#include "system.h" #include #include /* XXX for rpmCleanPath */ #include "fprint.h" fingerPrintCache fpCacheCreate(int sizeHint) { fingerPrintCache fpc; fpc = xmalloc(sizeof(*fpc)); fpc->ht = htCreate(sizeHint * 2, 0, 1, hashFunctionString, hashEqualityString); return fpc; } void fpCacheFree(fingerPrintCache cache) { htFree(cache->ht); free(cache); } /** * Find directory name entry in cache. * @param cache pointer to fingerprint cache * @param dirName string to locate in cache * @return pointer to directory name entry (or NULL if not found). */ static const struct fprintCacheEntry_s * cacheContainsDirectory( fingerPrintCache cache, const char * dirName) { const void ** data; if (htGetEntry(cache->ht, dirName, &data, NULL, NULL)) return NULL; return data[0]; } /** * Return finger print of a file path. * @param cache pointer to fingerprint cache * @param dirName leading directory name of path * @param baseName file name of path * @param scareMemory * @return pointer to the finger print associated with a file path. */ static fingerPrint doLookup(fingerPrintCache cache, const char * dirName, const char * baseName, int scareMemory) { char dir[PATH_MAX]; const char * cleanDirName; size_t cdnl; char * end; /* points to the '\0' at the end of "buf" */ fingerPrint fp; struct stat sb; char * buf; const struct fprintCacheEntry_s * cacheHit; /* assert(*dirName == '/' || !scareMemory); */ /* XXX WATCHOUT: fp.subDir is set below from relocated dirName arg */ cleanDirName = dirName; cdnl = strlen(cleanDirName); if (*cleanDirName == '/') { if (!scareMemory) cleanDirName = rpmCleanPath(strcpy(alloca(cdnl+1), dirName)); } else { scareMemory = 0; /* XXX causes memory leak */ /* Using realpath on the arg isn't correct if the arg is a symlink, * especially if the symlink is a dangling link. What we * do instead is use realpath() on `.' and then append arg to * the result. */ /* if the current directory doesn't exist, we might fail. oh well. likewise if it's too long. */ dir[0] = '\0'; if ( /*@-unrecog@*/ realpath(".", dir) /*@=unrecog@*/ != NULL) { end = dir + strlen(dir); if (end[-1] != '/') *end++ = '/'; end = stpncpy(end, cleanDirName, sizeof(dir) - (end - dir)); *end = '\0'; rpmCleanPath(dir); /* XXX possible /../ from concatenation */ end = dir + strlen(dir); if (end[-1] != '/') *end++ = '/'; *end = '\0'; cleanDirName = dir; cdnl = end - dir; } } buf = strcpy(alloca(cdnl + 1), cleanDirName); end = buf + cdnl; /* no need to pay attention to that extra little / at the end of dirName */ if (buf[1] && end[-1] == '/') { end--; *end = '\0'; } fp.entry = NULL; while (1) { /* as we're stating paths here, we want to follow symlinks */ if ((cacheHit = cacheContainsDirectory(cache, *buf ? buf : "/"))) { fp.entry = cacheHit; } else if (!stat(*buf ? buf : "/", &sb)) { size_t nb = sizeof(*fp.entry) + (*buf ? (end-buf) : 1) + 1; char * dn = xmalloc(nb); struct fprintCacheEntry_s * newEntry = (void *)dn; dn += sizeof(*newEntry); strcpy(dn, (*buf ? buf : "/")); newEntry->ino = sb.st_ino; newEntry->dev = sb.st_dev; newEntry->isFake = 0; newEntry->dirName = dn; fp.entry = newEntry; htAddEntry(cache->ht, dn, fp.entry); } if (fp.entry) { fp.subDir = cleanDirName + (end - buf); if (fp.subDir[0] == '/' && fp.subDir[1] != '\0') fp.subDir++; if (fp.subDir[0] == '\0') fp.subDir = NULL; fp.baseName = baseName; if (!scareMemory && fp.subDir != NULL) fp.subDir = xstrdup(fp.subDir); return fp; } /* stat of '/' just failed! */ if (end == buf + 1) abort(); end--; while ((end > buf) && *end != '/') end--; if (end == buf) /* back to stat'ing just '/' */ end++; *end = '\0'; } /*@notreached@*/ return fp; } fingerPrint fpLookup(fingerPrintCache cache, const char * dirName, const char * baseName, int scareMemory) { return doLookup(cache, dirName, baseName, scareMemory); } unsigned int fpHashFunction(const void * key) { const fingerPrint * fp = key; unsigned int hash = 0; char ch; const char * chptr; ch = 0; chptr = fp->baseName; while (*chptr) ch ^= *chptr++; hash |= ((unsigned)ch) << 24; hash |= (((((unsigned)fp->entry->dev) >> 8) ^ fp->entry->dev) & 0xFF) << 16; hash |= fp->entry->ino & 0xFFFF; return hash; } int fpEqual(const void * key1, const void * key2) { const fingerPrint *k1 = key1; const fingerPrint *k2 = key2; /* XXX negated to preserve strcmp return behavior in ht->eq */ return (FP_EQUAL(*k1, *k2) ? 0 : 1); } void fpLookupList(fingerPrintCache cache, const char ** dirNames, const char ** baseNames, const int * dirIndexes, int fileCount, fingerPrint * fpList) { int i; for (i = 0; i < fileCount; i++) { /* If this is in the same directory as the last file, don't bother redoing all of this work */ if (i > 0 && dirIndexes[i - 1] == dirIndexes[i]) { fpList[i].entry = fpList[i - 1].entry; fpList[i].subDir = fpList[i - 1].subDir; fpList[i].baseName = baseNames[i]; } else { fpList[i] = doLookup(cache, dirNames[dirIndexes[i]], baseNames[i], 1); } } } void fpLookupHeader(fingerPrintCache cache, Header h, fingerPrint * fpList) { int fileCount; const char ** baseNames, ** dirNames; int_32 * dirIndexes; if (!headerGetEntryMinMemory(h, RPMTAG_BASENAMES, NULL, (void **) &baseNames, &fileCount)) return; headerGetEntryMinMemory(h, RPMTAG_DIRNAMES, NULL, (void **) &dirNames, NULL); headerGetEntry(h, RPMTAG_DIRINDEXES, NULL, (void **) &dirIndexes, NULL); fpLookupList(cache, dirNames, baseNames, dirIndexes, fileCount, fpList); free(dirNames); free(baseNames); }