#ifndef H_HEADER #define H_HEADER /** \ingroup header * \file lib/header.h * * An rpm header carries all information about a package. A header is * a collection of data elements called tags. Each tag has a data type, * and includes 1 or more values. * */ /* RPM - Copyright (C) 1995-2001 Red Hat Software */ #include #include #include #include #ifdef __cplusplus extern "C" { #endif /** \ingroup header * Header magic value */ extern const unsigned char rpm_header_magic[8]; /** \ingroup header * Include calculation for 8 bytes of (magic, 0)? */ enum hMagic { HEADER_MAGIC_NO = 0, HEADER_MAGIC_YES = 1 }; /** \ingroup header * Create new (empty) header instance. * @return header */ Header headerNew(void); /** \ingroup header * Dereference a header instance. * @param h header * @return NULL always */ Header headerFree( Header h); /** \ingroup header * Reference a header instance. * @param h header * @return new header reference */ Header headerLink(Header h); /** \ingroup header * Return size of on-disk header representation in bytes. * @param h header * @param magicp include size of 8 bytes for (magic, 0)? * @return size of on-disk header */ unsigned int headerSizeof(Header h, int magicp); /** \ingroup header * Convert header to on-disk representation. * @deprecated Use headerExport() instead * @param h header (with pointers) * @return on-disk header blob (i.e. with offsets) */ void * headerUnload(Header h); /** \ingroup header * Export header to on-disk representation. * @param h header (with pointers) * @retval bsize on-disk header blob size in bytes * @return on-disk header blob (i.e. with offsets) */ void * headerExport(Header h, unsigned int * bsize); /** \ingroup header * Convert header to on-disk representation, and then reload. * This is used to insure that all header data is in one chunk. * @param h header (with pointers) * @param tag region tag * @return on-disk header (with offsets) */ Header headerReload(Header h, rpmTagVal tag); /** \ingroup header * Duplicate a header. * @param h header * @return new header instance */ Header headerCopy(Header h); /** \ingroup header * Convert header to in-memory representation. * @deprecated Use headerImport() instead * @param uh on-disk header blob (i.e. with offsets) * @return header */ Header headerLoad(void * uh); /** \ingroup header * Make a copy and convert header to in-memory representation. * @deprecated Use headerImport() instead * @param uh on-disk header blob (i.e. with offsets) * @return header */ Header headerCopyLoad(const void * uh); enum headerImportFlags_e { HEADERIMPORT_COPY = (1 << 0), /* Make copy of blob on import? */ HEADERIMPORT_FAST = (1 << 1), /* Faster but less safe? */ }; typedef rpmFlags headerImportFlags; /** \ingroup header * Import header to in-memory representation. * @param blob on-disk header blob (i.e. with offsets) * @param bsize on-disk header blob size in bytes (0 if unknown) * @param flags flags to control operation * @return header */ Header headerImport(void *blob, unsigned int bsize, headerImportFlags flags); /** \ingroup header * Read (and load) header from file handle. * @param fd file handle * @param magicp read (and verify) 8 bytes of (magic, 0)? * @return header (or NULL on error) */ Header headerRead(FD_t fd, int magicp); /** \ingroup header * Write (with unload) header to file handle. * @param fd file handle * @param h header * @param magicp prefix write with 8 bytes of (magic, 0)? * @return 0 on success, 1 on error */ int headerWrite(FD_t fd, Header h, int magicp); /** \ingroup header * Check if tag is in header. * @param h header * @param tag tag * @return 1 on success, 0 on failure */ int headerIsEntry(Header h, rpmTagVal tag); /** \ingroup header * Modifier flags for headerGet() operation. * For consistent behavior you'll probably want to use ALLOC to ensure * the caller owns the data, but MINMEM is useful for avoiding extra * copy of data when you are sure the header wont go away. * Most of the time you'll probably want EXT too, but note that extensions * tags don't generally honor the other flags, MINMEM, RAW, ALLOC and ARGV * are only relevant for non-extension data. */ enum headerGetFlags_e { HEADERGET_DEFAULT = 0, /* legacy headerGetEntry() behavior */ HEADERGET_MINMEM = (1 << 0), /* pointers can refer to header memory */ HEADERGET_EXT = (1 << 1), /* lookup extension types too */ HEADERGET_RAW = (1 << 2), /* return raw contents (no i18n lookups) */ HEADERGET_ALLOC = (1 << 3), /* always allocate memory for all data */ HEADERGET_ARGV = (1 << 4), /* return string arrays NULL-terminated */ }; typedef rpmFlags headerGetFlags; /** \ingroup header * Retrieve tag value. * @param h header * @param tag tag * @retval td tag data container * @param flags retrieval modifier flags * @return 1 on success, 0 on failure */ int headerGet(Header h, rpmTagVal tag, rpmtd td, headerGetFlags flags); enum headerPutFlags_e { HEADERPUT_DEFAULT = 0, HEADERPUT_APPEND = (1 << 0), }; typedef rpmFlags headerPutFlags; /** \ingroup header * Add or append tag to header. * * @param h header * @param td tag data container * @param flags flags to control operation * @return 1 on success, 0 on failure */ int headerPut(Header h, rpmtd td, headerPutFlags flags); /** \ingroup header * @{ * Type-safe methods for inserting tag data to header. * Tag data type is validated to match the function type, ie things like * headerPutUint32(h, RPMTAG_NAME, ...) will return failure. For non-array * types size must equal 1, and data is checked to be non-NULL. For array * types, add-or-append mode is always used. * * headerPutString() can be used on both RPM_STRING_TYPE and * RPM_STRING_ARRAY_TYPE (to add a single string into the array) tags, * for others the type must match exactly. * * These are intended to "do the right thing" in the common case, if you * need more fine grained control use headerPut() & friends instead. * @todo Make doxygen group these meaningfully. * * @param h header * @param tag tag to insert * @param val pointer to value(s) * @param size number of items in array (1 or larger) * @return 1 on success, 0 on failure * */ int headerPutBin(Header h, rpmTagVal tag, const uint8_t *val, rpm_count_t size); int headerPutString(Header h, rpmTagVal tag, const char *val); int headerPutStringArray(Header h, rpmTagVal tag, const char **val, rpm_count_t size); int headerPutChar(Header h, rpmTagVal tag, const char *val, rpm_count_t size); int headerPutUint8(Header h, rpmTagVal tag, const uint8_t *val, rpm_count_t size); int headerPutUint16(Header h, rpmTagVal tag, const uint16_t *val, rpm_count_t size); int headerPutUint32(Header h, rpmTagVal tag, const uint32_t *val, rpm_count_t size); int headerPutUint64(Header h, rpmTagVal tag, const uint64_t *val, rpm_count_t size); /** @} */ /** \ingroup header * Add locale specific tag to header. * A NULL lang is interpreted as the C locale. Here are the rules: * \verbatim * - If the tag isn't in the header, it's added with the passed string * as new value. * - If the tag occurs multiple times in entry, which tag is affected * by the operation is undefined. * - If the tag is in the header w/ this language, the entry is * *replaced* (like headerMod()). * \endverbatim * This function is intended to just "do the right thing". If you need * more fine grained control use headerPut() and headerMod(). * * @param h header * @param tag tag * @param string tag value * @param lang locale * @return 1 on success, 0 on failure */ int headerAddI18NString(Header h, rpmTagVal tag, const char * string, const char * lang); /** \ingroup header * Modify tag in header. * If there are multiple entries with this tag, the first one gets replaced. * @param h header * @param td tag data container * @return 1 on success, 0 on failure */ int headerMod(Header h, rpmtd td); /** \ingroup header * Delete tag in header. * Removes all entries of type tag from the header, returns 1 if none were * found. * * @param h header * @param tag tag * @return 0 on success, 1 on failure (INCONSISTENT) */ int headerDel(Header h, rpmTagVal tag); /** \ingroup header * Return formatted output string from header tags. * The returned string must be free()d. * * @param h header * @param fmt format to use * @retval errmsg error message (if any) * @return formatted output string (malloc'ed) */ char * headerFormat(Header h, const char * fmt, errmsg_t * errmsg); /** \ingroup header * Duplicate tag values from one header into another. * @param headerFrom source header * @param headerTo destination header * @param tagstocopy array of tags that are copied */ void headerCopyTags(Header headerFrom, Header headerTo, const rpmTagVal * tagstocopy); /** \ingroup header * Destroy header tag iterator. * @param hi header tag iterator * @return NULL always */ HeaderIterator headerFreeIterator(HeaderIterator hi); /** \ingroup header * Create header tag iterator. * @param h header * @return header tag iterator */ HeaderIterator headerInitIterator(Header h); /** \ingroup header * Return next tag contents from header. * @param hi header tag iterator * @retval td tag data container * @return 1 on success, 0 on failure */ int headerNext(HeaderIterator hi, rpmtd td); /** \ingroup header * Return next tag number from header. * @param hi header tag iterator * @return next tag, RPMTAG_NOT_FOUND to stop iteration */ rpmTagVal headerNextTag(HeaderIterator hi); /** \ingroup header * Return any non-array tag from header, converted to string * @param h header * @param tag tag to retrieve * @return string pointer (malloced) or NULL on failure */ char * headerGetAsString(Header h, rpmTagVal tag); /** \ingroup header * Return a simple string tag from header * @param h header * @param tag tag to retrieve * @return string pointer (to header memory) or NULL on failure */ const char * headerGetString(Header h, rpmTagVal tag); /* \ingroup header * Return a simple number tag (or extension) from header * @param h header * @param tag tag to retrieve * @return numeric tag value or 0 on failure */ uint64_t headerGetNumber(Header h, rpmTagVal tag); /** \ingroup header * Check if header is a source or binary package header * @param h header * @return 0 == binary, 1 == source */ int headerIsSource(Header h); /** \ingroup header * Return header instance, ie is the header from rpmdb. * @param h header * @return rpmdb record number or 0 */ unsigned int headerGetInstance(Header h); typedef enum headerConvOps_e { HEADERCONV_EXPANDFILELIST = 0, HEADERCONV_COMPRESSFILELIST = 1, HEADERCONV_RETROFIT_V3 = 2, } headerConvOps; /** \ingroup header * Convert header to/from (legacy) data presentation * @param h header * @param op one of headerConvOps operations * @return 1 on success, 0 on failure */ int headerConvert(Header h, int op); #ifdef __cplusplus } #endif #endif /* H_HEADER */