Xhc->PageSize,\r
549 (VOID **) &ScratchEntry[Index],\r
550 &ScratchEntryPhy,\r
551 (VOID **) &ScratchEntryMap[Index]\r
552 );\r
553 ASSERT_EFI_ERROR (Status);\r
554 ZeroMem ((VOID *)(UINTN)ScratchEntry[Index], Xhc->PageSize);\r
555 //\r
556 // Fill with the PCI device address\r
557 //\r
558 *ScratchBuf++ = ScratchEntryPhy;\r
92870c98 559 }\r
92870c98 560 //\r
561 // The Scratchpad Buffer Array contains pointers to the Scratchpad Buffers. Entry 0 of the\r
562 // Device Context Base Address Array points to the Scratchpad Buffer Array.\r
563 //\r
1847ed0b 564 *(UINT64 *)Dcbaa = (UINT64)(UINTN) ScratchPhy;\r
92870c98 565 }\r
566\r
567 //\r
568 // Program the Device Context Base Address Array Pointer (DCBAAP) register (5.4.6) with\r
569 // a 64-bit address pointing to where the Device Context Base Address Array is located.\r
570 //\r
a9292c13 571 Xhc->DCBAA = (UINT64 *)(UINTN)Dcbaa;\r
6b4483cd 572 //\r
573 // Some 3rd party XHCI external cards don't support single 64-bytes width register access,\r
574 // So divide it to two 32-bytes width register access.\r
575 //\r
1847ed0b
EL		 576 DcbaaPhy = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Dcbaa, Entries);\r
577 XhcWriteOpReg (Xhc, XHC_DCBAAP_OFFSET, XHC_LOW_32BIT(DcbaaPhy));\r
578 XhcWriteOpReg (Xhc, XHC_DCBAAP_OFFSET + 4, XHC_HIGH_32BIT (DcbaaPhy));\r
579\r
ce9b5900 580 DEBUG ((EFI_D_INFO, "XhcInitSched:DCBAA=0x%x\n", (UINT64)(UINTN)Xhc->DCBAA));\r
92870c98 581\r
582 //\r
583 // Define the Command Ring Dequeue Pointer by programming the Command Ring Control Register\r
584 // (5.4.5) with a 64-bit address pointing to the starting address of the first TRB of the Command Ring.\r
585 // Note: The Command Ring is 64 byte aligned, so the low order 6 bits of the Command Ring Pointer shall\r
586 // always be '0'.\r
587 //\r
588 CreateTransferRing (Xhc, CMD_RING_TRB_NUMBER, &Xhc->CmdRing);\r
589 //\r
590 // The xHC uses the Enqueue Pointer to determine when a Transfer Ring is empty. As it fetches TRBs from a\r
591 // Transfer Ring it checks for a Cycle bit transition. If a transition detected, the ring is empty.\r
592 // So we set RCS as inverted PCS init value to let Command Ring empty\r
593 //\r
594 CmdRing = (UINT64)(UINTN)Xhc->CmdRing.RingSeg0;\r
1847ed0b
EL		 595 CmdRingPhy = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, (VOID *)(UINTN) CmdRing, sizeof (TRB_TEMPLATE) * CMD_RING_TRB_NUMBER);\r
596 ASSERT ((CmdRingPhy & 0x3F) == 0);\r
597 CmdRingPhy |= XHC_CRCR_RCS;\r
6b4483cd 598 //\r
599 // Some 3rd party XHCI external cards don't support single 64-bytes width register access,\r
600 // So divide it to two 32-bytes width register access.\r
601 //\r
1847ed0b
EL		 602 XhcWriteOpReg (Xhc, XHC_CRCR_OFFSET, XHC_LOW_32BIT(CmdRingPhy));\r
603 XhcWriteOpReg (Xhc, XHC_CRCR_OFFSET + 4, XHC_HIGH_32BIT (CmdRingPhy));\r
92870c98 604\r
605 DEBUG ((EFI_D_INFO, "XhcInitSched:XHC_CRCR=0x%x\n", Xhc->CmdRing.RingSeg0));\r
606\r
607 //\r
608 // Disable the 'interrupter enable' bit in USB_CMD\r
609 // and clear IE & IP bit in all Interrupter X Management Registers.\r
610 //\r
611 XhcClearOpRegBit (Xhc, XHC_USBCMD_OFFSET, XHC_USBCMD_INTE);\r
612 for (Index = 0; Index < (UINT16)(Xhc->HcSParams1.Data.MaxIntrs); Index++) {\r
613 XhcClearRuntimeRegBit (Xhc, XHC_IMAN_OFFSET + (Index * 32), XHC_IMAN_IE);\r
614 XhcSetRuntimeRegBit (Xhc, XHC_IMAN_OFFSET + (Index * 32), XHC_IMAN_IP);\r
615 }\r
616\r
617 //\r
618 // Allocate EventRing for Cmd, Ctrl, Bulk, Interrupt, AsynInterrupt transfer\r
619 //\r
6b4483cd 620 CreateEventRing (Xhc, &Xhc->EventRing);\r
621 DEBUG ((EFI_D_INFO, "XhcInitSched:XHC_EVENTRING=0x%x\n", Xhc->EventRing.EventRingSeg0));\r
92870c98 622}\r
623\r
624/**\r
625 System software shall use a Reset Endpoint Command (section 4.11.4.7) to remove the Halted\r
626 condition in the xHC. After the successful completion of the Reset Endpoint Command, the Endpoint\r
627 Context is transitioned from the Halted to the Stopped state and the Transfer Ring of the endpoint is\r
628 reenabled. The next write to the Doorbell of the Endpoint will transition the Endpoint Context from the\r
629 Stopped to the Running state.\r
630\r
a9292c13 631 @param Xhc The XHCI Instance.\r
92870c98 632 @param Urb The urb which makes the endpoint halted.\r
633\r
634 @retval EFI_SUCCESS The recovery is successful.\r
635 @retval Others Failed to recovery halted endpoint.\r
636\r
637**/\r
638EFI_STATUS\r
639EFIAPI\r
640XhcRecoverHaltedEndpoint (\r
a9292c13 641 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 642 IN URB *Urb\r
643 )\r
644{\r
a9292c13 645 EFI_STATUS Status;\r
646 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
647 CMD_TRB_RESET_ENDPOINT CmdTrbResetED;\r
648 CMD_SET_TR_DEQ_POINTER CmdSetTRDeq;\r
649 UINT8 Dci;\r
650 UINT8 SlotId;\r
1847ed0b 651 EFI_PHYSICAL_ADDRESS PhyAddr;\r
92870c98 652\r
6b4483cd 653 Status = EFI_SUCCESS;\r
654 SlotId = XhcBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);\r
655 if (SlotId == 0) {\r
656 return EFI_DEVICE_ERROR;\r
657 }\r
658 Dci = XhcEndpointToDci (Urb->Ep.EpAddr, (UINT8)(Urb->Ep.Direction));\r
659 ASSERT (Dci < 32);\r
660 \r
92870c98 661 DEBUG ((EFI_D_INFO, "Recovery Halted Slot = %x,Dci = %x\n", SlotId, Dci));\r
662\r
663 //\r
664 // 1) Send Reset endpoint command to transit from halt to stop state\r
665 //\r
666 ZeroMem (&CmdTrbResetED, sizeof (CmdTrbResetED));\r
667 CmdTrbResetED.CycleBit = 1;\r
668 CmdTrbResetED.Type = TRB_TYPE_RESET_ENDPOINT;\r
669 CmdTrbResetED.EDID = Dci;\r
670 CmdTrbResetED.SlotId = SlotId;\r
671 Status = XhcCmdTransfer (\r
672 Xhc,\r
a9292c13 673 (TRB_TEMPLATE *) (UINTN) &CmdTrbResetED,\r
92870c98 674 XHC_GENERIC_TIMEOUT,\r
a9292c13 675 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
92870c98 676 );\r
260fbf53
EL		 677 if (EFI_ERROR(Status)) {\r
678 DEBUG ((EFI_D_ERROR, "XhcRecoverHaltedEndpoint: Reset Endpoint Failed, Status = %r\n", Status));\r
679 goto Done;\r
680 }\r
92870c98 681\r
682 //\r
683 // 2)Set dequeue pointer\r
684 //\r
685 ZeroMem (&CmdSetTRDeq, sizeof (CmdSetTRDeq));\r
1847ed0b
EL		 686 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Urb->Ring->RingEnqueue, sizeof (CMD_SET_TR_DEQ_POINTER));\r
687 CmdSetTRDeq.PtrLo = XHC_LOW_32BIT (PhyAddr) | Urb->Ring->RingPCS;\r
688 CmdSetTRDeq.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
92870c98 689 CmdSetTRDeq.CycleBit = 1;\r
690 CmdSetTRDeq.Type = TRB_TYPE_SET_TR_DEQUE;\r
691 CmdSetTRDeq.Endpoint = Dci;\r
692 CmdSetTRDeq.SlotId = SlotId;\r
693 Status = XhcCmdTransfer (\r
694 Xhc,\r
a9292c13 695 (TRB_TEMPLATE *) (UINTN) &CmdSetTRDeq,\r
92870c98 696 XHC_GENERIC_TIMEOUT,\r
a9292c13 697 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
92870c98 698 );\r
260fbf53
EL		 699 if (EFI_ERROR(Status)) {\r
700 DEBUG ((EFI_D_ERROR, "XhcRecoverHaltedEndpoint: Set Dequeue Pointer Failed, Status = %r\n", Status));\r
701 goto Done;\r
702 }\r
92870c98 703\r
704 //\r
705 // 3)Ring the doorbell to transit from stop to active\r
706 //\r
707 XhcRingDoorBell (Xhc, SlotId, Dci);\r
708\r
260fbf53 709Done:\r
92870c98 710 return Status;\r
711}\r
712\r
713/**\r
714 Create XHCI event ring.\r
715\r
a9292c13 716 @param Xhc The XHCI Instance.\r
92870c98 717 @param EventRing The created event ring.\r
718\r
719**/\r
720VOID\r
92870c98 721CreateEventRing (\r
a9292c13 722 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 723 OUT EVENT_RING *EventRing\r
724 )\r
725{\r
726 VOID *Buf;\r
727 EVENT_RING_SEG_TABLE_ENTRY *ERSTBase;\r
1847ed0b
EL		 728 UINTN Size;\r
729 EFI_PHYSICAL_ADDRESS ERSTPhy;\r
730 EFI_PHYSICAL_ADDRESS DequeuePhy;\r
92870c98 731\r
732 ASSERT (EventRing != NULL);\r
733\r
1847ed0b
EL		 734 Size = sizeof (TRB_TEMPLATE) * EVENT_RING_TRB_NUMBER;\r
735 Buf = UsbHcAllocateMem (Xhc->MemPool, Size);\r
92870c98 736 ASSERT (Buf != NULL);\r
737 ASSERT (((UINTN) Buf & 0x3F) == 0);\r
1847ed0b 738 ZeroMem (Buf, Size);\r
92870c98 739\r
740 EventRing->EventRingSeg0 = Buf;\r
92870c98 741 EventRing->TrbNumber = EVENT_RING_TRB_NUMBER;\r
a9292c13 742 EventRing->EventRingDequeue = (TRB_TEMPLATE *) EventRing->EventRingSeg0;\r
743 EventRing->EventRingEnqueue = (TRB_TEMPLATE *) EventRing->EventRingSeg0;\r
1847ed0b
EL		 744 \r
745 DequeuePhy = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Buf, Size);\r
746 \r
92870c98 747 //\r
748 // Software maintains an Event Ring Consumer Cycle State (CCS) bit, initializing it to '1'\r
749 // and toggling it every time the Event Ring Dequeue Pointer wraps back to the beginning of the Event Ring.\r
750 //\r
751 EventRing->EventRingCCS = 1;\r
752\r
e1f2dfec 753 Size = sizeof (EVENT_RING_SEG_TABLE_ENTRY) * ERST_NUMBER;\r
1847ed0b 754 Buf = UsbHcAllocateMem (Xhc->MemPool, Size);\r
92870c98 755 ASSERT (Buf != NULL);\r
756 ASSERT (((UINTN) Buf & 0x3F) == 0);\r
1847ed0b 757 ZeroMem (Buf, Size);\r
92870c98 758\r
759 ERSTBase = (EVENT_RING_SEG_TABLE_ENTRY *) Buf;\r
760 EventRing->ERSTBase = ERSTBase;\r
1847ed0b
EL		 761 ERSTBase->PtrLo = XHC_LOW_32BIT (DequeuePhy);\r
762 ERSTBase->PtrHi = XHC_HIGH_32BIT (DequeuePhy);\r
92870c98 763 ERSTBase->RingTrbSize = EVENT_RING_TRB_NUMBER;\r
764\r
1847ed0b
EL		 765 ERSTPhy = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, ERSTBase, Size);\r
766\r
92870c98 767 //\r
768 // Program the Interrupter Event Ring Segment Table Size (ERSTSZ) register (5.5.2.3.1)\r
769 //\r
770 XhcWriteRuntimeReg (\r
771 Xhc,\r
6b4483cd 772 XHC_ERSTSZ_OFFSET,\r
92870c98 773 ERST_NUMBER\r
774 );\r
775 //\r
776 // Program the Interrupter Event Ring Dequeue Pointer (ERDP) register (5.5.2.3.3)\r
777 //\r
6b4483cd 778 // Some 3rd party XHCI external cards don't support single 64-bytes width register access,\r
779 // So divide it to two 32-bytes width register access.\r
780 //\r
781 XhcWriteRuntimeReg (\r
782 Xhc,\r
783 XHC_ERDP_OFFSET,\r
1847ed0b 784 XHC_LOW_32BIT((UINT64)(UINTN)DequeuePhy)\r
6b4483cd 785 );\r
786 XhcWriteRuntimeReg (\r
92870c98 787 Xhc,\r
6b4483cd 788 XHC_ERDP_OFFSET + 4,\r
1847ed0b 789 XHC_HIGH_32BIT((UINT64)(UINTN)DequeuePhy)\r
92870c98 790 );\r
791 //\r
792 // Program the Interrupter Event Ring Segment Table Base Address (ERSTBA) register(5.5.2.3.2)\r
793 //\r
6b4483cd 794 // Some 3rd party XHCI external cards don't support single 64-bytes width register access,\r
795 // So divide it to two 32-bytes width register access.\r
796 //\r
797 XhcWriteRuntimeReg (\r
798 Xhc,\r
799 XHC_ERSTBA_OFFSET,\r
1847ed0b 800 XHC_LOW_32BIT((UINT64)(UINTN)ERSTPhy)\r
6b4483cd 801 );\r
802 XhcWriteRuntimeReg (\r
92870c98 803 Xhc,\r
6b4483cd 804 XHC_ERSTBA_OFFSET + 4,\r
1847ed0b 805 XHC_HIGH_32BIT((UINT64)(UINTN)ERSTPhy)\r
92870c98 806 );\r
807 //\r
808 // Need set IMAN IE bit to enble the ring interrupt\r
809 //\r
6b4483cd 810 XhcSetRuntimeRegBit (Xhc, XHC_IMAN_OFFSET, XHC_IMAN_IE);\r
92870c98 811}\r
812\r
813/**\r
814 Create XHCI transfer ring.\r
815\r
a9292c13 816 @param Xhc The XHCI Instance.\r
92870c98 817 @param TrbNum The number of TRB in the ring.\r
818 @param TransferRing The created transfer ring.\r
819\r
820**/\r
821VOID\r
92870c98 822CreateTransferRing (\r
a9292c13 823 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 824 IN UINTN TrbNum,\r
825 OUT TRANSFER_RING *TransferRing\r
826 )\r
827{\r
828 VOID *Buf;\r
a9292c13 829 LINK_TRB *EndTrb;\r
1847ed0b 830 EFI_PHYSICAL_ADDRESS PhyAddr;\r
92870c98 831\r
1847ed0b 832 Buf = UsbHcAllocateMem (Xhc->MemPool, sizeof (TRB_TEMPLATE) * TrbNum);\r
92870c98 833 ASSERT (Buf != NULL);\r
834 ASSERT (((UINTN) Buf & 0x3F) == 0);\r
a9292c13 835 ZeroMem (Buf, sizeof (TRB_TEMPLATE) * TrbNum);\r
92870c98 836\r
837 TransferRing->RingSeg0 = Buf;\r
838 TransferRing->TrbNumber = TrbNum;\r
a9292c13 839 TransferRing->RingEnqueue = (TRB_TEMPLATE *) TransferRing->RingSeg0;\r
840 TransferRing->RingDequeue = (TRB_TEMPLATE *) TransferRing->RingSeg0;\r
92870c98 841 TransferRing->RingPCS = 1;\r
842 //\r
843 // 4.9.2 Transfer Ring Management\r
844 // To form a ring (or circular queue) a Link TRB may be inserted at the end of a ring to\r
845 // point to the first TRB in the ring.\r
846 //\r
a9292c13 847 EndTrb = (LINK_TRB *) ((UINTN)Buf + sizeof (TRB_TEMPLATE) * (TrbNum - 1));\r
92870c98 848 EndTrb->Type = TRB_TYPE_LINK;\r
1847ed0b
EL		 849 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Buf, sizeof (TRB_TEMPLATE) * TrbNum);\r
850 EndTrb->PtrLo = XHC_LOW_32BIT (PhyAddr);\r
851 EndTrb->PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
92870c98 852 //\r
853 // Toggle Cycle (TC). When set to '1', the xHC shall toggle its interpretation of the Cycle bit.\r
854 //\r
855 EndTrb->TC = 1;\r
856 //\r
857 // Set Cycle bit as other TRB PCS init value\r
858 //\r
859 EndTrb->CycleBit = 0;\r
860}\r
861\r
862/**\r
863 Free XHCI event ring.\r
864\r
a9292c13 865 @param Xhc The XHCI Instance.\r
92870c98 866 @param EventRing The event ring to be freed.\r
867\r
868**/\r
869EFI_STATUS\r
870EFIAPI\r
871XhcFreeEventRing (\r
a9292c13 872 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 873 IN EVENT_RING *EventRing\r
874)\r
875{\r
92870c98 876 if(EventRing->EventRingSeg0 == NULL) {\r
877 return EFI_SUCCESS;\r
878 }\r
879\r
92870c98 880 //\r
1847ed0b 881 // Free EventRing Segment 0\r
92870c98 882 //\r
1847ed0b 883 UsbHcFreeMem (Xhc->MemPool, EventRing->EventRingSeg0, sizeof (TRB_TEMPLATE) * EVENT_RING_TRB_NUMBER);\r
92870c98 884\r
885 //\r
1847ed0b 886 // Free ESRT table\r
92870c98 887 //\r
1847ed0b 888 UsbHcFreeMem (Xhc->MemPool, EventRing->ERSTBase, sizeof (EVENT_RING_SEG_TABLE_ENTRY) * ERST_NUMBER);\r
92870c98 889 return EFI_SUCCESS;\r
890}\r
891\r
892/**\r
893 Free the resouce allocated at initializing schedule.\r
894\r
a9292c13 895 @param Xhc The XHCI Instance.\r
92870c98 896\r
897**/\r
898VOID\r
899XhcFreeSched (\r
a9292c13 900 IN USB_XHCI_INSTANCE *Xhc\r
92870c98 901 )\r
902{\r
1847ed0b
EL		 903 UINT32 Index;\r
904 UINT64 *ScratchEntry;\r
905 \r
92870c98 906 if (Xhc->ScratchBuf != NULL) {\r
1847ed0b 907 ScratchEntry = Xhc->ScratchEntry;\r
92870c98 908 for (Index = 0; Index < Xhc->MaxScratchpadBufs; Index++) {\r
1847ed0b
EL		 909 //\r
910 // Free Scratchpad Buffers\r
911 //\r
912 UsbHcFreeAlignedPages (Xhc->PciIo, (VOID*)(UINTN)ScratchEntry[Index], EFI_SIZE_TO_PAGES (Xhc->PageSize), (VOID *) Xhc->ScratchEntryMap[Index]);\r
92870c98 913 }\r
1847ed0b
EL		 914 //\r
915 // Free Scratchpad Buffer Array\r
916 //\r
917 UsbHcFreeAlignedPages (Xhc->PciIo, Xhc->ScratchBuf, EFI_SIZE_TO_PAGES (Xhc->MaxScratchpadBufs * sizeof (UINT64)), Xhc->ScratchMap);\r
918 FreePool (Xhc->ScratchEntryMap);\r
919 FreePool (Xhc->ScratchEntry);\r
920 }\r
921\r
922 if (Xhc->CmdRing.RingSeg0 != NULL) {\r
923 UsbHcFreeMem (Xhc->MemPool, Xhc->CmdRing.RingSeg0, sizeof (TRB_TEMPLATE) * CMD_RING_TRB_NUMBER);\r
924 Xhc->CmdRing.RingSeg0 = NULL;\r
92870c98 925 }\r
1847ed0b
EL		 926 \r
927 XhcFreeEventRing (Xhc,&Xhc->EventRing);\r
92870c98 928\r
929 if (Xhc->DCBAA != NULL) {\r
1847ed0b 930 UsbHcFreeMem (Xhc->MemPool, Xhc->DCBAA, (Xhc->MaxSlotsEn + 1) * sizeof(UINT64));\r
92870c98 931 Xhc->DCBAA = NULL;\r
932 }\r
1847ed0b
EL		 933 \r
934 //\r
935 // Free memory pool at last\r
936 //\r
937 if (Xhc->MemPool != NULL) {\r
938 UsbHcFreeMemPool (Xhc->MemPool);\r
939 Xhc->MemPool = NULL;\r
92870c98 940 }\r
92870c98 941}\r
942\r
943/**\r
a50f7c4c 944 Check if the Trb is a transaction of the URBs in XHCI's asynchronous transfer list.\r
945\r
946 @param Xhc The XHCI Instance.\r
947 @param Trb The TRB to be checked.\r
948 @param Urb The pointer to the matched Urb.\r
949\r
950 @retval TRUE The Trb is matched with a transaction of the URBs in the async list.\r
951 @retval FALSE The Trb is not matched with any URBs in the async list.\r
952\r
953**/\r
954BOOLEAN\r
955IsAsyncIntTrb (\r
956 IN USB_XHCI_INSTANCE *Xhc,\r
957 IN TRB_TEMPLATE *Trb,\r
958 OUT URB **Urb\r
959 )\r
960{\r
961 LIST_ENTRY *Entry;\r
962 LIST_ENTRY *Next;\r
963 TRB_TEMPLATE *CheckedTrb;\r
964 URB *CheckedUrb;\r
965 UINTN Index;\r
966\r
967 EFI_LIST_FOR_EACH_SAFE (Entry, Next, &Xhc->AsyncIntTransfers) {\r
968 CheckedUrb = EFI_LIST_CONTAINER (Entry, URB, UrbList);\r
969 CheckedTrb = CheckedUrb->TrbStart;\r
970 for (Index = 0; Index < CheckedUrb->TrbNum; Index++) {\r
971 if (Trb == CheckedTrb) {\r
972 *Urb = CheckedUrb;\r
973 return TRUE;\r
974 }\r
975 CheckedTrb++;\r
976 if ((UINTN)CheckedTrb >= ((UINTN) CheckedUrb->Ring->RingSeg0 + sizeof (TRB_TEMPLATE) * CheckedUrb->Ring->TrbNumber)) {\r
977 CheckedTrb = (TRB_TEMPLATE*) CheckedUrb->Ring->RingSeg0;\r
978 }\r
979 }\r
980 }\r
981\r
982 return FALSE;\r
983}\r
984\r
985/**\r
986 Check if the Trb is a transaction of the URB.\r
92870c98 987\r
a50f7c4c 988 @param Trb The TRB to be checked\r
989 @param Urb The transfer ring to be checked.\r
92870c98 990\r
a50f7c4c 991 @retval TRUE It is a transaction of the URB.\r
992 @retval FALSE It is not any transaction of the URB.\r
92870c98 993\r
994**/\r
995BOOLEAN\r
996IsTransferRingTrb (\r
a50f7c4c 997 IN TRB_TEMPLATE *Trb,\r
998 IN URB *Urb\r
92870c98 999 )\r
1000{\r
a50f7c4c 1001 TRB_TEMPLATE *CheckedTrb;\r
92870c98 1002 UINTN Index;\r
1003\r
a50f7c4c 1004 CheckedTrb = Urb->Ring->RingSeg0;\r
92870c98 1005\r
a50f7c4c 1006 ASSERT (Urb->Ring->TrbNumber == CMD_RING_TRB_NUMBER || Urb->Ring->TrbNumber == TR_RING_TRB_NUMBER);\r
92870c98 1007\r
a50f7c4c 1008 for (Index = 0; Index < Urb->Ring->TrbNumber; Index++) {\r
1009 if (Trb == CheckedTrb) {\r
1010 return TRUE;\r
92870c98 1011 }\r
a50f7c4c 1012 CheckedTrb++;\r
92870c98 1013 }\r
1014\r
a50f7c4c 1015 return FALSE;\r
92870c98 1016}\r
1017\r
1018/**\r
1019 Check the URB's execution result and update the URB's\r
1020 result accordingly.\r
1021\r
a9292c13 1022 @param Xhc The XHCI Instance.\r
92870c98 1023 @param Urb The URB to check result.\r
1024\r
1025 @return Whether the result of URB transfer is finialized.\r
1026\r
1027**/\r
1028EFI_STATUS\r
1029XhcCheckUrbResult (\r
a9292c13 1030 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1031 IN URB *Urb\r
1032 )\r
1033{\r
92870c98 1034 EVT_TRB_TRANSFER *EvtTrb;\r
a9292c13 1035 TRB_TEMPLATE *TRBPtr;\r
92870c98 1036 UINTN Index;\r
1037 UINT8 TRBType;\r
1038 EFI_STATUS Status;\r
a50f7c4c 1039 URB *AsyncUrb;\r
1040 URB *CheckedUrb;\r
1041 UINT64 XhcDequeue;\r
1042 UINT32 High;\r
1043 UINT32 Low;\r
1847ed0b 1044 EFI_PHYSICAL_ADDRESS PhyAddr;\r
92870c98 1045\r
1046 ASSERT ((Xhc != NULL) && (Urb != NULL));\r
1047\r
09e4dbeb 1048 Status = EFI_SUCCESS;\r
1049 AsyncUrb = NULL;\r
a50f7c4c 1050\r
1051 if (Urb->Finished) {\r
1052 goto EXIT;\r
1053 }\r
1054\r
1055 EvtTrb = NULL;\r
92870c98 1056\r
1057 if (XhcIsHalt (Xhc) || XhcIsSysError (Xhc)) {\r
1058 Urb->Result |= EFI_USB_ERR_SYSTEM;\r
1059 Status = EFI_DEVICE_ERROR;\r
1060 goto EXIT;\r
1061 }\r
1062\r
1063 //\r
a50f7c4c 1064 // Traverse the event ring to find out all new events from the previous check.\r
92870c98 1065 //\r
a50f7c4c 1066 XhcSyncEventRing (Xhc, &Xhc->EventRing);\r
1067 for (Index = 0; Index < Xhc->EventRing.TrbNumber; Index++) {\r
1068 Status = XhcCheckNewEvent (Xhc, &Xhc->EventRing, ((TRB_TEMPLATE **)&EvtTrb));\r
92870c98 1069 if (Status == EFI_NOT_READY) {\r
a50f7c4c 1070 //\r
1071 // All new events are handled, return directly.\r
1072 //\r
92870c98 1073 goto EXIT;\r
1074 }\r
1075\r
6b4483cd 1076 //\r
1077 // Only handle COMMAND_COMPLETETION_EVENT and TRANSFER_EVENT.\r
1078 //\r
1079 if ((EvtTrb->Type != TRB_TYPE_COMMAND_COMPLT_EVENT) && (EvtTrb->Type != TRB_TYPE_TRANS_EVENT)) {\r
1080 continue;\r
1081 }\r
1847ed0b
EL		 1082 \r
1083 //\r
1084 // Need convert pci device address to host address\r
1085 //\r
1086 PhyAddr = (EFI_PHYSICAL_ADDRESS)(EvtTrb->TRBPtrLo | LShiftU64 ((UINT64) EvtTrb->TRBPtrHi, 32));\r
1087 TRBPtr = (TRB_TEMPLATE *)(UINTN) UsbHcGetHostAddrForPciAddr (Xhc->MemPool, (VOID *)(UINTN) PhyAddr, sizeof (TRB_TEMPLATE));\r
92870c98 1088\r
a50f7c4c 1089 //\r
1090 // Update the status of Urb according to the finished event regardless of whether\r
1091 // the urb is current checked one or in the XHCI's async transfer list.\r
1092 // This way is used to avoid that those completed async transfer events don't get\r
1093 // handled in time and are flushed by newer coming events.\r
1094 //\r
1095 if (IsTransferRingTrb (TRBPtr, Urb)) {\r
1096 CheckedUrb = Urb;\r
1097 } else if (IsAsyncIntTrb (Xhc, TRBPtr, &AsyncUrb)) { \r
1098 CheckedUrb = AsyncUrb;\r
1099 } else {\r
1100 continue;\r
1101 }\r
1102 \r
1103 switch (EvtTrb->Completecode) {\r
1104 case TRB_COMPLETION_STALL_ERROR:\r
1105 CheckedUrb->Result |= EFI_USB_ERR_STALL;\r
1106 CheckedUrb->Finished = TRUE;\r
1107 DEBUG ((EFI_D_ERROR, "XhcCheckUrbResult: STALL_ERROR! Completecode = %x\n",EvtTrb->Completecode));\r
c3f44a77 1108 goto EXIT;\r
92870c98 1109\r
a50f7c4c 1110 case TRB_COMPLETION_BABBLE_ERROR:\r
1111 CheckedUrb->Result |= EFI_USB_ERR_BABBLE;\r
1112 CheckedUrb->Finished = TRUE;\r
1113 DEBUG ((EFI_D_ERROR, "XhcCheckUrbResult: BABBLE_ERROR! Completecode = %x\n",EvtTrb->Completecode));\r
c3f44a77 1114 goto EXIT;\r
6b4483cd 1115\r
a50f7c4c 1116 case TRB_COMPLETION_DATA_BUFFER_ERROR:\r
1117 CheckedUrb->Result |= EFI_USB_ERR_BUFFER;\r
1118 CheckedUrb->Finished = TRUE;\r
1119 DEBUG ((EFI_D_ERROR, "XhcCheckUrbResult: ERR_BUFFER! Completecode = %x\n",EvtTrb->Completecode));\r
c3f44a77 1120 goto EXIT;\r
a50f7c4c 1121\r
1122 case TRB_COMPLETION_USB_TRANSACTION_ERROR:\r
1123 CheckedUrb->Result |= EFI_USB_ERR_TIMEOUT;\r
1124 CheckedUrb->Finished = TRUE;\r
1125 DEBUG ((EFI_D_ERROR, "XhcCheckUrbResult: TRANSACTION_ERROR! Completecode = %x\n",EvtTrb->Completecode));\r
c3f44a77 1126 goto EXIT;\r
a50f7c4c 1127\r
1128 case TRB_COMPLETION_SHORT_PACKET:\r
1129 case TRB_COMPLETION_SUCCESS:\r
1130 if (EvtTrb->Completecode == TRB_COMPLETION_SHORT_PACKET) {\r
1131 DEBUG ((EFI_D_ERROR, "XhcCheckUrbResult: short packet happens!\n"));\r
1132 }\r
1133\r
1134 TRBType = (UINT8) (TRBPtr->Type);\r
1135 if ((TRBType == TRB_TYPE_DATA_STAGE) ||\r
1136 (TRBType == TRB_TYPE_NORMAL) ||\r
1137 (TRBType == TRB_TYPE_ISOCH)) {\r
1138 CheckedUrb->Completed += (CheckedUrb->DataLen - EvtTrb->Lenth);\r
1139 }\r
1140\r
1141 break;\r
1142\r
1143 default:\r
1144 DEBUG ((EFI_D_ERROR, "Transfer Default Error Occur! Completecode = 0x%x!\n",EvtTrb->Completecode));\r
1145 CheckedUrb->Result |= EFI_USB_ERR_TIMEOUT;\r
1146 CheckedUrb->Finished = TRUE;\r
c3f44a77 1147 goto EXIT;\r
a50f7c4c 1148 }\r
1149\r
1150 //\r
1151 // Only check first and end Trb event address\r
1152 //\r
1153 if (TRBPtr == CheckedUrb->TrbStart) {\r
1154 CheckedUrb->StartDone = TRUE;\r
1155 }\r
1156\r
1157 if (TRBPtr == CheckedUrb->TrbEnd) {\r
1158 CheckedUrb->EndDone = TRUE;\r
1159 }\r
1160\r
1161 if (CheckedUrb->StartDone && CheckedUrb->EndDone) {\r
1162 CheckedUrb->Finished = TRUE;\r
1163 CheckedUrb->EvtTrb = (TRB_TEMPLATE *)EvtTrb;\r
92870c98 1164 }\r
1165 }\r
1166\r
1167EXIT:\r
a50f7c4c 1168\r
1169 //\r
1170 // Advance event ring to last available entry\r
1171 //\r
1172 // Some 3rd party XHCI external cards don't support single 64-bytes width register access,\r
1173 // So divide it to two 32-bytes width register access.\r
1174 //\r
1175 Low = XhcReadRuntimeReg (Xhc, XHC_ERDP_OFFSET);\r
1176 High = XhcReadRuntimeReg (Xhc, XHC_ERDP_OFFSET + 4);\r
1177 XhcDequeue = (UINT64)(LShiftU64((UINT64)High, 32) | Low);\r
1178\r
1847ed0b
EL		 1179 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Xhc->EventRing.EventRingDequeue, sizeof (TRB_TEMPLATE));\r
1180\r
1181 if ((XhcDequeue & (~0x0F)) != (PhyAddr & (~0x0F))) {\r
a50f7c4c 1182 //\r
1183 // Some 3rd party XHCI external cards don't support single 64-bytes width register access,\r
1184 // So divide it to two 32-bytes width register access.\r
1185 //\r
1847ed0b
EL		 1186 XhcWriteRuntimeReg (Xhc, XHC_ERDP_OFFSET, XHC_LOW_32BIT (PhyAddr) | BIT3);\r
1187 XhcWriteRuntimeReg (Xhc, XHC_ERDP_OFFSET + 4, XHC_HIGH_32BIT (PhyAddr));\r
a50f7c4c 1188 }\r
1189\r
92870c98 1190 return Status;\r
1191}\r
1192\r
1193\r
1194/**\r
1195 Execute the transfer by polling the URB. This is a synchronous operation.\r
1196\r
a9292c13 1197 @param Xhc The XHCI Instance.\r
92870c98 1198 @param CmdTransfer The executed URB is for cmd transfer or not.\r
1199 @param Urb The URB to execute.\r
a9292c13 1200 @param Timeout The time to wait before abort, in millisecond.\r
92870c98 1201\r
1202 @return EFI_DEVICE_ERROR The transfer failed due to transfer error.\r
1203 @return EFI_TIMEOUT The transfer failed due to time out.\r
1204 @return EFI_SUCCESS The transfer finished OK.\r
1205\r
1206**/\r
1207EFI_STATUS\r
1208XhcExecTransfer (\r
a9292c13 1209 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1210 IN BOOLEAN CmdTransfer,\r
1211 IN URB *Urb,\r
a9292c13 1212 IN UINTN Timeout\r
92870c98 1213 )\r
1214{\r
1215 EFI_STATUS Status;\r
1216 UINTN Index;\r
1217 UINTN Loop;\r
1218 UINT8 SlotId;\r
1219 UINT8 Dci;\r
1220\r
1221 if (CmdTransfer) {\r
1222 SlotId = 0;\r
1223 Dci = 0;\r
1224 } else {\r
6b4483cd 1225 SlotId = XhcBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);\r
1226 if (SlotId == 0) {\r
1227 return EFI_DEVICE_ERROR;\r
1228 }\r
1229 Dci = XhcEndpointToDci (Urb->Ep.EpAddr, (UINT8)(Urb->Ep.Direction));\r
1230 ASSERT (Dci < 32);\r
92870c98 1231 }\r
1232\r
1233 Status = EFI_SUCCESS;\r
ca243131 1234 Loop = Timeout * XHC_1_MILLISECOND;\r
a9292c13 1235 if (Timeout == 0) {\r
92870c98 1236 Loop = 0xFFFFFFFF;\r
1237 }\r
1238\r
1239 XhcRingDoorBell (Xhc, SlotId, Dci);\r
1240\r
1241 for (Index = 0; Index < Loop; Index++) {\r
1242 Status = XhcCheckUrbResult (Xhc, Urb);\r
a50f7c4c 1243 if (Urb->Finished) {\r
92870c98 1244 break;\r
1245 }\r
ca243131 1246 gBS->Stall (XHC_1_MICROSECOND);\r
92870c98 1247 }\r
1248\r
a50f7c4c 1249 if (Index == Loop) {\r
1250 Urb->Result = EFI_USB_ERR_TIMEOUT;\r
1251 }\r
1252\r
92870c98 1253 return Status;\r
1254}\r
1255\r
1256/**\r
1257 Delete a single asynchronous interrupt transfer for\r
1258 the device and endpoint.\r
1259\r
a9292c13 1260 @param Xhc The XHCI Instance.\r
6b4483cd 1261 @param BusAddr The logical device address assigned by UsbBus driver.\r
92870c98 1262 @param EpNum The endpoint of the target.\r
1263\r
1264 @retval EFI_SUCCESS An asynchronous transfer is removed.\r
1265 @retval EFI_NOT_FOUND No transfer for the device is found.\r
1266\r
1267**/\r
1268EFI_STATUS\r
1269XhciDelAsyncIntTransfer (\r
a9292c13 1270 IN USB_XHCI_INSTANCE *Xhc,\r
6b4483cd 1271 IN UINT8 BusAddr,\r
92870c98 1272 IN UINT8 EpNum\r
1273 )\r
1274{\r
1275 LIST_ENTRY *Entry;\r
1276 LIST_ENTRY *Next;\r
1277 URB *Urb;\r
1278 EFI_USB_DATA_DIRECTION Direction;\r
92870c98 1279\r
1280 Direction = ((EpNum & 0x80) != 0) ? EfiUsbDataIn : EfiUsbDataOut;\r
1281 EpNum &= 0x0F;\r
1282\r
6b4483cd 1283 Urb = NULL;\r
92870c98 1284\r
1285 EFI_LIST_FOR_EACH_SAFE (Entry, Next, &Xhc->AsyncIntTransfers) {\r
1286 Urb = EFI_LIST_CONTAINER (Entry, URB, UrbList);\r
6b4483cd 1287 if ((Urb->Ep.BusAddr == BusAddr) &&\r
92870c98 1288 (Urb->Ep.EpAddr == EpNum) &&\r
1289 (Urb->Ep.Direction == Direction)) {\r
1290 RemoveEntryList (&Urb->UrbList);\r
1291 FreePool (Urb->Data);\r
1847ed0b 1292 XhcFreeUrb (Xhc, Urb);\r
92870c98 1293 return EFI_SUCCESS;\r
1294 }\r
1295 }\r
1296\r
1297 return EFI_NOT_FOUND;\r
1298}\r
1299\r
1300/**\r
1301 Remove all the asynchronous interrutp transfers.\r
1302\r
a9292c13 1303 @param Xhc The XHCI Instance.\r
92870c98 1304\r
1305**/\r
1306VOID\r
1307XhciDelAllAsyncIntTransfers (\r
a9292c13 1308 IN USB_XHCI_INSTANCE *Xhc\r
92870c98 1309 )\r
1310{\r
1311 LIST_ENTRY *Entry;\r
1312 LIST_ENTRY *Next;\r
1313 URB *Urb;\r
1314\r
1315 EFI_LIST_FOR_EACH_SAFE (Entry, Next, &Xhc->AsyncIntTransfers) {\r
1316 Urb = EFI_LIST_CONTAINER (Entry, URB, UrbList);\r
1317 RemoveEntryList (&Urb->UrbList);\r
1318 FreePool (Urb->Data);\r
1847ed0b 1319 XhcFreeUrb (Xhc, Urb);\r
92870c98 1320 }\r
1321}\r
1322\r
1323/**\r
1324 Update the queue head for next round of asynchronous transfer\r
1325\r
a9292c13 1326 @param Xhc The XHCI Instance.\r
92870c98 1327 @param Urb The URB to update\r
1328\r
1329**/\r
1330VOID\r
1331XhcUpdateAsyncRequest (\r
a9292c13 1332 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1333 IN URB *Urb\r
1334 )\r
1335{\r
1336 EFI_STATUS Status;\r
1337\r
1338 if (Urb->Result == EFI_USB_NOERROR) {\r
1339 Status = XhcCreateTransferTrb (Xhc, Urb);\r
6b4483cd 1340 if (EFI_ERROR (Status)) {\r
1341 return;\r
1342 }\r
92870c98 1343 Status = RingIntTransferDoorBell (Xhc, Urb);\r
6b4483cd 1344 if (EFI_ERROR (Status)) {\r
1345 return;\r
1346 }\r
92870c98 1347 }\r
1348}\r
1349\r
1847ed0b
EL		 1350/**\r
1351 Flush data from PCI controller specific address to mapped system\r
1352 memory address.\r
1353\r
1354 @param Xhc The XHCI device.\r
1355 @param Urb The URB to unmap.\r
1356\r
1357 @retval EFI_SUCCESS Success to flush data to mapped system memory.\r
1358 @retval EFI_DEVICE_ERROR Fail to flush data to mapped system memory.\r
1359\r
1360**/\r
1361EFI_STATUS\r
1362XhcFlushAsyncIntMap (\r
1363 IN USB_XHCI_INSTANCE *Xhc,\r
1364 IN URB *Urb\r
1365 )\r
1366{\r
1367 EFI_STATUS Status;\r
1368 EFI_PHYSICAL_ADDRESS PhyAddr;\r
1369 EFI_PCI_IO_PROTOCOL_OPERATION MapOp;\r
1370 EFI_PCI_IO_PROTOCOL *PciIo;\r
1371 UINTN Len;\r
1372 VOID *Map;\r
1373\r
1374 PciIo = Xhc->PciIo;\r
1375 Len = Urb->DataLen;\r
1376\r
1377 if (Urb->Ep.Direction == EfiUsbDataIn) {\r
1378 MapOp = EfiPciIoOperationBusMasterWrite;\r
1379 } else {\r
1380 MapOp = EfiPciIoOperationBusMasterRead;\r
1381 }\r
1382\r
1383 if (Urb->DataMap != NULL) {\r
1384 Status = PciIo->Unmap (PciIo, Urb->DataMap);\r
1385 if (EFI_ERROR (Status)) {\r
1386 goto ON_ERROR;\r
1387 }\r
1388 }\r
1389\r
1390 Urb->DataMap = NULL;\r
1391\r
1392 Status = PciIo->Map (PciIo, MapOp, Urb->Data, &Len, &PhyAddr, &Map);\r
1393 if (EFI_ERROR (Status) || (Len != Urb->DataLen)) {\r
1394 goto ON_ERROR;\r
1395 }\r
1396\r
1397 Urb->DataPhy = (VOID *) ((UINTN) PhyAddr);\r
1398 Urb->DataMap = Map;\r
1399 return EFI_SUCCESS;\r
1400\r
1401ON_ERROR:\r
1402 return EFI_DEVICE_ERROR;\r
1403}\r
92870c98 1404\r
1405/**\r
1406 Interrupt transfer periodic check handler.\r
1407\r
1408 @param Event Interrupt event.\r
a9292c13 1409 @param Context Pointer to USB_XHCI_INSTANCE.\r
92870c98 1410\r
1411**/\r
1412VOID\r
1413EFIAPI\r
1414XhcMonitorAsyncRequests (\r
1415 IN EFI_EVENT Event,\r
1416 IN VOID *Context\r
1417 )\r
1418{\r
a9292c13 1419 USB_XHCI_INSTANCE *Xhc;\r
92870c98 1420 LIST_ENTRY *Entry;\r
1421 LIST_ENTRY *Next;\r
1422 UINT8 *ProcBuf;\r
1423 URB *Urb;\r
1424 UINT8 SlotId;\r
1847ed0b 1425 EFI_STATUS Status;\r
92870c98 1426 EFI_TPL OldTpl;\r
1427\r
1428 OldTpl = gBS->RaiseTPL (XHC_TPL);\r
1429\r
a9292c13 1430 Xhc = (USB_XHCI_INSTANCE*) Context;\r
92870c98 1431\r
1432 EFI_LIST_FOR_EACH_SAFE (Entry, Next, &Xhc->AsyncIntTransfers) {\r
1433 Urb = EFI_LIST_CONTAINER (Entry, URB, UrbList);\r
1434\r
1435 //\r
1436 // Make sure that the device is available before every check.\r
1437 //\r
6b4483cd 1438 SlotId = XhcBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);\r
92870c98 1439 if (SlotId == 0) {\r
1440 continue;\r
1441 }\r
1442\r
1443 //\r
1444 // Check the result of URB execution. If it is still\r
1445 // active, check the next one.\r
1446 //\r
b6cb9c39 1447 XhcCheckUrbResult (Xhc, Urb);\r
92870c98 1448\r
a50f7c4c 1449 if (!Urb->Finished) {\r
92870c98 1450 continue;\r
1451 }\r
1452\r
1847ed0b
EL		 1453 //\r
1454 // Flush any PCI posted write transactions from a PCI host\r
1455 // bridge to system memory.\r
1456 //\r
1457 Status = XhcFlushAsyncIntMap (Xhc, Urb);\r
1458 if (EFI_ERROR (Status)) {\r
1459 DEBUG ((EFI_D_ERROR, "XhcMonitorAsyncRequests: Fail to Flush AsyncInt Mapped Memeory\n"));\r
1460 }\r
1461\r
92870c98 1462 //\r
1463 // Allocate a buffer then copy the transferred data for user.\r
1464 // If failed to allocate the buffer, update the URB for next\r
1465 // round of transfer. Ignore the data of this round.\r
1466 //\r
1467 ProcBuf = NULL;\r
1468 if (Urb->Result == EFI_USB_NOERROR) {\r
1469 ASSERT (Urb->Completed <= Urb->DataLen);\r
1470\r
a9292c13 1471 ProcBuf = AllocateZeroPool (Urb->Completed);\r
92870c98 1472\r
1473 if (ProcBuf == NULL) {\r
1474 XhcUpdateAsyncRequest (Xhc, Urb);\r
1475 continue;\r
1476 }\r
1477\r
1478 CopyMem (ProcBuf, Urb->Data, Urb->Completed);\r
1479 }\r
1480\r
92870c98 1481 //\r
1482 // Leave error recovery to its related device driver. A\r
1483 // common case of the error recovery is to re-submit the\r
1484 // interrupt transfer which is linked to the head of the\r
1485 // list. This function scans from head to tail. So the\r
1486 // re-submitted interrupt transfer's callback function\r
1487 // will not be called again in this round. Don't touch this\r
1488 // URB after the callback, it may have been removed by the\r
1489 // callback.\r
1490 //\r
1491 if (Urb->Callback != NULL) {\r
1492 //\r
1493 // Restore the old TPL, USB bus maybe connect device in\r
1494 // his callback. Some drivers may has a lower TPL restriction.\r
1495 //\r
1496 gBS->RestoreTPL (OldTpl);\r
1497 (Urb->Callback) (ProcBuf, Urb->Completed, Urb->Context, Urb->Result);\r
1498 OldTpl = gBS->RaiseTPL (XHC_TPL);\r
1499 }\r
1500\r
1501 if (ProcBuf != NULL) {\r
1502 gBS->FreePool (ProcBuf);\r
1503 }\r
a50f7c4c 1504\r
1505 XhcUpdateAsyncRequest (Xhc, Urb);\r
92870c98 1506 }\r
1507 gBS->RestoreTPL (OldTpl);\r
1508}\r
1509\r
1510/**\r
1511 Monitor the port status change. Enable/Disable device slot if there is a device attached/detached.\r
1512\r
a9292c13 1513 @param Xhc The XHCI Instance.\r
92870c98 1514 @param ParentRouteChart The route string pointed to the parent device if it exists.\r
1515 @param Port The port to be polled.\r
1516 @param PortState The port state.\r
1517\r
1518 @retval EFI_SUCCESS Successfully enable/disable device slot according to port state.\r
1519 @retval Others Should not appear.\r
1520\r
1521**/\r
1522EFI_STATUS\r
1523EFIAPI\r
1524XhcPollPortStatusChange (\r
a9292c13 1525 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1526 IN USB_DEV_ROUTE ParentRouteChart,\r
1527 IN UINT8 Port,\r
1528 IN EFI_USB_PORT_STATUS *PortState\r
1529 )\r
1530{\r
1531 EFI_STATUS Status;\r
1532 UINT8 Speed;\r
1533 UINT8 SlotId;\r
1534 USB_DEV_ROUTE RouteChart;\r
1535\r
1536 Status = EFI_SUCCESS;\r
1537\r
c3f44a77
FT		 1538 if ((PortState->PortChangeStatus & (USB_PORT_STAT_C_CONNECTION | USB_PORT_STAT_C_ENABLE | USB_PORT_STAT_C_OVERCURRENT | USB_PORT_STAT_C_RESET)) == 0) {\r
1539 return EFI_SUCCESS;\r
1540 }\r
1541\r
92870c98 1542 if (ParentRouteChart.Dword == 0) {\r
a9292c13 1543 RouteChart.Route.RouteString = 0;\r
1544 RouteChart.Route.RootPortNum = Port + 1;\r
1545 RouteChart.Route.TierNum = 1;\r
92870c98 1546 } else {\r
1547 if(Port < 14) {\r
a9292c13 1548 RouteChart.Route.RouteString = ParentRouteChart.Route.RouteString | (Port << (4 * (ParentRouteChart.Route.TierNum - 1)));\r
92870c98 1549 } else {\r
a9292c13 1550 RouteChart.Route.RouteString = ParentRouteChart.Route.RouteString | (15 << (4 * (ParentRouteChart.Route.TierNum - 1)));\r
92870c98 1551 }\r
a9292c13 1552 RouteChart.Route.RootPortNum = ParentRouteChart.Route.RootPortNum;\r
1553 RouteChart.Route.TierNum = ParentRouteChart.Route.TierNum + 1;\r
92870c98 1554 }\r
1555\r
c3f44a77
FT		 1556 SlotId = XhcRouteStringToSlotId (Xhc, RouteChart);\r
1557 if (SlotId != 0) {\r
1558 if (Xhc->HcCParams.Data.Csz == 0) {\r
1559 Status = XhcDisableSlotCmd (Xhc, SlotId);\r
1560 } else {\r
1561 Status = XhcDisableSlotCmd64 (Xhc, SlotId);\r
1562 }\r
1563 }\r
1564\r
92870c98 1565 if (((PortState->PortStatus & USB_PORT_STAT_ENABLE) != 0) &&\r
1566 ((PortState->PortStatus & USB_PORT_STAT_CONNECTION) != 0)) {\r
1567 //\r
1568 // Has a device attached, Identify device speed after port is enabled.\r
1569 //\r
1570 Speed = EFI_USB_SPEED_FULL;\r
1571 if ((PortState->PortStatus & USB_PORT_STAT_LOW_SPEED) != 0) {\r
1572 Speed = EFI_USB_SPEED_LOW;\r
1573 } else if ((PortState->PortStatus & USB_PORT_STAT_HIGH_SPEED) != 0) {\r
1574 Speed = EFI_USB_SPEED_HIGH;\r
1575 } else if ((PortState->PortStatus & USB_PORT_STAT_SUPER_SPEED) != 0) {\r
1576 Speed = EFI_USB_SPEED_SUPER;\r
1577 }\r
1578 //\r
1579 // Execute Enable_Slot cmd for attached device, initialize device context and assign device address.\r
1580 //\r
a9292c13 1581 SlotId = XhcRouteStringToSlotId (Xhc, RouteChart);\r
c3f44a77 1582 if ((SlotId == 0) && ((PortState->PortChangeStatus & USB_PORT_STAT_C_RESET) != 0)) {\r
6b4483cd 1583 if (Xhc->HcCParams.Data.Csz == 0) {\r
1584 Status = XhcInitializeDeviceSlot (Xhc, ParentRouteChart, Port, RouteChart, Speed);\r
1585 } else {\r
1586 Status = XhcInitializeDeviceSlot64 (Xhc, ParentRouteChart, Port, RouteChart, Speed);\r
1587 }\r
92870c98 1588 }\r
c3f44a77
FT		 1589 } \r
1590\r
92870c98 1591 return Status;\r
1592}\r
1593\r
1594\r
1595/**\r
1596 Calculate the device context index by endpoint address and direction.\r
1597\r
1598 @param EpAddr The target endpoint number.\r
1599 @param Direction The direction of the target endpoint.\r
1600\r
1601 @return The device context index of endpoint.\r
1602\r
1603**/\r
1604UINT8\r
1605XhcEndpointToDci (\r
1606 IN UINT8 EpAddr,\r
1607 IN UINT8 Direction\r
1608 )\r
1609{\r
1610 UINT8 Index;\r
1611\r
1612 if (EpAddr == 0) {\r
1613 return 1;\r
1614 } else {\r
ce9b5900 1615 Index = (UINT8) (2 * EpAddr);\r
92870c98 1616 if (Direction == EfiUsbDataIn) {\r
1617 Index += 1;\r
1618 }\r
1619 return Index;\r
1620 }\r
1621}\r
1622\r
92870c98 1623/**\r
1624 Find out the actual device address according to the requested device address from UsbBus.\r
1625\r
a9292c13 1626 @param Xhc The XHCI Instance.\r
1627 @param BusDevAddr The requested device address by UsbBus upper driver.\r
92870c98 1628\r
1629 @return The actual device address assigned to the device.\r
1630\r
1631**/\r
1632UINT8\r
1633EFIAPI\r
1634XhcBusDevAddrToSlotId (\r
a9292c13 1635 IN USB_XHCI_INSTANCE *Xhc,\r
1636 IN UINT8 BusDevAddr\r
92870c98 1637 )\r
1638{\r
1639 UINT8 Index;\r
1640\r
1641 for (Index = 0; Index < 255; Index++) {\r
a9292c13 1642 if (Xhc->UsbDevContext[Index + 1].Enabled &&\r
1643 (Xhc->UsbDevContext[Index + 1].SlotId != 0) &&\r
1644 (Xhc->UsbDevContext[Index + 1].BusDevAddr == BusDevAddr)) {\r
92870c98 1645 break;\r
1646 }\r
1647 }\r
1648\r
1649 if (Index == 255) {\r
1650 return 0;\r
1651 }\r
1652\r
a9292c13 1653 return Xhc->UsbDevContext[Index + 1].SlotId;\r
92870c98 1654}\r
1655\r
1656/**\r
1657 Find out the slot id according to the device's route string.\r
1658\r
a9292c13 1659 @param Xhc The XHCI Instance.\r
1660 @param RouteString The route string described the device location.\r
92870c98 1661\r
1662 @return The slot id used by the device.\r
1663\r
1664**/\r
1665UINT8\r
1666EFIAPI\r
1667XhcRouteStringToSlotId (\r
a9292c13 1668 IN USB_XHCI_INSTANCE *Xhc,\r
1669 IN USB_DEV_ROUTE RouteString\r
92870c98 1670 )\r
1671{\r
1672 UINT8 Index;\r
1673\r
1674 for (Index = 0; Index < 255; Index++) {\r
a9292c13 1675 if (Xhc->UsbDevContext[Index + 1].Enabled &&\r
1676 (Xhc->UsbDevContext[Index + 1].SlotId != 0) &&\r
1677 (Xhc->UsbDevContext[Index + 1].RouteString.Dword == RouteString.Dword)) {\r
92870c98 1678 break;\r
1679 }\r
1680 }\r
1681\r
1682 if (Index == 255) {\r
1683 return 0;\r
1684 }\r
1685\r
a9292c13 1686 return Xhc->UsbDevContext[Index + 1].SlotId;\r
92870c98 1687}\r
1688\r
1689/**\r
1690 Synchronize the specified event ring to update the enqueue and dequeue pointer.\r
1691\r
a9292c13 1692 @param Xhc The XHCI Instance.\r
92870c98 1693 @param EvtRing The event ring to sync.\r
1694\r
1695 @retval EFI_SUCCESS The event ring is synchronized successfully.\r
1696\r
1697**/\r
1698EFI_STATUS\r
1699EFIAPI\r
1700XhcSyncEventRing (\r
a9292c13 1701 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1702 IN EVENT_RING *EvtRing\r
1703 )\r
1704{\r
1705 UINTN Index;\r
a9292c13 1706 TRB_TEMPLATE *EvtTrb1;\r
92870c98 1707\r
1708 ASSERT (EvtRing != NULL);\r
1709\r
1710 //\r
1711 // Calculate the EventRingEnqueue and EventRingCCS.\r
1712 // Note: only support single Segment\r
1713 //\r
a50f7c4c 1714 EvtTrb1 = EvtRing->EventRingDequeue;\r
92870c98 1715\r
1716 for (Index = 0; Index < EvtRing->TrbNumber; Index++) {\r
a50f7c4c 1717 if (EvtTrb1->CycleBit != EvtRing->EventRingCCS) {\r
92870c98 1718 break;\r
1719 }\r
a50f7c4c 1720\r
92870c98 1721 EvtTrb1++;\r
a50f7c4c 1722\r
1723 if ((UINTN)EvtTrb1 >= ((UINTN) EvtRing->EventRingSeg0 + sizeof (TRB_TEMPLATE) * EvtRing->TrbNumber)) {\r
1724 EvtTrb1 = EvtRing->EventRingSeg0;\r
1725 EvtRing->EventRingCCS = (EvtRing->EventRingCCS) ? 0 : 1;\r
1726 }\r
92870c98 1727 }\r
1728\r
1729 if (Index < EvtRing->TrbNumber) {\r
1730 EvtRing->EventRingEnqueue = EvtTrb1;\r
92870c98 1731 } else {\r
a50f7c4c 1732 ASSERT (FALSE);\r
92870c98 1733 }\r
1734\r
1735 return EFI_SUCCESS;\r
1736}\r
1737\r
1738/**\r
1739 Synchronize the specified transfer ring to update the enqueue and dequeue pointer.\r
1740\r
a9292c13 1741 @param Xhc The XHCI Instance.\r
92870c98 1742 @param TrsRing The transfer ring to sync.\r
1743\r
1744 @retval EFI_SUCCESS The transfer ring is synchronized successfully.\r
1745\r
1746**/\r
1747EFI_STATUS\r
1748EFIAPI\r
1749XhcSyncTrsRing (\r
a9292c13 1750 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1751 IN TRANSFER_RING *TrsRing\r
1752 )\r
1753{\r
1754 UINTN Index;\r
a9292c13 1755 TRB_TEMPLATE *TrsTrb;\r
92870c98 1756\r
1757 ASSERT (TrsRing != NULL);\r
1758 //\r
1759 // Calculate the latest RingEnqueue and RingPCS\r
1760 //\r
1761 TrsTrb = TrsRing->RingEnqueue;\r
1762 ASSERT (TrsTrb != NULL);\r
1763\r
1764 for (Index = 0; Index < TrsRing->TrbNumber; Index++) {\r
1765 if (TrsTrb->CycleBit != (TrsRing->RingPCS & BIT0)) {\r
1766 break;\r
1767 }\r
1768 TrsTrb++;\r
1769 if ((UINT8) TrsTrb->Type == TRB_TYPE_LINK) {\r
a9292c13 1770 ASSERT (((LINK_TRB*)TrsTrb)->TC != 0);\r
92870c98 1771 //\r
1772 // set cycle bit in Link TRB as normal\r
1773 //\r
a9292c13 1774 ((LINK_TRB*)TrsTrb)->CycleBit = TrsRing->RingPCS & BIT0;\r
92870c98 1775 //\r
1776 // Toggle PCS maintained by software\r
1777 //\r
1778 TrsRing->RingPCS = (TrsRing->RingPCS & BIT0) ? 0 : 1;\r
1847ed0b 1779 TrsTrb = (TRB_TEMPLATE *) TrsRing->RingSeg0; // Use host address\r
92870c98 1780 }\r
1781 }\r
1782\r
1783 ASSERT (Index != TrsRing->TrbNumber);\r
1784\r
1785 if (TrsTrb != TrsRing->RingEnqueue) {\r
1786 TrsRing->RingEnqueue = TrsTrb;\r
1787 }\r
1788\r
1789 //\r
1790 // Clear the Trb context for enqueue, but reserve the PCS bit\r
1791 //\r
a9292c13 1792 TrsTrb->Parameter1 = 0;\r
1793 TrsTrb->Parameter2 = 0;\r
1794 TrsTrb->Status = 0;\r
1795 TrsTrb->RsvdZ1 = 0;\r
1796 TrsTrb->Type = 0;\r
1797 TrsTrb->Control = 0;\r
92870c98 1798\r
1799 return EFI_SUCCESS;\r
1800}\r
1801\r
1802/**\r
1803 Check if there is a new generated event.\r
1804\r
a9292c13 1805 @param Xhc The XHCI Instance.\r
92870c98 1806 @param EvtRing The event ring to check.\r
1807 @param NewEvtTrb The new event TRB found.\r
1808\r
1809 @retval EFI_SUCCESS Found a new event TRB at the event ring.\r
1810 @retval EFI_NOT_READY The event ring has no new event.\r
1811\r
1812**/\r
1813EFI_STATUS\r
1814EFIAPI\r
1815XhcCheckNewEvent (\r
a9292c13 1816 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1817 IN EVENT_RING *EvtRing,\r
a9292c13 1818 OUT TRB_TEMPLATE **NewEvtTrb\r
92870c98 1819 )\r
1820{\r
92870c98 1821 ASSERT (EvtRing != NULL);\r
1822\r
92870c98 1823 *NewEvtTrb = EvtRing->EventRingDequeue;\r
1824\r
1825 if (EvtRing->EventRingDequeue == EvtRing->EventRingEnqueue) {\r
1826 return EFI_NOT_READY;\r
1827 }\r
1828\r
92870c98 1829 EvtRing->EventRingDequeue++;\r
1830 //\r
1831 // If the dequeue pointer is beyond the ring, then roll-back it to the begining of the ring.\r
1832 //\r
a50f7c4c 1833 if ((UINTN)EvtRing->EventRingDequeue >= ((UINTN) EvtRing->EventRingSeg0 + sizeof (TRB_TEMPLATE) * EvtRing->TrbNumber)) {\r
92870c98 1834 EvtRing->EventRingDequeue = EvtRing->EventRingSeg0;\r
1835 }\r
1836\r
b6cb9c39 1837 return EFI_SUCCESS;\r
92870c98 1838}\r
1839\r
1840/**\r
1841 Ring the door bell to notify XHCI there is a transaction to be executed.\r
1842\r
a9292c13 1843 @param Xhc The XHCI Instance.\r
92870c98 1844 @param SlotId The slot id of the target device.\r
1845 @param Dci The device context index of the target slot or endpoint.\r
1846\r
1847 @retval EFI_SUCCESS Successfully ring the door bell.\r
1848\r
1849**/\r
1850EFI_STATUS\r
1851EFIAPI\r
1852XhcRingDoorBell (\r
a9292c13 1853 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1854 IN UINT8 SlotId,\r
1855 IN UINT8 Dci\r
1856 )\r
1857{\r
1858 if (SlotId == 0) {\r
1859 XhcWriteDoorBellReg (Xhc, 0, 0);\r
1860 } else {\r
1861 XhcWriteDoorBellReg (Xhc, SlotId * sizeof (UINT32), Dci);\r
1862 }\r
1863\r
1864 return EFI_SUCCESS;\r
1865}\r
1866\r
1867/**\r
1868 Ring the door bell to notify XHCI there is a transaction to be executed through URB.\r
1869\r
a9292c13 1870 @param Xhc The XHCI Instance.\r
92870c98 1871 @param Urb The URB to be rung.\r
1872\r
1873 @retval EFI_SUCCESS Successfully ring the door bell.\r
1874\r
1875**/\r
1876EFI_STATUS\r
1877RingIntTransferDoorBell (\r
a9292c13 1878 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1879 IN URB *Urb\r
1880 )\r
1881{\r
1882 UINT8 SlotId;\r
1883 UINT8 Dci;\r
1884\r
6b4483cd 1885 SlotId = XhcBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);\r
1886 Dci = XhcEndpointToDci (Urb->Ep.EpAddr, (UINT8)(Urb->Ep.Direction));\r
92870c98 1887 XhcRingDoorBell (Xhc, SlotId, Dci);\r
1888 return EFI_SUCCESS;\r
1889}\r
1890\r
1891/**\r
1892 Assign and initialize the device slot for a new device.\r
1893\r
a9292c13 1894 @param Xhc The XHCI Instance.\r
92870c98 1895 @param ParentRouteChart The route string pointed to the parent device.\r
1896 @param ParentPort The port at which the device is located.\r
1897 @param RouteChart The route string pointed to the device.\r
1898 @param DeviceSpeed The device speed.\r
1899\r
1900 @retval EFI_SUCCESS Successfully assign a slot to the device and assign an address to it.\r
1901\r
1902**/\r
1903EFI_STATUS\r
1904EFIAPI\r
1905XhcInitializeDeviceSlot (\r
a9292c13 1906 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 1907 IN USB_DEV_ROUTE ParentRouteChart,\r
1908 IN UINT16 ParentPort,\r
1909 IN USB_DEV_ROUTE RouteChart,\r
1910 IN UINT8 DeviceSpeed\r
1911 )\r
1912{\r
a9292c13 1913 EFI_STATUS Status;\r
1914 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
1915 INPUT_CONTEXT *InputContext;\r
1916 DEVICE_CONTEXT *OutputContext;\r
1917 TRANSFER_RING *EndpointTransferRing;\r
1918 CMD_TRB_ADDRESS_DEVICE CmdTrbAddr;\r
1919 UINT8 DeviceAddress;\r
1920 CMD_TRB_ENABLE_SLOT CmdTrb;\r
1921 UINT8 SlotId;\r
1922 UINT8 ParentSlotId;\r
1923 DEVICE_CONTEXT *ParentDeviceContext;\r
1847ed0b 1924 EFI_PHYSICAL_ADDRESS PhyAddr;\r
a9292c13 1925\r
1926 ZeroMem (&CmdTrb, sizeof (CMD_TRB_ENABLE_SLOT));\r
92870c98 1927 CmdTrb.CycleBit = 1;\r
1928 CmdTrb.Type = TRB_TYPE_EN_SLOT;\r
1929\r
1930 Status = XhcCmdTransfer (\r
1931 Xhc,\r
a9292c13 1932 (TRB_TEMPLATE *) (UINTN) &CmdTrb,\r
92870c98 1933 XHC_GENERIC_TIMEOUT,\r
a9292c13 1934 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
92870c98 1935 );\r
260fbf53
EL		 1936 if (EFI_ERROR (Status)) {\r
1937 DEBUG ((EFI_D_ERROR, "XhcInitializeDeviceSlot: Enable Slot Failed, Status = %r\n", Status));\r
1938 return Status;\r
1939 }\r
92870c98 1940 ASSERT (EvtTrb->SlotId <= Xhc->MaxSlotsEn);\r
1941 DEBUG ((EFI_D_INFO, "Enable Slot Successfully, The Slot ID = 0x%x\n", EvtTrb->SlotId));\r
1942 SlotId = (UINT8)EvtTrb->SlotId;\r
1943 ASSERT (SlotId != 0);\r
1944\r
a9292c13 1945 ZeroMem (&Xhc->UsbDevContext[SlotId], sizeof (USB_DEV_CONTEXT));\r
1946 Xhc->UsbDevContext[SlotId].Enabled = TRUE;\r
1947 Xhc->UsbDevContext[SlotId].SlotId = SlotId;\r
1948 Xhc->UsbDevContext[SlotId].RouteString.Dword = RouteChart.Dword;\r
1949 Xhc->UsbDevContext[SlotId].ParentRouteString.Dword = ParentRouteChart.Dword;\r
92870c98 1950\r
1951 //\r
1952 // 4.3.3 Device Slot Initialization\r
1953 // 1) Allocate an Input Context data structure (6.2.5) and initialize all fields to '0'.\r
1954 //\r
1847ed0b 1955 InputContext = UsbHcAllocateMem (Xhc->MemPool, sizeof (INPUT_CONTEXT));\r
92870c98 1956 ASSERT (InputContext != NULL);\r
1957 ASSERT (((UINTN) InputContext & 0x3F) == 0);\r
a9292c13 1958 ZeroMem (InputContext, sizeof (INPUT_CONTEXT));\r
92870c98 1959\r
a9292c13 1960 Xhc->UsbDevContext[SlotId].InputContext = (VOID *) InputContext;\r
92870c98 1961\r
1962 //\r
1963 // 2) Initialize the Input Control Context (6.2.5.1) of the Input Context by setting the A0 and A1\r
1964 // flags to '1'. These flags indicate that the Slot Context and the Endpoint 0 Context of the Input\r
1965 // Context are affected by the command.\r
1966 //\r
1967 InputContext->InputControlContext.Dword2 |= (BIT0 | BIT1);\r
1968\r
1969 //\r
1970 // 3) Initialize the Input Slot Context data structure\r
1971 //\r
a9292c13 1972 InputContext->Slot.RouteString = RouteChart.Route.RouteString;\r
92870c98 1973 InputContext->Slot.Speed = DeviceSpeed + 1;\r
1974 InputContext->Slot.ContextEntries = 1;\r
a9292c13 1975 InputContext->Slot.RootHubPortNum = RouteChart.Route.RootPortNum;\r
92870c98 1976\r
a9292c13 1977 if (RouteChart.Route.RouteString) {\r
92870c98 1978 //\r
1979 // The device is behind of hub device.\r
1980 //\r
a9292c13 1981 ParentSlotId = XhcRouteStringToSlotId(Xhc, ParentRouteChart);\r
92870c98 1982 ASSERT (ParentSlotId != 0);\r
1983 //\r
1984 //if the Full/Low device attached to a High Speed Hub, Init the TTPortNum and TTHubSlotId field of slot context\r
1985 //\r
a9292c13 1986 ParentDeviceContext = (DEVICE_CONTEXT *)Xhc->UsbDevContext[ParentSlotId].OutputContext;\r
92870c98 1987 if ((ParentDeviceContext->Slot.TTPortNum == 0) &&\r
1988 (ParentDeviceContext->Slot.TTHubSlotId == 0)) {\r
1989 if ((ParentDeviceContext->Slot.Speed == (EFI_USB_SPEED_HIGH + 1)) && (DeviceSpeed < EFI_USB_SPEED_HIGH)) {\r
1990 //\r
1991 // Full/Low device attached to High speed hub port that isolates the high speed signaling\r
1992 // environment from Full/Low speed signaling environment for a device\r
1993 //\r
1994 InputContext->Slot.TTPortNum = ParentPort;\r
1995 InputContext->Slot.TTHubSlotId = ParentSlotId;\r
1996 }\r
1997 } else {\r
1998 //\r
1999 // Inherit the TT parameters from parent device.\r
2000 //\r
2001 InputContext->Slot.TTPortNum = ParentDeviceContext->Slot.TTPortNum;\r
2002 InputContext->Slot.TTHubSlotId = ParentDeviceContext->Slot.TTHubSlotId;\r
2003 //\r
2004 // If the device is a High speed device then down the speed to be the same as its parent Hub\r
2005 //\r
2006 if (DeviceSpeed == EFI_USB_SPEED_HIGH) {\r
2007 InputContext->Slot.Speed = ParentDeviceContext->Slot.Speed;\r
2008 }\r
2009 }\r
2010 }\r
2011\r
2012 //\r
2013 // 4) Allocate and initialize the Transfer Ring for the Default Control Endpoint.\r
2014 //\r
a9292c13 2015 EndpointTransferRing = AllocateZeroPool (sizeof (TRANSFER_RING));\r
2016 Xhc->UsbDevContext[SlotId].EndpointTransferRing[0] = EndpointTransferRing;\r
2017 CreateTransferRing(Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *)Xhc->UsbDevContext[SlotId].EndpointTransferRing[0]);\r
92870c98 2018 //\r
2019 // 5) Initialize the Input default control Endpoint 0 Context (6.2.3).\r
2020 //\r
2021 InputContext->EP[0].EPType = ED_CONTROL_BIDIR;\r
2022\r
2023 if (DeviceSpeed == EFI_USB_SPEED_SUPER) {\r
2024 InputContext->EP[0].MaxPacketSize = 512;\r
2025 } else if (DeviceSpeed == EFI_USB_SPEED_HIGH) {\r
2026 InputContext->EP[0].MaxPacketSize = 64;\r
2027 } else {\r
2028 InputContext->EP[0].MaxPacketSize = 8;\r
2029 }\r
2030 //\r
2031 // Initial value of Average TRB Length for Control endpoints would be 8B, Interrupt endpoints\r
2032 // 1KB, and Bulk and Isoch endpoints 3KB.\r
2033 //\r
2034 InputContext->EP[0].AverageTRBLength = 8;\r
2035 InputContext->EP[0].MaxBurstSize = 0;\r
2036 InputContext->EP[0].Interval = 0;\r
2037 InputContext->EP[0].MaxPStreams = 0;\r
2038 InputContext->EP[0].Mult = 0;\r
2039 InputContext->EP[0].CErr = 3;\r
2040\r
2041 //\r
2042 // Init the DCS(dequeue cycle state) as the transfer ring's CCS\r
2043 //\r
1847ed0b
EL		 2044 PhyAddr = UsbHcGetPciAddrForHostAddr (\r
2045 Xhc->MemPool,\r
2046 ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[0])->RingSeg0,\r
2047 sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER\r
2048 );\r
2049 InputContext->EP[0].PtrLo = XHC_LOW_32BIT (PhyAddr) | BIT0;\r
2050 InputContext->EP[0].PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
92870c98 2051\r
2052 //\r
2053 // 6) Allocate the Output Device Context data structure (6.2.1) and initialize it to '0'.\r
2054 //\r
1847ed0b 2055 OutputContext = UsbHcAllocateMem (Xhc->MemPool, sizeof (DEVICE_CONTEXT));\r
a9292c13 2056 ASSERT (OutputContext != NULL);\r
2057 ASSERT (((UINTN) OutputContext & 0x3F) == 0);\r
2058 ZeroMem (OutputContext, sizeof (DEVICE_CONTEXT));\r
92870c98 2059\r
a9292c13 2060 Xhc->UsbDevContext[SlotId].OutputContext = OutputContext;\r
92870c98 2061 //\r
2062 // 7) Load the appropriate (Device Slot ID) entry in the Device Context Base Address Array (5.4.6) with\r
2063 // a pointer to the Output Device Context data structure (6.2.1).\r
2064 //\r
1847ed0b
EL		 2065 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, OutputContext, sizeof (DEVICE_CONTEXT));\r
2066 //\r
2067 // Fill DCBAA with PCI device address\r
2068 //\r
2069 Xhc->DCBAA[SlotId] = (UINT64) (UINTN) PhyAddr;\r
92870c98 2070\r
2071 //\r
2072 // 8) Issue an Address Device Command for the Device Slot, where the command points to the Input\r
2073 // Context data structure described above.\r
2074 //\r
2075 ZeroMem (&CmdTrbAddr, sizeof (CmdTrbAddr));\r
1847ed0b
EL		 2076 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Xhc->UsbDevContext[SlotId].InputContext, sizeof (INPUT_CONTEXT));\r
2077 CmdTrbAddr.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
2078 CmdTrbAddr.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
92870c98 2079 CmdTrbAddr.CycleBit = 1;\r
2080 CmdTrbAddr.Type = TRB_TYPE_ADDRESS_DEV;\r
a9292c13 2081 CmdTrbAddr.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
92870c98 2082 Status = XhcCmdTransfer (\r
2083 Xhc,\r
a9292c13 2084 (TRB_TEMPLATE *) (UINTN) &CmdTrbAddr,\r
92870c98 2085 XHC_GENERIC_TIMEOUT,\r
a9292c13 2086 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
92870c98 2087 );\r
260fbf53
EL		 2088 if (!EFI_ERROR (Status)) {\r
2089 DeviceAddress = (UINT8) ((DEVICE_CONTEXT *) OutputContext)->Slot.DeviceAddress;\r
2090 DEBUG ((EFI_D_INFO, " Address %d assigned successfully\n", DeviceAddress));\r
2091 Xhc->UsbDevContext[SlotId].XhciDevAddr = DeviceAddress;\r
2092 }\r
92870c98 2093\r
2094 return Status;\r
2095}\r
2096\r
2097/**\r
6b4483cd 2098 Assign and initialize the device slot for a new device.\r
92870c98 2099\r
6b4483cd 2100 @param Xhc The XHCI Instance.\r
2101 @param ParentRouteChart The route string pointed to the parent device.\r
2102 @param ParentPort The port at which the device is located.\r
2103 @param RouteChart The route string pointed to the device.\r
2104 @param DeviceSpeed The device speed.\r
92870c98 2105\r
6b4483cd 2106 @retval EFI_SUCCESS Successfully assign a slot to the device and assign an address to it.\r
92870c98 2107\r
2108**/\r
2109EFI_STATUS\r
2110EFIAPI\r
6b4483cd 2111XhcInitializeDeviceSlot64 (\r
2112 IN USB_XHCI_INSTANCE *Xhc,\r
2113 IN USB_DEV_ROUTE ParentRouteChart,\r
2114 IN UINT16 ParentPort,\r
2115 IN USB_DEV_ROUTE RouteChart,\r
2116 IN UINT8 DeviceSpeed\r
92870c98 2117 )\r
2118{\r
6b4483cd 2119 EFI_STATUS Status;\r
2120 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
2121 INPUT_CONTEXT_64 *InputContext;\r
2122 DEVICE_CONTEXT_64 *OutputContext;\r
2123 TRANSFER_RING *EndpointTransferRing;\r
2124 CMD_TRB_ADDRESS_DEVICE CmdTrbAddr;\r
2125 UINT8 DeviceAddress;\r
2126 CMD_TRB_ENABLE_SLOT CmdTrb;\r
2127 UINT8 SlotId;\r
2128 UINT8 ParentSlotId;\r
2129 DEVICE_CONTEXT_64 *ParentDeviceContext;\r
1847ed0b 2130 EFI_PHYSICAL_ADDRESS PhyAddr;\r
92870c98 2131\r
6b4483cd 2132 ZeroMem (&CmdTrb, sizeof (CMD_TRB_ENABLE_SLOT));\r
2133 CmdTrb.CycleBit = 1;\r
2134 CmdTrb.Type = TRB_TYPE_EN_SLOT;\r
92870c98 2135\r
6b4483cd 2136 Status = XhcCmdTransfer (\r
2137 Xhc,\r
2138 (TRB_TEMPLATE *) (UINTN) &CmdTrb,\r
2139 XHC_GENERIC_TIMEOUT,\r
2140 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
2141 );\r
260fbf53
EL		 2142 if (EFI_ERROR (Status)) {\r
2143 DEBUG ((EFI_D_ERROR, "XhcInitializeDeviceSlot64: Enable Slot Failed, Status = %r\n", Status));\r
2144 return Status;\r
2145 }\r
6b4483cd 2146 ASSERT (EvtTrb->SlotId <= Xhc->MaxSlotsEn);\r
2147 DEBUG ((EFI_D_INFO, "Enable Slot Successfully, The Slot ID = 0x%x\n", EvtTrb->SlotId));\r
2148 SlotId = (UINT8)EvtTrb->SlotId;\r
2149 ASSERT (SlotId != 0);\r
92870c98 2150\r
6b4483cd 2151 ZeroMem (&Xhc->UsbDevContext[SlotId], sizeof (USB_DEV_CONTEXT));\r
2152 Xhc->UsbDevContext[SlotId].Enabled = TRUE;\r
2153 Xhc->UsbDevContext[SlotId].SlotId = SlotId;\r
2154 Xhc->UsbDevContext[SlotId].RouteString.Dword = RouteChart.Dword;\r
2155 Xhc->UsbDevContext[SlotId].ParentRouteString.Dword = ParentRouteChart.Dword;\r
92870c98 2156\r
2157 //\r
6b4483cd 2158 // 4.3.3 Device Slot Initialization\r
2159 // 1) Allocate an Input Context data structure (6.2.5) and initialize all fields to '0'.\r
92870c98 2160 //\r
1847ed0b 2161 InputContext = UsbHcAllocateMem (Xhc->MemPool, sizeof (INPUT_CONTEXT_64));\r
6b4483cd 2162 ASSERT (InputContext != NULL);\r
2163 ASSERT (((UINTN) InputContext & 0x3F) == 0);\r
2164 ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));\r
2165\r
2166 Xhc->UsbDevContext[SlotId].InputContext = (VOID *) InputContext;\r
92870c98 2167\r
92870c98 2168 //\r
6b4483cd 2169 // 2) Initialize the Input Control Context (6.2.5.1) of the Input Context by setting the A0 and A1\r
2170 // flags to '1'. These flags indicate that the Slot Context and the Endpoint 0 Context of the Input\r
2171 // Context are affected by the command.\r
92870c98 2172 //\r
6b4483cd 2173 InputContext->InputControlContext.Dword2 |= (BIT0 | BIT1);\r
92870c98 2174\r
2175 //\r
6b4483cd 2176 // 3) Initialize the Input Slot Context data structure\r
92870c98 2177 //\r
6b4483cd 2178 InputContext->Slot.RouteString = RouteChart.Route.RouteString;\r
2179 InputContext->Slot.Speed = DeviceSpeed + 1;\r
2180 InputContext->Slot.ContextEntries = 1;\r
2181 InputContext->Slot.RootHubPortNum = RouteChart.Route.RootPortNum;\r
92870c98 2182\r
6b4483cd 2183 if (RouteChart.Route.RouteString) {\r
2184 //\r
2185 // The device is behind of hub device.\r
2186 //\r
2187 ParentSlotId = XhcRouteStringToSlotId(Xhc, ParentRouteChart);\r
2188 ASSERT (ParentSlotId != 0);\r
2189 //\r
2190 //if the Full/Low device attached to a High Speed Hub, Init the TTPortNum and TTHubSlotId field of slot context\r
2191 //\r
2192 ParentDeviceContext = (DEVICE_CONTEXT_64 *)Xhc->UsbDevContext[ParentSlotId].OutputContext;\r
2193 if ((ParentDeviceContext->Slot.TTPortNum == 0) &&\r
2194 (ParentDeviceContext->Slot.TTHubSlotId == 0)) {\r
2195 if ((ParentDeviceContext->Slot.Speed == (EFI_USB_SPEED_HIGH + 1)) && (DeviceSpeed < EFI_USB_SPEED_HIGH)) {\r
2196 //\r
2197 // Full/Low device attached to High speed hub port that isolates the high speed signaling\r
2198 // environment from Full/Low speed signaling environment for a device\r
2199 //\r
2200 InputContext->Slot.TTPortNum = ParentPort;\r
2201 InputContext->Slot.TTHubSlotId = ParentSlotId;\r
2202 }\r
2203 } else {\r
2204 //\r
2205 // Inherit the TT parameters from parent device.\r
2206 //\r
2207 InputContext->Slot.TTPortNum = ParentDeviceContext->Slot.TTPortNum;\r
2208 InputContext->Slot.TTHubSlotId = ParentDeviceContext->Slot.TTHubSlotId;\r
2209 //\r
2210 // If the device is a High speed device then down the speed to be the same as its parent Hub\r
2211 //\r
2212 if (DeviceSpeed == EFI_USB_SPEED_HIGH) {\r
2213 InputContext->Slot.Speed = ParentDeviceContext->Slot.Speed;\r
2214 }\r
92870c98 2215 }\r
2216 }\r
2217\r
92870c98 2218 //\r
6b4483cd 2219 // 4) Allocate and initialize the Transfer Ring for the Default Control Endpoint.\r
92870c98 2220 //\r
6b4483cd 2221 EndpointTransferRing = AllocateZeroPool (sizeof (TRANSFER_RING));\r
2222 Xhc->UsbDevContext[SlotId].EndpointTransferRing[0] = EndpointTransferRing;\r
2223 CreateTransferRing(Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *)Xhc->UsbDevContext[SlotId].EndpointTransferRing[0]);\r
2224 //\r
2225 // 5) Initialize the Input default control Endpoint 0 Context (6.2.3).\r
2226 //\r
2227 InputContext->EP[0].EPType = ED_CONTROL_BIDIR;\r
2228\r
2229 if (DeviceSpeed == EFI_USB_SPEED_SUPER) {\r
2230 InputContext->EP[0].MaxPacketSize = 512;\r
2231 } else if (DeviceSpeed == EFI_USB_SPEED_HIGH) {\r
2232 InputContext->EP[0].MaxPacketSize = 64;\r
2233 } else {\r
2234 InputContext->EP[0].MaxPacketSize = 8;\r
2235 }\r
2236 //\r
2237 // Initial value of Average TRB Length for Control endpoints would be 8B, Interrupt endpoints\r
2238 // 1KB, and Bulk and Isoch endpoints 3KB.\r
2239 //\r
2240 InputContext->EP[0].AverageTRBLength = 8;\r
2241 InputContext->EP[0].MaxBurstSize = 0;\r
2242 InputContext->EP[0].Interval = 0;\r
2243 InputContext->EP[0].MaxPStreams = 0;\r
2244 InputContext->EP[0].Mult = 0;\r
2245 InputContext->EP[0].CErr = 3;\r
2246\r
2247 //\r
2248 // Init the DCS(dequeue cycle state) as the transfer ring's CCS\r
2249 //\r
1847ed0b
EL		 2250 PhyAddr = UsbHcGetPciAddrForHostAddr (\r
2251 Xhc->MemPool,\r
2252 ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[0])->RingSeg0,\r
2253 sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER\r
2254 );\r
2255 InputContext->EP[0].PtrLo = XHC_LOW_32BIT (PhyAddr) | BIT0;\r
2256 InputContext->EP[0].PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
6b4483cd 2257\r
2258 //\r
2259 // 6) Allocate the Output Device Context data structure (6.2.1) and initialize it to '0'.\r
2260 //\r
1847ed0b 2261 OutputContext = UsbHcAllocateMem (Xhc->MemPool, sizeof (DEVICE_CONTEXT_64));\r
6b4483cd 2262 ASSERT (OutputContext != NULL);\r
2263 ASSERT (((UINTN) OutputContext & 0x3F) == 0);\r
2264 ZeroMem (OutputContext, sizeof (DEVICE_CONTEXT_64));\r
2265\r
2266 Xhc->UsbDevContext[SlotId].OutputContext = OutputContext;\r
2267 //\r
2268 // 7) Load the appropriate (Device Slot ID) entry in the Device Context Base Address Array (5.4.6) with\r
2269 // a pointer to the Output Device Context data structure (6.2.1).\r
2270 //\r
1847ed0b
EL		 2271 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, OutputContext, sizeof (DEVICE_CONTEXT_64));\r
2272 //\r
2273 // Fill DCBAA with PCI device address\r
2274 //\r
2275 Xhc->DCBAA[SlotId] = (UINT64) (UINTN) PhyAddr;\r
6b4483cd 2276\r
2277 //\r
2278 // 8) Issue an Address Device Command for the Device Slot, where the command points to the Input\r
2279 // Context data structure described above.\r
2280 //\r
2281 ZeroMem (&CmdTrbAddr, sizeof (CmdTrbAddr));\r
1847ed0b
EL		 2282 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Xhc->UsbDevContext[SlotId].InputContext, sizeof (INPUT_CONTEXT_64));\r
2283 CmdTrbAddr.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
2284 CmdTrbAddr.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
6b4483cd 2285 CmdTrbAddr.CycleBit = 1;\r
2286 CmdTrbAddr.Type = TRB_TYPE_ADDRESS_DEV;\r
2287 CmdTrbAddr.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
2288 Status = XhcCmdTransfer (\r
2289 Xhc,\r
2290 (TRB_TEMPLATE *) (UINTN) &CmdTrbAddr,\r
2291 XHC_GENERIC_TIMEOUT,\r
2292 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
2293 );\r
260fbf53
EL		 2294 if (!EFI_ERROR (Status)) {\r
2295 DeviceAddress = (UINT8) ((DEVICE_CONTEXT_64 *) OutputContext)->Slot.DeviceAddress;\r
2296 DEBUG ((EFI_D_INFO, " Address %d assigned successfully\n", DeviceAddress));\r
2297 Xhc->UsbDevContext[SlotId].XhciDevAddr = DeviceAddress;\r
2298 }\r
6b4483cd 2299 return Status;\r
2300}\r
2301\r
2302\r
2303/**\r
2304 Disable the specified device slot.\r
2305\r
2306 @param Xhc The XHCI Instance.\r
2307 @param SlotId The slot id to be disabled.\r
2308\r
2309 @retval EFI_SUCCESS Successfully disable the device slot.\r
2310\r
2311**/\r
2312EFI_STATUS\r
2313EFIAPI\r
2314XhcDisableSlotCmd (\r
2315 IN USB_XHCI_INSTANCE *Xhc,\r
2316 IN UINT8 SlotId\r
2317 )\r
2318{\r
2319 EFI_STATUS Status;\r
2320 TRB_TEMPLATE *EvtTrb;\r
2321 CMD_TRB_DISABLE_SLOT CmdTrbDisSlot;\r
2322 UINT8 Index;\r
2323 VOID *RingSeg;\r
2324\r
2325 //\r
2326 // Disable the device slots occupied by these devices on its downstream ports.\r
2327 // Entry 0 is reserved.\r
2328 //\r
2329 for (Index = 0; Index < 255; Index++) {\r
2330 if (!Xhc->UsbDevContext[Index + 1].Enabled ||\r
2331 (Xhc->UsbDevContext[Index + 1].SlotId == 0) ||\r
2332 (Xhc->UsbDevContext[Index + 1].ParentRouteString.Dword != Xhc->UsbDevContext[SlotId].RouteString.Dword)) {\r
2333 continue;\r
2334 }\r
2335\r
2336 Status = XhcDisableSlotCmd (Xhc, Xhc->UsbDevContext[Index + 1].SlotId);\r
2337\r
2338 if (EFI_ERROR (Status)) {\r
2339 DEBUG ((EFI_D_ERROR, "XhcDisableSlotCmd: failed to disable child, ignore error\n"));\r
2340 Xhc->UsbDevContext[Index + 1].SlotId = 0;\r
2341 }\r
2342 }\r
2343\r
2344 //\r
2345 // Construct the disable slot command\r
2346 //\r
2347 DEBUG ((EFI_D_INFO, "Disable device slot %d!\n", SlotId));\r
2348\r
2349 ZeroMem (&CmdTrbDisSlot, sizeof (CmdTrbDisSlot));\r
2350 CmdTrbDisSlot.CycleBit = 1;\r
2351 CmdTrbDisSlot.Type = TRB_TYPE_DIS_SLOT;\r
2352 CmdTrbDisSlot.SlotId = SlotId;\r
2353 Status = XhcCmdTransfer (\r
2354 Xhc,\r
2355 (TRB_TEMPLATE *) (UINTN) &CmdTrbDisSlot,\r
2356 XHC_GENERIC_TIMEOUT,\r
2357 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
2358 );\r
260fbf53
EL		 2359 if (EFI_ERROR (Status)) {\r
2360 DEBUG ((EFI_D_ERROR, "XhcDisableSlotCmd: Disable Slot Command Failed, Status = %r\n", Status));\r
2361 return Status;\r
2362 }\r
6b4483cd 2363 //\r
2364 // Free the slot's device context entry\r
2365 //\r
2366 Xhc->DCBAA[SlotId] = 0;\r
2367\r
2368 //\r
2369 // Free the slot related data structure\r
2370 //\r
2371 for (Index = 0; Index < 31; Index++) {\r
2372 if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index] != NULL) {\r
2373 RingSeg = ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index])->RingSeg0;\r
2374 if (RingSeg != NULL) {\r
1847ed0b 2375 UsbHcFreeMem (Xhc->MemPool, RingSeg, sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER);\r
6b4483cd 2376 }\r
2377 FreePool (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index]);\r
1847ed0b 2378 Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index] = NULL;\r
6b4483cd 2379 }\r
2380 }\r
2381\r
2382 for (Index = 0; Index < Xhc->UsbDevContext[SlotId].DevDesc.NumConfigurations; Index++) {\r
2383 if (Xhc->UsbDevContext[SlotId].ConfDesc[Index] != NULL) {\r
2384 FreePool (Xhc->UsbDevContext[SlotId].ConfDesc[Index]);\r
2385 }\r
2386 }\r
2387\r
e1f2dfec
SZ		 2388 if (Xhc->UsbDevContext[SlotId].ActiveAlternateSetting != NULL) {\r
2389 FreePool (Xhc->UsbDevContext[SlotId].ActiveAlternateSetting);\r
2390 }\r
2391\r
6b4483cd 2392 if (Xhc->UsbDevContext[SlotId].InputContext != NULL) {\r
1847ed0b 2393 UsbHcFreeMem (Xhc->MemPool, Xhc->UsbDevContext[SlotId].InputContext, sizeof (INPUT_CONTEXT));\r
6b4483cd 2394 }\r
2395\r
2396 if (Xhc->UsbDevContext[SlotId].OutputContext != NULL) {\r
1847ed0b 2397 UsbHcFreeMem (Xhc->MemPool, Xhc->UsbDevContext[SlotId].OutputContext, sizeof (DEVICE_CONTEXT));\r
6b4483cd 2398 }\r
2399 //\r
2400 // Doesn't zero the entry because XhcAsyncInterruptTransfer() may be invoked to remove the established\r
2401 // asynchronous interrupt pipe after the device is disabled. It needs the device address mapping info to\r
2402 // remove urb from XHCI's asynchronous transfer list.\r
2403 //\r
2404 Xhc->UsbDevContext[SlotId].Enabled = FALSE;\r
2405 Xhc->UsbDevContext[SlotId].SlotId = 0;\r
2406\r
2407 return Status;\r
2408}\r
2409\r
2410/**\r
2411 Disable the specified device slot.\r
2412\r
2413 @param Xhc The XHCI Instance.\r
2414 @param SlotId The slot id to be disabled.\r
2415\r
2416 @retval EFI_SUCCESS Successfully disable the device slot.\r
2417\r
2418**/\r
2419EFI_STATUS\r
2420EFIAPI\r
2421XhcDisableSlotCmd64 (\r
2422 IN USB_XHCI_INSTANCE *Xhc,\r
2423 IN UINT8 SlotId\r
2424 )\r
2425{\r
2426 EFI_STATUS Status;\r
2427 TRB_TEMPLATE *EvtTrb;\r
2428 CMD_TRB_DISABLE_SLOT CmdTrbDisSlot;\r
2429 UINT8 Index;\r
2430 VOID *RingSeg;\r
2431\r
2432 //\r
2433 // Disable the device slots occupied by these devices on its downstream ports.\r
2434 // Entry 0 is reserved.\r
2435 //\r
2436 for (Index = 0; Index < 255; Index++) {\r
2437 if (!Xhc->UsbDevContext[Index + 1].Enabled ||\r
2438 (Xhc->UsbDevContext[Index + 1].SlotId == 0) ||\r
2439 (Xhc->UsbDevContext[Index + 1].ParentRouteString.Dword != Xhc->UsbDevContext[SlotId].RouteString.Dword)) {\r
2440 continue;\r
2441 }\r
2442\r
2443 Status = XhcDisableSlotCmd64 (Xhc, Xhc->UsbDevContext[Index + 1].SlotId);\r
2444\r
2445 if (EFI_ERROR (Status)) {\r
2446 DEBUG ((EFI_D_ERROR, "XhcDisableSlotCmd: failed to disable child, ignore error\n"));\r
2447 Xhc->UsbDevContext[Index + 1].SlotId = 0;\r
2448 }\r
2449 }\r
2450\r
2451 //\r
2452 // Construct the disable slot command\r
2453 //\r
2454 DEBUG ((EFI_D_INFO, "Disable device slot %d!\n", SlotId));\r
2455\r
2456 ZeroMem (&CmdTrbDisSlot, sizeof (CmdTrbDisSlot));\r
2457 CmdTrbDisSlot.CycleBit = 1;\r
2458 CmdTrbDisSlot.Type = TRB_TYPE_DIS_SLOT;\r
2459 CmdTrbDisSlot.SlotId = SlotId;\r
2460 Status = XhcCmdTransfer (\r
2461 Xhc,\r
2462 (TRB_TEMPLATE *) (UINTN) &CmdTrbDisSlot,\r
2463 XHC_GENERIC_TIMEOUT,\r
2464 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
2465 );\r
260fbf53
EL		 2466 if (EFI_ERROR (Status)) {\r
2467 DEBUG ((EFI_D_ERROR, "XhcDisableSlotCmd: Disable Slot Command Failed, Status = %r\n", Status));\r
2468 return Status;\r
2469 }\r
6b4483cd 2470 //\r
2471 // Free the slot's device context entry\r
2472 //\r
2473 Xhc->DCBAA[SlotId] = 0;\r
2474\r
2475 //\r
2476 // Free the slot related data structure\r
2477 //\r
2478 for (Index = 0; Index < 31; Index++) {\r
2479 if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index] != NULL) {\r
2480 RingSeg = ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index])->RingSeg0;\r
2481 if (RingSeg != NULL) {\r
1847ed0b 2482 UsbHcFreeMem (Xhc->MemPool, RingSeg, sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER);\r
6b4483cd 2483 }\r
2484 FreePool (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index]);\r
1847ed0b 2485 Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index] = NULL;\r
6b4483cd 2486 }\r
2487 }\r
2488\r
2489 for (Index = 0; Index < Xhc->UsbDevContext[SlotId].DevDesc.NumConfigurations; Index++) {\r
2490 if (Xhc->UsbDevContext[SlotId].ConfDesc[Index] != NULL) {\r
2491 FreePool (Xhc->UsbDevContext[SlotId].ConfDesc[Index]);\r
2492 }\r
2493 }\r
2494\r
e1f2dfec
SZ		 2495 if (Xhc->UsbDevContext[SlotId].ActiveAlternateSetting != NULL) {\r
2496 FreePool (Xhc->UsbDevContext[SlotId].ActiveAlternateSetting);\r
2497 }\r
2498\r
6b4483cd 2499 if (Xhc->UsbDevContext[SlotId].InputContext != NULL) {\r
1847ed0b 2500 UsbHcFreeMem (Xhc->MemPool, Xhc->UsbDevContext[SlotId].InputContext, sizeof (INPUT_CONTEXT_64));\r
6b4483cd 2501 }\r
2502\r
2503 if (Xhc->UsbDevContext[SlotId].OutputContext != NULL) {\r
1847ed0b 2504 UsbHcFreeMem (Xhc->MemPool, Xhc->UsbDevContext[SlotId].OutputContext, sizeof (DEVICE_CONTEXT_64));\r
6b4483cd 2505 }\r
2506 //\r
2507 // Doesn't zero the entry because XhcAsyncInterruptTransfer() may be invoked to remove the established\r
2508 // asynchronous interrupt pipe after the device is disabled. It needs the device address mapping info to\r
2509 // remove urb from XHCI's asynchronous transfer list.\r
2510 //\r
2511 Xhc->UsbDevContext[SlotId].Enabled = FALSE;\r
2512 Xhc->UsbDevContext[SlotId].SlotId = 0;\r
2513\r
2514 return Status;\r
2515}\r
2516\r
e1f2dfec
SZ		 2517/**\r
2518 Initialize endpoint context in input context.\r
2519\r
2520 @param Xhc The XHCI Instance.\r
2521 @param SlotId The slot id to be configured.\r
2522 @param DeviceSpeed The device's speed.\r
2523 @param InputContext The pointer to the input context.\r
2524 @param IfDesc The pointer to the usb device interface descriptor.\r
2525\r
2526 @return The maximum device context index of endpoint.\r
2527\r
2528**/\r
2529UINT8\r
2530EFIAPI\r
2531XhcInitializeEndpointContext (\r
2532 IN USB_XHCI_INSTANCE *Xhc,\r
2533 IN UINT8 SlotId,\r
2534 IN UINT8 DeviceSpeed,\r
2535 IN INPUT_CONTEXT *InputContext,\r
2536 IN USB_INTERFACE_DESCRIPTOR *IfDesc\r
2537 )\r
2538{\r
2539 USB_ENDPOINT_DESCRIPTOR *EpDesc;\r
2540 UINTN NumEp;\r
2541 UINTN EpIndex;\r
2542 UINT8 EpAddr;\r
2543 UINT8 Direction;\r
2544 UINT8 Dci;\r
2545 UINT8 MaxDci;\r
2546 EFI_PHYSICAL_ADDRESS PhyAddr;\r
2547 UINT8 Interval;\r
2548 TRANSFER_RING *EndpointTransferRing;\r
2549\r
2550 MaxDci = 0;\r
2551\r
2552 NumEp = IfDesc->NumEndpoints;\r
2553\r
2554 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)(IfDesc + 1);\r
2555 for (EpIndex = 0; EpIndex < NumEp; EpIndex++) {\r
2556 while (EpDesc->DescriptorType != USB_DESC_TYPE_ENDPOINT) {\r
2557 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);\r
2558 }\r
2559\r
2560 EpAddr = (UINT8)(EpDesc->EndpointAddress & 0x0F);\r
2561 Direction = (UINT8)((EpDesc->EndpointAddress & 0x80) ? EfiUsbDataIn : EfiUsbDataOut);\r
2562\r
2563 Dci = XhcEndpointToDci (EpAddr, Direction);\r
2564 ASSERT (Dci < 32);\r
2565 if (Dci > MaxDci) {\r
2566 MaxDci = Dci;\r
2567 }\r
2568\r
2569 InputContext->InputControlContext.Dword2 |= (BIT0 << Dci);\r
2570 InputContext->EP[Dci-1].MaxPacketSize = EpDesc->MaxPacketSize;\r
2571\r
2572 if (DeviceSpeed == EFI_USB_SPEED_SUPER) {\r
2573 //\r
2574 // 6.2.3.4, shall be set to the value defined in the bMaxBurst field of the SuperSpeed Endpoint Companion Descriptor.\r
2575 //\r
2576 InputContext->EP[Dci-1].MaxBurstSize = 0x0;\r
2577 } else {\r
2578 InputContext->EP[Dci-1].MaxBurstSize = 0x0;\r
2579 }\r
2580\r
2581 switch (EpDesc->Attributes & USB_ENDPOINT_TYPE_MASK) {\r
2582 case USB_ENDPOINT_BULK:\r
2583 if (Direction == EfiUsbDataIn) {\r
2584 InputContext->EP[Dci-1].CErr = 3;\r
2585 InputContext->EP[Dci-1].EPType = ED_BULK_IN;\r
2586 } else {\r
2587 InputContext->EP[Dci-1].CErr = 3;\r
2588 InputContext->EP[Dci-1].EPType = ED_BULK_OUT;\r
2589 }\r
2590\r
2591 InputContext->EP[Dci-1].AverageTRBLength = 0x1000;\r
2592 if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] == NULL) {\r
2593 EndpointTransferRing = AllocateZeroPool(sizeof (TRANSFER_RING));\r
2594 Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] = (VOID *) EndpointTransferRing;\r
2595 CreateTransferRing(Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1]);\r
2596 }\r
2597\r
2598 break;\r
2599 case USB_ENDPOINT_ISO:\r
2600 if (Direction == EfiUsbDataIn) {\r
2601 InputContext->EP[Dci-1].CErr = 0;\r
2602 InputContext->EP[Dci-1].EPType = ED_ISOCH_IN;\r
2603 } else {\r
2604 InputContext->EP[Dci-1].CErr = 0;\r
2605 InputContext->EP[Dci-1].EPType = ED_ISOCH_OUT;\r
2606 }\r
2607 break;\r
2608 case USB_ENDPOINT_INTERRUPT:\r
2609 if (Direction == EfiUsbDataIn) {\r
2610 InputContext->EP[Dci-1].CErr = 3;\r
2611 InputContext->EP[Dci-1].EPType = ED_INTERRUPT_IN;\r
2612 } else {\r
2613 InputContext->EP[Dci-1].CErr = 3;\r
2614 InputContext->EP[Dci-1].EPType = ED_INTERRUPT_OUT;\r
2615 }\r
2616 InputContext->EP[Dci-1].AverageTRBLength = 0x1000;\r
2617 InputContext->EP[Dci-1].MaxESITPayload = EpDesc->MaxPacketSize;\r
2618 //\r
2619 // Get the bInterval from descriptor and init the the interval field of endpoint context\r
2620 //\r
2621 if ((DeviceSpeed == EFI_USB_SPEED_FULL) || (DeviceSpeed == EFI_USB_SPEED_LOW)) {\r
2622 Interval = EpDesc->Interval;\r
2623 //\r
2624 // Calculate through the bInterval field of Endpoint descriptor.\r
2625 //\r
2626 ASSERT (Interval != 0);\r
2627 InputContext->EP[Dci-1].Interval = (UINT32)HighBitSet32((UINT32)Interval) + 3;\r
2628 } else if ((DeviceSpeed == EFI_USB_SPEED_HIGH) || (DeviceSpeed == EFI_USB_SPEED_SUPER)) {\r
2629 Interval = EpDesc->Interval;\r
2630 ASSERT (Interval >= 1 && Interval <= 16);\r
2631 //\r
2632 // Refer to XHCI 1.0 spec section 6.2.3.6, table 61\r
2633 //\r
2634 InputContext->EP[Dci-1].Interval = Interval - 1;\r
2635 InputContext->EP[Dci-1].AverageTRBLength = 0x1000;\r
2636 InputContext->EP[Dci-1].MaxESITPayload = 0x0002;\r
2637 InputContext->EP[Dci-1].MaxBurstSize = 0x0;\r
2638 InputContext->EP[Dci-1].CErr = 3;\r
2639 }\r
2640\r
2641 if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] == NULL) {\r
2642 EndpointTransferRing = AllocateZeroPool(sizeof (TRANSFER_RING));\r
2643 Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] = (VOID *) EndpointTransferRing;\r
2644 CreateTransferRing(Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1]);\r
2645 }\r
2646 break;\r
2647\r
2648 case USB_ENDPOINT_CONTROL:\r
2649 default:\r
2650 ASSERT (0);\r
2651 break;\r
2652 }\r
2653\r
2654 PhyAddr = UsbHcGetPciAddrForHostAddr (\r
2655 Xhc->MemPool,\r
2656 ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1])->RingSeg0,\r
2657 sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER\r
2658 );\r
2659 PhyAddr &= ~(0x0F);\r
2660 PhyAddr |= ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1])->RingPCS;\r
2661 InputContext->EP[Dci-1].PtrLo = XHC_LOW_32BIT (PhyAddr);\r
2662 InputContext->EP[Dci-1].PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
2663\r
2664 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);\r
2665 }\r
2666\r
2667 return MaxDci;\r
2668}\r
2669\r
2670/**\r
2671 Initialize endpoint context in input context.\r
2672\r
2673 @param Xhc The XHCI Instance.\r
2674 @param SlotId The slot id to be configured.\r
2675 @param DeviceSpeed The device's speed.\r
2676 @param InputContext The pointer to the input context.\r
2677 @param IfDesc The pointer to the usb device interface descriptor.\r
2678\r
2679 @return The maximum device context index of endpoint.\r
2680\r
2681**/\r
2682UINT8\r
2683EFIAPI\r
2684XhcInitializeEndpointContext64 (\r
2685 IN USB_XHCI_INSTANCE *Xhc,\r
2686 IN UINT8 SlotId,\r
2687 IN UINT8 DeviceSpeed,\r
2688 IN INPUT_CONTEXT_64 *InputContext,\r
2689 IN USB_INTERFACE_DESCRIPTOR *IfDesc\r
2690 )\r
2691{\r
2692 USB_ENDPOINT_DESCRIPTOR *EpDesc;\r
2693 UINTN NumEp;\r
2694 UINTN EpIndex;\r
2695 UINT8 EpAddr;\r
2696 UINT8 Direction;\r
2697 UINT8 Dci;\r
2698 UINT8 MaxDci;\r
2699 EFI_PHYSICAL_ADDRESS PhyAddr;\r
2700 UINT8 Interval;\r
2701 TRANSFER_RING *EndpointTransferRing;\r
2702\r
2703 MaxDci = 0;\r
2704\r
2705 NumEp = IfDesc->NumEndpoints;\r
2706\r
2707 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)(IfDesc + 1);\r
2708 for (EpIndex = 0; EpIndex < NumEp; EpIndex++) {\r
2709 while (EpDesc->DescriptorType != USB_DESC_TYPE_ENDPOINT) {\r
2710 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);\r
2711 }\r
2712\r
2713 EpAddr = (UINT8)(EpDesc->EndpointAddress & 0x0F);\r
2714 Direction = (UINT8)((EpDesc->EndpointAddress & 0x80) ? EfiUsbDataIn : EfiUsbDataOut);\r
2715\r
2716 Dci = XhcEndpointToDci (EpAddr, Direction);\r
2717 ASSERT (Dci < 32);\r
2718 if (Dci > MaxDci) {\r
2719 MaxDci = Dci;\r
2720 }\r
2721\r
2722 InputContext->InputControlContext.Dword2 |= (BIT0 << Dci);\r
2723 InputContext->EP[Dci-1].MaxPacketSize = EpDesc->MaxPacketSize;\r
2724\r
2725 if (DeviceSpeed == EFI_USB_SPEED_SUPER) {\r
2726 //\r
2727 // 6.2.3.4, shall be set to the value defined in the bMaxBurst field of the SuperSpeed Endpoint Companion Descriptor.\r
2728 //\r
2729 InputContext->EP[Dci-1].MaxBurstSize = 0x0;\r
2730 } else {\r
2731 InputContext->EP[Dci-1].MaxBurstSize = 0x0;\r
2732 }\r
2733\r
2734 switch (EpDesc->Attributes & USB_ENDPOINT_TYPE_MASK) {\r
2735 case USB_ENDPOINT_BULK:\r
2736 if (Direction == EfiUsbDataIn) {\r
2737 InputContext->EP[Dci-1].CErr = 3;\r
2738 InputContext->EP[Dci-1].EPType = ED_BULK_IN;\r
2739 } else {\r
2740 InputContext->EP[Dci-1].CErr = 3;\r
2741 InputContext->EP[Dci-1].EPType = ED_BULK_OUT;\r
2742 }\r
2743\r
2744 InputContext->EP[Dci-1].AverageTRBLength = 0x1000;\r
2745 if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] == NULL) {\r
2746 EndpointTransferRing = AllocateZeroPool(sizeof (TRANSFER_RING));\r
2747 Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] = (VOID *) EndpointTransferRing;\r
2748 CreateTransferRing(Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1]);\r
2749 }\r
2750\r
2751 break;\r
2752 case USB_ENDPOINT_ISO:\r
2753 if (Direction == EfiUsbDataIn) {\r
2754 InputContext->EP[Dci-1].CErr = 0;\r
2755 InputContext->EP[Dci-1].EPType = ED_ISOCH_IN;\r
2756 } else {\r
2757 InputContext->EP[Dci-1].CErr = 0;\r
2758 InputContext->EP[Dci-1].EPType = ED_ISOCH_OUT;\r
2759 }\r
2760 break;\r
2761 case USB_ENDPOINT_INTERRUPT:\r
2762 if (Direction == EfiUsbDataIn) {\r
2763 InputContext->EP[Dci-1].CErr = 3;\r
2764 InputContext->EP[Dci-1].EPType = ED_INTERRUPT_IN;\r
2765 } else {\r
2766 InputContext->EP[Dci-1].CErr = 3;\r
2767 InputContext->EP[Dci-1].EPType = ED_INTERRUPT_OUT;\r
2768 }\r
2769 InputContext->EP[Dci-1].AverageTRBLength = 0x1000;\r
2770 InputContext->EP[Dci-1].MaxESITPayload = EpDesc->MaxPacketSize;\r
2771 //\r
2772 // Get the bInterval from descriptor and init the the interval field of endpoint context\r
2773 //\r
2774 if ((DeviceSpeed == EFI_USB_SPEED_FULL) || (DeviceSpeed == EFI_USB_SPEED_LOW)) {\r
2775 Interval = EpDesc->Interval;\r
2776 //\r
2777 // Calculate through the bInterval field of Endpoint descriptor.\r
2778 //\r
2779 ASSERT (Interval != 0);\r
2780 InputContext->EP[Dci-1].Interval = (UINT32)HighBitSet32((UINT32)Interval) + 3;\r
2781 } else if ((DeviceSpeed == EFI_USB_SPEED_HIGH) || (DeviceSpeed == EFI_USB_SPEED_SUPER)) {\r
2782 Interval = EpDesc->Interval;\r
2783 ASSERT (Interval >= 1 && Interval <= 16);\r
2784 //\r
2785 // Refer to XHCI 1.0 spec section 6.2.3.6, table 61\r
2786 //\r
2787 InputContext->EP[Dci-1].Interval = Interval - 1;\r
2788 InputContext->EP[Dci-1].AverageTRBLength = 0x1000;\r
2789 InputContext->EP[Dci-1].MaxESITPayload = 0x0002;\r
2790 InputContext->EP[Dci-1].MaxBurstSize = 0x0;\r
2791 InputContext->EP[Dci-1].CErr = 3;\r
2792 }\r
2793\r
2794 if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] == NULL) {\r
2795 EndpointTransferRing = AllocateZeroPool(sizeof (TRANSFER_RING));\r
2796 Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] = (VOID *) EndpointTransferRing;\r
2797 CreateTransferRing(Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1]);\r
2798 }\r
2799 break;\r
2800\r
2801 case USB_ENDPOINT_CONTROL:\r
2802 default:\r
2803 ASSERT (0);\r
2804 break;\r
2805 }\r
2806\r
2807 PhyAddr = UsbHcGetPciAddrForHostAddr (\r
2808 Xhc->MemPool,\r
2809 ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1])->RingSeg0,\r
2810 sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER\r
2811 );\r
2812 PhyAddr &= ~(0x0F);\r
2813 PhyAddr |= ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1])->RingPCS;\r
2814 InputContext->EP[Dci-1].PtrLo = XHC_LOW_32BIT (PhyAddr);\r
2815 InputContext->EP[Dci-1].PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
2816\r
2817 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);\r
2818 }\r
2819\r
2820 return MaxDci;\r
2821}\r
6b4483cd 2822\r
2823/**\r
2824 Configure all the device endpoints through XHCI's Configure_Endpoint cmd.\r
2825\r
2826 @param Xhc The XHCI Instance.\r
2827 @param SlotId The slot id to be configured.\r
2828 @param DeviceSpeed The device's speed.\r
2829 @param ConfigDesc The pointer to the usb device configuration descriptor.\r
2830\r
2831 @retval EFI_SUCCESS Successfully configure all the device endpoints.\r
2832\r
2833**/\r
2834EFI_STATUS\r
2835EFIAPI\r
2836XhcSetConfigCmd (\r
2837 IN USB_XHCI_INSTANCE *Xhc,\r
2838 IN UINT8 SlotId,\r
2839 IN UINT8 DeviceSpeed,\r
2840 IN USB_CONFIG_DESCRIPTOR *ConfigDesc\r
2841 )\r
2842{\r
2843 EFI_STATUS Status;\r
6b4483cd 2844 USB_INTERFACE_DESCRIPTOR *IfDesc;\r
6b4483cd 2845 UINT8 Index;\r
6b4483cd 2846 UINT8 Dci;\r
2847 UINT8 MaxDci;\r
1847ed0b 2848 EFI_PHYSICAL_ADDRESS PhyAddr;\r
6b4483cd 2849\r
6b4483cd 2850 CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;\r
2851 INPUT_CONTEXT *InputContext;\r
2852 DEVICE_CONTEXT *OutputContext;\r
2853 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
2854 //\r
2855 // 4.6.6 Configure Endpoint\r
2856 //\r
2857 InputContext = Xhc->UsbDevContext[SlotId].InputContext;\r
2858 OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;\r
2859 ZeroMem (InputContext, sizeof (INPUT_CONTEXT));\r
2860 CopyMem (&InputContext->Slot, &OutputContext->Slot, sizeof (SLOT_CONTEXT));\r
2861\r
2862 ASSERT (ConfigDesc != NULL);\r
2863\r
2864 MaxDci = 0;\r
2865\r
2866 IfDesc = (USB_INTERFACE_DESCRIPTOR *)(ConfigDesc + 1);\r
2867 for (Index = 0; Index < ConfigDesc->NumInterfaces; Index++) {\r
e1f2dfec 2868 while ((IfDesc->DescriptorType != USB_DESC_TYPE_INTERFACE) || (IfDesc->AlternateSetting != 0)) {\r
6b4483cd 2869 IfDesc = (USB_INTERFACE_DESCRIPTOR *)((UINTN)IfDesc + IfDesc->Length);\r
2870 }\r
2871\r
e1f2dfec
SZ		 2872 Dci = XhcInitializeEndpointContext (Xhc, SlotId, DeviceSpeed, InputContext, IfDesc);\r
2873 if (Dci > MaxDci) {\r
2874 MaxDci = Dci;\r
6b4483cd 2875 }\r
e1f2dfec 2876\r
6b4483cd 2877 IfDesc = (USB_INTERFACE_DESCRIPTOR *)((UINTN)IfDesc + IfDesc->Length);\r
2878 }\r
2879\r
2880 InputContext->InputControlContext.Dword2 |= BIT0;\r
2881 InputContext->Slot.ContextEntries = MaxDci;\r
2882 //\r
2883 // configure endpoint\r
2884 //\r
2885 ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));\r
1847ed0b
EL		 2886 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT));\r
2887 CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
2888 CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
6b4483cd 2889 CmdTrbCfgEP.CycleBit = 1;\r
2890 CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;\r
2891 CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
2892 DEBUG ((EFI_D_INFO, "Configure Endpoint\n"));\r
2893 Status = XhcCmdTransfer (\r
2894 Xhc,\r
2895 (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,\r
2896 XHC_GENERIC_TIMEOUT,\r
2897 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
2898 );\r
260fbf53
EL		 2899 if (EFI_ERROR (Status)) {\r
2900 DEBUG ((EFI_D_ERROR, "XhcSetConfigCmd: Config Endpoint Failed, Status = %r\n", Status));\r
e1f2dfec
SZ		 2901 } else {\r
2902 Xhc->UsbDevContext[SlotId].ActiveConfiguration = ConfigDesc->ConfigurationValue;\r
260fbf53 2903 }\r
e1f2dfec 2904\r
92870c98 2905 return Status;\r
2906}\r
2907\r
2908/**\r
2909 Configure all the device endpoints through XHCI's Configure_Endpoint cmd.\r
2910\r
a9292c13 2911 @param Xhc The XHCI Instance.\r
92870c98 2912 @param SlotId The slot id to be configured.\r
2913 @param DeviceSpeed The device's speed.\r
2914 @param ConfigDesc The pointer to the usb device configuration descriptor.\r
2915\r
2916 @retval EFI_SUCCESS Successfully configure all the device endpoints.\r
2917\r
2918**/\r
2919EFI_STATUS\r
2920EFIAPI\r
6b4483cd 2921XhcSetConfigCmd64 (\r
a9292c13 2922 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 2923 IN UINT8 SlotId,\r
a9292c13 2924 IN UINT8 DeviceSpeed,\r
92870c98 2925 IN USB_CONFIG_DESCRIPTOR *ConfigDesc\r
2926 )\r
2927{\r
a9292c13 2928 EFI_STATUS Status;\r
a9292c13 2929 USB_INTERFACE_DESCRIPTOR *IfDesc;\r
a9292c13 2930 UINT8 Index;\r
a9292c13 2931 UINT8 Dci;\r
2932 UINT8 MaxDci;\r
1847ed0b 2933 EFI_PHYSICAL_ADDRESS PhyAddr;\r
a9292c13 2934\r
a9292c13 2935 CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;\r
6b4483cd 2936 INPUT_CONTEXT_64 *InputContext;\r
2937 DEVICE_CONTEXT_64 *OutputContext;\r
a9292c13 2938 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
92870c98 2939 //\r
2940 // 4.6.6 Configure Endpoint\r
2941 //\r
a9292c13 2942 InputContext = Xhc->UsbDevContext[SlotId].InputContext;\r
2943 OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;\r
6b4483cd 2944 ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));\r
2945 CopyMem (&InputContext->Slot, &OutputContext->Slot, sizeof (SLOT_CONTEXT_64));\r
92870c98 2946\r
2947 ASSERT (ConfigDesc != NULL);\r
2948\r
2949 MaxDci = 0;\r
2950\r
2951 IfDesc = (USB_INTERFACE_DESCRIPTOR *)(ConfigDesc + 1);\r
2952 for (Index = 0; Index < ConfigDesc->NumInterfaces; Index++) {\r
e1f2dfec 2953 while ((IfDesc->DescriptorType != USB_DESC_TYPE_INTERFACE) || (IfDesc->AlternateSetting != 0)) {\r
92870c98 2954 IfDesc = (USB_INTERFACE_DESCRIPTOR *)((UINTN)IfDesc + IfDesc->Length);\r
2955 }\r
2956\r
e1f2dfec
SZ		 2957 Dci = XhcInitializeEndpointContext64 (Xhc, SlotId, DeviceSpeed, InputContext, IfDesc);\r
2958 if (Dci > MaxDci) {\r
2959 MaxDci = Dci;\r
92870c98 2960 }\r
e1f2dfec 2961 \r
92870c98 2962 IfDesc = (USB_INTERFACE_DESCRIPTOR *)((UINTN)IfDesc + IfDesc->Length);\r
2963 }\r
2964\r
2965 InputContext->InputControlContext.Dword2 |= BIT0;\r
2966 InputContext->Slot.ContextEntries = MaxDci;\r
2967 //\r
2968 // configure endpoint\r
2969 //\r
2970 ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));\r
1847ed0b
EL		 2971 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT_64));\r
2972 CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
2973 CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
92870c98 2974 CmdTrbCfgEP.CycleBit = 1;\r
2975 CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;\r
a9292c13 2976 CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
92870c98 2977 DEBUG ((EFI_D_INFO, "Configure Endpoint\n"));\r
2978 Status = XhcCmdTransfer (\r
2979 Xhc,\r
a9292c13 2980 (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,\r
92870c98 2981 XHC_GENERIC_TIMEOUT,\r
a9292c13 2982 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
92870c98 2983 );\r
260fbf53
EL		 2984 if (EFI_ERROR (Status)) {\r
2985 DEBUG ((EFI_D_ERROR, "XhcSetConfigCmd64: Config Endpoint Failed, Status = %r\n", Status));\r
e1f2dfec
SZ		 2986 } else {\r
2987 Xhc->UsbDevContext[SlotId].ActiveConfiguration = ConfigDesc->ConfigurationValue;\r
2988 }\r
2989\r
2990 return Status;\r
2991}\r
2992\r
2993/**\r
2994 Stop endpoint through XHCI's Stop_Endpoint cmd.\r
2995\r
2996 @param Xhc The XHCI Instance.\r
2997 @param SlotId The slot id to be configured.\r
2998 @param Dci The device context index of endpoint.\r
2999\r
3000 @retval EFI_SUCCESS Stop endpoint successfully.\r
3001 @retval Others Failed to stop endpoint.\r
3002\r
3003**/\r
3004EFI_STATUS\r
3005EFIAPI\r
3006XhcStopEndpoint (\r
3007 IN USB_XHCI_INSTANCE *Xhc,\r
3008 IN UINT8 SlotId,\r
3009 IN UINT8 Dci\r
3010 )\r
3011{\r
3012 EFI_STATUS Status;\r
3013 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
3014 CMD_TRB_STOP_ENDPOINT CmdTrbStopED;\r
3015\r
3016 DEBUG ((EFI_D_INFO, "XhcStopEndpoint: Slot = 0x%x, Dci = 0x%x\n", SlotId, Dci));\r
3017\r
3018 //\r
3019 // Send stop endpoint command to transit Endpoint from running to stop state\r
3020 //\r
3021 ZeroMem (&CmdTrbStopED, sizeof (CmdTrbStopED));\r
3022 CmdTrbStopED.CycleBit = 1;\r
3023 CmdTrbStopED.Type = TRB_TYPE_STOP_ENDPOINT;\r
3024 CmdTrbStopED.EDID = Dci;\r
3025 CmdTrbStopED.SlotId = SlotId;\r
3026 Status = XhcCmdTransfer (\r
3027 Xhc,\r
3028 (TRB_TEMPLATE *) (UINTN) &CmdTrbStopED,\r
3029 XHC_GENERIC_TIMEOUT,\r
3030 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
3031 );\r
3032 if (EFI_ERROR(Status)) {\r
3033 DEBUG ((EFI_D_ERROR, "XhcStopEndpoint: Stop Endpoint Failed, Status = %r\n", Status));\r
3034 }\r
3035\r
3036 return Status;\r
3037}\r
3038\r
3039/**\r
3040 Set interface through XHCI's Configure_Endpoint cmd.\r
3041\r
3042 @param Xhc The XHCI Instance.\r
3043 @param SlotId The slot id to be configured.\r
3044 @param DeviceSpeed The device's speed.\r
3045 @param ConfigDesc The pointer to the usb device configuration descriptor.\r
3046 @param Request USB device request to send.\r
3047\r
3048 @retval EFI_SUCCESS Successfully set interface.\r
3049\r
3050**/\r
3051EFI_STATUS\r
3052EFIAPI\r
3053XhcSetInterface (\r
3054 IN USB_XHCI_INSTANCE *Xhc,\r
3055 IN UINT8 SlotId,\r
3056 IN UINT8 DeviceSpeed,\r
3057 IN USB_CONFIG_DESCRIPTOR *ConfigDesc,\r
3058 IN EFI_USB_DEVICE_REQUEST *Request\r
3059 )\r
3060{\r
3061 EFI_STATUS Status;\r
3062 USB_INTERFACE_DESCRIPTOR *IfDescActive;\r
3063 USB_INTERFACE_DESCRIPTOR *IfDescSet;\r
3064 USB_INTERFACE_DESCRIPTOR *IfDesc;\r
3065 USB_ENDPOINT_DESCRIPTOR *EpDesc;\r
3066 UINTN NumEp;\r
3067 UINTN EpIndex;\r
3068 UINT8 EpAddr;\r
3069 UINT8 Direction;\r
3070 UINT8 Dci;\r
3071 UINT8 MaxDci;\r
3072 EFI_PHYSICAL_ADDRESS PhyAddr;\r
3073 VOID *RingSeg;\r
3074\r
3075 CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;\r
3076 INPUT_CONTEXT *InputContext;\r
3077 DEVICE_CONTEXT *OutputContext;\r
3078 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
3079\r
3080 Status = EFI_SUCCESS;\r
3081\r
3082 InputContext = Xhc->UsbDevContext[SlotId].InputContext;\r
3083 OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;\r
3084 //\r
3085 // XHCI 4.6.6 Configure Endpoint\r
3086 // When this command is used to "Set an Alternate Interface on a device", software shall set the Drop\r
3087 // Context and Add Context flags as follows:\r
3088 // 1) If an endpoint is not modified by the Alternate Interface setting, then software shall set the Drop\r
3089 // Context and Add Context flags to '0'.\r
3090 //\r
3091 // Except the interface indicated by Reqeust->Index, no impact to other interfaces.\r
3092 // So the default Drop Context and Add Context flags can be '0' to cover 1).\r
3093 //\r
3094 ZeroMem (InputContext, sizeof (INPUT_CONTEXT));\r
3095 CopyMem (&InputContext->Slot, &OutputContext->Slot, sizeof (SLOT_CONTEXT));\r
3096\r
3097 ASSERT (ConfigDesc != NULL);\r
3098\r
3099 MaxDci = 0;\r
3100\r
3101 IfDescActive = NULL;\r
3102 IfDescSet = NULL;\r
3103\r
3104 IfDesc = (USB_INTERFACE_DESCRIPTOR *)(ConfigDesc + 1);\r
3105 while ((UINTN) IfDesc < ((UINTN) ConfigDesc + ConfigDesc->TotalLength)) {\r
3106 if (IfDesc->DescriptorType == USB_DESC_TYPE_INTERFACE) {\r
3107 if (IfDesc->InterfaceNumber == (UINT8) Request->Index) {\r
3108 if (IfDesc->AlternateSetting == Xhc->UsbDevContext[SlotId].ActiveAlternateSetting[IfDesc->InterfaceNumber]) {\r
3109 //\r
3110 // Find out the active interface descriptor.\r
3111 //\r
3112 IfDescActive = IfDesc;\r
3113 } else if (IfDesc->AlternateSetting == (UINT8) Request->Value) {\r
3114 //\r
3115 // Find out the interface descriptor to set.\r
3116 //\r
3117 IfDescSet = IfDesc;\r
3118 }\r
3119 }\r
3120 }\r
3121 IfDesc = (USB_INTERFACE_DESCRIPTOR *)((UINTN)IfDesc + IfDesc->Length);\r
3122 }\r
3123\r
3124 //\r
3125 // XHCI 4.6.6 Configure Endpoint\r
3126 // When this command is used to "Set an Alternate Interface on a device", software shall set the Drop\r
3127 // Context and Add Context flags as follows:\r
3128 // 2) If an endpoint previously disabled, is enabled by the Alternate Interface setting, then software shall set\r
3129 // the Drop Context flag to '0' and Add Context flag to '1', and initialize the Input Endpoint Context.\r
3130 // 3) If an endpoint previously enabled, is disabled by the Alternate Interface setting, then software shall set\r
3131 // the Drop Context flag to '1' and Add Context flag to '0'.\r
3132 // 4) If a parameter of an enabled endpoint is modified by an Alternate Interface setting, the Drop Context\r
3133 // and Add Context flags shall be set to '1'.\r
3134 //\r
3135 // Below codes are to cover 2), 3) and 4).\r
3136 //\r
3137\r
3138 if ((IfDescActive != NULL) && (IfDescSet != NULL)) {\r
3139 NumEp = IfDescActive->NumEndpoints;\r
3140 EpDesc = (USB_ENDPOINT_DESCRIPTOR *) (IfDescActive + 1);\r
3141 for (EpIndex = 0; EpIndex < NumEp; EpIndex++) {\r
3142 while (EpDesc->DescriptorType != USB_DESC_TYPE_ENDPOINT) {\r
3143 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);\r
3144 }\r
3145\r
3146 EpAddr = (UINT8) (EpDesc->EndpointAddress & 0x0F);\r
3147 Direction = (UINT8) ((EpDesc->EndpointAddress & 0x80) ? EfiUsbDataIn : EfiUsbDataOut);\r
3148\r
3149 Dci = XhcEndpointToDci (EpAddr, Direction);\r
3150 ASSERT (Dci < 32);\r
3151 if (Dci > MaxDci) {\r
3152 MaxDci = Dci;\r
3153 }\r
3154 //\r
3155 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3156 // 1) Stop any Running Transfer Rings affected by the Alternate Interface setting.\r
3157 //\r
3158 Status = XhcStopEndpoint (Xhc, SlotId, Dci);\r
3159 if (EFI_ERROR (Status)) {\r
3160 return Status;\r
3161 }\r
3162 //\r
3163 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3164 // 2) Free Transfer Rings of all endpoints that will be affected by the Alternate Interface setting.\r
3165 //\r
3166 if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci - 1] != NULL) {\r
3167 RingSeg = ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci - 1])->RingSeg0;\r
3168 if (RingSeg != NULL) {\r
3169 UsbHcFreeMem (Xhc->MemPool, RingSeg, sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER);\r
3170 }\r
3171 FreePool (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci - 1]);\r
3172 Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci - 1] = NULL;\r
3173 }\r
3174\r
3175 //\r
3176 // Set the Drop Context flag to '1'.\r
3177 //\r
3178 InputContext->InputControlContext.Dword1 |= (BIT0 << Dci);\r
3179\r
3180 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);\r
3181 }\r
3182\r
3183 //\r
3184 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3185 // 3) Clear all the Endpoint Context fields of each endpoint that will be disabled by the Alternate\r
3186 // Interface setting, to '0'.\r
3187 //\r
3188 // The step 3) has been covered by the ZeroMem () to InputContext at the start of the function.\r
3189 //\r
3190\r
3191 //\r
3192 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3193 // 4) For each endpoint enabled by the Configure Endpoint Command:\r
3194 // a. Allocate a Transfer Ring.\r
3195 // b. Initialize the Transfer Ring Segment(s) by clearing all fields of all TRBs to '0'.\r
3196 // c. Initialize the Endpoint Context data structure.\r
3197 //\r
3198 Dci = XhcInitializeEndpointContext (Xhc, SlotId, DeviceSpeed, InputContext, IfDescSet);\r
3199 if (Dci > MaxDci) {\r
3200 MaxDci = Dci;\r
3201 }\r
3202\r
3203 InputContext->InputControlContext.Dword2 |= BIT0;\r
3204 InputContext->Slot.ContextEntries = MaxDci;\r
3205 //\r
3206 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3207 // 5) Issue and successfully complete a Configure Endpoint Command.\r
3208 //\r
3209 ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));\r
3210 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT));\r
3211 CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
3212 CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
3213 CmdTrbCfgEP.CycleBit = 1;\r
3214 CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;\r
3215 CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
3216 DEBUG ((EFI_D_INFO, "SetInterface: Configure Endpoint\n"));\r
3217 Status = XhcCmdTransfer (\r
3218 Xhc,\r
3219 (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,\r
3220 XHC_GENERIC_TIMEOUT,\r
3221 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
3222 );\r
3223 if (EFI_ERROR (Status)) {\r
3224 DEBUG ((EFI_D_ERROR, "SetInterface: Config Endpoint Failed, Status = %r\n", Status));\r
3225 } else {\r
3226 //\r
3227 // Update the active AlternateSetting.\r
3228 //\r
3229 Xhc->UsbDevContext[SlotId].ActiveAlternateSetting[(UINT8) Request->Index] = (UINT8) Request->Value;\r
3230 }\r
260fbf53 3231 }\r
92870c98 3232\r
3233 return Status;\r
3234}\r
3235\r
e1f2dfec
SZ		 3236/**\r
3237 Set interface through XHCI's Configure_Endpoint cmd.\r
3238\r
3239 @param Xhc The XHCI Instance.\r
3240 @param SlotId The slot id to be configured.\r
3241 @param DeviceSpeed The device's speed.\r
3242 @param ConfigDesc The pointer to the usb device configuration descriptor.\r
3243 @param Request USB device request to send.\r
3244\r
3245 @retval EFI_SUCCESS Successfully set interface.\r
3246\r
3247**/\r
3248EFI_STATUS\r
3249EFIAPI\r
3250XhcSetInterface64 (\r
3251 IN USB_XHCI_INSTANCE *Xhc,\r
3252 IN UINT8 SlotId,\r
3253 IN UINT8 DeviceSpeed,\r
3254 IN USB_CONFIG_DESCRIPTOR *ConfigDesc,\r
3255 IN EFI_USB_DEVICE_REQUEST *Request\r
3256 )\r
3257{\r
3258 EFI_STATUS Status;\r
3259 USB_INTERFACE_DESCRIPTOR *IfDescActive;\r
3260 USB_INTERFACE_DESCRIPTOR *IfDescSet;\r
3261 USB_INTERFACE_DESCRIPTOR *IfDesc;\r
3262 USB_ENDPOINT_DESCRIPTOR *EpDesc;\r
3263 UINTN NumEp;\r
3264 UINTN EpIndex;\r
3265 UINT8 EpAddr;\r
3266 UINT8 Direction;\r
3267 UINT8 Dci;\r
3268 UINT8 MaxDci;\r
3269 EFI_PHYSICAL_ADDRESS PhyAddr;\r
3270 VOID *RingSeg;\r
3271\r
3272 CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;\r
3273 INPUT_CONTEXT_64 *InputContext;\r
3274 DEVICE_CONTEXT_64 *OutputContext;\r
3275 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
3276\r
3277 Status = EFI_SUCCESS;\r
3278\r
3279 InputContext = Xhc->UsbDevContext[SlotId].InputContext;\r
3280 OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;\r
3281 //\r
3282 // XHCI 4.6.6 Configure Endpoint\r
3283 // When this command is used to "Set an Alternate Interface on a device", software shall set the Drop\r
3284 // Context and Add Context flags as follows:\r
3285 // 1) If an endpoint is not modified by the Alternate Interface setting, then software shall set the Drop\r
3286 // Context and Add Context flags to '0'.\r
3287 //\r
3288 // Except the interface indicated by Reqeust->Index, no impact to other interfaces.\r
3289 // So the default Drop Context and Add Context flags can be '0' to cover 1).\r
3290 //\r
3291 ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));\r
3292 CopyMem (&InputContext->Slot, &OutputContext->Slot, sizeof (SLOT_CONTEXT_64));\r
3293\r
3294 ASSERT (ConfigDesc != NULL);\r
3295\r
3296 MaxDci = 0;\r
3297\r
3298 IfDescActive = NULL;\r
3299 IfDescSet = NULL;\r
3300\r
3301 IfDesc = (USB_INTERFACE_DESCRIPTOR *)(ConfigDesc + 1);\r
3302 while ((UINTN) IfDesc < ((UINTN) ConfigDesc + ConfigDesc->TotalLength)) {\r
3303 if (IfDesc->DescriptorType == USB_DESC_TYPE_INTERFACE) {\r
3304 if (IfDesc->InterfaceNumber == (UINT8) Request->Index) {\r
3305 if (IfDesc->AlternateSetting == Xhc->UsbDevContext[SlotId].ActiveAlternateSetting[IfDesc->InterfaceNumber]) {\r
3306 //\r
3307 // Find out the active interface descriptor.\r
3308 //\r
3309 IfDescActive = IfDesc;\r
3310 } else if (IfDesc->AlternateSetting == (UINT8) Request->Value) {\r
3311 //\r
3312 // Find out the interface descriptor to set.\r
3313 //\r
3314 IfDescSet = IfDesc;\r
3315 }\r
3316 }\r
3317 }\r
3318 IfDesc = (USB_INTERFACE_DESCRIPTOR *)((UINTN)IfDesc + IfDesc->Length);\r
3319 }\r
3320\r
3321 //\r
3322 // XHCI 4.6.6 Configure Endpoint\r
3323 // When this command is used to "Set an Alternate Interface on a device", software shall set the Drop\r
3324 // Context and Add Context flags as follows:\r
3325 // 2) If an endpoint previously disabled, is enabled by the Alternate Interface setting, then software shall set\r
3326 // the Drop Context flag to '0' and Add Context flag to '1', and initialize the Input Endpoint Context.\r
3327 // 3) If an endpoint previously enabled, is disabled by the Alternate Interface setting, then software shall set\r
3328 // the Drop Context flag to '1' and Add Context flag to '0'.\r
3329 // 4) If a parameter of an enabled endpoint is modified by an Alternate Interface setting, the Drop Context\r
3330 // and Add Context flags shall be set to '1'.\r
3331 //\r
3332 // Below codes are to cover 2), 3) and 4).\r
3333 //\r
3334\r
3335 if ((IfDescActive != NULL) && (IfDescSet != NULL)) {\r
3336 NumEp = IfDescActive->NumEndpoints;\r
3337 EpDesc = (USB_ENDPOINT_DESCRIPTOR *) (IfDescActive + 1);\r
3338 for (EpIndex = 0; EpIndex < NumEp; EpIndex++) {\r
3339 while (EpDesc->DescriptorType != USB_DESC_TYPE_ENDPOINT) {\r
3340 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);\r
3341 }\r
3342\r
3343 EpAddr = (UINT8) (EpDesc->EndpointAddress & 0x0F);\r
3344 Direction = (UINT8) ((EpDesc->EndpointAddress & 0x80) ? EfiUsbDataIn : EfiUsbDataOut);\r
3345\r
3346 Dci = XhcEndpointToDci (EpAddr, Direction);\r
3347 ASSERT (Dci < 32);\r
3348 if (Dci > MaxDci) {\r
3349 MaxDci = Dci;\r
3350 }\r
3351 //\r
3352 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3353 // 1) Stop any Running Transfer Rings affected by the Alternate Interface setting.\r
3354 //\r
3355 Status = XhcStopEndpoint (Xhc, SlotId, Dci);\r
3356 if (EFI_ERROR (Status)) {\r
3357 return Status;\r
3358 }\r
3359 //\r
3360 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3361 // 2) Free Transfer Rings of all endpoints that will be affected by the Alternate Interface setting.\r
3362 //\r
3363 if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci - 1] != NULL) {\r
3364 RingSeg = ((TRANSFER_RING *)(UINTN)Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci - 1])->RingSeg0;\r
3365 if (RingSeg != NULL) {\r
3366 UsbHcFreeMem (Xhc->MemPool, RingSeg, sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER);\r
3367 }\r
3368 FreePool (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci - 1]);\r
3369 Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci - 1] = NULL;\r
3370 }\r
3371\r
3372 //\r
3373 // Set the Drop Context flag to '1'.\r
3374 //\r
3375 InputContext->InputControlContext.Dword1 |= (BIT0 << Dci);\r
3376\r
3377 EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);\r
3378 }\r
3379\r
3380 //\r
3381 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3382 // 3) Clear all the Endpoint Context fields of each endpoint that will be disabled by the Alternate\r
3383 // Interface setting, to '0'.\r
3384 //\r
3385 // The step 3) has been covered by the ZeroMem () to InputContext at the start of the function.\r
3386 //\r
3387\r
3388 //\r
3389 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3390 // 4) For each endpoint enabled by the Configure Endpoint Command:\r
3391 // a. Allocate a Transfer Ring.\r
3392 // b. Initialize the Transfer Ring Segment(s) by clearing all fields of all TRBs to '0'.\r
3393 // c. Initialize the Endpoint Context data structure.\r
3394 //\r
3395 Dci = XhcInitializeEndpointContext64 (Xhc, SlotId, DeviceSpeed, InputContext, IfDescSet);\r
3396 if (Dci > MaxDci) {\r
3397 MaxDci = Dci;\r
3398 }\r
3399\r
3400 InputContext->InputControlContext.Dword2 |= BIT0;\r
3401 InputContext->Slot.ContextEntries = MaxDci;\r
3402 //\r
3403 // XHCI 4.3.6 - Setting Alternate Interfaces\r
3404 // 5) Issue and successfully complete a Configure Endpoint Command.\r
3405 //\r
3406 ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));\r
3407 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT_64));\r
3408 CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
3409 CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
3410 CmdTrbCfgEP.CycleBit = 1;\r
3411 CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;\r
3412 CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
3413 DEBUG ((EFI_D_INFO, "SetInterface64: Configure Endpoint\n"));\r
3414 Status = XhcCmdTransfer (\r
3415 Xhc,\r
3416 (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,\r
3417 XHC_GENERIC_TIMEOUT,\r
3418 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
3419 );\r
3420 if (EFI_ERROR (Status)) {\r
3421 DEBUG ((EFI_D_ERROR, "SetInterface64: Config Endpoint Failed, Status = %r\n", Status));\r
3422 } else {\r
3423 //\r
3424 // Update the active AlternateSetting.\r
3425 //\r
3426 Xhc->UsbDevContext[SlotId].ActiveAlternateSetting[(UINT8) Request->Index] = (UINT8) Request->Value;\r
3427 }\r
3428 }\r
3429\r
3430 return Status;\r
3431}\r
6b4483cd 3432\r
92870c98 3433/**\r
3434 Evaluate the endpoint 0 context through XHCI's Evaluate_Context cmd.\r
3435\r
a9292c13 3436 @param Xhc The XHCI Instance.\r
92870c98 3437 @param SlotId The slot id to be evaluated.\r
3438 @param MaxPacketSize The max packet size supported by the device control transfer.\r
3439\r
3440 @retval EFI_SUCCESS Successfully evaluate the device endpoint 0.\r
3441\r
3442**/\r
3443EFI_STATUS\r
3444EFIAPI\r
3445XhcEvaluateContext (\r
a9292c13 3446 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 3447 IN UINT8 SlotId,\r
3448 IN UINT32 MaxPacketSize\r
3449 )\r
3450{\r
a9292c13 3451 EFI_STATUS Status;\r
3452 CMD_TRB_EVALUATE_CONTEXT CmdTrbEvalu;\r
3453 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
3454 INPUT_CONTEXT *InputContext;\r
1847ed0b 3455 EFI_PHYSICAL_ADDRESS PhyAddr;\r
92870c98 3456\r
a9292c13 3457 ASSERT (Xhc->UsbDevContext[SlotId].SlotId != 0);\r
92870c98 3458\r
3459 //\r
3460 // 4.6.7 Evaluate Context\r
3461 //\r
a9292c13 3462 InputContext = Xhc->UsbDevContext[SlotId].InputContext;\r
92870c98 3463 ZeroMem (InputContext, sizeof (INPUT_CONTEXT));\r
3464\r
3465 InputContext->InputControlContext.Dword2 |= BIT1;\r
3466 InputContext->EP[0].MaxPacketSize = MaxPacketSize;\r
3467\r
3468 ZeroMem (&CmdTrbEvalu, sizeof (CmdTrbEvalu));\r
1847ed0b
EL		 3469 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT));\r
3470 CmdTrbEvalu.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
3471 CmdTrbEvalu.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
92870c98 3472 CmdTrbEvalu.CycleBit = 1;\r
3473 CmdTrbEvalu.Type = TRB_TYPE_EVALU_CONTXT;\r
a9292c13 3474 CmdTrbEvalu.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
92870c98 3475 DEBUG ((EFI_D_INFO, "Evaluate context\n"));\r
3476 Status = XhcCmdTransfer (\r
3477 Xhc,\r
a9292c13 3478 (TRB_TEMPLATE *) (UINTN) &CmdTrbEvalu,\r
92870c98 3479 XHC_GENERIC_TIMEOUT,\r
a9292c13 3480 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
92870c98 3481 );\r
260fbf53
EL		 3482 if (EFI_ERROR (Status)) {\r
3483 DEBUG ((EFI_D_ERROR, "XhcEvaluateContext: Evaluate Context Failed, Status = %r\n", Status));\r
3484 }\r
92870c98 3485 return Status;\r
3486}\r
3487\r
6b4483cd 3488/**\r
3489 Evaluate the endpoint 0 context through XHCI's Evaluate_Context cmd.\r
3490\r
3491 @param Xhc The XHCI Instance.\r
3492 @param SlotId The slot id to be evaluated.\r
3493 @param MaxPacketSize The max packet size supported by the device control transfer.\r
3494\r
3495 @retval EFI_SUCCESS Successfully evaluate the device endpoint 0.\r
3496\r
3497**/\r
3498EFI_STATUS\r
3499EFIAPI\r
3500XhcEvaluateContext64 (\r
3501 IN USB_XHCI_INSTANCE *Xhc,\r
3502 IN UINT8 SlotId,\r
3503 IN UINT32 MaxPacketSize\r
3504 )\r
3505{\r
3506 EFI_STATUS Status;\r
3507 CMD_TRB_EVALUATE_CONTEXT CmdTrbEvalu;\r
3508 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
3509 INPUT_CONTEXT_64 *InputContext;\r
1847ed0b 3510 EFI_PHYSICAL_ADDRESS PhyAddr;\r
6b4483cd 3511\r
3512 ASSERT (Xhc->UsbDevContext[SlotId].SlotId != 0);\r
3513\r
3514 //\r
3515 // 4.6.7 Evaluate Context\r
3516 //\r
3517 InputContext = Xhc->UsbDevContext[SlotId].InputContext;\r
3518 ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));\r
3519\r
3520 InputContext->InputControlContext.Dword2 |= BIT1;\r
3521 InputContext->EP[0].MaxPacketSize = MaxPacketSize;\r
3522\r
3523 ZeroMem (&CmdTrbEvalu, sizeof (CmdTrbEvalu));\r
1847ed0b
EL		 3524 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT_64));\r
3525 CmdTrbEvalu.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
3526 CmdTrbEvalu.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
6b4483cd 3527 CmdTrbEvalu.CycleBit = 1;\r
3528 CmdTrbEvalu.Type = TRB_TYPE_EVALU_CONTXT;\r
3529 CmdTrbEvalu.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
3530 DEBUG ((EFI_D_INFO, "Evaluate context\n"));\r
3531 Status = XhcCmdTransfer (\r
3532 Xhc,\r
3533 (TRB_TEMPLATE *) (UINTN) &CmdTrbEvalu,\r
3534 XHC_GENERIC_TIMEOUT,\r
3535 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
3536 );\r
260fbf53
EL		 3537 if (EFI_ERROR (Status)) {\r
3538 DEBUG ((EFI_D_ERROR, "XhcEvaluateContext64: Evaluate Context Failed, Status = %r\n", Status));\r
3539 }\r
6b4483cd 3540 return Status;\r
3541}\r
3542\r
3543\r
92870c98 3544/**\r
3545 Evaluate the slot context for hub device through XHCI's Configure_Endpoint cmd.\r
3546\r
a9292c13 3547 @param Xhc The XHCI Instance.\r
92870c98 3548 @param SlotId The slot id to be configured.\r
3549 @param PortNum The total number of downstream port supported by the hub.\r
3550 @param TTT The TT think time of the hub device.\r
3551 @param MTT The multi-TT of the hub device.\r
3552\r
3553 @retval EFI_SUCCESS Successfully configure the hub device's slot context.\r
3554\r
3555**/\r
3556EFI_STATUS\r
3557XhcConfigHubContext (\r
a9292c13 3558 IN USB_XHCI_INSTANCE *Xhc,\r
92870c98 3559 IN UINT8 SlotId,\r
3560 IN UINT8 PortNum,\r
3561 IN UINT8 TTT,\r
3562 IN UINT8 MTT\r
3563 )\r
3564{\r
a9292c13 3565 EFI_STATUS Status;\r
a9292c13 3566 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
3567 INPUT_CONTEXT *InputContext;\r
3568 DEVICE_CONTEXT *OutputContext;\r
3569 CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;\r
1847ed0b 3570 EFI_PHYSICAL_ADDRESS PhyAddr;\r
92870c98 3571\r
a9292c13 3572 ASSERT (Xhc->UsbDevContext[SlotId].SlotId != 0);\r
3573 InputContext = Xhc->UsbDevContext[SlotId].InputContext;\r
3574 OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;\r
92870c98 3575\r
3576 //\r
3577 // 4.6.7 Evaluate Context\r
3578 //\r
3579 ZeroMem (InputContext, sizeof (INPUT_CONTEXT));\r
3580\r
3581 InputContext->InputControlContext.Dword2 |= BIT0;\r
3582\r
3583 //\r
3584 // Copy the slot context from OutputContext to Input context\r
3585 //\r
a9292c13 3586 CopyMem(&(InputContext->Slot), &(OutputContext->Slot), sizeof (SLOT_CONTEXT));\r
92870c98 3587 InputContext->Slot.Hub = 1;\r
3588 InputContext->Slot.PortNum = PortNum;\r
3589 InputContext->Slot.TTT = TTT;\r
3590 InputContext->Slot.MTT = MTT;\r
3591\r
3592 ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));\r
1847ed0b
EL		 3593 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT));\r
3594 CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
3595 CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
92870c98 3596 CmdTrbCfgEP.CycleBit = 1;\r
3597 CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;\r
a9292c13 3598 CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
92870c98 3599 DEBUG ((EFI_D_INFO, "Configure Hub Slot Context\n"));\r
3600 Status = XhcCmdTransfer (\r
3601 Xhc,\r
a9292c13 3602 (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,\r
92870c98 3603 XHC_GENERIC_TIMEOUT,\r
a9292c13 3604 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
92870c98 3605 );\r
260fbf53
EL		 3606 if (EFI_ERROR (Status)) {\r
3607 DEBUG ((EFI_D_ERROR, "XhcConfigHubContext: Config Endpoint Failed, Status = %r\n", Status));\r
3608 }\r
92870c98 3609 return Status;\r
3610}\r
3611\r
6b4483cd 3612/**\r
3613 Evaluate the slot context for hub device through XHCI's Configure_Endpoint cmd.\r
3614\r
3615 @param Xhc The XHCI Instance.\r
3616 @param SlotId The slot id to be configured.\r
3617 @param PortNum The total number of downstream port supported by the hub.\r
3618 @param TTT The TT think time of the hub device.\r
3619 @param MTT The multi-TT of the hub device.\r
3620\r
3621 @retval EFI_SUCCESS Successfully configure the hub device's slot context.\r
3622\r
3623**/\r
3624EFI_STATUS\r
3625XhcConfigHubContext64 (\r
3626 IN USB_XHCI_INSTANCE *Xhc,\r
3627 IN UINT8 SlotId,\r
3628 IN UINT8 PortNum,\r
3629 IN UINT8 TTT,\r
3630 IN UINT8 MTT\r
3631 )\r
3632{\r
3633 EFI_STATUS Status;\r
6b4483cd 3634 EVT_TRB_COMMAND_COMPLETION *EvtTrb;\r
3635 INPUT_CONTEXT_64 *InputContext;\r
3636 DEVICE_CONTEXT_64 *OutputContext;\r
3637 CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;\r
1847ed0b 3638 EFI_PHYSICAL_ADDRESS PhyAddr;\r
6b4483cd 3639\r
3640 ASSERT (Xhc->UsbDevContext[SlotId].SlotId != 0);\r
3641 InputContext = Xhc->UsbDevContext[SlotId].InputContext;\r
3642 OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;\r
3643\r
3644 //\r
3645 // 4.6.7 Evaluate Context\r
3646 //\r
3647 ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));\r
3648\r
3649 InputContext->InputControlContext.Dword2 |= BIT0;\r
3650\r
3651 //\r
3652 // Copy the slot context from OutputContext to Input context\r
3653 //\r
3654 CopyMem(&(InputContext->Slot), &(OutputContext->Slot), sizeof (SLOT_CONTEXT_64));\r
3655 InputContext->Slot.Hub = 1;\r
3656 InputContext->Slot.PortNum = PortNum;\r
3657 InputContext->Slot.TTT = TTT;\r
3658 InputContext->Slot.MTT = MTT;\r
3659\r
3660 ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));\r
1847ed0b
EL		 3661 PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT_64));\r
3662 CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);\r
3663 CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);\r
6b4483cd 3664 CmdTrbCfgEP.CycleBit = 1;\r
3665 CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;\r
3666 CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;\r
3667 DEBUG ((EFI_D_INFO, "Configure Hub Slot Context\n"));\r
3668 Status = XhcCmdTransfer (\r
3669 Xhc,\r
3670 (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,\r
3671 XHC_GENERIC_TIMEOUT,\r
3672 (TRB_TEMPLATE **) (UINTN) &EvtTrb\r
3673 );\r
260fbf53
EL		 3674 if (EFI_ERROR (Status)) {\r
3675 DEBUG ((EFI_D_ERROR, "XhcConfigHubContext64: Config Endpoint Failed, Status = %r\n", Status));\r
3676 }\r
6b4483cd 3677 return Status;\r
3678}\r
3679\r
3680\r
EFI Development Kit II mirror for PVE