vd-ifs-internal.h revision e4f367251aede667a6de69baa54ef9eb5f150871
/** @file
* VD Container API - internal interfaces.
*/
/*
* Copyright (C) 2011 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
#ifndef ___VBox_VD_Interfaces_Internal_h
#define ___VBox_VD_Interfaces_Internal_h
#include <iprt/sg.h>
#include <VBox/vd-ifs.h>
RT_C_DECLS_BEGIN
/**
* Interface to get the parent state.
*
* Per-operation interface. Optional, present only if there is a parent, and
* used only internally for compacting.
*/
typedef struct VDINTERFACEPARENTSTATE
{
/**
* Common interface header.
*/
VDINTERFACE Core;
/**
* Read data callback.
*
* @return VBox status code.
* @return VERR_VD_NOT_OPENED if no image is opened in HDD container.
* @param pvUser The opaque data passed for the operation.
* @param uOffset Offset of first reading byte from start of disk.
* Must be aligned to a sector boundary.
* @param pvBuffer Pointer to buffer for reading data.
* @param cbBuffer Number of bytes to read.
* Must be aligned to a sector boundary.
*/
DECLR3CALLBACKMEMBER(int, pfnParentRead, (void *pvUser, uint64_t uOffset, void *pvBuffer, size_t cbBuffer));
} VDINTERFACEPARENTSTATE, *PVDINTERFACEPARENTSTATE;
/**
* Get parent state interface from interface list.
*
* @return Pointer to the first parent state interface in the list.
* @param pVDIfs Pointer to the interface list.
*/
DECLINLINE(PVDINTERFACEPARENTSTATE) VDIfParentStateGet(PVDINTERFACE pVDIfs)
{
PVDINTERFACE pIf = VDInterfaceGet(pVDIfs, VDINTERFACETYPE_PARENTSTATE);
/* Check that the interface descriptor is a progress interface. */
AssertMsgReturn( !pIf
|| ( (pIf->enmInterface == VDINTERFACETYPE_PARENTSTATE)
&& (pIf->cbSize == sizeof(VDINTERFACEPARENTSTATE))),
("Not a parent state interface"), NULL);
return (PVDINTERFACEPARENTSTATE)pIf;
}
/** Forward declaration. Only visible in the VBoxHDD module. */
/** I/O context */
typedef struct VDIOCTX *PVDIOCTX;
/** Storage backend handle. */
typedef struct VDIOSTORAGE *PVDIOSTORAGE;
/** Pointer to a storage backend handle. */
typedef PVDIOSTORAGE *PPVDIOSTORAGE;
/**
* Completion callback for meta/userdata reads or writes.
*
* @return VBox status code.
* VINF_SUCCESS if everything was successful and the transfer can continue.
* VERR_VD_ASYNC_IO_IN_PROGRESS if there is another data transfer pending.
* @param pBackendData The opaque backend data.
* @param pIoCtx I/O context associated with this request.
* @param pvUser Opaque user data passed during a read/write request.
* @param rcReq Status code for the completed request.
*/
typedef DECLCALLBACK(int) FNVDXFERCOMPLETED(void *pBackendData, PVDIOCTX pIoCtx, void *pvUser, int rcReq);
/** Pointer to FNVDXFERCOMPLETED() */
typedef FNVDXFERCOMPLETED *PFNVDXFERCOMPLETED;
/** Metadata transfer handle. */
typedef struct VDMETAXFER *PVDMETAXFER;
/** Pointer to a metadata transfer handle. */
typedef PVDMETAXFER *PPVDMETAXFER;
/**
* Internal I/O interface between the generic VD layer and the backends.
*
* Per-image. Always passed to backends.
*/
typedef struct VDINTERFACEIOINT
{
/**
* Common interface header.
*/
VDINTERFACE Core;
/**
* Open callback
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pszLocation Name of the location to open.
* @param fOpen Flags for opening the backend.
* See RTFILE_O_* #defines, inventing another set
* of open flags is not worth the mapping effort.
* @param ppStorage Where to store the storage handle.
*/
DECLR3CALLBACKMEMBER(int, pfnOpen, (void *pvUser, const char *pszLocation,
uint32_t fOpen, PPVDIOSTORAGE ppStorage));
/**
* Close callback.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pStorage The storage handle to close.
*/
DECLR3CALLBACKMEMBER(int, pfnClose, (void *pvUser, PVDIOSTORAGE pStorage));
/**
* Delete callback.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pcszFilename Name of the file to delete.
*/
DECLR3CALLBACKMEMBER(int, pfnDelete, (void *pvUser, const char *pcszFilename));
/**
* Move callback.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pcszSrc The path to the source file.
* @param pcszDst The path to the destination file.
* This file will be created.
* @param fMove A combination of the RTFILEMOVE_* flags.
*/
DECLR3CALLBACKMEMBER(int, pfnMove, (void *pvUser, const char *pcszSrc, const char *pcszDst, unsigned fMove));
/**
* Returns the free space on a disk.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pcszFilename Name of a file to identify the disk.
* @param pcbFreeSpace Where to store the free space of the disk.
*/
DECLR3CALLBACKMEMBER(int, pfnGetFreeSpace, (void *pvUser, const char *pcszFilename, int64_t *pcbFreeSpace));
/**
* Returns the last modification timestamp of a file.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pcszFilename Name of a file to identify the disk.
* @param pModificationTime Where to store the timestamp of the file.
*/
DECLR3CALLBACKMEMBER(int, pfnGetModificationTime, (void *pvUser, const char *pcszFilename, PRTTIMESPEC pModificationTime));
/**
* Returns the size of the opened storage backend.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pStorage The storage handle to get the size from.
* @param pcbSize Where to store the size of the storage backend.
*/
DECLR3CALLBACKMEMBER(int, pfnGetSize, (void *pvUser, PVDIOSTORAGE pStorage,
uint64_t *pcbSize));
/**
* Sets the size of the opened storage backend if possible.
*
* @return VBox status code.
* @retval VERR_NOT_SUPPORTED if the backend does not support this operation.
* @param pvUser The opaque data passed on container creation.
* @param pStorage The storage handle.
* @param cbSize The new size of the image.
*/
DECLR3CALLBACKMEMBER(int, pfnSetSize, (void *pvUser, PVDIOSTORAGE pStorage,
uint64_t cbSize));
/**
* Synchronous write callback.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pStorage The storage handle to use.
* @param uOffset The offset to start from.
* @param pvBuffer Pointer to the bits need to be written.
* @param cbBuffer How many bytes to write.
* @param pcbWritten Where to store how many bytes were actually written.
*
* @notes Do not use in code called from the async read/write entry points in the backends.
* This should be only used during open/close of images and for the support functions
* which are not called while a VM is running (pfnCompact).
*/
DECLR3CALLBACKMEMBER(int, pfnWriteSync, (void *pvUser, PVDIOSTORAGE pStorage, uint64_t uOffset,
const void *pvBuffer, size_t cbBuffer, size_t *pcbWritten));
/**
* Synchronous read callback.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pStorage The storage handle to use.
* @param uOffset The offset to start from.
* @param pvBuffer Where to store the read bits.
* @param cbBuffer How many bytes to read.
* @param pcbRead Where to store how many bytes were actually read.
*
* @notes See pfnWriteSync()
*/
DECLR3CALLBACKMEMBER(int, pfnReadSync, (void *pvUser, PVDIOSTORAGE pStorage, uint64_t uOffset,
void *pvBuffer, size_t cbBuffer, size_t *pcbRead));
/**
* Flush data to the storage backend.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pStorage The storage handle to flush.
*
* @notes See pfnWriteSync()
*/
DECLR3CALLBACKMEMBER(int, pfnFlushSync, (void *pvUser, PVDIOSTORAGE pStorage));
/**
* Initiate an asynchronous read request for user data.
*
* @return VBox status code.
* @param pvUser The opaque user data passed on container creation.
* @param pStorage The storage handle.
* @param uOffset The offset to start reading from.
* @param pIoCtx I/O context passed in VDAsyncRead/Write.
* @param cbRead How many bytes to read.
*/
DECLR3CALLBACKMEMBER(int, pfnReadUserAsync, (void *pvUser, PVDIOSTORAGE pStorage,
uint64_t uOffset, PVDIOCTX pIoCtx,
size_t cbRead));
/**
* Initiate an asynchronous write request for user data.
*
* @return VBox status code.
* @param pvUser The opaque user data passed on container creation.
* @param pStorage The storage handle.
* @param uOffset The offset to start writing to.
* @param pIoCtx I/O context passed in VDAsyncRead/Write
* @param cbWrite How many bytes to write.
* @param pfnCompleted Completion callback.
* @param pvCompleteUser Opaque user data passed in the completion callback.
*/
DECLR3CALLBACKMEMBER(int, pfnWriteUserAsync, (void *pvUser, PVDIOSTORAGE pStorage,
uint64_t uOffset, PVDIOCTX pIoCtx,
size_t cbWrite,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser));
/**
* Reads metadata asynchronously from storage.
* The current I/O context will be halted.
*
* @returns VBox status code.
* @param pvUser The opaque user data passed on container creation.
* @param pStorage The storage handle.
* @param uOffset Offset to start reading from.
* @param pvBuffer Where to store the data.
* @param cbBuffer How many bytes to read.
* @param pIoCtx The I/O context which triggered the read.
* @param ppMetaXfer Where to store the metadata transfer handle on success.
* @param pfnCompleted Completion callback.
* @param pvCompleteUser Opaque user data passed in the completion callback.
*/
DECLR3CALLBACKMEMBER(int, pfnReadMetaAsync, (void *pvUser, PVDIOSTORAGE pStorage,
uint64_t uOffset, void *pvBuffer,
size_t cbBuffer, PVDIOCTX pIoCtx,
PPVDMETAXFER ppMetaXfer,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser));
/**
* Writes metadata asynchronously to storage.
*
* @returns VBox status code.
* @param pvUser The opaque user data passed on container creation.
* @param pStorage The storage handle.
* @param uOffset Offset to start writing to.
* @param pvBuffer Written data.
* @param cbBuffer How many bytes to write.
* @param pIoCtx The I/O context which triggered the write.
* @param pfnCompleted Completion callback.
* @param pvCompleteUser Opaque user data passed in the completion callback.
*/
DECLR3CALLBACKMEMBER(int, pfnWriteMetaAsync, (void *pvUser, PVDIOSTORAGE pStorage,
uint64_t uOffset, void *pvBuffer,
size_t cbBuffer, PVDIOCTX pIoCtx,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser));
/**
* Releases a metadata transfer handle.
* The free space can be used for another transfer.
*
* @returns nothing.
* @param pvUser The opaque user data passed on container creation.
* @param pMetaXfer The metadata transfer handle to release.
*/
DECLR3CALLBACKMEMBER(void, pfnMetaXferRelease, (void *pvUser, PVDMETAXFER pMetaXfer));
/**
* Initiates an async flush request.
*
* @return VBox status code.
* @param pvUser The opaque data passed on container creation.
* @param pStorage The storage handle to flush.
* @param pIoCtx I/O context which triggered the flush.
* @param pfnCompleted Completion callback.
* @param pvCompleteUser Opaque user data passed in the completion callback.
*/
DECLR3CALLBACKMEMBER(int, pfnFlushAsync, (void *pvUser, PVDIOSTORAGE pStorage,
PVDIOCTX pIoCtx,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser));
/**
* Copies a buffer into the I/O context.
*
* @return Number of bytes copied.
* @param pvUser The opaque user data passed on container creation.
* @param pIoCtx I/O context to copy the data to.
* @param pvBuffer Buffer to copy.
* @param cbBuffer Number of bytes to copy.
*/
DECLR3CALLBACKMEMBER(size_t, pfnIoCtxCopyTo, (void *pvUser, PVDIOCTX pIoCtx,
void *pvBuffer, size_t cbBuffer));
/**
* Copies data from the I/O context into a buffer.
*
* @return Number of bytes copied.
* @param pvUser The opaque user data passed on container creation.
* @param pIoCtx I/O context to copy the data from.
* @param pvBuffer Destination buffer.
* @param cbBuffer Number of bytes to copy.
*/
DECLR3CALLBACKMEMBER(size_t, pfnIoCtxCopyFrom, (void *pvUser, PVDIOCTX pIoCtx,
void *pvBuffer, size_t cbBuffer));
/**
* Sets the buffer of the given context to a specific byte.
*
* @return Number of bytes set.
* @param pvUser The opaque user data passed on container creation.
* @param pIoCtx I/O context to copy the data from.
* @param ch The byte to set.
* @param cbSet Number of bytes to set.
*/
DECLR3CALLBACKMEMBER(size_t, pfnIoCtxSet, (void *pvUser, PVDIOCTX pIoCtx,
int ch, size_t cbSet));
/**
* Creates a segment array from the I/O context data buffer.
*
* @returns Number of bytes the array describes.
* @param pvUser The opaque user data passed on container creation.
* @param pIoCtx I/O context to copy the data from.
* @param paSeg The uninitialized segment array.
* If NULL pcSeg will contain the number of segments needed
* to describe the requested amount of data.
* @param pcSeg The number of segments the given array has.
* This will hold the actual number of entries needed upon return.
* @param cbData Number of bytes the new array should describe.
*/
DECLR3CALLBACKMEMBER(size_t, pfnIoCtxSegArrayCreate, (void *pvUser, PVDIOCTX pIoCtx,
PRTSGSEG paSeg, unsigned *pcSeg,
size_t cbData));
/**
* Marks the given number of bytes as completed and continues the I/O context.
*
* @returns nothing.
* @param pvUser The opaque user data passed on container creation.
* @param pIoCtx The I/O context.
* @param rcReq Status code the request completed with.
* @param cbCompleted Number of bytes completed.
*/
DECLR3CALLBACKMEMBER(void, pfnIoCtxCompleted, (void *pvUser, PVDIOCTX pIoCtx,
int rcReq, size_t cbCompleted));
} VDINTERFACEIOINT, *PVDINTERFACEIOINT;
/**
* Get internal I/O interface from interface list.
*
* @return Pointer to the first internal I/O interface in the list.
* @param pVDIfs Pointer to the interface list.
*/
DECLINLINE(PVDINTERFACEIOINT) VDIfIoIntGet(PVDINTERFACE pVDIfs)
{
PVDINTERFACE pIf = VDInterfaceGet(pVDIfs, VDINTERFACETYPE_IOINT);
/* Check that the interface descriptor is a progress interface. */
AssertMsgReturn( !pIf
|| ( (pIf->enmInterface == VDINTERFACETYPE_IOINT)
&& (pIf->cbSize == sizeof(VDINTERFACEIOINT))),
("Not an internal I/O interface"), NULL);
return (PVDINTERFACEIOINT)pIf;
}
DECLINLINE(int) vdIfIoIntFileOpen(PVDINTERFACEIOINT pIfIoInt, const char *pszFilename,
uint32_t fOpen, PPVDIOSTORAGE ppStorage)
{
return pIfIoInt->pfnOpen(pIfIoInt->Core.pvUser, pszFilename, fOpen, ppStorage);
}
DECLINLINE(int) vdIfIoIntFileClose(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage)
{
return pIfIoInt->pfnClose(pIfIoInt->Core.pvUser, pStorage);
}
DECLINLINE(int) vdIfIoIntFileDelete(PVDINTERFACEIOINT pIfIoInt, const char *pszFilename)
{
return pIfIoInt->pfnDelete(pIfIoInt->Core.pvUser, pszFilename);
}
DECLINLINE(int) vdIfIoIntFileMove(PVDINTERFACEIOINT pIfIoInt, const char *pszSrc,
const char *pszDst, unsigned fMove)
{
return pIfIoInt->pfnMove(pIfIoInt->Core.pvUser, pszSrc, pszDst, fMove);
}
DECLINLINE(int) vdIfIoIntFileGetFreeSpace(PVDINTERFACEIOINT pIfIoInt, const char *pszFilename,
int64_t *pcbFree)
{
return pIfIoInt->pfnGetFreeSpace(pIfIoInt->Core.pvUser, pszFilename, pcbFree);
}
DECLINLINE(int) vdIfIoIntFileGetModificationTime(PVDINTERFACEIOINT pIfIoInt, const char *pcszFilename,
PRTTIMESPEC pModificationTime)
{
return pIfIoInt->pfnGetModificationTime(pIfIoInt->Core.pvUser, pcszFilename,
pModificationTime);
}
DECLINLINE(int) vdIfIoIntFileGetSize(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
uint64_t *pcbSize)
{
return pIfIoInt->pfnGetSize(pIfIoInt->Core.pvUser, pStorage, pcbSize);
}
DECLINLINE(int) vdIfIoIntFileSetSize(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
uint64_t cbSize)
{
return pIfIoInt->pfnSetSize(pIfIoInt->Core.pvUser, pStorage, cbSize);
}
DECLINLINE(int) vdIfIoIntFileWriteSync(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
uint64_t uOffset, const void *pvBuffer, size_t cbBuffer,
size_t *pcbWritten)
{
return pIfIoInt->pfnWriteSync(pIfIoInt->Core.pvUser, pStorage, uOffset,
pvBuffer, cbBuffer, pcbWritten);
}
DECLINLINE(int) vdIfIoIntFileReadSync(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
uint64_t uOffset, void *pvBuffer, size_t cbBuffer,
size_t *pcbRead)
{
return pIfIoInt->pfnReadSync(pIfIoInt->Core.pvUser, pStorage, uOffset,
pvBuffer, cbBuffer, pcbRead);
}
DECLINLINE(int) vdIfIoIntFileFlushSync(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage)
{
return pIfIoInt->pfnFlushSync(pIfIoInt->Core.pvUser, pStorage);
}
DECLINLINE(int) vdIfIoIntFileReadUserAsync(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
uint64_t uOffset, PVDIOCTX pIoCtx, size_t cbRead)
{
return pIfIoInt->pfnReadUserAsync(pIfIoInt->Core.pvUser, pStorage,
uOffset, pIoCtx, cbRead);
}
DECLINLINE(int) vdIfIoIntFileWriteUserAsync(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
uint64_t uOffset, PVDIOCTX pIoCtx, size_t cbWrite,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
return pIfIoInt->pfnWriteUserAsync(pIfIoInt->Core.pvUser, pStorage,
uOffset, pIoCtx, cbWrite, pfnComplete,
pvCompleteUser);
}
DECLINLINE(int) vdIfIoIntFileReadMetaAsync(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
uint64_t uOffset, void *pvBuffer,
size_t cbBuffer, PVDIOCTX pIoCtx,
PPVDMETAXFER ppMetaXfer,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
return pIfIoInt->pfnReadMetaAsync(pIfIoInt->Core.pvUser, pStorage,
uOffset, pvBuffer, cbBuffer, pIoCtx,
ppMetaXfer, pfnComplete, pvCompleteUser);
}
DECLINLINE(int) vdIfIoIntFileWriteMetaAsync(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
uint64_t uOffset, void *pvBuffer,
size_t cbBuffer, PVDIOCTX pIoCtx,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
return pIfIoInt->pfnWriteMetaAsync(pIfIoInt->Core.pvUser, pStorage,
uOffset, pvBuffer, cbBuffer, pIoCtx,
pfnComplete, pvCompleteUser);
}
DECLINLINE(void) vdIfIoIntMetaXferRelease(PVDINTERFACEIOINT pIfIoInt, PVDMETAXFER pMetaXfer)
{
pIfIoInt->pfnMetaXferRelease(pIfIoInt->Core.pvUser, pMetaXfer);
}
DECLINLINE(int) vdIfIoIntFileFlushAsync(PVDINTERFACEIOINT pIfIoInt, PVDIOSTORAGE pStorage,
PVDIOCTX pIoCtx, PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
return pIfIoInt->pfnFlushAsync(pIfIoInt->Core.pvUser, pStorage, pIoCtx, pfnComplete,
pvCompleteUser);
}
DECLINLINE(size_t) vdIfIoIntIoCtxSet(PVDINTERFACEIOINT pIfIoInt, PVDIOCTX pIoCtx,
int ch, size_t cbSet)
{
return pIfIoInt->pfnIoCtxSet(pIfIoInt->Core.pvUser, pIoCtx, ch, cbSet);
}
RT_C_DECLS_END
/** @} */
#endif