2
0
mirror of https://github.com/openvswitch/ovs synced 2025-08-22 09:58:01 +00:00
ovs/lib/ovsdb-idl.c
Dumitru Ceara c558f9f1e1 ovsdb-idl: Get per-database memory usage statistics.
Clients might be connected to multiple databases (e.g., ovn-controller
is connected to OVN_Southbound and Open_vSwitch databases) and the IDL
memory statistics are more useful if they're not aggregated.

Signed-off-by: Dumitru Ceara <dceara@redhat.com>
Signed-off-by: Ilya Maximets <i.maximets@ovn.org>
2022-06-28 13:41:42 +02:00

4451 lines
156 KiB
C
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/* Copyright (c) 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017 Nicira, Inc.
* Copyright (C) 2016 Hewlett Packard Enterprise Development LP
*
* 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 <config.h>
#include "ovsdb-idl.h"
#include <errno.h>
#include <inttypes.h>
#include <limits.h>
#include <stdlib.h>
#include "bitmap.h"
#include "coverage.h"
#include "hash.h"
#include "openvswitch/dynamic-string.h"
#include "fatal-signal.h"
#include "openvswitch/json.h"
#include "jsonrpc.h"
#include "ovsdb/ovsdb.h"
#include "ovsdb/table.h"
#include "ovsdb-cs.h"
#include "ovsdb-data.h"
#include "ovsdb-error.h"
#include "ovsdb-idl-provider.h"
#include "ovsdb-parser.h"
#include "ovsdb-server-idl.h"
#include "ovsdb-session.h"
#include "openvswitch/poll-loop.h"
#include "openvswitch/shash.h"
#include "skiplist.h"
#include "simap.h"
#include "sset.h"
#include "svec.h"
#include "util.h"
#include "uuid.h"
#include "openvswitch/vlog.h"
VLOG_DEFINE_THIS_MODULE(ovsdb_idl);
COVERAGE_DEFINE(txn_uncommitted);
COVERAGE_DEFINE(txn_unchanged);
COVERAGE_DEFINE(txn_incomplete);
COVERAGE_DEFINE(txn_aborted);
COVERAGE_DEFINE(txn_success);
COVERAGE_DEFINE(txn_try_again);
COVERAGE_DEFINE(txn_not_locked);
COVERAGE_DEFINE(txn_error);
/* An arc from one idl_row to another. When row A contains a UUID that
* references row B, this is represented by an arc from A (the source) to B
* (the destination).
*
* Arcs from a row to itself are omitted, that is, src and dst are always
* different.
*
* Arcs are never duplicated, that is, even if there are multiple references
* from A to B, there is only a single arc from A to B.
*
* Arcs are directed: an arc from A to B is the converse of an an arc from B to
* A. Both an arc and its converse may both be present, if each row refers
* to the other circularly.
*
* The source and destination row may be in the same table or in different
* tables.
*/
struct ovsdb_idl_arc {
struct ovs_list src_node; /* In src->src_arcs list. */
struct ovs_list dst_node; /* In dst->dst_arcs list. */
struct ovsdb_idl_row *src; /* Source row. */
struct ovsdb_idl_row *dst; /* Destination row. */
};
struct ovsdb_idl {
struct ovsdb_cs *cs;
const struct ovsdb_idl_class *class_;
struct shash table_by_name; /* Contains "struct ovsdb_idl_table *"s.*/
struct ovsdb_idl_table *tables; /* Array of ->class_->n_tables elements. */
unsigned int change_seqno;
struct ovsdb_idl_txn *txn;
struct hmap outstanding_txns;
bool verify_write_only;
struct ovs_list deleted_untracked_rows; /* Stores rows deleted in the
* current run, that are not yet
* added to the track_list. */
struct ovs_list rows_to_reparse; /* Stores rows that might need to be
* re-parsed due to insertion of a
* referenced row. */
};
static struct ovsdb_cs_ops ovsdb_idl_cs_ops;
struct ovsdb_idl_txn {
struct hmap_node hmap_node;
struct json *request_id;
struct ovsdb_idl *idl;
struct hmap txn_rows;
enum ovsdb_idl_txn_status status;
char *error;
bool dry_run;
struct ds comment;
/* Increments. */
const char *inc_table;
const char *inc_column;
struct uuid inc_row;
bool inc_force;
unsigned int inc_index;
int64_t inc_new_value;
/* Inserted rows. */
struct hmap inserted_rows; /* Contains "struct ovsdb_idl_txn_insert"s. */
};
struct ovsdb_idl_txn_insert {
struct hmap_node hmap_node; /* In struct ovsdb_idl_txn's inserted_rows. */
struct uuid dummy; /* Dummy UUID used locally. */
int op_index; /* Index into transaction's operation array. */
struct uuid real; /* Real UUID used by database server. */
};
static struct vlog_rate_limit syntax_rl = VLOG_RATE_LIMIT_INIT(1, 5);
static struct vlog_rate_limit semantic_rl = VLOG_RATE_LIMIT_INIT(1, 5);
static struct vlog_rate_limit other_rl = VLOG_RATE_LIMIT_INIT(1, 5);
enum update_result {
OVSDB_IDL_UPDATE_DB_CHANGED,
OVSDB_IDL_UPDATE_NO_CHANGES,
OVSDB_IDL_UPDATE_INCONSISTENT,
};
static void ovsdb_idl_clear(struct ovsdb_idl *);
static enum update_result ovsdb_idl_process_update(
struct ovsdb_idl_table *, const struct ovsdb_cs_row_update *);
static void ovsdb_idl_insert_row(struct ovsdb_idl_row *,
const struct shash *values);
static void ovsdb_idl_delete_row(struct ovsdb_idl_row *);
static bool ovsdb_idl_modify_row(struct ovsdb_idl_row *,
const struct shash *values, bool xor);
static void ovsdb_idl_parse_update(struct ovsdb_idl *,
const struct ovsdb_cs_update_event *);
static void ovsdb_idl_reparse_deleted(struct ovsdb_idl *);
static void ovsdb_idl_reparse_refs_to_inserted(struct ovsdb_idl *);
static void ovsdb_idl_txn_process_reply(struct ovsdb_idl *,
const struct jsonrpc_msg *);
static bool ovsdb_idl_row_is_orphan(const struct ovsdb_idl_row *);
static struct ovsdb_idl_row *ovsdb_idl_row_create__(
const struct ovsdb_idl_table_class *);
static struct ovsdb_idl_row *ovsdb_idl_row_create(struct ovsdb_idl_table *,
const struct uuid *);
static void ovsdb_idl_row_destroy(struct ovsdb_idl_row *);
static void ovsdb_idl_row_destroy_postprocess(struct ovsdb_idl *);
static void ovsdb_idl_destroy_all_map_op_lists(struct ovsdb_idl_row *);
static void ovsdb_idl_destroy_all_set_op_lists(struct ovsdb_idl_row *);
static void ovsdb_idl_row_parse(struct ovsdb_idl_row *);
static void ovsdb_idl_row_unparse(struct ovsdb_idl_row *);
static void ovsdb_idl_row_clear_old(struct ovsdb_idl_row *);
static void ovsdb_idl_row_clear_new(struct ovsdb_idl_row *);
static void ovsdb_idl_row_clear_arcs(struct ovsdb_idl_row *, bool destroy_dsts);
static void ovsdb_idl_row_reparse_backrefs(struct ovsdb_idl_row *);
static void ovsdb_idl_row_mark_backrefs_for_reparsing(struct ovsdb_idl_row *);
static void ovsdb_idl_row_track_change(struct ovsdb_idl_row *,
enum ovsdb_idl_change);
static void ovsdb_idl_row_untrack_change(struct ovsdb_idl_row *);
static void ovsdb_idl_txn_abort_all(struct ovsdb_idl *);
static bool ovsdb_idl_txn_extract_mutations(struct ovsdb_idl_row *,
struct json *);
static void ovsdb_idl_txn_add_map_op(struct ovsdb_idl_row *,
const struct ovsdb_idl_column *,
struct ovsdb_datum *,
enum map_op_type);
static void ovsdb_idl_txn_add_set_op(struct ovsdb_idl_row *,
const struct ovsdb_idl_column *,
struct ovsdb_datum *,
enum set_op_type);
static struct ovsdb_idl_table *
ovsdb_idl_table_from_class(const struct ovsdb_idl *,
const struct ovsdb_idl_table_class *);
static struct ovsdb_idl_table *
ovsdb_idl_table_from_class(const struct ovsdb_idl *,
const struct ovsdb_idl_table_class *);
static void ovsdb_idl_track_clear__(struct ovsdb_idl *, bool flush_all);
static void ovsdb_idl_destroy_indexes(struct ovsdb_idl_table *);
static void ovsdb_idl_add_to_indexes(const struct ovsdb_idl_row *);
static void ovsdb_idl_remove_from_indexes(const struct ovsdb_idl_row *);
static int ovsdb_idl_try_commit_loop_txn(struct ovsdb_idl_loop *loop,
bool *may_need_wakeup);
static void add_tracked_change_for_references(struct ovsdb_idl_row *);
/* Creates and returns a connection to database 'remote', which should be in a
* form acceptable to jsonrpc_session_open(). The connection will maintain an
* in-memory replica of the remote database whose schema is described by
* 'class'. (Ordinarily 'class' is compiled from an OVSDB schema automatically
* by ovsdb-idlc.)
*
* Passes 'retry' to jsonrpc_session_open(). See that function for
* documentation.
*
* If 'monitor_everything_by_default' is true, then everything in the remote
* database will be replicated by default. ovsdb_idl_omit() and
* ovsdb_idl_omit_alert() may be used to selectively drop some columns from
* monitoring.
*
* If 'monitor_everything_by_default' is false, then no columns or tables will
* be replicated by default. ovsdb_idl_add_column() and ovsdb_idl_add_table()
* must be used to choose some columns or tables to replicate.
*/
struct ovsdb_idl *
ovsdb_idl_create(const char *remote, const struct ovsdb_idl_class *class,
bool monitor_everything_by_default, bool retry)
{
struct ovsdb_idl *idl = ovsdb_idl_create_unconnected(
class, monitor_everything_by_default);
ovsdb_idl_set_remote(idl, remote, retry);
return idl;
}
/* Creates and returns a connection to an in-memory replica of the remote
* database whose schema is described by 'class'. (Ordinarily 'class' is
* compiled from an OVSDB schema automatically by ovsdb-idlc.)
*
* Use ovsdb_idl_set_remote() to configure the database to which to connect.
* Until a remote is configured, no data can be retrieved.
*
* If 'monitor_everything_by_default' is true, then everything in the remote
* database will be replicated by default. ovsdb_idl_omit() and
* ovsdb_idl_omit_alert() may be used to selectively drop some columns from
* monitoring.
*
* If 'monitor_everything_by_default' is false, then no columns or tables will
* be replicated by default. ovsdb_idl_add_column() and ovsdb_idl_add_table()
* must be used to choose some columns or tables to replicate.
*/
struct ovsdb_idl *
ovsdb_idl_create_unconnected(const struct ovsdb_idl_class *class,
bool monitor_everything_by_default)
{
struct ovsdb_idl *idl = xmalloc(sizeof *idl);
*idl = (struct ovsdb_idl) {
.cs = ovsdb_cs_create(class->database, 3, &ovsdb_idl_cs_ops, idl),
.class_ = class,
.table_by_name = SHASH_INITIALIZER(&idl->table_by_name),
.tables = xmalloc(class->n_tables * sizeof *idl->tables),
.change_seqno = 0,
.txn = NULL,
.outstanding_txns = HMAP_INITIALIZER(&idl->outstanding_txns),
.verify_write_only = false,
.deleted_untracked_rows
= OVS_LIST_INITIALIZER(&idl->deleted_untracked_rows),
.rows_to_reparse
= OVS_LIST_INITIALIZER(&idl->rows_to_reparse),
};
uint8_t default_mode = (monitor_everything_by_default
? OVSDB_IDL_MONITOR | OVSDB_IDL_ALERT
: 0);
for (size_t i = 0; i < class->n_tables; i++) {
const struct ovsdb_idl_table_class *tc = &class->tables[i];
struct ovsdb_idl_table *table = &idl->tables[i];
shash_add_assert(&idl->table_by_name, tc->name, table);
table->class_ = tc;
table->modes = xmalloc(tc->n_columns);
memset(table->modes, default_mode, tc->n_columns);
table->need_table = false;
shash_init(&table->columns);
ovs_list_init(&table->indexes);
for (size_t j = 0; j < tc->n_columns; j++) {
const struct ovsdb_idl_column *column = &tc->columns[j];
shash_add_assert(&table->columns, column->name, column);
}
hmap_init(&table->rows);
ovs_list_init(&table->track_list);
table->change_seqno[OVSDB_IDL_CHANGE_INSERT]
= table->change_seqno[OVSDB_IDL_CHANGE_MODIFY]
= table->change_seqno[OVSDB_IDL_CHANGE_DELETE] = 0;
table->idl = idl;
table->in_server_schema = false;
sset_init(&table->schema_columns);
}
return idl;
}
/* Changes the remote and creates a new session.
*
* If 'retry' is true, the connection to the remote will automatically retry
* when it fails. If 'retry' is false, the connection is one-time. */
void
ovsdb_idl_set_remote(struct ovsdb_idl *idl, const char *remote, bool retry)
{
ovsdb_cs_set_remote(idl->cs, remote, retry);
}
/* Set whether the order of remotes should be shuffled, when there
* are more than one remotes. The setting doesn't take effect
* until the next time when ovsdb_idl_set_remote() is called. */
void
ovsdb_idl_set_shuffle_remotes(struct ovsdb_idl *idl, bool shuffle)
{
ovsdb_cs_set_shuffle_remotes(idl->cs, shuffle);
}
/* Reset min_index to 0. This prevents a situation where the client
* thinks all databases have stale data, when they actually have all
* been destroyed and rebuilt from scratch.
*/
void
ovsdb_idl_reset_min_index(struct ovsdb_idl *idl)
{
ovsdb_cs_reset_min_index(idl->cs);
}
/* Destroys 'idl' and all of the data structures that it manages. */
void
ovsdb_idl_destroy(struct ovsdb_idl *idl)
{
if (idl) {
ovs_assert(!idl->txn);
ovsdb_idl_txn_abort_all(idl);
hmap_destroy(&idl->outstanding_txns);
ovsdb_idl_clear(idl);
ovsdb_cs_destroy(idl->cs);
for (size_t i = 0; i < idl->class_->n_tables; i++) {
struct ovsdb_idl_table *table = &idl->tables[i];
ovsdb_idl_destroy_indexes(table);
shash_destroy(&table->columns);
sset_destroy(&table->schema_columns);
hmap_destroy(&table->rows);
free(table->modes);
}
shash_destroy(&idl->table_by_name);
free(idl->tables);
free(idl);
}
}
/* By default, or if 'leader_only' is true, when 'idl' connects to a clustered
* database, the IDL will avoid servers other than the cluster leader. This
* ensures that any data that it reads and reports is up-to-date. If
* 'leader_only' is false, the IDL will accept any server in the cluster, which
* means that for read-only transactions it can report and act on stale data
* (transactions that modify the database are always serialized even with false
* 'leader_only'). Refer to Understanding Cluster Consistency in ovsdb(7) for
* more information. */
void
ovsdb_idl_set_leader_only(struct ovsdb_idl *idl, bool leader_only)
{
ovsdb_cs_set_leader_only(idl->cs, leader_only);
}
static void
ovsdb_idl_clear(struct ovsdb_idl *db)
{
/* Process deleted rows, removing them from the 'deleted_untracked_rows'
* list and reparsing their backrefs.
*/
ovsdb_idl_reparse_deleted(db);
/* Process backrefs of inserted rows, removing them from the
* 'rows_to_reparse' list.
*/
ovsdb_idl_reparse_refs_to_inserted(db);
/* Cleanup all rows; each row gets added to its own table's
* 'track_list'.
*/
for (size_t i = 0; i < db->class_->n_tables; i++) {
struct ovsdb_idl_table *table = &db->tables[i];
struct ovsdb_idl_row *row;
if (hmap_is_empty(&table->rows)) {
continue;
}
HMAP_FOR_EACH_SAFE (row, hmap_node, &table->rows) {
struct ovsdb_idl_arc *arc;
if (!ovsdb_idl_row_is_orphan(row)) {
ovsdb_idl_remove_from_indexes(row);
ovsdb_idl_row_unparse(row);
}
LIST_FOR_EACH_SAFE (arc, src_node, &row->src_arcs) {
ovs_list_remove(&arc->src_node);
ovs_list_remove(&arc->dst_node);
free(arc);
}
LIST_FOR_EACH_SAFE (arc, dst_node, &row->dst_arcs) {
ovs_list_remove(&arc->src_node);
ovs_list_remove(&arc->dst_node);
free(arc);
}
ovsdb_idl_row_destroy(row);
}
}
/* Free rows deleted from tables with change tracking disabled. */
ovsdb_idl_row_destroy_postprocess(db);
/* Free rows deleted from tables with change tracking enabled. */
ovsdb_idl_track_clear__(db, true);
ovs_assert(ovs_list_is_empty(&db->deleted_untracked_rows));
ovs_assert(ovs_list_is_empty(&db->rows_to_reparse));
db->change_seqno++;
}
/* Processes a batch of messages from the database server on 'idl'. This may
* cause the IDL's contents to change. The client may check for that with
* ovsdb_idl_get_seqno(). */
void
ovsdb_idl_run(struct ovsdb_idl *idl)
{
ovs_assert(!idl->txn);
struct ovs_list events;
ovsdb_cs_run(idl->cs, &events);
struct ovsdb_cs_event *event;
LIST_FOR_EACH_POP (event, list_node, &events) {
switch (event->type) {
case OVSDB_CS_EVENT_TYPE_RECONNECT:
ovsdb_idl_txn_abort_all(idl);
break;
case OVSDB_CS_EVENT_TYPE_LOCKED:
if (ovsdb_cs_may_send_transaction(idl->cs)) {
/* If the client couldn't run a transaction because it didn't
* have the lock, this will encourage it to try again. */
idl->change_seqno++;
} else {
/* We're setting up a session, so don't signal that the
* database changed. Finalizing the session will increment
* change_seqno anyhow. */
}
break;
case OVSDB_CS_EVENT_TYPE_UPDATE:
ovsdb_idl_parse_update(idl, &event->update);
break;
case OVSDB_CS_EVENT_TYPE_TXN_REPLY:
ovsdb_idl_txn_process_reply(idl, event->txn_reply);
break;
}
ovsdb_cs_event_destroy(event);
}
ovsdb_idl_reparse_refs_to_inserted(idl);
ovsdb_idl_reparse_deleted(idl);
ovsdb_idl_row_destroy_postprocess(idl);
}
/* Arranges for poll_block() to wake up when ovsdb_idl_run() has something to
* do or when activity occurs on a transaction on 'idl'. */
void
ovsdb_idl_wait(struct ovsdb_idl *idl)
{
ovsdb_cs_wait(idl->cs);
}
/* Returns memory usage statistics. */
void
ovsdb_idl_get_memory_usage(struct ovsdb_idl *idl, struct simap *usage)
{
unsigned int cells = 0;
if (!idl) {
return;
}
for (size_t i = 0; i < idl->class_->n_tables; i++) {
struct ovsdb_idl_table *table = &idl->tables[i];
unsigned int n_columns = table->class_->n_columns;
unsigned int n_rows = hmap_count(&table->rows);
cells += n_rows * n_columns;
}
struct {
const char *name;
unsigned int val;
} idl_mem_stats[] = {
{"idl-outstanding-txns", hmap_count(&idl->outstanding_txns)},
{"idl-cells", cells},
};
for (size_t i = 0; i < ARRAY_SIZE(idl_mem_stats); i++) {
char *stat_name = xasprintf("%s-%s", idl_mem_stats[i].name,
idl->class_->database);
simap_increase(usage, stat_name, idl_mem_stats[i].val);
free(stat_name);
}
}
/* Returns a "sequence number" that represents the state of 'idl'. When
* ovsdb_idl_run() changes the database, the sequence number changes. The
* initial fetch of the entire contents of the remote database is considered to
* be one kind of change. Successfully acquiring a lock, if one has been
* configured with ovsdb_idl_set_lock(), is also considered to be a change.
*
* As long as the sequence number does not change, the client may continue to
* use any data structures it obtains from 'idl'. But when it changes, the
* client must not access any of these data structures again, because they
* could have freed or reused for other purposes.
*
* The sequence number can occasionally change even if the database does not.
* This happens if the connection to the database drops and reconnects, which
* causes the database contents to be reloaded even if they didn't change. (It
* could also happen if the database server sends out a "change" that reflects
* what the IDL already thought was in the database. The database server is
* not supposed to do that, but bugs could in theory cause it to do so.) */
unsigned int
ovsdb_idl_get_seqno(const struct ovsdb_idl *idl)
{
return idl->change_seqno;
}
/* Returns a "sequence number" that represents the number of conditional
* monitoring updates successfully received by the OVSDB server of an IDL
* connection.
*
* ovsdb_idl_set_condition() sets a new condition that is different from
* the current condtion, the next expected "sequence number" is returned.
*
* Whenever ovsdb_idl_get_cond_seqno() returns a value that matches
* the return value of ovsdb_idl_set_condition(), The client is
* assured that:
* - The ovsdb_idl_set_condition() changes has been acknowledged by
* the OVSDB sever.
*
* - 'idl' now contains the content matches the new conditions. */
unsigned int
ovsdb_idl_get_condition_seqno(const struct ovsdb_idl *idl)
{
return ovsdb_cs_get_condition_seqno(idl->cs);
}
/* Returns true if 'idl' successfully connected to the remote database and
* retrieved its contents (even if the connection subsequently dropped and is
* in the process of reconnecting). If so, then 'idl' contains an atomic
* snapshot of the database's contents (but it might be arbitrarily old if the
* connection dropped).
*
* Returns false if 'idl' has never connected or retrieved the database's
* contents. If so, 'idl' is empty. */
bool
ovsdb_idl_has_ever_connected(const struct ovsdb_idl *idl)
{
return ovsdb_idl_get_seqno(idl) != 0;
}
/* Reconfigures 'idl' so that it would reconnect to the database, if
* connection was dropped. */
void
ovsdb_idl_enable_reconnect(struct ovsdb_idl *idl)
{
ovsdb_cs_enable_reconnect(idl->cs);
}
/* Forces 'idl' to drop its connection to the database and reconnect. In the
* meantime, the contents of 'idl' will not change. */
void
ovsdb_idl_force_reconnect(struct ovsdb_idl *idl)
{
ovsdb_cs_force_reconnect(idl->cs);
}
/* Some IDL users should only write to write-only columns. Furthermore,
* writing to a column which is not write-only can cause serious performance
* degradations for these users. This function causes 'idl' to reject writes
* to columns which are not marked write only using ovsdb_idl_omit_alert(). */
void
ovsdb_idl_verify_write_only(struct ovsdb_idl *idl)
{
idl->verify_write_only = true;
}
/* Returns true if 'idl' is currently connected or trying to connect
* and a negative response to a schema request has not been received */
bool
ovsdb_idl_is_alive(const struct ovsdb_idl *idl)
{
return ovsdb_cs_is_alive(idl->cs);
}
bool
ovsdb_idl_is_connected(const struct ovsdb_idl *idl)
{
return ovsdb_cs_is_connected(idl->cs);
}
/* Returns the last error reported on a connection by 'idl'. The return value
* is 0 only if no connection made by 'idl' has ever encountered an error and
* a negative response to a schema request has never been received. See
* jsonrpc_get_status() for jsonrpc_session_get_last_error() return value
* interpretation. */
int
ovsdb_idl_get_last_error(const struct ovsdb_idl *idl)
{
return ovsdb_cs_get_last_error(idl->cs);
}
/* Sets the "probe interval" for 'idl->session' to 'probe_interval', in
* milliseconds.
*/
void
ovsdb_idl_set_probe_interval(const struct ovsdb_idl *idl, int probe_interval)
{
ovsdb_cs_set_probe_interval(idl->cs, probe_interval);
}
static size_t
find_uuid_in_array(const struct uuid *target,
const struct uuid *array, size_t n)
{
for (size_t i = 0; i < n; i++) {
if (uuid_equals(&array[i], target)) {
return i;
}
}
return SIZE_MAX;
}
static size_t
array_contains_uuid(const struct uuid *target,
const struct uuid *array, size_t n)
{
return find_uuid_in_array(target, array, n) != SIZE_MAX;
}
static bool
remove_uuid_from_array(const struct uuid *target,
struct uuid *array, size_t *n)
{
size_t i = find_uuid_in_array(target, array, *n);
if (i != SIZE_MAX) {
array[i] = array[--*n];
return true;
} else {
return false;
}
}
static void
add_row_references(const struct ovsdb_base_type *type,
const union ovsdb_atom *atoms, size_t n_atoms,
const struct uuid *exclude_uuid,
struct uuid **dstsp, size_t *n_dstsp,
size_t *allocated_dstsp)
{
if (type->type != OVSDB_TYPE_UUID || !type->uuid.refTableName) {
return;
}
for (size_t i = 0; i < n_atoms; i++) {
const struct uuid *uuid = &atoms[i].uuid;
if (!uuid_equals(uuid, exclude_uuid)
&& !array_contains_uuid(uuid, *dstsp, *n_dstsp)) {
if (*n_dstsp >= *allocated_dstsp) {
*dstsp = x2nrealloc(*dstsp, allocated_dstsp,
sizeof **dstsp);
}
(*dstsp)[*n_dstsp] = *uuid;
++*n_dstsp;
}
}
}
/* Checks for consistency in 'idl''s graph of arcs between database rows. Each
* reference from one row to a different row should be reflected as a "struct
* ovsdb_idl_arc" between those rows.
*
* This function is slow, big-O wise, and aborts if it finds an inconsistency,
* thus it is only for use in test programs. */
void
ovsdb_idl_check_consistency(const struct ovsdb_idl *idl)
{
/* Consistency is broken while a transaction is in progress. */
if (!idl->txn) {
return;
}
bool ok = true;
struct uuid *dsts = NULL;
size_t allocated_dsts = 0;
for (size_t i = 0; i < idl->class_->n_tables; i++) {
const struct ovsdb_idl_table *table = &idl->tables[i];
const struct ovsdb_idl_table_class *class = table->class_;
const struct ovsdb_idl_row *row;
HMAP_FOR_EACH (row, hmap_node, &table->rows) {
size_t n_dsts = 0;
if (row->new_datum) {
size_t n_columns = shash_count(&row->table->columns);
for (size_t j = 0; j < n_columns; j++) {
const struct ovsdb_type *type = &class->columns[j].type;
const struct ovsdb_datum *datum = &row->new_datum[j];
add_row_references(&type->key,
datum->keys, datum->n, &row->uuid,
&dsts, &n_dsts, &allocated_dsts);
add_row_references(&type->value,
datum->values, datum->n, &row->uuid,
&dsts, &n_dsts, &allocated_dsts);
}
}
const struct ovsdb_idl_arc *arc;
LIST_FOR_EACH (arc, src_node, &row->src_arcs) {
if (!remove_uuid_from_array(&arc->dst->uuid,
dsts, &n_dsts)) {
VLOG_ERR("unexpected arc from %s row "UUID_FMT" to %s "
"row "UUID_FMT,
table->class_->name,
UUID_ARGS(&row->uuid),
arc->dst->table->class_->name,
UUID_ARGS(&arc->dst->uuid));
ok = false;
}
}
for (size_t j = 0; j < n_dsts; j++) {
VLOG_ERR("%s row "UUID_FMT" missing arc to row "UUID_FMT,
table->class_->name, UUID_ARGS(&row->uuid),
UUID_ARGS(&dsts[j]));
ok = false;
}
}
}
free(dsts);
ovs_assert(ok);
}
static struct json *
ovsdb_idl_compose_monitor_request(const struct json *schema_json, void *idl_)
{
struct ovsdb_idl *idl = idl_;
struct shash *schema = ovsdb_cs_parse_schema(schema_json);
struct json *monitor_requests = json_object_create();
for (size_t i = 0; i < idl->class_->n_tables; i++) {
struct ovsdb_idl_table *table = &idl->tables[i];
const struct ovsdb_idl_table_class *tc = table->class_;
struct json *monitor_request;
const struct sset *table_schema
= schema ? shash_find_data(schema, table->class_->name) : NULL;
struct json *columns
= table->need_table ? json_array_create_empty() : NULL;
sset_clear(&table->schema_columns);
for (size_t j = 0; j < tc->n_columns; j++) {
const struct ovsdb_idl_column *column = &tc->columns[j];
bool idl_has_column = (table_schema &&
sset_contains(table_schema, column->name));
if (idl_has_column) {
sset_add(&table->schema_columns, column->name);
}
if (column->is_synthetic) {
if (idl_has_column) {
VLOG_WARN("%s table in %s database has synthetic "
"column %s", table->class_->name,
idl->class_->database, column->name);
}
} else if (table->modes[j] & OVSDB_IDL_MONITOR) {
if (table_schema && !idl_has_column) {
VLOG_WARN("%s table in %s database lacks %s column "
"(database needs upgrade?)",
table->class_->name, idl->class_->database,
column->name);
continue;
}
if (!columns) {
columns = json_array_create_empty();
}
json_array_add(columns, json_string_create(column->name));
}
}
if (columns) {
if (schema && !table_schema) {
VLOG_WARN("%s database lacks %s table "
"(database needs upgrade?)",
idl->class_->database, table->class_->name);
json_destroy(columns);
table->in_server_schema = false;
continue;
} else if (schema && table_schema) {
table->in_server_schema = true;
}
monitor_request = json_object_create();
json_object_put(monitor_request, "columns", columns);
json_object_put(monitor_requests, tc->name,
json_array_create_1(monitor_request));
}
}
ovsdb_cs_free_schema(schema);
return monitor_requests;
}
static struct ovsdb_cs_ops ovsdb_idl_cs_ops = {
ovsdb_idl_compose_monitor_request,
};
const struct ovsdb_idl_class *
ovsdb_idl_get_class(const struct ovsdb_idl *idl)
{
return idl->class_;
}
/* Given 'column' in some table in 'class', returns the table's class. */
const struct ovsdb_idl_table_class *
ovsdb_idl_table_class_from_column(const struct ovsdb_idl_class *class,
const struct ovsdb_idl_column *column)
{
for (size_t i = 0; i < class->n_tables; i++) {
const struct ovsdb_idl_table_class *tc = &class->tables[i];
if (column >= tc->columns && column < &tc->columns[tc->n_columns]) {
return tc;
}
}
OVS_NOT_REACHED();
}
/* Given 'column' in some table in 'idl', returns the table. */
static struct ovsdb_idl_table *
ovsdb_idl_table_from_column(const struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column)
{
const struct ovsdb_idl_table_class *tc =
ovsdb_idl_table_class_from_column(idl->class_, column);
return &idl->tables[tc - idl->class_->tables];
}
static unsigned char *
ovsdb_idl_get_mode(struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column)
{
ovs_assert(!idl->change_seqno);
const struct ovsdb_idl_table *table = ovsdb_idl_table_from_column(idl,
column);
return &table->modes[column - table->class_->columns];
}
static void
ovsdb_idl_set_mode(struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column,
unsigned char mode)
{
const struct ovsdb_idl_table *table = ovsdb_idl_table_from_column(idl,
column);
size_t column_idx = column - table->class_->columns;
if (table->modes[column_idx] != mode) {
*ovsdb_idl_get_mode(idl, column) = mode;
}
}
static void
add_ref_table(struct ovsdb_idl *idl, const struct ovsdb_base_type *base)
{
if (base->type == OVSDB_TYPE_UUID && base->uuid.refTableName) {
struct ovsdb_idl_table *table;
table = shash_find_data(&idl->table_by_name, base->uuid.refTableName);
if (table) {
table->need_table = true;
} else {
VLOG_WARN("%s IDL class missing referenced table %s",
idl->class_->database, base->uuid.refTableName);
}
}
}
/* Turns on OVSDB_IDL_MONITOR and OVSDB_IDL_ALERT for 'column' in 'idl'. Also
* ensures that any tables referenced by 'column' will be replicated, even if
* no columns in that table are selected for replication (see
* ovsdb_idl_add_table() for more information).
*
* This function is only useful if 'monitor_everything_by_default' was false in
* the call to ovsdb_idl_create(). This function should be called between
* ovsdb_idl_create() and the first call to ovsdb_idl_run().
*/
void
ovsdb_idl_add_column(struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column)
{
ovsdb_idl_set_mode(idl, column, OVSDB_IDL_MONITOR | OVSDB_IDL_ALERT);
add_ref_table(idl, &column->type.key);
add_ref_table(idl, &column->type.value);
}
/* Ensures that the table with class 'tc' will be replicated on 'idl' even if
* no columns are selected for replication. Just the necessary data for table
* references will be replicated (the UUID of the rows, for instance), any
* columns not selected for replication will remain unreplicated.
* This can be useful because it allows 'idl' to keep track of what rows in the
* table actually exist, which in turn allows columns that reference the table
* to have accurate contents. (The IDL presents the database with references to
* rows that do not exist removed.)
*
* This function is only useful if 'monitor_everything_by_default' was false in
* the call to ovsdb_idl_create(). This function should be called between
* ovsdb_idl_create() and the first call to ovsdb_idl_run().
*/
void
ovsdb_idl_add_table(struct ovsdb_idl *idl,
const struct ovsdb_idl_table_class *tc)
{
for (size_t i = 0; i < idl->class_->n_tables; i++) {
struct ovsdb_idl_table *table = &idl->tables[i];
if (table->class_ == tc) {
table->need_table = true;
return;
}
}
OVS_NOT_REACHED();
}
/* Returns 'true' if the 'idl' has seen the table for the 'table_class'
* in the schema reported by the server. Returns 'false' otherwise.
*
* Always returns 'false' if idl has never been connected.
*
* Please see ovsdb_idl_compose_monitor_request() which sets
* 'struct ovsdb_idl_table *'->in_server_schema accordingly.
*
* Usually this function is used indirectly through one of the
* "server_has_table" functions generated by ovsdb-idlc. */
bool
ovsdb_idl_server_has_table(const struct ovsdb_idl *idl,
const struct ovsdb_idl_table_class *table_class)
{
const struct ovsdb_idl_table *table =
ovsdb_idl_table_from_class(idl, table_class);
return (table && table->in_server_schema);
}
/* Returns 'true' if the 'idl' has seen the 'column' in the schema
* reported by the server. Returns 'false' otherwise.
*
* Always returns 'false' if idl has never been connected.
*
* Please see ovsdb_idl_compose_monitor_request() which sets
* 'struct ovsdb_idl_table *'->schema_columns accordingly.
*
* Usually this function is used indirectly through one of the
* "server_has_column" functions generated by ovsdb-idlc. */
bool
ovsdb_idl_server_has_column(const struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column)
{
const struct ovsdb_idl_table *table =
ovsdb_idl_table_from_column(idl, column);
return (table->in_server_schema && sset_find(&table->schema_columns,
column->name));
}
/* A single clause within an ovsdb_idl_condition. */
struct ovsdb_idl_clause {
struct hmap_node hmap_node; /* In struct ovsdb_idl_condition. */
enum ovsdb_function function; /* Never OVSDB_F_TRUE or OVSDB_F_FALSE. */
const struct ovsdb_idl_column *column; /* Must be nonnull. */
struct ovsdb_datum arg; /* Has ovsdb_type ->column->type. */
};
static uint32_t
ovsdb_idl_clause_hash(const struct ovsdb_idl_clause *clause)
{
uint32_t hash = hash_pointer(clause->column, clause->function);
return ovsdb_datum_hash(&clause->arg, &clause->column->type, hash);
}
static int
ovsdb_idl_clause_equals(const struct ovsdb_idl_clause *a,
const struct ovsdb_idl_clause *b)
{
return (a->function == b->function
&& a->column == b->column
&& ovsdb_datum_equals(&a->arg, &b->arg, &a->column->type));
}
static struct json *
ovsdb_idl_clause_to_json(const struct ovsdb_idl_clause *clause)
{
const char *function = ovsdb_function_to_string(clause->function);
return json_array_create_3(json_string_create(clause->column->name),
json_string_create(function),
ovsdb_datum_to_json(&clause->arg,
&clause->column->type));
}
static void
ovsdb_idl_clause_destroy(struct ovsdb_idl_clause *clause)
{
if (clause) {
ovsdb_datum_destroy(&clause->arg, &clause->column->type);
free(clause);
}
}
/* ovsdb_idl_condition. */
void
ovsdb_idl_condition_init(struct ovsdb_idl_condition *cnd)
{
hmap_init(&cnd->clauses);
cnd->is_true = false;
}
void
ovsdb_idl_condition_destroy(struct ovsdb_idl_condition *cond)
{
if (cond) {
ovsdb_idl_condition_clear(cond);
hmap_destroy(&cond->clauses);
}
}
void
ovsdb_idl_condition_clear(struct ovsdb_idl_condition *cond)
{
struct ovsdb_idl_clause *clause;
HMAP_FOR_EACH_SAFE (clause, hmap_node, &cond->clauses) {
hmap_remove(&cond->clauses, &clause->hmap_node);
ovsdb_idl_clause_destroy(clause);
}
cond->is_true = false;
}
bool
ovsdb_idl_condition_is_true(const struct ovsdb_idl_condition *condition)
{
return condition->is_true;
}
static struct ovsdb_idl_clause *
ovsdb_idl_condition_find_clause(const struct ovsdb_idl_condition *condition,
const struct ovsdb_idl_clause *target,
uint32_t hash)
{
struct ovsdb_idl_clause *clause;
HMAP_FOR_EACH_WITH_HASH (clause, hmap_node, hash, &condition->clauses) {
if (ovsdb_idl_clause_equals(clause, target)) {
return clause;
}
}
return NULL;
}
static void
ovsdb_idl_condition_add_clause__(struct ovsdb_idl_condition *condition,
const struct ovsdb_idl_clause *src,
uint32_t hash)
{
struct ovsdb_idl_clause *clause = xmalloc(sizeof *clause);
clause->function = src->function;
clause->column = src->column;
ovsdb_datum_clone(&clause->arg, &src->arg, &src->column->type);
hmap_insert(&condition->clauses, &clause->hmap_node, hash);
}
/* Adds a clause to the condition for replicating the table with class 'tc' in
* 'idl'.
*
* The IDL replicates only rows in a table that satisfy at least one clause in
* the table's condition. The default condition for a table has a single
* clause with function OVSDB_F_TRUE, so that the IDL replicates all rows in
* the table. When the IDL client replaces the default condition by one of its
* own, the condition can have any number of clauses. If it has no conditions,
* then no rows are replicated.
*
* Two distinct of clauses can usefully be added:
*
* - A 'function' of OVSDB_F_TRUE. A "true" clause causes every row to be
* replicated, regardless of whether other clauses exist. 'column' and
* 'arg' are ignored.
*
* - Binary 'functions' add a clause of the form "<column> <function>
* <arg>", e.g. "column == 5" or "column <= 10". In this case, 'arg' must
* have a type that is compatible with 'column'.
*/
void
ovsdb_idl_condition_add_clause(struct ovsdb_idl_condition *condition,
enum ovsdb_function function,
const struct ovsdb_idl_column *column,
const struct ovsdb_datum *arg)
{
if (condition->is_true) {
/* Adding a clause to an always-true condition has no effect. */
} else if (function == OVSDB_F_TRUE) {
ovsdb_idl_condition_add_clause_true(condition);
} else if (function == OVSDB_F_FALSE) {
/* Adding a "false" clause never has any effect. */
} else {
struct ovsdb_idl_clause clause = {
.function = function,
.column = column,
.arg = *arg,
};
uint32_t hash = ovsdb_idl_clause_hash(&clause);
if (!ovsdb_idl_condition_find_clause(condition, &clause, hash)) {
ovsdb_idl_condition_add_clause__(condition, &clause, hash);
}
}
}
void
ovsdb_idl_condition_add_clause_true(struct ovsdb_idl_condition *condition)
{
if (!condition->is_true) {
ovsdb_idl_condition_clear(condition);
condition->is_true = true;
}
}
static struct json *
ovsdb_idl_condition_to_json(const struct ovsdb_idl_condition *cnd)
{
if (cnd->is_true) {
return NULL;
}
size_t n = hmap_count(&cnd->clauses);
if (!n) {
return json_array_create_1(json_boolean_create(false));
}
struct json **clauses = xmalloc(n * sizeof *clauses);
const struct ovsdb_idl_clause *clause;
size_t i = 0;
HMAP_FOR_EACH (clause, hmap_node, &cnd->clauses) {
clauses[i++] = ovsdb_idl_clause_to_json(clause);
}
ovs_assert(i == n);
return json_array_create(clauses, n);
}
/* Sets the replication condition for 'tc' in 'idl' to 'condition' and
* arranges to send the new condition to the database server.
*
* Return the next conditional update sequence number. When this
* value and ovsdb_idl_get_condition_seqno() matches, the 'idl'
* contains rows that match the 'condition'. */
unsigned int
ovsdb_idl_set_condition(struct ovsdb_idl *idl,
const struct ovsdb_idl_table_class *tc,
const struct ovsdb_idl_condition *condition)
{
struct json *cond_json = ovsdb_idl_condition_to_json(condition);
unsigned int seqno = ovsdb_cs_set_condition(idl->cs, tc->name, cond_json);
json_destroy(cond_json);
return seqno;
}
/* Turns off OVSDB_IDL_ALERT and OVSDB_IDL_TRACK for 'column' in 'idl'.
*
* This function should be called between ovsdb_idl_create() and the first call
* to ovsdb_idl_run().
*/
void
ovsdb_idl_omit_alert(struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column)
{
*ovsdb_idl_get_mode(idl, column) &= ~(OVSDB_IDL_ALERT | OVSDB_IDL_TRACK);
}
/* Sets the mode for 'column' in 'idl' to 0. See the big comment above
* OVSDB_IDL_MONITOR for details.
*
* This function should be called between ovsdb_idl_create() and the first call
* to ovsdb_idl_run().
*/
void
ovsdb_idl_omit(struct ovsdb_idl *idl, const struct ovsdb_idl_column *column)
{
*ovsdb_idl_get_mode(idl, column) = 0;
}
/* Returns the most recent IDL change sequence number that caused a
* insert, modify or delete update to the table with class 'table_class'.
*/
unsigned int
ovsdb_idl_table_get_seqno(const struct ovsdb_idl *idl,
const struct ovsdb_idl_table_class *table_class)
{
struct ovsdb_idl_table *table
= ovsdb_idl_table_from_class(idl, table_class);
unsigned int max_seqno = table->change_seqno[OVSDB_IDL_CHANGE_INSERT];
if (max_seqno < table->change_seqno[OVSDB_IDL_CHANGE_MODIFY]) {
max_seqno = table->change_seqno[OVSDB_IDL_CHANGE_MODIFY];
}
if (max_seqno < table->change_seqno[OVSDB_IDL_CHANGE_DELETE]) {
max_seqno = table->change_seqno[OVSDB_IDL_CHANGE_DELETE];
}
return max_seqno;
}
/* For each row that contains tracked columns, IDL stores the most
* recent IDL change sequence numbers associateed with insert, modify
* and delete updates to the table.
*/
unsigned int
ovsdb_idl_row_get_seqno(const struct ovsdb_idl_row *row,
enum ovsdb_idl_change change)
{
return row->change_seqno[change];
}
/* Turns on OVSDB_IDL_TRACK for 'column' in 'idl', ensuring that
* all rows whose 'column' is modified are traced. Similarly, insert
* or delete of rows having 'column' are tracked. Clients are able
* to retrive the tracked rows with the ovsdb_idl_track_get_*()
* functions.
*
* This function should be called between ovsdb_idl_create() and
* the first call to ovsdb_idl_run(). The column to be tracked
* should have OVSDB_IDL_ALERT turned on.
*/
void
ovsdb_idl_track_add_column(struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column)
{
if (!(*ovsdb_idl_get_mode(idl, column) & OVSDB_IDL_ALERT)) {
ovsdb_idl_add_column(idl, column);
}
*ovsdb_idl_get_mode(idl, column) |= OVSDB_IDL_TRACK;
}
void
ovsdb_idl_track_add_all(struct ovsdb_idl *idl)
{
size_t i, j;
for (i = 0; i < idl->class_->n_tables; i++) {
const struct ovsdb_idl_table_class *tc = &idl->class_->tables[i];
for (j = 0; j < tc->n_columns; j++) {
const struct ovsdb_idl_column *column = &tc->columns[j];
ovsdb_idl_track_add_column(idl, column);
}
}
}
/* Returns true if 'table' has any tracked column. */
bool
ovsdb_idl_track_is_set(struct ovsdb_idl_table *table)
{
size_t i;
for (i = 0; i < table->class_->n_columns; i++) {
if (table->modes[i] & OVSDB_IDL_TRACK) {
return true;
}
}
return false;
}
/* Returns the first tracked row in table with class 'table_class'
* for the specified 'idl'. Returns NULL if there are no tracked rows.
* Pure orphan rows, i.e. rows that never had any datum, are skipped. */
const struct ovsdb_idl_row *
ovsdb_idl_track_get_first(const struct ovsdb_idl *idl,
const struct ovsdb_idl_table_class *table_class)
{
struct ovsdb_idl_table *table
= ovsdb_idl_table_from_class(idl, table_class);
struct ovsdb_idl_row *row;
LIST_FOR_EACH (row, track_node, &table->track_list) {
if (!ovsdb_idl_row_is_orphan(row) || row->tracked_old_datum) {
return row;
}
}
return NULL;
}
/* Returns the next tracked row in table after the specified 'row'
* (in no particular order). Returns NULL if there are no tracked rows.
* Pure orphan rows, i.e. rows that never had any datum, are skipped. */
const struct ovsdb_idl_row *
ovsdb_idl_track_get_next(const struct ovsdb_idl_row *row)
{
struct ovsdb_idl_table *table = row->table;
LIST_FOR_EACH_CONTINUE (row, track_node, &table->track_list) {
if (!ovsdb_idl_row_is_orphan(row) || row->tracked_old_datum) {
return row;
}
}
return NULL;
}
/* Returns true if a tracked 'column' in 'row' was updated by IDL, false
* otherwise. The tracking data is cleared by ovsdb_idl_track_clear()
*
* Function returns false if 'column' is not tracked (see
* ovsdb_idl_track_add_column()).
*/
bool
ovsdb_idl_track_is_updated(const struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column)
{
const struct ovsdb_idl_table_class *class;
size_t column_idx;
class = row->table->class_;
column_idx = column - class->columns;
if (row->updated && bitmap_is_set(row->updated, column_idx)) {
return true;
} else {
return false;
}
}
static void
ovsdb_idl_track_clear__(struct ovsdb_idl *idl, bool flush_all)
{
size_t i;
for (i = 0; i < idl->class_->n_tables; i++) {
struct ovsdb_idl_table *table = &idl->tables[i];
if (!ovs_list_is_empty(&table->track_list)) {
struct ovsdb_idl_row *row;
LIST_FOR_EACH_SAFE (row, track_node, &table->track_list) {
if (row->updated) {
free(row->updated);
row->updated = NULL;
}
ovsdb_idl_row_untrack_change(row);
if (ovsdb_idl_row_is_orphan(row)) {
ovsdb_idl_row_unparse(row);
if (row->tracked_old_datum) {
const struct ovsdb_idl_table_class *class =
row->table->class_;
for (size_t c = 0; c < class->n_columns; c++) {
ovsdb_datum_destroy(&row->tracked_old_datum[c],
&class->columns[c].type);
}
free(row->tracked_old_datum);
row->tracked_old_datum = NULL;
}
/* Rows that were reused as orphan after being processed
* for deletion are still in the table hmap and will be
* cleaned up when their src arcs are removed. These rows
* will not be reported anymore as "deleted" to IDL
* clients.
*
* The exception is when 'destroy' is explicitly set to
* 'true' which usually happens when the complete IDL
* contents are being flushed.
*/
if (flush_all || ovs_list_is_empty(&row->dst_arcs)) {
free(row);
}
}
}
}
}
}
/* Flushes the tracked rows. Client calls this function after calling
* ovsdb_idl_run() and read all tracked rows with the ovsdb_idl_track_get_*()
* functions. This is usually done at the end of the client's processing
* loop when it is ready to do ovsdb_idl_run() again.
*/
void
ovsdb_idl_track_clear(struct ovsdb_idl *idl)
{
ovsdb_idl_track_clear__(idl, false);
}
/* Sets or clears (depending on 'enable') OVSDB_IDL_WRITE_CHANGED_ONLY
* for 'column' in 'idl', ensuring that the column will be included in a
* transaction only if its value has actually changed locally. Normally
* read/write columns that are written to are always included in the
* transaction but, in specific cases, when the application doesn't
* require atomicity of writes across different columns, the ones that
* don't change value may be skipped.
*
* This function should be called between ovsdb_idl_create() and
* the first call to ovsdb_idl_run().
*/
void
ovsdb_idl_set_write_changed_only(struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column,
bool enable)
{
if (enable) {
*ovsdb_idl_get_mode(idl, column) |= OVSDB_IDL_WRITE_CHANGED_ONLY;
} else {
*ovsdb_idl_get_mode(idl, column) &= ~OVSDB_IDL_WRITE_CHANGED_ONLY;
}
}
/* Helper function to wrap calling ovsdb_idl_set_write_changed_only() for
* all columns that are part of 'idl'.
*/
void
ovsdb_idl_set_write_changed_only_all(struct ovsdb_idl *idl, bool enable)
{
for (size_t i = 0; i < idl->class_->n_tables; i++) {
const struct ovsdb_idl_table_class *tc = &idl->class_->tables[i];
for (size_t j = 0; j < tc->n_columns; j++) {
const struct ovsdb_idl_column *column = &tc->columns[j];
ovsdb_idl_set_write_changed_only(idl, column, enable);
}
}
}
static void
log_parse_update_error(struct ovsdb_error *error)
{
if (!VLOG_DROP_WARN(&syntax_rl)) {
char *s = ovsdb_error_to_string(error);
VLOG_WARN_RL(&syntax_rl, "%s", s);
free(s);
}
ovsdb_error_destroy(error);
}
static struct ovsdb_error *
ovsdb_idl_parse_update__(struct ovsdb_idl *idl,
const struct ovsdb_cs_db_update *du)
{
for (size_t i = 0; i < du->n; i++) {
const struct ovsdb_cs_table_update *tu = &du->table_updates[i];
struct ovsdb_idl_table *table = shash_find_data(&idl->table_by_name,
tu->table_name);
if (!table) {
return ovsdb_syntax_error(
NULL, NULL, "update to unknown table \"%s\"", tu->table_name);
}
for (size_t j = 0; j < tu->n; j++) {
const struct ovsdb_cs_row_update *ru = &tu->row_updates[j];
switch (ovsdb_idl_process_update(table, ru)) {
case OVSDB_IDL_UPDATE_DB_CHANGED:
idl->change_seqno++;
break;
case OVSDB_IDL_UPDATE_NO_CHANGES:
break;
case OVSDB_IDL_UPDATE_INCONSISTENT:
ovsdb_cs_flag_inconsistency(idl->cs);
return ovsdb_error(NULL,
"row update received for inconsistent "
"IDL: reconnecting IDL and resync all "
"data");
}
}
}
return NULL;
}
static void
ovsdb_idl_parse_update(struct ovsdb_idl *idl,
const struct ovsdb_cs_update_event *update)
{
if (update->monitor_reply) {
/* XXX This isn't semantically required, because we only need to
* increment change_seqno if there's a real change, which we'll do
* below, but older versions of the IDL always incremented change_seqno
* when a monitor reply was received and if we don't do it then tests
* will fail. */
idl->change_seqno++;
}
struct ovsdb_cs_db_update *du;
struct ovsdb_error *error = ovsdb_cs_parse_db_update(
update->table_updates, update->version, &du);
if (!error) {
if (update->clear) {
ovsdb_idl_clear(idl);
}
error = ovsdb_idl_parse_update__(idl, du);
}
ovsdb_cs_db_update_destroy(du);
if (error) {
log_parse_update_error(error);
}
}
/* Reparses references to rows that have been deleted in the current IDL run.
*
* To ensure that reference sources that are deleted are not reparsed,
* this function must be called after all updates have been processed in
* the current IDL run, i.e., after all calls to ovsdb_idl_parse_update().
*/
static void
ovsdb_idl_reparse_deleted(struct ovsdb_idl *db)
{
struct ovsdb_idl_row *row;
LIST_FOR_EACH_SAFE (row, track_node, &db->deleted_untracked_rows) {
ovsdb_idl_row_untrack_change(row);
add_tracked_change_for_references(row);
ovsdb_idl_row_reparse_backrefs(row);
/* Orphan rows that are still unreferenced or are part of tables that
* have change tracking enabled should be added to their table's
* 'track_list'.
*/
if (ovs_list_is_empty(&row->dst_arcs)
|| ovsdb_idl_track_is_set(row->table)) {
ovsdb_idl_row_track_change(row, OVSDB_IDL_CHANGE_DELETE);
}
}
}
/* Reparses rows that refer to rows that were inserted in the
* current IDL run. */
static void
ovsdb_idl_reparse_refs_to_inserted(struct ovsdb_idl *db)
{
struct ovsdb_idl_row *row;
LIST_FOR_EACH_POP (row, reparse_node, &db->rows_to_reparse) {
ovs_list_init(&row->reparse_node);
/* Skip rows that have been deleted in the meantime. */
if (ovsdb_idl_row_is_orphan(row)) {
continue;
}
ovsdb_idl_row_unparse(row);
ovsdb_idl_row_clear_arcs(row, false);
ovsdb_idl_row_parse(row);
}
}
static struct ovsdb_idl_row *
ovsdb_idl_get_row(struct ovsdb_idl_table *table, const struct uuid *uuid)
{
struct ovsdb_idl_row *row;
HMAP_FOR_EACH_WITH_HASH (row, hmap_node, uuid_hash(uuid), &table->rows) {
if (uuid_equals(&row->uuid, uuid)) {
return row;
}
}
return NULL;
}
/* Returns OVSDB_IDL_UPDATE_DB_CHANGED if a column with mode
* OVSDB_IDL_MODE_RW changed.
*
* Some IDL inconsistencies can be detected when processing updates:
* - trying to insert an already existing row
* - trying to update a missing row
* - trying to delete a non existent row
*
* In such cases OVSDB_IDL_UPDATE_INCONSISTENT is returned.
* Even though the IDL client could recover, it's best to report the
* inconsistent state because the state the server is in is unknown so the
* safest thing to do is to retry (potentially connecting to a new server).
*
* Returns OVSDB_IDL_UPDATE_NO_CHANGES otherwise.
*/
static enum update_result
ovsdb_idl_process_update(struct ovsdb_idl_table *table,
const struct ovsdb_cs_row_update *ru)
{
const struct uuid *uuid = &ru->row_uuid;
struct ovsdb_idl_row *row = ovsdb_idl_get_row(table, uuid);
switch (ru->type) {
case OVSDB_CS_ROW_DELETE:
if (row && !ovsdb_idl_row_is_orphan(row)) {
/* XXX perhaps we should check the 'old' values? */
ovsdb_idl_delete_row(row);
} else {
VLOG_ERR_RL(&semantic_rl, "cannot delete missing row "UUID_FMT" "
"from table %s",
UUID_ARGS(uuid), table->class_->name);
return OVSDB_IDL_UPDATE_INCONSISTENT;
}
break;
case OVSDB_CS_ROW_INSERT:
if (!row) {
ovsdb_idl_insert_row(ovsdb_idl_row_create(table, uuid),
ru->columns);
} else if (ovsdb_idl_row_is_orphan(row)) {
ovsdb_idl_row_untrack_change(row);
ovsdb_idl_insert_row(row, ru->columns);
} else {
VLOG_ERR_RL(&semantic_rl, "cannot add existing row "UUID_FMT" to "
"table %s", UUID_ARGS(uuid), table->class_->name);
return OVSDB_IDL_UPDATE_INCONSISTENT;
}
break;
case OVSDB_CS_ROW_UPDATE:
case OVSDB_CS_ROW_XOR:
if (row) {
if (!ovsdb_idl_row_is_orphan(row)) {
return ovsdb_idl_modify_row(row, ru->columns,
ru->type == OVSDB_CS_ROW_XOR)
? OVSDB_IDL_UPDATE_DB_CHANGED
: OVSDB_IDL_UPDATE_NO_CHANGES;
} else {
VLOG_ERR_RL(&semantic_rl, "cannot modify missing but "
"referenced row "UUID_FMT" in table %s",
UUID_ARGS(uuid), table->class_->name);
return OVSDB_IDL_UPDATE_INCONSISTENT;
}
} else {
VLOG_ERR_RL(&semantic_rl, "cannot modify missing row "UUID_FMT" "
"in table %s", UUID_ARGS(uuid), table->class_->name);
return OVSDB_IDL_UPDATE_INCONSISTENT;
}
break;
default:
OVS_NOT_REACHED();
}
return OVSDB_IDL_UPDATE_DB_CHANGED;
}
/* Recursively add rows to tracked change lists for all rows that reference
'row'. */
static void
add_tracked_change_for_references(struct ovsdb_idl_row *row)
{
const struct ovsdb_idl_arc *arc;
LIST_FOR_EACH (arc, dst_node, &row->dst_arcs) {
struct ovsdb_idl_row *ref = arc->src;
if (ovs_list_is_empty(&ref->track_node) &&
ovsdb_idl_track_is_set(ref->table)) {
ovsdb_idl_row_track_change(ref, OVSDB_IDL_CHANGE_MODIFY);
add_tracked_change_for_references(ref);
}
}
}
/* Returns true if a column with mode OVSDB_IDL_MODE_RW changed, false
* otherwise.
*
* Change 'row' either with the content of 'row_json' or by apply 'diff'.
* Caller needs to provide either valid 'row_json' or 'diff', but not
* both. */
static bool
ovsdb_idl_row_change(struct ovsdb_idl_row *row, const struct shash *values,
bool xor, enum ovsdb_idl_change change)
{
struct ovsdb_idl_table *table = row->table;
const struct ovsdb_idl_table_class *class = table->class_;
struct shash_node *node;
bool changed = false;
SHASH_FOR_EACH (node, values) {
const char *column_name = node->name;
const struct ovsdb_idl_column *column;
struct ovsdb_error *error;
unsigned int column_idx;
struct ovsdb_datum *old;
bool datum_changed = false;
column = shash_find_data(&table->columns, column_name);
if (!column) {
VLOG_WARN_RL(&syntax_rl, "unknown column %s updating row "UUID_FMT,
column_name, UUID_ARGS(&row->uuid));
continue;
}
column_idx = column - table->class_->columns;
old = &row->old_datum[column_idx];
if (xor) {
struct ovsdb_datum diff;
error = ovsdb_transient_datum_from_json(&diff, &column->type,
node->data);
if (!error) {
error = ovsdb_datum_apply_diff_in_place(old, &diff,
&column->type);
ovsdb_datum_destroy(&diff, &column->type);
datum_changed = true;
}
} else {
struct ovsdb_datum datum;
error = ovsdb_datum_from_json(&datum, &column->type, node->data,
NULL);
if (!error) {
if (!ovsdb_datum_equals(old, &datum, &column->type)) {
ovsdb_datum_swap(old, &datum);
datum_changed = true;
}
ovsdb_datum_destroy(&datum, &column->type);
}
}
if (error) {
char *s = ovsdb_error_to_string_free(error);
VLOG_WARN_RL(&syntax_rl, "error parsing column %s in row "UUID_FMT
" in table %s: %s", column_name,
UUID_ARGS(&row->uuid), table->class_->name, s);
free(s);
continue;
}
if (datum_changed && table->modes[column_idx] & OVSDB_IDL_ALERT) {
changed = true;
row->change_seqno[change]
= row->table->change_seqno[change]
= row->table->idl->change_seqno + 1;
if (table->modes[column_idx] & OVSDB_IDL_TRACK) {
if (ovs_list_is_empty(&row->track_node) &&
ovsdb_idl_track_is_set(row->table)) {
ovs_list_push_back(&row->table->track_list,
&row->track_node);
}
add_tracked_change_for_references(row);
if (!row->updated) {
row->updated = bitmap_allocate(class->n_columns);
}
bitmap_set1(row->updated, column_idx);
}
}
}
return changed;
}
/* When a row A refers to row B through a column with a "refTable" constraint,
* but row B does not exist, row B is called an "orphan row". Orphan rows
* should not persist, because the database enforces referential integrity, but
* they can appear transiently as changes from the database are received (the
* database doesn't try to topologically sort them and circular references mean
* it isn't always possible anyhow).
*
* This function returns true if 'row' is an orphan row, otherwise false.
*/
static bool
ovsdb_idl_row_is_orphan(const struct ovsdb_idl_row *row)
{
return !row->old_datum && !row->new_datum;
}
/* Returns true if 'row' is conceptually part of the database as modified by
* the current transaction (if any), false otherwise.
*
* This function will return true if 'row' is not an orphan (see the comment on
* ovsdb_idl_row_is_orphan()) and:
*
* - 'row' exists in the database and has not been deleted within the
* current transaction (if any).
*
* - 'row' was inserted within the current transaction and has not been
* deleted. (In the latter case you should not have passed 'row' in at
* all, because ovsdb_idl_txn_delete() freed it.)
*
* This function will return false if 'row' is an orphan or if 'row' was
* deleted within the current transaction.
*/
static bool
ovsdb_idl_row_exists(const struct ovsdb_idl_row *row)
{
return row->new_datum != NULL;
}
static void
ovsdb_idl_row_parse(struct ovsdb_idl_row *row)
{
const struct ovsdb_idl_table_class *class = row->table->class_;
size_t i;
if (row->parsed) {
ovsdb_idl_row_unparse(row);
}
for (i = 0; i < class->n_columns; i++) {
const struct ovsdb_idl_column *c = &class->columns[i];
(c->parse)(row, &row->old_datum[i]);
}
row->parsed = true;
}
static void
ovsdb_idl_row_unparse(struct ovsdb_idl_row *row)
{
const struct ovsdb_idl_table_class *class = row->table->class_;
size_t i;
if (!row->parsed) {
return;
}
for (i = 0; i < class->n_columns; i++) {
const struct ovsdb_idl_column *c = &class->columns[i];
(c->unparse)(row);
}
row->parsed = false;
}
/* The OVSDB-IDL Compound Indexes feature allows for the creation of custom
* table indexes over one or more columns in the IDL. These indexes provide
* the ability to retrieve rows matching a particular search criteria and to
* iterate over a subset of rows in a defined order.
*/
/* Generic comparator that can compare each index, using the custom
* configuration (an struct ovsdb_idl_index) passed to it.
* Not intended for direct usage.
*/
static int
ovsdb_idl_index_generic_comparer(const void *a,
const void *b, const void *conf)
{
const struct ovsdb_idl_column *column;
const struct ovsdb_idl_index *index;
size_t i;
index = CONST_CAST(struct ovsdb_idl_index *, conf);
if (a == b) {
return 0;
}
for (i = 0; i < index->n_columns; i++) {
int val;
if (index->columns[i].comparer) {
val = index->columns[i].comparer(a, b);
} else {
column = index->columns[i].column;
const struct ovsdb_idl_row *row_a, *row_b;
row_a = CONST_CAST(struct ovsdb_idl_row *, a);
row_b = CONST_CAST(struct ovsdb_idl_row *, b);
const struct ovsdb_datum *datum_a, *datum_b;
datum_a = ovsdb_idl_read(row_a, column);
datum_b = ovsdb_idl_read(row_b, column);
val = ovsdb_datum_compare_3way(datum_a, datum_b, &column->type);
}
if (val) {
return index->columns[i].order == OVSDB_INDEX_ASC ? val : -val;
}
}
/* If ins_del is true then a row is being inserted into or deleted from
* the index list. In this case, we augment the search key with
* additional values (row UUID and memory address) to create a unique
* search key in order to locate the correct entry efficiently and to
* ensure that the correct entry is deleted in the case of a "delete"
* operation.
*/
if (index->ins_del) {
const struct ovsdb_idl_row *row_a, *row_b;
row_a = (const struct ovsdb_idl_row *) a;
row_b = (const struct ovsdb_idl_row *) b;
int value = uuid_compare_3way(&row_a->uuid, &row_b->uuid);
return value ? value : (a < b) - (a > b);
} else {
return 0;
}
}
/* Creates a new index for the given 'idl' and with the 'n' specified
* 'columns'.
*
* All indexes must be created before the first call to ovsdb_idl_run(). */
struct ovsdb_idl_index *
ovsdb_idl_index_create(struct ovsdb_idl *idl,
const struct ovsdb_idl_index_column *columns,
size_t n)
{
ovs_assert(n > 0);
struct ovsdb_idl_index *index = xzalloc(sizeof *index);
index->table = ovsdb_idl_table_from_column(idl, columns[0].column);
for (size_t i = 0; i < n; i++) {
const struct ovsdb_idl_index_column *c = &columns[i];
ovs_assert(ovsdb_idl_table_from_column(idl,
c->column) == index->table);
ovs_assert(*ovsdb_idl_get_mode(idl, c->column) & OVSDB_IDL_MONITOR);
}
index->columns = xmemdup(columns, n * sizeof *columns);
index->n_columns = n;
index->skiplist = skiplist_create(ovsdb_idl_index_generic_comparer, index);
ovs_list_push_back(&index->table->indexes, &index->node);
return index;
}
struct ovsdb_idl_index *
ovsdb_idl_index_create1(struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column1)
{
const struct ovsdb_idl_index_column columns[] = {
{ .column = column1 },
};
return ovsdb_idl_index_create(idl, columns, ARRAY_SIZE(columns));
}
struct ovsdb_idl_index *
ovsdb_idl_index_create2(struct ovsdb_idl *idl,
const struct ovsdb_idl_column *column1,
const struct ovsdb_idl_column *column2)
{
const struct ovsdb_idl_index_column columns[] = {
{ .column = column1 },
{ .column = column2 },
};
return ovsdb_idl_index_create(idl, columns, ARRAY_SIZE(columns));
}
static void
ovsdb_idl_destroy_indexes(struct ovsdb_idl_table *table)
{
struct ovsdb_idl_index *index;
LIST_FOR_EACH_SAFE (index, node, &table->indexes) {
skiplist_destroy(index->skiplist, NULL);
free(index->columns);
free(index);
}
}
static void
ovsdb_idl_add_to_indexes(const struct ovsdb_idl_row *row)
{
struct ovsdb_idl_table *table = row->table;
struct ovsdb_idl_index *index;
LIST_FOR_EACH (index, node, &table->indexes) {
index->ins_del = true;
skiplist_insert(index->skiplist, row);
index->ins_del = false;
}
}
static void
ovsdb_idl_remove_from_indexes(const struct ovsdb_idl_row *row)
{
struct ovsdb_idl_table *table = row->table;
struct ovsdb_idl_index *index;
LIST_FOR_EACH (index, node, &table->indexes) {
index->ins_del = true;
skiplist_delete(index->skiplist, row);
index->ins_del = false;
}
}
/* Writes a datum in an ovsdb_idl_row, and updates the corresponding field in
* the table record. Not intended for direct usage. */
void
ovsdb_idl_index_write(struct ovsdb_idl_row *const_row,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum,
const struct ovsdb_idl_table_class *class)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, const_row);
size_t column_idx = column - class->columns;
if (bitmap_is_set(row->written, column_idx)) {
free(row->new_datum[column_idx].values);
free(row->new_datum[column_idx].keys);
} else {
bitmap_set1(row->written, column_idx);
}
row->new_datum[column_idx] = *datum;
(column->unparse)(row);
(column->parse)(row, &row->new_datum[column_idx]);
}
/* Magic UUID for index rows */
static const struct uuid index_row_uuid = {
.parts = {0xdeadbeef,
0xdeadbeef,
0xdeadbeef,
0xdeadbeef}};
/* Check if a row is an index row */
static bool
is_index_row(const struct ovsdb_idl_row *row)
{
return uuid_equals(&row->uuid, &index_row_uuid);
}
/* Initializes a row for use in an indexed query.
* Not intended for direct usage.
*/
struct ovsdb_idl_row *
ovsdb_idl_index_init_row(struct ovsdb_idl_index *index)
{
const struct ovsdb_idl_table_class *class = index->table->class_;
struct ovsdb_idl_row *row = xzalloc(class->allocation_size);
class->row_init(row);
row->uuid = index_row_uuid;
row->new_datum = xmalloc(class->n_columns * sizeof *row->new_datum);
row->written = bitmap_allocate(class->n_columns);
row->table = index->table;
/* arcs are not used for index row, but it doesn't harm to initialize */
ovs_list_init(&row->src_arcs);
ovs_list_init(&row->dst_arcs);
return row;
}
/* Destroys 'row_' and frees all associated memory. This function is intended
* to be used indirectly through one of the "index_destroy_row" functions
* generated by ovsdb-idlc.
*/
void
ovsdb_idl_index_destroy_row(const struct ovsdb_idl_row *row_)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, row_);
const struct ovsdb_idl_table_class *class = row->table->class_;
const struct ovsdb_idl_column *c;
size_t i;
ovs_assert(is_index_row(row_));
ovs_assert(ovs_list_is_empty(&row_->src_arcs));
ovs_assert(ovs_list_is_empty(&row_->dst_arcs));
BITMAP_FOR_EACH_1 (i, class->n_columns, row->written) {
c = &class->columns[i];
(c->unparse) (row);
ovsdb_datum_destroy(&row->new_datum[i], &c->type);
}
free(row->new_datum);
free(row->written);
free(row);
}
struct ovsdb_idl_row *
ovsdb_idl_index_find(struct ovsdb_idl_index *index,
const struct ovsdb_idl_row *target)
{
return skiplist_get_data(skiplist_find(index->skiplist, target));
}
struct ovsdb_idl_cursor
ovsdb_idl_cursor_first(struct ovsdb_idl_index *index)
{
struct skiplist_node *node = skiplist_first(index->skiplist);
return (struct ovsdb_idl_cursor) { index, node };
}
struct ovsdb_idl_cursor
ovsdb_idl_cursor_first_eq(struct ovsdb_idl_index *index,
const struct ovsdb_idl_row *target)
{
struct skiplist_node *node = skiplist_find(index->skiplist, target);
return (struct ovsdb_idl_cursor) { index, node };
}
struct ovsdb_idl_cursor
ovsdb_idl_cursor_first_ge(struct ovsdb_idl_index *index,
const struct ovsdb_idl_row *target)
{
struct skiplist_node *node = (target
? skiplist_forward_to(index->skiplist,
target)
: skiplist_first(index->skiplist));
return (struct ovsdb_idl_cursor) { index, node };
}
void
ovsdb_idl_cursor_next(struct ovsdb_idl_cursor *cursor)
{
cursor->position = skiplist_next(cursor->position);
}
void
ovsdb_idl_cursor_next_eq(struct ovsdb_idl_cursor *cursor)
{
struct ovsdb_idl_row *data = skiplist_get_data(cursor->position);
struct skiplist_node *next_position = skiplist_next(cursor->position);
struct ovsdb_idl_row *next_data = skiplist_get_data(next_position);
cursor->position = (!ovsdb_idl_index_compare(cursor->index,
data, next_data)
? next_position : NULL);
}
struct ovsdb_idl_row *
ovsdb_idl_cursor_data(struct ovsdb_idl_cursor *cursor)
{
return skiplist_get_data(cursor->position);
}
/* Returns the result of comparing two rows using the comparison function
* for this index.
* Returns:
* < 0 if a < b
* 0 if a == b
* > 0 if a > b
* When the pointer to either row is NULL, this function considers NULL to be
* greater than any other value, and NULL == NULL.
*/
int
ovsdb_idl_index_compare(struct ovsdb_idl_index *index,
const struct ovsdb_idl_row *a,
const struct ovsdb_idl_row *b)
{
if (a && b) {
return ovsdb_idl_index_generic_comparer(a, b, index);
} else if (!a && !b) {
return 0;
} else if (a) {
return -1;
} else {
return 1;
}
}
static void
ovsdb_idl_row_clear_old(struct ovsdb_idl_row *row)
{
ovs_assert(row->old_datum == row->new_datum);
if (!ovsdb_idl_row_is_orphan(row)) {
if (ovsdb_idl_track_is_set(row->table) && !row->tracked_old_datum) {
row->tracked_old_datum = row->old_datum;
} else {
const struct ovsdb_idl_table_class *class = row->table->class_;
size_t i;
for (i = 0; i < class->n_columns; i++) {
ovsdb_datum_destroy(&row->old_datum[i],
&class->columns[i].type);
}
free(row->old_datum);
}
row->old_datum = row->new_datum = NULL;
}
}
static void
ovsdb_idl_row_clear_new(struct ovsdb_idl_row *row)
{
if (row->old_datum != row->new_datum) {
if (row->new_datum) {
const struct ovsdb_idl_table_class *class = row->table->class_;
size_t i;
if (row->written) {
BITMAP_FOR_EACH_1 (i, class->n_columns, row->written) {
ovsdb_datum_destroy(&row->new_datum[i],
&class->columns[i].type);
}
}
free(row->new_datum);
free(row->written);
row->written = NULL;
}
row->new_datum = row->old_datum;
}
}
static void
ovsdb_idl_row_clear_arcs(struct ovsdb_idl_row *row, bool destroy_dsts)
{
struct ovsdb_idl_arc *arc;
/* Delete all forward arcs. If 'destroy_dsts', destroy any orphaned rows
* that this causes to be unreferenced.
*/
LIST_FOR_EACH_SAFE (arc, src_node, &row->src_arcs) {
ovs_list_remove(&arc->dst_node);
if (destroy_dsts
&& ovsdb_idl_row_is_orphan(arc->dst)
&& ovs_list_is_empty(&arc->dst->dst_arcs)) {
ovsdb_idl_row_destroy(arc->dst);
}
free(arc);
}
ovs_list_init(&row->src_arcs);
}
/* Force nodes that reference 'row' to reparse. */
static void
ovsdb_idl_row_reparse_backrefs(struct ovsdb_idl_row *row)
{
struct ovsdb_idl_arc *arc;
/* This is trickier than it looks. ovsdb_idl_row_clear_arcs() will destroy
* 'arc', so we need to use the "safe" variant of list traversal. However,
* calling an ovsdb_idl_column's 'parse' function will add an arc
* equivalent to 'arc' to row->arcs. That could be a problem for
* traversal, but it adds it at the beginning of the list to prevent us
* from stumbling upon it again.
*
* (If duplicate arcs were possible then we would need to make sure that
* 'next' didn't also point into 'arc''s destination, but we forbid
* duplicate arcs.) */
LIST_FOR_EACH_SAFE (arc, dst_node, &row->dst_arcs) {
struct ovsdb_idl_row *ref = arc->src;
ovsdb_idl_row_unparse(ref);
ovsdb_idl_row_clear_arcs(ref, false);
ovsdb_idl_row_parse(ref);
}
}
/* Add all backrefs of a row to the 'rows_to_reparse' list, so they can be
* re-parsed later. */
static void
ovsdb_idl_row_mark_backrefs_for_reparsing(struct ovsdb_idl_row *row)
{
struct ovsdb_idl_arc *arc;
LIST_FOR_EACH (arc, dst_node, &row->dst_arcs) {
struct ovsdb_idl_row *ref = arc->src;
if (ovs_list_is_empty(&ref->reparse_node)) {
ovs_list_push_back(&ref->table->idl->rows_to_reparse,
&ref->reparse_node);
}
}
}
static void
ovsdb_idl_row_track_change(struct ovsdb_idl_row *row,
enum ovsdb_idl_change change)
{
row->change_seqno[change]
= row->table->change_seqno[change]
= row->table->idl->change_seqno + 1;
if (ovs_list_is_empty(&row->track_node)) {
ovs_list_push_back(&row->table->track_list, &row->track_node);
}
}
static void
ovsdb_idl_row_untrack_change(struct ovsdb_idl_row *row)
{
if (ovs_list_is_empty(&row->track_node)) {
return;
}
row->change_seqno[OVSDB_IDL_CHANGE_INSERT] =
row->change_seqno[OVSDB_IDL_CHANGE_MODIFY] =
row->change_seqno[OVSDB_IDL_CHANGE_DELETE] = 0;
ovs_list_remove(&row->track_node);
ovs_list_init(&row->track_node);
}
static struct ovsdb_idl_row *
ovsdb_idl_row_create__(const struct ovsdb_idl_table_class *class)
{
struct ovsdb_idl_row *row = xzalloc(class->allocation_size);
class->row_init(row);
ovs_list_init(&row->src_arcs);
ovs_list_init(&row->dst_arcs);
ovs_list_init(&row->reparse_node);
hmap_node_nullify(&row->txn_node);
ovs_list_init(&row->track_node);
return row;
}
static struct ovsdb_idl_row *
ovsdb_idl_row_create(struct ovsdb_idl_table *table, const struct uuid *uuid)
{
struct ovsdb_idl_row *row = ovsdb_idl_row_create__(table->class_);
hmap_insert(&table->rows, &row->hmap_node, uuid_hash(uuid));
row->uuid = *uuid;
row->table = table;
row->map_op_written = NULL;
row->map_op_lists = NULL;
row->set_op_written = NULL;
row->set_op_lists = NULL;
return row;
}
/* If 'row' is not referenced anymore, removes 'row' from the table hmap,
* clears the old datum and adds 'row' to the table's track_list.
*
* If 'row' is still referenced, i.e., became "orphan", queues 'row' for
* reparsing after all updates have been processed by adding it to the
* 'deleted_untracked_rows' list.
*/
static void
ovsdb_idl_row_destroy(struct ovsdb_idl_row *row)
{
ovsdb_idl_row_clear_old(row);
if (ovs_list_is_empty(&row->dst_arcs)) {
hmap_remove(&row->table->rows, &row->hmap_node);
ovsdb_idl_destroy_all_map_op_lists(row);
ovsdb_idl_destroy_all_set_op_lists(row);
ovsdb_idl_row_track_change(row, OVSDB_IDL_CHANGE_DELETE);
} else {
ovsdb_idl_row_untrack_change(row);
ovs_list_push_back(&row->table->idl->deleted_untracked_rows,
&row->track_node);
}
}
static void
ovsdb_idl_destroy_all_map_op_lists(struct ovsdb_idl_row *row)
{
if (row->map_op_written) {
/* Clear Map Operation Lists */
size_t idx, n_columns;
const struct ovsdb_idl_column *columns;
const struct ovsdb_type *type;
n_columns = row->table->class_->n_columns;
columns = row->table->class_->columns;
BITMAP_FOR_EACH_1 (idx, n_columns, row->map_op_written) {
type = &columns[idx].type;
map_op_list_destroy(row->map_op_lists[idx], type);
}
free(row->map_op_lists);
bitmap_free(row->map_op_written);
row->map_op_lists = NULL;
row->map_op_written = NULL;
}
}
static void
ovsdb_idl_destroy_all_set_op_lists(struct ovsdb_idl_row *row)
{
if (row->set_op_written) {
/* Clear Set Operation Lists */
size_t idx, n_columns;
const struct ovsdb_idl_column *columns;
const struct ovsdb_type *type;
n_columns = row->table->class_->n_columns;
columns = row->table->class_->columns;
BITMAP_FOR_EACH_1 (idx, n_columns, row->set_op_written) {
type = &columns[idx].type;
set_op_list_destroy(row->set_op_lists[idx], type);
}
free(row->set_op_lists);
bitmap_free(row->set_op_written);
row->set_op_lists = NULL;
row->set_op_written = NULL;
}
}
static void
ovsdb_idl_row_destroy_postprocess(struct ovsdb_idl *idl)
{
for (size_t i = 0; i < idl->class_->n_tables; i++) {
struct ovsdb_idl_table *table = &idl->tables[i];
if (!ovs_list_is_empty(&table->track_list)) {
struct ovsdb_idl_row *row;
LIST_FOR_EACH_SAFE (row, track_node, &table->track_list) {
if (!ovsdb_idl_track_is_set(row->table)) {
ovs_list_remove(&row->track_node);
ovsdb_idl_row_unparse(row);
free(row);
}
}
}
}
}
static void
ovsdb_idl_insert_row(struct ovsdb_idl_row *row, const struct shash *data)
{
const struct ovsdb_idl_table_class *class = row->table->class_;
size_t i, datum_size;
ovs_assert(!row->old_datum && !row->new_datum);
datum_size = class->n_columns * sizeof *row->old_datum;
row->old_datum = row->new_datum = xmalloc(datum_size);
for (i = 0; i < class->n_columns; i++) {
ovsdb_datum_init_default(&row->old_datum[i], &class->columns[i].type);
}
ovsdb_idl_row_change(row, data, false, OVSDB_IDL_CHANGE_INSERT);
ovsdb_idl_row_parse(row);
/* Backrefs will be re-parsed after all updates processed to avoid
* re-parsing same rows more than once if they are referencing more
* than one inserted row. */
ovsdb_idl_row_mark_backrefs_for_reparsing(row);
ovsdb_idl_add_to_indexes(row);
}
static void
ovsdb_idl_delete_row(struct ovsdb_idl_row *row)
{
ovsdb_idl_remove_from_indexes(row);
ovsdb_idl_row_clear_arcs(row, true);
ovsdb_idl_row_destroy(row);
}
/* Returns true if a column with mode OVSDB_IDL_MODE_RW changed, false
* otherwise. */
static bool
ovsdb_idl_modify_row(struct ovsdb_idl_row *row, const struct shash *values,
bool xor)
{
ovsdb_idl_remove_from_indexes(row);
ovsdb_idl_row_unparse(row);
ovsdb_idl_row_clear_arcs(row, true);
bool changed = ovsdb_idl_row_change(row, values, xor,
OVSDB_IDL_CHANGE_MODIFY);
ovsdb_idl_row_parse(row);
ovsdb_idl_add_to_indexes(row);
return changed;
}
static bool
may_add_arc(const struct ovsdb_idl_row *src, const struct ovsdb_idl_row *dst)
{
const struct ovsdb_idl_arc *arc;
/* No self-arcs. */
if (src == dst) {
return false;
}
/* No duplicate arcs.
*
* We only need to test whether the first arc in dst->dst_arcs originates
* at 'src', since we add all of the arcs from a given source in a clump
* (in a single call to ovsdb_idl_row_parse()) and new arcs are always
* added at the front of the dst_arcs list. */
if (ovs_list_is_empty(&dst->dst_arcs)) {
return true;
}
arc = CONTAINER_OF(dst->dst_arcs.next, struct ovsdb_idl_arc, dst_node);
return arc->src != src;
}
static struct ovsdb_idl_table *
ovsdb_idl_table_from_class(const struct ovsdb_idl *idl,
const struct ovsdb_idl_table_class *table_class)
{
ptrdiff_t idx = table_class - idl->class_->tables;
return idx >= 0 && idx < idl->class_->n_tables ? &idl->tables[idx] : NULL;
}
/* Called by ovsdb-idlc generated code. */
struct ovsdb_idl_row *
ovsdb_idl_get_row_arc(struct ovsdb_idl_row *src,
const struct ovsdb_idl_table_class *dst_table_class,
const struct uuid *dst_uuid)
{
struct ovsdb_idl *idl = src->table->idl;
struct ovsdb_idl_table *dst_table;
struct ovsdb_idl_arc *arc;
struct ovsdb_idl_row *dst;
dst_table = ovsdb_idl_table_from_class(idl, dst_table_class);
dst = ovsdb_idl_get_row(dst_table, dst_uuid);
if (idl->txn || is_index_row(src)) {
/* There are two cases we should not update any arcs:
*
* 1. We're being called from ovsdb_idl_txn_write(). We must not update
* any arcs, because the transaction will be backed out at commit or
* abort time and we don't want our graph screwed up.
*
* 2. The row is used as an index for querying purpose only.
*
* In these cases, just return the destination row, if there is one and
* it has not been deleted. */
if (dst && (hmap_node_is_null(&dst->txn_node) || dst->new_datum)) {
return dst;
}
return NULL;
} else {
/* We're being called from some other context. Update the graph. */
if (!dst) {
dst = ovsdb_idl_row_create(dst_table, dst_uuid);
}
/* Add a new arc, if it wouldn't be a self-arc or a duplicate arc. */
if (may_add_arc(src, dst)) {
/* The arc *must* be added at the front of the dst_arcs list. See
* ovsdb_idl_row_reparse_backrefs() for details. */
arc = xmalloc(sizeof *arc);
ovs_list_push_front(&src->src_arcs, &arc->src_node);
ovs_list_push_front(&dst->dst_arcs, &arc->dst_node);
arc->src = src;
arc->dst = dst;
}
return !ovsdb_idl_row_is_orphan(dst) ? dst : NULL;
}
}
/* Searches 'tc''s table in 'idl' for a row with UUID 'uuid'. Returns a
* pointer to the row if there is one, otherwise a null pointer. */
const struct ovsdb_idl_row *
ovsdb_idl_get_row_for_uuid(const struct ovsdb_idl *idl,
const struct ovsdb_idl_table_class *tc,
const struct uuid *uuid)
{
return ovsdb_idl_get_row(ovsdb_idl_table_from_class(idl, tc), uuid);
}
static struct ovsdb_idl_row *
next_real_row(struct ovsdb_idl_table *table, struct hmap_node *node)
{
for (; node; node = hmap_next(&table->rows, node)) {
struct ovsdb_idl_row *row;
row = CONTAINER_OF(node, struct ovsdb_idl_row, hmap_node);
if (ovsdb_idl_row_exists(row)) {
return row;
}
}
return NULL;
}
/* Returns a row in 'table_class''s table in 'idl', or a null pointer if that
* table is empty.
*
* Database tables are internally maintained as hash tables, so adding or
* removing rows while traversing the same table can cause some rows to be
* visited twice or not at apply. */
const struct ovsdb_idl_row *
ovsdb_idl_first_row(const struct ovsdb_idl *idl,
const struct ovsdb_idl_table_class *table_class)
{
struct ovsdb_idl_table *table = ovsdb_idl_table_from_class(idl,
table_class);
return next_real_row(table, hmap_first(&table->rows));
}
/* Returns a row following 'row' within its table, or a null pointer if 'row'
* is the last row in its table. */
const struct ovsdb_idl_row *
ovsdb_idl_next_row(const struct ovsdb_idl_row *row)
{
struct ovsdb_idl_table *table = row->table;
return next_real_row(table, hmap_next(&table->rows, &row->hmap_node));
}
/* Reads and returns the value of 'column' within 'row'. If an ongoing
* transaction has changed 'column''s value, the modified value is returned.
*
* The caller must not modify or free the returned value.
*
* Various kinds of changes can invalidate the returned value: writing to the
* same 'column' in 'row' (e.g. with ovsdb_idl_txn_write()), deleting 'row'
* (e.g. with ovsdb_idl_txn_delete()), or completing an ongoing transaction
* (e.g. with ovsdb_idl_txn_commit() or ovsdb_idl_txn_abort()). If the
* returned value is needed for a long time, it is best to make a copy of it
* with ovsdb_datum_clone(). */
const struct ovsdb_datum *
ovsdb_idl_read(const struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column)
{
const struct ovsdb_idl_table_class *class;
size_t column_idx;
ovs_assert(!ovsdb_idl_row_is_synthetic(row));
class = row->table->class_;
column_idx = column - class->columns;
ovs_assert(row->new_datum != NULL);
ovs_assert(column_idx < class->n_columns);
if (row->written && bitmap_is_set(row->written, column_idx)) {
return &row->new_datum[column_idx];
} else if (row->old_datum) {
return &row->old_datum[column_idx];
} else {
return ovsdb_datum_default(&column->type);
}
}
/* Same as ovsdb_idl_read(), except that it also asserts that 'column' has key
* type 'key_type' and value type 'value_type'. (Scalar and set types will
* have a value type of OVSDB_TYPE_VOID.)
*
* This is useful in code that "knows" that a particular column has a given
* type, so that it will abort if someone changes the column's type without
* updating the code that uses it. */
const struct ovsdb_datum *
ovsdb_idl_get(const struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column,
enum ovsdb_atomic_type key_type OVS_UNUSED,
enum ovsdb_atomic_type value_type OVS_UNUSED)
{
ovs_assert(column->type.key.type == key_type);
ovs_assert(column->type.value.type == value_type);
return ovsdb_idl_read(row, column);
}
/* Returns true if the field represented by 'column' in 'row' may be modified,
* false if it is immutable.
*
* Normally, whether a field is mutable is controlled by its column's schema.
* However, an immutable column can be set to any initial value at the time of
* insertion, so if 'row' is a new row (one that is being added as part of the
* current transaction, supposing that a transaction is in progress) then even
* its "immutable" fields are actually mutable. */
bool
ovsdb_idl_is_mutable(const struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column)
{
return column->is_mutable || (row->new_datum && !row->old_datum);
}
/* Returns false if 'row' was obtained from the IDL, true if it was initialized
* to all-zero-bits by some other entity. If 'row' was set up some other way
* then the return value is indeterminate. */
bool
ovsdb_idl_row_is_synthetic(const struct ovsdb_idl_row *row)
{
return row->table == NULL;
}
/* Transactions. */
static void ovsdb_idl_txn_complete(struct ovsdb_idl_txn *txn,
enum ovsdb_idl_txn_status);
/* Returns a string representation of 'status'. The caller must not modify or
* free the returned string.
*
* The return value is probably useful only for debug log messages and unit
* tests. */
const char *
ovsdb_idl_txn_status_to_string(enum ovsdb_idl_txn_status status)
{
switch (status) {
case TXN_UNCOMMITTED:
return "uncommitted";
case TXN_UNCHANGED:
return "unchanged";
case TXN_INCOMPLETE:
return "incomplete";
case TXN_ABORTED:
return "aborted";
case TXN_SUCCESS:
return "success";
case TXN_TRY_AGAIN:
return "try again";
case TXN_NOT_LOCKED:
return "not locked";
case TXN_ERROR:
return "error";
}
return "<unknown>";
}
/* Starts a new transaction on 'idl'. A given ovsdb_idl may only have a single
* active transaction at a time. See the large comment in ovsdb-idl.h for
* general information on transactions. */
struct ovsdb_idl_txn *
ovsdb_idl_txn_create(struct ovsdb_idl *idl)
{
struct ovsdb_idl_txn *txn;
ovs_assert(!idl->txn);
idl->txn = txn = xmalloc(sizeof *txn);
txn->request_id = NULL;
txn->idl = idl;
hmap_init(&txn->txn_rows);
txn->status = TXN_UNCOMMITTED;
txn->error = NULL;
txn->dry_run = false;
ds_init(&txn->comment);
txn->inc_table = NULL;
txn->inc_column = NULL;
hmap_init(&txn->inserted_rows);
return txn;
}
/* Appends 's', which is treated as a printf()-type format string, to the
* comments that will be passed to the OVSDB server when 'txn' is committed.
* (The comment will be committed to the OVSDB log, which "ovsdb-tool
* show-log" can print in a relatively human-readable form.) */
void
ovsdb_idl_txn_add_comment(struct ovsdb_idl_txn *txn, const char *s, ...)
{
va_list args;
if (txn->comment.length) {
ds_put_char(&txn->comment, '\n');
}
va_start(args, s);
ds_put_format_valist(&txn->comment, s, args);
va_end(args);
}
/* Marks 'txn' as a transaction that will not actually modify the database. In
* almost every way, the transaction is treated like other transactions. It
* must be committed or aborted like other transactions, it will be sent to the
* database server like other transactions, and so on. The only difference is
* that the operations sent to the database server will include, as the last
* step, an "abort" operation, so that any changes made by the transaction will
* not actually take effect. */
void
ovsdb_idl_txn_set_dry_run(struct ovsdb_idl_txn *txn)
{
txn->dry_run = true;
}
/* Causes 'txn', when committed, to increment the value of 'column' within
* 'row' by 1. 'column' must have an integer type. After 'txn' commits
* successfully, the client may retrieve the final (incremented) value of
* 'column' with ovsdb_idl_txn_get_increment_new_value().
*
* If at time of commit the transaction is otherwise empty, that is, it doesn't
* change the database, then 'force' is important. If 'force' is false in this
* case, the IDL suppresses the increment and skips a round trip to the
* database server. If 'force' is true, the IDL will still increment the
* column.
*
* The client could accomplish something similar with ovsdb_idl_read(),
* ovsdb_idl_txn_verify() and ovsdb_idl_txn_write(), or with ovsdb-idlc
* generated wrappers for these functions. However, ovsdb_idl_txn_increment()
* will never (by itself) fail because of a verify error.
*
* The intended use is for incrementing the "next_cfg" column in the
* Open_vSwitch table. */
void
ovsdb_idl_txn_increment(struct ovsdb_idl_txn *txn,
const struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column,
bool force)
{
ovs_assert(!txn->inc_table);
ovs_assert(column->type.key.type == OVSDB_TYPE_INTEGER);
ovs_assert(column->type.value.type == OVSDB_TYPE_VOID);
txn->inc_table = row->table->class_->name;
txn->inc_column = column->name;
txn->inc_row = row->uuid;
txn->inc_force = force;
}
/* Destroys 'txn' and frees all associated memory. If ovsdb_idl_txn_commit()
* has been called for 'txn' but the commit is still incomplete (that is, the
* last call returned TXN_INCOMPLETE) then the transaction may or may not still
* end up committing at the database server, but the client will not be able to
* get any further status information back. */
void
ovsdb_idl_txn_destroy(struct ovsdb_idl_txn *txn)
{
struct ovsdb_idl_txn_insert *insert;
if (txn->status == TXN_INCOMPLETE) {
ovsdb_cs_forget_transaction(txn->idl->cs, txn->request_id);
hmap_remove(&txn->idl->outstanding_txns, &txn->hmap_node);
}
json_destroy(txn->request_id);
ovsdb_idl_txn_abort(txn);
ds_destroy(&txn->comment);
free(txn->error);
HMAP_FOR_EACH_SAFE (insert, hmap_node, &txn->inserted_rows) {
free(insert);
}
hmap_destroy(&txn->inserted_rows);
free(txn);
}
/* Causes poll_block() to wake up if 'txn' has completed committing. */
void
ovsdb_idl_txn_wait(const struct ovsdb_idl_txn *txn)
{
if (txn->status != TXN_UNCOMMITTED && txn->status != TXN_INCOMPLETE) {
poll_immediate_wake();
}
}
static struct json *
where_uuid_equals(const struct uuid *uuid)
{
return
json_array_create_1(
json_array_create_3(
json_string_create("_uuid"),
json_string_create("=="),
json_array_create_2(
json_string_create("uuid"),
json_string_create_nocopy(
xasprintf(UUID_FMT, UUID_ARGS(uuid))))));
}
static const struct ovsdb_idl_row *
ovsdb_idl_txn_get_row(const struct ovsdb_idl_txn *txn, const struct uuid *uuid)
{
const struct ovsdb_idl_row *row;
HMAP_FOR_EACH_WITH_HASH (row, txn_node, uuid_hash(uuid), &txn->txn_rows) {
if (uuid_equals(&row->uuid, uuid)) {
return row;
}
}
return NULL;
}
/* XXX there must be a cleaner way to do this */
static struct json *
substitute_uuids(struct json *json, const struct ovsdb_idl_txn *txn)
{
if (json->type == JSON_ARRAY) {
struct uuid uuid;
size_t i;
if (json->array.n == 2
&& json->array.elems[0]->type == JSON_STRING
&& json->array.elems[1]->type == JSON_STRING
&& !strcmp(json->array.elems[0]->string, "uuid")
&& uuid_from_string(&uuid, json->array.elems[1]->string)) {
const struct ovsdb_idl_row *row;
row = ovsdb_idl_txn_get_row(txn, &uuid);
if (row && !row->old_datum && row->new_datum) {
json_destroy(json);
return json_array_create_2(
json_string_create("named-uuid"),
json_string_create_nocopy(ovsdb_data_row_name(&uuid)));
}
}
for (i = 0; i < json->array.n; i++) {
json->array.elems[i] = substitute_uuids(json->array.elems[i],
txn);
}
} else if (json->type == JSON_OBJECT) {
struct shash_node *node;
SHASH_FOR_EACH (node, json_object(json)) {
node->data = substitute_uuids(node->data, txn);
}
}
return json;
}
static void
ovsdb_idl_txn_disassemble(struct ovsdb_idl_txn *txn)
{
struct ovsdb_idl_row *row;
/* This must happen early. Otherwise, ovsdb_idl_row_parse() will call an
* ovsdb_idl_column's 'parse' function, which will call
* ovsdb_idl_get_row_arc(), which will seen that the IDL is in a
* transaction and fail to update the graph. */
txn->idl->txn = NULL;
HMAP_FOR_EACH_SAFE (row, txn_node, &txn->txn_rows) {
enum { INSERTED, MODIFIED, DELETED } op
= (!row->new_datum ? DELETED
: !row->old_datum ? INSERTED
: MODIFIED);
if (op != DELETED) {
ovsdb_idl_remove_from_indexes(row);
}
ovsdb_idl_destroy_all_map_op_lists(row);
ovsdb_idl_destroy_all_set_op_lists(row);
if (op != INSERTED) {
if (row->written) {
ovsdb_idl_row_unparse(row);
ovsdb_idl_row_clear_arcs(row, false);
ovsdb_idl_row_parse(row);
}
} else {
ovsdb_idl_row_unparse(row);
}
ovsdb_idl_row_clear_new(row);
free(row->prereqs);
row->prereqs = NULL;
free(row->written);
row->written = NULL;
hmap_remove(&txn->txn_rows, &row->txn_node);
hmap_node_nullify(&row->txn_node);
if (op != INSERTED) {
ovsdb_idl_add_to_indexes(row);
} else {
hmap_remove(&row->table->rows, &row->hmap_node);
free(row);
}
}
hmap_destroy(&txn->txn_rows);
hmap_init(&txn->txn_rows);
}
static bool
ovsdb_idl_txn_extract_mutations(struct ovsdb_idl_row *row,
struct json *mutations)
{
const struct ovsdb_idl_table_class *class = row->table->class_;
size_t idx;
bool any_mutations = false;
if (row->map_op_written) {
BITMAP_FOR_EACH_1(idx, class->n_columns, row->map_op_written) {
struct map_op_list *map_op_list;
const struct ovsdb_idl_column *column;
const struct ovsdb_datum *old_datum;
enum ovsdb_atomic_type key_type, value_type;
struct json *mutation, *map, *col_name, *mutator;
struct json *del_set, *ins_map;
bool any_del, any_ins;
map_op_list = row->map_op_lists[idx];
column = &class->columns[idx];
key_type = column->type.key.type;
value_type = column->type.value.type;
/* Get the value to be changed */
if (row->new_datum && row->written
&& bitmap_is_set(row->written,idx)) {
old_datum = &row->new_datum[idx];
} else if (row->old_datum != NULL) {
old_datum = &row->old_datum[idx];
} else {
old_datum = ovsdb_datum_default(&column->type);
}
del_set = json_array_create_empty();
ins_map = json_array_create_empty();
any_del = false;
any_ins = false;
for (struct map_op *map_op = map_op_list_first(map_op_list); map_op;
map_op = map_op_list_next(map_op_list, map_op)) {
if (map_op_type(map_op) == MAP_OP_UPDATE) {
/* Find out if value really changed. */
struct ovsdb_datum *new_datum;
unsigned int pos;
new_datum = map_op_datum(map_op);
ovsdb_datum_find_key(old_datum, &new_datum->keys[0],
key_type, &pos);
if (ovsdb_atom_equals(&new_datum->values[0],
&old_datum->values[pos],
value_type)) {
/* No change in value. Move on to next update. */
continue;
}
} else if (map_op_type(map_op) == MAP_OP_DELETE){
/* Verify that there is a key to delete. */
if (!ovsdb_datum_find_key(old_datum,
&map_op_datum(map_op)->keys[0],
key_type, NULL)) {
/* No key to delete. Move on to next update. */
VLOG_WARN("Trying to delete a key that doesn't "
"exist in the map.");
continue;
}
}
if (map_op_type(map_op) == MAP_OP_INSERT) {
map = json_array_create_2(
ovsdb_atom_to_json(&map_op_datum(map_op)->keys[0],
key_type),
ovsdb_atom_to_json(&map_op_datum(map_op)->values[0],
value_type));
json_array_add(ins_map, map);
any_ins = true;
} else { /* MAP_OP_UPDATE or MAP_OP_DELETE */
map = ovsdb_atom_to_json(&map_op_datum(map_op)->keys[0],
key_type);
json_array_add(del_set, map);
any_del = true;
}
/* Generate an additional insert mutate for updates. */
if (map_op_type(map_op) == MAP_OP_UPDATE) {
map = json_array_create_2(
ovsdb_atom_to_json(&map_op_datum(map_op)->keys[0],
key_type),
ovsdb_atom_to_json(&map_op_datum(map_op)->values[0],
value_type));
json_array_add(ins_map, map);
any_ins = true;
}
}
if (any_del) {
col_name = json_string_create(column->name);
mutator = json_string_create("delete");
map = json_array_create_2(json_string_create("set"), del_set);
mutation = json_array_create_3(col_name, mutator, map);
json_array_add(mutations, mutation);
any_mutations = true;
} else {
json_destroy(del_set);
}
if (any_ins) {
col_name = json_string_create(column->name);
mutator = json_string_create("insert");
map = json_array_create_2(json_string_create("map"), ins_map);
mutation = json_array_create_3(col_name, mutator, map);
json_array_add(mutations, mutation);
any_mutations = true;
} else {
json_destroy(ins_map);
}
}
}
if (row->set_op_written) {
BITMAP_FOR_EACH_1(idx, class->n_columns, row->set_op_written) {
struct set_op_list *set_op_list;
const struct ovsdb_idl_column *column;
const struct ovsdb_datum *old_datum;
enum ovsdb_atomic_type key_type;
struct json *mutation, *set, *col_name, *mutator;
struct json *del_set, *ins_set;
bool any_del, any_ins;
set_op_list = row->set_op_lists[idx];
column = &class->columns[idx];
key_type = column->type.key.type;
/* Get the value to be changed */
if (row->new_datum && row->written
&& bitmap_is_set(row->written,idx)) {
old_datum = &row->new_datum[idx];
} else if (row->old_datum != NULL) {
old_datum = &row->old_datum[idx];
} else {
old_datum = ovsdb_datum_default(&column->type);
}
del_set = json_array_create_empty();
ins_set = json_array_create_empty();
any_del = false;
any_ins = false;
for (struct set_op *set_op = set_op_list_first(set_op_list); set_op;
set_op = set_op_list_next(set_op_list, set_op)) {
if (set_op_type(set_op) == SET_OP_INSERT) {
set = ovsdb_atom_to_json(&set_op_datum(set_op)->keys[0],
key_type);
json_array_add(ins_set, set);
any_ins = true;
} else { /* SETP_OP_DELETE */
/* Verify that there is a key to delete. */
if (!ovsdb_datum_find_key(old_datum,
&set_op_datum(set_op)->keys[0],
key_type, NULL)) {
/* No key to delete. Move on to next update. */
VLOG_WARN("Trying to delete a key that doesn't "
"exist in the set.");
continue;
}
set = ovsdb_atom_to_json(&set_op_datum(set_op)->keys[0],
key_type);
json_array_add(del_set, set);
any_del = true;
}
}
if (any_del) {
col_name = json_string_create(column->name);
mutator = json_string_create("delete");
set = json_array_create_2(json_string_create("set"), del_set);
mutation = json_array_create_3(col_name, mutator, set);
json_array_add(mutations, mutation);
any_mutations = true;
} else {
json_destroy(del_set);
}
if (any_ins) {
col_name = json_string_create(column->name);
mutator = json_string_create("insert");
set = json_array_create_2(json_string_create("set"), ins_set);
mutation = json_array_create_3(col_name, mutator, set);
json_array_add(mutations, mutation);
any_mutations = true;
} else {
json_destroy(ins_set);
}
}
}
return any_mutations;
}
/* Attempts to commit 'txn'. Returns the status of the commit operation, one
* of the following TXN_* constants:
*
* TXN_INCOMPLETE:
*
* The transaction is in progress, but not yet complete. The caller
* should call again later, after calling ovsdb_idl_run() to let the IDL
* do OVSDB protocol processing.
*
* TXN_UNCHANGED:
*
* The transaction is complete. (It didn't actually change the database,
* so the IDL didn't send any request to the database server.)
*
* TXN_ABORTED:
*
* The caller previously called ovsdb_idl_txn_abort().
*
* TXN_SUCCESS:
*
* The transaction was successful. The update made by the transaction
* (and possibly other changes made by other database clients) should
* already be visible in the IDL.
*
* TXN_TRY_AGAIN:
*
* The transaction failed for some transient reason, e.g. because a
* "verify" operation reported an inconsistency or due to a network
* problem. The caller should wait for a change to the database, then
* compose a new transaction, and commit the new transaction.
*
* Use the return value of ovsdb_idl_get_seqno() to wait for a change in
* the database. It is important to use its return value *before* the
* initial call to ovsdb_idl_txn_commit() as the baseline for this
* purpose, because the change that one should wait for can happen after
* the initial call but before the call that returns TXN_TRY_AGAIN, and
* using some other baseline value in that situation could cause an
* indefinite wait if the database rarely changes.
*
* TXN_NOT_LOCKED:
*
* The transaction failed because the IDL has been configured to require
* a database lock (with ovsdb_idl_set_lock()) but didn't get it yet or
* has already lost it.
*
* Committing a transaction rolls back all of the changes that it made to the
* IDL's copy of the database. If the transaction commits successfully, then
* the database server will send an update and, thus, the IDL will be updated
* with the committed changes. */
enum ovsdb_idl_txn_status
ovsdb_idl_txn_commit(struct ovsdb_idl_txn *txn)
{
struct ovsdb_idl *idl = txn->idl;
if (txn != idl->txn) {
goto coverage_out;
} else if (!ovsdb_cs_may_send_transaction(idl->cs)) {
txn->status = TXN_TRY_AGAIN;
goto disassemble_out;
} else if (ovsdb_cs_get_lock(idl->cs) && !ovsdb_cs_has_lock(idl->cs)) {
txn->status = TXN_NOT_LOCKED;
goto disassemble_out;
}
struct json *operations = json_array_create_1(
json_string_create(idl->class_->database));
/* Add prerequisites and declarations of new rows. */
struct ovsdb_idl_row *row;
HMAP_FOR_EACH (row, txn_node, &txn->txn_rows) {
/* XXX check that deleted rows exist even if no prereqs? */
if (row->prereqs) {
const struct ovsdb_idl_table_class *class = row->table->class_;
size_t n_columns = class->n_columns;
struct json *op, *columns, *row_json;
size_t idx;
op = json_object_create();
json_array_add(operations, op);
json_object_put_string(op, "op", "wait");
json_object_put_string(op, "table", class->name);
json_object_put(op, "timeout", json_integer_create(0));
json_object_put(op, "where", where_uuid_equals(&row->uuid));
json_object_put_string(op, "until", "==");
columns = json_array_create_empty();
json_object_put(op, "columns", columns);
row_json = json_object_create();
json_object_put(op, "rows", json_array_create_1(row_json));
BITMAP_FOR_EACH_1 (idx, n_columns, row->prereqs) {
const struct ovsdb_idl_column *column = &class->columns[idx];
json_array_add(columns, json_string_create(column->name));
json_object_put(row_json, column->name,
ovsdb_datum_to_json(&row->old_datum[idx],
&column->type));
}
}
}
/* Add updates. */
bool any_updates = false;
/* For tables constrained to have only a single row (a fairly common OVSDB
* pattern for storing global data), identify whether we're inserting a
* row. If so, then verify that the table is empty before inserting the
* row. This gives us a clear verification-related failure if there was an
* insertion race with another client. */
for (size_t i = 0; i < idl->class_->n_tables; i++) {
struct ovsdb_idl_table *table = &idl->tables[i];
if (table->class_->is_singleton) {
/* Count the number of rows in the table before and after our
* transaction commits. This is O(n) in the number of rows in the
* table, but that's OK since we know that the table should only
* have one row. */
size_t initial_rows = 0;
size_t final_rows = 0;
HMAP_FOR_EACH (row, hmap_node, &table->rows) {
initial_rows += row->old_datum != NULL;
final_rows += row->new_datum != NULL;
}
if (initial_rows == 0 && final_rows == 1) {
struct json *op = json_object_create();
json_array_add(operations, op);
json_object_put_string(op, "op", "wait");
json_object_put_string(op, "table", table->class_->name);
json_object_put(op, "where", json_array_create_empty());
json_object_put(op, "timeout", json_integer_create(0));
json_object_put_string(op, "until", "==");
json_object_put(op, "rows", json_array_create_empty());
}
}
}
HMAP_FOR_EACH (row, txn_node, &txn->txn_rows) {
const struct ovsdb_idl_table_class *class = row->table->class_;
if (!row->new_datum) {
if (class->is_root) {
struct json *op = json_object_create();
json_object_put_string(op, "op", "delete");
json_object_put_string(op, "table", class->name);
json_object_put(op, "where", where_uuid_equals(&row->uuid));
json_array_add(operations, op);
any_updates = true;
} else {
/* Let ovsdb-server decide whether to really delete it. */
}
} else if (row->old_datum != row->new_datum) {
struct json *row_json;
size_t idx;
struct json *op = json_object_create();
json_object_put_string(op, "op",
row->old_datum ? "update" : "insert");
json_object_put_string(op, "table", class->name);
if (row->old_datum) {
json_object_put(op, "where", where_uuid_equals(&row->uuid));
} else {
struct ovsdb_idl_txn_insert *insert;
any_updates = true;
json_object_put(op, "uuid-name",
json_string_create_nocopy(
ovsdb_data_row_name(&row->uuid)));
insert = xmalloc(sizeof *insert);
insert->dummy = row->uuid;
insert->op_index = operations->array.n - 1;
uuid_zero(&insert->real);
hmap_insert(&txn->inserted_rows, &insert->hmap_node,
uuid_hash(&insert->dummy));
}
row_json = json_object_create();
json_object_put(op, "row", row_json);
if (row->written) {
BITMAP_FOR_EACH_1 (idx, class->n_columns, row->written) {
const struct ovsdb_idl_column *column =
&class->columns[idx];
if (row->old_datum
|| !ovsdb_datum_is_default(&row->new_datum[idx],
&column->type)) {
struct json *value;
value = ovsdb_datum_to_json(&row->new_datum[idx],
&column->type);
json_object_put(row_json, column->name,
substitute_uuids(value, txn));
/* If anything really changed, consider it an update.
* We can't suppress not-really-changed values earlier
* or transactions would become nonatomic (see the big
* comment inside ovsdb_idl_txn_write()). */
if (!any_updates && row->old_datum &&
!ovsdb_datum_equals(&row->old_datum[idx],
&row->new_datum[idx],
&column->type)) {
any_updates = true;
}
}
}
}
if (!row->old_datum || !shash_is_empty(json_object(row_json))) {
json_array_add(operations, op);
} else {
json_destroy(op);
}
}
/* Add mutate operation, for partial map or partial set updates. */
if (row->map_op_written || row->set_op_written) {
struct json *op, *mutations;
bool any_mutations;
op = json_object_create();
json_object_put_string(op, "op", "mutate");
json_object_put_string(op, "table", class->name);
json_object_put(op, "where", where_uuid_equals(&row->uuid));
mutations = json_array_create_empty();
any_mutations = ovsdb_idl_txn_extract_mutations(row, mutations);
json_object_put(op, "mutations", mutations);
if (any_mutations) {
op = substitute_uuids(op, txn);
json_array_add(operations, op);
any_updates = true;
} else {
json_destroy(op);
}
}
}
/* Add increment. */
if (txn->inc_table && (any_updates || txn->inc_force)) {
any_updates = true;
txn->inc_index = operations->array.n - 1;
struct json *op = json_object_create();
json_object_put_string(op, "op", "mutate");
json_object_put_string(op, "table", txn->inc_table);
json_object_put(op, "where",
substitute_uuids(where_uuid_equals(&txn->inc_row),
txn));
json_object_put(op, "mutations",
json_array_create_1(
json_array_create_3(
json_string_create(txn->inc_column),
json_string_create("+="),
json_integer_create(1))));
json_array_add(operations, op);
op = json_object_create();
json_object_put_string(op, "op", "select");
json_object_put_string(op, "table", txn->inc_table);
json_object_put(op, "where",
substitute_uuids(where_uuid_equals(&txn->inc_row),
txn));
json_object_put(op, "columns",
json_array_create_1(json_string_create(
txn->inc_column)));
json_array_add(operations, op);
}
if (txn->comment.length) {
struct json *op = json_object_create();
json_object_put_string(op, "op", "comment");
json_object_put_string(op, "comment", ds_cstr(&txn->comment));
json_array_add(operations, op);
}
if (txn->dry_run) {
struct json *op = json_object_create();
json_object_put_string(op, "op", "abort");
json_array_add(operations, op);
}
if (!any_updates) {
txn->status = TXN_UNCHANGED;
json_destroy(operations);
} else {
txn->request_id = ovsdb_cs_send_transaction(idl->cs, operations);
if (txn->request_id) {
hmap_insert(&idl->outstanding_txns, &txn->hmap_node,
json_hash(txn->request_id, 0));
txn->status = TXN_INCOMPLETE;
} else {
txn->status = TXN_TRY_AGAIN;
}
}
disassemble_out:
ovsdb_idl_txn_disassemble(txn);
coverage_out:
switch (txn->status) {
case TXN_UNCOMMITTED: COVERAGE_INC(txn_uncommitted); break;
case TXN_UNCHANGED: COVERAGE_INC(txn_unchanged); break;
case TXN_INCOMPLETE: COVERAGE_INC(txn_incomplete); break;
case TXN_ABORTED: COVERAGE_INC(txn_aborted); break;
case TXN_SUCCESS: COVERAGE_INC(txn_success); break;
case TXN_TRY_AGAIN: COVERAGE_INC(txn_try_again); break;
case TXN_NOT_LOCKED: COVERAGE_INC(txn_not_locked); break;
case TXN_ERROR: COVERAGE_INC(txn_error); break;
}
return txn->status;
}
/* Attempts to commit 'txn', blocking until the commit either succeeds or
* fails. Returns the final commit status, which may be any TXN_* value other
* than TXN_INCOMPLETE.
*
* This function calls ovsdb_idl_run() on 'txn''s IDL, so it may cause the
* return value of ovsdb_idl_get_seqno() to change. */
enum ovsdb_idl_txn_status
ovsdb_idl_txn_commit_block(struct ovsdb_idl_txn *txn)
{
enum ovsdb_idl_txn_status status;
fatal_signal_run();
while ((status = ovsdb_idl_txn_commit(txn)) == TXN_INCOMPLETE) {
ovsdb_idl_run(txn->idl);
ovsdb_idl_wait(txn->idl);
ovsdb_idl_txn_wait(txn);
poll_block();
}
return status;
}
/* Returns the final (incremented) value of the column in 'txn' that was set to
* be incremented by ovsdb_idl_txn_increment(). 'txn' must have committed
* successfully. */
int64_t
ovsdb_idl_txn_get_increment_new_value(const struct ovsdb_idl_txn *txn)
{
ovs_assert(txn->status == TXN_SUCCESS);
return txn->inc_new_value;
}
/* Aborts 'txn' without sending it to the database server. This is effective
* only if ovsdb_idl_txn_commit() has not yet been called for 'txn'.
* Otherwise, it has no effect.
*
* Aborting a transaction doesn't free its memory. Use
* ovsdb_idl_txn_destroy() to do that. */
void
ovsdb_idl_txn_abort(struct ovsdb_idl_txn *txn)
{
ovsdb_idl_txn_disassemble(txn);
if (txn->status == TXN_UNCOMMITTED || txn->status == TXN_INCOMPLETE) {
txn->status = TXN_ABORTED;
}
}
/* Returns a string that reports the error status for 'txn'. The caller must
* not modify or free the returned string. A call to ovsdb_idl_txn_destroy()
* for 'txn' may free the returned string.
*
* The return value is ordinarily one of the strings that
* ovsdb_idl_txn_status_to_string() would return, but if the transaction failed
* due to an error reported by the database server, the return value is that
* error. */
const char *
ovsdb_idl_txn_get_error(const struct ovsdb_idl_txn *txn)
{
if (txn->status != TXN_ERROR) {
return ovsdb_idl_txn_status_to_string(txn->status);
} else if (txn->error) {
return txn->error;
} else {
return "no error details available";
}
}
static void
ovsdb_idl_txn_set_error_json(struct ovsdb_idl_txn *txn,
const struct json *json)
{
if (json && txn->error == NULL) {
txn->error = json_to_string(json, JSSF_SORT);
}
}
/* For transaction 'txn' that completed successfully, finds and returns the
* permanent UUID that the database assigned to a newly inserted row, given the
* 'uuid' that ovsdb_idl_txn_insert() assigned locally to that row.
*
* Returns NULL if 'uuid' is not a UUID assigned by ovsdb_idl_txn_insert() or
* if it was assigned by that function and then deleted by
* ovsdb_idl_txn_delete() within the same transaction. (Rows that are inserted
* and then deleted within a single transaction are never sent to the database
* server, so it never assigns them a permanent UUID.) */
const struct uuid *
ovsdb_idl_txn_get_insert_uuid(const struct ovsdb_idl_txn *txn,
const struct uuid *uuid)
{
const struct ovsdb_idl_txn_insert *insert;
ovs_assert(txn->status == TXN_SUCCESS || txn->status == TXN_UNCHANGED);
HMAP_FOR_EACH_IN_BUCKET (insert, hmap_node,
uuid_hash(uuid), &txn->inserted_rows) {
if (uuid_equals(uuid, &insert->dummy)) {
return &insert->real;
}
}
return NULL;
}
static void
ovsdb_idl_txn_complete(struct ovsdb_idl_txn *txn,
enum ovsdb_idl_txn_status status)
{
txn->status = status;
hmap_remove(&txn->idl->outstanding_txns, &txn->hmap_node);
}
static void
ovsdb_idl_txn_write__(const struct ovsdb_idl_row *row_,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum, bool owns_datum)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, row_);
const struct ovsdb_idl_table_class *class;
unsigned char column_mode;
bool optimize_rewritten;
size_t column_idx;
bool write_only;
ovs_assert(!column->is_synthetic);
if (ovsdb_idl_row_is_synthetic(row)) {
goto discard_datum;
}
class = row->table->class_;
column_idx = column - class->columns;
column_mode = row->table->modes[column_idx];
write_only = column_mode == OVSDB_IDL_MONITOR;
optimize_rewritten =
write_only || (column_mode & OVSDB_IDL_WRITE_CHANGED_ONLY);
ovs_assert(row->new_datum != NULL);
ovs_assert(column_idx < class->n_columns);
ovs_assert(row->old_datum == NULL || column_mode & OVSDB_IDL_MONITOR);
if (row->table->idl->verify_write_only && !write_only) {
VLOG_ERR("Bug: Attempt to write to a read/write column (%s:%s) when"
" explicitly configured not to.", class->name, column->name);
goto discard_datum;
}
/* If this is a write-only column and the datum being written is the same
* as the one already there, just skip the update entirely. This is worth
* optimizing because we have a lot of columns that get periodically
* refreshed into the database but don't actually change that often.
*
* We don't do this for read/write columns because that would break
* atomicity of transactions--some other client might have written a
* different value in that column since we read it. (But if a whole
* transaction only does writes of existing values, without making any real
* changes, we will drop the whole transaction later in
* ovsdb_idl_txn_commit().)
*
* The application may choose to bypass this restriction and always
* optimize by setting OVSDB_IDL_WRITE_CHANGED_ONLY.
*/
if (optimize_rewritten && ovsdb_datum_equals(ovsdb_idl_read(row, column),
datum, &column->type)) {
goto discard_datum;
}
bool index_row = is_index_row(row);
if (!index_row) {
ovsdb_idl_remove_from_indexes(row);
}
if (hmap_node_is_null(&row->txn_node)) {
hmap_insert(&row->table->idl->txn->txn_rows, &row->txn_node,
uuid_hash(&row->uuid));
}
if (row->old_datum == row->new_datum) {
row->new_datum = xmalloc(class->n_columns * sizeof *row->new_datum);
}
if (!row->written) {
row->written = bitmap_allocate(class->n_columns);
}
if (bitmap_is_set(row->written, column_idx)) {
ovsdb_datum_destroy(&row->new_datum[column_idx], &column->type);
} else {
bitmap_set1(row->written, column_idx);
}
if (owns_datum) {
row->new_datum[column_idx] = *datum;
} else {
ovsdb_datum_clone(&row->new_datum[column_idx], datum, &column->type);
}
(column->unparse)(row);
(column->parse)(row, &row->new_datum[column_idx]);
row->parsed = true;
if (!index_row) {
ovsdb_idl_add_to_indexes(row);
}
return;
discard_datum:
if (owns_datum) {
ovsdb_datum_destroy(datum, &column->type);
}
}
/* Writes 'datum' to the specified 'column' in 'row_'. Updates both 'row_'
* itself and the structs derived from it (e.g. the "struct ovsrec_*", for
* ovs-vswitchd).
*
* 'datum' must have the correct type for its column, but it needs not be
* sorted or unique because this function will take care of that. The IDL does
* not check that it meets schema constraints, but ovsdb-server will do so at
* commit time so it had better be correct.
*
* A transaction must be in progress. Replication of 'column' must not have
* been disabled (by calling ovsdb_idl_omit()).
*
* Usually this function is used indirectly through one of the "set" functions
* generated by ovsdb-idlc.
*
* Takes ownership of what 'datum' points to (and in some cases destroys that
* data before returning) but makes a copy of 'datum' itself. (Commonly
* 'datum' is on the caller's stack.) */
void
ovsdb_idl_txn_write(const struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum)
{
ovsdb_datum_sort_unique(datum,
column->type.key.type, column->type.value.type);
ovsdb_idl_txn_write__(row, column, datum, true);
}
/* Similar to ovsdb_idl_txn_write(), except:
*
* - The caller retains ownership of 'datum' and what it points to.
*
* - The caller must ensure that 'datum' is sorted and unique (e.g. via
* ovsdb_datum_sort_unique().) */
void
ovsdb_idl_txn_write_clone(const struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column,
const struct ovsdb_datum *datum)
{
ovsdb_idl_txn_write__(row, column,
CONST_CAST(struct ovsdb_datum *, datum), false);
}
/* Causes the original contents of 'column' in 'row_' to be verified as a
* prerequisite to completing the transaction. That is, if 'column' in 'row_'
* changed (or if 'row_' was deleted) between the time that the IDL originally
* read its contents and the time that the transaction commits, then the
* transaction aborts and ovsdb_idl_txn_commit() returns TXN_TRY_AGAIN.
*
* The intention is that, to ensure that no transaction commits based on dirty
* reads, an application should call ovsdb_idl_txn_verify() on each data item
* read as part of a read-modify-write operation.
*
* In some cases ovsdb_idl_txn_verify() reduces to a no-op, because the current
* value of 'column' is already known:
*
* - If 'row_' is a row created by the current transaction (returned by
* ovsdb_idl_txn_insert()).
*
* - If 'column' has already been modified (with ovsdb_idl_txn_write())
* within the current transaction.
*
* Because of the latter property, always call ovsdb_idl_txn_verify() *before*
* ovsdb_idl_txn_write() for a given read-modify-write.
*
* A transaction must be in progress.
*
* Usually this function is used indirectly through one of the "verify"
* functions generated by ovsdb-idlc. */
void
ovsdb_idl_txn_verify(const struct ovsdb_idl_row *row_,
const struct ovsdb_idl_column *column)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, row_);
const struct ovsdb_idl_table_class *class;
size_t column_idx;
if (ovsdb_idl_row_is_synthetic(row)) {
return;
}
class = row->table->class_;
column_idx = column - class->columns;
ovs_assert(row->new_datum != NULL);
ovs_assert(row->old_datum == NULL ||
row->table->modes[column_idx] & OVSDB_IDL_MONITOR);
if (!row->old_datum
|| (row->written && bitmap_is_set(row->written, column_idx))) {
return;
}
if (hmap_node_is_null(&row->txn_node)) {
hmap_insert(&row->table->idl->txn->txn_rows, &row->txn_node,
uuid_hash(&row->uuid));
}
if (!row->prereqs) {
row->prereqs = bitmap_allocate(class->n_columns);
}
bitmap_set1(row->prereqs, column_idx);
}
/* Deletes 'row_' from its table. May free 'row_', so it must not be
* accessed afterward.
*
* A transaction must be in progress.
*
* Usually this function is used indirectly through one of the "delete"
* functions generated by ovsdb-idlc. */
void
ovsdb_idl_txn_delete(const struct ovsdb_idl_row *row_)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, row_);
if (ovsdb_idl_row_is_synthetic(row)) {
return;
}
ovs_assert(row->new_datum != NULL);
ovs_assert(!is_index_row(row_));
ovsdb_idl_remove_from_indexes(row_);
if (!row->old_datum) {
ovsdb_idl_row_unparse(row);
ovsdb_idl_row_clear_new(row);
ovs_assert(!row->prereqs);
hmap_remove(&row->table->rows, &row->hmap_node);
hmap_remove(&row->table->idl->txn->txn_rows, &row->txn_node);
free(row);
return;
}
if (hmap_node_is_null(&row->txn_node)) {
hmap_insert(&row->table->idl->txn->txn_rows, &row->txn_node,
uuid_hash(&row->uuid));
}
ovsdb_idl_row_clear_new(row);
row->new_datum = NULL;
}
/* Inserts and returns a new row in the table with the specified 'class' in the
* database with open transaction 'txn'.
*
* The new row is assigned a provisional UUID. If 'uuid' is null then one is
* randomly generated; otherwise 'uuid' should specify a randomly generated
* UUID not otherwise in use. ovsdb-server will assign a different UUID when
* 'txn' is committed, but the IDL will replace any uses of the provisional
* UUID in the data to be to be committed by the UUID assigned by
* ovsdb-server.
*
* Usually this function is used indirectly through one of the "insert"
* functions generated by ovsdb-idlc. */
const struct ovsdb_idl_row *
ovsdb_idl_txn_insert(struct ovsdb_idl_txn *txn,
const struct ovsdb_idl_table_class *class,
const struct uuid *uuid)
{
struct ovsdb_idl_row *row = ovsdb_idl_row_create__(class);
if (uuid) {
ovs_assert(!ovsdb_idl_txn_get_row(txn, uuid));
row->uuid = *uuid;
} else {
uuid_generate(&row->uuid);
}
row->table = ovsdb_idl_table_from_class(txn->idl, class);
row->new_datum = xmalloc(class->n_columns * sizeof *row->new_datum);
hmap_insert(&row->table->rows, &row->hmap_node, uuid_hash(&row->uuid));
hmap_insert(&txn->txn_rows, &row->txn_node, uuid_hash(&row->uuid));
ovsdb_idl_add_to_indexes(row);
return row;
}
static void
ovsdb_idl_txn_abort_all(struct ovsdb_idl *idl)
{
struct ovsdb_idl_txn *txn;
HMAP_FOR_EACH (txn, hmap_node, &idl->outstanding_txns) {
ovsdb_idl_txn_complete(txn, TXN_TRY_AGAIN);
}
}
static struct ovsdb_idl_txn *
ovsdb_idl_txn_find(struct ovsdb_idl *idl, const struct json *id)
{
struct ovsdb_idl_txn *txn;
HMAP_FOR_EACH_WITH_HASH (txn, hmap_node,
json_hash(id, 0), &idl->outstanding_txns) {
if (json_equal(id, txn->request_id)) {
return txn;
}
}
return NULL;
}
static bool
check_json_type(const struct json *json, enum json_type type, const char *name)
{
if (!json) {
VLOG_WARN_RL(&syntax_rl, "%s is missing", name);
return false;
} else if (json->type != type) {
VLOG_WARN_RL(&syntax_rl, "%s is %s instead of %s",
name, json_type_to_string(json->type),
json_type_to_string(type));
return false;
} else {
return true;
}
}
static bool
ovsdb_idl_txn_process_inc_reply(struct ovsdb_idl_txn *txn,
const struct json_array *results)
{
struct json *count, *rows, *row, *column;
struct shash *mutate, *select;
if (txn->inc_index + 2 > results->n) {
VLOG_WARN_RL(&syntax_rl, "reply does not contain enough operations "
"for increment (has %"PRIuSIZE", needs %u)",
results->n, txn->inc_index + 2);
return false;
}
/* We know that this is a JSON object because the loop in
* ovsdb_idl_txn_process_reply() checked. */
mutate = json_object(results->elems[txn->inc_index]);
count = shash_find_data(mutate, "count");
if (!check_json_type(count, JSON_INTEGER, "\"mutate\" reply \"count\"")) {
return false;
}
if (count->integer != 1) {
VLOG_WARN_RL(&syntax_rl,
"\"mutate\" reply \"count\" is %lld instead of 1",
count->integer);
return false;
}
select = json_object(results->elems[txn->inc_index + 1]);
rows = shash_find_data(select, "rows");
if (!check_json_type(rows, JSON_ARRAY, "\"select\" reply \"rows\"")) {
return false;
}
if (rows->array.n != 1) {
VLOG_WARN_RL(&syntax_rl, "\"select\" reply \"rows\" has %"PRIuSIZE" elements "
"instead of 1",
rows->array.n);
return false;
}
row = rows->array.elems[0];
if (!check_json_type(row, JSON_OBJECT, "\"select\" reply row")) {
return false;
}
column = shash_find_data(json_object(row), txn->inc_column);
if (!check_json_type(column, JSON_INTEGER,
"\"select\" reply inc column")) {
return false;
}
txn->inc_new_value = column->integer;
return true;
}
static bool
ovsdb_idl_txn_process_insert_reply(struct ovsdb_idl_txn_insert *insert,
const struct json_array *results)
{
static const struct ovsdb_base_type uuid_type = OVSDB_BASE_UUID_INIT;
struct ovsdb_error *error;
struct json *json_uuid;
union ovsdb_atom uuid;
struct shash *reply;
if (insert->op_index >= results->n) {
VLOG_WARN_RL(&syntax_rl, "reply does not contain enough operations "
"for insert (has %"PRIuSIZE", needs %u)",
results->n, insert->op_index);
return false;
}
/* We know that this is a JSON object because the loop in
* ovsdb_idl_txn_process_reply() checked. */
reply = json_object(results->elems[insert->op_index]);
json_uuid = shash_find_data(reply, "uuid");
if (!check_json_type(json_uuid, JSON_ARRAY, "\"insert\" reply \"uuid\"")) {
return false;
}
error = ovsdb_atom_from_json(&uuid, &uuid_type, json_uuid, NULL);
if (error) {
char *s = ovsdb_error_to_string_free(error);
VLOG_WARN_RL(&syntax_rl, "\"insert\" reply \"uuid\" is not a JSON "
"UUID: %s", s);
free(s);
return false;
}
insert->real = uuid.uuid;
return true;
}
static void
ovsdb_idl_txn_process_reply(struct ovsdb_idl *idl,
const struct jsonrpc_msg *msg)
{
struct ovsdb_idl_txn *txn = ovsdb_idl_txn_find(idl, msg->id);
if (!txn) {
return;
}
enum ovsdb_idl_txn_status status;
if (msg->type == JSONRPC_ERROR) {
if (msg->error
&& msg->error->type == JSON_STRING
&& !strcmp(json_string(msg->error), "canceled")) {
/* ovsdb-server uses this error message to indicate that the
* transaction was canceled because the database in question was
* removed, converted, etc. */
status = TXN_TRY_AGAIN;
} else {
status = TXN_ERROR;
ovsdb_idl_txn_set_error_json(txn, msg->error);
}
} else if (msg->result->type != JSON_ARRAY) {
VLOG_WARN_RL(&syntax_rl, "reply to \"transact\" is not JSON array");
status = TXN_ERROR;
ovsdb_idl_txn_set_error_json(txn, msg->result);
} else {
struct json_array *ops = &msg->result->array;
int hard_errors = 0;
int soft_errors = 0;
int lock_errors = 0;
size_t i;
for (i = 0; i < ops->n; i++) {
struct json *op = ops->elems[i];
if (op->type == JSON_NULL) {
/* This isn't an error in itself but indicates that some prior
* operation failed, so make sure that we know about it. */
soft_errors++;
} else if (op->type == JSON_OBJECT) {
struct json *error;
error = shash_find_data(json_object(op), "error");
if (error) {
if (error->type == JSON_STRING) {
if (!strcmp(error->string, "timed out")) {
soft_errors++;
} else if (!strcmp(error->string,
"unknown database")) {
ovsdb_cs_flag_inconsistency(idl->cs);
soft_errors++;
} else if (!strcmp(error->string, "not owner")) {
lock_errors++;
} else if (!strcmp(error->string, "not allowed")) {
hard_errors++;
ovsdb_idl_txn_set_error_json(txn, op);
} else if (strcmp(error->string, "aborted")) {
hard_errors++;
ovsdb_idl_txn_set_error_json(txn, op);
VLOG_WARN_RL(&other_rl,
"transaction error: %s", txn->error);
}
} else {
hard_errors++;
ovsdb_idl_txn_set_error_json(txn, op);
VLOG_WARN_RL(&syntax_rl,
"\"error\" in reply is not JSON string");
}
}
} else {
hard_errors++;
ovsdb_idl_txn_set_error_json(txn, op);
VLOG_WARN_RL(&syntax_rl,
"operation reply is not JSON null or object");
}
}
if (!soft_errors && !hard_errors && !lock_errors) {
struct ovsdb_idl_txn_insert *insert;
if (txn->inc_table && !ovsdb_idl_txn_process_inc_reply(txn, ops)) {
hard_errors++;
}
HMAP_FOR_EACH (insert, hmap_node, &txn->inserted_rows) {
if (!ovsdb_idl_txn_process_insert_reply(insert, ops)) {
hard_errors++;
}
}
}
status = (hard_errors ? TXN_ERROR
: lock_errors ? TXN_NOT_LOCKED
: soft_errors ? TXN_TRY_AGAIN
: TXN_SUCCESS);
}
ovsdb_idl_txn_complete(txn, status);
}
/* Returns the transaction currently active for 'row''s IDL. A transaction
* must currently be active. */
struct ovsdb_idl_txn *
ovsdb_idl_txn_get(const struct ovsdb_idl_row *row)
{
struct ovsdb_idl_txn *txn = row->table->idl->txn;
ovs_assert(txn != NULL);
return txn;
}
/* Returns the IDL on which 'txn' acts. */
struct ovsdb_idl *
ovsdb_idl_txn_get_idl (struct ovsdb_idl_txn *txn)
{
return txn->idl;
}
/* Blocks until 'idl' successfully connects to the remote database and
* retrieves its contents. */
void
ovsdb_idl_get_initial_snapshot(struct ovsdb_idl *idl)
{
while (1) {
ovsdb_idl_run(idl);
if (ovsdb_idl_has_ever_connected(idl)) {
return;
}
ovsdb_idl_wait(idl);
poll_block();
}
}
/* If 'lock_name' is nonnull, configures 'idl' to obtain the named lock from
* the database server and to avoid modifying the database when the lock cannot
* be acquired (that is, when another client has the same lock).
*
* If 'lock_name' is NULL, drops the locking requirement and releases the
* lock. */
void
ovsdb_idl_set_lock(struct ovsdb_idl *idl, const char *lock_name)
{
ovsdb_cs_set_lock(idl->cs, lock_name);
}
/* Returns true if 'idl' is configured to obtain a lock and owns that lock.
*
* Locking and unlocking happens asynchronously from the database client's
* point of view, so the information is only useful for optimization (e.g. if
* the client doesn't have the lock then there's no point in trying to write to
* the database). */
bool
ovsdb_idl_has_lock(const struct ovsdb_idl *idl)
{
return ovsdb_cs_has_lock(idl->cs);
}
/* Returns true if 'idl' is configured to obtain a lock but the database server
* has indicated that some other client already owns the requested lock. */
bool
ovsdb_idl_is_lock_contended(const struct ovsdb_idl *idl)
{
return ovsdb_cs_is_lock_contended(idl->cs);
}
/* Inserts a new Map Operation into current transaction. */
static void
ovsdb_idl_txn_add_map_op(struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum,
enum map_op_type op_type)
{
const struct ovsdb_idl_table_class *class;
size_t column_idx;
struct map_op *map_op;
class = row->table->class_;
column_idx = column - class->columns;
/* Check if a map operation list exists for this column. */
if (!row->map_op_written) {
row->map_op_written = bitmap_allocate(class->n_columns);
row->map_op_lists = xzalloc(class->n_columns *
sizeof *row->map_op_lists);
}
if (!row->map_op_lists[column_idx]) {
row->map_op_lists[column_idx] = map_op_list_create();
}
/* Add a map operation to the corresponding list. */
map_op = map_op_create(datum, op_type);
bitmap_set1(row->map_op_written, column_idx);
map_op_list_add(row->map_op_lists[column_idx], map_op, &column->type);
/* Add this row to transaction's list of rows. */
if (hmap_node_is_null(&row->txn_node)) {
hmap_insert(&row->table->idl->txn->txn_rows, &row->txn_node,
uuid_hash(&row->uuid));
}
}
/* Inserts a new Set Operation into current transaction. */
static void
ovsdb_idl_txn_add_set_op(struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum,
enum set_op_type op_type)
{
const struct ovsdb_idl_table_class *class;
size_t column_idx;
struct set_op *set_op;
class = row->table->class_;
column_idx = column - class->columns;
/* Check if a set operation list exists for this column. */
if (!row->set_op_written) {
row->set_op_written = bitmap_allocate(class->n_columns);
row->set_op_lists = xzalloc(class->n_columns *
sizeof *row->set_op_lists);
}
if (!row->set_op_lists[column_idx]) {
row->set_op_lists[column_idx] = set_op_list_create();
}
/* Add a set operation to the corresponding list. */
set_op = set_op_create(datum, op_type);
bitmap_set1(row->set_op_written, column_idx);
set_op_list_add(row->set_op_lists[column_idx], set_op, &column->type);
/* Add this row to the transactions's list of rows. */
if (hmap_node_is_null(&row->txn_node)) {
hmap_insert(&row->table->idl->txn->txn_rows, &row->txn_node,
uuid_hash(&row->uuid));
}
}
static bool
is_valid_partial_update(const struct ovsdb_idl_row *row,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum)
{
/* Verify that this column is being monitored. */
unsigned int column_idx = column - row->table->class_->columns;
if (!(row->table->modes[column_idx] & OVSDB_IDL_MONITOR)) {
VLOG_WARN("cannot partially update non-monitored column");
return false;
}
/* Verify that the update affects a single element. */
if (datum->n != 1) {
VLOG_WARN("invalid datum for partial update");
return false;
}
return true;
}
/* Inserts the value described in 'datum' into the map in 'column' in
* 'row_'. If the value doesn't already exist in 'column' then it's value
* is added. The value in 'datum' must be of the same type as the values
* in 'column'. This function takes ownership of 'datum'.
*
* Usually this function is used indirectly through one of the "update"
* functions generated by vswitch-idl. */
void
ovsdb_idl_txn_write_partial_set(const struct ovsdb_idl_row *row_,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, row_);
enum set_op_type op_type;
if (!is_valid_partial_update(row, column, datum)) {
ovsdb_datum_destroy(datum, &column->type);
free(datum);
return;
}
op_type = SET_OP_INSERT;
ovsdb_idl_txn_add_set_op(row, column, datum, op_type);
}
/* Deletes the value specified in 'datum' from the set in 'column' in 'row_'.
* The value in 'datum' must be of the same type as the keys in 'column'.
* This function takes ownership of 'datum'.
*
* Usually this function is used indirectly through one of the "update"
* functions generated by vswitch-idl. */
void
ovsdb_idl_txn_delete_partial_set(const struct ovsdb_idl_row *row_,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, row_);
if (!is_valid_partial_update(row, column, datum)) {
struct ovsdb_type type_ = column->type;
type_.value.type = OVSDB_TYPE_VOID;
ovsdb_datum_destroy(datum, &type_);
free(datum);
return;
}
ovsdb_idl_txn_add_set_op(row, column, datum, SET_OP_DELETE);
}
/* Inserts the key-value specified in 'datum' into the map in 'column' in
* 'row_'. If the key already exist in 'column', then it's value is updated
* with the value in 'datum'. The key-value in 'datum' must be of the same type
* as the keys-values in 'column'. This function takes ownership of 'datum'.
*
* Usually this function is used indirectly through one of the "update"
* functions generated by vswitch-idl. */
void
ovsdb_idl_txn_write_partial_map(const struct ovsdb_idl_row *row_,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, row_);
enum ovsdb_atomic_type key_type;
enum map_op_type op_type;
const struct ovsdb_datum *old_datum;
if (!is_valid_partial_update(row, column, datum)) {
ovsdb_datum_destroy(datum, &column->type);
free(datum);
return;
}
/* Find out if this is an insert or an update. */
key_type = column->type.key.type;
old_datum = ovsdb_idl_read(row, column);
if (ovsdb_datum_find_key(old_datum, &datum->keys[0], key_type, NULL)) {
op_type = MAP_OP_UPDATE;
} else {
op_type = MAP_OP_INSERT;
}
ovsdb_idl_txn_add_map_op(row, column, datum, op_type);
}
/* Deletes the key specified in 'datum' from the map in 'column' in 'row_'.
* The key in 'datum' must be of the same type as the keys in 'column'.
* The value in 'datum' must be NULL. This function takes ownership of
* 'datum'.
*
* Usually this function is used indirectly through one of the "update"
* functions generated by vswitch-idl. */
void
ovsdb_idl_txn_delete_partial_map(const struct ovsdb_idl_row *row_,
const struct ovsdb_idl_column *column,
struct ovsdb_datum *datum)
{
struct ovsdb_idl_row *row = CONST_CAST(struct ovsdb_idl_row *, row_);
if (!is_valid_partial_update(row, column, datum)) {
struct ovsdb_type type_ = column->type;
type_.value.type = OVSDB_TYPE_VOID;
ovsdb_datum_destroy(datum, &type_);
free(datum);
return;
}
ovsdb_idl_txn_add_map_op(row, column, datum, MAP_OP_DELETE);
}
void
ovsdb_idl_loop_destroy(struct ovsdb_idl_loop *loop)
{
if (loop) {
if (loop->committing_txn) {
ovsdb_idl_txn_destroy(loop->committing_txn);
}
ovsdb_idl_destroy(loop->idl);
}
}
struct ovsdb_idl_txn *
ovsdb_idl_loop_run(struct ovsdb_idl_loop *loop)
{
ovsdb_idl_run(loop->idl);
/* See if the 'committing_txn' succeeded in the meantime. */
if (loop->committing_txn && loop->committing_txn->status == TXN_SUCCESS) {
ovsdb_idl_try_commit_loop_txn(loop, NULL);
}
loop->open_txn = (loop->committing_txn
|| ovsdb_idl_get_seqno(loop->idl) == loop->skip_seqno
? NULL
: ovsdb_idl_txn_create(loop->idl));
if (loop->open_txn) {
ovsdb_idl_txn_add_comment(loop->open_txn, "%s", program_name);
}
return loop->open_txn;
}
/* Attempts to commit the current transaction, if one is open.
*
* If a transaction was open, in this or a previous iteration of the main loop,
* and had not before finished committing (successfully or unsuccessfully), the
* return value is one of:
*
* 1: The transaction committed successfully (or it did not change anything in
* the database).
* 0: The transaction failed.
* -1: The commit is still in progress.
*
* Thus, the return value is -1 if the transaction is in progress and otherwise
* true for success, false for failure.
*
* (In the corner case where the IDL sends a transaction to the database and
* the database commits it, and the connection between the IDL and the database
* drops before the IDL receives the message confirming the commit, this
* function can return 0 even though the transaction succeeded.)
*/
static int
ovsdb_idl_try_commit_loop_txn(struct ovsdb_idl_loop *loop,
bool *may_need_wakeup)
{
if (!loop->committing_txn) {
/* Not a meaningful return value: no transaction was in progress. */
return 1;
}
int retval;
struct ovsdb_idl_txn *txn = loop->committing_txn;
enum ovsdb_idl_txn_status status = ovsdb_idl_txn_commit(txn);
if (status != TXN_INCOMPLETE) {
switch (status) {
case TXN_TRY_AGAIN:
/* We want to re-evaluate the database when it's changed from
* the contents that it had when we started the commit. (That
* might have already happened.) */
loop->skip_seqno = loop->precommit_seqno;
if (ovsdb_idl_get_seqno(loop->idl) != loop->skip_seqno
&& may_need_wakeup) {
*may_need_wakeup = true;
}
retval = 0;
break;
case TXN_SUCCESS:
/* Possibly some work on the database was deferred because no
* further transaction could proceed. Wake up again. */
retval = 1;
loop->cur_cfg = loop->next_cfg;
if (may_need_wakeup) {
*may_need_wakeup = true;
}
break;
case TXN_UNCHANGED:
retval = 1;
loop->cur_cfg = loop->next_cfg;
break;
case TXN_ABORTED:
case TXN_NOT_LOCKED:
case TXN_ERROR:
retval = 0;
break;
case TXN_UNCOMMITTED:
case TXN_INCOMPLETE:
default:
OVS_NOT_REACHED();
}
ovsdb_idl_txn_destroy(txn);
loop->committing_txn = NULL;
} else {
retval = -1;
}
return retval;
}
/* Attempts to commit the current transaction, if one is open, and sets up the
* poll loop to wake up when some more work might be needed.
*
* If a transaction was open, in this or a previous iteration of the main loop,
* and had not before finished committing (successfully or unsuccessfully), the
* return value is one of:
*
* 1: The transaction committed successfully (or it did not change anything in
* the database).
* 0: The transaction failed.
* -1: The commit is still in progress.
*
* Thus, the return value is -1 if the transaction is in progress and otherwise
* true for success, false for failure.
*
* (In the corner case where the IDL sends a transaction to the database and
* the database commits it, and the connection between the IDL and the database
* drops before the IDL receives the message confirming the commit, this
* function can return 0 even though the transaction succeeded.)
*/
int
ovsdb_idl_loop_commit_and_wait(struct ovsdb_idl_loop *loop)
{
if (loop->open_txn) {
loop->committing_txn = loop->open_txn;
loop->open_txn = NULL;
loop->precommit_seqno = ovsdb_idl_get_seqno(loop->idl);
}
bool may_need_wakeup = false;
int retval = ovsdb_idl_try_commit_loop_txn(loop, &may_need_wakeup);
if (may_need_wakeup) {
poll_immediate_wake();
}
ovsdb_idl_wait(loop->idl);
return retval;
}