/* * QEMU XenStore XsNode testing * * Copyright © 2023 Amazon.com, Inc. or its affiliates. All Rights Reserved. * This work is licensed under the terms of the GNU GPL, version 2 or later. * See the COPYING file in the top-level directory. */ #include "qemu/osdep.h" #include "qapi/error.h" #include "qemu/module.h" static int nr_xs_nodes; static GList *xs_node_list; #define XS_NODE_UNIT_TEST /* * We don't need the core Xen definitions. And we *do* want to be able * to run the unit tests even on architectures that Xen doesn't support * (because life's too short to bother doing otherwise, and test coverage * doesn't hurt). */ #define __XEN_PUBLIC_XEN_H__ typedef unsigned long xen_pfn_t; #include "hw/i386/kvm/xenstore_impl.c" #define DOMID_QEMU 0 #define DOMID_GUEST 1 static void dump_ref(const char *name, XsNode *n, int indent) { int i; if (!indent && name) { printf("%s:\n", name); } for (i = 0; i < indent; i++) { printf(" "); } printf("->%p(%d, '%s'): '%.*s'%s%s\n", n, n->ref, n->name, (int)(n->content ? n->content->len : strlen("")), n->content ? (char *)n->content->data : "", n->modified_in_tx ? " MODIFIED" : "", n->deleted_in_tx ? " DELETED" : ""); if (n->children) { g_hash_table_foreach(n->children, (void *)dump_ref, GINT_TO_POINTER(indent + 2)); } } /* This doesn't happen in qemu but we want to make valgrind happy */ static void xs_impl_delete(XenstoreImplState *s, bool last) { int err; xs_impl_reset_watches(s, DOMID_GUEST); g_assert(!s->nr_domu_watches); err = xs_impl_rm(s, DOMID_QEMU, XBT_NULL, "/local"); g_assert(!err); g_assert(s->nr_nodes == 1); g_hash_table_unref(s->watches); g_hash_table_unref(s->transactions); xs_node_unref(s->root); g_free(s); if (!last) { return; } if (xs_node_list) { GList *l; for (l = xs_node_list; l; l = l->next) { XsNode *n = l->data; printf("Remaining node at %p name %s ref %u\n", n, n->name, n->ref); } } g_assert(!nr_xs_nodes); } struct compare_walk { char path[XENSTORE_ABS_PATH_MAX + 1]; XsNode *parent_2; bool compare_ok; }; static bool compare_perms(GList *p1, GList *p2) { while (p1) { if (!p2 || g_strcmp0(p1->data, p2->data)) { return false; } p1 = p1->next; p2 = p2->next; } return (p2 == NULL); } static bool compare_content(GByteArray *c1, GByteArray *c2) { size_t len1 = 0, len2 = 0; if (c1) { len1 = c1->len; } if (c2) { len2 = c2->len; } if (len1 != len2) { return false; } if (!len1) { return true; } return !memcmp(c1->data, c2->data, len1); } static void compare_child(gpointer, gpointer, gpointer); static void compare_nodes(struct compare_walk *cw, XsNode *n1, XsNode *n2) { int nr_children1 = 0, nr_children2 = 0; if (n1->children) { nr_children1 = g_hash_table_size(n1->children); } if (n2->children) { nr_children2 = g_hash_table_size(n2->children); } if (n1->ref != n2->ref || n1->deleted_in_tx != n2->deleted_in_tx || n1->modified_in_tx != n2->modified_in_tx || !compare_perms(n1->perms, n2->perms) || !compare_content(n1->content, n2->content) || nr_children1 != nr_children2) { cw->compare_ok = false; printf("Compare failure on '%s'\n", cw->path); } if (nr_children1) { XsNode *oldparent = cw->parent_2; cw->parent_2 = n2; g_hash_table_foreach(n1->children, compare_child, cw); cw->parent_2 = oldparent; } } static void compare_child(gpointer key, gpointer val, gpointer opaque) { struct compare_walk *cw = opaque; char *childname = key; XsNode *child1 = val; XsNode *child2 = g_hash_table_lookup(cw->parent_2->children, childname); int pathlen = strlen(cw->path); if (!child2) { cw->compare_ok = false; printf("Child '%s' does not exist under '%s'\n", childname, cw->path); return; } strncat(cw->path, "/", sizeof(cw->path) - 1); strncat(cw->path, childname, sizeof(cw->path) - 1); compare_nodes(cw, child1, child2); cw->path[pathlen] = '\0'; } static bool compare_trees(XsNode *n1, XsNode *n2) { struct compare_walk cw; cw.path[0] = '\0'; cw.parent_2 = n2; cw.compare_ok = true; if (!n1 || !n2) { return false; } compare_nodes(&cw, n1, n2); return cw.compare_ok; } static void compare_tx(gpointer key, gpointer val, gpointer opaque) { XenstoreImplState *s2 = opaque; XsTransaction *t1 = val, *t2; unsigned int tx_id = GPOINTER_TO_INT(key); t2 = g_hash_table_lookup(s2->transactions, key); g_assert(t2); g_assert(t1->tx_id == tx_id); g_assert(t2->tx_id == tx_id); g_assert(t1->base_tx == t2->base_tx); g_assert(t1->dom_id == t2->dom_id); if (!compare_trees(t1->root, t2->root)) { printf("Comparison failure in TX %u after serdes:\n", tx_id); dump_ref("Original", t1->root, 0); dump_ref("Deserialised", t2->root, 0); g_assert_not_reached(); } g_assert(t1->nr_nodes == t2->nr_nodes); } static int write_str(XenstoreImplState *s, unsigned int dom_id, unsigned int tx_id, const char *path, const char *content) { GByteArray *d = g_byte_array_new(); int err; g_byte_array_append(d, (void *)content, strlen(content)); err = xs_impl_write(s, dom_id, tx_id, path, d); g_byte_array_unref(d); return err; } static void watch_cb(void *_str, const char *path, const char *token) { GString *str = _str; g_string_append(str, path); g_string_append(str, token); } static void check_serdes(XenstoreImplState *s) { XenstoreImplState *s2 = xs_impl_create(DOMID_GUEST); GByteArray *bytes = xs_impl_serialize(s); int nr_transactions1, nr_transactions2; int ret; ret = xs_impl_deserialize(s2, bytes, DOMID_GUEST, watch_cb, NULL); g_assert(!ret); g_byte_array_unref(bytes); g_assert(s->last_tx == s2->last_tx); g_assert(s->root_tx == s2->root_tx); if (!compare_trees(s->root, s2->root)) { printf("Comparison failure in main tree after serdes:\n"); dump_ref("Original", s->root, 0); dump_ref("Deserialised", s2->root, 0); g_assert_not_reached(); } nr_transactions1 = g_hash_table_size(s->transactions); nr_transactions2 = g_hash_table_size(s2->transactions); g_assert(nr_transactions1 == nr_transactions2); g_hash_table_foreach(s->transactions, compare_tx, s2); g_assert(s->nr_domu_watches == s2->nr_domu_watches); g_assert(s->nr_domu_transactions == s2->nr_domu_transactions); g_assert(s->nr_nodes == s2->nr_nodes); xs_impl_delete(s2, false); } static XenstoreImplState *setup(void) { XenstoreImplState *s = xs_impl_create(DOMID_GUEST); char *abspath; GList *perms; int err; abspath = g_strdup_printf("/local/domain/%u", DOMID_GUEST); err = write_str(s, DOMID_QEMU, XBT_NULL, abspath, ""); g_assert(!err); g_assert(s->nr_nodes == 4); perms = g_list_append(NULL, g_strdup_printf("n%u", DOMID_QEMU)); perms = g_list_append(perms, g_strdup_printf("r%u", DOMID_GUEST)); err = xs_impl_set_perms(s, DOMID_QEMU, XBT_NULL, abspath, perms); g_assert(!err); g_list_free_full(perms, g_free); g_free(abspath); abspath = g_strdup_printf("/local/domain/%u/some", DOMID_GUEST); err = write_str(s, DOMID_QEMU, XBT_NULL, abspath, ""); g_assert(!err); g_assert(s->nr_nodes == 5); perms = g_list_append(NULL, g_strdup_printf("n%u", DOMID_GUEST)); err = xs_impl_set_perms(s, DOMID_QEMU, XBT_NULL, abspath, perms); g_assert(!err); g_list_free_full(perms, g_free); g_free(abspath); return s; } static void test_xs_node_simple(void) { GByteArray *data = g_byte_array_new(); XenstoreImplState *s = setup(); GString *guest_watches = g_string_new(NULL); GString *qemu_watches = g_string_new(NULL); GList *items = NULL; XsNode *old_root; uint64_t gencnt; int err; g_assert(s); err = xs_impl_watch(s, DOMID_GUEST, "some", "guestwatch", watch_cb, guest_watches); g_assert(!err); g_assert(guest_watches->len == strlen("someguestwatch")); g_assert(!strcmp(guest_watches->str, "someguestwatch")); g_string_truncate(guest_watches, 0); err = xs_impl_watch(s, 0, "/local/domain/1/some", "qemuwatch", watch_cb, qemu_watches); g_assert(!err); g_assert(qemu_watches->len == strlen("/local/domain/1/someqemuwatch")); g_assert(!strcmp(qemu_watches->str, "/local/domain/1/someqemuwatch")); g_string_truncate(qemu_watches, 0); /* Read gives ENOENT when it should */ err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "foo", data); g_assert(err == ENOENT); /* Write works */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/relative/path", "something"); g_assert(s->nr_nodes == 7); g_assert(!err); g_assert(!strcmp(guest_watches->str, "some/relative/pathguestwatch")); g_assert(!strcmp(qemu_watches->str, "/local/domain/1/some/relative/pathqemuwatch")); g_string_truncate(qemu_watches, 0); g_string_truncate(guest_watches, 0); xs_impl_reset_watches(s, 0); /* Read gives back what we wrote */ err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/relative/path", data); g_assert(!err); g_assert(data->len == strlen("something")); g_assert(!memcmp(data->data, "something", data->len)); /* Even if we use an absolute path */ g_byte_array_set_size(data, 0); err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "/local/domain/1/some/relative/path", data); g_assert(!err); g_assert(data->len == strlen("something")); g_assert(!qemu_watches->len); g_assert(!guest_watches->len); /* Keep a copy, to force COW mode */ old_root = xs_node_ref(s->root); /* Write somewhere we aren't allowed, in COW mode */ err = write_str(s, DOMID_GUEST, XBT_NULL, "/local/domain/badplace", "moredata"); g_assert(err == EACCES); g_assert(s->nr_nodes == 7); /* Write works again */ err = write_str(s, DOMID_GUEST, XBT_NULL, "/local/domain/1/some/relative/path2", "something else"); g_assert(!err); g_assert(s->nr_nodes == 8); g_assert(!qemu_watches->len); g_assert(!strcmp(guest_watches->str, "some/relative/path2guestwatch")); g_string_truncate(guest_watches, 0); /* Overwrite an existing node */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/relative/path", "another thing"); g_assert(!err); g_assert(s->nr_nodes == 8); g_assert(!qemu_watches->len); g_assert(!strcmp(guest_watches->str, "some/relative/pathguestwatch")); g_string_truncate(guest_watches, 0); /* We can list the two files we wrote */ err = xs_impl_directory(s, DOMID_GUEST, XBT_NULL, "some/relative", &gencnt, &items); g_assert(!err); g_assert(items); g_assert(gencnt == 2); g_assert(!strcmp(items->data, "path")); g_assert(items->next); g_assert(!strcmp(items->next->data, "path2")); g_assert(!items->next->next); g_list_free_full(items, g_free); err = xs_impl_unwatch(s, DOMID_GUEST, "some", "guestwatch", watch_cb, guest_watches); g_assert(!err); err = xs_impl_unwatch(s, DOMID_GUEST, "some", "guestwatch", watch_cb, guest_watches); g_assert(err == ENOENT); err = xs_impl_watch(s, DOMID_GUEST, "some/relative/path2", "watchp2", watch_cb, guest_watches); g_assert(!err); g_assert(guest_watches->len == strlen("some/relative/path2watchp2")); g_assert(!strcmp(guest_watches->str, "some/relative/path2watchp2")); g_string_truncate(guest_watches, 0); err = xs_impl_watch(s, DOMID_GUEST, "/local/domain/1/some/relative", "watchrel", watch_cb, guest_watches); g_assert(!err); g_assert(guest_watches->len == strlen("/local/domain/1/some/relativewatchrel")); g_assert(!strcmp(guest_watches->str, "/local/domain/1/some/relativewatchrel")); g_string_truncate(guest_watches, 0); /* Write somewhere else which already existed */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/relative", "moredata"); g_assert(!err); g_assert(s->nr_nodes == 8); /* Write somewhere we aren't allowed */ err = write_str(s, DOMID_GUEST, XBT_NULL, "/local/domain/badplace", "moredata"); g_assert(err == EACCES); g_assert(!strcmp(guest_watches->str, "/local/domain/1/some/relativewatchrel")); g_string_truncate(guest_watches, 0); g_byte_array_set_size(data, 0); err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/relative", data); g_assert(!err); g_assert(data->len == strlen("moredata")); g_assert(!memcmp(data->data, "moredata", data->len)); /* Overwrite existing data */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/relative", "otherdata"); g_assert(!err); g_string_truncate(guest_watches, 0); g_byte_array_set_size(data, 0); err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/relative", data); g_assert(!err); g_assert(data->len == strlen("otherdata")); g_assert(!memcmp(data->data, "otherdata", data->len)); /* Remove the subtree */ err = xs_impl_rm(s, DOMID_GUEST, XBT_NULL, "some/relative"); g_assert(!err); g_assert(s->nr_nodes == 5); /* Each watch fires with the least specific relevant path */ g_assert(strstr(guest_watches->str, "some/relative/path2watchp2")); g_assert(strstr(guest_watches->str, "/local/domain/1/some/relativewatchrel")); g_string_truncate(guest_watches, 0); g_byte_array_set_size(data, 0); err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/relative", data); g_assert(err == ENOENT); g_byte_array_unref(data); xs_impl_reset_watches(s, DOMID_GUEST); g_string_free(qemu_watches, true); g_string_free(guest_watches, true); xs_node_unref(old_root); xs_impl_delete(s, true); } static void do_test_xs_node_tx(bool fail, bool commit) { XenstoreImplState *s = setup(); GString *watches = g_string_new(NULL); GByteArray *data = g_byte_array_new(); unsigned int tx_id = XBT_NULL; int err; g_assert(s); /* Set a watch */ err = xs_impl_watch(s, DOMID_GUEST, "some", "watch", watch_cb, watches); g_assert(!err); g_assert(watches->len == strlen("somewatch")); g_assert(!strcmp(watches->str, "somewatch")); g_string_truncate(watches, 0); /* Write something */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/relative/path", "something"); g_assert(s->nr_nodes == 7); g_assert(!err); g_assert(!strcmp(watches->str, "some/relative/pathwatch")); g_string_truncate(watches, 0); /* Create a transaction */ err = xs_impl_transaction_start(s, DOMID_GUEST, &tx_id); g_assert(!err); if (fail) { /* Write something else in the root */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/relative/path", "another thing"); g_assert(!err); g_assert(s->nr_nodes == 7); g_assert(!strcmp(watches->str, "some/relative/pathwatch")); g_string_truncate(watches, 0); } g_assert(!watches->len); /* Perform a write in the transaction */ err = write_str(s, DOMID_GUEST, tx_id, "some/relative/path", "something else"); g_assert(!err); g_assert(s->nr_nodes == 7); g_assert(!watches->len); err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/relative/path", data); g_assert(!err); if (fail) { g_assert(data->len == strlen("another thing")); g_assert(!memcmp(data->data, "another thing", data->len)); } else { g_assert(data->len == strlen("something")); g_assert(!memcmp(data->data, "something", data->len)); } g_byte_array_set_size(data, 0); err = xs_impl_read(s, DOMID_GUEST, tx_id, "some/relative/path", data); g_assert(!err); g_assert(data->len == strlen("something else")); g_assert(!memcmp(data->data, "something else", data->len)); g_byte_array_set_size(data, 0); check_serdes(s); /* Attempt to commit the transaction */ err = xs_impl_transaction_end(s, DOMID_GUEST, tx_id, commit); if (commit && fail) { g_assert(err == EAGAIN); } else { g_assert(!err); } if (commit && !fail) { g_assert(!strcmp(watches->str, "some/relative/pathwatch")); g_string_truncate(watches, 0); } else { g_assert(!watches->len); } g_assert(s->nr_nodes == 7); check_serdes(s); err = xs_impl_unwatch(s, DOMID_GUEST, "some", "watch", watch_cb, watches); g_assert(!err); err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/relative/path", data); g_assert(!err); if (fail) { g_assert(data->len == strlen("another thing")); g_assert(!memcmp(data->data, "another thing", data->len)); } else if (commit) { g_assert(data->len == strlen("something else")); g_assert(!memcmp(data->data, "something else", data->len)); } else { g_assert(data->len == strlen("something")); g_assert(!memcmp(data->data, "something", data->len)); } g_byte_array_unref(data); g_string_free(watches, true); xs_impl_delete(s, true); } static void test_xs_node_tx_fail(void) { do_test_xs_node_tx(true, true); } static void test_xs_node_tx_abort(void) { do_test_xs_node_tx(false, false); do_test_xs_node_tx(true, false); } static void test_xs_node_tx_succeed(void) { do_test_xs_node_tx(false, true); } static void test_xs_node_tx_rm(void) { XenstoreImplState *s = setup(); GString *watches = g_string_new(NULL); GByteArray *data = g_byte_array_new(); unsigned int tx_id = XBT_NULL; int err; g_assert(s); /* Set a watch */ err = xs_impl_watch(s, DOMID_GUEST, "some", "watch", watch_cb, watches); g_assert(!err); g_assert(watches->len == strlen("somewatch")); g_assert(!strcmp(watches->str, "somewatch")); g_string_truncate(watches, 0); /* Write something */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/deep/dark/relative/path", "something"); g_assert(!err); g_assert(s->nr_nodes == 9); g_assert(!strcmp(watches->str, "some/deep/dark/relative/pathwatch")); g_string_truncate(watches, 0); /* Create a transaction */ err = xs_impl_transaction_start(s, DOMID_GUEST, &tx_id); g_assert(!err); /* Delete the tree in the transaction */ err = xs_impl_rm(s, DOMID_GUEST, tx_id, "some/deep/dark"); g_assert(!err); g_assert(s->nr_nodes == 9); g_assert(!watches->len); err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/deep/dark/relative/path", data); g_assert(!err); g_assert(data->len == strlen("something")); g_assert(!memcmp(data->data, "something", data->len)); g_byte_array_set_size(data, 0); check_serdes(s); /* Commit the transaction */ err = xs_impl_transaction_end(s, DOMID_GUEST, tx_id, true); g_assert(!err); g_assert(s->nr_nodes == 6); g_assert(!strcmp(watches->str, "some/deep/darkwatch")); g_string_truncate(watches, 0); /* Now the node is gone */ err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/deep/dark/relative/path", data); g_assert(err == ENOENT); g_byte_array_unref(data); err = xs_impl_unwatch(s, DOMID_GUEST, "some", "watch", watch_cb, watches); g_assert(!err); g_string_free(watches, true); xs_impl_delete(s, true); } static void test_xs_node_tx_resurrect(void) { XenstoreImplState *s = setup(); GString *watches = g_string_new(NULL); GByteArray *data = g_byte_array_new(); unsigned int tx_id = XBT_NULL; int err; g_assert(s); /* Write something */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/deep/dark/relative/path", "something"); g_assert(!err); g_assert(s->nr_nodes == 9); /* Another node to remain shared */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/place/safe", "keepme"); g_assert(!err); g_assert(s->nr_nodes == 11); /* This node will be wiped and resurrected */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/deep/dark", "foo"); g_assert(!err); g_assert(s->nr_nodes == 11); /* Set a watch */ err = xs_impl_watch(s, DOMID_GUEST, "some", "watch", watch_cb, watches); g_assert(!err); g_assert(watches->len == strlen("somewatch")); g_assert(!strcmp(watches->str, "somewatch")); g_string_truncate(watches, 0); /* Create a transaction */ err = xs_impl_transaction_start(s, DOMID_GUEST, &tx_id); g_assert(!err); /* Delete the tree in the transaction */ err = xs_impl_rm(s, DOMID_GUEST, tx_id, "some/deep"); g_assert(!err); g_assert(s->nr_nodes == 11); g_assert(!watches->len); /* Resurrect part of it */ err = write_str(s, DOMID_GUEST, tx_id, "some/deep/dark/different/path", "something"); g_assert(!err); g_assert(s->nr_nodes == 11); check_serdes(s); /* Commit the transaction */ err = xs_impl_transaction_end(s, DOMID_GUEST, tx_id, true); g_assert(!err); g_assert(s->nr_nodes == 11); check_serdes(s); /* lost data */ g_assert(strstr(watches->str, "some/deep/dark/different/pathwatch")); /* topmost deleted */ g_assert(strstr(watches->str, "some/deep/dark/relativewatch")); /* lost data */ g_assert(strstr(watches->str, "some/deep/darkwatch")); g_string_truncate(watches, 0); /* Now the node is gone */ err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/deep/dark/relative/path", data); g_assert(err == ENOENT); g_byte_array_unref(data); check_serdes(s); err = xs_impl_unwatch(s, DOMID_GUEST, "some", "watch", watch_cb, watches); g_assert(!err); g_string_free(watches, true); xs_impl_delete(s, true); } static void test_xs_node_tx_resurrect2(void) { XenstoreImplState *s = setup(); GString *watches = g_string_new(NULL); GByteArray *data = g_byte_array_new(); unsigned int tx_id = XBT_NULL; int err; g_assert(s); /* Write something */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/deep/dark/relative/path", "something"); g_assert(!err); g_assert(s->nr_nodes == 9); /* Another node to remain shared */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/place/safe", "keepme"); g_assert(!err); g_assert(s->nr_nodes == 11); /* This node will be wiped and resurrected */ err = write_str(s, DOMID_GUEST, XBT_NULL, "some/deep/dark", "foo"); g_assert(!err); g_assert(s->nr_nodes == 11); /* Set a watch */ err = xs_impl_watch(s, DOMID_GUEST, "some", "watch", watch_cb, watches); g_assert(!err); g_assert(watches->len == strlen("somewatch")); g_assert(!strcmp(watches->str, "somewatch")); g_string_truncate(watches, 0); /* Create a transaction */ err = xs_impl_transaction_start(s, DOMID_GUEST, &tx_id); g_assert(!err); /* Delete the tree in the transaction */ err = xs_impl_rm(s, DOMID_GUEST, tx_id, "some/deep"); g_assert(!err); g_assert(s->nr_nodes == 11); g_assert(!watches->len); /* Resurrect part of it */ err = write_str(s, DOMID_GUEST, tx_id, "some/deep/dark/relative/path", "something"); g_assert(!err); g_assert(s->nr_nodes == 11); check_serdes(s); /* Commit the transaction */ err = xs_impl_transaction_end(s, DOMID_GUEST, tx_id, true); g_assert(!err); g_assert(s->nr_nodes == 11); check_serdes(s); /* lost data */ g_assert(strstr(watches->str, "some/deep/dark/relative/pathwatch")); /* lost data */ g_assert(strstr(watches->str, "some/deep/darkwatch")); g_string_truncate(watches, 0); /* Now the node is gone */ err = xs_impl_read(s, DOMID_GUEST, XBT_NULL, "some/deep/dark/relative/path", data); g_assert(!err); g_assert(data->len == strlen("something")); g_assert(!memcmp(data->data, "something", data->len)); g_byte_array_unref(data); check_serdes(s); err = xs_impl_unwatch(s, DOMID_GUEST, "some", "watch", watch_cb, watches); g_assert(!err); g_string_free(watches, true); xs_impl_delete(s, true); } int main(int argc, char **argv) { g_test_init(&argc, &argv, NULL); module_call_init(MODULE_INIT_QOM); g_test_add_func("/xs_node/simple", test_xs_node_simple); g_test_add_func("/xs_node/tx_abort", test_xs_node_tx_abort); g_test_add_func("/xs_node/tx_fail", test_xs_node_tx_fail); g_test_add_func("/xs_node/tx_succeed", test_xs_node_tx_succeed); g_test_add_func("/xs_node/tx_rm", test_xs_node_tx_rm); g_test_add_func("/xs_node/tx_resurrect", test_xs_node_tx_resurrect); g_test_add_func("/xs_node/tx_resurrect2", test_xs_node_tx_resurrect2); return g_test_run(); }