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  2.   lib
  3.   tagexts.c
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/** \ingroup header
 * \file lib/formats.c
 */

#include "system.h"

#include <rpm/rpmtypes.h>
#include <rpm/rpmlib.h>
#include <rpm/rpmmacro.h>	/* XXX for %_i18ndomains */
#include <rpm/rpmfi.h>
#include <rpm/rpmstring.h>
#include <rpm/rpmlog.h>
#include "lib/misc.h"		/* tag function proto */

#include "debug.h"

struct headerTagFunc_s {
    rpmTag tag;		/*!< Tag of extension. */
    headerTagTagFunction func;	/*!< Pointer to formatter function. */	
};

/** \ingroup rpmfi
 * Retrieve file names from header.
 *
 * The representation of file names in package headers changed in rpm-4.0.
 * Originally, file names were stored as an array of absolute paths.
 * In rpm-4.0, file names are stored as separate arrays of dirname's and
 * basename's, * with a dirname index to associate the correct dirname
 * with each basname.
 *
 * This function is used to retrieve file names independent of how the
 * file names are represented in the package header.
 * 
 * @param h		header
 * @param tagN		RPMTAG_BASENAMES | PMTAG_ORIGBASENAMES
 * @param withstate	take file state into account?
 * @retval td		tag data container
 * @return		1 on success
 */
static int fnTag(Header h, rpmTag tagN, int withstate, rpmtd td)
{
    const char **baseNames, **dirNames;
    const char *fileStates = NULL;
    uint32_t *dirIndexes;
    rpm_count_t count, retcount, dncount;
    size_t size = 0;
    rpmTag dirNameTag = RPMTAG_DIRNAMES;
    rpmTag dirIndexesTag = RPMTAG_DIRINDEXES;
    int i, j;
    int rc = 0; /* assume failure */
    struct rpmtd_s bnames, dnames, dixs, fstates;

    if (tagN == RPMTAG_ORIGBASENAMES) {
	dirNameTag = RPMTAG_ORIGDIRNAMES;
	dirIndexesTag = RPMTAG_ORIGDIRINDEXES;
    }

    if (!headerGet(h, tagN, &bnames, HEADERGET_MINMEM)) {
	return 0;		/* no file list */
    }

    (void) headerGet(h, dirNameTag, &dnames, HEADERGET_MINMEM);
    (void) headerGet(h, dirIndexesTag, &dixs, HEADERGET_MINMEM);

    retcount = count = rpmtdCount(&bnames);
    dncount = rpmtdCount(&dnames);

    /* Basic sanity checking for our interrelated tags  */
    if (rpmtdCount(&dixs) != count || dncount < 1 || dncount > count)
	td->flags |= RPMTD_INVALID;

    if (withstate) {
	/* no recorded states means no installed files */
	if (!headerGet(h, RPMTAG_FILESTATES, &fstates, HEADERGET_MINMEM))
	    goto exit;
	if (rpmtdCount(&fstates) != count)
	    td->flags |= RPMTD_INVALID;
	fileStates = fstates.data;
    }

    if (td->flags & RPMTD_INVALID)
	goto exit;

    baseNames = bnames.data;
    dirNames = dnames.data;
    dirIndexes = dixs.data;

    /*
     * fsm, psm and rpmfi assume the data is stored in a single allocation
     * block, until those assumptions are removed we need to jump through
     * a few hoops here and precalculate sizes etc
     */
    for (i = 0; i < count; i++) {
	if (fileStates && !RPMFILE_IS_INSTALLED(fileStates[i])) {
	    retcount--;
	    continue;
	}
	/* Sanity check  directory indexes are within bounds */
	if (dirIndexes[i] >= dncount) {
	    td->flags |= RPMTD_INVALID;
	    break;
	}
	size += strlen(baseNames[i]) + strlen(dirNames[dirIndexes[i]]) + 1;
    }

    if (!(td->flags & RPMTD_INVALID)) {
	char **fileNames = xmalloc(size + (sizeof(*fileNames) * retcount));
	char *t = ((char *) fileNames) + (sizeof(*fileNames) * retcount);
	for (i = 0, j = 0; i < count; i++) {
	    if (fileStates && !RPMFILE_IS_INSTALLED(fileStates[i]))
		continue;
	    fileNames[j++] = t;
	    t = stpcpy( stpcpy(t, dirNames[dirIndexes[i]]), baseNames[i]);
	    *t++ = '\0';
	}

	td->data = fileNames;
	td->count = retcount;
	td->type = RPM_STRING_ARRAY_TYPE;
	td->flags |= RPMTD_ALLOCED;
	rc = 1;
    }

exit:
    rpmtdFreeData(&bnames);
    rpmtdFreeData(&dnames);
    rpmtdFreeData(&dixs);
    /* only safe if the headerGet() on file states was actually called */
    if (fileStates)
	rpmtdFreeData(&fstates);

    return rc;
}

static int filedepTag(Header h, rpmTag tagN, rpmtd td, headerGetFlags hgflags)
{
    rpmfi fi = rpmfiNew(NULL, h, RPMTAG_BASENAMES, RPMFI_NOHEADER);
    rpmds ds = NULL;
    char **fdeps = NULL;
    int numfiles;
    char deptype = 'R';
    int fileix;
    int rc = 0;

    numfiles = rpmfiFC(fi);
    if (numfiles <= 0) {
	goto exit;
    }

    if (tagN == RPMTAG_PROVIDENAME)
	deptype = 'P';
    else if (tagN == RPMTAG_REQUIRENAME)
	deptype = 'R';

    ds = rpmdsNew(h, tagN, 0);
    fdeps = xmalloc(numfiles * sizeof(*fdeps));

    while ((fileix = rpmfiNext(fi)) >= 0) {
	ARGV_t deps = NULL;
	const uint32_t * ddict = NULL;
	int ndx = rpmfiFDepends(fi, &ddict);
	if (ddict != NULL) {
	    while (ndx-- > 0) {
		const char * DNEVR;
		unsigned dix = *ddict++;
		char mydt = ((dix >> 24) & 0xff);
		if (mydt != deptype)
		    continue;
		dix &= 0x00ffffff;
		(void) rpmdsSetIx(ds, dix-1);
		if (rpmdsNext(ds) < 0)
		    continue;
		DNEVR = rpmdsDNEVR(ds);
		if (DNEVR != NULL) {
		    argvAdd(&deps, DNEVR + 2);
		}
	    }
	}
	fdeps[fileix] = deps ? argvJoin(deps, " ") : xstrdup("");
	argvFree(deps);
    }
    td->data = fdeps;
    td->count = numfiles;
    td->flags = RPMTD_ALLOCED | RPMTD_PTR_ALLOCED;
    td->type = RPM_STRING_ARRAY_TYPE;
    rc = 1;

exit:
    rpmfiFree(fi);
    rpmdsFree(ds);
    return rc;
}

typedef enum tMode_e {
    NORMALTRIGGER     = 0,
    FILETRIGGER       = 1,
    TRANSFILETRIGGER  = 2,
} tMode;

/**
 * Retrieve trigger info.
 * @param mode		type of trigger (see tMode_e)
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int triggercondsTagFor(tMode mode, Header h, rpmtd td,
				headerGetFlags hgflags)
{
    uint32_t * indices;
    int i, j;
    char ** conds;
    struct rpmtd_s nametd, indextd, flagtd, versiontd, scripttd;
    int hgeflags = HEADERGET_MINMEM;
    rpmTagVal triggername, triggerindex, triggerflags;
    rpmTagVal triggerversion, triggerscripts;

    switch (mode) {
	case NORMALTRIGGER:
	    triggername = RPMTAG_TRIGGERNAME;
	    triggerindex = RPMTAG_TRIGGERINDEX;
	    triggerflags = RPMTAG_TRIGGERFLAGS;
	    triggerversion = RPMTAG_TRIGGERVERSION;
	    triggerscripts = RPMTAG_TRIGGERSCRIPTS;
	    break;
	case FILETRIGGER:
	    triggername = RPMTAG_FILETRIGGERNAME;
	    triggerindex = RPMTAG_FILETRIGGERINDEX;
	    triggerflags = RPMTAG_FILETRIGGERFLAGS;
	    triggerversion = RPMTAG_FILETRIGGERVERSION;
	    triggerscripts = RPMTAG_FILETRIGGERSCRIPTS;
	    break;
	case TRANSFILETRIGGER:
	    triggername = RPMTAG_TRANSFILETRIGGERNAME;
	    triggerindex = RPMTAG_TRANSFILETRIGGERINDEX;
	    triggerflags = RPMTAG_TRANSFILETRIGGERFLAGS;
	    triggerversion = RPMTAG_TRANSFILETRIGGERVERSION;
	    triggerscripts = RPMTAG_TRANSFILETRIGGERSCRIPTS;
	    break;
	default:
	    return 0;
    }

    if (!headerGet(h, triggername, &nametd, hgeflags)) {
	return 0;
    }

    headerGet(h, triggerindex, &indextd, hgeflags);
    headerGet(h, triggerflags, &flagtd, hgeflags);
    headerGet(h, triggerversion, &versiontd, hgeflags);
    headerGet(h, triggerscripts, &scripttd, hgeflags);

    td->type = RPM_STRING_ARRAY_TYPE;
    td->flags = RPMTD_ALLOCED | RPMTD_PTR_ALLOCED;
    td->data = conds = xmalloc(sizeof(*conds) * rpmtdCount(&scripttd));
    td->count = rpmtdCount(&scripttd);

    indices = indextd.data;

    while ((i = rpmtdNext(&scripttd)) >= 0) {
	rpm_flag_t *flag;
	char *flagStr, *item;
	ARGV_t items = NULL;

	rpmtdInit(&nametd); rpmtdInit(&flagtd); rpmtdInit(&versiontd);
	while ((j = rpmtdNext(&nametd)) >= 0) {
	    /* flag and version arrays match name array size always */
	    rpmtdNext(&flagtd); rpmtdNext(&versiontd);

	    if (indices[j] != i)
		continue;

	    flag = rpmtdGetUint32(&flagtd);
	    if (flag && *flag & RPMSENSE_SENSEMASK) {
		flagStr = rpmtdFormat(&flagtd, RPMTD_FORMAT_DEPFLAGS, NULL);
		rasprintf(&item, "%s %s %s", rpmtdGetString(&nametd),
					     flagStr,
					     rpmtdGetString(&versiontd));
		free(flagStr);
	    } else {
		item = xstrdup(rpmtdGetString(&nametd));
	    }

	    argvAdd(&items, item);
	    free(item);
	}

	conds[i] = argvJoin(items, ", ");
	argvFree(items);
    }

    rpmtdFreeData(&nametd);
    rpmtdFreeData(&versiontd);
    rpmtdFreeData(&flagtd);
    rpmtdFreeData(&indextd);
    rpmtdFreeData(&scripttd);
    return 1;
}

static int triggercondsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return triggercondsTagFor(NORMALTRIGGER, h, td, hgflags);
}

static int filetriggercondsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return triggercondsTagFor(FILETRIGGER, h, td, hgflags);
}

static int transfiletriggercondsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return triggercondsTagFor(TRANSFILETRIGGER, h, td, hgflags);
}

/**
 * Retrieve trigger type info.
 * @param mode		type of trigger (see tMode_e)
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int triggertypeTagFor(tMode mode, Header h, rpmtd td,
				headerGetFlags hgflags)
{
    int i;
    char ** conds;
    struct rpmtd_s indices, flags, scripts;
    rpmTagVal triggerindex, triggerflags, triggerscripts;

    switch (mode) {
	case NORMALTRIGGER:
	    triggerindex = RPMTAG_TRIGGERINDEX;
	    triggerflags = RPMTAG_TRIGGERFLAGS;
	    triggerscripts = RPMTAG_TRIGGERSCRIPTS;
	    break;
	case FILETRIGGER:
	    triggerindex = RPMTAG_FILETRIGGERINDEX;
	    triggerflags = RPMTAG_FILETRIGGERFLAGS;
	    triggerscripts = RPMTAG_FILETRIGGERSCRIPTS;
	    break;
	case TRANSFILETRIGGER:
	    triggerindex = RPMTAG_TRANSFILETRIGGERINDEX;
	    triggerflags = RPMTAG_TRANSFILETRIGGERFLAGS;
	    triggerscripts = RPMTAG_TRANSFILETRIGGERSCRIPTS;
	    break;
	default:
	   return 0;
    }

    if (!headerGet(h, triggerindex, &indices, HEADERGET_MINMEM)) {
	return 0;
    }

    headerGet(h, triggerflags, &flags, HEADERGET_MINMEM);
    headerGet(h, triggerscripts, &scripts, HEADERGET_MINMEM);

    td->flags = RPMTD_ALLOCED | RPMTD_PTR_ALLOCED;
    td->count = rpmtdCount(&scripts);
    td->data = conds = xmalloc(sizeof(*conds) * td->count);
    td->type = RPM_STRING_ARRAY_TYPE;

    while ((i = rpmtdNext(&scripts)) >= 0) {
	rpm_flag_t *flag;
	rpmtdInit(&indices); rpmtdInit(&flags);

	while (rpmtdNext(&indices) >= 0 && rpmtdNext(&flags) >= 0) {
	    if (*rpmtdGetUint32(&indices) != i) 
		continue;

	    flag = rpmtdGetUint32(&flags);
	    if (*flag & RPMSENSE_TRIGGERPREIN)
		conds[i] = xstrdup("prein");
	    else if (*flag & RPMSENSE_TRIGGERIN)
		conds[i] = xstrdup("in");
	    else if (*flag & RPMSENSE_TRIGGERUN)
		conds[i] = xstrdup("un");
	    else if (*flag & RPMSENSE_TRIGGERPOSTUN)
		conds[i] = xstrdup("postun");
	    else
		conds[i] = xstrdup("");
	    break;
	}
    }
    rpmtdFreeData(&indices);
    rpmtdFreeData(&flags);
    rpmtdFreeData(&scripts);

    return 1;
}

static int triggertypeTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return triggertypeTagFor(NORMALTRIGGER, h, td, hgflags);
}

static int filetriggertypeTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return triggertypeTagFor(FILETRIGGER, h, td, hgflags);
}

static int transfiletriggertypeTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return triggertypeTagFor(TRANSFILETRIGGER, h, td, hgflags);
}

/**
 * Retrieve installed file paths.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int instfilenamesTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return fnTag(h, RPMTAG_BASENAMES, 1, td);
}

/**
 * Retrieve file paths.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int filenamesTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return fnTag(h, RPMTAG_BASENAMES, 0, td);
}

/**
 * Retrieve original file paths (wrt relocation).
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int origfilenamesTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return fnTag(h, RPMTAG_ORIGBASENAMES, 0, td);
}

/*
 * Attempt to generate libmagic-style file class if missing from header:
 * we can easily generate this for symlinks and other special types.
 * Always return malloced strings to simplify life in fileclassTag().
 */
static char *makeFClass(rpmfi fi)
{
    char *fclass = NULL;
    const char *hc = rpmfiFClass(fi);

    if (hc != NULL && hc[0] != '\0') {
	fclass = xstrdup(hc);
    } else {
	switch (rpmfiFMode(fi) & S_IFMT) {
	case S_IFBLK:
	    fclass = xstrdup("block special");
	    break;
	case S_IFCHR:
	    fclass = xstrdup("character special");
	    break;
	case S_IFDIR:
	    fclass = xstrdup("directory");
	    break;
	case S_IFIFO:
	    fclass = xstrdup("fifo (named pipe)");
	    break;
	case S_IFSOCK:
	    fclass = xstrdup("socket");
	    break;
	case S_IFLNK:
	    fclass = rstrscat(NULL, "symbolic link to `",
			      rpmfiFLink(fi), "'", NULL);
	    break;
	}
    }

    return (fclass != NULL) ? fclass : xstrdup("");
}

/**
 * Retrieve/generate file classes.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int fileclassTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    rpmfi fi = rpmfiNew(NULL, h, RPMTAG_BASENAMES, RPMFI_NOHEADER);
    int numfiles = rpmfiFC(fi);

    if (numfiles > 0) {
	char **fclasses = xmalloc(numfiles * sizeof(*fclasses));
	int ix;

	rpmfiInit(fi, 0);
	while ((ix = rpmfiNext(fi)) >= 0) {
	    fclasses[ix] = makeFClass(fi);
	}

	td->data = fclasses;
	td->count = numfiles;
	td->flags = RPMTD_ALLOCED | RPMTD_PTR_ALLOCED;
	td->type = RPM_STRING_ARRAY_TYPE;
    }

    rpmfiFree(fi);
    return (numfiles > 0); 
}

/**
 * Retrieve file provides.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int fileprovideTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return filedepTag(h, RPMTAG_PROVIDENAME, td, hgflags);
}

/**
 * Retrieve file requires.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int filerequireTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return filedepTag(h, RPMTAG_REQUIRENAME, td, hgflags);
}

/**
 * Retrieve i18n text.
 * @param h		header
 * @param tag		tag
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int i18nTag(Header h, rpmTag tag, rpmtd td, headerGetFlags hgflags)
{
    int rc = headerGet(h, tag, td, HEADERGET_ALLOC);
#if defined(ENABLE_NLS)
    if (rc) {
	static const char * const _macro_i18ndomains = "%{?_i18ndomains}";
	char *de, *dstring = rpmExpand(_macro_i18ndomains, NULL);
	const char *domain;

	for (domain = dstring; domain != NULL; domain = de) {
	    const char *msgid = td->data;
	    const char *msg = NULL;

	    de = strchr(domain, ':');
	    if (de) *de++ = '\0';
	    msg = dgettext(domain, td->data);
	    if (msg != msgid) {
		free(td->data);
		td->data = xstrdup(msg);
		break;
	    }
	}
	free(dstring);
    }
#endif

    return rc;
}

/**
 * Retrieve summary text.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int summaryTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return i18nTag(h, RPMTAG_SUMMARY, td, hgflags);
}

/**
 * Retrieve description text.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int descriptionTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return i18nTag(h, RPMTAG_DESCRIPTION, td, hgflags);
}

/**
 * Retrieve group text.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int groupTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return i18nTag(h, RPMTAG_GROUP, td, hgflags);
}

/*
 * Helper to convert 32bit tag to 64bit version.
 * If header has new 64bit tag then just return the data,
 * otherwise convert 32bit old tag data to 64bit values.
 * For consistency, always return malloced data.
 */
static int get64(Header h, rpmtd td, rpmTag newtag, rpmTag oldtag)
{
    int rc;

    if (headerIsEntry(h, newtag)) {
	rc = headerGet(h, newtag, td, HEADERGET_ALLOC);
    } else {
	struct rpmtd_s olddata;
	uint32_t *d32 = NULL;
	uint64_t *d64 = NULL;

	headerGet(h, oldtag, &olddata, HEADERGET_MINMEM);
	if (rpmtdType(&olddata) == RPM_INT32_TYPE) {
	    td->type = RPM_INT64_TYPE;
	    td->count = olddata.count;
	    td->flags = RPMTD_ALLOCED;
	    td->data = xmalloc(sizeof(*d64) * td->count);
	    d64 = td->data;
	    while ((d32 = rpmtdNextUint32(&olddata))) {
		*d64++ = *d32;
	    }
	} 
	rpmtdFreeData(&olddata);
	rc = d64 ? 1 : 0;
    }

    return rc;
}

/**
 * Retrieve file sizes as 64bit regardless of how they're stored.
 * @param h		header
 * @retval td		tag data container
 * @param hgflags	header get flags
 * @return		1 on success
 */
static int longfilesizesTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return get64(h, td, RPMTAG_LONGFILESIZES, RPMTAG_FILESIZES);
}

static int longarchivesizeTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return get64(h, td, RPMTAG_LONGARCHIVESIZE, RPMTAG_ARCHIVESIZE);
}

static int longsizeTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return get64(h, td, RPMTAG_LONGSIZE, RPMTAG_SIZE);
}

static int longsigsizeTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return get64(h, td, RPMTAG_LONGSIGSIZE, RPMTAG_SIGSIZE);
}

static int numberTag(rpmtd td, uint32_t val)
{
    uint32_t *tval = xmalloc(sizeof(*tval));

    tval[0] = val;
    td->type = RPM_INT32_TYPE;
    td->count = 1;
    td->data = tval;
    td->flags = RPMTD_ALLOCED;
    return 1; /* this cannot fail */
}

static int dbinstanceTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return numberTag(td, headerGetInstance(h));
}

static int headercolorTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    rpm_color_t *fcolor, hcolor = 0;
    struct rpmtd_s fcolors;

    headerGet(h, RPMTAG_FILECOLORS, &fcolors, HEADERGET_MINMEM);
    while ((fcolor = rpmtdNextUint32(&fcolors)) != NULL) {
	hcolor |= *fcolor;
    }
    rpmtdFreeData(&fcolors);
    hcolor &= 0x0f;

    return numberTag(td, hcolor);
}

enum nevraFlags_e {
    NEVRA_NAME		= (1 << 0),
    NEVRA_EPOCH		= (1 << 1),
    NEVRA_VERSION	= (1 << 2),
    NEVRA_RELEASE	= (1 << 3),
    NEVRA_ARCH		= (1 << 4)
};
typedef rpmFlags nevraFlags;

static int getNEVRA(Header h, rpmtd td, nevraFlags flags)
{
    const char *val = NULL;
    char *res = xstrdup("");

    if ((flags & NEVRA_NAME)) {
	val = headerGetString(h, RPMTAG_NAME);
	if (val) rstrscat(&res, val, "-", NULL);
    }
    if ((flags & NEVRA_EPOCH)) {
	char *e = headerGetAsString(h, RPMTAG_EPOCH);
	if (e) rstrscat(&res, e, ":", NULL);
	free(e);
    }
    if ((flags & NEVRA_VERSION)) {
	val = headerGetString(h, RPMTAG_VERSION);
	if (val) rstrscat(&res, val, "-", NULL);
    }
    if ((flags & NEVRA_RELEASE)) {
	val = headerGetString(h, RPMTAG_RELEASE);
	if (val) rstrscat(&res, val, NULL);
    }
    if ((flags & NEVRA_ARCH)) {
	val = headerGetString(h, RPMTAG_ARCH);
	if (headerIsSource(h) && val == NULL) val = "src";
	if (val) rstrscat(&res, ".", val, NULL);
    }

    td->type = RPM_STRING_TYPE;
    td->data = res;
    td->count = 1;
    td->flags = RPMTD_ALLOCED;

    return 1;
}

static int evrTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return getNEVRA(h, td, NEVRA_EPOCH|NEVRA_VERSION|NEVRA_RELEASE);
}

static int nvrTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return getNEVRA(h, td, NEVRA_NAME|NEVRA_VERSION|NEVRA_RELEASE);
}

static int nvraTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return getNEVRA(h, td, NEVRA_NAME|NEVRA_VERSION|NEVRA_RELEASE|NEVRA_ARCH);
}

static int nevrTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return getNEVRA(h, td, NEVRA_NAME|NEVRA_EPOCH|NEVRA_VERSION|NEVRA_RELEASE);
}

static int nevraTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return getNEVRA(h, td, NEVRA_NAME|NEVRA_EPOCH|NEVRA_VERSION|NEVRA_RELEASE|NEVRA_ARCH);
}

static int verboseTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    if (rpmIsVerbose()) {
	td->type = RPM_INT32_TYPE;
	td->count = 1;
	td->data = &(td->count);
	td->flags = RPMTD_NONE;
	return 1;
    } else {
	return 0;
    }
}

static int epochnumTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    /* For consistency, always return malloced data */
    if (!headerGet(h, RPMTAG_EPOCH, td, HEADERGET_ALLOC)) {
	uint32_t *e = malloc(sizeof(*e));
	*e = 0;
	td->data = e;
	td->type = RPM_INT32_TYPE;
	td->count = 1;
	td->flags = RPMTD_ALLOCED;
    }
    td->tag = RPMTAG_EPOCHNUM;
    return 1;
}

static int depnevrsTag(Header h, rpmtd td, headerGetFlags hgflags,
			rpmTagVal tag)
{
    rpmds ds = rpmdsNew(h, tag, 0);
    int ndeps = rpmdsCount(ds);

    if (ndeps > 0) {
	char **deps = xmalloc(sizeof(*deps) * ndeps);
	int i;
	while ((i = rpmdsNext(ds)) >= 0) {
	    deps[i] = rpmdsNewDNEVR(NULL, ds);
	}
	td->data = deps;
	td->type = RPM_STRING_ARRAY_TYPE;
	td->count = ndeps;
	td->flags |= (RPMTD_ALLOCED | RPMTD_PTR_ALLOCED);
    }
    rpmdsFree(ds);
    return (ndeps > 0);
}

#define RPMSENSE_STRONG (1 << 27)

static int depnevrsTagFiltered(Header h, rpmtd td, headerGetFlags hgflags,
			rpmTagVal tag, int strong)
{
    rpmds ds = rpmdsNew(h, tag, 0);
    int ndeps = rpmdsCount(ds);

    if (ndeps > 0) {
	char **deps = xmalloc(sizeof(*deps) * ndeps);
	ndeps = 0;
	while (rpmdsNext(ds) >= 0) {
	    if ((rpmdsFlags(ds) & RPMSENSE_STRONG) == (strong ? RPMSENSE_STRONG : 0))
		deps[ndeps++] = rpmdsNewDNEVR(NULL, ds);
	}
	if (ndeps) {
	    td->data = deps;
	    td->type = RPM_STRING_ARRAY_TYPE;
	    td->count = ndeps;
	    td->flags |= (RPMTD_ALLOCED | RPMTD_PTR_ALLOCED);
	} else {
	    _free(deps);
        }
    }
    rpmdsFree(ds);
    return (ndeps > 0);
}

static int requirenevrsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return depnevrsTag(h, td, hgflags, RPMTAG_REQUIRENAME);
}

static int recommendnevrsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return depnevrsTag(h, td, hgflags, RPMTAG_RECOMMENDNAME) ||
           depnevrsTagFiltered(h, td, hgflags, RPMTAG_OLDSUGGESTSNAME, 1);
}

static int suggestnevrsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return depnevrsTag(h, td, hgflags, RPMTAG_SUGGESTNAME) ||
           depnevrsTagFiltered(h, td, hgflags, RPMTAG_OLDSUGGESTSNAME, 0);
}

static int supplementnevrsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return depnevrsTag(h, td, hgflags, RPMTAG_SUPPLEMENTNAME) ||
           depnevrsTagFiltered(h, td, hgflags, RPMTAG_OLDENHANCESNAME, 1);
}

static int enhancenevrsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return depnevrsTag(h, td, hgflags, RPMTAG_ENHANCENAME) ||
           depnevrsTagFiltered(h, td, hgflags, RPMTAG_OLDENHANCESNAME, 0);
}

static int providenevrsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return depnevrsTag(h, td, hgflags, RPMTAG_PROVIDENAME);
}

static int obsoletenevrsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return depnevrsTag(h, td, hgflags, RPMTAG_OBSOLETENAME);
}

static int conflictnevrsTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    return depnevrsTag(h, td, hgflags, RPMTAG_CONFLICTNAME);
}

static int filenlinksTag(Header h, rpmtd td, headerGetFlags hgflags)
{
    rpmfi fi = rpmfiNew(NULL, h, RPMTAG_BASENAMES, RPMFI_NOHEADER);
    rpm_count_t fc = rpmfiFC(fi);

    if (fc > 0) {
	uint32_t *nlinks = xmalloc(fc * sizeof(*nlinks));
	int ix;
	while ((ix = rpmfiNext(fi)) >= 0) {
	    nlinks[ix] = rpmfiFNlink(fi);
	}
	td->data = nlinks;
	td->type = RPM_INT32_TYPE;
	td->count = fc;
	td->flags = RPMTD_ALLOCED;
    }

    rpmfiFree(fi);
    return (fc > 0);
}

static const struct headerTagFunc_s rpmHeaderTagExtensions[] = {
    { RPMTAG_GROUP,		groupTag },
    { RPMTAG_DESCRIPTION,	descriptionTag },
    { RPMTAG_SUMMARY,		summaryTag },
    { RPMTAG_FILECLASS,		fileclassTag },
    { RPMTAG_FILENAMES,		filenamesTag },
    { RPMTAG_ORIGFILENAMES,	origfilenamesTag },
    { RPMTAG_FILEPROVIDE,	fileprovideTag },
    { RPMTAG_FILEREQUIRE,	filerequireTag },
    { RPMTAG_TRIGGERCONDS,	triggercondsTag },
    { RPMTAG_FILETRIGGERCONDS,	filetriggercondsTag },
    { RPMTAG_TRANSFILETRIGGERCONDS,	transfiletriggercondsTag },
    { RPMTAG_TRIGGERTYPE,	triggertypeTag },
    { RPMTAG_FILETRIGGERTYPE,	filetriggertypeTag },
    { RPMTAG_TRANSFILETRIGGERTYPE,	transfiletriggertypeTag },
    { RPMTAG_LONGFILESIZES,	longfilesizesTag },
    { RPMTAG_LONGARCHIVESIZE,	longarchivesizeTag },
    { RPMTAG_LONGSIZE,		longsizeTag },
    { RPMTAG_LONGSIGSIZE,	longsigsizeTag },
    { RPMTAG_DBINSTANCE,	dbinstanceTag },
    { RPMTAG_EVR,		evrTag },
    { RPMTAG_NVR,		nvrTag },
    { RPMTAG_NEVR,		nevrTag },
    { RPMTAG_NVRA,		nvraTag },
    { RPMTAG_NEVRA,		nevraTag },
    { RPMTAG_HEADERCOLOR,	headercolorTag },
    { RPMTAG_VERBOSE,		verboseTag },
    { RPMTAG_EPOCHNUM,		epochnumTag },
    { RPMTAG_INSTFILENAMES,	instfilenamesTag },
    { RPMTAG_REQUIRENEVRS,	requirenevrsTag },
    { RPMTAG_RECOMMENDNEVRS,	recommendnevrsTag},
    { RPMTAG_SUGGESTNEVRS,	suggestnevrsTag},
    { RPMTAG_SUPPLEMENTNEVRS,	supplementnevrsTag},
    { RPMTAG_ENHANCENEVRS,	enhancenevrsTag},
    { RPMTAG_PROVIDENEVRS,	providenevrsTag },
    { RPMTAG_OBSOLETENEVRS,	obsoletenevrsTag },
    { RPMTAG_CONFLICTNEVRS,	conflictnevrsTag },
    { RPMTAG_FILENLINKS,	filenlinksTag },
    { 0, 			NULL }
};

headerTagTagFunction rpmHeaderTagFunc(rpmTagVal tag)
{
    const struct headerTagFunc_s * ext;
    headerTagTagFunction func = NULL;

    for (ext = rpmHeaderTagExtensions; ext->func != NULL; ext++) {
	if (ext->tag == tag) {
	    func = ext->func;
	    break;
	}
    }
    return func;
}

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