/** \ingroup rpmts payload * \file lib/psm.c * Package state machine to handle a package from a transaction set. */ #include "system.h" #include #include #include #include #include #include "cpio.h" #include "fsm.h" /* XXX CPIO_FOO/FSM_FOO constants */ #include "psm.h" #include "rpmds.h" #define _RPMFI_INTERNAL #include "rpmfi.h" #define _RPMTE_INTERNAL #include "rpmte.h" #define _RPMTS_INTERNAL /* XXX ts->notify */ #include "rpmts.h" #include "rpmlead.h" /* writeLead proto */ #include "signature.h" /* signature constants */ #include "legacy.h" /* XXX rpmfiBuildFNames() */ #include "misc.h" /* XXX stripTrailingChar() */ #include "rpmdb.h" /* XXX for db_chrootDone */ #include "debug.h" #define _PSM_DEBUG 0 int _psm_debug = _PSM_DEBUG; int _psm_threads = 0; /* Give access to the rpmte global tracking the last instance added * to the database. */ extern unsigned int myinstall_instance; int rpmVersionCompare(Header first, Header second) { const char * one, * two; int_32 * epochOne, * epochTwo; static int_32 zero = 0; int rc; if (!headerGetEntry(first, RPMTAG_EPOCH, NULL, (void **) &epochOne, NULL)) epochOne = &zero; if (!headerGetEntry(second, RPMTAG_EPOCH, NULL, (void **) &epochTwo, NULL)) epochTwo = &zero; if (*epochOne < *epochTwo) return -1; else if (*epochOne > *epochTwo) return 1; rc = headerGetEntry(first, RPMTAG_VERSION, NULL, (void **) &one, NULL); rc = headerGetEntry(second, RPMTAG_VERSION, NULL, (void **) &two, NULL); rc = rpmvercmp(one, two); if (rc) return rc; rc = headerGetEntry(first, RPMTAG_RELEASE, NULL, (void **) &one, NULL); rc = headerGetEntry(second, RPMTAG_RELEASE, NULL, (void **) &two, NULL); return rpmvercmp(one, two); } /** * Macros to be defined from per-header tag values. * @todo Should other macros be added from header when installing a package? */ static struct tagMacro { const char * macroname; /*!< Macro name to define. */ rpmTag tag; /*!< Header tag to use for value. */ } tagMacros[] = { { "name", RPMTAG_NAME }, { "version", RPMTAG_VERSION }, { "release", RPMTAG_RELEASE }, { "epoch", RPMTAG_EPOCH }, { NULL, 0 } }; /** * Define per-header macros. * @param fi transaction element file info * @param h header * @return 0 always */ static int rpmInstallLoadMacros(rpmfi fi, Header h) { HGE_t hge = (HGE_t) fi->hge; struct tagMacro * tagm; union { void * ptr; const char ** argv; const char * str; int_32 * i32p; } body; char numbuf[32]; rpmTagType type; for (tagm = tagMacros; tagm->macroname != NULL; tagm++) { if (!hge(h, tagm->tag, &type, (void **) &body, NULL)) continue; switch (type) { case RPM_INT32_TYPE: sprintf(numbuf, "%d", *body.i32p); addMacro(NULL, tagm->macroname, NULL, numbuf, -1); break; case RPM_STRING_TYPE: addMacro(NULL, tagm->macroname, NULL, body.str, -1); break; case RPM_NULL_TYPE: case RPM_CHAR_TYPE: case RPM_INT8_TYPE: case RPM_INT16_TYPE: case RPM_BIN_TYPE: case RPM_STRING_ARRAY_TYPE: case RPM_I18NSTRING_TYPE: default: break; } } return 0; } /** * Mark files in database shared with this package as "replaced". * @param psm package state machine data * @return 0 always */ static rpmRC markReplacedFiles(const rpmpsm psm) { const rpmts ts = psm->ts; rpmfi fi = psm->fi; HGE_t hge = (HGE_t)fi->hge; sharedFileInfo replaced = fi->replaced; sharedFileInfo sfi; rpmdbMatchIterator mi; Header h; int * offsets; unsigned int prev; int num, xx; if (!(rpmfiFC(fi) > 0 && fi->replaced)) return RPMRC_OK; num = prev = 0; for (sfi = replaced; sfi->otherPkg; sfi++) { if (prev && prev == sfi->otherPkg) continue; prev = sfi->otherPkg; num++; } if (num == 0) return RPMRC_OK; offsets = alloca(num * sizeof(*offsets)); offsets[0] = 0; num = prev = 0; for (sfi = replaced; sfi->otherPkg; sfi++) { if (prev && prev == sfi->otherPkg) continue; prev = sfi->otherPkg; offsets[num++] = sfi->otherPkg; } mi = rpmtsInitIterator(ts, RPMDBI_PACKAGES, NULL, 0); xx = rpmdbAppendIterator(mi, offsets, num); xx = rpmdbSetIteratorRewrite(mi, 1); sfi = replaced; while ((h = rpmdbNextIterator(mi)) != NULL) { char * secStates; int modified; int count; modified = 0; if (!hge(h, RPMTAG_FILESTATES, NULL, (void **)&secStates, &count)) continue; prev = rpmdbGetIteratorOffset(mi); num = 0; while (sfi->otherPkg && sfi->otherPkg == prev) { assert(sfi->otherFileNum < count); if (secStates[sfi->otherFileNum] != RPMFILE_STATE_REPLACED) { secStates[sfi->otherFileNum] = RPMFILE_STATE_REPLACED; if (modified == 0) { /* Modified header will be rewritten. */ modified = 1; xx = rpmdbSetIteratorModified(mi, modified); } num++; } sfi++; } } mi = rpmdbFreeIterator(mi); return RPMRC_OK; } rpmRC rpmInstallSourcePackage(rpmts ts, FD_t fd, const char ** specFilePtr, const char ** cookie) { int scareMem = 1; rpmfi fi = NULL; const char * _sourcedir = NULL; const char * _specdir = NULL; const char * specFile = NULL; HGE_t hge; HFD_t hfd; Header h = NULL; struct rpmpsm_s psmbuf; rpmpsm psm = &psmbuf; int isSource; rpmRC rpmrc; int i; memset(psm, 0, sizeof(*psm)); psm->ts = rpmtsLink(ts, "InstallSourcePackage"); rpmrc = rpmReadPackageFile(ts, fd, "InstallSourcePackage", &h); switch (rpmrc) { case RPMRC_NOTTRUSTED: case RPMRC_NOKEY: case RPMRC_OK: break; default: goto exit; break; } if (h == NULL) goto exit; rpmrc = RPMRC_OK; isSource = headerIsEntry(h, RPMTAG_SOURCEPACKAGE); if (!isSource) { rpmError(RPMERR_NOTSRPM, _("source package expected, binary found\n")); rpmrc = RPMRC_FAIL; goto exit; } if (rpmtsAddInstallElement(ts, h, NULL, 0, NULL)) { rpmrc = RPMRC_FAIL; goto exit; } fi = rpmfiNew(ts, h, RPMTAG_BASENAMES, scareMem); h = headerFree(h); if (fi == NULL) { /* XXX can't happen */ rpmrc = RPMRC_FAIL; goto exit; } fi->te = rpmtsElement(ts, 0); if (fi->te == NULL) { /* XXX can't happen */ rpmrc = RPMRC_FAIL; goto exit; } rpmteSetHeader(fi->te, fi->h); fi->te->fd = fdLink(fd, "installSourcePackage"); hge = fi->hge; hfd = fi->hfd; (void) rpmInstallLoadMacros(fi, fi->h); psm->fi = rpmfiLink(fi, NULL); psm->te = fi->te; if (cookie) { *cookie = NULL; if (hge(fi->h, RPMTAG_COOKIE, NULL, (void **) cookie, NULL)) *cookie = xstrdup(*cookie); } /* XXX FIXME: can't do endian neutral MD5 verification yet. */ fi->fmd5s = hfd(fi->fmd5s, -1); /* XXX FIXME: don't do per-file mapping, force global flags. */ fi->fmapflags = _free(fi->fmapflags); fi->mapflags = CPIO_MAP_PATH | CPIO_MAP_MODE | CPIO_MAP_UID | CPIO_MAP_GID; fi->uid = getuid(); fi->gid = getgid(); fi->astriplen = 0; fi->striplen = 0; for (i = 0; i < fi->fc; i++) fi->actions[i] = FA_CREATE; i = fi->fc; if (fi->h != NULL) { /* XXX can't happen */ rpmfiBuildFNames(fi->h, RPMTAG_BASENAMES, &fi->apath, NULL); if (headerIsEntry(fi->h, RPMTAG_COOKIE)) for (i = 0; i < fi->fc; i++) if (fi->fflags[i] & RPMFILE_SPECFILE) break; } if (i == fi->fc) { /* Find the spec file by name. */ for (i = 0; i < fi->fc; i++) { const char * t = fi->apath[i]; t += strlen(fi->apath[i]) - 5; if (!strcmp(t, ".spec")) break; } } _sourcedir = rpmGenPath(rpmtsRootDir(ts), "%{_sourcedir}", ""); rpmrc = rpmMkdirPath(_sourcedir, "sourcedir"); if (rpmrc) { rpmrc = RPMRC_FAIL; goto exit; } _specdir = rpmGenPath(rpmtsRootDir(ts), "%{_specdir}", ""); rpmrc = rpmMkdirPath(_specdir, "specdir"); if (rpmrc) { rpmrc = RPMRC_FAIL; goto exit; } /* Build dnl/dil with {_sourcedir, _specdir} as values. */ if (i < fi->fc) { int speclen = strlen(_specdir) + 2; int sourcelen = strlen(_sourcedir) + 2; char * t; fi->dnl = hfd(fi->dnl, -1); fi->dc = 2; fi->dnl = xmalloc(fi->dc * sizeof(*fi->dnl) + fi->fc * sizeof(*fi->dil) + speclen + sourcelen); fi->dil = (unsigned int *)(fi->dnl + fi->dc); memset(fi->dil, 0, fi->fc * sizeof(*fi->dil)); fi->dil[i] = 1; fi->dnl[0] = t = (char *)(fi->dil + fi->fc); fi->dnl[1] = t = stpcpy( stpcpy(t, _sourcedir), "/") + 1; (void) stpcpy( stpcpy(t, _specdir), "/"); t = xmalloc(speclen + strlen(fi->bnl[i]) + 1); (void) stpcpy( stpcpy( stpcpy(t, _specdir), "/"), fi->bnl[i]); specFile = t; } else { rpmError(RPMERR_NOSPEC, _("source package contains no .spec file\n")); rpmrc = RPMRC_FAIL; goto exit; } psm->goal = PSM_PKGINSTALL; /* FIX: psm->fi->dnl should be owned. */ rpmrc = rpmpsmStage(psm, PSM_PROCESS); (void) rpmpsmStage(psm, PSM_FINI); if (rpmrc) rpmrc = RPMRC_FAIL; exit: if (specFilePtr && specFile && rpmrc == RPMRC_OK) *specFilePtr = specFile; else specFile = _free(specFile); _specdir = _free(_specdir); _sourcedir = _free(_sourcedir); psm->fi = rpmfiFree(psm->fi); psm->te = NULL; if (h != NULL) h = headerFree(h); if (fi != NULL) { rpmteSetHeader(fi->te, NULL); if (fi->te->fd != NULL) (void) Fclose(fi->te->fd); fi->te->fd = NULL; fi->te = NULL; fi = rpmfiFree(fi); } /* XXX nuke the added package(s). */ rpmtsClean(ts); psm->ts = rpmtsFree(psm->ts); return rpmrc; } static char * SCRIPT_PATH = "PATH=/sbin:/bin:/usr/sbin:/usr/bin:/usr/X11R6/bin"; /** * Return scriptlet name from tag. * @param tag scriptlet tag * @return name of scriptlet */ static const char * tag2sln(int tag) { switch (tag) { case RPMTAG_PRETRANS: return "%pretrans"; case RPMTAG_TRIGGERPREIN: return "%triggerprein"; case RPMTAG_PREIN: return "%pre"; case RPMTAG_POSTIN: return "%post"; case RPMTAG_TRIGGERIN: return "%triggerin"; case RPMTAG_TRIGGERUN: return "%triggerun"; case RPMTAG_PREUN: return "%preun"; case RPMTAG_POSTUN: return "%postun"; case RPMTAG_POSTTRANS: return "%posttrans"; case RPMTAG_TRIGGERPOSTUN: return "%triggerpostun"; case RPMTAG_VERIFYSCRIPT: return "%verify"; } return "%unknownscript"; } /** * Wait for child process to be reaped. * @param psm package state machine data * @return */ static pid_t psmWait(rpmpsm psm) { const rpmts ts = psm->ts; rpmtime_t msecs; (void) rpmsqWait(&psm->sq); msecs = psm->sq.op.usecs/1000; (void) rpmswAdd(rpmtsOp(ts, RPMTS_OP_SCRIPTLETS), &psm->sq.op); rpmMessage(RPMMESS_DEBUG, _("%s: waitpid(%d) rc %d status %x secs %u.%03u\n"), psm->stepName, (unsigned)psm->sq.child, (unsigned)psm->sq.reaped, psm->sq.status, (unsigned)msecs/1000, (unsigned)msecs%1000); return psm->sq.reaped; } #ifdef WITH_LUA /** * Run internal Lua script. */ static rpmRC runLuaScript(rpmpsm psm, Header h, const char *sln, int progArgc, const char **progArgv, const char *script, int arg1, int arg2) { const rpmts ts = psm->ts; int rootFd = -1; const char *n, *v, *r; rpmRC rc = RPMRC_OK; int i; int xx; rpmlua lua = NULL; /* Global state. */ rpmluav var; xx = headerNVR(h, &n, &v, &r); if (!rpmtsChrootDone(ts)) { const char *rootDir = rpmtsRootDir(ts); xx = chdir("/"); rootFd = open(".", O_RDONLY, 0); if (rootFd >= 0) { if (rootDir != NULL && strcmp(rootDir, "/") && *rootDir == '/') xx = chroot(rootDir); xx = rpmtsSetChrootDone(ts, 1); } } /* Create arg variable */ rpmluaPushTable(lua, "arg"); var = rpmluavNew(); rpmluavSetListMode(var, 1); if (progArgv) { for (i = 0; i < progArgc && progArgv[i]; i++) { rpmluavSetValue(var, RPMLUAV_STRING, progArgv[i]); rpmluaSetVar(lua, var); } } if (arg1 >= 0) { rpmluavSetValueNum(var, arg1); rpmluaSetVar(lua, var); } if (arg2 >= 0) { rpmluavSetValueNum(var, arg2); rpmluaSetVar(lua, var); } var = rpmluavFree(var); rpmluaPop(lua); { char buf[BUFSIZ]; xx = snprintf(buf, BUFSIZ, "%s(%s-%s-%s)", sln, n, v, r); if (rpmluaRunScript(lua, script, buf) == -1) rc = RPMRC_FAIL; } rpmluaDelVar(lua, "arg"); if (rootFd >= 0) { const char *rootDir = rpmtsRootDir(ts); xx = fchdir(rootFd); xx = close(rootFd); if (rootDir != NULL && strcmp(rootDir, "/") && *rootDir == '/') xx = chroot("."); xx = rpmtsSetChrootDone(ts, 0); } return rc; } #endif /** */ static int ldconfig_done = 0; static const char * ldconfig_path = "/sbin/ldconfig"; /** * Run scriptlet with args. * * Run a script with an interpreter. If the interpreter is not specified, * /bin/sh will be used. If the interpreter is /bin/sh, then the args from * the header will be ignored, passing instead arg1 and arg2. * * @param psm package state machine data * @param h header * @param sln name of scriptlet section * @param progArgc no. of args from header * @param progArgv args from header, progArgv[0] is the interpreter to use * @param script scriptlet from header * @param arg1 no. instances of package installed after scriptlet exec * (-1 is no arg) * @param arg2 ditto, but for the target package * @return 0 on success */ static rpmRC runScript(rpmpsm psm, Header h, const char * sln, int progArgc, const char ** progArgv, const char * script, int arg1, int arg2) { const rpmts ts = psm->ts; rpmfi fi = psm->fi; HGE_t hge = fi->hge; HFD_t hfd = (fi->hfd ? fi->hfd : headerFreeData); const char ** argv = NULL; int argc = 0; const char ** prefixes = NULL; int numPrefixes; rpmTagType ipt; const char * oldPrefix; int maxPrefixLength; int len; char * prefixBuf = NULL; const char * fn = NULL; int xx; int i; int freePrefixes = 0; FD_t scriptFd; FD_t out; rpmRC rc = RPMRC_OK; const char *n, *v, *r, *a; if (progArgv == NULL && script == NULL) return rc; /* XXX FIXME: except for %verifyscript, rpmteNEVR can be used. */ xx = headerNVR(h, &n, &v, &r); xx = hge(h, RPMTAG_ARCH, NULL, (void **) &a, NULL); if (progArgv && strcmp(progArgv[0], "") == 0) { #ifdef WITH_LUA rpmMessage(RPMMESS_DEBUG, _("%s: %s(%s-%s-%s.%s) running scriptlet.\n"), psm->stepName, tag2sln(psm->scriptTag), n, v, r, a); return runLuaScript(psm, h, sln, progArgc, progArgv, script, arg1, arg2); #else return RPMRC_FAIL; #endif } psm->sq.reaper = 1; /* * If a successor node, and ldconfig was just run, don't bother. */ if (ldconfig_path && progArgv != NULL && psm->unorderedSuccessor) { if (ldconfig_done && !strcmp(progArgv[0], ldconfig_path)) { rpmMessage(RPMMESS_DEBUG, _("%s: %s(%s-%s-%s.%s) skipping redundant \"%s\".\n"), psm->stepName, tag2sln(psm->scriptTag), n, v, r, a, progArgv[0]); return rc; } } rpmMessage(RPMMESS_DEBUG, _("%s: %s(%s-%s-%s.%s) %ssynchronous scriptlet start\n"), psm->stepName, tag2sln(psm->scriptTag), n, v, r, a, (psm->unorderedSuccessor ? "a" : "")); if (!progArgv) { argv = alloca(5 * sizeof(*argv)); argv[0] = "/bin/sh"; argc = 1; ldconfig_done = 0; } else { argv = alloca((progArgc + 4) * sizeof(*argv)); memcpy(argv, progArgv, progArgc * sizeof(*argv)); argc = progArgc; ldconfig_done = (ldconfig_path && !strcmp(argv[0], ldconfig_path) ? 1 : 0); } #if __ia64__ /* XXX This assumes that all interpreters are elf executables. */ if ((a != NULL && a[0] == 'i' && a[1] != '\0' && a[2] == '8' && a[3] == '6') && strcmp(argv[0], "/sbin/ldconfig")) { const char * fmt = rpmGetPath("%{?_autorelocate_path}", NULL); const char * errstr; char * newPath; char * t; newPath = headerSprintf(h, fmt, rpmTagTable, rpmHeaderFormats, &errstr); fmt = _free(fmt); /* XXX On ia64, change leading /emul/ix86 -> /emul/ia32, ick. */ if (newPath != NULL && *newPath != '\0' && strlen(newPath) >= (sizeof("/emul/i386")-1) && newPath[0] == '/' && newPath[1] == 'e' && newPath[2] == 'm' && newPath[3] == 'u' && newPath[4] == 'l' && newPath[5] == '/' && newPath[6] == 'i' && newPath[8] == '8' && newPath[9] == '6') { newPath[7] = 'a'; newPath[8] = '3'; newPath[9] = '2'; } t = alloca(strlen(newPath) + strlen(argv[0]) + 1); *t = '\0'; (void) stpcpy( stpcpy(t, newPath), argv[0]); newPath = _free(newPath); argv[0] = t; } #endif if (hge(h, RPMTAG_INSTPREFIXES, &ipt, (void **) &prefixes, &numPrefixes)) { freePrefixes = 1; } else if (hge(h, RPMTAG_INSTALLPREFIX, NULL, (void **) &oldPrefix, NULL)) { prefixes = &oldPrefix; numPrefixes = 1; } else { numPrefixes = 0; } maxPrefixLength = 0; if (prefixes != NULL) for (i = 0; i < numPrefixes; i++) { len = strlen(prefixes[i]); if (len > maxPrefixLength) maxPrefixLength = len; } prefixBuf = alloca(maxPrefixLength + 50); if (script) { const char * rootDir = rpmtsRootDir(ts); FD_t fd; if (makeTempFile((!rpmtsChrootDone(ts) ? rootDir : "/"), &fn, &fd)) { if (prefixes != NULL && freePrefixes) free(prefixes); return RPMRC_FAIL; } if (rpmIsDebug() && (!strcmp(argv[0], "/bin/sh") || !strcmp(argv[0], "/bin/bash"))) { static const char set_x[] = "set -x\n"; xx = Fwrite(set_x, sizeof(set_x[0]), sizeof(set_x)-1, fd); } if (ldconfig_path && strstr(script, ldconfig_path) != NULL) ldconfig_done = 1; xx = Fwrite(script, sizeof(script[0]), strlen(script), fd); xx = Fclose(fd); { const char * sn = fn; if (!rpmtsChrootDone(ts) && rootDir != NULL && !(rootDir[0] == '/' && rootDir[1] == '\0')) { sn += strlen(rootDir)-1; } argv[argc++] = sn; } if (arg1 >= 0) { char *av = alloca(20); sprintf(av, "%d", arg1); argv[argc++] = av; } if (arg2 >= 0) { char *av = alloca(20); sprintf(av, "%d", arg2); argv[argc++] = av; } } argv[argc] = NULL; scriptFd = rpmtsScriptFd(ts); if (scriptFd != NULL) { if (rpmIsVerbose()) { out = fdDup(Fileno(scriptFd)); } else { out = Fopen("/dev/null", "w.fdio"); if (Ferror(out)) { out = fdDup(Fileno(scriptFd)); } } } else { out = fdDup(STDOUT_FILENO); } if (out == NULL) return RPMRC_FAIL; /* XXX can't happen */ xx = rpmsqFork(&psm->sq); if (psm->sq.child == 0) { const char * rootDir; int pipes[2]; int flag; int fdno; pipes[0] = pipes[1] = 0; /* make stdin inaccessible */ xx = pipe(pipes); xx = close(pipes[1]); xx = dup2(pipes[0], STDIN_FILENO); xx = close(pipes[0]); /* XXX Force FD_CLOEXEC on 1st 100 inherited fdno's. */ for (fdno = 3; fdno < 100; fdno++) { flag = fcntl(fdno, F_GETFD); if (flag == -1 || (flag & FD_CLOEXEC)) continue; xx = fcntl(fdno, F_SETFD, FD_CLOEXEC); /* XXX W2DO? debug msg for inheirited fdno w/o FD_CLOEXEC */ } if (scriptFd != NULL) { int sfdno = Fileno(scriptFd); int ofdno = Fileno(out); if (sfdno != STDERR_FILENO) xx = dup2(sfdno, STDERR_FILENO); if (ofdno != STDOUT_FILENO) xx = dup2(ofdno, STDOUT_FILENO); /* make sure we don't close stdin/stderr/stdout by mistake! */ if (ofdno > STDERR_FILENO && ofdno != sfdno) xx = Fclose (out); if (sfdno > STDERR_FILENO && ofdno != sfdno) xx = Fclose (scriptFd); } { const char *ipath = rpmExpand("PATH=%{_install_script_path}", NULL); const char *path = SCRIPT_PATH; if (ipath && ipath[5] != '%') path = ipath; xx = doputenv(path); ipath = _free(ipath); } if (prefixes != NULL) for (i = 0; i < numPrefixes; i++) { sprintf(prefixBuf, "RPM_INSTALL_PREFIX%d=%s", i, prefixes[i]); xx = doputenv(prefixBuf); /* backwards compatibility */ if (i == 0) { sprintf(prefixBuf, "RPM_INSTALL_PREFIX=%s", prefixes[i]); xx = doputenv(prefixBuf); } } rootDir = ts->rootDir; /* HACK: rootDir = rpmtsRootDir(ts); instead */ if (rootDir != NULL) /* XXX can't happen */ switch(urlIsURL(rootDir)) { case URL_IS_PATH: rootDir += sizeof("file://") - 1; rootDir = strchr(rootDir, '/'); case URL_IS_UNKNOWN: if (!rpmtsChrootDone(ts) && !(rootDir[0] == '/' && rootDir[1] == '\0')) { xx = chroot(rootDir); } xx = chdir("/"); rpmMessage(RPMMESS_DEBUG, _("%s: %s(%s-%s-%s.%s)\texecv(%s) pid %d\n"), psm->stepName, sln, n, v, r, a, argv[0], (unsigned)getpid()); /* XXX Don't mtrace into children. */ unsetenv("MALLOC_CHECK_"); /* Permit libselinux to do the scriptlet exec. */ if (rpmtsSELinuxEnabled(ts) == 1) { xx = rpm_execcon(0, argv[0], (char ** const) argv, environ); if (xx != 0) break; } xx = execv(argv[0], (char *const *)argv); break; case URL_IS_HTTPS: case URL_IS_HTTP: case URL_IS_FTP: case URL_IS_DASH: case URL_IS_HKP: default: break; } _exit(-1); } if (psm->sq.child == (pid_t)-1) { rpmError(RPMERR_FORK, _("Couldn't fork %s: %s\n"), sln, strerror(errno)); rc = RPMRC_FAIL; goto exit; } (void) psmWait(psm); /* XXX filter order dependent multilib "other" arch helper error. */ if (!(psm->sq.reaped >= 0 && !strcmp(argv[0], "/usr/sbin/glibc_post_upgrade") && WEXITSTATUS(psm->sq.status) == 110)) { if (psm->sq.reaped < 0) { rpmError(RPMERR_SCRIPT, _("%s(%s-%s-%s.%s) scriptlet failed, waitpid(%d) rc %d: %s\n"), sln, n, v, r, a, psm->sq.child, psm->sq.reaped, strerror(errno)); rc = RPMRC_FAIL; } else if (!WIFEXITED(psm->sq.status) || WEXITSTATUS(psm->sq.status)) { if (WIFSIGNALED(psm->sq.status)) { rpmError(RPMERR_SCRIPT, _("%s(%s-%s-%s.%s) scriptlet failed, signal %d\n"), sln, n, v, r, a, WTERMSIG(psm->sq.status)); } else { rpmError(RPMERR_SCRIPT, _("%s(%s-%s-%s.%s) scriptlet failed, exit status %d\n"), sln, n, v, r, a, WEXITSTATUS(psm->sq.status)); } rc = RPMRC_FAIL; } } exit: if (freePrefixes) prefixes = hfd(prefixes, ipt); xx = Fclose(out); /* XXX dup'd STDOUT_FILENO */ if (script) { if (!rpmIsDebug()) xx = unlink(fn); fn = _free(fn); } return rc; } /** * Retrieve and run scriptlet from header. * @param psm package state machine data * @return rpmRC return code */ static rpmRC runInstScript(rpmpsm psm) { rpmfi fi = psm->fi; HGE_t hge = fi->hge; HFD_t hfd = (fi->hfd ? fi->hfd : headerFreeData); void ** progArgv; int progArgc; const char ** argv; rpmTagType ptt, stt; const char * script; rpmRC rc = RPMRC_OK; int xx; /* * headerGetEntry() sets the data pointer to NULL if the entry does * not exist. */ xx = hge(fi->h, psm->scriptTag, &stt, (void **) &script, NULL); xx = hge(fi->h, psm->progTag, &ptt, (void **) &progArgv, &progArgc); if (progArgv == NULL && script == NULL) goto exit; if (progArgv && ptt == RPM_STRING_TYPE) { argv = alloca(sizeof(*argv)); *argv = (const char *) progArgv; } else { argv = (const char **) progArgv; } if (fi->h != NULL) /* XXX can't happen */ rc = runScript(psm, fi->h, tag2sln(psm->scriptTag), progArgc, argv, script, psm->scriptArg, -1); exit: progArgv = hfd(progArgv, ptt); script = hfd(script, stt); return rc; } /** * Execute triggers. * @todo Trigger on any provides, not just package NVR. * @param psm package state machine data * @param sourceH * @param triggeredH * @param arg2 * @param triggersAlreadyRun * @return */ static rpmRC handleOneTrigger(const rpmpsm psm, Header sourceH, Header triggeredH, int arg2, unsigned char * triggersAlreadyRun) { int scareMem = 1; const rpmts ts = psm->ts; rpmfi fi = psm->fi; HGE_t hge = fi->hge; HFD_t hfd = (fi->hfd ? fi->hfd : headerFreeData); rpmds trigger = NULL; const char ** triggerScripts; const char ** triggerProgs; int_32 * triggerIndices; const char * sourceName; const char * triggerName; rpmRC rc = RPMRC_OK; int xx; int i; xx = headerNVR(sourceH, &sourceName, NULL, NULL); xx = headerNVR(triggeredH, &triggerName, NULL, NULL); trigger = rpmdsInit(rpmdsNew(triggeredH, RPMTAG_TRIGGERNAME, scareMem)); if (trigger == NULL) return rc; (void) rpmdsSetNoPromote(trigger, 1); while ((i = rpmdsNext(trigger)) >= 0) { rpmTagType tit, tst, tpt; const char * Name; int_32 Flags = rpmdsFlags(trigger); if ((Name = rpmdsN(trigger)) == NULL) continue; /* XXX can't happen */ if (strcmp(Name, sourceName)) continue; if (!(Flags & psm->sense)) continue; /* * XXX Trigger on any provided dependency, not just the package NEVR. */ if (!rpmdsAnyMatchesDep(sourceH, trigger, 1)) continue; if (!( hge(triggeredH, RPMTAG_TRIGGERINDEX, &tit, (void **) &triggerIndices, NULL) && hge(triggeredH, RPMTAG_TRIGGERSCRIPTS, &tst, (void **) &triggerScripts, NULL) && hge(triggeredH, RPMTAG_TRIGGERSCRIPTPROG, &tpt, (void **) &triggerProgs, NULL)) ) continue; { int arg1; int index; arg1 = rpmdbCountPackages(rpmtsGetRdb(ts), triggerName); if (arg1 < 0) { /* XXX W2DO? fails as "execution of script failed" */ rc = RPMRC_FAIL; } else { arg1 += psm->countCorrection; index = triggerIndices[i]; if (triggersAlreadyRun == NULL || triggersAlreadyRun[index] == 0) { rc = runScript(psm, triggeredH, "%trigger", 1, triggerProgs + index, triggerScripts[index], arg1, arg2); if (triggersAlreadyRun != NULL) triggersAlreadyRun[index] = 1; } } } triggerIndices = hfd(triggerIndices, tit); triggerScripts = hfd(triggerScripts, tst); triggerProgs = hfd(triggerProgs, tpt); /* * Each target/source header pair can only result in a single * script being run. */ break; } trigger = rpmdsFree(trigger); return rc; } /** * Run trigger scripts in the database that are fired by this header. * @param psm package state machine data * @return 0 on success */ static rpmRC runTriggers(rpmpsm psm) { const rpmts ts = psm->ts; rpmfi fi = psm->fi; int numPackage = -1; rpmRC rc = RPMRC_OK; const char * N = NULL; if (psm->te) /* XXX can't happen */ N = rpmteN(psm->te); /* XXX: Might need to adjust instance counts four autorollback. */ if (N) /* XXX can't happen */ numPackage = rpmdbCountPackages(rpmtsGetRdb(ts), N) + psm->countCorrection; if (numPackage < 0) return RPMRC_NOTFOUND; if (fi != NULL && fi->h != NULL) /* XXX can't happen */ { Header triggeredH; rpmdbMatchIterator mi; int countCorrection = psm->countCorrection; psm->countCorrection = 0; mi = rpmtsInitIterator(ts, RPMTAG_TRIGGERNAME, N, 0); while((triggeredH = rpmdbNextIterator(mi)) != NULL) rc |= handleOneTrigger(psm, fi->h, triggeredH, numPackage, NULL); mi = rpmdbFreeIterator(mi); psm->countCorrection = countCorrection; } return rc; } /** * Run triggers from this header that are fired by headers in the database. * @param psm package state machine data * @return 0 on success */ static rpmRC runImmedTriggers(rpmpsm psm) { const rpmts ts = psm->ts; rpmfi fi = psm->fi; HGE_t hge = fi->hge; HFD_t hfd = (fi->hfd ? fi->hfd : headerFreeData); const char ** triggerNames; int numTriggers; int_32 * triggerIndices; rpmTagType tnt, tit; int numTriggerIndices; unsigned char * triggersRun; rpmRC rc = RPMRC_OK; if (fi->h == NULL) return rc; /* XXX can't happen */ if (!( hge(fi->h, RPMTAG_TRIGGERNAME, &tnt, (void **) &triggerNames, &numTriggers) && hge(fi->h, RPMTAG_TRIGGERINDEX, &tit, (void **) &triggerIndices, &numTriggerIndices)) ) return rc; triggersRun = alloca(sizeof(*triggersRun) * numTriggerIndices); memset(triggersRun, 0, sizeof(*triggersRun) * numTriggerIndices); { Header sourceH = NULL; int i; for (i = 0; i < numTriggers; i++) { rpmdbMatchIterator mi; if (triggersRun[triggerIndices[i]] != 0) continue; mi = rpmtsInitIterator(ts, RPMTAG_NAME, triggerNames[i], 0); while((sourceH = rpmdbNextIterator(mi)) != NULL) { rc |= handleOneTrigger(psm, sourceH, fi->h, rpmdbGetIteratorCount(mi), triggersRun); } mi = rpmdbFreeIterator(mi); } } triggerIndices = hfd(triggerIndices, tit); triggerNames = hfd(triggerNames, tnt); return rc; } static const char * pkgStageString(pkgStage a) { switch(a) { case PSM_UNKNOWN: return "unknown"; case PSM_PKGINSTALL: return " install"; case PSM_PKGERASE: return " erase"; case PSM_PKGCOMMIT: return " commit"; case PSM_PKGSAVE: return "repackage"; case PSM_INIT: return "init"; case PSM_PRE: return "pre"; case PSM_PROCESS: return "process"; case PSM_POST: return "post"; case PSM_UNDO: return "undo"; case PSM_FINI: return "fini"; case PSM_CREATE: return "create"; case PSM_NOTIFY: return "notify"; case PSM_DESTROY: return "destroy"; case PSM_COMMIT: return "commit"; case PSM_CHROOT_IN: return "chrootin"; case PSM_CHROOT_OUT: return "chrootout"; case PSM_SCRIPT: return "script"; case PSM_TRIGGERS: return "triggers"; case PSM_IMMED_TRIGGERS: return "immedtriggers"; case PSM_RPMIO_FLAGS: return "rpmioflags"; case PSM_RPMDB_LOAD: return "rpmdbload"; case PSM_RPMDB_ADD: return "rpmdbadd"; case PSM_RPMDB_REMOVE: return "rpmdbremove"; default: return "???"; } } rpmpsm XrpmpsmUnlink(rpmpsm psm, const char * msg, const char * fn, unsigned ln) { if (psm == NULL) return NULL; if (_psm_debug && msg != NULL) fprintf(stderr, "--> psm %p -- %d %s at %s:%u\n", psm, psm->nrefs, msg, fn, ln); psm->nrefs--; return NULL; } rpmpsm XrpmpsmLink(rpmpsm psm, const char * msg, const char * fn, unsigned ln) { if (psm == NULL) return NULL; psm->nrefs++; if (_psm_debug && msg != NULL) fprintf(stderr, "--> psm %p ++ %d %s at %s:%u\n", psm, psm->nrefs, msg, fn, ln); return psm; } rpmpsm rpmpsmFree(rpmpsm psm) { const char * msg = "rpmpsmFree"; if (psm == NULL) return NULL; if (psm->nrefs > 1) return rpmpsmUnlink(psm, msg); psm->fi = rpmfiFree(psm->fi); #ifdef NOTYET psm->te = rpmteFree(psm->te); #else psm->te = NULL; #endif psm->ts = rpmtsFree(psm->ts); (void) rpmpsmUnlink(psm, msg); memset(psm, 0, sizeof(*psm)); /* XXX trash and burn */ psm = _free(psm); return NULL; } rpmpsm rpmpsmNew(rpmts ts, rpmte te, rpmfi fi) { const char * msg = "rpmpsmNew"; rpmpsm psm = xcalloc(1, sizeof(*psm)); if (ts) psm->ts = rpmtsLink(ts, msg); #ifdef NOTYET if (te) psm->te = rpmteLink(te, msg); #else if (te) psm->te = te; #endif if (fi) psm->fi = rpmfiLink(fi, msg); return rpmpsmLink(psm, msg); } static void * rpmpsmThread(void * arg) { rpmpsm psm = arg; return ((void *) rpmpsmStage(psm, psm->nstage)); } static int rpmpsmNext(rpmpsm psm, pkgStage nstage) { psm->nstage = nstage; if (_psm_threads) return rpmsqJoin( rpmsqThread(rpmpsmThread, psm) ); return rpmpsmStage(psm, psm->nstage); } /** * @todo Packages w/o files never get a callback, hence don't get displayed * on install with -v. */ /* FIX: testing null annotation for fi->h */ rpmRC rpmpsmStage(rpmpsm psm, pkgStage stage) { const rpmts ts = psm->ts; uint_32 tscolor = rpmtsColor(ts); rpmfi fi = psm->fi; HGE_t hge = fi->hge; HFD_t hfd = (fi->hfd ? fi->hfd : headerFreeData); rpmRC rc = psm->rc; int saveerrno; int xx; switch (stage) { case PSM_UNKNOWN: break; case PSM_INIT: rpmMessage(RPMMESS_DEBUG, _("%s: %s has %d files, test = %d\n"), psm->stepName, rpmteNEVR(psm->te), rpmfiFC(fi), (rpmtsFlags(ts) & RPMTRANS_FLAG_TEST)); /* * When we run scripts, we pass an argument which is the number of * versions of this package that will be installed when we are * finished. */ psm->npkgs_installed = rpmdbCountPackages(rpmtsGetRdb(ts), rpmteN(psm->te)); if (psm->npkgs_installed < 0) { rc = RPMRC_FAIL; break; } /* If we have a score then autorollback is enabled. If autorollback is * enabled, and this is an autorollback transaction, then we may need to * adjust the pkgs installed count. * * If all this is true, this adjustment should only be made if the PSM goal * is an install. No need to make this adjustment on the erase * component of the upgrade, or even more absurd to do this when doing a * PKGSAVE. */ if (rpmtsGetScore(ts) != NULL && rpmtsGetType(ts) == RPMTRANS_TYPE_AUTOROLLBACK && (psm->goal & ~(PSM_PKGSAVE|PSM_PKGERASE))) { /* Get the score, if its not NULL, get the appropriate * score entry. */ rpmtsScore score = rpmtsGetScore(ts); if (score != NULL) { /* OK, we got a real score so lets get the appropriate * score entry. */ rpmtsScoreEntry se; se = rpmtsScoreGetEntry(score, rpmteN(psm->te)); /* IF the header for the install element has been installed, * but the header for the erase element has not been erased, * then decrement the instance count. This is because in an * autorollback, if the header was added in the initial transaction * then in the case of an upgrade the instance count will be * 2 instead of one when re-installing the old package, and 3 when * erasing the new package. * * Another wrinkle is we only want to make this adjustement * if the thing we are rollback was an upgrade of package. A pure * install or erase does not need the adjustment */ if (se && se->installed && !se->erased && (se->te_types & (TR_ADDED|TR_REMOVED))) psm->npkgs_installed--; } } if (psm->goal == PSM_PKGINSTALL) { int fc = rpmfiFC(fi); psm->scriptArg = psm->npkgs_installed + 1; assert(psm->mi == NULL); psm->mi = rpmtsInitIterator(ts, RPMTAG_NAME, rpmteN(psm->te), 0); xx = rpmdbSetIteratorRE(psm->mi, RPMTAG_EPOCH, RPMMIRE_STRCMP, rpmteE(psm->te)); xx = rpmdbSetIteratorRE(psm->mi, RPMTAG_VERSION, RPMMIRE_STRCMP, rpmteV(psm->te)); xx = rpmdbSetIteratorRE(psm->mi, RPMTAG_RELEASE, RPMMIRE_STRCMP, rpmteR(psm->te)); if (tscolor) { xx = rpmdbSetIteratorRE(psm->mi, RPMTAG_ARCH, RPMMIRE_STRCMP, rpmteA(psm->te)); xx = rpmdbSetIteratorRE(psm->mi, RPMTAG_OS, RPMMIRE_STRCMP, rpmteO(psm->te)); } while ((psm->oh = rpmdbNextIterator(psm->mi)) != NULL) { fi->record = rpmdbGetIteratorOffset(psm->mi); psm->oh = NULL; break; } psm->mi = rpmdbFreeIterator(psm->mi); rc = RPMRC_OK; /* XXX lazy alloc here may need to be done elsewhere. */ if (fi->fstates == NULL && fc > 0) { fi->fstates = xmalloc(sizeof(*fi->fstates) * fc); memset(fi->fstates, RPMFILE_STATE_NORMAL, fc); } if (rpmtsFlags(ts) & RPMTRANS_FLAG_JUSTDB) break; if (fc <= 0) break; /* * Old format relocatable packages need the entire default * prefix stripped to form the cpio list, while all other packages * need the leading / stripped. */ { const char * p; xx = hge(fi->h, RPMTAG_DEFAULTPREFIX, NULL, (void **) &p, NULL); fi->striplen = (xx ? strlen(p) + 1 : 1); } fi->mapflags = CPIO_MAP_PATH | CPIO_MAP_MODE | CPIO_MAP_UID | CPIO_MAP_GID | (fi->mapflags & CPIO_SBIT_CHECK); if (headerIsEntry(fi->h, RPMTAG_ORIGBASENAMES)) rpmfiBuildFNames(fi->h, RPMTAG_ORIGBASENAMES, &fi->apath, NULL); else rpmfiBuildFNames(fi->h, RPMTAG_BASENAMES, &fi->apath, NULL); if (fi->fuser == NULL) xx = hge(fi->h, RPMTAG_FILEUSERNAME, NULL, (void **) &fi->fuser, NULL); if (fi->fgroup == NULL) xx = hge(fi->h, RPMTAG_FILEGROUPNAME, NULL, (void **) &fi->fgroup, NULL); rc = RPMRC_OK; } if (psm->goal == PSM_PKGERASE || psm->goal == PSM_PKGSAVE) { psm->scriptArg = psm->npkgs_installed - 1; /* Retrieve installed header. */ rc = rpmpsmNext(psm, PSM_RPMDB_LOAD); if (rc == RPMRC_OK && psm->te) rpmteSetHeader(psm->te, fi->h); } if (psm->goal == PSM_PKGSAVE) { /* Open output package for writing. */ { const char * bfmt = rpmGetPath("%{_repackage_name_fmt}", NULL); const char * pkgbn = headerSprintf(fi->h, bfmt, rpmTagTable, rpmHeaderFormats, NULL); bfmt = _free(bfmt); psm->pkgURL = rpmGenPath("%{?_repackage_root}", "%{?_repackage_dir}", pkgbn); pkgbn = _free(pkgbn); (void) urlPath(psm->pkgURL, &psm->pkgfn); psm->fd = Fopen(psm->pkgfn, "w.ufdio"); if (psm->fd == NULL || Ferror(psm->fd)) { rc = RPMRC_FAIL; break; } } } break; case PSM_PRE: if (rpmtsFlags(ts) & RPMTRANS_FLAG_TEST) break; /* XXX insure that trigger index is opened before entering chroot. */ #ifdef NOTYET { static int oneshot = 0; dbiIndex dbi; if (!oneshot) { dbi = dbiOpen(rpmtsGetRdb(ts), RPMTAG_TRIGGERNAME, 0); oneshot++; } } #endif /* Change root directory if requested and not already done. */ rc = rpmpsmNext(psm, PSM_CHROOT_IN); if (psm->goal == PSM_PKGINSTALL) { psm->scriptTag = RPMTAG_PREIN; psm->progTag = RPMTAG_PREINPROG; if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_NOTRIGGERPREIN)) { /* XXX FIXME: implement %triggerprein. */ } if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_NOPRE)) { rc = rpmpsmNext(psm, PSM_SCRIPT); if (rc != RPMRC_OK) { rpmError(RPMERR_SCRIPT, _("%s: %s scriptlet failed (%d), skipping %s\n"), psm->stepName, tag2sln(psm->scriptTag), rc, rpmteNEVR(psm->te)); break; } } } if (psm->goal == PSM_PKGERASE) { psm->scriptTag = RPMTAG_PREUN; psm->progTag = RPMTAG_PREUNPROG; psm->sense = RPMSENSE_TRIGGERUN; psm->countCorrection = -1; if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_NOTRIGGERUN)) { /* Run triggers in this package other package(s) set off. */ rc = rpmpsmNext(psm, PSM_IMMED_TRIGGERS); if (rc) break; /* Run triggers in other package(s) this package sets off. */ rc = rpmpsmNext(psm, PSM_TRIGGERS); if (rc) break; } if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_NOPREUN)) rc = rpmpsmNext(psm, PSM_SCRIPT); } if (psm->goal == PSM_PKGSAVE) { int noArchiveSize = 0; /* Regenerate original header. */ { void * uh = NULL; int_32 uht, uhc; if (headerGetEntry(fi->h, RPMTAG_HEADERIMMUTABLE, &uht, &uh, &uhc)) { psm->oh = headerCopyLoad(uh); uh = hfd(uh, uht); } else if (headerGetEntry(fi->h, RPMTAG_HEADERIMAGE, &uht, &uh, &uhc)) { HeaderIterator hi; int_32 tag, type, count; hPTR_t ptr; Header oh; /* Load the original header from the blob. */ oh = headerCopyLoad(uh); /* XXX this is headerCopy w/o headerReload() */ psm->oh = headerNew(); for (hi = headerInitIterator(oh); headerNextIterator(hi, &tag, &type, &ptr, &count); ptr = headerFreeData((void *)ptr, type)) { if (tag == RPMTAG_ARCHIVESIZE) noArchiveSize = 1; if (ptr) (void) headerAddEntry(psm->oh, tag, type, ptr, count); } hi = headerFreeIterator(hi); oh = headerFree(oh); uh = hfd(uh, uht); } else break; /* XXX shouldn't ever happen */ } /* Retrieve type of payload compression. */ /* FIX: psm->oh may be NULL */ rc = rpmpsmNext(psm, PSM_RPMIO_FLAGS); /* Write the lead section into the package. */ { int archnum = -1; int osnum = -1; struct rpmlead lead; #ifndef DYING rpmGetArchInfo(NULL, &archnum); rpmGetOsInfo(NULL, &osnum); #endif memset(&lead, 0, sizeof(lead)); /* XXX Set package version conditioned on noDirTokens. */ lead.major = 3; lead.minor = 0; lead.type = RPMLEAD_BINARY; lead.archnum = archnum; lead.osnum = osnum; lead.signature_type = RPMSIGTYPE_HEADERSIG; strncpy(lead.name, rpmteNEVR(psm->te), sizeof(lead.name)); rc = writeLead(psm->fd, &lead); if (rc != RPMRC_OK) { rpmError(RPMERR_NOSPACE, _("Unable to write package: %s\n"), Fstrerror(psm->fd)); break; } } /* Write the signature section into the package. */ /* XXX rpm-4.1 and later has archive size in signature header. */ { Header sigh = headerRegenSigHeader(fi->h, noArchiveSize); /* Reallocate the signature into one contiguous region. */ sigh = headerReload(sigh, RPMTAG_HEADERSIGNATURES); if (sigh == NULL) { rpmError(RPMERR_NOSPACE, _("Unable to reload signature header\n")); rc = RPMRC_FAIL; break; } rc = rpmWriteSignature(psm->fd, sigh); sigh = rpmFreeSignature(sigh); if (rc) break; } /* Add remove transaction id to header. */ if (psm->oh != NULL) { int_32 tid = rpmtsGetTid(ts); xx = headerAddEntry(psm->oh, RPMTAG_REMOVETID, RPM_INT32_TYPE, &tid, 1); } /* Write the metadata section into the package. */ rc = headerWrite(psm->fd, psm->oh, HEADER_MAGIC_YES); if (rc) break; } break; case PSM_PROCESS: if (rpmtsFlags(ts) & RPMTRANS_FLAG_TEST) break; if (psm->goal == PSM_PKGINSTALL) { if (rpmtsFlags(ts) & RPMTRANS_FLAG_JUSTDB) break; /* XXX Synthesize callbacks for packages with no files. */ if (rpmfiFC(fi) <= 0) { void * ptr; ptr = rpmtsNotify(ts, fi->te, RPMCALLBACK_INST_START, 0, 100); ptr = rpmtsNotify(ts, fi->te, RPMCALLBACK_INST_PROGRESS, 100, 100); break; } /* Retrieve type of payload compression. */ rc = rpmpsmNext(psm, PSM_RPMIO_FLAGS); if (rpmteFd(fi->te) == NULL) { /* XXX can't happen */ rc = RPMRC_FAIL; break; } /* LCL: fi->fd != NULL here. */ psm->cfd = Fdopen(fdDup(Fileno(rpmteFd(fi->te))), psm->rpmio_flags); if (psm->cfd == NULL) { /* XXX can't happen */ rc = RPMRC_FAIL; break; } rc = fsmSetup(fi->fsm, FSM_PKGINSTALL, ts, fi, psm->cfd, NULL, &psm->failedFile); (void) rpmswAdd(rpmtsOp(ts, RPMTS_OP_UNCOMPRESS), fdstat_op(psm->cfd, FDSTAT_READ)); (void) rpmswAdd(rpmtsOp(ts, RPMTS_OP_DIGEST), fdstat_op(psm->cfd, FDSTAT_DIGEST)); xx = fsmTeardown(fi->fsm); saveerrno = errno; /* XXX FIXME: Fclose with libio destroys errno */ xx = Fclose(psm->cfd); psm->cfd = NULL; errno = saveerrno; /* XXX FIXME: Fclose with libio destroys errno */ if (!rc) rc = rpmpsmNext(psm, PSM_COMMIT); /* XXX make sure progress is closed out */ psm->what = RPMCALLBACK_INST_PROGRESS; psm->amount = (fi->archiveSize ? fi->archiveSize : 100); psm->total = psm->amount; xx = rpmpsmNext(psm, PSM_NOTIFY); if (rc) { rpmError(RPMERR_CPIO, _("unpacking of archive failed%s%s: %s\n"), (psm->failedFile != NULL ? _(" on file ") : ""), (psm->failedFile != NULL ? psm->failedFile : ""), cpioStrerror(rc)); rc = RPMRC_FAIL; /* XXX notify callback on error. */ psm->what = RPMCALLBACK_UNPACK_ERROR; psm->amount = 0; psm->total = 0; xx = rpmpsmNext(psm, PSM_NOTIFY); break; } } if (psm->goal == PSM_PKGERASE) { int fc = rpmfiFC(fi); if (rpmtsFlags(ts) & RPMTRANS_FLAG_JUSTDB) break; if (rpmtsFlags(ts) & RPMTRANS_FLAG_APPLYONLY) break; /* XXX Synthesize callbacks for packages with no files. */ if (rpmfiFC(fi) <= 0) { void * ptr; ptr = rpmtsNotify(ts, fi->te, RPMCALLBACK_UNINST_START, 0, 100); ptr = rpmtsNotify(ts, fi->te, RPMCALLBACK_UNINST_STOP, 0, 100); break; } psm->what = RPMCALLBACK_UNINST_START; psm->amount = fc; /* XXX W2DO? looks wrong. */ psm->total = fc; xx = rpmpsmNext(psm, PSM_NOTIFY); rc = fsmSetup(fi->fsm, FSM_PKGERASE, ts, fi, NULL, NULL, &psm->failedFile); xx = fsmTeardown(fi->fsm); psm->what = RPMCALLBACK_UNINST_STOP; psm->amount = 0; /* XXX W2DO? looks wrong. */ psm->total = fc; xx = rpmpsmNext(psm, PSM_NOTIFY); } if (psm->goal == PSM_PKGSAVE) { rpmFileAction * actions = fi->actions; rpmFileAction action = fi->action; fi->action = FA_COPYOUT; fi->actions = NULL; if (psm->fd == NULL) { /* XXX can't happen */ rc = RPMRC_FAIL; break; } /* FIX: fdDup mey return NULL. */ xx = Fflush(psm->fd); psm->cfd = Fdopen(fdDup(Fileno(psm->fd)), psm->rpmio_flags); if (psm->cfd == NULL) { /* XXX can't happen */ rc = RPMRC_FAIL; break; } rc = fsmSetup(fi->fsm, FSM_PKGBUILD, ts, fi, psm->cfd, NULL, &psm->failedFile); (void) rpmswAdd(rpmtsOp(ts, RPMTS_OP_COMPRESS), fdstat_op(psm->cfd, FDSTAT_WRITE)); (void) rpmswAdd(rpmtsOp(ts, RPMTS_OP_DIGEST), fdstat_op(psm->cfd, FDSTAT_DIGEST)); xx = fsmTeardown(fi->fsm); saveerrno = errno; /* XXX FIXME: Fclose with libio destroys errno */ xx = Fclose(psm->cfd); psm->cfd = NULL; errno = saveerrno; /* XXX make sure progress is closed out */ psm->what = RPMCALLBACK_INST_PROGRESS; psm->amount = (fi->archiveSize ? fi->archiveSize : 100); psm->total = psm->amount; xx = rpmpsmNext(psm, PSM_NOTIFY); fi->action = action; fi->actions = actions; } break; case PSM_POST: if (rpmtsFlags(ts) & RPMTRANS_FLAG_TEST) break; if (psm->goal == PSM_PKGINSTALL) { int_32 installTime = (int_32) time(NULL); int fc = rpmfiFC(fi); if (fi->h == NULL) break; /* XXX can't happen */ if (fi->fstates != NULL && fc > 0) xx = headerAddEntry(fi->h, RPMTAG_FILESTATES, RPM_CHAR_TYPE, fi->fstates, fc); xx = headerAddEntry(fi->h, RPMTAG_INSTALLTIME, RPM_INT32_TYPE, &installTime, 1); xx = headerAddEntry(fi->h, RPMTAG_INSTALLCOLOR, RPM_INT32_TYPE, &tscolor, 1); /* * If this package has already been installed, remove it from * the database before adding the new one. */ if (fi->record && !(rpmtsFlags(ts) & RPMTRANS_FLAG_APPLYONLY)) { rc = rpmpsmNext(psm, PSM_RPMDB_REMOVE); if (rc) break; } rc = rpmpsmNext(psm, PSM_RPMDB_ADD); if (rc) break; psm->scriptTag = RPMTAG_POSTIN; psm->progTag = RPMTAG_POSTINPROG; psm->sense = RPMSENSE_TRIGGERIN; psm->countCorrection = 0; if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_NOPOST)) { rc = rpmpsmNext(psm, PSM_SCRIPT); if (rc) break; } if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_NOTRIGGERIN)) { /* Run triggers in other package(s) this package sets off. */ rc = rpmpsmNext(psm, PSM_TRIGGERS); if (rc) break; /* Run triggers in this package other package(s) set off. */ rc = rpmpsmNext(psm, PSM_IMMED_TRIGGERS); if (rc) break; } if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_APPLYONLY)) rc = markReplacedFiles(psm); } if (psm->goal == PSM_PKGERASE) { psm->scriptTag = RPMTAG_POSTUN; psm->progTag = RPMTAG_POSTUNPROG; psm->sense = RPMSENSE_TRIGGERPOSTUN; psm->countCorrection = -1; if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_NOPOSTUN)) { rc = rpmpsmNext(psm, PSM_SCRIPT); if (rc) break; } if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_NOTRIGGERPOSTUN)) { /* Run triggers in other package(s) this package sets off. */ rc = rpmpsmNext(psm, PSM_TRIGGERS); if (rc) break; } if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_APPLYONLY)) rc = rpmpsmNext(psm, PSM_RPMDB_REMOVE); } if (psm->goal == PSM_PKGSAVE) { } /* Restore root directory if changed. */ xx = rpmpsmNext(psm, PSM_CHROOT_OUT); break; case PSM_UNDO: break; case PSM_FINI: /* Restore root directory if changed. */ xx = rpmpsmNext(psm, PSM_CHROOT_OUT); if (psm->fd != NULL) { saveerrno = errno; /* XXX FIXME: Fclose with libio destroys errno */ xx = Fclose(psm->fd); psm->fd = NULL; errno = saveerrno; } if (psm->goal == PSM_PKGSAVE) { if (!rc && ts && ts->notify == NULL) { rpmMessage(RPMMESS_VERBOSE, _("Wrote: %s\n"), (psm->pkgURL ? psm->pkgURL : "???")); } } if (rc) { if (psm->failedFile) rpmError(RPMERR_CPIO, _("%s failed on file %s: %s\n"), psm->stepName, psm->failedFile, cpioStrerror(rc)); else rpmError(RPMERR_CPIO, _("%s failed: %s\n"), psm->stepName, cpioStrerror(rc)); /* XXX notify callback on error. */ psm->what = RPMCALLBACK_CPIO_ERROR; psm->amount = 0; psm->total = 0; /* FIX: psm->fd may be NULL. */ xx = rpmpsmNext(psm, PSM_NOTIFY); } if (psm->goal == PSM_PKGERASE || psm->goal == PSM_PKGSAVE) { if (psm->te != NULL) rpmteSetHeader(psm->te, NULL); if (fi->h != NULL) fi->h = headerFree(fi->h); } psm->oh = headerFree(psm->oh); psm->pkgURL = _free(psm->pkgURL); psm->rpmio_flags = _free(psm->rpmio_flags); psm->failedFile = _free(psm->failedFile); fi->fgroup = hfd(fi->fgroup, -1); fi->fuser = hfd(fi->fuser, -1); fi->apath = _free(fi->apath); fi->fstates = _free(fi->fstates); break; case PSM_PKGINSTALL: case PSM_PKGERASE: case PSM_PKGSAVE: psm->goal = stage; psm->rc = RPMRC_OK; psm->stepName = pkgStageString(stage); rc = rpmpsmNext(psm, PSM_INIT); if (!rc) rc = rpmpsmNext(psm, PSM_PRE); if (!rc) rc = rpmpsmNext(psm, PSM_PROCESS); if (!rc) rc = rpmpsmNext(psm, PSM_POST); xx = rpmpsmNext(psm, PSM_FINI); break; case PSM_PKGCOMMIT: break; case PSM_CREATE: break; case PSM_NOTIFY: { void * ptr; /* FIX: psm->te may be NULL */ ptr = rpmtsNotify(ts, psm->te, psm->what, psm->amount, psm->total); } break; case PSM_DESTROY: break; case PSM_COMMIT: if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_PKGCOMMIT)) break; if (rpmtsFlags(ts) & RPMTRANS_FLAG_APPLYONLY) break; rc = fsmSetup(fi->fsm, FSM_PKGCOMMIT, ts, fi, NULL, NULL, &psm->failedFile); xx = fsmTeardown(fi->fsm); break; case PSM_CHROOT_IN: { const char * rootDir = rpmtsRootDir(ts); /* Change root directory if requested and not already done. */ if (rootDir != NULL && !(rootDir[0] == '/' && rootDir[1] == '\0') && !rpmtsChrootDone(ts) && !psm->chrootDone) { static int _pw_loaded = 0; static int _gr_loaded = 0; if (!_pw_loaded) { (void)getpwnam("root"); endpwent(); _pw_loaded++; } if (!_gr_loaded) { (void)getgrnam("root"); endgrent(); _gr_loaded++; } xx = chdir("/"); if (rootDir != NULL && strcmp(rootDir, "/") && *rootDir == '/') rc = chroot(rootDir); psm->chrootDone = 1; (void) rpmtsSetChrootDone(ts, 1); } } break; case PSM_CHROOT_OUT: /* Restore root directory if changed. */ if (psm->chrootDone) { const char * rootDir = rpmtsRootDir(ts); const char * currDir = rpmtsCurrDir(ts); if (rootDir != NULL && strcmp(rootDir, "/") && *rootDir == '/') rc = chroot("."); psm->chrootDone = 0; (void) rpmtsSetChrootDone(ts, 0); if (currDir != NULL) /* XXX can't happen */ xx = chdir(currDir); } break; case PSM_SCRIPT: /* Run current package scriptlets. */ rc = runInstScript(psm); break; case PSM_TRIGGERS: /* Run triggers in other package(s) this package sets off. */ rc = runTriggers(psm); break; case PSM_IMMED_TRIGGERS: /* Run triggers in this package other package(s) set off. */ rc = runImmedTriggers(psm); break; case PSM_RPMIO_FLAGS: { const char * payload_compressor = NULL; char * t; if (!hge(fi->h, RPMTAG_PAYLOADCOMPRESSOR, NULL, (void **) &payload_compressor, NULL)) payload_compressor = "gzip"; psm->rpmio_flags = t = xmalloc(sizeof("w9.gzdio")); *t = '\0'; t = stpcpy(t, ((psm->goal == PSM_PKGSAVE) ? "w9" : "r")); if (!strcmp(payload_compressor, "gzip")) t = stpcpy(t, ".gzdio"); if (!strcmp(payload_compressor, "bzip2")) t = stpcpy(t, ".bzdio"); rc = RPMRC_OK; } break; case PSM_RPMDB_LOAD: assert(psm->mi == NULL); psm->mi = rpmtsInitIterator(ts, RPMDBI_PACKAGES, &fi->record, sizeof(fi->record)); fi->h = rpmdbNextIterator(psm->mi); if (fi->h != NULL) fi->h = headerLink(fi->h); psm->mi = rpmdbFreeIterator(psm->mi); rc = (fi->h != NULL ? RPMRC_OK : RPMRC_FAIL); break; case PSM_RPMDB_ADD: if (rpmtsFlags(ts) & RPMTRANS_FLAG_TEST) break; if (fi->h == NULL) break; /* XXX can't happen */ (void) rpmswEnter(rpmtsOp(ts, RPMTS_OP_DBADD), 0); if (!(rpmtsVSFlags(ts) & RPMVSF_NOHDRCHK)) rc = rpmdbAdd(rpmtsGetRdb(ts), rpmtsGetTid(ts), fi->h, ts, headerCheck); else rc = rpmdbAdd(rpmtsGetRdb(ts), rpmtsGetTid(ts), fi->h, NULL, NULL); /* Set the database instance so consumers (i.e. rpmtsRun()) * can add this to a rollback transaction. */ rpmteSetDBInstance(psm->te, myinstall_instance); /* * If the score exists and this is not a rollback or autorollback * then lets check off installed for this package. */ if (rpmtsGetScore(ts) != NULL && rpmtsGetType(ts) != RPMTRANS_TYPE_ROLLBACK && rpmtsGetType(ts) != RPMTRANS_TYPE_AUTOROLLBACK) { /* Get the score, if its not NULL, get the appropriate * score entry. */ rpmtsScore score = rpmtsGetScore(ts); if (score != NULL) { rpmtsScoreEntry se; /* OK, we got a real score so lets get the appropriate * score entry. */ rpmMessage(RPMMESS_DEBUG, _("Attempting to mark %s as installed in score board(%p).\n"), rpmteN(psm->te), score); se = rpmtsScoreGetEntry(score, rpmteN(psm->te)); if (se != NULL) se->installed = 1; } } (void) rpmswExit(rpmtsOp(ts, RPMTS_OP_DBADD), 0); break; case PSM_RPMDB_REMOVE: if (rpmtsFlags(ts) & RPMTRANS_FLAG_TEST) break; (void) rpmswEnter(rpmtsOp(ts, RPMTS_OP_DBREMOVE), 0); rc = rpmdbRemove(rpmtsGetRdb(ts), rpmtsGetTid(ts), fi->record, NULL, NULL); /* * If the score exists and this is not a rollback or autorollback * then lets check off erased for this package. */ if (rpmtsGetScore(ts) != NULL && rpmtsGetType(ts) != RPMTRANS_TYPE_ROLLBACK && rpmtsGetType(ts) != RPMTRANS_TYPE_AUTOROLLBACK) { /* Get the score, if its not NULL, get the appropriate * score entry. */ rpmtsScore score = rpmtsGetScore(ts); if (score != NULL) { /* XXX: Can't happen */ rpmtsScoreEntry se; /* OK, we got a real score so lets get the appropriate * score entry. */ rpmMessage(RPMMESS_DEBUG, _("Attempting to mark %s as erased in score board(%p).\n"), rpmteN(psm->te), score); se = rpmtsScoreGetEntry(score, rpmteN(psm->te)); if (se != NULL) se->erased = 1; } } (void) rpmswExit(rpmtsOp(ts, RPMTS_OP_DBREMOVE), 0); break; default: break; } /* FIX: psm->oh and psm->fi->h may be NULL. */ return rc; }