diff options
| author | Guo Mang <mang.guo@intel.com> | 2017-08-02 09:54:47 +0800 |
|---|---|---|
| committer | Guo Mang <mang.guo@intel.com> | 2017-09-05 19:45:08 +0800 |
| commit | 6c128c65b5ec0e5b8b5a0ccb165f3afd29e485f8 (patch) | |
| tree | 444372d92a0ae8991fe4d15eb3937df43690dfda /MdeModulePkg/Bus/Pci/XhciPei/XhciSched.c | |
| parent | b207c6434d7a5a4502975d322312e07017e8a8cb (diff) | |
| download | edk2-platforms-6c128c65b5ec0e5b8b5a0ccb165f3afd29e485f8.tar.xz | |
Remove core packages since we can get them from edk2 repository
Contributed-under: TianoCore Contribution Agreement 1.0
Signed-off-by: Guo Mang <mang.guo@intel.com>
Diffstat (limited to 'MdeModulePkg/Bus/Pci/XhciPei/XhciSched.c')
| -rw-r--r-- | MdeModulePkg/Bus/Pci/XhciPei/XhciSched.c | 2963 |
1 files changed, 0 insertions, 2963 deletions
diff --git a/MdeModulePkg/Bus/Pci/XhciPei/XhciSched.c b/MdeModulePkg/Bus/Pci/XhciPei/XhciSched.c deleted file mode 100644 index 3632e8a769..0000000000 --- a/MdeModulePkg/Bus/Pci/XhciPei/XhciSched.c +++ /dev/null @@ -1,2963 +0,0 @@ -/** @file
-PEIM to produce gPeiUsb2HostControllerPpiGuid based on gPeiUsbControllerPpiGuid
-which is used to enable recovery function from USB Drivers.
-
-Copyright (c) 2014 - 2015, Intel Corporation. All rights reserved.<BR>
-
-This program and the accompanying materials
-are licensed and made available under the terms and conditions
-of the BSD License which accompanies this distribution. The
-full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php
-
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
-
-**/
-
-#include "XhcPeim.h"
-
-/**
- Create a command transfer TRB to support XHCI command interfaces.
-
- @param Xhc The XHCI device.
- @param CmdTrb The cmd TRB to be executed.
-
- @return Created URB or NULL.
-
-**/
-URB*
-XhcPeiCreateCmdTrb (
- IN PEI_XHC_DEV *Xhc,
- IN TRB_TEMPLATE *CmdTrb
- )
-{
- URB *Urb;
-
- Urb = AllocateZeroPool (sizeof (URB));
- if (Urb == NULL) {
- return NULL;
- }
-
- Urb->Signature = XHC_URB_SIG;
-
- Urb->Ring = &Xhc->CmdRing;
- XhcPeiSyncTrsRing (Xhc, Urb->Ring);
- Urb->TrbNum = 1;
- Urb->TrbStart = Urb->Ring->RingEnqueue;
- CopyMem (Urb->TrbStart, CmdTrb, sizeof (TRB_TEMPLATE));
- Urb->TrbStart->CycleBit = Urb->Ring->RingPCS & BIT0;
- Urb->TrbEnd = Urb->TrbStart;
-
- return Urb;
-}
-
-/**
- Execute a XHCI cmd TRB pointed by CmdTrb.
-
- @param Xhc The XHCI device.
- @param CmdTrb The cmd TRB to be executed.
- @param Timeout Indicates the maximum time, in millisecond, which the
- transfer is allowed to complete.
- @param EvtTrb The event TRB corresponding to the cmd TRB.
-
- @retval EFI_SUCCESS The transfer was completed successfully.
- @retval EFI_INVALID_PARAMETER Some parameters are invalid.
- @retval EFI_TIMEOUT The transfer failed due to timeout.
- @retval EFI_DEVICE_ERROR The transfer failed due to host controller error.
-
-**/
-EFI_STATUS
-XhcPeiCmdTransfer (
- IN PEI_XHC_DEV *Xhc,
- IN TRB_TEMPLATE *CmdTrb,
- IN UINTN Timeout,
- OUT TRB_TEMPLATE **EvtTrb
- )
-{
- EFI_STATUS Status;
- URB *Urb;
-
- //
- // Validate the parameters
- //
- if ((Xhc == NULL) || (CmdTrb == NULL)) {
- return EFI_INVALID_PARAMETER;
- }
-
- Status = EFI_DEVICE_ERROR;
-
- if (XhcPeiIsHalt (Xhc) || XhcPeiIsSysError (Xhc)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiCmdTransfer: HC is halted or has system error\n"));
- goto ON_EXIT;
- }
-
- //
- // Create a new URB, then poll the execution status.
- //
- Urb = XhcPeiCreateCmdTrb (Xhc, CmdTrb);
- if (Urb == NULL) {
- DEBUG ((EFI_D_ERROR, "XhcPeiCmdTransfer: failed to create URB\n"));
- Status = EFI_OUT_OF_RESOURCES;
- goto ON_EXIT;
- }
-
- Status = XhcPeiExecTransfer (Xhc, TRUE, Urb, Timeout);
- *EvtTrb = Urb->EvtTrb;
-
- if (Urb->Result == EFI_USB_NOERROR) {
- Status = EFI_SUCCESS;
- }
-
- XhcPeiFreeUrb (Xhc, Urb);
-
-ON_EXIT:
- return Status;
-}
-
-/**
- Create a new URB for a new transaction.
-
- @param Xhc The XHCI device
- @param BusAddr The logical device address assigned by UsbBus driver
- @param EpAddr Endpoint addrress
- @param DevSpeed The device speed
- @param MaxPacket The max packet length of the endpoint
- @param Type The transaction type
- @param Request The standard USB request for control transfer
- @param Data The user data to transfer
- @param DataLen The length of data buffer
- @param Callback The function to call when data is transferred
- @param Context The context to the callback
-
- @return Created URB or NULL
-
-**/
-URB*
-XhcPeiCreateUrb (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 BusAddr,
- IN UINT8 EpAddr,
- IN UINT8 DevSpeed,
- IN UINTN MaxPacket,
- IN UINTN Type,
- IN EFI_USB_DEVICE_REQUEST *Request,
- IN VOID *Data,
- IN UINTN DataLen,
- IN EFI_ASYNC_USB_TRANSFER_CALLBACK Callback,
- IN VOID *Context
- )
-{
- USB_ENDPOINT *Ep;
- EFI_STATUS Status;
- URB *Urb;
-
- Urb = AllocateZeroPool (sizeof (URB));
- if (Urb == NULL) {
- return NULL;
- }
-
- Urb->Signature = XHC_URB_SIG;
-
- Ep = &Urb->Ep;
- Ep->BusAddr = BusAddr;
- Ep->EpAddr = (UINT8) (EpAddr & 0x0F);
- Ep->Direction = ((EpAddr & 0x80) != 0) ? EfiUsbDataIn : EfiUsbDataOut;
- Ep->DevSpeed = DevSpeed;
- Ep->MaxPacket = MaxPacket;
- Ep->Type = Type;
-
- Urb->Request = Request;
- Urb->Data = Data;
- Urb->DataLen = DataLen;
- Urb->Callback = Callback;
- Urb->Context = Context;
-
- Status = XhcPeiCreateTransferTrb (Xhc, Urb);
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiCreateUrb: XhcPeiCreateTransferTrb Failed, Status = %r\n", Status));
- FreePool (Urb);
- Urb = NULL;
- }
-
- return Urb;
-}
-
-/**
- Free an allocated URB.
-
- @param Xhc The XHCI device.
- @param Urb The URB to free.
-
-**/
-VOID
-XhcPeiFreeUrb (
- IN PEI_XHC_DEV *Xhc,
- IN URB *Urb
- )
-{
- if ((Xhc == NULL) || (Urb == NULL)) {
- return;
- }
-
- FreePool (Urb);
-}
-
-/**
- Create a transfer TRB.
-
- @param Xhc The XHCI device
- @param Urb The urb used to construct the transfer TRB.
-
- @return Created TRB or NULL
-
-**/
-EFI_STATUS
-XhcPeiCreateTransferTrb (
- IN PEI_XHC_DEV *Xhc,
- IN URB *Urb
- )
-{
- VOID *OutputContext;
- TRANSFER_RING *EPRing;
- UINT8 EPType;
- UINT8 SlotId;
- UINT8 Dci;
- TRB *TrbStart;
- UINTN TotalLen;
- UINTN Len;
- UINTN TrbNum;
-
- SlotId = XhcPeiBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);
- if (SlotId == 0) {
- return EFI_DEVICE_ERROR;
- }
-
- Urb->Finished = FALSE;
- Urb->StartDone = FALSE;
- Urb->EndDone = FALSE;
- Urb->Completed = 0;
- Urb->Result = EFI_USB_NOERROR;
-
- Dci = XhcPeiEndpointToDci (Urb->Ep.EpAddr, (UINT8)(Urb->Ep.Direction));
- EPRing = (TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1];
- Urb->Ring = EPRing;
- OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;
- if (Xhc->HcCParams.Data.Csz == 0) {
- EPType = (UINT8) ((DEVICE_CONTEXT *)OutputContext)->EP[Dci-1].EPType;
- } else {
- EPType = (UINT8) ((DEVICE_CONTEXT_64 *)OutputContext)->EP[Dci-1].EPType;
- }
-
- Urb->DataPhy = Urb->Data;
-
- //
- // Construct the TRB
- //
- XhcPeiSyncTrsRing (Xhc, EPRing);
- Urb->TrbStart = EPRing->RingEnqueue;
- switch (EPType) {
- case ED_CONTROL_BIDIR:
- //
- // For control transfer, create SETUP_STAGE_TRB first.
- //
- TrbStart = (TRB *) (UINTN) EPRing->RingEnqueue;
- TrbStart->TrbCtrSetup.bmRequestType = Urb->Request->RequestType;
- TrbStart->TrbCtrSetup.bRequest = Urb->Request->Request;
- TrbStart->TrbCtrSetup.wValue = Urb->Request->Value;
- TrbStart->TrbCtrSetup.wIndex = Urb->Request->Index;
- TrbStart->TrbCtrSetup.wLength = Urb->Request->Length;
- TrbStart->TrbCtrSetup.Length = 8;
- TrbStart->TrbCtrSetup.IntTarget = 0;
- TrbStart->TrbCtrSetup.IOC = 1;
- TrbStart->TrbCtrSetup.IDT = 1;
- TrbStart->TrbCtrSetup.Type = TRB_TYPE_SETUP_STAGE;
- if (Urb->Ep.Direction == EfiUsbDataIn) {
- TrbStart->TrbCtrSetup.TRT = 3;
- } else if (Urb->Ep.Direction == EfiUsbDataOut) {
- TrbStart->TrbCtrSetup.TRT = 2;
- } else {
- TrbStart->TrbCtrSetup.TRT = 0;
- }
- //
- // Update the cycle bit
- //
- TrbStart->TrbCtrSetup.CycleBit = EPRing->RingPCS & BIT0;
- Urb->TrbNum++;
-
- //
- // For control transfer, create DATA_STAGE_TRB.
- //
- if (Urb->DataLen > 0) {
- XhcPeiSyncTrsRing (Xhc, EPRing);
- TrbStart = (TRB *) (UINTN) EPRing->RingEnqueue;
- TrbStart->TrbCtrData.TRBPtrLo = XHC_LOW_32BIT (Urb->DataPhy);
- TrbStart->TrbCtrData.TRBPtrHi = XHC_HIGH_32BIT (Urb->DataPhy);
- TrbStart->TrbCtrData.Length = (UINT32) Urb->DataLen;
- TrbStart->TrbCtrData.TDSize = 0;
- TrbStart->TrbCtrData.IntTarget = 0;
- TrbStart->TrbCtrData.ISP = 1;
- TrbStart->TrbCtrData.IOC = 1;
- TrbStart->TrbCtrData.IDT = 0;
- TrbStart->TrbCtrData.CH = 0;
- TrbStart->TrbCtrData.Type = TRB_TYPE_DATA_STAGE;
- if (Urb->Ep.Direction == EfiUsbDataIn) {
- TrbStart->TrbCtrData.DIR = 1;
- } else if (Urb->Ep.Direction == EfiUsbDataOut) {
- TrbStart->TrbCtrData.DIR = 0;
- } else {
- TrbStart->TrbCtrData.DIR = 0;
- }
- //
- // Update the cycle bit
- //
- TrbStart->TrbCtrData.CycleBit = EPRing->RingPCS & BIT0;
- Urb->TrbNum++;
- }
- //
- // For control transfer, create STATUS_STAGE_TRB.
- // Get the pointer to next TRB for status stage use
- //
- XhcPeiSyncTrsRing (Xhc, EPRing);
- TrbStart = (TRB *) (UINTN) EPRing->RingEnqueue;
- TrbStart->TrbCtrStatus.IntTarget = 0;
- TrbStart->TrbCtrStatus.IOC = 1;
- TrbStart->TrbCtrStatus.CH = 0;
- TrbStart->TrbCtrStatus.Type = TRB_TYPE_STATUS_STAGE;
- if (Urb->Ep.Direction == EfiUsbDataIn) {
- TrbStart->TrbCtrStatus.DIR = 0;
- } else if (Urb->Ep.Direction == EfiUsbDataOut) {
- TrbStart->TrbCtrStatus.DIR = 1;
- } else {
- TrbStart->TrbCtrStatus.DIR = 0;
- }
- //
- // Update the cycle bit
- //
- TrbStart->TrbCtrStatus.CycleBit = EPRing->RingPCS & BIT0;
- //
- // Update the enqueue pointer
- //
- XhcPeiSyncTrsRing (Xhc, EPRing);
- Urb->TrbNum++;
- Urb->TrbEnd = (TRB_TEMPLATE *) (UINTN) TrbStart;
-
- break;
-
- case ED_BULK_OUT:
- case ED_BULK_IN:
- TotalLen = 0;
- Len = 0;
- TrbNum = 0;
- TrbStart = (TRB *) (UINTN) EPRing->RingEnqueue;
- while (TotalLen < Urb->DataLen) {
- if ((TotalLen + 0x10000) >= Urb->DataLen) {
- Len = Urb->DataLen - TotalLen;
- } else {
- Len = 0x10000;
- }
- TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;
- TrbStart->TrbNormal.TRBPtrLo = XHC_LOW_32BIT((UINT8 *) Urb->DataPhy + TotalLen);
- TrbStart->TrbNormal.TRBPtrHi = XHC_HIGH_32BIT((UINT8 *) Urb->DataPhy + TotalLen);
- TrbStart->TrbNormal.Length = (UINT32) Len;
- TrbStart->TrbNormal.TDSize = 0;
- TrbStart->TrbNormal.IntTarget = 0;
- TrbStart->TrbNormal.ISP = 1;
- TrbStart->TrbNormal.IOC = 1;
- TrbStart->TrbNormal.Type = TRB_TYPE_NORMAL;
- //
- // Update the cycle bit
- //
- TrbStart->TrbNormal.CycleBit = EPRing->RingPCS & BIT0;
-
- XhcPeiSyncTrsRing (Xhc, EPRing);
- TrbNum++;
- TotalLen += Len;
- }
-
- Urb->TrbNum = TrbNum;
- Urb->TrbEnd = (TRB_TEMPLATE *)(UINTN)TrbStart;
- break;
-
- case ED_INTERRUPT_OUT:
- case ED_INTERRUPT_IN:
- TotalLen = 0;
- Len = 0;
- TrbNum = 0;
- TrbStart = (TRB *) (UINTN) EPRing->RingEnqueue;
- while (TotalLen < Urb->DataLen) {
- if ((TotalLen + 0x10000) >= Urb->DataLen) {
- Len = Urb->DataLen - TotalLen;
- } else {
- Len = 0x10000;
- }
- TrbStart = (TRB *)(UINTN)EPRing->RingEnqueue;
- TrbStart->TrbNormal.TRBPtrLo = XHC_LOW_32BIT((UINT8 *) Urb->DataPhy + TotalLen);
- TrbStart->TrbNormal.TRBPtrHi = XHC_HIGH_32BIT((UINT8 *) Urb->DataPhy + TotalLen);
- TrbStart->TrbNormal.Length = (UINT32) Len;
- TrbStart->TrbNormal.TDSize = 0;
- TrbStart->TrbNormal.IntTarget = 0;
- TrbStart->TrbNormal.ISP = 1;
- TrbStart->TrbNormal.IOC = 1;
- TrbStart->TrbNormal.Type = TRB_TYPE_NORMAL;
- //
- // Update the cycle bit
- //
- TrbStart->TrbNormal.CycleBit = EPRing->RingPCS & BIT0;
-
- XhcPeiSyncTrsRing (Xhc, EPRing);
- TrbNum++;
- TotalLen += Len;
- }
-
- Urb->TrbNum = TrbNum;
- Urb->TrbEnd = (TRB_TEMPLATE *)(UINTN)TrbStart;
- break;
-
- default:
- DEBUG ((EFI_D_INFO, "Not supported EPType 0x%x!\n",EPType));
- ASSERT (FALSE);
- break;
- }
-
- return EFI_SUCCESS;
-}
-
-/**
- System software shall use a Reset Endpoint Command (section 4.11.4.7) to remove the Halted
- condition in the xHC. After the successful completion of the Reset Endpoint Command, the Endpoint
- Context is transitioned from the Halted to the Stopped state and the Transfer Ring of the endpoint is
- reenabled. The next write to the Doorbell of the Endpoint will transition the Endpoint Context from the
- Stopped to the Running state.
-
- @param Xhc The XHCI device.
- @param Urb The urb which makes the endpoint halted.
-
- @retval EFI_SUCCESS The recovery is successful.
- @retval Others Failed to recovery halted endpoint.
-
-**/
-EFI_STATUS
-XhcPeiRecoverHaltedEndpoint (
- IN PEI_XHC_DEV *Xhc,
- IN URB *Urb
- )
-{
- EFI_STATUS Status;
- UINT8 Dci;
- UINT8 SlotId;
-
- Status = EFI_SUCCESS;
- SlotId = XhcPeiBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);
- if (SlotId == 0) {
- return EFI_DEVICE_ERROR;
- }
- Dci = XhcPeiEndpointToDci (Urb->Ep.EpAddr, (UINT8) (Urb->Ep.Direction));
-
- DEBUG ((EFI_D_INFO, "XhcPeiRecoverHaltedEndpoint: Recovery Halted Slot = %x, Dci = %x\n", SlotId, Dci));
-
- //
- // 1) Send Reset endpoint command to transit from halt to stop state
- //
- Status = XhcPeiResetEndpoint (Xhc, SlotId, Dci);
- if (EFI_ERROR(Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiRecoverHaltedEndpoint: Reset Endpoint Failed, Status = %r\n", Status));
- goto Done;
- }
-
- //
- // 2) Set dequeue pointer
- //
- Status = XhcPeiSetTrDequeuePointer (Xhc, SlotId, Dci, Urb);
- if (EFI_ERROR(Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiRecoverHaltedEndpoint: Set Dequeue Pointer Failed, Status = %r\n", Status));
- goto Done;
- }
-
- //
- // 3) Ring the doorbell to transit from stop to active
- //
- XhcPeiRingDoorBell (Xhc, SlotId, Dci);
-
-Done:
- return Status;
-}
-
-/**
- System software shall use a Stop Endpoint Command (section 4.6.9) and the Set TR Dequeue Pointer
- Command (section 4.6.10) to remove the timed-out TDs from the xHC transfer ring. The next write to
- the Doorbell of the Endpoint will transition the Endpoint Context from the Stopped to the Running
- state.
-
- @param Xhc The XHCI device.
- @param Urb The urb which doesn't get completed in a specified timeout range.
-
- @retval EFI_SUCCESS The dequeuing of the TDs is successful.
- @retval Others Failed to stop the endpoint and dequeue the TDs.
-
-**/
-EFI_STATUS
-XhcPeiDequeueTrbFromEndpoint (
- IN PEI_XHC_DEV *Xhc,
- IN URB *Urb
- )
-{
- EFI_STATUS Status;
- UINT8 Dci;
- UINT8 SlotId;
-
- Status = EFI_SUCCESS;
- SlotId = XhcPeiBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);
- if (SlotId == 0) {
- return EFI_DEVICE_ERROR;
- }
- Dci = XhcPeiEndpointToDci (Urb->Ep.EpAddr, (UINT8) (Urb->Ep.Direction));
-
- DEBUG ((EFI_D_INFO, "XhcPeiDequeueTrbFromEndpoint: Stop Slot = %x, Dci = %x\n", SlotId, Dci));
-
- //
- // 1) Send Stop endpoint command to stop endpoint.
- //
- Status = XhcPeiStopEndpoint (Xhc, SlotId, Dci);
- if (EFI_ERROR(Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiDequeueTrbFromEndpoint: Stop Endpoint Failed, Status = %r\n", Status));
- goto Done;
- }
-
- //
- // 2) Set dequeue pointer
- //
- Status = XhcPeiSetTrDequeuePointer (Xhc, SlotId, Dci, Urb);
- if (EFI_ERROR(Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiDequeueTrbFromEndpoint: Set Dequeue Pointer Failed, Status = %r\n", Status));
- goto Done;
- }
-
- //
- // 3) Ring the doorbell to transit from stop to active
- //
- XhcPeiRingDoorBell (Xhc, SlotId, Dci);
-
-Done:
- return Status;
-}
-
-/**
- Check if the Trb is a transaction of the URB.
-
- @param Trb The TRB to be checked
- @param Urb The transfer ring to be checked.
-
- @retval TRUE It is a transaction of the URB.
- @retval FALSE It is not any transaction of the URB.
-
-**/
-BOOLEAN
-XhcPeiIsTransferRingTrb (
- IN TRB_TEMPLATE *Trb,
- IN URB *Urb
- )
-{
- TRB_TEMPLATE *CheckedTrb;
- UINTN Index;
-
- CheckedTrb = Urb->Ring->RingSeg0;
-
- ASSERT (Urb->Ring->TrbNumber == CMD_RING_TRB_NUMBER || Urb->Ring->TrbNumber == TR_RING_TRB_NUMBER);
-
- for (Index = 0; Index < Urb->Ring->TrbNumber; Index++) {
- if (Trb == CheckedTrb) {
- return TRUE;
- }
- CheckedTrb++;
- }
-
- return FALSE;
-}
-
-/**
- Check the URB's execution result and update the URB's
- result accordingly.
-
- @param Xhc The XHCI device.
- @param Urb The URB to check result.
-
- @return Whether the result of URB transfer is finialized.
-
-**/
-BOOLEAN
-XhcPeiCheckUrbResult (
- IN PEI_XHC_DEV *Xhc,
- IN URB *Urb
- )
-{
- EVT_TRB_TRANSFER *EvtTrb;
- TRB_TEMPLATE *TRBPtr;
- UINTN Index;
- UINT8 TRBType;
- EFI_STATUS Status;
- URB *CheckedUrb;
- UINT64 XhcDequeue;
- UINT32 High;
- UINT32 Low;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- ASSERT ((Xhc != NULL) && (Urb != NULL));
-
- Status = EFI_SUCCESS;
-
- if (Urb->Finished) {
- goto EXIT;
- }
-
- EvtTrb = NULL;
-
- if (XhcPeiIsHalt (Xhc) || XhcPeiIsSysError (Xhc)) {
- Urb->Result |= EFI_USB_ERR_SYSTEM;
- goto EXIT;
- }
-
- //
- // Traverse the event ring to find out all new events from the previous check.
- //
- XhcPeiSyncEventRing (Xhc, &Xhc->EventRing);
- for (Index = 0; Index < Xhc->EventRing.TrbNumber; Index++) {
- Status = XhcPeiCheckNewEvent (Xhc, &Xhc->EventRing, ((TRB_TEMPLATE **) &EvtTrb));
- if (Status == EFI_NOT_READY) {
- //
- // All new events are handled, return directly.
- //
- goto EXIT;
- }
-
- //
- // Only handle COMMAND_COMPLETETION_EVENT and TRANSFER_EVENT.
- //
- if ((EvtTrb->Type != TRB_TYPE_COMMAND_COMPLT_EVENT) && (EvtTrb->Type != TRB_TYPE_TRANS_EVENT)) {
- continue;
- }
-
- //
- // Need convert pci device address to host address
- //
- PhyAddr = (EFI_PHYSICAL_ADDRESS) (EvtTrb->TRBPtrLo | LShiftU64 ((UINT64) EvtTrb->TRBPtrHi, 32));
- TRBPtr = (TRB_TEMPLATE *) (UINTN) UsbHcGetHostAddrForPciAddr (Xhc->MemPool, (VOID *) (UINTN) PhyAddr, sizeof (TRB_TEMPLATE));
-
- //
- // Update the status of Urb according to the finished event regardless of whether
- // the urb is current checked one or in the XHCI's async transfer list.
- // This way is used to avoid that those completed async transfer events don't get
- // handled in time and are flushed by newer coming events.
- //
- if (XhcPeiIsTransferRingTrb (TRBPtr, Urb)) {
- CheckedUrb = Urb;
- } else {
- continue;
- }
-
- switch (EvtTrb->Completecode) {
- case TRB_COMPLETION_STALL_ERROR:
- CheckedUrb->Result |= EFI_USB_ERR_STALL;
- CheckedUrb->Finished = TRUE;
- DEBUG ((EFI_D_ERROR, "XhcPeiCheckUrbResult: STALL_ERROR! Completecode = %x\n", EvtTrb->Completecode));
- goto EXIT;
-
- case TRB_COMPLETION_BABBLE_ERROR:
- CheckedUrb->Result |= EFI_USB_ERR_BABBLE;
- CheckedUrb->Finished = TRUE;
- DEBUG ((EFI_D_ERROR, "XhcPeiCheckUrbResult: BABBLE_ERROR! Completecode = %x\n", EvtTrb->Completecode));
- goto EXIT;
-
- case TRB_COMPLETION_DATA_BUFFER_ERROR:
- CheckedUrb->Result |= EFI_USB_ERR_BUFFER;
- CheckedUrb->Finished = TRUE;
- DEBUG ((EFI_D_ERROR, "XhcPeiCheckUrbResult: ERR_BUFFER! Completecode = %x\n", EvtTrb->Completecode));
- goto EXIT;
-
- case TRB_COMPLETION_USB_TRANSACTION_ERROR:
- CheckedUrb->Result |= EFI_USB_ERR_TIMEOUT;
- CheckedUrb->Finished = TRUE;
- DEBUG ((EFI_D_ERROR, "XhcPeiCheckUrbResult: TRANSACTION_ERROR! Completecode = %x\n", EvtTrb->Completecode));
- goto EXIT;
-
- case TRB_COMPLETION_SHORT_PACKET:
- case TRB_COMPLETION_SUCCESS:
- if (EvtTrb->Completecode == TRB_COMPLETION_SHORT_PACKET) {
- DEBUG ((EFI_D_ERROR, "XhcPeiCheckUrbResult: short packet happens!\n"));
- }
-
- TRBType = (UINT8) (TRBPtr->Type);
- if ((TRBType == TRB_TYPE_DATA_STAGE) ||
- (TRBType == TRB_TYPE_NORMAL) ||
- (TRBType == TRB_TYPE_ISOCH)) {
- CheckedUrb->Completed += (((TRANSFER_TRB_NORMAL*)TRBPtr)->Length - EvtTrb->Length);
- }
-
- break;
-
- default:
- DEBUG ((EFI_D_ERROR, "XhcPeiCheckUrbResult: Transfer Default Error Occur! Completecode = 0x%x!\n", EvtTrb->Completecode));
- CheckedUrb->Result |= EFI_USB_ERR_TIMEOUT;
- CheckedUrb->Finished = TRUE;
- goto EXIT;
- }
-
- //
- // Only check first and end Trb event address
- //
- if (TRBPtr == CheckedUrb->TrbStart) {
- CheckedUrb->StartDone = TRUE;
- }
-
- if (TRBPtr == CheckedUrb->TrbEnd) {
- CheckedUrb->EndDone = TRUE;
- }
-
- if (CheckedUrb->StartDone && CheckedUrb->EndDone) {
- CheckedUrb->Finished = TRUE;
- CheckedUrb->EvtTrb = (TRB_TEMPLATE *) EvtTrb;
- }
- }
-
-EXIT:
-
- //
- // Advance event ring to last available entry
- //
- // Some 3rd party XHCI external cards don't support single 64-bytes width register access,
- // So divide it to two 32-bytes width register access.
- //
- Low = XhcPeiReadRuntimeReg (Xhc, XHC_ERDP_OFFSET);
- High = XhcPeiReadRuntimeReg (Xhc, XHC_ERDP_OFFSET + 4);
- XhcDequeue = (UINT64) (LShiftU64((UINT64) High, 32) | Low);
-
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Xhc->EventRing.EventRingDequeue, sizeof (TRB_TEMPLATE));
-
- if ((XhcDequeue & (~0x0F)) != (PhyAddr & (~0x0F))) {
- //
- // Some 3rd party XHCI external cards don't support single 64-bytes width register access,
- // So divide it to two 32-bytes width register access.
- //
- XhcPeiWriteRuntimeReg (Xhc, XHC_ERDP_OFFSET, XHC_LOW_32BIT (PhyAddr) | BIT3);
- XhcPeiWriteRuntimeReg (Xhc, XHC_ERDP_OFFSET + 4, XHC_HIGH_32BIT (PhyAddr));
- }
-
- return Urb->Finished;
-}
-
-/**
- Execute the transfer by polling the URB. This is a synchronous operation.
-
- @param Xhc The XHCI device.
- @param CmdTransfer The executed URB is for cmd transfer or not.
- @param Urb The URB to execute.
- @param Timeout The time to wait before abort, in millisecond.
-
- @return EFI_DEVICE_ERROR The transfer failed due to transfer error.
- @return EFI_TIMEOUT The transfer failed due to time out.
- @return EFI_SUCCESS The transfer finished OK.
-
-**/
-EFI_STATUS
-XhcPeiExecTransfer (
- IN PEI_XHC_DEV *Xhc,
- IN BOOLEAN CmdTransfer,
- IN URB *Urb,
- IN UINTN Timeout
- )
-{
- EFI_STATUS Status;
- UINTN Index;
- UINT64 Loop;
- UINT8 SlotId;
- UINT8 Dci;
- BOOLEAN Finished;
-
- if (CmdTransfer) {
- SlotId = 0;
- Dci = 0;
- } else {
- SlotId = XhcPeiBusDevAddrToSlotId (Xhc, Urb->Ep.BusAddr);
- if (SlotId == 0) {
- return EFI_DEVICE_ERROR;
- }
- Dci = XhcPeiEndpointToDci (Urb->Ep.EpAddr, (UINT8)(Urb->Ep.Direction));
- }
-
- Status = EFI_SUCCESS;
- Loop = Timeout * XHC_1_MILLISECOND;
- if (Timeout == 0) {
- Loop = 0xFFFFFFFF;
- }
-
- XhcPeiRingDoorBell (Xhc, SlotId, Dci);
-
- for (Index = 0; Index < Loop; Index++) {
- Finished = XhcPeiCheckUrbResult (Xhc, Urb);
- if (Finished) {
- break;
- }
- MicroSecondDelay (XHC_1_MICROSECOND);
- }
-
- if (Index == Loop) {
- Urb->Result = EFI_USB_ERR_TIMEOUT;
- Status = EFI_TIMEOUT;
- } else if (Urb->Result != EFI_USB_NOERROR) {
- Status = EFI_DEVICE_ERROR;
- }
-
- return Status;
-}
-
-/**
- Monitor the port status change. Enable/Disable device slot if there is a device attached/detached.
-
- @param Xhc The XHCI device.
- @param ParentRouteChart The route string pointed to the parent device if it exists.
- @param Port The port to be polled.
- @param PortState The port state.
-
- @retval EFI_SUCCESS Successfully enable/disable device slot according to port state.
- @retval Others Should not appear.
-
-**/
-EFI_STATUS
-XhcPeiPollPortStatusChange (
- IN PEI_XHC_DEV *Xhc,
- IN USB_DEV_ROUTE ParentRouteChart,
- IN UINT8 Port,
- IN EFI_USB_PORT_STATUS *PortState
- )
-{
- EFI_STATUS Status;
- UINT8 Speed;
- UINT8 SlotId;
- USB_DEV_ROUTE RouteChart;
-
- DEBUG ((EFI_D_INFO, "XhcPeiPollPortStatusChange: PortChangeStatus: %x PortStatus: %x\n", PortState->PortChangeStatus, PortState->PortStatus));
-
- Status = EFI_SUCCESS;
-
- if ((PortState->PortChangeStatus & (USB_PORT_STAT_C_CONNECTION | USB_PORT_STAT_C_ENABLE | USB_PORT_STAT_C_OVERCURRENT | USB_PORT_STAT_C_RESET)) == 0) {
- return EFI_SUCCESS;
- }
-
- if (ParentRouteChart.Dword == 0) {
- RouteChart.Route.RouteString = 0;
- RouteChart.Route.RootPortNum = Port + 1;
- RouteChart.Route.TierNum = 1;
- } else {
- if(Port < 14) {
- RouteChart.Route.RouteString = ParentRouteChart.Route.RouteString | (Port << (4 * (ParentRouteChart.Route.TierNum - 1)));
- } else {
- RouteChart.Route.RouteString = ParentRouteChart.Route.RouteString | (15 << (4 * (ParentRouteChart.Route.TierNum - 1)));
- }
- RouteChart.Route.RootPortNum = ParentRouteChart.Route.RootPortNum;
- RouteChart.Route.TierNum = ParentRouteChart.Route.TierNum + 1;
- }
-
- SlotId = XhcPeiRouteStringToSlotId (Xhc, RouteChart);
- if (SlotId != 0) {
- if (Xhc->HcCParams.Data.Csz == 0) {
- Status = XhcPeiDisableSlotCmd (Xhc, SlotId);
- } else {
- Status = XhcPeiDisableSlotCmd64 (Xhc, SlotId);
- }
- }
-
- if (((PortState->PortStatus & USB_PORT_STAT_ENABLE) != 0) &&
- ((PortState->PortStatus & USB_PORT_STAT_CONNECTION) != 0)) {
- //
- // Has a device attached, Identify device speed after port is enabled.
- //
- Speed = EFI_USB_SPEED_FULL;
- if ((PortState->PortStatus & USB_PORT_STAT_LOW_SPEED) != 0) {
- Speed = EFI_USB_SPEED_LOW;
- } else if ((PortState->PortStatus & USB_PORT_STAT_HIGH_SPEED) != 0) {
- Speed = EFI_USB_SPEED_HIGH;
- } else if ((PortState->PortStatus & USB_PORT_STAT_SUPER_SPEED) != 0) {
- Speed = EFI_USB_SPEED_SUPER;
- }
- //
- // Execute Enable_Slot cmd for attached device, initialize device context and assign device address.
- //
- SlotId = XhcPeiRouteStringToSlotId (Xhc, RouteChart);
- if ((SlotId == 0) && ((PortState->PortChangeStatus & USB_PORT_STAT_C_RESET) != 0)) {
- if (Xhc->HcCParams.Data.Csz == 0) {
- Status = XhcPeiInitializeDeviceSlot (Xhc, ParentRouteChart, Port, RouteChart, Speed);
- } else {
- Status = XhcPeiInitializeDeviceSlot64 (Xhc, ParentRouteChart, Port, RouteChart, Speed);
- }
- }
- }
-
- return Status;
-}
-
-/**
- Calculate the device context index by endpoint address and direction.
-
- @param EpAddr The target endpoint number.
- @param Direction The direction of the target endpoint.
-
- @return The device context index of endpoint.
-
-**/
-UINT8
-XhcPeiEndpointToDci (
- IN UINT8 EpAddr,
- IN EFI_USB_DATA_DIRECTION Direction
- )
-{
- UINT8 Index;
-
- ASSERT (EpAddr <= 15);
-
- if (EpAddr == 0) {
- return 1;
- } else {
- Index = (UINT8) (2 * EpAddr);
- if (Direction == EfiUsbDataIn) {
- Index += 1;
- }
- return Index;
- }
-}
-
-/**
- Find out the actual device address according to the requested device address from UsbBus.
-
- @param Xhc The XHCI device.
- @param BusDevAddr The requested device address by UsbBus upper driver.
-
- @return The actual device address assigned to the device.
-
-**/
-UINT8
-XhcPeiBusDevAddrToSlotId (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 BusDevAddr
- )
-{
- UINT8 Index;
-
- for (Index = 0; Index < 255; Index++) {
- if (Xhc->UsbDevContext[Index + 1].Enabled &&
- (Xhc->UsbDevContext[Index + 1].SlotId != 0) &&
- (Xhc->UsbDevContext[Index + 1].BusDevAddr == BusDevAddr)) {
- break;
- }
- }
-
- if (Index == 255) {
- return 0;
- }
-
- return Xhc->UsbDevContext[Index + 1].SlotId;
-}
-
-/**
- Find out the slot id according to the device's route string.
-
- @param Xhc The XHCI device.
- @param RouteString The route string described the device location.
-
- @return The slot id used by the device.
-
-**/
-UINT8
-XhcPeiRouteStringToSlotId (
- IN PEI_XHC_DEV *Xhc,
- IN USB_DEV_ROUTE RouteString
- )
-{
- UINT8 Index;
-
- for (Index = 0; Index < 255; Index++) {
- if (Xhc->UsbDevContext[Index + 1].Enabled &&
- (Xhc->UsbDevContext[Index + 1].SlotId != 0) &&
- (Xhc->UsbDevContext[Index + 1].RouteString.Dword == RouteString.Dword)) {
- break;
- }
- }
-
- if (Index == 255) {
- return 0;
- }
-
- return Xhc->UsbDevContext[Index + 1].SlotId;
-}
-
-/**
- Ring the door bell to notify XHCI there is a transaction to be executed.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id of the target device.
- @param Dci The device context index of the target slot or endpoint.
-
-**/
-VOID
-XhcPeiRingDoorBell (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT8 Dci
- )
-{
- if (SlotId == 0) {
- XhcPeiWriteDoorBellReg (Xhc, 0, 0);
- } else {
- XhcPeiWriteDoorBellReg (Xhc, SlotId * sizeof (UINT32), Dci);
- }
-}
-
-/**
- Assign and initialize the device slot for a new device.
-
- @param Xhc The XHCI device.
- @param ParentRouteChart The route string pointed to the parent device.
- @param ParentPort The port at which the device is located.
- @param RouteChart The route string pointed to the device.
- @param DeviceSpeed The device speed.
-
- @retval EFI_SUCCESS Successfully assign a slot to the device and assign an address to it.
- @retval Others Fail to initialize device slot.
-
-**/
-EFI_STATUS
-XhcPeiInitializeDeviceSlot (
- IN PEI_XHC_DEV *Xhc,
- IN USB_DEV_ROUTE ParentRouteChart,
- IN UINT16 ParentPort,
- IN USB_DEV_ROUTE RouteChart,
- IN UINT8 DeviceSpeed
- )
-{
- EFI_STATUS Status;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- INPUT_CONTEXT *InputContext;
- DEVICE_CONTEXT *OutputContext;
- TRANSFER_RING *EndpointTransferRing;
- CMD_TRB_ADDRESS_DEVICE CmdTrbAddr;
- UINT8 DeviceAddress;
- CMD_TRB_ENABLE_SLOT CmdTrb;
- UINT8 SlotId;
- UINT8 ParentSlotId;
- DEVICE_CONTEXT *ParentDeviceContext;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- ZeroMem (&CmdTrb, sizeof (CMD_TRB_ENABLE_SLOT));
- CmdTrb.CycleBit = 1;
- CmdTrb.Type = TRB_TYPE_EN_SLOT;
-
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrb,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiInitializeDeviceSlot: Enable Slot Failed, Status = %r\n", Status));
- return Status;
- }
- ASSERT (EvtTrb->SlotId <= Xhc->MaxSlotsEn);
- DEBUG ((EFI_D_INFO, "XhcPeiInitializeDeviceSlot: Enable Slot Successfully, The Slot ID = 0x%x\n", EvtTrb->SlotId));
- SlotId = (UINT8) EvtTrb->SlotId;
- ASSERT (SlotId != 0);
-
- ZeroMem (&Xhc->UsbDevContext[SlotId], sizeof (USB_DEV_CONTEXT));
- Xhc->UsbDevContext[SlotId].Enabled = TRUE;
- Xhc->UsbDevContext[SlotId].SlotId = SlotId;
- Xhc->UsbDevContext[SlotId].RouteString.Dword = RouteChart.Dword;
- Xhc->UsbDevContext[SlotId].ParentRouteString.Dword = ParentRouteChart.Dword;
-
- //
- // 4.3.3 Device Slot Initialization
- // 1) Allocate an Input Context data structure (6.2.5) and initialize all fields to '0'.
- //
- InputContext = UsbHcAllocateMem (Xhc->MemPool, sizeof (INPUT_CONTEXT));
- ASSERT (InputContext != NULL);
- ASSERT (((UINTN) InputContext & 0x3F) == 0);
- ZeroMem (InputContext, sizeof (INPUT_CONTEXT));
-
- Xhc->UsbDevContext[SlotId].InputContext = (VOID *) InputContext;
-
- //
- // 2) Initialize the Input Control Context (6.2.5.1) of the Input Context by setting the A0 and A1
- // flags to '1'. These flags indicate that the Slot Context and the Endpoint 0 Context of the Input
- // Context are affected by the command.
- //
- InputContext->InputControlContext.Dword2 |= (BIT0 | BIT1);
-
- //
- // 3) Initialize the Input Slot Context data structure
- //
- InputContext->Slot.RouteString = RouteChart.Route.RouteString;
- InputContext->Slot.Speed = DeviceSpeed + 1;
- InputContext->Slot.ContextEntries = 1;
- InputContext->Slot.RootHubPortNum = RouteChart.Route.RootPortNum;
-
- if (RouteChart.Route.RouteString != 0) {
- //
- // The device is behind of hub device.
- //
- ParentSlotId = XhcPeiRouteStringToSlotId (Xhc, ParentRouteChart);
- ASSERT (ParentSlotId != 0);
- //
- // If the Full/Low device attached to a High Speed Hub, init the TTPortNum and TTHubSlotId field of slot context
- //
- ParentDeviceContext = (DEVICE_CONTEXT *) Xhc->UsbDevContext[ParentSlotId].OutputContext;
- if ((ParentDeviceContext->Slot.TTPortNum == 0) &&
- (ParentDeviceContext->Slot.TTHubSlotId == 0)) {
- if ((ParentDeviceContext->Slot.Speed == (EFI_USB_SPEED_HIGH + 1)) && (DeviceSpeed < EFI_USB_SPEED_HIGH)) {
- //
- // Full/Low device attached to High speed hub port that isolates the high speed signaling
- // environment from Full/Low speed signaling environment for a device
- //
- InputContext->Slot.TTPortNum = ParentPort;
- InputContext->Slot.TTHubSlotId = ParentSlotId;
- }
- } else {
- //
- // Inherit the TT parameters from parent device.
- //
- InputContext->Slot.TTPortNum = ParentDeviceContext->Slot.TTPortNum;
- InputContext->Slot.TTHubSlotId = ParentDeviceContext->Slot.TTHubSlotId;
- //
- // If the device is a High speed device then down the speed to be the same as its parent Hub
- //
- if (DeviceSpeed == EFI_USB_SPEED_HIGH) {
- InputContext->Slot.Speed = ParentDeviceContext->Slot.Speed;
- }
- }
- }
-
- //
- // 4) Allocate and initialize the Transfer Ring for the Default Control Endpoint.
- //
- EndpointTransferRing = AllocateZeroPool (sizeof (TRANSFER_RING));
- Xhc->UsbDevContext[SlotId].EndpointTransferRing[0] = EndpointTransferRing;
- XhcPeiCreateTransferRing (Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *) Xhc->UsbDevContext[SlotId].EndpointTransferRing[0]);
- //
- // 5) Initialize the Input default control Endpoint 0 Context (6.2.3).
- //
- InputContext->EP[0].EPType = ED_CONTROL_BIDIR;
-
- if (DeviceSpeed == EFI_USB_SPEED_SUPER) {
- InputContext->EP[0].MaxPacketSize = 512;
- } else if (DeviceSpeed == EFI_USB_SPEED_HIGH) {
- InputContext->EP[0].MaxPacketSize = 64;
- } else {
- InputContext->EP[0].MaxPacketSize = 8;
- }
- //
- // Initial value of Average TRB Length for Control endpoints would be 8B, Interrupt endpoints
- // 1KB, and Bulk and Isoch endpoints 3KB.
- //
- InputContext->EP[0].AverageTRBLength = 8;
- InputContext->EP[0].MaxBurstSize = 0;
- InputContext->EP[0].Interval = 0;
- InputContext->EP[0].MaxPStreams = 0;
- InputContext->EP[0].Mult = 0;
- InputContext->EP[0].CErr = 3;
-
- //
- // Init the DCS(dequeue cycle state) as the transfer ring's CCS
- //
- PhyAddr = UsbHcGetPciAddrForHostAddr (
- Xhc->MemPool,
- ((TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[0])->RingSeg0,
- sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER
- );
- InputContext->EP[0].PtrLo = XHC_LOW_32BIT (PhyAddr) | BIT0;
- InputContext->EP[0].PtrHi = XHC_HIGH_32BIT (PhyAddr);
-
- //
- // 6) Allocate the Output Device Context data structure (6.2.1) and initialize it to '0'.
- //
- OutputContext = UsbHcAllocateMem (Xhc->MemPool, sizeof (DEVICE_CONTEXT));
- ASSERT (OutputContext != NULL);
- ASSERT (((UINTN) OutputContext & 0x3F) == 0);
- ZeroMem (OutputContext, sizeof (DEVICE_CONTEXT));
-
- Xhc->UsbDevContext[SlotId].OutputContext = OutputContext;
- //
- // 7) Load the appropriate (Device Slot ID) entry in the Device Context Base Address Array (5.4.6) with
- // a pointer to the Output Device Context data structure (6.2.1).
- //
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, OutputContext, sizeof (DEVICE_CONTEXT));
- //
- // Fill DCBAA with PCI device address
- //
- Xhc->DCBAA[SlotId] = (UINT64) (UINTN) PhyAddr;
-
- //
- // 8) Issue an Address Device Command for the Device Slot, where the command points to the Input
- // Context data structure described above.
- //
- ZeroMem (&CmdTrbAddr, sizeof (CmdTrbAddr));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Xhc->UsbDevContext[SlotId].InputContext, sizeof (INPUT_CONTEXT));
- CmdTrbAddr.PtrLo = XHC_LOW_32BIT (PhyAddr);
- CmdTrbAddr.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdTrbAddr.CycleBit = 1;
- CmdTrbAddr.Type = TRB_TYPE_ADDRESS_DEV;
- CmdTrbAddr.SlotId = Xhc->UsbDevContext[SlotId].SlotId;
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbAddr,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (!EFI_ERROR (Status)) {
- DeviceAddress = (UINT8) OutputContext->Slot.DeviceAddress;
- DEBUG ((EFI_D_INFO, "XhcPeiInitializeDeviceSlot: Address %d assigned successfully\n", DeviceAddress));
- Xhc->UsbDevContext[SlotId].XhciDevAddr = DeviceAddress;
- }
-
- DEBUG ((EFI_D_INFO, "XhcPeiInitializeDeviceSlot: Enable Slot, Status = %r\n", Status));
- return Status;
-}
-
-/**
- Assign and initialize the device slot for a new device.
-
- @param Xhc The XHCI device.
- @param ParentRouteChart The route string pointed to the parent device.
- @param ParentPort The port at which the device is located.
- @param RouteChart The route string pointed to the device.
- @param DeviceSpeed The device speed.
-
- @retval EFI_SUCCESS Successfully assign a slot to the device and assign an address to it.
- @retval Others Fail to initialize device slot.
-
-**/
-EFI_STATUS
-XhcPeiInitializeDeviceSlot64 (
- IN PEI_XHC_DEV *Xhc,
- IN USB_DEV_ROUTE ParentRouteChart,
- IN UINT16 ParentPort,
- IN USB_DEV_ROUTE RouteChart,
- IN UINT8 DeviceSpeed
- )
-{
- EFI_STATUS Status;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- INPUT_CONTEXT_64 *InputContext;
- DEVICE_CONTEXT_64 *OutputContext;
- TRANSFER_RING *EndpointTransferRing;
- CMD_TRB_ADDRESS_DEVICE CmdTrbAddr;
- UINT8 DeviceAddress;
- CMD_TRB_ENABLE_SLOT CmdTrb;
- UINT8 SlotId;
- UINT8 ParentSlotId;
- DEVICE_CONTEXT_64 *ParentDeviceContext;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- ZeroMem (&CmdTrb, sizeof (CMD_TRB_ENABLE_SLOT));
- CmdTrb.CycleBit = 1;
- CmdTrb.Type = TRB_TYPE_EN_SLOT;
-
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrb,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiInitializeDeviceSlot64: Enable Slot Failed, Status = %r\n", Status));
- return Status;
- }
- ASSERT (EvtTrb->SlotId <= Xhc->MaxSlotsEn);
- DEBUG ((EFI_D_INFO, "XhcPeiInitializeDeviceSlot64: Enable Slot Successfully, The Slot ID = 0x%x\n", EvtTrb->SlotId));
- SlotId = (UINT8)EvtTrb->SlotId;
- ASSERT (SlotId != 0);
-
- ZeroMem (&Xhc->UsbDevContext[SlotId], sizeof (USB_DEV_CONTEXT));
- Xhc->UsbDevContext[SlotId].Enabled = TRUE;
- Xhc->UsbDevContext[SlotId].SlotId = SlotId;
- Xhc->UsbDevContext[SlotId].RouteString.Dword = RouteChart.Dword;
- Xhc->UsbDevContext[SlotId].ParentRouteString.Dword = ParentRouteChart.Dword;
-
- //
- // 4.3.3 Device Slot Initialization
- // 1) Allocate an Input Context data structure (6.2.5) and initialize all fields to '0'.
- //
- InputContext = UsbHcAllocateMem (Xhc->MemPool, sizeof (INPUT_CONTEXT_64));
- ASSERT (InputContext != NULL);
- ASSERT (((UINTN) InputContext & 0x3F) == 0);
- ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));
-
- Xhc->UsbDevContext[SlotId].InputContext = (VOID *) InputContext;
-
- //
- // 2) Initialize the Input Control Context (6.2.5.1) of the Input Context by setting the A0 and A1
- // flags to '1'. These flags indicate that the Slot Context and the Endpoint 0 Context of the Input
- // Context are affected by the command.
- //
- InputContext->InputControlContext.Dword2 |= (BIT0 | BIT1);
-
- //
- // 3) Initialize the Input Slot Context data structure
- //
- InputContext->Slot.RouteString = RouteChart.Route.RouteString;
- InputContext->Slot.Speed = DeviceSpeed + 1;
- InputContext->Slot.ContextEntries = 1;
- InputContext->Slot.RootHubPortNum = RouteChart.Route.RootPortNum;
-
- if (RouteChart.Route.RouteString != 0) {
- //
- // The device is behind of hub device.
- //
- ParentSlotId = XhcPeiRouteStringToSlotId (Xhc, ParentRouteChart);
- ASSERT (ParentSlotId != 0);
- //
- //if the Full/Low device attached to a High Speed Hub, Init the TTPortNum and TTHubSlotId field of slot context
- //
- ParentDeviceContext = (DEVICE_CONTEXT_64 *) Xhc->UsbDevContext[ParentSlotId].OutputContext;
- if ((ParentDeviceContext->Slot.TTPortNum == 0) &&
- (ParentDeviceContext->Slot.TTHubSlotId == 0)) {
- if ((ParentDeviceContext->Slot.Speed == (EFI_USB_SPEED_HIGH + 1)) && (DeviceSpeed < EFI_USB_SPEED_HIGH)) {
- //
- // Full/Low device attached to High speed hub port that isolates the high speed signaling
- // environment from Full/Low speed signaling environment for a device
- //
- InputContext->Slot.TTPortNum = ParentPort;
- InputContext->Slot.TTHubSlotId = ParentSlotId;
- }
- } else {
- //
- // Inherit the TT parameters from parent device.
- //
- InputContext->Slot.TTPortNum = ParentDeviceContext->Slot.TTPortNum;
- InputContext->Slot.TTHubSlotId = ParentDeviceContext->Slot.TTHubSlotId;
- //
- // If the device is a High speed device then down the speed to be the same as its parent Hub
- //
- if (DeviceSpeed == EFI_USB_SPEED_HIGH) {
- InputContext->Slot.Speed = ParentDeviceContext->Slot.Speed;
- }
- }
- }
-
- //
- // 4) Allocate and initialize the Transfer Ring for the Default Control Endpoint.
- //
- EndpointTransferRing = AllocateZeroPool (sizeof (TRANSFER_RING));
- Xhc->UsbDevContext[SlotId].EndpointTransferRing[0] = EndpointTransferRing;
- XhcPeiCreateTransferRing(Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *) Xhc->UsbDevContext[SlotId].EndpointTransferRing[0]);
- //
- // 5) Initialize the Input default control Endpoint 0 Context (6.2.3).
- //
- InputContext->EP[0].EPType = ED_CONTROL_BIDIR;
-
- if (DeviceSpeed == EFI_USB_SPEED_SUPER) {
- InputContext->EP[0].MaxPacketSize = 512;
- } else if (DeviceSpeed == EFI_USB_SPEED_HIGH) {
- InputContext->EP[0].MaxPacketSize = 64;
- } else {
- InputContext->EP[0].MaxPacketSize = 8;
- }
- //
- // Initial value of Average TRB Length for Control endpoints would be 8B, Interrupt endpoints
- // 1KB, and Bulk and Isoch endpoints 3KB.
- //
- InputContext->EP[0].AverageTRBLength = 8;
- InputContext->EP[0].MaxBurstSize = 0;
- InputContext->EP[0].Interval = 0;
- InputContext->EP[0].MaxPStreams = 0;
- InputContext->EP[0].Mult = 0;
- InputContext->EP[0].CErr = 3;
-
- //
- // Init the DCS(dequeue cycle state) as the transfer ring's CCS
- //
- PhyAddr = UsbHcGetPciAddrForHostAddr (
- Xhc->MemPool,
- ((TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[0])->RingSeg0,
- sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER
- );
- InputContext->EP[0].PtrLo = XHC_LOW_32BIT (PhyAddr) | BIT0;
- InputContext->EP[0].PtrHi = XHC_HIGH_32BIT (PhyAddr);
-
- //
- // 6) Allocate the Output Device Context data structure (6.2.1) and initialize it to '0'.
- //
- OutputContext = UsbHcAllocateMem (Xhc->MemPool, sizeof (DEVICE_CONTEXT_64));
- ASSERT (OutputContext != NULL);
- ASSERT (((UINTN) OutputContext & 0x3F) == 0);
- ZeroMem (OutputContext, sizeof (DEVICE_CONTEXT_64));
-
- Xhc->UsbDevContext[SlotId].OutputContext = OutputContext;
- //
- // 7) Load the appropriate (Device Slot ID) entry in the Device Context Base Address Array (5.4.6) with
- // a pointer to the Output Device Context data structure (6.2.1).
- //
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, OutputContext, sizeof (DEVICE_CONTEXT_64));
- //
- // Fill DCBAA with PCI device address
- //
- Xhc->DCBAA[SlotId] = (UINT64) (UINTN) PhyAddr;
-
- //
- // 8) Issue an Address Device Command for the Device Slot, where the command points to the Input
- // Context data structure described above.
- //
- ZeroMem (&CmdTrbAddr, sizeof (CmdTrbAddr));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Xhc->UsbDevContext[SlotId].InputContext, sizeof (INPUT_CONTEXT_64));
- CmdTrbAddr.PtrLo = XHC_LOW_32BIT (PhyAddr);
- CmdTrbAddr.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdTrbAddr.CycleBit = 1;
- CmdTrbAddr.Type = TRB_TYPE_ADDRESS_DEV;
- CmdTrbAddr.SlotId = Xhc->UsbDevContext[SlotId].SlotId;
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbAddr,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (!EFI_ERROR (Status)) {
- DeviceAddress = (UINT8) OutputContext->Slot.DeviceAddress;
- DEBUG ((EFI_D_INFO, "XhcPeiInitializeDeviceSlot64: Address %d assigned successfully\n", DeviceAddress));
- Xhc->UsbDevContext[SlotId].XhciDevAddr = DeviceAddress;
- }
-
- DEBUG ((EFI_D_INFO, "XhcPeiInitializeDeviceSlot64: Enable Slot, Status = %r\n", Status));
- return Status;
-}
-
-
-/**
- Disable the specified device slot.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id to be disabled.
-
- @retval EFI_SUCCESS Successfully disable the device slot.
-
-**/
-EFI_STATUS
-XhcPeiDisableSlotCmd (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId
- )
-{
- EFI_STATUS Status;
- TRB_TEMPLATE *EvtTrb;
- CMD_TRB_DISABLE_SLOT CmdTrbDisSlot;
- UINT8 Index;
- VOID *RingSeg;
-
- //
- // Disable the device slots occupied by these devices on its downstream ports.
- // Entry 0 is reserved.
- //
- for (Index = 0; Index < 255; Index++) {
- if (!Xhc->UsbDevContext[Index + 1].Enabled ||
- (Xhc->UsbDevContext[Index + 1].SlotId == 0) ||
- (Xhc->UsbDevContext[Index + 1].ParentRouteString.Dword != Xhc->UsbDevContext[SlotId].RouteString.Dword)) {
- continue;
- }
-
- Status = XhcPeiDisableSlotCmd (Xhc, Xhc->UsbDevContext[Index + 1].SlotId);
-
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiDisableSlotCmd: failed to disable child, ignore error\n"));
- Xhc->UsbDevContext[Index + 1].SlotId = 0;
- }
- }
-
- //
- // Construct the disable slot command
- //
- DEBUG ((EFI_D_INFO, "XhcPeiDisableSlotCmd: Disable device slot %d!\n", SlotId));
-
- ZeroMem (&CmdTrbDisSlot, sizeof (CmdTrbDisSlot));
- CmdTrbDisSlot.CycleBit = 1;
- CmdTrbDisSlot.Type = TRB_TYPE_DIS_SLOT;
- CmdTrbDisSlot.SlotId = SlotId;
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbDisSlot,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiDisableSlotCmd: Disable Slot Command Failed, Status = %r\n", Status));
- return Status;
- }
- //
- // Free the slot's device context entry
- //
- Xhc->DCBAA[SlotId] = 0;
-
- //
- // Free the slot related data structure
- //
- for (Index = 0; Index < 31; Index++) {
- if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index] != NULL) {
- RingSeg = ((TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index])->RingSeg0;
- if (RingSeg != NULL) {
- UsbHcFreeMem (Xhc->MemPool, RingSeg, sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER);
- }
- FreePool (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index]);
- Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index] = NULL;
- }
- }
-
- for (Index = 0; Index < Xhc->UsbDevContext[SlotId].DevDesc.NumConfigurations; Index++) {
- if (Xhc->UsbDevContext[SlotId].ConfDesc[Index] != NULL) {
- FreePool (Xhc->UsbDevContext[SlotId].ConfDesc[Index]);
- }
- }
-
- if (Xhc->UsbDevContext[SlotId].InputContext != NULL) {
- UsbHcFreeMem (Xhc->MemPool, Xhc->UsbDevContext[SlotId].InputContext, sizeof (INPUT_CONTEXT));
- }
-
- if (Xhc->UsbDevContext[SlotId].OutputContext != NULL) {
- UsbHcFreeMem (Xhc->MemPool, Xhc->UsbDevContext[SlotId].OutputContext, sizeof (DEVICE_CONTEXT));
- }
- //
- // Doesn't zero the entry because XhcAsyncInterruptTransfer() may be invoked to remove the established
- // asynchronous interrupt pipe after the device is disabled. It needs the device address mapping info to
- // remove urb from XHCI's asynchronous transfer list.
- //
- Xhc->UsbDevContext[SlotId].Enabled = FALSE;
- Xhc->UsbDevContext[SlotId].SlotId = 0;
-
- DEBUG ((EFI_D_INFO, "XhcPeiDisableSlotCmd: Disable Slot Command, Status = %r\n", Status));
- return Status;
-}
-
-/**
- Disable the specified device slot.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id to be disabled.
-
- @retval EFI_SUCCESS Successfully disable the device slot.
-
-**/
-EFI_STATUS
-XhcPeiDisableSlotCmd64 (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId
- )
-{
- EFI_STATUS Status;
- TRB_TEMPLATE *EvtTrb;
- CMD_TRB_DISABLE_SLOT CmdTrbDisSlot;
- UINT8 Index;
- VOID *RingSeg;
-
- //
- // Disable the device slots occupied by these devices on its downstream ports.
- // Entry 0 is reserved.
- //
- for (Index = 0; Index < 255; Index++) {
- if (!Xhc->UsbDevContext[Index + 1].Enabled ||
- (Xhc->UsbDevContext[Index + 1].SlotId == 0) ||
- (Xhc->UsbDevContext[Index + 1].ParentRouteString.Dword != Xhc->UsbDevContext[SlotId].RouteString.Dword)) {
- continue;
- }
-
- Status = XhcPeiDisableSlotCmd64 (Xhc, Xhc->UsbDevContext[Index + 1].SlotId);
-
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiDisableSlotCmd64: failed to disable child, ignore error\n"));
- Xhc->UsbDevContext[Index + 1].SlotId = 0;
- }
- }
-
- //
- // Construct the disable slot command
- //
- DEBUG ((EFI_D_INFO, "XhcPeiDisableSlotCmd64: Disable device slot %d!\n", SlotId));
-
- ZeroMem (&CmdTrbDisSlot, sizeof (CmdTrbDisSlot));
- CmdTrbDisSlot.CycleBit = 1;
- CmdTrbDisSlot.Type = TRB_TYPE_DIS_SLOT;
- CmdTrbDisSlot.SlotId = SlotId;
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbDisSlot,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiDisableSlotCmd64: Disable Slot Command Failed, Status = %r\n", Status));
- return Status;
- }
- //
- // Free the slot's device context entry
- //
- Xhc->DCBAA[SlotId] = 0;
-
- //
- // Free the slot related data structure
- //
- for (Index = 0; Index < 31; Index++) {
- if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index] != NULL) {
- RingSeg = ((TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index])->RingSeg0;
- if (RingSeg != NULL) {
- UsbHcFreeMem (Xhc->MemPool, RingSeg, sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER);
- }
- FreePool (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index]);
- Xhc->UsbDevContext[SlotId].EndpointTransferRing[Index] = NULL;
- }
- }
-
- for (Index = 0; Index < Xhc->UsbDevContext[SlotId].DevDesc.NumConfigurations; Index++) {
- if (Xhc->UsbDevContext[SlotId].ConfDesc[Index] != NULL) {
- FreePool (Xhc->UsbDevContext[SlotId].ConfDesc[Index]);
- }
- }
-
- if (Xhc->UsbDevContext[SlotId].InputContext != NULL) {
- UsbHcFreeMem (Xhc->MemPool, Xhc->UsbDevContext[SlotId].InputContext, sizeof (INPUT_CONTEXT_64));
- }
-
- if (Xhc->UsbDevContext[SlotId].OutputContext != NULL) {
- UsbHcFreeMem (Xhc->MemPool, Xhc->UsbDevContext[SlotId].OutputContext, sizeof (DEVICE_CONTEXT_64));
- }
- //
- // Doesn't zero the entry because XhcAsyncInterruptTransfer() may be invoked to remove the established
- // asynchronous interrupt pipe after the device is disabled. It needs the device address mapping info to
- // remove urb from XHCI's asynchronous transfer list.
- //
- Xhc->UsbDevContext[SlotId].Enabled = FALSE;
- Xhc->UsbDevContext[SlotId].SlotId = 0;
-
- DEBUG ((EFI_D_INFO, "XhcPeiDisableSlotCmd64: Disable Slot Command, Status = %r\n", Status));
- return Status;
-}
-
-/**
- Configure all the device endpoints through XHCI's Configure_Endpoint cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id to be configured.
- @param DeviceSpeed The device's speed.
- @param ConfigDesc The pointer to the usb device configuration descriptor.
-
- @retval EFI_SUCCESS Successfully configure all the device endpoints.
-
-**/
-EFI_STATUS
-XhcPeiSetConfigCmd (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT8 DeviceSpeed,
- IN USB_CONFIG_DESCRIPTOR *ConfigDesc
- )
-{
- EFI_STATUS Status;
- USB_INTERFACE_DESCRIPTOR *IfDesc;
- USB_ENDPOINT_DESCRIPTOR *EpDesc;
- UINT8 Index;
- UINTN NumEp;
- UINTN EpIndex;
- UINT8 EpAddr;
- EFI_USB_DATA_DIRECTION Direction;
- UINT8 Dci;
- UINT8 MaxDci;
- EFI_PHYSICAL_ADDRESS PhyAddr;
- UINT8 Interval;
-
- TRANSFER_RING *EndpointTransferRing;
- CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;
- INPUT_CONTEXT *InputContext;
- DEVICE_CONTEXT *OutputContext;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- //
- // 4.6.6 Configure Endpoint
- //
- InputContext = Xhc->UsbDevContext[SlotId].InputContext;
- OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;
- ZeroMem (InputContext, sizeof (INPUT_CONTEXT));
- CopyMem (&InputContext->Slot, &OutputContext->Slot, sizeof (SLOT_CONTEXT));
-
- ASSERT (ConfigDesc != NULL);
-
- MaxDci = 0;
-
- IfDesc = (USB_INTERFACE_DESCRIPTOR *) (ConfigDesc + 1);
- for (Index = 0; Index < ConfigDesc->NumInterfaces; Index++) {
- while ((IfDesc->DescriptorType != USB_DESC_TYPE_INTERFACE) || (IfDesc->AlternateSetting != 0)) {
- IfDesc = (USB_INTERFACE_DESCRIPTOR *) ((UINTN) IfDesc + IfDesc->Length);
- }
-
- NumEp = IfDesc->NumEndpoints;
-
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *) (IfDesc + 1);
- for (EpIndex = 0; EpIndex < NumEp; EpIndex++) {
- while (EpDesc->DescriptorType != USB_DESC_TYPE_ENDPOINT) {
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *) ((UINTN) EpDesc + EpDesc->Length);
- }
-
- EpAddr = (UINT8) (EpDesc->EndpointAddress & 0x0F);
- Direction = (UINT8) ((EpDesc->EndpointAddress & 0x80) ? EfiUsbDataIn : EfiUsbDataOut);
-
- Dci = XhcPeiEndpointToDci (EpAddr, Direction);
- if (Dci > MaxDci) {
- MaxDci = Dci;
- }
-
- InputContext->InputControlContext.Dword2 |= (BIT0 << Dci);
- InputContext->EP[Dci-1].MaxPacketSize = EpDesc->MaxPacketSize;
-
- if (DeviceSpeed == EFI_USB_SPEED_SUPER) {
- //
- // 6.2.3.4, shall be set to the value defined in the bMaxBurst field of the SuperSpeed Endpoint Companion Descriptor.
- //
- InputContext->EP[Dci-1].MaxBurstSize = 0x0;
- } else {
- InputContext->EP[Dci-1].MaxBurstSize = 0x0;
- }
-
- switch (EpDesc->Attributes & USB_ENDPOINT_TYPE_MASK) {
- case USB_ENDPOINT_BULK:
- if (Direction == EfiUsbDataIn) {
- InputContext->EP[Dci-1].CErr = 3;
- InputContext->EP[Dci-1].EPType = ED_BULK_IN;
- } else {
- InputContext->EP[Dci-1].CErr = 3;
- InputContext->EP[Dci-1].EPType = ED_BULK_OUT;
- }
-
- InputContext->EP[Dci-1].AverageTRBLength = 0x1000;
- if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] == NULL) {
- EndpointTransferRing = AllocateZeroPool (sizeof (TRANSFER_RING));
- Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] = (VOID *) EndpointTransferRing;
- XhcPeiCreateTransferRing (Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1]);
- }
-
- break;
- case USB_ENDPOINT_ISO:
- if (Direction == EfiUsbDataIn) {
- InputContext->EP[Dci-1].CErr = 0;
- InputContext->EP[Dci-1].EPType = ED_ISOCH_IN;
- } else {
- InputContext->EP[Dci-1].CErr = 0;
- InputContext->EP[Dci-1].EPType = ED_ISOCH_OUT;
- }
- //
- // Do not support isochronous transfer now.
- //
- DEBUG ((EFI_D_INFO, "XhcPeiSetConfigCmd: Unsupport ISO EP found, Transfer ring is not allocated.\n"));
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);
- continue;
- case USB_ENDPOINT_INTERRUPT:
- if (Direction == EfiUsbDataIn) {
- InputContext->EP[Dci-1].CErr = 3;
- InputContext->EP[Dci-1].EPType = ED_INTERRUPT_IN;
- } else {
- InputContext->EP[Dci-1].CErr = 3;
- InputContext->EP[Dci-1].EPType = ED_INTERRUPT_OUT;
- }
- InputContext->EP[Dci-1].AverageTRBLength = 0x1000;
- InputContext->EP[Dci-1].MaxESITPayload = EpDesc->MaxPacketSize;
- //
- // Get the bInterval from descriptor and init the interval field of endpoint context
- //
- if ((DeviceSpeed == EFI_USB_SPEED_FULL) || (DeviceSpeed == EFI_USB_SPEED_LOW)) {
- Interval = EpDesc->Interval;
- //
- // Calculate through the bInterval field of Endpoint descriptor.
- //
- ASSERT (Interval != 0);
- InputContext->EP[Dci-1].Interval = (UINT32) HighBitSet32 ((UINT32) Interval) + 3;
- } else if ((DeviceSpeed == EFI_USB_SPEED_HIGH) || (DeviceSpeed == EFI_USB_SPEED_SUPER)) {
- Interval = EpDesc->Interval;
- ASSERT (Interval >= 1 && Interval <= 16);
- //
- // Refer to XHCI 1.0 spec section 6.2.3.6, table 61
- //
- InputContext->EP[Dci-1].Interval = Interval - 1;
- }
-
- if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] == NULL) {
- EndpointTransferRing = AllocateZeroPool (sizeof (TRANSFER_RING));
- Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] = (VOID *) EndpointTransferRing;
- XhcPeiCreateTransferRing (Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1]);
- }
- break;
-
- case USB_ENDPOINT_CONTROL:
- //
- // Do not support control transfer now.
- //
- DEBUG ((EFI_D_INFO, "XhcPeiSetConfigCmd: Unsupport Control EP found, Transfer ring is not allocated.\n"));
- default:
- DEBUG ((EFI_D_INFO, "XhcPeiSetConfigCmd: Unknown EP found, Transfer ring is not allocated.\n"));
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);
- continue;
- }
-
- PhyAddr = UsbHcGetPciAddrForHostAddr (
- Xhc->MemPool,
- ((TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1])->RingSeg0,
- sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER
- );
- PhyAddr &= ~((EFI_PHYSICAL_ADDRESS)0x0F);
- PhyAddr |= (EFI_PHYSICAL_ADDRESS)((TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1])->RingPCS;
- InputContext->EP[Dci-1].PtrLo = XHC_LOW_32BIT (PhyAddr);
- InputContext->EP[Dci-1].PtrHi = XHC_HIGH_32BIT (PhyAddr);
-
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *) ((UINTN) EpDesc + EpDesc->Length);
- }
- IfDesc = (USB_INTERFACE_DESCRIPTOR *) ((UINTN) IfDesc + IfDesc->Length);
- }
-
- InputContext->InputControlContext.Dword2 |= BIT0;
- InputContext->Slot.ContextEntries = MaxDci;
- //
- // configure endpoint
- //
- ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT));
- CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);
- CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdTrbCfgEP.CycleBit = 1;
- CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;
- CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;
- DEBUG ((EFI_D_INFO, "XhcSetConfigCmd: Configure Endpoint\n"));
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcSetConfigCmd: Config Endpoint Failed, Status = %r\n", Status));
- }
- return Status;
-}
-
-/**
- Configure all the device endpoints through XHCI's Configure_Endpoint cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id to be configured.
- @param DeviceSpeed The device's speed.
- @param ConfigDesc The pointer to the usb device configuration descriptor.
-
- @retval EFI_SUCCESS Successfully configure all the device endpoints.
-
-**/
-EFI_STATUS
-XhcPeiSetConfigCmd64 (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT8 DeviceSpeed,
- IN USB_CONFIG_DESCRIPTOR *ConfigDesc
- )
-{
- EFI_STATUS Status;
- USB_INTERFACE_DESCRIPTOR *IfDesc;
- USB_ENDPOINT_DESCRIPTOR *EpDesc;
- UINT8 Index;
- UINTN NumEp;
- UINTN EpIndex;
- UINT8 EpAddr;
- EFI_USB_DATA_DIRECTION Direction;
- UINT8 Dci;
- UINT8 MaxDci;
- EFI_PHYSICAL_ADDRESS PhyAddr;
- UINT8 Interval;
-
- TRANSFER_RING *EndpointTransferRing;
- CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;
- INPUT_CONTEXT_64 *InputContext;
- DEVICE_CONTEXT_64 *OutputContext;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- //
- // 4.6.6 Configure Endpoint
- //
- InputContext = Xhc->UsbDevContext[SlotId].InputContext;
- OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;
- ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));
- CopyMem (&InputContext->Slot, &OutputContext->Slot, sizeof (SLOT_CONTEXT_64));
-
- ASSERT (ConfigDesc != NULL);
-
- MaxDci = 0;
-
- IfDesc = (USB_INTERFACE_DESCRIPTOR *) (ConfigDesc + 1);
- for (Index = 0; Index < ConfigDesc->NumInterfaces; Index++) {
- while ((IfDesc->DescriptorType != USB_DESC_TYPE_INTERFACE) || (IfDesc->AlternateSetting != 0)) {
- IfDesc = (USB_INTERFACE_DESCRIPTOR *) ((UINTN) IfDesc + IfDesc->Length);
- }
-
- NumEp = IfDesc->NumEndpoints;
-
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *) (IfDesc + 1);
- for (EpIndex = 0; EpIndex < NumEp; EpIndex++) {
- while (EpDesc->DescriptorType != USB_DESC_TYPE_ENDPOINT) {
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *) ((UINTN) EpDesc + EpDesc->Length);
- }
-
- EpAddr = (UINT8) (EpDesc->EndpointAddress & 0x0F);
- Direction = (UINT8) ((EpDesc->EndpointAddress & 0x80) ? EfiUsbDataIn : EfiUsbDataOut);
-
- Dci = XhcPeiEndpointToDci (EpAddr, Direction);
- ASSERT (Dci < 32);
- if (Dci > MaxDci) {
- MaxDci = Dci;
- }
-
- InputContext->InputControlContext.Dword2 |= (BIT0 << Dci);
- InputContext->EP[Dci-1].MaxPacketSize = EpDesc->MaxPacketSize;
-
- if (DeviceSpeed == EFI_USB_SPEED_SUPER) {
- //
- // 6.2.3.4, shall be set to the value defined in the bMaxBurst field of the SuperSpeed Endpoint Companion Descriptor.
- //
- InputContext->EP[Dci-1].MaxBurstSize = 0x0;
- } else {
- InputContext->EP[Dci-1].MaxBurstSize = 0x0;
- }
-
- switch (EpDesc->Attributes & USB_ENDPOINT_TYPE_MASK) {
- case USB_ENDPOINT_BULK:
- if (Direction == EfiUsbDataIn) {
- InputContext->EP[Dci-1].CErr = 3;
- InputContext->EP[Dci-1].EPType = ED_BULK_IN;
- } else {
- InputContext->EP[Dci-1].CErr = 3;
- InputContext->EP[Dci-1].EPType = ED_BULK_OUT;
- }
-
- InputContext->EP[Dci-1].AverageTRBLength = 0x1000;
- if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] == NULL) {
- EndpointTransferRing = AllocateZeroPool (sizeof (TRANSFER_RING));
- Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] = (VOID *) EndpointTransferRing;
- XhcPeiCreateTransferRing (Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1]);
- }
-
- break;
- case USB_ENDPOINT_ISO:
- if (Direction == EfiUsbDataIn) {
- InputContext->EP[Dci-1].CErr = 0;
- InputContext->EP[Dci-1].EPType = ED_ISOCH_IN;
- } else {
- InputContext->EP[Dci-1].CErr = 0;
- InputContext->EP[Dci-1].EPType = ED_ISOCH_OUT;
- }
- //
- // Do not support isochronous transfer now.
- //
- DEBUG ((EFI_D_INFO, "XhcPeiSetConfigCmd64: Unsupport ISO EP found, Transfer ring is not allocated.\n"));
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);
- continue;
- case USB_ENDPOINT_INTERRUPT:
- if (Direction == EfiUsbDataIn) {
- InputContext->EP[Dci-1].CErr = 3;
- InputContext->EP[Dci-1].EPType = ED_INTERRUPT_IN;
- } else {
- InputContext->EP[Dci-1].CErr = 3;
- InputContext->EP[Dci-1].EPType = ED_INTERRUPT_OUT;
- }
- InputContext->EP[Dci-1].AverageTRBLength = 0x1000;
- InputContext->EP[Dci-1].MaxESITPayload = EpDesc->MaxPacketSize;
- //
- // Get the bInterval from descriptor and init the the interval field of endpoint context
- //
- if ((DeviceSpeed == EFI_USB_SPEED_FULL) || (DeviceSpeed == EFI_USB_SPEED_LOW)) {
- Interval = EpDesc->Interval;
- //
- // Calculate through the bInterval field of Endpoint descriptor.
- //
- ASSERT (Interval != 0);
- InputContext->EP[Dci-1].Interval = (UINT32) HighBitSet32( (UINT32) Interval) + 3;
- } else if ((DeviceSpeed == EFI_USB_SPEED_HIGH) || (DeviceSpeed == EFI_USB_SPEED_SUPER)) {
- Interval = EpDesc->Interval;
- ASSERT (Interval >= 1 && Interval <= 16);
- //
- // Refer to XHCI 1.0 spec section 6.2.3.6, table 61
- //
- InputContext->EP[Dci-1].Interval = Interval - 1;
- }
-
- if (Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] == NULL) {
- EndpointTransferRing = AllocateZeroPool (sizeof (TRANSFER_RING));
- Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1] = (VOID *) EndpointTransferRing;
- XhcPeiCreateTransferRing (Xhc, TR_RING_TRB_NUMBER, (TRANSFER_RING *) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1]);
- }
- break;
-
- case USB_ENDPOINT_CONTROL:
- //
- // Do not support control transfer now.
- //
- DEBUG ((EFI_D_INFO, "XhcPeiSetConfigCmd64: Unsupport Control EP found, Transfer ring is not allocated.\n"));
- default:
- DEBUG ((EFI_D_INFO, "XhcPeiSetConfigCmd64: Unknown EP found, Transfer ring is not allocated.\n"));
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *)((UINTN)EpDesc + EpDesc->Length);
- continue;
- }
-
- PhyAddr = UsbHcGetPciAddrForHostAddr (
- Xhc->MemPool,
- ((TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1])->RingSeg0,
- sizeof (TRB_TEMPLATE) * TR_RING_TRB_NUMBER
- );
-
- PhyAddr &= ~((EFI_PHYSICAL_ADDRESS)0x0F);
- PhyAddr |= (EFI_PHYSICAL_ADDRESS)((TRANSFER_RING *) (UINTN) Xhc->UsbDevContext[SlotId].EndpointTransferRing[Dci-1])->RingPCS;
-
- InputContext->EP[Dci-1].PtrLo = XHC_LOW_32BIT (PhyAddr);
- InputContext->EP[Dci-1].PtrHi = XHC_HIGH_32BIT (PhyAddr);
-
- EpDesc = (USB_ENDPOINT_DESCRIPTOR *) ((UINTN)EpDesc + EpDesc->Length);
- }
- IfDesc = (USB_INTERFACE_DESCRIPTOR *) ((UINTN)IfDesc + IfDesc->Length);
- }
-
- InputContext->InputControlContext.Dword2 |= BIT0;
- InputContext->Slot.ContextEntries = MaxDci;
- //
- // configure endpoint
- //
- ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT_64));
- CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);
- CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdTrbCfgEP.CycleBit = 1;
- CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;
- CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;
- DEBUG ((EFI_D_INFO, "XhcSetConfigCmd64: Configure Endpoint\n"));
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcSetConfigCmd64: Config Endpoint Failed, Status = %r\n", Status));
- }
-
- return Status;
-}
-
-
-/**
- Evaluate the endpoint 0 context through XHCI's Evaluate_Context cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id to be evaluated.
- @param MaxPacketSize The max packet size supported by the device control transfer.
-
- @retval EFI_SUCCESS Successfully evaluate the device endpoint 0.
-
-**/
-EFI_STATUS
-XhcPeiEvaluateContext (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT32 MaxPacketSize
- )
-{
- EFI_STATUS Status;
- CMD_TRB_EVALUATE_CONTEXT CmdTrbEvalu;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- INPUT_CONTEXT *InputContext;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- ASSERT (Xhc->UsbDevContext[SlotId].SlotId != 0);
-
- //
- // 4.6.7 Evaluate Context
- //
- InputContext = Xhc->UsbDevContext[SlotId].InputContext;
- ZeroMem (InputContext, sizeof (INPUT_CONTEXT));
-
- InputContext->InputControlContext.Dword2 |= BIT1;
- InputContext->EP[0].MaxPacketSize = MaxPacketSize;
-
- ZeroMem (&CmdTrbEvalu, sizeof (CmdTrbEvalu));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT));
- CmdTrbEvalu.PtrLo = XHC_LOW_32BIT (PhyAddr);
- CmdTrbEvalu.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdTrbEvalu.CycleBit = 1;
- CmdTrbEvalu.Type = TRB_TYPE_EVALU_CONTXT;
- CmdTrbEvalu.SlotId = Xhc->UsbDevContext[SlotId].SlotId;
- DEBUG ((EFI_D_INFO, "XhcEvaluateContext: Evaluate context\n"));
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbEvalu,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcEvaluateContext: Evaluate Context Failed, Status = %r\n", Status));
- }
- return Status;
-}
-
-/**
- Evaluate the endpoint 0 context through XHCI's Evaluate_Context cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id to be evaluated.
- @param MaxPacketSize The max packet size supported by the device control transfer.
-
- @retval EFI_SUCCESS Successfully evaluate the device endpoint 0.
-
-**/
-EFI_STATUS
-XhcPeiEvaluateContext64 (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT32 MaxPacketSize
- )
-{
- EFI_STATUS Status;
- CMD_TRB_EVALUATE_CONTEXT CmdTrbEvalu;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- INPUT_CONTEXT_64 *InputContext;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- ASSERT (Xhc->UsbDevContext[SlotId].SlotId != 0);
-
- //
- // 4.6.7 Evaluate Context
- //
- InputContext = Xhc->UsbDevContext[SlotId].InputContext;
- ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));
-
- InputContext->InputControlContext.Dword2 |= BIT1;
- InputContext->EP[0].MaxPacketSize = MaxPacketSize;
-
- ZeroMem (&CmdTrbEvalu, sizeof (CmdTrbEvalu));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT_64));
- CmdTrbEvalu.PtrLo = XHC_LOW_32BIT (PhyAddr);
- CmdTrbEvalu.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdTrbEvalu.CycleBit = 1;
- CmdTrbEvalu.Type = TRB_TYPE_EVALU_CONTXT;
- CmdTrbEvalu.SlotId = Xhc->UsbDevContext[SlotId].SlotId;
- DEBUG ((EFI_D_INFO, "XhcEvaluateContext64: Evaluate context 64\n"));
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbEvalu,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcEvaluateContext64: Evaluate Context Failed, Status = %r\n", Status));
- }
- return Status;
-}
-
-/**
- Evaluate the slot context for hub device through XHCI's Configure_Endpoint cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id to be configured.
- @param PortNum The total number of downstream port supported by the hub.
- @param TTT The TT think time of the hub device.
- @param MTT The multi-TT of the hub device.
-
- @retval EFI_SUCCESS Successfully configure the hub device's slot context.
-
-**/
-EFI_STATUS
-XhcPeiConfigHubContext (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT8 PortNum,
- IN UINT8 TTT,
- IN UINT8 MTT
- )
-{
- EFI_STATUS Status;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- INPUT_CONTEXT *InputContext;
- DEVICE_CONTEXT *OutputContext;
- CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- ASSERT (Xhc->UsbDevContext[SlotId].SlotId != 0);
- InputContext = Xhc->UsbDevContext[SlotId].InputContext;
- OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;
-
- //
- // 4.6.7 Evaluate Context
- //
- ZeroMem (InputContext, sizeof (INPUT_CONTEXT));
-
- InputContext->InputControlContext.Dword2 |= BIT0;
-
- //
- // Copy the slot context from OutputContext to Input context
- //
- CopyMem(&(InputContext->Slot), &(OutputContext->Slot), sizeof (SLOT_CONTEXT));
- InputContext->Slot.Hub = 1;
- InputContext->Slot.PortNum = PortNum;
- InputContext->Slot.TTT = TTT;
- InputContext->Slot.MTT = MTT;
-
- ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT));
- CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);
- CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdTrbCfgEP.CycleBit = 1;
- CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;
- CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;
- DEBUG ((EFI_D_INFO, "Configure Hub Slot Context\n"));
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcConfigHubContext: Config Endpoint Failed, Status = %r\n", Status));
- }
- return Status;
-}
-
-/**
- Evaluate the slot context for hub device through XHCI's Configure_Endpoint cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id to be configured.
- @param PortNum The total number of downstream port supported by the hub.
- @param TTT The TT think time of the hub device.
- @param MTT The multi-TT of the hub device.
-
- @retval EFI_SUCCESS Successfully configure the hub device's slot context.
-
-**/
-EFI_STATUS
-XhcPeiConfigHubContext64 (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT8 PortNum,
- IN UINT8 TTT,
- IN UINT8 MTT
- )
-{
- EFI_STATUS Status;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- INPUT_CONTEXT_64 *InputContext;
- DEVICE_CONTEXT_64 *OutputContext;
- CMD_TRB_CONFIG_ENDPOINT CmdTrbCfgEP;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- ASSERT (Xhc->UsbDevContext[SlotId].SlotId != 0);
- InputContext = Xhc->UsbDevContext[SlotId].InputContext;
- OutputContext = Xhc->UsbDevContext[SlotId].OutputContext;
-
- //
- // 4.6.7 Evaluate Context
- //
- ZeroMem (InputContext, sizeof (INPUT_CONTEXT_64));
-
- InputContext->InputControlContext.Dword2 |= BIT0;
-
- //
- // Copy the slot context from OutputContext to Input context
- //
- CopyMem(&(InputContext->Slot), &(OutputContext->Slot), sizeof (SLOT_CONTEXT_64));
- InputContext->Slot.Hub = 1;
- InputContext->Slot.PortNum = PortNum;
- InputContext->Slot.TTT = TTT;
- InputContext->Slot.MTT = MTT;
-
- ZeroMem (&CmdTrbCfgEP, sizeof (CmdTrbCfgEP));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, InputContext, sizeof (INPUT_CONTEXT_64));
- CmdTrbCfgEP.PtrLo = XHC_LOW_32BIT (PhyAddr);
- CmdTrbCfgEP.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdTrbCfgEP.CycleBit = 1;
- CmdTrbCfgEP.Type = TRB_TYPE_CON_ENDPOINT;
- CmdTrbCfgEP.SlotId = Xhc->UsbDevContext[SlotId].SlotId;
- DEBUG ((EFI_D_INFO, "Configure Hub Slot Context 64\n"));
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbCfgEP,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR (Status)) {
- DEBUG ((EFI_D_ERROR, "XhcConfigHubContext64: Config Endpoint Failed, Status = %r\n", Status));
- }
- return Status;
-}
-
-/**
- Stop endpoint through XHCI's Stop_Endpoint cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id of the target device.
- @param Dci The device context index of the target slot or endpoint.
-
- @retval EFI_SUCCESS Stop endpoint successfully.
- @retval Others Failed to stop endpoint.
-
-**/
-EFI_STATUS
-EFIAPI
-XhcPeiStopEndpoint (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT8 Dci
- )
-{
- EFI_STATUS Status;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- CMD_TRB_STOP_ENDPOINT CmdTrbStopED;
-
- DEBUG ((EFI_D_INFO, "XhcPeiStopEndpoint: Slot = 0x%x, Dci = 0x%x\n", SlotId, Dci));
-
- //
- // Send stop endpoint command to transit Endpoint from running to stop state
- //
- ZeroMem (&CmdTrbStopED, sizeof (CmdTrbStopED));
- CmdTrbStopED.CycleBit = 1;
- CmdTrbStopED.Type = TRB_TYPE_STOP_ENDPOINT;
- CmdTrbStopED.EDID = Dci;
- CmdTrbStopED.SlotId = SlotId;
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbStopED,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR(Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiStopEndpoint: Stop Endpoint Failed, Status = %r\n", Status));
- }
-
- return Status;
-}
-
-/**
- Reset endpoint through XHCI's Reset_Endpoint cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id of the target device.
- @param Dci The device context index of the target slot or endpoint.
-
- @retval EFI_SUCCESS Reset endpoint successfully.
- @retval Others Failed to reset endpoint.
-
-**/
-EFI_STATUS
-EFIAPI
-XhcPeiResetEndpoint (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT8 Dci
- )
-{
- EFI_STATUS Status;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- CMD_TRB_RESET_ENDPOINT CmdTrbResetED;
-
- DEBUG ((EFI_D_INFO, "XhcPeiResetEndpoint: Slot = 0x%x, Dci = 0x%x\n", SlotId, Dci));
-
- //
- // Send stop endpoint command to transit Endpoint from running to stop state
- //
- ZeroMem (&CmdTrbResetED, sizeof (CmdTrbResetED));
- CmdTrbResetED.CycleBit = 1;
- CmdTrbResetED.Type = TRB_TYPE_RESET_ENDPOINT;
- CmdTrbResetED.EDID = Dci;
- CmdTrbResetED.SlotId = SlotId;
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdTrbResetED,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR(Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiResetEndpoint: Reset Endpoint Failed, Status = %r\n", Status));
- }
-
- return Status;
-}
-
-/**
- Set transfer ring dequeue pointer through XHCI's Set_Tr_Dequeue_Pointer cmd.
-
- @param Xhc The XHCI device.
- @param SlotId The slot id of the target device.
- @param Dci The device context index of the target slot or endpoint.
- @param Urb The dequeue pointer of the transfer ring specified
- by the urb to be updated.
-
- @retval EFI_SUCCESS Set transfer ring dequeue pointer succeeds.
- @retval Others Failed to set transfer ring dequeue pointer.
-
-**/
-EFI_STATUS
-EFIAPI
-XhcPeiSetTrDequeuePointer (
- IN PEI_XHC_DEV *Xhc,
- IN UINT8 SlotId,
- IN UINT8 Dci,
- IN URB *Urb
- )
-{
- EFI_STATUS Status;
- EVT_TRB_COMMAND_COMPLETION *EvtTrb;
- CMD_SET_TR_DEQ_POINTER CmdSetTRDeq;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- DEBUG ((EFI_D_INFO, "XhcPeiSetTrDequeuePointer: Slot = 0x%x, Dci = 0x%x, Urb = 0x%x\n", SlotId, Dci, Urb));
-
- //
- // Send stop endpoint command to transit Endpoint from running to stop state
- //
- ZeroMem (&CmdSetTRDeq, sizeof (CmdSetTRDeq));
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Urb->Ring->RingEnqueue, sizeof (CMD_SET_TR_DEQ_POINTER));
- CmdSetTRDeq.PtrLo = XHC_LOW_32BIT (PhyAddr) | Urb->Ring->RingPCS;
- CmdSetTRDeq.PtrHi = XHC_HIGH_32BIT (PhyAddr);
- CmdSetTRDeq.CycleBit = 1;
- CmdSetTRDeq.Type = TRB_TYPE_SET_TR_DEQUE;
- CmdSetTRDeq.Endpoint = Dci;
- CmdSetTRDeq.SlotId = SlotId;
- Status = XhcPeiCmdTransfer (
- Xhc,
- (TRB_TEMPLATE *) (UINTN) &CmdSetTRDeq,
- XHC_GENERIC_TIMEOUT,
- (TRB_TEMPLATE **) (UINTN) &EvtTrb
- );
- if (EFI_ERROR(Status)) {
- DEBUG ((EFI_D_ERROR, "XhcPeiSetTrDequeuePointer: Set TR Dequeue Pointer Failed, Status = %r\n", Status));
- }
-
- return Status;
-}
-
-/**
- Check if there is a new generated event.
-
- @param Xhc The XHCI device.
- @param EvtRing The event ring to check.
- @param NewEvtTrb The new event TRB found.
-
- @retval EFI_SUCCESS Found a new event TRB at the event ring.
- @retval EFI_NOT_READY The event ring has no new event.
-
-**/
-EFI_STATUS
-XhcPeiCheckNewEvent (
- IN PEI_XHC_DEV *Xhc,
- IN EVENT_RING *EvtRing,
- OUT TRB_TEMPLATE **NewEvtTrb
- )
-{
- ASSERT (EvtRing != NULL);
-
- *NewEvtTrb = EvtRing->EventRingDequeue;
-
- if (EvtRing->EventRingDequeue == EvtRing->EventRingEnqueue) {
- return EFI_NOT_READY;
- }
-
- EvtRing->EventRingDequeue++;
- //
- // If the dequeue pointer is beyond the ring, then roll-back it to the begining of the ring.
- //
- if ((UINTN) EvtRing->EventRingDequeue >= ((UINTN) EvtRing->EventRingSeg0 + sizeof (TRB_TEMPLATE) * EvtRing->TrbNumber)) {
- EvtRing->EventRingDequeue = EvtRing->EventRingSeg0;
- }
-
- return EFI_SUCCESS;
-}
-
-/**
- Synchronize the specified event ring to update the enqueue and dequeue pointer.
-
- @param Xhc The XHCI device.
- @param EvtRing The event ring to sync.
-
- @retval EFI_SUCCESS The event ring is synchronized successfully.
-
-**/
-EFI_STATUS
-XhcPeiSyncEventRing (
- IN PEI_XHC_DEV *Xhc,
- IN EVENT_RING *EvtRing
- )
-{
- UINTN Index;
- TRB_TEMPLATE *EvtTrb;
-
- ASSERT (EvtRing != NULL);
-
- //
- // Calculate the EventRingEnqueue and EventRingCCS.
- // Note: only support single Segment
- //
- EvtTrb = EvtRing->EventRingDequeue;
-
- for (Index = 0; Index < EvtRing->TrbNumber; Index++) {
- if (EvtTrb->CycleBit != EvtRing->EventRingCCS) {
- break;
- }
-
- EvtTrb++;
-
- if ((UINTN) EvtTrb >= ((UINTN) EvtRing->EventRingSeg0 + sizeof (TRB_TEMPLATE) * EvtRing->TrbNumber)) {
- EvtTrb = EvtRing->EventRingSeg0;
- EvtRing->EventRingCCS = (EvtRing->EventRingCCS) ? 0 : 1;
- }
- }
-
- if (Index < EvtRing->TrbNumber) {
- EvtRing->EventRingEnqueue = EvtTrb;
- } else {
- ASSERT (FALSE);
- }
-
- return EFI_SUCCESS;
-}
-
-/**
- Free XHCI event ring.
-
- @param Xhc The XHCI device.
- @param EventRing The event ring to be freed.
-
-**/
-VOID
-XhcPeiFreeEventRing (
- IN PEI_XHC_DEV *Xhc,
- IN EVENT_RING *EventRing
- )
-{
- if(EventRing->EventRingSeg0 == NULL) {
- return;
- }
-
- //
- // Free EventRing Segment 0
- //
- UsbHcFreeMem (Xhc->MemPool, EventRing->EventRingSeg0, sizeof (TRB_TEMPLATE) * EVENT_RING_TRB_NUMBER);
-
- //
- // Free ERST table
- //
- UsbHcFreeMem (Xhc->MemPool, EventRing->ERSTBase, sizeof (EVENT_RING_SEG_TABLE_ENTRY) * ERST_NUMBER);
-}
-
-/**
- Create XHCI event ring.
-
- @param Xhc The XHCI device.
- @param EventRing The created event ring.
-
-**/
-VOID
-XhcPeiCreateEventRing (
- IN PEI_XHC_DEV *Xhc,
- OUT EVENT_RING *EventRing
- )
-{
- VOID *Buf;
- EVENT_RING_SEG_TABLE_ENTRY *ERSTBase;
- UINTN Size;
- EFI_PHYSICAL_ADDRESS ERSTPhy;
- EFI_PHYSICAL_ADDRESS DequeuePhy;
-
- ASSERT (EventRing != NULL);
-
- Size = sizeof (TRB_TEMPLATE) * EVENT_RING_TRB_NUMBER;
- Buf = UsbHcAllocateMem (Xhc->MemPool, Size);
- ASSERT (Buf != NULL);
- ASSERT (((UINTN) Buf & 0x3F) == 0);
- ZeroMem (Buf, Size);
-
- DequeuePhy = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Buf, Size);
-
- EventRing->EventRingSeg0 = Buf;
- EventRing->TrbNumber = EVENT_RING_TRB_NUMBER;
- EventRing->EventRingDequeue = (TRB_TEMPLATE *) EventRing->EventRingSeg0;
- EventRing->EventRingEnqueue = (TRB_TEMPLATE *) EventRing->EventRingSeg0;
-
- //
- // Software maintains an Event Ring Consumer Cycle State (CCS) bit, initializing it to '1'
- // and toggling it every time the Event Ring Dequeue Pointer wraps back to the beginning of the Event Ring.
- //
- EventRing->EventRingCCS = 1;
-
- Size = sizeof (EVENT_RING_SEG_TABLE_ENTRY) * ERST_NUMBER;
- Buf = UsbHcAllocateMem (Xhc->MemPool, Size);
- ASSERT (Buf != NULL);
- ASSERT (((UINTN) Buf & 0x3F) == 0);
- ZeroMem (Buf, Size);
-
- ERSTBase = (EVENT_RING_SEG_TABLE_ENTRY *) Buf;
- EventRing->ERSTBase = ERSTBase;
- ERSTBase->PtrLo = XHC_LOW_32BIT (DequeuePhy);
- ERSTBase->PtrHi = XHC_HIGH_32BIT (DequeuePhy);
- ERSTBase->RingTrbSize = EVENT_RING_TRB_NUMBER;
-
- ERSTPhy = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Buf, Size);
-
- //
- // Program the Interrupter Event Ring Segment Table Size (ERSTSZ) register (5.5.2.3.1)
- //
- XhcPeiWriteRuntimeReg (
- Xhc,
- XHC_ERSTSZ_OFFSET,
- ERST_NUMBER
- );
- //
- // Program the Interrupter Event Ring Dequeue Pointer (ERDP) register (5.5.2.3.3)
- //
- // Some 3rd party XHCI external cards don't support single 64-bytes width register access,
- // So divide it to two 32-bytes width register access.
- //
- XhcPeiWriteRuntimeReg (
- Xhc,
- XHC_ERDP_OFFSET,
- XHC_LOW_32BIT ((UINT64) (UINTN) DequeuePhy)
- );
- XhcPeiWriteRuntimeReg (
- Xhc,
- XHC_ERDP_OFFSET + 4,
- XHC_HIGH_32BIT ((UINT64) (UINTN) DequeuePhy)
- );
- //
- // Program the Interrupter Event Ring Segment Table Base Address (ERSTBA) register (5.5.2.3.2)
- //
- // Some 3rd party XHCI external cards don't support single 64-bytes width register access,
- // So divide it to two 32-bytes width register access.
- //
- XhcPeiWriteRuntimeReg (
- Xhc,
- XHC_ERSTBA_OFFSET,
- XHC_LOW_32BIT ((UINT64) (UINTN) ERSTPhy)
- );
- XhcPeiWriteRuntimeReg (
- Xhc,
- XHC_ERSTBA_OFFSET + 4,
- XHC_HIGH_32BIT ((UINT64) (UINTN) ERSTPhy)
- );
- //
- // Need set IMAN IE bit to enable the ring interrupt
- //
- XhcPeiSetRuntimeRegBit (Xhc, XHC_IMAN_OFFSET, XHC_IMAN_IE);
-}
-
-/**
- Synchronize the specified transfer ring to update the enqueue and dequeue pointer.
-
- @param Xhc The XHCI device.
- @param TrsRing The transfer ring to sync.
-
- @retval EFI_SUCCESS The transfer ring is synchronized successfully.
-
-**/
-EFI_STATUS
-XhcPeiSyncTrsRing (
- IN PEI_XHC_DEV *Xhc,
- IN TRANSFER_RING *TrsRing
- )
-{
- UINTN Index;
- TRB_TEMPLATE *TrsTrb;
-
- ASSERT (TrsRing != NULL);
- //
- // Calculate the latest RingEnqueue and RingPCS
- //
- TrsTrb = TrsRing->RingEnqueue;
- ASSERT (TrsTrb != NULL);
-
- for (Index = 0; Index < TrsRing->TrbNumber; Index++) {
- if (TrsTrb->CycleBit != (TrsRing->RingPCS & BIT0)) {
- break;
- }
- TrsTrb++;
- if ((UINT8) TrsTrb->Type == TRB_TYPE_LINK) {
- ASSERT (((LINK_TRB *) TrsTrb)->TC != 0);
- //
- // set cycle bit in Link TRB as normal
- //
- ((LINK_TRB*)TrsTrb)->CycleBit = TrsRing->RingPCS & BIT0;
- //
- // Toggle PCS maintained by software
- //
- TrsRing->RingPCS = (TrsRing->RingPCS & BIT0) ? 0 : 1;
- TrsTrb = (TRB_TEMPLATE *) TrsRing->RingSeg0; // Use host address
- }
- }
-
- ASSERT (Index != TrsRing->TrbNumber);
-
- if (TrsTrb != TrsRing->RingEnqueue) {
- TrsRing->RingEnqueue = TrsTrb;
- }
-
- //
- // Clear the Trb context for enqueue, but reserve the PCS bit
- //
- TrsTrb->Parameter1 = 0;
- TrsTrb->Parameter2 = 0;
- TrsTrb->Status = 0;
- TrsTrb->RsvdZ1 = 0;
- TrsTrb->Type = 0;
- TrsTrb->Control = 0;
-
- return EFI_SUCCESS;
-}
-
-/**
- Create XHCI transfer ring.
-
- @param Xhc The XHCI Device.
- @param TrbNum The number of TRB in the ring.
- @param TransferRing The created transfer ring.
-
-**/
-VOID
-XhcPeiCreateTransferRing (
- IN PEI_XHC_DEV *Xhc,
- IN UINTN TrbNum,
- OUT TRANSFER_RING *TransferRing
- )
-{
- VOID *Buf;
- LINK_TRB *EndTrb;
- EFI_PHYSICAL_ADDRESS PhyAddr;
-
- Buf = UsbHcAllocateMem (Xhc->MemPool, sizeof (TRB_TEMPLATE) * TrbNum);
- ASSERT (Buf != NULL);
- ASSERT (((UINTN) Buf & 0x3F) == 0);
- ZeroMem (Buf, sizeof (TRB_TEMPLATE) * TrbNum);
-
- TransferRing->RingSeg0 = Buf;
- TransferRing->TrbNumber = TrbNum;
- TransferRing->RingEnqueue = (TRB_TEMPLATE *) TransferRing->RingSeg0;
- TransferRing->RingDequeue = (TRB_TEMPLATE *) TransferRing->RingSeg0;
- TransferRing->RingPCS = 1;
- //
- // 4.9.2 Transfer Ring Management
- // To form a ring (or circular queue) a Link TRB may be inserted at the end of a ring to
- // point to the first TRB in the ring.
- //
- EndTrb = (LINK_TRB *) ((UINTN) Buf + sizeof (TRB_TEMPLATE) * (TrbNum - 1));
- EndTrb->Type = TRB_TYPE_LINK;
- PhyAddr = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Buf, sizeof (TRB_TEMPLATE) * TrbNum);
- EndTrb->PtrLo = XHC_LOW_32BIT (PhyAddr);
- EndTrb->PtrHi = XHC_HIGH_32BIT (PhyAddr);
- //
- // Toggle Cycle (TC). When set to '1', the xHC shall toggle its interpretation of the Cycle bit.
- //
- EndTrb->TC = 1;
- //
- // Set Cycle bit as other TRB PCS init value
- //
- EndTrb->CycleBit = 0;
-}
-
-/**
- Initialize the XHCI host controller for schedule.
-
- @param Xhc The XHCI device to be initialized.
-
-**/
-VOID
-XhcPeiInitSched (
- IN PEI_XHC_DEV *Xhc
- )
-{
- VOID *Dcbaa;
- EFI_PHYSICAL_ADDRESS DcbaaPhy;
- UINTN Size;
- EFI_PHYSICAL_ADDRESS CmdRingPhy;
- UINT32 MaxScratchpadBufs;
- UINT64 *ScratchBuf;
- EFI_PHYSICAL_ADDRESS ScratchPhy;
- UINT64 *ScratchEntry;
- EFI_PHYSICAL_ADDRESS ScratchEntryPhy;
- UINT32 Index;
- EFI_STATUS Status;
-
- //
- // Initialize memory management.
- //
- Xhc->MemPool = UsbHcInitMemPool ();
- ASSERT (Xhc->MemPool != NULL);
-
- //
- // Program the Max Device Slots Enabled (MaxSlotsEn) field in the CONFIG register (5.4.7)
- // to enable the device slots that system software is going to use.
- //
- Xhc->MaxSlotsEn = Xhc->HcSParams1.Data.MaxSlots;
- ASSERT (Xhc->MaxSlotsEn >= 1 && Xhc->MaxSlotsEn <= 255);
- XhcPeiWriteOpReg (Xhc, XHC_CONFIG_OFFSET, (XhcPeiReadOpReg (Xhc, XHC_CONFIG_OFFSET) & ~XHC_CONFIG_MASK) | Xhc->MaxSlotsEn);
-
- //
- // The Device Context Base Address Array entry associated with each allocated Device Slot
- // shall contain a 64-bit pointer to the base of the associated Device Context.
- // The Device Context Base Address Array shall contain MaxSlotsEn + 1 entries.
- // Software shall set Device Context Base Address Array entries for unallocated Device Slots to '0'.
- //
- Size = (Xhc->MaxSlotsEn + 1) * sizeof (UINT64);
- Dcbaa = UsbHcAllocateMem (Xhc->MemPool, Size);
- ASSERT (Dcbaa != NULL);
-
- //
- // A Scratchpad Buffer is a PAGESIZE block of system memory located on a PAGESIZE boundary.
- // System software shall allocate the Scratchpad Buffer(s) before placing the xHC in to Run
- // mode (Run/Stop(R/S) ='1').
- //
- MaxScratchpadBufs = ((Xhc->HcSParams2.Data.ScratchBufHi) << 5) | (Xhc->HcSParams2.Data.ScratchBufLo);
- Xhc->MaxScratchpadBufs = MaxScratchpadBufs;
- ASSERT (MaxScratchpadBufs <= 1023);
- if (MaxScratchpadBufs != 0) {
- //
- // Allocate the buffer to record the host address for each entry
- //
- ScratchEntry = AllocateZeroPool (sizeof (UINT64) * MaxScratchpadBufs);
- ASSERT (ScratchEntry != NULL);
- Xhc->ScratchEntry = ScratchEntry;
-
- ScratchPhy = 0;
- Status = UsbHcAllocateAlignedPages (
- EFI_SIZE_TO_PAGES (MaxScratchpadBufs * sizeof (UINT64)),
- Xhc->PageSize,
- (VOID **) &ScratchBuf,
- &ScratchPhy
- );
- ASSERT_EFI_ERROR (Status);
-
- ZeroMem (ScratchBuf, MaxScratchpadBufs * sizeof (UINT64));
- Xhc->ScratchBuf = ScratchBuf;
-
- //
- // Allocate each scratch buffer
- //
- for (Index = 0; Index < MaxScratchpadBufs; Index++) {
- ScratchEntryPhy = 0;
- Status = UsbHcAllocateAlignedPages (
- EFI_SIZE_TO_PAGES (Xhc->PageSize),
- Xhc->PageSize,
- (VOID **) &ScratchEntry[Index],
- &ScratchEntryPhy
- );
- ASSERT_EFI_ERROR (Status);
- ZeroMem ((VOID *) (UINTN) ScratchEntry[Index], Xhc->PageSize);
- //
- // Fill with the PCI device address
- //
- *ScratchBuf++ = ScratchEntryPhy;
- }
- //
- // The Scratchpad Buffer Array contains pointers to the Scratchpad Buffers. Entry 0 of the
- // Device Context Base Address Array points to the Scratchpad Buffer Array.
- //
- *(UINT64 *) Dcbaa = (UINT64) (UINTN) ScratchPhy;
- }
-
- //
- // Program the Device Context Base Address Array Pointer (DCBAAP) register (5.4.6) with
- // a 64-bit address pointing to where the Device Context Base Address Array is located.
- //
- Xhc->DCBAA = (UINT64 *) (UINTN) Dcbaa;
- //
- // Some 3rd party XHCI external cards don't support single 64-bytes width register access,
- // So divide it to two 32-bytes width register access.
- //
- DcbaaPhy = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Dcbaa, Size);
- XhcPeiWriteOpReg (Xhc, XHC_DCBAAP_OFFSET, XHC_LOW_32BIT (DcbaaPhy));
- XhcPeiWriteOpReg (Xhc, XHC_DCBAAP_OFFSET + 4, XHC_HIGH_32BIT (DcbaaPhy));
-
- DEBUG ((EFI_D_INFO, "XhcPeiInitSched:DCBAA=0x%x\n", Xhc->DCBAA));
-
- //
- // Define the Command Ring Dequeue Pointer by programming the Command Ring Control Register
- // (5.4.5) with a 64-bit address pointing to the starting address of the first TRB of the Command Ring.
- // Note: The Command Ring is 64 byte aligned, so the low order 6 bits of the Command Ring Pointer shall
- // always be '0'.
- //
- XhcPeiCreateTransferRing (Xhc, CMD_RING_TRB_NUMBER, &Xhc->CmdRing);
- //
- // The xHC uses the Enqueue Pointer to determine when a Transfer Ring is empty. As it fetches TRBs from a
- // Transfer Ring it checks for a Cycle bit transition. If a transition detected, the ring is empty.
- // So we set RCS as inverted PCS init value to let Command Ring empty
- //
- CmdRingPhy = UsbHcGetPciAddrForHostAddr (Xhc->MemPool, Xhc->CmdRing.RingSeg0, sizeof (TRB_TEMPLATE) * CMD_RING_TRB_NUMBER);
- ASSERT ((CmdRingPhy & 0x3F) == 0);
- CmdRingPhy |= XHC_CRCR_RCS;
- //
- // Some 3rd party XHCI external cards don't support single 64-bytes width register access,
- // So divide it to two 32-bytes width register access.
- //
- XhcPeiWriteOpReg (Xhc, XHC_CRCR_OFFSET, XHC_LOW_32BIT (CmdRingPhy));
- XhcPeiWriteOpReg (Xhc, XHC_CRCR_OFFSET + 4, XHC_HIGH_32BIT (CmdRingPhy));
-
- DEBUG ((EFI_D_INFO, "XhcPeiInitSched:XHC_CRCR=0x%x\n", Xhc->CmdRing.RingSeg0));
-
- //
- // Disable the 'interrupter enable' bit in USB_CMD
- // and clear IE & IP bit in all Interrupter X Management Registers.
- //
- XhcPeiClearOpRegBit (Xhc, XHC_USBCMD_OFFSET, XHC_USBCMD_INTE);
- for (Index = 0; Index < (UINT16)(Xhc->HcSParams1.Data.MaxIntrs); Index++) {
- XhcPeiClearRuntimeRegBit (Xhc, XHC_IMAN_OFFSET + (Index * 32), XHC_IMAN_IE);
- XhcPeiSetRuntimeRegBit (Xhc, XHC_IMAN_OFFSET + (Index * 32), XHC_IMAN_IP);
- }
-
- //
- // Allocate EventRing for Cmd, Ctrl, Bulk, Interrupt, AsynInterrupt transfer
- //
- XhcPeiCreateEventRing (Xhc, &Xhc->EventRing);
- DEBUG ((EFI_D_INFO, "XhcPeiInitSched:XHC_EVENTRING=0x%x\n", Xhc->EventRing.EventRingSeg0));
-}
-
-/**
- Free the resouce allocated at initializing schedule.
-
- @param Xhc The XHCI device.
-
-**/
-VOID
-XhcPeiFreeSched (
- IN PEI_XHC_DEV *Xhc
- )
-{
- UINT32 Index;
- UINT64 *ScratchEntry;
-
- if (Xhc->ScratchBuf != NULL) {
- ScratchEntry = Xhc->ScratchEntry;
- for (Index = 0; Index < Xhc->MaxScratchpadBufs; Index++) {
- //
- // Free Scratchpad Buffers
- //
- UsbHcFreeAlignedPages ((VOID*) (UINTN) ScratchEntry[Index], EFI_SIZE_TO_PAGES (Xhc->PageSize));
- }
- //
- // Free Scratchpad Buffer Array
- //
- UsbHcFreeAlignedPages (Xhc->ScratchBuf, EFI_SIZE_TO_PAGES (Xhc->MaxScratchpadBufs * sizeof (UINT64)));
- FreePool (Xhc->ScratchEntry);
- }
-
- if (Xhc->CmdRing.RingSeg0 != NULL) {
- UsbHcFreeMem (Xhc->MemPool, Xhc->CmdRing.RingSeg0, sizeof (TRB_TEMPLATE) * CMD_RING_TRB_NUMBER);
- Xhc->CmdRing.RingSeg0 = NULL;
- }
-
- XhcPeiFreeEventRing (Xhc,&Xhc->EventRing);
-
- if (Xhc->DCBAA != NULL) {
- UsbHcFreeMem (Xhc->MemPool, Xhc->DCBAA, (Xhc->MaxSlotsEn + 1) * sizeof (UINT64));
- Xhc->DCBAA = NULL;
- }
-
- //
- // Free memory pool at last
- //
- if (Xhc->MemPool != NULL) {
- UsbHcFreeMemPool (Xhc->MemPool);
- Xhc->MemPool = NULL;
- }
-}
-
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