/* * Copyright (C) 2010 Red Hat, Inc. All rights reserved. * * This file is part of LVM2. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU General Public License v.2. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "libdevmapper.h" #include int config_init(void); int config_fini(void); static struct dm_pool *mem; int config_init(void) { mem = dm_pool_create("config test", 1024); return mem == NULL; } int config_fini(void) { dm_pool_destroy(mem); return 0; } static const char *conf = "id = \"yada-yada\"\n" "seqno = 15\n" "status = [\"READ\", \"WRITE\"]\n" "flags = []\n" "extent_size = 8192\n" "physical_volumes {\n" " pv0 {\n" " id = \"abcd-efgh\"\n" " }\n" " pv1 {\n" " id = \"bbcd-efgh\"\n" " }\n" " pv2 {\n" " id = \"cbcd-efgh\"\n" " }\n" "}\n"; static const char *overlay = "id = \"yoda-soda\"\n" "flags = [\"FOO\"]\n" "physical_volumes {\n" " pv1 {\n" " id = \"hgfe-dcba\"\n" " }\n" " pv3 {\n" " id = \"dbcd-efgh\"\n" " }\n" "}\n"; static void test_parse(void) { struct dm_config_tree *tree = dm_config_from_string(conf); const struct dm_config_value *value; CU_ASSERT((long) tree); CU_ASSERT(dm_config_has_node(tree->root, "id")); CU_ASSERT(dm_config_has_node(tree->root, "physical_volumes")); CU_ASSERT(dm_config_has_node(tree->root, "physical_volumes/pv0")); CU_ASSERT(dm_config_has_node(tree->root, "physical_volumes/pv0/id")); CU_ASSERT(!strcmp(dm_config_find_str(tree->root, "id", "foo"), "yada-yada")); CU_ASSERT(!strcmp(dm_config_find_str(tree->root, "idt", "foo"), "foo")); CU_ASSERT(!strcmp(dm_config_find_str(tree->root, "physical_volumes/pv0/bb", "foo"), "foo")); CU_ASSERT(!strcmp(dm_config_find_str(tree->root, "physical_volumes/pv0/id", "foo"), "abcd-efgh")); CU_ASSERT(!dm_config_get_uint32(tree->root, "id", NULL)); CU_ASSERT(dm_config_get_uint32(tree->root, "extent_size", NULL)); /* FIXME: Currently everything parses as a list, even if it's not */ // CU_ASSERT(!dm_config_get_list(tree->root, "id", NULL)); // CU_ASSERT(!dm_config_get_list(tree->root, "extent_size", NULL)); CU_ASSERT(dm_config_get_list(tree->root, "flags", &value)); CU_ASSERT(value->next == NULL); /* an empty list */ CU_ASSERT(dm_config_get_list(tree->root, "status", &value)); CU_ASSERT(value->next != NULL); /* a non-empty list */ dm_config_destroy(tree); } static void test_clone(void) { struct dm_config_tree *tree = dm_config_from_string(conf); struct dm_config_node *n = dm_config_clone_node(tree, tree->root, 1); const struct dm_config_value *value; /* Check that the nodes are actually distinct. */ CU_ASSERT(n != tree->root); CU_ASSERT(n->sib != tree->root->sib); CU_ASSERT(dm_config_find_node(n, "physical_volumes") != NULL); CU_ASSERT(dm_config_find_node(tree->root, "physical_volumes") != NULL); CU_ASSERT(dm_config_find_node(n, "physical_volumes") != dm_config_find_node(tree->root, "physical_volumes")); CU_ASSERT(dm_config_has_node(n, "id")); CU_ASSERT(dm_config_has_node(n, "physical_volumes")); CU_ASSERT(dm_config_has_node(n, "physical_volumes/pv0")); CU_ASSERT(dm_config_has_node(n, "physical_volumes/pv0/id")); CU_ASSERT(!strcmp(dm_config_find_str(n, "id", "foo"), "yada-yada")); CU_ASSERT(!strcmp(dm_config_find_str(n, "idt", "foo"), "foo")); CU_ASSERT(!strcmp(dm_config_find_str(n, "physical_volumes/pv0/bb", "foo"), "foo")); CU_ASSERT(!strcmp(dm_config_find_str(n, "physical_volumes/pv0/id", "foo"), "abcd-efgh")); CU_ASSERT(!dm_config_get_uint32(n, "id", NULL)); CU_ASSERT(dm_config_get_uint32(n, "extent_size", NULL)); /* FIXME: Currently everything parses as a list, even if it's not */ // CU_ASSERT(!dm_config_get_list(tree->root, "id", NULL)); // CU_ASSERT(!dm_config_get_list(tree->root, "extent_size", NULL)); CU_ASSERT(dm_config_get_list(n, "flags", &value)); CU_ASSERT(value->next == NULL); /* an empty list */ CU_ASSERT(dm_config_get_list(n, "status", &value)); CU_ASSERT(value->next != NULL); /* a non-empty list */ dm_config_destroy(tree); } static void test_cascade(void) { struct dm_config_tree *t1 = dm_config_from_string(conf), *t2 = dm_config_from_string(overlay), *tree = dm_config_insert_cascaded_tree(t2, t1); CU_ASSERT(!strcmp(dm_config_tree_find_str(tree, "id", "foo"), "yoda-soda")); CU_ASSERT(!strcmp(dm_config_tree_find_str(tree, "idt", "foo"), "foo")); CU_ASSERT(!strcmp(dm_config_tree_find_str(tree, "physical_volumes/pv0/bb", "foo"), "foo")); CU_ASSERT(!strcmp(dm_config_tree_find_str(tree, "physical_volumes/pv1/id", "foo"), "hgfe-dcba")); CU_ASSERT(!strcmp(dm_config_tree_find_str(tree, "physical_volumes/pv3/id", "foo"), "dbcd-efgh")); dm_config_destroy(t1); dm_config_destroy(t2); } CU_TestInfo config_list[] = { { (char*)"parse", test_parse }, { (char*)"clone", test_clone }, { (char*)"cascade", test_cascade }, CU_TEST_INFO_NULL };