/*@-type@*/ /* FIX: cast to HV_t bogus */ #ifndef H_HDRINLINE #define H_HDRINLINE /** \ingroup header * \file lib/hdrinline.h */ #ifdef __cplusplus extern "C" { #endif /*@+voidabstract -nullpass -mustmod -compdef -shadow -predboolothers @*/ /** \ingroup header * Header methods for rpm headers. */ /*@observer@*/ /*@unchecked@*/ extern struct HV_s * hdrVec; /** \ingroup header */ /*@unused@*/ static inline HV_t h2hv(Header h) /*@*/ { /*@-abstract -castexpose -refcounttrans@*/ return ((HV_t)h); /*@=abstract =castexpose =refcounttrans@*/ } /** \ingroup header * Create new (empty) header instance. * @return header */ /*@unused@*/ static inline Header headerNew(void) /*@*/ { return hdrVec->hdrnew(); } /** \ingroup header * Dereference a header instance. * @todo Remove debugging entry from the ABI. * @param h header * @param msg * @param fn * @param ln * @return NULL always */ /*@unused@*/ static inline /*@null@*/ Header XheaderFree( /*@killref@*/ /*@null@*/ Header h, /*@null@*/ const char * msg, const char * fn, unsigned ln) /*@modifies h @*/ { /*@-abstract@*/ if (h == NULL) return NULL; /*@=abstract@*/ return (h2hv(h)->Xhdrfree) (h, msg, fn, ln); } /** \ingroup header * Reference a header instance. * @todo Remove debugging entry from the ABI. * @param h header * @param msg * @param fn * @param ln * @return new header reference */ /*@unused@*/ static inline Header XheaderLink(Header h, /*@null@*/ const char * msg, const char * fn, unsigned ln) /*@modifies h @*/ { return (h2hv(h)->Xhdrlink) (h, msg, fn, ln); } /** \ingroup header * Dereference a header instance. * @todo Remove debugging entry from the ABI. * @param h header * @param msg * @param fn * @param ln * @return new header reference */ /*@unused@*/ static inline Header XheaderUnlink(/*@killref@*/ /*@null@*/ Header h, /*@null@*/ const char * msg, const char * fn, unsigned ln) /*@modifies h @*/ { /*@-abstract@*/ if (h == NULL) return NULL; /*@=abstract@*/ return (h2hv(h)->Xhdrunlink) (h, msg, fn, ln); } /*@-exportlocal@*/ /** \ingroup header * Sort tags in header. * @param h header */ /*@unused@*/ static inline void headerSort(Header h) /*@modifies h @*/ { /*@-noeffectuncon@*/ /* FIX: add rc */ (h2hv(h)->hdrsort) (h); /*@=noeffectuncon@*/ return; } /** \ingroup header * Restore tags in header to original ordering. * @param h header */ /*@unused@*/ static inline void headerUnsort(Header h) /*@modifies h @*/ { /*@-noeffectuncon@*/ /* FIX: add rc */ (h2hv(h)->hdrunsort) (h); /*@=noeffectuncon@*/ return; } /*@=exportlocal@*/ /** \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 */ /*@unused@*/ static inline unsigned int headerSizeof(/*@null@*/ Header h, enum hMagic magicp) /*@modifies h @*/ { /*@-abstract@*/ if (h == NULL) return 0; /*@=abstract@*/ return (h2hv(h)->hdrsizeof) (h, magicp); } /** \ingroup header * Convert header to on-disk representation. * @param h header (with pointers) * @return on-disk header blob (i.e. with offsets) */ /*@unused@*/ static inline /*@only@*/ /*@null@*/ void * headerUnload(Header h) /*@modifies h @*/ { return (h2hv(h)->hdrunload) (h); } /** \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) */ /*@unused@*/ static inline /*@null@*/ Header headerReload(/*@only@*/ Header h, int tag) /*@modifies h @*/ { /*@-onlytrans@*/ return (h2hv(h)->hdrreload) (h, tag); /*@=onlytrans@*/ } /** \ingroup header * Duplicate a header. * @param h header * @return new header instance */ /*@unused@*/ static inline /*@null@*/ Header headerCopy(Header h) /*@modifies h @*/ { return (h2hv(h)->hdrcopy) (h); } /** \ingroup header * Convert header to in-memory representation. * @param uh on-disk header blob (i.e. with offsets) * @return header */ /*@unused@*/ static inline /*@null@*/ Header headerLoad(/*@kept@*/ void * uh) /*@modifies uh @*/ { return hdrVec->hdrload(uh); } /** \ingroup header * Make a copy and convert header to in-memory representation. * @param uh on-disk header blob (i.e. with offsets) * @return header */ /*@unused@*/ static inline /*@null@*/ Header headerCopyLoad(const void * uh) /*@*/ { return hdrVec->hdrcopyload(uh); } /** \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) */ /*@unused@*/ static inline /*@null@*/ Header headerRead(FD_t fd, enum hMagic magicp) /*@modifies fd @*/ { return hdrVec->hdrread(fd, 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 */ /*@unused@*/ static inline int headerWrite(FD_t fd, /*@null@*/ Header h, enum hMagic magicp) /*@modifies fd, h @*/ { /*@-abstract@*/ if (h == NULL) return 0; /*@=abstract@*/ return (h2hv(h)->hdrwrite) (fd, h, magicp); } /** \ingroup header * Check if tag is in header. * @param h header * @param tag tag * @return 1 on success, 0 on failure */ /*@unused@*/ static inline int headerIsEntry(/*@null@*/ Header h, int_32 tag) /*@modifies h @*/ { /*@-abstract@*/ if (h == NULL) return 0; /*@=abstract@*/ return (h2hv(h)->hdrisentry) (h, tag); } /** \ingroup header * Free data allocated when retrieved from header. * @param h header * @param data address of data (or NULL) * @param type type of data (or -1 to force free) * @return NULL always */ /*@unused@*/ static inline /*@null@*/ void * headerFreeTag(Header h, /*@only@*/ /*@null@*/ const void * data, rpmTagType type) /*@modifies data @*/ { return (h2hv(h)->hdrfreetag) (h, data, type); } /** \ingroup header * Retrieve tag value. * Will never return RPM_I18NSTRING_TYPE! RPM_STRING_TYPE elements with * RPM_I18NSTRING_TYPE equivalent entries are translated (if HEADER_I18NTABLE * entry is present). * * @param h header * @param tag tag * @retval type address of tag value data type (or NULL) * @retval p address of pointer to tag value(s) (or NULL) * @retval c address of number of values (or NULL) * @return 1 on success, 0 on failure */ /*@unused@*/ static inline int headerGetEntry(Header h, int_32 tag, /*@null@*/ /*@out@*/ hTYP_t type, /*@null@*/ /*@out@*/ void ** p, /*@null@*/ /*@out@*/ hCNT_t c) /*@modifies *type, *p, *c @*/ { return (h2hv(h)->hdrget) (h, tag, type, p, c); } /** \ingroup header * Retrieve tag value using header internal array. * Get an entry using as little extra RAM as possible to return the tag value. * This is only an issue for RPM_STRING_ARRAY_TYPE. * * @param h header * @param tag tag * @retval type address of tag value data type (or NULL) * @retval p address of pointer to tag value(s) (or NULL) * @retval c address of number of values (or NULL) * @return 1 on success, 0 on failure */ /*@unused@*/ static inline int headerGetEntryMinMemory(Header h, int_32 tag, /*@null@*/ /*@out@*/ hTYP_t type, /*@null@*/ /*@out@*/ hPTR_t * p, /*@null@*/ /*@out@*/ hCNT_t c) /*@modifies *type, *p, *c @*/ { return (h2hv(h)->hdrgetmin) (h, tag, type, p, c); } /** \ingroup header * Add tag to header. * Duplicate tags are okay, but only defined for iteration (with the * exceptions noted below). While you are allowed to add i18n string * arrays through this function, you probably don't mean to. See * headerAddI18NString() instead. * * @param h header * @param tag tag * @param type tag value data type * @param p pointer to tag value(s) * @param c number of values * @return 1 on success, 0 on failure */ /*@mayexit@*/ /*@unused@*/ static inline int headerAddEntry(Header h, int_32 tag, int_32 type, const void * p, int_32 c) /*@modifies h @*/ { return (h2hv(h)->hdradd) (h, tag, type, p, c); } /** \ingroup header * Append element to tag array in header. * Appends item p to entry w/ tag and type as passed. Won't work on * RPM_STRING_TYPE. Any pointers into header memory returned from * headerGetEntryMinMemory() for this entry are invalid after this * call has been made! * * @param h header * @param tag tag * @param type tag value data type * @param p pointer to tag value(s) * @param c number of values * @return 1 on success, 0 on failure */ /*@unused@*/ static inline int headerAppendEntry(Header h, int_32 tag, int_32 type, const void * p, int_32 c) /*@modifies h @*/ { return (h2hv(h)->hdrappend) (h, tag, type, p, c); } /** \ingroup header * Add or append element to tag array in header. * @todo Arg "p" should have const. * @param h header * @param tag tag * @param type tag value data type * @param p pointer to tag value(s) * @param c number of values * @return 1 on success, 0 on failure */ /*@unused@*/ static inline int headerAddOrAppendEntry(Header h, int_32 tag, int_32 type, const void * p, int_32 c) /*@modifies h @*/ { return (h2hv(h)->hdraddorappend) (h, tag, type, p, c); } /** \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 headerModifyEntry()). * \endverbatim * This function is intended to just "do the right thing". If you need * more fine grained control use headerAddEntry() and headerModifyEntry(). * * @param h header * @param tag tag * @param string tag value * @param lang locale * @return 1 on success, 0 on failure */ /*@unused@*/ static inline int headerAddI18NString(Header h, int_32 tag, const char * string, const char * lang) /*@modifies h @*/ { return (h2hv(h)->hdraddi18n) (h, tag, string, lang); } /** \ingroup header * Modify tag in header. * If there are multiple entries with this tag, the first one gets replaced. * @param h header * @param tag tag * @param type tag value data type * @param p pointer to tag value(s) * @param c number of values * @return 1 on success, 0 on failure */ /*@unused@*/ static inline int headerModifyEntry(Header h, int_32 tag, int_32 type, const void * p, int_32 c) /*@modifies h @*/ { return (h2hv(h)->hdrmodify) (h, tag, type, p, c); } /** \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) */ /*@unused@*/ static inline int headerRemoveEntry(Header h, int_32 tag) /*@modifies h @*/ { return (h2hv(h)->hdrremove) (h, 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 * @param tbltags array of tag name/value pairs * @param extensions chained table of formatting extensions. * @retval errmsg error message (if any) * @return formatted output string (malloc'ed) */ /*@unused@*/ static inline /*@only@*/ char * headerSprintf(Header h, const char * fmt, const struct headerTagTableEntry_s * tbltags, const struct headerSprintfExtension_s * extensions, /*@null@*/ /*@out@*/ errmsg_t * errmsg) /*@modifies *errmsg @*/ { return (h2hv(h)->hdrsprintf) (h, fmt, tbltags, extensions, 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 */ /*@unused@*/ static inline void headerCopyTags(Header headerFrom, Header headerTo, hTAG_t tagstocopy) /*@modifies headerFrom, headerTo @*/ { /*@-noeffectuncon@*/ /* FIX: add rc */ hdrVec->hdrcopytags(headerFrom, headerTo, tagstocopy); /*@=noeffectuncon@*/ return; } /** \ingroup header * Destroy header tag iterator. * @param hi header tag iterator * @return NULL always */ /*@unused@*/ static inline HeaderIterator headerFreeIterator(/*@only@*/ HeaderIterator hi) /*@modifies hi @*/ { return hdrVec->hdrfreeiter(hi); } /** \ingroup header * Create header tag iterator. * @param h header * @return header tag iterator */ /*@unused@*/ static inline HeaderIterator headerInitIterator(Header h) /*@modifies h */ { return hdrVec->hdrinititer(h); } /** \ingroup header * Return next tag from header. * @param hi header tag iterator * @retval tag address of tag * @retval type address of tag value data type * @retval p address of pointer to tag value(s) * @retval c address of number of values * @return 1 on success, 0 on failure */ /*@unused@*/ static inline int headerNextIterator(HeaderIterator hi, /*@null@*/ /*@out@*/ hTAG_t tag, /*@null@*/ /*@out@*/ hTYP_t type, /*@null@*/ /*@out@*/ hPTR_t * p, /*@null@*/ /*@out@*/ hCNT_t c) /*@modifies hi, *tag, *type, *p, *c @*/ { return hdrVec->hdrnextiter(hi, tag, type, p, c); } /*@=voidabstract =nullpass =mustmod =compdef =shadow =predboolothers @*/ #ifdef __cplusplus } #endif #endif /* H_HDRINLINE */ /*@=type@*/