/* $Id: tarvfswriter.cpp $ */ /** @file * IPRT - TAR Virtual Filesystem, Writer. */ /* * Copyright (C) 2010-2020 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. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include "internal/iprt.h" #include #include #include #include #include #include #include #include #include #include #include #include "tar.h" /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ /** The TAR block size we're using in this implementation. * @remarks Should technically be user configurable, but we don't currently need that. */ #define RTZIPTAR_BLOCKSIZE sizeof(RTZIPTARHDR) /** Minimum file size we consider for sparse files. */ #define RTZIPTAR_MIN_SPARSE _64K /********************************************************************************************************************************* * Structures and Typedefs * *********************************************************************************************************************************/ /** * A data span descriptor in a sparse file. */ typedef struct RTZIPTARSPARSESPAN { /** Byte offset into the file of the data. */ uint64_t off; /** Number of bytes of data, rounded up to a multiple of blocksize. */ uint64_t cb; } RTZIPTARSPARSESPAN; /** Pointer to a data span. */ typedef RTZIPTARSPARSESPAN *PRTZIPTARSPARSESPAN; /** Pointer to a const data span. */ typedef RTZIPTARSPARSESPAN const *PCRTZIPTARSPARSESPAN; /** * Chunk of TAR sparse file data spans. */ typedef struct RTZIPTARSPARSECHUNK { /** List entry. */ RTLISTNODE Entry; /** Array of data spans. */ RTZIPTARSPARSESPAN aSpans[63]; } RTZIPTARSPARSECHUNK; AssertCompile(sizeof(RTZIPTARSPARSECHUNK) <= 1024); AssertCompile(sizeof(RTZIPTARSPARSECHUNK) >= 1008); /** Pointer to a chunk of TAR data spans. */ typedef RTZIPTARSPARSECHUNK *PRTZIPTARSPARSECHUNK; /** Pointer to a const chunk of TAR data spans. */ typedef RTZIPTARSPARSECHUNK const *PCRTZIPTARSPARSECHUNK; /** * TAR sparse file info. */ typedef struct RTZIPTARSPARSE { /** Number of data bytes (real size). */ uint64_t cbDataSpans; /** Number of data spans. */ uint32_t cDataSpans; /** The index of the next span in the tail chunk (to avoid modulus 63). */ uint32_t iNextSpan; /** Head of the data span chunk list (PRTZIPTARSPARSECHUNK). */ RTLISTANCHOR ChunkHead; } RTZIPTARSPARSE; /** Pointer to TAR sparse file info. */ typedef RTZIPTARSPARSE *PRTZIPTARSPARSE; /** Pointer to a const TAR sparse file info. */ typedef RTZIPTARSPARSE const *PCRTZIPTARSPARSE; /** Pointer to a the private data of a TAR filesystem stream. */ typedef struct RTZIPTARFSSTREAMWRITER *PRTZIPTARFSSTREAMWRITER; /** * Instance data for a file or I/O stream returned by * RTVFSFSSTREAMOPS::pfnPushFile. */ typedef struct RTZIPTARFSSTREAMWRITERPUSH { /** Pointer to the parent FS stream writer instance. * This is set to NULL should the push object live longer than the stream. */ PRTZIPTARFSSTREAMWRITER pParent; /** The header offset, UINT64_MAX if non-seekable output. */ uint64_t offHdr; /** The data offset, UINT64_MAX if non-seekable output. */ uint64_t offData; /** The current I/O stream position (relative to offData). */ uint64_t offCurrent; /** The expected size amount of file content, or max file size if open-ended. */ uint64_t cbExpected; /** The current amount of file content written. */ uint64_t cbCurrent; /** Object info copy for rtZipTarWriterPush_QueryInfo. */ RTFSOBJINFO ObjInfo; /** Set if open-ended file size requiring a tar header update when done. */ bool fOpenEnded; } RTZIPTARFSSTREAMWRITERPUSH; /** Pointer to a push I/O instance. */ typedef RTZIPTARFSSTREAMWRITERPUSH *PRTZIPTARFSSTREAMWRITERPUSH; /** * Tar filesystem stream private data. */ typedef struct RTZIPTARFSSTREAMWRITER { /** The output I/O stream. */ RTVFSIOSTREAM hVfsIos; /** Non-nil if the output is a file. */ RTVFSFILE hVfsFile; /** The current push file. NULL if none. */ PRTZIPTARFSSTREAMWRITERPUSH pPush; /** The TAR format. */ RTZIPTARFORMAT enmFormat; /** Set if we've encountered a fatal error. */ int rcFatal; /** Flags. */ uint32_t fFlags; /** Number of bytes written. */ uint64_t cbWritten; /** @name Attribute overrides. * @{ */ RTUID uidOwner; /**< Owner, NIL_RTUID if no change. */ char *pszOwner; /**< Owner, NULL if no change. */ RTGID gidGroup; /**< Group, NIL_RTGID if no change. */ char *pszGroup; /**< Group, NULL if no change. */ char *pszPrefix; /**< Path prefix, NULL if no change. */ size_t cchPrefix; /**< The length of pszPrefix. */ PRTTIMESPEC pModTime; /**< Modification time, NULL of no change. */ RTTIMESPEC ModTime; /**< pModTime points to this. */ RTFMODE fFileModeAndMask; /**< File mode AND mask. */ RTFMODE fFileModeOrMask; /**< File mode OR mask. */ RTFMODE fDirModeAndMask; /**< Directory mode AND mask. */ RTFMODE fDirModeOrMask; /**< Directory mode OR mask. */ /** @} */ /** Number of headers returned by rtZipTarFssWriter_ObjInfoToHdr. */ uint32_t cHdrs; /** Header buffers returned by rtZipTarFssWriter_ObjInfoToHdr. */ RTZIPTARHDR aHdrs[3]; } RTZIPTARFSSTREAMWRITER; /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ static DECLCALLBACK(int) rtZipTarWriterPush_Seek(void *pvThis, RTFOFF offSeek, unsigned uMethod, PRTFOFF poffActual); static int rtZipTarFssWriter_CompleteCurrentPushFile(PRTZIPTARFSSTREAMWRITER pThis); static int rtZipTarFssWriter_AddFile(PRTZIPTARFSSTREAMWRITER pThis, const char *pszPath, RTVFSIOSTREAM hVfsIos, PCRTFSOBJINFO pObjInfo, const char *pszOwnerNm, const char *pszGroupNm); /** * Calculates the header checksum and stores it in the chksum field. * * @returns IPRT status code. * @param pHdr The header. */ static int rtZipTarFssWriter_ChecksumHdr(PRTZIPTARHDR pHdr) { int32_t iUnsignedChksum; rtZipTarCalcChkSum(pHdr, &iUnsignedChksum, NULL); int rc = RTStrFormatU32(pHdr->Common.chksum, sizeof(pHdr->Common.chksum), iUnsignedChksum, 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pHdr->Common.chksum) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, VERR_TAR_NUM_VALUE_TOO_LARGE); return VINF_SUCCESS; } /** * Formats a 12 character wide file offset or size field. * * This is mainly used for RTZIPTARHDR::Common.size, but also for formatting the * sparse map. * * @returns IPRT status code. * @param pach12Field The 12 character wide destination field. * @param off The offset to set. */ static int rtZipTarFssWriter_FormatOffset(char pach12Field[12], uint64_t off) { /* * Is the size small enough for the standard octal string encoding? * * Note! We could actually use the terminator character as well if we liked, * but let not do that as it's easier to test this way. */ if (off < _4G * 2U) { int rc = RTStrFormatU64(pach12Field, 12, off, 8 /*uBase*/, -1 /*cchWidth*/, 12 - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, rc); } /* * No, use the base 256 extension. Set the highest bit of the left most * character. We don't deal with negatives here, cause the size have to * be greater than zero. * * Note! The base-256 extension are never used by gtar or libarchive * with the "ustar \0" format version, only the later * "ustar\000" version. However, this shouldn't cause much * trouble as they are not picky about what they read. */ /** @todo above note is wrong: GNU tar only uses base-256 with the GNU tar * format, i.e. "ustar \0", see create.c line 303 in v1.29. */ else { size_t cchField = 12 - 1; unsigned char *puchField = (unsigned char *)pach12Field; puchField[0] = 0x80; do { puchField[cchField--] = off & 0xff; off >>= 8; } while (cchField); } return VINF_SUCCESS; } /** * Creates one or more tar headers for the object. * * Returns RTZIPTARFSSTREAMWRITER::aHdrs and RTZIPTARFSSTREAMWRITER::cHdrs. * * @returns IPRT status code. * @param pThis The TAR writer instance. * @param pszPath The path to the file. * @param hVfsIos The I/O stream of the file. * @param fFlags The RTVFSFSSTREAMOPS::pfnAdd flags. * @param pObjInfo The object information. * @param pszOwnerNm The owner name. * @param pszGroupNm The group name. * @param chType The tar record type, UINT8_MAX for default. */ static int rtZipTarFssWriter_ObjInfoToHdr(PRTZIPTARFSSTREAMWRITER pThis, const char *pszPath, PCRTFSOBJINFO pObjInfo, const char *pszOwnerNm, const char *pszGroupNm, uint8_t chType) { pThis->cHdrs = 0; RT_ZERO(pThis->aHdrs[0]); /* * The path name first. Make sure to flip DOS slashes. */ size_t cchPath = strlen(pszPath); if (cchPath < sizeof(pThis->aHdrs[0].Common.name)) { memcpy(pThis->aHdrs[0].Common.name, pszPath, cchPath + 1); #if RTPATH_STYLE != RTPATH_STR_F_STYLE_UNIX char *pszDosSlash = strchr(pThis->aHdrs[0].Common.name, '\\'); while (pszDosSlash) { *pszDosSlash = '/'; pszDosSlash = strchr(pszDosSlash + 1, '\\'); } #endif } else { /** @todo implement gnu and pax long name extensions. */ return VERR_TAR_NAME_TOO_LONG; } /* * File mode. ASSUME that the unix part of the IPRT mode mask is * compatible with the TAR/Unix world. */ uint32_t uValue = pObjInfo->Attr.fMode & RTFS_UNIX_MASK; if (RTFS_IS_DIRECTORY(pObjInfo->Attr.fMode)) uValue = (uValue & pThis->fDirModeAndMask) | pThis->fDirModeOrMask; else uValue = (uValue & pThis->fFileModeAndMask) | pThis->fFileModeOrMask; int rc = RTStrFormatU32(pThis->aHdrs[0].Common.mode, sizeof(pThis->aHdrs[0].Common.mode), uValue, 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pThis->aHdrs[0].Common.mode) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, VERR_TAR_NUM_VALUE_TOO_LARGE); /* * uid & gid. Just guard against NIL values as they won't fit. */ uValue = pThis->uidOwner != NIL_RTUID ? pThis->uidOwner : pObjInfo->Attr.u.Unix.uid != NIL_RTUID ? pObjInfo->Attr.u.Unix.uid : 0; rc = RTStrFormatU32(pThis->aHdrs[0].Common.uid, sizeof(pThis->aHdrs[0].Common.uid), uValue, 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pThis->aHdrs[0].Common.uid) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, VERR_TAR_NUM_VALUE_TOO_LARGE); uValue = pThis->gidGroup != NIL_RTGID ? pThis->gidGroup : pObjInfo->Attr.u.Unix.gid != NIL_RTGID ? pObjInfo->Attr.u.Unix.gid : 0; rc = RTStrFormatU32(pThis->aHdrs[0].Common.gid, sizeof(pThis->aHdrs[0].Common.gid), uValue, 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pThis->aHdrs[0].Common.gid) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, VERR_TAR_NUM_VALUE_TOO_LARGE); /* * The file size. */ rc = rtZipTarFssWriter_FormatOffset(pThis->aHdrs[0].Common.size, pObjInfo->cbObject); AssertRCReturn(rc, rc); /* * Modification time relative to unix epoc. */ rc = RTStrFormatU64(pThis->aHdrs[0].Common.mtime, sizeof(pThis->aHdrs[0].Common.mtime), RTTimeSpecGetSeconds(pThis->pModTime ? pThis->pModTime : &pObjInfo->ModificationTime), 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pThis->aHdrs[0].Common.mtime) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, rc); /* Skipping checksum for now */ /* * The type flag. */ if (chType == UINT8_MAX) switch (pObjInfo->Attr.fMode & RTFS_TYPE_MASK) { case RTFS_TYPE_FIFO: chType = RTZIPTAR_TF_FIFO; break; case RTFS_TYPE_DEV_CHAR: chType = RTZIPTAR_TF_CHR; break; case RTFS_TYPE_DIRECTORY: chType = RTZIPTAR_TF_DIR; break; case RTFS_TYPE_DEV_BLOCK: chType = RTZIPTAR_TF_BLK; break; case RTFS_TYPE_FILE: chType = RTZIPTAR_TF_NORMAL; break; case RTFS_TYPE_SYMLINK: chType = RTZIPTAR_TF_SYMLINK; break; case RTFS_TYPE_SOCKET: chType = RTZIPTAR_TF_FIFO; break; case RTFS_TYPE_WHITEOUT: AssertFailedReturn(VERR_WRONG_TYPE); } pThis->aHdrs[0].Common.typeflag = chType; /* No link name, at least not for now. Caller might set it. */ /* * Set TAR record magic and version. */ if (pThis->enmFormat == RTZIPTARFORMAT_GNU) memcpy(pThis->aHdrs[0].Gnu.magic, RTZIPTAR_GNU_MAGIC, sizeof(pThis->aHdrs[0].Gnu.magic)); else if ( pThis->enmFormat == RTZIPTARFORMAT_USTAR || pThis->enmFormat == RTZIPTARFORMAT_PAX) { memcpy(pThis->aHdrs[0].Common.magic, RTZIPTAR_USTAR_MAGIC, sizeof(pThis->aHdrs[0].Common.magic)); memcpy(pThis->aHdrs[0].Common.version, RTZIPTAR_USTAR_VERSION, sizeof(pThis->aHdrs[0].Common.version)); } else AssertFailedReturn(VERR_INTERNAL_ERROR_4); /* * Owner and group names. Silently truncate them for now. */ RTStrCopy(pThis->aHdrs[0].Common.uname, sizeof(pThis->aHdrs[0].Common.uname), pThis->pszOwner ? pThis->pszOwner : pszOwnerNm); RTStrCopy(pThis->aHdrs[0].Common.gname, sizeof(pThis->aHdrs[0].Common.uname), pThis->pszGroup ? pThis->pszGroup : pszGroupNm); /* * Char/block device numbers. */ if ( RTFS_IS_DEV_BLOCK(pObjInfo->Attr.fMode) || RTFS_IS_DEV_CHAR(pObjInfo->Attr.fMode) ) { rc = RTStrFormatU32(pThis->aHdrs[0].Common.devmajor, sizeof(pThis->aHdrs[0].Common.devmajor), RTDEV_MAJOR(pObjInfo->Attr.u.Unix.Device), 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pThis->aHdrs[0].Common.devmajor) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, VERR_TAR_NUM_VALUE_TOO_LARGE); rc = RTStrFormatU32(pThis->aHdrs[0].Common.devminor, sizeof(pThis->aHdrs[0].Common.devmajor), RTDEV_MINOR(pObjInfo->Attr.u.Unix.Device), 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pThis->aHdrs[0].Common.devmajor) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, VERR_TAR_NUM_VALUE_TOO_LARGE); } #if 0 /** @todo why doesn't this work? */ /* * Set GNU specific stuff. */ if (pThis->enmFormat == RTZIPTARFORMAT_GNU) { rc = RTStrFormatU64(pThis->aHdrs[0].Gnu.ctime, sizeof(pThis->aHdrs[0].Gnu.ctime), RTTimeSpecGetSeconds(&pObjInfo->ChangeTime), 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pThis->aHdrs[0].Gnu.ctime) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, rc); rc = RTStrFormatU64(pThis->aHdrs[0].Gnu.atime, sizeof(pThis->aHdrs[0].Gnu.atime), RTTimeSpecGetSeconds(&pObjInfo->ChangeTime), 8 /*uBase*/, -1 /*cchWidth*/, sizeof(pThis->aHdrs[0].Gnu.atime) - 1, RTSTR_F_ZEROPAD | RTSTR_F_PRECISION); AssertRCReturn(rc, rc); } #endif /* * Finally the checksum. */ pThis->cHdrs = 1; return rtZipTarFssWriter_ChecksumHdr(&pThis->aHdrs[0]); } /** * @interface_method_impl{RTVFSOBJOPS,pfnClose} */ static DECLCALLBACK(int) rtZipTarWriterPush_Close(void *pvThis) { PRTZIPTARFSSTREAMWRITERPUSH pPush = (PRTZIPTARFSSTREAMWRITERPUSH)pvThis; PRTZIPTARFSSTREAMWRITER pParent = pPush->pParent; if (pParent) { if (pParent->pPush == pPush) rtZipTarFssWriter_CompleteCurrentPushFile(pParent); else AssertFailedStmt(pPush->pParent = NULL); } return VINF_SUCCESS; } /** * @interface_method_impl{RTVFSOBJOPS,pfnQueryInfo} */ static DECLCALLBACK(int) rtZipTarWriterPush_QueryInfo(void *pvThis, PRTFSOBJINFO pObjInfo, RTFSOBJATTRADD enmAddAttr) { PRTZIPTARFSSTREAMWRITERPUSH pPush = (PRTZIPTARFSSTREAMWRITERPUSH)pvThis; /* Basic info (w/ additional unix attribs). */ *pObjInfo = pPush->ObjInfo; pObjInfo->cbObject = pPush->cbCurrent; pObjInfo->cbAllocated = RT_ALIGN_64(pPush->cbCurrent, RTZIPTAR_BLOCKSIZE); /* Additional info. */ switch (enmAddAttr) { case RTFSOBJATTRADD_NOTHING: case RTFSOBJATTRADD_UNIX: Assert(pObjInfo->Attr.enmAdditional == RTFSOBJATTRADD_UNIX); break; case RTFSOBJATTRADD_UNIX_OWNER: pObjInfo->Attr.u.UnixOwner.uid = pPush->ObjInfo.Attr.u.Unix.uid; if (pPush->pParent) strcpy(pObjInfo->Attr.u.UnixOwner.szName, pPush->pParent->aHdrs[0].Common.uname); else pObjInfo->Attr.u.UnixOwner.szName[0] = '\0'; pObjInfo->Attr.enmAdditional = enmAddAttr; break; case RTFSOBJATTRADD_UNIX_GROUP: pObjInfo->Attr.u.UnixGroup.gid = pPush->ObjInfo.Attr.u.Unix.gid; if (pPush->pParent) strcpy(pObjInfo->Attr.u.UnixGroup.szName, pPush->pParent->aHdrs[0].Common.uname); else pObjInfo->Attr.u.UnixGroup.szName[0] = '\0'; pObjInfo->Attr.enmAdditional = enmAddAttr; break; case RTFSOBJATTRADD_EASIZE: pObjInfo->Attr.u.EASize.cb = 0; pObjInfo->Attr.enmAdditional = enmAddAttr; break; default: AssertFailed(); } return VINF_SUCCESS; } /** * @interface_method_impl{RTVFSIOSTREAMOPS,pfnRead} */ static DECLCALLBACK(int) rtZipTarWriterPush_Read(void *pvThis, RTFOFF off, PCRTSGBUF pSgBuf, bool fBlocking, size_t *pcbRead) { /* No read support, sorry. */ RT_NOREF(pvThis, off, pSgBuf, fBlocking, pcbRead); AssertFailed(); return VERR_ACCESS_DENIED; } /** * @interface_method_impl{RTVFSIOSTREAMOPS,pfnWrite} */ static DECLCALLBACK(int) rtZipTarWriterPush_Write(void *pvThis, RTFOFF off, PCRTSGBUF pSgBuf, bool fBlocking, size_t *pcbWritten) { PRTZIPTARFSSTREAMWRITERPUSH pPush = (PRTZIPTARFSSTREAMWRITERPUSH)pvThis; PRTZIPTARFSSTREAMWRITER pParent = pPush->pParent; AssertPtrReturn(pParent, VERR_WRONG_ORDER); int rc = pParent->rcFatal; AssertRCReturn(rc, rc); /* * Single segment at a time. */ Assert(pSgBuf->cSegs == 1); size_t cbToWrite = pSgBuf->paSegs[0].cbSeg; void const *pvToWrite = pSgBuf->paSegs[0].pvSeg; /* * Hopefully we don't need to seek. But if we do, let the seek method do * it as it's not entirely trivial. */ if ( off < 0 || (uint64_t)off == pPush->offCurrent) rc = VINF_SUCCESS; else rc = rtZipTarWriterPush_Seek(pvThis, off, RTFILE_SEEK_BEGIN, NULL); if (RT_SUCCESS(rc)) { Assert(pPush->offCurrent <= pPush->cbExpected); Assert(pPush->offCurrent <= pPush->cbCurrent); AssertMsgReturn(cbToWrite <= pPush->cbExpected - pPush->offCurrent, ("offCurrent=%#RX64 + cbToWrite=%#zx = %#RX64; cbExpected=%RX64\n", pPush->offCurrent, cbToWrite, pPush->offCurrent + cbToWrite, pPush->cbExpected), VERR_DISK_FULL); size_t cbWritten = 0; rc = RTVfsIoStrmWrite(pParent->hVfsIos, pvToWrite, cbToWrite, fBlocking, &cbWritten); if (RT_SUCCESS(rc)) { pPush->offCurrent += cbWritten; if (pPush->offCurrent > pPush->cbCurrent) { pParent->cbWritten = pPush->offCurrent - pPush->cbCurrent; pPush->cbCurrent = pPush->offCurrent; } if (pcbWritten) *pcbWritten = cbWritten; } } /* * Fatal errors get down here, non-fatal ones returns earlier. */ if (RT_SUCCESS(rc)) return VINF_SUCCESS; pParent->rcFatal = rc; return rc; } /** * @interface_method_impl{RTVFSIOSTREAMOPS,pfnFlush} */ static DECLCALLBACK(int) rtZipTarWriterPush_Flush(void *pvThis) { PRTZIPTARFSSTREAMWRITERPUSH pPush = (PRTZIPTARFSSTREAMWRITERPUSH)pvThis; PRTZIPTARFSSTREAMWRITER pParent = pPush->pParent; AssertPtrReturn(pParent, VERR_WRONG_ORDER); int rc = pParent->rcFatal; if (RT_SUCCESS(rc)) pParent->rcFatal = rc = RTVfsIoStrmFlush(pParent->hVfsIos); return rc; } /** * @interface_method_impl{RTVFSIOSTREAMOPS,pfnPollOne} */ static DECLCALLBACK(int) rtZipTarWriterPush_PollOne(void *pvThis, uint32_t fEvents, RTMSINTERVAL cMillies, bool fIntr, uint32_t *pfRetEvents) { PRTZIPTARFSSTREAMWRITERPUSH pPush = (PRTZIPTARFSSTREAMWRITERPUSH)pvThis; PRTZIPTARFSSTREAMWRITER pParent = pPush->pParent; AssertPtrReturn(pParent, VERR_WRONG_ORDER); return RTVfsIoStrmPoll(pParent->hVfsIos, fEvents, cMillies, fIntr, pfRetEvents); } /** * @interface_method_impl{RTVFSIOSTREAMOPS,pfnTell} */ static DECLCALLBACK(int) rtZipTarWriterPush_Tell(void *pvThis, PRTFOFF poffActual) { PRTZIPTARFSSTREAMWRITERPUSH pPush = (PRTZIPTARFSSTREAMWRITERPUSH)pvThis; *poffActual = (RTFOFF)pPush->offCurrent; return VINF_SUCCESS; } /** * @interface_method_impl{RTVFSIOSTREAMOPS,pfnSkip} */ static DECLCALLBACK(int) rtZipTarWriterPush_Skip(void *pvThis, RTFOFF cb) { RT_NOREF(pvThis, cb); AssertFailed(); return VERR_ACCESS_DENIED; } /** * @interface_method_impl{RTVFSOBJSETOPS,pfnMode} */ static DECLCALLBACK(int) rtZipTarWriterPush_SetMode(void *pvThis, RTFMODE fMode, RTFMODE fMask) { RT_NOREF(pvThis, fMode, fMask); AssertFailed(); return VERR_ACCESS_DENIED; } /** * @interface_method_impl{RTVFSOBJSETOPS,pfnSetTimes} */ static DECLCALLBACK(int) rtZipTarWriterPush_SetTimes(void *pvThis, PCRTTIMESPEC pAccessTime, PCRTTIMESPEC pModificationTime, PCRTTIMESPEC pChangeTime, PCRTTIMESPEC pBirthTime) { RT_NOREF(pvThis, pAccessTime, pModificationTime, pChangeTime, pBirthTime); AssertFailed(); return VERR_ACCESS_DENIED; } /** * @interface_method_impl{RTVFSOBJSETOPS,pfnSetOwner} */ static DECLCALLBACK(int) rtZipTarWriterPush_SetOwner(void *pvThis, RTUID uid, RTGID gid) { RT_NOREF(pvThis, uid, gid); AssertFailed(); return VERR_ACCESS_DENIED; } /** * @interface_method_impl{RTVFSFILEOPS,pfnSeek} */ static DECLCALLBACK(int) rtZipTarWriterPush_Seek(void *pvThis, RTFOFF offSeek, unsigned uMethod, PRTFOFF poffActual) { PRTZIPTARFSSTREAMWRITERPUSH pPush = (PRTZIPTARFSSTREAMWRITERPUSH)pvThis; PRTZIPTARFSSTREAMWRITER pParent = pPush->pParent; AssertPtrReturn(pParent, VERR_WRONG_ORDER); int rc = pParent->rcFatal; AssertRCReturn(rc, rc); Assert(pPush->offCurrent <= pPush->cbCurrent); /* * Calculate the new file offset. */ RTFOFF offNewSigned; switch (uMethod) { case RTFILE_SEEK_BEGIN: offNewSigned = offSeek; break; case RTFILE_SEEK_CURRENT: offNewSigned = pPush->offCurrent + offSeek; break; case RTFILE_SEEK_END: offNewSigned = pPush->cbCurrent + offSeek; break; default: AssertFailedReturn(VERR_INVALID_PARAMETER); } /* * Check the new file offset against expectations. */ AssertMsgReturn(offNewSigned >= 0, ("offNewSigned=%RTfoff\n", offNewSigned), VERR_NEGATIVE_SEEK); uint64_t offNew = (uint64_t)offNewSigned; AssertMsgReturn(offNew <= pPush->cbExpected, ("offNew=%#RX64 cbExpected=%#Rx64\n", offNew, pPush->cbExpected), VERR_SEEK); /* * Any change at all? We can always hope... */ if (offNew == pPush->offCurrent) { } /* * Gap that needs zero filling? */ else if (offNew > pPush->cbCurrent) { if (pPush->offCurrent != pPush->cbCurrent) { AssertReturn(pParent->hVfsFile != NIL_RTVFSFILE, VERR_NOT_A_FILE); rc = RTVfsFileSeek(pParent->hVfsFile, pPush->offData + pPush->cbCurrent, RTFILE_SEEK_BEGIN, NULL); if (RT_FAILURE(rc)) return pParent->rcFatal = rc; pPush->offCurrent = pPush->cbCurrent; } uint64_t cbToZero = offNew - pPush->cbCurrent; rc = RTVfsIoStrmZeroFill(pParent->hVfsIos, cbToZero); if (RT_FAILURE(rc)) return pParent->rcFatal = rc; pParent->cbWritten += cbToZero; pPush->cbCurrent = pPush->offCurrent = offNew; } /* * Just change the file position to somewhere we've already written. */ else { AssertReturn(pParent->hVfsFile != NIL_RTVFSFILE, VERR_NOT_A_FILE); rc = RTVfsFileSeek(pParent->hVfsFile, pPush->offData + offNew, RTFILE_SEEK_BEGIN, NULL); if (RT_FAILURE(rc)) return pParent->rcFatal = rc; pPush->offCurrent = offNew; } Assert(pPush->offCurrent <= pPush->cbCurrent); if (poffActual) *poffActual = pPush->offCurrent; return VINF_SUCCESS; } /** * @interface_method_impl{RTVFSFILEOPS,pfnQuerySize} */ static DECLCALLBACK(int) rtZipTarWriterPush_QuerySize(void *pvThis, uint64_t *pcbFile) { PRTZIPTARFSSTREAMWRITERPUSH pPush = (PRTZIPTARFSSTREAMWRITERPUSH)pvThis; *pcbFile = pPush->cbCurrent; return VINF_SUCCESS; } /** * TAR writer push I/O stream operations. */ DECL_HIDDEN_CONST(const RTVFSIOSTREAMOPS) g_rtZipTarWriterIoStrmOps = { { /* Obj */ RTVFSOBJOPS_VERSION, RTVFSOBJTYPE_IO_STREAM, "TAR push I/O Stream", rtZipTarWriterPush_Close, rtZipTarWriterPush_QueryInfo, RTVFSOBJOPS_VERSION }, RTVFSIOSTREAMOPS_VERSION, RTVFSIOSTREAMOPS_FEAT_NO_SG, rtZipTarWriterPush_Read, rtZipTarWriterPush_Write, rtZipTarWriterPush_Flush, rtZipTarWriterPush_PollOne, rtZipTarWriterPush_Tell, rtZipTarWriterPush_Skip, NULL /*ZeroFill*/, RTVFSIOSTREAMOPS_VERSION, }; /** * TAR writer push file operations. */ DECL_HIDDEN_CONST(const RTVFSFILEOPS) g_rtZipTarWriterFileOps = { { /* Stream */ { /* Obj */ RTVFSOBJOPS_VERSION, RTVFSOBJTYPE_FILE, "TAR push file", rtZipTarWriterPush_Close, rtZipTarWriterPush_QueryInfo, RTVFSOBJOPS_VERSION }, RTVFSIOSTREAMOPS_VERSION, RTVFSIOSTREAMOPS_FEAT_NO_SG, rtZipTarWriterPush_Read, rtZipTarWriterPush_Write, rtZipTarWriterPush_Flush, rtZipTarWriterPush_PollOne, rtZipTarWriterPush_Tell, rtZipTarWriterPush_Skip, NULL /*ZeroFill*/, RTVFSIOSTREAMOPS_VERSION, }, RTVFSFILEOPS_VERSION, 0, { /* ObjSet */ RTVFSOBJSETOPS_VERSION, RT_UOFFSETOF(RTVFSFILEOPS, ObjSet) - RT_UOFFSETOF(RTVFSFILEOPS, Stream.Obj), rtZipTarWriterPush_SetMode, rtZipTarWriterPush_SetTimes, rtZipTarWriterPush_SetOwner, RTVFSOBJSETOPS_VERSION }, rtZipTarWriterPush_Seek, rtZipTarWriterPush_QuerySize, NULL /*SetSize*/, NULL /*QueryMaxSize*/, RTVFSFILEOPS_VERSION }; /** * Checks rcFatal and completes any current push file. * * On return the output stream position will be at the next header location. * * After this call, the push object no longer can write anything. * * @returns IPRT status code. * @param pThis The TAR writer instance. */ static int rtZipTarFssWriter_CompleteCurrentPushFile(PRTZIPTARFSSTREAMWRITER pThis) { /* * Check if there is a push file pending, remove it if there is. * We also check for fatal errors at this point so the caller doesn't need to. */ PRTZIPTARFSSTREAMWRITERPUSH pPush = pThis->pPush; if (!pPush) { AssertRC(pThis->rcFatal); return pThis->rcFatal; } pThis->pPush = NULL; pPush->pParent = NULL; int rc = pThis->rcFatal; AssertRCReturn(rc, rc); /* * Do we need to update the header. pThis->aHdrs[0] will retain the current * content at pPush->offHdr and we only need to update the size. */ if (pPush->fOpenEnded) { rc = rtZipTarFssWriter_FormatOffset(pThis->aHdrs[0].Common.size, pPush->cbCurrent); if (RT_SUCCESS(rc)) rc = rtZipTarFssWriter_ChecksumHdr(&pThis->aHdrs[0]); if (RT_SUCCESS(rc)) { rc = RTVfsFileWriteAt(pThis->hVfsFile, pPush->offHdr, &pThis->aHdrs[0], sizeof(pThis->aHdrs[0]), NULL); if (RT_SUCCESS(rc)) rc = RTVfsFileSeek(pThis->hVfsFile, pPush->offData + pPush->cbCurrent, RTFILE_SEEK_BEGIN, NULL); } } /* * Check that we've received all the data we were promissed in the PushFile * call, fail if we weren't. */ else AssertMsgStmt(pPush->cbCurrent == pPush->cbExpected, ("cbCurrent=%#RX64 cbExpected=%#RX64\n", pPush->cbCurrent, pPush->cbExpected), rc = VERR_BUFFER_UNDERFLOW); if (RT_SUCCESS(rc)) { /* * Do zero padding if necessary. */ if (pPush->cbCurrent & (RTZIPTAR_BLOCKSIZE - 1)) { size_t cbToZero = RTZIPTAR_BLOCKSIZE - (pPush->cbCurrent & (RTZIPTAR_BLOCKSIZE - 1)); rc = RTVfsIoStrmWrite(pThis->hVfsIos, g_abRTZero4K, cbToZero, true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) pThis->cbWritten += cbToZero; } } if (RT_SUCCESS(rc)) return VINF_SUCCESS; pThis->rcFatal = rc; return rc; } /** * Allocates a buffer for transfering file data. * * @note Will use the 3rd TAR header as fallback buffer if we're out of * memory! * * @returns Pointer to buffer (won't ever fail). * @param pThis The TAR writer instance. * @param pcbBuf Where to return the buffer size. This will be a * multiple of the TAR block size. * @param ppvFree Where to return the pointer to pass to RTMemTmpFree * when done with the buffer. * @param cbFile The file size. Used as a buffer size hint. */ static uint8_t *rtZipTarFssWrite_AllocBuf(PRTZIPTARFSSTREAMWRITER pThis, size_t *pcbBuf, void **ppvFree, uint64_t cbObject) { uint8_t *pbBuf; /* * If this is a large file, try for a large buffer with 16KB alignment. */ if (cbObject >= _64M) { pbBuf = (uint8_t *)RTMemTmpAlloc(_2M + _16K - 1); if (pbBuf) { *pcbBuf = _2M; *ppvFree = pbBuf; return RT_ALIGN_PT(pbBuf, _16K, uint8_t *); } } /* * 4KB aligned 512KB buffer if larger 512KB or larger. */ else if (cbObject >= _512K) { pbBuf = (uint8_t *)RTMemTmpAlloc(_512K + _4K - 1); if (pbBuf) { *pcbBuf = _512K; *ppvFree = pbBuf; return RT_ALIGN_PT(pbBuf, _4K, uint8_t *); } } /* * Otherwise a 4KB aligned 128KB buffer. */ else { pbBuf = (uint8_t *)RTMemTmpAlloc(_128K + _4K - 1); if (pbBuf) { *pcbBuf = _128K; *ppvFree = pbBuf; return RT_ALIGN_PT(pbBuf, _4K, uint8_t *); } } /* * If allocation failed, fallback on a 16KB buffer without any extra alignment. */ pbBuf = (uint8_t *)RTMemTmpAlloc(_16K); if (pbBuf) { *pcbBuf = _16K; *ppvFree = pbBuf; return pbBuf; } /* * Final fallback, 512KB buffer using the 3rd header. */ AssertCompile(RT_ELEMENTS(pThis->aHdrs) >= 3); *pcbBuf = sizeof(pThis->aHdrs[2]); *ppvFree = NULL; return (uint8_t *)&pThis->aHdrs[2]; } /** * Frees the sparse info for a TAR file. * * @param pSparse The sparse info to free. */ static void rtZipTarFssWriter_SparseInfoDestroy(PRTZIPTARSPARSE pSparse) { PRTZIPTARSPARSECHUNK pCur; PRTZIPTARSPARSECHUNK pNext; RTListForEachSafe(&pSparse->ChunkHead, pCur, pNext, RTZIPTARSPARSECHUNK, Entry) RTMemTmpFree(pCur); RTMemTmpFree(pSparse); } /** * Adds a data span to the sparse info. * * @returns VINF_SUCCESS or VINF_NO_TMP_MEMORY. * @param pSparse The sparse info to free. * @param offSpan Offset of the span. * @param cbSpan Number of bytes. */ static int rtZipTarFssWriter_SparseInfoAddSpan(PRTZIPTARSPARSE pSparse, uint64_t offSpan, uint64_t cbSpan) { /* * Get the chunk we're adding it to. */ PRTZIPTARSPARSECHUNK pChunk; if (pSparse->iNextSpan != 0) { pChunk = RTListGetLast(&pSparse->ChunkHead, RTZIPTARSPARSECHUNK, Entry); Assert(pSparse->iNextSpan < RT_ELEMENTS(pChunk->aSpans)); } else { pChunk = (PRTZIPTARSPARSECHUNK)RTMemTmpAllocZ(sizeof(*pChunk)); if (!pChunk) return VERR_NO_TMP_MEMORY; RTListAppend(&pSparse->ChunkHead, &pChunk->Entry); } /* * Append it. */ pSparse->cDataSpans += 1; pSparse->cbDataSpans += cbSpan; pChunk->aSpans[pSparse->iNextSpan].cb = cbSpan; pChunk->aSpans[pSparse->iNextSpan].off = offSpan; if (++pSparse->iNextSpan >= RT_ELEMENTS(pChunk->aSpans)) pSparse->iNextSpan = 0; return VINF_SUCCESS; } /** * Scans the input stream recording non-zero blocks. */ static int rtZipTarFssWriter_ScanSparseFile(PRTZIPTARFSSTREAMWRITER pThis, RTVFSFILE hVfsFile, uint64_t cbFile, size_t cbBuf, uint8_t *pbBuf, PRTZIPTARSPARSE *ppSparse) { RT_NOREF(pThis); /* * Create an empty sparse info bundle. */ PRTZIPTARSPARSE pSparse = (PRTZIPTARSPARSE)RTMemTmpAlloc(sizeof(*pSparse)); AssertReturn(pSparse, VERR_NO_MEMORY); pSparse->cbDataSpans = 0; pSparse->cDataSpans = 0; pSparse->iNextSpan = 0; RTListInit(&pSparse->ChunkHead); /* * Scan the file from the start. */ int rc = RTVfsFileSeek(hVfsFile, 0, RTFILE_SEEK_BEGIN, NULL); if (RT_SUCCESS(rc)) { bool fZeroSpan = false; uint64_t offSpan = 0; uint64_t cbSpan = 0; for (uint64_t off = 0; off < cbFile;) { uint64_t cbLeft = cbFile - off; size_t cbToRead = cbLeft >= cbBuf ? cbBuf : (size_t)cbLeft; rc = RTVfsFileRead(hVfsFile, pbBuf, cbToRead, NULL); if (RT_FAILURE(rc)) break; size_t cBlocks = cbToRead / RTZIPTAR_BLOCKSIZE; /* Zero pad the final buffer to a multiple of the blocksize. */ if (!(cbToRead & (RTZIPTAR_BLOCKSIZE - 1))) { /* likely */ } else { AssertBreakStmt(cbLeft == cbToRead, rc = VERR_INTERNAL_ERROR_3); RT_BZERO(&pbBuf[cbToRead], RTZIPTAR_BLOCKSIZE - (cbToRead & (RTZIPTAR_BLOCKSIZE - 1))); cBlocks++; } /* * Process the blocks we've just read one by one. */ uint8_t const *pbBlock = pbBuf; for (size_t iBlock = 0; iBlock < cBlocks; iBlock++) { bool fZeroBlock = ASMMemIsZero(pbBlock, RTZIPTAR_BLOCKSIZE); if (fZeroBlock == fZeroSpan) cbSpan += RTZIPTAR_BLOCKSIZE; else { if (!fZeroSpan && cbSpan) { rc = rtZipTarFssWriter_SparseInfoAddSpan(pSparse, offSpan, cbSpan); if (RT_FAILURE(rc)) break; } fZeroSpan = fZeroBlock; offSpan = off; cbSpan = RTZIPTAR_BLOCKSIZE; } /* next block. */ pbBlock += RTZIPTAR_BLOCKSIZE; off += RTZIPTAR_BLOCKSIZE; } } /* * Deal with the final span. If we've got zeros thowards the end, we * must add a zero byte data span at the end. */ if (RT_SUCCESS(rc)) { if (!fZeroSpan && cbSpan) { if (cbFile & (RTZIPTAR_BLOCKSIZE - 1)) { Assert(!(cbSpan & (RTZIPTAR_BLOCKSIZE - 1))); cbSpan -= RTZIPTAR_BLOCKSIZE; cbSpan |= cbFile & (RTZIPTAR_BLOCKSIZE - 1); } rc = rtZipTarFssWriter_SparseInfoAddSpan(pSparse, offSpan, cbSpan); } if (RT_SUCCESS(rc)) rc = rtZipTarFssWriter_SparseInfoAddSpan(pSparse, cbFile, 0); } } if (RT_SUCCESS(rc)) { /* * Return the file back to the start position before we return so that we * can segue into the regular rtZipTarFssWriter_AddFile without further ado. */ rc = RTVfsFileSeek(hVfsFile, 0, RTFILE_SEEK_BEGIN, NULL); if (RT_SUCCESS(rc)) { *ppSparse = pSparse; return VINF_SUCCESS; } } rtZipTarFssWriter_SparseInfoDestroy(pSparse); *ppSparse = NULL; return rc; } /** * Writes GNU the sparse file headers. * * @returns IPRT status code. * @param pThis The TAR writer instance. * @param pszPath The path to the file. * @param pObjInfo The object information. * @param pszOwnerNm The owner name. * @param pszGroupNm The group name. * @param pSparse The sparse file info. */ static int rtZipTarFssWriter_WriteGnuSparseHeaders(PRTZIPTARFSSTREAMWRITER pThis, const char *pszPath, PCRTFSOBJINFO pObjInfo, const char *pszOwnerNm, const char *pszGroupNm, PCRTZIPTARSPARSE pSparse) { /* * Format the first header. */ int rc = rtZipTarFssWriter_ObjInfoToHdr(pThis, pszPath, pObjInfo, pszOwnerNm, pszGroupNm, RTZIPTAR_TF_GNU_SPARSE); AssertRCReturn(rc, rc); AssertReturn(pThis->cHdrs == 1, VERR_INTERNAL_ERROR_2); /* data size. */ rc = rtZipTarFssWriter_FormatOffset(pThis->aHdrs[0].Common.size, pSparse->cbDataSpans); AssertRCReturn(rc, rc); /* realsize. */ rc = rtZipTarFssWriter_FormatOffset(pThis->aHdrs[0].Gnu.realsize, pObjInfo->cbObject); AssertRCReturn(rc, rc); Assert(pThis->aHdrs[0].Gnu.isextended == 0); /* * Walk the sparse spans, fill and write headers one by one. */ PRTZIPTARGNUSPARSE paSparse = &pThis->aHdrs[0].Gnu.sparse[0]; uint32_t cSparse = RT_ELEMENTS(pThis->aHdrs[0].Gnu.sparse); uint32_t iSparse = 0; PRTZIPTARSPARSECHUNK const pLastChunk = RTListGetLast(&pSparse->ChunkHead, RTZIPTARSPARSECHUNK, Entry); PRTZIPTARSPARSECHUNK pChunk; RTListForEach(&pSparse->ChunkHead, pChunk, RTZIPTARSPARSECHUNK, Entry) { uint32_t cSpans = pChunk != pLastChunk || pSparse->iNextSpan == 0 ? RT_ELEMENTS(pChunk->aSpans) : pSparse->iNextSpan; for (uint32_t iSpan = 0; iSpan < cSpans; iSpan++) { /* Flush the header? */ if (iSparse >= cSparse) { if (cSparse != RT_ELEMENTS(pThis->aHdrs[0].Gnu.sparse)) pThis->aHdrs[0].GnuSparse.isextended = 1; /* more headers to come */ else { pThis->aHdrs[0].Gnu.isextended = 1; /* more headers to come */ rc = rtZipTarFssWriter_ChecksumHdr(&pThis->aHdrs[0]); } if (RT_SUCCESS(rc)) rc = RTVfsIoStrmWrite(pThis->hVfsIos, &pThis->aHdrs[0], sizeof(pThis->aHdrs[0]), true /*fBlocking*/, NULL); if (RT_FAILURE(rc)) return rc; RT_ZERO(pThis->aHdrs[0]); cSparse = RT_ELEMENTS(pThis->aHdrs[0].GnuSparse.sp); iSparse = 0; paSparse = &pThis->aHdrs[0].GnuSparse.sp[0]; } /* Append sparse data segment. */ rc = rtZipTarFssWriter_FormatOffset(paSparse[iSparse].offset, pChunk->aSpans[iSpan].off); AssertRCReturn(rc, rc); rc = rtZipTarFssWriter_FormatOffset(paSparse[iSparse].numbytes, pChunk->aSpans[iSpan].cb); AssertRCReturn(rc, rc); iSparse++; } } /* * The final header. */ if (iSparse != 0) { if (cSparse != RT_ELEMENTS(pThis->aHdrs[0].Gnu.sparse)) Assert(pThis->aHdrs[0].GnuSparse.isextended == 0); else { Assert(pThis->aHdrs[0].Gnu.isextended == 0); rc = rtZipTarFssWriter_ChecksumHdr(&pThis->aHdrs[0]); } if (RT_SUCCESS(rc)) rc = RTVfsIoStrmWrite(pThis->hVfsIos, &pThis->aHdrs[0], sizeof(pThis->aHdrs[0]), true /*fBlocking*/, NULL); } pThis->cHdrs = 0; return rc; } /** * Adds a potentially sparse file to the output. * * @returns IPRT status code. * @param pThis The TAR writer instance. * @param pszPath The path to the file. * @param hVfsFile The potentially sparse file. * @param hVfsIos The I/O stream of the file. Same as @a hVfsFile. * @param pObjInfo The object information. * @param pszOwnerNm The owner name. * @param pszGroupNm The group name. */ static int rtZipTarFssWriter_AddFileSparse(PRTZIPTARFSSTREAMWRITER pThis, const char *pszPath, RTVFSFILE hVfsFile, RTVFSIOSTREAM hVfsIos, PCRTFSOBJINFO pObjInfo, const char *pszOwnerNm, const char *pszGroupNm) { /* * Scan the input file to locate all zero blocks. */ void *pvBufFree; size_t cbBuf; uint8_t *pbBuf = rtZipTarFssWrite_AllocBuf(pThis, &cbBuf, &pvBufFree, pObjInfo->cbObject); PRTZIPTARSPARSE pSparse; int rc = rtZipTarFssWriter_ScanSparseFile(pThis, hVfsFile, pObjInfo->cbObject, cbBuf, pbBuf, &pSparse); if (RT_SUCCESS(rc)) { /* * If there aren't at least 2 zero blocks in the file, don't bother * doing the sparse stuff and store it as a normal file. */ if (pSparse->cbDataSpans + RTZIPTAR_BLOCKSIZE > (uint64_t)pObjInfo->cbObject) { rtZipTarFssWriter_SparseInfoDestroy(pSparse); RTMemTmpFree(pvBufFree); return rtZipTarFssWriter_AddFile(pThis, pszPath, hVfsIos, pObjInfo, pszOwnerNm, pszGroupNm); } /* * Produce and write the headers. */ if (pThis->enmFormat == RTZIPTARFORMAT_GNU) rc = rtZipTarFssWriter_WriteGnuSparseHeaders(pThis, pszPath, pObjInfo, pszOwnerNm, pszGroupNm, pSparse); else AssertStmt(pThis->enmFormat != RTZIPTARFORMAT_GNU, rc = VERR_NOT_IMPLEMENTED); if (RT_SUCCESS(rc)) { /* * Write the file bytes. */ PRTZIPTARSPARSECHUNK const pLastChunk = RTListGetLast(&pSparse->ChunkHead, RTZIPTARSPARSECHUNK, Entry); PRTZIPTARSPARSECHUNK pChunk; RTListForEach(&pSparse->ChunkHead, pChunk, RTZIPTARSPARSECHUNK, Entry) { uint32_t cSpans = pChunk != pLastChunk || pSparse->iNextSpan == 0 ? RT_ELEMENTS(pChunk->aSpans) : pSparse->iNextSpan; for (uint32_t iSpan = 0; iSpan < cSpans; iSpan++) { rc = RTVfsFileSeek(hVfsFile, pChunk->aSpans[iSpan].off, RTFILE_SEEK_BEGIN, NULL); if (RT_FAILURE(rc)) break; uint64_t cbLeft = pChunk->aSpans[iSpan].cb; Assert( !(cbLeft & (RTZIPTAR_BLOCKSIZE - 1)) || (iSpan + 1 == cSpans && pChunk == pLastChunk)); while (cbLeft > 0) { size_t cbToRead = cbLeft >= cbBuf ? cbBuf : (size_t)cbLeft; rc = RTVfsFileRead(hVfsFile, pbBuf, cbToRead, NULL); if (RT_SUCCESS(rc)) { rc = RTVfsIoStrmWrite(pThis->hVfsIos, pbBuf, cbToRead, true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) { pThis->cbWritten += cbToRead; cbLeft -= cbToRead; continue; } } break; } if (RT_FAILURE(rc)) break; } } /* * Do the zero padding. */ if ( RT_SUCCESS(rc) && (pSparse->cbDataSpans & (RTZIPTAR_BLOCKSIZE - 1))) { size_t cbToZero = RTZIPTAR_BLOCKSIZE - (pSparse->cbDataSpans & (RTZIPTAR_BLOCKSIZE - 1)); rc = RTVfsIoStrmWrite(pThis->hVfsIos, g_abRTZero4K, cbToZero, true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) pThis->cbWritten += cbToZero; } } if (RT_FAILURE(rc)) pThis->rcFatal = rc; rtZipTarFssWriter_SparseInfoDestroy(pSparse); } RTMemTmpFree(pvBufFree); return rc; } /** * Adds an I/O stream of indeterminate length to the TAR file. * * This requires the output to be seekable, i.e. a file, because we need to go * back and update @c size field of the TAR header after pumping all the data * bytes thru and establishing the file length. * * @returns IPRT status code. * @param pThis The TAR writer instance. * @param pszPath The path to the file. * @param hVfsIos The I/O stream of the file. * @param pObjInfo The object information. * @param pszOwnerNm The owner name. * @param pszGroupNm The group name. */ static int rtZipTarFssWriter_AddFileStream(PRTZIPTARFSSTREAMWRITER pThis, const char *pszPath, RTVFSIOSTREAM hVfsIos, PCRTFSOBJINFO pObjInfo, const char *pszOwnerNm, const char *pszGroupNm) { AssertReturn(pThis->hVfsFile != NIL_RTVFSFILE, VERR_NOT_A_FILE); /* * Append the header. */ int rc = rtZipTarFssWriter_ObjInfoToHdr(pThis, pszPath, pObjInfo, pszOwnerNm, pszGroupNm, UINT8_MAX); if (RT_SUCCESS(rc)) { RTFOFF const offHdr = RTVfsFileTell(pThis->hVfsFile); if (offHdr >= 0) { rc = RTVfsIoStrmWrite(pThis->hVfsIos, pThis->aHdrs, pThis->cHdrs * sizeof(pThis->aHdrs[0]), true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) { pThis->cbWritten += pThis->cHdrs * sizeof(pThis->aHdrs[0]); /* * Transfer the bytes. */ void *pvBufFree; size_t cbBuf; uint8_t *pbBuf = rtZipTarFssWrite_AllocBuf(pThis, &cbBuf, &pvBufFree, pObjInfo->cbObject > 0 && pObjInfo->cbObject != RTFOFF_MAX ? pObjInfo->cbObject : _1G); uint64_t cbReadTotal = 0; for (;;) { size_t cbRead = 0; int rc2 = rc = RTVfsIoStrmRead(hVfsIos, pbBuf, cbBuf, true /*fBlocking*/, &cbRead); if (RT_SUCCESS(rc)) { cbReadTotal += cbRead; rc = RTVfsIoStrmWrite(pThis->hVfsIos, pbBuf, cbRead, true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) { pThis->cbWritten += cbRead; if (rc2 != VINF_EOF) continue; } } Assert(rc != VERR_EOF /* expecting VINF_EOF! */); break; } RTMemTmpFree(pvBufFree); /* * Do the zero padding. */ if ((cbReadTotal & (RTZIPTAR_BLOCKSIZE - 1)) && RT_SUCCESS(rc)) { size_t cbToZero = RTZIPTAR_BLOCKSIZE - (cbReadTotal & (RTZIPTAR_BLOCKSIZE - 1)); rc = RTVfsIoStrmWrite(pThis->hVfsIos, g_abRTZero4K, cbToZero, true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) pThis->cbWritten += cbToZero; } /* * Update the header. We ASSUME that aHdr[0] is unmodified * from before the data pumping above and just update the size. */ if ((RTFOFF)cbReadTotal != pObjInfo->cbObject && RT_SUCCESS(rc)) { RTFOFF const offRestore = RTVfsFileTell(pThis->hVfsFile); if (offRestore >= 0) { rc = rtZipTarFssWriter_FormatOffset(pThis->aHdrs[0].Common.size, cbReadTotal); if (RT_SUCCESS(rc)) rc = rtZipTarFssWriter_ChecksumHdr(&pThis->aHdrs[0]); if (RT_SUCCESS(rc)) { rc = RTVfsFileWriteAt(pThis->hVfsFile, offHdr, &pThis->aHdrs[0], sizeof(pThis->aHdrs[0]), NULL); if (RT_SUCCESS(rc)) rc = RTVfsFileSeek(pThis->hVfsFile, offRestore, RTFILE_SEEK_BEGIN, NULL); } } else rc = (int)offRestore; } if (RT_SUCCESS(rc)) return VINF_SUCCESS; } } else rc = (int)offHdr; pThis->rcFatal = rc; } return rc; } /** * Adds a file to the stream. * * @returns IPRT status code. * @param pThis The TAR writer instance. * @param pszPath The path to the file. * @param hVfsIos The I/O stream of the file. * @param fFlags The RTVFSFSSTREAMOPS::pfnAdd flags. * @param pObjInfo The object information. * @param pszOwnerNm The owner name. * @param pszGroupNm The group name. */ static int rtZipTarFssWriter_AddFile(PRTZIPTARFSSTREAMWRITER pThis, const char *pszPath, RTVFSIOSTREAM hVfsIos, PCRTFSOBJINFO pObjInfo, const char *pszOwnerNm, const char *pszGroupNm) { /* * Append the header. */ int rc = rtZipTarFssWriter_ObjInfoToHdr(pThis, pszPath, pObjInfo, pszOwnerNm, pszGroupNm, UINT8_MAX); if (RT_SUCCESS(rc)) { rc = RTVfsIoStrmWrite(pThis->hVfsIos, pThis->aHdrs, pThis->cHdrs * sizeof(pThis->aHdrs[0]), true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) { pThis->cbWritten += pThis->cHdrs * sizeof(pThis->aHdrs[0]); /* * Copy the bytes. Padding the last buffer to a multiple of 512. */ void *pvBufFree; size_t cbBuf; uint8_t *pbBuf = rtZipTarFssWrite_AllocBuf(pThis, &cbBuf, &pvBufFree, pObjInfo->cbObject); uint64_t cbLeft = pObjInfo->cbObject; while (cbLeft > 0) { size_t cbRead = cbLeft > cbBuf ? cbBuf : (size_t)cbLeft; rc = RTVfsIoStrmRead(hVfsIos, pbBuf, cbRead, true /*fBlocking*/, NULL); if (RT_FAILURE(rc)) break; size_t cbToWrite = cbRead; if (cbRead & (RTZIPTAR_BLOCKSIZE - 1)) { size_t cbToZero = RTZIPTAR_BLOCKSIZE - (cbRead & (RTZIPTAR_BLOCKSIZE - 1)); memset(&pbBuf[cbRead], 0, cbToZero); cbToWrite += cbToZero; } rc = RTVfsIoStrmWrite(pThis->hVfsIos, pbBuf, cbToWrite, true /*fBlocking*/, NULL); if (RT_FAILURE(rc)) break; pThis->cbWritten += cbToWrite; cbLeft -= cbRead; } RTMemTmpFree(pvBufFree); if (RT_SUCCESS(rc)) return VINF_SUCCESS; } pThis->rcFatal = rc; } return rc; } /** * Adds a symbolic link to the stream. * * @returns IPRT status code. * @param pThis The TAR writer instance. * @param pszPath The path to the object. * @param hVfsSymlink The symbolic link object to add. * @param pObjInfo The object information. * @param pszOwnerNm The owner name. * @param pszGroupNm The group name. */ static int rtZipTarFssWriter_AddSymlink(PRTZIPTARFSSTREAMWRITER pThis, const char *pszPath, RTVFSSYMLINK hVfsSymlink, PCRTFSOBJINFO pObjInfo, const char *pszOwnerNm, const char *pszGroupNm) { /* * Read the symlink target first and check that it's not too long. * Flip DOS slashes. */ char szTarget[RTPATH_MAX]; int rc = RTVfsSymlinkRead(hVfsSymlink, szTarget, sizeof(szTarget)); if (RT_SUCCESS(rc)) { #if RTPATH_STYLE != RTPATH_STR_F_STYLE_UNIX char *pszDosSlash = strchr(szTarget, '\\'); while (pszDosSlash) { *pszDosSlash = '/'; pszDosSlash = strchr(pszDosSlash + 1, '\\'); } #endif size_t cchTarget = strlen(szTarget); if (cchTarget < sizeof(pThis->aHdrs[0].Common.linkname)) { /* * Create a header, add the link target and push it out. */ rc = rtZipTarFssWriter_ObjInfoToHdr(pThis, pszPath, pObjInfo, pszOwnerNm, pszGroupNm, UINT8_MAX); if (RT_SUCCESS(rc)) { memcpy(pThis->aHdrs[0].Common.linkname, szTarget, cchTarget + 1); rc = rtZipTarFssWriter_ChecksumHdr(&pThis->aHdrs[0]); if (RT_SUCCESS(rc)) { rc = RTVfsIoStrmWrite(pThis->hVfsIos, pThis->aHdrs, pThis->cHdrs * sizeof(pThis->aHdrs[0]), true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) { pThis->cbWritten += pThis->cHdrs * sizeof(pThis->aHdrs[0]); return VINF_SUCCESS; } pThis->rcFatal = rc; } } } else { /** @todo implement gnu and pax long name extensions. */ rc = VERR_TAR_NAME_TOO_LONG; } } return rc; } /** * Adds a simple object to the stream. * * Simple objects only contains metadata, no actual data bits. Directories, * devices, fifos, sockets and such. * * @returns IPRT status code. * @param pThis The TAR writer instance. * @param pszPath The path to the object. * @param pObjInfo The object information. * @param pszOwnerNm The owner name. * @param pszGroupNm The group name. */ static int rtZipTarFssWriter_AddSimpleObject(PRTZIPTARFSSTREAMWRITER pThis, const char *pszPath, PCRTFSOBJINFO pObjInfo, const char *pszOwnerNm, const char *pszGroupNm) { int rc = rtZipTarFssWriter_ObjInfoToHdr(pThis, pszPath, pObjInfo, pszOwnerNm, pszGroupNm, UINT8_MAX); if (RT_SUCCESS(rc)) { rc = RTVfsIoStrmWrite(pThis->hVfsIos, pThis->aHdrs, pThis->cHdrs * sizeof(pThis->aHdrs[0]), true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) { pThis->cbWritten += pThis->cHdrs * sizeof(pThis->aHdrs[0]); return VINF_SUCCESS; } pThis->rcFatal = rc; } return rc; } /** * @interface_method_impl{RTVFSOBJOPS,pfnClose} */ static DECLCALLBACK(int) rtZipTarFssWriter_Close(void *pvThis) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)pvThis; rtZipTarFssWriter_CompleteCurrentPushFile(pThis); RTVfsIoStrmRelease(pThis->hVfsIos); pThis->hVfsIos = NIL_RTVFSIOSTREAM; if (pThis->hVfsFile != NIL_RTVFSFILE) { RTVfsFileRelease(pThis->hVfsFile); pThis->hVfsFile = NIL_RTVFSFILE; } if (pThis->pszOwner) { RTStrFree(pThis->pszOwner); pThis->pszOwner = NULL; } if (pThis->pszGroup) { RTStrFree(pThis->pszGroup); pThis->pszGroup = NULL; } if (pThis->pszPrefix) { RTStrFree(pThis->pszPrefix); pThis->pszPrefix = NULL; } return VINF_SUCCESS; } /** * @interface_method_impl{RTVFSOBJOPS,pfnQueryInfo} */ static DECLCALLBACK(int) rtZipTarFssWriter_QueryInfo(void *pvThis, PRTFSOBJINFO pObjInfo, RTFSOBJATTRADD enmAddAttr) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)pvThis; /* Take the lazy approach here, with the sideffect of providing some info that is actually kind of useful. */ return RTVfsIoStrmQueryInfo(pThis->hVfsIos, pObjInfo, enmAddAttr); } /** * @interface_method_impl{RTVFSFSSTREAMOPS,pfnAdd} */ static DECLCALLBACK(int) rtZipTarFssWriter_Add(void *pvThis, const char *pszPath, RTVFSOBJ hVfsObj, uint32_t fFlags) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)pvThis; /* * Before we continue we must complete any current push file and check rcFatal. */ int rc = rtZipTarFssWriter_CompleteCurrentPushFile(pThis); if (RT_FAILURE(rc)) return rc; /* * Query information about the object. */ RTFSOBJINFO ObjInfo; rc = RTVfsObjQueryInfo(hVfsObj, &ObjInfo, RTFSOBJATTRADD_UNIX); AssertRCReturn(rc, rc); RTFSOBJINFO ObjOwnerName; rc = RTVfsObjQueryInfo(hVfsObj, &ObjOwnerName, RTFSOBJATTRADD_UNIX_OWNER); if (RT_FAILURE(rc) || ObjOwnerName.Attr.u.UnixOwner.szName[0] == '\0') strcpy(ObjOwnerName.Attr.u.UnixOwner.szName, "someone"); RTFSOBJINFO ObjGrpName; rc = RTVfsObjQueryInfo(hVfsObj, &ObjGrpName, RTFSOBJATTRADD_UNIX_GROUP); if (RT_FAILURE(rc) || ObjGrpName.Attr.u.UnixGroup.szName[0] == '\0') strcpy(ObjGrpName.Attr.u.UnixGroup.szName, "somegroup"); /* * Do type specific handling. File have several options and variations to * take into account, thus the mess. */ if (RTFS_IS_FILE(ObjInfo.Attr.fMode)) { RTVFSIOSTREAM hVfsIos = RTVfsObjToIoStream(hVfsObj); AssertReturn(hVfsIos != NIL_RTVFSIOSTREAM, VERR_WRONG_TYPE); if (fFlags & RTVFSFSSTRM_ADD_F_STREAM) rc = rtZipTarFssWriter_AddFileStream(pThis, pszPath, hVfsIos, &ObjInfo, ObjOwnerName.Attr.u.UnixOwner.szName, ObjGrpName.Attr.u.UnixOwner.szName); else if ( !(pThis->fFlags & RTZIPTAR_C_SPARSE) || ObjInfo.cbObject < RTZIPTAR_MIN_SPARSE) rc = rtZipTarFssWriter_AddFile(pThis, pszPath, hVfsIos, &ObjInfo, ObjOwnerName.Attr.u.UnixOwner.szName, ObjGrpName.Attr.u.UnixOwner.szName); else { RTVFSFILE hVfsFile = RTVfsObjToFile(hVfsObj); if (hVfsFile != NIL_RTVFSFILE) { rc = rtZipTarFssWriter_AddFileSparse(pThis, pszPath, hVfsFile, hVfsIos, &ObjInfo, ObjOwnerName.Attr.u.UnixOwner.szName, ObjGrpName.Attr.u.UnixOwner.szName); RTVfsFileRelease(hVfsFile); } else rc = rtZipTarFssWriter_AddFile(pThis, pszPath, hVfsIos, &ObjInfo, ObjOwnerName.Attr.u.UnixOwner.szName, ObjGrpName.Attr.u.UnixOwner.szName); } RTVfsIoStrmRelease(hVfsIos); } else if (RTFS_IS_SYMLINK(ObjInfo.Attr.fMode)) { RTVFSSYMLINK hVfsSymlink = RTVfsObjToSymlink(hVfsObj); AssertReturn(hVfsSymlink != NIL_RTVFSSYMLINK, VERR_WRONG_TYPE); rc = rtZipTarFssWriter_AddSymlink(pThis, pszPath, hVfsSymlink, &ObjInfo, ObjOwnerName.Attr.u.UnixOwner.szName, ObjGrpName.Attr.u.UnixOwner.szName); RTVfsSymlinkRelease(hVfsSymlink); } else rc = rtZipTarFssWriter_AddSimpleObject(pThis, pszPath, &ObjInfo, ObjOwnerName.Attr.u.UnixOwner.szName, ObjGrpName.Attr.u.UnixOwner.szName); return rc; } /** * @interface_method_impl{RTVFSFSSTREAMOPS,pfnPushFile} */ static DECLCALLBACK(int) rtZipTarFssWriter_PushFile(void *pvThis, const char *pszPath, uint64_t cbFile, PCRTFSOBJINFO paObjInfo, uint32_t cObjInfo, uint32_t fFlags, PRTVFSIOSTREAM phVfsIos) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)pvThis; /* * We can only deal with output of indeterminate length if the output is * seekable (see also rtZipTarFssWriter_AddFileStream). */ AssertReturn(cbFile != UINT64_MAX || pThis->hVfsFile != NIL_RTVFSFILE, VERR_NOT_A_FILE); AssertReturn(RT_BOOL(cbFile == UINT64_MAX) == RT_BOOL(fFlags & RTVFSFSSTRM_ADD_F_STREAM), VERR_INVALID_FLAGS); /* * Before we continue we must complete any current push file and check rcFatal. */ int rc = rtZipTarFssWriter_CompleteCurrentPushFile(pThis); if (RT_FAILURE(rc)) return rc; /* * If no object info was provideded, fake up some. */ const char *pszOwnerNm = "someone"; const char *pszGroupNm = "somegroup"; RTFSOBJINFO ObjInfo; if (cObjInfo == 0) { /* Fake up a info. */ RT_ZERO(ObjInfo); ObjInfo.cbObject = cbFile != UINT64_MAX ? cbFile : 0; ObjInfo.cbAllocated = cbFile != UINT64_MAX ? RT_ALIGN_64(cbFile, RTZIPTAR_BLOCKSIZE) : UINT64_MAX; RTTimeNow(&ObjInfo.ModificationTime); ObjInfo.BirthTime = ObjInfo.ModificationTime; ObjInfo.ChangeTime = ObjInfo.ModificationTime; ObjInfo.AccessTime = ObjInfo.ModificationTime; ObjInfo.Attr.fMode = RTFS_TYPE_FILE | 0666; ObjInfo.Attr.enmAdditional = RTFSOBJATTRADD_UNIX; ObjInfo.Attr.u.Unix.uid = NIL_RTUID; ObjInfo.Attr.u.Unix.gid = NIL_RTGID; ObjInfo.Attr.u.Unix.cHardlinks = 1; //ObjInfo.Attr.u.Unix.INodeIdDevice = 0; //ObjInfo.Attr.u.Unix.INodeId = 0; //ObjInfo.Attr.u.Unix.fFlags = 0; //ObjInfo.Attr.u.Unix.GenerationId = 0; //ObjInfo.Attr.u.Unix.Device = 0; } else { /* Make a copy of the object info and adjust the size, if necessary. */ ObjInfo = paObjInfo[0]; Assert(ObjInfo.Attr.enmAdditional == RTFSOBJATTRADD_UNIX); Assert(RTFS_IS_FILE(ObjInfo.Attr.fMode)); if ((uint64_t)ObjInfo.cbObject != cbFile) { ObjInfo.cbObject = cbFile != UINT64_MAX ? cbFile : 0; ObjInfo.cbAllocated = cbFile != UINT64_MAX ? RT_ALIGN_64(cbFile, RTZIPTAR_BLOCKSIZE) : UINT64_MAX; } /* Lookup the group and user names. */ for (uint32_t i = 0; i < cObjInfo; i++) if ( paObjInfo[i].Attr.enmAdditional == RTFSOBJATTRADD_UNIX_OWNER && paObjInfo[i].Attr.u.UnixOwner.szName[0] != '\0') pszOwnerNm = paObjInfo[i].Attr.u.UnixOwner.szName; else if ( paObjInfo[i].Attr.enmAdditional == RTFSOBJATTRADD_UNIX_GROUP && paObjInfo[i].Attr.u.UnixGroup.szName[0] != '\0') pszGroupNm = paObjInfo[i].Attr.u.UnixGroup.szName; } /* * Create an I/O stream object for the caller to use. */ RTFOFF const offHdr = RTVfsIoStrmTell(pThis->hVfsIos); AssertReturn(offHdr >= 0, (int)offHdr); PRTZIPTARFSSTREAMWRITERPUSH pPush; RTVFSIOSTREAM hVfsIos; if (pThis->hVfsFile == NIL_RTVFSFILE) { rc = RTVfsNewIoStream(&g_rtZipTarWriterIoStrmOps, sizeof(*pPush), RTFILE_O_WRITE, NIL_RTVFS, NIL_RTVFSLOCK, &hVfsIos, (void **)&pPush); if (RT_FAILURE(rc)) return rc; } else { RTVFSFILE hVfsFile; rc = RTVfsNewFile(&g_rtZipTarWriterFileOps, sizeof(*pPush), RTFILE_O_WRITE, NIL_RTVFS, NIL_RTVFSLOCK, &hVfsFile, (void **)&pPush); if (RT_FAILURE(rc)) return rc; hVfsIos = RTVfsFileToIoStream(hVfsFile); RTVfsFileRelease(hVfsFile); } pPush->pParent = NULL; pPush->cbExpected = cbFile; pPush->offHdr = (uint64_t)offHdr; pPush->offData = 0; pPush->offCurrent = 0; pPush->cbCurrent = 0; pPush->ObjInfo = ObjInfo; pPush->fOpenEnded = cbFile == UINT64_MAX; /* * Produce and write file headers. */ rc = rtZipTarFssWriter_ObjInfoToHdr(pThis, pszPath, &ObjInfo, pszOwnerNm, pszGroupNm, RTZIPTAR_TF_NORMAL); if (RT_SUCCESS(rc)) { size_t cbHdrs = pThis->cHdrs * sizeof(pThis->aHdrs[0]); rc = RTVfsIoStrmWrite(pThis->hVfsIos, pThis->aHdrs, cbHdrs, true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) { pThis->cbWritten += cbHdrs; /* * Complete the object and return. */ pPush->offData = pPush->offHdr + cbHdrs; if (cbFile == UINT64_MAX) pPush->cbExpected = (uint64_t)(RTFOFF_MAX - _4K) - pPush->offData; pPush->pParent = pThis; pThis->pPush = pPush; *phVfsIos = hVfsIos; return VINF_SUCCESS; } pThis->rcFatal = rc; } RTVfsIoStrmRelease(hVfsIos); return rc; } /** * @interface_method_impl{RTVFSFSSTREAMOPS,pfnEnd} */ static DECLCALLBACK(int) rtZipTarFssWriter_End(void *pvThis) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)pvThis; /* * Make sure to complete any pending push file and that rcFatal is fine. */ int rc = rtZipTarFssWriter_CompleteCurrentPushFile(pThis); if (RT_SUCCESS(rc)) { /* * There are supposed to be two zero headers at the end of the archive. * GNU tar may write more because of the way it does buffering, * libarchive OTOH writes exactly two. */ rc = RTVfsIoStrmWrite(pThis->hVfsIos, g_abRTZero4K, RTZIPTAR_BLOCKSIZE * 2, true /*fBlocking*/, NULL); if (RT_SUCCESS(rc)) { pThis->cbWritten += RTZIPTAR_BLOCKSIZE * 2; /* * Flush the output. */ rc = RTVfsIoStrmFlush(pThis->hVfsIos); if (RT_SUCCESS(rc)) return rc; } pThis->rcFatal = rc; } return rc; } /** * Tar filesystem stream operations. */ static const RTVFSFSSTREAMOPS g_rtZipTarFssOps = { { /* Obj */ RTVFSOBJOPS_VERSION, RTVFSOBJTYPE_FS_STREAM, "TarFsStreamWriter", rtZipTarFssWriter_Close, rtZipTarFssWriter_QueryInfo, RTVFSOBJOPS_VERSION }, RTVFSFSSTREAMOPS_VERSION, 0, NULL, rtZipTarFssWriter_Add, rtZipTarFssWriter_PushFile, rtZipTarFssWriter_End, RTVFSFSSTREAMOPS_VERSION }; RTDECL(int) RTZipTarFsStreamToIoStream(RTVFSIOSTREAM hVfsIosOut, RTZIPTARFORMAT enmFormat, uint32_t fFlags, PRTVFSFSSTREAM phVfsFss) { /* * Input validation. */ AssertPtrReturn(phVfsFss, VERR_INVALID_HANDLE); *phVfsFss = NIL_RTVFSFSSTREAM; AssertPtrReturn(hVfsIosOut, VERR_INVALID_HANDLE); AssertReturn(enmFormat > RTZIPTARFORMAT_INVALID && enmFormat < RTZIPTARFORMAT_END, VERR_INVALID_PARAMETER); AssertReturn(!(fFlags & ~RTZIPTAR_C_VALID_MASK), VERR_INVALID_FLAGS); if (enmFormat == RTZIPTARFORMAT_DEFAULT) enmFormat = RTZIPTARFORMAT_GNU; AssertReturn( enmFormat == RTZIPTARFORMAT_GNU || enmFormat == RTZIPTARFORMAT_USTAR , VERR_NOT_IMPLEMENTED); /* Only implementing GNU and USTAR output at the moment. */ uint32_t cRefs = RTVfsIoStrmRetain(hVfsIosOut); AssertReturn(cRefs != UINT32_MAX, VERR_INVALID_HANDLE); /* * Retain the input stream and create a new filesystem stream handle. */ PRTZIPTARFSSTREAMWRITER pThis; RTVFSFSSTREAM hVfsFss; int rc = RTVfsNewFsStream(&g_rtZipTarFssOps, sizeof(*pThis), NIL_RTVFS, NIL_RTVFSLOCK, false /*fReadOnly*/, &hVfsFss, (void **)&pThis); if (RT_SUCCESS(rc)) { pThis->hVfsIos = hVfsIosOut; pThis->hVfsFile = RTVfsIoStrmToFile(hVfsIosOut); pThis->enmFormat = enmFormat; pThis->fFlags = fFlags; pThis->rcFatal = VINF_SUCCESS; pThis->uidOwner = NIL_RTUID; pThis->pszOwner = NULL; pThis->gidGroup = NIL_RTGID; pThis->pszGroup = NULL; pThis->pszPrefix = NULL; pThis->pModTime = NULL; pThis->fFileModeAndMask = ~(RTFMODE)0; pThis->fFileModeOrMask = 0; pThis->fDirModeAndMask = ~(RTFMODE)0; pThis->fDirModeOrMask = 0; *phVfsFss = hVfsFss; return VINF_SUCCESS; } RTVfsIoStrmRelease(hVfsIosOut); return rc; } RTDECL(int) RTZipTarFsStreamSetOwner(RTVFSFSSTREAM hVfsFss, RTUID uid, const char *pszOwner) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)RTVfsFsStreamToPrivate(hVfsFss, &g_rtZipTarFssOps); AssertReturn(pThis, VERR_WRONG_TYPE); pThis->uidOwner = uid; if (pThis->pszOwner) { RTStrFree(pThis->pszOwner); pThis->pszOwner = NULL; } if (pszOwner) { pThis->pszOwner = RTStrDup(pszOwner); AssertReturn(pThis->pszOwner, VERR_NO_STR_MEMORY); } return VINF_SUCCESS; } RTDECL(int) RTZipTarFsStreamSetGroup(RTVFSFSSTREAM hVfsFss, RTGID gid, const char *pszGroup) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)RTVfsFsStreamToPrivate(hVfsFss, &g_rtZipTarFssOps); AssertReturn(pThis, VERR_WRONG_TYPE); pThis->gidGroup = gid; if (pThis->pszGroup) { RTStrFree(pThis->pszGroup); pThis->pszGroup = NULL; } if (pszGroup) { pThis->pszGroup = RTStrDup(pszGroup); AssertReturn(pThis->pszGroup, VERR_NO_STR_MEMORY); } return VINF_SUCCESS; } RTDECL(int) RTZipTarFsStreamSetPrefix(RTVFSFSSTREAM hVfsFss, const char *pszPrefix) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)RTVfsFsStreamToPrivate(hVfsFss, &g_rtZipTarFssOps); AssertReturn(pThis, VERR_WRONG_TYPE); AssertReturn(!pszPrefix || *pszPrefix, VERR_INVALID_NAME); if (pThis->pszPrefix) { RTStrFree(pThis->pszPrefix); pThis->pszPrefix = NULL; pThis->cchPrefix = 0; } if (pszPrefix) { /* * Make a copy of the prefix, make sure it ends with a slash, * then flip DOS slashes. */ size_t cchPrefix = strlen(pszPrefix); char *pszCopy = RTStrAlloc(cchPrefix + 3); AssertReturn(pszCopy, VERR_NO_STR_MEMORY); memcpy(pszCopy, pszPrefix, cchPrefix + 1); RTPathEnsureTrailingSeparator(pszCopy, cchPrefix + 3); #if RTPATH_STYLE != RTPATH_STR_F_STYLE_UNIX char *pszDosSlash = strchr(pszCopy, '\\'); while (pszDosSlash) { *pszDosSlash = '/'; pszDosSlash = strchr(pszDosSlash + 1, '\\'); } #endif pThis->cchPrefix = cchPrefix + strlen(&pszCopy[cchPrefix]); pThis->pszPrefix = pszCopy; } return VINF_SUCCESS; } RTDECL(int) RTZipTarFsStreamSetModTime(RTVFSFSSTREAM hVfsFss, PCRTTIMESPEC pModificationTime) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)RTVfsFsStreamToPrivate(hVfsFss, &g_rtZipTarFssOps); AssertReturn(pThis, VERR_WRONG_TYPE); if (pModificationTime) { pThis->ModTime = *pModificationTime; pThis->pModTime = &pThis->ModTime; } else pThis->pModTime = NULL; return VINF_SUCCESS; } RTDECL(int) RTZipTarFsStreamSetFileMode(RTVFSFSSTREAM hVfsFss, RTFMODE fAndMode, RTFMODE fOrMode) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)RTVfsFsStreamToPrivate(hVfsFss, &g_rtZipTarFssOps); AssertReturn(pThis, VERR_WRONG_TYPE); pThis->fFileModeAndMask = fAndMode | ~RTFS_UNIX_ALL_PERMS; pThis->fFileModeOrMask = fOrMode & RTFS_UNIX_ALL_PERMS; return VINF_SUCCESS; } RTDECL(int) RTZipTarFsStreamSetDirMode(RTVFSFSSTREAM hVfsFss, RTFMODE fAndMode, RTFMODE fOrMode) { PRTZIPTARFSSTREAMWRITER pThis = (PRTZIPTARFSSTREAMWRITER)RTVfsFsStreamToPrivate(hVfsFss, &g_rtZipTarFssOps); AssertReturn(pThis, VERR_WRONG_TYPE); pThis->fDirModeAndMask = fAndMode | ~RTFS_UNIX_ALL_PERMS; pThis->fDirModeOrMask = fOrMode & RTFS_UNIX_ALL_PERMS; return VINF_SUCCESS; }