/* RPM - Copyright (C) 1995 Red Hat Software * * header.h - routines for managing rpm tagged structures */ /* WARNING: 1 means success, 0 means failure (yes, this is backwards) */ #ifndef H_HEADER #define H_HEADER #include #include #ifdef __cplusplus extern "C" { #endif #if defined(__alpha__) || defined(__alpha) typedef long int int_64; typedef int int_32; typedef short int int_16; typedef char int_8; typedef unsigned int uint_32; typedef unsigned short uint_16; #else #if 0 /* XXX hpux needs -Ae in CFLAGS to grok this */ typedef long long int int_64; #endif typedef int int_32; typedef short int int_16; typedef char int_8; typedef unsigned int uint_32; typedef unsigned short uint_16; #endif typedef /*@abstract@*/ /*@refcounted@*/ struct headerToken *Header; typedef /*@abstract@*/ struct headerIteratorS *HeaderIterator; struct headerTagTableEntry { const char * name; int val; }; enum headerSprintfExtenstionType { HEADER_EXT_LAST = 0, HEADER_EXT_FORMAT, HEADER_EXT_MORE, HEADER_EXT_TAG }; /* This will only ever be passed RPM_TYPE_INT32 or RPM_TYPE_STRING to help keep things simple */ typedef char * (*headerTagFormatFunction)(int_32 type, const void * data, char * formatPrefix, int padding, int element); /* This is allowed to fail, which indicates the tag doesn't exist */ typedef int (*headerTagTagFunction)(Header h, int_32 * type, void ** data, int_32 * count, int * freeData); struct headerSprintfExtension { enum headerSprintfExtenstionType type; char * name; union { void * generic; headerTagFormatFunction formatFunction; headerTagTagFunction tagFunction; struct headerSprintfExtension * more; } u; }; /* This defines some basic conversions all header users would probably like to have */ extern const struct headerSprintfExtension headerDefaultFormats[]; /* read and write a header from a file */ Header headerRead(FD_t fd, int magicp); int headerWrite(FD_t fd, Header h, int magicp); Header headerGzRead(FD_t fd, int magicp); int headerGzWrite(FD_t fd, Header h, int magicp); unsigned int headerSizeof(Header h, int magicp); #define HEADER_MAGIC_NO 0 #define HEADER_MAGIC_YES 1 /* load and unload a header from a chunk of memory */ Header headerLoad(void *p); void *headerUnload(Header h); Header headerNew(void); void headerFree( /*@killref@*/ Header h); /* dump a header to a file, in human readable format */ void headerDump(Header h, FILE *f, int flags, const struct headerTagTableEntry * tags); /* the returned string must be free()d */ char * headerSprintf(Header h, const char * fmt, const struct headerTagTableEntry * tags, const struct headerSprintfExtension * extentions, /*@out@*/ const char ** error); #define HEADER_DUMP_INLINE 1 /* 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 */ int headerAddEntry(Header h, int_32 tag, int_32 type, const void *p, int_32 c); /* if there are multiple entries with this tag, the first one gets replaced */ int headerModifyEntry(Header h, int_32 tag, int_32 type, void *p, int_32 c); /* Return array of lang names */ char **headerGetLangs(Header h); /* A NULL lang is interpreted as the C locale. Here are the rules: 1) If the tag isn't in the Header, it's added with the passed string as a version. 2) If the tag occurs multiple times in entry, which tag is affected by the operation is undefined. 2) If the tag is in the header w/ this language, the entry is *replaced* (like headerModifyEntry()). This function is intended to just "do the right thing". If you need more fine grained control use headerAddEntry() and headerModifyEntry() but be careful! */ int headerAddI18NString(Header h, int_32 tag, const char * string, const char * lang); /* Appends item p to entry w/ tag and type as passed. Won't work on RPM_STRING_TYPE. Any pointers from headerGetEntry() for this entry are invalid after this call has been made! */ int headerAppendEntry(Header h, int_32 tag, int_32 type, void * p, int_32 c); int headerAddOrAppendEntry(Header h, int_32 tag, int_32 type, void * p, int_32 c); /* Will never return RPM_I18NSTRING_TYPE! RPM_STRING_TYPE elements w/ RPM_I18NSTRING_TYPE equivalent enreies are translated (if HEADER_I18NTABLE entry is present). */ int headerGetEntry(Header h, int_32 tag, /*@out@*/ int_32 *type, /*@out@*/ void **p, /*@out@*/int_32 *c); /* This gets an entry, and uses as little extra RAM as possible to represent it (this is only an issue for RPM_STRING_ARRAY_TYPE. */ int headerGetEntryMinMemory(Header h, int_32 tag, int_32 *type, /*@out@*/ void **p, /*@out@*/ int_32 *c); /* If *type is RPM_NULL_TYPE any type will match, otherwise only *type will match. */ int headerGetRawEntry(Header h, int_32 tag, /*@out@*/ int_32 *type, /*@out@*/ void **p, /*@out@*/ int_32 *c); int headerIsEntry(Header h, int_32 tag); /* removes all entries of type tag from the header, returns 1 if none were found */ int headerRemoveEntry(Header h, int_32 tag); HeaderIterator headerInitIterator(Header h); int headerNextIterator(HeaderIterator iter, /*@out@*/ int_32 *tag, /*@out@*/ int_32 *type, /*@out@*/ void **p, /*@out@*/ int_32 *c); void headerFreeIterator( /*@only@*/ HeaderIterator iter); Header headerCopy(Header h); void headerSort(Header h); Header headerLink(Header h); int headerUsageCount(Header h); void headerCopyTags(Header headerFrom, Header headerTo, int_32 *tagstocopy); /* Entry Types */ #define RPM_MIN_TYPE 0 #define RPM_NULL_TYPE 0 #define RPM_CHAR_TYPE 1 #define RPM_INT8_TYPE 2 #define RPM_INT16_TYPE 3 #define RPM_INT32_TYPE 4 /* #define RPM_INT64_TYPE 5 ---- These aren't supported (yet) */ #define RPM_STRING_TYPE 6 #define RPM_BIN_TYPE 7 #define RPM_STRING_ARRAY_TYPE 8 #define RPM_I18NSTRING_TYPE 9 #define RPM_MAX_TYPE 9 /* Tags -- general use tags should start at 1000 (RPM's tag space starts there) */ #define HEADER_I18NTABLE 100 #ifdef __cplusplus } #endif #endif /* H_HEADER */