static PyObject *rpmtd_new(PyTypeObject *subtype,
PyObject *args, PyObject *kwds)
{
char *kwlist[] = {"tag", NULL};
PyObject *pytag;
rpmTag tag;
rpmtd td;
rpmtdObject *self = PyObject_New(rpmtdObject, subtype);
if (!PyArg_ParseTupleAndKeywords(args, kwds, "O", kwlist, &pytag))
return NULL;
tag = tagNumFromPyObject(pytag);
#ifdef DYING /* XXX with arbitrary tags, all tags are found. */
if (tag == RPMTAG_NOT_FOUND) {
PyErr_SetString(PyExc_TypeError,
"can't create container for unknown tag");
return NULL;
}
#endif
td = rpmtdNew();
td->tag = tag;
td->type = rpmTagGetType(tag) & RPM_MASK_TYPE;
self->td = td;
return (PyObject *)self;
}
rpmtd rpmtdDup(rpmtd td)
{
rpmtd newtd = NULL;
char **data = NULL;
int i;
assert(td != NULL);
/* TODO: permit other types too */
if (td->type != RPM_STRING_ARRAY_TYPE && td->type != RPM_I18NSTRING_TYPE) {
return NULL;
}
/* deep-copy container and data, drop immutable flag */
newtd = rpmtdNew();
memcpy(newtd, td, sizeof(*td));
newtd->flags &= ~(RPMTD_IMMUTABLE);
newtd->flags |= (RPMTD_ALLOCED | RPMTD_PTR_ALLOCED);
newtd->data = data = xmalloc(td->count * sizeof(*data));
while ((i = rpmtdNext(td)) >= 0) {
data[i] = xstrdup(rpmtdGetString(td));
}
return newtd;
}
/**
* This assumes the order of list matches the order of the new headers, and
* throws an exception if that isn't true.
*/
static int rpmMergeHeaders(PyObject * list, FD_t fd, int matchTag)
{
Header h;
HeaderIterator hi;
rpmTagVal newMatch, oldMatch;
hdrObject * hdr;
rpm_count_t count = 0;
int rc = 1; /* assume failure */
rpmtd td = rpmtdNew();
Py_BEGIN_ALLOW_THREADS
h = headerRead(fd, HEADER_MAGIC_YES);
Py_END_ALLOW_THREADS
while (h) {
if (!headerGet(h, matchTag, td, HEADERGET_MINMEM)) {
PyErr_SetString(pyrpmError, "match tag missing in new header");
goto exit;
}
newMatch = rpmtdTag(td);
rpmtdFreeData(td);
hdr = (hdrObject *) PyList_GetItem(list, count++);
if (!hdr) goto exit;
if (!headerGet(hdr->h, matchTag, td, HEADERGET_MINMEM)) {
PyErr_SetString(pyrpmError, "match tag missing in new header");
goto exit;
}
oldMatch = rpmtdTag(td);
rpmtdFreeData(td);
if (newMatch != oldMatch) {
PyErr_SetString(pyrpmError, "match tag mismatch");
goto exit;
}
for (hi = headerInitIterator(h); headerNext(hi, td); rpmtdFreeData(td))
{
/* could be dupes */
headerDel(hdr->h, rpmtdTag(td));
headerPut(hdr->h, td, HEADERPUT_DEFAULT);
}
headerFreeIterator(hi);
h = headerFree(h);
Py_BEGIN_ALLOW_THREADS
h = headerRead(fd, HEADER_MAGIC_YES);
Py_END_ALLOW_THREADS
}
rc = 0;
exit:
rpmtdFree(td);
return rc;
}
QueryData genRpmPackages(QueryContext& context) {
QueryData results;
auto dropper = DropPrivileges::get();
if (!dropper->dropTo("nobody") && isUserAdmin()) {
LOG(WARNING) << "Cannot drop privileges for rpm_packages";
return results;
}
// Isolate RPM/package inspection to the canonical: /usr/lib/rpm.
RpmEnvironmentManager env_manager;
// The following implementation uses http://rpm.org/api/4.11.1/
rpmInitCrypto();
if (rpmReadConfigFiles(nullptr, nullptr) != 0) {
TLOG << "Cannot read RPM configuration files";
return results;
}
rpmts ts = rpmtsCreate();
rpmdbMatchIterator matches;
if (context.constraints["name"].exists(EQUALS)) {
auto name = (*context.constraints["name"].getAll(EQUALS).begin());
matches = rpmtsInitIterator(ts, RPMTAG_NAME, name.c_str(), name.size());
} else {
matches = rpmtsInitIterator(ts, RPMTAG_NAME, nullptr, 0);
}
Header header;
while ((header = rpmdbNextIterator(matches)) != nullptr) {
Row r;
rpmtd td = rpmtdNew();
r["name"] = getRpmAttribute(header, RPMTAG_NAME, td);
r["version"] = getRpmAttribute(header, RPMTAG_VERSION, td);
r["release"] = getRpmAttribute(header, RPMTAG_RELEASE, td);
r["source"] = getRpmAttribute(header, RPMTAG_SOURCERPM, td);
r["size"] = getRpmAttribute(header, RPMTAG_SIZE, td);
r["sha1"] = getRpmAttribute(header, RPMTAG_SHA1HEADER, td);
r["arch"] = getRpmAttribute(header, RPMTAG_ARCH, td);
rpmtdFree(td);
results.push_back(r);
}
rpmdbFreeIterator(matches);
rpmtsFree(ts);
rpmFreeCrypto();
rpmFreeRpmrc();
return results;
}
/*
* Validate generated signature and insert to header if it looks sane.
* NSS doesn't support everything GPG does. Basic tests to see if the
* generated signature is something we can use.
* Return generated signature tag data on success, NULL on failure.
*/
static rpmtd makeSigTag(Header sigh, int ishdr, uint8_t *pkt, size_t pktlen)
{
pgpDigParams sigp = NULL;
rpmTagVal sigtag;
rpmtd sigtd = NULL;
unsigned int hash_algo;
unsigned int pubkey_algo;
if (pgpPrtParams(pkt, pktlen, PGPTAG_SIGNATURE, &sigp)) {
rpmlog(RPMLOG_ERR, _("Unsupported PGP signature\n"));
goto exit;
}
hash_algo = pgpDigParamsAlgo(sigp, PGPVAL_HASHALGO);
if (rpmDigestLength(hash_algo) == 0) {
rpmlog(RPMLOG_ERR, _("Unsupported PGP hash algorithm %u\n"), hash_algo);
goto exit;
}
pubkey_algo = pgpDigParamsAlgo(sigp, PGPVAL_PUBKEYALGO);
switch (pubkey_algo) {
case PGPPUBKEYALGO_DSA:
sigtag = ishdr ? RPMSIGTAG_DSA : RPMSIGTAG_GPG;
break;
case PGPPUBKEYALGO_RSA:
sigtag = ishdr ? RPMSIGTAG_RSA : RPMSIGTAG_PGP;
break;
default:
rpmlog(RPMLOG_ERR, _("Unsupported PGP pubkey algorithm %u\n"),
pubkey_algo);
goto exit;
break;
}
/* Looks sane, create the tag data */
sigtd = rpmtdNew();
sigtd->count = pktlen;
sigtd->data = memcpy(xmalloc(pktlen), pkt, pktlen);;
sigtd->type = RPM_BIN_TYPE;
sigtd->tag = sigtag;
sigtd->flags |= RPMTD_ALLOCED;
exit:
pgpDigParamsFree(sigp);
return sigtd;
}
/* make a header with _all_ the tags we need */
static PyObject * hdrFullFilelist(hdrObject * s)
{
rpmtd fileNames = rpmtdNew();
Header h = s->h;
DEPRECATED_METHOD("obsolete method");
if (!headerIsEntry (h, RPMTAG_BASENAMES)
|| !headerIsEntry (h, RPMTAG_DIRNAMES)
|| !headerIsEntry (h, RPMTAG_DIRINDEXES))
headerConvert(h, HEADERCONV_COMPRESSFILELIST);
if (headerGet(h, RPMTAG_FILENAMES, fileNames, HEADERGET_EXT)) {
rpmtdSetTag(fileNames, RPMTAG_OLDFILENAMES);
headerPut(h, fileNames, HEADERPUT_DEFAULT);
rpmtdFreeData(fileNames);
}
rpmtdFree(fileNames);
Py_RETURN_NONE;
}
QueryData genRpmPackages(QueryContext& context) {
QueryData results;
// The following implementation uses http://rpm.org/api/4.11.1/
rpmInitCrypto();
if (rpmReadConfigFiles(nullptr, nullptr) != 0) {
TLOG << "Cannot read RPM configuration files.";
return results;
}
rpmts ts = rpmtsCreate();
rpmdbMatchIterator matches;
if (context.constraints["name"].exists()) {
auto name = (*context.constraints["name"].getAll(EQUALS).begin());
matches = rpmtsInitIterator(ts, RPMTAG_NAME, name.c_str(), name.size());
} else {
matches = rpmtsInitIterator(ts, RPMTAG_NAME, nullptr, 0);
}
Header header;
while ((header = rpmdbNextIterator(matches)) != nullptr) {
Row r;
rpmtd td = rpmtdNew();
r["name"] = getRpmAttribute(header, RPMTAG_NAME, td);
r["version"] = getRpmAttribute(header, RPMTAG_VERSION, td);
r["release"] = getRpmAttribute(header, RPMTAG_RELEASE, td);
r["source"] = getRpmAttribute(header, RPMTAG_SOURCERPM, td);
r["size"] = getRpmAttribute(header, RPMTAG_SIZE, td);
r["sha1"] = getRpmAttribute(header, RPMTAG_SHA1HEADER, td);
r["arch"] = getRpmAttribute(header, RPMTAG_ARCH, td);
rpmtdFree(td);
results.push_back(r);
}
rpmdbFreeIterator(matches);
rpmtsFree(ts);
rpmFreeCrypto();
rpmFreeRpmrc();
return results;
}
/*
* Add rpm tag dictionaries to the module
*/
static void addRpmTags(PyObject *module)
{
PyObject *pyval, *pyname, *dict = PyDict_New();
rpmtd names = rpmtdNew();
rpmTagGetNames(names, 1);
const char *tagname, *shortname;
rpmTagVal tagval;
while ((tagname = rpmtdNextString(names))) {
shortname = tagname + strlen("RPMTAG_");
tagval = rpmTagGetValue(shortname);
PyModule_AddIntConstant(module, tagname, tagval);
pyval = PyInt_FromLong(tagval);
pyname = Py_BuildValue("s", shortname);
PyDict_SetItem(dict, pyval, pyname);
Py_DECREF(pyval);
Py_DECREF(pyname);
}
PyModule_AddObject(module, "tagnames", dict);
rpmtdFreeData(names);
rpmtdFree(names);
}
/*
* Add rpm tag dictionaries to the module
*/
static void addRpmTags(PyObject *module)
{
PyObject * dict = PyDict_New();
#ifdef NOTYET
PyObject *pyval, *pyname;
rpmtd names = rpmtdNew();
rpmTagGetNames(names, 1);
const char *tagname, *shortname;
rpmTag tagval;
while ((tagname = rpmtdNextString(names))) {
shortname = tagname + strlen("RPMTAG_");
tagval = rpmTagGetValue(shortname);
PyModule_AddIntConstant(module, tagname, tagval);
pyval = PyInt_FromLong(tagval);
pyname = PyString_FromString(shortname);
PyDict_SetItem(dict, pyval, pyname);
Py_XDECREF(pyval);
Py_XDECREF(pyname);
}
PyModule_AddObject(module, "tagnames", dict);
rpmtdFreeData(names);
rpmtdFree(names);
#else
PyObject * d = PyModule_GetDict(module);
PyObject * o;
{ const struct headerTagTableEntry_s * t;
PyObject * to;
for (t = rpmTagTable; t && t->name; t++) {
PyDict_SetItemString(d, (char *) t->name, to=PyInt_FromLong(t->val));
Py_XDECREF(to);
PyDict_SetItem(dict, to, o=PyString_FromString(t->name + 7));
Py_XDECREF(o);
}
}
{ headerSprintfExtension exts = rpmHeaderFormats;
headerSprintfExtension ext;
PyObject * to;
int extNum;
for (ext = exts, extNum = 0; ext != NULL && ext->type != HEADER_EXT_LAST;
ext = (ext->type == HEADER_EXT_MORE ? *ext->u.more : ext+1), extNum++)
{
if (ext->name == NULL || ext->type != HEADER_EXT_TAG)
continue;
PyDict_SetItemString(d, (char *) ext->name, to=PyCObject_FromVoidPtr((void *)ext, NULL));
Py_XDECREF(to);
PyDict_SetItem(dict, to, o=PyString_FromString(ext->name + 7));
Py_XDECREF(o);
}
}
PyDict_SetItemString(d, "tagnames", dict);
Py_XDECREF(dict);
#endif
}
cr_Package *
cr_package_from_header(Header hdr,
int changelog_limit,
cr_HeaderReadingFlags hdrrflags,
G_GNUC_UNUSED GError **err)
{
cr_Package *pkg;
assert(hdr);
assert(!err || *err == NULL);
// Create new package structure
pkg = cr_package_new();
pkg->loadingflags |= CR_PACKAGE_FROM_HEADER;
pkg->loadingflags |= CR_PACKAGE_LOADED_PRI;
pkg->loadingflags |= CR_PACKAGE_LOADED_FIL;
pkg->loadingflags |= CR_PACKAGE_LOADED_OTH;
// Create rpm tag data container
rpmtd td = rpmtdNew();
headerGetFlags flags = HEADERGET_MINMEM | HEADERGET_EXT;
// Fill package structure
pkg->name = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_NAME));
gint64 is_src = headerGetNumber(hdr, RPMTAG_SOURCEPACKAGE);
if (is_src) {
pkg->arch = cr_safe_string_chunk_insert(pkg->chunk, "src");
} else {
pkg->arch = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_ARCH));
}
pkg->version = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_VERSION));
#define MAX_STR_INT_LEN 24
char tmp_epoch[MAX_STR_INT_LEN];
if (snprintf(tmp_epoch, MAX_STR_INT_LEN, "%llu", (long long unsigned int) headerGetNumber(hdr, RPMTAG_EPOCH)) <= 0) {
tmp_epoch[0] = '\0';
}
pkg->epoch = g_string_chunk_insert_len(pkg->chunk, tmp_epoch, MAX_STR_INT_LEN);
pkg->release = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_RELEASE));
pkg->summary = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_SUMMARY));
pkg->description = cr_safe_string_chunk_insert_null(pkg->chunk, headerGetString(hdr, RPMTAG_DESCRIPTION));
pkg->url = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_URL));
if (headerGet(hdr, RPMTAG_BUILDTIME, td, flags)) {
pkg->time_build = rpmtdGetNumber(td);
}
pkg->rpm_license = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_LICENSE));
pkg->rpm_vendor = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_VENDOR));
pkg->rpm_group = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_GROUP));
pkg->rpm_buildhost = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_BUILDHOST));
pkg->rpm_sourcerpm = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_SOURCERPM));
pkg->rpm_packager = cr_safe_string_chunk_insert(pkg->chunk, headerGetString(hdr, RPMTAG_PACKAGER));
if (headerGet(hdr, RPMTAG_SIZE, td, flags)) {
pkg->size_installed = rpmtdGetNumber(td);
}
if (headerGet(hdr, RPMTAG_ARCHIVESIZE, td, flags)) {
pkg->size_archive = rpmtdGetNumber(td);
}
rpmtdFreeData(td);
rpmtdFree(td);
//
// Fill files
//
rpmtd full_filenames = rpmtdNew(); // Only for filenames_hashtable
rpmtd indexes = rpmtdNew();
rpmtd filenames = rpmtdNew();
rpmtd fileflags = rpmtdNew();
rpmtd filemodes = rpmtdNew();
GHashTable *filenames_hashtable = g_hash_table_new(g_str_hash, g_str_equal);
rpmtd dirnames = rpmtdNew();
// Create list of pointer to directory names
int dir_count;
char **dir_list = NULL;
if (headerGet(hdr, RPMTAG_DIRNAMES, dirnames, flags) && (dir_count = rpmtdCount(dirnames))) {
int x = 0;
dir_list = malloc(sizeof(char *) * dir_count);
while (rpmtdNext(dirnames) != -1) {
dir_list[x] = cr_safe_string_chunk_insert(pkg->chunk, rpmtdGetString(dirnames));
x++;
}
assert(x == dir_count);
}
if (headerGet(hdr, RPMTAG_FILENAMES, full_filenames, flags) &&
headerGet(hdr, RPMTAG_DIRINDEXES, indexes, flags) &&
headerGet(hdr, RPMTAG_BASENAMES, filenames, flags) &&
headerGet(hdr, RPMTAG_FILEFLAGS, fileflags, flags) &&
headerGet(hdr, RPMTAG_FILEMODES, filemodes, flags))
{
rpmtdInit(full_filenames);
rpmtdInit(indexes);
rpmtdInit(filenames);
rpmtdInit(fileflags);
rpmtdInit(filemodes);
while ((rpmtdNext(full_filenames) != -1) &&
(rpmtdNext(indexes) != -1) &&
(rpmtdNext(filenames) != -1) &&
(rpmtdNext(fileflags) != -1) &&
(rpmtdNext(filemodes) != -1))
{
cr_PackageFile *packagefile = cr_package_file_new();
packagefile->name = cr_safe_string_chunk_insert(pkg->chunk,
rpmtdGetString(filenames));
packagefile->path = (dir_list) ? dir_list[(int) rpmtdGetNumber(indexes)] : "";
if (S_ISDIR(rpmtdGetNumber(filemodes))) {
// Directory
packagefile->type = cr_safe_string_chunk_insert(pkg->chunk, "dir");
} else if (rpmtdGetNumber(fileflags) & RPMFILE_GHOST) {
// Ghost
packagefile->type = cr_safe_string_chunk_insert(pkg->chunk, "ghost");
} else {
// Regular file
packagefile->type = cr_safe_string_chunk_insert(pkg->chunk, "");
}
g_hash_table_replace(filenames_hashtable,
(gpointer) rpmtdGetString(full_filenames),
(gpointer) rpmtdGetString(full_filenames));
pkg->files = g_slist_prepend(pkg->files, packagefile);
}
pkg->files = g_slist_reverse (pkg->files);
rpmtdFreeData(dirnames);
rpmtdFreeData(indexes);
rpmtdFreeData(filenames);
rpmtdFreeData(fileflags);
rpmtdFreeData(filemodes);
}
rpmtdFree(dirnames);
rpmtdFree(indexes);
rpmtdFree(filemodes);
if (dir_list) {
free((void *) dir_list);
}
//
// PCOR (provides, conflicts, obsoletes, requires)
//
rpmtd fileversions = rpmtdNew();
// Struct used as value in ap_hashtable
struct ap_value_struct {
const char *flags;
const char *version;
int pre;
};
// Hastable with filenames from provided
GHashTable *provided_hashtable = g_hash_table_new(g_str_hash, g_str_equal);
// Hashtable with already processed files from requires
GHashTable *ap_hashtable = g_hash_table_new_full(g_str_hash,
g_str_equal,
NULL,
free);
for (int deptype=0; dep_items[deptype].type != DEP_SENTINEL; deptype++) {
if (headerGet(hdr, dep_items[deptype].nametag, filenames, flags) &&
headerGet(hdr, dep_items[deptype].flagstag, fileflags, flags) &&
headerGet(hdr, dep_items[deptype].versiontag, fileversions, flags))
{
// Because we have to select only libc.so with highest version
// e.g. libc.so.6(GLIBC_2.4)
cr_Dependency *libc_require_highest = NULL;
rpmtdInit(filenames);
rpmtdInit(fileflags);
rpmtdInit(fileversions);
while ((rpmtdNext(filenames) != -1) &&
(rpmtdNext(fileflags) != -1) &&
(rpmtdNext(fileversions) != -1))
{
int pre = 0;
const char *filename = rpmtdGetString(filenames);
guint64 num_flags = rpmtdGetNumber(fileflags);
const char *flags = cr_flag_to_str(num_flags);
const char *full_version = rpmtdGetString(fileversions);
// Requires specific stuff
if (deptype == DEP_REQUIRES) {
// Skip requires which start with "rpmlib("
if (!strncmp("rpmlib(", filename, 7)) {
continue;
}
// Skip package primary files
if (g_hash_table_lookup_extended(filenames_hashtable, filename, NULL, NULL)) {
if (cr_is_primary(filename)) {
continue;
}
}
// Skip files which are provided
if (g_hash_table_lookup_extended(provided_hashtable, filename, NULL, NULL)) {
continue;
}
// Calculate pre value
if (num_flags & (RPMSENSE_PREREQ |
RPMSENSE_SCRIPT_PRE |
RPMSENSE_SCRIPT_POST))
{
pre = 1;
}
// Skip duplicate files
gpointer value;
if (g_hash_table_lookup_extended(ap_hashtable, filename, NULL, &value)) {
struct ap_value_struct *ap_value = value;
if (!g_strcmp0(ap_value->flags, flags) &&
!strcmp(ap_value->version, full_version) &&
(ap_value->pre == pre))
{
continue;
}
}
}
// Parse dep string
cr_EVR *evr = cr_str_to_evr(full_version, pkg->chunk);
if ((full_version && *full_version) && !evr->epoch) {
// NULL in epoch mean that the epoch was bad (non-numerical)
_cleanup_free_ gchar *pkg_nevra = cr_package_nevra(pkg);
g_warning("Bad epoch in version string \"%s\" for dependency \"%s\" in package \"%s\"",
full_version, filename, pkg_nevra);
g_warning("Skipping this dependency");
g_free(evr);
continue;
}
// Create dynamic dependency object
cr_Dependency *dependency = cr_dependency_new();
dependency->name = cr_safe_string_chunk_insert(pkg->chunk, filename);
dependency->flags = cr_safe_string_chunk_insert(pkg->chunk, flags);
dependency->epoch = evr->epoch;
dependency->version = evr->version;
dependency->release = evr->release;
g_free(evr);
switch (deptype) {
case DEP_PROVIDES:
g_hash_table_replace(provided_hashtable, dependency->name, dependency->name);
pkg->provides = g_slist_prepend(pkg->provides, dependency);
break;
case DEP_CONFLICTS:
pkg->conflicts = g_slist_prepend(pkg->conflicts, dependency);
break;
case DEP_OBSOLETES:
pkg->obsoletes = g_slist_prepend(pkg->obsoletes, dependency);
break;
case DEP_REQUIRES:
dependency->pre = pre;
// XXX: libc.so filtering ////////////////////////////
if (g_str_has_prefix(dependency->name, "libc.so.6")) {
if (!libc_require_highest)
libc_require_highest = dependency;
else {
if (cr_compare_dependency(libc_require_highest->name,
dependency->name) == 2)
{
g_free(libc_require_highest);
libc_require_highest = dependency;
} else
g_free(dependency);
}
break;
}
// XXX: libc.so filtering - END ///////////////////////
pkg->requires = g_slist_prepend(pkg->requires, dependency);
// Add file into ap_hashtable
struct ap_value_struct *value = malloc(sizeof(struct ap_value_struct));
value->flags = flags;
value->version = full_version;
value->pre = dependency->pre;
g_hash_table_replace(ap_hashtable, dependency->name, value);
break; //case REQUIRES end
case DEP_SUGGESTS:
pkg->suggests = g_slist_prepend(pkg->suggests, dependency);
break;
case DEP_ENHANCES:
pkg->enhances = g_slist_prepend(pkg->enhances, dependency);
break;
case DEP_RECOMMENDS:
pkg->recommends = g_slist_prepend(pkg->recommends, dependency);
break;
case DEP_SUPPLEMENTS:
pkg->supplements = g_slist_prepend(pkg->supplements, dependency);
break;
#ifdef ENABLE_LEGACY_WEAKDEPS
case DEP_OLDSUGGESTS:
if ( num_flags & RPMSENSE_STRONG ) {
pkg->recommends = g_slist_prepend(pkg->recommends, dependency);
} else {
pkg->suggests = g_slist_prepend(pkg->suggests, dependency);
}
break;
case DEP_OLDENHANCES:
if ( num_flags & RPMSENSE_STRONG ) {
pkg->supplements = g_slist_prepend(pkg->supplements, dependency);
} else {
pkg->enhances = g_slist_prepend(pkg->enhances, dependency);
}
break;
#endif
} // Switch end
} // While end
// XXX: libc.so filtering ////////////////////////////////
if (deptype == DEP_REQUIRES && libc_require_highest)
pkg->requires = g_slist_prepend(pkg->requires, libc_require_highest);
// XXX: libc.so filtering - END ////////////////////////////////
}
rpmtdFreeData(filenames);
rpmtdFreeData(fileflags);
rpmtdFreeData(fileversions);
}
pkg->provides = g_slist_reverse (pkg->provides);
pkg->conflicts = g_slist_reverse (pkg->conflicts);
pkg->obsoletes = g_slist_reverse (pkg->obsoletes);
pkg->requires = g_slist_reverse (pkg->requires);
pkg->suggests = g_slist_reverse (pkg->suggests);
pkg->enhances = g_slist_reverse (pkg->enhances);
pkg->recommends = g_slist_reverse (pkg->recommends);
pkg->supplements = g_slist_reverse (pkg->supplements);
g_hash_table_remove_all(filenames_hashtable);
g_hash_table_remove_all(provided_hashtable);
g_hash_table_remove_all(ap_hashtable);
g_hash_table_unref(filenames_hashtable);
g_hash_table_unref(provided_hashtable);
g_hash_table_unref(ap_hashtable);
rpmtdFree(filenames);
rpmtdFree(fileflags);
rpmtdFree(fileversions);
rpmtdFreeData(full_filenames);
rpmtdFree(full_filenames);
//
// Changelogs
//
rpmtd changelogtimes = rpmtdNew();
rpmtd changelognames = rpmtdNew();
rpmtd changelogtexts = rpmtdNew();
if (headerGet(hdr, RPMTAG_CHANGELOGTIME, changelogtimes, flags) &&
headerGet(hdr, RPMTAG_CHANGELOGNAME, changelognames, flags) &&
headerGet(hdr, RPMTAG_CHANGELOGTEXT, changelogtexts, flags))
{
gint64 last_time = G_GINT64_CONSTANT(0);
rpmtdInit(changelogtimes);
rpmtdInit(changelognames);
rpmtdInit(changelogtexts);
while ((rpmtdNext(changelogtimes) != -1) &&
(rpmtdNext(changelognames) != -1) &&
(rpmtdNext(changelogtexts) != -1) &&
(changelog_limit > 0 || changelog_limit == -1))
{
gint64 time = rpmtdGetNumber(changelogtimes);
cr_ChangelogEntry *changelog = cr_changelog_entry_new();
changelog->author = cr_safe_string_chunk_insert(pkg->chunk,
rpmtdGetString(changelognames));
changelog->date = time;
changelog->changelog = cr_safe_string_chunk_insert(pkg->chunk,
rpmtdGetString(changelogtexts));
// Remove space from end of author name
if (changelog->author) {
size_t len, x;
len = strlen(changelog->author);
for (x=(len-1); x > 0; x--) {
if (changelog->author[x] == ' ') {
changelog->author[x] = '\0';
} else {
break;
}
}
}
pkg->changelogs = g_slist_prepend(pkg->changelogs, changelog);
if (changelog_limit != -1)
changelog_limit--;
// If a previous entry has the same time, increment time of the previous
// entry by one. Ugly but works!
if (last_time == time) {
int tmp_time = time;
GSList *previous = pkg->changelogs;
while ((previous = g_slist_next(previous)) != NULL &&
((cr_ChangelogEntry *) (previous->data))->date == tmp_time) {
((cr_ChangelogEntry *) (previous->data))->date++;
tmp_time++;
}
} else {
last_time = time;
}
}
//pkg->changelogs = g_slist_reverse (pkg->changelogs);
}
rpmtdFreeData(changelogtimes);
rpmtdFreeData(changelognames);
rpmtdFreeData(changelogtexts);
rpmtdFree(changelogtimes);
rpmtdFree(changelognames);
rpmtdFree(changelogtexts);
//
// Keys and hdrid (data used for caching when the --cachedir is specified)
//
if (hdrrflags & CR_HDRR_LOADHDRID)
pkg->hdrid = cr_safe_string_chunk_insert(pkg->chunk,
headerGetString(hdr, RPMTAG_HDRID));
if (hdrrflags & CR_HDRR_LOADSIGNATURES) {
rpmtd gpgtd = rpmtdNew();
rpmtd pgptd = rpmtdNew();
if (headerGet(hdr, RPMTAG_SIGGPG, gpgtd, hdrrflags)
&& gpgtd->count > 0)
{
pkg->siggpg = cr_binary_data_new();
pkg->siggpg->size = gpgtd->count;
pkg->siggpg->data = g_string_chunk_insert_len(pkg->chunk,
gpgtd->data,
gpgtd->count);
}
if (headerGet(hdr, RPMTAG_SIGPGP, pgptd, hdrrflags)
&& pgptd->count > 0)
{
pkg->sigpgp = cr_binary_data_new();
pkg->sigpgp->size = pgptd->count;
pkg->sigpgp->data = g_string_chunk_insert_len(pkg->chunk,
pgptd->data,
pgptd->count);
}
rpmtdFree(gpgtd);
rpmtdFree(pgptd);
}
return pkg;
}
/**
* dnf_keyring_check_untrusted_file:
*/
gboolean
dnf_keyring_check_untrusted_file(rpmKeyring keyring,
const gchar *filename,
GError **error)
{
FD_t fd = NULL;
gboolean ret = FALSE;
Header hdr = NULL;
pgpDig dig = NULL;
rpmRC rc;
rpmtd td = NULL;
rpmts ts = NULL;
/* open the file for reading */
fd = Fopen(filename, "r.fdio");
if (fd == NULL) {
g_set_error(error,
DNF_ERROR,
DNF_ERROR_FILE_INVALID,
"failed to open %s",
filename);
goto out;
}
if (Ferror(fd)) {
g_set_error(error,
DNF_ERROR,
DNF_ERROR_FILE_INVALID,
"failed to open %s: %s",
filename,
Fstrerror(fd));
goto out;
}
/* we don't want to abort on missing keys */
ts = rpmtsCreate();
rpmtsSetVSFlags(ts, _RPMVSF_NOSIGNATURES);
/* read in the file */
rc = rpmReadPackageFile(ts, fd, filename, &hdr);
if (rc != RPMRC_OK) {
/* we only return SHA1 and MD5 failures, as we're not
* checking signatures at this stage */
g_set_error(error,
DNF_ERROR,
DNF_ERROR_FILE_INVALID,
"%s could not be verified",
filename);
goto out;
}
/* convert and upscale */
headerConvert(hdr, HEADERCONV_RETROFIT_V3);
/* get RSA key */
td = rpmtdNew();
rc = headerGet(hdr,
RPMTAG_RSAHEADER,
td,
HEADERGET_MINMEM);
if (rc != 1) {
/* try to read DSA key as a fallback */
rc = headerGet(hdr,
RPMTAG_DSAHEADER,
td,
HEADERGET_MINMEM);
}
/* the package has no signing key */
if (rc != 1) {
g_autofree char *package_filename = g_path_get_basename(filename);
ret = FALSE;
g_set_error(error,
DNF_ERROR,
DNF_ERROR_GPG_SIGNATURE_INVALID,
"package not signed: %s", package_filename);
goto out;
}
/* make it into a digest */
dig = pgpNewDig();
rc = pgpPrtPkts(td->data, td->count, dig, 0);
if (rc != 0) {
g_set_error(error,
DNF_ERROR,
DNF_ERROR_FILE_INVALID,
"failed to parse digest header for %s",
filename);
goto out;
}
/* does the key exist in the keyring */
rc = rpmKeyringLookup(keyring, dig);
if (rc != RPMRC_OK) {
g_set_error(error,
DNF_ERROR,
DNF_ERROR_GPG_SIGNATURE_INVALID,
"failed to lookup digest in keyring for %s",
filename);
goto out;
}
/* the package is signed by a key we trust */
g_debug("%s has been verified as trusted", filename);
ret = TRUE;
out:
if (dig != NULL)
pgpFreeDig(dig);
if (td != NULL) {
rpmtdFreeData(td);
rpmtdFree(td);
}
if (ts != NULL)
rpmtsFree(ts);
if (hdr != NULL)
headerFree(hdr);
if (fd != NULL)
Fclose(fd);
return ret;
}
/*
* Create a spec file object from a spec file
* @param [String] filename Spec file path
* @return [Spec]
*/
static VALUE
spec_s_open(VALUE klass, VALUE filename)
{
#if RPM_VERSION_CODE < RPM_VERSION(4,1,0)
Spec rspec;
#else
rpmts ts = NULL;
#endif
if (TYPE(filename) != T_STRING) {
rb_raise(rb_eTypeError, "illegal argument type");
}
#if RPM_VERSION_CODE < RPM_VERSION(4,1,0)
switch (parseSpec(&rspec, RSTRING_PTR(filename), "/", NULL, 0, "", NULL, 1, 1)) {
case 0:
if (rspec != NULL) {
break;
}
default:
rb_raise(rb_eRuntimeError, "specfile `%s' parsing failed", RSTRING_PTR(filename));
}
return Data_Wrap_Struct(klass, NULL, spec_free, rspec);
#else
ts = rpmtsCreate();
#if RPM_VERSION_CODE < RPM_VERSION(4,4,8)
switch (parseSpec(ts, RSTRING_PTR(filename), "/", NULL, 0, "", NULL, 1, 1)) {
#elif RPM_VERSION_CODE < RPM_VERSION(4,5,90)
switch (parseSpec(ts, RSTRING_PTR(filename), "/", 0, "", NULL, 1, 1, 0)) {
#elif RPM_VERSION_CODE < RPM_VERSION(5,0,0)
switch (parseSpec(ts, RSTRING_PTR(filename), "/", NULL, 0, "", NULL, 1, 1)) {
#else
switch (parseSpec(ts, RSTRING_PTR(filename), "/", 0, "", NULL, 1, 1, 0)) {
#endif
case 0:
if (ts != NULL) {
break;
}
default:
rb_raise(rb_eRuntimeError, "specfile `%s' parsing failed", RSTRING_PTR(filename));
}
return Data_Wrap_Struct(klass, NULL, ts_free, ts);
#endif
}
/*
*
* Alias for Spec#open
*/
VALUE
rpm_spec_open(const char* filename)
{
return spec_s_open(rpm_cSpec, rb_str_new2(filename));
}
/*
* @return [String] Return Build root defined in the spec file
*/
VALUE
rpm_spec_get_buildroot(VALUE spec)
{
#if RPM_VERSION_CODE < RPM_VERSION(4,5,90)
if (RPM_SPEC(spec)->buildRootURL) {
return rb_str_new2(RPM_SPEC(spec)->buildRootURL);
}
#elif RPM_VERSION_CODE < RPM_VERSION(4,5,90)
if (RPM_SPEC(spec)->rootURL) {
return rb_str_new2(RPM_SPEC(spec)->rootURL);
}
#elif RPM_VERSION_CODE < RPM_VERSION(5,0,0)
if (RPM_SPEC(spec)->buildRoot) {
return rb_str_new2(RPM_SPEC(spec)->buildRoot);
}
#else
const char *buildRootURL = rpmGenPath(RPM_SPEC(spec)->rootURL, "%{?buildroot}", NULL);
VALUE result = rb_str_new2(buildRootURL);
buildRootURL = _free(buildRootURL);
return result;
#endif
return Qnil;
}
/*
* @return [String] Return Build subdirectory defined in the spec file
*/
VALUE
rpm_spec_get_buildsubdir(VALUE spec)
{
if (RPM_SPEC(spec)->buildSubdir) {
return rb_str_new2(RPM_SPEC(spec)->buildSubdir);
}
return Qnil;
}
/*
* @return [Array<String>] Return Build architectures defined in the spec file
*/
VALUE
rpm_spec_get_buildarchs(VALUE spec)
{
VALUE ba = rb_ivar_get(spec, id_ba);
if (NIL_P(ba)) {
register int i;
ba = rb_ary_new();
for (i = 0; i < RPM_SPEC(spec)->BACount; i++) {
rb_ary_push(ba, rb_str_new2(RPM_SPEC(spec)->BANames[i]));
}
rb_ivar_set(spec, id_ba, ba);
}
return ba;
}
/*
* @return [Array<RPM::Require>] Return Build requires defined in the spec file
*/
VALUE
rpm_spec_get_buildrequires(VALUE spec)
{
VALUE br = rb_ivar_get(spec, id_br);
#if RPM_VERSION_CODE < RPM_VERSION(4,6,0) || RPM_VERSION_CODE >= RPM_VERSION(5,0,0)
if (NIL_P(br)) {
const char** names;
const char** vers;
int_32* flags;
int_32 count;
rpmTagType nt, vt, type;
register int i;
br = rb_ary_new();
if (!headerGetEntryMinMemory(RPM_SPEC(spec)->buildRestrictions,
RPMTAG_REQUIRENAME, (hTYP_t)&nt,
(hPTR_t*)&names, (hCNT_t)&count)) {
goto leave;
}
get_entry(RPM_SPEC(spec)->buildRestrictions, RPMTAG_REQUIREVERSION,
&vt, (void*)&vers);
get_entry(RPM_SPEC(spec)->buildRestrictions, RPMTAG_REQUIREFLAGS,
&type, (void*)&flags);
for (i = 0; i < count; i++) {
rb_ary_push(br, rpm_require_new(names[i], rpm_version_new(vers[i]),
flags[i], spec));
}
release_entry(nt, names);
release_entry(vt, vers);
rb_ivar_set(spec, id_br, br);
}
leave:
return br;
#else
rpmtd nametd = rpmtdNew();
rpmtd versiontd = rpmtdNew();
rpmtd flagtd = rpmtdNew();
if (NIL_P(br)) {
br = rb_ary_new();
if (!headerGet(RPM_SPEC(spec)->buildRestrictions,
RPMTAG_REQUIRENAME, nametd, HEADERGET_MINMEM)) {
goto leave;
}
get_entry(RPM_SPEC(spec)->buildRestrictions, RPMTAG_REQUIREVERSION,
versiontd);
get_entry(RPM_SPEC(spec)->buildRestrictions, RPMTAG_REQUIREFLAGS,
flagtd);
rpmtdInit(nametd);
while ( rpmtdNext(nametd) != -1 ) {
rb_ary_push(br, rpm_require_new(rpmtdGetString(nametd), rpm_version_new(rpmtdNextString(versiontd)), *rpmtdNextUint32(flagtd), spec));
}
rb_ivar_set(spec, id_br, br);
}
leave:
rpmtdFree(nametd);
rpmtdFree(versiontd);
rpmtdFree(flagtd);
return br;
#endif
}
/*
* @return [Array<RPM::Conflict>] Return Build conflicts defined in the spec file
*/
VALUE
rpm_spec_get_buildconflicts(VALUE spec)
{
VALUE bc = rb_ivar_get(spec, id_bc);
#if RPM_VERSION_CODE < RPM_VERSION(4,6,0) || RPM_VERSION_CODE >= RPM_VERSION(5,0,0)
if (NIL_P(bc)) {
const char** names;
const char** vers;
int_32* flags;
int_32 count;
rpmTagType nt, vt, type;
register int i;
bc = rb_ary_new();
if (!headerGetEntryMinMemory(RPM_SPEC(spec)->buildRestrictions,
RPMTAG_CONFLICTNAME, (hTYP_t)&nt,
(hPTR_t*)&names, (hCNT_t)&count)) {
goto leave;
}
get_entry(RPM_SPEC(spec)->buildRestrictions, RPMTAG_CONFLICTVERSION,
&vt, (void*)&vers);
get_entry(RPM_SPEC(spec)->buildRestrictions, RPMTAG_CONFLICTFLAGS,
&type, (void*)&flags);
for (i = 0; i < count; i++) {
rb_ary_push(bc, rpm_conflict_new(names[i], rpm_version_new(vers[i]),
flags[i], spec));
}
release_entry(nt, names);
release_entry(vt, vers);
rb_ivar_set(spec, id_bc, bc);
}
leave:
return bc;
#else
rpmtd nametd = rpmtdNew();
rpmtd versiontd = rpmtdNew();
rpmtd flagtd = rpmtdNew();
if (NIL_P(bc)) {
bc = rb_ary_new();
if (!headerGet(RPM_SPEC(spec)->buildRestrictions,
RPMTAG_CONFLICTNAME, nametd, HEADERGET_MINMEM)) {
goto leave;
}
get_entry(RPM_SPEC(spec)->buildRestrictions, RPMTAG_CONFLICTVERSION,
versiontd);
get_entry(RPM_SPEC(spec)->buildRestrictions, RPMTAG_CONFLICTFLAGS,
flagtd);
rpmtdInit(nametd);
while ( rpmtdNext(nametd) != -1) {
rb_ary_push(bc, rpm_conflict_new(rpmtdGetString(nametd), rpm_version_new(rpmtdNextString(versiontd)), *rpmtdNextUint32(flagtd), spec));
}
rb_ivar_set(spec, id_bc, bc);
}
leave:
rpmtdFree(nametd);
rpmtdFree(versiontd);
rpmtdFree(flagtd);
return bc;
#endif
}
void genRpmPackageFiles(RowYield& yield, QueryContext& context) {
auto dropper = DropPrivileges::get();
if (!dropper->dropTo("nobody") && isUserAdmin()) {
LOG(WARNING) << "Cannot drop privileges for rpm_package_files";
return;
}
// Isolate RPM/package inspection to the canonical: /usr/lib/rpm.
RpmEnvironmentManager env_manager;
if (rpmReadConfigFiles(nullptr, nullptr) != 0) {
TLOG << "Cannot read RPM configuration files";
return;
}
rpmts ts = rpmtsCreate();
rpmdbMatchIterator matches;
if (context.constraints["package"].exists(EQUALS)) {
auto name = (*context.constraints["package"].getAll(EQUALS).begin());
matches = rpmtsInitIterator(ts, RPMTAG_NAME, name.c_str(), name.size());
} else {
matches = rpmtsInitIterator(ts, RPMTAG_NAME, nullptr, 0);
}
Header header;
while ((header = rpmdbNextIterator(matches)) != nullptr) {
rpmtd td = rpmtdNew();
rpmfi fi = rpmfiNew(ts, header, RPMTAG_BASENAMES, RPMFI_NOHEADER);
std::string package_name = getRpmAttribute(header, RPMTAG_NAME, td);
auto file_count = rpmfiFC(fi);
if (file_count <= 0) {
VLOG(1) << "RPM package " << package_name << " contains 0 files";
rpmfiFree(fi);
continue;
} else if (file_count > MAX_RPM_FILES) {
VLOG(1) << "RPM package " << package_name << " contains over "
<< MAX_RPM_FILES << " files";
rpmfiFree(fi);
continue;
}
// Iterate over every file in this package.
for (size_t i = 0; rpmfiNext(fi) >= 0 && i < file_count; i++) {
Row r;
auto path = rpmfiFN(fi);
r["package"] = package_name;
r["path"] = (path != nullptr) ? path : "";
auto username = rpmfiFUser(fi);
r["username"] = (username != nullptr) ? username : "";
auto groupname = rpmfiFGroup(fi);
r["groupname"] = (groupname != nullptr) ? groupname : "";
r["mode"] = lsperms(rpmfiFMode(fi));
r["size"] = BIGINT(rpmfiFSize(fi));
int digest_algo;
auto digest = rpmfiFDigestHex(fi, &digest_algo);
if (digest_algo == PGPHASHALGO_SHA256) {
r["sha256"] = (digest != nullptr) ? digest : "";
}
yield(r);
}
rpmfiFree(fi);
rpmtdFree(td);
}
rpmdbFreeIterator(matches);
rpmtsFree(ts);
rpmFreeRpmrc();
}
void init_rpm(void)
{
PyObject * d, *o, *tag = NULL, *dict, *m;
#if Py_TPFLAGS_HAVE_ITER /* XXX backport to python-1.5.2 */
if (PyType_Ready(&hdr_Type) < 0) return;
if (PyType_Ready(&rpmal_Type) < 0) return;
if (PyType_Ready(&rpmds_Type) < 0) return;
if (PyType_Ready(&rpmfd_Type) < 0) return;
if (PyType_Ready(&rpmfi_Type) < 0) return;
if (PyType_Ready(&rpmmi_Type) < 0) return;
if (PyType_Ready(&rpmps_Type) < 0) return;
if (PyType_Ready(&rpmte_Type) < 0) return;
if (PyType_Ready(&rpmts_Type) < 0) return;
if (PyType_Ready(&spec_Type) < 0) return;
#endif
m = Py_InitModule3("_rpm", rpmModuleMethods, rpm__doc__);
if (m == NULL)
return;
/*
* treat error to register rpm cleanup hook as fatal, tracebacks
* can and will leave stale locks around if we can't clean up
*/
if (Py_AtExit(rpm_exithook) == -1)
return;
rpmReadConfigFiles(NULL, NULL);
d = PyModule_GetDict(m);
#ifdef HACK
pyrpmError = PyString_FromString("_rpm.error");
PyDict_SetItemString(d, "error", pyrpmError);
Py_DECREF(pyrpmError);
#else
pyrpmError = PyErr_NewException("_rpm.error", NULL, NULL);
if (pyrpmError != NULL)
PyDict_SetItemString(d, "error", pyrpmError);
#endif
#if Py_TPFLAGS_HAVE_ITER /* XXX backport to python-1.5.2 */
Py_INCREF(&hdr_Type);
PyModule_AddObject(m, "hdr", (PyObject *) &hdr_Type);
Py_INCREF(&rpmal_Type);
PyModule_AddObject(m, "al", (PyObject *) &rpmal_Type);
Py_INCREF(&rpmds_Type);
PyModule_AddObject(m, "ds", (PyObject *) &rpmds_Type);
Py_INCREF(&rpmfd_Type);
PyModule_AddObject(m, "fd", (PyObject *) &rpmfd_Type);
Py_INCREF(&rpmfi_Type);
PyModule_AddObject(m, "fi", (PyObject *) &rpmfi_Type);
Py_INCREF(&rpmmi_Type);
PyModule_AddObject(m, "mi", (PyObject *) &rpmmi_Type);
Py_INCREF(&rpmps_Type);
PyModule_AddObject(m, "ps", (PyObject *) &rpmps_Type);
Py_INCREF(&rpmte_Type);
PyModule_AddObject(m, "te", (PyObject *) &rpmte_Type);
Py_INCREF(&rpmts_Type);
PyModule_AddObject(m, "ts", (PyObject *) &rpmts_Type);
Py_INCREF(&spec_Type);
PyModule_AddObject(m, "spec", (PyObject *) &spec_Type);
#else
hdr_Type.ob_type = &PyType_Type;
rpmal_Type.ob_type = &PyType_Type;
rpmds_Type.ob_type = &PyType_Type;
rpmfd_Type.ob_type = &PyType_Type;
rpmfi_Type.ob_type = &PyType_Type;
rpmmi_Type.ob_type = &PyType_Type;
rpmps_Type.ob_type = &PyType_Type;
rpmte_Type.ob_type = &PyType_Type;
rpmts_Type.ob_type = &PyType_Type;
spec_Type.ob_type = &PyType_Type;
#endif
dict = PyDict_New();
{ const char *tname, *sname;
rpmtd names = rpmtdNew();
rpmTagGetNames(names, 1);
while ((tname = rpmtdNextString(names))) {
sname = tname + strlen("RPMTAG_");
tag = PyInt_FromLong(rpmTagGetValue(sname));
PyDict_SetItemString(d, tname, tag);
Py_DECREF(tag);
o = PyString_FromString(sname);
PyDict_SetItem(dict, tag, o);
Py_DECREF(o);
}
rpmtdFreeData(names);
rpmtdFree(names);
}
PyDict_SetItemString(d, "tagnames", dict);
Py_DECREF(dict);
#define REGISTER_ENUM(val) \
PyDict_SetItemString(d, #val, o=PyInt_FromLong( val )); \
Py_DECREF(o);
REGISTER_ENUM(RPMTAG_NOT_FOUND);
REGISTER_ENUM(RPMFILE_STATE_NORMAL);
REGISTER_ENUM(RPMFILE_STATE_REPLACED);
REGISTER_ENUM(RPMFILE_STATE_NOTINSTALLED);
REGISTER_ENUM(RPMFILE_STATE_NETSHARED);
REGISTER_ENUM(RPMFILE_STATE_WRONGCOLOR);
REGISTER_ENUM(RPMFILE_CONFIG);
REGISTER_ENUM(RPMFILE_DOC);
REGISTER_ENUM(RPMFILE_ICON);
REGISTER_ENUM(RPMFILE_MISSINGOK);
REGISTER_ENUM(RPMFILE_NOREPLACE);
REGISTER_ENUM(RPMFILE_GHOST);
REGISTER_ENUM(RPMFILE_LICENSE);
REGISTER_ENUM(RPMFILE_README);
REGISTER_ENUM(RPMFILE_EXCLUDE);
REGISTER_ENUM(RPMFILE_UNPATCHED);
REGISTER_ENUM(RPMFILE_PUBKEY);
REGISTER_ENUM(RPMDEP_SENSE_REQUIRES);
REGISTER_ENUM(RPMDEP_SENSE_CONFLICTS);
REGISTER_ENUM(RPMSENSE_LESS);
REGISTER_ENUM(RPMSENSE_GREATER);
REGISTER_ENUM(RPMSENSE_EQUAL);
REGISTER_ENUM(RPMSENSE_PREREQ);
REGISTER_ENUM(RPMSENSE_INTERP);
REGISTER_ENUM(RPMSENSE_SCRIPT_PRE);
REGISTER_ENUM(RPMSENSE_SCRIPT_POST);
REGISTER_ENUM(RPMSENSE_SCRIPT_PREUN);
REGISTER_ENUM(RPMSENSE_SCRIPT_POSTUN);
REGISTER_ENUM(RPMSENSE_SCRIPT_VERIFY);
REGISTER_ENUM(RPMSENSE_FIND_REQUIRES);
REGISTER_ENUM(RPMSENSE_FIND_PROVIDES);
REGISTER_ENUM(RPMSENSE_TRIGGERIN);
REGISTER_ENUM(RPMSENSE_TRIGGERUN);
REGISTER_ENUM(RPMSENSE_TRIGGERPOSTUN);
REGISTER_ENUM(RPMSENSE_SCRIPT_PREP);
REGISTER_ENUM(RPMSENSE_SCRIPT_BUILD);
REGISTER_ENUM(RPMSENSE_SCRIPT_INSTALL);
REGISTER_ENUM(RPMSENSE_SCRIPT_CLEAN);
REGISTER_ENUM(RPMSENSE_RPMLIB);
REGISTER_ENUM(RPMSENSE_TRIGGERPREIN);
REGISTER_ENUM(RPMSENSE_KEYRING);
REGISTER_ENUM(RPMSENSE_PATCHES);
REGISTER_ENUM(RPMSENSE_CONFIG);
REGISTER_ENUM(RPMTRANS_FLAG_TEST);
REGISTER_ENUM(RPMTRANS_FLAG_BUILD_PROBS);
REGISTER_ENUM(RPMTRANS_FLAG_NOSCRIPTS);
REGISTER_ENUM(RPMTRANS_FLAG_JUSTDB);
REGISTER_ENUM(RPMTRANS_FLAG_NOTRIGGERS);
REGISTER_ENUM(RPMTRANS_FLAG_NODOCS);
REGISTER_ENUM(RPMTRANS_FLAG_ALLFILES);
REGISTER_ENUM(RPMTRANS_FLAG_KEEPOBSOLETE);
REGISTER_ENUM(RPMTRANS_FLAG_REPACKAGE);
REGISTER_ENUM(RPMTRANS_FLAG_REVERSE);
REGISTER_ENUM(RPMTRANS_FLAG_NOPRE);
REGISTER_ENUM(RPMTRANS_FLAG_NOPOST);
REGISTER_ENUM(RPMTRANS_FLAG_NOTRIGGERPREIN);
REGISTER_ENUM(RPMTRANS_FLAG_NOTRIGGERIN);
REGISTER_ENUM(RPMTRANS_FLAG_NOTRIGGERUN);
REGISTER_ENUM(RPMTRANS_FLAG_NOPREUN);
REGISTER_ENUM(RPMTRANS_FLAG_NOPOSTUN);
REGISTER_ENUM(RPMTRANS_FLAG_NOTRIGGERPOSTUN);
REGISTER_ENUM(RPMTRANS_FLAG_NOMD5);
REGISTER_ENUM(RPMTRANS_FLAG_NOSUGGEST);
REGISTER_ENUM(RPMTRANS_FLAG_ADDINDEPS);
REGISTER_ENUM(RPMTRANS_FLAG_NOCONFIGS);
REGISTER_ENUM(RPMPROB_FILTER_IGNOREOS);
REGISTER_ENUM(RPMPROB_FILTER_IGNOREARCH);
REGISTER_ENUM(RPMPROB_FILTER_REPLACEPKG);
REGISTER_ENUM(RPMPROB_FILTER_FORCERELOCATE);
REGISTER_ENUM(RPMPROB_FILTER_REPLACENEWFILES);
REGISTER_ENUM(RPMPROB_FILTER_REPLACEOLDFILES);
REGISTER_ENUM(RPMPROB_FILTER_OLDPACKAGE);
REGISTER_ENUM(RPMPROB_FILTER_DISKSPACE);
REGISTER_ENUM(RPMPROB_FILTER_DISKNODES);
REGISTER_ENUM(RPMCALLBACK_UNKNOWN);
REGISTER_ENUM(RPMCALLBACK_INST_PROGRESS);
REGISTER_ENUM(RPMCALLBACK_INST_START);
REGISTER_ENUM(RPMCALLBACK_INST_OPEN_FILE);
REGISTER_ENUM(RPMCALLBACK_INST_CLOSE_FILE);
REGISTER_ENUM(RPMCALLBACK_TRANS_PROGRESS);
REGISTER_ENUM(RPMCALLBACK_TRANS_START);
REGISTER_ENUM(RPMCALLBACK_TRANS_STOP);
REGISTER_ENUM(RPMCALLBACK_UNINST_PROGRESS);
REGISTER_ENUM(RPMCALLBACK_UNINST_START);
REGISTER_ENUM(RPMCALLBACK_UNINST_STOP);
REGISTER_ENUM(RPMCALLBACK_REPACKAGE_PROGRESS);
REGISTER_ENUM(RPMCALLBACK_REPACKAGE_START);
REGISTER_ENUM(RPMCALLBACK_REPACKAGE_STOP);
REGISTER_ENUM(RPMCALLBACK_UNPACK_ERROR);
REGISTER_ENUM(RPMCALLBACK_CPIO_ERROR);
REGISTER_ENUM(RPMCALLBACK_SCRIPT_ERROR);
REGISTER_ENUM(RPMPROB_BADARCH);
REGISTER_ENUM(RPMPROB_BADOS);
REGISTER_ENUM(RPMPROB_PKG_INSTALLED);
REGISTER_ENUM(RPMPROB_BADRELOCATE);
REGISTER_ENUM(RPMPROB_REQUIRES);
REGISTER_ENUM(RPMPROB_CONFLICT);
REGISTER_ENUM(RPMPROB_NEW_FILE_CONFLICT);
REGISTER_ENUM(RPMPROB_FILE_CONFLICT);
REGISTER_ENUM(RPMPROB_OLDPACKAGE);
REGISTER_ENUM(RPMPROB_DISKSPACE);
REGISTER_ENUM(RPMPROB_DISKNODES);
REGISTER_ENUM(VERIFY_DIGEST);
REGISTER_ENUM(VERIFY_SIGNATURE);
REGISTER_ENUM(RPMLOG_EMERG);
REGISTER_ENUM(RPMLOG_ALERT);
REGISTER_ENUM(RPMLOG_CRIT);
REGISTER_ENUM(RPMLOG_ERR);
REGISTER_ENUM(RPMLOG_WARNING);
REGISTER_ENUM(RPMLOG_NOTICE);
REGISTER_ENUM(RPMLOG_INFO);
REGISTER_ENUM(RPMLOG_DEBUG);
REGISTER_ENUM(RPMMIRE_DEFAULT);
REGISTER_ENUM(RPMMIRE_STRCMP);
REGISTER_ENUM(RPMMIRE_REGEX);
REGISTER_ENUM(RPMMIRE_GLOB);
REGISTER_ENUM(RPMVSF_DEFAULT);
REGISTER_ENUM(RPMVSF_NOHDRCHK);
REGISTER_ENUM(RPMVSF_NEEDPAYLOAD);
REGISTER_ENUM(RPMVSF_NOSHA1HEADER);
REGISTER_ENUM(RPMVSF_NOMD5HEADER);
REGISTER_ENUM(RPMVSF_NODSAHEADER);
REGISTER_ENUM(RPMVSF_NORSAHEADER);
REGISTER_ENUM(RPMVSF_NOSHA1);
REGISTER_ENUM(RPMVSF_NOMD5);
REGISTER_ENUM(RPMVSF_NODSA);
REGISTER_ENUM(RPMVSF_NORSA);
REGISTER_ENUM(_RPMVSF_NODIGESTS);
REGISTER_ENUM(_RPMVSF_NOSIGNATURES);
REGISTER_ENUM(_RPMVSF_NOHEADER);
REGISTER_ENUM(_RPMVSF_NOPAYLOAD);
REGISTER_ENUM(TR_ADDED);
REGISTER_ENUM(TR_REMOVED);
REGISTER_ENUM(RPMDBI_PACKAGES);
REGISTER_ENUM((intptr_t)RPMAL_NOMATCH);
}
QueryData genRpmPackageFiles(QueryContext& context) {
QueryData results;
if (rpmReadConfigFiles(nullptr, nullptr) != 0) {
TLOG << "Cannot read RPM configuration files.";
return results;
}
rpmts ts = rpmtsCreate();
rpmdbMatchIterator matches;
if (context.constraints["package"].exists()) {
auto name = (*context.constraints["package"].getAll(EQUALS).begin());
matches = rpmtsInitIterator(ts, RPMTAG_NAME, name.c_str(), name.size());
} else {
matches = rpmtsInitIterator(ts, RPMTAG_NAME, nullptr, 0);
}
Header header;
while ((header = rpmdbNextIterator(matches)) != nullptr) {
rpmtd td = rpmtdNew();
rpmfi fi = rpmfiNew(ts, header, RPMTAG_BASENAMES, RPMFI_NOHEADER);
auto file_count = rpmfiFC(fi);
if (file_count <= 0 || file_count > MAX_RPM_FILES) {
// This package contains no or too many files.
rpmfiFree(fi);
continue;
}
// Iterate over every file in this package.
for (size_t i = 0; rpmfiNext(fi) >= 0 && i < file_count; i++) {
Row r;
r["package"] = getRpmAttribute(header, RPMTAG_NAME, td);
auto path = rpmfiFN(fi);
r["path"] = (path != nullptr) ? path : "";
auto username = rpmfiFUser(fi);
r["username"] = (username != nullptr) ? username : "";
auto groupname = rpmfiFGroup(fi);
r["groupname"] = (groupname != nullptr) ? groupname : "";
r["mode"] = lsperms(rpmfiFMode(fi));
r["size"] = BIGINT(rpmfiFSize(fi));
#ifdef CENTOS_CENTOS6
// Older versions of rpmlib/rpmip use a hash algorithm enum.
pgpHashAlgo digest_algo;
#else
int digest_algo;
#endif
auto digest = rpmfiFDigestHex(fi, &digest_algo);
if (digest_algo == PGPHASHALGO_SHA256) {
r["sha256"] = (digest != nullptr) ? digest : "";
}
results.push_back(r);
}
rpmfiFree(fi);
rpmtdFree(td);
}
rpmdbFreeIterator(matches);
rpmtsFree(ts);
rpmFreeRpmrc();
return results;
}
uint32_t
VerifyRpmSig(
rpmKeyring pKeyring,
const char* pszPkgFile
)
{
uint32_t dwError = 0;
FD_t pFD_t = NULL;
rpmts pTS = NULL;
rpmtd pTD = NULL;
Header pPkgHeader = NULL;
pgpDig pDigest = NULL;
if(!pKeyring || IsNullOrEmptyString(pszPkgFile))
{
dwError = ERROR_TDNF_INVALID_PARAMETER;
BAIL_ON_TDNF_ERROR(dwError);
}
pFD_t = Fopen(pszPkgFile, "r.fdio");
if(!pFD_t)
{
dwError = errno;
BAIL_ON_TDNF_SYSTEM_ERROR(dwError);
}
pTS = rpmtsCreate();
if(!pTS)
{
dwError = ERROR_TDNF_RPMTS_CREATE_FAILED;
BAIL_ON_TDNF_RPM_ERROR(dwError);
}
rpmtsSetVSFlags (pTS, _RPMVSF_NOSIGNATURES);
pTD = rpmtdNew();
if(!pTD)
{
dwError = ERROR_TDNF_RPMTD_CREATE_FAILED;
BAIL_ON_TDNF_RPM_ERROR(dwError);
}
dwError = rpmReadPackageFile(pTS, pFD_t, pszPkgFile, &pPkgHeader);
BAIL_ON_TDNF_RPM_ERROR(dwError);
if(!headerConvert(pPkgHeader, HEADERCONV_RETROFIT_V3))
{
dwError = ERROR_TDNF_RPM_HEADER_CONVERT_FAILED;
BAIL_ON_TDNF_RPM_ERROR(dwError);
}
if(!headerGet(pPkgHeader, RPMTAG_RSAHEADER, pTD, HEADERGET_MINMEM))
{
dwError = ERROR_TDNF_RPM_GET_RSAHEADER_FAILED;
BAIL_ON_TDNF_ERROR(dwError);
}
pDigest = pgpNewDig();
if(pgpPrtPkts(pTD->data, pTD->count, pDigest, 0))
{
dwError = ERROR_TDNF_RPM_GPG_PARSE_FAILED;
BAIL_ON_TDNF_ERROR(dwError);
}
if(rpmKeyringLookup(pKeyring, pDigest) != RPMRC_OK)
{
dwError = ERROR_TDNF_RPM_GPG_NO_MATCH;
BAIL_ON_TDNF_ERROR(dwError);
}
cleanup:
if(pFD_t)
{
Fclose(pFD_t);
}
if(pDigest)
{
pgpFreeDig(pDigest);
}
if(pPkgHeader)
{
headerFree(pPkgHeader);
}
if(pTD)
{
rpmtdFree(pTD);
}
if(pTS)
{
rpmtsFree(pTS);
}
return dwError;
error:
goto cleanup;
}
/* ---------------------------------------------------------------------
*/
int
netsnmp_swinst_arch_load( netsnmp_container *container, u_int flags)
{
rpmts ts;
rpmdbMatchIterator mi;
Header h;
#if HAVE_HEADERGET
const char *g;
rpmtd td_name, td_version, td_release, td_group, td_time;
#else
char *n, *v, *r, *g;
int32_t *t;
#endif
time_t install_time;
size_t date_len;
int i = 1;
netsnmp_swinst_entry *entry;
#if HAVE_HEADERGET
td_name = rpmtdNew();
td_version = rpmtdNew();
td_release = rpmtdNew();
td_group = rpmtdNew();
td_time = rpmtdNew();
#endif
ts = rpmtsCreate();
rpmtsSetVSFlags( ts, (_RPMVSF_NOSIGNATURES|_RPMVSF_NODIGESTS));
mi = rpmtsInitIterator( ts, RPMDBI_PACKAGES, NULL, 0);
if (mi == NULL)
NETSNMP_LOGONCE((LOG_ERR, "rpmdbOpen() failed\n"));
while (NULL != (h = rpmdbNextIterator( mi )))
{
const u_char *dt;
entry = netsnmp_swinst_entry_create( i++ );
if (NULL == entry)
continue; /* error already logged by function */
CONTAINER_INSERT(container, entry);
h = headerLink( h );
#if HAVE_HEADERGET
headerGet(h, RPMTAG_NAME, td_name, HEADERGET_EXT);
headerGet(h, RPMTAG_VERSION, td_version, HEADERGET_EXT);
headerGet(h, RPMTAG_RELEASE, td_release, HEADERGET_EXT);
headerGet(h, RPMTAG_GROUP, td_group, HEADERGET_EXT);
headerGet(h, RPMTAG_INSTALLTIME, td_time, HEADERGET_EXT);
entry->swName_len = snprintf( entry->swName, sizeof(entry->swName),
"%s-%s-%s", rpmtdGetString(td_name),
rpmtdGetString(td_version),
rpmtdGetString(td_release));
install_time = rpmtdGetNumber(td_time);
g = rpmtdGetString(td_group);
#else
headerGetEntry( h, RPMTAG_NAME, NULL, (void**)&n, NULL);
headerGetEntry( h, RPMTAG_VERSION, NULL, (void**)&v, NULL);
headerGetEntry( h, RPMTAG_RELEASE, NULL, (void**)&r, NULL);
headerGetEntry( h, RPMTAG_GROUP, NULL, (void**)&g, NULL);
headerGetEntry( h, RPMTAG_INSTALLTIME, NULL, (void**)&t, NULL);
entry->swName_len = snprintf( entry->swName, sizeof(entry->swName),
"%s-%s-%s", n, v, r);
install_time = *t;
#endif
entry->swType = (g && NULL != strstr( g, "System Environment"))
? 2 /* operatingSystem */
: 4; /* application */
if (entry->swName_len > sizeof(entry->swName))
entry->swName_len = sizeof(entry->swName);
dt = date_n_time( &install_time, &date_len );
if (date_len != 8 && date_len != 11) {
snmp_log(LOG_ERR, "Bogus length from date_n_time for %s", entry->swName);
entry->swDate_len = 0;
}
else {
entry->swDate_len = date_len;
memcpy(entry->swDate, dt, entry->swDate_len);
}
#if HAVE_HEADERGET
rpmtdFreeData(td_name);
rpmtdFreeData(td_version);
rpmtdFreeData(td_release);
rpmtdFreeData(td_group);
rpmtdFreeData(td_time);
#endif
headerFree( h );
}
rpmdbFreeIterator( mi );
rpmtsFree( ts );
#if HAVE_HEADERGET
rpmtdFree(td_name);
rpmtdFree(td_version);
rpmtdFree(td_release);
rpmtdFree(td_group);
rpmtdFree(td_time);
#endif
DEBUGMSGTL(("swinst:load:arch", "loaded %d entries\n",
(int)CONTAINER_SIZE(container)));
return 0;
}
