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/* $Id: VD.cpp $ */
/** @file
* VD - Virtual disk container implementation.
*/
/*
* Copyright (C) 2006-2020 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.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP LOG_GROUP_VD
#include <VBox/vd.h>
#include <VBox/err.h>
#include <VBox/sup.h>
#include <VBox/log.h>
#include <iprt/alloc.h>
#include <iprt/assert.h>
#include <iprt/uuid.h>
#include <iprt/file.h>
#include <iprt/string.h>
#include <iprt/asm.h>
#include <iprt/param.h>
#include <iprt/path.h>
#include <iprt/sg.h>
#include <iprt/semaphore.h>
#include <iprt/vector.h>
#include "VDInternal.h"
/** Buffer size used for merging images. */
#define VD_MERGE_BUFFER_SIZE (16 * _1M)
/** Maximum number of segments in one I/O task. */
#define VD_IO_TASK_SEGMENTS_MAX 64
/** Threshold after not recently used blocks are removed from the list. */
#define VD_DISCARD_REMOVE_THRESHOLD (10 * _1M) /** @todo experiment */
/**
* VD async I/O interface storage descriptor.
*/
typedef struct VDIIOFALLBACKSTORAGE
{
/** File handle. */
RTFILE File;
/** Completion callback. */
PFNVDCOMPLETED pfnCompleted;
/** Thread for async access. */
RTTHREAD ThreadAsync;
} VDIIOFALLBACKSTORAGE, *PVDIIOFALLBACKSTORAGE;
/**
* uModified bit flags.
*/
#define VD_IMAGE_MODIFIED_FLAG RT_BIT(0)
#define VD_IMAGE_MODIFIED_FIRST RT_BIT(1)
#define VD_IMAGE_MODIFIED_DISABLE_UUID_UPDATE RT_BIT(2)
# define VD_IS_LOCKED(a_pDisk) \
do \
{ \
NOREF(a_pDisk); \
AssertMsg((a_pDisk)->fLocked, \
("Lock not held\n"));\
} while(0)
/**
* VBox parent read descriptor, used internally for compaction.
*/
typedef struct VDPARENTSTATEDESC
{
/** Pointer to disk descriptor. */
PVDISK pDisk;
/** Pointer to image descriptor. */
PVDIMAGE pImage;
} VDPARENTSTATEDESC, *PVDPARENTSTATEDESC;
/**
* Transfer direction.
*/
typedef enum VDIOCTXTXDIR
{
/** Read */
VDIOCTXTXDIR_READ = 0,
/** Write */
VDIOCTXTXDIR_WRITE,
/** Flush */
VDIOCTXTXDIR_FLUSH,
/** Discard */
VDIOCTXTXDIR_DISCARD,
/** 32bit hack */
VDIOCTXTXDIR_32BIT_HACK = 0x7fffffff
} VDIOCTXTXDIR, *PVDIOCTXTXDIR;
/** Transfer function */
typedef DECLCALLBACK(int) FNVDIOCTXTRANSFER (PVDIOCTX pIoCtx);
/** Pointer to a transfer function. */
typedef FNVDIOCTXTRANSFER *PFNVDIOCTXTRANSFER;
/**
* I/O context
*/
typedef struct VDIOCTX
{
/** Pointer to the next I/O context. */
struct VDIOCTX * volatile pIoCtxNext;
/** Disk this is request is for. */
PVDISK pDisk;
/** Return code. */
int rcReq;
/** Various flags for the I/O context. */
uint32_t fFlags;
/** Number of data transfers currently pending. */
volatile uint32_t cDataTransfersPending;
/** How many meta data transfers are pending. */
volatile uint32_t cMetaTransfersPending;
/** Flag whether the request finished */
volatile bool fComplete;
/** Temporary allocated memory which is freed
* when the context completes. */
void *pvAllocation;
/** Transfer function. */
PFNVDIOCTXTRANSFER pfnIoCtxTransfer;
/** Next transfer part after the current one completed. */
PFNVDIOCTXTRANSFER pfnIoCtxTransferNext;
/** Transfer direction */
VDIOCTXTXDIR enmTxDir;
/** Request type dependent data. */
union
{
/** I/O request (read/write). */
struct
{
/** Number of bytes left until this context completes. */
volatile uint32_t cbTransferLeft;
/** Current offset */
volatile uint64_t uOffset;
/** Number of bytes to transfer */
volatile size_t cbTransfer;
/** Current image in the chain. */
PVDIMAGE pImageCur;
/** Start image to read from. pImageCur is reset to this
* value after it reached the first image in the chain. */
PVDIMAGE pImageStart;
/** S/G buffer */
RTSGBUF SgBuf;
/** Number of bytes to clear in the buffer before the current read. */
size_t cbBufClear;
/** Number of images to read. */
unsigned cImagesRead;
/** Override for the parent image to start reading from. */
PVDIMAGE pImageParentOverride;
/** Original offset of the transfer - required for filtering read requests. */
uint64_t uOffsetXferOrig;
/** Original size of the transfer - required for fitlering read requests. */
size_t cbXferOrig;
} Io;
/** Discard requests. */
struct
{
/** Pointer to the range descriptor array. */
PCRTRANGE paRanges;
/** Number of ranges in the array. */
unsigned cRanges;
/** Range descriptor index which is processed. */
unsigned idxRange;
/** Start offset to discard currently. */
uint64_t offCur;
/** How many bytes left to discard in the current range. */
size_t cbDiscardLeft;
/** How many bytes to discard in the current block (<= cbDiscardLeft). */
size_t cbThisDiscard;
/** Discard block handled currently. */
PVDDISCARDBLOCK pBlock;
} Discard;
} Req;
/** Parent I/O context if any. Sets the type of the context (root/child) */
PVDIOCTX pIoCtxParent;
/** Type dependent data (root/child) */
union
{
/** Root data */
struct
{
/** Completion callback */
PFNVDASYNCTRANSFERCOMPLETE pfnComplete;
/** User argument 1 passed on completion. */
void *pvUser1;
/** User argument 2 passed on completion. */
void *pvUser2;
} Root;
/** Child data */
struct
{
/** Saved start offset */
uint64_t uOffsetSaved;
/** Saved transfer size */
size_t cbTransferLeftSaved;
/** Number of bytes transferred from the parent if this context completes. */
size_t cbTransferParent;
/** Number of bytes to pre read */
size_t cbPreRead;
/** Number of bytes to post read. */
size_t cbPostRead;
/** Number of bytes to write left in the parent. */
size_t cbWriteParent;
/** Write type dependent data. */
union
{
/** Optimized */
struct
{
/** Bytes to fill to satisfy the block size. Not part of the virtual disk. */
size_t cbFill;
/** Bytes to copy instead of reading from the parent */
size_t cbWriteCopy;
/** Bytes to read from the image. */
size_t cbReadImage;
} Optimized;
} Write;
} Child;
} Type;
} VDIOCTX;
/** Default flags for an I/O context, i.e. unblocked and async. */
#define VDIOCTX_FLAGS_DEFAULT (0)
/** Flag whether the context is blocked. */
#define VDIOCTX_FLAGS_BLOCKED RT_BIT_32(0)
/** Flag whether the I/O context is using synchronous I/O. */
#define VDIOCTX_FLAGS_SYNC RT_BIT_32(1)
/** Flag whether the read should update the cache. */
#define VDIOCTX_FLAGS_READ_UPDATE_CACHE RT_BIT_32(2)
/** Flag whether free blocks should be zeroed.
* If false and no image has data for sepcified
* range VERR_VD_BLOCK_FREE is returned for the I/O context.
* Note that unallocated blocks are still zeroed
* if at least one image has valid data for a part
* of the range.
*/
#define VDIOCTX_FLAGS_ZERO_FREE_BLOCKS RT_BIT_32(3)
/** Don't free the I/O context when complete because
* it was alloacted elsewhere (stack, ...). */
#define VDIOCTX_FLAGS_DONT_FREE RT_BIT_32(4)
/** Don't set the modified flag for this I/O context when writing. */
#define VDIOCTX_FLAGS_DONT_SET_MODIFIED_FLAG RT_BIT_32(5)
/** The write filter was applied already and shouldn't be applied a second time.
* Used at the beginning of vdWriteHelperAsync() because it might be called
* multiple times.
*/
#define VDIOCTX_FLAGS_WRITE_FILTER_APPLIED RT_BIT_32(6)
/** NIL I/O context pointer value. */
#define NIL_VDIOCTX ((PVDIOCTX)0)
/**
* List node for deferred I/O contexts.
*/
typedef struct VDIOCTXDEFERRED
{
/** Node in the list of deferred requests.
* A request can be deferred if the image is growing
* and the request accesses the same range or if
* the backend needs to read or write metadata from the disk
* before it can continue. */
RTLISTNODE NodeDeferred;
/** I/O context this entry points to. */
PVDIOCTX pIoCtx;
} VDIOCTXDEFERRED, *PVDIOCTXDEFERRED;
/**
* I/O task.
*/
typedef struct VDIOTASK
{
/** Next I/O task waiting in the list. */
struct VDIOTASK * volatile pNext;
/** Storage this task belongs to. */
PVDIOSTORAGE pIoStorage;
/** Optional completion callback. */
PFNVDXFERCOMPLETED pfnComplete;
/** Opaque user data. */
void *pvUser;
/** Completion status code for the task. */
int rcReq;
/** Flag whether this is a meta data transfer. */
bool fMeta;
/** Type dependent data. */
union
{
/** User data transfer. */
struct
{
/** Number of bytes this task transferred. */
uint32_t cbTransfer;
/** Pointer to the I/O context the task belongs. */
PVDIOCTX pIoCtx;
} User;
/** Meta data transfer. */
struct
{
/** Meta transfer this task is for. */
PVDMETAXFER pMetaXfer;
} Meta;
} Type;
} VDIOTASK;
/**
* Storage handle.
*/
typedef struct VDIOSTORAGE
{
/** Image I/O state this storage handle belongs to. */
PVDIO pVDIo;
/** AVL tree for pending async metadata transfers. */
PAVLRFOFFTREE pTreeMetaXfers;
/** Storage handle */
void *pStorage;
} VDIOSTORAGE;
/**
* Metadata transfer.
*
* @note This entry can't be freed if either the list is not empty or
* the reference counter is not 0.
* The assumption is that the backends don't need to read huge amounts of
* metadata to complete a transfer so the additional memory overhead should
* be relatively small.
*/
typedef struct VDMETAXFER
{
/** AVL core for fast search (the file offset is the key) */
AVLRFOFFNODECORE Core;
/** I/O storage for this transfer. */
PVDIOSTORAGE pIoStorage;
/** Flags. */
uint32_t fFlags;
/** List of I/O contexts waiting for this metadata transfer to complete. */
RTLISTNODE ListIoCtxWaiting;
/** Number of references to this entry. */
unsigned cRefs;
/** Size of the data stored with this entry. */
size_t cbMeta;
/** Shadow buffer which is used in case a write is still active and other
* writes update the shadow buffer. */
uint8_t *pbDataShw;
/** List of I/O contexts updating the shadow buffer while there is a write
* in progress. */
RTLISTNODE ListIoCtxShwWrites;
/** Data stored - variable size. */
uint8_t abData[1];
} VDMETAXFER;
/**
* The transfer direction for the metadata.
*/
#define VDMETAXFER_TXDIR_MASK 0x3
#define VDMETAXFER_TXDIR_NONE 0x0
#define VDMETAXFER_TXDIR_WRITE 0x1
#define VDMETAXFER_TXDIR_READ 0x2
#define VDMETAXFER_TXDIR_FLUSH 0x3
#define VDMETAXFER_TXDIR_GET(flags) ((flags) & VDMETAXFER_TXDIR_MASK)
#define VDMETAXFER_TXDIR_SET(flags, dir) ((flags) = (flags & ~VDMETAXFER_TXDIR_MASK) | (dir))
/** Forward declaration of the async discard helper. */
static DECLCALLBACK(int) vdDiscardHelperAsync(PVDIOCTX pIoCtx);
static DECLCALLBACK(int) vdWriteHelperAsync(PVDIOCTX pIoCtx);
static void vdDiskProcessBlockedIoCtx(PVDISK pDisk);
static int vdDiskUnlock(PVDISK pDisk, PVDIOCTX pIoCtxRc);
static DECLCALLBACK(void) vdIoCtxSyncComplete(void *pvUser1, void *pvUser2, int rcReq);
/**
* internal: issue error message.
*/
static int vdError(PVDISK pDisk, int rc, RT_SRC_POS_DECL,
const char *pszFormat, ...)
{
va_list va;
va_start(va, pszFormat);
if (pDisk->pInterfaceError)
pDisk->pInterfaceError->pfnError(pDisk->pInterfaceError->Core.pvUser, rc, RT_SRC_POS_ARGS, pszFormat, va);
va_end(va);
return rc;
}
/**
* internal: thread synchronization, start read.
*/
DECLINLINE(int) vdThreadStartRead(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
if (RT_UNLIKELY(pDisk->pInterfaceThreadSync))
rc = pDisk->pInterfaceThreadSync->pfnStartRead(pDisk->pInterfaceThreadSync->Core.pvUser);
return rc;
}
/**
* internal: thread synchronization, finish read.
*/
DECLINLINE(int) vdThreadFinishRead(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
if (RT_UNLIKELY(pDisk->pInterfaceThreadSync))
rc = pDisk->pInterfaceThreadSync->pfnFinishRead(pDisk->pInterfaceThreadSync->Core.pvUser);
return rc;
}
/**
* internal: thread synchronization, start write.
*/
DECLINLINE(int) vdThreadStartWrite(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
if (RT_UNLIKELY(pDisk->pInterfaceThreadSync))
rc = pDisk->pInterfaceThreadSync->pfnStartWrite(pDisk->pInterfaceThreadSync->Core.pvUser);
return rc;
}
/**
* internal: thread synchronization, finish write.
*/
DECLINLINE(int) vdThreadFinishWrite(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
if (RT_UNLIKELY(pDisk->pInterfaceThreadSync))
rc = pDisk->pInterfaceThreadSync->pfnFinishWrite(pDisk->pInterfaceThreadSync->Core.pvUser);
return rc;
}
/**
* internal: add image structure to the end of images list.
*/
static void vdAddImageToList(PVDISK pDisk, PVDIMAGE pImage)
{
pImage->pPrev = NULL;
pImage->pNext = NULL;
if (pDisk->pBase)
{
Assert(pDisk->cImages > 0);
pImage->pPrev = pDisk->pLast;
pDisk->pLast->pNext = pImage;
pDisk->pLast = pImage;
}
else
{
Assert(pDisk->cImages == 0);
pDisk->pBase = pImage;
pDisk->pLast = pImage;
}
pDisk->cImages++;
}
/**
* internal: remove image structure from the images list.
*/
static void vdRemoveImageFromList(PVDISK pDisk, PVDIMAGE pImage)
{
Assert(pDisk->cImages > 0);
if (pImage->pPrev)
pImage->pPrev->pNext = pImage->pNext;
else
pDisk->pBase = pImage->pNext;
if (pImage->pNext)
pImage->pNext->pPrev = pImage->pPrev;
else
pDisk->pLast = pImage->pPrev;
pImage->pPrev = NULL;
pImage->pNext = NULL;
pDisk->cImages--;
}
/**
* Release a referene to the filter decrementing the counter and destroying the filter
* when the counter reaches zero.
*
* @returns The new reference count.
* @param pFilter The filter to release.
*/
static uint32_t vdFilterRelease(PVDFILTER pFilter)
{
uint32_t cRefs = ASMAtomicDecU32(&pFilter->cRefs);
if (!cRefs)
{
pFilter->pBackend->pfnDestroy(pFilter->pvBackendData);
RTMemFree(pFilter);
}
return cRefs;
}
/**
* Increments the reference counter of the given filter.
*
* @return The new reference count.
* @param pFilter The filter.
*/
static uint32_t vdFilterRetain(PVDFILTER pFilter)
{
return ASMAtomicIncU32(&pFilter->cRefs);
}
/**
* internal: find image by index into the images list.
*/
static PVDIMAGE vdGetImageByNumber(PVDISK pDisk, unsigned nImage)
{
PVDIMAGE pImage = pDisk->pBase;
if (nImage == VD_LAST_IMAGE)
return pDisk->pLast;
while (pImage && nImage)
{
pImage = pImage->pNext;
nImage--;
}
return pImage;
}
/**
* Creates a new region list from the given one converting to match the flags if necessary.
*
* @returns VBox status code.
* @param pRegionList The region list to convert from.
* @param fFlags The flags for the new region list.
* @param ppRegionList Where to store the new region list on success.
*/
static int vdRegionListConv(PCVDREGIONLIST pRegionList, uint32_t fFlags, PPVDREGIONLIST ppRegionList)
{
int rc = VINF_SUCCESS;
PVDREGIONLIST pRegionListNew = (PVDREGIONLIST)RTMemDup(pRegionList,
RT_UOFFSETOF_DYN(VDREGIONLIST, aRegions[pRegionList->cRegions]));
if (RT_LIKELY(pRegionListNew))
{
/* Do we have to convert anything? */
if (pRegionList->fFlags != fFlags)
{
uint64_t offRegionNext = 0;
pRegionListNew->fFlags = fFlags;
for (unsigned i = 0; i < pRegionListNew->cRegions; i++)
{
PVDREGIONDESC pRegion = &pRegionListNew->aRegions[i];
if ( (fFlags & VD_REGION_LIST_F_LOC_SIZE_BLOCKS)
&& !(pRegionList->fFlags & VD_REGION_LIST_F_LOC_SIZE_BLOCKS))
{
Assert(!(pRegion->cRegionBlocksOrBytes % pRegion->cbBlock));
/* Convert from bytes to logical blocks. */
pRegion->offRegion = offRegionNext;
pRegion->cRegionBlocksOrBytes = pRegion->cRegionBlocksOrBytes / pRegion->cbBlock;
offRegionNext += pRegion->cRegionBlocksOrBytes;
}
else
{
/* Convert from logical blocks to bytes. */
pRegion->offRegion = offRegionNext;
pRegion->cRegionBlocksOrBytes = pRegion->cRegionBlocksOrBytes * pRegion->cbBlock;
offRegionNext += pRegion->cRegionBlocksOrBytes;
}
}
}
*ppRegionList = pRegionListNew;
}
else
rc = VERR_NO_MEMORY;
return rc;
}
/**
* Returns the virtual size of the image in bytes.
*
* @returns Size of the given image in bytes.
* @param pImage The image to get the size from.
*/
static uint64_t vdImageGetSize(PVDIMAGE pImage)
{
uint64_t cbImage = 0;
if (pImage->cbImage == VD_IMAGE_SIZE_UNINITIALIZED)
{
PCVDREGIONLIST pRegionList = NULL;
int rc = pImage->Backend->pfnQueryRegions(pImage->pBackendData, &pRegionList);
if (RT_SUCCESS(rc))
{
if (pRegionList->fFlags & VD_REGION_LIST_F_LOC_SIZE_BLOCKS)
{
PVDREGIONLIST pRegionListConv = NULL;
rc = vdRegionListConv(pRegionList, 0, &pRegionListConv);
if (RT_SUCCESS(rc))
{
for (uint32_t i = 0; i < pRegionListConv->cRegions; i++)
cbImage += pRegionListConv->aRegions[i].cRegionBlocksOrBytes;
VDRegionListFree(pRegionListConv);
}
}
else
for (uint32_t i = 0; i < pRegionList->cRegions; i++)
cbImage += pRegionList->aRegions[i].cRegionBlocksOrBytes;
AssertPtr(pImage->Backend->pfnRegionListRelease);
pImage->Backend->pfnRegionListRelease(pImage->pBackendData, pRegionList);
pImage->cbImage = cbImage; /* Cache the value. */
}
}
else
cbImage = pImage->cbImage;
return cbImage;
}
/**
* Applies the filter chain to the given write request.
*
* @returns VBox status code.
* @param pDisk The HDD container.
* @param uOffset The start offset of the write.
* @param cbWrite Number of bytes to write.
* @param pIoCtx The I/O context associated with the request.
*/
static int vdFilterChainApplyWrite(PVDISK pDisk, uint64_t uOffset, size_t cbWrite,
PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
VD_IS_LOCKED(pDisk);
PVDFILTER pFilter;
RTListForEach(&pDisk->ListFilterChainWrite, pFilter, VDFILTER, ListNodeChainWrite)
{
rc = pFilter->pBackend->pfnFilterWrite(pFilter->pvBackendData, uOffset, cbWrite, pIoCtx);
if (RT_FAILURE(rc))
break;
/* Reset S/G buffer for the next filter. */
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
}
return rc;
}
/**
* Applies the filter chain to the given read request.
*
* @returns VBox status code.
* @param pDisk The HDD container.
* @param uOffset The start offset of the read.
* @param cbRead Number of bytes read.
* @param pIoCtx The I/O context associated with the request.
*/
static int vdFilterChainApplyRead(PVDISK pDisk, uint64_t uOffset, size_t cbRead,
PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
VD_IS_LOCKED(pDisk);
/* Reset buffer before starting. */
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
PVDFILTER pFilter;
RTListForEach(&pDisk->ListFilterChainRead, pFilter, VDFILTER, ListNodeChainRead)
{
rc = pFilter->pBackend->pfnFilterRead(pFilter->pvBackendData, uOffset, cbRead, pIoCtx);
if (RT_FAILURE(rc))
break;
/* Reset S/G buffer for the next filter. */
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
}
return rc;
}
DECLINLINE(void) vdIoCtxRootComplete(PVDISK pDisk, PVDIOCTX pIoCtx)
{
if ( RT_SUCCESS(pIoCtx->rcReq)
&& pIoCtx->enmTxDir == VDIOCTXTXDIR_READ)
pIoCtx->rcReq = vdFilterChainApplyRead(pDisk, pIoCtx->Req.Io.uOffsetXferOrig,
pIoCtx->Req.Io.cbXferOrig, pIoCtx);
pIoCtx->Type.Root.pfnComplete(pIoCtx->Type.Root.pvUser1,
pIoCtx->Type.Root.pvUser2,
pIoCtx->rcReq);
}
/**
* Initialize the structure members of a given I/O context.
*/
DECLINLINE(void) vdIoCtxInit(PVDIOCTX pIoCtx, PVDISK pDisk, VDIOCTXTXDIR enmTxDir,
uint64_t uOffset, size_t cbTransfer, PVDIMAGE pImageStart,
PCRTSGBUF pcSgBuf, void *pvAllocation,
PFNVDIOCTXTRANSFER pfnIoCtxTransfer, uint32_t fFlags)
{
pIoCtx->pDisk = pDisk;
pIoCtx->enmTxDir = enmTxDir;
pIoCtx->Req.Io.cbTransferLeft = (uint32_t)cbTransfer; Assert((uint32_t)cbTransfer == cbTransfer);
pIoCtx->Req.Io.uOffset = uOffset;
pIoCtx->Req.Io.cbTransfer = cbTransfer;
pIoCtx->Req.Io.pImageStart = pImageStart;
pIoCtx->Req.Io.pImageCur = pImageStart;
pIoCtx->Req.Io.cbBufClear = 0;
pIoCtx->Req.Io.pImageParentOverride = NULL;
pIoCtx->Req.Io.uOffsetXferOrig = uOffset;
pIoCtx->Req.Io.cbXferOrig = cbTransfer;
pIoCtx->cDataTransfersPending = 0;
pIoCtx->cMetaTransfersPending = 0;
pIoCtx->fComplete = false;
pIoCtx->fFlags = fFlags;
pIoCtx->pvAllocation = pvAllocation;
pIoCtx->pfnIoCtxTransfer = pfnIoCtxTransfer;
pIoCtx->pfnIoCtxTransferNext = NULL;
pIoCtx->rcReq = VINF_SUCCESS;
pIoCtx->pIoCtxParent = NULL;
/* There is no S/G list for a flush request. */
if ( enmTxDir != VDIOCTXTXDIR_FLUSH
&& enmTxDir != VDIOCTXTXDIR_DISCARD)
RTSgBufClone(&pIoCtx->Req.Io.SgBuf, pcSgBuf);
else
memset(&pIoCtx->Req.Io.SgBuf, 0, sizeof(RTSGBUF));
}
/**
* Internal: Tries to read the desired range from the given cache.
*
* @returns VBox status code.
* @retval VERR_VD_BLOCK_FREE if the block is not in the cache.
* pcbRead will be set to the number of bytes not in the cache.
* Everything thereafter might be in the cache.
* @param pCache The cache to read from.
* @param uOffset Offset of the virtual disk to read.
* @param cbRead How much to read.
* @param pIoCtx The I/O context to read into.
* @param pcbRead Where to store the number of bytes actually read.
* On success this indicates the number of bytes read from the cache.
* If VERR_VD_BLOCK_FREE is returned this gives the number of bytes
* which are not in the cache.
* In both cases everything beyond this value
* might or might not be in the cache.
*/
static int vdCacheReadHelper(PVDCACHE pCache, uint64_t uOffset,
size_t cbRead, PVDIOCTX pIoCtx, size_t *pcbRead)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("pCache=%#p uOffset=%llu pIoCtx=%p cbRead=%zu pcbRead=%#p\n",
pCache, uOffset, pIoCtx, cbRead, pcbRead));
AssertPtr(pCache);
AssertPtr(pcbRead);
rc = pCache->Backend->pfnRead(pCache->pBackendData, uOffset, cbRead,
pIoCtx, pcbRead);
LogFlowFunc(("returns rc=%Rrc pcbRead=%zu\n", rc, *pcbRead));
return rc;
}
/**
* Internal: Writes data for the given block into the cache.
*
* @returns VBox status code.
* @param pCache The cache to write to.
* @param uOffset Offset of the virtual disk to write to the cache.
* @param cbWrite How much to write.
* @param pIoCtx The I/O context to write from.
* @param pcbWritten How much data could be written, optional.
*/
static int vdCacheWriteHelper(PVDCACHE pCache, uint64_t uOffset, size_t cbWrite,
PVDIOCTX pIoCtx, size_t *pcbWritten)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("pCache=%#p uOffset=%llu pIoCtx=%p cbWrite=%zu pcbWritten=%#p\n",
pCache, uOffset, pIoCtx, cbWrite, pcbWritten));
AssertPtr(pCache);
AssertPtr(pIoCtx);
Assert(cbWrite > 0);
if (pcbWritten)
rc = pCache->Backend->pfnWrite(pCache->pBackendData, uOffset, cbWrite,
pIoCtx, pcbWritten);
else
{
size_t cbWritten = 0;
do
{
rc = pCache->Backend->pfnWrite(pCache->pBackendData, uOffset, cbWrite,
pIoCtx, &cbWritten);
uOffset += cbWritten;
cbWrite -= cbWritten;
} while ( cbWrite
&& ( RT_SUCCESS(rc)
|| rc == VERR_VD_ASYNC_IO_IN_PROGRESS));
}
LogFlowFunc(("returns rc=%Rrc pcbWritten=%zu\n",
rc, pcbWritten ? *pcbWritten : cbWrite));
return rc;
}
/**
* Creates a new empty discard state.
*
* @returns Pointer to the new discard state or NULL if out of memory.
*/
static PVDDISCARDSTATE vdDiscardStateCreate(void)
{
PVDDISCARDSTATE pDiscard = (PVDDISCARDSTATE)RTMemAllocZ(sizeof(VDDISCARDSTATE));
if (pDiscard)
{
RTListInit(&pDiscard->ListLru);
pDiscard->pTreeBlocks = (PAVLRU64TREE)RTMemAllocZ(sizeof(AVLRU64TREE));
if (!pDiscard->pTreeBlocks)
{
RTMemFree(pDiscard);
pDiscard = NULL;
}
}
return pDiscard;
}
/**
* Removes the least recently used blocks from the waiting list until
* the new value is reached.
*
* @returns VBox status code.
* @param pDisk VD disk container.
* @param pDiscard The discard state.
* @param cbDiscardingNew How many bytes should be waiting on success.
* The number of bytes waiting can be less.
*/
static int vdDiscardRemoveBlocks(PVDISK pDisk, PVDDISCARDSTATE pDiscard, size_t cbDiscardingNew)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("pDisk=%#p pDiscard=%#p cbDiscardingNew=%zu\n",
pDisk, pDiscard, cbDiscardingNew));
while (pDiscard->cbDiscarding > cbDiscardingNew)
{
PVDDISCARDBLOCK pBlock = RTListGetLast(&pDiscard->ListLru, VDDISCARDBLOCK, NodeLru);
Assert(!RTListIsEmpty(&pDiscard->ListLru));
/* Go over the allocation bitmap and mark all discarded sectors as unused. */
uint64_t offStart = pBlock->Core.Key;
uint32_t idxStart = 0;
size_t cbLeft = pBlock->cbDiscard;
bool fAllocated = ASMBitTest(pBlock->pbmAllocated, idxStart);
uint32_t cSectors = (uint32_t)(pBlock->cbDiscard / 512);
while (cbLeft > 0)
{
int32_t idxEnd;
size_t cbThis = cbLeft;
if (fAllocated)
{
/* Check for the first unallocated bit. */
idxEnd = ASMBitNextClear(pBlock->pbmAllocated, cSectors, idxStart);
if (idxEnd != -1)
{
cbThis = (idxEnd - idxStart) * 512;
fAllocated = false;
}
}
else
{
/* Mark as unused and check for the first set bit. */
idxEnd = ASMBitNextSet(pBlock->pbmAllocated, cSectors, idxStart);
if (idxEnd != -1)
cbThis = (idxEnd - idxStart) * 512;
VDIOCTX IoCtx;
vdIoCtxInit(&IoCtx, pDisk, VDIOCTXTXDIR_DISCARD, 0, 0, NULL,
NULL, NULL, NULL, VDIOCTX_FLAGS_SYNC);
rc = pDisk->pLast->Backend->pfnDiscard(pDisk->pLast->pBackendData,
&IoCtx, offStart, cbThis, NULL,
NULL, &cbThis, NULL,
VD_DISCARD_MARK_UNUSED);
if (RT_FAILURE(rc))
break;
fAllocated = true;
}
idxStart = idxEnd;
offStart += cbThis;
cbLeft -= cbThis;
}
if (RT_FAILURE(rc))
break;
PVDDISCARDBLOCK pBlockRemove = (PVDDISCARDBLOCK)RTAvlrU64RangeRemove(pDiscard->pTreeBlocks, pBlock->Core.Key);
Assert(pBlockRemove == pBlock); NOREF(pBlockRemove);
RTListNodeRemove(&pBlock->NodeLru);
pDiscard->cbDiscarding -= pBlock->cbDiscard;
RTMemFree(pBlock->pbmAllocated);
RTMemFree(pBlock);
}
Assert(RT_FAILURE(rc) || pDiscard->cbDiscarding <= cbDiscardingNew);
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
/**
* Destroys the current discard state, writing any waiting blocks to the image.
*
* @returns VBox status code.
* @param pDisk VD disk container.
*/
static int vdDiscardStateDestroy(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
if (pDisk->pDiscard)
{
rc = vdDiscardRemoveBlocks(pDisk, pDisk->pDiscard, 0 /* Remove all blocks. */);
AssertRC(rc);
RTMemFree(pDisk->pDiscard->pTreeBlocks);
RTMemFree(pDisk->pDiscard);
pDisk->pDiscard = NULL;
}
return rc;
}
/**
* Marks the given range as allocated in the image.
* Required if there are discards in progress and a write to a block which can get discarded
* is written to.
*
* @returns VBox status code.
* @param pDisk VD container data.
* @param uOffset First byte to mark as allocated.
* @param cbRange Number of bytes to mark as allocated.
*/
static int vdDiscardSetRangeAllocated(PVDISK pDisk, uint64_t uOffset, size_t cbRange)
{
PVDDISCARDSTATE pDiscard = pDisk->pDiscard;
int rc = VINF_SUCCESS;
if (pDiscard)
{
do
{
size_t cbThisRange = cbRange;
PVDDISCARDBLOCK pBlock = (PVDDISCARDBLOCK)RTAvlrU64RangeGet(pDiscard->pTreeBlocks, uOffset);
if (pBlock)
{
int32_t idxStart, idxEnd;
Assert(!(cbThisRange % 512));
Assert(!((uOffset - pBlock->Core.Key) % 512));
cbThisRange = RT_MIN(cbThisRange, pBlock->Core.KeyLast - uOffset + 1);
idxStart = (uOffset - pBlock->Core.Key) / 512;
idxEnd = idxStart + (int32_t)(cbThisRange / 512);
ASMBitSetRange(pBlock->pbmAllocated, idxStart, idxEnd);
}
else
{
pBlock = (PVDDISCARDBLOCK)RTAvlrU64GetBestFit(pDiscard->pTreeBlocks, uOffset, true);
if (pBlock)
cbThisRange = RT_MIN(cbThisRange, pBlock->Core.Key - uOffset);
}
Assert(cbRange >= cbThisRange);
uOffset += cbThisRange;
cbRange -= cbThisRange;
} while (cbRange != 0);
}
return rc;
}
DECLINLINE(PVDIOCTX) vdIoCtxAlloc(PVDISK pDisk, VDIOCTXTXDIR enmTxDir,
uint64_t uOffset, size_t cbTransfer,
PVDIMAGE pImageStart,PCRTSGBUF pcSgBuf,
void *pvAllocation, PFNVDIOCTXTRANSFER pfnIoCtxTransfer,
uint32_t fFlags)
{
PVDIOCTX pIoCtx = NULL;
pIoCtx = (PVDIOCTX)RTMemCacheAlloc(pDisk->hMemCacheIoCtx);
if (RT_LIKELY(pIoCtx))
{
vdIoCtxInit(pIoCtx, pDisk, enmTxDir, uOffset, cbTransfer, pImageStart,
pcSgBuf, pvAllocation, pfnIoCtxTransfer, fFlags);
}
return pIoCtx;
}
DECLINLINE(PVDIOCTX) vdIoCtxRootAlloc(PVDISK pDisk, VDIOCTXTXDIR enmTxDir,
uint64_t uOffset, size_t cbTransfer,
PVDIMAGE pImageStart, PCRTSGBUF pcSgBuf,
PFNVDASYNCTRANSFERCOMPLETE pfnComplete,
void *pvUser1, void *pvUser2,
void *pvAllocation,
PFNVDIOCTXTRANSFER pfnIoCtxTransfer,
uint32_t fFlags)
{
PVDIOCTX pIoCtx = vdIoCtxAlloc(pDisk, enmTxDir, uOffset, cbTransfer, pImageStart,
pcSgBuf, pvAllocation, pfnIoCtxTransfer, fFlags);
if (RT_LIKELY(pIoCtx))
{
pIoCtx->pIoCtxParent = NULL;
pIoCtx->Type.Root.pfnComplete = pfnComplete;
pIoCtx->Type.Root.pvUser1 = pvUser1;
pIoCtx->Type.Root.pvUser2 = pvUser2;
}
LogFlow(("Allocated root I/O context %#p\n", pIoCtx));
return pIoCtx;
}
DECLINLINE(void) vdIoCtxDiscardInit(PVDIOCTX pIoCtx, PVDISK pDisk, PCRTRANGE paRanges,
unsigned cRanges, PFNVDASYNCTRANSFERCOMPLETE pfnComplete,
void *pvUser1, void *pvUser2, void *pvAllocation,
PFNVDIOCTXTRANSFER pfnIoCtxTransfer, uint32_t fFlags)
{
pIoCtx->pIoCtxNext = NULL;
pIoCtx->pDisk = pDisk;
pIoCtx->enmTxDir = VDIOCTXTXDIR_DISCARD;
pIoCtx->cDataTransfersPending = 0;
pIoCtx->cMetaTransfersPending = 0;
pIoCtx->fComplete = false;
pIoCtx->fFlags = fFlags;
pIoCtx->pvAllocation = pvAllocation;
pIoCtx->pfnIoCtxTransfer = pfnIoCtxTransfer;
pIoCtx->pfnIoCtxTransferNext = NULL;
pIoCtx->rcReq = VINF_SUCCESS;
pIoCtx->Req.Discard.paRanges = paRanges;
pIoCtx->Req.Discard.cRanges = cRanges;
pIoCtx->Req.Discard.idxRange = 0;
pIoCtx->Req.Discard.cbDiscardLeft = 0;
pIoCtx->Req.Discard.offCur = 0;
pIoCtx->Req.Discard.cbThisDiscard = 0;
pIoCtx->pIoCtxParent = NULL;
pIoCtx->Type.Root.pfnComplete = pfnComplete;
pIoCtx->Type.Root.pvUser1 = pvUser1;
pIoCtx->Type.Root.pvUser2 = pvUser2;
}
DECLINLINE(PVDIOCTX) vdIoCtxDiscardAlloc(PVDISK pDisk, PCRTRANGE paRanges,
unsigned cRanges,
PFNVDASYNCTRANSFERCOMPLETE pfnComplete,
void *pvUser1, void *pvUser2,
void *pvAllocation,
PFNVDIOCTXTRANSFER pfnIoCtxTransfer,
uint32_t fFlags)
{
PVDIOCTX pIoCtx = NULL;
pIoCtx = (PVDIOCTX)RTMemCacheAlloc(pDisk->hMemCacheIoCtx);
if (RT_LIKELY(pIoCtx))
{
vdIoCtxDiscardInit(pIoCtx, pDisk, paRanges, cRanges, pfnComplete, pvUser1,
pvUser2, pvAllocation, pfnIoCtxTransfer, fFlags);
}
LogFlow(("Allocated discard I/O context %#p\n", pIoCtx));
return pIoCtx;
}
DECLINLINE(PVDIOCTX) vdIoCtxChildAlloc(PVDISK pDisk, VDIOCTXTXDIR enmTxDir,
uint64_t uOffset, size_t cbTransfer,
PVDIMAGE pImageStart, PCRTSGBUF pcSgBuf,
PVDIOCTX pIoCtxParent, size_t cbTransferParent,
size_t cbWriteParent, void *pvAllocation,
PFNVDIOCTXTRANSFER pfnIoCtxTransfer)
{
PVDIOCTX pIoCtx = vdIoCtxAlloc(pDisk, enmTxDir, uOffset, cbTransfer, pImageStart,
pcSgBuf, pvAllocation, pfnIoCtxTransfer, pIoCtxParent->fFlags & ~VDIOCTX_FLAGS_DONT_FREE);
AssertPtr(pIoCtxParent);
Assert(!pIoCtxParent->pIoCtxParent);
if (RT_LIKELY(pIoCtx))
{
pIoCtx->pIoCtxParent = pIoCtxParent;
pIoCtx->Type.Child.uOffsetSaved = uOffset;
pIoCtx->Type.Child.cbTransferLeftSaved = cbTransfer;
pIoCtx->Type.Child.cbTransferParent = cbTransferParent;
pIoCtx->Type.Child.cbWriteParent = cbWriteParent;
}
LogFlow(("Allocated child I/O context %#p\n", pIoCtx));
return pIoCtx;
}
DECLINLINE(PVDIOTASK) vdIoTaskUserAlloc(PVDIOSTORAGE pIoStorage, PFNVDXFERCOMPLETED pfnComplete, void *pvUser, PVDIOCTX pIoCtx, uint32_t cbTransfer)
{
PVDIOTASK pIoTask = NULL;
pIoTask = (PVDIOTASK)RTMemCacheAlloc(pIoStorage->pVDIo->pDisk->hMemCacheIoTask);
if (pIoTask)
{
pIoTask->pIoStorage = pIoStorage;
pIoTask->pfnComplete = pfnComplete;
pIoTask->pvUser = pvUser;
pIoTask->fMeta = false;
pIoTask->Type.User.cbTransfer = cbTransfer;
pIoTask->Type.User.pIoCtx = pIoCtx;
}
return pIoTask;
}
DECLINLINE(PVDIOTASK) vdIoTaskMetaAlloc(PVDIOSTORAGE pIoStorage, PFNVDXFERCOMPLETED pfnComplete, void *pvUser, PVDMETAXFER pMetaXfer)
{
PVDIOTASK pIoTask = NULL;
pIoTask = (PVDIOTASK)RTMemCacheAlloc(pIoStorage->pVDIo->pDisk->hMemCacheIoTask);
if (pIoTask)
{
pIoTask->pIoStorage = pIoStorage;
pIoTask->pfnComplete = pfnComplete;
pIoTask->pvUser = pvUser;
pIoTask->fMeta = true;
pIoTask->Type.Meta.pMetaXfer = pMetaXfer;
}
return pIoTask;
}
DECLINLINE(void) vdIoCtxFree(PVDISK pDisk, PVDIOCTX pIoCtx)
{
Log(("Freeing I/O context %#p\n", pIoCtx));
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_DONT_FREE))
{
if (pIoCtx->pvAllocation)
RTMemFree(pIoCtx->pvAllocation);
#ifdef DEBUG
memset(&pIoCtx->pDisk, 0xff, sizeof(void *));
#endif
RTMemCacheFree(pDisk->hMemCacheIoCtx, pIoCtx);
}
}
DECLINLINE(void) vdIoTaskFree(PVDISK pDisk, PVDIOTASK pIoTask)
{
#ifdef DEBUG
memset(pIoTask, 0xff, sizeof(VDIOTASK));
#endif
RTMemCacheFree(pDisk->hMemCacheIoTask, pIoTask);
}
DECLINLINE(void) vdIoCtxChildReset(PVDIOCTX pIoCtx)
{
AssertPtr(pIoCtx->pIoCtxParent);
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
pIoCtx->Req.Io.uOffset = pIoCtx->Type.Child.uOffsetSaved;
pIoCtx->Req.Io.cbTransferLeft = (uint32_t)pIoCtx->Type.Child.cbTransferLeftSaved;
Assert((uint32_t)pIoCtx->Type.Child.cbTransferLeftSaved == pIoCtx->Type.Child.cbTransferLeftSaved);
}
DECLINLINE(PVDMETAXFER) vdMetaXferAlloc(PVDIOSTORAGE pIoStorage, uint64_t uOffset, size_t cb)
{
PVDMETAXFER pMetaXfer = (PVDMETAXFER)RTMemAlloc(RT_UOFFSETOF_DYN(VDMETAXFER, abData[cb]));
if (RT_LIKELY(pMetaXfer))
{
pMetaXfer->Core.Key = uOffset;
pMetaXfer->Core.KeyLast = uOffset + cb - 1;
pMetaXfer->fFlags = VDMETAXFER_TXDIR_NONE;
pMetaXfer->cbMeta = cb;
pMetaXfer->pIoStorage = pIoStorage;
pMetaXfer->cRefs = 0;
pMetaXfer->pbDataShw = NULL;
RTListInit(&pMetaXfer->ListIoCtxWaiting);
RTListInit(&pMetaXfer->ListIoCtxShwWrites);
}
return pMetaXfer;
}
DECLINLINE(void) vdIoCtxAddToWaitingList(volatile PVDIOCTX *ppList, PVDIOCTX pIoCtx)
{
/* Put it on the waiting list. */
PVDIOCTX pNext = ASMAtomicUoReadPtrT(ppList, PVDIOCTX);
PVDIOCTX pHeadOld;
pIoCtx->pIoCtxNext = pNext;
while (!ASMAtomicCmpXchgExPtr(ppList, pIoCtx, pNext, &pHeadOld))
{
pNext = pHeadOld;
Assert(pNext != pIoCtx);
pIoCtx->pIoCtxNext = pNext;
ASMNopPause();
}
}
DECLINLINE(void) vdIoCtxDefer(PVDISK pDisk, PVDIOCTX pIoCtx)
{
LogFlowFunc(("Deferring I/O context pIoCtx=%#p\n", pIoCtx));
Assert(!pIoCtx->pIoCtxParent && !(pIoCtx->fFlags & VDIOCTX_FLAGS_BLOCKED));
pIoCtx->fFlags |= VDIOCTX_FLAGS_BLOCKED;
vdIoCtxAddToWaitingList(&pDisk->pIoCtxBlockedHead, pIoCtx);
}
static size_t vdIoCtxCopy(PVDIOCTX pIoCtxDst, PVDIOCTX pIoCtxSrc, size_t cbData)
{
return RTSgBufCopy(&pIoCtxDst->Req.Io.SgBuf, &pIoCtxSrc->Req.Io.SgBuf, cbData);
}
#if 0 /* unused */
static int vdIoCtxCmp(PVDIOCTX pIoCtx1, PVDIOCTX pIoCtx2, size_t cbData)
{
return RTSgBufCmp(&pIoCtx1->Req.Io.SgBuf, &pIoCtx2->Req.Io.SgBuf, cbData);
}
#endif
static size_t vdIoCtxCopyTo(PVDIOCTX pIoCtx, const uint8_t *pbData, size_t cbData)
{
return RTSgBufCopyFromBuf(&pIoCtx->Req.Io.SgBuf, pbData, cbData);
}
static size_t vdIoCtxCopyFrom(PVDIOCTX pIoCtx, uint8_t *pbData, size_t cbData)
{
return RTSgBufCopyToBuf(&pIoCtx->Req.Io.SgBuf, pbData, cbData);
}
static size_t vdIoCtxSet(PVDIOCTX pIoCtx, uint8_t ch, size_t cbData)
{
return RTSgBufSet(&pIoCtx->Req.Io.SgBuf, ch, cbData);
}
/**
* Returns whether the given I/O context has completed.
*
* @returns Flag whether the I/O context is complete.
* @param pIoCtx The I/O context to check.
*/
DECLINLINE(bool) vdIoCtxIsComplete(PVDIOCTX pIoCtx)
{
if ( !pIoCtx->cMetaTransfersPending
&& !pIoCtx->cDataTransfersPending
&& !pIoCtx->pfnIoCtxTransfer)
return true;
/*
* We complete the I/O context in case of an error
* if there is no I/O task pending.
*/
if ( RT_FAILURE(pIoCtx->rcReq)
&& !pIoCtx->cMetaTransfersPending
&& !pIoCtx->cDataTransfersPending)
return true;
return false;
}
/**
* Returns whether the given I/O context is blocked due to a metadata transfer
* or because the backend blocked it.
*
* @returns Flag whether the I/O context is blocked.
* @param pIoCtx The I/O context to check.
*/
DECLINLINE(bool) vdIoCtxIsBlocked(PVDIOCTX pIoCtx)
{
/* Don't change anything if there is a metadata transfer pending or we are blocked. */
if ( pIoCtx->cMetaTransfersPending
|| (pIoCtx->fFlags & VDIOCTX_FLAGS_BLOCKED))
return true;
return false;
}
/**
* Process the I/O context, core method which assumes that the I/O context
* acquired the lock.
*
* @returns VBox status code.
* @param pIoCtx I/O context to process.
*/
static int vdIoCtxProcessLocked(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
VD_IS_LOCKED(pIoCtx->pDisk);
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
if (!vdIoCtxIsComplete(pIoCtx))
{
if (!vdIoCtxIsBlocked(pIoCtx))
{
if (pIoCtx->pfnIoCtxTransfer)
{
/* Call the transfer function advancing to the next while there is no error. */
while ( pIoCtx->pfnIoCtxTransfer
&& !pIoCtx->cMetaTransfersPending
&& RT_SUCCESS(rc))
{
LogFlowFunc(("calling transfer function %#p\n", pIoCtx->pfnIoCtxTransfer));
rc = pIoCtx->pfnIoCtxTransfer(pIoCtx);
/* Advance to the next part of the transfer if the current one succeeded. */
if (RT_SUCCESS(rc))
{
pIoCtx->pfnIoCtxTransfer = pIoCtx->pfnIoCtxTransferNext;
pIoCtx->pfnIoCtxTransferNext = NULL;
}
}
}
if ( RT_SUCCESS(rc)
&& !pIoCtx->cMetaTransfersPending
&& !pIoCtx->cDataTransfersPending
&& !(pIoCtx->fFlags & VDIOCTX_FLAGS_BLOCKED))
rc = VINF_VD_ASYNC_IO_FINISHED;
else if ( RT_SUCCESS(rc)
|| rc == VERR_VD_NOT_ENOUGH_METADATA
|| rc == VERR_VD_IOCTX_HALT)
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
else if ( RT_FAILURE(rc)
&& (rc != VERR_VD_ASYNC_IO_IN_PROGRESS))
{
ASMAtomicCmpXchgS32(&pIoCtx->rcReq, rc, VINF_SUCCESS);
/*
* The I/O context completed if we have an error and there is no data
* or meta data transfer pending.
*/
if ( !pIoCtx->cMetaTransfersPending
&& !pIoCtx->cDataTransfersPending)
rc = VINF_VD_ASYNC_IO_FINISHED;
else
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
}
}
else
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
}
else
rc = VINF_VD_ASYNC_IO_FINISHED;
LogFlowFunc(("pIoCtx=%#p rc=%Rrc cDataTransfersPending=%u cMetaTransfersPending=%u fComplete=%RTbool\n",
pIoCtx, rc, pIoCtx->cDataTransfersPending, pIoCtx->cMetaTransfersPending,
pIoCtx->fComplete));
return rc;
}
/**
* Processes the list of waiting I/O contexts.
*
* @returns VBox status code, only valid if pIoCtxRc is not NULL, treat as void
* function otherwise.
* @param pDisk The disk structure.
* @param pIoCtxRc An I/O context handle which waits on the list. When processed
* The status code is returned. NULL if there is no I/O context
* to return the status code for.
*/
static int vdDiskProcessWaitingIoCtx(PVDISK pDisk, PVDIOCTX pIoCtxRc)
{
int rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
LogFlowFunc(("pDisk=%#p pIoCtxRc=%#p\n", pDisk, pIoCtxRc));
VD_IS_LOCKED(pDisk);
/* Get the waiting list and process it in FIFO order. */
PVDIOCTX pIoCtxHead = ASMAtomicXchgPtrT(&pDisk->pIoCtxHead, NULL, PVDIOCTX);
/* Reverse it. */
PVDIOCTX pCur = pIoCtxHead;
pIoCtxHead = NULL;
while (pCur)
{
PVDIOCTX pInsert = pCur;
pCur = pCur->pIoCtxNext;
pInsert->pIoCtxNext = pIoCtxHead;
pIoCtxHead = pInsert;
}
/* Process now. */
pCur = pIoCtxHead;
while (pCur)
{
int rcTmp;
PVDIOCTX pTmp = pCur;
pCur = pCur->pIoCtxNext;
pTmp->pIoCtxNext = NULL;
/*
* Need to clear the sync flag here if there is a new I/O context
* with it set and the context is not given in pIoCtxRc.
* This happens most likely on a different thread and that one shouldn't
* process the context synchronously.
*
* The thread who issued the context will wait on the event semaphore
* anyway which is signalled when the completion handler is called.
*/
if ( pTmp->fFlags & VDIOCTX_FLAGS_SYNC
&& pTmp != pIoCtxRc)
pTmp->fFlags &= ~VDIOCTX_FLAGS_SYNC;
rcTmp = vdIoCtxProcessLocked(pTmp);
if (pTmp == pIoCtxRc)
{
if ( rcTmp == VINF_VD_ASYNC_IO_FINISHED
&& RT_SUCCESS(pTmp->rcReq)
&& pTmp->enmTxDir == VDIOCTXTXDIR_READ)
{
int rc2 = vdFilterChainApplyRead(pDisk, pTmp->Req.Io.uOffsetXferOrig,
pTmp->Req.Io.cbXferOrig, pTmp);
if (RT_FAILURE(rc2))
rcTmp = rc2;
}
/* The given I/O context was processed, pass the return code to the caller. */
if ( rcTmp == VINF_VD_ASYNC_IO_FINISHED
&& (pTmp->fFlags & VDIOCTX_FLAGS_SYNC))
rc = pTmp->rcReq;
else
rc = rcTmp;
}
else if ( rcTmp == VINF_VD_ASYNC_IO_FINISHED
&& ASMAtomicCmpXchgBool(&pTmp->fComplete, true, false))
{
LogFlowFunc(("Waiting I/O context completed pTmp=%#p\n", pTmp));
vdThreadFinishWrite(pDisk);
bool fFreeCtx = RT_BOOL(!(pTmp->fFlags & VDIOCTX_FLAGS_DONT_FREE));
vdIoCtxRootComplete(pDisk, pTmp);
if (fFreeCtx)
vdIoCtxFree(pDisk, pTmp);
}
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
/**
* Processes the list of blocked I/O contexts.
*
* @returns nothing.
* @param pDisk The disk structure.
*/
static void vdDiskProcessBlockedIoCtx(PVDISK pDisk)
{
LogFlowFunc(("pDisk=%#p\n", pDisk));
VD_IS_LOCKED(pDisk);
/* Get the waiting list and process it in FIFO order. */
PVDIOCTX pIoCtxHead = ASMAtomicXchgPtrT(&pDisk->pIoCtxBlockedHead, NULL, PVDIOCTX);
/* Reverse it. */
PVDIOCTX pCur = pIoCtxHead;
pIoCtxHead = NULL;
while (pCur)
{
PVDIOCTX pInsert = pCur;
pCur = pCur->pIoCtxNext;
pInsert->pIoCtxNext = pIoCtxHead;
pIoCtxHead = pInsert;
}
/* Process now. */
pCur = pIoCtxHead;
while (pCur)
{
int rc;
PVDIOCTX pTmp = pCur;
pCur = pCur->pIoCtxNext;
pTmp->pIoCtxNext = NULL;
Assert(!pTmp->pIoCtxParent);
Assert(pTmp->fFlags & VDIOCTX_FLAGS_BLOCKED);
pTmp->fFlags &= ~VDIOCTX_FLAGS_BLOCKED;
rc = vdIoCtxProcessLocked(pTmp);
if ( rc == VINF_VD_ASYNC_IO_FINISHED
&& ASMAtomicCmpXchgBool(&pTmp->fComplete, true, false))
{
LogFlowFunc(("Waiting I/O context completed pTmp=%#p\n", pTmp));
vdThreadFinishWrite(pDisk);
bool fFreeCtx = RT_BOOL(!(pTmp->fFlags & VDIOCTX_FLAGS_DONT_FREE));
vdIoCtxRootComplete(pDisk, pTmp);
if (fFreeCtx)
vdIoCtxFree(pDisk, pTmp);
}
}
LogFlowFunc(("returns\n"));
}
/**
* Processes the I/O context trying to lock the criticial section.
* The context is deferred if the critical section is busy.
*
* @returns VBox status code.
* @param pIoCtx The I/O context to process.
*/
static int vdIoCtxProcessTryLockDefer(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
PVDISK pDisk = pIoCtx->pDisk;
Log(("Defer pIoCtx=%#p\n", pIoCtx));
/* Put it on the waiting list first. */
vdIoCtxAddToWaitingList(&pDisk->pIoCtxHead, pIoCtx);
if (ASMAtomicCmpXchgBool(&pDisk->fLocked, true, false))
{
/* Leave it again, the context will be processed just before leaving the lock. */
LogFlowFunc(("Successfully acquired the lock\n"));
rc = vdDiskUnlock(pDisk, pIoCtx);
}
else
{
LogFlowFunc(("Lock is held\n"));
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
}
return rc;
}
/**
* Process the I/O context in a synchronous manner, waiting
* for it to complete.
*
* @returns VBox status code of the completed request.
* @param pIoCtx The sync I/O context.
* @param hEventComplete Event sempahore to wait on for completion.
*/
static int vdIoCtxProcessSync(PVDIOCTX pIoCtx, RTSEMEVENT hEventComplete)
{
int rc = VINF_SUCCESS;
PVDISK pDisk = pIoCtx->pDisk;
LogFlowFunc(("pIoCtx=%p\n", pIoCtx));
AssertMsg(pIoCtx->fFlags & (VDIOCTX_FLAGS_SYNC | VDIOCTX_FLAGS_DONT_FREE),
("I/O context is not marked as synchronous\n"));
rc = vdIoCtxProcessTryLockDefer(pIoCtx);
if (rc == VINF_VD_ASYNC_IO_FINISHED)
rc = VINF_SUCCESS;
if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
{
rc = RTSemEventWait(hEventComplete, RT_INDEFINITE_WAIT);
AssertRC(rc);
}
rc = pIoCtx->rcReq;
vdIoCtxFree(pDisk, pIoCtx);
return rc;
}
DECLINLINE(bool) vdIoCtxIsDiskLockOwner(PVDISK pDisk, PVDIOCTX pIoCtx)
{
return pDisk->pIoCtxLockOwner == pIoCtx;
}
static int vdIoCtxLockDisk(PVDISK pDisk, PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
VD_IS_LOCKED(pDisk);
LogFlowFunc(("pDisk=%#p pIoCtx=%#p\n", pDisk, pIoCtx));
if (!ASMAtomicCmpXchgPtr(&pDisk->pIoCtxLockOwner, pIoCtx, NIL_VDIOCTX))
{
Assert(pDisk->pIoCtxLockOwner != pIoCtx); /* No nesting allowed. */
vdIoCtxDefer(pDisk, pIoCtx);
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
}
LogFlowFunc(("returns -> %Rrc\n", rc));
return rc;
}
static void vdIoCtxUnlockDisk(PVDISK pDisk, PVDIOCTX pIoCtx, bool fProcessBlockedReqs)
{
RT_NOREF1(pIoCtx);
LogFlowFunc(("pDisk=%#p pIoCtx=%#p fProcessBlockedReqs=%RTbool\n",
pDisk, pIoCtx, fProcessBlockedReqs));
VD_IS_LOCKED(pDisk);
LogFlow(("Unlocking disk lock owner is %#p\n", pDisk->pIoCtxLockOwner));
Assert(pDisk->pIoCtxLockOwner == pIoCtx);
ASMAtomicXchgPtrT(&pDisk->pIoCtxLockOwner, NIL_VDIOCTX, PVDIOCTX);
if (fProcessBlockedReqs)
{
/* Process any blocked writes if the current request didn't caused another growing. */
vdDiskProcessBlockedIoCtx(pDisk);
}
LogFlowFunc(("returns\n"));
}
/**
* Internal: Reads a given amount of data from the image chain of the disk.
**/
static int vdDiskReadHelper(PVDISK pDisk, PVDIMAGE pImage, PVDIMAGE pImageParentOverride,
uint64_t uOffset, size_t cbRead, PVDIOCTX pIoCtx, size_t *pcbThisRead)
{
RT_NOREF1(pDisk);
int rc = VINF_SUCCESS;
size_t cbThisRead = cbRead;
AssertPtr(pcbThisRead);
*pcbThisRead = 0;
/*
* Try to read from the given image.
* If the block is not allocated read from override chain if present.
*/
rc = pImage->Backend->pfnRead(pImage->pBackendData,
uOffset, cbThisRead, pIoCtx,
&cbThisRead);
if (rc == VERR_VD_BLOCK_FREE)
{
for (PVDIMAGE pCurrImage = pImageParentOverride ? pImageParentOverride : pImage->pPrev;
pCurrImage != NULL && rc == VERR_VD_BLOCK_FREE;
pCurrImage = pCurrImage->pPrev)
{
rc = pCurrImage->Backend->pfnRead(pCurrImage->pBackendData,
uOffset, cbThisRead, pIoCtx,
&cbThisRead);
}
}
if (RT_SUCCESS(rc) || rc == VERR_VD_BLOCK_FREE)
*pcbThisRead = cbThisRead;
return rc;
}
/**
* internal: read the specified amount of data in whatever blocks the backend
* will give us - async version.
*/
static DECLCALLBACK(int) vdReadHelperAsync(PVDIOCTX pIoCtx)
{
int rc;
PVDISK pDisk = pIoCtx->pDisk;
size_t cbToRead = pIoCtx->Req.Io.cbTransfer;
uint64_t uOffset = pIoCtx->Req.Io.uOffset;
PVDIMAGE pCurrImage = pIoCtx->Req.Io.pImageCur;
PVDIMAGE pImageParentOverride = pIoCtx->Req.Io.pImageParentOverride;
unsigned cImagesRead = pIoCtx->Req.Io.cImagesRead;
size_t cbThisRead;
/*
* Check whether there is a full block write in progress which was not allocated.
* Defer I/O if the range interferes but only if it does not belong to the
* write doing the allocation.
*/
if ( pDisk->pIoCtxLockOwner != NIL_VDIOCTX
&& uOffset >= pDisk->uOffsetStartLocked
&& uOffset < pDisk->uOffsetEndLocked
&& ( !pIoCtx->pIoCtxParent
|| pIoCtx->pIoCtxParent != pDisk->pIoCtxLockOwner))
{
Log(("Interferring read while allocating a new block => deferring read\n"));
vdIoCtxDefer(pDisk, pIoCtx);
return VERR_VD_ASYNC_IO_IN_PROGRESS;
}
/* Loop until all reads started or we have a backend which needs to read metadata. */
do
{
/* Search for image with allocated block. Do not attempt to read more
* than the previous reads marked as valid. Otherwise this would return
* stale data when different block sizes are used for the images. */
cbThisRead = cbToRead;
if ( pDisk->pCache
&& !pImageParentOverride)
{
rc = vdCacheReadHelper(pDisk->pCache, uOffset, cbThisRead,
pIoCtx, &cbThisRead);
if (rc == VERR_VD_BLOCK_FREE)
{
rc = vdDiskReadHelper(pDisk, pCurrImage, NULL, uOffset, cbThisRead,
pIoCtx, &cbThisRead);
/* If the read was successful, write the data back into the cache. */
if ( RT_SUCCESS(rc)
&& pIoCtx->fFlags & VDIOCTX_FLAGS_READ_UPDATE_CACHE)
{
rc = vdCacheWriteHelper(pDisk->pCache, uOffset, cbThisRead,
pIoCtx, NULL);
}
}
}
else
{
/*
* Try to read from the given image.
* If the block is not allocated read from override chain if present.
*/
rc = pCurrImage->Backend->pfnRead(pCurrImage->pBackendData,
uOffset, cbThisRead, pIoCtx,
&cbThisRead);
if ( rc == VERR_VD_BLOCK_FREE
&& cImagesRead != 1)
{
unsigned cImagesToProcess = cImagesRead;
pCurrImage = pImageParentOverride ? pImageParentOverride : pCurrImage->pPrev;
pIoCtx->Req.Io.pImageParentOverride = NULL;
while (pCurrImage && rc == VERR_VD_BLOCK_FREE)
{
rc = pCurrImage->Backend->pfnRead(pCurrImage->pBackendData,
uOffset, cbThisRead,
pIoCtx, &cbThisRead);
if (cImagesToProcess == 1)
break;
else if (cImagesToProcess > 0)
cImagesToProcess--;
if (rc == VERR_VD_BLOCK_FREE)
pCurrImage = pCurrImage->pPrev;
}
}
}
/* The task state will be updated on success already, don't do it here!. */
if (rc == VERR_VD_BLOCK_FREE)
{
/* No image in the chain contains the data for the block. */
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbThisRead); Assert(cbThisRead == (uint32_t)cbThisRead);
/* Fill the free space with 0 if we are told to do so
* or a previous read returned valid data. */
if (pIoCtx->fFlags & VDIOCTX_FLAGS_ZERO_FREE_BLOCKS)
vdIoCtxSet(pIoCtx, '\0', cbThisRead);
else
pIoCtx->Req.Io.cbBufClear += cbThisRead;
if (pIoCtx->Req.Io.pImageCur->uOpenFlags & VD_OPEN_FLAGS_INFORM_ABOUT_ZERO_BLOCKS)
rc = VINF_VD_NEW_ZEROED_BLOCK;
else
rc = VINF_SUCCESS;
}
else if (rc == VERR_VD_IOCTX_HALT)
{
uOffset += cbThisRead;
cbToRead -= cbThisRead;
pIoCtx->fFlags |= VDIOCTX_FLAGS_BLOCKED;
}
else if ( RT_SUCCESS(rc)
|| rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
{
/* First not free block, fill the space before with 0. */
if ( pIoCtx->Req.Io.cbBufClear
&& !(pIoCtx->fFlags & VDIOCTX_FLAGS_ZERO_FREE_BLOCKS))
{
RTSGBUF SgBuf;
RTSgBufClone(&SgBuf, &pIoCtx->Req.Io.SgBuf);
RTSgBufReset(&SgBuf);
RTSgBufSet(&SgBuf, 0, pIoCtx->Req.Io.cbBufClear);
pIoCtx->Req.Io.cbBufClear = 0;
pIoCtx->fFlags |= VDIOCTX_FLAGS_ZERO_FREE_BLOCKS;
}
rc = VINF_SUCCESS;
}
if (RT_FAILURE(rc))
break;
cbToRead -= cbThisRead;
uOffset += cbThisRead;
pCurrImage = pIoCtx->Req.Io.pImageStart; /* Start with the highest image in the chain. */
} while (cbToRead != 0 && RT_SUCCESS(rc));
if ( rc == VERR_VD_NOT_ENOUGH_METADATA
|| rc == VERR_VD_IOCTX_HALT)
{
/* Save the current state. */
pIoCtx->Req.Io.uOffset = uOffset;
pIoCtx->Req.Io.cbTransfer = cbToRead;
pIoCtx->Req.Io.pImageCur = pCurrImage ? pCurrImage : pIoCtx->Req.Io.pImageStart;
}
return (!(pIoCtx->fFlags & VDIOCTX_FLAGS_ZERO_FREE_BLOCKS))
? VERR_VD_BLOCK_FREE
: rc;
}
/**
* internal: parent image read wrapper for compacting.
*/
static DECLCALLBACK(int) vdParentRead(void *pvUser, uint64_t uOffset, void *pvBuf,
size_t cbRead)
{
PVDPARENTSTATEDESC pParentState = (PVDPARENTSTATEDESC)pvUser;
/** @todo
* Only used for compaction so far which is not possible to mix with async I/O.
* Needs to be changed if we want to support online compaction of images.
*/
bool fLocked = ASMAtomicXchgBool(&pParentState->pDisk->fLocked, true);
AssertMsgReturn(!fLocked,
("Calling synchronous parent read while another thread holds the disk lock\n"),
VERR_VD_INVALID_STATE);
/* Fake an I/O context. */
RTSGSEG Segment;
RTSGBUF SgBuf;
VDIOCTX IoCtx;
Segment.pvSeg = pvBuf;
Segment.cbSeg = cbRead;
RTSgBufInit(&SgBuf, &Segment, 1);
vdIoCtxInit(&IoCtx, pParentState->pDisk, VDIOCTXTXDIR_READ, uOffset, cbRead, pParentState->pImage,
&SgBuf, NULL, NULL, VDIOCTX_FLAGS_SYNC | VDIOCTX_FLAGS_ZERO_FREE_BLOCKS);
int rc = vdReadHelperAsync(&IoCtx);
ASMAtomicXchgBool(&pParentState->pDisk->fLocked, false);
return rc;
}
/**
* Extended version of vdReadHelper(), implementing certain optimizations
* for image cloning.
*
* @returns VBox status code.
* @param pDisk The disk to read from.
* @param pImage The image to start reading from.
* @param pImageParentOverride The parent image to read from
* if the starting image returns a free block.
* If NULL is passed the real parent of the image
* in the chain is used.
* @param uOffset Offset in the disk to start reading from.
* @param pvBuf Where to store the read data.
* @param cbRead How much to read.
* @param fZeroFreeBlocks Flag whether free blocks should be zeroed.
* If false and no image has data for sepcified
* range VERR_VD_BLOCK_FREE is returned.
* Note that unallocated blocks are still zeroed
* if at least one image has valid data for a part
* of the range.
* @param fUpdateCache Flag whether to update the attached cache if
* available.
* @param cImagesRead Number of images in the chain to read until
* the read is cut off. A value of 0 disables the cut off.
*/
static int vdReadHelperEx(PVDISK pDisk, PVDIMAGE pImage, PVDIMAGE pImageParentOverride,
uint64_t uOffset, void *pvBuf, size_t cbRead,
bool fZeroFreeBlocks, bool fUpdateCache, unsigned cImagesRead)
{
int rc = VINF_SUCCESS;
uint32_t fFlags = VDIOCTX_FLAGS_SYNC | VDIOCTX_FLAGS_DONT_FREE;
RTSGSEG Segment;
RTSGBUF SgBuf;
VDIOCTX IoCtx;
RTSEMEVENT hEventComplete = NIL_RTSEMEVENT;
rc = RTSemEventCreate(&hEventComplete);
if (RT_FAILURE(rc))
return rc;
if (fZeroFreeBlocks)
fFlags |= VDIOCTX_FLAGS_ZERO_FREE_BLOCKS;
if (fUpdateCache)
fFlags |= VDIOCTX_FLAGS_READ_UPDATE_CACHE;
Segment.pvSeg = pvBuf;
Segment.cbSeg = cbRead;
RTSgBufInit(&SgBuf, &Segment, 1);
vdIoCtxInit(&IoCtx, pDisk, VDIOCTXTXDIR_READ, uOffset, cbRead, pImage, &SgBuf,
NULL, vdReadHelperAsync, fFlags);
IoCtx.Req.Io.pImageParentOverride = pImageParentOverride;
IoCtx.Req.Io.cImagesRead = cImagesRead;
IoCtx.Type.Root.pfnComplete = vdIoCtxSyncComplete;
IoCtx.Type.Root.pvUser1 = pDisk;
IoCtx.Type.Root.pvUser2 = hEventComplete;
rc = vdIoCtxProcessSync(&IoCtx, hEventComplete);
RTSemEventDestroy(hEventComplete);
return rc;
}
/**
* internal: read the specified amount of data in whatever blocks the backend
* will give us.
*/
static int vdReadHelper(PVDISK pDisk, PVDIMAGE pImage, uint64_t uOffset,
void *pvBuf, size_t cbRead, bool fUpdateCache)
{
return vdReadHelperEx(pDisk, pImage, NULL, uOffset, pvBuf, cbRead,
true /* fZeroFreeBlocks */, fUpdateCache, 0);
}
/**
* internal: mark the disk as not modified.
*/
static void vdResetModifiedFlag(PVDISK pDisk)
{
if (pDisk->uModified & VD_IMAGE_MODIFIED_FLAG)
{
/* generate new last-modified uuid */
if (!(pDisk->uModified & VD_IMAGE_MODIFIED_DISABLE_UUID_UPDATE))
{
RTUUID Uuid;
RTUuidCreate(&Uuid);
pDisk->pLast->Backend->pfnSetModificationUuid(pDisk->pLast->pBackendData,
&Uuid);
if (pDisk->pCache)
pDisk->pCache->Backend->pfnSetModificationUuid(pDisk->pCache->pBackendData,
&Uuid);
}
pDisk->uModified &= ~VD_IMAGE_MODIFIED_FLAG;
}
}
/**
* internal: mark the disk as modified.
*/
static void vdSetModifiedFlag(PVDISK pDisk)
{
pDisk->uModified |= VD_IMAGE_MODIFIED_FLAG;
if (pDisk->uModified & VD_IMAGE_MODIFIED_FIRST)
{
pDisk->uModified &= ~VD_IMAGE_MODIFIED_FIRST;
/* First modify, so create a UUID and ensure it's written to disk. */
vdResetModifiedFlag(pDisk);
if (!(pDisk->uModified & VD_IMAGE_MODIFIED_DISABLE_UUID_UPDATE))
{
VDIOCTX IoCtx;
vdIoCtxInit(&IoCtx, pDisk, VDIOCTXTXDIR_FLUSH, 0, 0, NULL,
NULL, NULL, NULL, VDIOCTX_FLAGS_SYNC);
pDisk->pLast->Backend->pfnFlush(pDisk->pLast->pBackendData, &IoCtx);
}
}
}
/**
* internal: write buffer to the image, taking care of block boundaries and
* write optimizations.
*/
static int vdWriteHelperEx(PVDISK pDisk, PVDIMAGE pImage,
PVDIMAGE pImageParentOverride, uint64_t uOffset,
const void *pvBuf, size_t cbWrite,
uint32_t fFlags, unsigned cImagesRead)
{
int rc = VINF_SUCCESS;
RTSGSEG Segment;
RTSGBUF SgBuf;
VDIOCTX IoCtx;
RTSEMEVENT hEventComplete = NIL_RTSEMEVENT;
rc = RTSemEventCreate(&hEventComplete);
if (RT_FAILURE(rc))
return rc;
fFlags |= VDIOCTX_FLAGS_SYNC | VDIOCTX_FLAGS_DONT_FREE;
Segment.pvSeg = (void *)pvBuf;
Segment.cbSeg = cbWrite;
RTSgBufInit(&SgBuf, &Segment, 1);
vdIoCtxInit(&IoCtx, pDisk, VDIOCTXTXDIR_WRITE, uOffset, cbWrite, pImage, &SgBuf,
NULL, vdWriteHelperAsync, fFlags);
IoCtx.Req.Io.pImageParentOverride = pImageParentOverride;
IoCtx.Req.Io.cImagesRead = cImagesRead;
IoCtx.pIoCtxParent = NULL;
IoCtx.Type.Root.pfnComplete = vdIoCtxSyncComplete;
IoCtx.Type.Root.pvUser1 = pDisk;
IoCtx.Type.Root.pvUser2 = hEventComplete;
if (RT_SUCCESS(rc))
rc = vdIoCtxProcessSync(&IoCtx, hEventComplete);
RTSemEventDestroy(hEventComplete);
return rc;
}
/**
* internal: write buffer to the image, taking care of block boundaries and
* write optimizations.
*/
static int vdWriteHelper(PVDISK pDisk, PVDIMAGE pImage, uint64_t uOffset,
const void *pvBuf, size_t cbWrite, uint32_t fFlags)
{
return vdWriteHelperEx(pDisk, pImage, NULL, uOffset, pvBuf, cbWrite,
fFlags, 0);
}
/**
* Internal: Copies the content of one disk to another one applying optimizations
* to speed up the copy process if possible.
*/
static int vdCopyHelper(PVDISK pDiskFrom, PVDIMAGE pImageFrom, PVDISK pDiskTo,
uint64_t cbSize, unsigned cImagesFromRead, unsigned cImagesToRead,
bool fSuppressRedundantIo, PVDINTERFACEPROGRESS pIfProgress,
PVDINTERFACEPROGRESS pDstIfProgress)
{
int rc = VINF_SUCCESS;
int rc2;
uint64_t uOffset = 0;
uint64_t cbRemaining = cbSize;
void *pvBuf = NULL;
bool fLockReadFrom = false;
bool fLockWriteTo = false;
bool fBlockwiseCopy = false;
unsigned uProgressOld = 0;
LogFlowFunc(("pDiskFrom=%#p pImageFrom=%#p pDiskTo=%#p cbSize=%llu cImagesFromRead=%u cImagesToRead=%u fSuppressRedundantIo=%RTbool pIfProgress=%#p pDstIfProgress=%#p\n",
pDiskFrom, pImageFrom, pDiskTo, cbSize, cImagesFromRead, cImagesToRead, fSuppressRedundantIo, pDstIfProgress, pDstIfProgress));
if ( (fSuppressRedundantIo || (cImagesFromRead > 0))
&& RTListIsEmpty(&pDiskFrom->ListFilterChainRead))
fBlockwiseCopy = true;
/* Allocate tmp buffer. */
pvBuf = RTMemTmpAlloc(VD_MERGE_BUFFER_SIZE);
if (!pvBuf)
return rc;
do
{
size_t cbThisRead = RT_MIN(VD_MERGE_BUFFER_SIZE, cbRemaining);
/* Note that we don't attempt to synchronize cross-disk accesses.
* It wouldn't be very difficult to do, just the lock order would
* need to be defined somehow to prevent deadlocks. Postpone such
* magic as there is no use case for this. */
rc2 = vdThreadStartRead(pDiskFrom);
AssertRC(rc2);
fLockReadFrom = true;
if (fBlockwiseCopy)
{
RTSGSEG SegmentBuf;
RTSGBUF SgBuf;
VDIOCTX IoCtx;
SegmentBuf.pvSeg = pvBuf;
SegmentBuf.cbSeg = VD_MERGE_BUFFER_SIZE;
RTSgBufInit(&SgBuf, &SegmentBuf, 1);
vdIoCtxInit(&IoCtx, pDiskFrom, VDIOCTXTXDIR_READ, 0, 0, NULL,
&SgBuf, NULL, NULL, VDIOCTX_FLAGS_SYNC);
/* Read the source data. */
rc = pImageFrom->Backend->pfnRead(pImageFrom->pBackendData,
uOffset, cbThisRead, &IoCtx,
&cbThisRead);
if ( rc == VERR_VD_BLOCK_FREE
&& cImagesFromRead != 1)
{
unsigned cImagesToProcess = cImagesFromRead;
for (PVDIMAGE pCurrImage = pImageFrom->pPrev;
pCurrImage != NULL && rc == VERR_VD_BLOCK_FREE;
pCurrImage = pCurrImage->pPrev)
{
rc = pCurrImage->Backend->pfnRead(pCurrImage->pBackendData,
uOffset, cbThisRead,
&IoCtx, &cbThisRead);
if (cImagesToProcess == 1)
break;
else if (cImagesToProcess > 0)
cImagesToProcess--;
}
}
}
else
rc = vdReadHelper(pDiskFrom, pImageFrom, uOffset, pvBuf, cbThisRead,
false /* fUpdateCache */);
if (RT_FAILURE(rc) && rc != VERR_VD_BLOCK_FREE)
break;
rc2 = vdThreadFinishRead(pDiskFrom);
AssertRC(rc2);
fLockReadFrom = false;
if (rc != VERR_VD_BLOCK_FREE)
{
rc2 = vdThreadStartWrite(pDiskTo);
AssertRC(rc2);
fLockWriteTo = true;
/* Only do collapsed I/O if we are copying the data blockwise. */
rc = vdWriteHelperEx(pDiskTo, pDiskTo->pLast, NULL, uOffset, pvBuf,
cbThisRead, VDIOCTX_FLAGS_DONT_SET_MODIFIED_FLAG /* fFlags */,
fBlockwiseCopy ? cImagesToRead : 0);
if (RT_FAILURE(rc))
break;
rc2 = vdThreadFinishWrite(pDiskTo);
AssertRC(rc2);
fLockWriteTo = false;
}
else /* Don't propagate the error to the outside */
rc = VINF_SUCCESS;
uOffset += cbThisRead;
cbRemaining -= cbThisRead;
unsigned uProgressNew = uOffset * 99 / cbSize;
if (uProgressNew != uProgressOld)
{
uProgressOld = uProgressNew;
if (pIfProgress && pIfProgress->pfnProgress)
{
rc = pIfProgress->pfnProgress(pIfProgress->Core.pvUser,
uProgressOld);
if (RT_FAILURE(rc))
break;
}
if (pDstIfProgress && pDstIfProgress->pfnProgress)
{
rc = pDstIfProgress->pfnProgress(pDstIfProgress->Core.pvUser,
uProgressOld);
if (RT_FAILURE(rc))
break;
}
}
} while (uOffset < cbSize);
RTMemFree(pvBuf);
if (fLockReadFrom)
{
rc2 = vdThreadFinishRead(pDiskFrom);
AssertRC(rc2);
}
if (fLockWriteTo)
{
rc2 = vdThreadFinishWrite(pDiskTo);
AssertRC(rc2);
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
/**
* Flush helper async version.
*/
static DECLCALLBACK(int) vdSetModifiedHelperAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
PVDIMAGE pImage = pIoCtx->Req.Io.pImageCur;
rc = pImage->Backend->pfnFlush(pImage->pBackendData, pIoCtx);
if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
rc = VINF_SUCCESS;
return rc;
}
/**
* internal: mark the disk as modified - async version.
*/
static int vdSetModifiedFlagAsync(PVDISK pDisk, PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
VD_IS_LOCKED(pDisk);
pDisk->uModified |= VD_IMAGE_MODIFIED_FLAG;
if (pDisk->uModified & VD_IMAGE_MODIFIED_FIRST)
{
rc = vdIoCtxLockDisk(pDisk, pIoCtx);
if (RT_SUCCESS(rc))
{
pDisk->uModified &= ~VD_IMAGE_MODIFIED_FIRST;
/* First modify, so create a UUID and ensure it's written to disk. */
vdResetModifiedFlag(pDisk);
if (!(pDisk->uModified & VD_IMAGE_MODIFIED_DISABLE_UUID_UPDATE))
{
PVDIOCTX pIoCtxFlush = vdIoCtxChildAlloc(pDisk, VDIOCTXTXDIR_FLUSH,
0, 0, pDisk->pLast,
NULL, pIoCtx, 0, 0, NULL,
vdSetModifiedHelperAsync);
if (pIoCtxFlush)
{
rc = vdIoCtxProcessLocked(pIoCtxFlush);
if (rc == VINF_VD_ASYNC_IO_FINISHED)
{
vdIoCtxUnlockDisk(pDisk, pIoCtx, false /* fProcessDeferredReqs */);
vdIoCtxFree(pDisk, pIoCtxFlush);
}
else if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
{
ASMAtomicIncU32(&pIoCtx->cDataTransfersPending);
pIoCtx->fFlags |= VDIOCTX_FLAGS_BLOCKED;
}
else /* Another error */
vdIoCtxFree(pDisk, pIoCtxFlush);
}
else
rc = VERR_NO_MEMORY;
}
}
}
return rc;
}
static DECLCALLBACK(int) vdWriteHelperCommitAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
PVDIMAGE pImage = pIoCtx->Req.Io.pImageStart;
size_t cbPreRead = pIoCtx->Type.Child.cbPreRead;
size_t cbPostRead = pIoCtx->Type.Child.cbPostRead;
size_t cbThisWrite = pIoCtx->Type.Child.cbTransferParent;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
rc = pImage->Backend->pfnWrite(pImage->pBackendData,
pIoCtx->Req.Io.uOffset - cbPreRead,
cbPreRead + cbThisWrite + cbPostRead,
pIoCtx, NULL, &cbPreRead, &cbPostRead, 0);
Assert(rc != VERR_VD_BLOCK_FREE);
Assert(rc == VERR_VD_NOT_ENOUGH_METADATA || cbPreRead == 0);
Assert(rc == VERR_VD_NOT_ENOUGH_METADATA || cbPostRead == 0);
if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
rc = VINF_SUCCESS;
else if (rc == VERR_VD_IOCTX_HALT)
{
pIoCtx->fFlags |= VDIOCTX_FLAGS_BLOCKED;
rc = VINF_SUCCESS;
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
static DECLCALLBACK(int) vdWriteHelperOptimizedCmpAndWriteAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
size_t cbThisWrite = 0;
size_t cbPreRead = pIoCtx->Type.Child.cbPreRead;
size_t cbPostRead = pIoCtx->Type.Child.cbPostRead;
size_t cbWriteCopy = pIoCtx->Type.Child.Write.Optimized.cbWriteCopy;
size_t cbFill = pIoCtx->Type.Child.Write.Optimized.cbFill;
size_t cbReadImage = pIoCtx->Type.Child.Write.Optimized.cbReadImage;
PVDIOCTX pIoCtxParent = pIoCtx->pIoCtxParent;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
AssertPtr(pIoCtxParent);
Assert(!pIoCtxParent->pIoCtxParent);
Assert(!pIoCtx->Req.Io.cbTransferLeft && !pIoCtx->cMetaTransfersPending);
vdIoCtxChildReset(pIoCtx);
cbThisWrite = pIoCtx->Type.Child.cbTransferParent;
RTSgBufAdvance(&pIoCtx->Req.Io.SgBuf, cbPreRead);
/* Check if the write would modify anything in this block. */
if (!RTSgBufCmp(&pIoCtx->Req.Io.SgBuf, &pIoCtxParent->Req.Io.SgBuf, cbThisWrite))
{
RTSGBUF SgBufSrcTmp;
RTSgBufClone(&SgBufSrcTmp, &pIoCtxParent->Req.Io.SgBuf);
RTSgBufAdvance(&SgBufSrcTmp, cbThisWrite);
RTSgBufAdvance(&pIoCtx->Req.Io.SgBuf, cbThisWrite);
if (!cbWriteCopy || !RTSgBufCmp(&pIoCtx->Req.Io.SgBuf, &SgBufSrcTmp, cbWriteCopy))
{
/* Block is completely unchanged, so no need to write anything. */
LogFlowFunc(("Block didn't changed\n"));
ASMAtomicWriteU32(&pIoCtx->Req.Io.cbTransferLeft, 0);
RTSgBufAdvance(&pIoCtxParent->Req.Io.SgBuf, cbThisWrite);
return VINF_VD_ASYNC_IO_FINISHED;
}
}
/* Copy the data to the right place in the buffer. */
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
RTSgBufAdvance(&pIoCtx->Req.Io.SgBuf, cbPreRead);
vdIoCtxCopy(pIoCtx, pIoCtxParent, cbThisWrite);
/* Handle the data that goes after the write to fill the block. */
if (cbPostRead)
{
/* Now assemble the remaining data. */
if (cbWriteCopy)
{
/*
* The S/G buffer of the parent needs to be cloned because
* it is not allowed to modify the state.
*/
RTSGBUF SgBufParentTmp;
RTSgBufClone(&SgBufParentTmp, &pIoCtxParent->Req.Io.SgBuf);
RTSgBufCopy(&pIoCtx->Req.Io.SgBuf, &SgBufParentTmp, cbWriteCopy);
}
/* Zero out the remainder of this block. Will never be visible, as this
* is beyond the limit of the image. */
if (cbFill)
{
RTSgBufAdvance(&pIoCtx->Req.Io.SgBuf, cbReadImage);
vdIoCtxSet(pIoCtx, '\0', cbFill);
}
}
/* Write the full block to the virtual disk. */
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperCommitAsync;
return rc;
}
static DECLCALLBACK(int) vdWriteHelperOptimizedPreReadAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
pIoCtx->fFlags |= VDIOCTX_FLAGS_ZERO_FREE_BLOCKS;
if ( pIoCtx->Req.Io.cbTransferLeft
&& !pIoCtx->cDataTransfersPending)
rc = vdReadHelperAsync(pIoCtx);
if ( ( RT_SUCCESS(rc)
|| (rc == VERR_VD_ASYNC_IO_IN_PROGRESS))
&& ( pIoCtx->Req.Io.cbTransferLeft
|| pIoCtx->cMetaTransfersPending))
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
else
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperOptimizedCmpAndWriteAsync;
return rc;
}
/**
* internal: write a complete block (only used for diff images), taking the
* remaining data from parent images. This implementation optimizes out writes
* that do not change the data relative to the state as of the parent images.
* All backends which support differential/growing images support this - async version.
*/
static DECLCALLBACK(int) vdWriteHelperOptimizedAsync(PVDIOCTX pIoCtx)
{
PVDISK pDisk = pIoCtx->pDisk;
uint64_t uOffset = pIoCtx->Type.Child.uOffsetSaved;
size_t cbThisWrite = pIoCtx->Type.Child.cbTransferParent;
size_t cbPreRead = pIoCtx->Type.Child.cbPreRead;
size_t cbPostRead = pIoCtx->Type.Child.cbPostRead;
size_t cbWrite = pIoCtx->Type.Child.cbWriteParent;
size_t cbFill = 0;
size_t cbWriteCopy = 0;
size_t cbReadImage = 0;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
AssertPtr(pIoCtx->pIoCtxParent);
Assert(!pIoCtx->pIoCtxParent->pIoCtxParent);
if (cbPostRead)
{
/* Figure out how much we cannot read from the image, because
* the last block to write might exceed the nominal size of the
* image for technical reasons. */
if (uOffset + cbThisWrite + cbPostRead > pDisk->cbSize)
cbFill = uOffset + cbThisWrite + cbPostRead - pDisk->cbSize;
/* If we have data to be written, use that instead of reading
* data from the image. */
if (cbWrite > cbThisWrite)
cbWriteCopy = RT_MIN(cbWrite - cbThisWrite, cbPostRead);
/* The rest must be read from the image. */
cbReadImage = cbPostRead - cbWriteCopy - cbFill;
}
pIoCtx->Type.Child.Write.Optimized.cbFill = cbFill;
pIoCtx->Type.Child.Write.Optimized.cbWriteCopy = cbWriteCopy;
pIoCtx->Type.Child.Write.Optimized.cbReadImage = cbReadImage;
/* Read the entire data of the block so that we can compare whether it will
* be modified by the write or not. */
size_t cbTmp = cbPreRead + cbThisWrite + cbPostRead - cbFill; Assert(cbTmp == (uint32_t)cbTmp);
pIoCtx->Req.Io.cbTransferLeft = (uint32_t)cbTmp;
pIoCtx->Req.Io.cbTransfer = pIoCtx->Req.Io.cbTransferLeft;
pIoCtx->Req.Io.uOffset -= cbPreRead;
/* Next step */
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperOptimizedPreReadAsync;
return VINF_SUCCESS;
}
static DECLCALLBACK(int) vdWriteHelperStandardReadImageAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
pIoCtx->fFlags |= VDIOCTX_FLAGS_ZERO_FREE_BLOCKS;
if ( pIoCtx->Req.Io.cbTransferLeft
&& !pIoCtx->cDataTransfersPending)
rc = vdReadHelperAsync(pIoCtx);
if ( RT_SUCCESS(rc)
&& ( pIoCtx->Req.Io.cbTransferLeft
|| pIoCtx->cMetaTransfersPending))
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
else
{
size_t cbFill = pIoCtx->Type.Child.Write.Optimized.cbFill;
/* Zero out the remainder of this block. Will never be visible, as this
* is beyond the limit of the image. */
if (cbFill)
vdIoCtxSet(pIoCtx, '\0', cbFill);
/* Write the full block to the virtual disk. */
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
vdIoCtxChildReset(pIoCtx);
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperCommitAsync;
}
return rc;
}
static DECLCALLBACK(int) vdWriteHelperStandardAssemble(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
size_t cbPostRead = pIoCtx->Type.Child.cbPostRead;
size_t cbThisWrite = pIoCtx->Type.Child.cbTransferParent;
PVDIOCTX pIoCtxParent = pIoCtx->pIoCtxParent;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
vdIoCtxCopy(pIoCtx, pIoCtxParent, cbThisWrite);
if (cbPostRead)
{
size_t cbFill = pIoCtx->Type.Child.Write.Optimized.cbFill;
size_t cbWriteCopy = pIoCtx->Type.Child.Write.Optimized.cbWriteCopy;
size_t cbReadImage = pIoCtx->Type.Child.Write.Optimized.cbReadImage;
/* Now assemble the remaining data. */
if (cbWriteCopy)
{
/*
* The S/G buffer of the parent needs to be cloned because
* it is not allowed to modify the state.
*/
RTSGBUF SgBufParentTmp;
RTSgBufClone(&SgBufParentTmp, &pIoCtxParent->Req.Io.SgBuf);
RTSgBufCopy(&pIoCtx->Req.Io.SgBuf, &SgBufParentTmp, cbWriteCopy);
}
if (cbReadImage)
{
/* Read remaining data. */
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperStandardReadImageAsync;
/* Read the data that goes before the write to fill the block. */
pIoCtx->Req.Io.cbTransferLeft = (uint32_t)cbReadImage; Assert(cbReadImage == (uint32_t)cbReadImage);
pIoCtx->Req.Io.cbTransfer = pIoCtx->Req.Io.cbTransferLeft;
pIoCtx->Req.Io.uOffset += cbWriteCopy;
}
else
{
/* Zero out the remainder of this block. Will never be visible, as this
* is beyond the limit of the image. */
if (cbFill)
vdIoCtxSet(pIoCtx, '\0', cbFill);
/* Write the full block to the virtual disk. */
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
vdIoCtxChildReset(pIoCtx);
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperCommitAsync;
}
}
else
{
/* Write the full block to the virtual disk. */
RTSgBufReset(&pIoCtx->Req.Io.SgBuf);
vdIoCtxChildReset(pIoCtx);
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperCommitAsync;
}
return rc;
}
static DECLCALLBACK(int) vdWriteHelperStandardPreReadAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
pIoCtx->fFlags |= VDIOCTX_FLAGS_ZERO_FREE_BLOCKS;
if ( pIoCtx->Req.Io.cbTransferLeft
&& !pIoCtx->cDataTransfersPending)
rc = vdReadHelperAsync(pIoCtx);
if ( RT_SUCCESS(rc)
&& ( pIoCtx->Req.Io.cbTransferLeft
|| pIoCtx->cMetaTransfersPending))
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
else
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperStandardAssemble;
return rc;
}
static DECLCALLBACK(int) vdWriteHelperStandardAsync(PVDIOCTX pIoCtx)
{
PVDISK pDisk = pIoCtx->pDisk;
uint64_t uOffset = pIoCtx->Type.Child.uOffsetSaved;
size_t cbThisWrite = pIoCtx->Type.Child.cbTransferParent;
size_t cbPreRead = pIoCtx->Type.Child.cbPreRead;
size_t cbPostRead = pIoCtx->Type.Child.cbPostRead;
size_t cbWrite = pIoCtx->Type.Child.cbWriteParent;
size_t cbFill = 0;
size_t cbWriteCopy = 0;
size_t cbReadImage = 0;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
AssertPtr(pIoCtx->pIoCtxParent);
Assert(!pIoCtx->pIoCtxParent->pIoCtxParent);
/* Calculate the amount of data to read that goes after the write to fill the block. */
if (cbPostRead)
{
/* If we have data to be written, use that instead of reading
* data from the image. */
if (cbWrite > cbThisWrite)
cbWriteCopy = RT_MIN(cbWrite - cbThisWrite, cbPostRead);
else
cbWriteCopy = 0;
/* Figure out how much we cannot read from the image, because
* the last block to write might exceed the nominal size of the
* image for technical reasons. */
if (uOffset + cbThisWrite + cbPostRead > pDisk->cbSize)
cbFill = uOffset + cbThisWrite + cbPostRead - pDisk->cbSize;
/* The rest must be read from the image. */
cbReadImage = cbPostRead - cbWriteCopy - cbFill;
}
pIoCtx->Type.Child.Write.Optimized.cbFill = cbFill;
pIoCtx->Type.Child.Write.Optimized.cbWriteCopy = cbWriteCopy;
pIoCtx->Type.Child.Write.Optimized.cbReadImage = cbReadImage;
/* Next step */
if (cbPreRead)
{
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperStandardPreReadAsync;
/* Read the data that goes before the write to fill the block. */
pIoCtx->Req.Io.cbTransferLeft = (uint32_t)cbPreRead; Assert(cbPreRead == (uint32_t)cbPreRead);
pIoCtx->Req.Io.cbTransfer = pIoCtx->Req.Io.cbTransferLeft;
pIoCtx->Req.Io.uOffset -= cbPreRead;
}
else
pIoCtx->pfnIoCtxTransferNext = vdWriteHelperStandardAssemble;
return VINF_SUCCESS;
}
/**
* internal: write buffer to the image, taking care of block boundaries and
* write optimizations - async version.
*/
static DECLCALLBACK(int) vdWriteHelperAsync(PVDIOCTX pIoCtx)
{
int rc;
size_t cbWrite = pIoCtx->Req.Io.cbTransfer;
uint64_t uOffset = pIoCtx->Req.Io.uOffset;
PVDIMAGE pImage = pIoCtx->Req.Io.pImageCur;
PVDISK pDisk = pIoCtx->pDisk;
unsigned fWrite;
size_t cbThisWrite;
size_t cbPreRead, cbPostRead;
/* Apply write filter chain here if it was not done already. */
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_WRITE_FILTER_APPLIED))
{
rc = vdFilterChainApplyWrite(pDisk, uOffset, cbWrite, pIoCtx);
if (RT_FAILURE(rc))
return rc;
pIoCtx->fFlags |= VDIOCTX_FLAGS_WRITE_FILTER_APPLIED;
}
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_DONT_SET_MODIFIED_FLAG))
{
rc = vdSetModifiedFlagAsync(pDisk, pIoCtx);
if (RT_FAILURE(rc)) /* Includes I/O in progress. */
return rc;
}
rc = vdDiscardSetRangeAllocated(pDisk, uOffset, cbWrite);
if (RT_FAILURE(rc))
return rc;
/* Loop until all written. */
do
{
/* Try to write the possibly partial block to the last opened image.
* This works when the block is already allocated in this image or
* if it is a full-block write (and allocation isn't suppressed below).
* For image formats which don't support zero blocks, it's beneficial
* to avoid unnecessarily allocating unchanged blocks. This prevents
* unwanted expanding of images. VMDK is an example. */
cbThisWrite = cbWrite;
/*
* Check whether there is a full block write in progress which was not allocated.
* Defer I/O if the range interferes.
*/
if ( pDisk->pIoCtxLockOwner != NIL_VDIOCTX
&& uOffset >= pDisk->uOffsetStartLocked
&& uOffset < pDisk->uOffsetEndLocked)
{
Log(("Interferring write while allocating a new block => deferring write\n"));
vdIoCtxDefer(pDisk, pIoCtx);
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
break;
}
fWrite = (pImage->uOpenFlags & VD_OPEN_FLAGS_HONOR_SAME)
? 0 : VD_WRITE_NO_ALLOC;
rc = pImage->Backend->pfnWrite(pImage->pBackendData, uOffset, cbThisWrite,
pIoCtx, &cbThisWrite, &cbPreRead, &cbPostRead,
fWrite);
if (rc == VERR_VD_BLOCK_FREE)
{
/* Lock the disk .*/
rc = vdIoCtxLockDisk(pDisk, pIoCtx);
if (RT_SUCCESS(rc))
{
/*
* Allocate segment and buffer in one go.
* A bit hackish but avoids the need to allocate memory twice.
*/
PRTSGBUF pTmp = (PRTSGBUF)RTMemAlloc(cbPreRead + cbThisWrite + cbPostRead + sizeof(RTSGSEG) + sizeof(RTSGBUF));
AssertBreakStmt(pTmp, rc = VERR_NO_MEMORY);
PRTSGSEG pSeg = (PRTSGSEG)(pTmp + 1);
pSeg->pvSeg = pSeg + 1;
pSeg->cbSeg = cbPreRead + cbThisWrite + cbPostRead;
RTSgBufInit(pTmp, pSeg, 1);
PVDIOCTX pIoCtxWrite = vdIoCtxChildAlloc(pDisk, VDIOCTXTXDIR_WRITE,
uOffset, pSeg->cbSeg, pImage,
pTmp,
pIoCtx, cbThisWrite,
cbWrite,
pTmp,
(pImage->uOpenFlags & VD_OPEN_FLAGS_HONOR_SAME)
? vdWriteHelperStandardAsync
: vdWriteHelperOptimizedAsync);
if (!VALID_PTR(pIoCtxWrite))
{
RTMemTmpFree(pTmp);
rc = VERR_NO_MEMORY;
break;
}
LogFlowFunc(("Disk is growing because of pIoCtx=%#p pIoCtxWrite=%#p\n",
pIoCtx, pIoCtxWrite));
/* Save the current range for the growing operation to check for intersecting requests later. */
pDisk->uOffsetStartLocked = uOffset - cbPreRead;
pDisk->uOffsetEndLocked = uOffset + cbThisWrite + cbPostRead;
pIoCtxWrite->Type.Child.cbPreRead = cbPreRead;
pIoCtxWrite->Type.Child.cbPostRead = cbPostRead;
pIoCtxWrite->Req.Io.pImageParentOverride = pIoCtx->Req.Io.pImageParentOverride;
/* Process the write request */
rc = vdIoCtxProcessLocked(pIoCtxWrite);
if (RT_FAILURE(rc) && (rc != VERR_VD_ASYNC_IO_IN_PROGRESS))
{
vdIoCtxUnlockDisk(pDisk, pIoCtx, false /* fProcessDeferredReqs*/ );
vdIoCtxFree(pDisk, pIoCtxWrite);
break;
}
else if ( rc == VINF_VD_ASYNC_IO_FINISHED
&& ASMAtomicCmpXchgBool(&pIoCtxWrite->fComplete, true, false))
{
LogFlow(("Child write request completed\n"));
Assert(pIoCtx->Req.Io.cbTransferLeft >= cbThisWrite);
Assert(cbThisWrite == (uint32_t)cbThisWrite);
rc = pIoCtxWrite->rcReq;
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbThisWrite);
vdIoCtxUnlockDisk(pDisk, pIoCtx, false /* fProcessDeferredReqs*/ );
vdIoCtxFree(pDisk, pIoCtxWrite);
}
else
{
LogFlow(("Child write pending\n"));
ASMAtomicIncU32(&pIoCtx->cDataTransfersPending);
pIoCtx->fFlags |= VDIOCTX_FLAGS_BLOCKED;
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
cbWrite -= cbThisWrite;
uOffset += cbThisWrite;
break;
}
}
else
{
rc = VERR_VD_ASYNC_IO_IN_PROGRESS;
break;
}
}
if (rc == VERR_VD_IOCTX_HALT)
{
cbWrite -= cbThisWrite;
uOffset += cbThisWrite;
pIoCtx->fFlags |= VDIOCTX_FLAGS_BLOCKED;
break;
}
else if (rc == VERR_VD_NOT_ENOUGH_METADATA)
break;
cbWrite -= cbThisWrite;
uOffset += cbThisWrite;
} while (cbWrite != 0 && (RT_SUCCESS(rc) || rc == VERR_VD_ASYNC_IO_IN_PROGRESS));
if ( rc == VERR_VD_ASYNC_IO_IN_PROGRESS
|| rc == VERR_VD_NOT_ENOUGH_METADATA
|| rc == VERR_VD_IOCTX_HALT)
{
/*
* Tell the caller that we don't need to go back here because all
* writes are initiated.
*/
if ( !cbWrite
&& rc != VERR_VD_IOCTX_HALT)
rc = VINF_SUCCESS;
pIoCtx->Req.Io.uOffset = uOffset;
pIoCtx->Req.Io.cbTransfer = cbWrite;
}
return rc;
}
/**
* Flush helper async version.
*/
static DECLCALLBACK(int) vdFlushHelperAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
PVDISK pDisk = pIoCtx->pDisk;
PVDIMAGE pImage = pIoCtx->Req.Io.pImageCur;
rc = vdIoCtxLockDisk(pDisk, pIoCtx);
if (RT_SUCCESS(rc))
{
/* Mark the whole disk as locked. */
pDisk->uOffsetStartLocked = 0;
pDisk->uOffsetEndLocked = UINT64_C(0xffffffffffffffff);
vdResetModifiedFlag(pDisk);
rc = pImage->Backend->pfnFlush(pImage->pBackendData, pIoCtx);
if ( ( RT_SUCCESS(rc)
|| rc == VERR_VD_ASYNC_IO_IN_PROGRESS
|| rc == VERR_VD_IOCTX_HALT)
&& pDisk->pCache)
{
rc = pDisk->pCache->Backend->pfnFlush(pDisk->pCache->pBackendData, pIoCtx);
if ( RT_SUCCESS(rc)
|| ( rc != VERR_VD_ASYNC_IO_IN_PROGRESS
&& rc != VERR_VD_IOCTX_HALT))
vdIoCtxUnlockDisk(pDisk, pIoCtx, true /* fProcessBlockedReqs */);
else if (rc != VERR_VD_IOCTX_HALT)
rc = VINF_SUCCESS;
}
else if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
rc = VINF_SUCCESS;
else if (rc != VERR_VD_IOCTX_HALT)/* Some other error. */
vdIoCtxUnlockDisk(pDisk, pIoCtx, true /* fProcessBlockedReqs */);
}
return rc;
}
/**
* Async discard helper - discards a whole block which is recorded in the block
* tree.
*
* @returns VBox status code.
* @param pIoCtx The I/O context to operate on.
*/
static DECLCALLBACK(int) vdDiscardWholeBlockAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
PVDISK pDisk = pIoCtx->pDisk;
PVDDISCARDSTATE pDiscard = pDisk->pDiscard;
PVDDISCARDBLOCK pBlock = pIoCtx->Req.Discard.pBlock;
size_t cbPreAllocated, cbPostAllocated, cbActuallyDiscarded;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
AssertPtr(pBlock);
rc = pDisk->pLast->Backend->pfnDiscard(pDisk->pLast->pBackendData, pIoCtx,
pBlock->Core.Key, pBlock->cbDiscard,
&cbPreAllocated, &cbPostAllocated,
&cbActuallyDiscarded, NULL, 0);
Assert(rc != VERR_VD_DISCARD_ALIGNMENT_NOT_MET);
Assert(!cbPreAllocated);
Assert(!cbPostAllocated);
Assert(cbActuallyDiscarded == pBlock->cbDiscard || RT_FAILURE(rc));
/* Remove the block on success. */
if ( RT_SUCCESS(rc)
|| rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
{
PVDDISCARDBLOCK pBlockRemove = (PVDDISCARDBLOCK)RTAvlrU64RangeRemove(pDiscard->pTreeBlocks, pBlock->Core.Key);
Assert(pBlockRemove == pBlock); RT_NOREF1(pBlockRemove);
pDiscard->cbDiscarding -= pBlock->cbDiscard;
RTListNodeRemove(&pBlock->NodeLru);
RTMemFree(pBlock->pbmAllocated);
RTMemFree(pBlock);
pIoCtx->Req.Discard.pBlock = NULL;/* Safety precaution. */
pIoCtx->pfnIoCtxTransferNext = vdDiscardHelperAsync; /* Next part. */
rc = VINF_SUCCESS;
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
/**
* Removes the least recently used blocks from the waiting list until
* the new value is reached - version for async I/O.
*
* @returns VBox status code.
* @param pDisk VD disk container.
* @param pIoCtx The I/O context associated with this discard operation.
* @param cbDiscardingNew How many bytes should be waiting on success.
* The number of bytes waiting can be less.
*/
static int vdDiscardRemoveBlocksAsync(PVDISK pDisk, PVDIOCTX pIoCtx, size_t cbDiscardingNew)
{
int rc = VINF_SUCCESS;
PVDDISCARDSTATE pDiscard = pDisk->pDiscard;
LogFlowFunc(("pDisk=%#p pDiscard=%#p cbDiscardingNew=%zu\n",
pDisk, pDiscard, cbDiscardingNew));
while (pDiscard->cbDiscarding > cbDiscardingNew)
{
PVDDISCARDBLOCK pBlock = RTListGetLast(&pDiscard->ListLru, VDDISCARDBLOCK, NodeLru);
Assert(!RTListIsEmpty(&pDiscard->ListLru));
/* Go over the allocation bitmap and mark all discarded sectors as unused. */
uint64_t offStart = pBlock->Core.Key;
uint32_t idxStart = 0;
size_t cbLeft = pBlock->cbDiscard;
bool fAllocated = ASMBitTest(pBlock->pbmAllocated, idxStart);
uint32_t cSectors = (uint32_t)(pBlock->cbDiscard / 512);
while (cbLeft > 0)
{
int32_t idxEnd;
size_t cbThis = cbLeft;
if (fAllocated)
{
/* Check for the first unallocated bit. */
idxEnd = ASMBitNextClear(pBlock->pbmAllocated, cSectors, idxStart);
if (idxEnd != -1)
{
cbThis = (idxEnd - idxStart) * 512;
fAllocated = false;
}
}
else
{
/* Mark as unused and check for the first set bit. */
idxEnd = ASMBitNextSet(pBlock->pbmAllocated, cSectors, idxStart);
if (idxEnd != -1)
cbThis = (idxEnd - idxStart) * 512;
rc = pDisk->pLast->Backend->pfnDiscard(pDisk->pLast->pBackendData, pIoCtx,
offStart, cbThis, NULL, NULL, &cbThis,
NULL, VD_DISCARD_MARK_UNUSED);
if ( RT_FAILURE(rc)
&& rc != VERR_VD_ASYNC_IO_IN_PROGRESS)
break;
fAllocated = true;
}
idxStart = idxEnd;
offStart += cbThis;
cbLeft -= cbThis;
}
if ( RT_FAILURE(rc)
&& rc != VERR_VD_ASYNC_IO_IN_PROGRESS)
break;
PVDDISCARDBLOCK pBlockRemove = (PVDDISCARDBLOCK)RTAvlrU64RangeRemove(pDiscard->pTreeBlocks, pBlock->Core.Key);
Assert(pBlockRemove == pBlock); NOREF(pBlockRemove);
RTListNodeRemove(&pBlock->NodeLru);
pDiscard->cbDiscarding -= pBlock->cbDiscard;
RTMemFree(pBlock->pbmAllocated);
RTMemFree(pBlock);
}
if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
rc = VINF_SUCCESS;
Assert(RT_FAILURE(rc) || pDiscard->cbDiscarding <= cbDiscardingNew);
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
/**
* Async discard helper - discards the current range if there is no matching
* block in the tree.
*
* @returns VBox status code.
* @param pIoCtx The I/O context to operate on.
*/
static DECLCALLBACK(int) vdDiscardCurrentRangeAsync(PVDIOCTX pIoCtx)
{
PVDISK pDisk = pIoCtx->pDisk;
PVDDISCARDSTATE pDiscard = pDisk->pDiscard;
uint64_t offStart = pIoCtx->Req.Discard.offCur;
size_t cbThisDiscard = pIoCtx->Req.Discard.cbThisDiscard;
void *pbmAllocated = NULL;
size_t cbPreAllocated, cbPostAllocated;
int rc = VINF_SUCCESS;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
/* No block found, try to discard using the backend first. */
rc = pDisk->pLast->Backend->pfnDiscard(pDisk->pLast->pBackendData, pIoCtx,
offStart, cbThisDiscard, &cbPreAllocated,
&cbPostAllocated, &cbThisDiscard,
&pbmAllocated, 0);
if (rc == VERR_VD_DISCARD_ALIGNMENT_NOT_MET)
{
/* Create new discard block. */
PVDDISCARDBLOCK pBlock = (PVDDISCARDBLOCK)RTMemAllocZ(sizeof(VDDISCARDBLOCK));
if (pBlock)
{
pBlock->Core.Key = offStart - cbPreAllocated;
pBlock->Core.KeyLast = offStart + cbThisDiscard + cbPostAllocated - 1;
pBlock->cbDiscard = cbPreAllocated + cbThisDiscard + cbPostAllocated;
pBlock->pbmAllocated = pbmAllocated;
bool fInserted = RTAvlrU64Insert(pDiscard->pTreeBlocks, &pBlock->Core);
Assert(fInserted); NOREF(fInserted);
RTListPrepend(&pDiscard->ListLru, &pBlock->NodeLru);
pDiscard->cbDiscarding += pBlock->cbDiscard;
Assert(pIoCtx->Req.Discard.cbDiscardLeft >= cbThisDiscard);
pIoCtx->Req.Discard.cbDiscardLeft -= cbThisDiscard;
pIoCtx->Req.Discard.offCur += cbThisDiscard;
pIoCtx->Req.Discard.cbThisDiscard = cbThisDiscard;
if (pDiscard->cbDiscarding > VD_DISCARD_REMOVE_THRESHOLD)
rc = vdDiscardRemoveBlocksAsync(pDisk, pIoCtx, VD_DISCARD_REMOVE_THRESHOLD);
else
rc = VINF_SUCCESS;
if (RT_SUCCESS(rc))
pIoCtx->pfnIoCtxTransferNext = vdDiscardHelperAsync; /* Next part. */
}
else
{
RTMemFree(pbmAllocated);
rc = VERR_NO_MEMORY;
}
}
else if ( RT_SUCCESS(rc)
|| rc == VERR_VD_ASYNC_IO_IN_PROGRESS) /* Save state and andvance to next range. */
{
Assert(pIoCtx->Req.Discard.cbDiscardLeft >= cbThisDiscard);
pIoCtx->Req.Discard.cbDiscardLeft -= cbThisDiscard;
pIoCtx->Req.Discard.offCur += cbThisDiscard;
pIoCtx->Req.Discard.cbThisDiscard = cbThisDiscard;
pIoCtx->pfnIoCtxTransferNext = vdDiscardHelperAsync;
rc = VINF_SUCCESS;
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
/**
* Async discard helper - entry point.
*
* @returns VBox status code.
* @param pIoCtx The I/O context to operate on.
*/
static DECLCALLBACK(int) vdDiscardHelperAsync(PVDIOCTX pIoCtx)
{
int rc = VINF_SUCCESS;
PVDISK pDisk = pIoCtx->pDisk;
PCRTRANGE paRanges = pIoCtx->Req.Discard.paRanges;
unsigned cRanges = pIoCtx->Req.Discard.cRanges;
PVDDISCARDSTATE pDiscard = pDisk->pDiscard;
LogFlowFunc(("pIoCtx=%#p\n", pIoCtx));
/* Check if the I/O context processed all ranges. */
if ( pIoCtx->Req.Discard.idxRange == cRanges
&& !pIoCtx->Req.Discard.cbDiscardLeft)
{
LogFlowFunc(("All ranges discarded, completing\n"));
vdIoCtxUnlockDisk(pDisk, pIoCtx, true /* fProcessDeferredReqs*/);
return VINF_SUCCESS;
}
if (pDisk->pIoCtxLockOwner != pIoCtx)
rc = vdIoCtxLockDisk(pDisk, pIoCtx);
if (RT_SUCCESS(rc))
{
uint64_t offStart = pIoCtx->Req.Discard.offCur;
size_t cbDiscardLeft = pIoCtx->Req.Discard.cbDiscardLeft;
size_t cbThisDiscard;
pDisk->uOffsetStartLocked = offStart;
pDisk->uOffsetEndLocked = offStart + cbDiscardLeft;
if (RT_UNLIKELY(!pDiscard))
{
pDiscard = vdDiscardStateCreate();
if (!pDiscard)
return VERR_NO_MEMORY;
pDisk->pDiscard = pDiscard;
}
if (!pIoCtx->Req.Discard.cbDiscardLeft)
{
offStart = paRanges[pIoCtx->Req.Discard.idxRange].offStart;
cbDiscardLeft = paRanges[pIoCtx->Req.Discard.idxRange].cbRange;
LogFlowFunc(("New range descriptor loaded (%u) offStart=%llu cbDiscard=%zu\n",
pIoCtx->Req.Discard.idxRange, offStart, cbDiscardLeft));
pIoCtx->Req.Discard.idxRange++;
}
/* Look for a matching block in the AVL tree first. */
PVDDISCARDBLOCK pBlock = (PVDDISCARDBLOCK)RTAvlrU64GetBestFit(pDiscard->pTreeBlocks, offStart, false);
if (!pBlock || pBlock->Core.KeyLast < offStart)
{
PVDDISCARDBLOCK pBlockAbove = (PVDDISCARDBLOCK)RTAvlrU64GetBestFit(pDiscard->pTreeBlocks, offStart, true);
/* Clip range to remain in the current block. */
if (pBlockAbove)
cbThisDiscard = RT_MIN(cbDiscardLeft, pBlockAbove->Core.KeyLast - offStart + 1);
else
cbThisDiscard = cbDiscardLeft;
Assert(!(cbThisDiscard % 512));
pIoCtx->Req.Discard.pBlock = NULL;
pIoCtx->pfnIoCtxTransferNext = vdDiscardCurrentRangeAsync;
}
else
{
/* Range lies partly in the block, update allocation bitmap. */
int32_t idxStart, idxEnd;
cbThisDiscard = RT_MIN(cbDiscardLeft, pBlock->Core.KeyLast - offStart + 1);
AssertPtr(pBlock);
Assert(!(cbThisDiscard % 512));
Assert(!((offStart - pBlock->Core.Key) % 512));
idxStart = (offStart - pBlock->Core.Key) / 512;
idxEnd = idxStart + (int32_t)(cbThisDiscard / 512);
ASMBitClearRange(pBlock->pbmAllocated, idxStart, idxEnd);
cbDiscardLeft -= cbThisDiscard;
offStart += cbThisDiscard;
/* Call the backend to discard the block if it is completely unallocated now. */
if (ASMBitFirstSet((volatile void *)pBlock->pbmAllocated, (uint32_t)(pBlock->cbDiscard / 512)) == -1)
{
pIoCtx->Req.Discard.pBlock = pBlock;
pIoCtx->pfnIoCtxTransferNext = vdDiscardWholeBlockAsync;
rc = VINF_SUCCESS;
}
else
{
RTListNodeRemove(&pBlock->NodeLru);
RTListPrepend(&pDiscard->ListLru, &pBlock->NodeLru);
/* Start with next range. */
pIoCtx->pfnIoCtxTransferNext = vdDiscardHelperAsync;
rc = VINF_SUCCESS;
}
}
/* Save state in the context. */
pIoCtx->Req.Discard.offCur = offStart;
pIoCtx->Req.Discard.cbDiscardLeft = cbDiscardLeft;
pIoCtx->Req.Discard.cbThisDiscard = cbThisDiscard;
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
/**
* VD async I/O interface open callback.
*/
static DECLCALLBACK(int) vdIOOpenFallback(void *pvUser, const char *pszLocation,
uint32_t fOpen, PFNVDCOMPLETED pfnCompleted,
void **ppStorage)
{
RT_NOREF1(pvUser);
PVDIIOFALLBACKSTORAGE pStorage = (PVDIIOFALLBACKSTORAGE)RTMemAllocZ(sizeof(VDIIOFALLBACKSTORAGE));
if (!pStorage)
return VERR_NO_MEMORY;
pStorage->pfnCompleted = pfnCompleted;
/* Open the file. */
int rc = RTFileOpen(&pStorage->File, pszLocation, fOpen);
if (RT_SUCCESS(rc))
{
*ppStorage = pStorage;
return VINF_SUCCESS;
}
RTMemFree(pStorage);
return rc;
}
/**
* VD async I/O interface close callback.
*/
static DECLCALLBACK(int) vdIOCloseFallback(void *pvUser, void *pvStorage)
{
RT_NOREF1(pvUser);
PVDIIOFALLBACKSTORAGE pStorage = (PVDIIOFALLBACKSTORAGE)pvStorage;
RTFileClose(pStorage->File);
RTMemFree(pStorage);
return VINF_SUCCESS;
}
static DECLCALLBACK(int) vdIODeleteFallback(void *pvUser, const char *pcszFilename)
{
RT_NOREF1(pvUser);
return RTFileDelete(pcszFilename);
}
static DECLCALLBACK(int) vdIOMoveFallback(void *pvUser, const char *pcszSrc, const char *pcszDst, unsigned fMove)
{
RT_NOREF1(pvUser);
return RTFileMove(pcszSrc, pcszDst, fMove);
}
static DECLCALLBACK(int) vdIOGetFreeSpaceFallback(void *pvUser, const char *pcszFilename, int64_t *pcbFreeSpace)
{
RT_NOREF1(pvUser);
return RTFsQuerySizes(pcszFilename, NULL, pcbFreeSpace, NULL, NULL);
}
static DECLCALLBACK(int) vdIOGetModificationTimeFallback(void *pvUser, const char *pcszFilename, PRTTIMESPEC pModificationTime)
{
RT_NOREF1(pvUser);
RTFSOBJINFO info;
int rc = RTPathQueryInfo(pcszFilename, &info, RTFSOBJATTRADD_NOTHING);
if (RT_SUCCESS(rc))
*pModificationTime = info.ModificationTime;
return rc;
}
/**
* VD async I/O interface callback for retrieving the file size.
*/
static DECLCALLBACK(int) vdIOGetSizeFallback(void *pvUser, void *pvStorage, uint64_t *pcbSize)
{
RT_NOREF1(pvUser);
PVDIIOFALLBACKSTORAGE pStorage = (PVDIIOFALLBACKSTORAGE)pvStorage;
return RTFileQuerySize(pStorage->File, pcbSize);
}
/**
* VD async I/O interface callback for setting the file size.
*/
static DECLCALLBACK(int) vdIOSetSizeFallback(void *pvUser, void *pvStorage, uint64_t cbSize)
{
RT_NOREF1(pvUser);
PVDIIOFALLBACKSTORAGE pStorage = (PVDIIOFALLBACKSTORAGE)pvStorage;
return RTFileSetSize(pStorage->File, cbSize);
}
/**
* VD async I/O interface callback for setting the file allocation size.
*/
static DECLCALLBACK(int) vdIOSetAllocationSizeFallback(void *pvUser, void *pvStorage, uint64_t cbSize,
uint32_t fFlags)
{
RT_NOREF2(pvUser, fFlags);
PVDIIOFALLBACKSTORAGE pStorage = (PVDIIOFALLBACKSTORAGE)pvStorage;
return RTFileSetAllocationSize(pStorage->File, cbSize, RTFILE_ALLOC_SIZE_F_DEFAULT);
}
/**
* VD async I/O interface callback for a synchronous write to the file.
*/
static DECLCALLBACK(int) vdIOWriteSyncFallback(void *pvUser, void *pvStorage, uint64_t uOffset,
const void *pvBuf, size_t cbWrite, size_t *pcbWritten)
{
RT_NOREF1(pvUser);
PVDIIOFALLBACKSTORAGE pStorage = (PVDIIOFALLBACKSTORAGE)pvStorage;
return RTFileWriteAt(pStorage->File, uOffset, pvBuf, cbWrite, pcbWritten);
}
/**
* VD async I/O interface callback for a synchronous read from the file.
*/
static DECLCALLBACK(int) vdIOReadSyncFallback(void *pvUser, void *pvStorage, uint64_t uOffset,
void *pvBuf, size_t cbRead, size_t *pcbRead)
{
RT_NOREF1(pvUser);
PVDIIOFALLBACKSTORAGE pStorage = (PVDIIOFALLBACKSTORAGE)pvStorage;
return RTFileReadAt(pStorage->File, uOffset, pvBuf, cbRead, pcbRead);
}
/**
* VD async I/O interface callback for a synchronous flush of the file data.
*/
static DECLCALLBACK(int) vdIOFlushSyncFallback(void *pvUser, void *pvStorage)
{
RT_NOREF1(pvUser);
PVDIIOFALLBACKSTORAGE pStorage = (PVDIIOFALLBACKSTORAGE)pvStorage;
return RTFileFlush(pStorage->File);
}
/**
* VD async I/O interface callback for a asynchronous read from the file.
*/
static DECLCALLBACK(int) vdIOReadAsyncFallback(void *pvUser, void *pStorage, uint64_t uOffset,
PCRTSGSEG paSegments, size_t cSegments,
size_t cbRead, void *pvCompletion,
void **ppTask)
{
RT_NOREF8(pvUser, pStorage, uOffset, paSegments, cSegments, cbRead, pvCompletion, ppTask);
AssertFailed();
return VERR_NOT_IMPLEMENTED;
}
/**
* VD async I/O interface callback for a asynchronous write to the file.
*/
static DECLCALLBACK(int) vdIOWriteAsyncFallback(void *pvUser, void *pStorage, uint64_t uOffset,
PCRTSGSEG paSegments, size_t cSegments,
size_t cbWrite, void *pvCompletion,
void **ppTask)
{
RT_NOREF8(pvUser, pStorage, uOffset, paSegments, cSegments, cbWrite, pvCompletion, ppTask);
AssertFailed();
return VERR_NOT_IMPLEMENTED;
}
/**
* VD async I/O interface callback for a asynchronous flush of the file data.
*/
static DECLCALLBACK(int) vdIOFlushAsyncFallback(void *pvUser, void *pStorage,
void *pvCompletion, void **ppTask)
{
RT_NOREF4(pvUser, pStorage, pvCompletion, ppTask);
AssertFailed();
return VERR_NOT_IMPLEMENTED;
}
/**
* Internal - Continues an I/O context after
* it was halted because of an active transfer.
*/
static int vdIoCtxContinue(PVDIOCTX pIoCtx, int rcReq)
{
PVDISK pDisk = pIoCtx->pDisk;
int rc = VINF_SUCCESS;
VD_IS_LOCKED(pDisk);
if (RT_FAILURE(rcReq))
ASMAtomicCmpXchgS32(&pIoCtx->rcReq, rcReq, VINF_SUCCESS);
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_BLOCKED))
{
/* Continue the transfer */
rc = vdIoCtxProcessLocked(pIoCtx);
if ( rc == VINF_VD_ASYNC_IO_FINISHED
&& ASMAtomicCmpXchgBool(&pIoCtx->fComplete, true, false))
{
LogFlowFunc(("I/O context completed pIoCtx=%#p\n", pIoCtx));
bool fFreeCtx = RT_BOOL(!(pIoCtx->fFlags & VDIOCTX_FLAGS_DONT_FREE));
if (pIoCtx->pIoCtxParent)
{
PVDIOCTX pIoCtxParent = pIoCtx->pIoCtxParent;
Assert(!pIoCtxParent->pIoCtxParent);
if (RT_FAILURE(pIoCtx->rcReq))
ASMAtomicCmpXchgS32(&pIoCtxParent->rcReq, pIoCtx->rcReq, VINF_SUCCESS);
ASMAtomicDecU32(&pIoCtxParent->cDataTransfersPending);
if (pIoCtx->enmTxDir == VDIOCTXTXDIR_WRITE)
{
LogFlowFunc(("I/O context transferred %u bytes for the parent pIoCtxParent=%p\n",
pIoCtx->Type.Child.cbTransferParent, pIoCtxParent));
/* Update the parent state. */
Assert(pIoCtxParent->Req.Io.cbTransferLeft >= pIoCtx->Type.Child.cbTransferParent);
ASMAtomicSubU32(&pIoCtxParent->Req.Io.cbTransferLeft, (uint32_t)pIoCtx->Type.Child.cbTransferParent);
}
else
Assert(pIoCtx->enmTxDir == VDIOCTXTXDIR_FLUSH);
/*
* A completed child write means that we finished growing the image.
* We have to process any pending writes now.
*/
vdIoCtxUnlockDisk(pDisk, pIoCtxParent, false /* fProcessDeferredReqs */);
/* Unblock the parent */
pIoCtxParent->fFlags &= ~VDIOCTX_FLAGS_BLOCKED;
rc = vdIoCtxProcessLocked(pIoCtxParent);
if ( rc == VINF_VD_ASYNC_IO_FINISHED
&& ASMAtomicCmpXchgBool(&pIoCtxParent->fComplete, true, false))
{
LogFlowFunc(("Parent I/O context completed pIoCtxParent=%#p rcReq=%Rrc\n", pIoCtxParent, pIoCtxParent->rcReq));
bool fFreeParentCtx = RT_BOOL(!(pIoCtxParent->fFlags & VDIOCTX_FLAGS_DONT_FREE));
vdIoCtxRootComplete(pDisk, pIoCtxParent);
vdThreadFinishWrite(pDisk);
if (fFreeParentCtx)
vdIoCtxFree(pDisk, pIoCtxParent);
vdDiskProcessBlockedIoCtx(pDisk);
}
else if (!vdIoCtxIsDiskLockOwner(pDisk, pIoCtx))
{
/* Process any pending writes if the current request didn't caused another growing. */
vdDiskProcessBlockedIoCtx(pDisk);
}
}
else
{
if (pIoCtx->enmTxDir == VDIOCTXTXDIR_FLUSH)
{
vdIoCtxUnlockDisk(pDisk, pIoCtx, true /* fProcessDerredReqs */);
vdThreadFinishWrite(pDisk);
}
else if ( pIoCtx->enmTxDir == VDIOCTXTXDIR_WRITE
|| pIoCtx->enmTxDir == VDIOCTXTXDIR_DISCARD)
vdThreadFinishWrite(pDisk);
else
{
Assert(pIoCtx->enmTxDir == VDIOCTXTXDIR_READ);
vdThreadFinishRead(pDisk);
}
LogFlowFunc(("I/O context completed pIoCtx=%#p rcReq=%Rrc\n", pIoCtx, pIoCtx->rcReq));
vdIoCtxRootComplete(pDisk, pIoCtx);
}
if (fFreeCtx)
vdIoCtxFree(pDisk, pIoCtx);
}
}
return VINF_SUCCESS;
}
/**
* Internal - Called when user transfer completed.
*/
static int vdUserXferCompleted(PVDIOSTORAGE pIoStorage, PVDIOCTX pIoCtx,
PFNVDXFERCOMPLETED pfnComplete, void *pvUser,
size_t cbTransfer, int rcReq)
{
int rc = VINF_SUCCESS;
PVDISK pDisk = pIoCtx->pDisk;
LogFlowFunc(("pIoStorage=%#p pIoCtx=%#p pfnComplete=%#p pvUser=%#p cbTransfer=%zu rcReq=%Rrc\n",
pIoStorage, pIoCtx, pfnComplete, pvUser, cbTransfer, rcReq));
VD_IS_LOCKED(pDisk);
Assert(pIoCtx->Req.Io.cbTransferLeft >= cbTransfer);
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbTransfer); Assert(cbTransfer == (uint32_t)cbTransfer);
ASMAtomicDecU32(&pIoCtx->cDataTransfersPending);
if (pfnComplete)
rc = pfnComplete(pIoStorage->pVDIo->pBackendData, pIoCtx, pvUser, rcReq);
if (RT_SUCCESS(rc))
rc = vdIoCtxContinue(pIoCtx, rcReq);
else if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
rc = VINF_SUCCESS;
return rc;
}
static void vdIoCtxContinueDeferredList(PVDIOSTORAGE pIoStorage, PRTLISTANCHOR pListWaiting,
PFNVDXFERCOMPLETED pfnComplete, void *pvUser, int rcReq)
{
LogFlowFunc(("pIoStorage=%#p pListWaiting=%#p pfnComplete=%#p pvUser=%#p rcReq=%Rrc\n",
pIoStorage, pListWaiting, pfnComplete, pvUser, rcReq));
/* Go through the waiting list and continue the I/O contexts. */
while (!RTListIsEmpty(pListWaiting))
{
int rc = VINF_SUCCESS;
PVDIOCTXDEFERRED pDeferred = RTListGetFirst(pListWaiting, VDIOCTXDEFERRED, NodeDeferred);
PVDIOCTX pIoCtx = pDeferred->pIoCtx;
RTListNodeRemove(&pDeferred->NodeDeferred);
RTMemFree(pDeferred);
ASMAtomicDecU32(&pIoCtx->cMetaTransfersPending);
if (pfnComplete)
rc = pfnComplete(pIoStorage->pVDIo->pBackendData, pIoCtx, pvUser, rcReq);
LogFlow(("Completion callback for I/O context %#p returned %Rrc\n", pIoCtx, rc));
if (RT_SUCCESS(rc))
{
rc = vdIoCtxContinue(pIoCtx, rcReq);
AssertRC(rc);
}
else
Assert(rc == VERR_VD_ASYNC_IO_IN_PROGRESS);
}
}
/**
* Internal - Called when a meta transfer completed.
*/
static int vdMetaXferCompleted(PVDIOSTORAGE pIoStorage, PFNVDXFERCOMPLETED pfnComplete, void *pvUser,
PVDMETAXFER pMetaXfer, int rcReq)
{
PVDISK pDisk = pIoStorage->pVDIo->pDisk;
RTLISTANCHOR ListIoCtxWaiting;
bool fFlush;
LogFlowFunc(("pIoStorage=%#p pfnComplete=%#p pvUser=%#p pMetaXfer=%#p rcReq=%Rrc\n",
pIoStorage, pfnComplete, pvUser, pMetaXfer, rcReq));
VD_IS_LOCKED(pDisk);
fFlush = VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_FLUSH;
if (!fFlush)
{
RTListMove(&ListIoCtxWaiting, &pMetaXfer->ListIoCtxWaiting);
if (RT_FAILURE(rcReq))
{
/* Remove from the AVL tree. */
LogFlow(("Removing meta xfer=%#p\n", pMetaXfer));
bool fRemoved = RTAvlrFileOffsetRemove(pIoStorage->pTreeMetaXfers, pMetaXfer->Core.Key) != NULL;
Assert(fRemoved); NOREF(fRemoved);
/* If this was a write check if there is a shadow buffer with updated data. */
if (pMetaXfer->pbDataShw)
{
Assert(VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_WRITE);
Assert(!RTListIsEmpty(&pMetaXfer->ListIoCtxShwWrites));
RTListConcatenate(&ListIoCtxWaiting, &pMetaXfer->ListIoCtxShwWrites);
RTMemFree(pMetaXfer->pbDataShw);
pMetaXfer->pbDataShw = NULL;
}
RTMemFree(pMetaXfer);
}
else
{
/* Increase the reference counter to make sure it doesn't go away before the last context is processed. */
pMetaXfer->cRefs++;
}
}
else
RTListMove(&ListIoCtxWaiting, &pMetaXfer->ListIoCtxWaiting);
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_NONE);
vdIoCtxContinueDeferredList(pIoStorage, &ListIoCtxWaiting, pfnComplete, pvUser, rcReq);
/*
* If there is a shadow buffer and the previous write was successful update with the
* new data and trigger a new write.
*/
if ( pMetaXfer->pbDataShw
&& RT_SUCCESS(rcReq)
&& VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_NONE)
{
LogFlowFunc(("pMetaXfer=%#p Updating from shadow buffer and triggering new write\n", pMetaXfer));
memcpy(pMetaXfer->abData, pMetaXfer->pbDataShw, pMetaXfer->cbMeta);
RTMemFree(pMetaXfer->pbDataShw);
pMetaXfer->pbDataShw = NULL;
Assert(!RTListIsEmpty(&pMetaXfer->ListIoCtxShwWrites));
/* Setup a new I/O write. */
PVDIOTASK pIoTask = vdIoTaskMetaAlloc(pIoStorage, pfnComplete, pvUser, pMetaXfer);
if (RT_LIKELY(pIoTask))
{
void *pvTask = NULL;
RTSGSEG Seg;
Seg.cbSeg = pMetaXfer->cbMeta;
Seg.pvSeg = pMetaXfer->abData;
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_WRITE);
rcReq = pIoStorage->pVDIo->pInterfaceIo->pfnWriteAsync(pIoStorage->pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage,
pMetaXfer->Core.Key, &Seg, 1,
pMetaXfer->cbMeta, pIoTask,
&pvTask);
if ( RT_SUCCESS(rcReq)
|| rcReq != VERR_VD_ASYNC_IO_IN_PROGRESS)
{
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_NONE);
vdIoTaskFree(pDisk, pIoTask);
}
else
RTListMove(&pMetaXfer->ListIoCtxWaiting, &pMetaXfer->ListIoCtxShwWrites);
}
else
rcReq = VERR_NO_MEMORY;
/* Cleanup if there was an error or the request completed already. */
if (rcReq != VERR_VD_ASYNC_IO_IN_PROGRESS)
vdIoCtxContinueDeferredList(pIoStorage, &pMetaXfer->ListIoCtxShwWrites, pfnComplete, pvUser, rcReq);
}
/* Remove if not used anymore. */
if (!fFlush)
{
pMetaXfer->cRefs--;
if (!pMetaXfer->cRefs && RTListIsEmpty(&pMetaXfer->ListIoCtxWaiting))
{
/* Remove from the AVL tree. */
LogFlow(("Removing meta xfer=%#p\n", pMetaXfer));
bool fRemoved = RTAvlrFileOffsetRemove(pIoStorage->pTreeMetaXfers, pMetaXfer->Core.Key) != NULL;
Assert(fRemoved); NOREF(fRemoved);
RTMemFree(pMetaXfer);
}
}
else if (fFlush)
RTMemFree(pMetaXfer);
return VINF_SUCCESS;
}
/**
* Processes a list of waiting I/O tasks. The disk lock must be held by caller.
*
* @returns nothing.
* @param pDisk The disk to process the list for.
*/
static void vdIoTaskProcessWaitingList(PVDISK pDisk)
{
LogFlowFunc(("pDisk=%#p\n", pDisk));
VD_IS_LOCKED(pDisk);
PVDIOTASK pHead = ASMAtomicXchgPtrT(&pDisk->pIoTasksPendingHead, NULL, PVDIOTASK);
Log(("I/O task list cleared\n"));
/* Reverse order. */
PVDIOTASK pCur = pHead;
pHead = NULL;
while (pCur)
{
PVDIOTASK pInsert = pCur;
pCur = pCur->pNext;
pInsert->pNext = pHead;
pHead = pInsert;
}
while (pHead)
{
PVDIOSTORAGE pIoStorage = pHead->pIoStorage;
if (!pHead->fMeta)
vdUserXferCompleted(pIoStorage, pHead->Type.User.pIoCtx,
pHead->pfnComplete, pHead->pvUser,
pHead->Type.User.cbTransfer, pHead->rcReq);
else
vdMetaXferCompleted(pIoStorage, pHead->pfnComplete, pHead->pvUser,
pHead->Type.Meta.pMetaXfer, pHead->rcReq);
pCur = pHead;
pHead = pHead->pNext;
vdIoTaskFree(pDisk, pCur);
}
}
/**
* Process any I/O context on the halted list.
*
* @returns nothing.
* @param pDisk The disk.
*/
static void vdIoCtxProcessHaltedList(PVDISK pDisk)
{
LogFlowFunc(("pDisk=%#p\n", pDisk));
VD_IS_LOCKED(pDisk);
/* Get the waiting list and process it in FIFO order. */
PVDIOCTX pIoCtxHead = ASMAtomicXchgPtrT(&pDisk->pIoCtxHaltedHead, NULL, PVDIOCTX);
/* Reverse it. */
PVDIOCTX pCur = pIoCtxHead;
pIoCtxHead = NULL;
while (pCur)
{
PVDIOCTX pInsert = pCur;
pCur = pCur->pIoCtxNext;
pInsert->pIoCtxNext = pIoCtxHead;
pIoCtxHead = pInsert;
}
/* Process now. */
pCur = pIoCtxHead;
while (pCur)
{
PVDIOCTX pTmp = pCur;
pCur = pCur->pIoCtxNext;
pTmp->pIoCtxNext = NULL;
/* Continue */
pTmp->fFlags &= ~VDIOCTX_FLAGS_BLOCKED;
vdIoCtxContinue(pTmp, pTmp->rcReq);
}
}
/**
* Unlock the disk and process pending tasks.
*
* @returns VBox status code.
* @param pDisk The disk to unlock.
* @param pIoCtxRc The I/O context to get the status code from, optional.
*/
static int vdDiskUnlock(PVDISK pDisk, PVDIOCTX pIoCtxRc)
{
int rc = VINF_SUCCESS;
VD_IS_LOCKED(pDisk);
/*
* Process the list of waiting I/O tasks first
* because they might complete I/O contexts.
* Same for the list of halted I/O contexts.
* Afterwards comes the list of new I/O contexts.
*/
vdIoTaskProcessWaitingList(pDisk);
vdIoCtxProcessHaltedList(pDisk);
rc = vdDiskProcessWaitingIoCtx(pDisk, pIoCtxRc);
ASMAtomicXchgBool(&pDisk->fLocked, false);
/*
* Need to check for new I/O tasks and waiting I/O contexts now
* again as other threads might added them while we processed
* previous lists.
*/
while ( ASMAtomicUoReadPtrT(&pDisk->pIoCtxHead, PVDIOCTX) != NULL
|| ASMAtomicUoReadPtrT(&pDisk->pIoTasksPendingHead, PVDIOTASK) != NULL
|| ASMAtomicUoReadPtrT(&pDisk->pIoCtxHaltedHead, PVDIOCTX) != NULL)
{
/* Try lock disk again. */
if (ASMAtomicCmpXchgBool(&pDisk->fLocked, true, false))
{
vdIoTaskProcessWaitingList(pDisk);
vdIoCtxProcessHaltedList(pDisk);
vdDiskProcessWaitingIoCtx(pDisk, NULL);
ASMAtomicXchgBool(&pDisk->fLocked, false);
}
else /* Let the other thread everything when he unlocks the disk. */
break;
}
return rc;
}
/**
* Try to lock the disk to complete pressing of the I/O task.
* The completion is deferred if the disk is locked already.
*
* @returns nothing.
* @param pIoTask The I/O task to complete.
*/
static void vdXferTryLockDiskDeferIoTask(PVDIOTASK pIoTask)
{
PVDIOSTORAGE pIoStorage = pIoTask->pIoStorage;
PVDISK pDisk = pIoStorage->pVDIo->pDisk;
Log(("Deferring I/O task pIoTask=%p\n", pIoTask));
/* Put it on the waiting list. */
PVDIOTASK pNext = ASMAtomicUoReadPtrT(&pDisk->pIoTasksPendingHead, PVDIOTASK);
PVDIOTASK pHeadOld;
pIoTask->pNext = pNext;
while (!ASMAtomicCmpXchgExPtr(&pDisk->pIoTasksPendingHead, pIoTask, pNext, &pHeadOld))
{
pNext = pHeadOld;
Assert(pNext != pIoTask);
pIoTask->pNext = pNext;
ASMNopPause();
}
if (ASMAtomicCmpXchgBool(&pDisk->fLocked, true, false))
{
/* Release disk lock, it will take care of processing all lists. */
vdDiskUnlock(pDisk, NULL);
}
}
static DECLCALLBACK(int) vdIOIntReqCompleted(void *pvUser, int rcReq)
{
PVDIOTASK pIoTask = (PVDIOTASK)pvUser;
LogFlowFunc(("Task completed pIoTask=%#p\n", pIoTask));
pIoTask->rcReq = rcReq;
vdXferTryLockDiskDeferIoTask(pIoTask);
return VINF_SUCCESS;
}
/**
* VD I/O interface callback for opening a file.
*/
static DECLCALLBACK(int) vdIOIntOpen(void *pvUser, const char *pszLocation,
unsigned uOpenFlags, PPVDIOSTORAGE ppIoStorage)
{
int rc = VINF_SUCCESS;
PVDIO pVDIo = (PVDIO)pvUser;
PVDIOSTORAGE pIoStorage = (PVDIOSTORAGE)RTMemAllocZ(sizeof(VDIOSTORAGE));
if (!pIoStorage)
return VERR_NO_MEMORY;
/* Create the AVl tree. */
pIoStorage->pTreeMetaXfers = (PAVLRFOFFTREE)RTMemAllocZ(sizeof(AVLRFOFFTREE));
if (pIoStorage->pTreeMetaXfers)
{
rc = pVDIo->pInterfaceIo->pfnOpen(pVDIo->pInterfaceIo->Core.pvUser,
pszLocation, uOpenFlags,
vdIOIntReqCompleted,
&pIoStorage->pStorage);
if (RT_SUCCESS(rc))
{
pIoStorage->pVDIo = pVDIo;
*ppIoStorage = pIoStorage;
return VINF_SUCCESS;
}
RTMemFree(pIoStorage->pTreeMetaXfers);
}
else
rc = VERR_NO_MEMORY;
RTMemFree(pIoStorage);
return rc;
}
static DECLCALLBACK(int) vdIOIntTreeMetaXferDestroy(PAVLRFOFFNODECORE pNode, void *pvUser)
{
RT_NOREF2(pNode, pvUser);
AssertMsgFailed(("Tree should be empty at this point!\n"));
return VINF_SUCCESS;
}
static DECLCALLBACK(int) vdIOIntClose(void *pvUser, PVDIOSTORAGE pIoStorage)
{
int rc = VINF_SUCCESS;
PVDIO pVDIo = (PVDIO)pvUser;
/* We free everything here, even if closing the file failed for some reason. */
rc = pVDIo->pInterfaceIo->pfnClose(pVDIo->pInterfaceIo->Core.pvUser, pIoStorage->pStorage);
RTAvlrFileOffsetDestroy(pIoStorage->pTreeMetaXfers, vdIOIntTreeMetaXferDestroy, NULL);
RTMemFree(pIoStorage->pTreeMetaXfers);
RTMemFree(pIoStorage);
return rc;
}
static DECLCALLBACK(int) vdIOIntDelete(void *pvUser, const char *pcszFilename)
{
PVDIO pVDIo = (PVDIO)pvUser;
return pVDIo->pInterfaceIo->pfnDelete(pVDIo->pInterfaceIo->Core.pvUser,
pcszFilename);
}
static DECLCALLBACK(int) vdIOIntMove(void *pvUser, const char *pcszSrc, const char *pcszDst,
unsigned fMove)
{
PVDIO pVDIo = (PVDIO)pvUser;
return pVDIo->pInterfaceIo->pfnMove(pVDIo->pInterfaceIo->Core.pvUser,
pcszSrc, pcszDst, fMove);
}
static DECLCALLBACK(int) vdIOIntGetFreeSpace(void *pvUser, const char *pcszFilename,
int64_t *pcbFreeSpace)
{
PVDIO pVDIo = (PVDIO)pvUser;
return pVDIo->pInterfaceIo->pfnGetFreeSpace(pVDIo->pInterfaceIo->Core.pvUser,
pcszFilename, pcbFreeSpace);
}
static DECLCALLBACK(int) vdIOIntGetModificationTime(void *pvUser, const char *pcszFilename,
PRTTIMESPEC pModificationTime)
{
PVDIO pVDIo = (PVDIO)pvUser;
return pVDIo->pInterfaceIo->pfnGetModificationTime(pVDIo->pInterfaceIo->Core.pvUser,
pcszFilename, pModificationTime);
}
static DECLCALLBACK(int) vdIOIntGetSize(void *pvUser, PVDIOSTORAGE pIoStorage,
uint64_t *pcbSize)
{
PVDIO pVDIo = (PVDIO)pvUser;
return pVDIo->pInterfaceIo->pfnGetSize(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, pcbSize);
}
static DECLCALLBACK(int) vdIOIntSetSize(void *pvUser, PVDIOSTORAGE pIoStorage,
uint64_t cbSize)
{
PVDIO pVDIo = (PVDIO)pvUser;
return pVDIo->pInterfaceIo->pfnSetSize(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, cbSize);
}
static DECLCALLBACK(int) vdIOIntSetAllocationSize(void *pvUser, PVDIOSTORAGE pIoStorage,
uint64_t cbSize, uint32_t fFlags,
PVDINTERFACEPROGRESS pIfProgress,
unsigned uPercentStart, unsigned uPercentSpan)
{
PVDIO pVDIo = (PVDIO)pvUser;
int rc = pVDIo->pInterfaceIo->pfnSetAllocationSize(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, cbSize, fFlags);
if (rc == VERR_NOT_SUPPORTED)
{
/* Fallback if the underlying medium does not support optimized storage allocation. */
uint64_t cbSizeCur = 0;
rc = pVDIo->pInterfaceIo->pfnGetSize(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, &cbSizeCur);
if (RT_SUCCESS(rc))
{
if (cbSizeCur < cbSize)
{
const size_t cbBuf = 128 * _1K;
void *pvBuf = RTMemTmpAllocZ(cbBuf);
if (RT_LIKELY(pvBuf))
{
uint64_t cbFill = cbSize - cbSizeCur;
uint64_t uOff = 0;
/* Write data to all blocks. */
while ( uOff < cbFill
&& RT_SUCCESS(rc))
{
size_t cbChunk = (size_t)RT_MIN(cbFill - uOff, cbBuf);
rc = pVDIo->pInterfaceIo->pfnWriteSync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, cbSizeCur + uOff,
pvBuf, cbChunk, NULL);
if (RT_SUCCESS(rc))
{
uOff += cbChunk;
rc = vdIfProgress(pIfProgress, uPercentStart + uOff * uPercentSpan / cbFill);
}
}
RTMemTmpFree(pvBuf);
}
else
rc = VERR_NO_MEMORY;
}
else if (cbSizeCur > cbSize)
rc = pVDIo->pInterfaceIo->pfnSetSize(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, cbSize);
}
}
if (RT_SUCCESS(rc))
rc = vdIfProgress(pIfProgress, uPercentStart + uPercentSpan);
return rc;
}
static DECLCALLBACK(int) vdIOIntReadUser(void *pvUser, PVDIOSTORAGE pIoStorage, uint64_t uOffset,
PVDIOCTX pIoCtx, size_t cbRead)
{
int rc = VINF_SUCCESS;
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
LogFlowFunc(("pvUser=%#p pIoStorage=%#p uOffset=%llu pIoCtx=%#p cbRead=%u\n",
pvUser, pIoStorage, uOffset, pIoCtx, cbRead));
/** @todo Enable check for sync I/O later. */
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
Assert(cbRead > 0);
if (pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC)
{
RTSGSEG Seg;
unsigned cSegments = 1;
size_t cbTaskRead = 0;
/* Synchronous I/O contexts only have one buffer segment. */
AssertMsgReturn(pIoCtx->Req.Io.SgBuf.cSegs == 1,
("Invalid number of buffer segments for synchronous I/O context"),
VERR_INVALID_PARAMETER);
cbTaskRead = RTSgBufSegArrayCreate(&pIoCtx->Req.Io.SgBuf, &Seg, &cSegments, cbRead);
Assert(cbRead == cbTaskRead);
Assert(cSegments == 1);
rc = pVDIo->pInterfaceIo->pfnReadSync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, uOffset,
Seg.pvSeg, cbRead, NULL);
if (RT_SUCCESS(rc))
{
Assert(cbRead == (uint32_t)cbRead);
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbRead);
}
}
else
{
/* Build the S/G array and spawn a new I/O task */
while (cbRead)
{
RTSGSEG aSeg[VD_IO_TASK_SEGMENTS_MAX];
unsigned cSegments = VD_IO_TASK_SEGMENTS_MAX;
size_t cbTaskRead = RTSgBufSegArrayCreate(&pIoCtx->Req.Io.SgBuf, aSeg, &cSegments, cbRead);
Assert(cSegments > 0);
Assert(cbTaskRead > 0);
AssertMsg(cbTaskRead <= cbRead, ("Invalid number of bytes to read\n"));
LogFlow(("Reading %u bytes into %u segments\n", cbTaskRead, cSegments));
#ifdef RT_STRICT
for (unsigned i = 0; i < cSegments; i++)
AssertMsg(aSeg[i].pvSeg && !(aSeg[i].cbSeg % 512),
("Segment %u is invalid\n", i));
#endif
Assert(cbTaskRead == (uint32_t)cbTaskRead);
PVDIOTASK pIoTask = vdIoTaskUserAlloc(pIoStorage, NULL, NULL, pIoCtx, (uint32_t)cbTaskRead);
if (!pIoTask)
return VERR_NO_MEMORY;
ASMAtomicIncU32(&pIoCtx->cDataTransfersPending);
void *pvTask;
Log(("Spawning pIoTask=%p pIoCtx=%p\n", pIoTask, pIoCtx));
rc = pVDIo->pInterfaceIo->pfnReadAsync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, uOffset,
aSeg, cSegments, cbTaskRead, pIoTask,
&pvTask);
if (RT_SUCCESS(rc))
{
AssertMsg(cbTaskRead <= pIoCtx->Req.Io.cbTransferLeft, ("Impossible!\n"));
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbTaskRead);
ASMAtomicDecU32(&pIoCtx->cDataTransfersPending);
vdIoTaskFree(pDisk, pIoTask);
}
else if (rc != VERR_VD_ASYNC_IO_IN_PROGRESS)
{
ASMAtomicDecU32(&pIoCtx->cDataTransfersPending);
vdIoTaskFree(pDisk, pIoTask);
break;
}
uOffset += cbTaskRead;
cbRead -= cbTaskRead;
}
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
static DECLCALLBACK(int) vdIOIntWriteUser(void *pvUser, PVDIOSTORAGE pIoStorage, uint64_t uOffset,
PVDIOCTX pIoCtx, size_t cbWrite, PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
int rc = VINF_SUCCESS;
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
LogFlowFunc(("pvUser=%#p pIoStorage=%#p uOffset=%llu pIoCtx=%#p cbWrite=%u\n",
pvUser, pIoStorage, uOffset, pIoCtx, cbWrite));
/** @todo Enable check for sync I/O later. */
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
Assert(cbWrite > 0);
if (pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC)
{
RTSGSEG Seg;
unsigned cSegments = 1;
size_t cbTaskWrite = 0;
/* Synchronous I/O contexts only have one buffer segment. */
AssertMsgReturn(pIoCtx->Req.Io.SgBuf.cSegs == 1,
("Invalid number of buffer segments for synchronous I/O context"),
VERR_INVALID_PARAMETER);
cbTaskWrite = RTSgBufSegArrayCreate(&pIoCtx->Req.Io.SgBuf, &Seg, &cSegments, cbWrite);
Assert(cbWrite == cbTaskWrite);
Assert(cSegments == 1);
rc = pVDIo->pInterfaceIo->pfnWriteSync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, uOffset,
Seg.pvSeg, cbWrite, NULL);
if (RT_SUCCESS(rc))
{
Assert(pIoCtx->Req.Io.cbTransferLeft >= cbWrite);
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbWrite);
}
}
else
{
/* Build the S/G array and spawn a new I/O task */
while (cbWrite)
{
RTSGSEG aSeg[VD_IO_TASK_SEGMENTS_MAX];
unsigned cSegments = VD_IO_TASK_SEGMENTS_MAX;
size_t cbTaskWrite = 0;
cbTaskWrite = RTSgBufSegArrayCreate(&pIoCtx->Req.Io.SgBuf, aSeg, &cSegments, cbWrite);
Assert(cSegments > 0);
Assert(cbTaskWrite > 0);
AssertMsg(cbTaskWrite <= cbWrite, ("Invalid number of bytes to write\n"));
LogFlow(("Writing %u bytes from %u segments\n", cbTaskWrite, cSegments));
#ifdef DEBUG
for (unsigned i = 0; i < cSegments; i++)
AssertMsg(aSeg[i].pvSeg && !(aSeg[i].cbSeg % 512),
("Segment %u is invalid\n", i));
#endif
Assert(cbTaskWrite == (uint32_t)cbTaskWrite);
PVDIOTASK pIoTask = vdIoTaskUserAlloc(pIoStorage, pfnComplete, pvCompleteUser, pIoCtx, (uint32_t)cbTaskWrite);
if (!pIoTask)
return VERR_NO_MEMORY;
ASMAtomicIncU32(&pIoCtx->cDataTransfersPending);
void *pvTask;
Log(("Spawning pIoTask=%p pIoCtx=%p\n", pIoTask, pIoCtx));
rc = pVDIo->pInterfaceIo->pfnWriteAsync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage,
uOffset, aSeg, cSegments,
cbTaskWrite, pIoTask, &pvTask);
if (RT_SUCCESS(rc))
{
AssertMsg(cbTaskWrite <= pIoCtx->Req.Io.cbTransferLeft, ("Impossible!\n"));
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbTaskWrite);
ASMAtomicDecU32(&pIoCtx->cDataTransfersPending);
vdIoTaskFree(pDisk, pIoTask);
}
else if (rc != VERR_VD_ASYNC_IO_IN_PROGRESS)
{
ASMAtomicDecU32(&pIoCtx->cDataTransfersPending);
vdIoTaskFree(pDisk, pIoTask);
break;
}
uOffset += cbTaskWrite;
cbWrite -= cbTaskWrite;
}
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
static DECLCALLBACK(int) vdIOIntReadMeta(void *pvUser, PVDIOSTORAGE pIoStorage, uint64_t uOffset,
void *pvBuf, size_t cbRead, PVDIOCTX pIoCtx,
PPVDMETAXFER ppMetaXfer, PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
int rc = VINF_SUCCESS;
RTSGSEG Seg;
PVDIOTASK pIoTask;
PVDMETAXFER pMetaXfer = NULL;
void *pvTask = NULL;
LogFlowFunc(("pvUser=%#p pIoStorage=%#p uOffset=%llu pvBuf=%#p cbRead=%u\n",
pvUser, pIoStorage, uOffset, pvBuf, cbRead));
AssertMsgReturn( pIoCtx
|| (!ppMetaXfer && !pfnComplete && !pvCompleteUser),
("A synchronous metadata read is requested but the parameters are wrong\n"),
VERR_INVALID_POINTER);
/** @todo Enable check for sync I/O later. */
if ( pIoCtx
&& !(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
if ( !pIoCtx
|| pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC)
{
/* Handle synchronous metadata I/O. */
/** @todo Integrate with metadata transfers below. */
rc = pVDIo->pInterfaceIo->pfnReadSync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, uOffset,
pvBuf, cbRead, NULL);
if (ppMetaXfer)
*ppMetaXfer = NULL;
}
else
{
pMetaXfer = (PVDMETAXFER)RTAvlrFileOffsetGet(pIoStorage->pTreeMetaXfers, uOffset);
if (!pMetaXfer)
{
#ifdef RT_STRICT
pMetaXfer = (PVDMETAXFER)RTAvlrFileOffsetGetBestFit(pIoStorage->pTreeMetaXfers, uOffset, false /* fAbove */);
AssertMsg(!pMetaXfer || (pMetaXfer->Core.Key + (RTFOFF)pMetaXfer->cbMeta <= (RTFOFF)uOffset),
("Overlapping meta transfers!\n"));
#endif
/* Allocate a new meta transfer. */
pMetaXfer = vdMetaXferAlloc(pIoStorage, uOffset, cbRead);
if (!pMetaXfer)
return VERR_NO_MEMORY;
pIoTask = vdIoTaskMetaAlloc(pIoStorage, pfnComplete, pvCompleteUser, pMetaXfer);
if (!pIoTask)
{
RTMemFree(pMetaXfer);
return VERR_NO_MEMORY;
}
Seg.cbSeg = cbRead;
Seg.pvSeg = pMetaXfer->abData;
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_READ);
rc = pVDIo->pInterfaceIo->pfnReadAsync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage,
uOffset, &Seg, 1,
cbRead, pIoTask, &pvTask);
if (RT_SUCCESS(rc) || rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
{
bool fInserted = RTAvlrFileOffsetInsert(pIoStorage->pTreeMetaXfers, &pMetaXfer->Core);
Assert(fInserted); NOREF(fInserted);
}
else
RTMemFree(pMetaXfer);
if (RT_SUCCESS(rc))
{
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_NONE);
vdIoTaskFree(pDisk, pIoTask);
}
else if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS && !pfnComplete)
rc = VERR_VD_NOT_ENOUGH_METADATA;
}
Assert(VALID_PTR(pMetaXfer) || RT_FAILURE(rc));
if (RT_SUCCESS(rc) || rc == VERR_VD_NOT_ENOUGH_METADATA || rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
{
/* If it is pending add the request to the list. */
if (VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_READ)
{
PVDIOCTXDEFERRED pDeferred = (PVDIOCTXDEFERRED)RTMemAllocZ(sizeof(VDIOCTXDEFERRED));
AssertPtr(pDeferred);
RTListInit(&pDeferred->NodeDeferred);
pDeferred->pIoCtx = pIoCtx;
ASMAtomicIncU32(&pIoCtx->cMetaTransfersPending);
RTListAppend(&pMetaXfer->ListIoCtxWaiting, &pDeferred->NodeDeferred);
rc = VERR_VD_NOT_ENOUGH_METADATA;
}
else
{
/* Transfer the data. */
pMetaXfer->cRefs++;
Assert(pMetaXfer->cbMeta >= cbRead);
Assert(pMetaXfer->Core.Key == (RTFOFF)uOffset);
if (pMetaXfer->pbDataShw)
memcpy(pvBuf, pMetaXfer->pbDataShw, cbRead);
else
memcpy(pvBuf, pMetaXfer->abData, cbRead);
*ppMetaXfer = pMetaXfer;
}
}
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
static DECLCALLBACK(int) vdIOIntWriteMeta(void *pvUser, PVDIOSTORAGE pIoStorage, uint64_t uOffset,
const void *pvBuf, size_t cbWrite, PVDIOCTX pIoCtx,
PFNVDXFERCOMPLETED pfnComplete, void *pvCompleteUser)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
int rc = VINF_SUCCESS;
RTSGSEG Seg;
PVDIOTASK pIoTask;
PVDMETAXFER pMetaXfer = NULL;
bool fInTree = false;
void *pvTask = NULL;
LogFlowFunc(("pvUser=%#p pIoStorage=%#p uOffset=%llu pvBuf=%#p cbWrite=%u\n",
pvUser, pIoStorage, uOffset, pvBuf, cbWrite));
AssertMsgReturn( pIoCtx
|| (!pfnComplete && !pvCompleteUser),
("A synchronous metadata write is requested but the parameters are wrong\n"),
VERR_INVALID_POINTER);
/** @todo Enable check for sync I/O later. */
if ( pIoCtx
&& !(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
if ( !pIoCtx
|| pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC)
{
/* Handle synchronous metadata I/O. */
/** @todo Integrate with metadata transfers below. */
rc = pVDIo->pInterfaceIo->pfnWriteSync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage, uOffset,
pvBuf, cbWrite, NULL);
}
else
{
pMetaXfer = (PVDMETAXFER)RTAvlrFileOffsetGet(pIoStorage->pTreeMetaXfers, uOffset);
if (!pMetaXfer)
{
/* Allocate a new meta transfer. */
pMetaXfer = vdMetaXferAlloc(pIoStorage, uOffset, cbWrite);
if (!pMetaXfer)
return VERR_NO_MEMORY;
}
else
{
Assert(pMetaXfer->cbMeta >= cbWrite);
Assert(pMetaXfer->Core.Key == (RTFOFF)uOffset);
fInTree = true;
}
if (VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_NONE)
{
pIoTask = vdIoTaskMetaAlloc(pIoStorage, pfnComplete, pvCompleteUser, pMetaXfer);
if (!pIoTask)
{
RTMemFree(pMetaXfer);
return VERR_NO_MEMORY;
}
memcpy(pMetaXfer->abData, pvBuf, cbWrite);
Seg.cbSeg = cbWrite;
Seg.pvSeg = pMetaXfer->abData;
ASMAtomicIncU32(&pIoCtx->cMetaTransfersPending);
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_WRITE);
rc = pVDIo->pInterfaceIo->pfnWriteAsync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage,
uOffset, &Seg, 1, cbWrite, pIoTask,
&pvTask);
if (RT_SUCCESS(rc))
{
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_NONE);
ASMAtomicDecU32(&pIoCtx->cMetaTransfersPending);
vdIoTaskFree(pDisk, pIoTask);
if (fInTree && !pMetaXfer->cRefs)
{
LogFlow(("Removing meta xfer=%#p\n", pMetaXfer));
bool fRemoved = RTAvlrFileOffsetRemove(pIoStorage->pTreeMetaXfers, pMetaXfer->Core.Key) != NULL;
AssertMsg(fRemoved, ("Metadata transfer wasn't removed\n")); NOREF(fRemoved);
RTMemFree(pMetaXfer);
pMetaXfer = NULL;
}
}
else if (rc == VERR_VD_ASYNC_IO_IN_PROGRESS)
{
PVDIOCTXDEFERRED pDeferred = (PVDIOCTXDEFERRED)RTMemAllocZ(sizeof(VDIOCTXDEFERRED));
AssertPtr(pDeferred);
RTListInit(&pDeferred->NodeDeferred);
pDeferred->pIoCtx = pIoCtx;
if (!fInTree)
{
bool fInserted = RTAvlrFileOffsetInsert(pIoStorage->pTreeMetaXfers, &pMetaXfer->Core);
Assert(fInserted); NOREF(fInserted);
}
RTListAppend(&pMetaXfer->ListIoCtxWaiting, &pDeferred->NodeDeferred);
}
else
{
RTMemFree(pMetaXfer);
pMetaXfer = NULL;
}
}
else
{
/* I/O is in progress, update shadow buffer and add to waiting list. */
Assert(VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_WRITE);
if (!pMetaXfer->pbDataShw)
{
/* Allocate shadow buffer and set initial state. */
LogFlowFunc(("pMetaXfer=%#p Creating shadow buffer\n", pMetaXfer));
pMetaXfer->pbDataShw = (uint8_t *)RTMemAlloc(pMetaXfer->cbMeta);
if (RT_LIKELY(pMetaXfer->pbDataShw))
memcpy(pMetaXfer->pbDataShw, pMetaXfer->abData, pMetaXfer->cbMeta);
else
rc = VERR_NO_MEMORY;
}
if (RT_SUCCESS(rc))
{
/* Update with written data and append to waiting list. */
PVDIOCTXDEFERRED pDeferred = (PVDIOCTXDEFERRED)RTMemAllocZ(sizeof(VDIOCTXDEFERRED));
if (pDeferred)
{
LogFlowFunc(("pMetaXfer=%#p Updating shadow buffer\n", pMetaXfer));
RTListInit(&pDeferred->NodeDeferred);
pDeferred->pIoCtx = pIoCtx;
ASMAtomicIncU32(&pIoCtx->cMetaTransfersPending);
memcpy(pMetaXfer->pbDataShw, pvBuf, cbWrite);
RTListAppend(&pMetaXfer->ListIoCtxShwWrites, &pDeferred->NodeDeferred);
}
else
{
/*
* Free shadow buffer if there is no one depending on it, i.e.
* we just allocated it.
*/
if (RTListIsEmpty(&pMetaXfer->ListIoCtxShwWrites))
{
RTMemFree(pMetaXfer->pbDataShw);
pMetaXfer->pbDataShw = NULL;
}
rc = VERR_NO_MEMORY;
}
}
}
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
static DECLCALLBACK(void) vdIOIntMetaXferRelease(void *pvUser, PVDMETAXFER pMetaXfer)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
PVDIOSTORAGE pIoStorage;
/*
* It is possible that we get called with a NULL metadata xfer handle
* for synchronous I/O. Just exit.
*/
if (!pMetaXfer)
return;
pIoStorage = pMetaXfer->pIoStorage;
VD_IS_LOCKED(pDisk);
Assert( VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_NONE
|| VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_WRITE);
Assert(pMetaXfer->cRefs > 0);
pMetaXfer->cRefs--;
if ( !pMetaXfer->cRefs
&& RTListIsEmpty(&pMetaXfer->ListIoCtxWaiting)
&& VDMETAXFER_TXDIR_GET(pMetaXfer->fFlags) == VDMETAXFER_TXDIR_NONE)
{
/* Free the meta data entry. */
LogFlow(("Removing meta xfer=%#p\n", pMetaXfer));
bool fRemoved = RTAvlrFileOffsetRemove(pIoStorage->pTreeMetaXfers, pMetaXfer->Core.Key) != NULL;
AssertMsg(fRemoved, ("Metadata transfer wasn't removed\n")); NOREF(fRemoved);
RTMemFree(pMetaXfer);
}
}
static DECLCALLBACK(int) vdIOIntFlush(void *pvUser, PVDIOSTORAGE pIoStorage, PVDIOCTX pIoCtx,
PFNVDXFERCOMPLETED pfnComplete, void *pvCompleteUser)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
int rc = VINF_SUCCESS;
PVDIOTASK pIoTask;
PVDMETAXFER pMetaXfer = NULL;
void *pvTask = NULL;
LogFlowFunc(("pvUser=%#p pIoStorage=%#p pIoCtx=%#p\n",
pvUser, pIoStorage, pIoCtx));
AssertMsgReturn( pIoCtx
|| (!pfnComplete && !pvCompleteUser),
("A synchronous metadata write is requested but the parameters are wrong\n"),
VERR_INVALID_POINTER);
/** @todo Enable check for sync I/O later. */
if ( pIoCtx
&& !(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
if (pVDIo->fIgnoreFlush)
return VINF_SUCCESS;
if ( !pIoCtx
|| pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC)
{
/* Handle synchronous flushes. */
/** @todo Integrate with metadata transfers below. */
rc = pVDIo->pInterfaceIo->pfnFlushSync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage);
}
else
{
/* Allocate a new meta transfer. */
pMetaXfer = vdMetaXferAlloc(pIoStorage, 0, 0);
if (!pMetaXfer)
return VERR_NO_MEMORY;
pIoTask = vdIoTaskMetaAlloc(pIoStorage, pfnComplete, pvUser, pMetaXfer);
if (!pIoTask)
{
RTMemFree(pMetaXfer);
return VERR_NO_MEMORY;
}
ASMAtomicIncU32(&pIoCtx->cMetaTransfersPending);
PVDIOCTXDEFERRED pDeferred = (PVDIOCTXDEFERRED)RTMemAllocZ(sizeof(VDIOCTXDEFERRED));
AssertPtr(pDeferred);
RTListInit(&pDeferred->NodeDeferred);
pDeferred->pIoCtx = pIoCtx;
RTListAppend(&pMetaXfer->ListIoCtxWaiting, &pDeferred->NodeDeferred);
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_FLUSH);
rc = pVDIo->pInterfaceIo->pfnFlushAsync(pVDIo->pInterfaceIo->Core.pvUser,
pIoStorage->pStorage,
pIoTask, &pvTask);
if (RT_SUCCESS(rc))
{
VDMETAXFER_TXDIR_SET(pMetaXfer->fFlags, VDMETAXFER_TXDIR_NONE);
ASMAtomicDecU32(&pIoCtx->cMetaTransfersPending);
vdIoTaskFree(pDisk, pIoTask);
RTMemFree(pDeferred);
RTMemFree(pMetaXfer);
}
else if (rc != VERR_VD_ASYNC_IO_IN_PROGRESS)
RTMemFree(pMetaXfer);
}
LogFlowFunc(("returns rc=%Rrc\n", rc));
return rc;
}
static DECLCALLBACK(size_t) vdIOIntIoCtxCopyTo(void *pvUser, PVDIOCTX pIoCtx,
const void *pvBuf, size_t cbBuf)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
size_t cbCopied = 0;
/** @todo Enable check for sync I/O later. */
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
cbCopied = vdIoCtxCopyTo(pIoCtx, (uint8_t *)pvBuf, cbBuf);
Assert(cbCopied == cbBuf);
/// @todo Assert(pIoCtx->Req.Io.cbTransferLeft >= cbCopied); - triggers with vdCopyHelper/dmgRead.
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbCopied);
return cbCopied;
}
static DECLCALLBACK(size_t) vdIOIntIoCtxCopyFrom(void *pvUser, PVDIOCTX pIoCtx,
void *pvBuf, size_t cbBuf)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
size_t cbCopied = 0;
/** @todo Enable check for sync I/O later. */
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
cbCopied = vdIoCtxCopyFrom(pIoCtx, (uint8_t *)pvBuf, cbBuf);
Assert(cbCopied == cbBuf);
/// @todo Assert(pIoCtx->Req.Io.cbTransferLeft > cbCopied); - triggers with vdCopyHelper/dmgRead.
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbCopied);
return cbCopied;
}
static DECLCALLBACK(size_t) vdIOIntIoCtxSet(void *pvUser, PVDIOCTX pIoCtx, int ch, size_t cb)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
size_t cbSet = 0;
/** @todo Enable check for sync I/O later. */
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
cbSet = vdIoCtxSet(pIoCtx, ch, cb);
Assert(cbSet == cb);
/// @todo Assert(pIoCtx->Req.Io.cbTransferLeft >= cbSet); - triggers with vdCopyHelper/dmgRead.
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbSet);
return cbSet;
}
static DECLCALLBACK(size_t) vdIOIntIoCtxSegArrayCreate(void *pvUser, PVDIOCTX pIoCtx,
PRTSGSEG paSeg, unsigned *pcSeg,
size_t cbData)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
size_t cbCreated = 0;
/** @todo It is possible that this gets called from a filter plugin
* outside of the disk lock. Refine assertion or remove completely. */
#if 0
/** @todo Enable check for sync I/O later. */
if (!(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC))
VD_IS_LOCKED(pDisk);
#else
NOREF(pDisk);
#endif
cbCreated = RTSgBufSegArrayCreate(&pIoCtx->Req.Io.SgBuf, paSeg, pcSeg, cbData);
Assert(!paSeg || cbData == cbCreated);
return cbCreated;
}
static DECLCALLBACK(void) vdIOIntIoCtxCompleted(void *pvUser, PVDIOCTX pIoCtx, int rcReq,
size_t cbCompleted)
{
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
LogFlowFunc(("pvUser=%#p pIoCtx=%#p rcReq=%Rrc cbCompleted=%zu\n",
pvUser, pIoCtx, rcReq, cbCompleted));
/*
* Grab the disk critical section to avoid races with other threads which
* might still modify the I/O context.
* Example is that iSCSI is doing an asynchronous write but calls us already
* while the other thread is still hanging in vdWriteHelperAsync and couldn't update
* the blocked state yet.
* It can overwrite the state to true before we call vdIoCtxContinue and the
* the request would hang indefinite.
*/
ASMAtomicCmpXchgS32(&pIoCtx->rcReq, rcReq, VINF_SUCCESS);
Assert(pIoCtx->Req.Io.cbTransferLeft >= cbCompleted);
ASMAtomicSubU32(&pIoCtx->Req.Io.cbTransferLeft, (uint32_t)cbCompleted);
/* Set next transfer function if the current one finished.
* @todo: Find a better way to prevent vdIoCtxContinue from calling the current helper again. */
if (!pIoCtx->Req.Io.cbTransferLeft)
{
pIoCtx->pfnIoCtxTransfer = pIoCtx->pfnIoCtxTransferNext;
pIoCtx->pfnIoCtxTransferNext = NULL;
}
vdIoCtxAddToWaitingList(&pDisk->pIoCtxHaltedHead, pIoCtx);
if (ASMAtomicCmpXchgBool(&pDisk->fLocked, true, false))
{
/* Immediately drop the lock again, it will take care of processing the list. */
vdDiskUnlock(pDisk, NULL);
}
}
static DECLCALLBACK(bool) vdIOIntIoCtxIsSynchronous(void *pvUser, PVDIOCTX pIoCtx)
{
NOREF(pvUser);
return !!(pIoCtx->fFlags & VDIOCTX_FLAGS_SYNC);
}
static DECLCALLBACK(bool) vdIOIntIoCtxIsZero(void *pvUser, PVDIOCTX pIoCtx, size_t cbCheck,
bool fAdvance)
{
NOREF(pvUser);
bool fIsZero = RTSgBufIsZero(&pIoCtx->Req.Io.SgBuf, cbCheck);
if (fIsZero && fAdvance)
RTSgBufAdvance(&pIoCtx->Req.Io.SgBuf, cbCheck);
return fIsZero;
}
static DECLCALLBACK(size_t) vdIOIntIoCtxGetDataUnitSize(void *pvUser, PVDIOCTX pIoCtx)
{
RT_NOREF1(pIoCtx);
PVDIO pVDIo = (PVDIO)pvUser;
PVDISK pDisk = pVDIo->pDisk;
size_t cbSector = 0;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, VD_LAST_IMAGE);
AssertPtrReturn(pImage, 0);
PCVDREGIONLIST pRegionList = NULL;
int rc = pImage->Backend->pfnQueryRegions(pImage->pBackendData, &pRegionList);
if (RT_SUCCESS(rc))
{
cbSector = pRegionList->aRegions[0].cbBlock;
AssertPtr(pImage->Backend->pfnRegionListRelease);
pImage->Backend->pfnRegionListRelease(pImage->pBackendData, pRegionList);
}
return cbSector;
}
/**
* VD I/O interface callback for opening a file (limited version for VDGetFormat).
*/
static DECLCALLBACK(int) vdIOIntOpenLimited(void *pvUser, const char *pszLocation,
uint32_t fOpen, PPVDIOSTORAGE ppIoStorage)
{
int rc = VINF_SUCCESS;
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
PVDIOSTORAGE pIoStorage = (PVDIOSTORAGE)RTMemAllocZ(sizeof(VDIOSTORAGE));
if (!pIoStorage)
return VERR_NO_MEMORY;
rc = pInterfaceIo->pfnOpen(NULL, pszLocation, fOpen, NULL, &pIoStorage->pStorage);
if (RT_SUCCESS(rc))
*ppIoStorage = pIoStorage;
else
RTMemFree(pIoStorage);
return rc;
}
static DECLCALLBACK(int) vdIOIntCloseLimited(void *pvUser, PVDIOSTORAGE pIoStorage)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
int rc = pInterfaceIo->pfnClose(NULL, pIoStorage->pStorage);
RTMemFree(pIoStorage);
return rc;
}
static DECLCALLBACK(int) vdIOIntDeleteLimited(void *pvUser, const char *pcszFilename)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
return pInterfaceIo->pfnDelete(NULL, pcszFilename);
}
static DECLCALLBACK(int) vdIOIntMoveLimited(void *pvUser, const char *pcszSrc,
const char *pcszDst, unsigned fMove)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
return pInterfaceIo->pfnMove(NULL, pcszSrc, pcszDst, fMove);
}
static DECLCALLBACK(int) vdIOIntGetFreeSpaceLimited(void *pvUser, const char *pcszFilename,
int64_t *pcbFreeSpace)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
return pInterfaceIo->pfnGetFreeSpace(NULL, pcszFilename, pcbFreeSpace);
}
static DECLCALLBACK(int) vdIOIntGetModificationTimeLimited(void *pvUser,
const char *pcszFilename,
PRTTIMESPEC pModificationTime)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
return pInterfaceIo->pfnGetModificationTime(NULL, pcszFilename, pModificationTime);
}
static DECLCALLBACK(int) vdIOIntGetSizeLimited(void *pvUser, PVDIOSTORAGE pIoStorage,
uint64_t *pcbSize)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
return pInterfaceIo->pfnGetSize(NULL, pIoStorage->pStorage, pcbSize);
}
static DECLCALLBACK(int) vdIOIntSetSizeLimited(void *pvUser, PVDIOSTORAGE pIoStorage,
uint64_t cbSize)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
return pInterfaceIo->pfnSetSize(NULL, pIoStorage->pStorage, cbSize);
}
static DECLCALLBACK(int) vdIOIntWriteUserLimited(void *pvUser, PVDIOSTORAGE pStorage,
uint64_t uOffset, PVDIOCTX pIoCtx,
size_t cbWrite,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
NOREF(pvUser);
NOREF(pStorage);
NOREF(uOffset);
NOREF(pIoCtx);
NOREF(cbWrite);
NOREF(pfnComplete);
NOREF(pvCompleteUser);
AssertMsgFailedReturn(("This needs to be implemented when called\n"), VERR_NOT_IMPLEMENTED);
}
static DECLCALLBACK(int) vdIOIntReadUserLimited(void *pvUser, PVDIOSTORAGE pStorage,
uint64_t uOffset, PVDIOCTX pIoCtx,
size_t cbRead)
{
NOREF(pvUser);
NOREF(pStorage);
NOREF(uOffset);
NOREF(pIoCtx);
NOREF(cbRead);
AssertMsgFailedReturn(("This needs to be implemented when called\n"), VERR_NOT_IMPLEMENTED);
}
static DECLCALLBACK(int) vdIOIntWriteMetaLimited(void *pvUser, PVDIOSTORAGE pStorage,
uint64_t uOffset, const void *pvBuffer,
size_t cbBuffer, PVDIOCTX pIoCtx,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
AssertMsgReturn(!pIoCtx && !pfnComplete && !pvCompleteUser,
("Async I/O not implemented for the limited interface"),
VERR_NOT_SUPPORTED);
return pInterfaceIo->pfnWriteSync(NULL, pStorage->pStorage, uOffset, pvBuffer, cbBuffer, NULL);
}
static DECLCALLBACK(int) vdIOIntReadMetaLimited(void *pvUser, PVDIOSTORAGE pStorage,
uint64_t uOffset, void *pvBuffer,
size_t cbBuffer, PVDIOCTX pIoCtx,
PPVDMETAXFER ppMetaXfer,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
AssertMsgReturn(!pIoCtx && !ppMetaXfer && !pfnComplete && !pvCompleteUser,
("Async I/O not implemented for the limited interface"),
VERR_NOT_SUPPORTED);
return pInterfaceIo->pfnReadSync(NULL, pStorage->pStorage, uOffset, pvBuffer, cbBuffer, NULL);
}
#if 0 /* unsed */
static int vdIOIntMetaXferReleaseLimited(void *pvUser, PVDMETAXFER pMetaXfer)
{
/* This is a NOP in this case. */
NOREF(pvUser);
NOREF(pMetaXfer);
return VINF_SUCCESS;
}
#endif
static DECLCALLBACK(int) vdIOIntFlushLimited(void *pvUser, PVDIOSTORAGE pStorage,
PVDIOCTX pIoCtx,
PFNVDXFERCOMPLETED pfnComplete,
void *pvCompleteUser)
{
PVDINTERFACEIO pInterfaceIo = (PVDINTERFACEIO)pvUser;
AssertMsgReturn(!pIoCtx && !pfnComplete && !pvCompleteUser,
("Async I/O not implemented for the limited interface"),
VERR_NOT_SUPPORTED);
return pInterfaceIo->pfnFlushSync(NULL, pStorage->pStorage);
}
/**
* internal: send output to the log (unconditionally).
*/
static DECLCALLBACK(int) vdLogMessage(void *pvUser, const char *pszFormat, va_list args)
{
NOREF(pvUser);
RTLogPrintfV(pszFormat, args);
return VINF_SUCCESS;
}
DECLINLINE(int) vdMessageWrapper(PVDISK pDisk, const char *pszFormat, ...)
{
va_list va;
va_start(va, pszFormat);
int rc = pDisk->pInterfaceError->pfnMessage(pDisk->pInterfaceError->Core.pvUser,
pszFormat, va);
va_end(va);
return rc;
}
/**
* internal: adjust PCHS geometry
*/
static void vdFixupPCHSGeometry(PVDGEOMETRY pPCHS, uint64_t cbSize)
{
/* Fix broken PCHS geometry. Can happen for two reasons: either the backend
* mixes up PCHS and LCHS, or the application used to create the source
* image has put garbage in it. Additionally, if the PCHS geometry covers
* more than the image size, set it back to the default. */
if ( pPCHS->cHeads > 16
|| pPCHS->cSectors > 63
|| pPCHS->cCylinders == 0
|| (uint64_t)pPCHS->cHeads * pPCHS->cSectors * pPCHS->cCylinders * 512 > cbSize)
{
Assert(!(RT_MIN(cbSize / 512 / 16 / 63, 16383) - (uint32_t)RT_MIN(cbSize / 512 / 16 / 63, 16383)));
pPCHS->cCylinders = (uint32_t)RT_MIN(cbSize / 512 / 16 / 63, 16383);
pPCHS->cHeads = 16;
pPCHS->cSectors = 63;
}
}
/**
* internal: adjust LCHS geometry
*/
static void vdFixupLCHSGeometry(PVDGEOMETRY pLCHS, uint64_t cbSize)
{
/* Fix broken LCHS geometry. Can happen for two reasons: either the backend
* mixes up PCHS and LCHS, or the application used to create the source
* image has put garbage in it. The fix in this case is to clear the LCHS
* geometry to trigger autodetection when it is used next. If the geometry
* already says "please autodetect" (cylinders=0) keep it. */
if ( ( pLCHS->cHeads > 255
|| pLCHS->cHeads == 0
|| pLCHS->cSectors > 63
|| pLCHS->cSectors == 0)
&& pLCHS->cCylinders != 0)
{
pLCHS->cCylinders = 0;
pLCHS->cHeads = 0;
pLCHS->cSectors = 0;
}
/* Always recompute the number of cylinders stored in the LCHS
* geometry if it isn't set to "autotedetect" at the moment.
* This is very useful if the destination image size is
* larger or smaller than the source image size. Do not modify
* the number of heads and sectors. Windows guests hate it. */
if ( pLCHS->cCylinders != 0
&& pLCHS->cHeads != 0 /* paranoia */
&& pLCHS->cSectors != 0 /* paranoia */)
{
Assert(!(RT_MIN(cbSize / 512 / pLCHS->cHeads / pLCHS->cSectors, 1024) - (uint32_t)RT_MIN(cbSize / 512 / pLCHS->cHeads / pLCHS->cSectors, 1024)));
pLCHS->cCylinders = (uint32_t)RT_MIN(cbSize / 512 / pLCHS->cHeads / pLCHS->cSectors, 1024);
}
}
/**
* Sets the I/O callbacks of the given interface to the fallback methods
*
* @returns nothing.
* @param pIfIo The I/O interface to setup.
*/
static void vdIfIoFallbackCallbacksSetup(PVDINTERFACEIO pIfIo)
{
pIfIo->pfnOpen = vdIOOpenFallback;
pIfIo->pfnClose = vdIOCloseFallback;
pIfIo->pfnDelete = vdIODeleteFallback;
pIfIo->pfnMove = vdIOMoveFallback;
pIfIo->pfnGetFreeSpace = vdIOGetFreeSpaceFallback;
pIfIo->pfnGetModificationTime = vdIOGetModificationTimeFallback;
pIfIo->pfnGetSize = vdIOGetSizeFallback;
pIfIo->pfnSetSize = vdIOSetSizeFallback;
pIfIo->pfnSetAllocationSize = vdIOSetAllocationSizeFallback;
pIfIo->pfnReadSync = vdIOReadSyncFallback;
pIfIo->pfnWriteSync = vdIOWriteSyncFallback;
pIfIo->pfnFlushSync = vdIOFlushSyncFallback;
pIfIo->pfnReadAsync = vdIOReadAsyncFallback;
pIfIo->pfnWriteAsync = vdIOWriteAsyncFallback;
pIfIo->pfnFlushAsync = vdIOFlushAsyncFallback;
}
/**
* Sets the internal I/O callbacks of the given interface.
*
* @returns nothing.
* @param pIfIoInt The internal I/O interface to setup.
*/
static void vdIfIoIntCallbacksSetup(PVDINTERFACEIOINT pIfIoInt)
{
pIfIoInt->pfnOpen = vdIOIntOpen;
pIfIoInt->pfnClose = vdIOIntClose;
pIfIoInt->pfnDelete = vdIOIntDelete;
pIfIoInt->pfnMove = vdIOIntMove;
pIfIoInt->pfnGetFreeSpace = vdIOIntGetFreeSpace;
pIfIoInt->pfnGetModificationTime = vdIOIntGetModificationTime;
pIfIoInt->pfnGetSize = vdIOIntGetSize;
pIfIoInt->pfnSetSize = vdIOIntSetSize;
pIfIoInt->pfnSetAllocationSize = vdIOIntSetAllocationSize;
pIfIoInt->pfnReadUser = vdIOIntReadUser;
pIfIoInt->pfnWriteUser = vdIOIntWriteUser;
pIfIoInt->pfnReadMeta = vdIOIntReadMeta;
pIfIoInt->pfnWriteMeta = vdIOIntWriteMeta;
pIfIoInt->pfnMetaXferRelease = vdIOIntMetaXferRelease;
pIfIoInt->pfnFlush = vdIOIntFlush;
pIfIoInt->pfnIoCtxCopyFrom = vdIOIntIoCtxCopyFrom;
pIfIoInt->pfnIoCtxCopyTo = vdIOIntIoCtxCopyTo;
pIfIoInt->pfnIoCtxSet = vdIOIntIoCtxSet;
pIfIoInt->pfnIoCtxSegArrayCreate = vdIOIntIoCtxSegArrayCreate;
pIfIoInt->pfnIoCtxCompleted = vdIOIntIoCtxCompleted;
pIfIoInt->pfnIoCtxIsSynchronous = vdIOIntIoCtxIsSynchronous;
pIfIoInt->pfnIoCtxIsZero = vdIOIntIoCtxIsZero;
pIfIoInt->pfnIoCtxGetDataUnitSize = vdIOIntIoCtxGetDataUnitSize;
}
/**
* Internally used completion handler for synchronous I/O contexts.
*/
static DECLCALLBACK(void) vdIoCtxSyncComplete(void *pvUser1, void *pvUser2, int rcReq)
{
RT_NOREF2(pvUser1, rcReq);
RTSEMEVENT hEvent = (RTSEMEVENT)pvUser2;
RTSemEventSignal(hEvent);
}
/**
* Initializes HDD backends.
*
* @returns VBox status code.
*/
VBOXDDU_DECL(int) VDInit(void)
{
int rc = vdPluginInit();
LogRel(("VD: VDInit finished with %Rrc\n", rc));
return rc;
}
/**
* Destroys loaded HDD backends.
*
* @returns VBox status code.
*/
VBOXDDU_DECL(int) VDShutdown(void)
{
return vdPluginTerm();
}
/**
* Loads a single plugin given by filename.
*
* @returns VBox status code.
* @param pszFilename The plugin filename to load.
*/
VBOXDDU_DECL(int) VDPluginLoadFromFilename(const char *pszFilename)
{
if (!vdPluginIsInitialized())
{
int rc = VDInit();
if (RT_FAILURE(rc))
return rc;
}
return vdPluginLoadFromFilename(pszFilename);
}
/**
* Load all plugins from a given path.
*
* @returns VBox statuse code.
* @param pszPath The path to load plugins from.
*/
VBOXDDU_DECL(int) VDPluginLoadFromPath(const char *pszPath)
{
if (!vdPluginIsInitialized())
{
int rc = VDInit();
if (RT_FAILURE(rc))
return rc;
}
return vdPluginLoadFromPath(pszPath);
}
/**
* Unloads a single plugin given by filename.
*
* @returns VBox status code.
* @param pszFilename The plugin filename to unload.
*/
VBOXDDU_DECL(int) VDPluginUnloadFromFilename(const char *pszFilename)
{
if (!vdPluginIsInitialized())
{
int rc = VDInit();
if (RT_FAILURE(rc))
return rc;
}
return vdPluginUnloadFromFilename(pszFilename);
}
/**
* Unload all plugins from a given path.
*
* @returns VBox statuse code.
* @param pszPath The path to unload plugins from.
*/
VBOXDDU_DECL(int) VDPluginUnloadFromPath(const char *pszPath)
{
if (!vdPluginIsInitialized())
{
int rc = VDInit();
if (RT_FAILURE(rc))
return rc;
}
return vdPluginUnloadFromPath(pszPath);
}
/**
* Lists all HDD backends and their capabilities in a caller-provided buffer.
*
* @returns VBox status code.
* VERR_BUFFER_OVERFLOW if not enough space is passed.
* @param cEntriesAlloc Number of list entries available.
* @param pEntries Pointer to array for the entries.
* @param pcEntriesUsed Number of entries returned.
*/
VBOXDDU_DECL(int) VDBackendInfo(unsigned cEntriesAlloc, PVDBACKENDINFO pEntries,
unsigned *pcEntriesUsed)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("cEntriesAlloc=%u pEntries=%#p pcEntriesUsed=%#p\n", cEntriesAlloc, pEntries, pcEntriesUsed));
/* Check arguments. */
AssertMsgReturn(cEntriesAlloc,
("cEntriesAlloc=%u\n", cEntriesAlloc),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(pEntries),
("pEntries=%#p\n", pEntries),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(pcEntriesUsed),
("pcEntriesUsed=%#p\n", pcEntriesUsed),
VERR_INVALID_PARAMETER);
if (!vdPluginIsInitialized())
VDInit();
uint32_t cBackends = vdGetImageBackendCount();
if (cEntriesAlloc < cBackends)
{
*pcEntriesUsed = cBackends;
return VERR_BUFFER_OVERFLOW;
}
for (unsigned i = 0; i < cBackends; i++)
{
PCVDIMAGEBACKEND pBackend;
rc = vdQueryImageBackend(i, &pBackend);
AssertRC(rc);
pEntries[i].pszBackend = pBackend->pszBackendName;
pEntries[i].uBackendCaps = pBackend->uBackendCaps;
pEntries[i].paFileExtensions = pBackend->paFileExtensions;
pEntries[i].paConfigInfo = pBackend->paConfigInfo;
pEntries[i].pfnComposeLocation = pBackend->pfnComposeLocation;
pEntries[i].pfnComposeName = pBackend->pfnComposeName;
}
LogFlowFunc(("returns %Rrc *pcEntriesUsed=%u\n", rc, cBackends));
*pcEntriesUsed = cBackends;
return rc;
}
/**
* Lists the capabilities of a backend identified by its name.
*
* @returns VBox status code.
* @param pszBackend The backend name.
* @param pEntry Pointer to an entry.
*/
VBOXDDU_DECL(int) VDBackendInfoOne(const char *pszBackend, PVDBACKENDINFO pEntry)
{
LogFlowFunc(("pszBackend=%#p pEntry=%#p\n", pszBackend, pEntry));
/* Check arguments. */
AssertMsgReturn(VALID_PTR(pszBackend),
("pszBackend=%#p\n", pszBackend),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(pEntry),
("pEntry=%#p\n", pEntry),
VERR_INVALID_PARAMETER);
if (!vdPluginIsInitialized())
VDInit();
PCVDIMAGEBACKEND pBackend;
int rc = vdFindImageBackend(pszBackend, &pBackend);
if (RT_SUCCESS(rc))
{
pEntry->pszBackend = pBackend->pszBackendName;
pEntry->uBackendCaps = pBackend->uBackendCaps;
pEntry->paFileExtensions = pBackend->paFileExtensions;
pEntry->paConfigInfo = pBackend->paConfigInfo;
}
return rc;
}
/**
* Lists all filters and their capabilities in a caller-provided buffer.
*
* @return VBox status code.
* VERR_BUFFER_OVERFLOW if not enough space is passed.
* @param cEntriesAlloc Number of list entries available.
* @param pEntries Pointer to array for the entries.
* @param pcEntriesUsed Number of entries returned.
*/
VBOXDDU_DECL(int) VDFilterInfo(unsigned cEntriesAlloc, PVDFILTERINFO pEntries,
unsigned *pcEntriesUsed)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("cEntriesAlloc=%u pEntries=%#p pcEntriesUsed=%#p\n", cEntriesAlloc, pEntries, pcEntriesUsed));
/* Check arguments. */
AssertMsgReturn(cEntriesAlloc,
("cEntriesAlloc=%u\n", cEntriesAlloc),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(pEntries),
("pEntries=%#p\n", pEntries),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(pcEntriesUsed),
("pcEntriesUsed=%#p\n", pcEntriesUsed),
VERR_INVALID_PARAMETER);
if (!vdPluginIsInitialized())
VDInit();
uint32_t cBackends = vdGetFilterBackendCount();
if (cEntriesAlloc < cBackends)
{
*pcEntriesUsed = cBackends;
return VERR_BUFFER_OVERFLOW;
}
for (unsigned i = 0; i < cBackends; i++)
{
PCVDFILTERBACKEND pBackend;
rc = vdQueryFilterBackend(i, &pBackend);
pEntries[i].pszFilter = pBackend->pszBackendName;
pEntries[i].paConfigInfo = pBackend->paConfigInfo;
}
LogFlowFunc(("returns %Rrc *pcEntriesUsed=%u\n", rc, cBackends));
*pcEntriesUsed = cBackends;
return rc;
}
/**
* Lists the capabilities of a filter identified by its name.
*
* @return VBox status code.
* @param pszFilter The filter name (case insensitive).
* @param pEntry Pointer to an entry.
*/
VBOXDDU_DECL(int) VDFilterInfoOne(const char *pszFilter, PVDFILTERINFO pEntry)
{
LogFlowFunc(("pszFilter=%#p pEntry=%#p\n", pszFilter, pEntry));
/* Check arguments. */
AssertMsgReturn(VALID_PTR(pszFilter),
("pszFilter=%#p\n", pszFilter),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(pEntry),
("pEntry=%#p\n", pEntry),
VERR_INVALID_PARAMETER);
if (!vdPluginIsInitialized())
VDInit();
PCVDFILTERBACKEND pBackend;
int rc = vdFindFilterBackend(pszFilter, &pBackend);
if (RT_SUCCESS(rc))
{
pEntry->pszFilter = pBackend->pszBackendName;
pEntry->paConfigInfo = pBackend->paConfigInfo;
}
return rc;
}
/**
* Allocates and initializes an empty HDD container.
* No image files are opened.
*
* @returns VBox status code.
* @param pVDIfsDisk Pointer to the per-disk VD interface list.
* @param enmType Type of the image container.
* @param ppDisk Where to store the reference to HDD container.
*/
VBOXDDU_DECL(int) VDCreate(PVDINTERFACE pVDIfsDisk, VDTYPE enmType, PVDISK *ppDisk)
{
int rc = VINF_SUCCESS;
PVDISK pDisk = NULL;
LogFlowFunc(("pVDIfsDisk=%#p\n", pVDIfsDisk));
do
{
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(ppDisk),
("ppDisk=%#p\n", ppDisk),
rc = VERR_INVALID_PARAMETER);
pDisk = (PVDISK)RTMemAllocZ(sizeof(VDISK));
if (pDisk)
{
pDisk->u32Signature = VDISK_SIGNATURE;
pDisk->enmType = enmType;
pDisk->cImages = 0;
pDisk->pBase = NULL;
pDisk->pLast = NULL;
pDisk->cbSize = 0;
pDisk->PCHSGeometry.cCylinders = 0;
pDisk->PCHSGeometry.cHeads = 0;
pDisk->PCHSGeometry.cSectors = 0;
pDisk->LCHSGeometry.cCylinders = 0;
pDisk->LCHSGeometry.cHeads = 0;
pDisk->LCHSGeometry.cSectors = 0;
pDisk->pVDIfsDisk = pVDIfsDisk;
pDisk->pInterfaceError = NULL;
pDisk->pInterfaceThreadSync = NULL;
pDisk->pIoCtxLockOwner = NULL;
pDisk->pIoCtxHead = NULL;
pDisk->fLocked = false;
pDisk->hMemCacheIoCtx = NIL_RTMEMCACHE;
pDisk->hMemCacheIoTask = NIL_RTMEMCACHE;
RTListInit(&pDisk->ListFilterChainWrite);
RTListInit(&pDisk->ListFilterChainRead);
/* Create the I/O ctx cache */
rc = RTMemCacheCreate(&pDisk->hMemCacheIoCtx, sizeof(VDIOCTX), 0, UINT32_MAX,
NULL, NULL, NULL, 0);
if (RT_FAILURE(rc))
break;
/* Create the I/O task cache */
rc = RTMemCacheCreate(&pDisk->hMemCacheIoTask, sizeof(VDIOTASK), 0, UINT32_MAX,
NULL, NULL, NULL, 0);
if (RT_FAILURE(rc))
break;
pDisk->pInterfaceError = VDIfErrorGet(pVDIfsDisk);
pDisk->pInterfaceThreadSync = VDIfThreadSyncGet(pVDIfsDisk);
*ppDisk = pDisk;
}
else
{
rc = VERR_NO_MEMORY;
break;
}
} while (0);
if ( RT_FAILURE(rc)
&& pDisk)
{
if (pDisk->hMemCacheIoCtx != NIL_RTMEMCACHE)
RTMemCacheDestroy(pDisk->hMemCacheIoCtx);
if (pDisk->hMemCacheIoTask != NIL_RTMEMCACHE)
RTMemCacheDestroy(pDisk->hMemCacheIoTask);
}
LogFlowFunc(("returns %Rrc (pDisk=%#p)\n", rc, pDisk));
return rc;
}
/**
* Destroys HDD container.
* If container has opened image files they will be closed.
*
* @returns VBox status code.
* @param pDisk Pointer to HDD container.
*/
VBOXDDU_DECL(int) VDDestroy(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreak(pDisk);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
Assert(!pDisk->fLocked);
rc = VDCloseAll(pDisk);
int rc2 = VDFilterRemoveAll(pDisk);
if (RT_SUCCESS(rc))
rc = rc2;
RTMemCacheDestroy(pDisk->hMemCacheIoCtx);
RTMemCacheDestroy(pDisk->hMemCacheIoTask);
RTMemFree(pDisk);
} while (0);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Try to get the backend name which can use this image.
*
* @returns VBox status code.
* VINF_SUCCESS if a plugin was found.
* ppszFormat contains the string which can be used as backend name.
* VERR_NOT_SUPPORTED if no backend was found.
* @param pVDIfsDisk Pointer to the per-disk VD interface list.
* @param pVDIfsImage Pointer to the per-image VD interface list.
* @param pszFilename Name of the image file for which the backend is queried.
* @param enmDesiredType The desired image type, VDTYPE_INVALID if anything goes.
* @param ppszFormat Receives pointer of the UTF-8 string which contains the format name.
* The returned pointer must be freed using RTStrFree().
* @param penmType Where to store the type of the image.
*/
VBOXDDU_DECL(int) VDGetFormat(PVDINTERFACE pVDIfsDisk, PVDINTERFACE pVDIfsImage,
const char *pszFilename, VDTYPE enmDesiredType,
char **ppszFormat, VDTYPE *penmType)
{
int rc = VERR_NOT_SUPPORTED;
VDINTERFACEIOINT VDIfIoInt;
VDINTERFACEIO VDIfIoFallback;
PVDINTERFACEIO pInterfaceIo;
LogFlowFunc(("pszFilename=\"%s\"\n", pszFilename));
/* Check arguments. */
AssertMsgReturn(VALID_PTR(pszFilename) && *pszFilename,
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(ppszFormat),
("ppszFormat=%#p\n", ppszFormat),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(penmType),
("penmType=%#p\n", penmType),
VERR_INVALID_PARAMETER);
AssertReturn(enmDesiredType >= VDTYPE_INVALID && enmDesiredType <= VDTYPE_FLOPPY, VERR_INVALID_PARAMETER);
if (!vdPluginIsInitialized())
VDInit();
pInterfaceIo = VDIfIoGet(pVDIfsImage);
if (!pInterfaceIo)
{
/*
* Caller doesn't provide an I/O interface, create our own using the
* native file API.
*/
vdIfIoFallbackCallbacksSetup(&VDIfIoFallback);
pInterfaceIo = &VDIfIoFallback;
}
/* Set up the internal I/O interface. */
AssertReturn(!VDIfIoIntGet(pVDIfsImage), VERR_INVALID_PARAMETER);
VDIfIoInt.pfnOpen = vdIOIntOpenLimited;
VDIfIoInt.pfnClose = vdIOIntCloseLimited;
VDIfIoInt.pfnDelete = vdIOIntDeleteLimited;
VDIfIoInt.pfnMove = vdIOIntMoveLimited;
VDIfIoInt.pfnGetFreeSpace = vdIOIntGetFreeSpaceLimited;
VDIfIoInt.pfnGetModificationTime = vdIOIntGetModificationTimeLimited;
VDIfIoInt.pfnGetSize = vdIOIntGetSizeLimited;
VDIfIoInt.pfnSetSize = vdIOIntSetSizeLimited;
VDIfIoInt.pfnReadUser = vdIOIntReadUserLimited;
VDIfIoInt.pfnWriteUser = vdIOIntWriteUserLimited;
VDIfIoInt.pfnReadMeta = vdIOIntReadMetaLimited;
VDIfIoInt.pfnWriteMeta = vdIOIntWriteMetaLimited;
VDIfIoInt.pfnFlush = vdIOIntFlushLimited;
rc = VDInterfaceAdd(&VDIfIoInt.Core, "VD_IOINT", VDINTERFACETYPE_IOINT,
pInterfaceIo, sizeof(VDINTERFACEIOINT), &pVDIfsImage);
AssertRC(rc);
/** @todo r=bird: Would be better to do a scoring approach here, where the
* backend that scores the highest is choosen. That way we don't have to depend
* on registration order and filename suffixes to figure out what RAW should
* handle and not. Besides, the registration order won't cut it for plug-ins
* anyway, as they end up after the builtin ones.
*/
/* Find the backend supporting this file format. */
for (unsigned i = 0; i < vdGetImageBackendCount(); i++)
{
PCVDIMAGEBACKEND pBackend;
rc = vdQueryImageBackend(i, &pBackend);
AssertRC(rc);
if (pBackend->pfnProbe)
{
rc = pBackend->pfnProbe(pszFilename, pVDIfsDisk, pVDIfsImage, enmDesiredType, penmType);
if ( RT_SUCCESS(rc)
/* The correct backend has been found, but there is a small
* incompatibility so that the file cannot be used. Stop here
* and signal success - the actual open will of course fail,
* but that will create a really sensible error message. */
/** @todo r=bird: this bit of code is _certifiably_ _insane_ as it allows
* simple stuff like VERR_EOF to pass thru. I've just amended it with
* disallowing VERR_EOF too, but someone needs to pick up the courage to
* fix this stuff properly or at least update the docs!
* (Parallels returns VERR_EOF, btw.) */
|| ( rc != VERR_VD_GEN_INVALID_HEADER
&& rc != VERR_VD_VDI_INVALID_HEADER
&& rc != VERR_VD_VMDK_INVALID_HEADER
&& rc != VERR_VD_ISCSI_INVALID_HEADER
&& rc != VERR_VD_VHD_INVALID_HEADER
&& rc != VERR_VD_RAW_INVALID_HEADER
&& rc != VERR_VD_RAW_SIZE_MODULO_512
&& rc != VERR_VD_RAW_SIZE_MODULO_2048
&& rc != VERR_VD_RAW_SIZE_OPTICAL_TOO_SMALL
&& rc != VERR_VD_RAW_SIZE_FLOPPY_TOO_BIG
&& rc != VERR_VD_PARALLELS_INVALID_HEADER
&& rc != VERR_VD_DMG_INVALID_HEADER
&& rc != VERR_EOF /* bird for viso */
))
{
/* Copy the name into the new string. */
char *pszFormat = RTStrDup(pBackend->pszBackendName);
if (!pszFormat)
{
rc = VERR_NO_MEMORY;
break;
}
*ppszFormat = pszFormat;
/* Do not consider the typical file access errors as success,
* which allows the caller to deal with such issues. */
if ( rc != VERR_ACCESS_DENIED
&& rc != VERR_PATH_NOT_FOUND
&& rc != VERR_FILE_NOT_FOUND)
rc = VINF_SUCCESS;
break;
}
rc = VERR_NOT_SUPPORTED;
}
}
/* Try the cache backends. */
if (rc == VERR_NOT_SUPPORTED)
{
for (unsigned i = 0; i < vdGetCacheBackendCount(); i++)
{
PCVDCACHEBACKEND pBackend;
rc = vdQueryCacheBackend(i, &pBackend);
AssertRC(rc);
if (pBackend->pfnProbe)
{
rc = pBackend->pfnProbe(pszFilename, pVDIfsDisk, pVDIfsImage);
if ( RT_SUCCESS(rc)
|| (rc != VERR_VD_GEN_INVALID_HEADER))
{
/* Copy the name into the new string. */
char *pszFormat = RTStrDup(pBackend->pszBackendName);
if (!pszFormat)
{
rc = VERR_NO_MEMORY;
break;
}
*ppszFormat = pszFormat;
rc = VINF_SUCCESS;
break;
}
rc = VERR_NOT_SUPPORTED;
}
}
}
LogFlowFunc(("returns %Rrc *ppszFormat=\"%s\"\n", rc, *ppszFormat));
return rc;
}
/**
* Opens an image file.
*
* The first opened image file in HDD container must have a base image type,
* others (next opened images) must be a differencing or undo images.
* Linkage is checked for differencing image to be in consistence with the previously opened image.
* When another differencing image is opened and the last image was opened in read/write access
* mode, then the last image is reopened in read-only with deny write sharing mode. This allows
* other processes to use images in read-only mode too.
*
* Note that the image is opened in read-only mode if a read/write open is not possible.
* Use VDIsReadOnly to check open mode.
*
* @returns VBox status code.
* @param pDisk Pointer to HDD container.
* @param pszBackend Name of the image file backend to use.
* @param pszFilename Name of the image file to open.
* @param uOpenFlags Image file open mode, see VD_OPEN_FLAGS_* constants.
* @param pVDIfsImage Pointer to the per-image VD interface list.
*/
VBOXDDU_DECL(int) VDOpen(PVDISK pDisk, const char *pszBackend,
const char *pszFilename, unsigned uOpenFlags,
PVDINTERFACE pVDIfsImage)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
PVDIMAGE pImage = NULL;
LogFlowFunc(("pDisk=%#p pszBackend=\"%s\" pszFilename=\"%s\" uOpenFlags=%#x, pVDIfsImage=%#p\n",
pDisk, pszBackend, pszFilename, uOpenFlags, pVDIfsImage));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszBackend) && *pszBackend,
("pszBackend=%#p \"%s\"\n", pszBackend, pszBackend),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(VALID_PTR(pszFilename) && *pszFilename,
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt((uOpenFlags & ~VD_OPEN_FLAGS_MASK) == 0,
("uOpenFlags=%#x\n", uOpenFlags),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt( !(uOpenFlags & VD_OPEN_FLAGS_SKIP_CONSISTENCY_CHECKS)
|| (uOpenFlags & VD_OPEN_FLAGS_READONLY),
("uOpenFlags=%#x\n", uOpenFlags),
rc = VERR_INVALID_PARAMETER);
/*
* Destroy the current discard state first which might still have pending blocks
* for the currently opened image which will be switched to readonly mode.
*/
/* Lock disk for writing, as we modify pDisk information below. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
rc = vdDiscardStateDestroy(pDisk);
if (RT_FAILURE(rc))
break;
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
fLockWrite = false;
/* Set up image descriptor. */
pImage = (PVDIMAGE)RTMemAllocZ(sizeof(VDIMAGE));
if (!pImage)
{
rc = VERR_NO_MEMORY;
break;
}
pImage->pszFilename = RTStrDup(pszFilename);
if (!pImage->pszFilename)
{
rc = VERR_NO_MEMORY;
break;
}
pImage->cbImage = VD_IMAGE_SIZE_UNINITIALIZED;
pImage->VDIo.pDisk = pDisk;
pImage->pVDIfsImage = pVDIfsImage;
rc = vdFindImageBackend(pszBackend, &pImage->Backend);
if (RT_FAILURE(rc))
break;
if (!pImage->Backend)
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: unknown backend name '%s'"), pszBackend);
break;
}
/*
* Fail if the backend can't do async I/O but the
* flag is set.
*/
if ( !(pImage->Backend->uBackendCaps & VD_CAP_ASYNC)
&& (uOpenFlags & VD_OPEN_FLAGS_ASYNC_IO))
{
rc = vdError(pDisk, VERR_NOT_SUPPORTED, RT_SRC_POS,
N_("VD: Backend '%s' does not support async I/O"), pszBackend);
break;
}
/*
* Fail if the backend doesn't support the discard operation but the
* flag is set.
*/
if ( !(pImage->Backend->uBackendCaps & VD_CAP_DISCARD)
&& (uOpenFlags & VD_OPEN_FLAGS_DISCARD))
{
rc = vdError(pDisk, VERR_VD_DISCARD_NOT_SUPPORTED, RT_SRC_POS,
N_("VD: Backend '%s' does not support discard"), pszBackend);
break;
}
/* Set up the I/O interface. */
pImage->VDIo.pInterfaceIo = VDIfIoGet(pVDIfsImage);
if (!pImage->VDIo.pInterfaceIo)
{
vdIfIoFallbackCallbacksSetup(&pImage->VDIo.VDIfIo);
rc = VDInterfaceAdd(&pImage->VDIo.VDIfIo.Core, "VD_IO", VDINTERFACETYPE_IO,
pDisk, sizeof(VDINTERFACEIO), &pVDIfsImage);
pImage->VDIo.pInterfaceIo = &pImage->VDIo.VDIfIo;
}
/* Set up the internal I/O interface. */
AssertBreakStmt(!VDIfIoIntGet(pVDIfsImage), rc = VERR_INVALID_PARAMETER);
vdIfIoIntCallbacksSetup(&pImage->VDIo.VDIfIoInt);
rc = VDInterfaceAdd(&pImage->VDIo.VDIfIoInt.Core, "VD_IOINT", VDINTERFACETYPE_IOINT,
&pImage->VDIo, sizeof(VDINTERFACEIOINT), &pImage->pVDIfsImage);
AssertRC(rc);
pImage->uOpenFlags = uOpenFlags & (VD_OPEN_FLAGS_HONOR_SAME | VD_OPEN_FLAGS_DISCARD | VD_OPEN_FLAGS_IGNORE_FLUSH | VD_OPEN_FLAGS_INFORM_ABOUT_ZERO_BLOCKS);
pImage->VDIo.fIgnoreFlush = (uOpenFlags & VD_OPEN_FLAGS_IGNORE_FLUSH) != 0;
rc = pImage->Backend->pfnOpen(pImage->pszFilename,
uOpenFlags & ~(VD_OPEN_FLAGS_HONOR_SAME | VD_OPEN_FLAGS_IGNORE_FLUSH | VD_OPEN_FLAGS_INFORM_ABOUT_ZERO_BLOCKS),
pDisk->pVDIfsDisk,
pImage->pVDIfsImage,
pDisk->enmType,
&pImage->pBackendData);
/*
* If the image is corrupted and there is a repair method try to repair it
* first if it was openend in read-write mode and open again afterwards.
*/
if ( RT_UNLIKELY(rc == VERR_VD_IMAGE_CORRUPTED)
&& !(uOpenFlags & VD_OPEN_FLAGS_READONLY)
&& pImage->Backend->pfnRepair)
{
rc = pImage->Backend->pfnRepair(pszFilename, pDisk->pVDIfsDisk, pImage->pVDIfsImage, 0 /* fFlags */);
if (RT_SUCCESS(rc))
rc = pImage->Backend->pfnOpen(pImage->pszFilename,
uOpenFlags & ~(VD_OPEN_FLAGS_HONOR_SAME | VD_OPEN_FLAGS_IGNORE_FLUSH | VD_OPEN_FLAGS_INFORM_ABOUT_ZERO_BLOCKS),
pDisk->pVDIfsDisk,
pImage->pVDIfsImage,
pDisk->enmType,
&pImage->pBackendData);
else
{
rc = vdError(pDisk, rc, RT_SRC_POS,
N_("VD: error %Rrc repairing corrupted image file '%s'"), rc, pszFilename);
break;
}
}
else if (RT_UNLIKELY(rc == VERR_VD_IMAGE_CORRUPTED))
{
rc = vdError(pDisk, rc, RT_SRC_POS,
N_("VD: Image file '%s' is corrupted and can't be opened"), pszFilename);
break;
}
/* If the open in read-write mode failed, retry in read-only mode. */
if (RT_FAILURE(rc))
{
if (!(uOpenFlags & VD_OPEN_FLAGS_READONLY)
&& ( rc == VERR_ACCESS_DENIED
|| rc == VERR_PERMISSION_DENIED
|| rc == VERR_WRITE_PROTECT
|| rc == VERR_SHARING_VIOLATION
|| rc == VERR_FILE_LOCK_FAILED))
rc = pImage->Backend->pfnOpen(pImage->pszFilename,
(uOpenFlags & ~(VD_OPEN_FLAGS_HONOR_SAME | VD_OPEN_FLAGS_INFORM_ABOUT_ZERO_BLOCKS))
| VD_OPEN_FLAGS_READONLY,
pDisk->pVDIfsDisk,
pImage->pVDIfsImage,
pDisk->enmType,
&pImage->pBackendData);
if (RT_FAILURE(rc))
{
rc = vdError(pDisk, rc, RT_SRC_POS,
N_("VD: error %Rrc opening image file '%s'"), rc, pszFilename);
break;
}
}
/* Lock disk for writing, as we modify pDisk information below. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
pImage->VDIo.pBackendData = pImage->pBackendData;
/* Check image type. As the image itself has only partial knowledge
* whether it's a base image or not, this info is derived here. The
* base image can be fixed or normal, all others must be normal or
* diff images. Some image formats don't distinguish between normal
* and diff images, so this must be corrected here. */
unsigned uImageFlags;
uImageFlags = pImage->Backend->pfnGetImageFlags(pImage->pBackendData);
if (RT_FAILURE(rc))
uImageFlags = VD_IMAGE_FLAGS_NONE;
if ( RT_SUCCESS(rc)
&& !(uOpenFlags & VD_OPEN_FLAGS_INFO))
{
if ( pDisk->cImages == 0
&& (uImageFlags & VD_IMAGE_FLAGS_DIFF))
{
rc = VERR_VD_INVALID_TYPE;
break;
}
else if (pDisk->cImages != 0)
{
if (uImageFlags & VD_IMAGE_FLAGS_FIXED)
{
rc = VERR_VD_INVALID_TYPE;
break;
}
else
uImageFlags |= VD_IMAGE_FLAGS_DIFF;
}
}
/* Ensure we always get correct diff information, even if the backend
* doesn't actually have a stored flag for this. It must not return
* bogus information for the parent UUID if it is not a diff image. */
RTUUID parentUuid;
RTUuidClear(&parentUuid);
rc2 = pImage->Backend->pfnGetParentUuid(pImage->pBackendData, &parentUuid);
if (RT_SUCCESS(rc2) && !RTUuidIsNull(&parentUuid))
uImageFlags |= VD_IMAGE_FLAGS_DIFF;
pImage->uImageFlags = uImageFlags;
/* Force sane optimization settings. It's not worth avoiding writes
* to fixed size images. The overhead would have almost no payback. */
if (uImageFlags & VD_IMAGE_FLAGS_FIXED)
pImage->uOpenFlags |= VD_OPEN_FLAGS_HONOR_SAME;
/** @todo optionally check UUIDs */
/* Cache disk information. */
pDisk->cbSize = vdImageGetSize(pImage);
/* Cache PCHS geometry. */
rc2 = pImage->Backend->pfnGetPCHSGeometry(pImage->pBackendData,
&pDisk->PCHSGeometry);
if (RT_FAILURE(rc2))
{
pDisk->PCHSGeometry.cCylinders = 0;
pDisk->PCHSGeometry.cHeads = 0;
pDisk->PCHSGeometry.cSectors = 0;
}
else
{
/* Make sure the PCHS geometry is properly clipped. */
pDisk->PCHSGeometry.cCylinders = RT_MIN(pDisk->PCHSGeometry.cCylinders, 16383);
pDisk->PCHSGeometry.cHeads = RT_MIN(pDisk->PCHSGeometry.cHeads, 16);
pDisk->PCHSGeometry.cSectors = RT_MIN(pDisk->PCHSGeometry.cSectors, 63);
}
/* Cache LCHS geometry. */
rc2 = pImage->Backend->pfnGetLCHSGeometry(pImage->pBackendData,
&pDisk->LCHSGeometry);
if (RT_FAILURE(rc2))
{
pDisk->LCHSGeometry.cCylinders = 0;
pDisk->LCHSGeometry.cHeads = 0;
pDisk->LCHSGeometry.cSectors = 0;
}
else
{
/* Make sure the LCHS geometry is properly clipped. */
pDisk->LCHSGeometry.cHeads = RT_MIN(pDisk->LCHSGeometry.cHeads, 255);
pDisk->LCHSGeometry.cSectors = RT_MIN(pDisk->LCHSGeometry.cSectors, 63);
}
if (pDisk->cImages != 0)
{
/* Switch previous image to read-only mode. */
unsigned uOpenFlagsPrevImg;
uOpenFlagsPrevImg = pDisk->pLast->Backend->pfnGetOpenFlags(pDisk->pLast->pBackendData);
if (!(uOpenFlagsPrevImg & VD_OPEN_FLAGS_READONLY))
{
uOpenFlagsPrevImg |= VD_OPEN_FLAGS_READONLY;
rc = pDisk->pLast->Backend->pfnSetOpenFlags(pDisk->pLast->pBackendData, uOpenFlagsPrevImg);
}
}
if (RT_SUCCESS(rc))
{
/* Image successfully opened, make it the last image. */
vdAddImageToList(pDisk, pImage);
if (!(uOpenFlags & VD_OPEN_FLAGS_READONLY))
pDisk->uModified = VD_IMAGE_MODIFIED_FIRST;
}
else
{
/* Error detected, but image opened. Close image. */
rc2 = pImage->Backend->pfnClose(pImage->pBackendData, false);
AssertRC(rc2);
pImage->pBackendData = NULL;
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
if (RT_FAILURE(rc))
{
if (pImage)
{
if (pImage->pszFilename)
RTStrFree(pImage->pszFilename);
RTMemFree(pImage);
}
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Opens a cache image.
*
* @return VBox status code.
* @param pDisk Pointer to the HDD container which should use the cache image.
* @param pszBackend Name of the cache file backend to use (case insensitive).
* @param pszFilename Name of the cache image to open.
* @param uOpenFlags Image file open mode, see VD_OPEN_FLAGS_* constants.
* @param pVDIfsCache Pointer to the per-cache VD interface list.
*/
VBOXDDU_DECL(int) VDCacheOpen(PVDISK pDisk, const char *pszBackend,
const char *pszFilename, unsigned uOpenFlags,
PVDINTERFACE pVDIfsCache)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
PVDCACHE pCache = NULL;
LogFlowFunc(("pDisk=%#p pszBackend=\"%s\" pszFilename=\"%s\" uOpenFlags=%#x, pVDIfsCache=%#p\n",
pDisk, pszBackend, pszFilename, uOpenFlags, pVDIfsCache));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszBackend) && *pszBackend,
("pszBackend=%#p \"%s\"\n", pszBackend, pszBackend),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(VALID_PTR(pszFilename) && *pszFilename,
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt((uOpenFlags & ~VD_OPEN_FLAGS_MASK) == 0,
("uOpenFlags=%#x\n", uOpenFlags),
rc = VERR_INVALID_PARAMETER);
/* Set up image descriptor. */
pCache = (PVDCACHE)RTMemAllocZ(sizeof(VDCACHE));
if (!pCache)
{
rc = VERR_NO_MEMORY;
break;
}
pCache->pszFilename = RTStrDup(pszFilename);
if (!pCache->pszFilename)
{
rc = VERR_NO_MEMORY;
break;
}
pCache->VDIo.pDisk = pDisk;
pCache->pVDIfsCache = pVDIfsCache;
rc = vdFindCacheBackend(pszBackend, &pCache->Backend);
if (RT_FAILURE(rc))
break;
if (!pCache->Backend)
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: unknown backend name '%s'"), pszBackend);
break;
}
/* Set up the I/O interface. */
pCache->VDIo.pInterfaceIo = VDIfIoGet(pVDIfsCache);
if (!pCache->VDIo.pInterfaceIo)
{
vdIfIoFallbackCallbacksSetup(&pCache->VDIo.VDIfIo);
rc = VDInterfaceAdd(&pCache->VDIo.VDIfIo.Core, "VD_IO", VDINTERFACETYPE_IO,
pDisk, sizeof(VDINTERFACEIO), &pVDIfsCache);
pCache->VDIo.pInterfaceIo = &pCache->VDIo.VDIfIo;
}
/* Set up the internal I/O interface. */
AssertBreakStmt(!VDIfIoIntGet(pVDIfsCache), rc = VERR_INVALID_PARAMETER);
vdIfIoIntCallbacksSetup(&pCache->VDIo.VDIfIoInt);
rc = VDInterfaceAdd(&pCache->VDIo.VDIfIoInt.Core, "VD_IOINT", VDINTERFACETYPE_IOINT,
&pCache->VDIo, sizeof(VDINTERFACEIOINT), &pCache->pVDIfsCache);
AssertRC(rc);
pCache->uOpenFlags = uOpenFlags & VD_OPEN_FLAGS_HONOR_SAME;
rc = pCache->Backend->pfnOpen(pCache->pszFilename,
uOpenFlags & ~VD_OPEN_FLAGS_HONOR_SAME,
pDisk->pVDIfsDisk,
pCache->pVDIfsCache,
&pCache->pBackendData);
/* If the open in read-write mode failed, retry in read-only mode. */
if (RT_FAILURE(rc))
{
if (!(uOpenFlags & VD_OPEN_FLAGS_READONLY)
&& ( rc == VERR_ACCESS_DENIED
|| rc == VERR_PERMISSION_DENIED
|| rc == VERR_WRITE_PROTECT
|| rc == VERR_SHARING_VIOLATION
|| rc == VERR_FILE_LOCK_FAILED))
rc = pCache->Backend->pfnOpen(pCache->pszFilename,
(uOpenFlags & ~VD_OPEN_FLAGS_HONOR_SAME)
| VD_OPEN_FLAGS_READONLY,
pDisk->pVDIfsDisk,
pCache->pVDIfsCache,
&pCache->pBackendData);
if (RT_FAILURE(rc))
{
rc = vdError(pDisk, rc, RT_SRC_POS,
N_("VD: error %Rrc opening image file '%s'"), rc, pszFilename);
break;
}
}
/* Lock disk for writing, as we modify pDisk information below. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/*
* Check that the modification UUID of the cache and last image
* match. If not the image was modified in-between without the cache.
* The cache might contain stale data.
*/
RTUUID UuidImage, UuidCache;
rc = pCache->Backend->pfnGetModificationUuid(pCache->pBackendData,
&UuidCache);
if (RT_SUCCESS(rc))
{
rc = pDisk->pLast->Backend->pfnGetModificationUuid(pDisk->pLast->pBackendData,
&UuidImage);
if (RT_SUCCESS(rc))
{
if (RTUuidCompare(&UuidImage, &UuidCache))
rc = VERR_VD_CACHE_NOT_UP_TO_DATE;
}
}
/*
* We assume that the user knows what he is doing if one of the images
* doesn't support the modification uuid.
*/
if (rc == VERR_NOT_SUPPORTED)
rc = VINF_SUCCESS;
if (RT_SUCCESS(rc))
{
/* Cache successfully opened, make it the current one. */
if (!pDisk->pCache)
pDisk->pCache = pCache;
else
rc = VERR_VD_CACHE_ALREADY_EXISTS;
}
if (RT_FAILURE(rc))
{
/* Error detected, but image opened. Close image. */
rc2 = pCache->Backend->pfnClose(pCache->pBackendData, false);
AssertRC(rc2);
pCache->pBackendData = NULL;
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
if (RT_FAILURE(rc))
{
if (pCache)
{
if (pCache->pszFilename)
RTStrFree(pCache->pszFilename);
RTMemFree(pCache);
}
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
VBOXDDU_DECL(int) VDFilterAdd(PVDISK pDisk, const char *pszFilter, uint32_t fFlags,
PVDINTERFACE pVDIfsFilter)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
PVDFILTER pFilter = NULL;
LogFlowFunc(("pDisk=%#p pszFilter=\"%s\" pVDIfsFilter=%#p\n",
pDisk, pszFilter, pVDIfsFilter));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszFilter) && *pszFilter,
("pszFilter=%#p \"%s\"\n", pszFilter, pszFilter),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(!(fFlags & ~VD_FILTER_FLAGS_MASK),
("Invalid flags set (fFlags=%#x)\n", fFlags),
rc = VERR_INVALID_PARAMETER);
/* Set up image descriptor. */
pFilter = (PVDFILTER)RTMemAllocZ(sizeof(VDFILTER));
if (!pFilter)
{
rc = VERR_NO_MEMORY;
break;
}
rc = vdFindFilterBackend(pszFilter, &pFilter->pBackend);
if (RT_FAILURE(rc))
break;
if (!pFilter->pBackend)
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: unknown filter backend name '%s'"), pszFilter);
break;
}
pFilter->VDIo.pDisk = pDisk;
pFilter->pVDIfsFilter = pVDIfsFilter;
/* Set up the internal I/O interface. */
AssertBreakStmt(!VDIfIoIntGet(pVDIfsFilter), rc = VERR_INVALID_PARAMETER);
vdIfIoIntCallbacksSetup(&pFilter->VDIo.VDIfIoInt);
rc = VDInterfaceAdd(&pFilter->VDIo.VDIfIoInt.Core, "VD_IOINT", VDINTERFACETYPE_IOINT,
&pFilter->VDIo, sizeof(VDINTERFACEIOINT), &pFilter->pVDIfsFilter);
AssertRC(rc);
rc = pFilter->pBackend->pfnCreate(pDisk->pVDIfsDisk, fFlags & VD_FILTER_FLAGS_INFO,
pFilter->pVDIfsFilter, &pFilter->pvBackendData);
if (RT_FAILURE(rc))
break;
/* Lock disk for writing, as we modify pDisk information below. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/* Add filter to chains. */
if (fFlags & VD_FILTER_FLAGS_WRITE)
{
RTListAppend(&pDisk->ListFilterChainWrite, &pFilter->ListNodeChainWrite);
vdFilterRetain(pFilter);
}
if (fFlags & VD_FILTER_FLAGS_READ)
{
RTListAppend(&pDisk->ListFilterChainRead, &pFilter->ListNodeChainRead);
vdFilterRetain(pFilter);
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
if (RT_FAILURE(rc))
{
if (pFilter)
RTMemFree(pFilter);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Creates and opens a new base image file.
*
* @returns VBox status code.
* @param pDisk Pointer to HDD container.
* @param pszBackend Name of the image file backend to use.
* @param pszFilename Name of the image file to create.
* @param cbSize Image size in bytes.
* @param uImageFlags Flags specifying special image features.
* @param pszComment Pointer to image comment. NULL is ok.
* @param pPCHSGeometry Pointer to physical disk geometry <= (16383,16,63). Not NULL.
* @param pLCHSGeometry Pointer to logical disk geometry <= (x,255,63). Not NULL.
* @param pUuid New UUID of the image. If NULL, a new UUID is created.
* @param uOpenFlags Image file open mode, see VD_OPEN_FLAGS_* constants.
* @param pVDIfsImage Pointer to the per-image VD interface list.
* @param pVDIfsOperation Pointer to the per-operation VD interface list.
*/
VBOXDDU_DECL(int) VDCreateBase(PVDISK pDisk, const char *pszBackend,
const char *pszFilename, uint64_t cbSize,
unsigned uImageFlags, const char *pszComment,
PCVDGEOMETRY pPCHSGeometry,
PCVDGEOMETRY pLCHSGeometry,
PCRTUUID pUuid, unsigned uOpenFlags,
PVDINTERFACE pVDIfsImage,
PVDINTERFACE pVDIfsOperation)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false, fLockRead = false;
PVDIMAGE pImage = NULL;
RTUUID uuid;
LogFlowFunc(("pDisk=%#p pszBackend=\"%s\" pszFilename=\"%s\" cbSize=%llu uImageFlags=%#x pszComment=\"%s\" PCHS=%u/%u/%u LCHS=%u/%u/%u Uuid=%RTuuid uOpenFlags=%#x pVDIfsImage=%#p pVDIfsOperation=%#p\n",
pDisk, pszBackend, pszFilename, cbSize, uImageFlags, pszComment,
pPCHSGeometry->cCylinders, pPCHSGeometry->cHeads,
pPCHSGeometry->cSectors, pLCHSGeometry->cCylinders,
pLCHSGeometry->cHeads, pLCHSGeometry->cSectors, pUuid,
uOpenFlags, pVDIfsImage, pVDIfsOperation));
PVDINTERFACEPROGRESS pIfProgress = VDIfProgressGet(pVDIfsOperation);
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszBackend) && *pszBackend,
("pszBackend=%#p \"%s\"\n", pszBackend, pszBackend),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(VALID_PTR(pszFilename) && *pszFilename,
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(cbSize,
("cbSize=%llu\n", cbSize),
rc = VERR_INVALID_PARAMETER);
if (cbSize % 512)
{
rc = vdError(pDisk, VERR_VD_INVALID_SIZE, RT_SRC_POS,
N_("VD: The given disk size %llu is not aligned on a sector boundary (512 bytes)"), cbSize);
break;
}
AssertMsgBreakStmt( ((uImageFlags & ~VD_IMAGE_FLAGS_MASK) == 0)
|| ((uImageFlags & (VD_IMAGE_FLAGS_FIXED | VD_IMAGE_FLAGS_DIFF)) != VD_IMAGE_FLAGS_FIXED),
("uImageFlags=%#x\n", uImageFlags),
rc = VERR_INVALID_PARAMETER);
/* The PCHS geometry fields may be 0 to leave it for later. */
AssertMsgBreakStmt( VALID_PTR(pPCHSGeometry)
&& pPCHSGeometry->cHeads <= 16
&& pPCHSGeometry->cSectors <= 63,
("pPCHSGeometry=%#p PCHS=%u/%u/%u\n", pPCHSGeometry,
pPCHSGeometry->cCylinders, pPCHSGeometry->cHeads,
pPCHSGeometry->cSectors),
rc = VERR_INVALID_PARAMETER);
/* The LCHS geometry fields may be 0 to leave it to later autodetection. */
AssertMsgBreakStmt( VALID_PTR(pLCHSGeometry)
&& pLCHSGeometry->cHeads <= 255
&& pLCHSGeometry->cSectors <= 63,
("pLCHSGeometry=%#p LCHS=%u/%u/%u\n", pLCHSGeometry,
pLCHSGeometry->cCylinders, pLCHSGeometry->cHeads,
pLCHSGeometry->cSectors),
rc = VERR_INVALID_PARAMETER);
/* The UUID may be NULL. */
AssertMsgBreakStmt(pUuid == NULL || VALID_PTR(pUuid),
("pUuid=%#p UUID=%RTuuid\n", pUuid, pUuid),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt((uOpenFlags & ~VD_OPEN_FLAGS_MASK) == 0,
("uOpenFlags=%#x\n", uOpenFlags),
rc = VERR_INVALID_PARAMETER);
/* Check state. Needs a temporary read lock. Holding the write lock
* all the time would be blocking other activities for too long. */
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
AssertMsgBreakStmt(pDisk->cImages == 0,
("Create base image cannot be done with other images open\n"),
rc = VERR_VD_INVALID_STATE);
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
fLockRead = false;
/* Set up image descriptor. */
pImage = (PVDIMAGE)RTMemAllocZ(sizeof(VDIMAGE));
if (!pImage)
{
rc = VERR_NO_MEMORY;
break;
}
pImage->pszFilename = RTStrDup(pszFilename);
if (!pImage->pszFilename)
{
rc = VERR_NO_MEMORY;
break;
}
pImage->cbImage = VD_IMAGE_SIZE_UNINITIALIZED;
pImage->VDIo.pDisk = pDisk;
pImage->pVDIfsImage = pVDIfsImage;
/* Set up the I/O interface. */
pImage->VDIo.pInterfaceIo = VDIfIoGet(pVDIfsImage);
if (!pImage->VDIo.pInterfaceIo)
{
vdIfIoFallbackCallbacksSetup(&pImage->VDIo.VDIfIo);
rc = VDInterfaceAdd(&pImage->VDIo.VDIfIo.Core, "VD_IO", VDINTERFACETYPE_IO,
pDisk, sizeof(VDINTERFACEIO), &pVDIfsImage);
pImage->VDIo.pInterfaceIo = &pImage->VDIo.VDIfIo;
}
/* Set up the internal I/O interface. */
AssertBreakStmt(!VDIfIoIntGet(pVDIfsImage), rc = VERR_INVALID_PARAMETER);
vdIfIoIntCallbacksSetup(&pImage->VDIo.VDIfIoInt);
rc = VDInterfaceAdd(&pImage->VDIo.VDIfIoInt.Core, "VD_IOINT", VDINTERFACETYPE_IOINT,
&pImage->VDIo, sizeof(VDINTERFACEIOINT), &pImage->pVDIfsImage);
AssertRC(rc);
rc = vdFindImageBackend(pszBackend, &pImage->Backend);
if (RT_FAILURE(rc))
break;
if (!pImage->Backend)
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: unknown backend name '%s'"), pszBackend);
break;
}
if (!(pImage->Backend->uBackendCaps & ( VD_CAP_CREATE_FIXED
| VD_CAP_CREATE_DYNAMIC)))
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: backend '%s' cannot create base images"), pszBackend);
break;
}
if ( ( (uImageFlags & VD_VMDK_IMAGE_FLAGS_SPLIT_2G)
&& !(pImage->Backend->uBackendCaps & VD_CAP_CREATE_SPLIT_2G))
|| ( (uImageFlags & VD_VMDK_IMAGE_FLAGS_STREAM_OPTIMIZED)
&& RTStrICmp(pszBackend, "VMDK")))
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: backend '%s' does not support the selected image variant"), pszBackend);
break;
}
/* Create UUID if the caller didn't specify one. */
if (!pUuid)
{
rc = RTUuidCreate(&uuid);
if (RT_FAILURE(rc))
{
rc = vdError(pDisk, rc, RT_SRC_POS,
N_("VD: cannot generate UUID for image '%s'"),
pszFilename);
break;
}
pUuid = &uuid;
}
pImage->uOpenFlags = uOpenFlags & VD_OPEN_FLAGS_HONOR_SAME;
uImageFlags &= ~VD_IMAGE_FLAGS_DIFF;
pImage->VDIo.fIgnoreFlush = (uOpenFlags & VD_OPEN_FLAGS_IGNORE_FLUSH) != 0;
rc = pImage->Backend->pfnCreate(pImage->pszFilename, cbSize,
uImageFlags, pszComment, pPCHSGeometry,
pLCHSGeometry, pUuid,
uOpenFlags & ~VD_OPEN_FLAGS_HONOR_SAME,
0, 99,
pDisk->pVDIfsDisk,
pImage->pVDIfsImage,
pVDIfsOperation,
pDisk->enmType,
&pImage->pBackendData);
if (RT_SUCCESS(rc))
{
pImage->VDIo.pBackendData = pImage->pBackendData;
pImage->uImageFlags = uImageFlags;
/* Force sane optimization settings. It's not worth avoiding writes
* to fixed size images. The overhead would have almost no payback. */
if (uImageFlags & VD_IMAGE_FLAGS_FIXED)
pImage->uOpenFlags |= VD_OPEN_FLAGS_HONOR_SAME;
/* Lock disk for writing, as we modify pDisk information below. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/** @todo optionally check UUIDs */
/* Re-check state, as the lock wasn't held and another image
* creation call could have been done by another thread. */
AssertMsgStmt(pDisk->cImages == 0,
("Create base image cannot be done with other images open\n"),
rc = VERR_VD_INVALID_STATE);
}
if (RT_SUCCESS(rc))
{
/* Cache disk information. */
pDisk->cbSize = vdImageGetSize(pImage);
/* Cache PCHS geometry. */
rc2 = pImage->Backend->pfnGetPCHSGeometry(pImage->pBackendData,
&pDisk->PCHSGeometry);
if (RT_FAILURE(rc2))
{
pDisk->PCHSGeometry.cCylinders = 0;
pDisk->PCHSGeometry.cHeads = 0;
pDisk->PCHSGeometry.cSectors = 0;
}
else
{
/* Make sure the CHS geometry is properly clipped. */
pDisk->PCHSGeometry.cCylinders = RT_MIN(pDisk->PCHSGeometry.cCylinders, 16383);
pDisk->PCHSGeometry.cHeads = RT_MIN(pDisk->PCHSGeometry.cHeads, 16);
pDisk->PCHSGeometry.cSectors = RT_MIN(pDisk->PCHSGeometry.cSectors, 63);
}
/* Cache LCHS geometry. */
rc2 = pImage->Backend->pfnGetLCHSGeometry(pImage->pBackendData,
&pDisk->LCHSGeometry);
if (RT_FAILURE(rc2))
{
pDisk->LCHSGeometry.cCylinders = 0;
pDisk->LCHSGeometry.cHeads = 0;
pDisk->LCHSGeometry.cSectors = 0;
}
else
{
/* Make sure the CHS geometry is properly clipped. */
pDisk->LCHSGeometry.cHeads = RT_MIN(pDisk->LCHSGeometry.cHeads, 255);
pDisk->LCHSGeometry.cSectors = RT_MIN(pDisk->LCHSGeometry.cSectors, 63);
}
/* Image successfully opened, make it the last image. */
vdAddImageToList(pDisk, pImage);
if (!(uOpenFlags & VD_OPEN_FLAGS_READONLY))
pDisk->uModified = VD_IMAGE_MODIFIED_FIRST;
}
else
{
/* Error detected, image may or may not be opened. Close and delete
* image if it was opened. */
if (pImage->pBackendData)
{
rc2 = pImage->Backend->pfnClose(pImage->pBackendData, true);
AssertRC(rc2);
pImage->pBackendData = NULL;
}
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
else if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
if (RT_FAILURE(rc))
{
if (pImage)
{
if (pImage->pszFilename)
RTStrFree(pImage->pszFilename);
RTMemFree(pImage);
}
}
if (RT_SUCCESS(rc) && pIfProgress && pIfProgress->pfnProgress)
pIfProgress->pfnProgress(pIfProgress->Core.pvUser, 100);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Creates and opens a new differencing image file in HDD container.
* See comments for VDOpen function about differencing images.
*
* @returns VBox status code.
* @param pDisk Pointer to HDD container.
* @param pszBackend Name of the image file backend to use.
* @param pszFilename Name of the differencing image file to create.
* @param uImageFlags Flags specifying special image features.
* @param pszComment Pointer to image comment. NULL is ok.
* @param pUuid New UUID of the image. If NULL, a new UUID is created.
* @param pParentUuid New parent UUID of the image. If NULL, the UUID is queried automatically.
* @param uOpenFlags Image file open mode, see VD_OPEN_FLAGS_* constants.
* @param pVDIfsImage Pointer to the per-image VD interface list.
* @param pVDIfsOperation Pointer to the per-operation VD interface list.
*/
VBOXDDU_DECL(int) VDCreateDiff(PVDISK pDisk, const char *pszBackend,
const char *pszFilename, unsigned uImageFlags,
const char *pszComment, PCRTUUID pUuid,
PCRTUUID pParentUuid, unsigned uOpenFlags,
PVDINTERFACE pVDIfsImage,
PVDINTERFACE pVDIfsOperation)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false, fLockRead = false;
PVDIMAGE pImage = NULL;
RTUUID uuid;
LogFlowFunc(("pDisk=%#p pszBackend=\"%s\" pszFilename=\"%s\" uImageFlags=%#x pszComment=\"%s\" Uuid=%RTuuid uOpenFlags=%#x pVDIfsImage=%#p pVDIfsOperation=%#p\n",
pDisk, pszBackend, pszFilename, uImageFlags, pszComment, pUuid, uOpenFlags, pVDIfsImage, pVDIfsOperation));
PVDINTERFACEPROGRESS pIfProgress = VDIfProgressGet(pVDIfsOperation);
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszBackend) && *pszBackend,
("pszBackend=%#p \"%s\"\n", pszBackend, pszBackend),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(VALID_PTR(pszFilename) && *pszFilename,
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt((uImageFlags & ~VD_IMAGE_FLAGS_MASK) == 0,
("uImageFlags=%#x\n", uImageFlags),
rc = VERR_INVALID_PARAMETER);
/* The UUID may be NULL. */
AssertMsgBreakStmt(pUuid == NULL || VALID_PTR(pUuid),
("pUuid=%#p UUID=%RTuuid\n", pUuid, pUuid),
rc = VERR_INVALID_PARAMETER);
/* The parent UUID may be NULL. */
AssertMsgBreakStmt(pParentUuid == NULL || VALID_PTR(pParentUuid),
("pParentUuid=%#p ParentUUID=%RTuuid\n", pParentUuid, pParentUuid),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt((uOpenFlags & ~VD_OPEN_FLAGS_MASK) == 0,
("uOpenFlags=%#x\n", uOpenFlags),
rc = VERR_INVALID_PARAMETER);
/* Check state. Needs a temporary read lock. Holding the write lock
* all the time would be blocking other activities for too long. */
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
AssertMsgBreakStmt(pDisk->cImages != 0,
("Create diff image cannot be done without other images open\n"),
rc = VERR_VD_INVALID_STATE);
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
fLockRead = false;
/*
* Destroy the current discard state first which might still have pending blocks
* for the currently opened image which will be switched to readonly mode.
*/
/* Lock disk for writing, as we modify pDisk information below. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
rc = vdDiscardStateDestroy(pDisk);
if (RT_FAILURE(rc))
break;
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
fLockWrite = false;
/* Set up image descriptor. */
pImage = (PVDIMAGE)RTMemAllocZ(sizeof(VDIMAGE));
if (!pImage)
{
rc = VERR_NO_MEMORY;
break;
}
pImage->pszFilename = RTStrDup(pszFilename);
if (!pImage->pszFilename)
{
rc = VERR_NO_MEMORY;
break;
}
rc = vdFindImageBackend(pszBackend, &pImage->Backend);
if (RT_FAILURE(rc))
break;
if (!pImage->Backend)
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: unknown backend name '%s'"), pszBackend);
break;
}
if ( !(pImage->Backend->uBackendCaps & VD_CAP_DIFF)
|| !(pImage->Backend->uBackendCaps & ( VD_CAP_CREATE_FIXED
| VD_CAP_CREATE_DYNAMIC)))
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: backend '%s' cannot create diff images"), pszBackend);
break;
}
pImage->cbImage = VD_IMAGE_SIZE_UNINITIALIZED;
pImage->VDIo.pDisk = pDisk;
pImage->pVDIfsImage = pVDIfsImage;
/* Set up the I/O interface. */
pImage->VDIo.pInterfaceIo = VDIfIoGet(pVDIfsImage);
if (!pImage->VDIo.pInterfaceIo)
{
vdIfIoFallbackCallbacksSetup(&pImage->VDIo.VDIfIo);
rc = VDInterfaceAdd(&pImage->VDIo.VDIfIo.Core, "VD_IO", VDINTERFACETYPE_IO,
pDisk, sizeof(VDINTERFACEIO), &pVDIfsImage);
pImage->VDIo.pInterfaceIo = &pImage->VDIo.VDIfIo;
}
/* Set up the internal I/O interface. */
AssertBreakStmt(!VDIfIoIntGet(pVDIfsImage), rc = VERR_INVALID_PARAMETER);
vdIfIoIntCallbacksSetup(&pImage->VDIo.VDIfIoInt);
rc = VDInterfaceAdd(&pImage->VDIo.VDIfIoInt.Core, "VD_IOINT", VDINTERFACETYPE_IOINT,
&pImage->VDIo, sizeof(VDINTERFACEIOINT), &pImage->pVDIfsImage);
AssertRC(rc);
/* Create UUID if the caller didn't specify one. */
if (!pUuid)
{
rc = RTUuidCreate(&uuid);
if (RT_FAILURE(rc))
{
rc = vdError(pDisk, rc, RT_SRC_POS,
N_("VD: cannot generate UUID for image '%s'"),
pszFilename);
break;
}
pUuid = &uuid;
}
pImage->uOpenFlags = uOpenFlags & VD_OPEN_FLAGS_HONOR_SAME;
pImage->VDIo.fIgnoreFlush = (uOpenFlags & VD_OPEN_FLAGS_IGNORE_FLUSH) != 0;
uImageFlags |= VD_IMAGE_FLAGS_DIFF;
rc = pImage->Backend->pfnCreate(pImage->pszFilename, pDisk->cbSize,
uImageFlags | VD_IMAGE_FLAGS_DIFF,
pszComment, &pDisk->PCHSGeometry,
&pDisk->LCHSGeometry, pUuid,
uOpenFlags & ~VD_OPEN_FLAGS_HONOR_SAME,
0, 99,
pDisk->pVDIfsDisk,
pImage->pVDIfsImage,
pVDIfsOperation,
pDisk->enmType,
&pImage->pBackendData);
if (RT_SUCCESS(rc))
{
pImage->VDIo.pBackendData = pImage->pBackendData;
pImage->uImageFlags = uImageFlags;
/* Lock disk for writing, as we modify pDisk information below. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/* Switch previous image to read-only mode. */
unsigned uOpenFlagsPrevImg;
uOpenFlagsPrevImg = pDisk->pLast->Backend->pfnGetOpenFlags(pDisk->pLast->pBackendData);
if (!(uOpenFlagsPrevImg & VD_OPEN_FLAGS_READONLY))
{
uOpenFlagsPrevImg |= VD_OPEN_FLAGS_READONLY;
rc = pDisk->pLast->Backend->pfnSetOpenFlags(pDisk->pLast->pBackendData, uOpenFlagsPrevImg);
}
/** @todo optionally check UUIDs */
/* Re-check state, as the lock wasn't held and another image
* creation call could have been done by another thread. */
AssertMsgStmt(pDisk->cImages != 0,
("Create diff image cannot be done without other images open\n"),
rc = VERR_VD_INVALID_STATE);
}
if (RT_SUCCESS(rc))
{
RTUUID Uuid;
RTTIMESPEC ts;
if (pParentUuid && !RTUuidIsNull(pParentUuid))
{
Uuid = *pParentUuid;
pImage->Backend->pfnSetParentUuid(pImage->pBackendData, &Uuid);
}
else
{
rc2 = pDisk->pLast->Backend->pfnGetUuid(pDisk->pLast->pBackendData,
&Uuid);
if (RT_SUCCESS(rc2))
pImage->Backend->pfnSetParentUuid(pImage->pBackendData, &Uuid);
}
rc2 = pDisk->pLast->Backend->pfnGetModificationUuid(pDisk->pLast->pBackendData,
&Uuid);
if (RT_SUCCESS(rc2))
pImage->Backend->pfnSetParentModificationUuid(pImage->pBackendData,
&Uuid);
if (pDisk->pLast->Backend->pfnGetTimestamp)
rc2 = pDisk->pLast->Backend->pfnGetTimestamp(pDisk->pLast->pBackendData,
&ts);
else
rc2 = VERR_NOT_IMPLEMENTED;
if (RT_SUCCESS(rc2) && pImage->Backend->pfnSetParentTimestamp)
pImage->Backend->pfnSetParentTimestamp(pImage->pBackendData, &ts);
if (pImage->Backend->pfnSetParentFilename)
rc2 = pImage->Backend->pfnSetParentFilename(pImage->pBackendData, pDisk->pLast->pszFilename);
}
if (RT_SUCCESS(rc))
{
/* Image successfully opened, make it the last image. */
vdAddImageToList(pDisk, pImage);
if (!(uOpenFlags & VD_OPEN_FLAGS_READONLY))
pDisk->uModified = VD_IMAGE_MODIFIED_FIRST;
}
else
{
/* Error detected, but image opened. Close and delete image. */
rc2 = pImage->Backend->pfnClose(pImage->pBackendData, true);
AssertRC(rc2);
pImage->pBackendData = NULL;
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
else if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
if (RT_FAILURE(rc))
{
if (pImage)
{
if (pImage->pszFilename)
RTStrFree(pImage->pszFilename);
RTMemFree(pImage);
}
}
if (RT_SUCCESS(rc) && pIfProgress && pIfProgress->pfnProgress)
pIfProgress->pfnProgress(pIfProgress->Core.pvUser, 100);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Creates and opens new cache image file in HDD container.
*
* @return VBox status code.
* @param pDisk Name of the cache file backend to use (case insensitive).
* @param pszFilename Name of the differencing cache file to create.
* @param cbSize Maximum size of the cache.
* @param uImageFlags Flags specifying special cache features.
* @param pszComment Pointer to image comment. NULL is ok.
* @param pUuid New UUID of the image. If NULL, a new UUID is created.
* @param uOpenFlags Image file open mode, see VD_OPEN_FLAGS_* constants.
* @param pVDIfsCache Pointer to the per-cache VD interface list.
* @param pVDIfsOperation Pointer to the per-operation VD interface list.
*/
VBOXDDU_DECL(int) VDCreateCache(PVDISK pDisk, const char *pszBackend,
const char *pszFilename, uint64_t cbSize,
unsigned uImageFlags, const char *pszComment,
PCRTUUID pUuid, unsigned uOpenFlags,
PVDINTERFACE pVDIfsCache, PVDINTERFACE pVDIfsOperation)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false, fLockRead = false;
PVDCACHE pCache = NULL;
RTUUID uuid;
LogFlowFunc(("pDisk=%#p pszBackend=\"%s\" pszFilename=\"%s\" cbSize=%llu uImageFlags=%#x pszComment=\"%s\" Uuid=%RTuuid uOpenFlags=%#x pVDIfsImage=%#p pVDIfsOperation=%#p\n",
pDisk, pszBackend, pszFilename, cbSize, uImageFlags, pszComment, pUuid, uOpenFlags, pVDIfsCache, pVDIfsOperation));
PVDINTERFACEPROGRESS pIfProgress = VDIfProgressGet(pVDIfsOperation);
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszBackend) && *pszBackend,
("pszBackend=%#p \"%s\"\n", pszBackend, pszBackend),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(VALID_PTR(pszFilename) && *pszFilename,
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(cbSize,
("cbSize=%llu\n", cbSize),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt((uImageFlags & ~VD_IMAGE_FLAGS_MASK) == 0,
("uImageFlags=%#x\n", uImageFlags),
rc = VERR_INVALID_PARAMETER);
/* The UUID may be NULL. */
AssertMsgBreakStmt(pUuid == NULL || VALID_PTR(pUuid),
("pUuid=%#p UUID=%RTuuid\n", pUuid, pUuid),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt((uOpenFlags & ~VD_OPEN_FLAGS_MASK) == 0,
("uOpenFlags=%#x\n", uOpenFlags),
rc = VERR_INVALID_PARAMETER);
/* Check state. Needs a temporary read lock. Holding the write lock
* all the time would be blocking other activities for too long. */
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
AssertMsgBreakStmt(!pDisk->pCache,
("Create cache image cannot be done with a cache already attached\n"),
rc = VERR_VD_CACHE_ALREADY_EXISTS);
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
fLockRead = false;
/* Set up image descriptor. */
pCache = (PVDCACHE)RTMemAllocZ(sizeof(VDCACHE));
if (!pCache)
{
rc = VERR_NO_MEMORY;
break;
}
pCache->pszFilename = RTStrDup(pszFilename);
if (!pCache->pszFilename)
{
rc = VERR_NO_MEMORY;
break;
}
rc = vdFindCacheBackend(pszBackend, &pCache->Backend);
if (RT_FAILURE(rc))
break;
if (!pCache->Backend)
{
rc = vdError(pDisk, VERR_INVALID_PARAMETER, RT_SRC_POS,
N_("VD: unknown backend name '%s'"), pszBackend);
break;
}
pCache->VDIo.pDisk = pDisk;
pCache->pVDIfsCache = pVDIfsCache;
/* Set up the I/O interface. */
pCache->VDIo.pInterfaceIo = VDIfIoGet(pVDIfsCache);
if (!pCache->VDIo.pInterfaceIo)
{
vdIfIoFallbackCallbacksSetup(&pCache->VDIo.VDIfIo);
rc = VDInterfaceAdd(&pCache->VDIo.VDIfIo.Core, "VD_IO", VDINTERFACETYPE_IO,
pDisk, sizeof(VDINTERFACEIO), &pVDIfsCache);
pCache->VDIo.pInterfaceIo = &pCache->VDIo.VDIfIo;
}
/* Set up the internal I/O interface. */
AssertBreakStmt(!VDIfIoIntGet(pVDIfsCache), rc = VERR_INVALID_PARAMETER);
vdIfIoIntCallbacksSetup(&pCache->VDIo.VDIfIoInt);
rc = VDInterfaceAdd(&pCache->VDIo.VDIfIoInt.Core, "VD_IOINT", VDINTERFACETYPE_IOINT,
&pCache->VDIo, sizeof(VDINTERFACEIOINT), &pCache->pVDIfsCache);
AssertRC(rc);
/* Create UUID if the caller didn't specify one. */
if (!pUuid)
{
rc = RTUuidCreate(&uuid);
if (RT_FAILURE(rc))
{
rc = vdError(pDisk, rc, RT_SRC_POS,
N_("VD: cannot generate UUID for image '%s'"),
pszFilename);
break;
}
pUuid = &uuid;
}
pCache->uOpenFlags = uOpenFlags & VD_OPEN_FLAGS_HONOR_SAME;
pCache->VDIo.fIgnoreFlush = (uOpenFlags & VD_OPEN_FLAGS_IGNORE_FLUSH) != 0;
rc = pCache->Backend->pfnCreate(pCache->pszFilename, cbSize,
uImageFlags,
pszComment, pUuid,
uOpenFlags & ~VD_OPEN_FLAGS_HONOR_SAME,
0, 99,
pDisk->pVDIfsDisk,
pCache->pVDIfsCache,
pVDIfsOperation,
&pCache->pBackendData);
if (RT_SUCCESS(rc))
{
/* Lock disk for writing, as we modify pDisk information below. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
pCache->VDIo.pBackendData = pCache->pBackendData;
/* Re-check state, as the lock wasn't held and another image
* creation call could have been done by another thread. */
AssertMsgStmt(!pDisk->pCache,
("Create cache image cannot be done with another cache open\n"),
rc = VERR_VD_CACHE_ALREADY_EXISTS);
}
if ( RT_SUCCESS(rc)
&& pDisk->pLast)
{
RTUUID UuidModification;
/* Set same modification Uuid as the last image. */
rc = pDisk->pLast->Backend->pfnGetModificationUuid(pDisk->pLast->pBackendData,
&UuidModification);
if (RT_SUCCESS(rc))
{
rc = pCache->Backend->pfnSetModificationUuid(pCache->pBackendData,
&UuidModification);
}
if (rc == VERR_NOT_SUPPORTED)
rc = VINF_SUCCESS;
}
if (RT_SUCCESS(rc))
{
/* Cache successfully created. */
pDisk->pCache = pCache;
}
else
{
/* Error detected, but image opened. Close and delete image. */
rc2 = pCache->Backend->pfnClose(pCache->pBackendData, true);
AssertRC(rc2);
pCache->pBackendData = NULL;
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
else if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
if (RT_FAILURE(rc))
{
if (pCache)
{
if (pCache->pszFilename)
RTStrFree(pCache->pszFilename);
RTMemFree(pCache);
}
}
if (RT_SUCCESS(rc) && pIfProgress && pIfProgress->pfnProgress)
pIfProgress->pfnProgress(pIfProgress->Core.pvUser, 100);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Merges two images (not necessarily with direct parent/child relationship).
* As a side effect the source image and potentially the other images which
* are also merged to the destination are deleted from both the disk and the
* images in the HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImageFrom Name of the image file to merge from.
* @param nImageTo Name of the image file to merge to.
* @param pVDIfsOperation Pointer to the per-operation VD interface list.
*/
VBOXDDU_DECL(int) VDMerge(PVDISK pDisk, unsigned nImageFrom,
unsigned nImageTo, PVDINTERFACE pVDIfsOperation)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false, fLockRead = false;
void *pvBuf = NULL;
LogFlowFunc(("pDisk=%#p nImageFrom=%u nImageTo=%u pVDIfsOperation=%#p\n",
pDisk, nImageFrom, nImageTo, pVDIfsOperation));
PVDINTERFACEPROGRESS pIfProgress = VDIfProgressGet(pVDIfsOperation);
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* For simplicity reasons lock for writing as the image reopen below
* might need it. After all the reopen is usually needed. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImageFrom = vdGetImageByNumber(pDisk, nImageFrom);
PVDIMAGE pImageTo = vdGetImageByNumber(pDisk, nImageTo);
if (!pImageFrom || !pImageTo)
{
rc = VERR_VD_IMAGE_NOT_FOUND;
break;
}
AssertBreakStmt(pImageFrom != pImageTo, rc = VERR_INVALID_PARAMETER);
/* Make sure destination image is writable. */
unsigned uOpenFlags = pImageTo->Backend->pfnGetOpenFlags(pImageTo->pBackendData);
if (uOpenFlags & VD_OPEN_FLAGS_READONLY)
{
/*
* Clear skip consistency checks because the image is made writable now and
* skipping consistency checks is only possible for readonly images.
*/
uOpenFlags &= ~(VD_OPEN_FLAGS_READONLY | VD_OPEN_FLAGS_SKIP_CONSISTENCY_CHECKS);
rc = pImageTo->Backend->pfnSetOpenFlags(pImageTo->pBackendData,
uOpenFlags);
if (RT_FAILURE(rc))
break;
}
/* Get size of destination image. */
uint64_t cbSize = vdImageGetSize(pImageTo);
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
fLockWrite = false;
/* Allocate tmp buffer. */
pvBuf = RTMemTmpAlloc(VD_MERGE_BUFFER_SIZE);
if (!pvBuf)
{
rc = VERR_NO_MEMORY;
break;
}
/* Merging is done directly on the images itself. This potentially
* causes trouble if the disk is full in the middle of operation. */
if (nImageFrom < nImageTo)
{
/* Merge parent state into child. This means writing all not
* allocated blocks in the destination image which are allocated in
* the images to be merged. */
uint64_t uOffset = 0;
uint64_t cbRemaining = cbSize;
do
{
size_t cbThisRead = RT_MIN(VD_MERGE_BUFFER_SIZE, cbRemaining);
RTSGSEG SegmentBuf;
RTSGBUF SgBuf;
VDIOCTX IoCtx;
SegmentBuf.pvSeg = pvBuf;
SegmentBuf.cbSeg = VD_MERGE_BUFFER_SIZE;
RTSgBufInit(&SgBuf, &SegmentBuf, 1);
vdIoCtxInit(&IoCtx, pDisk, VDIOCTXTXDIR_READ, 0, 0, NULL,
&SgBuf, NULL, NULL, VDIOCTX_FLAGS_SYNC);
/* Need to hold the write lock during a read-write operation. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
rc = pImageTo->Backend->pfnRead(pImageTo->pBackendData,
uOffset, cbThisRead,
&IoCtx, &cbThisRead);
if (rc == VERR_VD_BLOCK_FREE)
{
/* Search for image with allocated block. Do not attempt to
* read more than the previous reads marked as valid.
* Otherwise this would return stale data when different
* block sizes are used for the images. */
for (PVDIMAGE pCurrImage = pImageTo->pPrev;
pCurrImage != NULL && pCurrImage != pImageFrom->pPrev && rc == VERR_VD_BLOCK_FREE;
pCurrImage = pCurrImage->pPrev)
{
/*
* Skip reading when offset exceeds image size which can happen when the target is
* bigger than the source.
*/
uint64_t cbImage = vdImageGetSize(pCurrImage);
if (uOffset < cbImage)
{
cbThisRead = RT_MIN(cbThisRead, cbImage - uOffset);
rc = pCurrImage->Backend->pfnRead(pCurrImage->pBackendData,
uOffset, cbThisRead,
&IoCtx, &cbThisRead);
}
else
rc = VERR_VD_BLOCK_FREE;
}
if (rc != VERR_VD_BLOCK_FREE)
{
if (RT_FAILURE(rc))
break;
/* Updating the cache is required because this might be a live merge. */
rc = vdWriteHelperEx(pDisk, pImageTo, pImageFrom->pPrev,
uOffset, pvBuf, cbThisRead,
VDIOCTX_FLAGS_READ_UPDATE_CACHE, 0);
if (RT_FAILURE(rc))
break;
}
else
rc = VINF_SUCCESS;
}
else if (RT_FAILURE(rc))
break;
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
fLockWrite = false;
uOffset += cbThisRead;
cbRemaining -= cbThisRead;
if (pIfProgress && pIfProgress->pfnProgress)
{
/** @todo r=klaus: this can update the progress to the same
* percentage over and over again if the image format makes
* relatively small increments. */
rc = pIfProgress->pfnProgress(pIfProgress->Core.pvUser,
uOffset * 99 / cbSize);
if (RT_FAILURE(rc))
break;
}
} while (uOffset < cbSize);
}
else
{
/*
* We may need to update the parent uuid of the child coming after
* the last image to be merged. We have to reopen it read/write.
*
* This is done before we do the actual merge to prevent an
* inconsistent chain if the mode change fails for some reason.
*/
if (pImageFrom->pNext)
{
PVDIMAGE pImageChild = pImageFrom->pNext;
/* Take the write lock. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/* We need to open the image in read/write mode. */
uOpenFlags = pImageChild->Backend->pfnGetOpenFlags(pImageChild->pBackendData);
if (uOpenFlags & VD_OPEN_FLAGS_READONLY)
{
uOpenFlags &= ~VD_OPEN_FLAGS_READONLY;
rc = pImageChild->Backend->pfnSetOpenFlags(pImageChild->pBackendData,
uOpenFlags);
if (RT_FAILURE(rc))
break;
}
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
fLockWrite = false;
}
/* If the merge is from the last image we have to relay all writes
* to the merge destination as well, so that concurrent writes
* (in case of a live merge) are handled correctly. */
if (!pImageFrom->pNext)
{
/* Take the write lock. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
pDisk->pImageRelay = pImageTo;
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
fLockWrite = false;
}
/* Merge child state into parent. This means writing all blocks
* which are allocated in the image up to the source image to the
* destination image. */
unsigned uProgressOld = 0;
uint64_t uOffset = 0;
uint64_t cbRemaining = cbSize;
do
{
size_t cbThisRead = RT_MIN(VD_MERGE_BUFFER_SIZE, cbRemaining);
RTSGSEG SegmentBuf;
RTSGBUF SgBuf;
VDIOCTX IoCtx;
rc = VERR_VD_BLOCK_FREE;
SegmentBuf.pvSeg = pvBuf;
SegmentBuf.cbSeg = VD_MERGE_BUFFER_SIZE;
RTSgBufInit(&SgBuf, &SegmentBuf, 1);
vdIoCtxInit(&IoCtx, pDisk, VDIOCTXTXDIR_READ, 0, 0, NULL,
&SgBuf, NULL, NULL, VDIOCTX_FLAGS_SYNC);
/* Need to hold the write lock during a read-write operation. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/* Search for image with allocated block. Do not attempt to
* read more than the previous reads marked as valid. Otherwise
* this would return stale data when different block sizes are
* used for the images. */
for (PVDIMAGE pCurrImage = pImageFrom;
pCurrImage != NULL && pCurrImage != pImageTo && rc == VERR_VD_BLOCK_FREE;
pCurrImage = pCurrImage->pPrev)
{
/*
* Skip reading when offset exceeds image size which can happen when the target is
* bigger than the source.
*/
uint64_t cbImage = vdImageGetSize(pCurrImage);
if (uOffset < cbImage)
{
cbThisRead = RT_MIN(cbThisRead, cbImage - uOffset);
rc = pCurrImage->Backend->pfnRead(pCurrImage->pBackendData,
uOffset, cbThisRead,
&IoCtx, &cbThisRead);
}
else
rc = VERR_VD_BLOCK_FREE;
}
if (rc != VERR_VD_BLOCK_FREE)
{
if (RT_FAILURE(rc))
break;
rc = vdWriteHelper(pDisk, pImageTo, uOffset, pvBuf,
cbThisRead, VDIOCTX_FLAGS_READ_UPDATE_CACHE);
if (RT_FAILURE(rc))
break;
}
else
rc = VINF_SUCCESS;
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
fLockWrite = false;
uOffset += cbThisRead;
cbRemaining -= cbThisRead;
unsigned uProgressNew = uOffset * 99 / cbSize;
if (uProgressNew != uProgressOld)
{
uProgressOld = uProgressNew;
if (pIfProgress && pIfProgress->pfnProgress)
{
rc = pIfProgress->pfnProgress(pIfProgress->Core.pvUser,
uProgressOld);
if (RT_FAILURE(rc))
break;
}
}
} while (uOffset < cbSize);
/* In case we set up a "write proxy" image above we must clear
* this again now to prevent stray writes. Failure or not. */
if (!pImageFrom->pNext)
{
/* Take the write lock. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
pDisk->pImageRelay = NULL;
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
fLockWrite = false;
}
}
/*
* Leave in case of an error to avoid corrupted data in the image chain
* (includes cancelling the operation by the user).
*/
if (RT_FAILURE(rc))
break;
/* Need to hold the write lock while finishing the merge. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/* Update parent UUID so that image chain is consistent.
* The two attempts work around the problem that some backends
* (e.g. iSCSI) do not support UUIDs, so we exploit the fact that
* so far there can only be one such image in the chain. */
/** @todo needs a better long-term solution, passing the UUID
* knowledge from the caller or some such */
RTUUID Uuid;
PVDIMAGE pImageChild = NULL;
if (nImageFrom < nImageTo)
{
if (pImageFrom->pPrev)
{
/* plan A: ask the parent itself for its UUID */
rc = pImageFrom->pPrev->Backend->pfnGetUuid(pImageFrom->pPrev->pBackendData,
&Uuid);
if (RT_FAILURE(rc))
{
/* plan B: ask the child of the parent for parent UUID */
rc = pImageFrom->Backend->pfnGetParentUuid(pImageFrom->pBackendData,
&Uuid);
}
AssertRC(rc);
}
else
RTUuidClear(&Uuid);
rc = pImageTo->Backend->pfnSetParentUuid(pImageTo->pBackendData,
&Uuid);
AssertRC(rc);
}
else
{
/* Update the parent uuid of the child of the last merged image. */
if (pImageFrom->pNext)
{
/* plan A: ask the parent itself for its UUID */
rc = pImageTo->Backend->pfnGetUuid(pImageTo->pBackendData,
&Uuid);
if (RT_FAILURE(rc))
{
/* plan B: ask the child of the parent for parent UUID */
rc = pImageTo->pNext->Backend->pfnGetParentUuid(pImageTo->pNext->pBackendData,
&Uuid);
}
AssertRC(rc);
rc = pImageFrom->Backend->pfnSetParentUuid(pImageFrom->pNext->pBackendData,
&Uuid);
AssertRC(rc);
pImageChild = pImageFrom->pNext;
}
}
/* Delete the no longer needed images. */
PVDIMAGE pImg = pImageFrom, pTmp;
while (pImg != pImageTo)
{
if (nImageFrom < nImageTo)
pTmp = pImg->pNext;
else
pTmp = pImg->pPrev;
vdRemoveImageFromList(pDisk, pImg);
pImg->Backend->pfnClose(pImg->pBackendData, true);
RTMemFree(pImg->pszFilename);
RTMemFree(pImg);
pImg = pTmp;
}
/* Make sure destination image is back to read only if necessary. */
if (pImageTo != pDisk->pLast)
{
uOpenFlags = pImageTo->Backend->pfnGetOpenFlags(pImageTo->pBackendData);
uOpenFlags |= VD_OPEN_FLAGS_READONLY;
rc = pImageTo->Backend->pfnSetOpenFlags(pImageTo->pBackendData,
uOpenFlags);
if (RT_FAILURE(rc))
break;
}
/*
* Make sure the child is readonly
* for the child -> parent merge direction
* if necessary.
*/
if ( nImageFrom > nImageTo
&& pImageChild
&& pImageChild != pDisk->pLast)
{
uOpenFlags = pImageChild->Backend->pfnGetOpenFlags(pImageChild->pBackendData);
uOpenFlags |= VD_OPEN_FLAGS_READONLY;
rc = pImageChild->Backend->pfnSetOpenFlags(pImageChild->pBackendData,
uOpenFlags);
if (RT_FAILURE(rc))
break;
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
else if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
if (pvBuf)
RTMemTmpFree(pvBuf);
if (RT_SUCCESS(rc) && pIfProgress && pIfProgress->pfnProgress)
pIfProgress->pfnProgress(pIfProgress->Core.pvUser, 100);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Copies an image from one HDD container to another - extended version.
* The copy is opened in the target HDD container.
* It is possible to convert between different image formats, because the
* backend for the destination may be different from the source.
* If both the source and destination reference the same HDD container,
* then the image is moved (by copying/deleting or renaming) to the new location.
* The source container is unchanged if the move operation fails, otherwise
* the image at the new location is opened in the same way as the old one was.
*
* @note The read/write accesses across disks are not synchronized, just the
* accesses to each disk. Once there is a use case which requires a defined
* read/write behavior in this situation this needs to be extended.
*
* @returns VBox status code.
* @retval VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDiskFrom Pointer to source HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pDiskTo Pointer to destination HDD container.
* @param pszBackend Name of the image file backend to use (may be NULL to use the same as the source, case insensitive).
* @param pszFilename New name of the image (may be NULL to specify that the
* copy destination is the destination container, or
* if pDiskFrom == pDiskTo, i.e. when moving).
* @param fMoveByRename If true, attempt to perform a move by renaming (if successful the new size is ignored).
* @param cbSize New image size (0 means leave unchanged).
* @param nImageFromSame todo
* @param nImageToSame todo
* @param uImageFlags Flags specifying special destination image features.
* @param pDstUuid New UUID of the destination image. If NULL, a new UUID is created.
* This parameter is used if and only if a true copy is created.
* In all rename/move cases or copy to existing image cases the modification UUIDs are copied over.
* @param uOpenFlags Image file open mode, see VD_OPEN_FLAGS_* constants.
* Only used if the destination image is created.
* @param pVDIfsOperation Pointer to the per-operation VD interface list.
* @param pDstVDIfsImage Pointer to the per-image VD interface list, for the
* destination image.
* @param pDstVDIfsOperation Pointer to the per-operation VD interface list,
* for the destination operation.
*/
VBOXDDU_DECL(int) VDCopyEx(PVDISK pDiskFrom, unsigned nImage, PVDISK pDiskTo,
const char *pszBackend, const char *pszFilename,
bool fMoveByRename, uint64_t cbSize,
unsigned nImageFromSame, unsigned nImageToSame,
unsigned uImageFlags, PCRTUUID pDstUuid,
unsigned uOpenFlags, PVDINTERFACE pVDIfsOperation,
PVDINTERFACE pDstVDIfsImage,
PVDINTERFACE pDstVDIfsOperation)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockReadFrom = false, fLockWriteFrom = false, fLockWriteTo = false;
PVDIMAGE pImageTo = NULL;
LogFlowFunc(("pDiskFrom=%#p nImage=%u pDiskTo=%#p pszBackend=\"%s\" pszFilename=\"%s\" fMoveByRename=%d cbSize=%llu nImageFromSame=%u nImageToSame=%u uImageFlags=%#x pDstUuid=%#p uOpenFlags=%#x pVDIfsOperation=%#p pDstVDIfsImage=%#p pDstVDIfsOperation=%#p\n",
pDiskFrom, nImage, pDiskTo, pszBackend, pszFilename, fMoveByRename, cbSize, nImageFromSame, nImageToSame, uImageFlags, pDstUuid, uOpenFlags, pVDIfsOperation, pDstVDIfsImage, pDstVDIfsOperation));
PVDINTERFACEPROGRESS pIfProgress = VDIfProgressGet(pVDIfsOperation);
PVDINTERFACEPROGRESS pDstIfProgress = VDIfProgressGet(pDstVDIfsOperation);
do {
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pDiskFrom), ("pDiskFrom=%#p\n", pDiskFrom),
rc = VERR_INVALID_PARAMETER);
AssertMsg(pDiskFrom->u32Signature == VDISK_SIGNATURE,
("u32Signature=%08x\n", pDiskFrom->u32Signature));
rc2 = vdThreadStartRead(pDiskFrom);
AssertRC(rc2);
fLockReadFrom = true;
PVDIMAGE pImageFrom = vdGetImageByNumber(pDiskFrom, nImage);
AssertPtrBreakStmt(pImageFrom, rc = VERR_VD_IMAGE_NOT_FOUND);
AssertMsgBreakStmt(VALID_PTR(pDiskTo), ("pDiskTo=%#p\n", pDiskTo),
rc = VERR_INVALID_PARAMETER);
AssertMsg(pDiskTo->u32Signature == VDISK_SIGNATURE,
("u32Signature=%08x\n", pDiskTo->u32Signature));
AssertMsgBreakStmt( (nImageFromSame < nImage || nImageFromSame == VD_IMAGE_CONTENT_UNKNOWN)
&& (nImageToSame < pDiskTo->cImages || nImageToSame == VD_IMAGE_CONTENT_UNKNOWN)
&& ( (nImageFromSame == VD_IMAGE_CONTENT_UNKNOWN && nImageToSame == VD_IMAGE_CONTENT_UNKNOWN)
|| (nImageFromSame != VD_IMAGE_CONTENT_UNKNOWN && nImageToSame != VD_IMAGE_CONTENT_UNKNOWN)),
("nImageFromSame=%u nImageToSame=%u\n", nImageFromSame, nImageToSame),
rc = VERR_INVALID_PARAMETER);
/* Move the image. */
if (pDiskFrom == pDiskTo)
{
/* Rename only works when backends are the same, are file based
* and the rename method is implemented. */
if ( fMoveByRename
&& !RTStrICmp(pszBackend, pImageFrom->Backend->pszBackendName)
&& pImageFrom->Backend->uBackendCaps & VD_CAP_FILE
&& pImageFrom->Backend->pfnRename)
{
rc2 = vdThreadFinishRead(pDiskFrom);
AssertRC(rc2);
fLockReadFrom = false;
rc2 = vdThreadStartWrite(pDiskFrom);
AssertRC(rc2);
fLockWriteFrom = true;
rc = pImageFrom->Backend->pfnRename(pImageFrom->pBackendData, pszFilename ? pszFilename : pImageFrom->pszFilename);
break;
}
/** @todo Moving (including shrinking/growing) of the image is
* requested, but the rename attempt failed or it wasn't possible.
* Must now copy image to temp location. */
AssertReleaseMsgFailed(("VDCopy: moving by copy/delete not implemented\n"));
}
/* pszFilename is allowed to be NULL, as this indicates copy to the existing image. */
AssertMsgBreakStmt(pszFilename == NULL || (VALID_PTR(pszFilename) && *pszFilename),
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
rc = VERR_INVALID_PARAMETER);
uint64_t cbSizeFrom;
cbSizeFrom = vdImageGetSize(pImageFrom);
if (cbSizeFrom == 0)
{
rc = VERR_VD_VALUE_NOT_FOUND;
break;
}
VDGEOMETRY PCHSGeometryFrom = {0, 0, 0};
VDGEOMETRY LCHSGeometryFrom = {0, 0, 0};
pImageFrom->Backend->pfnGetPCHSGeometry(pImageFrom->pBackendData, &PCHSGeometryFrom);
pImageFrom->Backend->pfnGetLCHSGeometry(pImageFrom->pBackendData, &LCHSGeometryFrom);
RTUUID ImageUuid, ImageModificationUuid;
if (pDiskFrom != pDiskTo)
{
if (pDstUuid)
ImageUuid = *pDstUuid;
else
RTUuidCreate(&ImageUuid);
}
else
{
rc = pImageFrom->Backend->pfnGetUuid(pImageFrom->pBackendData, &ImageUuid);
if (RT_FAILURE(rc))
RTUuidCreate(&ImageUuid);
}
rc = pImageFrom->Backend->pfnGetModificationUuid(pImageFrom->pBackendData, &ImageModificationUuid);
if (RT_FAILURE(rc))
RTUuidClear(&ImageModificationUuid);
char szComment[1024];
rc = pImageFrom->Backend->pfnGetComment(pImageFrom->pBackendData, szComment, sizeof(szComment));
if (RT_FAILURE(rc))
szComment[0] = '\0';
else
szComment[sizeof(szComment) - 1] = '\0';
rc2 = vdThreadFinishRead(pDiskFrom);
AssertRC(rc2);
fLockReadFrom = false;
rc2 = vdThreadStartRead(pDiskTo);
AssertRC(rc2);
unsigned cImagesTo = pDiskTo->cImages;
rc2 = vdThreadFinishRead(pDiskTo);
AssertRC(rc2);
if (pszFilename)
{
if (cbSize == 0)
cbSize = cbSizeFrom;
/* Create destination image with the properties of source image. */
/** @todo replace the VDCreateDiff/VDCreateBase calls by direct
* calls to the backend. Unifies the code and reduces the API
* dependencies. Would also make the synchronization explicit. */
if (cImagesTo > 0)
{
rc = VDCreateDiff(pDiskTo, pszBackend, pszFilename,
uImageFlags, szComment, &ImageUuid,
NULL /* pParentUuid */,
uOpenFlags & ~VD_OPEN_FLAGS_READONLY,
pDstVDIfsImage, NULL);
rc2 = vdThreadStartWrite(pDiskTo);
AssertRC(rc2);
fLockWriteTo = true;
} else {
/** @todo hack to force creation of a fixed image for
* the RAW backend, which can't handle anything else. */
if (!RTStrICmp(pszBackend, "RAW"))
uImageFlags |= VD_IMAGE_FLAGS_FIXED;
vdFixupPCHSGeometry(&PCHSGeometryFrom, cbSize);
vdFixupLCHSGeometry(&LCHSGeometryFrom, cbSize);
rc = VDCreateBase(pDiskTo, pszBackend, pszFilename, cbSize,
uImageFlags, szComment,
&PCHSGeometryFrom, &LCHSGeometryFrom,
NULL, uOpenFlags & ~VD_OPEN_FLAGS_READONLY,
pDstVDIfsImage, NULL);
rc2 = vdThreadStartWrite(pDiskTo);
AssertRC(rc2);
fLockWriteTo = true;
if (RT_SUCCESS(rc) && !RTUuidIsNull(&ImageUuid))
pDiskTo->pLast->Backend->pfnSetUuid(pDiskTo->pLast->pBackendData, &ImageUuid);
}
if (RT_FAILURE(rc))
break;
pImageTo = pDiskTo->pLast;
AssertPtrBreakStmt(pImageTo, rc = VERR_VD_IMAGE_NOT_FOUND);
cbSize = RT_MIN(cbSize, cbSizeFrom);
}
else
{
pImageTo = pDiskTo->pLast;
AssertPtrBreakStmt(pImageTo, rc = VERR_VD_IMAGE_NOT_FOUND);
uint64_t cbSizeTo;
cbSizeTo = vdImageGetSize(pImageTo);
if (cbSizeTo == 0)
{
rc = VERR_VD_VALUE_NOT_FOUND;
break;
}
if (cbSize == 0)
cbSize = RT_MIN(cbSizeFrom, cbSizeTo);
vdFixupPCHSGeometry(&PCHSGeometryFrom, cbSize);
vdFixupLCHSGeometry(&LCHSGeometryFrom, cbSize);
/* Update the geometry in the destination image. */
pImageTo->Backend->pfnSetPCHSGeometry(pImageTo->pBackendData, &PCHSGeometryFrom);
pImageTo->Backend->pfnSetLCHSGeometry(pImageTo->pBackendData, &LCHSGeometryFrom);
}
rc2 = vdThreadFinishWrite(pDiskTo);
AssertRC(rc2);
fLockWriteTo = false;
/* Whether we can take the optimized copy path (false) or not.
* Don't optimize if the image existed or if it is a child image. */
bool fSuppressRedundantIo = ( !(pszFilename == NULL || cImagesTo > 0)
|| (nImageToSame != VD_IMAGE_CONTENT_UNKNOWN));
unsigned cImagesFromReadBack, cImagesToReadBack;
if (nImageFromSame == VD_IMAGE_CONTENT_UNKNOWN)
cImagesFromReadBack = 0;
else
{
if (nImage == VD_LAST_IMAGE)
cImagesFromReadBack = pDiskFrom->cImages - nImageFromSame - 1;
else
cImagesFromReadBack = nImage - nImageFromSame;
}
if (nImageToSame == VD_IMAGE_CONTENT_UNKNOWN)
cImagesToReadBack = 0;
else
cImagesToReadBack = pDiskTo->cImages - nImageToSame - 1;
/* Copy the data. */
rc = vdCopyHelper(pDiskFrom, pImageFrom, pDiskTo, cbSize,
cImagesFromReadBack, cImagesToReadBack,
fSuppressRedundantIo, pIfProgress, pDstIfProgress);
if (RT_SUCCESS(rc))
{
rc2 = vdThreadStartWrite(pDiskTo);
AssertRC(rc2);
fLockWriteTo = true;
/* Only set modification UUID if it is non-null, since the source
* backend might not provide a valid modification UUID. */
if (!RTUuidIsNull(&ImageModificationUuid))
pImageTo->Backend->pfnSetModificationUuid(pImageTo->pBackendData, &ImageModificationUuid);
/* Set the requested open flags if they differ from the value
* required for creating the image and copying the contents. */
if ( pImageTo && pszFilename
&& uOpenFlags != (uOpenFlags & ~VD_OPEN_FLAGS_READONLY))
rc = pImageTo->Backend->pfnSetOpenFlags(pImageTo->pBackendData,
uOpenFlags);
}
} while (0);
if (RT_FAILURE(rc) && pImageTo && pszFilename)
{
/* Take the write lock only if it is not taken. Not worth making the
* above code even more complicated. */
if (RT_UNLIKELY(!fLockWriteTo))
{
rc2 = vdThreadStartWrite(pDiskTo);
AssertRC(rc2);
fLockWriteTo = true;
}
/* Error detected, but new image created. Remove image from list. */
vdRemoveImageFromList(pDiskTo, pImageTo);
/* Close and delete image. */
rc2 = pImageTo->Backend->pfnClose(pImageTo->pBackendData, true);
AssertRC(rc2);
pImageTo->pBackendData = NULL;
/* Free remaining resources. */
if (pImageTo->pszFilename)
RTStrFree(pImageTo->pszFilename);
RTMemFree(pImageTo);
}
if (RT_UNLIKELY(fLockWriteTo))
{
rc2 = vdThreadFinishWrite(pDiskTo);
AssertRC(rc2);
}
if (RT_UNLIKELY(fLockWriteFrom))
{
rc2 = vdThreadFinishWrite(pDiskFrom);
AssertRC(rc2);
}
else if (RT_UNLIKELY(fLockReadFrom))
{
rc2 = vdThreadFinishRead(pDiskFrom);
AssertRC(rc2);
}
if (RT_SUCCESS(rc))
{
if (pIfProgress && pIfProgress->pfnProgress)
pIfProgress->pfnProgress(pIfProgress->Core.pvUser, 100);
if (pDstIfProgress && pDstIfProgress->pfnProgress)
pDstIfProgress->pfnProgress(pDstIfProgress->Core.pvUser, 100);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Copies an image from one HDD container to another.
* The copy is opened in the target HDD container.
* It is possible to convert between different image formats, because the
* backend for the destination may be different from the source.
* If both the source and destination reference the same HDD container,
* then the image is moved (by copying/deleting or renaming) to the new location.
* The source container is unchanged if the move operation fails, otherwise
* the image at the new location is opened in the same way as the old one was.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDiskFrom Pointer to source HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pDiskTo Pointer to destination HDD container.
* @param pszBackend Name of the image file backend to use.
* @param pszFilename New name of the image (may be NULL if pDiskFrom == pDiskTo).
* @param fMoveByRename If true, attempt to perform a move by renaming (if successful the new size is ignored).
* @param cbSize New image size (0 means leave unchanged).
* @param uImageFlags Flags specifying special destination image features.
* @param pDstUuid New UUID of the destination image. If NULL, a new UUID is created.
* This parameter is used if and only if a true copy is created.
* In all rename/move cases the UUIDs are copied over.
* @param uOpenFlags Image file open mode, see VD_OPEN_FLAGS_* constants.
* Only used if the destination image is created.
* @param pVDIfsOperation Pointer to the per-operation VD interface list.
* @param pDstVDIfsImage Pointer to the per-image VD interface list, for the
* destination image.
* @param pDstVDIfsOperation Pointer to the per-image VD interface list,
* for the destination image.
*/
VBOXDDU_DECL(int) VDCopy(PVDISK pDiskFrom, unsigned nImage, PVDISK pDiskTo,
const char *pszBackend, const char *pszFilename,
bool fMoveByRename, uint64_t cbSize,
unsigned uImageFlags, PCRTUUID pDstUuid,
unsigned uOpenFlags, PVDINTERFACE pVDIfsOperation,
PVDINTERFACE pDstVDIfsImage,
PVDINTERFACE pDstVDIfsOperation)
{
return VDCopyEx(pDiskFrom, nImage, pDiskTo, pszBackend, pszFilename, fMoveByRename,
cbSize, VD_IMAGE_CONTENT_UNKNOWN, VD_IMAGE_CONTENT_UNKNOWN,
uImageFlags, pDstUuid, uOpenFlags, pVDIfsOperation,
pDstVDIfsImage, pDstVDIfsOperation);
}
/**
* Optimizes the storage consumption of an image. Typically the unused blocks
* have to be wiped with zeroes to achieve a substantial reduced storage use.
* Another optimization done is reordering the image blocks, which can provide
* a significant performance boost, as reads and writes tend to use less random
* file offsets.
*
* @return VBox status code.
* @return VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @return VERR_VD_IMAGE_READ_ONLY if image is not writable.
* @return VERR_NOT_SUPPORTED if this kind of image can be compacted, but
* the code for this isn't implemented yet.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pVDIfsOperation Pointer to the per-operation VD interface list.
*/
VBOXDDU_DECL(int) VDCompact(PVDISK pDisk, unsigned nImage,
PVDINTERFACE pVDIfsOperation)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false, fLockWrite = false;
void *pvBuf = NULL;
void *pvTmp = NULL;
LogFlowFunc(("pDisk=%#p nImage=%u pVDIfsOperation=%#p\n",
pDisk, nImage, pVDIfsOperation));
PVDINTERFACEPROGRESS pIfProgress = VDIfProgressGet(pVDIfsOperation);
do {
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pDisk), ("pDisk=%#p\n", pDisk),
rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE,
("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
/* If there is no compact callback for not file based backends then
* the backend doesn't need compaction. No need to make much fuss about
* this. For file based ones signal this as not yet supported. */
if (!pImage->Backend->pfnCompact)
{
if (pImage->Backend->uBackendCaps & VD_CAP_FILE)
rc = VERR_NOT_SUPPORTED;
else
rc = VINF_SUCCESS;
break;
}
/* Insert interface for reading parent state into per-operation list,
* if there is a parent image. */
VDINTERFACEPARENTSTATE VDIfParent;
VDPARENTSTATEDESC ParentUser;
if (pImage->pPrev)
{
VDIfParent.pfnParentRead = vdParentRead;
ParentUser.pDisk = pDisk;
ParentUser.pImage = pImage->pPrev;
rc = VDInterfaceAdd(&VDIfParent.Core, "VDCompact_ParentState", VDINTERFACETYPE_PARENTSTATE,
&ParentUser, sizeof(VDINTERFACEPARENTSTATE), &pVDIfsOperation);
AssertRC(rc);
}
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
fLockRead = false;
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
rc = pImage->Backend->pfnCompact(pImage->pBackendData,
0, 99,
pDisk->pVDIfsDisk,
pImage->pVDIfsImage,
pVDIfsOperation);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
else if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
if (pvBuf)
RTMemTmpFree(pvBuf);
if (pvTmp)
RTMemTmpFree(pvTmp);
if (RT_SUCCESS(rc))
{
if (pIfProgress && pIfProgress->pfnProgress)
pIfProgress->pfnProgress(pIfProgress->Core.pvUser, 100);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Resizes the given disk image to the given size.
*
* @return VBox status
* @return VERR_VD_IMAGE_READ_ONLY if image is not writable.
* @return VERR_NOT_SUPPORTED if this kind of image can be compacted, but
*
* @param pDisk Pointer to the HDD container.
* @param cbSize New size of the image.
* @param pPCHSGeometry Pointer to the new physical disk geometry <= (16383,16,63). Not NULL.
* @param pLCHSGeometry Pointer to the new logical disk geometry <= (x,255,63). Not NULL.
* @param pVDIfsOperation Pointer to the per-operation VD interface list.
*/
VBOXDDU_DECL(int) VDResize(PVDISK pDisk, uint64_t cbSize,
PCVDGEOMETRY pPCHSGeometry,
PCVDGEOMETRY pLCHSGeometry,
PVDINTERFACE pVDIfsOperation)
{
/** @todo r=klaus resizing was designed to be part of VDCopy, so having a separate function is not desirable. */
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false, fLockWrite = false;
LogFlowFunc(("pDisk=%#p cbSize=%llu pVDIfsOperation=%#p\n",
pDisk, cbSize, pVDIfsOperation));
PVDINTERFACEPROGRESS pIfProgress = VDIfProgressGet(pVDIfsOperation);
do {
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pDisk), ("pDisk=%#p\n", pDisk),
rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE,
("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
/* Must have at least one image in the chain, will resize last. */
AssertMsgBreakStmt(pDisk->cImages >= 1, ("cImages=%u\n", pDisk->cImages),
rc = VERR_NOT_SUPPORTED);
PVDIMAGE pImage = pDisk->pLast;
/* If there is no compact callback for not file based backends then
* the backend doesn't need compaction. No need to make much fuss about
* this. For file based ones signal this as not yet supported. */
if (!pImage->Backend->pfnResize)
{
if (pImage->Backend->uBackendCaps & VD_CAP_FILE)
rc = VERR_NOT_SUPPORTED;
else
rc = VINF_SUCCESS;
break;
}
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
fLockRead = false;
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
VDGEOMETRY PCHSGeometryOld;
VDGEOMETRY LCHSGeometryOld;
PCVDGEOMETRY pPCHSGeometryNew;
PCVDGEOMETRY pLCHSGeometryNew;
if (pPCHSGeometry->cCylinders == 0)
{
/* Auto-detect marker, calculate new value ourself. */
rc = pImage->Backend->pfnGetPCHSGeometry(pImage->pBackendData, &PCHSGeometryOld);
if (RT_SUCCESS(rc) && (PCHSGeometryOld.cCylinders != 0))
PCHSGeometryOld.cCylinders = RT_MIN(cbSize / 512 / PCHSGeometryOld.cHeads / PCHSGeometryOld.cSectors, 16383);
else if (rc == VERR_VD_GEOMETRY_NOT_SET)
rc = VINF_SUCCESS;
pPCHSGeometryNew = &PCHSGeometryOld;
}
else
pPCHSGeometryNew = pPCHSGeometry;
if (pLCHSGeometry->cCylinders == 0)
{
/* Auto-detect marker, calculate new value ourself. */
rc = pImage->Backend->pfnGetLCHSGeometry(pImage->pBackendData, &LCHSGeometryOld);
if (RT_SUCCESS(rc) && (LCHSGeometryOld.cCylinders != 0))
LCHSGeometryOld.cCylinders = cbSize / 512 / LCHSGeometryOld.cHeads / LCHSGeometryOld.cSectors;
else if (rc == VERR_VD_GEOMETRY_NOT_SET)
rc = VINF_SUCCESS;
pLCHSGeometryNew = &LCHSGeometryOld;
}
else
pLCHSGeometryNew = pLCHSGeometry;
if (RT_SUCCESS(rc))
rc = pImage->Backend->pfnResize(pImage->pBackendData,
cbSize,
pPCHSGeometryNew,
pLCHSGeometryNew,
0, 99,
pDisk->pVDIfsDisk,
pImage->pVDIfsImage,
pVDIfsOperation);
/* Mark the image size as uninitialized so it gets recalculated the next time. */
if (RT_SUCCESS(rc))
pImage->cbImage = VD_IMAGE_SIZE_UNINITIALIZED;
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
else if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
if (RT_SUCCESS(rc))
{
if (pIfProgress && pIfProgress->pfnProgress)
pIfProgress->pfnProgress(pIfProgress->Core.pvUser, 100);
pDisk->cbSize = cbSize;
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
VBOXDDU_DECL(int) VDPrepareWithFilters(PVDISK pDisk, PVDINTERFACE pVDIfsOperation)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false, fLockWrite = false;
LogFlowFunc(("pDisk=%#p pVDIfsOperation=%#p\n", pDisk, pVDIfsOperation));
PVDINTERFACEPROGRESS pIfProgress = VDIfProgressGet(pVDIfsOperation);
do {
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pDisk), ("pDisk=%#p\n", pDisk),
rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE,
("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
/* Must have at least one image in the chain. */
AssertMsgBreakStmt(pDisk->cImages >= 1, ("cImages=%u\n", pDisk->cImages),
rc = VERR_VD_NOT_OPENED);
unsigned uOpenFlags = pDisk->pLast->Backend->pfnGetOpenFlags(pDisk->pLast->pBackendData);
AssertMsgBreakStmt(!(uOpenFlags & VD_OPEN_FLAGS_READONLY),
("Last image should be read write"),
rc = VERR_VD_IMAGE_READ_ONLY);
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
fLockRead = false;
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/*
* Open all images in the chain in read write mode first to avoid running
* into an error in the middle of the process.
*/
PVDIMAGE pImage = pDisk->pBase;
while (pImage)
{
uOpenFlags = pImage->Backend->pfnGetOpenFlags(pImage->pBackendData);
if (uOpenFlags & VD_OPEN_FLAGS_READONLY)
{
/*
* Clear skip consistency checks because the image is made writable now and
* skipping consistency checks is only possible for readonly images.
*/
uOpenFlags &= ~(VD_OPEN_FLAGS_READONLY | VD_OPEN_FLAGS_SKIP_CONSISTENCY_CHECKS);
rc = pImage->Backend->pfnSetOpenFlags(pImage->pBackendData, uOpenFlags);
if (RT_FAILURE(rc))
break;
}
pImage = pImage->pNext;
}
if (RT_SUCCESS(rc))
{
unsigned cImgCur = 0;
unsigned uPercentStart = 0;
unsigned uPercentSpan = 100 / pDisk->cImages - 1;
/* Allocate tmp buffer. */
void *pvBuf = RTMemTmpAlloc(VD_MERGE_BUFFER_SIZE);
if (!pvBuf)
{
rc = VERR_NO_MEMORY;
break;
}
pImage = pDisk->pBase;
pDisk->fLocked = true;
while ( pImage
&& RT_SUCCESS(rc))
{
/* Get size of image. */
uint64_t cbSize = vdImageGetSize(pImage);
uint64_t cbSizeFile = pImage->Backend->pfnGetFileSize(pImage->pBackendData);
uint64_t cbFileWritten = 0;
uint64_t uOffset = 0;
uint64_t cbRemaining = cbSize;
do
{
size_t cbThisRead = RT_MIN(VD_MERGE_BUFFER_SIZE, cbRemaining);
RTSGSEG SegmentBuf;
RTSGBUF SgBuf;
VDIOCTX IoCtx;
SegmentBuf.pvSeg = pvBuf;
SegmentBuf.cbSeg = VD_MERGE_BUFFER_SIZE;
RTSgBufInit(&SgBuf, &SegmentBuf, 1);
vdIoCtxInit(&IoCtx, pDisk, VDIOCTXTXDIR_READ, 0, 0, NULL,
&SgBuf, NULL, NULL, VDIOCTX_FLAGS_SYNC);
rc = pImage->Backend->pfnRead(pImage->pBackendData, uOffset,
cbThisRead, &IoCtx, &cbThisRead);
if (rc != VERR_VD_BLOCK_FREE)
{
if (RT_FAILURE(rc))
break;
/* Apply filter chains. */
rc = vdFilterChainApplyRead(pDisk, uOffset, cbThisRead, &IoCtx);
if (RT_FAILURE(rc))
break;
rc = vdFilterChainApplyWrite(pDisk, uOffset, cbThisRead, &IoCtx);
if (RT_FAILURE(rc))
break;
RTSgBufReset(&SgBuf);
size_t cbThisWrite = 0;
size_t cbPreRead = 0;
size_t cbPostRead = 0;
rc = pImage->Backend->pfnWrite(pImage->pBackendData, uOffset,
cbThisRead, &IoCtx, &cbThisWrite,
&cbPreRead, &cbPostRead, 0);
if (RT_FAILURE(rc))
break;
Assert(cbThisWrite == cbThisRead);
cbFileWritten += cbThisWrite;
}
else
rc = VINF_SUCCESS;
uOffset += cbThisRead;
cbRemaining -= cbThisRead;
if (pIfProgress && pIfProgress->pfnProgress)
{
rc2 = pIfProgress->pfnProgress(pIfProgress->Core.pvUser,
uPercentStart + cbFileWritten * uPercentSpan / cbSizeFile);
AssertRC(rc2); /* Cancelling this operation without leaving an inconsistent state is not possible. */
}
} while (uOffset < cbSize);
pImage = pImage->pNext;
cImgCur++;
uPercentStart += uPercentSpan;
}
pDisk->fLocked = false;
if (pvBuf)
RTMemTmpFree(pvBuf);
}
/* Change images except last one back to readonly. */
pImage = pDisk->pBase;
while ( pImage != pDisk->pLast
&& pImage)
{
uOpenFlags = pImage->Backend->pfnGetOpenFlags(pImage->pBackendData);
uOpenFlags |= VD_OPEN_FLAGS_READONLY;
rc2 = pImage->Backend->pfnSetOpenFlags(pImage->pBackendData, uOpenFlags);
if (RT_FAILURE(rc2))
{
if (RT_SUCCESS(rc))
rc = rc2;
break;
}
pImage = pImage->pNext;
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
else if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
if ( RT_SUCCESS(rc)
&& pIfProgress
&& pIfProgress->pfnProgress)
pIfProgress->pfnProgress(pIfProgress->Core.pvUser, 100);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Closes the last opened image file in HDD container.
* If previous image file was opened in read-only mode (the normal case) and
* the last opened image is in read-write mode then the previous image will be
* reopened in read/write mode.
*
* @returns VBox status code.
* @returns VERR_VD_NOT_OPENED if no image is opened in HDD container.
* @param pDisk Pointer to HDD container.
* @param fDelete If true, delete the image from the host disk.
*/
VBOXDDU_DECL(int) VDClose(PVDISK pDisk, bool fDelete)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p fDelete=%d\n", pDisk, fDelete));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Not worth splitting this up into a read lock phase and write
* lock phase, as closing an image is a relatively fast operation
* dominated by the part which needs the write lock. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImage = pDisk->pLast;
if (!pImage)
{
rc = VERR_VD_NOT_OPENED;
break;
}
/* Destroy the current discard state first which might still have pending blocks. */
rc = vdDiscardStateDestroy(pDisk);
if (RT_FAILURE(rc))
break;
unsigned uOpenFlags = pImage->Backend->pfnGetOpenFlags(pImage->pBackendData);
/* Remove image from list of opened images. */
vdRemoveImageFromList(pDisk, pImage);
/* Close (and optionally delete) image. */
rc = pImage->Backend->pfnClose(pImage->pBackendData, fDelete);
/* Free remaining resources related to the image. */
RTStrFree(pImage->pszFilename);
RTMemFree(pImage);
pImage = pDisk->pLast;
if (!pImage)
break;
/* If disk was previously in read/write mode, make sure it will stay
* like this (if possible) after closing this image. Set the open flags
* accordingly. */
if (!(uOpenFlags & VD_OPEN_FLAGS_READONLY))
{
uOpenFlags = pImage->Backend->pfnGetOpenFlags(pImage->pBackendData);
uOpenFlags &= ~ VD_OPEN_FLAGS_READONLY;
rc = pImage->Backend->pfnSetOpenFlags(pImage->pBackendData, uOpenFlags);
}
/* Cache disk information. */
pDisk->cbSize = vdImageGetSize(pImage);
/* Cache PCHS geometry. */
rc2 = pImage->Backend->pfnGetPCHSGeometry(pImage->pBackendData,
&pDisk->PCHSGeometry);
if (RT_FAILURE(rc2))
{
pDisk->PCHSGeometry.cCylinders = 0;
pDisk->PCHSGeometry.cHeads = 0;
pDisk->PCHSGeometry.cSectors = 0;
}
else
{
/* Make sure the PCHS geometry is properly clipped. */
pDisk->PCHSGeometry.cCylinders = RT_MIN(pDisk->PCHSGeometry.cCylinders, 16383);
pDisk->PCHSGeometry.cHeads = RT_MIN(pDisk->PCHSGeometry.cHeads, 16);
pDisk->PCHSGeometry.cSectors = RT_MIN(pDisk->PCHSGeometry.cSectors, 63);
}
/* Cache LCHS geometry. */
rc2 = pImage->Backend->pfnGetLCHSGeometry(pImage->pBackendData,
&pDisk->LCHSGeometry);
if (RT_FAILURE(rc2))
{
pDisk->LCHSGeometry.cCylinders = 0;
pDisk->LCHSGeometry.cHeads = 0;
pDisk->LCHSGeometry.cSectors = 0;
}
else
{
/* Make sure the LCHS geometry is properly clipped. */
pDisk->LCHSGeometry.cHeads = RT_MIN(pDisk->LCHSGeometry.cHeads, 255);
pDisk->LCHSGeometry.cSectors = RT_MIN(pDisk->LCHSGeometry.cSectors, 63);
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Closes the currently opened cache image file in HDD container.
*
* @return VBox status code.
* @return VERR_VD_NOT_OPENED if no cache is opened in HDD container.
* @param pDisk Pointer to HDD container.
* @param fDelete If true, delete the image from the host disk.
*/
VBOXDDU_DECL(int) VDCacheClose(PVDISK pDisk, bool fDelete)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
PVDCACHE pCache = NULL;
LogFlowFunc(("pDisk=%#p fDelete=%d\n", pDisk, fDelete));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
AssertPtrBreakStmt(pDisk->pCache, rc = VERR_VD_CACHE_NOT_FOUND);
pCache = pDisk->pCache;
pDisk->pCache = NULL;
pCache->Backend->pfnClose(pCache->pBackendData, fDelete);
if (pCache->pszFilename)
RTStrFree(pCache->pszFilename);
RTMemFree(pCache);
} while (0);
if (RT_LIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
VBOXDDU_DECL(int) VDFilterRemove(PVDISK pDisk, uint32_t fFlags)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
PVDFILTER pFilter = NULL;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
AssertMsgBreakStmt(!(fFlags & ~VD_FILTER_FLAGS_MASK),
("Invalid flags set (fFlags=%#x)\n", fFlags),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
if (fFlags & VD_FILTER_FLAGS_WRITE)
{
AssertBreakStmt(!RTListIsEmpty(&pDisk->ListFilterChainWrite), rc = VERR_VD_NOT_OPENED);
pFilter = RTListGetLast(&pDisk->ListFilterChainWrite, VDFILTER, ListNodeChainWrite);
AssertPtr(pFilter);
RTListNodeRemove(&pFilter->ListNodeChainWrite);
vdFilterRelease(pFilter);
}
if (fFlags & VD_FILTER_FLAGS_READ)
{
AssertBreakStmt(!RTListIsEmpty(&pDisk->ListFilterChainRead), rc = VERR_VD_NOT_OPENED);
pFilter = RTListGetLast(&pDisk->ListFilterChainRead, VDFILTER, ListNodeChainRead);
AssertPtr(pFilter);
RTListNodeRemove(&pFilter->ListNodeChainRead);
vdFilterRelease(pFilter);
}
} while (0);
if (RT_LIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Closes all opened image files in HDD container.
*
* @returns VBox status code.
* @param pDisk Pointer to HDD container.
*/
VBOXDDU_DECL(int) VDCloseAll(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Lock the entire operation. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDCACHE pCache = pDisk->pCache;
if (pCache)
{
rc2 = pCache->Backend->pfnClose(pCache->pBackendData, false);
if (RT_FAILURE(rc2) && RT_SUCCESS(rc))
rc = rc2;
if (pCache->pszFilename)
RTStrFree(pCache->pszFilename);
RTMemFree(pCache);
}
PVDIMAGE pImage = pDisk->pLast;
while (VALID_PTR(pImage))
{
PVDIMAGE pPrev = pImage->pPrev;
/* Remove image from list of opened images. */
vdRemoveImageFromList(pDisk, pImage);
/* Close image. */
rc2 = pImage->Backend->pfnClose(pImage->pBackendData, false);
if (RT_FAILURE(rc2) && RT_SUCCESS(rc))
rc = rc2;
/* Free remaining resources related to the image. */
RTStrFree(pImage->pszFilename);
RTMemFree(pImage);
pImage = pPrev;
}
Assert(!VALID_PTR(pDisk->pLast));
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Removes all filters of the given HDD container.
*
* @return VBox status code.
* @param pDisk Pointer to HDD container.
*/
VBOXDDU_DECL(int) VDFilterRemoveAll(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Lock the entire operation. */
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDFILTER pFilter, pFilterNext;
RTListForEachSafe(&pDisk->ListFilterChainWrite, pFilter, pFilterNext, VDFILTER, ListNodeChainWrite)
{
RTListNodeRemove(&pFilter->ListNodeChainWrite);
vdFilterRelease(pFilter);
}
RTListForEachSafe(&pDisk->ListFilterChainRead, pFilter, pFilterNext, VDFILTER, ListNodeChainRead)
{
RTListNodeRemove(&pFilter->ListNodeChainRead);
vdFilterRelease(pFilter);
}
Assert(RTListIsEmpty(&pDisk->ListFilterChainRead));
Assert(RTListIsEmpty(&pDisk->ListFilterChainWrite));
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Read data from virtual HDD.
*
* @returns VBox status code.
* @retval VERR_VD_NOT_OPENED if no image is opened in HDD container.
* @param pDisk Pointer to HDD container.
* @param uOffset Offset of first reading byte from start of disk.
* @param pvBuf Pointer to buffer for reading data.
* @param cbRead Number of bytes to read.
*/
VBOXDDU_DECL(int) VDRead(PVDISK pDisk, uint64_t uOffset, void *pvBuf,
size_t cbRead)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p uOffset=%llu pvBuf=%p cbRead=%zu\n",
pDisk, uOffset, pvBuf, cbRead));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pvBuf),
("pvBuf=%#p\n", pvBuf),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(cbRead,
("cbRead=%zu\n", cbRead),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
AssertMsgBreakStmt( uOffset < pDisk->cbSize
&& cbRead <= pDisk->cbSize - uOffset,
("uOffset=%llu cbRead=%zu pDisk->cbSize=%llu\n",
uOffset, cbRead, pDisk->cbSize),
rc = VERR_INVALID_PARAMETER);
PVDIMAGE pImage = pDisk->pLast;
AssertPtrBreakStmt(pImage, rc = VERR_VD_NOT_OPENED);
if (uOffset + cbRead > pDisk->cbSize)
{
/* Floppy images might be smaller than the standard expected by
the floppy controller code. So, we won't fail here. */
AssertMsgBreakStmt(pDisk->enmType == VDTYPE_FLOPPY,
("uOffset=%llu cbRead=%zu pDisk->cbSize=%llu\n",
uOffset, cbRead, pDisk->cbSize),
rc = VERR_EOF);
memset(pvBuf, 0xf6, cbRead); /* f6h = format.com filler byte */
if (uOffset >= pDisk->cbSize)
break;
cbRead = pDisk->cbSize - uOffset;
}
rc = vdReadHelper(pDisk, pImage, uOffset, pvBuf, cbRead,
true /* fUpdateCache */);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Write data to virtual HDD.
*
* @returns VBox status code.
* @retval VERR_VD_NOT_OPENED if no image is opened in HDD container.
* @param pDisk Pointer to HDD container.
* @param uOffset Offset of the first byte being
* written from start of disk.
* @param pvBuf Pointer to buffer for writing data.
* @param cbWrite Number of bytes to write.
*/
VBOXDDU_DECL(int) VDWrite(PVDISK pDisk, uint64_t uOffset, const void *pvBuf,
size_t cbWrite)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p uOffset=%llu pvBuf=%p cbWrite=%zu\n",
pDisk, uOffset, pvBuf, cbWrite));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pvBuf),
("pvBuf=%#p\n", pvBuf),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(cbWrite,
("cbWrite=%zu\n", cbWrite),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
AssertMsgBreakStmt( uOffset < pDisk->cbSize
&& cbWrite <= pDisk->cbSize - uOffset,
("uOffset=%llu cbWrite=%zu pDisk->cbSize=%llu\n",
uOffset, cbWrite, pDisk->cbSize),
rc = VERR_INVALID_PARAMETER);
PVDIMAGE pImage = pDisk->pLast;
AssertPtrBreakStmt(pImage, rc = VERR_VD_NOT_OPENED);
vdSetModifiedFlag(pDisk);
rc = vdWriteHelper(pDisk, pImage, uOffset, pvBuf, cbWrite,
VDIOCTX_FLAGS_READ_UPDATE_CACHE);
if (RT_FAILURE(rc))
break;
/* If there is a merge (in the direction towards a parent) running
* concurrently then we have to also "relay" the write to this parent,
* as the merge position might be already past the position where
* this write is going. The "context" of the write can come from the
* natural chain, since merging either already did or will take care
* of the "other" content which is might be needed to fill the block
* to a full allocation size. The cache doesn't need to be touched
* as this write is covered by the previous one. */
if (RT_UNLIKELY(pDisk->pImageRelay))
rc = vdWriteHelper(pDisk, pDisk->pImageRelay, uOffset,
pvBuf, cbWrite, VDIOCTX_FLAGS_DEFAULT);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Make sure the on disk representation of a virtual HDD is up to date.
*
* @returns VBox status code.
* @retval VERR_VD_NOT_OPENED if no image is opened in HDD container.
* @param pDisk Pointer to HDD container.
*/
VBOXDDU_DECL(int) VDFlush(PVDISK pDisk)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImage = pDisk->pLast;
AssertPtrBreakStmt(pImage, rc = VERR_VD_NOT_OPENED);
VDIOCTX IoCtx;
RTSEMEVENT hEventComplete = NIL_RTSEMEVENT;
rc = RTSemEventCreate(&hEventComplete);
if (RT_FAILURE(rc))
break;
vdIoCtxInit(&IoCtx, pDisk, VDIOCTXTXDIR_FLUSH, 0, 0, pImage, NULL,
NULL, vdFlushHelperAsync, VDIOCTX_FLAGS_SYNC | VDIOCTX_FLAGS_DONT_FREE);
IoCtx.Type.Root.pfnComplete = vdIoCtxSyncComplete;
IoCtx.Type.Root.pvUser1 = pDisk;
IoCtx.Type.Root.pvUser2 = hEventComplete;
rc = vdIoCtxProcessSync(&IoCtx, hEventComplete);
RTSemEventDestroy(hEventComplete);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Get number of opened images in HDD container.
*
* @returns Number of opened images for HDD container. 0 if no images have been opened.
* @param pDisk Pointer to HDD container.
*/
VBOXDDU_DECL(unsigned) VDGetCount(PVDISK pDisk)
{
unsigned cImages;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, cImages = 0);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
cImages = pDisk->cImages;
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %u\n", cImages));
return cImages;
}
/**
* Get read/write mode of HDD container.
*
* @returns Virtual disk ReadOnly status.
* @returns true if no image is opened in HDD container.
* @param pDisk Pointer to HDD container.
*/
VBOXDDU_DECL(bool) VDIsReadOnly(PVDISK pDisk)
{
bool fReadOnly;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, fReadOnly = false);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = pDisk->pLast;
AssertPtrBreakStmt(pImage, fReadOnly = true);
unsigned uOpenFlags;
uOpenFlags = pDisk->pLast->Backend->pfnGetOpenFlags(pDisk->pLast->pBackendData);
fReadOnly = !!(uOpenFlags & VD_OPEN_FLAGS_READONLY);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %d\n", fReadOnly));
return fReadOnly;
}
/**
* Get sector size of an image in HDD container.
*
* @return Virtual disk sector size in bytes.
* @return 0 if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
*/
VBOXDDU_DECL(uint32_t) VDGetSectorSize(PVDISK pDisk, unsigned nImage)
{
uint64_t cbSector;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u\n", pDisk, nImage));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, cbSector = 0);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, cbSector = 0);
PCVDREGIONLIST pRegionList = NULL;
int rc = pImage->Backend->pfnQueryRegions(pImage->pBackendData, &pRegionList);
if (RT_SUCCESS(rc))
{
AssertBreakStmt(pRegionList->cRegions == 1, cbSector = 0);
cbSector = pRegionList->aRegions[0].cbBlock;
AssertPtr(pImage->Backend->pfnRegionListRelease);
pImage->Backend->pfnRegionListRelease(pImage->pBackendData, pRegionList);
}
else
cbSector = 0;
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %u\n", cbSector));
return cbSector;
}
/**
* Get total capacity of an image in HDD container.
*
* @returns Virtual disk size in bytes.
* @returns 0 if no image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
*/
VBOXDDU_DECL(uint64_t) VDGetSize(PVDISK pDisk, unsigned nImage)
{
uint64_t cbSize;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u\n", pDisk, nImage));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, cbSize = 0);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, cbSize = 0);
cbSize = vdImageGetSize(pImage);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %llu\n", cbSize));
return cbSize;
}
/**
* Get total file size of an image in HDD container.
*
* @returns Virtual disk size in bytes.
* @returns 0 if no image is opened in HDD container.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
*/
VBOXDDU_DECL(uint64_t) VDGetFileSize(PVDISK pDisk, unsigned nImage)
{
uint64_t cbSize;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u\n", pDisk, nImage));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, cbSize = 0);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, cbSize = 0);
cbSize = pImage->Backend->pfnGetFileSize(pImage->pBackendData);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %llu\n", cbSize));
return cbSize;
}
/**
* Get virtual disk PCHS geometry stored in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @returns VERR_VD_GEOMETRY_NOT_SET if no geometry present in the HDD container.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pPCHSGeometry Where to store PCHS geometry. Not NULL.
*/
VBOXDDU_DECL(int) VDGetPCHSGeometry(PVDISK pDisk, unsigned nImage,
PVDGEOMETRY pPCHSGeometry)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u pPCHSGeometry=%#p\n",
pDisk, nImage, pPCHSGeometry));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pPCHSGeometry),
("pPCHSGeometry=%#p\n", pPCHSGeometry),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
if (pImage == pDisk->pLast)
{
/* Use cached information if possible. */
if (pDisk->PCHSGeometry.cCylinders != 0)
*pPCHSGeometry = pDisk->PCHSGeometry;
else
rc = VERR_VD_GEOMETRY_NOT_SET;
}
else
rc = pImage->Backend->pfnGetPCHSGeometry(pImage->pBackendData,
pPCHSGeometry);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("%Rrc (PCHS=%u/%u/%u)\n", rc,
pDisk->PCHSGeometry.cCylinders, pDisk->PCHSGeometry.cHeads,
pDisk->PCHSGeometry.cSectors));
return rc;
}
/**
* Store virtual disk PCHS geometry in HDD container.
*
* Note that in case of unrecoverable error all images in HDD container will be closed.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @returns VERR_VD_GEOMETRY_NOT_SET if no geometry present in the HDD container.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pPCHSGeometry Where to load PCHS geometry from. Not NULL.
*/
VBOXDDU_DECL(int) VDSetPCHSGeometry(PVDISK pDisk, unsigned nImage,
PCVDGEOMETRY pPCHSGeometry)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p nImage=%u pPCHSGeometry=%#p PCHS=%u/%u/%u\n",
pDisk, nImage, pPCHSGeometry, pPCHSGeometry->cCylinders,
pPCHSGeometry->cHeads, pPCHSGeometry->cSectors));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt( VALID_PTR(pPCHSGeometry)
&& pPCHSGeometry->cHeads <= 16
&& pPCHSGeometry->cSectors <= 63,
("pPCHSGeometry=%#p PCHS=%u/%u/%u\n", pPCHSGeometry,
pPCHSGeometry->cCylinders, pPCHSGeometry->cHeads,
pPCHSGeometry->cSectors),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
if (pImage == pDisk->pLast)
{
if ( pPCHSGeometry->cCylinders != pDisk->PCHSGeometry.cCylinders
|| pPCHSGeometry->cHeads != pDisk->PCHSGeometry.cHeads
|| pPCHSGeometry->cSectors != pDisk->PCHSGeometry.cSectors)
{
/* Only update geometry if it is changed. Avoids similar checks
* in every backend. Most of the time the new geometry is set
* to the previous values, so no need to go through the hassle
* of updating an image which could be opened in read-only mode
* right now. */
rc = pImage->Backend->pfnSetPCHSGeometry(pImage->pBackendData,
pPCHSGeometry);
/* Cache new geometry values in any case. */
rc2 = pImage->Backend->pfnGetPCHSGeometry(pImage->pBackendData,
&pDisk->PCHSGeometry);
if (RT_FAILURE(rc2))
{
pDisk->PCHSGeometry.cCylinders = 0;
pDisk->PCHSGeometry.cHeads = 0;
pDisk->PCHSGeometry.cSectors = 0;
}
else
{
/* Make sure the CHS geometry is properly clipped. */
pDisk->PCHSGeometry.cHeads = RT_MIN(pDisk->PCHSGeometry.cHeads, 255);
pDisk->PCHSGeometry.cSectors = RT_MIN(pDisk->PCHSGeometry.cSectors, 63);
}
}
}
else
{
VDGEOMETRY PCHS;
rc = pImage->Backend->pfnGetPCHSGeometry(pImage->pBackendData,
&PCHS);
if ( RT_FAILURE(rc)
|| pPCHSGeometry->cCylinders != PCHS.cCylinders
|| pPCHSGeometry->cHeads != PCHS.cHeads
|| pPCHSGeometry->cSectors != PCHS.cSectors)
{
/* Only update geometry if it is changed. Avoids similar checks
* in every backend. Most of the time the new geometry is set
* to the previous values, so no need to go through the hassle
* of updating an image which could be opened in read-only mode
* right now. */
rc = pImage->Backend->pfnSetPCHSGeometry(pImage->pBackendData,
pPCHSGeometry);
}
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Get virtual disk LCHS geometry stored in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @returns VERR_VD_GEOMETRY_NOT_SET if no geometry present in the HDD container.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pLCHSGeometry Where to store LCHS geometry. Not NULL.
*/
VBOXDDU_DECL(int) VDGetLCHSGeometry(PVDISK pDisk, unsigned nImage,
PVDGEOMETRY pLCHSGeometry)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u pLCHSGeometry=%#p\n",
pDisk, nImage, pLCHSGeometry));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pLCHSGeometry),
("pLCHSGeometry=%#p\n", pLCHSGeometry),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
if (pImage == pDisk->pLast)
{
/* Use cached information if possible. */
if (pDisk->LCHSGeometry.cCylinders != 0)
*pLCHSGeometry = pDisk->LCHSGeometry;
else
rc = VERR_VD_GEOMETRY_NOT_SET;
}
else
rc = pImage->Backend->pfnGetLCHSGeometry(pImage->pBackendData,
pLCHSGeometry);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc((": %Rrc (LCHS=%u/%u/%u)\n", rc,
pDisk->LCHSGeometry.cCylinders, pDisk->LCHSGeometry.cHeads,
pDisk->LCHSGeometry.cSectors));
return rc;
}
/**
* Store virtual disk LCHS geometry in HDD container.
*
* Note that in case of unrecoverable error all images in HDD container will be closed.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @returns VERR_VD_GEOMETRY_NOT_SET if no geometry present in the HDD container.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pLCHSGeometry Where to load LCHS geometry from. Not NULL.
*/
VBOXDDU_DECL(int) VDSetLCHSGeometry(PVDISK pDisk, unsigned nImage,
PCVDGEOMETRY pLCHSGeometry)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p nImage=%u pLCHSGeometry=%#p LCHS=%u/%u/%u\n",
pDisk, nImage, pLCHSGeometry, pLCHSGeometry->cCylinders,
pLCHSGeometry->cHeads, pLCHSGeometry->cSectors));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt( VALID_PTR(pLCHSGeometry)
&& pLCHSGeometry->cHeads <= 255
&& pLCHSGeometry->cSectors <= 63,
("pLCHSGeometry=%#p LCHS=%u/%u/%u\n", pLCHSGeometry,
pLCHSGeometry->cCylinders, pLCHSGeometry->cHeads,
pLCHSGeometry->cSectors),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
if (pImage == pDisk->pLast)
{
if ( pLCHSGeometry->cCylinders != pDisk->LCHSGeometry.cCylinders
|| pLCHSGeometry->cHeads != pDisk->LCHSGeometry.cHeads
|| pLCHSGeometry->cSectors != pDisk->LCHSGeometry.cSectors)
{
/* Only update geometry if it is changed. Avoids similar checks
* in every backend. Most of the time the new geometry is set
* to the previous values, so no need to go through the hassle
* of updating an image which could be opened in read-only mode
* right now. */
rc = pImage->Backend->pfnSetLCHSGeometry(pImage->pBackendData,
pLCHSGeometry);
/* Cache new geometry values in any case. */
rc2 = pImage->Backend->pfnGetLCHSGeometry(pImage->pBackendData,
&pDisk->LCHSGeometry);
if (RT_FAILURE(rc2))
{
pDisk->LCHSGeometry.cCylinders = 0;
pDisk->LCHSGeometry.cHeads = 0;
pDisk->LCHSGeometry.cSectors = 0;
}
else
{
/* Make sure the CHS geometry is properly clipped. */
pDisk->LCHSGeometry.cHeads = RT_MIN(pDisk->LCHSGeometry.cHeads, 255);
pDisk->LCHSGeometry.cSectors = RT_MIN(pDisk->LCHSGeometry.cSectors, 63);
}
}
}
else
{
VDGEOMETRY LCHS;
rc = pImage->Backend->pfnGetLCHSGeometry(pImage->pBackendData,
&LCHS);
if ( RT_FAILURE(rc)
|| pLCHSGeometry->cCylinders != LCHS.cCylinders
|| pLCHSGeometry->cHeads != LCHS.cHeads
|| pLCHSGeometry->cSectors != LCHS.cSectors)
{
/* Only update geometry if it is changed. Avoids similar checks
* in every backend. Most of the time the new geometry is set
* to the previous values, so no need to go through the hassle
* of updating an image which could be opened in read-only mode
* right now. */
rc = pImage->Backend->pfnSetLCHSGeometry(pImage->pBackendData,
pLCHSGeometry);
}
}
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Queries the available regions of an image in the given VD container.
*
* @return VBox status code.
* @retval VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @retval VERR_NOT_SUPPORTED if the image backend doesn't support region lists.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param fFlags Combination of VD_REGION_LIST_F_* flags.
* @param ppRegionList Where to store the pointer to the region list on success, must be freed
* with VDRegionListFree().
*/
VBOXDDU_DECL(int) VDQueryRegions(PVDISK pDisk, unsigned nImage, uint32_t fFlags,
PPVDREGIONLIST ppRegionList)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u fFlags=%#x ppRegionList=%#p\n",
pDisk, nImage, fFlags, ppRegionList));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(ppRegionList),
("ppRegionList=%#p\n", ppRegionList),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
PCVDREGIONLIST pRegionList = NULL;
rc = pImage->Backend->pfnQueryRegions(pImage->pBackendData, &pRegionList);
if (RT_SUCCESS(rc))
{
rc = vdRegionListConv(pRegionList, fFlags, ppRegionList);
AssertPtr(pImage->Backend->pfnRegionListRelease);
pImage->Backend->pfnRegionListRelease(pImage->pBackendData, pRegionList);
}
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc((": %Rrc\n", rc));
return rc;
}
/**
* Frees a region list previously queried with VDQueryRegions().
*
* @return nothing.
* @param pRegionList The region list to free.
*/
VBOXDDU_DECL(void) VDRegionListFree(PVDREGIONLIST pRegionList)
{
RTMemFree(pRegionList);
}
/**
* Get version of image in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param puVersion Where to store the image version.
*/
VBOXDDU_DECL(int) VDGetVersion(PVDISK pDisk, unsigned nImage,
unsigned *puVersion)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u puVersion=%#p\n",
pDisk, nImage, puVersion));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(puVersion),
("puVersion=%#p\n", puVersion),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
*puVersion = pImage->Backend->pfnGetVersion(pImage->pBackendData);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc uVersion=%#x\n", rc, *puVersion));
return rc;
}
/**
* List the capabilities of image backend in HDD container.
*
* @returns VBox status code.
* @retval VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to the HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pBackendInfo Where to store the backend information.
*/
VBOXDDU_DECL(int) VDBackendInfoSingle(PVDISK pDisk, unsigned nImage,
PVDBACKENDINFO pBackendInfo)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u pBackendInfo=%#p\n",
pDisk, nImage, pBackendInfo));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pBackendInfo),
("pBackendInfo=%#p\n", pBackendInfo),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
pBackendInfo->pszBackend = pImage->Backend->pszBackendName;
pBackendInfo->uBackendCaps = pImage->Backend->uBackendCaps;
pBackendInfo->paFileExtensions = pImage->Backend->paFileExtensions;
pBackendInfo->paConfigInfo = pImage->Backend->paConfigInfo;
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Get flags of image in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param puImageFlags Where to store the image flags.
*/
VBOXDDU_DECL(int) VDGetImageFlags(PVDISK pDisk, unsigned nImage,
unsigned *puImageFlags)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u puImageFlags=%#p\n",
pDisk, nImage, puImageFlags));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(puImageFlags),
("puImageFlags=%#p\n", puImageFlags),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
*puImageFlags = pImage->uImageFlags;
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc uImageFlags=%#x\n", rc, *puImageFlags));
return rc;
}
/**
* Get open flags of image in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param puOpenFlags Where to store the image open flags.
*/
VBOXDDU_DECL(int) VDGetOpenFlags(PVDISK pDisk, unsigned nImage,
unsigned *puOpenFlags)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u puOpenFlags=%#p\n",
pDisk, nImage, puOpenFlags));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(puOpenFlags),
("puOpenFlags=%#p\n", puOpenFlags),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
*puOpenFlags = pImage->Backend->pfnGetOpenFlags(pImage->pBackendData);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc uOpenFlags=%#x\n", rc, *puOpenFlags));
return rc;
}
/**
* Set open flags of image in HDD container.
* This operation may cause file locking changes and/or files being reopened.
* Note that in case of unrecoverable error all images in HDD container will be closed.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param uOpenFlags Image file open mode, see VD_OPEN_FLAGS_* constants.
*/
VBOXDDU_DECL(int) VDSetOpenFlags(PVDISK pDisk, unsigned nImage,
unsigned uOpenFlags)
{
int rc;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p uOpenFlags=%#u\n", pDisk, uOpenFlags));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt((uOpenFlags & ~VD_OPEN_FLAGS_MASK) == 0,
("uOpenFlags=%#x\n", uOpenFlags),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
/* Destroy any discard state because the image might be changed to readonly mode. */
rc = vdDiscardStateDestroy(pDisk);
if (RT_FAILURE(rc))
break;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
rc = pImage->Backend->pfnSetOpenFlags(pImage->pBackendData,
uOpenFlags & ~(VD_OPEN_FLAGS_HONOR_SAME | VD_OPEN_FLAGS_IGNORE_FLUSH | VD_OPEN_FLAGS_INFORM_ABOUT_ZERO_BLOCKS));
if (RT_SUCCESS(rc))
pImage->uOpenFlags = uOpenFlags & (VD_OPEN_FLAGS_HONOR_SAME | VD_OPEN_FLAGS_DISCARD | VD_OPEN_FLAGS_IGNORE_FLUSH | VD_OPEN_FLAGS_INFORM_ABOUT_ZERO_BLOCKS);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Get base filename of image in HDD container. Some image formats use
* other filenames as well, so don't use this for anything but informational
* purposes.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @returns VERR_BUFFER_OVERFLOW if pszFilename buffer too small to hold filename.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pszFilename Where to store the image file name.
* @param cbFilename Size of buffer pszFilename points to.
*/
VBOXDDU_DECL(int) VDGetFilename(PVDISK pDisk, unsigned nImage,
char *pszFilename, unsigned cbFilename)
{
int rc;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u pszFilename=%#p cbFilename=%u\n",
pDisk, nImage, pszFilename, cbFilename));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszFilename) && *pszFilename,
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(cbFilename,
("cbFilename=%u\n", cbFilename),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
size_t cb = strlen(pImage->pszFilename);
if (cb <= cbFilename)
{
strcpy(pszFilename, pImage->pszFilename);
rc = VINF_SUCCESS;
}
else
{
strncpy(pszFilename, pImage->pszFilename, cbFilename - 1);
pszFilename[cbFilename - 1] = '\0';
rc = VERR_BUFFER_OVERFLOW;
}
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc, pszFilename=\"%s\"\n", rc, pszFilename));
return rc;
}
/**
* Get the comment line of image in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @returns VERR_BUFFER_OVERFLOW if pszComment buffer too small to hold comment text.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pszComment Where to store the comment string of image. NULL is ok.
* @param cbComment The size of pszComment buffer. 0 is ok.
*/
VBOXDDU_DECL(int) VDGetComment(PVDISK pDisk, unsigned nImage,
char *pszComment, unsigned cbComment)
{
int rc;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u pszComment=%#p cbComment=%u\n",
pDisk, nImage, pszComment, cbComment));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszComment),
("pszComment=%#p \"%s\"\n", pszComment, pszComment),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(cbComment,
("cbComment=%u\n", cbComment),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
rc = pImage->Backend->pfnGetComment(pImage->pBackendData, pszComment,
cbComment);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc, pszComment=\"%s\"\n", rc, pszComment));
return rc;
}
/**
* Changes the comment line of image in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pszComment New comment string (UTF-8). NULL is allowed to reset the comment.
*/
VBOXDDU_DECL(int) VDSetComment(PVDISK pDisk, unsigned nImage,
const char *pszComment)
{
int rc;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p nImage=%u pszComment=%#p \"%s\"\n",
pDisk, nImage, pszComment, pszComment));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pszComment) || pszComment == NULL,
("pszComment=%#p \"%s\"\n", pszComment, pszComment),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
rc = pImage->Backend->pfnSetComment(pImage->pBackendData, pszComment);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Get UUID of image in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pUuid Where to store the image creation UUID.
*/
VBOXDDU_DECL(int) VDGetUuid(PVDISK pDisk, unsigned nImage, PRTUUID pUuid)
{
int rc;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u pUuid=%#p\n", pDisk, nImage, pUuid));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pUuid),
("pUuid=%#p\n", pUuid),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
rc = pImage->Backend->pfnGetUuid(pImage->pBackendData, pUuid);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc, Uuid={%RTuuid}\n", rc, pUuid));
return rc;
}
/**
* Set the image's UUID. Should not be used by normal applications.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pUuid New UUID of the image. If NULL, a new UUID is created.
*/
VBOXDDU_DECL(int) VDSetUuid(PVDISK pDisk, unsigned nImage, PCRTUUID pUuid)
{
int rc;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p nImage=%u pUuid=%#p {%RTuuid}\n",
pDisk, nImage, pUuid, pUuid));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
AssertMsgBreakStmt(VALID_PTR(pUuid) || pUuid == NULL,
("pUuid=%#p\n", pUuid),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
RTUUID Uuid;
if (!pUuid)
{
RTUuidCreate(&Uuid);
pUuid = &Uuid;
}
rc = pImage->Backend->pfnSetUuid(pImage->pBackendData, pUuid);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Get last modification UUID of image in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pUuid Where to store the image modification UUID.
*/
VBOXDDU_DECL(int) VDGetModificationUuid(PVDISK pDisk, unsigned nImage, PRTUUID pUuid)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u pUuid=%#p\n", pDisk, nImage, pUuid));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pUuid),
("pUuid=%#p\n", pUuid),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
rc = pImage->Backend->pfnGetModificationUuid(pImage->pBackendData,
pUuid);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc, Uuid={%RTuuid}\n", rc, pUuid));
return rc;
}
/**
* Set the image's last modification UUID. Should not be used by normal applications.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pUuid New modification UUID of the image. If NULL, a new UUID is created.
*/
VBOXDDU_DECL(int) VDSetModificationUuid(PVDISK pDisk, unsigned nImage, PCRTUUID pUuid)
{
int rc;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p nImage=%u pUuid=%#p {%RTuuid}\n",
pDisk, nImage, pUuid, pUuid));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pUuid) || pUuid == NULL,
("pUuid=%#p\n", pUuid),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
RTUUID Uuid;
if (!pUuid)
{
RTUuidCreate(&Uuid);
pUuid = &Uuid;
}
rc = pImage->Backend->pfnSetModificationUuid(pImage->pBackendData,
pUuid);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Get parent UUID of image in HDD container.
*
* @returns VBox status code.
* @returns VERR_VD_IMAGE_NOT_FOUND if image with specified number was not opened.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pUuid Where to store the parent image UUID.
*/
VBOXDDU_DECL(int) VDGetParentUuid(PVDISK pDisk, unsigned nImage,
PRTUUID pUuid)
{
int rc = VINF_SUCCESS;
int rc2;
bool fLockRead = false;
LogFlowFunc(("pDisk=%#p nImage=%u pUuid=%#p\n", pDisk, nImage, pUuid));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pUuid),
("pUuid=%#p\n", pUuid),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
rc = pImage->Backend->pfnGetParentUuid(pImage->pBackendData, pUuid);
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc, Uuid={%RTuuid}\n", rc, pUuid));
return rc;
}
/**
* Set the image's parent UUID. Should not be used by normal applications.
*
* @returns VBox status code.
* @param pDisk Pointer to HDD container.
* @param nImage Image number, counts from 0. 0 is always base image of container.
* @param pUuid New parent UUID of the image. If NULL, a new UUID is created.
*/
VBOXDDU_DECL(int) VDSetParentUuid(PVDISK pDisk, unsigned nImage,
PCRTUUID pUuid)
{
int rc;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p nImage=%u pUuid=%#p {%RTuuid}\n",
pDisk, nImage, pUuid, pUuid));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(VALID_PTR(pUuid) || pUuid == NULL,
("pUuid=%#p\n", pUuid),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
PVDIMAGE pImage = vdGetImageByNumber(pDisk, nImage);
AssertPtrBreakStmt(pImage, rc = VERR_VD_IMAGE_NOT_FOUND);
RTUUID Uuid;
if (!pUuid)
{
RTUuidCreate(&Uuid);
pUuid = &Uuid;
}
rc = pImage->Backend->pfnSetParentUuid(pImage->pBackendData, pUuid);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Debug helper - dumps all opened images in HDD container into the log file.
*
* @param pDisk Pointer to HDD container.
*/
VBOXDDU_DECL(void) VDDumpImages(PVDISK pDisk)
{
int rc2;
bool fLockRead = false;
do
{
/* sanity check */
AssertPtrBreak(pDisk);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
if (!pDisk->pInterfaceError || !VALID_PTR(pDisk->pInterfaceError->pfnMessage))
pDisk->pInterfaceError->pfnMessage = vdLogMessage;
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
vdMessageWrapper(pDisk, "--- Dumping VD Disk, Images=%u\n", pDisk->cImages);
for (PVDIMAGE pImage = pDisk->pBase; pImage; pImage = pImage->pNext)
{
vdMessageWrapper(pDisk, "Dumping VD image \"%s\" (Backend=%s)\n",
pImage->pszFilename, pImage->Backend->pszBackendName);
pImage->Backend->pfnDump(pImage->pBackendData);
}
} while (0);
if (RT_UNLIKELY(fLockRead))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
}
VBOXDDU_DECL(int) VDDiscardRanges(PVDISK pDisk, PCRTRANGE paRanges, unsigned cRanges)
{
int rc;
int rc2;
bool fLockWrite = false;
LogFlowFunc(("pDisk=%#p paRanges=%#p cRanges=%u\n",
pDisk, paRanges, cRanges));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(cRanges,
("cRanges=%u\n", cRanges),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(VALID_PTR(paRanges),
("paRanges=%#p\n", paRanges),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
AssertPtrBreakStmt(pDisk->pLast, rc = VERR_VD_NOT_OPENED);
AssertMsgBreakStmt(pDisk->pLast->uOpenFlags & VD_OPEN_FLAGS_DISCARD,
("Discarding not supported\n"),
rc = VERR_NOT_SUPPORTED);
VDIOCTX IoCtx;
RTSEMEVENT hEventComplete = NIL_RTSEMEVENT;
rc = RTSemEventCreate(&hEventComplete);
if (RT_FAILURE(rc))
break;
vdIoCtxDiscardInit(&IoCtx, pDisk, paRanges, cRanges,
vdIoCtxSyncComplete, pDisk, hEventComplete, NULL,
vdDiscardHelperAsync, VDIOCTX_FLAGS_SYNC | VDIOCTX_FLAGS_DONT_FREE);
rc = vdIoCtxProcessSync(&IoCtx, hEventComplete);
RTSemEventDestroy(hEventComplete);
} while (0);
if (RT_UNLIKELY(fLockWrite))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
VBOXDDU_DECL(int) VDAsyncRead(PVDISK pDisk, uint64_t uOffset, size_t cbRead,
PCRTSGBUF pcSgBuf,
PFNVDASYNCTRANSFERCOMPLETE pfnComplete,
void *pvUser1, void *pvUser2)
{
int rc = VERR_VD_BLOCK_FREE;
int rc2;
bool fLockRead = false;
PVDIOCTX pIoCtx = NULL;
LogFlowFunc(("pDisk=%#p uOffset=%llu pcSgBuf=%#p cbRead=%zu pvUser1=%#p pvUser2=%#p\n",
pDisk, uOffset, pcSgBuf, cbRead, pvUser1, pvUser2));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(cbRead,
("cbRead=%zu\n", cbRead),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(VALID_PTR(pcSgBuf),
("pcSgBuf=%#p\n", pcSgBuf),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartRead(pDisk);
AssertRC(rc2);
fLockRead = true;
AssertMsgBreakStmt( uOffset < pDisk->cbSize
&& cbRead <= pDisk->cbSize - uOffset,
("uOffset=%llu cbRead=%zu pDisk->cbSize=%llu\n",
uOffset, cbRead, pDisk->cbSize),
rc = VERR_INVALID_PARAMETER);
AssertPtrBreakStmt(pDisk->pLast, rc = VERR_VD_NOT_OPENED);
pIoCtx = vdIoCtxRootAlloc(pDisk, VDIOCTXTXDIR_READ, uOffset,
cbRead, pDisk->pLast, pcSgBuf,
pfnComplete, pvUser1, pvUser2,
NULL, vdReadHelperAsync,
VDIOCTX_FLAGS_ZERO_FREE_BLOCKS);
if (!pIoCtx)
{
rc = VERR_NO_MEMORY;
break;
}
rc = vdIoCtxProcessTryLockDefer(pIoCtx);
if (rc == VINF_VD_ASYNC_IO_FINISHED)
{
if (ASMAtomicCmpXchgBool(&pIoCtx->fComplete, true, false))
vdIoCtxFree(pDisk, pIoCtx);
else
rc = VERR_VD_ASYNC_IO_IN_PROGRESS; /* Let the other handler complete the request. */
}
else if (rc != VERR_VD_ASYNC_IO_IN_PROGRESS) /* Another error */
vdIoCtxFree(pDisk, pIoCtx);
} while (0);
if (RT_UNLIKELY(fLockRead) && (rc != VERR_VD_ASYNC_IO_IN_PROGRESS))
{
rc2 = vdThreadFinishRead(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
VBOXDDU_DECL(int) VDAsyncWrite(PVDISK pDisk, uint64_t uOffset, size_t cbWrite,
PCRTSGBUF pcSgBuf,
PFNVDASYNCTRANSFERCOMPLETE pfnComplete,
void *pvUser1, void *pvUser2)
{
int rc;
int rc2;
bool fLockWrite = false;
PVDIOCTX pIoCtx = NULL;
LogFlowFunc(("pDisk=%#p uOffset=%llu cSgBuf=%#p cbWrite=%zu pvUser1=%#p pvUser2=%#p\n",
pDisk, uOffset, pcSgBuf, cbWrite, pvUser1, pvUser2));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
/* Check arguments. */
AssertMsgBreakStmt(cbWrite,
("cbWrite=%zu\n", cbWrite),
rc = VERR_INVALID_PARAMETER);
AssertMsgBreakStmt(VALID_PTR(pcSgBuf),
("pcSgBuf=%#p\n", pcSgBuf),
rc = VERR_INVALID_PARAMETER);
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
AssertMsgBreakStmt( uOffset < pDisk->cbSize
&& cbWrite <= pDisk->cbSize - uOffset,
("uOffset=%llu cbWrite=%zu pDisk->cbSize=%llu\n",
uOffset, cbWrite, pDisk->cbSize),
rc = VERR_INVALID_PARAMETER);
AssertPtrBreakStmt(pDisk->pLast, rc = VERR_VD_NOT_OPENED);
pIoCtx = vdIoCtxRootAlloc(pDisk, VDIOCTXTXDIR_WRITE, uOffset,
cbWrite, pDisk->pLast, pcSgBuf,
pfnComplete, pvUser1, pvUser2,
NULL, vdWriteHelperAsync,
VDIOCTX_FLAGS_DEFAULT);
if (!pIoCtx)
{
rc = VERR_NO_MEMORY;
break;
}
rc = vdIoCtxProcessTryLockDefer(pIoCtx);
if (rc == VINF_VD_ASYNC_IO_FINISHED)
{
if (ASMAtomicCmpXchgBool(&pIoCtx->fComplete, true, false))
vdIoCtxFree(pDisk, pIoCtx);
else
rc = VERR_VD_ASYNC_IO_IN_PROGRESS; /* Let the other handler complete the request. */
}
else if (rc != VERR_VD_ASYNC_IO_IN_PROGRESS) /* Another error */
vdIoCtxFree(pDisk, pIoCtx);
} while (0);
if (RT_UNLIKELY(fLockWrite) && (rc != VERR_VD_ASYNC_IO_IN_PROGRESS))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
VBOXDDU_DECL(int) VDAsyncFlush(PVDISK pDisk, PFNVDASYNCTRANSFERCOMPLETE pfnComplete,
void *pvUser1, void *pvUser2)
{
int rc;
int rc2;
bool fLockWrite = false;
PVDIOCTX pIoCtx = NULL;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
AssertPtrBreakStmt(pDisk->pLast, rc = VERR_VD_NOT_OPENED);
pIoCtx = vdIoCtxRootAlloc(pDisk, VDIOCTXTXDIR_FLUSH, 0,
0, pDisk->pLast, NULL,
pfnComplete, pvUser1, pvUser2,
NULL, vdFlushHelperAsync,
VDIOCTX_FLAGS_DEFAULT);
if (!pIoCtx)
{
rc = VERR_NO_MEMORY;
break;
}
rc = vdIoCtxProcessTryLockDefer(pIoCtx);
if (rc == VINF_VD_ASYNC_IO_FINISHED)
{
if (ASMAtomicCmpXchgBool(&pIoCtx->fComplete, true, false))
vdIoCtxFree(pDisk, pIoCtx);
else
rc = VERR_VD_ASYNC_IO_IN_PROGRESS; /* Let the other handler complete the request. */
}
else if (rc != VERR_VD_ASYNC_IO_IN_PROGRESS) /* Another error */
vdIoCtxFree(pDisk, pIoCtx);
} while (0);
if (RT_UNLIKELY(fLockWrite) && (rc != VERR_VD_ASYNC_IO_IN_PROGRESS))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
VBOXDDU_DECL(int) VDAsyncDiscardRanges(PVDISK pDisk, PCRTRANGE paRanges, unsigned cRanges,
PFNVDASYNCTRANSFERCOMPLETE pfnComplete,
void *pvUser1, void *pvUser2)
{
int rc;
int rc2;
bool fLockWrite = false;
PVDIOCTX pIoCtx = NULL;
LogFlowFunc(("pDisk=%#p\n", pDisk));
do
{
/* sanity check */
AssertPtrBreakStmt(pDisk, rc = VERR_INVALID_PARAMETER);
AssertMsg(pDisk->u32Signature == VDISK_SIGNATURE, ("u32Signature=%08x\n", pDisk->u32Signature));
rc2 = vdThreadStartWrite(pDisk);
AssertRC(rc2);
fLockWrite = true;
AssertPtrBreakStmt(pDisk->pLast, rc = VERR_VD_NOT_OPENED);
pIoCtx = vdIoCtxDiscardAlloc(pDisk, paRanges, cRanges,
pfnComplete, pvUser1, pvUser2, NULL,
vdDiscardHelperAsync,
VDIOCTX_FLAGS_DEFAULT);
if (!pIoCtx)
{
rc = VERR_NO_MEMORY;
break;
}
rc = vdIoCtxProcessTryLockDefer(pIoCtx);
if (rc == VINF_VD_ASYNC_IO_FINISHED)
{
if (ASMAtomicCmpXchgBool(&pIoCtx->fComplete, true, false))
vdIoCtxFree(pDisk, pIoCtx);
else
rc = VERR_VD_ASYNC_IO_IN_PROGRESS; /* Let the other handler complete the request. */
}
else if (rc != VERR_VD_ASYNC_IO_IN_PROGRESS) /* Another error */
vdIoCtxFree(pDisk, pIoCtx);
} while (0);
if (RT_UNLIKELY(fLockWrite) && (rc != VERR_VD_ASYNC_IO_IN_PROGRESS))
{
rc2 = vdThreadFinishWrite(pDisk);
AssertRC(rc2);
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
VBOXDDU_DECL(int) VDRepair(PVDINTERFACE pVDIfsDisk, PVDINTERFACE pVDIfsImage,
const char *pszFilename, const char *pszBackend,
uint32_t fFlags)
{
int rc = VERR_NOT_SUPPORTED;
PCVDIMAGEBACKEND pBackend = NULL;
VDINTERFACEIOINT VDIfIoInt;
VDINTERFACEIO VDIfIoFallback;
PVDINTERFACEIO pInterfaceIo;
LogFlowFunc(("pszFilename=\"%s\"\n", pszFilename));
/* Check arguments. */
AssertMsgReturn(VALID_PTR(pszFilename) && *pszFilename,
("pszFilename=%#p \"%s\"\n", pszFilename, pszFilename),
VERR_INVALID_PARAMETER);
AssertMsgReturn(VALID_PTR(pszBackend),
("pszBackend=%#p\n", pszBackend),
VERR_INVALID_PARAMETER);
AssertMsgReturn((fFlags & ~VD_REPAIR_FLAGS_MASK) == 0,
("fFlags=%#x\n", fFlags),
VERR_INVALID_PARAMETER);
pInterfaceIo = VDIfIoGet(pVDIfsImage);
if (!pInterfaceIo)
{
/*
* Caller doesn't provide an I/O interface, create our own using the
* native file API.
*/
vdIfIoFallbackCallbacksSetup(&VDIfIoFallback);
pInterfaceIo = &VDIfIoFallback;
}
/* Set up the internal I/O interface. */
AssertReturn(!VDIfIoIntGet(pVDIfsImage), VERR_INVALID_PARAMETER);
VDIfIoInt.pfnOpen = vdIOIntOpenLimited;
VDIfIoInt.pfnClose = vdIOIntCloseLimited;
VDIfIoInt.pfnDelete = vdIOIntDeleteLimited;
VDIfIoInt.pfnMove = vdIOIntMoveLimited;
VDIfIoInt.pfnGetFreeSpace = vdIOIntGetFreeSpaceLimited;
VDIfIoInt.pfnGetModificationTime = vdIOIntGetModificationTimeLimited;
VDIfIoInt.pfnGetSize = vdIOIntGetSizeLimited;
VDIfIoInt.pfnSetSize = vdIOIntSetSizeLimited;
VDIfIoInt.pfnReadUser = vdIOIntReadUserLimited;
VDIfIoInt.pfnWriteUser = vdIOIntWriteUserLimited;
VDIfIoInt.pfnReadMeta = vdIOIntReadMetaLimited;
VDIfIoInt.pfnWriteMeta = vdIOIntWriteMetaLimited;
VDIfIoInt.pfnFlush = vdIOIntFlushLimited;
rc = VDInterfaceAdd(&VDIfIoInt.Core, "VD_IOINT", VDINTERFACETYPE_IOINT,
pInterfaceIo, sizeof(VDINTERFACEIOINT), &pVDIfsImage);
AssertRC(rc);
rc = vdFindImageBackend(pszBackend, &pBackend);
if (RT_SUCCESS(rc))
{
if (pBackend->pfnRepair)
rc = pBackend->pfnRepair(pszFilename, pVDIfsDisk, pVDIfsImage, fFlags);
else
rc = VERR_VD_IMAGE_REPAIR_NOT_SUPPORTED;
}
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/*
* generic plugin functions
*/
/**
* @interface_method_impl{VDIMAGEBACKEND,pfnComposeLocation}
*/
DECLCALLBACK(int) genericFileComposeLocation(PVDINTERFACE pConfig, char **pszLocation)
{
RT_NOREF1(pConfig);
*pszLocation = NULL;
return VINF_SUCCESS;
}
/**
* @interface_method_impl{VDIMAGEBACKEND,pfnComposeName}
*/
DECLCALLBACK(int) genericFileComposeName(PVDINTERFACE pConfig, char **pszName)
{
RT_NOREF1(pConfig);
*pszName = NULL;
return VINF_SUCCESS;
}
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