/*
* Copyright (C) 2009-2012, 2014 Red Hat, Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see
*/
#include
static void
test_basic(void)
{
OsinfoDb *db = osinfo_db_new();
g_assert_true(OSINFO_IS_DB(db));
g_object_unref(db);
}
static void
test_device(void)
{
OsinfoDb *db = osinfo_db_new();
OsinfoDevice *dev1 = osinfo_device_new("dev1");
OsinfoDevice *dev2 = osinfo_device_new("dev2");
OsinfoDevice *dev3 = osinfo_device_new("dev3");
OsinfoDeviceList *list;
OsinfoDevice *dev;
osinfo_db_add_device(db, dev1);
osinfo_db_add_device(db, dev2);
osinfo_db_add_device(db, dev3);
list = osinfo_db_get_device_list(db);
g_assert_true(OSINFO_ENTITY(dev1) == osinfo_list_get_nth(OSINFO_LIST(list), 0));
g_assert_true(OSINFO_ENTITY(dev2) == osinfo_list_get_nth(OSINFO_LIST(list), 1));
g_assert_true(OSINFO_ENTITY(dev3) == osinfo_list_get_nth(OSINFO_LIST(list), 2));
g_object_unref(list);
dev = osinfo_db_get_device(db, "dev2");
g_assert_nonnull(dev);
g_assert_true(dev == dev2);
g_object_unref(dev1);
g_object_unref(dev2);
g_object_unref(dev3);
g_object_unref(db);
}
static void
test_platform(void)
{
OsinfoDb *db = osinfo_db_new();
OsinfoPlatform *hv1 = osinfo_platform_new("hv1");
OsinfoPlatform *hv2 = osinfo_platform_new("hv2");
OsinfoPlatform *hv3 = osinfo_platform_new("hv3");
OsinfoPlatformList *list;
OsinfoPlatform *hv;
osinfo_db_add_platform(db, hv1);
osinfo_db_add_platform(db, hv2);
osinfo_db_add_platform(db, hv3);
list = osinfo_db_get_platform_list(db);
g_assert_true(OSINFO_ENTITY(hv1) == osinfo_list_get_nth(OSINFO_LIST(list), 0));
g_assert_true(OSINFO_ENTITY(hv2) == osinfo_list_get_nth(OSINFO_LIST(list), 1));
g_assert_true(OSINFO_ENTITY(hv3) == osinfo_list_get_nth(OSINFO_LIST(list), 2));
g_object_unref(list);
hv = osinfo_db_get_platform(db, "hv2");
g_assert_nonnull(hv);
g_assert_true(hv == hv2);
g_object_unref(hv1);
g_object_unref(hv2);
g_object_unref(hv3);
g_object_unref(db);
}
static void
test_os(void)
{
OsinfoDb *db = osinfo_db_new();
OsinfoOs *os1 = osinfo_os_new("os1");
OsinfoOs *os2 = osinfo_os_new("os2");
OsinfoOs *os3 = osinfo_os_new("os3");
OsinfoOsList *list;
OsinfoOs *os;
osinfo_db_add_os(db, os1);
osinfo_db_add_os(db, os2);
osinfo_db_add_os(db, os3);
list = osinfo_db_get_os_list(db);
g_assert_true(OSINFO_ENTITY(os1) == osinfo_list_get_nth(OSINFO_LIST(list), 0));
g_assert_true(OSINFO_ENTITY(os2) == osinfo_list_get_nth(OSINFO_LIST(list), 1));
g_assert_true(OSINFO_ENTITY(os3) == osinfo_list_get_nth(OSINFO_LIST(list), 2));
g_object_unref(list);
os = osinfo_db_get_os(db, "os2");
g_assert_nonnull(os);
g_assert_true(os == os2);
g_object_unref(os1);
g_object_unref(os2);
g_object_unref(os3);
g_object_unref(db);
}
static void
test_prop_device(void)
{
OsinfoDb *db = osinfo_db_new();
OsinfoDevice *dev1 = osinfo_device_new("dev1");
OsinfoDevice *dev2 = osinfo_device_new("dev2");
OsinfoDevice *dev3 = osinfo_device_new("dev3");
GList *uniq;
GList *tmp;
gboolean hasNetwork;
gboolean hasAudio;
gboolean hasInput;
gboolean hasDisplay;
gboolean hasBad;
osinfo_entity_add_param(OSINFO_ENTITY(dev1), "class", "network");
osinfo_entity_add_param(OSINFO_ENTITY(dev1), "class", "audio");
osinfo_entity_add_param(OSINFO_ENTITY(dev2), "class", "input");
osinfo_entity_add_param(OSINFO_ENTITY(dev3), "class", "display");
osinfo_entity_add_param(OSINFO_ENTITY(dev3), "fruit", "apple");
osinfo_db_add_device(db, dev1);
osinfo_db_add_device(db, dev2);
osinfo_db_add_device(db, dev3);
uniq = osinfo_db_unique_values_for_property_in_device(db, "class");
tmp = uniq;
hasNetwork = FALSE;
hasAudio = FALSE;
hasInput = FALSE;
hasDisplay = FALSE;
hasBad = FALSE;
while (tmp) {
if (g_strcmp0(tmp->data, "network") == 0)
hasNetwork = TRUE;
else if (g_strcmp0(tmp->data, "audio") == 0)
hasAudio = TRUE;
else if (g_strcmp0(tmp->data, "input") == 0)
hasInput = TRUE;
else if (g_strcmp0(tmp->data, "display") == 0)
hasDisplay = TRUE;
else
hasBad = TRUE;
tmp = tmp->next;
}
g_assert_true(hasNetwork);
g_assert_true(hasAudio);
g_assert_true(hasInput);
g_assert_true(hasDisplay);
g_assert_false(hasBad);
g_list_free(uniq);
g_object_unref(dev1);
g_object_unref(dev2);
g_object_unref(dev3);
g_object_unref(db);
}
static void
test_prop_platform(void)
{
OsinfoDb *db = osinfo_db_new();
OsinfoPlatform *hv1 = osinfo_platform_new("hv1");
OsinfoPlatform *hv2 = osinfo_platform_new("hv2");
OsinfoPlatform *hv3 = osinfo_platform_new("hv3");
GList *uniq;
GList *tmp;
gboolean hasAcme;
gboolean hasFrog;
gboolean hasDog;
gboolean hasBad;
osinfo_entity_add_param(OSINFO_ENTITY(hv1), "vendor", "acme");
osinfo_entity_add_param(OSINFO_ENTITY(hv1), "vendor", "frog");
osinfo_entity_add_param(OSINFO_ENTITY(hv2), "vendor", "acme");
osinfo_entity_add_param(OSINFO_ENTITY(hv3), "vendor", "dog");
osinfo_entity_add_param(OSINFO_ENTITY(hv3), "arch", "x86");
osinfo_db_add_platform(db, hv1);
osinfo_db_add_platform(db, hv2);
osinfo_db_add_platform(db, hv3);
uniq = osinfo_db_unique_values_for_property_in_platform(db, "vendor");
tmp = uniq;
hasAcme = FALSE;
hasFrog = FALSE;
hasDog = FALSE;
hasBad = FALSE;
while (tmp) {
if (g_strcmp0(tmp->data, "acme") == 0)
hasAcme = TRUE;
else if (g_strcmp0(tmp->data, "frog") == 0)
hasFrog = TRUE;
else if (g_strcmp0(tmp->data, "dog") == 0)
hasDog = TRUE;
else
hasBad = TRUE;
tmp = tmp->next;
}
g_assert_true(hasAcme);
g_assert_true(hasFrog);
g_assert_true(hasDog);
g_assert_false(hasBad);
g_list_free(uniq);
g_object_unref(hv1);
g_object_unref(hv2);
g_object_unref(hv3);
g_object_unref(db);
}
static void
test_prop_os(void)
{
OsinfoDb *db = osinfo_db_new();
OsinfoOs *os1 = osinfo_os_new("os1");
OsinfoOs *os2 = osinfo_os_new("os2");
OsinfoOs *os3 = osinfo_os_new("os3");
GList *uniq;
GList *tmp;
gboolean hasAcme;
gboolean hasFrog;
gboolean hasDog;
gboolean hasBad;
osinfo_entity_add_param(OSINFO_ENTITY(os1), "vendor", "acme");
osinfo_entity_add_param(OSINFO_ENTITY(os1), "vendor", "frog");
osinfo_entity_add_param(OSINFO_ENTITY(os2), "vendor", "acme");
osinfo_entity_add_param(OSINFO_ENTITY(os3), "vendor", "dog");
osinfo_entity_add_param(OSINFO_ENTITY(os3), "arch", "x86");
osinfo_db_add_os(db, os1);
osinfo_db_add_os(db, os2);
osinfo_db_add_os(db, os3);
uniq = osinfo_db_unique_values_for_property_in_os(db, "vendor");
tmp = uniq;
hasAcme = FALSE;
hasFrog = FALSE;
hasDog = FALSE;
hasBad = FALSE;
while (tmp) {
if (g_strcmp0(tmp->data, "acme") == 0)
hasAcme = TRUE;
else if (g_strcmp0(tmp->data, "frog") == 0)
hasFrog = TRUE;
else if (g_strcmp0(tmp->data, "dog") == 0)
hasDog = TRUE;
else
hasBad = TRUE;
tmp = tmp->next;
}
g_assert_true(hasAcme);
g_assert_true(hasFrog);
g_assert_true(hasDog);
g_assert_false(hasBad);
g_list_free(uniq);
g_object_unref(os1);
g_object_unref(os2);
g_object_unref(os3);
g_object_unref(db);
}
static void
test_rel_os(void)
{
OsinfoDb *db = osinfo_db_new();
OsinfoOs *os1 = osinfo_os_new("os1");
OsinfoOs *os2 = osinfo_os_new("os2");
OsinfoOs *os3 = osinfo_os_new("os3");
OsinfoOs *os4 = osinfo_os_new("os4");
OsinfoOs *os5 = osinfo_os_new("os5");
OsinfoOsList *sublist;
gboolean hasOs1;
gboolean hasOs2;
gboolean hasOs3;
gboolean hasOs4;
gboolean hasOs5;
gboolean hasBad;
osinfo_db_add_os(db, os1);
osinfo_db_add_os(db, os2);
osinfo_db_add_os(db, os3);
osinfo_db_add_os(db, os4);
osinfo_db_add_os(db, os5);
osinfo_product_add_related(OSINFO_PRODUCT(os1), OSINFO_PRODUCT_RELATIONSHIP_DERIVES_FROM, OSINFO_PRODUCT(os2));
osinfo_product_add_related(OSINFO_PRODUCT(os1), OSINFO_PRODUCT_RELATIONSHIP_DERIVES_FROM, OSINFO_PRODUCT(os3));
osinfo_product_add_related(OSINFO_PRODUCT(os2), OSINFO_PRODUCT_RELATIONSHIP_CLONES, OSINFO_PRODUCT(os4));
osinfo_product_add_related(OSINFO_PRODUCT(os3), OSINFO_PRODUCT_RELATIONSHIP_UPGRADES, OSINFO_PRODUCT(os5));
sublist = osinfo_db_unique_values_for_os_relationship(db, OSINFO_PRODUCT_RELATIONSHIP_DERIVES_FROM);
hasOs1 = FALSE;
hasOs2 = FALSE;
hasOs3 = FALSE;
hasOs4 = FALSE;
hasOs5 = FALSE;
hasBad = FALSE;
for (int i = 0; i < osinfo_list_get_length(OSINFO_LIST(sublist)); i++) {
OsinfoOs *ent = OSINFO_OS(osinfo_list_get_nth(OSINFO_LIST(sublist), i));
if (ent == os1)
hasOs1 = TRUE;
else if (ent == os2)
hasOs2 = TRUE;
else if (ent == os3)
hasOs3 = TRUE;
else if (ent == os4)
hasOs4 = TRUE;
else if (ent == os5)
hasOs5 = TRUE;
else
hasBad = TRUE;
}
g_assert_false(hasOs1);
g_assert_true(hasOs2);
g_assert_true(hasOs3);
g_assert_false(hasOs4);
g_assert_false(hasOs5);
g_assert_false(hasBad);
g_object_unref(sublist);
sublist = osinfo_db_unique_values_for_os_relationship(db, OSINFO_PRODUCT_RELATIONSHIP_UPGRADES);
hasOs1 = hasOs2 = hasOs3 = hasOs4 = hasOs5 = hasBad = FALSE;
for (int i = 0; i < osinfo_list_get_length(OSINFO_LIST(sublist)); i++) {
OsinfoOs *ent = OSINFO_OS(osinfo_list_get_nth(OSINFO_LIST(sublist), i));
if (ent == os1)
hasOs1 = TRUE;
else if (ent == os2)
hasOs2 = TRUE;
else if (ent == os3)
hasOs3 = TRUE;
else if (ent == os4)
hasOs4 = TRUE;
else if (ent == os5)
hasOs5 = TRUE;
else
hasBad = TRUE;
}
g_assert_false(hasOs1);
g_assert_false(hasOs2);
g_assert_false(hasOs3);
g_assert_false(hasOs4);
g_assert_true(hasOs5);
g_assert_false(hasBad);
g_object_unref(sublist);
sublist = osinfo_db_unique_values_for_os_relationship(db, OSINFO_PRODUCT_RELATIONSHIP_CLONES);
hasOs1 = hasOs2 = hasOs3 = hasOs4 = hasOs5 = hasBad = FALSE;
for (int i = 0; i < osinfo_list_get_length(OSINFO_LIST(sublist)); i++) {
OsinfoOs *ent = OSINFO_OS(osinfo_list_get_nth(OSINFO_LIST(sublist), i));
if (ent == os1)
hasOs1 = TRUE;
else if (ent == os2)
hasOs2 = TRUE;
else if (ent == os3)
hasOs3 = TRUE;
else if (ent == os4)
hasOs4 = TRUE;
else if (ent == os5)
hasOs5 = TRUE;
else
hasBad = TRUE;
}
g_assert_false(hasOs1);
g_assert_false(hasOs2);
g_assert_false(hasOs3);
g_assert_true(hasOs4);
g_assert_false(hasOs5);
g_assert_false(hasBad);
g_object_unref(sublist);
g_object_unref(os1);
g_object_unref(os2);
g_object_unref(os3);
g_object_unref(os4);
g_object_unref(os5);
g_object_unref(db);
}
static void
test_identify_media(void)
{
OsinfoLoader *loader = osinfo_loader_new();
OsinfoDb *db;
OsinfoMedia *media;
OsinfoInstallScriptList *scripts;
OsinfoOs *os;
GError *error = NULL;
osinfo_loader_process_path(loader, SRCDIR "/tests/dbdata", &error);
g_assert_no_error(error);
db = osinfo_loader_get_db(loader);
media = osinfo_media_new("foo", "ppc64le");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"DB Media");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
g_assert_true(osinfo_db_identify_media(db, media));
g_assert_cmpstr(osinfo_media_get_architecture(media), ==, "ppc64le");
g_assert_true(osinfo_media_get_live(media));
g_assert_true(osinfo_media_get_installer(media));
g_assert_false(osinfo_media_supports_installer_script(media));
g_assert_cmpint(osinfo_media_get_installer_reboots(media), ==, 6);
g_assert_false(osinfo_media_get_eject_after_install(media));
g_assert_cmpstr(osinfo_media_get_kernel_path(media), ==, "isolinux/vmlinuz");
g_assert_cmpstr(osinfo_media_get_initrd_path(media), ==, "isolinux/initrd.img");
scripts = osinfo_media_get_install_script_list(media);
g_assert_nonnull(scripts);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(scripts)), ==, 1);
os = osinfo_media_get_os(media);
g_assert_nonnull(os);
g_assert_cmpstr(osinfo_entity_get_id(OSINFO_ENTITY(os)), ==, "http://libosinfo.org/test/db/media");
g_object_unref(scripts);
g_object_unref(media);
media = osinfo_media_new("foo", "ppc64le");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"Media DB");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
g_assert_false(osinfo_db_identify_media(db, media));
g_object_unref(media);
media = osinfo_media_new("foo", "x86_64");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"DB Media");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
g_assert_false(osinfo_db_identify_media(db, media));
g_object_unref(media);
media = osinfo_media_new("foo", NULL);
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"DB Media");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
g_assert_true(osinfo_db_identify_media(db, media));
g_object_unref(media);
/* Matching against an "all" architecture */
media = osinfo_media_new("foo", "x86_64");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"bootimg");
g_assert_true(osinfo_db_identify_media(db, media));
g_assert_cmpstr(osinfo_media_get_architecture(media), ==, "all");
g_object_unref(media);
/* Matching against a known architecture, which has to have precedence */
media = osinfo_media_new("foo", "i686");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"bootimg");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
g_assert_true(osinfo_db_identify_media(db, media));
g_assert_cmpstr(osinfo_media_get_architecture(media), ==, "i686");
g_object_unref(media);
/* Matching against a versioned ISO, which has to have precedence against the rolling */
media = osinfo_media_new("foo", "x86_64");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"ROLLING_VERSIONED");
g_assert_true(osinfo_db_identify_media(db, media));
os = osinfo_media_get_os(media);
g_assert_nonnull(os);
g_assert_cmpstr(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), ==, "versioned");
g_object_unref(loader);
}
static void
test_identify_all_media(void)
{
OsinfoLoader *loader = osinfo_loader_new();
OsinfoDb *db;
OsinfoMedia *media, *newmedia;
OsinfoMediaList *medialist;
OsinfoOs *os;
OsinfoInstallScriptList *scripts;
GError *error = NULL;
int i;
gboolean seenDupe1, seenDupe2, seenDupe3, seenDupe4;
gboolean seenRolling, seenVersioned;
osinfo_loader_process_path(loader, SRCDIR "/tests/dbdata", &error);
g_assert_no_error(error);
db = osinfo_loader_get_db(loader);
media = osinfo_media_new("foo", "ppc64le");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"DB Media");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
medialist = osinfo_db_identify_medialist(db, media);
g_assert_nonnull(medialist);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(medialist)), ==, 1);
newmedia = OSINFO_MEDIA(osinfo_list_get_nth(OSINFO_LIST(medialist), 0));
g_object_unref(medialist);
g_assert_cmpstr(osinfo_media_get_architecture(newmedia), ==, "ppc64le");
g_assert_true(osinfo_media_get_live(newmedia));
g_assert_true(osinfo_media_get_installer(newmedia));
g_assert_false(osinfo_media_supports_installer_script(newmedia));
g_assert_cmpint(osinfo_media_get_installer_reboots(newmedia), ==, 6);
g_assert_false(osinfo_media_get_eject_after_install(newmedia));
g_assert_cmpstr(osinfo_media_get_kernel_path(newmedia), ==, "isolinux/vmlinuz");
g_assert_cmpstr(osinfo_media_get_initrd_path(newmedia), ==, "isolinux/initrd.img");
scripts = osinfo_media_get_install_script_list(newmedia);
g_assert_nonnull(scripts);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(scripts)), ==, 1);
os = osinfo_media_get_os(newmedia);
g_assert_nonnull(os);
g_assert_cmpstr(osinfo_entity_get_id(OSINFO_ENTITY(os)), ==, "http://libosinfo.org/test/db/media");
g_object_unref(scripts);
media = osinfo_media_new("foo", "ppc64le");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"Media DB");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
medialist = osinfo_db_identify_medialist(db, media);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(medialist)), ==, 0);
g_object_unref(medialist);
g_object_unref(media);
/* Matching against an "all" architecture */
media = osinfo_media_new("foo", "x86_64");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"bootimg");
medialist = osinfo_db_identify_medialist(db, media);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(medialist)), ==, 1);
newmedia = OSINFO_MEDIA(osinfo_list_get_nth(OSINFO_LIST(medialist), 0));
g_assert_cmpstr(osinfo_media_get_architecture(newmedia), ==, "all");
g_object_unref(medialist);
g_object_unref(media);
/* Matching against a known architecture, which has to have precedence */
media = osinfo_media_new("foo", "i686");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"bootimg");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
medialist = osinfo_db_identify_medialist(db, media);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(medialist)), ==, 1);
newmedia = OSINFO_MEDIA(osinfo_list_get_nth(OSINFO_LIST(medialist), 0));
g_assert_cmpstr(osinfo_media_get_architecture(newmedia), ==, "i686");
g_object_unref(medialist);
g_object_unref(media);
/* Should return both the version and non-versioned rolling OS matches */
media = osinfo_media_new("foo", "x86_64");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"ROLLING_VERSIONED");
medialist = osinfo_db_identify_medialist(db, media);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(medialist)), ==, 2);
seenVersioned = seenRolling = FALSE;
for (i = 0; i < 2; i++) {
newmedia = OSINFO_MEDIA(osinfo_list_get_nth(OSINFO_LIST(medialist), i));
os = osinfo_media_get_os(newmedia);
g_assert_nonnull(os);
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "versioned")) {
g_assert_false(seenVersioned);
seenVersioned = TRUE;
}
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "rolling")) {
g_assert_false(seenRolling);
seenRolling = TRUE;
}
}
g_assert(seenVersioned && seenRolling);
g_object_unref(medialist);
g_object_unref(media);
/* Matching against a image with many matches. Should match two OS
* with corresponding arch, and one with fallback arch */
media = osinfo_media_new("foo", "i686");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"dupe");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
medialist = osinfo_db_identify_medialist(db, media);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(medialist)), ==, 3);
seenDupe1 = seenDupe2 = seenDupe3 = seenDupe4 = FALSE;
for (i = 0; i < 3; i++) {
newmedia = OSINFO_MEDIA(osinfo_list_get_nth(OSINFO_LIST(medialist), i));
os = osinfo_media_get_os(newmedia);
g_assert_nonnull(os);
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "db-media-dupe1")) {
g_assert_false(seenDupe1);
seenDupe1 = TRUE;
}
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "db-media-dupe2")) {
g_assert_false(seenDupe2);
seenDupe2 = TRUE;
}
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "db-media-dupe3")) {
g_assert_false(seenDupe3);
seenDupe3 = TRUE;
}
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "db-media-dupe4")) {
g_assert_false(seenDupe4);
seenDupe4 = TRUE;
}
}
g_assert(seenDupe1 && seenDupe2 && !seenDupe3 && seenDupe4);
g_object_unref(medialist);
g_object_unref(media);
/* Matching without arch against a image with many matches.
* Should match all OS regardless of their media arch */
media = osinfo_media_new("foo", NULL);
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_VOLUME_ID,
"dupe");
osinfo_entity_set_param(OSINFO_ENTITY(media),
OSINFO_MEDIA_PROP_SYSTEM_ID,
"LINUX");
medialist = osinfo_db_identify_medialist(db, media);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(medialist)), ==, 4);
seenDupe1 = seenDupe2 = seenDupe3 = seenDupe4 = FALSE;
for (i = 0; i < 4; i++) {
newmedia = OSINFO_MEDIA(osinfo_list_get_nth(OSINFO_LIST(medialist), i));
os = osinfo_media_get_os(newmedia);
g_assert_nonnull(os);
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "db-media-dupe1")) {
g_assert_false(seenDupe1);
seenDupe1 = TRUE;
}
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "db-media-dupe2")) {
g_assert_false(seenDupe2);
seenDupe2 = TRUE;
}
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "db-media-dupe3")) {
g_assert_false(seenDupe3);
seenDupe3 = TRUE;
}
if (g_str_equal(osinfo_product_get_short_id(OSINFO_PRODUCT(os)), "db-media-dupe4")) {
g_assert_false(seenDupe4);
seenDupe4 = TRUE;
}
}
g_assert(seenDupe1 && seenDupe2 && seenDupe3 && seenDupe4);
g_object_unref(medialist);
g_object_unref(media);
g_object_unref(loader);
}
static OsinfoTree *
create_tree(const gchar *arch, const gchar *treeinfo_arch)
{
OsinfoTree *tree;
tree = osinfo_tree_new("foo", arch);
osinfo_entity_set_param(OSINFO_ENTITY(tree),
OSINFO_TREE_PROP_TREEINFO_FAMILY,
"Tree");
osinfo_entity_set_param(OSINFO_ENTITY(tree),
OSINFO_TREE_PROP_TREEINFO_VERSION,
"unknown");
if (treeinfo_arch)
osinfo_entity_set_param(OSINFO_ENTITY(tree),
OSINFO_TREE_PROP_TREEINFO_ARCH,
treeinfo_arch);
return tree;
}
static void
test_identify_tree(void)
{
OsinfoLoader *loader = osinfo_loader_new();
OsinfoDb *db;
OsinfoTree *tree;
GError *error = NULL;
osinfo_loader_process_path(loader, SRCDIR "/tests/dbdata", &error);
g_assert_no_error(error);
db = osinfo_loader_get_db(loader);
/* Matching against an "all" architecture" */
tree = create_tree("x86_64", NULL);
g_assert_true(osinfo_db_identify_tree(db, tree));
g_assert_cmpstr(osinfo_tree_get_architecture(tree), ==, "all");
g_object_unref(tree);
/* Matching against a known architecture, which has to have precedence */
tree = create_tree("i686", "i686");
g_assert_true(osinfo_db_identify_tree(db, tree));
g_assert_cmpstr(osinfo_tree_get_architecture(tree), ==, "i686");
g_object_unref(tree);
/* Matching against a known architecture, which has to have precedence */
tree = create_tree(NULL, "i686");
g_assert_true(osinfo_db_identify_tree(db, tree));
g_assert_cmpstr(osinfo_tree_get_architecture(tree), ==, "i686");
g_object_unref(tree);
/* Should not match a tree tagged with different arch, even
* if treeinfo matches */
tree = create_tree("armv7hl", "arm");
g_assert_true(osinfo_db_identify_tree(db, tree));
g_assert_cmpstr(osinfo_tree_get_url(tree), ==, "http://libosinfo.org/tree/v7");
g_object_unref(tree);
tree = create_tree("armv6", "arm");
g_assert_true(osinfo_db_identify_tree(db, tree));
g_assert_cmpstr(osinfo_tree_get_url(tree), ==, "http://libosinfo.org/tree/v6");
g_object_unref(tree);
g_object_unref(loader);
}
static void
test_identify_all_tree(void)
{
OsinfoLoader *loader = osinfo_loader_new();
OsinfoDb *db;
OsinfoTree *tree, *newtree;
OsinfoTreeList *treelist;
gboolean seenV6, seenV7, seenFallback;
GError *error = NULL;
int i;
osinfo_loader_process_path(loader, SRCDIR "/tests/dbdata", &error);
g_assert_no_error(error);
db = osinfo_loader_get_db(loader);
/* Matching against an "all" architecture" */
tree = create_tree("x86_64", NULL);
treelist = osinfo_db_identify_treelist(db, tree);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(treelist)), ==, 1);
newtree = OSINFO_TREE(osinfo_list_get_nth(OSINFO_LIST(treelist), 0));
g_assert_cmpstr(osinfo_tree_get_architecture(newtree), ==, "all");
g_object_unref(treelist);
g_object_unref(tree);
/* Matching against a known architecture, which has to have precedence */
tree = create_tree("i686", "i686");
treelist = osinfo_db_identify_treelist(db, tree);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(treelist)), ==, 1);
newtree = OSINFO_TREE(osinfo_list_get_nth(OSINFO_LIST(treelist), 0));
g_assert_cmpstr(osinfo_tree_get_architecture(newtree), ==, "i686");
g_object_unref(treelist);
g_object_unref(tree);
/* Matching against a known architecture, which has to have precedence */
tree = create_tree(NULL, "i686");
treelist = osinfo_db_identify_treelist(db, tree);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(treelist)), ==, 1);
newtree = OSINFO_TREE(osinfo_list_get_nth(OSINFO_LIST(treelist), 0));
g_assert_cmpstr(osinfo_tree_get_architecture(newtree), ==, "i686");
g_object_unref(treelist);
g_object_unref(tree);
/* Should not match a tree tagged with different arch, even
* if treeinfo matches, but can match fallback arch */
seenV6 = seenV7 = seenFallback = FALSE;
tree = create_tree("armv7hl", "arm");
treelist = osinfo_db_identify_treelist(db, tree);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(treelist)), ==, 2);
for (i = 0; i < 2; i++) {
newtree = OSINFO_TREE(osinfo_list_get_nth(OSINFO_LIST(treelist), i));
if (osinfo_tree_get_url(newtree) == NULL) {
g_assert_false(seenFallback);
seenFallback = TRUE;
} else if (g_str_equal(osinfo_tree_get_url(newtree), "http://libosinfo.org/tree/v6")) {
g_assert_false(seenV6);
seenV6 = TRUE;
} else if (g_str_equal(osinfo_tree_get_url(newtree), "http://libosinfo.org/tree/v7")) {
g_assert_false(seenV7);
seenV7 = TRUE;
}
}
g_assert(!seenV6 && seenV7 && seenFallback);
g_object_unref(treelist);
g_object_unref(tree);
tree = create_tree("armv6", "arm");
treelist = osinfo_db_identify_treelist(db, tree);
g_assert_cmpint(osinfo_list_get_length(OSINFO_LIST(treelist)), ==, 2);
seenV6 = seenV7 = seenFallback = FALSE;
for (i = 0; i < 2; i++) {
newtree = OSINFO_TREE(osinfo_list_get_nth(OSINFO_LIST(treelist), i));
if (osinfo_tree_get_url(newtree) == NULL) {
g_assert_false(seenFallback);
seenFallback = TRUE;
} else if (g_str_equal(osinfo_tree_get_url(newtree), "http://libosinfo.org/tree/v6")) {
g_assert_false(seenV6);
seenV6 = TRUE;
} else if (g_str_equal(osinfo_tree_get_url(newtree), "http://libosinfo.org/tree/v7")) {
g_assert_false(seenV7);
seenV7 = TRUE;
}
}
g_assert(seenV6 && !seenV7 && seenFallback);
g_object_unref(treelist);
g_object_unref(tree);
g_object_unref(loader);
}
int
main(int argc, char *argv[])
{
g_test_init(&argc, &argv, NULL);
g_test_add_func("/db/basic", test_basic);
g_test_add_func("/db/device", test_device);
g_test_add_func("/db/platform", test_platform);
g_test_add_func("/db/os", test_os);
g_test_add_func("/db/prop_device", test_prop_device);
g_test_add_func("/db/prop_platform", test_prop_platform);
g_test_add_func("/db/prop_os", test_prop_os);
g_test_add_func("/db/rel_os", test_rel_os);
g_test_add_func("/db/identify_media", test_identify_media);
g_test_add_func("/db/identify_all_media", test_identify_all_media);
g_test_add_func("/db/identify_tree", test_identify_tree);
g_test_add_func("/db/identify_all_tree", test_identify_all_tree);
/* Upfront so we don't confuse valgrind */
osinfo_entity_get_type();
osinfo_db_get_type();
osinfo_device_get_type();
osinfo_platform_get_type();
osinfo_os_get_type();
osinfo_list_get_type();
osinfo_devicelist_get_type();
osinfo_platformlist_get_type();
osinfo_oslist_get_type();
osinfo_filter_get_type();
osinfo_loader_get_type();
osinfo_install_script_get_type();
osinfo_install_scriptlist_get_type();
osinfo_tree_get_type();
osinfo_media_get_type();
return g_test_run();
}