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-rw-r--r--src/VBox/Storage/testcase/tstVD.cpp1080
1 files changed, 1080 insertions, 0 deletions
diff --git a/src/VBox/Storage/testcase/tstVD.cpp b/src/VBox/Storage/testcase/tstVD.cpp
new file mode 100644
index 00000000..3840c391
--- /dev/null
+++ b/src/VBox/Storage/testcase/tstVD.cpp
@@ -0,0 +1,1080 @@
+/* $Id: tstVD.cpp $ */
+/** @file
+ * Simple VBox HDD container test utility.
+ */
+
+/*
+ * Copyright (C) 2006-2022 Oracle and/or its affiliates.
+ *
+ * This file is part of VirtualBox base platform packages, as
+ * available from https://www.virtualbox.org.
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * as published by the Free Software Foundation, in version 3 of the
+ * License.
+ *
+ * This program is distributed in the hope that it will be useful, but
+ * WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, see <https://www.gnu.org/licenses>.
+ *
+ * SPDX-License-Identifier: GPL-3.0-only
+ */
+
+
+/*********************************************************************************************************************************
+* Header Files *
+*********************************************************************************************************************************/
+#include <VBox/vd.h>
+#include <iprt/errcore.h>
+#include <VBox/log.h>
+#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)
+# include <iprt/asm-amd64-x86.h>
+#endif
+#include <iprt/dir.h>
+#include <iprt/string.h>
+#include <iprt/stream.h>
+#include <iprt/file.h>
+#include <iprt/mem.h>
+#include <iprt/initterm.h>
+#include <iprt/rand.h>
+#include "stdio.h"
+#include "stdlib.h"
+
+#define VHD_TEST
+#define VDI_TEST
+#define VMDK_TEST
+
+
+/*********************************************************************************************************************************
+* Global Variables *
+*********************************************************************************************************************************/
+/** The error count. */
+unsigned g_cErrors = 0;
+
+
+static DECLCALLBACK(void) tstVDError(void *pvUser, int rc, RT_SRC_POS_DECL, const char *pszFormat, va_list va)
+{
+ RT_NOREF1(pvUser);
+ g_cErrors++;
+ RTPrintf("tstVD: Error %Rrc at %s:%u (%s): ", rc, RT_SRC_POS_ARGS);
+ RTPrintfV(pszFormat, va);
+ RTPrintf("\n");
+}
+
+static DECLCALLBACK(int) tstVDMessage(void *pvUser, const char *pszFormat, va_list va)
+{
+ RT_NOREF1(pvUser);
+ RTPrintf("tstVD: ");
+ RTPrintfV(pszFormat, va);
+ return VINF_SUCCESS;
+}
+
+static int tstVDCreateDelete(const char *pszBackend, const char *pszFilename,
+ uint64_t cbSize, unsigned uFlags, bool fDelete)
+{
+ int rc;
+ PVDISK pVD = NULL;
+ VDGEOMETRY PCHS = { 0, 0, 0 };
+ VDGEOMETRY LCHS = { 0, 0, 0 };
+ PVDINTERFACE pVDIfs = NULL;
+ VDINTERFACEERROR VDIfError;
+
+#define CHECK(str) \
+ do \
+ { \
+ RTPrintf("%s rc=%Rrc\n", str, rc); \
+ if (RT_FAILURE(rc)) \
+ { \
+ VDDestroy(pVD); \
+ return rc; \
+ } \
+ } while (0)
+
+ /* Create error interface. */
+ VDIfError.pfnError = tstVDError;
+ VDIfError.pfnMessage = tstVDMessage;
+
+ rc = VDInterfaceAdd(&VDIfError.Core, "tstVD_Error", VDINTERFACETYPE_ERROR,
+ NULL, sizeof(VDINTERFACEERROR), &pVDIfs);
+ AssertRC(rc);
+
+ rc = VDCreate(pVDIfs, VDTYPE_HDD, &pVD);
+ CHECK("VDCreate()");
+
+ rc = VDCreateBase(pVD, pszBackend, pszFilename, cbSize,
+ uFlags, "Test image", &PCHS, &LCHS, NULL,
+ VD_OPEN_FLAGS_NORMAL, NULL, NULL);
+ CHECK("VDCreateBase()");
+
+ VDDumpImages(pVD);
+
+ VDClose(pVD, fDelete);
+ if (fDelete)
+ {
+ RTFILE File;
+ rc = RTFileOpen(&File, pszFilename, RTFILE_O_READ | RTFILE_O_OPEN | RTFILE_O_DENY_NONE);
+ if (RT_SUCCESS(rc))
+ {
+ RTFileClose(File);
+ return VERR_INTERNAL_ERROR;
+ }
+ }
+
+ VDDestroy(pVD);
+#undef CHECK
+ return 0;
+}
+
+static int tstVDOpenDelete(const char *pszBackend, const char *pszFilename)
+{
+ int rc;
+ PVDISK pVD = NULL;
+ PVDINTERFACE pVDIfs = NULL;
+ VDINTERFACEERROR VDIfError;
+
+#define CHECK(str) \
+ do \
+ { \
+ RTPrintf("%s rc=%Rrc\n", str, rc); \
+ if (RT_FAILURE(rc)) \
+ { \
+ VDDestroy(pVD); \
+ return rc; \
+ } \
+ } while (0)
+
+ /* Create error interface. */
+ VDIfError.pfnError = tstVDError;
+ VDIfError.pfnMessage = tstVDMessage;
+
+ rc = VDInterfaceAdd(&VDIfError.Core, "tstVD_Error", VDINTERFACETYPE_ERROR,
+ NULL, sizeof(VDINTERFACEERROR), &pVDIfs);
+ AssertRC(rc);
+
+
+ rc = VDCreate(pVDIfs, VDTYPE_HDD, &pVD);
+ CHECK("VDCreate()");
+
+ rc = VDOpen(pVD, pszBackend, pszFilename, VD_OPEN_FLAGS_NORMAL, NULL);
+ CHECK("VDOpen()");
+
+ VDDumpImages(pVD);
+
+ VDClose(pVD, true);
+ RTFILE File;
+ rc = RTFileOpen(&File, pszFilename, RTFILE_O_READ | RTFILE_O_OPEN | RTFILE_O_DENY_NONE);
+ if (RT_SUCCESS(rc))
+ {
+ RTFileClose(File);
+ return VERR_INTERNAL_ERROR;
+ }
+
+ VDDestroy(pVD);
+#undef CHECK
+ return 0;
+}
+
+
+#undef RTDECL
+#define RTDECL(x) static x
+
+/* Start of IPRT code */
+
+/**
+ * The following code is based on the work of George Marsaglia
+ * taken from
+ * http://groups.google.ws/group/comp.sys.sun.admin/msg/7c667186f6cbf354
+ * and
+ * http://groups.google.ws/group/comp.lang.c/msg/0e170777c6e79e8d
+ */
+
+/*
+A C version of a very very good 64-bit RNG is given below.
+You should be able to adapt it to your particular needs.
+
+It is based on the complimentary-multiple-with-carry
+sequence
+ x(n)=a*x(n-4)+carry mod 2^64-1,
+which works as follows:
+Assume a certain multiplier 'a' and a base 'b'.
+Given a current x value and a current carry 'c',
+form: t=a*x+c
+Then the new carry is c=floor(t/b)
+and the new x value is x = b-1-(t mod b).
+
+
+Ordinarily, for 32-bit mwc or cmwc sequences, the
+value t=a*x+c can be formed in 64 bits, then the new c
+is the top and the new x the bottom 32 bits (with a little
+fiddling when b=2^32-1 and cmwc rather than mwc.)
+
+
+To generate 64-bit x's, it is difficult to form
+t=a*x+c in 128 bits then get the new c and new x
+from the top and bottom halves.
+But if 'a' has a special form, for example,
+a=2^62+2^47+2 and b=2^64-1, then the new c and
+the new x can be formed with shifts, tests and +/-'s,
+again with a little fiddling because b=2^64-1 rather
+than 2^64. (The latter is not an optimal choice because,
+being a square, it cannot be a primitive root of the
+prime a*b^k+1, where 'k' is the 'lag':
+ x(n)=a*x(n-k)+carry mod b.)
+But the multiplier a=2^62+2^47+2 makes a*b^4+1 a prime for
+which b=2^64-1 is a primitive root, and getting the new x and
+new c can be done with arithmetic on integers the size of x.
+*/
+
+struct RndCtx
+{
+ uint64_t x;
+ uint64_t y;
+ uint64_t z;
+ uint64_t w;
+ uint64_t c;
+ uint32_t u32x;
+ uint32_t u32y;
+};
+typedef struct RndCtx RNDCTX;
+typedef RNDCTX *PRNDCTX;
+
+/**
+ * Initialize seeds.
+ *
+ * @remarks You should choose ANY 4 random 64-bit
+ * seeds x,y,z,w < 2^64-1 and a random seed c in
+ * 0<= c < a = 2^62+2^47+2.
+ * There are P=(2^62+2^46+2)*(2^64-1)^4 > 2^318 possible choices
+ * for seeds, the period of the RNG.
+ */
+RTDECL(int) RTPRandInit(PRNDCTX pCtx, uint32_t u32Seed)
+{
+ if (u32Seed == 0)
+#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)
+ u32Seed = (uint32_t)(ASMReadTSC() >> 8);
+#else
+ u32Seed = (uint32_t)(RTTimeNanoTS() >> 19);
+#endif
+ /* Zero is not a good seed. */
+ if (u32Seed == 0)
+ u32Seed = 362436069;
+ pCtx->x = u32Seed;
+ pCtx->y = 17280675555674358941ULL;
+ pCtx->z = 6376492577913983186ULL;
+ pCtx->w = 9064188857900113776ULL;
+ pCtx->c = 123456789;
+ pCtx->u32x = 2282008;
+ pCtx->u32y = u32Seed;
+ return VINF_SUCCESS;
+}
+
+RTDECL(uint32_t) RTPRandGetSeedInfo(PRNDCTX pCtx)
+{
+ return pCtx->u32y;
+}
+
+/**
+ * Generate a 64-bit unsigned random number.
+ *
+ * @returns The pseudo random number.
+ */
+RTDECL(uint64_t) RTPRandU64(PRNDCTX pCtx)
+{
+ uint64_t t;
+ t = (pCtx->x<<47) + (pCtx->x<<62) + (pCtx->x<<1);
+ t += pCtx->c; t+= (t < pCtx->c);
+ pCtx->c = (t<pCtx->c) + (pCtx->x>>17) + (pCtx->x>>2) + (pCtx->x>>63);
+ pCtx->x = pCtx->y; pCtx->y = pCtx->z ; pCtx->z = pCtx->w;
+ return (pCtx->w = ~(t + pCtx->c)-1);
+}
+
+/**
+ * Generate a 64-bit unsigned pseudo random number in the set
+ * [u64First..u64Last].
+ *
+ * @returns The pseudo random number.
+ * @param u64First First number in the set.
+ * @param u64Last Last number in the set.
+ */
+RTDECL(uint64_t) RTPRandU64Ex(PRNDCTX pCtx, uint64_t u64First, uint64_t u64Last)
+{
+ if (u64First == 0 && u64Last == UINT64_MAX)
+ return RTPRandU64(pCtx);
+
+ uint64_t u64Tmp;
+ uint64_t u64Range = u64Last - u64First + 1;
+ uint64_t u64Scale = UINT64_MAX / u64Range;
+
+ do
+ {
+ u64Tmp = RTPRandU64(pCtx) / u64Scale;
+ } while (u64Tmp >= u64Range);
+ return u64First + u64Tmp;
+}
+
+/**
+ * Generate a 32-bit unsigned random number.
+ *
+ * @returns The pseudo random number.
+ */
+RTDECL(uint32_t) RTPRandU32(PRNDCTX pCtx)
+{
+ return ( pCtx->u32x = 69069 * pCtx->u32x + 123,
+ pCtx->u32y ^= pCtx->u32y<<13,
+ pCtx->u32y ^= pCtx->u32y>>17,
+ pCtx->u32y ^= pCtx->u32y<<5,
+ pCtx->u32x + pCtx->u32y );
+}
+
+/**
+ * Generate a 32-bit unsigned pseudo random number in the set
+ * [u32First..u32Last].
+ *
+ * @returns The pseudo random number.
+ * @param u32First First number in the set.
+ * @param u32Last Last number in the set.
+ */
+RTDECL(uint32_t) RTPRandU32Ex(PRNDCTX pCtx, uint32_t u32First, uint32_t u32Last)
+{
+ if (u32First == 0 && u32Last == UINT32_MAX)
+ return RTPRandU32(pCtx);
+
+ uint32_t u32Tmp;
+ uint32_t u32Range = u32Last - u32First + 1;
+ uint32_t u32Scale = UINT32_MAX / u32Range;
+
+ do
+ {
+ u32Tmp = RTPRandU32(pCtx) / u32Scale;
+ } while (u32Tmp >= u32Range);
+ return u32First + u32Tmp;
+}
+
+/* End of IPRT code */
+
+struct Segment
+{
+ uint64_t u64Offset;
+ uint32_t u32Length;
+ uint32_t u8Value;
+};
+typedef struct Segment *PSEGMENT;
+
+static void initializeRandomGenerator(PRNDCTX pCtx, uint32_t u32Seed)
+{
+ int rc = RTPRandInit(pCtx, u32Seed);
+ if (RT_FAILURE(rc))
+ RTPrintf("ERROR: Failed to initialize random generator. RC=%Rrc\n", rc);
+ else
+ {
+ RTPrintf("INFO: Random generator seed used: %x\n", RTPRandGetSeedInfo(pCtx));
+ RTLogPrintf("INFO: Random generator seed used: %x\n", RTPRandGetSeedInfo(pCtx));
+ }
+}
+
+static int compareSegments(const void *left, const void *right) RT_NOTHROW_DEF
+{
+ /* Note that no duplicates are allowed in the array being sorted. */
+ return ((PSEGMENT)left)->u64Offset < ((PSEGMENT)right)->u64Offset ? -1 : 1;
+}
+
+static void generateRandomSegments(PRNDCTX pCtx, PSEGMENT pSegment, uint32_t nSegments, uint32_t u32MaxSegmentSize, uint64_t u64DiskSize, uint32_t u32SectorSize, uint8_t u8ValueLow, uint8_t u8ValueHigh)
+{
+ uint32_t i;
+ /* Generate segment offsets. */
+ for (i = 0; i < nSegments; i++)
+ {
+ bool fDuplicateFound;
+ do
+ {
+ pSegment[i].u64Offset = RTPRandU64Ex(pCtx, 0, u64DiskSize / u32SectorSize - 1) * u32SectorSize;
+ fDuplicateFound = false;
+ for (uint32_t j = 0; j < i; j++)
+ if (pSegment[i].u64Offset == pSegment[j].u64Offset)
+ {
+ fDuplicateFound = true;
+ break;
+ }
+ } while (fDuplicateFound);
+ }
+ /* Sort in offset-ascending order. */
+ qsort(pSegment, nSegments, sizeof(*pSegment), compareSegments);
+ /* Put a sentinel at the end. */
+ pSegment[nSegments].u64Offset = u64DiskSize;
+ pSegment[nSegments].u32Length = 0;
+ /* Generate segment lengths and values. */
+ for (i = 0; i < nSegments; i++)
+ {
+ pSegment[i].u32Length = RTPRandU32Ex(pCtx, 1, RT_MIN(pSegment[i+1].u64Offset - pSegment[i].u64Offset,
+ u32MaxSegmentSize) / u32SectorSize) * u32SectorSize;
+ Assert(pSegment[i].u32Length <= u32MaxSegmentSize);
+ pSegment[i].u8Value = RTPRandU32Ex(pCtx, (uint32_t)u8ValueLow, (uint32_t)u8ValueHigh);
+ }
+}
+
+static void mergeSegments(PSEGMENT pBaseSegment, PSEGMENT pDiffSegment, PSEGMENT pMergeSegment, uint32_t u32MaxLength)
+{
+ RT_NOREF1(u32MaxLength);
+
+ while (pBaseSegment->u32Length > 0 || pDiffSegment->u32Length > 0)
+ {
+ if (pBaseSegment->u64Offset < pDiffSegment->u64Offset)
+ {
+ *pMergeSegment = *pBaseSegment;
+ if (pMergeSegment->u64Offset + pMergeSegment->u32Length <= pDiffSegment->u64Offset)
+ pBaseSegment++;
+ else
+ {
+ pMergeSegment->u32Length = pDiffSegment->u64Offset - pMergeSegment->u64Offset;
+ Assert(pMergeSegment->u32Length <= u32MaxLength);
+ if (pBaseSegment->u64Offset + pBaseSegment->u32Length >
+ pDiffSegment->u64Offset + pDiffSegment->u32Length)
+ {
+ pBaseSegment->u32Length -= pDiffSegment->u64Offset + pDiffSegment->u32Length - pBaseSegment->u64Offset;
+ Assert(pBaseSegment->u32Length <= u32MaxLength);
+ pBaseSegment->u64Offset = pDiffSegment->u64Offset + pDiffSegment->u32Length;
+ }
+ else
+ pBaseSegment++;
+ }
+ pMergeSegment++;
+ }
+ else
+ {
+ *pMergeSegment = *pDiffSegment;
+ if (pMergeSegment->u64Offset + pMergeSegment->u32Length <= pBaseSegment->u64Offset)
+ {
+ pDiffSegment++;
+ pMergeSegment++;
+ }
+ else
+ {
+ if (pBaseSegment->u64Offset + pBaseSegment->u32Length > pDiffSegment->u64Offset + pDiffSegment->u32Length)
+ {
+ pBaseSegment->u32Length -= pDiffSegment->u64Offset + pDiffSegment->u32Length - pBaseSegment->u64Offset;
+ Assert(pBaseSegment->u32Length <= u32MaxLength);
+ pBaseSegment->u64Offset = pDiffSegment->u64Offset + pDiffSegment->u32Length;
+ pDiffSegment++;
+ pMergeSegment++;
+ }
+ else
+ pBaseSegment++;
+ }
+ }
+ }
+}
+
+static void writeSegmentsToDisk(PVDISK pVD, void *pvBuf, PSEGMENT pSegment)
+{
+ while (pSegment->u32Length)
+ {
+ //memset((uint8_t*)pvBuf + pSegment->u64Offset, pSegment->u8Value, pSegment->u32Length);
+ memset(pvBuf, pSegment->u8Value, pSegment->u32Length);
+ VDWrite(pVD, pSegment->u64Offset, pvBuf, pSegment->u32Length);
+ pSegment++;
+ }
+}
+
+static int readAndCompareSegments(PVDISK pVD, void *pvBuf, PSEGMENT pSegment)
+{
+ while (pSegment->u32Length)
+ {
+ int rc = VDRead(pVD, pSegment->u64Offset, pvBuf, pSegment->u32Length);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("ERROR: Failed to read from virtual disk\n");
+ return rc;
+ }
+ else
+ {
+ for (unsigned i = 0; i < pSegment->u32Length; i++)
+ if (((uint8_t*)pvBuf)[i] != pSegment->u8Value)
+ {
+ RTPrintf("ERROR: Segment at %Lx of %x bytes is corrupt at offset %x (found %x instead of %x)\n",
+ pSegment->u64Offset, pSegment->u32Length, i, ((uint8_t*)pvBuf)[i],
+ pSegment->u8Value);
+ RTLogPrintf("ERROR: Segment at %Lx of %x bytes is corrupt at offset %x (found %x instead of %x)\n",
+ pSegment->u64Offset, pSegment->u32Length, i, ((uint8_t*)pvBuf)[i],
+ pSegment->u8Value);
+ return VERR_INTERNAL_ERROR;
+ }
+ }
+ pSegment++;
+ }
+
+ return VINF_SUCCESS;
+}
+
+static int tstVDOpenCreateWriteMerge(const char *pszBackend,
+ const char *pszBaseFilename,
+ const char *pszDiffFilename,
+ uint32_t u32Seed)
+{
+ int rc;
+ PVDISK pVD = NULL;
+ char *pszFormat;
+ VDTYPE enmType = VDTYPE_INVALID;
+ VDGEOMETRY PCHS = { 0, 0, 0 };
+ VDGEOMETRY LCHS = { 0, 0, 0 };
+ uint64_t u64DiskSize = 1000 * _1M;
+ uint32_t u32SectorSize = 512;
+ PVDINTERFACE pVDIfs = NULL;
+ VDINTERFACEERROR VDIfError;
+
+#define CHECK(str) \
+ do \
+ { \
+ RTPrintf("%s rc=%Rrc\n", str, rc); \
+ if (RT_FAILURE(rc)) \
+ { \
+ if (pvBuf) \
+ RTMemFree(pvBuf); \
+ VDDestroy(pVD); \
+ return rc; \
+ } \
+ } while (0)
+
+ void *pvBuf = RTMemAlloc(_1M);
+
+ /* Create error interface. */
+ VDIfError.pfnError = tstVDError;
+ VDIfError.pfnMessage = tstVDMessage;
+
+ rc = VDInterfaceAdd(&VDIfError.Core, "tstVD_Error", VDINTERFACETYPE_ERROR,
+ NULL, sizeof(VDINTERFACEERROR), &pVDIfs);
+ AssertRC(rc);
+
+
+ rc = VDCreate(pVDIfs, VDTYPE_HDD, &pVD);
+ CHECK("VDCreate()");
+
+ RTFILE File;
+ rc = RTFileOpen(&File, pszBaseFilename, RTFILE_O_READ | RTFILE_O_OPEN | RTFILE_O_DENY_NONE);
+ if (RT_SUCCESS(rc))
+ {
+ RTFileClose(File);
+ rc = VDGetFormat(NULL /* pVDIfsDisk */, NULL /* pVDIfsImage */,
+ pszBaseFilename, VDTYPE_INVALID, &pszFormat, &enmType);
+ RTPrintf("VDGetFormat() pszFormat=%s rc=%Rrc\n", pszFormat, rc);
+ if (RT_SUCCESS(rc) && strcmp(pszFormat, pszBackend))
+ {
+ rc = VERR_GENERAL_FAILURE;
+ RTPrintf("VDGetFormat() returned incorrect backend name\n");
+ }
+ RTStrFree(pszFormat);
+ CHECK("VDGetFormat()");
+
+ rc = VDOpen(pVD, pszBackend, pszBaseFilename, VD_OPEN_FLAGS_NORMAL,
+ NULL);
+ CHECK("VDOpen()");
+ }
+ else
+ {
+ rc = VDCreateBase(pVD, pszBackend, pszBaseFilename, u64DiskSize,
+ VD_IMAGE_FLAGS_NONE, "Test image",
+ &PCHS, &LCHS, NULL, VD_OPEN_FLAGS_NORMAL,
+ NULL, NULL);
+ CHECK("VDCreateBase()");
+ }
+
+ int nSegments = 100;
+ /* Allocate one extra element for a sentinel. */
+ PSEGMENT paBaseSegments = (PSEGMENT)RTMemAllocZ(sizeof(struct Segment) * (nSegments + 1));
+ PSEGMENT paDiffSegments = (PSEGMENT)RTMemAllocZ(sizeof(struct Segment) * (nSegments + 1));
+ PSEGMENT paMergeSegments = (PSEGMENT)RTMemAllocZ(sizeof(struct Segment) * (nSegments + 1) * 3);
+
+ RNDCTX ctx;
+ initializeRandomGenerator(&ctx, u32Seed);
+ generateRandomSegments(&ctx, paBaseSegments, nSegments, _1M, u64DiskSize, u32SectorSize, 0u, 127u);
+ generateRandomSegments(&ctx, paDiffSegments, nSegments, _1M, u64DiskSize, u32SectorSize, 128u, 255u);
+
+ /*PSEGMENT pSegment;
+ RTPrintf("Base segments:\n");
+ for (pSegment = paBaseSegments; pSegment->u32Length; pSegment++)
+ RTPrintf("off: %08Lx len: %05x val: %02x\n", pSegment->u64Offset, pSegment->u32Length, pSegment->u8Value);*/
+ writeSegmentsToDisk(pVD, pvBuf, paBaseSegments);
+
+ rc = VDCreateDiff(pVD, pszBackend, pszDiffFilename,
+ VD_IMAGE_FLAGS_NONE, "Test diff image", NULL, NULL,
+ VD_OPEN_FLAGS_NORMAL, NULL, NULL);
+ CHECK("VDCreateDiff()");
+
+ /*RTPrintf("\nDiff segments:\n");
+ for (pSegment = paDiffSegments; pSegment->u32Length; pSegment++)
+ RTPrintf("off: %08Lx len: %05x val: %02x\n", pSegment->u64Offset, pSegment->u32Length, pSegment->u8Value);*/
+ writeSegmentsToDisk(pVD, pvBuf, paDiffSegments);
+
+ VDDumpImages(pVD);
+
+ RTPrintf("Merging diff into base..\n");
+ rc = VDMerge(pVD, VD_LAST_IMAGE, 0, NULL);
+ CHECK("VDMerge()");
+
+ mergeSegments(paBaseSegments, paDiffSegments, paMergeSegments, _1M);
+ /*RTPrintf("\nMerged segments:\n");
+ for (pSegment = paMergeSegments; pSegment->u32Length; pSegment++)
+ RTPrintf("off: %08Lx len: %05x val: %02x\n", pSegment->u64Offset, pSegment->u32Length, pSegment->u8Value);*/
+ rc = readAndCompareSegments(pVD, pvBuf, paMergeSegments);
+ CHECK("readAndCompareSegments()");
+
+ RTMemFree(paMergeSegments);
+ RTMemFree(paDiffSegments);
+ RTMemFree(paBaseSegments);
+
+ VDDumpImages(pVD);
+
+ VDDestroy(pVD);
+ if (pvBuf)
+ RTMemFree(pvBuf);
+#undef CHECK
+ return 0;
+}
+
+static int tstVDCreateWriteOpenRead(const char *pszBackend,
+ const char *pszFilename,
+ uint32_t u32Seed)
+{
+ int rc;
+ PVDISK pVD = NULL;
+ VDGEOMETRY PCHS = { 0, 0, 0 };
+ VDGEOMETRY LCHS = { 0, 0, 0 };
+ uint64_t u64DiskSize = 1000 * _1M;
+ uint32_t u32SectorSize = 512;
+ PVDINTERFACE pVDIfs = NULL;
+ VDINTERFACEERROR VDIfError;
+
+#define CHECK(str) \
+ do \
+ { \
+ RTPrintf("%s rc=%Rrc\n", str, rc); \
+ if (RT_FAILURE(rc)) \
+ { \
+ if (pvBuf) \
+ RTMemFree(pvBuf); \
+ VDDestroy(pVD); \
+ return rc; \
+ } \
+ } while (0)
+
+ void *pvBuf = RTMemAlloc(_1M);
+
+ /* Create error interface. */
+ VDIfError.pfnError = tstVDError;
+ VDIfError.pfnMessage = tstVDMessage;
+
+ rc = VDInterfaceAdd(&VDIfError.Core, "tstVD_Error", VDINTERFACETYPE_ERROR,
+ NULL, sizeof(VDINTERFACEERROR), &pVDIfs);
+ AssertRC(rc);
+
+ rc = VDCreate(pVDIfs, VDTYPE_HDD, &pVD);
+ CHECK("VDCreate()");
+
+ RTFILE File;
+ rc = RTFileOpen(&File, pszFilename, RTFILE_O_READ | RTFILE_O_OPEN | RTFILE_O_DENY_NONE);
+ if (RT_SUCCESS(rc))
+ {
+ RTFileClose(File);
+ RTFileDelete(pszFilename);
+ }
+
+ rc = VDCreateBase(pVD, pszBackend, pszFilename, u64DiskSize,
+ VD_IMAGE_FLAGS_NONE, "Test image",
+ &PCHS, &LCHS, NULL, VD_OPEN_FLAGS_NORMAL,
+ NULL, NULL);
+ CHECK("VDCreateBase()");
+
+ int nSegments = 100;
+ /* Allocate one extra element for a sentinel. */
+ PSEGMENT paSegments = (PSEGMENT)RTMemAllocZ(sizeof(struct Segment) * (nSegments + 1));
+
+ RNDCTX ctx;
+ initializeRandomGenerator(&ctx, u32Seed);
+ generateRandomSegments(&ctx, paSegments, nSegments, _1M, u64DiskSize, u32SectorSize, 0u, 127u);
+ /*for (PSEGMENT pSegment = paSegments; pSegment->u32Length; pSegment++)
+ RTPrintf("off: %08Lx len: %05x val: %02x\n", pSegment->u64Offset, pSegment->u32Length, pSegment->u8Value);*/
+
+ writeSegmentsToDisk(pVD, pvBuf, paSegments);
+
+ VDCloseAll(pVD);
+
+ rc = VDOpen(pVD, pszBackend, pszFilename, VD_OPEN_FLAGS_NORMAL, NULL);
+ CHECK("VDOpen()");
+ rc = readAndCompareSegments(pVD, pvBuf, paSegments);
+ CHECK("readAndCompareSegments()");
+
+ RTMemFree(paSegments);
+
+ VDDestroy(pVD);
+ if (pvBuf)
+ RTMemFree(pvBuf);
+#undef CHECK
+ return 0;
+}
+
+static int tstVmdkRename(const char *src, const char *dst)
+{
+ int rc;
+ PVDISK pVD = NULL;
+ PVDINTERFACE pVDIfs = NULL;
+ VDINTERFACEERROR VDIfError;
+
+#define CHECK(str) \
+ do \
+ { \
+ RTPrintf("%s rc=%Rrc\n", str, rc); \
+ if (RT_FAILURE(rc)) \
+ { \
+ VDDestroy(pVD); \
+ return rc; \
+ } \
+ } while (0)
+
+ /* Create error interface. */
+ VDIfError.pfnError = tstVDError;
+ VDIfError.pfnMessage = tstVDMessage;
+
+ rc = VDInterfaceAdd(&VDIfError.Core, "tstVD_Error", VDINTERFACETYPE_ERROR,
+ NULL, sizeof(VDINTERFACEERROR), &pVDIfs);
+ AssertRC(rc);
+
+ rc = VDCreate(pVDIfs, VDTYPE_HDD, &pVD);
+ CHECK("VDCreate()");
+
+ rc = VDOpen(pVD, "VMDK", src, VD_OPEN_FLAGS_NORMAL, NULL);
+ CHECK("VDOpen()");
+ rc = VDCopy(pVD, 0, pVD, "VMDK", dst, true, 0, VD_IMAGE_FLAGS_NONE, NULL,
+ VD_OPEN_FLAGS_NORMAL, NULL, NULL, NULL);
+ CHECK("VDCopy()");
+
+ VDDestroy(pVD);
+#undef CHECK
+ return 0;
+}
+
+static int tstVmdkCreateRenameOpen(const char *src, const char *dst,
+ uint64_t cbSize, unsigned uFlags)
+{
+ int rc = tstVDCreateDelete("VMDK", src, cbSize, uFlags, false);
+ if (RT_FAILURE(rc))
+ return rc;
+
+ rc = tstVmdkRename(src, dst);
+ if (RT_FAILURE(rc))
+ return rc;
+
+ PVDISK pVD = NULL;
+ PVDINTERFACE pVDIfs = NULL;
+ VDINTERFACEERROR VDIfError;
+
+#define CHECK(str) \
+ do \
+ { \
+ RTPrintf("%s rc=%Rrc\n", str, rc); \
+ if (RT_FAILURE(rc)) \
+ { \
+ VDCloseAll(pVD); \
+ return rc; \
+ } \
+ } while (0)
+
+ /* Create error interface. */
+ VDIfError.pfnError = tstVDError;
+ VDIfError.pfnMessage = tstVDMessage;
+
+ rc = VDInterfaceAdd(&VDIfError.Core, "tstVD_Error", VDINTERFACETYPE_ERROR,
+ NULL, sizeof(VDINTERFACEERROR), &pVDIfs);
+ AssertRC(rc);
+
+ rc = VDCreate(pVDIfs, VDTYPE_HDD, &pVD);
+ CHECK("VDCreate()");
+
+ rc = VDOpen(pVD, "VMDK", dst, VD_OPEN_FLAGS_NORMAL, NULL);
+ CHECK("VDOpen()");
+
+ VDClose(pVD, true);
+ CHECK("VDClose()");
+ VDDestroy(pVD);
+#undef CHECK
+ return rc;
+}
+
+#if defined(RT_OS_OS2) || defined(RT_OS_WINDOWS)
+#define DST_PATH "tmp\\tmpVDRename.vmdk"
+#else
+#define DST_PATH "tmp/tmpVDRename.vmdk"
+#endif
+
+static void tstVmdk()
+{
+ int rc = tstVmdkCreateRenameOpen("tmpVDCreate.vmdk", "tmpVDRename.vmdk", _4G,
+ VD_IMAGE_FLAGS_NONE);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VMDK rename (single extent, embedded descriptor, same dir) test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVmdkCreateRenameOpen("tmpVDCreate.vmdk", "tmpVDRename.vmdk", _4G,
+ VD_VMDK_IMAGE_FLAGS_SPLIT_2G);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VMDK rename (multiple extent, separate descriptor, same dir) test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVmdkCreateRenameOpen("tmpVDCreate.vmdk", DST_PATH, _4G,
+ VD_IMAGE_FLAGS_NONE);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VMDK rename (single extent, embedded descriptor, another dir) test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVmdkCreateRenameOpen("tmpVDCreate.vmdk", DST_PATH, _4G,
+ VD_VMDK_IMAGE_FLAGS_SPLIT_2G);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VMDK rename (multiple extent, separate descriptor, another dir) test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+
+ RTFILE File;
+ rc = RTFileOpen(&File, DST_PATH, RTFILE_O_WRITE | RTFILE_O_CREATE | RTFILE_O_DENY_NONE);
+ if (RT_SUCCESS(rc))
+ RTFileClose(File);
+
+ rc = tstVmdkCreateRenameOpen("tmpVDCreate.vmdk", DST_PATH, _4G,
+ VD_VMDK_IMAGE_FLAGS_SPLIT_2G);
+ if (RT_SUCCESS(rc))
+ {
+ RTPrintf("tstVD: VMDK rename (multiple extent, separate descriptor, another dir, already exists) test failed!\n");
+ g_cErrors++;
+ }
+ RTFileDelete(DST_PATH);
+ RTFileDelete("tmpVDCreate.vmdk");
+ RTFileDelete("tmpVDCreate-s001.vmdk");
+ RTFileDelete("tmpVDCreate-s002.vmdk");
+ RTFileDelete("tmpVDCreate-s003.vmdk");
+}
+
+int main(int argc, char *argv[])
+{
+ RTR3InitExe(argc, &argv, 0);
+ int rc;
+
+ uint32_t u32Seed = 0; // Means choose random
+
+ if (argc > 1)
+ if (sscanf(argv[1], "%x", &u32Seed) != 1)
+ {
+ RTPrintf("ERROR: Invalid parameter %s. Valid usage is %s <32-bit seed>.\n",
+ argv[1], argv[0]);
+ return 1;
+ }
+
+ RTPrintf("tstVD: TESTING...\n");
+
+ /*
+ * Clean up potential leftovers from previous unsuccessful runs.
+ */
+ RTFileDelete("tmpVDCreate.vdi");
+ RTFileDelete("tmpVDCreate.vmdk");
+ RTFileDelete("tmpVDCreate.vhd");
+ RTFileDelete("tmpVDBase.vdi");
+ RTFileDelete("tmpVDDiff.vdi");
+ RTFileDelete("tmpVDBase.vmdk");
+ RTFileDelete("tmpVDDiff.vmdk");
+ RTFileDelete("tmpVDBase.vhd");
+ RTFileDelete("tmpVDDiff.vhd");
+ RTFileDelete("tmpVDCreate-s001.vmdk");
+ RTFileDelete("tmpVDCreate-s002.vmdk");
+ RTFileDelete("tmpVDCreate-s003.vmdk");
+ RTFileDelete("tmpVDRename.vmdk");
+ RTFileDelete("tmpVDRename-s001.vmdk");
+ RTFileDelete("tmpVDRename-s002.vmdk");
+ RTFileDelete("tmpVDRename-s003.vmdk");
+ RTFileDelete("tmp/tmpVDRename.vmdk");
+ RTFileDelete("tmp/tmpVDRename-s001.vmdk");
+ RTFileDelete("tmp/tmpVDRename-s002.vmdk");
+ RTFileDelete("tmp/tmpVDRename-s003.vmdk");
+
+ if (!RTDirExists("tmp"))
+ {
+ rc = RTDirCreate("tmp", RTFS_UNIX_IRWXU, 0);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: Failed to create 'tmp' directory! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ }
+
+#ifdef VMDK_TEST
+ rc = tstVDCreateDelete("VMDK", "tmpVDCreate.vmdk", 2 * _4G,
+ VD_IMAGE_FLAGS_NONE, true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: dynamic VMDK create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDCreateDelete("VMDK", "tmpVDCreate.vmdk", 2 * _4G,
+ VD_IMAGE_FLAGS_NONE, false);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: dynamic VMDK create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDOpenDelete("VMDK", "tmpVDCreate.vmdk");
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VMDK delete test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+
+ tstVmdk();
+#endif /* VMDK_TEST */
+#ifdef VDI_TEST
+ rc = tstVDCreateDelete("VDI", "tmpVDCreate.vdi", 2 * _4G,
+ VD_IMAGE_FLAGS_NONE, true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: dynamic VDI create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDCreateDelete("VDI", "tmpVDCreate.vdi", 2 * _4G,
+ VD_IMAGE_FLAGS_NONE, true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: fixed VDI create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+#endif /* VDI_TEST */
+#ifdef VMDK_TEST
+ rc = tstVDCreateDelete("VMDK", "tmpVDCreate.vmdk", 2 * _4G,
+ VD_IMAGE_FLAGS_NONE, true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: dynamic VMDK create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDCreateDelete("VMDK", "tmpVDCreate.vmdk", 2 * _4G,
+ VD_VMDK_IMAGE_FLAGS_SPLIT_2G, true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: dynamic split VMDK create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDCreateDelete("VMDK", "tmpVDCreate.vmdk", 2 * _4G,
+ VD_IMAGE_FLAGS_FIXED, true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: fixed VMDK create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDCreateDelete("VMDK", "tmpVDCreate.vmdk", 2 * _4G,
+ VD_IMAGE_FLAGS_FIXED | VD_VMDK_IMAGE_FLAGS_SPLIT_2G,
+ true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: fixed split VMDK create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+#endif /* VMDK_TEST */
+#ifdef VHD_TEST
+ rc = tstVDCreateDelete("VHD", "tmpVDCreate.vhd", 2 * _4G,
+ VD_IMAGE_FLAGS_NONE, true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: dynamic VHD create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDCreateDelete("VHD", "tmpVDCreate.vhd", 2 * _4G,
+ VD_IMAGE_FLAGS_FIXED, true);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: fixed VHD create test failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+#endif /* VHD_TEST */
+#ifdef VDI_TEST
+ rc = tstVDOpenCreateWriteMerge("VDI", "tmpVDBase.vdi", "tmpVDDiff.vdi", u32Seed);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VDI test failed (new image)! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDOpenCreateWriteMerge("VDI", "tmpVDBase.vdi", "tmpVDDiff.vdi", u32Seed);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VDI test failed (existing image)! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+#endif /* VDI_TEST */
+#ifdef VMDK_TEST
+ rc = tstVDOpenCreateWriteMerge("VMDK", "tmpVDBase.vmdk", "tmpVDDiff.vmdk", u32Seed);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VMDK test failed (new image)! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ rc = tstVDOpenCreateWriteMerge("VMDK", "tmpVDBase.vmdk", "tmpVDDiff.vmdk", u32Seed);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VMDK test failed (existing image)! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+#endif /* VMDK_TEST */
+#ifdef VHD_TEST
+ rc = tstVDCreateWriteOpenRead("VHD", "tmpVDCreate.vhd", u32Seed);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VHD test failed (creating image)! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+
+ rc = tstVDOpenCreateWriteMerge("VHD", "tmpVDBase.vhd", "tmpVDDiff.vhd", u32Seed);
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: VHD test failed (existing image)! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+#endif /* VHD_TEST */
+
+ /*
+ * Clean up any leftovers.
+ */
+ RTFileDelete("tmpVDCreate.vdi");
+ RTFileDelete("tmpVDCreate.vmdk");
+ RTFileDelete("tmpVDCreate.vhd");
+ RTFileDelete("tmpVDBase.vdi");
+ RTFileDelete("tmpVDDiff.vdi");
+ RTFileDelete("tmpVDBase.vmdk");
+ RTFileDelete("tmpVDDiff.vmdk");
+ RTFileDelete("tmpVDBase.vhd");
+ RTFileDelete("tmpVDDiff.vhd");
+ RTFileDelete("tmpVDCreate-s001.vmdk");
+ RTFileDelete("tmpVDCreate-s002.vmdk");
+ RTFileDelete("tmpVDCreate-s003.vmdk");
+ RTFileDelete("tmpVDRename.vmdk");
+ RTFileDelete("tmpVDRename-s001.vmdk");
+ RTFileDelete("tmpVDRename-s002.vmdk");
+ RTFileDelete("tmpVDRename-s003.vmdk");
+
+ rc = VDShutdown();
+ if (RT_FAILURE(rc))
+ {
+ RTPrintf("tstVD: unloading backends failed! rc=%Rrc\n", rc);
+ g_cErrors++;
+ }
+ /*
+ * Summary
+ */
+ if (!g_cErrors)
+ RTPrintf("tstVD: SUCCESS\n");
+ else
+ RTPrintf("tstVD: FAILURE - %d errors\n", g_cErrors);
+
+ return !!g_cErrors;
+}
+