rpm-build/lib/al.c

497 lines
12 KiB
C

#include "system.h"
#include "rpmlib.h"
#include "debug.h"
#include "depends.h"
#include "al.h"
struct alEntry {
const char *name;
unsigned int fasthash;
/* entry-specific members */
};
struct alIndex {
int sorted;
int size;
/* flexible array of entries */
};
static inline
unsigned int fasthash(const char *name)
{
/* The "fast hash" is used below to avoid extra strcmp calls. Initially it
* was just a string length. To improve the performance without resorting
* to full-fledged hashing, we now combine string length with its middle
* character. */
unsigned int len = strlen(name);
unsigned char c = name[len >> 1];
return (len << 8) | c;
}
/**
* Compare two available index entries by name (qsort/bsearch).
* @param one 1st available prov entry
* @param two 2nd available prov entry
* @return result of comparison
*/
static inline
int nameCmp(const void * one, const void * two) /*@*/
{
const struct alEntry *a = one, *b = two;
if (a->fasthash > b->fasthash)
return 1;
if (a->fasthash < b->fasthash)
return -1;
return strcmp(a->name, b->name);
}
static
void *axSearch(void *index, int esize, const char *name, int *nfound)
{
if (nfound)
*nfound = 0;
struct alIndex *ax = index;
if (ax == NULL)
return NULL;
assert(ax->size > 0);
char *entries = (char *)(ax + 1);
struct alEntry needle = { name, fasthash(name) };
if (ax->size == 1) {
if (nameCmp(entries, &needle))
return NULL;
if (nfound)
*nfound = 1;
return entries;
}
if (!ax->sorted) {
qsort(entries, ax->size, esize, nameCmp);
ax->sorted = 1;
}
char *first, *last;
first = last = bsearch(&needle, entries, ax->size, esize, nameCmp);
if (first == NULL)
return NULL;
if (nfound) {
*nfound = 1;
/* rewind to the first match */
while (first > entries) {
if (nameCmp(first - esize, &needle))
break;
first -= esize;
(*nfound)++;
}
/* rewind to the last match */
while (last + esize < entries + esize * ax->size) {
if (nameCmp(last + esize, &needle))
break;
last += esize;
(*nfound)++;
}
}
return first;
}
static
void *axGrow(void *index, int esize, int more)
{
struct alIndex *ax = index;
if (ax) {
assert(ax->size > 0);
ax = xrealloc(ax, sizeof(*ax) + esize * (ax->size + more));
}
else {
ax = xmalloc(sizeof(*ax) + esize * more);
ax->size = 0;
}
return ax;
}
/** \ingroup rpmdep
* A single available item (e.g. a Provides: dependency).
*/
struct alProvEntry {
/*@dependent@*/ const char * name; /*!< Provides name. */
unsigned int fasthash;
int pkgIx; /*!< Containing package index. */
int provIx; /*!< Provides index in package. */
} ;
/** \ingroup rpmdep
* Index of all available items.
*/
struct alProvIndex {
int sorted;
int size; /*!< No. of available items. */
struct alProvEntry prov[1]; /*!< Array of available items. */
} ;
static
void alIndexPkgProvides(availableList al, int pkgIx)
{
const struct availablePackage *alp = &al->list[pkgIx];
if (alp->providesCount == 0)
return;
struct alProvIndex *px = al->provIndex =
axGrow(al->provIndex, sizeof(*px->prov), alp->providesCount);
int provIx;
for (provIx = 0; provIx < alp->providesCount; provIx++) {
struct alProvEntry *pe = &px->prov[px->size++];
pe->name = alp->provides[provIx];
pe->fasthash = fasthash(pe->name);
pe->pkgIx = pkgIx;
pe->provIx = provIx;
}
px->sorted = 0;
}
static
struct alProvEntry *alSearchProv(availableList al, const char *name, int *n)
{
/* first time lookup, create provIndex */
if (al->provIndex == NULL) {
int i;
for (i = 0; i < al->size; i++)
alIndexPkgProvides(al, i);
}
return axSearch(al->provIndex, sizeof(*al->provIndex->prov), name, n);
}
static
void alFreeProvIndex(availableList al)
{
al->provIndex = _free(al->provIndex);
}
/** \ingroup rpmdep
* A file to be installed/removed.
*/
struct alFileEntry {
const char *basename; /*!< File basename. */
unsigned int fasthash;
int pkgIx; /*!< Containing package number. */
};
struct alFileIndex {
int sorted;
int size;
struct alFileEntry files[1];
};
/** \ingroup rpmdep
* A directory which contains some files.
*/
struct alDirEntry {
const char *dirname; /*!< Directory path (+ trailing '/'). */
unsigned int fasthash;
struct alFileIndex *fx; /*!< Files index this directory. */
};
struct alDirIndex {
int sorted;
int size;
struct alDirEntry dirs[1];
};
static
void alIndexPkgFiles(availableList al, int pkgIx)
{
const struct availablePackage *alp = &al->list[pkgIx];
if (alp->filesCount == 0)
return;
const HGE_t hge = (HGE_t)headerGetEntryMinMemory;
const HFD_t hfd = headerFreeData;
const char **bn = NULL, **dn = NULL;
const int *di = NULL;
rpmTagType bnt = 0, dnt = 0, dit = 0;
int bnc = 0, dnc = 0, dic = 0;
if (!hge(alp->h, RPMTAG_BASENAMES, &bnt, (void**)&bn, &bnc))
goto exit;
if (!hge(alp->h, RPMTAG_DIRNAMES, &dnt, (void**)&dn, &dnc))
goto exit;
if (!hge(alp->h, RPMTAG_DIRINDEXES, &dit, (void**)&di, &dic))
goto exit;
if (bnc != dic)
goto exit;
/* XXX FIXME: We ought to relocate the directory list here */
struct alDirIndex *dx = al->dirIndex =
axGrow(al->dirIndex, sizeof(*dx->dirs), dnc);
int i = 0;
while (i < bnc) {
/* maybe a few files under the same dir */
int j = i;
while (j + 1 < bnc) {
if (di[i] != di[j + 1])
break;
j++;
}
/* find or create dir entry */
const char *d = dn[di[i]];
struct alDirEntry *de = (dx->size == 0) ? NULL :
axSearch(dx, sizeof(*dx->dirs), d, NULL);
if (de == NULL) {
de = &dx->dirs[dx->size++];
de->dirname = d;
de->fasthash = fasthash(d);
de->fx = NULL;
dx->sorted = 0;
}
struct alFileIndex *fx = de->fx =
axGrow(de->fx, sizeof(*fx->files), j - i + 1);
while (i <= j) {
/* add file entries */
const char *b = bn[i++];
struct alFileEntry *fe = &fx->files[fx->size++];
fe->basename = b;
fe->fasthash = fasthash(b);
fe->pkgIx = pkgIx;
}
fx->sorted = 0;
}
exit:
/* XXX strings point to header memory */
bn = hfd(bn, bnt);
dn = hfd(dn, dnt);
di = hfd(di, dit);
}
static
struct alFileEntry *alSearchFile(availableList al, const char *fname, int *n)
{
/* first time lookup, create dirIndex */
if (al->dirIndex == NULL) {
int i;
for (i = 0; i < al->size; i++)
alIndexPkgFiles(al, i);
}
/* need to preserve trailing slahs in d */
const char *b = strrchr(fname, '/') + 1;
int dlen = b - fname;
char *d = alloca(dlen + 1);
memcpy(d, fname, dlen);
d[dlen] = '\0';
struct alDirEntry *de = axSearch(al->dirIndex, sizeof(*de), d, NULL);
if (de == NULL) {
*n = 0;
return NULL;
}
assert(de->fx);
return axSearch(de->fx, sizeof(*de->fx->files), b, n);
}
static
void alFreeDirIndex(availableList al)
{
struct alDirIndex *dx = al->dirIndex;
if (dx) {
int i;
for (i = 0; i < dx->size; i++) {
struct alDirEntry *de = &dx->dirs[i];
de->fx = _free(de->fx);
}
al->dirIndex = _free(al->dirIndex);
}
}
struct availablePackage **
alAllSatisfiesDepend(const availableList al,
const char * keyName, const char * keyEVR, int keyFlags)
{
struct availablePackage ** ret = NULL;
int found = 0;
int i, n;
if (*keyName == '/' && (keyFlags & RPMSENSE_SENSEMASK) == 0) {
const struct alFileEntry *fe = alSearchFile(al, keyName, &n);
for (i = 0; fe && i < n; i++, fe++) {
struct availablePackage *alp = &al->list[fe->pkgIx];
int j, already = 0;
for (j = 0; j < found; j++)
if (ret[j] == alp) {
already = 1;
break;
}
if (already)
continue;
ret = xrealloc(ret, (found + 2) * sizeof(*ret));
ret[found++] = alp;
}
}
const struct alProvEntry *pe = alSearchProv(al, keyName, &n);
for (i = 0; pe && i < n; i++, pe++) {
struct availablePackage *alp = &al->list[pe->pkgIx];
int j, already = 0;
for (j = 0; j < found; j++)
if (ret[j] == alp) {
already = 1;
break;
}
if (already)
continue;
if ((keyFlags & RPMSENSE_SENSEMASK)) {
const char *provName = pe->name;
const char *provEVR = alp->providesEVR ?
alp->providesEVR[pe->provIx] : NULL;
int provFlags = alp->provideFlags ?
alp->provideFlags[pe->provIx] : 0;
if (!(provFlags & RPMSENSE_SENSEMASK))
provFlags |= RPMSENSE_EQUAL; /* ALT21-139-g6cb9a9a */
int rc = rpmRangesOverlap(provName, provEVR, provFlags,
keyName, keyEVR, keyFlags);
if (rc == 0)
continue;
}
ret = xrealloc(ret, (found + 2) * sizeof(*ret));
ret[found++] = alp;
}
if (ret)
ret[found] = NULL;
return ret;
}
struct availablePackage *
alAddPackage(availableList al,
Header h, /*@null@*/ /*@dependent@*/ const void * key,
/*@null@*/ FD_t fd, /*@null@*/ rpmRelocation * relocs)
{
HGE_t hge = (HGE_t)headerGetEntryMinMemory;
struct availablePackage * p;
rpmRelocation * r;
int i;
int pkgNum;
AUTO_REALLOC(al->list, al->size, 8);
pkgNum = al->size++;
p = al->list + pkgNum;
p->h = headerLink(h); /* XXX reference held by transaction set */
p->depth = p->npreds = 0;
memset(&p->tsi, 0, sizeof(p->tsi));
(void) headerNVRD(p->h, &p->name, &p->version, &p->release, &p->disttag);
if (!hge(h, RPMTAG_EPOCH, NULL, (void **) &p->epoch, NULL))
p->epoch = NULL;
if (!hge(h, RPMTAG_BUILDTIME, NULL, (void **) &p->buildtime, NULL))
p->buildtime = NULL;
if (!hge(h, RPMTAG_PROVIDENAME, NULL, (void **) &p->provides,
&p->providesCount)) {
p->providesCount = 0;
p->provides = NULL;
p->providesEVR = NULL;
p->provideFlags = NULL;
} else {
if (!hge(h, RPMTAG_PROVIDEVERSION,
NULL, (void **) &p->providesEVR, NULL))
p->providesEVR = NULL;
if (!hge(h, RPMTAG_PROVIDEFLAGS,
NULL, (void **) &p->provideFlags, NULL))
p->provideFlags = NULL;
}
if (!hge(h, RPMTAG_REQUIRENAME, NULL, (void **) &p->requires,
&p->requiresCount)) {
p->requiresCount = 0;
p->requires = NULL;
p->requiresEVR = NULL;
p->requireFlags = NULL;
} else {
if (!hge(h, RPMTAG_REQUIREVERSION,
NULL, (void **) &p->requiresEVR, NULL))
p->requiresEVR = NULL;
if (!hge(h, RPMTAG_REQUIREFLAGS,
NULL, (void **) &p->requireFlags, NULL))
p->requireFlags = NULL;
}
if (!hge(h, RPMTAG_BASENAMES, NULL, NULL, &p->filesCount))
p->filesCount = 0;
p->key = key;
p->fd = (fd != NULL ? fdLink(fd, "alAddPackage") : NULL);
if (relocs) {
for (i = 0, r = relocs; r->oldPath || r->newPath; i++, r++)
{};
p->relocs = xmalloc((i + 1) * sizeof(*p->relocs));
for (i = 0, r = relocs; r->oldPath || r->newPath; i++, r++) {
p->relocs[i].oldPath = r->oldPath ? xstrdup(r->oldPath) : NULL;
p->relocs[i].newPath = r->newPath ? xstrdup(r->newPath) : NULL;
}
p->relocs[i].oldPath = NULL;
p->relocs[i].newPath = NULL;
} else {
p->relocs = NULL;
}
/* Only update the index if it is already created.
* Otherwise, the index will be constructed upon the first time lookup. */
if (al->provIndex)
alIndexPkgProvides(al, pkgNum);
if (al->dirIndex)
alIndexPkgFiles(al, pkgNum);
return p;
}
void alFree(availableList al)
{
HFD_t hfd = headerFreeData;
struct availablePackage * p;
rpmRelocation * r;
int i;
if ((p = al->list) != NULL)
for (i = 0; i < al->size; i++, p++) {
{ tsortInfo tsi;
while ((tsi = p->tsi.tsi_next) != NULL) {
p->tsi.tsi_next = tsi->tsi_next;
tsi->tsi_next = NULL;
tsi = _free(tsi);
}
}
p->provides = hfd(p->provides, -1);
p->providesEVR = hfd(p->providesEVR, -1);
p->requires = hfd(p->requires, -1);
p->requiresEVR = hfd(p->requiresEVR, -1);
p->h = headerFree(p->h);
if (p->relocs) {
for (r = p->relocs; (r->oldPath || r->newPath); r++) {
r->oldPath = _free(r->oldPath);
r->newPath = _free(r->newPath);
}
p->relocs = _free(p->relocs);
}
if (p->fd != NULL)
p->fd = fdFree(p->fd, "alAddPackage (alFree)");
}
al->list = _free(al->list);
alFreeProvIndex(al);
alFreeDirIndex(al);
}