Beispiel #1
0
static rpmVSFlags setvsFlags(struct rpmInstallArguments_s * ia)
{
    rpmVSFlags vsflags;

    if (ia->installInterfaceFlags & (INSTALL_UPGRADE | INSTALL_ERASE))
	vsflags = rpmExpandNumeric("%{?_vsflags_erase}");
    else
	vsflags = rpmExpandNumeric("%{?_vsflags_install}");

    vsflags |= rpmcliVSFlags;

    return vsflags;
}
Beispiel #2
0
static rpmVSFlags setvsFlags(struct rpmInstallArguments_s * ia)
{
    rpmVSFlags vsflags;

    if (ia->installInterfaceFlags & (INSTALL_UPGRADE | INSTALL_ERASE))
	vsflags = rpmExpandNumeric("%{?_vsflags_erase}");
    else
	vsflags = rpmExpandNumeric("%{?_vsflags_install}");

    if (rpmcliQueryFlags & VERIFY_DIGEST)
	vsflags |= _RPMVSF_NODIGESTS;
    if (rpmcliQueryFlags & VERIFY_SIGNATURE)
	vsflags |= _RPMVSF_NOSIGNATURES;
    if (rpmcliQueryFlags & VERIFY_HDRCHK)
	vsflags |= RPMVSF_NOHDRCHK;

    return vsflags;
}
Beispiel #3
0
int main(int argc, char *argv[]) 
{
    rpmts ts = NULL;
    enum modes bigMode = MODE_INSTALL;
    struct rpmInstallArguments_s *ia = &rpmIArgs;
    poptContext optCon;
    int ec = 0;
    int ret = 0;
    char rpmFile[1][PATH_MAX];
    memset(&rpmFile,0,PATH_MAX);
    snprintf(rpmFile[0],PATH_MAX,"%s",argv[1]);
    char *p[2];
    p[0] = "";
    p[1] = (char *)&rpmFile[0];
    optCon = rpmcliInit(2, p, optionsTable);


    printf("\n argc[%d],bigmode[%s]\n",argc,bigMode == MODE_UNKNOWN?"unknow":"others");
    ia->installInterfaceFlags = INSTALL_INSTALL | INSTALL_LABEL | INSTALL_PERCENT;

    ts = rpmtsCreate();
    rpmtsSetRootDir(ts, rpmcliRootDir);

        if (!ia->incldocs) {
            if (rpmExpandNumeric("%{_excludedocs}"))
                ia->transFlags |= RPMTRANS_FLAG_NODOCS;
        }

        if (ia->noDeps) 
            ia->installInterfaceFlags |= INSTALL_NODEPS;

        if (ia->prefix) {
            ia->relocations = malloc(2 * sizeof(*ia->relocations));
            ia->relocations[0].oldPath = NULL;   /* special case magic */
            ia->relocations[0].newPath = ia->prefix;
            ia->relocations[1].oldPath = NULL;
            ia->relocations[1].newPath = NULL;
        } else if (ia->relocations) {
            ia->relocations = realloc(ia->relocations, 
                sizeof(*ia->relocations) * (ia->numRelocations + 1));
            ia->relocations[ia->numRelocations].oldPath = NULL;
            ia->relocations[ia->numRelocations].newPath = NULL;
        }

    ret= rpmInstall(ts, ia, (ARGV_t) poptGetArgs(optCon));
    printf("\n ret[%d]\n",ret);

    rpmtsFree(ts);
    ts = NULL;

    rpmcliFini(optCon);

    return 0;
}
Beispiel #4
0
Datei: verify.c Projekt: xrg/RPM
int rpmcliVerify(rpmts ts, QVA_t qva, char * const * argv)
{
    rpmVSFlags vsflags, ovsflags;
    int ec = 0, xx;
    const char * rootDir = rpmtsRootDir(ts);

    /* 
     * Open the DB + indices explicitly before possible chroot,
     * otherwises BDB is going to be unhappy...
     */
    rpmtsOpenDB(ts, O_RDONLY);
    rpmdbOpenAll(rpmtsGetRdb(ts));
    if (rootDir && strcmp(rootDir, "/") != 0) {
	if (chroot(rootDir) == -1) {
	    rpmlog(RPMLOG_ERR, _("Unable to change root directory: %m\n"));
	    ec = 1;
	    goto exit;
	} else {
	    rpmtsSetChrootDone(ts, 1);
	}
    }

    if (qva->qva_showPackage == NULL)
        qva->qva_showPackage = showVerifyPackage;

    /* XXX verify flags are inverted from query. */
    vsflags = rpmExpandNumeric("%{?_vsflags_verify}");
    if (!(qva->qva_flags & VERIFY_DIGEST))
	vsflags |= _RPMVSF_NODIGESTS;
    if (!(qva->qva_flags & VERIFY_SIGNATURE))
	vsflags |= _RPMVSF_NOSIGNATURES;
    if (!(qva->qva_flags & VERIFY_HDRCHK))
	vsflags |= RPMVSF_NOHDRCHK;
    vsflags &= ~RPMVSF_NEEDPAYLOAD;

    ovsflags = rpmtsSetVSFlags(ts, vsflags);
    ec = rpmcliArgIter(ts, qva, argv);
    vsflags = rpmtsSetVSFlags(ts, ovsflags);

    if (qva->qva_showPackage == showVerifyPackage)
        qva->qva_showPackage = NULL;

    rpmtsEmpty(ts);

    if (rpmtsChrootDone(ts)) {
	/* only done if previous chroot succeeded, assume success */
	xx = chroot(".");
	rpmtsSetChrootDone(ts, 0);
    }

exit:

    return ec;
}
Beispiel #5
0
int rpmcliVerify(rpmts ts, QVA_t qva, char * const * argv)
{
    rpmVSFlags vsflags, ovsflags;
    int ec = 0;
    FD_t scriptFd = fdDup(STDOUT_FILENO);

    /* 
     * Open the DB + indices explicitly before possible chroot,
     * otherwises BDB is going to be unhappy...
     */
    rpmtsOpenDB(ts, O_RDONLY);
    rpmdbOpenAll(rpmtsGetRdb(ts));
    if (rpmChrootSet(rpmtsRootDir(ts)) || rpmChrootIn()) {
	ec = 1;
	goto exit;
    }

    if (qva->qva_showPackage == NULL)
        qva->qva_showPackage = showVerifyPackage;

    vsflags = rpmExpandNumeric("%{?_vsflags_verify}");
    if (rpmcliQueryFlags & VERIFY_DIGEST)
	vsflags |= _RPMVSF_NODIGESTS;
    if (rpmcliQueryFlags & VERIFY_SIGNATURE)
	vsflags |= _RPMVSF_NOSIGNATURES;
    if (rpmcliQueryFlags & VERIFY_HDRCHK)
	vsflags |= RPMVSF_NOHDRCHK;
    vsflags &= ~RPMVSF_NEEDPAYLOAD;

    rpmtsSetScriptFd(ts, scriptFd);
    ovsflags = rpmtsSetVSFlags(ts, vsflags);
    ec = rpmcliArgIter(ts, qva, argv);
    vsflags = rpmtsSetVSFlags(ts, ovsflags);
    rpmtsSetScriptFd(ts, NULL);

    if (qva->qva_showPackage == showVerifyPackage)
        qva->qva_showPackage = NULL;

    rpmtsEmpty(ts);

    if (rpmChrootOut() || rpmChrootSet(NULL))
	ec = 1;

exit:
    Fclose(scriptFd);

    return ec;
}
Beispiel #6
0
static int rpmts_init(rpmtsObject *s, PyObject *args, PyObject *kwds)
{
    char * rootDir = "/";
    rpmVSFlags vsflags = rpmExpandNumeric("%{?__vsflags}");
    char * kwlist[] = {"rootdir", "vsflags", 0};

    if (!PyArg_ParseTupleAndKeywords(args, kwds, "|si:rpmts_new", kwlist,
	    &rootDir, &vsflags))
	return -1;

    (void) rpmtsSetRootDir(s->ts, rootDir);
    /* XXX: make this use common code with rpmts_SetVSFlags() to check the
     *      python objects */
    (void) rpmtsSetVSFlags(s->ts, vsflags);

    return 0;
}
Beispiel #7
0
Datei: pack.c Projekt: kaltsi/rpm
static rpmRC checkPackages(char *pkgcheck)
{
    int fail = rpmExpandNumeric("%{?_nonzero_exit_pkgcheck_terminate_build}");
    int xx;
    
    rpmlog(RPMLOG_NOTICE, _("Executing \"%s\":\n"), pkgcheck);
    xx = system(pkgcheck);
    if (WEXITSTATUS(xx) == -1 || WEXITSTATUS(xx) == 127) {
	rpmlog(RPMLOG_ERR, _("Execution of \"%s\" failed.\n"), pkgcheck);
	if (fail) return RPMRC_NOTFOUND;
    }
    if (WEXITSTATUS(xx) != 0) {
	rpmlog(RPMLOG_ERR, _("Package check \"%s\" failed.\n"), pkgcheck);
	if (fail) return RPMRC_FAIL;
    }
    
    return RPMRC_OK;
}
Beispiel #8
0
Datei: fsm.c Projekt: nforro/rpm
static void wfd_close(FD_t *wfdp)
{
    if (wfdp && *wfdp) {
	int myerrno = errno;
	static int oneshot = 0;
	static int flush_io = 0;
	if (!oneshot) {
	    flush_io = rpmExpandNumeric("%{?_flush_io}");
	    oneshot = 1;
	}
	if (flush_io) {
	    int fdno = Fileno(*wfdp);
	    fsync(fdno);
	}
	Fclose(*wfdp);
	*wfdp = NULL;
	errno = myerrno;
    }
}
Beispiel #9
0
PyObject * 
rpmmacro_ExpandMacro(PyObject * self, PyObject * args, PyObject * kwds)
{
    const char *macro;
    PyObject *res;
    int num = 0;
    char * kwlist[] = {"macro", "numeric", NULL};

    if (!PyArg_ParseTupleAndKeywords(args, kwds, "s|i", kwlist, &macro, &num))
        return NULL;

    if (num) {
	res = Py_BuildValue("i", rpmExpandNumeric(macro));
    } else {
	char *str = rpmExpand(macro, NULL);
	res = Py_BuildValue("s", str);
	free(str);
    }
    return res;
}
Beispiel #10
0
int rpmcliVerify(rpmts ts, QVA_t qva, const char ** argv)
{
    rpmdepFlags depFlags = qva->depFlags, odepFlags;
    rpmtransFlags transFlags = qva->transFlags, otransFlags;
    rpmVSFlags vsflags, ovsflags;
    int ec = 0;

#if defined(_OPENMP)
(void) tagName(0);	/* XXX instantiate the tagname store. */
omp_set_nested(1);	/* XXX permit nested thread teams. */
#endif

    if (qva->qva_showPackage == NULL)
        qva->qva_showPackage = showVerifyPackage;

    /* XXX verify flags are inverted from query. */
    vsflags = rpmExpandNumeric("%{?_vsflags_verify}");
    if (!(qva->qva_flags & VERIFY_DIGEST))
	vsflags |= _RPMVSF_NODIGESTS;
    if (!(qva->qva_flags & VERIFY_SIGNATURE))
	vsflags |= _RPMVSF_NOSIGNATURES;
    if (!(qva->qva_flags & VERIFY_HDRCHK))
	vsflags |= RPMVSF_NOHDRCHK;
    vsflags &= ~RPMVSF_NEEDPAYLOAD;

    odepFlags = rpmtsSetDFlags(ts, depFlags);
    otransFlags = rpmtsSetFlags(ts, transFlags);
    ovsflags = rpmtsSetVSFlags(ts, vsflags);
    ec = rpmcliArgIter(ts, qva, argv);
    vsflags = rpmtsSetVSFlags(ts, ovsflags);
    transFlags = rpmtsSetFlags(ts, otransFlags);
    depFlags = rpmtsSetDFlags(ts, odepFlags);

    if (qva->qva_showPackage == showVerifyPackage)
        qva->qva_showPackage = NULL;

    rpmtsEmpty(ts);

    return ec;
}
Beispiel #11
0
/** @todo Generalize --freshen policies. */
int rpmInstall(rpmts ts, struct rpmInstallArguments_s * ia, ARGV_t fileArgv)
{
    struct rpmEIU * eiu = xcalloc(1, sizeof(*eiu));
    rpmps ps;
    rpmprobFilterFlags probFilter;
    rpmRelocation * relocations;
    char * fileURL = NULL;
    int stopInstall = 0;
    rpmVSFlags vsflags, ovsflags, tvsflags;
    int rc;
    int xx;
    int i;

    if (fileArgv == NULL) goto exit;

    rpmcliPackagesTotal = 0;

    (void) rpmtsSetFlags(ts, ia->transFlags);

    probFilter = ia->probFilter;
    relocations = ia->relocations;

    if (ia->installInterfaceFlags & INSTALL_UPGRADE)
	vsflags = rpmExpandNumeric("%{?_vsflags_erase}");
    else
	vsflags = rpmExpandNumeric("%{?_vsflags_install}");
    if (ia->qva_flags & VERIFY_DIGEST)
	vsflags |= _RPMVSF_NODIGESTS;
    if (ia->qva_flags & VERIFY_SIGNATURE)
	vsflags |= _RPMVSF_NOSIGNATURES;
    if (ia->qva_flags & VERIFY_HDRCHK)
	vsflags |= RPMVSF_NOHDRCHK;
    ovsflags = rpmtsSetVSFlags(ts, (vsflags | RPMVSF_NEEDPAYLOAD));

    {	int notifyFlags;
	notifyFlags = ia->installInterfaceFlags | (rpmIsVerbose() ? INSTALL_LABEL : 0 );
	xx = rpmtsSetNotifyCallback(ts,
			rpmShowProgress, (void *) ((long)notifyFlags));
    }

    if ((eiu->relocations = relocations) != NULL) {
	while (eiu->relocations->oldPath)
	    eiu->relocations++;
	if (eiu->relocations->newPath == NULL)
	    eiu->relocations = NULL;
    }

    /* Build fully globbed list of arguments in argv[argc]. */
    for (eiu->fnp = fileArgv; *eiu->fnp != NULL; eiu->fnp++) {
    	ARGV_t av = NULL;
    	int ac = 0;
	char * fn;

	fn = rpmEscapeSpaces(*eiu->fnp);
	rc = rpmGlob(fn, &ac, &av);
	fn = _free(fn);
	if (rc || ac == 0) {
	    rpmlog(RPMLOG_ERR, _("File not found by glob: %s\n"), *eiu->fnp);
	    eiu->numFailed++;
	    continue;
	}

	argvAppend(&(eiu->argv), av);
	argvFree(av);
	eiu->argc += ac;
    }

restart:
    /* Allocate sufficient storage for next set of args. */
    if (eiu->pkgx >= eiu->numPkgs) {
	eiu->numPkgs = eiu->pkgx + eiu->argc;
	eiu->pkgURL = xrealloc(eiu->pkgURL,
			(eiu->numPkgs + 1) * sizeof(*eiu->pkgURL));
	memset(eiu->pkgURL + eiu->pkgx, 0,
			((eiu->argc + 1) * sizeof(*eiu->pkgURL)));
	eiu->pkgState = xrealloc(eiu->pkgState,
			(eiu->numPkgs + 1) * sizeof(*eiu->pkgState));
	memset(eiu->pkgState + eiu->pkgx, 0,
			((eiu->argc + 1) * sizeof(*eiu->pkgState)));
    }

    /* Retrieve next set of args, cache on local storage. */
    for (i = 0; i < eiu->argc; i++) {
	fileURL = _free(fileURL);
	fileURL = eiu->argv[i];
	eiu->argv[i] = NULL;

	switch (urlIsURL(fileURL)) {
	case URL_IS_HTTPS:
	case URL_IS_HTTP:
	case URL_IS_FTP:
	{   char *tfn;
	    FD_t tfd;

	    if (rpmIsVerbose())
		fprintf(stdout, _("Retrieving %s\n"), fileURL);

	    tfd = rpmMkTempFile(rpmtsRootDir(ts), &tfn);
	    if (tfd && tfn) {
		Fclose(tfd);
	    	rc = urlGetFile(fileURL, tfn);
	    } else {
		rc = -1;
	    }

	    if (rc != 0) {
		rpmlog(RPMLOG_ERR,
			_("skipping %s - transfer failed\n"), fileURL);
		eiu->numFailed++;
		eiu->pkgURL[eiu->pkgx] = NULL;
		tfn = _free(tfn);
		break;
	    }
	    eiu->pkgState[eiu->pkgx] = 1;
	    eiu->pkgURL[eiu->pkgx] = tfn;
	    eiu->pkgx++;
	}   break;
	case URL_IS_PATH:
	case URL_IS_DASH:	/* WRONG WRONG WRONG */
	case URL_IS_HKP:	/* WRONG WRONG WRONG */
	default:
	    eiu->pkgURL[eiu->pkgx] = fileURL;
	    fileURL = NULL;
	    eiu->pkgx++;
	    break;
	}
    }
    fileURL = _free(fileURL);

    if (eiu->numFailed) goto exit;

    /* Continue processing file arguments, building transaction set. */
    for (eiu->fnp = eiu->pkgURL+eiu->prevx;
	 *eiu->fnp != NULL;
	 eiu->fnp++, eiu->prevx++)
    {
	const char * fileName;

	rpmlog(RPMLOG_DEBUG, "============== %s\n", *eiu->fnp);
	(void) urlPath(*eiu->fnp, &fileName);

	/* Try to read the header from a package file. */
	eiu->fd = Fopen(*eiu->fnp, "r.ufdio");
	if (eiu->fd == NULL || Ferror(eiu->fd)) {
	    rpmlog(RPMLOG_ERR, _("open of %s failed: %s\n"), *eiu->fnp,
			Fstrerror(eiu->fd));
	    if (eiu->fd != NULL) {
		xx = Fclose(eiu->fd);
		eiu->fd = NULL;
	    }
	    eiu->numFailed++; *eiu->fnp = NULL;
	    continue;
	}

	/* Read the header, verifying signatures (if present). */
	tvsflags = rpmtsSetVSFlags(ts, vsflags);
	eiu->rpmrc = rpmReadPackageFile(ts, eiu->fd, *eiu->fnp, &eiu->h);
	tvsflags = rpmtsSetVSFlags(ts, tvsflags);
	xx = Fclose(eiu->fd);
	eiu->fd = NULL;

	switch (eiu->rpmrc) {
	case RPMRC_FAIL:
	    rpmlog(RPMLOG_ERR, _("%s cannot be installed\n"), *eiu->fnp);
	    eiu->numFailed++; *eiu->fnp = NULL;
	    continue;
	    break;
	case RPMRC_NOTFOUND:
	    goto maybe_manifest;
	    break;
	case RPMRC_NOTTRUSTED:
	case RPMRC_NOKEY:
	case RPMRC_OK:
	default:
	    break;
	}

	eiu->isSource = headerIsSource(eiu->h);

	if (eiu->isSource) {
	    rpmlog(RPMLOG_DEBUG, "\tadded source package [%d]\n",
		eiu->numSRPMS);
	    eiu->sourceURL = xrealloc(eiu->sourceURL,
				(eiu->numSRPMS + 2) * sizeof(*eiu->sourceURL));
	    eiu->sourceURL[eiu->numSRPMS] = *eiu->fnp;
	    *eiu->fnp = NULL;
	    eiu->numSRPMS++;
	    eiu->sourceURL[eiu->numSRPMS] = NULL;
	    continue;
	}

	if (eiu->relocations) {
	    struct rpmtd_s prefixes;

	    headerGet(eiu->h, RPMTAG_PREFIXES, &prefixes, HEADERGET_DEFAULT);
	    if (rpmtdCount(&prefixes) == 1) {
		eiu->relocations->oldPath = xstrdup(rpmtdGetString(&prefixes));
		rpmtdFreeData(&prefixes);
	    } else {
		const char * name;
		xx = headerNVR(eiu->h, &name, NULL, NULL);
		rpmlog(RPMLOG_ERR,
			       _("package %s is not relocatable\n"), name);
		eiu->numFailed++;
		goto exit;
	    }
	}

	/* On --freshen, verify package is installed and newer */
	if (ia->installInterfaceFlags & INSTALL_FRESHEN) {
	    rpmdbMatchIterator mi;
	    const char * name;
	    Header oldH;
	    int count;

	    xx = headerNVR(eiu->h, &name, NULL, NULL);
	    mi = rpmtsInitIterator(ts, RPMTAG_NAME, name, 0);
	    count = rpmdbGetIteratorCount(mi);
	    while ((oldH = rpmdbNextIterator(mi)) != NULL) {
		if (rpmVersionCompare(oldH, eiu->h) < 0)
		    continue;
		/* same or newer package already installed */
		count = 0;
		break;
	    }
	    mi = rpmdbFreeIterator(mi);
	    if (count == 0) {
		eiu->h = headerFree(eiu->h);
		continue;
	    }
	    /* Package is newer than those currently installed. */
	}

	rc = rpmtsAddInstallElement(ts, eiu->h, (fnpyKey)fileName,
			(ia->installInterfaceFlags & INSTALL_UPGRADE) != 0,
			relocations);

	/* XXX reference held by transaction set */
	eiu->h = headerFree(eiu->h);
	if (eiu->relocations)
	    eiu->relocations->oldPath = _free(eiu->relocations->oldPath);

	switch(rc) {
	case 0:
	    rpmlog(RPMLOG_DEBUG, "\tadded binary package [%d]\n",
			eiu->numRPMS);
	    break;
	case 1:
	    rpmlog(RPMLOG_ERR,
			    _("error reading from file %s\n"), *eiu->fnp);
	    eiu->numFailed++;
	    goto exit;
	    break;
	case 2:
	    rpmlog(RPMLOG_ERR,
			    _("file %s requires a newer version of RPM\n"),
			    *eiu->fnp);
	    eiu->numFailed++;
	    goto exit;
	    break;
	default:
	    eiu->numFailed++;
	    goto exit;
	    break;
	}

	eiu->numRPMS++;
	continue;

maybe_manifest:
	/* Try to read a package manifest. */
	eiu->fd = Fopen(*eiu->fnp, "r.fpio");
	if (eiu->fd == NULL || Ferror(eiu->fd)) {
	    rpmlog(RPMLOG_ERR, _("open of %s failed: %s\n"), *eiu->fnp,
			Fstrerror(eiu->fd));
	    if (eiu->fd != NULL) {
		xx = Fclose(eiu->fd);
		eiu->fd = NULL;
	    }
	    eiu->numFailed++; *eiu->fnp = NULL;
	    break;
	}

	/* Read list of packages from manifest. */
/* FIX: *eiu->argv can be NULL */
	rc = rpmReadPackageManifest(eiu->fd, &eiu->argc, &eiu->argv);
	if (rc != RPMRC_OK)
	    rpmlog(RPMLOG_ERR, _("%s: not an rpm package (or package manifest): %s\n"),
			*eiu->fnp, Fstrerror(eiu->fd));
	xx = Fclose(eiu->fd);
	eiu->fd = NULL;

	/* If successful, restart the query loop. */
	if (rc == RPMRC_OK) {
	    eiu->prevx++;
	    goto restart;
	}

	eiu->numFailed++; *eiu->fnp = NULL;
	break;
    }

    rpmlog(RPMLOG_DEBUG, "found %d source and %d binary packages\n",
		eiu->numSRPMS, eiu->numRPMS);

    if (eiu->numFailed) goto exit;

    if (eiu->numRPMS && !(ia->installInterfaceFlags & INSTALL_NODEPS)) {

	if (rpmtsCheck(ts)) {
	    eiu->numFailed = eiu->numPkgs;
	    stopInstall = 1;
	}

	ps = rpmtsProblems(ts);
	if (!stopInstall && rpmpsNumProblems(ps) > 0) {
	    rpmlog(RPMLOG_ERR, _("Failed dependencies:\n"));
	    rpmpsPrint(NULL, ps);
	    eiu->numFailed = eiu->numPkgs;
	    stopInstall = 1;
	}
	ps = rpmpsFree(ps);
    }

    if (eiu->numRPMS && !(ia->installInterfaceFlags & INSTALL_NOORDER)) {
	if (rpmtsOrder(ts)) {
	    eiu->numFailed = eiu->numPkgs;
	    stopInstall = 1;
	}
    }

    if (eiu->numRPMS && !stopInstall) {

	rpmcliPackagesTotal += eiu->numSRPMS;

	rpmlog(RPMLOG_DEBUG, "installing binary packages\n");

	/* Drop added/available package indices and dependency sets. */
	rpmtsClean(ts);

	rc = rpmtsRun(ts, NULL, probFilter);
	ps = rpmtsProblems(ts);

	if (rc < 0) {
	    eiu->numFailed += eiu->numRPMS;
	} else if (rc > 0) {
	    eiu->numFailed += rc;
	    if (rpmpsNumProblems(ps) > 0)
		rpmpsPrint(stderr, ps);
	}
	ps = rpmpsFree(ps);
    }

    if (eiu->numSRPMS && !stopInstall) {
	if (eiu->sourceURL != NULL)
	for (i = 0; i < eiu->numSRPMS; i++) {
	    rpmdbCheckSignals();
	    if (eiu->sourceURL[i] == NULL) continue;
	    eiu->fd = Fopen(eiu->sourceURL[i], "r.ufdio");
	    if (eiu->fd == NULL || Ferror(eiu->fd)) {
		rpmlog(RPMLOG_ERR, _("cannot open file %s: %s\n"),
			   eiu->sourceURL[i], Fstrerror(eiu->fd));
		if (eiu->fd != NULL) {
		    xx = Fclose(eiu->fd);
		    eiu->fd = NULL;
		}
		continue;
	    }

	    if (!(rpmtsFlags(ts) & RPMTRANS_FLAG_TEST)) {
		eiu->rpmrc = rpmInstallSourcePackage(ts, eiu->fd, NULL, NULL);
		if (eiu->rpmrc != RPMRC_OK) eiu->numFailed++;
	    }

	    xx = Fclose(eiu->fd);
	    eiu->fd = NULL;
	}
    }

exit:
    if (eiu->pkgURL != NULL)
    for (i = 0; i < eiu->numPkgs; i++) {
	if (eiu->pkgURL[i] == NULL) continue;
	if (eiu->pkgState[i] == 1)
	    (void) unlink(eiu->pkgURL[i]);
	eiu->pkgURL[i] = _free(eiu->pkgURL[i]);
    }
    eiu->pkgState = _free(eiu->pkgState);
    eiu->pkgURL = _free(eiu->pkgURL);
    eiu->argv = _free(eiu->argv);
    rc = eiu->numFailed;
    free(eiu);

    rpmtsEmpty(ts);

    return rc;
}
Beispiel #12
0
int main(int argc, char *argv[]) 
{
    rpmts ts = NULL;
    struct rpmInstallArguments_s *ia = &rpmIArgs;
    poptContext optCon = NULL;
    int ec = 0;
    int ret = 0;
    char **arg = NULL;
    
    arg = malloc(sizeof(char *) * argc);
    memset(arg, 0, sizeof(char *) * argc);
    for (int i = 0; i < argc; i++) {
        arg[i] = malloc(sizeof(char) * PATH_MAX);
        memset(arg[i], 0, sizeof(char) * PATH_MAX);
        snprintf(arg[i], strlen(arg[i]) - 1, argv[i]);
    }
    optCon = rpmcliInit(argc, arg, optionsTable);

    ia->installInterfaceFlags = INSTALL_INSTALL | INSTALL_LABEL | INSTALL_PERCENT;

    ts = rpmtsCreate();
    rpmtsSetRootDir(ts, rpmcliRootDir);

    if (!ia->incldocs) {
        if (rpmExpandNumeric("%{_excludedocs}"))
            ia->transFlags |= RPMTRANS_FLAG_NODOCS;
    }

    if (ia->noDeps) 
        ia->installInterfaceFlags |= INSTALL_NODEPS;

    if (ia->prefix) {
        ia->relocations = malloc(2 * sizeof(*ia->relocations));
        ia->relocations[0].oldPath = NULL;   /* special case magic */
        ia->relocations[0].newPath = ia->prefix;
        ia->relocations[1].oldPath = NULL;
        ia->relocations[1].newPath = NULL;
    } else if (ia->relocations) {
        ia->relocations = realloc(ia->relocations, 
                          sizeof(*ia->relocations) * (ia->numRelocations + 1));
        ia->relocations[ia->numRelocations].oldPath = NULL;
        ia->relocations[ia->numRelocations].newPath = NULL;
    }

    rpmInstallISoftApp(ts, ia, (ARGV_t) poptGetArgs(optCon), NULL);

    rpmtsFree(ts);
    ts = NULL;

    rpmcliFini(optCon);
    optCon = NULL;

    if (arg) {
        for (int i = 0; i < argc; i++) {
            if (arg[i]) {
                free(arg[i]);
                arg[i] = NULL;
            }
        }
        free(arg);
        arg = NULL;
    }

    return 0;
}
/**
 * Skip any files that do not match install policies.
 * @param ts		transaction set
 * @param files		file info set
 * @param fs		file states
 */
static void skipInstallFiles(const rpmts ts, rpmfiles files, rpmfs fs)
{
    rpm_color_t tscolor = rpmtsColor(ts);
    rpm_color_t FColor;
    int noConfigs = (rpmtsFlags(ts) & RPMTRANS_FLAG_NOCONFIGS);
    int noDocs = (rpmtsFlags(ts) & RPMTRANS_FLAG_NODOCS);
    int * drc;
    char * dff;
    int dc;
    int i, j, ix;
    rpmfi fi = rpmfilesIter(files, RPMFI_ITER_FWD);

    if (!noDocs)
	noDocs = rpmExpandNumeric("%{_excludedocs}");

    /* Compute directory refcount, skip directory if now empty. */
    dc = rpmfiDC(fi);
    drc = xcalloc(dc, sizeof(*drc));
    dff = xcalloc(dc, sizeof(*dff));

    fi = rpmfiInit(fi, 0);
    while ((i = rpmfiNext(fi)) >= 0) {
	char ** nsp;
	const char *flangs;

	ix = rpmfiDX(fi);
	drc[ix]++;

	/* Don't bother with skipped files */
	if (XFA_SKIPPING(rpmfsGetAction(fs, i))) {
	    drc[ix]--; dff[ix] = 1;
	    continue;
	}

	/* Ignore colored files not in our rainbow. */
	FColor = rpmfiFColor(fi);
	if (tscolor && FColor && !(tscolor & FColor)) {
	    drc[ix]--;	dff[ix] = 1;
	    rpmfsSetAction(fs, i, FA_SKIPCOLOR);
	    continue;
	}

	/*
	 * Skip net shared paths.
	 * Net shared paths are not relative to the current root (though
	 * they do need to take package relocations into account).
	 */
	if (ts->netsharedPaths) {
	    nsp = matchNetsharedpath(ts, fi);
	    if (nsp && *nsp) {
		drc[ix]--;	dff[ix] = 1;
		rpmfsSetAction(fs, i, FA_SKIPNETSHARED);
		continue;
	    }
	}

	/*
	 * Skip i18n language specific files.
	 */
	flangs = (ts->installLangs != NULL) ? rpmfiFLangs(fi) : NULL;
	if (flangs != NULL && *flangs != '\0') {
	    const char *l, *le;
	    char **lang;
	    for (lang = ts->installLangs; *lang != NULL; lang++) {
		for (l = flangs; *l != '\0'; l = le) {
		    for (le = l; *le != '\0' && *le != '|'; le++)
			{};
		    if ((le-l) > 0 && rstreqn(*lang, l, (le-l)))
			break;
		    if (*le == '|') le++;	/* skip over | */
		}
		if (*l != '\0')
		    break;
	    }
	    if (*lang == NULL) {
		drc[ix]--;	dff[ix] = 1;
		rpmfsSetAction(fs, i, FA_SKIPNSTATE);
		continue;
	    }
	}

	/*
	 * Skip config files if requested.
	 */
	if (noConfigs && (rpmfiFFlags(fi) & RPMFILE_CONFIG)) {
	    drc[ix]--;	dff[ix] = 1;
	    rpmfsSetAction(fs, i, FA_SKIPNSTATE);
	    continue;
	}

	/*
	 * Skip documentation if requested.
	 */
	if (noDocs && (rpmfiFFlags(fi) & RPMFILE_DOC)) {
	    drc[ix]--;	dff[ix] = 1;
	    rpmfsSetAction(fs, i, FA_SKIPNSTATE);
	    continue;
	}
    }

    /* Skip (now empty) directories that had skipped files. */
    /* Iterate over dirs in reversed order to solve subdirs at first */
    for (j = dc - 1; j >= 0; j--) {
	const char * dn, * bn;
	size_t dnlen, bnlen;

	if (drc[j]) continue;	/* dir still has files. */
	if (!dff[j]) continue;	/* dir was not emptied here. */
	
	/* Find parent directory and basename. */
	dn = rpmfilesDN(files, j); dnlen = strlen(dn) - 1;
	bn = dn + dnlen;	bnlen = 0;
	while (bn > dn && bn[-1] != '/') {
		bnlen++;
		dnlen--;
		bn--;
	}

	/* If explicitly included in the package, skip the directory. */
	fi = rpmfiInit(fi, 0);
	while ((i = rpmfiNext(fi)) >= 0) {
	    const char * fdn, * fbn;
	    rpm_mode_t fFMode;

	    if (XFA_SKIPPING(rpmfsGetAction(fs, i)))
		continue;

	    fFMode = rpmfiFMode(fi);

	    if (rpmfiWhatis(fFMode) != XDIR)
		continue;
	    fdn = rpmfiDN(fi);
	    if (strlen(fdn) != dnlen)
		continue;
	    if (!rstreqn(fdn, dn, dnlen))
		continue;
	    fbn = rpmfiBN(fi);
	    if (strlen(fbn) != bnlen)
		continue;
	    if (!rstreqn(fbn, bn, bnlen))
		continue;
	    rpmlog(RPMLOG_DEBUG, "excluding directory %s\n", dn);
	    rpmfsSetAction(fs, i, FA_SKIPNSTATE);
	    ix = rpmfiDX(fi);
	    /* Decrease count of files for parent directory */
	    drc[ix]--;
	    /* Mark directory because something was removed from them */
	    dff[ix] = 1;
	    break;
	}
    }

    free(drc);
    free(dff);
    rpmfiFree(fi);
}
Beispiel #14
0
/**
 * Skip any files that do not match install policies.
 * @param ts		transaction set
 * @param fi		file info set
 */
static void skipFiles(const rpmts ts, rpmte p)
{
    rpm_color_t tscolor = rpmtsColor(ts);
    rpm_color_t FColor;
    int noConfigs = (rpmtsFlags(ts) & RPMTRANS_FLAG_NOCONFIGS);
    int noDocs = (rpmtsFlags(ts) & RPMTRANS_FLAG_NODOCS);
    const char * dn, * bn;
    size_t dnlen, bnlen;
    char * s;
    int * drc;
    char * dff;
    int dc;
    int i, j, ix;
    rpmfi fi = rpmteFI(p);
    rpmfs fs = rpmteGetFileStates(p);

    if (!noDocs)
	noDocs = rpmExpandNumeric("%{_excludedocs}");

    /* Compute directory refcount, skip directory if now empty. */
    dc = rpmfiDC(fi);
    drc = xcalloc(dc, sizeof(*drc));
    dff = xcalloc(dc, sizeof(*dff));

    fi = rpmfiInit(fi, 0);
    if (fi != NULL)	/* XXX lclint */
    while ((i = rpmfiNext(fi)) >= 0)
    {
	char ** nsp;
	const char *flangs;

	bn = rpmfiBN(fi);
	bnlen = strlen(bn);
	ix = rpmfiDX(fi);
	dn = rpmfiDN(fi);
	dnlen = strlen(dn);
	if (dn == NULL)
	    continue;	/* XXX can't happen */

	drc[ix]++;

	/* Don't bother with skipped files */
	if (XFA_SKIPPING(rpmfsGetAction(fs, i))) {
	    drc[ix]--; dff[ix] = 1;
	    continue;
	}

	/* Ignore colored files not in our rainbow. */
	FColor = rpmfiFColor(fi);
	if (tscolor && FColor && !(tscolor & FColor)) {
	    drc[ix]--;	dff[ix] = 1;
	    rpmfsSetAction(fs, i, FA_SKIPCOLOR);
	    continue;
	}

	/*
	 * Skip net shared paths.
	 * Net shared paths are not relative to the current root (though
	 * they do need to take package relocations into account).
	 */
	for (nsp = ts->netsharedPaths; nsp && *nsp; nsp++) {
	    size_t len;

	    len = strlen(*nsp);
	    if (dnlen >= len) {
		if (strncmp(dn, *nsp, len))
		    continue;
		/* Only directories or complete file paths can be net shared */
		if (!(dn[len] == '/' || dn[len] == '\0'))
		    continue;
	    } else {
		if (len < (dnlen + bnlen))
		    continue;
		if (strncmp(dn, *nsp, dnlen))
		    continue;
		/* Insure that only the netsharedpath basename is compared. */
		if ((s = strchr((*nsp) + dnlen, '/')) != NULL && s[1] != '\0')
		    continue;
		if (strncmp(bn, (*nsp) + dnlen, bnlen))
		    continue;
		len = dnlen + bnlen;
		/* Only directories or complete file paths can be net shared */
		if (!((*nsp)[len] == '/' || (*nsp)[len] == '\0'))
		    continue;
	    }

	    break;
	}

	if (nsp && *nsp) {
	    drc[ix]--;	dff[ix] = 1;
	    rpmfsSetAction(fs, i, FA_SKIPNETSHARED);
	    continue;
	}

	/*
	 * Skip i18n language specific files.
	 */
	if (ts->installLangs != NULL && (flangs = rpmfiFLangs(fi)) != NULL) {
	    const char *l, *le;
	    char **lang;
	    for (lang = ts->installLangs; *lang != NULL; lang++) {
		for (l = flangs; *l != '\0'; l = le) {
		    for (le = l; *le != '\0' && *le != '|'; le++)
			{};
		    if ((le-l) > 0 && !strncmp(*lang, l, (le-l)))
			break;
		    if (*le == '|') le++;	/* skip over | */
		}
		if (*l != '\0')
		    break;
	    }
	    if (*lang == NULL) {
		drc[ix]--;	dff[ix] = 1;
		rpmfsSetAction(fs, i, FA_SKIPNSTATE);
		continue;
	    }
	}

	/*
	 * Skip config files if requested.
	 */
	if (noConfigs && (rpmfiFFlags(fi) & RPMFILE_CONFIG)) {
	    drc[ix]--;	dff[ix] = 1;
	    rpmfsSetAction(fs, i, FA_SKIPNSTATE);
	    continue;
	}

	/*
	 * Skip documentation if requested.
	 */
	if (noDocs && (rpmfiFFlags(fi) & RPMFILE_DOC)) {
	    drc[ix]--;	dff[ix] = 1;
	    rpmfsSetAction(fs, i, FA_SKIPNSTATE);
	    continue;
	}
    }

    /* Skip (now empty) directories that had skipped files. */
#ifndef	NOTYET
    if (fi != NULL)	/* XXX can't happen */
    for (j = 0; j < dc; j++)
#else
    if ((fi = rpmfiInitD(fi)) != NULL)
    while (j = rpmfiNextD(fi) >= 0)
#endif
    {

	if (drc[j]) continue;	/* dir still has files. */
	if (!dff[j]) continue;	/* dir was not emptied here. */
	
	/* Find parent directory and basename. */
	dn = rpmfiDNIndex(fi, j); dnlen = strlen(dn) - 1;
	bn = dn + dnlen;	bnlen = 0;
	while (bn > dn && bn[-1] != '/') {
		bnlen++;
		dnlen--;
		bn--;
	}

	/* If explicitly included in the package, skip the directory. */
	fi = rpmfiInit(fi, 0);
	if (fi != NULL)		/* XXX lclint */
	while ((i = rpmfiNext(fi)) >= 0) {
	    const char * fdn, * fbn;
	    rpm_mode_t fFMode;

	    if (XFA_SKIPPING(rpmfsGetAction(fs, i)))
		continue;

	    fFMode = rpmfiFMode(fi);

	    if (rpmfiWhatis(fFMode) != XDIR)
		continue;
	    fdn = rpmfiDN(fi);
	    if (strlen(fdn) != dnlen)
		continue;
	    if (strncmp(fdn, dn, dnlen))
		continue;
	    fbn = rpmfiBN(fi);
	    if (strlen(fbn) != bnlen)
		continue;
	    if (strncmp(fbn, bn, bnlen))
		continue;
	    rpmlog(RPMLOG_DEBUG, "excluding directory %s\n", dn);
	    rpmfsSetAction(fs, i, FA_SKIPNSTATE);
	    break;
	}
    }

    free(drc);
    free(dff);
}
Beispiel #15
0
/**
 * Parse %patch line.
 * @param spec		build info
 * @param line		current line from spec file
 * @return		RPMRC_OK on success
 */
static rpmRC doPatchMacro(Spec spec, const char * line)
	/*@globals rpmGlobalMacroContext, h_errno,
		fileSystem, internalState @*/
	/*@modifies spec->prep, rpmGlobalMacroContext,
		fileSystem, internalState  @*/
{
    char *s;
    char *opt_b;
    char *opt_d;
    rpmuint32_t opt_P, opt_p, opt_R, opt_E, opt_F;
    char buf[BUFSIZ], *bp;
    rpmuint32_t patch_nums[1024];  /* XXX - we can only handle 1024 patches! */
    int patch_index, x;

    memset(patch_nums, 0, sizeof(patch_nums));
    opt_P = opt_p = opt_R = opt_E = 0;
    opt_F = rpmExpandNumeric("%{?_default_patch_fuzz}%{!?_default_patch_fuzz:-1}");
    opt_b = NULL;
    opt_d = NULL;
    patch_index = 0;

    if (! strchr(" \t\n", line[6])) {
	/* %patchN */
	sprintf(buf, "%%patch -P %s", line + 6);
    } else {
	strncpy(buf, line, sizeof(buf)-1);
	buf[sizeof(buf)-1] = '\0';
    }

    /*@-internalglobs@*/	/* FIX: strtok has state */
    for (bp = buf; (s = strtok(bp, " \t\n")) != NULL;) {
	if (bp) {	/* remove 1st token (%patch) */
	    bp = NULL;
	    continue;
	}
	if (!strcmp(s, "-P")) {
	    opt_P = 1;
	} else if (!strcmp(s, "-R")) {
	    opt_R = 1;
	} else if (!strcmp(s, "-E")) {
	    opt_E = 1;
	} else if (!strcmp(s, "-b")) {
	    /* orig suffix */
	    opt_b = strtok(NULL, " \t\n");
	    if (! opt_b) {
		rpmlog(RPMLOG_ERR,
			_("line %d: Need arg to %%patch -b: %s\n"),
			spec->lineNum, spec->line);
		return RPMRC_FAIL;
	    }
	} else if (!strcmp(s, "-z")) {
	    /* orig suffix */
	    opt_b = strtok(NULL, " \t\n");
	    if (! opt_b) {
		rpmlog(RPMLOG_ERR,
			_("line %d: Need arg to %%patch -z: %s\n"),
			spec->lineNum, spec->line);
		return RPMRC_FAIL;
	    }
	} else if (!strcmp(s, "-F")) {
	    /* fuzz factor */
	    const char * fnum = (!strchr(" \t\n", s[2])
				? s+2 : strtok(NULL, " \t\n"));
	    char * end = NULL;

	    opt_F = (fnum ? strtol(fnum, &end, 10) : 0);
	    if (! opt_F || *end) {
		rpmlog(RPMLOG_ERR,
			_("line %d: Bad arg to %%patch -F: %s\n"),
			spec->lineNum, spec->line);
		return RPMRC_FAIL;
	    }
	} else if (!strcmp(s, "-d")) {
	    /* subdirectory */
	    opt_d = strtok(NULL, " \t\n");
	    if (! opt_d) {
		rpmlog(RPMLOG_ERR,
			_("line %d: Need arg to %%patch -d: %s\n"),
			spec->lineNum, spec->line);
		return RPMRC_FAIL;
	    }
	} else if (!strncmp(s, "-p", sizeof("-p")-1)) {
	    /* unfortunately, we must support -pX */
	    if (! strchr(" \t\n", s[2])) {
		s = s + 2;
	    } else {
		s = strtok(NULL, " \t\n");
		if (s == NULL) {
		    rpmlog(RPMLOG_ERR,
			     _("line %d: Need arg to %%patch -p: %s\n"),
			     spec->lineNum, spec->line);
		    return RPMRC_FAIL;
		}
	    }
	    if (parseNum(s, &opt_p)) {
		rpmlog(RPMLOG_ERR,
			_("line %d: Bad arg to %%patch -p: %s\n"),
			spec->lineNum, spec->line);
		return RPMRC_FAIL;
	    }
	} else {
	    /* Must be a patch num */
	    if (patch_index == 1024) {
		rpmlog(RPMLOG_ERR, _("Too many patches!\n"));
		return RPMRC_FAIL;
	    }
	    if (parseNum(s, &(patch_nums[patch_index]))) {
		rpmlog(RPMLOG_ERR, _("line %d: Bad arg to %%patch: %s\n"),
			 spec->lineNum, spec->line);
		return RPMRC_FAIL;
	    }
	    patch_index++;
	}
    }
    /*@=internalglobs@*/

    /* All args processed */

    if (! opt_P) {
	s = doPatch(spec, 0, opt_p, opt_b, opt_R, opt_E, opt_F, opt_d);
	if (s == NULL)
	    return RPMRC_FAIL;
	spec->prep = rpmiobAppend(spec->prep, s, 1);
    }

    for (x = 0; x < patch_index; x++) {
	s = doPatch(spec, patch_nums[x], opt_p, opt_b, opt_R, opt_E, opt_F, opt_d);
	if (s == NULL)
	    return RPMRC_FAIL;
	spec->prep = rpmiobAppend(spec->prep, s, 1);
    }

    return RPMRC_OK;
}
Beispiel #16
0
Spec newSpec(void)
{
    static const char _spec_line_buffer_size[] =
	"%{?_spec_line_buffer_size}%{!?_spec_line_buffer_size:100000}";
    Spec spec = specGetPool(_specPool);
    
    spec->specFile = NULL;

    spec->sl = newSl();
    spec->st = newSt();

    spec->fileStack = NULL;
    spec->lbuf_len = (size_t)rpmExpandNumeric(_spec_line_buffer_size);
    spec->lbuf = (char *)xmalloc(spec->lbuf_len);
    spec->lbuf[0] = '\0';
    spec->line = spec->lbuf;
    spec->nextline = NULL;
    spec->nextpeekc = '\0';
    spec->lineNum = 0;
    spec->readStack = xmalloc(sizeof(*spec->readStack));
    spec->readStack->next = NULL;
    spec->readStack->reading = 1;

    spec->rootURL = NULL;

    memset(&spec->sstates, 0, sizeof(spec->sstates));
    memset(&spec->smetrics, 0, sizeof(spec->smetrics));

    spec->prep = NULL;
    spec->build = NULL;
    spec->install = NULL;
    spec->check = NULL;
    spec->clean = NULL;
    spec->foo = NULL;
    spec->nfoo = 0;

    spec->dig = NULL;

    spec->sources = NULL;
    spec->packages = NULL;
    spec->noSource = 0;
    spec->numSources = 0;

    spec->sourceRpmName = NULL;
    spec->sourcePkgId = NULL;
    spec->sourceHeader = headerNew();
    spec->fi = NULL;
    
    spec->buildSubdir = NULL;

    spec->passPhrase = NULL;
    spec->timeCheck = 0;
    spec->cookie = NULL;

    spec->BANames = NULL;
    spec->BACount = 0;
    spec->recursing = 0;
    spec->toplevel = 1;
    spec->BASpecs = NULL;

    spec->force = 0;
    spec->anyarch = 0;

/*@i@*/	spec->macros = rpmGlobalMacroContext;

    spec->_parseRCPOT = parseRCPOT;	/* XXX hack around backward linkage. */
    
    return (Spec)rpmioLinkPoolItem((rpmioItem)spec, __FUNCTION__, __FILE__, __LINE__);
}
Beispiel #17
0
rpmRC checkForEncoding(Header h, int addtag)
{
    rpmRC rc = RPMRC_OK;
#if HAVE_ICONV
    const char *encoding = "utf-8";
    rpmTagVal tag;
    iconv_t ic = (iconv_t) -1;
    char *dest = NULL;
    size_t destlen = 0;
    int strict = rpmExpandNumeric("%{_invalid_encoding_terminates_build}");
    HeaderIterator hi = headerInitIterator(h);

    ic = iconv_open(encoding, encoding);
    if (ic == (iconv_t) -1) {
        rpmlog(RPMLOG_WARNING,
               _("encoding %s not supported by system\n"), encoding);
        goto exit;
    }

    while ((tag = headerNextTag(hi)) != RPMTAG_NOT_FOUND) {
        struct rpmtd_s td;
        const char *src = NULL;

        if (rpmTagGetClass(tag) != RPM_STRING_CLASS)
            continue;

        headerGet(h, tag, &td, (HEADERGET_RAW|HEADERGET_MINMEM));
        while ((src = rpmtdNextString(&td)) != NULL) {
            size_t srclen = strlen(src);
            size_t outlen, inlen = srclen;
            char *out, *in = (char *) src;

            if (destlen < srclen) {
                destlen = srclen * 2;
                dest = xrealloc(dest, destlen);
            }
            out = dest;
            outlen = destlen;

            /* reset conversion state */
            iconv(ic, NULL, &inlen, &out, &outlen);

            if (iconv(ic, &in, &inlen, &out, &outlen) == (size_t) -1) {
                rpmlog(strict ? RPMLOG_ERR : RPMLOG_WARNING,
                       _("Package %s: invalid %s encoding in %s: %s - %s\n"),
                       headerGetString(h, RPMTAG_NAME),
                       encoding, rpmTagGetName(tag), src, strerror(errno));
                rc = RPMRC_FAIL;
            }

        }
        rpmtdFreeData(&td);
    }

    /* Stomp "known good utf" mark in header if requested */
    if (rc == RPMRC_OK && addtag)
        headerPutString(h, RPMTAG_ENCODING, encoding);
    if (!strict)
        rc = RPMRC_OK;

exit:
    if (ic != (iconv_t) -1)
        iconv_close(ic);
    headerFreeIterator(hi);
    free(dest);
#endif /* HAVE_ICONV */

    return rc;
}
Beispiel #18
0
rpmts rpmtsCreate(void)
{
    rpmts ts;
    tsMembers tsmem;

    ts = xcalloc(1, sizeof(*ts));
    memset(&ts->ops, 0, sizeof(ts->ops));
    (void) rpmswEnter(rpmtsOp(ts, RPMTS_OP_TOTAL), -1);
    ts->dsi = NULL;

    ts->solve = NULL;
    ts->solveData = NULL;

    ts->rdb = NULL;
    ts->dbmode = O_RDONLY;

    ts->scriptFd = NULL;
    ts->tid = (rpm_tid_t) time(NULL);

    ts->color = rpmExpandNumeric("%{?_transaction_color}");
    ts->prefcolor = rpmExpandNumeric("%{?_prefer_color}")?:2;

    ts->netsharedPaths = NULL;
    ts->installLangs = NULL;
    {	char *tmp = rpmExpand("%{_netsharedpath}", NULL);
	if (tmp && *tmp != '%') {
	    argvSplit(&ts->netsharedPaths, tmp, ":");
	}
	free(tmp);

	tmp = rpmExpand("%{_install_langs}", NULL);
	if (tmp && *tmp != '%') {
	    ARGV_t langs = NULL;
	    argvSplit(&langs, tmp, ":");	
	    /* If we'll be installing all languages anyway, don't bother */
	    for (ARGV_t l = langs; *l; l++) {
		if (rstreq(*l, "all")) {
		    langs = argvFree(langs);
		    break;
		}
	    }
	    ts->installLangs = langs;
	}
	free(tmp);
    }

    tsmem = xcalloc(1, sizeof(*ts->members));
    tsmem->pool = NULL;
    tsmem->delta = 5;
    tsmem->addedPackages = NULL;
    tsmem->removedPackages = removedHashCreate(128, uintId, uintCmp, NULL, NULL);
    tsmem->orderAlloced = 0;
    tsmem->orderCount = 0;
    tsmem->order = NULL;
    ts->members = tsmem;

    ts->rootDir = NULL;
    ts->keyring = NULL;

    ts->nrefs = 0;

    ts->plugins = NULL;

    return rpmtsLink(ts);
}
Beispiel #19
0
/**
 * Parse %patch line.
 * This supports too many crazy syntaxes:
 * - %patchN is equal to %patch -P<N>
 * - -P<N> -P<N+1>... can be used to apply several patch on a single line
 * - Any trailing arguments are treated as patch numbers
 * - Any combination of the above, except unless at least one -P is specified,
 *   %patch is treated as %patch -P0 so that "%patch 1" is actually
 *   equal to "%patch -P0 -P1".
 *
 * @param spec		build info
 * @param line		current line from spec file
 * @return		RPMRC_OK on success
 */
static rpmRC doPatchMacro(rpmSpec spec, const char *line)
{
    char *opt_b, *opt_P, *opt_d;
    char *buf = NULL;
    int opt_p, opt_R, opt_E, opt_F;
    int argc, c;
    const char **argv = NULL;
    ARGV_t patch, patchnums = NULL;
    rpmRC rc = RPMRC_FAIL; /* assume failure */
    
    struct poptOption const patchOpts[] = {
	{ NULL, 'P', POPT_ARG_STRING, &opt_P, 'P', NULL, NULL },
	{ NULL, 'p', POPT_ARG_INT, &opt_p, 'p', NULL, NULL },
	{ NULL, 'R', POPT_ARG_NONE, &opt_R, 'R', NULL, NULL },
	{ NULL, 'E', POPT_ARG_NONE, &opt_E, 'E', NULL, NULL },
	{ NULL, 'b', POPT_ARG_STRING, &opt_b, 'b', NULL, NULL },
	{ NULL, 'z', POPT_ARG_STRING, &opt_b, 'z', NULL, NULL },
	{ NULL, 'F', POPT_ARG_INT, &opt_F, 'F', NULL, NULL },
	{ NULL, 'd', POPT_ARG_STRING, &opt_d, 'd', NULL, NULL },
	{ NULL, 0, 0, NULL, 0, NULL, NULL }
    };
    poptContext optCon = NULL;

    opt_p = opt_R = opt_E = 0;
    opt_F = rpmExpandNumeric("%{_default_patch_fuzz}");		/* get default fuzz factor for %patch */
    opt_b = opt_d = NULL;

    /* Convert %patchN to %patch -PN to simplify further processing */
    if (! strchr(" \t\n", line[6])) {
	rasprintf(&buf, "%%patch -P %s", line + 6);
    } else {
	if (strstr(line+6, " -P") == NULL)
	    rasprintf(&buf, "%%patch -P %d %s", INT_MAX, line + 6); /* INT_MAX denotes not numbered %patch */
	else
	    buf = xstrdup(line); /* it is not numberless patch because -P is present */
    }
    poptParseArgvString(buf, &argc, &argv);
    free(buf);

    /* 
     * Grab all -P<N> numbers for later processing. Stored as strings
     * at this point so we only have to worry about conversion in one place.
     */
    optCon = poptGetContext(NULL, argc, argv, patchOpts, 0);
    while ((c = poptGetNextOpt(optCon)) > 0) {
	switch (c) {
	case 'P': {
	    char *arg = poptGetOptArg(optCon);
	    if (arg) {
	    	argvAdd(&patchnums, arg);
	    	free(arg);
	    }
	    break;
	}
	default:
	    break;
	}
    }

    if (c < -1) {
	rpmlog(RPMLOG_ERR, _("%s: %s: %s\n"), poptStrerror(c), 
		poptBadOption(optCon, POPT_BADOPTION_NOALIAS), line);
	goto exit;
    }

    /* Any trailing arguments are treated as patch numbers */
    argvAppend(&patchnums, (ARGV_const_t) poptGetArgs(optCon));

    /* Convert to number, generate patch command and append to %prep script */
    for (patch = patchnums; *patch; patch++) {
	uint32_t pnum;
	char *s;
	if (parseUnsignedNum(*patch, &pnum)) {
	    rpmlog(RPMLOG_ERR, _("Invalid patch number %s: %s\n"),
		     *patch, line);
	    goto exit;
	}
	s = doPatch(spec, pnum, opt_p, opt_b, opt_R, opt_E, opt_F, opt_d);
	if (s == NULL) {
	    goto exit;
	}
	appendLineStringBuf(spec->prep, s);
	free(s);
    }
	
    rc = RPMRC_OK;

exit:
    argvFree(patchnums);
    free(argv);
    poptFreeContext(optCon);
    return rc;
}
Beispiel #20
0
Datei: rpmqv.c Projekt: soig/rpm
int main(int argc, char *argv[])
{
    rpmts ts = NULL;
    enum modes bigMode = MODE_UNKNOWN;

#if defined(IAM_RPMQV)
    QVA_t qva = &rpmQVKArgs;
#endif

#ifdef	IAM_RPMEIU
   struct rpmInstallArguments_s * ia = &rpmIArgs;
#endif

    poptContext optCon;
    int ec = 0;
#ifdef	IAM_RPMEIU
    int i;
#endif

    xsetprogname(argv[0]); /* Portability call -- see system.h */

    optCon = rpmcliInit(argc, argv, optionsTable);

    /* Set the major mode based on argv[0] */
#ifdef	IAM_RPMQV
    if (rstreq(xgetprogname(), "rpmquery"))	bigMode = MODE_QUERY;
    if (rstreq(xgetprogname(), "rpmverify")) bigMode = MODE_VERIFY;
#endif

#if defined(IAM_RPMQV)
    /* Jumpstart option from argv[0] if necessary. */
    switch (bigMode) {
    case MODE_QUERY:	qva->qva_mode = 'q';	break;
    case MODE_VERIFY:	qva->qva_mode = 'V';	break;
    case MODE_INSTALL:
    case MODE_ERASE:
    case MODE_UNKNOWN:
    default:
	break;
    }
#endif

#ifdef	IAM_RPMQV
  if (bigMode == MODE_UNKNOWN || (bigMode & MODES_QV)) {
    switch (qva->qva_mode) {
    case 'q':	bigMode = MODE_QUERY;		break;
    case 'V':	bigMode = MODE_VERIFY;		break;
    }

    if (qva->qva_sourceCount) {
	if (qva->qva_sourceCount > 1)
	    argerror(_("one type of query/verify may be performed at a "
			"time"));
    }
    if (qva->qva_flags && (bigMode & ~MODES_QV)) 
	argerror(_("unexpected query flags"));

    if (qva->qva_queryFormat && (bigMode & ~MODES_QV)) 
	argerror(_("unexpected query format"));

    if (qva->qva_source != RPMQV_PACKAGE && (bigMode & ~MODES_QV)) 
	argerror(_("unexpected query source"));
  }
#endif	/* IAM_RPMQV */

#ifdef	IAM_RPMEIU
  if (bigMode == MODE_UNKNOWN || (bigMode & MODES_IE))
    {	int iflags = (ia->installInterfaceFlags &
			(INSTALL_UPGRADE|INSTALL_FRESHEN|
			 INSTALL_INSTALL|INSTALL_REINSTALL));
	int eflags = (ia->installInterfaceFlags & INSTALL_ERASE);

	if (iflags & eflags)
	    argerror(_("only one major mode may be specified"));
	else if (iflags)
	    bigMode = MODE_INSTALL;
	else if (eflags)
	    bigMode = MODE_ERASE;
    }
#endif	/* IAM_RPMEIU */

#if defined(IAM_RPMEIU)
    if (!( bigMode == MODE_INSTALL ) &&
(ia->probFilter & (RPMPROB_FILTER_REPLACEPKG | RPMPROB_FILTER_OLDPACKAGE)))
	argerror(_("only installation and upgrading may be forced"));
    if (bigMode != MODE_INSTALL && (ia->probFilter & RPMPROB_FILTER_FORCERELOCATE))
	argerror(_("files may only be relocated during package installation"));

    if (ia->relocations && ia->prefix)
	argerror(_("cannot use --prefix with --relocate or --excludepath"));

    if (bigMode != MODE_INSTALL && ia->relocations)
	argerror(_("--relocate and --excludepath may only be used when installing new packages"));

    if (bigMode != MODE_INSTALL && ia->prefix)
	argerror(_("--prefix may only be used when installing new packages"));

    if (ia->prefix && ia->prefix[0] != '/') 
	argerror(_("arguments to --prefix must begin with a /"));

    if (!(bigMode & MODES_IE) && (ia->installInterfaceFlags & INSTALL_HASH))
	argerror(_("--hash (-h) may only be specified during package "
			"installation and erasure"));

    if (!(bigMode & MODES_IE) && (ia->installInterfaceFlags & INSTALL_PERCENT))
	argerror(_("--percent may only be specified during package "
			"installation and erasure"));

    if (bigMode != MODE_INSTALL && (ia->probFilter & RPMPROB_FILTER_REPLACEPKG))
	argerror(_("--replacepkgs may only be specified during package "
			"installation"));

    if (bigMode != MODE_INSTALL && (ia->transFlags & RPMTRANS_FLAG_NODOCS))
	argerror(_("--excludedocs may only be specified during package "
		   "installation"));

    if (bigMode != MODE_INSTALL && ia->incldocs)
	argerror(_("--includedocs may only be specified during package "
		   "installation"));

    if (ia->incldocs && (ia->transFlags & RPMTRANS_FLAG_NODOCS))
	argerror(_("only one of --excludedocs and --includedocs may be "
		 "specified"));
  
    if (bigMode != MODE_INSTALL && (ia->probFilter & RPMPROB_FILTER_IGNOREARCH))
	argerror(_("--ignorearch may only be specified during package "
		   "installation"));

    if (bigMode != MODE_INSTALL && (ia->probFilter & RPMPROB_FILTER_IGNOREOS))
	argerror(_("--ignoreos may only be specified during package "
		   "installation"));

    if (bigMode != MODE_INSTALL && bigMode != MODE_ERASE &&
	(ia->probFilter & (RPMPROB_FILTER_DISKSPACE|RPMPROB_FILTER_DISKNODES)))
	argerror(_("--ignoresize may only be specified during package "
		   "installation"));

    if ((ia->installInterfaceFlags & UNINSTALL_ALLMATCHES) && bigMode != MODE_ERASE)
	argerror(_("--allmatches may only be specified during package "
		   "erasure"));

    if ((ia->transFlags & RPMTRANS_FLAG_ALLFILES) && bigMode != MODE_INSTALL)
	argerror(_("--allfiles may only be specified during package "
		   "installation"));

    if ((ia->transFlags & RPMTRANS_FLAG_JUSTDB) &&
	bigMode != MODE_INSTALL && bigMode != MODE_ERASE)
	argerror(_("--justdb may only be specified during package "
		   "installation and erasure"));

    if (bigMode != MODE_INSTALL && bigMode != MODE_ERASE && bigMode != MODE_VERIFY &&
	(ia->transFlags & (RPMTRANS_FLAG_NOSCRIPTS | _noTransScripts | _noTransTriggers)))
	argerror(_("script disabling options may only be specified during "
		   "package installation and erasure"));

    if (bigMode != MODE_INSTALL && bigMode != MODE_ERASE && bigMode != MODE_VERIFY &&
	(ia->transFlags & (RPMTRANS_FLAG_NOTRIGGERS | _noTransTriggers)))
	argerror(_("trigger disabling options may only be specified during "
		   "package installation and erasure"));

    if (ia->noDeps & (bigMode & ~MODES_FOR_NODEPS))
	argerror(_("--nodeps may only be specified during package "
		   "installation, erasure, and verification"));

    if ((ia->transFlags & RPMTRANS_FLAG_TEST) && (bigMode & ~MODES_FOR_TEST))
	argerror(_("--test may only be specified during package installation "
		 "and erasure"));
#endif	/* IAM_RPMEIU */

    if (rpmcliRootDir && rpmcliRootDir[0] != '/') {
	argerror(_("arguments to --root (-r) must begin with a /"));
    }

    if (quiet)
	rpmSetVerbosity(RPMLOG_WARNING);

    if (rpmcliPipeOutput && initPipe())
	exit(EXIT_FAILURE);
	
    ts = rpmtsCreate();
    (void) rpmtsSetRootDir(ts, rpmcliRootDir);
    switch (bigMode) {
#ifdef	IAM_RPMEIU
    case MODE_ERASE:
	if (ia->noDeps) ia->installInterfaceFlags |= UNINSTALL_NODEPS;

	if (!poptPeekArg(optCon)) {
	    argerror(_("no packages given for erase"));
	} else {
	    ec += rpmErase(ts, ia, (ARGV_const_t) poptGetArgs(optCon));
	}
	break;

    case MODE_INSTALL:

	/* RPMTRANS_FLAG_KEEPOBSOLETE */

	if (!ia->incldocs) {
	    if (ia->transFlags & RPMTRANS_FLAG_NODOCS) {
		;
	    } else if (rpmExpandNumeric("%{_excludedocs}"))
		ia->transFlags |= RPMTRANS_FLAG_NODOCS;
	}

	if (ia->noDeps) ia->installInterfaceFlags |= INSTALL_NODEPS;

	/* we've already ensured !(!ia->prefix && !ia->relocations) */
	if (ia->prefix) {
	    ia->relocations = xmalloc(2 * sizeof(*ia->relocations));
	    ia->relocations[0].oldPath = NULL;   /* special case magic */
	    ia->relocations[0].newPath = ia->prefix;
	    ia->relocations[1].oldPath = NULL;
	    ia->relocations[1].newPath = NULL;
	} else if (ia->relocations) {
	    ia->relocations = xrealloc(ia->relocations, 
			sizeof(*ia->relocations) * (ia->numRelocations + 1));
	    ia->relocations[ia->numRelocations].oldPath = NULL;
	    ia->relocations[ia->numRelocations].newPath = NULL;
	}

	if (!poptPeekArg(optCon)) {
	    argerror(_("no packages given for install"));
	} else {
	    /* FIX: ia->relocations[0].newPath undefined */
	    ec += rpmInstall(ts, ia, (ARGV_t) poptGetArgs(optCon));
	}
	break;

#endif	/* IAM_RPMEIU */

#ifdef	IAM_RPMQV
    case MODE_QUERY:
	if (!poptPeekArg(optCon) && !(qva->qva_source == RPMQV_ALL))
	    argerror(_("no arguments given for query"));

	ec = rpmcliQuery(ts, qva, (ARGV_const_t) poptGetArgs(optCon));
	break;

    case MODE_VERIFY:
    {	rpmVerifyFlags verifyFlags = VERIFY_ALL;

	verifyFlags &= ~qva->qva_flags;
	qva->qva_flags = (rpmQueryFlags) verifyFlags;

	if (!poptPeekArg(optCon) && !(qva->qva_source == RPMQV_ALL))
	    argerror(_("no arguments given for verify"));
	ec = rpmcliVerify(ts, qva, (ARGV_const_t) poptGetArgs(optCon));
    }	break;
#endif	/* IAM_RPMQV */

#if !defined(IAM_RPMQV)
    case MODE_QUERY:
    case MODE_VERIFY:
#endif
#if !defined(IAM_RPMEIU)
    case MODE_INSTALL:
    case MODE_ERASE:
#endif
    case MODE_UNKNOWN:
	if (poptPeekArg(optCon) != NULL || argc <= 1 || rpmIsVerbose()) {
	    printUsage(optCon, stderr, 0);
	    ec = argc;
	}
	break;
    }

    rpmtsFree(ts);
    if (finishPipe())
	ec = EXIT_FAILURE;

#ifdef	IAM_RPMQV
    free(qva->qva_queryFormat);
#endif

#ifdef	IAM_RPMEIU
    if (ia->relocations != NULL) {
	for (i = 0; i < ia->numRelocations; i++)
	    free(ia->relocations[i].oldPath);
	free(ia->relocations);
    }
#endif

    rpmcliFini(optCon);

    return RETVAL(ec);
}
Beispiel #21
0
static int doIcon(Spec spec, Header h)
	/*@globals rpmGlobalMacroContext, h_errno, fileSystem, internalState @*/
	/*@modifies h, rpmGlobalMacroContext, fileSystem, internalState  @*/
{
    static size_t iconsize = 0;
    HE_t he = memset(alloca(sizeof(*he)), 0, sizeof(*he));
    const char *fn, *Lurlfn = NULL;
    struct Source *sp;
    size_t nb;
    rpmuint8_t * icon;
    FD_t fd = NULL;
    int rc = RPMRC_FAIL;	/* assume error */
    int urltype;
    int xx;

    if (iconsize == 0) {
	iconsize = rpmExpandNumeric("%{?_build_iconsize}");
	if (iconsize < 2048)
	    iconsize = 2048;
    }
    icon = alloca(iconsize+1);

    for (sp = spec->sources; sp != NULL; sp = sp->next) {
	if (sp->flags & RPMFILE_ICON)
	    break;
    }
    if (sp == NULL) {
	rpmlog(RPMLOG_ERR, _("No icon file in sources\n"));
	goto exit;
    }

#if defined(RPM_VENDOR_OPENPKG) /* splitted-source-directory */
    /* support splitted source directories, i.e., source files which
       are alternatively placed into the .spec directory and picked
       up from there, too. */
    Lurlfn = rpmGenPath(NULL, "%{_specdir}/", sp->source);
    if (access(Lurlfn, F_OK) == -1) {
        Lurlfn = _free(Lurlfn);
        Lurlfn = rpmGenPath(NULL, "%{_icondir}/", sp->source);
    }
#else
    Lurlfn = rpmGenPath(NULL, "%{_icondir}/", sp->source);
#endif

    fn = NULL;
    urltype = urlPath(Lurlfn, &fn);
    switch (urltype) {  
    case URL_IS_HTTPS: 
    case URL_IS_HTTP:
    case URL_IS_FTP:
    case URL_IS_PATH:
    case URL_IS_UNKNOWN:
	break;
    case URL_IS_DASH:
    case URL_IS_HKP:
    case URL_IS_MONGO:	/* XXX FIXME */
	rpmlog(RPMLOG_ERR, _("Invalid icon URL: %s\n"), Lurlfn);
	goto exit;
	/*@notreached@*/ break;
    }

    fd = Fopen(fn, "r%{?_rpmgio}");
    if (fd == NULL || Ferror(fd)) {
	rpmlog(RPMLOG_ERR, _("Unable to open icon %s: %s\n"),
		fn, Fstrerror(fd));
	rc = RPMRC_FAIL;
	goto exit;
    }

    *icon = '\0';
    nb = Fread(icon, sizeof(icon[0]), iconsize, fd);
    if (Ferror(fd) || nb == 0) {
	rpmlog(RPMLOG_ERR, _("Unable to read icon %s: %s\n"),
		fn, Fstrerror(fd));
	goto exit;
    }
    if (nb >= iconsize) {
	rpmlog(RPMLOG_ERR, _("Icon %s is too big (max. %d bytes)\n"),
		fn, (int)iconsize);
	goto exit;
    }

    if (icon[0] == 'G' && icon[1] == 'I' && icon[2] == 'F')
	he->tag = RPMTAG_GIF;
    else
    if (icon[0] == '/' && icon[1] == '*' && icon[2] == ' '
     && icon[3] == 'X' && icon[4] == 'P' && icon[5] == 'M')
	he->tag = RPMTAG_XPM;
    else
	he->tag = tagValue("Icon");
    he->t = RPM_BIN_TYPE;
    he->p.ui8p = icon;
    he->c = (rpmTagCount)nb;
    xx = headerPut(h, he, 0);
    rc = 0;
    
exit:
    if (fd) {
	(void) Fclose(fd);
	fd = NULL;
    }
    Lurlfn = _free(Lurlfn);
    return rc;
}
Beispiel #22
0
int rpmErase(rpmts ts, struct rpmInstallArguments_s * ia, ARGV_const_t argv)
{
    char * const * arg;
    char *qfmt = NULL;
    int numFailed = 0;
    int stopUninstall = 0;
    int numPackages = 0;
    rpmVSFlags vsflags, ovsflags;
    rpmps ps;

    if (argv == NULL) return 0;

    vsflags = rpmExpandNumeric("%{?_vsflags_erase}");
    if (ia->qva_flags & VERIFY_DIGEST)
	vsflags |= _RPMVSF_NODIGESTS;
    if (ia->qva_flags & VERIFY_SIGNATURE)
	vsflags |= _RPMVSF_NOSIGNATURES;
    if (ia->qva_flags & VERIFY_HDRCHK)
	vsflags |= RPMVSF_NOHDRCHK;
    ovsflags = rpmtsSetVSFlags(ts, vsflags);

    /* XXX suggest mechanism only meaningful when installing */
    ia->transFlags |= RPMTRANS_FLAG_NOSUGGEST;

    (void) rpmtsSetFlags(ts, ia->transFlags);

#ifdef	NOTYET	/* XXX no callbacks on erase yet */
    {	int notifyFlags, xx;
	notifyFlags = ia->eraseInterfaceFlags | (rpmIsVerbose() ? INSTALL_LABEL : 0 );
	xx = rpmtsSetNotifyCallback(ts,
			rpmShowProgress, (void *) ((long)notifyFlags));
    }
#endif

    qfmt = rpmExpand("%{?_query_all_fmt}\n", NULL);
    for (arg = argv; *arg; arg++) {
	rpmdbMatchIterator mi;
	int matches = 0;
	int erasing = 1;

	/* Iterator count isn't reliable with labels, count manually... */
	mi = rpmtsInitIterator(ts, RPMDBI_LABEL, *arg, 0);
	while (rpmdbNextIterator(mi) != NULL) {
	    matches++;
	}
	rpmdbFreeIterator(mi);

	if (! matches) {
	    rpmlog(RPMLOG_ERR, _("package %s is not installed\n"), *arg);
	    numFailed++;
	} else {
	    Header h;	/* XXX iterator owns the reference */

	    if (matches > 1 && 
		!(ia->eraseInterfaceFlags & UNINSTALL_ALLMATCHES)) {
		rpmlog(RPMLOG_ERR, _("\"%s\" specifies multiple packages:\n"),
			*arg);
		numFailed++;
		erasing = 0;
	    }

	    mi = rpmtsInitIterator(ts, RPMDBI_LABEL, *arg, 0);
	    while ((h = rpmdbNextIterator(mi)) != NULL) {
		if (erasing) {
		    (void) rpmtsAddEraseElement(ts, h, -1);
		    numPackages++;
		} else {
		    char *nevra = headerFormat(h, qfmt, NULL);
		    rpmlog(RPMLOG_NOTICE, "  %s", nevra);
		    free(nevra);
		}
	    }
	    mi = rpmdbFreeIterator(mi);
	}
    }
    free(qfmt);

    if (numFailed) goto exit;

    if (!(ia->eraseInterfaceFlags & UNINSTALL_NODEPS)) {

	if (rpmtsCheck(ts)) {
	    numFailed = numPackages;
	    stopUninstall = 1;
	}

	ps = rpmtsProblems(ts);
	if (!stopUninstall && rpmpsNumProblems(ps) > 0) {
	    rpmlog(RPMLOG_ERR, _("Failed dependencies:\n"));
	    rpmpsPrint(NULL, ps);
	    numFailed += numPackages;
	    stopUninstall = 1;
	}
	ps = rpmpsFree(ps);
    }

    if (!stopUninstall && !(ia->installInterfaceFlags & INSTALL_NOORDER)) {
	if (rpmtsOrder(ts)) {
	    numFailed += numPackages;
	    stopUninstall = 1;
	}
    }

    if (numPackages && !stopUninstall) {
	(void) rpmtsSetFlags(ts, (rpmtsFlags(ts) | RPMTRANS_FLAG_REVERSE));

	/* Drop added/available package indices and dependency sets. */
	rpmtsClean(ts);

	numPackages = rpmtsRun(ts, NULL, ia->probFilter & (RPMPROB_FILTER_DISKSPACE|RPMPROB_FILTER_DISKNODES));
	ps = rpmtsProblems(ts);
	if (rpmpsNumProblems(ps) > 0)
	    rpmpsPrint(NULL, ps);
	numFailed += numPackages;
	stopUninstall = 1;
	ps = rpmpsFree(ps);
    }

exit:
    rpmtsEmpty(ts);

    return numFailed;
}
Beispiel #23
0
int parseSpec(rpmts ts, const char *specFile, const char *rootDir,
		const char *buildRoot, int recursing, const char *passPhrase,
		const char *cookie, int anyarch, int force)
{
    rpmParseState parsePart = PART_PREAMBLE;
    int initialPackage = 1;
    Package pkg;
    rpmSpec spec;
    
    /* Set up a new Spec structure with no packages. */
    spec = newSpec();

    spec->specFile = rpmGetPath(specFile, NULL);
    spec->fileStack = newOpenFileInfo();
    spec->fileStack->fileName = xstrdup(spec->specFile);
    /* If buildRoot not specified, use default %{buildroot} */
    if (buildRoot) {
	spec->buildRoot = xstrdup(buildRoot);
    } else {
	spec->buildRoot = rpmGetPath("%{?buildroot:%{buildroot}}", NULL);
    }
    addMacro(NULL, "_docdir", NULL, "%{_defaultdocdir}", RMIL_SPEC);
    spec->recursing = recursing;
    spec->anyarch = anyarch;
    spec->force = force;

    if (rootDir)
	spec->rootDir = xstrdup(rootDir);
    if (passPhrase)
	spec->passPhrase = xstrdup(passPhrase);
    if (cookie)
	spec->cookie = xstrdup(cookie);

    spec->timeCheck = rpmExpandNumeric("%{_timecheck}");

    /* All the parse*() functions expect to have a line pre-read */
    /* in the spec's line buffer.  Except for parsePreamble(),   */
    /* which handles the initial entry into a spec file.         */
    
    while (parsePart != PART_NONE) {
	int goterror = 0;
	switch (parsePart) {
	/* XXX Trap unexpected RPMRC_FAIL returns for now */
	case RPMRC_FAIL:
	    rpmlog(RPMLOG_ERR, "FIXME: got RPMRC_FAIL from spec parse\n");
	    abort();
	case PART_ERROR: /* fallthrough */
	default:
	    goterror = 1;
	    break;
	case PART_PREAMBLE:
	    parsePart = parsePreamble(spec, initialPackage);
	    initialPackage = 0;
	    break;
	case PART_PREP:
	    parsePart = parsePrep(spec);
	    break;
	case PART_BUILD:
	case PART_INSTALL:
	case PART_CHECK:
	case PART_CLEAN:
	    parsePart = parseBuildInstallClean(spec, parsePart);
	    break;
	case PART_CHANGELOG:
	    parsePart = parseChangelog(spec);
	    break;
	case PART_DESCRIPTION:
	    parsePart = parseDescription(spec);
	    break;

	case PART_PRE:
	case PART_POST:
	case PART_PREUN:
	case PART_POSTUN:
	case PART_PRETRANS:
	case PART_POSTTRANS:
	case PART_VERIFYSCRIPT:
	case PART_TRIGGERPREIN:
	case PART_TRIGGERIN:
	case PART_TRIGGERUN:
	case PART_TRIGGERPOSTUN:
	    parsePart = parseScript(spec, parsePart);
	    break;

	case PART_FILES:
	    parsePart = parseFiles(spec);
	    break;

	case PART_NONE:		/* XXX avoid gcc whining */
	case PART_LAST:
	case PART_BUILDARCHITECTURES:
	    break;
	}

	if (goterror || parsePart >= PART_LAST) {
	    goto errxit;
	}

	if (parsePart == PART_BUILDARCHITECTURES) {
	    int index;
	    int x;

	    closeSpec(spec);

	    spec->BASpecs = xcalloc(spec->BACount, sizeof(*spec->BASpecs));
	    index = 0;
	    if (spec->BANames != NULL)
	    for (x = 0; x < spec->BACount; x++) {

		/* Skip if not arch is not compatible. */
		if (!rpmMachineScore(RPM_MACHTABLE_BUILDARCH, spec->BANames[x]))
		    continue;
		addMacro(NULL, "_target_cpu", NULL, spec->BANames[x], RMIL_RPMRC);
		spec->BASpecs[index] = NULL;
		if (parseSpec(ts, specFile, spec->rootDir, buildRoot, 1,
				  passPhrase, cookie, anyarch, force)
		 || (spec->BASpecs[index] = rpmtsSetSpec(ts, NULL)) == NULL)
		{
			spec->BACount = index;
			goto errxit;
		}
		delMacro(NULL, "_target_cpu");
		index++;
	    }

	    spec->BACount = index;
	    if (! index) {
		rpmlog(RPMLOG_ERR,
			_("No compatible architectures found for build\n"));
		goto errxit;
	    }

	    /*
	     * Return the 1st child's fully parsed Spec structure.
	     * The restart of the parse when encountering BuildArch
	     * causes problems for "rpm -q --specfile". This is
	     * still a hack because there may be more than 1 arch
	     * specified (unlikely but possible.) There's also the
	     * further problem that the macro context, particularly
	     * %{_target_cpu}, disagrees with the info in the header.
	     */
	    if (spec->BACount >= 1) {
		rpmSpec nspec = spec->BASpecs[0];
		spec->BASpecs = _free(spec->BASpecs);
		spec = freeSpec(spec);
		spec = nspec;
	    }

	    (void) rpmtsSetSpec(ts, spec);
	    return 0;
	}
    }

    if (spec->clean == NULL) {
	char *body = rpmExpand("%{?buildroot: %{__rm} -rf %{buildroot}}", NULL);
	spec->clean = newStringBuf();
	appendLineStringBuf(spec->clean, body);
	free(body);
    }

    /* Check for description in each package and add arch and os */
  {
    char *platform = rpmExpand("%{_target_platform}", NULL);
    char *arch = rpmExpand("%{_target_cpu}", NULL);
    char *os = rpmExpand("%{_target_os}", NULL);

    for (pkg = spec->packages; pkg != NULL; pkg = pkg->next) {
	if (!headerIsEntry(pkg->header, RPMTAG_DESCRIPTION)) {
	    rpmlog(RPMLOG_ERR, _("Package has no %%description: %s\n"),
		   headerGetString(pkg->header, RPMTAG_NAME));
	    goto errxit;
	}

	headerPutString(pkg->header, RPMTAG_OS, os);
	/* noarch subpackages already have arch set here, leave it alone */
	if (!headerIsEntry(pkg->header, RPMTAG_ARCH)) {
	    headerPutString(pkg->header, RPMTAG_ARCH, arch);
	}
	headerPutString(pkg->header, RPMTAG_PLATFORM, platform);

	pkg->ds = rpmdsThis(pkg->header, RPMTAG_REQUIRENAME, RPMSENSE_EQUAL);

    }

    platform = _free(platform);
    arch = _free(arch);
    os = _free(os);
  }

    closeSpec(spec);
    (void) rpmtsSetSpec(ts, spec);

    return 0;

errxit:
    spec = freeSpec(spec);
    return PART_ERROR;
}
Beispiel #24
0
int build(rpmts ts, BTA_t ba, const char * rcfile)
{
    const char *t, *te;
    int rc = 0;
    const char * targets = rpmcliTargets;
    char *target;
#define	buildCleanMask	(RPMBUILD_RMSOURCE|RPMBUILD_RMSPEC)
    int cleanFlags = ba->buildAmount & buildCleanMask;
    rpmVSFlags vsflags, ovsflags;
    int nbuilds = 0;

    vsflags = rpmExpandNumeric("%{_vsflags_build}");
    if (ba->qva_flags & VERIFY_DIGEST)
	vsflags |= _RPMVSF_NODIGESTS;
    if (ba->qva_flags & VERIFY_SIGNATURE)
	vsflags |= _RPMVSF_NOSIGNATURES;
    if (ba->qva_flags & VERIFY_HDRCHK)
	vsflags |= RPMVSF_NOHDRCHK;
    ovsflags = rpmtsSetVSFlags(ts, vsflags);

    if (targets == NULL) {
	rc =  buildForTarget(ts, ba);
	nbuilds++;
	goto exit;
    }

    /* parse up the build operators */

    printf(_("Building target platforms: %s\n"), targets);

    ba->buildAmount &= ~buildCleanMask;
    for (t = targets; *t != '\0'; t = te) {
	/* Parse out next target platform. */ 
	if ((te = strchr(t, ',')) == NULL)
	    te = t + strlen(t);
	target = alloca(te-t+1);
	strncpy(target, t, (te-t));
	target[te-t] = '\0';
	if (*te != '\0')
	    te++;
	else	/* XXX Perform clean-up after last target build. */
	    ba->buildAmount |= cleanFlags;

	rpmlog(RPMLOG_DEBUG, _("    target platform: %s\n"), target);

	/* Read in configuration for target. */
	if (t != targets) {
	    rpmFreeMacros(NULL);
	    rpmFreeRpmrc();
	    (void) rpmReadConfigFiles(rcfile, target);
	}
	rc = buildForTarget(ts, ba);
	nbuilds++;
	if (rc)
	    break;
    }

exit:
    /* Restore original configuration. */
    if (nbuilds > 1) {
	t = targets;
	if ((te = strchr(t, ',')) == NULL)
	    te = t + strlen(t);
	target = alloca(te-t+1);
	strncpy(target, t, (te-t));
	target[te-t] = '\0';
	if (*te != '\0')
	    te++;
	rpmFreeMacros(NULL);
	rpmFreeRpmrc();
	(void) rpmReadConfigFiles(rcfile, target);
    }
    vsflags = rpmtsSetVSFlags(ts, ovsflags);

    return rc;
}
Beispiel #25
0
rpmRC rpmGenerateSignature(char *SHA1, uint8_t *MD5, rpm_loff_t size,
				rpm_loff_t payloadSize, FD_t fd)
{
    Header sig = headerNew();
    struct rpmtd_s td;
    rpmRC rc = RPMRC_OK;
    char *reservedSpace;
    int spaceSize = 32; /* always reserve a bit of space */
    int gpgSize = rpmExpandNumeric("%{__gpg_reserved_space}");

    /* Prepare signature */
    rpmtdReset(&td);
    td.tag = RPMSIGTAG_SHA1;
    td.count = 1;
    td.type = RPM_STRING_TYPE;
    td.data = SHA1;
    headerPut(sig, &td, HEADERPUT_DEFAULT);

    rpmtdReset(&td);
    td.tag = RPMSIGTAG_MD5;
    td.count = 16;
    td.type = RPM_BIN_TYPE;
    td.data = MD5;
    headerPut(sig, &td, HEADERPUT_DEFAULT);

    rpmtdReset(&td);
    td.count = 1;
    if (payloadSize < UINT32_MAX) {
	rpm_off_t p = payloadSize;
	rpm_off_t s = size;
	td.type = RPM_INT32_TYPE;

	td.tag = RPMSIGTAG_PAYLOADSIZE;
	td.data = &p;
	headerPut(sig, &td, HEADERPUT_DEFAULT);

	td.tag = RPMSIGTAG_SIZE;
	td.data = &s;
	headerPut(sig, &td, HEADERPUT_DEFAULT);
    } else {
	rpm_loff_t p = payloadSize;
	rpm_loff_t s = size;
	td.type = RPM_INT64_TYPE;

	td.tag = RPMSIGTAG_LONGARCHIVESIZE;
	td.data = &p;
	headerPut(sig, &td, HEADERPUT_DEFAULT);

	td.tag = RPMSIGTAG_LONGSIZE;
	td.data = &s;
	headerPut(sig, &td, HEADERPUT_DEFAULT);

	/* adjust for the size difference between 64- and 32bit tags */
	spaceSize -= 8;
    }

    if (gpgSize > 0)
	spaceSize += gpgSize;

    if(spaceSize > 0) {
	reservedSpace = xcalloc(spaceSize, sizeof(char));
	rpmtdReset(&td);
	td.tag = RPMSIGTAG_RESERVEDSPACE;
	td.count = spaceSize;
	td.type = RPM_BIN_TYPE;
	td.data = reservedSpace;
	headerPut(sig, &td, HEADERPUT_DEFAULT);
	free(reservedSpace);
    }

    /* Reallocate the signature into one contiguous region. */
    sig = headerReload(sig, RPMTAG_HEADERSIGNATURES);
    if (sig == NULL) { /* XXX can't happen */
	rpmlog(RPMLOG_ERR, _("Unable to reload signature header.\n"));
	rc = RPMRC_FAIL;
	goto exit;
    }

    /* Write the signature section into the package. */
    if (rpmWriteSignature(fd, sig)) {
	rc = RPMRC_FAIL;
	goto exit;
    }

exit:
    headerFree(sig);
    return rc;
}
Beispiel #26
0
int main(int argc, const char ** argv)
#endif
	/*@globals rpmEVR, RPMVERSION,
		rpmGlobalMacroContext, rpmCLIMacroContext,
		h_errno, fileSystem, internalState@*/
	/*@modifies fileSystem, internalState@*/
{
    poptContext optCon = rpmcliInit(argc, (char *const *)argv, optionsTable);

    rpmts ts = NULL;
    enum modes bigMode = MODE_UNKNOWN;

#if defined(IAM_RPMQV)
    QVA_t qva = &rpmQVKArgs;
#endif

#ifdef	IAM_RPMBT
    BTA_t ba = &rpmBTArgs;
#endif

#ifdef	IAM_RPMEIU
    QVA_t ia = &rpmIArgs;
#endif

#if defined(IAM_RPMDB)
    QVA_t da = &rpmDBArgs;
#endif

#if defined(IAM_RPMK)
    QVA_t ka = &rpmQVKArgs;
#endif

#if defined(IAM_RPMBT) || defined(IAM_RPMK)
    char * passPhrase = "";
#endif

    pid_t pipeChild = 0;
    int ec = 0;
    int status;
    int p[2];
#ifdef	IAM_RPMEIU
    int xx;
#endif
	
#if !defined(__GLIBC__) && !defined(__LCLINT__)
    environ = envp;
#else
/* XXX limit the fiddle up to linux for now. */
#if !defined(HAVE_SETPROCTITLE) && defined(__linux__)
    (void) initproctitle(argc, (char **)argv, environ);
#endif
#endif  

    /* Set the major mode based on argv[0] */
    /*@-nullpass@*/
#ifdef	IAM_RPMBT
    if (!strcmp(__progname, "rpmb"))	bigMode = MODE_BUILD;
    if (!strcmp(__progname, "lt-rpmb"))	bigMode = MODE_BUILD;
    if (!strcmp(__progname, "rpmt"))	bigMode = MODE_TARBUILD;
    if (!strcmp(__progname, "rpmbuild"))	bigMode = MODE_BUILD;
#endif
#ifdef	IAM_RPMQV
    if (!strcmp(__progname, "rpmq"))	bigMode = MODE_QUERY;
    if (!strcmp(__progname, "lt-rpmq"))	bigMode = MODE_QUERY;
    if (!strcmp(__progname, "rpmv"))	bigMode = MODE_VERIFY;
    if (!strcmp(__progname, "rpmquery"))	bigMode = MODE_QUERY;
    if (!strcmp(__progname, "rpmverify"))	bigMode = MODE_VERIFY;
#endif
#ifdef	RPMEIU
    if (!strcmp(__progname, "rpme"))	bigMode = MODE_ERASE;
    if (!strcmp(__progname, "rpmi"))	bigMode = MODE_INSTALL;
    if (!strcmp(__progname, "lt-rpmi"))	bigMode = MODE_INSTALL;
    if (!strcmp(__progname, "rpmu"))	bigMode = MODE_INSTALL;
#endif
    /*@=nullpass@*/

#if defined(IAM_RPMQV)
    /* Jumpstart option from argv[0] if necessary. */
    switch (bigMode) {
    case MODE_QUERY:	qva->qva_mode = 'q';	break;
    case MODE_VERIFY:	qva->qva_mode = 'V';	break;
    case MODE_CHECKSIG:	qva->qva_mode = 'K';	break;
    case MODE_RESIGN:	qva->qva_mode = 'R';	break;
    case MODE_INSTALL:
    case MODE_ERASE:
    case MODE_BUILD:
    case MODE_REBUILD:
    case MODE_RECOMPILE:
    case MODE_TARBUILD:
    case MODE_REBUILDDB:
    case MODE_UNKNOWN:
    default:
	break;
    }
#endif

    rpmcliConfigured();

#ifdef	IAM_RPMBT
    switch (ba->buildMode) {
    case 'b':	bigMode = MODE_BUILD;		break;
    case 't':	bigMode = MODE_TARBUILD;	break;
    case 'B':	bigMode = MODE_REBUILD;		break;
    case 'C':	bigMode = MODE_RECOMPILE;	break;
    }

    if ((ba->buildAmount & RPMBUILD_RMSOURCE) && bigMode == MODE_UNKNOWN)
	bigMode = MODE_BUILD;

    if ((ba->buildAmount & RPMBUILD_RMSPEC) && bigMode == MODE_UNKNOWN)
	bigMode = MODE_BUILD;
#endif	/* IAM_RPMBT */
    
#ifdef	IAM_RPMDB
  if (bigMode == MODE_UNKNOWN || (bigMode & MODES_DB)) {
    if (da->rebuild) {
	if (bigMode != MODE_UNKNOWN) 
	    argerror(_("only one major mode may be specified"));
	else
	    bigMode = MODE_REBUILDDB;
    }
  }
#endif	/* IAM_RPMDB */

#ifdef	IAM_RPMQV
  if (bigMode == MODE_UNKNOWN || (bigMode & MODES_QV)) {
    switch (qva->qva_mode) {
    case 'q':	bigMode = MODE_QUERY;		break;
    case 'V':	bigMode = MODE_VERIFY;		break;
    }

    if (qva->qva_sourceCount) {
	if (qva->qva_sourceCount > 2)
	    argerror(_("one type of query/verify may be performed at a "
			"time"));
    }
    if (qva->qva_flags && (bigMode & ~MODES_QV)) 
	argerror(_("unexpected query flags"));

    if (qva->qva_queryFormat && (bigMode & ~MODES_QV)) 
	argerror(_("unexpected query format"));

    if (qva->qva_source != RPMQV_PACKAGE && (bigMode & ~MODES_QV)) 
	argerror(_("unexpected query source"));
  }
#endif	/* IAM_RPMQV */

#ifdef	IAM_RPMEIU
  if (bigMode == MODE_UNKNOWN || (bigMode & MODES_IE))
    {	int iflags = (ia->installInterfaceFlags &
		(INSTALL_UPGRADE|INSTALL_FRESHEN|INSTALL_INSTALL));
	int eflags = (ia->installInterfaceFlags & INSTALL_ERASE);

	if (iflags & eflags)
	    argerror(_("only one major mode may be specified"));
	else if (iflags)
	    bigMode = MODE_INSTALL;
	else if (eflags)
	    bigMode = MODE_ERASE;
    }
#endif	/* IAM_RPMEIU */

#ifdef	IAM_RPMK
  if (bigMode == MODE_UNKNOWN || (bigMode & MODES_K)) {
	switch (ka->qva_mode) {
	case RPMSIGN_NONE:
	    ka->sign = 0;
	    break;
	case RPMSIGN_IMPORT_PUBKEY:
	case RPMSIGN_CHK_SIGNATURE:
	    bigMode = MODE_CHECKSIG;
	    ka->sign = 0;
	    break;
	case RPMSIGN_ADD_SIGNATURE:
	case RPMSIGN_NEW_SIGNATURE:
	case RPMSIGN_DEL_SIGNATURE:
	    bigMode = MODE_RESIGN;
	    ka->sign = (ka->qva_mode != RPMSIGN_DEL_SIGNATURE);
	    break;
	}
  }
#endif	/* IAM_RPMK */

#if defined(IAM_RPMEIU)
    if (!( bigMode == MODE_INSTALL ) &&
(ia->probFilter & (RPMPROB_FILTER_REPLACEPKG | RPMPROB_FILTER_OLDPACKAGE)))
	argerror(_("only installation, upgrading, rmsource and rmspec may be forced"));
    if (bigMode != MODE_INSTALL && (ia->probFilter & RPMPROB_FILTER_FORCERELOCATE))
	argerror(_("files may only be relocated during package installation"));

    if (ia->relocations && ia->qva_prefix)
	argerror(_("cannot use --prefix with --relocate or --excludepath"));

    if (bigMode != MODE_INSTALL && ia->relocations)
	argerror(_("--relocate and --excludepath may only be used when installing new packages"));

    if (bigMode != MODE_INSTALL && ia->qva_prefix)
	argerror(_("--prefix may only be used when installing new packages"));

    if (ia->qva_prefix && ia->qva_prefix[0] != '/') 
	argerror(_("arguments to --prefix must begin with a /"));

    if (bigMode != MODE_INSTALL && (ia->installInterfaceFlags & INSTALL_HASH))
	argerror(_("--hash (-h) may only be specified during package "
			"installation"));

    if (bigMode != MODE_INSTALL && (ia->installInterfaceFlags & INSTALL_PERCENT))
	argerror(_("--percent may only be specified during package "
			"installation"));

    if (bigMode != MODE_INSTALL && (ia->probFilter & RPMPROB_FILTER_REPLACEPKG))
	argerror(_("--replacepkgs may only be specified during package "
			"installation"));

    if (bigMode != MODE_INSTALL && (ia->transFlags & RPMTRANS_FLAG_NODOCS))
	argerror(_("--excludedocs may only be specified during package "
		   "installation"));

    if (bigMode != MODE_INSTALL && ia->incldocs)
	argerror(_("--includedocs may only be specified during package "
		   "installation"));

    if (ia->incldocs && (ia->transFlags & RPMTRANS_FLAG_NODOCS))
	argerror(_("only one of --excludedocs and --includedocs may be "
		 "specified"));
  
    if (bigMode != MODE_INSTALL && (ia->probFilter & RPMPROB_FILTER_IGNOREARCH))
	argerror(_("--ignorearch may only be specified during package "
		   "installation"));

    if (bigMode != MODE_INSTALL && (ia->probFilter & RPMPROB_FILTER_IGNOREOS))
	argerror(_("--ignoreos may only be specified during package "
		   "installation"));

    if ((ia->installInterfaceFlags & INSTALL_ALLMATCHES) && bigMode != MODE_ERASE)
	argerror(_("--allmatches may only be specified during package "
		   "erasure"));

    if ((ia->transFlags & RPMTRANS_FLAG_ALLFILES) && bigMode != MODE_INSTALL)
	argerror(_("--allfiles may only be specified during package "
		   "installation"));

    if ((ia->transFlags & RPMTRANS_FLAG_JUSTDB) &&
	bigMode != MODE_INSTALL && bigMode != MODE_ERASE)
	argerror(_("--justdb may only be specified during package "
		   "installation and erasure"));

    if (bigMode != MODE_INSTALL && bigMode != MODE_ERASE &&
	(ia->transFlags & (RPMTRANS_FLAG_NOSCRIPTS | _noTransScripts | _noTransTriggers)))
	argerror(_("script disabling options may only be specified during "
		   "package installation and erasure"));

    if (bigMode != MODE_INSTALL && bigMode != MODE_ERASE &&
	(ia->transFlags & (RPMTRANS_FLAG_NOTRIGGERS | _noTransTriggers)))
	argerror(_("trigger disabling options may only be specified during "
		   "package installation and erasure"));

    if (ia->noDeps & (bigMode & ~MODES_FOR_NODEPS))
	argerror(_("--nodeps may only be specified during package "
		   "building, rebuilding, recompilation, installation, "
		   "erasure, and verification"));

    if ((ia->transFlags & RPMTRANS_FLAG_TEST) && (bigMode & ~MODES_FOR_TEST))
	argerror(_("--test may only be specified during package installation, "
		 "erasure, and building"));
#endif	/* IAM_RPMEIU */

    if (rpmioRootDir && rpmioRootDir[1] && (bigMode & ~MODES_FOR_ROOT))
	argerror(_("--root (-r) may only be specified during "
		 "installation, erasure, querying, and "
		 "database rebuilds"));

    if (rpmioRootDir) {
	switch (urlIsURL(rpmioRootDir)) {
	default:
	    if (bigMode & MODES_FOR_ROOT)
		break;
	    /*@fallthrough@*/
	case URL_IS_UNKNOWN:
	    if (rpmioRootDir[0] != '/')
		argerror(_("arguments to --root (-r) must begin with a /"));
	    break;
	}
    }

#if defined(RPM_VENDOR_OPENPKG) /* integrity-checking */
    integrity_check(__progname, bigMode);
#endif

#if defined(IAM_RPMBT) || defined(IAM_RPMK)
    if (0
#if defined(IAM_RPMBT)
    || ba->sign 
#endif
#if defined(IAM_RPMK)
    || ka->sign
#endif
    )
    /*@-branchstate@*/
    {
        if (bigMode == MODE_REBUILD || bigMode == MODE_BUILD ||
	    bigMode == MODE_RESIGN || bigMode == MODE_TARBUILD)
	{
	    const char ** av;
	    struct stat sb;
	    int errors = 0;

	    if ((av = poptGetArgs(optCon)) == NULL) {
		fprintf(stderr, _("no files to sign\n"));
		errors++;
	    } else
	    while (*av) {
		if (Stat(*av, &sb)) {
		    fprintf(stderr, _("cannot access file %s\n"), *av);
		    errors++;
		}
		av++;
	    }

	    if (errors) {
		ec = errors;
		goto exit;
	    }

	
            if (poptPeekArg(optCon)
#if defined(IAM_RPMBT)
	    && !ba->nopassword 
#endif
#if defined(IAM_RPMK)
	    && !ka->nopassword
#endif
	    )
	    {
		passPhrase = Getpass(_("Enter pass phrase: "));
		if (rpmCheckPassPhrase(passPhrase)) {
		    fprintf(stderr, _("Pass phrase check failed\n"));
		    ec = EXIT_FAILURE;
		    goto exit;
		}
		fprintf(stderr, _("Pass phrase is good.\n"));
		/* XXX Getpass() should realloc instead. */
		passPhrase = xstrdup(passPhrase);
	    }
	}
    }
    /*@=branchstate@*/
#endif	/* IAM_RPMBT || IAM_RPMK */

    if (rpmioPipeOutput) {
	if (pipe(p) < 0) {
	    fprintf(stderr, _("creating a pipe for --pipe failed: %m\n"));
	    goto exit;
	}

	if (!(pipeChild = fork())) {
	    (void) close(p[1]);
	    (void) dup2(p[0], STDIN_FILENO);
	    (void) close(p[0]);
	    (void) execl("/bin/sh", "/bin/sh", "-c", rpmioPipeOutput, NULL);
	    fprintf(stderr, _("exec failed\n"));
	}

	(void) close(p[0]);
	(void) dup2(p[1], STDOUT_FILENO);
	(void) close(p[1]);
    }
	
    ts = rpmtsCreate();
    (void) rpmtsSetRootDir(ts, rpmioRootDir);
    switch (bigMode) {
#ifdef	IAM_RPMDB
    case MODE_REBUILDDB:
    {   rpmVSFlags vsflags = rpmExpandNumeric("%{_vsflags_rebuilddb}");
	rpmVSFlags ovsflags;
	if (rpmcliQueryFlags & VERIFY_DIGEST)
	    vsflags |= _RPMVSF_NODIGESTS;
	if (rpmcliQueryFlags & VERIFY_SIGNATURE)
	    vsflags |= _RPMVSF_NOSIGNATURES;
	ovsflags = rpmtsSetVSFlags(ts, vsflags);
	ec = rpmtsRebuildDB(ts);
	vsflags = rpmtsSetVSFlags(ts, ovsflags);
    }	break;
#endif	/* IAM_RPMDB */

#ifdef	IAM_RPMBT
    case MODE_REBUILD:
    case MODE_RECOMPILE:
    {	const char * pkg;
	int nbuilds = 0;

        while (!rpmIsVerbose())
	    rpmIncreaseVerbosity();

	if (!poptPeekArg(optCon))
	    argerror(_("no packages files given for rebuild"));

	ba->buildAmount =
	    RPMBUILD_PREP | RPMBUILD_BUILD | RPMBUILD_INSTALL | RPMBUILD_CHECK;
	if (bigMode == MODE_REBUILD) {
	    ba->buildAmount |= RPMBUILD_PACKAGEBINARY;
	    ba->buildAmount |= RPMBUILD_RMSOURCE;
	    ba->buildAmount |= RPMBUILD_RMSPEC;
	    ba->buildAmount |= RPMBUILD_CLEAN;
	    ba->buildAmount |= RPMBUILD_RMBUILD;
	}

	while ((pkg = poptGetArg(optCon))) {
	    if (nbuilds++ > 0) {
		rpmFreeMacros(NULL);
		rpmFreeRpmrc();
		(void) rpmReadConfigFiles(NULL, NULL);
	    }
	    ba->specFile = NULL;
	    ba->cookie = NULL;
	    ec = rpmInstallSource(ts, pkg, &ba->specFile, &ba->cookie);
	    if (ec == 0) {
		ba->rootdir = rpmioRootDir;
		ba->passPhrase = passPhrase;
		ec = build(ts, ba, NULL);
	    }
	    ba->cookie = _free(ba->cookie);
	    ba->specFile = _free(ba->specFile);

	    if (ec)
		/*@loopbreak@*/ break;
	}

    }	break;

    case MODE_BUILD:
    case MODE_TARBUILD:
    {	int nbuilds = 0;

#if defined(RPM_VENDOR_OPENPKG) /* no-auto-verbose-increase-for-track-and-fetch */
	if (ba->buildChar != 't' && ba->buildChar != 'f')
#endif
        while (!rpmIsVerbose())
	    rpmIncreaseVerbosity();
       
	switch (ba->buildChar) {
	case 'a':
	    ba->buildAmount |= RPMBUILD_PACKAGESOURCE;
	    /*@fallthrough@*/
	case 'b':
	    ba->buildAmount |= RPMBUILD_PACKAGEBINARY;
	    ba->buildAmount |= RPMBUILD_CLEAN;
#if defined(RPM_VENDOR_MANDRIVA)
	    if ((ba->buildChar == 'a' || ba->buildChar == 'b') && ba->shortCircuit)
#else
	    if ((ba->buildChar == 'b') && ba->shortCircuit)
#endif
		/*@innerbreak@*/ break;
	    /*@fallthrough@*/
	case 'i':
	    ba->buildAmount |= RPMBUILD_INSTALL;
	    ba->buildAmount |= RPMBUILD_CHECK;
	    if ((ba->buildChar == 'i') && ba->shortCircuit)
		/*@innerbreak@*/ break;
	    /*@fallthrough@*/
	case 'c':
	    ba->buildAmount |= RPMBUILD_BUILD;
	    if ((ba->buildChar == 'c') && ba->shortCircuit)
		/*@innerbreak@*/ break;
	    /*@fallthrough@*/
	case 'p':
	    ba->buildAmount |= RPMBUILD_PREP;
	    /*@innerbreak@*/ break;
	    
	case 'l':
	    ba->buildAmount |= RPMBUILD_FILECHECK;
	    /*@innerbreak@*/ break;
	case 's':
	    ba->buildAmount |= RPMBUILD_PACKAGESOURCE;
#if defined(RPM_VENDOR_OPENPKG) || defined(RPM_VENDOR_MANDRIVA) || defined(RPM_VENDOR_ARK) /* no-deps-on-building-srpms */
	    /* enforce no dependency checking when rolling a source RPM */
	    ba->noDeps = 1;
#endif
	    /*@innerbreak@*/ break;
	case 't':	/* support extracting the "%track" script/section */
	    ba->buildAmount |= RPMBUILD_TRACK;
	    /* enforce no dependency checking and expansion of %setup, %patch and %prep macros */
	    ba->noDeps = 1;
	    rpmDefineMacro(NULL, "setup #", RMIL_CMDLINE);
	    rpmDefineMacro(NULL, "patch #", RMIL_CMDLINE);
	    rpmDefineMacro(NULL, "prep %%prep", RMIL_CMDLINE);
	    /*@innerbreak@*/ break;
	case 'f':
	    ba->buildAmount |= RPMBUILD_FETCHSOURCE;
	    ba->noDeps = 1;
	    /*@innerbreak@*/ break;
	}

	if (!poptPeekArg(optCon)) {
	    if (bigMode == MODE_BUILD)
		argerror(_("no spec files given for build"));
	    else
		argerror(_("no tar files given for build"));
	}

	while ((ba->specFile = poptGetArg(optCon))) {
	    if (nbuilds++ > 0) {
		rpmFreeMacros(NULL);
		rpmFreeRpmrc();
		(void) rpmReadConfigFiles(NULL, NULL);
	    }
	    ba->rootdir = rpmioRootDir;
	    ba->passPhrase = passPhrase;
	    ba->cookie = NULL;
	    ec = build(ts, ba, NULL);
	    if (ec)
		/*@loopbreak@*/ break;
	}
    }	break;
#endif	/* IAM_RPMBT */

#ifdef	IAM_RPMEIU
    case MODE_ERASE:
	ia->depFlags = global_depFlags;
	if (ia->noDeps) ia->installInterfaceFlags |= INSTALL_NODEPS;

	if (!poptPeekArg(optCon)) {
	    if (ia->rbtid == 0)
		argerror(_("no packages given for erase"));
ia->transFlags |= RPMTRANS_FLAG_NOFDIGESTS;
ia->probFilter |= RPMPROB_FILTER_OLDPACKAGE;
ia->rbCheck = rpmcliInstallCheck;
ia->rbOrder = rpmcliInstallOrder;
ia->rbRun = rpmcliInstallRun;
	    ec += rpmRollback(ts, ia, NULL);
	} else {
	    ec += rpmErase(ts, ia, (const char **) poptGetArgs(optCon));
	}
	break;

    case MODE_INSTALL:

	/* RPMTRANS_FLAG_KEEPOBSOLETE */

	ia->depFlags = global_depFlags;
	if (!ia->incldocs) {
	    if (ia->transFlags & RPMTRANS_FLAG_NODOCS) {
		;
	    } else if (rpmExpandNumeric("%{_excludedocs}"))
		ia->transFlags |= RPMTRANS_FLAG_NODOCS;
	}

	if (ia->noDeps) ia->installInterfaceFlags |= INSTALL_NODEPS;

	/* we've already ensured !(!ia->prefix && !ia->relocations) */
	/*@-branchstate@*/
	if (ia->qva_prefix) {
	    xx = rpmfiAddRelocation(&ia->relocations, &ia->nrelocations,
			NULL, ia->qva_prefix);
	    xx = rpmfiAddRelocation(&ia->relocations, &ia->nrelocations,
			NULL, NULL);
	} else if (ia->relocations) {
	    xx = rpmfiAddRelocation(&ia->relocations, &ia->nrelocations,
			NULL, NULL);
	}
	/*@=branchstate@*/

	if (!poptPeekArg(optCon)) {
	    if (ia->rbtid == 0)
		argerror(_("no packages given for install"));
ia->transFlags |= RPMTRANS_FLAG_NOFDIGESTS;
ia->probFilter |= RPMPROB_FILTER_OLDPACKAGE;
ia->rbCheck = rpmcliInstallCheck;
ia->rbOrder = rpmcliInstallOrder;
ia->rbRun = rpmcliInstallRun;
/*@i@*/	    ec += rpmRollback(ts, ia, NULL);
	} else {
	    /*@-compdef -compmempass@*/ /* FIX: ia->relocations[0].newPath undefined */
	    ec += rpmcliInstall(ts, ia, (const char **)poptGetArgs(optCon));
	    /*@=compdef =compmempass@*/
	}
	break;

#endif	/* IAM_RPMEIU */

#ifdef	IAM_RPMQV
    case MODE_QUERY:
	if (!poptPeekArg(optCon)
	 && !(qva->qva_source == RPMQV_ALL || qva->qva_source == RPMQV_HDLIST))
	    argerror(_("no arguments given for query"));

	qva->depFlags = global_depFlags;
	qva->qva_specQuery = rpmspecQuery;
	ec = rpmcliQuery(ts, qva, (const char **) poptGetArgs(optCon));
	qva->qva_specQuery = NULL;
	break;

    case MODE_VERIFY:
    {	rpmVerifyFlags verifyFlags = VERIFY_ALL;

	qva->depFlags = global_depFlags;
	verifyFlags &= ~qva->qva_flags;
	qva->qva_flags = (rpmQueryFlags) verifyFlags;

	if (!poptPeekArg(optCon)
	 && !(qva->qva_source == RPMQV_ALL || qva->qva_source == RPMQV_HDLIST))
	    argerror(_("no arguments given for verify"));
	ec = rpmcliVerify(ts, qva, (const char **) poptGetArgs(optCon));
    }	break;
#endif	/* IAM_RPMQV */

#ifdef IAM_RPMK
    case MODE_CHECKSIG:
    {	rpmVerifyFlags verifyFlags =
		(VERIFY_FDIGEST|VERIFY_HDRCHK|VERIFY_DIGEST|VERIFY_SIGNATURE);

	verifyFlags &= ~ka->qva_flags;
	ka->qva_flags = (rpmQueryFlags) verifyFlags;
    }   /*@fallthrough@*/
    case MODE_RESIGN:
	if (!poptPeekArg(optCon))
	    argerror(_("no arguments given"));
	ka->passPhrase = passPhrase;
	ec = rpmcliSign(ts, ka, (const char **)poptGetArgs(optCon));
    	break;
#endif	/* IAM_RPMK */
	
#if !defined(IAM_RPMQV)
    case MODE_QUERY:
    case MODE_VERIFY:
#endif
#if !defined(IAM_RPMK)
    case MODE_CHECKSIG:
    case MODE_RESIGN:
#endif
#if !defined(IAM_RPMDB)
    case MODE_REBUILDDB:
#endif
#if !defined(IAM_RPMBT)
    case MODE_BUILD:
    case MODE_REBUILD:
    case MODE_RECOMPILE:
    case MODE_TARBUILD:
#endif
#if !defined(IAM_RPMEIU)
    case MODE_INSTALL:
    case MODE_ERASE:
#endif
    case MODE_UNKNOWN:
#ifdef	DYING /* XXX rpmIsVerbose alone stops usage spewage with every --eval */
	if (poptPeekArg(optCon) != NULL || argc <= 1 || rpmIsVerbose()) {
	    printUsage(optCon, stderr, 0);
	    ec = argc;
	}
#endif
	break;
    }

#if defined(IAM_RPMBT) || defined(IAM_RPMK)
exit:
#endif	/* IAM_RPMBT || IAM_RPMK */

    (void)rpmtsFree(ts); 
    ts = NULL;

    if (pipeChild) {
	(void) fclose(stdout);
	(void) waitpid(pipeChild, &status, 0);
    }

#ifdef	IAM_RPMQV
    qva->qva_queryFormat = _free(qva->qva_queryFormat);
#endif

#ifdef	IAM_RPMBT
    freeNames();
    /* XXX _specPool/_pkgPool teardown should be done somewhere else. */
    {	extern rpmioPool _pkgPool;
	extern rpmioPool _specPool;
	_pkgPool = rpmioFreePool(_pkgPool);
	_specPool = rpmioFreePool(_specPool);
    }
#endif

#ifdef	IAM_RPMEIU
    ia->relocations = rpmfiFreeRelocations(ia->relocations);
#endif

    optCon = rpmcliFini(optCon);

/* XXX limit the fiddle up to linux for now. */
#if !defined(HAVE_SETPROCTITLE) && defined(__linux__)
    (void) finiproctitle();
#endif

    /* XXX don't overflow single byte exit status */
    /* XXX status 255 is special to xargs(1) */
    if (ec > 254) ec = 254;

     rpmlog(RPMLOG_DEBUG, D_("exit code: %d\n"), ec);

    /*@-globstate@*/
    return ec;
    /*@=globstate@*/
}
Beispiel #27
0
/**
 * Add %changelog section to header.
 * @param h		header
 * @param sb		changelog strings
 * @return		RPMRC_OK on success
 */
static rpmRC addChangelog(Header h, StringBuf sb)
{
    char *s;
    int i;
    time_t time;
    time_t lastTime = 0;
    time_t trimtime = rpmExpandNumeric("%{?_changelog_trimtime}");
    char *date, *name, *text, *next;

    s = getStringBuf(sb);

    /* skip space */
    SKIPSPACE(s);

    while (*s != '\0') {
	if (*s != '*') {
	    rpmlog(RPMLOG_ERR,
			_("%%changelog entries must start with *\n"));
	    return RPMRC_FAIL;
	}

	/* find end of line */
	date = s;
	while(*s && *s != '\n') s++;
	if (! *s) {
	    rpmlog(RPMLOG_ERR, _("incomplete %%changelog entry\n"));
	    return RPMRC_FAIL;
	}
	*s = '\0';
	text = s + 1;
	
	/* 4 fields of date */
	date++;
	s = date;
	for (i = 0; i < 4; i++) {
	    SKIPSPACE(s);
	    SKIPNONSPACE(s);
	}
	SKIPSPACE(date);
	if (dateToTimet(date, &time)) {
	    rpmlog(RPMLOG_ERR, _("bad date in %%changelog: %s\n"), date);
	    return RPMRC_FAIL;
	}
	if (lastTime && lastTime < time) {
	    rpmlog(RPMLOG_ERR,
		     _("%%changelog not in descending chronological order\n"));
	    return RPMRC_FAIL;
	}
	lastTime = time;

	/* skip space to the name */
	SKIPSPACE(s);
	if (! *s) {
	    rpmlog(RPMLOG_ERR, _("missing name in %%changelog\n"));
	    return RPMRC_FAIL;
	}

	/* name */
	name = s;
	while (*s != '\0') s++;
	while (s > name && risspace(*s)) {
	    *s-- = '\0';
	}
	if (s == name) {
	    rpmlog(RPMLOG_ERR, _("missing name in %%changelog\n"));
	    return RPMRC_FAIL;
	}

	/* text */
	SKIPSPACE(text);
	if (! *text) {
	    rpmlog(RPMLOG_ERR, _("no description in %%changelog\n"));
	    return RPMRC_FAIL;
	}
	    
	/* find the next leading '*' (or eos) */
	s = text;
	do {
	   s++;
	} while (*s && (*(s-1) != '\n' || *s != '*'));
	next = s;
	s--;

	/* backup to end of description */
	while ((s > text) && risspace(*s)) {
	    *s-- = '\0';
	}
	
	if ( !trimtime || time >= trimtime ) {
	    addChangelogEntry(h, time, name, text);
	} else break;
	
	s = next;
    }

    return RPMRC_OK;
}
Beispiel #28
0
static int addSource(rpmSpec spec, Package pkg, const char *field, rpmTagVal tag)
{
    struct Source *p;
    int flag = 0;
    const char *name = NULL;
    char *nump;
    char *fieldp = NULL;
    char *buf = NULL;
    uint32_t num = 0;

    switch (tag) {
      case RPMTAG_SOURCE:
	flag = RPMBUILD_ISSOURCE;
	name = "source";
	fieldp = spec->line + 6;
	break;
      case RPMTAG_PATCH:
	flag = RPMBUILD_ISPATCH;
	name = "patch";
	fieldp = spec->line + 5;
	break;
      case RPMTAG_ICON:
	flag = RPMBUILD_ISICON;
	fieldp = NULL;
	break;
      default:
	return -1;
	break;
    }

    /* Get the number */
    if (tag != RPMTAG_ICON) {
	/* We already know that a ':' exists, and that there */
	/* are no spaces before it.                          */
	/* This also now allows for spaces and tabs between  */
	/* the number and the ':'                            */
	char ch;
	char *fieldp_backup = fieldp;

	while ((*fieldp != ':') && (*fieldp != ' ') && (*fieldp != '\t')) {
	    fieldp++;
	}
	ch = *fieldp;
	*fieldp = '\0';

	nump = fieldp_backup;
	SKIPSPACE(nump);
	if (nump == NULL || *nump == '\0') {
	    num = flag == RPMBUILD_ISSOURCE ? 0 : INT_MAX;
	} else {
	    if (parseUnsignedNum(fieldp_backup, &num)) {
		rpmlog(RPMLOG_ERR, _("line %d: Bad %s number: %s\n"),
			 spec->lineNum, name, spec->line);
		*fieldp = ch;
		return RPMRC_FAIL;
	    }
	}
	*fieldp = ch;
    }

    /* Check whether tags of the same number haven't already been defined */
    for (p = spec->sources; p != NULL; p = p->next) {
	if ( p->num != num ) continue;
	if ((tag == RPMTAG_SOURCE && p->flags == RPMBUILD_ISSOURCE) ||
	    (tag == RPMTAG_PATCH  && p->flags == RPMBUILD_ISPATCH)) {
		rpmlog(RPMLOG_ERR, _("%s %d defined multiple times\n"), name, num);
		return RPMRC_FAIL;
	    }
    }

    /* Create the entry and link it in */
    p = xmalloc(sizeof(*p));
    p->num = num;
    p->fullSource = xstrdup(field);
    p->flags = flag;
    p->source = strrchr(p->fullSource, '/');
    if (p->source) {
	if ((buf = strrchr(p->source,'='))) p->source = buf;
	p->source++;
    } else {
	p->source = p->fullSource;
    }

    if (tag != RPMTAG_ICON) {
	p->next = spec->sources;
	spec->sources = p;
    } else {
	p->next = pkg->icon;
	pkg->icon = p;
    }

    spec->numSources++;

    if (tag != RPMTAG_ICON) {
	char *body = rpmGetPath("%{_sourcedir}/", p->source, NULL);
	struct stat st;
	int nofetch = (spec->flags & RPMSPEC_FORCE) ||
		      rpmExpandNumeric("%{_disable_source_fetch}");

	/* try to download source/patch if it's missing */
	if (lstat(body, &st) != 0 && errno == ENOENT && !nofetch) {
	    char *url = NULL;
	    if (urlIsURL(p->fullSource) != URL_IS_UNKNOWN) {
		url = rstrdup(p->fullSource);
	    } else {
		url = rpmExpand("%{_default_source_url}", NULL);
		rstrcat(&url, p->source);
		if (*url == '%') url = _free(url);
	    }
	    if (url) {
		rpmlog(RPMLOG_WARNING, _("Downloading %s to %s\n"), url, body);
		if (urlGetFile(url, body) != 0) {
		    free(url);
		    rpmlog(RPMLOG_ERR, _("Couldn't download %s\n"), p->fullSource);
		    return RPMRC_FAIL;
		}
		free(url);
	    }
	}

	rasprintf(&buf, "%s%d",
		(flag & RPMBUILD_ISPATCH) ? "PATCH" : "SOURCE", num);
	rpmPushMacro(spec->macros, buf, NULL, body, RMIL_SPEC);
	free(buf);
	rasprintf(&buf, "%sURL%d",
		(flag & RPMBUILD_ISPATCH) ? "PATCH" : "SOURCE", num);
	rpmPushMacro(spec->macros, buf, NULL, p->fullSource, RMIL_SPEC);
	free(buf);
#ifdef WITH_LUA
	{
	    rpmlua lua = NULL; /* global state */
	    const char * what = (flag & RPMBUILD_ISPATCH) ? "patches" : "sources";
	    rpmluaPushTable(lua, what);
	    rpmluav var = rpmluavNew();
	    rpmluavSetListMode(var, 1);
	    rpmluavSetValue(var, RPMLUAV_STRING, body);
	    rpmluaSetVar(lua, var);
	    rpmluavFree(var);
	    rpmluaPop(lua);
	}
#endif
	free(body);
    }
    
    return 0;
}