OvmfPkg/XenPvBlkDxe/BlockFront.c - third_party/edk2 - Git at Google

 /** @file
   Minimal block driver for Mini-OS.

   Copyright (c) 2007-2008 Samuel Thibault.
   Copyright (C) 2014, Citrix Ltd.
   Copyright (c) 2014, Intel Corporation. All rights reserved.<BR>

   SPDX-License-Identifier: BSD-2-Clause-Patent
 **/

 #include <Library/PrintLib.h>
 #include <Library/DebugLib.h>

 #include "BlockFront.h"

 #include <IndustryStandard/Xen/io/protocols.h>
 #include <IndustryStandard/Xen/io/xenbus.h>

 /**
   Helper to read an integer from XenStore.

   If the number overflows according to the range defined by UINT64,
   then ASSERT().

   @param This         A pointer to a XENBUS_PROTOCOL instance.
   @param Node         The XenStore node to read from.
   @param FromBackend  Read frontend or backend value.
   @param ValuePtr     Where to put the value.

   @retval XENSTORE_STATUS_SUCCESS  If successful, will update ValuePtr.
   @return                          Any other return value indicate the error,
                                    ValuePtr is not updated in this case.
 **/
 STATIC
 XENSTORE_STATUS
 XenBusReadUint64 (
   IN  XENBUS_PROTOCOL *This,
   IN  CONST CHAR8     *Node,
   IN  BOOLEAN         FromBackend,
   OUT UINT64          *ValuePtr
   )
 {
   XENSTORE_STATUS Status;
   CHAR8 *Ptr;

   if (!FromBackend) {
     Status = This->XsRead (This, XST_NIL, Node, (VOID**)&Ptr);
   } else {
     Status = This->XsBackendRead (This, XST_NIL, Node, (VOID**)&Ptr);
   }
   if (Status != XENSTORE_STATUS_SUCCESS) {
     return Status;
   }
   // AsciiStrDecimalToUint64 will ASSERT if Ptr overflow UINT64.
   *ValuePtr = AsciiStrDecimalToUint64 (Ptr);
   FreePool (Ptr);
   return Status;
 }

 /**
   Free an instance of XEN_BLOCK_FRONT_DEVICE.

   @param Dev  The instance to free.
 **/
 STATIC
 VOID
 XenPvBlockFree (
   IN XEN_BLOCK_FRONT_DEVICE *Dev
   )
 {
   XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;

   if (Dev->RingRef != 0) {
     XenBusIo->GrantEndAccess (XenBusIo, Dev->RingRef);
   }
   if (Dev->Ring.sring != NULL) {
     FreePages (Dev->Ring.sring, 1);
   }
   if (Dev->EventChannel != 0) {
     XenBusIo->EventChannelClose (XenBusIo, Dev->EventChannel);
   }
   FreePool (Dev);
 }

 /**
   Wait until until the backend has reached the ExpectedState.

   @param Dev            A XEN_BLOCK_FRONT_DEVICE instance.
   @param ExpectedState  The backend state expected.
   @param LastStatePtr   An optional pointer where to right the final state.

   @return Return XENSTORE_STATUS_SUCCESS if the new backend state is ExpectedState
           or return an error otherwise.
 **/
 STATIC
 XENSTORE_STATUS
 XenPvBlkWaitForBackendState (
   IN  XEN_BLOCK_FRONT_DEVICE *Dev,
   IN  XenbusState            ExpectedState,
   OUT XenbusState            *LastStatePtr OPTIONAL
   )
 {
   XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;
   XenbusState State;
   UINT64 Value;
   XENSTORE_STATUS Status = XENSTORE_STATUS_SUCCESS;

   while (TRUE) {
     Status = XenBusReadUint64 (XenBusIo, "state", TRUE, &Value);
     if (Status != XENSTORE_STATUS_SUCCESS) {
       return Status;
     }
     if (Value > XenbusStateReconfigured) {
       //
       // Value is not a State value.
       //
       return XENSTORE_STATUS_EIO;
     }
     State = Value;
     if (State == ExpectedState) {
       break;
     } else if (State > ExpectedState) {
       Status = XENSTORE_STATUS_FAIL;
       break;
     }
     DEBUG ((DEBUG_INFO,
             "XenPvBlk: waiting backend state %d, current: %d\n",
             ExpectedState, State));
     XenBusIo->WaitForWatch (XenBusIo, Dev->StateWatchToken);
   }

   if (LastStatePtr != NULL) {
     *LastStatePtr = State;
   }

   return Status;
 }

 EFI_STATUS
 XenPvBlockFrontInitialization (
   IN  XENBUS_PROTOCOL         *XenBusIo,
   IN  CONST CHAR8             *NodeName,
   OUT XEN_BLOCK_FRONT_DEVICE  **DevPtr
   )
 {
   XENSTORE_TRANSACTION Transaction;
   CHAR8 *DeviceType;
   blkif_sring_t *SharedRing;
   XENSTORE_STATUS Status;
   XEN_BLOCK_FRONT_DEVICE *Dev;
   XenbusState State;
   UINT64 Value;
   CHAR8 *Params;

   ASSERT (NodeName != NULL);

   Dev = AllocateZeroPool (sizeof (XEN_BLOCK_FRONT_DEVICE));
   Dev->Signature = XEN_BLOCK_FRONT_SIGNATURE;
   Dev->NodeName = NodeName;
   Dev->XenBusIo = XenBusIo;
   Dev->DeviceId = XenBusIo->DeviceId;

   XenBusIo->XsRead (XenBusIo, XST_NIL, "device-type", (VOID**)&DeviceType);
   if (AsciiStrCmp (DeviceType, "cdrom") == 0) {
     Dev->MediaInfo.CdRom = TRUE;
   } else {
     Dev->MediaInfo.CdRom = FALSE;
   }
   FreePool (DeviceType);

   if (Dev->MediaInfo.CdRom) {
     Status = XenBusIo->XsBackendRead (XenBusIo, XST_NIL, "params", (VOID**)&Params);
     if (Status != XENSTORE_STATUS_SUCCESS) {
       DEBUG ((DEBUG_ERROR, "%a: Failed to read params (%d)\n", __FUNCTION__, Status));
       goto Error;
     }
     if (AsciiStrLen (Params) == 0 || AsciiStrCmp (Params, "aio:") == 0) {
       FreePool (Params);
       DEBUG ((DEBUG_INFO, "%a: Empty cdrom\n", __FUNCTION__));
       goto Error;
     }
     FreePool (Params);
   }

   Status = XenBusReadUint64 (XenBusIo, "backend-id", FALSE, &Value);
   if (Status != XENSTORE_STATUS_SUCCESS || Value > MAX_UINT16) {
     DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to get backend-id (%d)\n",
             Status));
     goto Error;
   }
   Dev->DomainId = (domid_t)Value;
   XenBusIo->EventChannelAllocate (XenBusIo, Dev->DomainId, &Dev->EventChannel);

   SharedRing = (blkif_sring_t*) AllocatePages (1);
   SHARED_RING_INIT (SharedRing);
   FRONT_RING_INIT (&Dev->Ring, SharedRing, EFI_PAGE_SIZE);
   XenBusIo->GrantAccess (XenBusIo,
                          Dev->DomainId,
                          (INTN) SharedRing >> EFI_PAGE_SHIFT,
                          FALSE,
                          &Dev->RingRef);

 Again:
   Status = XenBusIo->XsTransactionStart (XenBusIo, &Transaction);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_WARN, "XenPvBlk: Failed to start transaction, %d\n", Status));
     goto Error;
   }

   Status = XenBusIo->XsPrintf (XenBusIo, &Transaction, NodeName, "ring-ref", "%d",
                                Dev->RingRef);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to write ring-ref.\n"));
     goto AbortTransaction;
   }
   Status = XenBusIo->XsPrintf (XenBusIo, &Transaction, NodeName,
                                "event-channel", "%d", Dev->EventChannel);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to write event-channel.\n"));
     goto AbortTransaction;
   }
   Status = XenBusIo->XsPrintf (XenBusIo, &Transaction, NodeName,
                                "protocol", "%a", XEN_IO_PROTO_ABI_NATIVE);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to write protocol.\n"));
     goto AbortTransaction;
   }

   Status = XenBusIo->SetState (XenBusIo, &Transaction, XenbusStateConnected);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to switch state.\n"));
     goto AbortTransaction;
   }

   Status = XenBusIo->XsTransactionEnd (XenBusIo, &Transaction, FALSE);
   if (Status == XENSTORE_STATUS_EAGAIN) {
     goto Again;
   }

   XenBusIo->RegisterWatchBackend (XenBusIo, "state", &Dev->StateWatchToken);

   //
   // Waiting for backend
   //
   Status = XenPvBlkWaitForBackendState (Dev, XenbusStateConnected, &State);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR,
             "XenPvBlk: backend for %a/%d not available, rc=%d state=%d\n",
             XenBusIo->Type, XenBusIo->DeviceId, Status, State));
     goto Error2;
   }

   Status = XenBusReadUint64 (XenBusIo, "info", TRUE, &Value);
   if (Status != XENSTORE_STATUS_SUCCESS || Value > MAX_UINT32) {
     goto Error2;
   }
   Dev->MediaInfo.VDiskInfo = (UINT32)Value;
   if (Dev->MediaInfo.VDiskInfo & VDISK_READONLY) {
     Dev->MediaInfo.ReadWrite = FALSE;
   } else {
     Dev->MediaInfo.ReadWrite = TRUE;
   }

   Status = XenBusReadUint64 (XenBusIo, "sectors", TRUE, &Dev->MediaInfo.Sectors);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     goto Error2;
   }

   Status = XenBusReadUint64 (XenBusIo, "sector-size", TRUE, &Value);
   if (Status != XENSTORE_STATUS_SUCCESS || Value > MAX_UINT32) {
     goto Error2;
   }
   if ((UINT32)Value % 512 != 0) {
     //
     // This is not supported by the driver.
     //
     DEBUG ((DEBUG_ERROR, "XenPvBlk: Unsupported sector-size value %Lu, "
             "it must be a multiple of 512\n", Value));
     goto Error2;
   }
   Dev->MediaInfo.SectorSize = (UINT32)Value;

   // Default value
   Value = 0;
   XenBusReadUint64 (XenBusIo, "feature-barrier", TRUE, &Value);
   if (Value == 1) {
     Dev->MediaInfo.FeatureBarrier = TRUE;
   } else {
     Dev->MediaInfo.FeatureBarrier = FALSE;
   }

   // Default value
   Value = 0;
   XenBusReadUint64 (XenBusIo, "feature-flush-cache", TRUE, &Value);
   if (Value == 1) {
     Dev->MediaInfo.FeatureFlushCache = TRUE;
   } else {
     Dev->MediaInfo.FeatureFlushCache = FALSE;
   }

   DEBUG ((DEBUG_INFO, "XenPvBlk: New disk with %ld sectors of %d bytes\n",
           Dev->MediaInfo.Sectors, Dev->MediaInfo.SectorSize));

   *DevPtr = Dev;
   return EFI_SUCCESS;

 Error2:
   XenBusIo->UnregisterWatch (XenBusIo, Dev->StateWatchToken);
   XenBusIo->XsRemove (XenBusIo, XST_NIL, "ring-ref");
   XenBusIo->XsRemove (XenBusIo, XST_NIL, "event-channel");
   XenBusIo->XsRemove (XenBusIo, XST_NIL, "protocol");
   goto Error;
 AbortTransaction:
   XenBusIo->XsTransactionEnd (XenBusIo, &Transaction, TRUE);
 Error:
   XenPvBlockFree (Dev);
   return EFI_DEVICE_ERROR;
 }

 VOID
 XenPvBlockFrontShutdown (
   IN XEN_BLOCK_FRONT_DEVICE *Dev
   )
 {
   XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;
   XENSTORE_STATUS Status;
   UINT64 Value;

   XenPvBlockSync (Dev);

   Status = XenBusIo->SetState (XenBusIo, XST_NIL, XenbusStateClosing);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR,
             "XenPvBlk: error while changing state to Closing: %d\n",
             Status));
     goto Close;
   }

   Status = XenPvBlkWaitForBackendState (Dev, XenbusStateClosing, NULL);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR,
             "XenPvBlk: error while waiting for closing backend state: %d\n",
             Status));
     goto Close;
   }

   Status = XenBusIo->SetState (XenBusIo, XST_NIL, XenbusStateClosed);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR,
             "XenPvBlk: error while changing state to Closed: %d\n",
             Status));
     goto Close;
   }

   Status = XenPvBlkWaitForBackendState (Dev, XenbusStateClosed, NULL);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR,
             "XenPvBlk: error while waiting for closed backend state: %d\n",
             Status));
     goto Close;
   }

   Status = XenBusIo->SetState (XenBusIo, XST_NIL, XenbusStateInitialising);
   if (Status != XENSTORE_STATUS_SUCCESS) {
     DEBUG ((DEBUG_ERROR,
             "XenPvBlk: error while changing state to initialising: %d\n",
             Status));
     goto Close;
   }

   while (TRUE) {
     Status = XenBusReadUint64 (XenBusIo, "state", TRUE, &Value);
     if (Status != XENSTORE_STATUS_SUCCESS) {
       DEBUG ((DEBUG_ERROR,
               "XenPvBlk: error while waiting for new backend state: %d\n",
               Status));
       goto Close;
     }
     if (Value <= XenbusStateInitWait || Value >= XenbusStateClosed) {
       break;
     }
     DEBUG ((DEBUG_INFO,
             "XenPvBlk: waiting backend state %d, current: %Lu\n",
             XenbusStateInitWait, Value));
     XenBusIo->WaitForWatch (XenBusIo, Dev->StateWatchToken);
   }

 Close:
   XenBusIo->UnregisterWatch (XenBusIo, Dev->StateWatchToken);
   XenBusIo->XsRemove (XenBusIo, XST_NIL, "ring-ref");
   XenBusIo->XsRemove (XenBusIo, XST_NIL, "event-channel");
   XenBusIo->XsRemove (XenBusIo, XST_NIL, "protocol");

   XenPvBlockFree (Dev);
 }

 STATIC
 VOID
 XenPvBlockWaitSlot (
   IN XEN_BLOCK_FRONT_DEVICE *Dev
   )
 {
   /* Wait for a slot */
   if (RING_FULL (&Dev->Ring)) {
     while (TRUE) {
       XenPvBlockAsyncIoPoll (Dev);
       if (!RING_FULL (&Dev->Ring)) {
         break;
       }
       /* Really no slot, could wait for an event on Dev->EventChannel. */
     }
   }
 }

 VOID
 XenPvBlockAsyncIo (
   IN OUT XEN_BLOCK_FRONT_IO *IoData,
   IN     BOOLEAN            IsWrite
   )
 {
   XEN_BLOCK_FRONT_DEVICE *Dev = IoData->Dev;
   XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;
   blkif_request_t *Request;
   RING_IDX RingIndex;
   BOOLEAN Notify;
   INT32 NumSegments, Index;
   UINTN Start, End;

   // Can't io at non-sector-aligned location
   ASSERT(!(IoData->Sector & ((Dev->MediaInfo.SectorSize / 512) - 1)));
   // Can't io non-sector-sized amounts
   ASSERT(!(IoData->Size & (Dev->MediaInfo.SectorSize - 1)));
   // Can't io non-sector-aligned buffer
   ASSERT(!((UINTN) IoData->Buffer & (Dev->MediaInfo.SectorSize - 1)));

   Start = (UINTN) IoData->Buffer & ~EFI_PAGE_MASK;
   End = ((UINTN) IoData->Buffer + IoData->Size + EFI_PAGE_SIZE - 1) & ~EFI_PAGE_MASK;
   IoData->NumRef = NumSegments = (INT32)((End - Start) / EFI_PAGE_SIZE);

   ASSERT (NumSegments <= BLKIF_MAX_SEGMENTS_PER_REQUEST);

   XenPvBlockWaitSlot (Dev);
   RingIndex = Dev->Ring.req_prod_pvt;
   Request = RING_GET_REQUEST (&Dev->Ring, RingIndex);

   Request->operation = IsWrite ? BLKIF_OP_WRITE : BLKIF_OP_READ;
   Request->nr_segments = (UINT8)NumSegments;
   Request->handle = Dev->DeviceId;
   Request->id = (UINTN) IoData;
   Request->sector_number = IoData->Sector;

   for (Index = 0; Index < NumSegments; Index++) {
     Request->seg[Index].first_sect = 0;
     Request->seg[Index].last_sect = EFI_PAGE_SIZE / 512 - 1;
   }
   Request->seg[0].first_sect = (UINT8)(((UINTN) IoData->Buffer & EFI_PAGE_MASK) / 512);
   Request->seg[NumSegments - 1].last_sect =
       (UINT8)((((UINTN) IoData->Buffer + IoData->Size - 1) & EFI_PAGE_MASK) / 512);
   for (Index = 0; Index < NumSegments; Index++) {
     UINTN Data = Start + Index * EFI_PAGE_SIZE;
     XenBusIo->GrantAccess (XenBusIo, Dev->DomainId,
                            Data >> EFI_PAGE_SHIFT, IsWrite,
                            &Request->seg[Index].gref);
     IoData->GrantRef[Index] = Request->seg[Index].gref;
   }

   Dev->Ring.req_prod_pvt = RingIndex + 1;

   MemoryFence ();
   RING_PUSH_REQUESTS_AND_CHECK_NOTIFY (&Dev->Ring, Notify);

   if (Notify) {
     UINT32 ReturnCode;
     ReturnCode = XenBusIo->EventChannelNotify (XenBusIo, Dev->EventChannel);
     if (ReturnCode != 0) {
       DEBUG ((DEBUG_ERROR,
               "XenPvBlk: Unexpected return value from EventChannelNotify: %d\n",
               ReturnCode));
     }
   }
 }

 EFI_STATUS
 XenPvBlockIo (
   IN OUT XEN_BLOCK_FRONT_IO *IoData,
   IN     BOOLEAN            IsWrite
   )
 {
   //
   // Status value that correspond to an IO in progress.
   //
   IoData->Status = EFI_ALREADY_STARTED;
   XenPvBlockAsyncIo (IoData, IsWrite);

   while (IoData->Status == EFI_ALREADY_STARTED) {
     XenPvBlockAsyncIoPoll (IoData->Dev);
   }

   return IoData->Status;
 }

 STATIC
 VOID
 XenPvBlockPushOperation (
   IN XEN_BLOCK_FRONT_DEVICE *Dev,
   IN UINT8                  Operation,
   IN UINT64                 Id
   )
 {
   INT32 Index;
   blkif_request_t *Request;
   BOOLEAN Notify;

   XenPvBlockWaitSlot (Dev);
   Index = Dev->Ring.req_prod_pvt;
   Request = RING_GET_REQUEST(&Dev->Ring, Index);
   Request->operation = Operation;
   Request->nr_segments = 0;
   Request->handle = Dev->DeviceId;
   Request->id = Id;
   /* Not needed anyway, but the backend will check it */
   Request->sector_number = 0;
   Dev->Ring.req_prod_pvt = Index + 1;
   MemoryFence ();
   RING_PUSH_REQUESTS_AND_CHECK_NOTIFY (&Dev->Ring, Notify);
   if (Notify) {
     XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;
     UINT32 ReturnCode;
     ReturnCode = XenBusIo->EventChannelNotify (XenBusIo, Dev->EventChannel);
     if (ReturnCode != 0) {
       DEBUG ((DEBUG_ERROR,
               "XenPvBlk: Unexpected return value from EventChannelNotify: %d\n",
               ReturnCode));
     }
   }
 }

 VOID
 XenPvBlockSync (
   IN XEN_BLOCK_FRONT_DEVICE *Dev
   )
 {
   if (Dev->MediaInfo.ReadWrite) {
     if (Dev->MediaInfo.FeatureBarrier) {
       XenPvBlockPushOperation (Dev, BLKIF_OP_WRITE_BARRIER, 0);
     }

     if (Dev->MediaInfo.FeatureFlushCache) {
       XenPvBlockPushOperation (Dev, BLKIF_OP_FLUSH_DISKCACHE, 0);
     }
   }

   /* Note: This won't finish if another thread enqueues requests.  */
   while (TRUE) {
     XenPvBlockAsyncIoPoll (Dev);
     if (RING_FREE_REQUESTS (&Dev->Ring) == RING_SIZE (&Dev->Ring)) {
       break;
     }
   }
 }

 VOID
 XenPvBlockAsyncIoPoll (
   IN XEN_BLOCK_FRONT_DEVICE *Dev
   )
 {
   RING_IDX ProducerIndex, ConsumerIndex;
   blkif_response_t *Response;
   INT32 More;

   do {
     ProducerIndex = Dev->Ring.sring->rsp_prod;
     /* Ensure we see queued responses up to 'ProducerIndex'. */
     MemoryFence ();
     ConsumerIndex = Dev->Ring.rsp_cons;

     while (ConsumerIndex != ProducerIndex) {
       XEN_BLOCK_FRONT_IO *IoData = NULL;
       INT16 Status;

       Response = RING_GET_RESPONSE (&Dev->Ring, ConsumerIndex);

       IoData = (VOID *) (UINTN) Response->id;
       Status = Response->status;

       switch (Response->operation) {
       case BLKIF_OP_READ:
       case BLKIF_OP_WRITE:
         {
           INT32 Index;

           if (Status != BLKIF_RSP_OKAY) {
             DEBUG ((DEBUG_ERROR,
                     "XenPvBlk: "
                     "%a error %d on %a at sector %Lx, num bytes %Lx\n",
                     Response->operation == BLKIF_OP_READ ? "read" : "write",
                     Status, IoData->Dev->NodeName,
                     (UINT64)IoData->Sector,
                     (UINT64)IoData->Size));
           }

           for (Index = 0; Index < IoData->NumRef; Index++) {
             Dev->XenBusIo->GrantEndAccess (Dev->XenBusIo, IoData->GrantRef[Index]);
           }

           break;
         }

       case BLKIF_OP_WRITE_BARRIER:
         if (Status != BLKIF_RSP_OKAY) {
           DEBUG ((DEBUG_ERROR, "XenPvBlk: write barrier error %d\n", Status));
         }
         break;
       case BLKIF_OP_FLUSH_DISKCACHE:
         if (Status != BLKIF_RSP_OKAY) {
           DEBUG ((DEBUG_ERROR, "XenPvBlk: flush error %d\n", Status));
         }
         break;

       default:
         DEBUG ((DEBUG_ERROR,
                 "XenPvBlk: unrecognized block operation %d response (status %d)\n",
                 Response->operation, Status));
         break;
       }

       Dev->Ring.rsp_cons = ++ConsumerIndex;
       if (IoData != NULL) {
         IoData->Status = Status ? EFI_DEVICE_ERROR : EFI_SUCCESS;
       }
       if (Dev->Ring.rsp_cons != ConsumerIndex) {
         /* We reentered, we must not continue here */
         break;
       }
     }

     RING_FINAL_CHECK_FOR_RESPONSES (&Dev->Ring, More);
   } while (More != 0);
 }
	/** @file
	Minimal block driver for Mini-OS.

	Copyright (c) 2007-2008 Samuel Thibault.
	Copyright (C) 2014, Citrix Ltd.
	Copyright (c) 2014, Intel Corporation. All rights reserved.<BR>

	SPDX-License-Identifier: BSD-2-Clause-Patent
	**/

	#include <Library/PrintLib.h>
	#include <Library/DebugLib.h>

	#include "BlockFront.h"

	#include <IndustryStandard/Xen/io/protocols.h>
	#include <IndustryStandard/Xen/io/xenbus.h>

	/**
	Helper to read an integer from XenStore.

	If the number overflows according to the range defined by UINT64,
	then ASSERT().

	@param This A pointer to a XENBUS_PROTOCOL instance.
	@param Node The XenStore node to read from.
	@param FromBackend Read frontend or backend value.
	@param ValuePtr Where to put the value.

	@retval XENSTORE_STATUS_SUCCESS If successful, will update ValuePtr.
	@return Any other return value indicate the error,
	ValuePtr is not updated in this case.
	**/
	STATIC
	XENSTORE_STATUS
	XenBusReadUint64 (
	IN XENBUS_PROTOCOL *This,
	IN CONST CHAR8 *Node,
	IN BOOLEAN FromBackend,
	OUT UINT64 *ValuePtr
	)
	{
	XENSTORE_STATUS Status;
	CHAR8 *Ptr;

	if (!FromBackend) {
	Status = This->XsRead (This, XST_NIL, Node, (VOID**)&Ptr);
	} else {
	Status = This->XsBackendRead (This, XST_NIL, Node, (VOID**)&Ptr);
	}
	if (Status != XENSTORE_STATUS_SUCCESS) {
	return Status;
	}
	// AsciiStrDecimalToUint64 will ASSERT if Ptr overflow UINT64.
	*ValuePtr = AsciiStrDecimalToUint64 (Ptr);
	FreePool (Ptr);
	return Status;
	}

	/**
	Free an instance of XEN_BLOCK_FRONT_DEVICE.

	@param Dev The instance to free.
	**/
	STATIC
	VOID
	XenPvBlockFree (
	IN XEN_BLOCK_FRONT_DEVICE *Dev
	)
	{
	XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;

	if (Dev->RingRef != 0) {
	XenBusIo->GrantEndAccess (XenBusIo, Dev->RingRef);
	}
	if (Dev->Ring.sring != NULL) {
	FreePages (Dev->Ring.sring, 1);
	}
	if (Dev->EventChannel != 0) {
	XenBusIo->EventChannelClose (XenBusIo, Dev->EventChannel);
	}
	FreePool (Dev);
	}

	/**
	Wait until until the backend has reached the ExpectedState.

	@param Dev A XEN_BLOCK_FRONT_DEVICE instance.
	@param ExpectedState The backend state expected.
	@param LastStatePtr An optional pointer where to right the final state.

	@return Return XENSTORE_STATUS_SUCCESS if the new backend state is ExpectedState
	or return an error otherwise.
	**/
	STATIC
	XENSTORE_STATUS
	XenPvBlkWaitForBackendState (
	IN XEN_BLOCK_FRONT_DEVICE *Dev,
	IN XenbusState ExpectedState,
	OUT XenbusState *LastStatePtr OPTIONAL
	)
	{
	XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;
	XenbusState State;
	UINT64 Value;
	XENSTORE_STATUS Status = XENSTORE_STATUS_SUCCESS;

	while (TRUE) {
	Status = XenBusReadUint64 (XenBusIo, "state", TRUE, &Value);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	return Status;
	}
	if (Value > XenbusStateReconfigured) {
	//
	// Value is not a State value.
	//
	return XENSTORE_STATUS_EIO;
	}
	State = Value;
	if (State == ExpectedState) {
	break;
	} else if (State > ExpectedState) {
	Status = XENSTORE_STATUS_FAIL;
	break;
	}
	DEBUG ((DEBUG_INFO,
	"XenPvBlk: waiting backend state %d, current: %d\n",
	ExpectedState, State));
	XenBusIo->WaitForWatch (XenBusIo, Dev->StateWatchToken);
	}

	if (LastStatePtr != NULL) {
	*LastStatePtr = State;
	}

	return Status;
	}

	EFI_STATUS
	XenPvBlockFrontInitialization (
	IN XENBUS_PROTOCOL *XenBusIo,
	IN CONST CHAR8 *NodeName,
	OUT XEN_BLOCK_FRONT_DEVICE **DevPtr
	)
	{
	XENSTORE_TRANSACTION Transaction;
	CHAR8 *DeviceType;
	blkif_sring_t *SharedRing;
	XENSTORE_STATUS Status;
	XEN_BLOCK_FRONT_DEVICE *Dev;
	XenbusState State;
	UINT64 Value;
	CHAR8 *Params;

	ASSERT (NodeName != NULL);

	Dev = AllocateZeroPool (sizeof (XEN_BLOCK_FRONT_DEVICE));
	Dev->Signature = XEN_BLOCK_FRONT_SIGNATURE;
	Dev->NodeName = NodeName;
	Dev->XenBusIo = XenBusIo;
	Dev->DeviceId = XenBusIo->DeviceId;

	XenBusIo->XsRead (XenBusIo, XST_NIL, "device-type", (VOID**)&DeviceType);
	if (AsciiStrCmp (DeviceType, "cdrom") == 0) {
	Dev->MediaInfo.CdRom = TRUE;
	} else {
	Dev->MediaInfo.CdRom = FALSE;
	}
	FreePool (DeviceType);

	if (Dev->MediaInfo.CdRom) {
	Status = XenBusIo->XsBackendRead (XenBusIo, XST_NIL, "params", (VOID**)&Params);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR, "%a: Failed to read params (%d)\n", __FUNCTION__, Status));
	goto Error;
	}
	if (AsciiStrLen (Params) == 0 \|\| AsciiStrCmp (Params, "aio:") == 0) {
	FreePool (Params);
	DEBUG ((DEBUG_INFO, "%a: Empty cdrom\n", __FUNCTION__));
	goto Error;
	}
	FreePool (Params);
	}

	Status = XenBusReadUint64 (XenBusIo, "backend-id", FALSE, &Value);
	if (Status != XENSTORE_STATUS_SUCCESS \|\| Value > MAX_UINT16) {
	DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to get backend-id (%d)\n",
	Status));
	goto Error;
	}
	Dev->DomainId = (domid_t)Value;
	XenBusIo->EventChannelAllocate (XenBusIo, Dev->DomainId, &Dev->EventChannel);

	SharedRing = (blkif_sring_t*) AllocatePages (1);
	SHARED_RING_INIT (SharedRing);
	FRONT_RING_INIT (&Dev->Ring, SharedRing, EFI_PAGE_SIZE);
	XenBusIo->GrantAccess (XenBusIo,
	Dev->DomainId,
	(INTN) SharedRing >> EFI_PAGE_SHIFT,
	FALSE,
	&Dev->RingRef);

	Again:
	Status = XenBusIo->XsTransactionStart (XenBusIo, &Transaction);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_WARN, "XenPvBlk: Failed to start transaction, %d\n", Status));
	goto Error;
	}

	Status = XenBusIo->XsPrintf (XenBusIo, &Transaction, NodeName, "ring-ref", "%d",
	Dev->RingRef);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to write ring-ref.\n"));
	goto AbortTransaction;
	}
	Status = XenBusIo->XsPrintf (XenBusIo, &Transaction, NodeName,
	"event-channel", "%d", Dev->EventChannel);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to write event-channel.\n"));
	goto AbortTransaction;
	}
	Status = XenBusIo->XsPrintf (XenBusIo, &Transaction, NodeName,
	"protocol", "%a", XEN_IO_PROTO_ABI_NATIVE);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to write protocol.\n"));
	goto AbortTransaction;
	}

	Status = XenBusIo->SetState (XenBusIo, &Transaction, XenbusStateConnected);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR, "XenPvBlk: Failed to switch state.\n"));
	goto AbortTransaction;
	}

	Status = XenBusIo->XsTransactionEnd (XenBusIo, &Transaction, FALSE);
	if (Status == XENSTORE_STATUS_EAGAIN) {
	goto Again;
	}

	XenBusIo->RegisterWatchBackend (XenBusIo, "state", &Dev->StateWatchToken);

	//
	// Waiting for backend
	//
	Status = XenPvBlkWaitForBackendState (Dev, XenbusStateConnected, &State);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: backend for %a/%d not available, rc=%d state=%d\n",
	XenBusIo->Type, XenBusIo->DeviceId, Status, State));
	goto Error2;
	}

	Status = XenBusReadUint64 (XenBusIo, "info", TRUE, &Value);
	if (Status != XENSTORE_STATUS_SUCCESS \|\| Value > MAX_UINT32) {
	goto Error2;
	}
	Dev->MediaInfo.VDiskInfo = (UINT32)Value;
	if (Dev->MediaInfo.VDiskInfo & VDISK_READONLY) {
	Dev->MediaInfo.ReadWrite = FALSE;
	} else {
	Dev->MediaInfo.ReadWrite = TRUE;
	}

	Status = XenBusReadUint64 (XenBusIo, "sectors", TRUE, &Dev->MediaInfo.Sectors);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	goto Error2;
	}

	Status = XenBusReadUint64 (XenBusIo, "sector-size", TRUE, &Value);
	if (Status != XENSTORE_STATUS_SUCCESS \|\| Value > MAX_UINT32) {
	goto Error2;
	}
	if ((UINT32)Value % 512 != 0) {
	//
	// This is not supported by the driver.
	//
	DEBUG ((DEBUG_ERROR, "XenPvBlk: Unsupported sector-size value %Lu, "
	"it must be a multiple of 512\n", Value));
	goto Error2;
	}
	Dev->MediaInfo.SectorSize = (UINT32)Value;

	// Default value
	Value = 0;
	XenBusReadUint64 (XenBusIo, "feature-barrier", TRUE, &Value);
	if (Value == 1) {
	Dev->MediaInfo.FeatureBarrier = TRUE;
	} else {
	Dev->MediaInfo.FeatureBarrier = FALSE;
	}

	// Default value
	Value = 0;
	XenBusReadUint64 (XenBusIo, "feature-flush-cache", TRUE, &Value);
	if (Value == 1) {
	Dev->MediaInfo.FeatureFlushCache = TRUE;
	} else {
	Dev->MediaInfo.FeatureFlushCache = FALSE;
	}

	DEBUG ((DEBUG_INFO, "XenPvBlk: New disk with %ld sectors of %d bytes\n",
	Dev->MediaInfo.Sectors, Dev->MediaInfo.SectorSize));

	*DevPtr = Dev;
	return EFI_SUCCESS;

	Error2:
	XenBusIo->UnregisterWatch (XenBusIo, Dev->StateWatchToken);
	XenBusIo->XsRemove (XenBusIo, XST_NIL, "ring-ref");
	XenBusIo->XsRemove (XenBusIo, XST_NIL, "event-channel");
	XenBusIo->XsRemove (XenBusIo, XST_NIL, "protocol");
	goto Error;
	AbortTransaction:
	XenBusIo->XsTransactionEnd (XenBusIo, &Transaction, TRUE);
	Error:
	XenPvBlockFree (Dev);
	return EFI_DEVICE_ERROR;
	}

	VOID
	XenPvBlockFrontShutdown (
	IN XEN_BLOCK_FRONT_DEVICE *Dev
	)
	{
	XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;
	XENSTORE_STATUS Status;
	UINT64 Value;

	XenPvBlockSync (Dev);

	Status = XenBusIo->SetState (XenBusIo, XST_NIL, XenbusStateClosing);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: error while changing state to Closing: %d\n",
	Status));
	goto Close;
	}

	Status = XenPvBlkWaitForBackendState (Dev, XenbusStateClosing, NULL);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: error while waiting for closing backend state: %d\n",
	Status));
	goto Close;
	}

	Status = XenBusIo->SetState (XenBusIo, XST_NIL, XenbusStateClosed);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: error while changing state to Closed: %d\n",
	Status));
	goto Close;
	}

	Status = XenPvBlkWaitForBackendState (Dev, XenbusStateClosed, NULL);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: error while waiting for closed backend state: %d\n",
	Status));
	goto Close;
	}

	Status = XenBusIo->SetState (XenBusIo, XST_NIL, XenbusStateInitialising);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: error while changing state to initialising: %d\n",
	Status));
	goto Close;
	}

	while (TRUE) {
	Status = XenBusReadUint64 (XenBusIo, "state", TRUE, &Value);
	if (Status != XENSTORE_STATUS_SUCCESS) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: error while waiting for new backend state: %d\n",
	Status));
	goto Close;
	}
	if (Value <= XenbusStateInitWait \|\| Value >= XenbusStateClosed) {
	break;
	}
	DEBUG ((DEBUG_INFO,
	"XenPvBlk: waiting backend state %d, current: %Lu\n",
	XenbusStateInitWait, Value));
	XenBusIo->WaitForWatch (XenBusIo, Dev->StateWatchToken);
	}

	Close:
	XenBusIo->UnregisterWatch (XenBusIo, Dev->StateWatchToken);
	XenBusIo->XsRemove (XenBusIo, XST_NIL, "ring-ref");
	XenBusIo->XsRemove (XenBusIo, XST_NIL, "event-channel");
	XenBusIo->XsRemove (XenBusIo, XST_NIL, "protocol");

	XenPvBlockFree (Dev);
	}

	STATIC
	VOID
	XenPvBlockWaitSlot (
	IN XEN_BLOCK_FRONT_DEVICE *Dev
	)
	{
	/* Wait for a slot */
	if (RING_FULL (&Dev->Ring)) {
	while (TRUE) {
	XenPvBlockAsyncIoPoll (Dev);
	if (!RING_FULL (&Dev->Ring)) {
	break;
	}
	/* Really no slot, could wait for an event on Dev->EventChannel. */
	}
	}
	}

	VOID
	XenPvBlockAsyncIo (
	IN OUT XEN_BLOCK_FRONT_IO *IoData,
	IN BOOLEAN IsWrite
	)
	{
	XEN_BLOCK_FRONT_DEVICE *Dev = IoData->Dev;
	XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;
	blkif_request_t *Request;
	RING_IDX RingIndex;
	BOOLEAN Notify;
	INT32 NumSegments, Index;
	UINTN Start, End;

	// Can't io at non-sector-aligned location
	ASSERT(!(IoData->Sector & ((Dev->MediaInfo.SectorSize / 512) - 1)));
	// Can't io non-sector-sized amounts
	ASSERT(!(IoData->Size & (Dev->MediaInfo.SectorSize - 1)));
	// Can't io non-sector-aligned buffer
	ASSERT(!((UINTN) IoData->Buffer & (Dev->MediaInfo.SectorSize - 1)));

	Start = (UINTN) IoData->Buffer & ~EFI_PAGE_MASK;
	End = ((UINTN) IoData->Buffer + IoData->Size + EFI_PAGE_SIZE - 1) & ~EFI_PAGE_MASK;
	IoData->NumRef = NumSegments = (INT32)((End - Start) / EFI_PAGE_SIZE);

	ASSERT (NumSegments <= BLKIF_MAX_SEGMENTS_PER_REQUEST);

	XenPvBlockWaitSlot (Dev);
	RingIndex = Dev->Ring.req_prod_pvt;
	Request = RING_GET_REQUEST (&Dev->Ring, RingIndex);

	Request->operation = IsWrite ? BLKIF_OP_WRITE : BLKIF_OP_READ;
	Request->nr_segments = (UINT8)NumSegments;
	Request->handle = Dev->DeviceId;
	Request->id = (UINTN) IoData;
	Request->sector_number = IoData->Sector;

	for (Index = 0; Index < NumSegments; Index++) {
	Request->seg[Index].first_sect = 0;
	Request->seg[Index].last_sect = EFI_PAGE_SIZE / 512 - 1;
	}
	Request->seg[0].first_sect = (UINT8)(((UINTN) IoData->Buffer & EFI_PAGE_MASK) / 512);
	Request->seg[NumSegments - 1].last_sect =
	(UINT8)((((UINTN) IoData->Buffer + IoData->Size - 1) & EFI_PAGE_MASK) / 512);
	for (Index = 0; Index < NumSegments; Index++) {
	UINTN Data = Start + Index * EFI_PAGE_SIZE;
	XenBusIo->GrantAccess (XenBusIo, Dev->DomainId,
	Data >> EFI_PAGE_SHIFT, IsWrite,
	&Request->seg[Index].gref);
	IoData->GrantRef[Index] = Request->seg[Index].gref;
	}

	Dev->Ring.req_prod_pvt = RingIndex + 1;

	MemoryFence ();
	RING_PUSH_REQUESTS_AND_CHECK_NOTIFY (&Dev->Ring, Notify);

	if (Notify) {
	UINT32 ReturnCode;
	ReturnCode = XenBusIo->EventChannelNotify (XenBusIo, Dev->EventChannel);
	if (ReturnCode != 0) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: Unexpected return value from EventChannelNotify: %d\n",
	ReturnCode));
	}
	}
	}

	EFI_STATUS
	XenPvBlockIo (
	IN OUT XEN_BLOCK_FRONT_IO *IoData,
	IN BOOLEAN IsWrite
	)
	{
	//
	// Status value that correspond to an IO in progress.
	//
	IoData->Status = EFI_ALREADY_STARTED;
	XenPvBlockAsyncIo (IoData, IsWrite);

	while (IoData->Status == EFI_ALREADY_STARTED) {
	XenPvBlockAsyncIoPoll (IoData->Dev);
	}

	return IoData->Status;
	}

	STATIC
	VOID
	XenPvBlockPushOperation (
	IN XEN_BLOCK_FRONT_DEVICE *Dev,
	IN UINT8 Operation,
	IN UINT64 Id
	)
	{
	INT32 Index;
	blkif_request_t *Request;
	BOOLEAN Notify;

	XenPvBlockWaitSlot (Dev);
	Index = Dev->Ring.req_prod_pvt;
	Request = RING_GET_REQUEST(&Dev->Ring, Index);
	Request->operation = Operation;
	Request->nr_segments = 0;
	Request->handle = Dev->DeviceId;
	Request->id = Id;
	/* Not needed anyway, but the backend will check it */
	Request->sector_number = 0;
	Dev->Ring.req_prod_pvt = Index + 1;
	MemoryFence ();
	RING_PUSH_REQUESTS_AND_CHECK_NOTIFY (&Dev->Ring, Notify);
	if (Notify) {
	XENBUS_PROTOCOL *XenBusIo = Dev->XenBusIo;
	UINT32 ReturnCode;
	ReturnCode = XenBusIo->EventChannelNotify (XenBusIo, Dev->EventChannel);
	if (ReturnCode != 0) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: Unexpected return value from EventChannelNotify: %d\n",
	ReturnCode));
	}
	}
	}

	VOID
	XenPvBlockSync (
	IN XEN_BLOCK_FRONT_DEVICE *Dev
	)
	{
	if (Dev->MediaInfo.ReadWrite) {
	if (Dev->MediaInfo.FeatureBarrier) {
	XenPvBlockPushOperation (Dev, BLKIF_OP_WRITE_BARRIER, 0);
	}

	if (Dev->MediaInfo.FeatureFlushCache) {
	XenPvBlockPushOperation (Dev, BLKIF_OP_FLUSH_DISKCACHE, 0);
	}
	}

	/* Note: This won't finish if another thread enqueues requests. */
	while (TRUE) {
	XenPvBlockAsyncIoPoll (Dev);
	if (RING_FREE_REQUESTS (&Dev->Ring) == RING_SIZE (&Dev->Ring)) {
	break;
	}
	}
	}

	VOID
	XenPvBlockAsyncIoPoll (
	IN XEN_BLOCK_FRONT_DEVICE *Dev
	)
	{
	RING_IDX ProducerIndex, ConsumerIndex;
	blkif_response_t *Response;
	INT32 More;

	do {
	ProducerIndex = Dev->Ring.sring->rsp_prod;
	/* Ensure we see queued responses up to 'ProducerIndex'. */
	MemoryFence ();
	ConsumerIndex = Dev->Ring.rsp_cons;

	while (ConsumerIndex != ProducerIndex) {
	XEN_BLOCK_FRONT_IO *IoData = NULL;
	INT16 Status;

	Response = RING_GET_RESPONSE (&Dev->Ring, ConsumerIndex);

	IoData = (VOID *) (UINTN) Response->id;
	Status = Response->status;

	switch (Response->operation) {
	case BLKIF_OP_READ:
	case BLKIF_OP_WRITE:
	{
	INT32 Index;

	if (Status != BLKIF_RSP_OKAY) {
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: "
	"%a error %d on %a at sector %Lx, num bytes %Lx\n",
	Response->operation == BLKIF_OP_READ ? "read" : "write",
	Status, IoData->Dev->NodeName,
	(UINT64)IoData->Sector,
	(UINT64)IoData->Size));
	}

	for (Index = 0; Index < IoData->NumRef; Index++) {
	Dev->XenBusIo->GrantEndAccess (Dev->XenBusIo, IoData->GrantRef[Index]);
	}

	break;
	}

	case BLKIF_OP_WRITE_BARRIER:
	if (Status != BLKIF_RSP_OKAY) {
	DEBUG ((DEBUG_ERROR, "XenPvBlk: write barrier error %d\n", Status));
	}
	break;
	case BLKIF_OP_FLUSH_DISKCACHE:
	if (Status != BLKIF_RSP_OKAY) {
	DEBUG ((DEBUG_ERROR, "XenPvBlk: flush error %d\n", Status));
	}
	break;

	default:
	DEBUG ((DEBUG_ERROR,
	"XenPvBlk: unrecognized block operation %d response (status %d)\n",
	Response->operation, Status));
	break;
	}

	Dev->Ring.rsp_cons = ++ConsumerIndex;
	if (IoData != NULL) {
	IoData->Status = Status ? EFI_DEVICE_ERROR : EFI_SUCCESS;
	}
	if (Dev->Ring.rsp_cons != ConsumerIndex) {
	/* We reentered, we must not continue here */
	break;
	}
	}

	RING_FINAL_CHECK_FOR_RESPONSES (&Dev->Ring, More);
	} while (More != 0);
	}