/* Copyright (c) 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2017, 2019 Nicira, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "transaction.h" #include "bitmap.h" #include "openvswitch/dynamic-string.h" #include "file.h" #include "hash.h" #include "monitor.h" #include "openvswitch/hmap.h" #include "openvswitch/json.h" #include "openvswitch/list.h" #include "openvswitch/poll-loop.h" #include "openvswitch/vlog.h" #include "ovsdb-error.h" #include "ovsdb.h" #include "ovs-thread.h" #include "row.h" #include "storage.h" #include "table.h" #include "uuid.h" VLOG_DEFINE_THIS_MODULE(transaction); struct ovsdb_txn { struct ovsdb *db; struct ovs_list txn_tables; /* Contains "struct ovsdb_txn_table"s. */ struct ds comment; struct uuid txnid; /* For clustered and relay modes. It is the eid. */ size_t n_atoms; /* Number of atoms in all changed transaction rows. */ ssize_t n_atoms_diff; /* Difference between number of added and * removed atoms. */ }; /* A table modified by a transaction. */ struct ovsdb_txn_table { struct ovs_list node; /* Element in ovsdb_txn's txn_tables list. */ struct ovsdb_table *table; struct hmap txn_rows; /* Contains "struct ovsdb_txn_row"s. */ /* This has the same form as the 'indexes' member of struct ovsdb_table, * but it is only used or updated at transaction commit time, from * check_index_uniqueness(). */ struct hmap *txn_indexes; /* Used by for_each_txn_row(). */ unsigned int serial; /* Serial number of in-progress iteration. */ unsigned int n_processed; /* Number of rows processed. */ }; /* A row modified by the transaction: * * - A row added by a transaction will have null 'old' and non-null 'new'. * * - A row deleted by a transaction will have non-null 'old' and null * 'new'. * * - A row modified by a transaction will have non-null 'old' and 'new'. * * - 'old' and 'new' both null indicates that a row was added then deleted * within a single transaction. Most of the time we instead delete the * ovsdb_txn_row entirely, but inside a for_each_txn_row() callback * there are restrictions that sometimes mean we have to leave the * ovsdb_txn_row in place. */ struct ovsdb_txn_row { struct hmap_node hmap_node; /* In ovsdb_txn_table's txn_rows hmap. */ struct ovsdb_row *old; /* The old row. */ struct ovsdb_row *new; /* The new row. */ size_t n_refs; /* Number of remaining references. */ /* These members are the same as the corresponding members of 'old' or * 'new'. They are present here for convenience and because occasionally * there can be an ovsdb_txn_row where both 'old' and 'new' are NULL. */ struct uuid uuid; struct ovsdb_table *table; /* Weak refs that needs to be added/deleted to/from destination rows. */ struct ovs_list added_refs; struct ovs_list deleted_refs; /* Used by for_each_txn_row(). */ unsigned int serial; /* Serial number of in-progress commit. */ unsigned long changed[]; /* Bits set to 1 for columns that changed. */ }; static struct ovsdb_error * OVS_WARN_UNUSED_RESULT delete_garbage_row(struct ovsdb_txn *txn, struct ovsdb_txn_row *r); static void ovsdb_txn_row_prefree(struct ovsdb_txn_row *); static void ovsdb_txn_row_log(const struct ovsdb_txn_row *); static struct ovsdb_error * OVS_WARN_UNUSED_RESULT for_each_txn_row(struct ovsdb_txn *txn, struct ovsdb_error *(*)(struct ovsdb_txn *, struct ovsdb_txn_row *)); /* Used by for_each_txn_row() to track tables and rows that have been * processed. */ static unsigned int serial; /* Used by ovsdb_txn_row_log() to avoid reallocating dynamic strings * every time a row operation is logged. */ DEFINE_STATIC_PER_THREAD_DATA(struct ds, row_log_str, DS_EMPTY_INITIALIZER); struct ovsdb_txn * ovsdb_txn_create(struct ovsdb *db) { struct ovsdb_txn *txn = xzalloc(sizeof *txn); txn->db = db; ovs_list_init(&txn->txn_tables); ds_init(&txn->comment); return txn; } void ovsdb_txn_set_txnid(const struct uuid *txnid, struct ovsdb_txn *txn) { txn->txnid = *txnid; } const struct uuid * ovsdb_txn_get_txnid(const struct ovsdb_txn *txn) { return &txn->txnid; } static void ovsdb_txn_free(struct ovsdb_txn *txn) { ovs_assert(ovs_list_is_empty(&txn->txn_tables)); ds_destroy(&txn->comment); free(txn); } static struct ovsdb_error * ovsdb_txn_row_abort(struct ovsdb_txn *txn OVS_UNUSED, struct ovsdb_txn_row *txn_row) { struct ovsdb_row *old = txn_row->old; struct ovsdb_row *new = txn_row->new; ovsdb_txn_row_prefree(txn_row); if (!old) { if (new) { hmap_remove(&new->table->rows, &new->hmap_node); } } else if (!new) { hmap_insert(&old->table->rows, &old->hmap_node, ovsdb_row_hash(old)); } else { hmap_replace(&new->table->rows, &new->hmap_node, &old->hmap_node); } struct ovsdb_weak_ref *weak; LIST_FOR_EACH_SAFE (weak, src_node, &txn_row->deleted_refs) { ovs_list_remove(&weak->src_node); ovs_list_init(&weak->src_node); if (hmap_node_is_null(&weak->dst_node)) { ovsdb_weak_ref_destroy(weak); } } LIST_FOR_EACH_SAFE (weak, src_node, &txn_row->added_refs) { ovs_list_remove(&weak->src_node); ovs_list_init(&weak->src_node); if (hmap_node_is_null(&weak->dst_node)) { ovsdb_weak_ref_destroy(weak); } } ovsdb_row_destroy(new); free(txn_row); return NULL; } /* Returns the offset in bytes from the start of an ovsdb_row for 'table' to * the hmap_node for the index numbered 'i'. */ static size_t ovsdb_row_index_offset__(const struct ovsdb_table *table, size_t i) { size_t n_fields = shash_count(&table->schema->columns); return (offsetof(struct ovsdb_row, fields) + n_fields * sizeof(struct ovsdb_datum) + i * sizeof(struct hmap_node)); } /* Returns the hmap_node in 'row' for the index numbered 'i'. */ static struct hmap_node * ovsdb_row_get_index_node(struct ovsdb_row *row, size_t i) { return (void *) ((char *) row + ovsdb_row_index_offset__(row->table, i)); } /* Returns the ovsdb_row given 'index_node', which is a pointer to that row's * hmap_node for the index numbered 'i' within 'table'. */ static struct ovsdb_row * ovsdb_row_from_index_node(struct hmap_node *index_node, const struct ovsdb_table *table, size_t i) { return (void *) ((char *) index_node - ovsdb_row_index_offset__(table, i)); } void ovsdb_txn_abort(struct ovsdb_txn *txn) { ovsdb_error_assert(for_each_txn_row(txn, ovsdb_txn_row_abort)); ovsdb_txn_free(txn); } static struct ovsdb_txn_row * find_txn_row(const struct ovsdb_table *table, const struct uuid *uuid) { struct ovsdb_txn_row *txn_row; if (!table->txn_table) { return NULL; } HMAP_FOR_EACH_WITH_HASH (txn_row, hmap_node, uuid_hash(uuid), &table->txn_table->txn_rows) { if (uuid_equals(uuid, &txn_row->uuid)) { return txn_row; } } return NULL; } static struct ovsdb_txn_row * find_or_make_txn_row(struct ovsdb_txn *txn, const struct ovsdb_table *table, const struct uuid *uuid) { struct ovsdb_txn_row *txn_row = find_txn_row(table, uuid); if (!txn_row) { const struct ovsdb_row *row = ovsdb_table_get_row(table, uuid); if (row) { txn_row = ovsdb_txn_row_modify(txn, row)->txn_row; } } return txn_row; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT ovsdb_txn_adjust_atom_refs(struct ovsdb_txn *txn, const struct ovsdb_row *r, const struct ovsdb_column *c, const struct ovsdb_base_type *base, const union ovsdb_atom *atoms, unsigned int n, int delta) { const struct ovsdb_table *table; unsigned int i; if (!ovsdb_base_type_is_strong_ref(base)) { return NULL; } table = base->uuid.refTable; for (i = 0; i < n; i++) { const struct uuid *uuid = &atoms[i].uuid; struct ovsdb_txn_row *txn_row; if (uuid_equals(uuid, ovsdb_row_get_uuid(r))) { /* Self-references don't count. */ continue; } txn_row = find_or_make_txn_row(txn, table, uuid); if (!txn_row) { return ovsdb_error("referential integrity violation", "Table %s column %s row "UUID_FMT" " "references nonexistent row "UUID_FMT" in " "table %s.", r->table->schema->name, c->name, UUID_ARGS(ovsdb_row_get_uuid(r)), UUID_ARGS(uuid), table->schema->name); } txn_row->n_refs += delta; } return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT ovsdb_txn_adjust_row_refs(struct ovsdb_txn *txn, const struct ovsdb_row *r, const struct ovsdb_column *column, const struct ovsdb_datum *field, int delta) { struct ovsdb_error *error; error = ovsdb_txn_adjust_atom_refs(txn, r, column, &column->type.key, field->keys, field->n, delta); if (!error) { error = ovsdb_txn_adjust_atom_refs(txn, r, column, &column->type.value, field->values, field->n, delta); } return error; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT update_row_ref_count(struct ovsdb_txn *txn, struct ovsdb_txn_row *r) { struct ovsdb_table *table = r->table; struct shash_node *node; SHASH_FOR_EACH (node, &table->schema->columns) { const struct ovsdb_column *column = node->data; struct ovsdb_error *error; if (bitmap_is_set(r->changed, column->index)) { if (r->old && !r->new) { error = ovsdb_txn_adjust_row_refs( txn, r->old, column, &r->old->fields[column->index], -1); if (error) { return OVSDB_WRAP_BUG("error decreasing refcount", error); } } else if (!r->old && r->new) { error = ovsdb_txn_adjust_row_refs( txn, r->new, column, &r->new->fields[column->index], 1); if (error) { return error; } } else if (r->old && r->new) { struct ovsdb_datum added, removed; ovsdb_datum_added_removed(&added, &removed, &r->old->fields[column->index], &r->new->fields[column->index], &column->type); error = ovsdb_txn_adjust_row_refs( txn, r->old, column, &removed, -1); ovsdb_datum_destroy(&removed, &column->type); if (error) { ovsdb_datum_destroy(&added, &column->type); return OVSDB_WRAP_BUG("error decreasing refcount", error); } error = ovsdb_txn_adjust_row_refs( txn, r->new, column, &added, 1); ovsdb_datum_destroy(&added, &column->type); if (error) { return error; } } } } return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT check_ref_count(struct ovsdb_txn *txn OVS_UNUSED, struct ovsdb_txn_row *r) { if (r->new || !r->n_refs) { return NULL; } else { return ovsdb_error("referential integrity violation", "cannot delete %s row "UUID_FMT" because " "of %"PRIuSIZE" remaining reference(s)", r->table->schema->name, UUID_ARGS(&r->uuid), r->n_refs); } } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT delete_row_refs(struct ovsdb_txn *txn, const struct ovsdb_row *row, const struct ovsdb_base_type *base, const union ovsdb_atom *atoms, unsigned int n) { const struct ovsdb_table *table; unsigned int i; if (!ovsdb_base_type_is_strong_ref(base)) { return NULL; } table = base->uuid.refTable; for (i = 0; i < n; i++) { const struct uuid *uuid = &atoms[i].uuid; struct ovsdb_txn_row *txn_row; if (uuid_equals(uuid, ovsdb_row_get_uuid(row))) { /* Self-references don't count. */ continue; } txn_row = find_or_make_txn_row(txn, table, uuid); if (!txn_row) { return OVSDB_BUG("strong ref target missing"); } else if (!txn_row->n_refs) { return OVSDB_BUG("strong ref target has zero n_refs"); } else if (!txn_row->new) { return OVSDB_BUG("deleted strong ref target"); } if (--txn_row->n_refs == 0) { struct ovsdb_error *error = delete_garbage_row(txn, txn_row); if (error) { return error; } } } return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT delete_garbage_row(struct ovsdb_txn *txn, struct ovsdb_txn_row *txn_row) { struct shash_node *node; struct ovsdb_row *row; if (txn_row->table->schema->is_root) { return NULL; } row = txn_row->new; txn_row->new = NULL; hmap_remove(&txn_row->table->rows, &row->hmap_node); SHASH_FOR_EACH (node, &txn_row->table->schema->columns) { const struct ovsdb_column *column = node->data; const struct ovsdb_datum *field = &row->fields[column->index]; struct ovsdb_error *error; error = delete_row_refs(txn, row, &column->type.key, field->keys, field->n); if (error) { return error; } error = delete_row_refs(txn, row, &column->type.value, field->values, field->n); if (error) { return error; } } ovsdb_row_destroy(row); return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT collect_garbage(struct ovsdb_txn *txn, struct ovsdb_txn_row *txn_row) { if (txn_row->new && !txn_row->n_refs) { return delete_garbage_row(txn, txn_row); } return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT update_ref_counts(struct ovsdb_txn *txn) { struct ovsdb_error *error; error = for_each_txn_row(txn, update_row_ref_count); if (error) { return error; } return for_each_txn_row(txn, check_ref_count); } static void ovsdb_txn_row_log(const struct ovsdb_txn_row *txn_row) { static struct vlog_rate_limit rl_row_log = VLOG_RATE_LIMIT_INIT(30, 60); if (!txn_row->table->log) { return; } size_t n_columns = shash_count(&txn_row->table->schema->columns); struct ovsdb_row *log_row; const char *op = NULL; if (!txn_row->old && txn_row->new) { log_row = txn_row->new; op = "inserted"; } else if (txn_row->old && txn_row->new && !bitmap_is_all_zeros(txn_row->changed, n_columns)) { log_row = txn_row->new; op = "updated"; } else if (txn_row->old && !txn_row->new) { log_row = txn_row->old; op = "deleted"; } if (op && !VLOG_DROP_INFO(&rl_row_log)) { struct ds *ds = row_log_str_get(); ds_clear(ds); ds_put_format(ds, "table:%s,op:%s,", txn_row->table->schema->name, op); ovsdb_row_to_string(log_row, ds); VLOG_INFO("%s", ds_cstr(ds)); } } static struct ovsdb_error * ovsdb_txn_row_commit(struct ovsdb_txn *txn OVS_UNUSED, struct ovsdb_txn_row *txn_row) { size_t n_indexes = txn_row->table->schema->n_indexes; if (txn_row->old) { size_t i; for (i = 0; i < n_indexes; i++) { struct hmap_node *node = ovsdb_row_get_index_node(txn_row->old, i); hmap_remove(&txn_row->table->indexes[i], node); } } if (txn_row->new) { size_t i; for (i = 0; i < n_indexes; i++) { struct hmap_node *node = ovsdb_row_get_index_node(txn_row->new, i); hmap_insert(&txn_row->table->indexes[i], node, node->hash); } } ovsdb_txn_row_log(txn_row); ovsdb_txn_row_prefree(txn_row); if (txn_row->new) { txn_row->new->n_refs = txn_row->n_refs; } ovsdb_row_destroy(txn_row->old); free(txn_row); return NULL; } static struct ovsdb_error * ovsdb_txn_update_weak_refs(struct ovsdb_txn *txn OVS_UNUSED, struct ovsdb_txn_row *txn_row) { struct ovsdb_weak_ref *weak, *dst_weak; struct ovsdb_row *dst_row; /* Find and clean up deleted references from destination rows. */ LIST_FOR_EACH_SAFE (weak, src_node, &txn_row->deleted_refs) { dst_row = CONST_CAST(struct ovsdb_row *, ovsdb_table_get_row(weak->dst_table, &weak->dst)); if (dst_row) { dst_weak = ovsdb_row_find_weak_ref(dst_row, weak); hmap_remove(&dst_row->dst_refs, &dst_weak->dst_node); ovs_assert(ovs_list_is_empty(&dst_weak->src_node)); ovsdb_weak_ref_destroy(dst_weak); } ovs_list_remove(&weak->src_node); ovs_list_init(&weak->src_node); if (hmap_node_is_null(&weak->dst_node)) { ovsdb_weak_ref_destroy(weak); } } /* Insert the weak references added in the new version of the row. */ LIST_FOR_EACH_SAFE (weak, src_node, &txn_row->added_refs) { dst_row = CONST_CAST(struct ovsdb_row *, ovsdb_table_get_row(weak->dst_table, &weak->dst)); ovs_assert(!ovsdb_row_find_weak_ref(dst_row, weak)); hmap_insert(&dst_row->dst_refs, &weak->dst_node, ovsdb_weak_ref_hash(weak)); ovs_list_remove(&weak->src_node); ovs_list_init(&weak->src_node); } return NULL; } static void add_weak_ref(const struct ovsdb_row *src, const struct ovsdb_row *dst_, struct ovs_list *ref_list, const union ovsdb_atom *key, const union ovsdb_atom *value, bool by_key, const struct ovsdb_column *column) { struct ovsdb_row *dst = CONST_CAST(struct ovsdb_row *, dst_); struct ovsdb_weak_ref *weak; if (src == dst) { return; } weak = xzalloc(sizeof *weak); weak->src_table = src->table; weak->src = *ovsdb_row_get_uuid(src); weak->dst_table = dst->table; weak->dst = *ovsdb_row_get_uuid(dst); ovsdb_type_clone(&weak->type, &column->type); ovsdb_atom_clone(&weak->key, key, column->type.key.type); if (column->type.value.type != OVSDB_TYPE_VOID) { ovsdb_atom_clone(&weak->value, value, column->type.value.type); } weak->by_key = by_key; weak->column_idx = column->index; hmap_node_nullify(&weak->dst_node); ovs_list_push_back(ref_list, &weak->src_node); n_weak_refs++; } static void find_and_add_weak_ref(const struct ovsdb_row *src, const union ovsdb_atom *key, const union ovsdb_atom *value, const struct ovsdb_column *column, bool by_key, struct ovs_list *ref_list, struct ovsdb_datum *not_found, bool *zero) { const struct ovsdb_row *row = by_key ? ovsdb_table_get_row(column->type.key.uuid.refTable, &key->uuid) : ovsdb_table_get_row(column->type.value.uuid.refTable, &value->uuid); if (row) { add_weak_ref(src, row, ref_list, key, value, by_key, column); } else if (not_found) { if (uuid_is_zero(by_key ? &key->uuid : &value->uuid)) { *zero = true; } ovsdb_datum_add_unsafe(not_found, key, value, &column->type, NULL); } } static void find_and_add_weak_refs(const struct ovsdb_row *src, const struct ovsdb_datum *datum, const struct ovsdb_column *column, struct ovs_list *ref_list, struct ovsdb_datum *not_found, bool *zero) { unsigned int i; if (ovsdb_base_type_is_weak_ref(&column->type.key)) { for (i = 0; i < datum->n; i++) { find_and_add_weak_ref(src, &datum->keys[i], datum->values ? &datum->values[i] : NULL, column, true, ref_list, not_found, zero); } } if (ovsdb_base_type_is_weak_ref(&column->type.value)) { for (i = 0; i < datum->n; i++) { find_and_add_weak_ref(src, &datum->keys[i], &datum->values[i], column, false, ref_list, not_found, zero); } } } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT assess_weak_refs(struct ovsdb_txn *txn, struct ovsdb_txn_row *txn_row) { struct ovsdb_weak_ref *weak; struct ovsdb_table *table = txn_row->table; struct shash_node *node; if (txn_row->old && !txn_row->new) { /* Mark rows that have weak references to 'txn_row' as modified, so * that their weak references will get reassessed. Adding all weak * refs to 'deleted_ref' lists of their source rows, so they will be * cleaned up from datums and deleted on commit. */ HMAP_FOR_EACH (weak, dst_node, &txn_row->old->dst_refs) { struct ovsdb_txn_row *src_txn_row; src_txn_row = find_or_make_txn_row(txn, weak->src_table, &weak->src); if (!src_txn_row) { /* Source row is also removed. */ continue; } ovs_assert(src_txn_row); ovs_assert(ovs_list_is_empty(&weak->src_node)); ovs_list_insert(&src_txn_row->deleted_refs, &weak->src_node); } /* Creating refs that needs to be removed on commit. */ SHASH_FOR_EACH (node, &table->schema->columns) { const struct ovsdb_column *column = node->data; struct ovsdb_datum *datum = &txn_row->old->fields[column->index]; find_and_add_weak_refs(txn_row->old, datum, column, &txn_row->deleted_refs, NULL, NULL); } } if (!txn_row->new) { /* Since all the atoms will be destroyed by the ovsdb_row_destroy(), * there is no need to check them here. Source references queued * into 'deleted_ref' while removing other rows will be cleaned up at * commit time. */ return NULL; } SHASH_FOR_EACH (node, &table->schema->columns) { const struct ovsdb_column *column = node->data; struct ovsdb_datum *datum = &txn_row->new->fields[column->index]; struct ovsdb_datum added, removed, deleted_refs; unsigned int orig_n; bool zero = false; orig_n = datum->n; /* Collecting all key-value pairs that references deleted rows. */ ovsdb_datum_init_empty(&deleted_refs); LIST_FOR_EACH_SAFE (weak, src_node, &txn_row->deleted_refs) { if (column->index == weak->column_idx) { ovsdb_datum_add_unsafe(&deleted_refs, &weak->key, &weak->value, &column->type, NULL); ovs_list_remove(&weak->src_node); ovs_list_init(&weak->src_node); } } ovsdb_datum_sort_unique(&deleted_refs, &column->type); /* Removing elements that references deleted rows. */ ovsdb_datum_subtract(datum, &column->type, &deleted_refs, &column->type); ovsdb_datum_destroy(&deleted_refs, &column->type); /* Generating the difference between old and new data. */ if (txn_row->old) { ovsdb_datum_added_removed(&added, &removed, &txn_row->old->fields[column->index], datum, &column->type); } else { ovsdb_datum_init_empty(&removed); ovsdb_datum_clone(&added, datum); } /* Checking added data and creating new references. */ ovsdb_datum_init_empty(&deleted_refs); find_and_add_weak_refs(txn_row->new, &added, column, &txn_row->added_refs, &deleted_refs, &zero); if (deleted_refs.n) { /* Removing all the references that doesn't point to valid rows. */ ovsdb_datum_sort_unique(&deleted_refs, &column->type); ovsdb_datum_subtract(datum, &column->type, &deleted_refs, &column->type); ovsdb_datum_destroy(&deleted_refs, &column->type); } ovsdb_datum_destroy(&added, &column->type); /* Creating refs that needs to be removed on commit. This includes * both: the references that got directly removed from the datum and * references removed due to deletion of a referenced row. */ find_and_add_weak_refs(txn_row->new, &removed, column, &txn_row->deleted_refs, NULL, NULL); ovsdb_datum_destroy(&removed, &column->type); if (datum->n != orig_n) { bitmap_set1(txn_row->changed, column->index); if (datum->n < column->type.n_min) { const struct uuid *row_uuid = ovsdb_row_get_uuid(txn_row->new); if (zero && !txn_row->old) { return ovsdb_error( "constraint violation", "Weak reference column \"%s\" in \"%s\" row "UUID_FMT " (inserted within this transaction) contained " "all-zeros UUID (probably as the default value for " "this column) but deleting this value caused a " "constraint volation because this column is not " "allowed to be empty.", column->name, table->schema->name, UUID_ARGS(row_uuid)); } else { return ovsdb_error( "constraint violation", "Deletion of %u weak reference(s) to deleted (or " "never-existing) rows from column \"%s\" in \"%s\" " "row "UUID_FMT" %scaused this column to become empty, " "but constraints on this column disallow an " "empty column.", orig_n - datum->n, column->name, table->schema->name, UUID_ARGS(row_uuid), (txn_row->old ? "" : "(inserted within this transaction) ")); } } } } return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT determine_changes(struct ovsdb_txn *txn, struct ovsdb_txn_row *txn_row) { struct ovsdb_table *table = txn_row->table; if (txn_row->old && txn_row->new) { struct shash_node *node; bool changed = false; SHASH_FOR_EACH (node, &table->schema->columns) { const struct ovsdb_column *column = node->data; const struct ovsdb_type *type = &column->type; unsigned int idx = column->index; if (!ovsdb_datum_equals(&txn_row->old->fields[idx], &txn_row->new->fields[idx], type)) { bitmap_set1(txn_row->changed, idx); changed = true; } } if (!changed) { /* Nothing actually changed in this row, so drop it. */ ovsdb_txn_row_abort(txn, txn_row); } } else { bitmap_set_multiple(txn_row->changed, 0, shash_count(&table->schema->columns), 1); } return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT check_max_rows(struct ovsdb_txn *txn) { struct ovsdb_txn_table *t; LIST_FOR_EACH (t, node, &txn->txn_tables) { size_t n_rows = hmap_count(&t->table->rows); unsigned int max_rows = t->table->schema->max_rows; if (n_rows > max_rows) { return ovsdb_error("constraint violation", "transaction causes \"%s\" table to contain " "%"PRIuSIZE" rows, greater than the schema-defined " "limit of %u row(s)", t->table->schema->name, n_rows, max_rows); } } return NULL; } static struct ovsdb_row * ovsdb_index_search(struct hmap *index, struct ovsdb_row *row, size_t i, uint32_t hash) { const struct ovsdb_table *table = row->table; const struct ovsdb_column_set *columns = &table->schema->indexes[i]; struct hmap_node *node; for (node = hmap_first_with_hash(index, hash); node; node = hmap_next_with_hash(node)) { struct ovsdb_row *irow = ovsdb_row_from_index_node(node, table, i); if (ovsdb_row_equal_columns(row, irow, columns)) { return irow; } } return NULL; } static void duplicate_index_row__(const struct ovsdb_column_set *index, const struct ovsdb_row *row, const char *title, struct ds *out) { size_t n_columns = shash_count(&row->table->schema->columns); ds_put_format(out, "%s row, with UUID "UUID_FMT", ", title, UUID_ARGS(ovsdb_row_get_uuid(row))); if (!row->txn_row || bitmap_scan(row->txn_row->changed, 1, 0, n_columns) == n_columns) { ds_put_cstr(out, "existed in the database before this " "transaction and was not modified by the transaction."); } else if (!row->txn_row->old) { ds_put_cstr(out, "was inserted by this transaction."); } else if (ovsdb_row_equal_columns(row->txn_row->old, row->txn_row->new, index)) { ds_put_cstr(out, "existed in the database before this " "transaction, which modified some of the row's columns " "but not any columns in this index."); } else { ds_put_cstr(out, "had the following index values before the " "transaction: "); ovsdb_row_columns_to_string(row->txn_row->old, index, out); ds_put_char(out, '.'); } } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT duplicate_index_row(const struct ovsdb_column_set *index, const struct ovsdb_row *a, const struct ovsdb_row *b) { struct ovsdb_column_set all_columns; struct ovsdb_error *error; char *index_s; struct ds s; /* Put 'a' and 'b' in a predictable order to make error messages * reproducible for testing. */ ovsdb_column_set_init(&all_columns); ovsdb_column_set_add_all(&all_columns, a->table); if (ovsdb_row_compare_columns_3way(a, b, &all_columns) < 0) { const struct ovsdb_row *tmp = a; a = b; b = tmp; } ovsdb_column_set_destroy(&all_columns); index_s = ovsdb_column_set_to_string(index); ds_init(&s); ds_put_format(&s, "Transaction causes multiple rows in \"%s\" table to " "have identical values (", a->table->schema->name); ovsdb_row_columns_to_string(a, index, &s); ds_put_format(&s, ") for index on %s. ", index_s); duplicate_index_row__(index, a, "First", &s); ds_put_cstr(&s, " "); duplicate_index_row__(index, b, "Second", &s); free(index_s); error = ovsdb_error("constraint violation", "%s", ds_cstr(&s)); ds_destroy(&s); return error; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT check_index_uniqueness(struct ovsdb_txn *txn OVS_UNUSED, struct ovsdb_txn_row *txn_row) { /* Skip rows that are being deleted since they can't violate uniqueness. */ struct ovsdb_row *row = txn_row->new; if (!row) { return NULL; } struct ovsdb_txn_table *txn_table = txn_row->table->txn_table; struct ovsdb_table *table = txn_row->table; for (size_t i = 0; i < table->schema->n_indexes; i++) { const struct ovsdb_column_set *index = &table->schema->indexes[i]; uint32_t hash = ovsdb_row_hash_columns(row, index, 0); /* Check whether the row has a match in the temporary hash table that * we're building. If we add two rows with the same index data, then * there's a duplicate within the rows added or modified in this * transaction.*/ struct ovsdb_row *irow = ovsdb_index_search(&txn_table->txn_indexes[i], row, i, hash); if (irow) { return duplicate_index_row(index, irow, row); } /* Also check whether the row has a match in the table's real index * (which won't be updated until transaction commit is certain). If * there's a match, and it's for a row that wasn't pulled into the * transaction, then it's a duplicate. (If it is for a row that is * part of the transaction, then the first check has already handled * it.) */ irow = ovsdb_index_search(&table->indexes[i], row, i, hash); if (irow && !irow->txn_row) { return duplicate_index_row(index, irow, row); } /* Add row to temporary hash table. */ hmap_insert(&txn_table->txn_indexes[i], ovsdb_row_get_index_node(row, i), hash); } return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT count_atoms(struct ovsdb_txn *txn, struct ovsdb_txn_row *txn_row) { struct ovsdb_table *table = txn_row->table; size_t n_columns = shash_count(&table->schema->columns); ssize_t n_atoms_old = 0, n_atoms_new = 0; struct shash_node *node; if (txn_row->old && txn_row->new && bitmap_is_all_zeros(txn_row->changed, n_columns)) { /* This row didn't change, it has nothing to contribute * to atom counters. */ return NULL; } SHASH_FOR_EACH (node, &table->schema->columns) { const struct ovsdb_column *column = node->data; const struct ovsdb_type *type = &column->type; unsigned int idx = column->index; if (txn_row->old) { n_atoms_old += txn_row->old->fields[idx].n; if (type->value.type != OVSDB_TYPE_VOID) { n_atoms_old += txn_row->old->fields[idx].n; } } if (txn_row->new) { n_atoms_new += txn_row->new->fields[idx].n; if (type->value.type != OVSDB_TYPE_VOID) { n_atoms_new += txn_row->new->fields[idx].n; } } } txn->n_atoms += n_atoms_old + n_atoms_new; txn->n_atoms_diff += n_atoms_new - n_atoms_old; return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT update_version(struct ovsdb_txn *txn OVS_UNUSED, struct ovsdb_txn_row *txn_row) { struct ovsdb_table *table = txn_row->table; size_t n_columns = shash_count(&table->schema->columns); if (txn_row->old && txn_row->new && !bitmap_is_all_zeros(txn_row->changed, n_columns)) { bitmap_set1(txn_row->changed, OVSDB_COL_VERSION); uuid_generate(ovsdb_row_get_version_rw(txn_row->new)); } return NULL; } static bool ovsdb_txn_is_empty(const struct ovsdb_txn *txn) { return ovs_list_is_empty(&txn->txn_tables); } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT ovsdb_txn_precommit(struct ovsdb_txn *txn) { struct ovsdb_error *error; /* Figure out what actually changed, and abort early if the transaction * was really a no-op. */ error = for_each_txn_row(txn, determine_changes); if (error) { ovsdb_txn_abort(txn); return OVSDB_WRAP_BUG("can't happen", error); } if (ovs_list_is_empty(&txn->txn_tables)) { return NULL; } /* Update reference counts and check referential integrity. */ error = update_ref_counts(txn); if (error) { return error; } /* Delete unreferenced, non-root rows. */ error = for_each_txn_row(txn, collect_garbage); if (error) { return OVSDB_WRAP_BUG("can't happen", error); } /* Check maximum rows table constraints. */ error = check_max_rows(txn); if (error) { return error; } /* Check reference counts and remove bad references for "weak" referential * integrity. */ error = for_each_txn_row(txn, assess_weak_refs); if (error) { return error; } /* Verify that the indexes will still be unique post-transaction. */ error = for_each_txn_row(txn, check_index_uniqueness); if (error) { return error; } /* Count atoms. */ error = for_each_txn_row(txn, count_atoms); if (error) { return OVSDB_WRAP_BUG("can't happen", error); } /* Update _version for rows that changed. */ error = for_each_txn_row(txn, update_version); if (error) { return OVSDB_WRAP_BUG("can't happen", error); } return error; } static struct ovsdb_txn* ovsdb_txn_clone_for_history(const struct ovsdb_txn *txn) { struct ovsdb_txn *txn_cloned = xzalloc(sizeof *txn_cloned); ovs_list_init(&txn_cloned->txn_tables); txn_cloned->txnid = txn->txnid; txn_cloned->n_atoms = txn->n_atoms; txn_cloned->n_atoms_diff = txn->n_atoms_diff; struct ovsdb_txn_table *t; LIST_FOR_EACH (t, node, &txn->txn_tables) { struct ovsdb_txn_table *t_cloned = xmalloc(sizeof *t_cloned); ovs_list_push_back(&txn_cloned->txn_tables, &t_cloned->node); hmap_init(&t_cloned->txn_rows); struct ovsdb_txn_row *r; HMAP_FOR_EACH (r, hmap_node, &t->txn_rows) { size_t n_columns = shash_count(&t->table->schema->columns); if (r->old && r->new && bitmap_is_all_zeros(r->changed, n_columns)) { /* The row is neither old or new and no columns changed. * No need to store in the history. */ continue; } struct ovsdb_txn_row *r_cloned = xzalloc(offsetof(struct ovsdb_txn_row, changed) + bitmap_n_bytes(n_columns)); r_cloned->uuid = r->uuid; r_cloned->table = r->table; r_cloned->old = r->old ? ovsdb_row_datum_clone(r->old) : NULL; r_cloned->new = r->new ? ovsdb_row_datum_clone(r->new) : NULL; memcpy(&r_cloned->changed, &r->changed, bitmap_n_bytes(n_columns)); hmap_insert(&t_cloned->txn_rows, &r_cloned->hmap_node, uuid_hash(&r_cloned->uuid)); } } return txn_cloned; } static void ovsdb_txn_destroy_cloned(struct ovsdb_txn *txn) { ovs_assert(!txn->db); struct ovsdb_txn_table *t; LIST_FOR_EACH_SAFE (t, node, &txn->txn_tables) { struct ovsdb_txn_row *r; HMAP_FOR_EACH_SAFE (r, hmap_node, &t->txn_rows) { if (r->old) { ovsdb_row_destroy(r->old); } if (r->new) { ovsdb_row_destroy(r->new); } hmap_remove(&t->txn_rows, &r->hmap_node); free(r); } hmap_destroy(&t->txn_rows); ovs_list_remove(&t->node); free(t); } free(txn); } static void ovsdb_txn_add_to_history(struct ovsdb_txn *txn) { if (txn->db->need_txn_history) { struct ovsdb_txn_history_node *node = xzalloc(sizeof *node); node->txn = ovsdb_txn_clone_for_history(txn); ovs_list_push_back(&txn->db->txn_history, &node->node); txn->db->n_txn_history++; txn->db->n_txn_history_atoms += txn->n_atoms; } } /* Finalize commit. */ void ovsdb_txn_complete(struct ovsdb_txn *txn) { if (!ovsdb_txn_is_empty(txn)) { txn->db->run_triggers_now = txn->db->run_triggers = true; txn->db->n_atoms += txn->n_atoms_diff; ovsdb_monitors_commit(txn->db, txn); ovsdb_error_assert(for_each_txn_row(txn, ovsdb_txn_update_weak_refs)); ovsdb_error_assert(for_each_txn_row(txn, ovsdb_txn_row_commit)); } ovsdb_txn_free(txn); } /* Applies 'txn' to the internal representation of the database. This is for * transactions that don't need to be written to storage; probably, they came * from storage or from relay. These transactions shouldn't ordinarily fail * because storage should contain only consistent transactions. (One exception * is for database conversion in ovsdb_convert().) Transactions from relay * should also be consistent, since relay source should have verified them. */ struct ovsdb_error * OVS_WARN_UNUSED_RESULT ovsdb_txn_replay_commit(struct ovsdb_txn *txn) { struct ovsdb_error *error = ovsdb_txn_precommit(txn); if (error) { ovsdb_txn_abort(txn); } else { ovsdb_txn_add_to_history(txn); ovsdb_txn_complete(txn); } return error; } /* If 'error' is nonnull, the transaction is complete, with the given error as * the result. * * Otherwise, if 'write' is nonnull, then the transaction is waiting for * 'write' to complete. * * Otherwise, if 'commit_index' is nonzero, then the transaction is waiting for * 'commit_index' to be applied to the storage. * * Otherwise, the transaction is complete and successful. */ struct ovsdb_txn_progress { struct ovsdb_error *error; struct ovsdb_write *write; uint64_t commit_index; struct ovsdb_storage *storage; }; bool ovsdb_txn_precheck_prereq(const struct ovsdb *db) { const struct uuid *eid = ovsdb_storage_peek_last_eid(db->storage); if (!eid) { return true; } return uuid_equals(&db->prereq, eid); } struct ovsdb_txn_progress * ovsdb_txn_propose_schema_change(struct ovsdb *db, const struct ovsdb_schema *schema, const struct json *data, struct uuid *txnid) { struct ovsdb_txn_progress *progress = xzalloc(sizeof *progress); progress->storage = db->storage; struct ovsdb_write *write = ovsdb_storage_write_schema_change( db->storage, schema, data, &db->prereq, txnid); if (!ovsdb_write_is_complete(write)) { progress->write = write; } else { progress->error = ovsdb_error_clone(ovsdb_write_get_error(write)); ovsdb_write_destroy(write); } return progress; } struct ovsdb_txn_progress * ovsdb_txn_propose_commit(struct ovsdb_txn *txn, bool durable) { struct ovsdb_txn_progress *progress = xzalloc(sizeof *progress); progress->storage = txn->db->storage; progress->error = ovsdb_txn_precommit(txn); if (progress->error) { return progress; } /* Turn the commit into the format used for the storage logs.. */ struct json *txn_json = ovsdb_file_txn_to_json(txn); if (!txn_json) { /* Nothing to do, so success. */ return progress; } txn_json = ovsdb_file_txn_annotate(txn_json, ovsdb_txn_get_comment(txn)); struct uuid next; struct ovsdb_write *write = ovsdb_storage_write( txn->db->storage, txn_json, &txn->db->prereq, &next, durable); json_destroy(txn_json); if (!ovsdb_write_is_complete(write)) { progress->write = write; } else { progress->error = ovsdb_error_clone(ovsdb_write_get_error(write)); ovsdb_write_destroy(write); } return progress; } /* Proposes 'txn' for commitment and then waits for the commit to succeed or * fail. Returns null if successful, otherwise the error. * * **In addition**, this function also completes or aborts the transaction if * the transaction succeeded or failed, respectively. */ struct ovsdb_error * OVS_WARN_UNUSED_RESULT ovsdb_txn_propose_commit_block(struct ovsdb_txn *txn, bool durable) { struct ovsdb_txn_progress *p = ovsdb_txn_propose_commit(txn, durable); for (;;) { ovsdb_storage_run(p->storage); if (ovsdb_txn_progress_is_complete(p)) { struct ovsdb_error *error = ovsdb_error_clone(ovsdb_txn_progress_get_error(p)); ovsdb_txn_progress_destroy(p); if (error) { ovsdb_txn_abort(txn); } else { ovsdb_txn_complete(txn); } return error; } ovsdb_storage_wait(p->storage); poll_block(); } } static void ovsdb_txn_progress_run(struct ovsdb_txn_progress *p) { if (p->error) { return; } if (p->write) { if (!ovsdb_write_is_complete(p->write)) { return; } p->error = ovsdb_error_clone(ovsdb_write_get_error(p->write)); p->commit_index = ovsdb_write_get_commit_index(p->write); ovsdb_write_destroy(p->write); p->write = NULL; if (p->error) { return; } } if (p->commit_index) { if (ovsdb_storage_get_applied_index(p->storage) >= p->commit_index) { p->commit_index = 0; } } } static bool ovsdb_txn_progress_is_complete__(const struct ovsdb_txn_progress *p) { return p->error || (!p->write && !p->commit_index); } bool ovsdb_txn_progress_is_complete(const struct ovsdb_txn_progress *p) { ovsdb_txn_progress_run(CONST_CAST(struct ovsdb_txn_progress *, p)); return ovsdb_txn_progress_is_complete__(p); } const struct ovsdb_error * ovsdb_txn_progress_get_error(const struct ovsdb_txn_progress *p) { ovs_assert(ovsdb_txn_progress_is_complete__(p)); return p->error; } void ovsdb_txn_progress_destroy(struct ovsdb_txn_progress *p) { if (p) { ovsdb_error_destroy(p->error); ovsdb_write_destroy(p->write); free(p); } } void ovsdb_txn_for_each_change(const struct ovsdb_txn *txn, ovsdb_txn_row_cb_func *cb, void *aux) { struct ovsdb_txn_table *t; struct ovsdb_txn_row *r; LIST_FOR_EACH (t, node, &txn->txn_tables) { HMAP_FOR_EACH (r, hmap_node, &t->txn_rows) { if ((r->old || r->new) && !cb(r->old, r->new, r->changed, aux)) { break; } } } } static struct ovsdb_txn_table * ovsdb_txn_create_txn_table(struct ovsdb_txn *txn, struct ovsdb_table *table) { if (!table->txn_table) { struct ovsdb_txn_table *txn_table; size_t i; table->txn_table = txn_table = xmalloc(sizeof *table->txn_table); txn_table->table = table; hmap_init(&txn_table->txn_rows); txn_table->serial = serial - 1; txn_table->txn_indexes = xmalloc(table->schema->n_indexes * sizeof *txn_table->txn_indexes); for (i = 0; i < table->schema->n_indexes; i++) { hmap_init(&txn_table->txn_indexes[i]); } ovs_list_push_back(&txn->txn_tables, &txn_table->node); } return table->txn_table; } static struct ovsdb_txn_row * ovsdb_txn_row_create(struct ovsdb_txn *txn, struct ovsdb_table *table, const struct ovsdb_row *old_, struct ovsdb_row *new) { const struct ovsdb_row *row = old_ ? old_ : new; struct ovsdb_row *old = CONST_CAST(struct ovsdb_row *, old_); size_t n_columns = shash_count(&table->schema->columns); struct ovsdb_txn_table *txn_table; struct ovsdb_txn_row *txn_row; txn_row = xzalloc(offsetof(struct ovsdb_txn_row, changed) + bitmap_n_bytes(n_columns)); txn_row->uuid = *ovsdb_row_get_uuid(row); txn_row->table = row->table; txn_row->old = old; txn_row->new = new; txn_row->n_refs = old ? old->n_refs : 0; txn_row->serial = serial - 1; ovs_list_init(&txn_row->added_refs); ovs_list_init(&txn_row->deleted_refs); if (old) { old->txn_row = txn_row; } if (new) { new->txn_row = txn_row; } txn_table = ovsdb_txn_create_txn_table(txn, table); hmap_insert(&txn_table->txn_rows, &txn_row->hmap_node, ovsdb_row_hash(old ? old : new)); return txn_row; } struct ovsdb_row * ovsdb_txn_row_modify(struct ovsdb_txn *txn, const struct ovsdb_row *ro_row_) { struct ovsdb_row *ro_row = CONST_CAST(struct ovsdb_row *, ro_row_); if (ro_row->txn_row) { ovs_assert(ro_row == ro_row->txn_row->new); return ro_row; } else { struct ovsdb_table *table = ro_row->table; struct ovsdb_row *rw_row; rw_row = ovsdb_row_clone(ro_row); rw_row->n_refs = ro_row->n_refs; ovsdb_txn_row_create(txn, table, ro_row, rw_row); hmap_replace(&table->rows, &ro_row->hmap_node, &rw_row->hmap_node); return rw_row; } } void ovsdb_txn_row_insert(struct ovsdb_txn *txn, struct ovsdb_row *row) { uint32_t hash = ovsdb_row_hash(row); struct ovsdb_table *table = row->table; uuid_generate(ovsdb_row_get_version_rw(row)); ovsdb_txn_row_create(txn, table, NULL, row); hmap_insert(&table->rows, &row->hmap_node, hash); } /* 'row' must be assumed destroyed upon return; the caller must not reference * it again. */ void ovsdb_txn_row_delete(struct ovsdb_txn *txn, const struct ovsdb_row *row_) { struct ovsdb_row *row = CONST_CAST(struct ovsdb_row *, row_); struct ovsdb_table *table = row->table; struct ovsdb_txn_row *txn_row = row->txn_row; hmap_remove(&table->rows, &row->hmap_node); if (!txn_row) { ovsdb_txn_row_create(txn, table, row, NULL); } else { ovs_assert(txn_row->new == row); if (txn_row->old) { txn_row->new = NULL; } else { hmap_remove(&table->txn_table->txn_rows, &txn_row->hmap_node); free(txn_row); } ovsdb_row_destroy(row); } } /* Returns true if 'row_uuid' may be used as the UUID for a newly created row * in 'table' (that is, that it is unique within 'table'), false otherwise. */ bool ovsdb_txn_may_create_row(const struct ovsdb_table *table, const struct uuid *row_uuid) { /* If a row 'row_uuid' currently exists, disallow creating a duplicate. */ if (ovsdb_table_get_row(table, row_uuid)) { return false; } /* If a row 'row_uuid' previously existed in this transaction, disallow * creating a new row with the same UUID. */ if (find_txn_row(table, row_uuid)) { return false; } return true; } void ovsdb_txn_add_comment(struct ovsdb_txn *txn, const char *s) { if (txn->comment.length) { ds_put_char(&txn->comment, '\n'); } ds_put_cstr(&txn->comment, s); } const char * ovsdb_txn_get_comment(const struct ovsdb_txn *txn) { return txn->comment.length ? ds_cstr_ro(&txn->comment) : NULL; } static void ovsdb_txn_row_prefree(struct ovsdb_txn_row *txn_row) { struct ovsdb_txn_table *txn_table = txn_row->table->txn_table; txn_table->n_processed--; hmap_remove(&txn_table->txn_rows, &txn_row->hmap_node); if (txn_row->old) { txn_row->old->txn_row = NULL; } if (txn_row->new) { txn_row->new->txn_row = NULL; } } static void ovsdb_txn_table_destroy(struct ovsdb_txn_table *txn_table) { size_t i; ovs_assert(hmap_is_empty(&txn_table->txn_rows)); for (i = 0; i < txn_table->table->schema->n_indexes; i++) { hmap_destroy(&txn_table->txn_indexes[i]); } free(txn_table->txn_indexes); txn_table->table->txn_table = NULL; hmap_destroy(&txn_table->txn_rows); ovs_list_remove(&txn_table->node); free(txn_table); } /* Calls 'cb' for every txn_row within 'txn'. If 'cb' returns nonnull, this * aborts the iteration and for_each_txn_row() passes the error up. Otherwise, * returns a null pointer after iteration is complete. * * 'cb' may insert new txn_rows and new txn_tables into 'txn'. It may delete * the txn_row that it is passed in, or txn_rows in txn_tables other than the * one passed to 'cb'. It may *not* delete txn_rows other than the one passed * in within the same txn_table. It may *not* delete any txn_tables. As long * as these rules are followed, 'cb' will be called exactly once for each * txn_row in 'txn', even those added by 'cb'. * * (Even though 'cb' is not allowed to delete some txn_rows, it can still * delete any actual row by clearing a txn_row's 'new' member.) */ static struct ovsdb_error * OVS_WARN_UNUSED_RESULT for_each_txn_row(struct ovsdb_txn *txn, struct ovsdb_error *(*cb)(struct ovsdb_txn *, struct ovsdb_txn_row *)) { bool any_work; serial++; do { struct ovsdb_txn_table *t; any_work = false; LIST_FOR_EACH_SAFE (t, node, &txn->txn_tables) { if (t->serial != serial) { t->serial = serial; t->n_processed = 0; } while (t->n_processed < hmap_count(&t->txn_rows)) { struct ovsdb_txn_row *r; HMAP_FOR_EACH_SAFE (r, hmap_node, &t->txn_rows) { if (r->serial != serial) { struct ovsdb_error *error; r->serial = serial; t->n_processed++; any_work = true; error = cb(txn, r); if (error) { return error; } } } } if (hmap_is_empty(&t->txn_rows)) { /* Table is empty. Drop it. */ ovsdb_txn_table_destroy(t); } } } while (any_work); return NULL; } void ovsdb_txn_history_run(struct ovsdb *db) { if (!db->need_txn_history) { return; } /* Remove old histories to limit the size of the history. Removing until * the number of ovsdb atoms in history becomes less than the number of * atoms in the database, because it will be faster to just get a database * snapshot than re-constructing changes from the history that big. * Keeping at least one transaction to avoid sending UUID_ZERO as a last id * if all entries got removed due to the size limit. */ while (db->n_txn_history > 1 && (db->n_txn_history > 100 || db->n_txn_history_atoms > db->n_atoms)) { struct ovsdb_txn_history_node *txn_h_node = CONTAINER_OF( ovs_list_pop_front(&db->txn_history), struct ovsdb_txn_history_node, node); db->n_txn_history_atoms -= txn_h_node->txn->n_atoms; ovsdb_txn_destroy_cloned(txn_h_node->txn); free(txn_h_node); db->n_txn_history--; } } void ovsdb_txn_history_init(struct ovsdb *db, bool need_txn_history) { db->need_txn_history = need_txn_history; db->n_txn_history = 0; db->n_txn_history_atoms = 0; ovs_list_init(&db->txn_history); } void ovsdb_txn_history_destroy(struct ovsdb *db) { if (!db->need_txn_history) { return; } struct ovsdb_txn_history_node *txn_h_node; LIST_FOR_EACH_SAFE (txn_h_node, node, &db->txn_history) { ovs_list_remove(&txn_h_node->node); ovsdb_txn_destroy_cloned(txn_h_node->txn); free(txn_h_node); } db->n_txn_history = 0; db->n_txn_history_atoms = 0; }