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3696 | // Copyright (C) 2014-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <asiolink/addr_utilities.h>
#include <dhcp/duid.h>
#include <dhcp/hwaddr.h>
#include <dhcpsrv/cfg_db_access.h>
#include <dhcpsrv/cfgmgr.h>
#include <dhcpsrv/dhcpsrv_log.h>
#include <dhcpsrv/dhcpsrv_exceptions.h>
#include <dhcpsrv/lease_mgr_factory.h>
#include <pgsql_lb_log.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <pgsql_lease_mgr.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <dhcpsrv/timer_mgr.h>
#include <util/multi_threading_mgr.h>
#include <boost/make_shared.hpp><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <boost/static_assert.hpp><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <iomanip><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <limits><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <sstream><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <string><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <time.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
using namespace isc;
using namespace isc::asiolink;
using namespace isc::db;
using namespace isc::dhcp;
using namespace isc::data;
using namespace isc::util;
using namespace std;
namespace {
/// @brief Catalog of all the SQL statements currently supported. Note
/// that the order columns appear in statement body must match the order they
/// that the occur in the table. This does not apply to the where clause.
PgSqlTaggedStatement tagged_statements[] = {
// DELETE_LEASE4
{ 2, { OID_INT8, OID_TIMESTAMP },
"delete_lease4",
"DELETE FROM lease4 WHERE address = $1 AND expire = $2" },
// DELETE_LEASE4_STATE_EXPIRED
{ 2, { OID_INT8, OID_TIMESTAMP },
"delete_lease4_state_expired",
"DELETE FROM lease4 "
"WHERE state = $1 AND expire < $2" },
// DELETE_LEASE6
{ 2, { OID_VARCHAR, OID_TIMESTAMP },
"delete_lease6",
"DELETE FROM lease6 WHERE address = cast($1 as inet) AND expire = $2"},
// DELETE_LEASE6_STATE_EXPIRED
{ 2, { OID_INT8, OID_TIMESTAMP },
"delete_lease6_state_expired",
"DELETE FROM lease6 "
"WHERE state = $1 AND expire < $2" },
// GET_LEASE4
{ 0, { OID_NONE },
"get_lease4",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4" },
// GET_LEASE4_ADDR
{ 1, { OID_INT8 },
"get_lease4_addr",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE address = $1" },
// GET_LEASE4_CLIENTID
{ 1, { OID_BYTEA },
"get_lease4_clientid",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE client_id = $1" },
// GET_LEASE4_CLIENTID_SUBID
{ 2, { OID_BYTEA, OID_INT8 },
"get_lease4_clientid_subid",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE client_id = $1 AND subnet_id = $2" },
// GET_LEASE4_HWADDR
{ 1, { OID_BYTEA },
"get_lease4_hwaddr",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE hwaddr = $1" },
// GET_LEASE4_HWADDR_SUBID
{ 2, { OID_BYTEA, OID_INT8 },
"get_lease4_hwaddr_subid",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE hwaddr = $1 AND subnet_id = $2" },
// GET_LEASE4_PAGE
{ 2, { OID_INT8, OID_INT8 },
"get_lease4_page",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE address > $1 "
"ORDER BY address "
"LIMIT $2" },
// GET_LEASE4_UCTX_PAGE
{ 2, { OID_INT8, OID_INT8 },
"get_lease4_uctx_page",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE address > $1 AND user_context IS NOT NULL "
"ORDER BY address "
"LIMIT $2" },
// GET_LEASE4_SUBID
{ 1, { OID_INT8 },
"get_lease4_subid",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE subnet_id = $1" },
// GET_LEASE4_HOSTNAME
{ 1, { OID_VARCHAR },
"get_lease4_hostname",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE lower(hostname) = $1" },
// GET_LEASE4_EXPIRE
{ 3, { OID_INT8, OID_TIMESTAMP, OID_INT8 },
"get_lease4_expire",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE state != $1 AND valid_lifetime != 4294967295 AND expire < $2 "
"ORDER BY expire "
"LIMIT $3" },
// GET_LEASE4_RELAYID
{ 3, { OID_BYTEA, OID_INT8, OID_INT8 },
"get_lease4_relayid",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE relay_id = $1 and address > $2 "
"ORDER BY address "
"LIMIT $3" },
// GET_LEASE4_RELAYID_QST
{ 4, { OID_BYTEA, OID_INT8, OID_INT8, OID_INT8 },
"get_lease4_relayid_qst",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE relay_id = $1 and address > $2 "
"and EXTRACT(EPOCH FROM expire) - (CASE valid_lifetime WHEN 4294967295 "
"THEN 0 ELSE valid_lifetime END) >= $3 "
"ORDER BY address "
"LIMIT $4" },
// GET_LEASE4_RELAYID_QSET
{ 5, { OID_BYTEA, OID_INT8, OID_INT8, OID_INT8, OID_INT8 },
"get_lease4_relayid_qset",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE relay_id = $1 and address > $2 "
"and EXTRACT(EPOCH FROM expire) - (CASE valid_lifetime WHEN 4294967295 "
"THEN 0 ELSE valid_lifetime END) >= $3 "
"and EXTRACT(EPOCH FROM expire) - (CASE valid_lifetime WHEN 4294967295 "
"THEN 0 ELSE valid_lifetime END) <= $4 "
"ORDER BY address "
"LIMIT $5" },
// GET_LEASE4_RELAYID_QET
{ 4, { OID_BYTEA, OID_INT8, OID_INT8, OID_INT8 },
"get_lease4_relayid_qet",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE relay_id = $1 and address > $2 "
"and EXTRACT(EPOCH FROM expire) - (CASE valid_lifetime WHEN 4294967295 "
"THEN 0 ELSE valid_lifetime END) <= $3 "
"ORDER BY address "
"LIMIT $4" },
// GET_LEASE4_REMOTEID
{ 3, { OID_BYTEA, OID_INT8, OID_INT8 },
"get_lease4_remoteid",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE remote_id = $1 and address > $2 "
"ORDER BY address "
"LIMIT $3" },
// GET_LEASE4_REMOTEID_QST
{ 4, { OID_BYTEA, OID_INT8, OID_INT8, OID_INT8 },
"get_lease4_remoteid_qst",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE remote_id = $1 and address > $2 "
"and EXTRACT(EPOCH FROM expire) - (CASE valid_lifetime WHEN 4294967295 "
"THEN 0 ELSE valid_lifetime END) >= $3 "
"ORDER BY address "
"LIMIT $4" },
// GET_LEASE4_REMOTEID_QSET
{ 5, { OID_BYTEA, OID_INT8, OID_INT8, OID_INT8, OID_INT8 },
"get_lease4_remoteid_qset",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE remote_id = $1 and address > $2 "
"and EXTRACT(EPOCH FROM expire) - (CASE valid_lifetime WHEN 4294967295 "
"THEN 0 ELSE valid_lifetime END) >= $3 "
"and EXTRACT(EPOCH FROM expire) - (CASE valid_lifetime WHEN 4294967295 "
"THEN 0 ELSE valid_lifetime END) <= $4 "
"ORDER BY address "
"LIMIT $5" },
// GET_LEASE4_REMOTEID_QET
{ 4, { OID_BYTEA, OID_INT8, OID_INT8, OID_INT8 },
"get_lease4_remoteid_qet",
"SELECT address, hwaddr, client_id, "
"valid_lifetime, extract(epoch from expire)::bigint, subnet_id, "
"fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id "
"FROM lease4 "
"WHERE remote_id = $1 and address > $2 "
"and EXTRACT(EPOCH FROM expire) - (CASE valid_lifetime WHEN 4294967295 "
"THEN 0 ELSE valid_lifetime END) <= $3 "
"ORDER BY address "
"LIMIT $4" },
// GET_LEASE6
{ 0, { OID_NONE },
"get_lease6",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"ORDER BY address "},
// GET_LEASE6_ADDR
{ 2, { OID_VARCHAR, OID_INT2 },
"get_lease6_addr",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE address = cast($1 as inet) AND lease_type = $2"},
// GET_LEASE6_DUID_IAID
{ 3, { OID_BYTEA, OID_INT8, OID_INT2 },
"get_lease6_duid_iaid",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE duid = $1 AND iaid = $2 AND lease_type = $3" },
// GET_LEASE6_DUID_IAID_SUBID
{ 4, { OID_INT2, OID_BYTEA, OID_INT8, OID_INT8 },
"get_lease6_duid_iaid_subid",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE lease_type = $1 "
"AND duid = $2 AND iaid = $3 AND subnet_id = $4" },
// GET_LEASE6_PAGE
{ 2, { OID_VARCHAR, OID_INT8 },
"get_lease6_page",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE address > cast($1 as inet) "
"ORDER BY address "
"LIMIT $2"},
// GET_LEASE6_UCTX_PAGE
{ 2, { OID_VARCHAR, OID_INT8 },
"get_lease6_uctx_page",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE address > cast($1 as inet) AND user_context IS NOT NULL "
"ORDER BY address "
"LIMIT $2" },
// GET_LEASE6_SUBID
{ 1, { OID_INT8 },
"get_lease6_subid",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE subnet_id = $1" },
// GET_LEASE6_SUBID_PAGE
{ 3, { OID_INT8, OID_VARCHAR, OID_INT8 },
"get_lease6_subid_page",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE subnet_id = $1 AND address > cast($2 as inet) "
"ORDER BY address "
"LIMIT $3" },
// GET_LEASE6_DUID
{ 1, { OID_BYTEA },
"get_lease6_duid",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE duid = $1" },
// GET_LEASE6_HOSTNAME
{ 1, { OID_VARCHAR },
"get_lease6_hostname",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE lower(hostname) = $1" },
// GET_LEASE6_EXPIRE
{ 3, { OID_INT8, OID_TIMESTAMP, OID_INT8 },
"get_lease6_expire",
"SELECT host(address), duid, valid_lifetime, "
"extract(epoch from expire)::bigint, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, "
"fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id "
"FROM lease6 "
"WHERE state != $1 AND valid_lifetime != 4294967295 AND expire < $2 "
"ORDER BY expire "
"LIMIT $3" },
// INSERT_LEASE4
{ 14, { OID_INT8, OID_BYTEA, OID_BYTEA, OID_INT8, OID_TIMESTAMP, OID_INT8,
OID_BOOL, OID_BOOL, OID_VARCHAR, OID_INT8, OID_TEXT, OID_BYTEA,
OID_BYTEA, OID_INT8 },
"insert_lease4",
"INSERT INTO lease4(address, hwaddr, client_id, "
"valid_lifetime, expire, subnet_id, fqdn_fwd, fqdn_rev, hostname, "
"state, user_context, relay_id, remote_id, pool_id) "
"VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9, $10, $11, $12, $13, $14)" },
// INSERT_LEASE6
{ 18, { OID_VARCHAR, OID_BYTEA, OID_INT8, OID_TIMESTAMP, OID_INT8,
OID_INT8, OID_INT2, OID_INT8, OID_INT2, OID_BOOL, OID_BOOL,
OID_VARCHAR, OID_BYTEA, OID_INT2, OID_INT2, OID_INT8, OID_TEXT,
OID_INT8},
"insert_lease6",
"INSERT INTO lease6(address, duid, valid_lifetime, "
"expire, subnet_id, pref_lifetime, "
"lease_type, iaid, prefix_len, fqdn_fwd, fqdn_rev, hostname, "
"hwaddr, hwtype, hwaddr_source, "
"state, user_context, pool_id) "
"VALUES (cast($1 as inet), $2, $3, $4, $5, $6, $7, $8, $9, $10, $11, $12, $13, $14, $15, $16, $17, $18)" },
// UPDATE_LEASE4
{ 16, { OID_INT8, OID_BYTEA, OID_BYTEA, OID_INT8, OID_TIMESTAMP, OID_INT8,
OID_BOOL, OID_BOOL, OID_VARCHAR, OID_INT8, OID_TEXT, OID_BYTEA,
OID_BYTEA, OID_INT8, OID_INT8, OID_TIMESTAMP },
"update_lease4",
"UPDATE lease4 SET address = $1, hwaddr = $2, "
"client_id = $3, valid_lifetime = $4, expire = $5, "
"subnet_id = $6, fqdn_fwd = $7, fqdn_rev = $8, hostname = $9, "
"state = $10, user_context = $11, relay_id = $12, remote_id = $13, pool_id = $14 "
"WHERE address = $15 AND expire = $16" },
// UPDATE_LEASE6
{ 20, { OID_VARCHAR, OID_BYTEA, OID_INT8, OID_TIMESTAMP, OID_INT8, OID_INT8,
OID_INT2, OID_INT8, OID_INT2, OID_BOOL, OID_BOOL, OID_VARCHAR,
OID_BYTEA, OID_INT2, OID_INT2,
OID_INT8, OID_TEXT, OID_INT8, OID_VARCHAR, OID_TIMESTAMP },
"update_lease6",
"UPDATE lease6 SET address = cast($1 as inet), duid = $2, "
"valid_lifetime = $3, expire = $4, subnet_id = $5, "
"pref_lifetime = $6, lease_type = $7, iaid = $8, "
"prefix_len = $9, fqdn_fwd = $10, fqdn_rev = $11, hostname = $12, "
"hwaddr = $13, hwtype = $14, hwaddr_source = $15, "
"state = $16, user_context = $17, pool_id = $18 "
"WHERE address = cast($19 as inet) AND expire = $20" },
// ALL_LEASE4_STATS
{ 0, { OID_NONE },
"all_lease4_stats",
"SELECT subnet_id, state, leases as state_count"
" FROM lease4_stat ORDER BY subnet_id, state" },
// SUBNET_LEASE4_STATS
{ 1, { OID_INT8 },
"subnet_lease4_stats",
"SELECT subnet_id, state, leases as state_count"
" FROM lease4_stat "
" WHERE subnet_id = $1 "
" ORDER BY state" },
// SUBNET_RANGE_LEASE4_STATS
{ 2, { OID_INT8, OID_INT8 },
"subnet_range_lease4_stats",
"SELECT subnet_id, state, leases as state_count"
" FROM lease4_stat "
" WHERE subnet_id >= $1 and subnet_id <= $2 "
" ORDER BY subnet_id, state" },
// ALL_POOL_LEASE4_STATS
{ 0, { OID_NONE },
"all_pool_lease4_stats",
"SELECT subnet_id, pool_id, state, leases as state_count"
" FROM lease4_pool_stat ORDER BY subnet_id, pool_id, state" },
// ALL_LEASE6_STATS,
{ 0, { OID_NONE },
"all_lease6_stats",
"SELECT subnet_id, lease_type, state, leases as state_count"
" FROM lease6_stat ORDER BY subnet_id, lease_type, state" },
// SUBNET_LEASE6_STATS
{ 1, { OID_INT8 },
"subnet_lease6_stats",
"SELECT subnet_id, lease_type, state, leases as state_count"
" FROM lease6_stat "
" WHERE subnet_id = $1 "
" ORDER BY lease_type, state" },
// SUBNET_RANGE_LEASE6_STATS
{ 2, { OID_INT8, OID_INT8 },
"subnet_range_lease6_stats",
"SELECT subnet_id, lease_type, state, leases as state_count"
" FROM lease6_stat "
" WHERE subnet_id >= $1 and subnet_id <= $2 "
" ORDER BY subnet_id, lease_type, state" },
// ALL_POOL_LEASE6_STATS,
{ 0, { OID_NONE },
"all_pool_lease6_stats",
"SELECT subnet_id, pool_id, lease_type, state, leases as state_count"
" FROM lease6_pool_stat ORDER BY subnet_id, pool_id, lease_type, state" },
// CHECK_LEASE4_LIMITS
{ 1, { OID_TEXT },
"check_lease4_limits",
"SELECT checkLease4Limits($1)" },
// CHECK_LEASE6_LIMITS
{ 1, { OID_TEXT },
"check_lease6_limits",
"SELECT checkLease6Limits($1)" },
// IS_JSON_SUPPORTED
{ 0, { OID_NONE },
"is_json_supported",
"SELECT isJsonSupported()" },
// GET_LEASE4_COUNT_BY_CLASS
{ 1, { OID_VARCHAR },
"get_lease4_count_by_class",
"SELECT leases "
"FROM lease4_stat_by_client_class "
"WHERE client_class = $1" },
// GET_LEASE6_COUNT_BY_CLASS
{ 2, { OID_VARCHAR, OID_INT2 },
"get_lease6_count_by_class",
"SELECT leases "
"FROM lease6_stat_by_client_class "
"WHERE client_class = $1 AND lease_type = $2" },
// WIPE_RELAY_ID6
{ 0, { OID_NONE },
"wipe_relay_id6",
"DELETE FROM lease6_relay_id" },
// WIPE_REMOTE_ID6
{ 0, { OID_NONE },
"wipe_remote_id6",
"DELETE FROM lease6_remote_id" },
// DELETE_RELAY_ID6
{ 1, { OID_VARCHAR },
"delete_relay_id6",
"DELETE FROM lease6_relay_id WHERE lease_addr = cast($1 as inet)" },
// DELETE_REMOTE_ID6
{ 1, { OID_VARCHAR },
"delete_remote_id6",
"DELETE FROM lease6_remote_id WHERE lease_addr = cast($1 as inet)" },
// ADD_RELAY_ID6
{ 2, { OID_BYTEA, OID_VARCHAR },
"add_relay_id6",
"INSERT INTO lease6_relay_id(relay_id, lease_addr) "
"VALUES ($1, cast($2 as inet))" },
// ADD_REMOTE_ID6
{ 2, { OID_BYTEA, OID_VARCHAR },
"add_remote_id6",
"INSERT INTO lease6_remote_id(remote_id, lease_addr) "
"VALUES ($1, cast($2 as inet))" },
// GET_RELAY_ID6
{ 3, { OID_BYTEA, OID_VARCHAR, OID_INT8 },
"get_relay_id6",
"SELECT DISTINCT ON(l.address) "
"host(l.address), l.duid, l.valid_lifetime, "
"extract(epoch from l.expire)::bigint, l.subnet_id, l.pref_lifetime, "
"l.lease_type, l.iaid, l.prefix_len, l.fqdn_fwd, l.fqdn_rev, "
"l.hostname, l.hwaddr, l.hwtype, l.hwaddr_source, "
"l.state, l.user_context, l.pool_id "
"FROM lease6 AS l "
"INNER JOIN lease6_relay_id AS r "
" ON l.address = r.lease_addr "
" WHERE r.relay_id = $1 AND r.lease_addr > cast($2 as inet) "
"ORDER BY l.address "
"LIMIT $3" },
// GET_REMOTE_ID6
{ 3, { OID_BYTEA, OID_VARCHAR, OID_INT8 },
"get_remote_id6",
"SELECT DISTINCT ON(l.address) "
"host(l.address), l.duid, l.valid_lifetime, "
"extract(epoch from l.expire)::bigint, l.subnet_id, l.pref_lifetime, "
"l.lease_type, l.iaid, l.prefix_len, l.fqdn_fwd, l.fqdn_rev, "
"l.hostname, l.hwaddr, l.hwtype, l.hwaddr_source, "
"l.state, l.user_context, l.pool_id "
"FROM lease6 AS l "
"INNER JOIN lease6_remote_id AS r "
" ON l.address = r.lease_addr "
" WHERE r.remote_id = $1 AND r.lease_addr > cast($2 as inet) "
"ORDER BY l.address "
"LIMIT $3" },
// COUNT_RELAY_ID6
{ 0, { OID_NONE },
"count_relay_id6",
"SELECT COUNT(*) FROM lease6_relay_id" },
// COUNT_REMOTE_ID6
{ 0, { OID_NONE },
"count_remote_id6",
"SELECT COUNT(*) FROM lease6_remote_id" },
// End of list sentinel
{ 0, { 0 }, 0, 0 }
};
} // namespace
namespace isc {
namespace dhcp {
/// @brief Base class for marshalling leases to and from PostgreSQL.
///
/// Provides the common functionality to set up binding information between
/// lease objects in the program and their database representation in the
/// database.
class PgSqlLeaseExchange : public PgSqlExchange {
public:
PgSqlLeaseExchange()<--- Member variable 'PgSqlLeaseExchange::hwaddr_buffer_' is not initialized in the constructor. [+]Member variable 'PgSqlLeaseExchange::hwaddr_buffer_' is not initialized in the constructor. Member variables of native types, pointers, or references are left uninitialized when the class is instantiated. That may cause bugs or undefined behavior.
: addr_str_(""), hwaddr_length_(0), hwaddr_(hwaddr_length_),
valid_lifetime_(0), valid_lifetime_str_(""), expire_(0),
expire_str_(""), subnet_id_(0), subnet_id_str_(""), pool_id_(0),
pool_id_str_(""), cltt_(0), fqdn_fwd_(false), fqdn_rev_(false),
hostname_(""), state_str_(""), user_context_(""), addr_bin_(16) {
}
virtual ~PgSqlLeaseExchange() {}
protected:
/// @brief Common Instance members used for binding and conversion
//@{
std::string addr_str_;
size_t hwaddr_length_;
std::vector<uint8_t> hwaddr_;
uint8_t hwaddr_buffer_[HWAddr::MAX_HWADDR_LEN];
uint32_t valid_lifetime_;
std::string valid_lifetime_str_;
time_t expire_;
std::string expire_str_;
uint32_t subnet_id_;
std::string subnet_id_str_;
uint32_t pool_id_;
std::string pool_id_str_;
time_t cltt_;
bool fqdn_fwd_;
bool fqdn_rev_;
std::string hostname_;
std::string state_str_;
std::string user_context_;
std::vector<uint8_t> addr_bin_;
//@}
};
/// @brief Supports exchanging IPv4 leases with PostgreSQL.
class PgSqlLease4Exchange : public PgSqlLeaseExchange {
private:
/// @brief Column numbers for each column in the Lease4 table.
/// These are used for both retrieving data and for looking up
/// column labels for logging. Note that their numeric order
/// MUST match that of the column order in the Lease4 table.
//@{
static const size_t ADDRESS_COL = 0;
static const size_t HWADDR_COL = 1;
static const size_t CLIENT_ID_COL = 2;
static const size_t VALID_LIFETIME_COL = 3;
static const size_t EXPIRE_COL = 4;
static const size_t SUBNET_ID_COL = 5;
static const size_t FQDN_FWD_COL = 6;
static const size_t FQDN_REV_COL = 7;
static const size_t HOSTNAME_COL = 8;
static const size_t STATE_COL = 9;
static const size_t USER_CONTEXT_COL = 10;
static const size_t RELAY_ID_COL = 11;
static const size_t REMOTE_ID_COL = 12;
static const size_t POOL_ID_COL = 13;
//@}
/// @brief Number of columns in the table holding DHCPv4 leases.
static const size_t LEASE_COLUMNS = 14;
public:
/// @brief Constructor
PgSqlLease4Exchange()
: lease_(), addr4_(0), client_id_length_(0),
relay_id_length_(0), remote_id_length_(0) {
BOOST_STATIC_ASSERT(13 < LEASE_COLUMNS);
memset(hwaddr_buffer_, 0, sizeof(hwaddr_buffer_));
memset(client_id_buffer_, 0, sizeof(client_id_buffer_));
memset(relay_id_buffer_, 0, sizeof(relay_id_buffer_));
memset(remote_id_buffer_, 0, sizeof(remote_id_buffer_));
// Set the column names (for error messages)
columns_.push_back("address");
columns_.push_back("hwaddr");
columns_.push_back("client_id");
columns_.push_back("valid_lifetime");
columns_.push_back("expire");
columns_.push_back("subnet_id");
columns_.push_back("fqdn_fwd");
columns_.push_back("fqdn_rev");
columns_.push_back("hostname");
columns_.push_back("state");
columns_.push_back("user_context");
columns_.push_back("relay_id");
columns_.push_back("remote_id");
columns_.push_back("pool_id");
}
/// @brief Creates the bind array for sending Lease4 data to the database.
///
/// Converts each Lease4 member into the appropriate form and adds it
/// to the bind array. Note that the array additions must occur in the
/// order the columns are specified in the SQL statement. By convention
/// all columns in the table are explicitly listed in the SQL statement(s)
/// in the same order as they occur in the table.
///
/// @param lease Lease4 object that is to be written to the database
/// @param[out] bind_array array to populate with the lease data values
///
/// @throw DbOperationError if bind_array cannot be populated.
void createBindForSend(const Lease4Ptr& lease, PsqlBindArray& bind_array) {
if (!lease) {
isc_throw(BadValue, "createBindForSend:: Lease4 object is NULL");
}
// Store lease object to ensure it remains valid.
lease_ = lease;
try {
addr_str_ = boost::lexical_cast<std::string>(lease->addr_.toUint32());
bind_array.add(addr_str_);
if (lease->hwaddr_ && !lease->hwaddr_->hwaddr_.empty()) {
// PostgreSql does not provide MAX on variable length types
// so we have to enforce it ourselves.
if (lease->hwaddr_->hwaddr_.size() > HWAddr::MAX_HWADDR_LEN) {
isc_throw(DbOperationError, "Hardware address length : "
<< lease_->hwaddr_->hwaddr_.size()
<< " exceeds maximum allowed of: "
<< HWAddr::MAX_HWADDR_LEN);
}
bind_array.add(lease->hwaddr_->hwaddr_);
} else {
bind_array.add("");
}
if (lease->client_id_) {
bind_array.add(lease->client_id_->getClientId());
} else {
bind_array.add("");
}
valid_lifetime_str_ = boost::lexical_cast<std::string>(lease->valid_lft_);
bind_array.add(valid_lifetime_str_);
// The lease structure holds the client last transmission time (cltt_)
// For convenience for external tools, this is converted to lease
// expiry time (expire). The relationship is given by:
// expire = cltt_ + valid_lft_
// Avoid overflow with infinite valid lifetime by using
// expire = cltt_ when valid_lft_ = 0xffffffff
if (lease_->valid_lft_ == Lease::INFINITY_LFT) {
expire_str_ = convertToDatabaseTime(lease->cltt_, 0);
} else {
expire_str_ = convertToDatabaseTime(lease->cltt_,
lease_->valid_lft_);
}
bind_array.add(expire_str_);
subnet_id_str_ = boost::lexical_cast<std::string>(lease->subnet_id_);
bind_array.add(subnet_id_str_);
bind_array.add(lease->fqdn_fwd_);
bind_array.add(lease->fqdn_rev_);
bind_array.add(lease->hostname_);
state_str_ = boost::lexical_cast<std::string>(lease->state_);
bind_array.add(state_str_);
ConstElementPtr ctx = lease->getContext();
if (ctx) {
user_context_ = ctx->str();
} else {
user_context_ = "";
}
bind_array.add(user_context_);
if (!lease->relay_id_.empty()) {
bind_array.add(lease->relay_id_);
} else {
bind_array.addNull();
}
if (!lease->remote_id_.empty()) {
bind_array.add(lease->remote_id_);
} else {
bind_array.addNull();
}
pool_id_str_ = boost::lexical_cast<std::string>(lease->pool_id_);
bind_array.add(pool_id_str_);
} catch (const std::exception& ex) {
isc_throw(DbOperationError,
"Could not create bind array from Lease4: "
<< lease_->addr_.toText() << ", reason: " << ex.what());
}
}
/// @brief Creates a Lease4 object from a given row in a result set.
///
/// @param r result set containing one or rows from the Lease4 table
/// @param row row number within the result set from to create the Lease4
/// object.
///
/// @return Lease4Ptr to the newly created Lease4 object
/// @throw DbOperationError if the lease cannot be created.
Lease4Ptr convertFromDatabase(const PgSqlResult& r, int row) {
try {
getColumnValue(r, row, ADDRESS_COL, addr4_);
convertFromBytea(r, row, HWADDR_COL, hwaddr_buffer_,
sizeof(hwaddr_buffer_), hwaddr_length_);
convertFromBytea(r, row, CLIENT_ID_COL, client_id_buffer_,
sizeof(client_id_buffer_), client_id_length_);
getColumnValue(r, row, VALID_LIFETIME_COL, valid_lifetime_);
expire_ = convertFromDatabaseTime(getRawColumnValue(r, row,
EXPIRE_COL));
getColumnValue(r, row, SUBNET_ID_COL, subnet_id_);
// Recover from overflow (see createBindForSend)
if (valid_lifetime_ == Lease::INFINITY_LFT) {
cltt_ = expire_;
} else {
cltt_ = expire_ - valid_lifetime_;
}
getColumnValue(r, row, FQDN_FWD_COL, fqdn_fwd_);
getColumnValue(r, row, FQDN_REV_COL, fqdn_rev_);
hostname_ = getRawColumnValue(r, row, HOSTNAME_COL);
uint32_t state;
getColumnValue(r, row, STATE_COL, state);
HWAddrPtr hwaddr(new HWAddr(hwaddr_buffer_, hwaddr_length_,
HTYPE_ETHER));
user_context_ = getRawColumnValue(r, row, USER_CONTEXT_COL);
ConstElementPtr ctx;
if (!user_context_.empty()) {
ctx = Element::fromJSON(user_context_);
if (!ctx || (ctx->getType() != Element::map)) {
isc_throw(BadValue, "user context '" << user_context_
<< "' is not a JSON map");
}
}
convertFromBytea(r, row, RELAY_ID_COL, relay_id_buffer_,
sizeof(relay_id_buffer_), relay_id_length_);
convertFromBytea(r, row, REMOTE_ID_COL, remote_id_buffer_,
sizeof(remote_id_buffer_), remote_id_length_);
getColumnValue(r, row, POOL_ID_COL, pool_id_);
Lease4Ptr result(boost::make_shared<Lease4>(addr4_, hwaddr,
client_id_buffer_,
client_id_length_,
valid_lifetime_, cltt_,
subnet_id_, fqdn_fwd_,
fqdn_rev_, hostname_));
result->state_ = state;
if (ctx) {
result->setContext(ctx);
}
if (relay_id_length_) {
result->relay_id_.assign(relay_id_buffer_,
relay_id_buffer_ + relay_id_length_);
}
if (remote_id_length_) {
result->remote_id_.assign(remote_id_buffer_,
remote_id_buffer_ + remote_id_length_);
}
result->pool_id_ = pool_id_;
return (result);
} catch (const std::exception& ex) {
isc_throw(DbOperationError,
"Could not convert data to Lease4, reason: "
<< ex.what());
}
}
private:
/// @brief Lease4 object currently being sent to the database.
/// Storing this value ensures that it remains in scope while any bindings
/// that refer to its contents are in use.
Lease4Ptr lease_;
/// @brief Lease4 specific members for binding and conversion.
uint32_t addr4_;
size_t client_id_length_;
uint8_t client_id_buffer_[ClientId::MAX_CLIENT_ID_LEN];
size_t relay_id_length_;
uint8_t relay_id_buffer_[ClientId::MAX_CLIENT_ID_LEN];
size_t remote_id_length_;
uint8_t remote_id_buffer_[ClientId::MAX_CLIENT_ID_LEN];
};
/// @brief Supports exchanging IPv6 leases with PostgreSQL.
class PgSqlLease6Exchange : public PgSqlLeaseExchange {
private:
/// @brief Column numbers for each column in the Lease6 table.
/// These are used for both retrieving data and for looking up
/// column labels for logging. Note that their numeric order
/// MUST match that of the column order in the Lease6 table.
//@{
static const size_t ADDRESS_COL = 0;
static const size_t DUID_COL = 1;
static const size_t VALID_LIFETIME_COL = 2;
static const size_t EXPIRE_COL = 3;
static const size_t SUBNET_ID_COL = 4;
static const size_t PREF_LIFETIME_COL = 5;
static const size_t LEASE_TYPE_COL = 6;
static const size_t IAID_COL = 7;
static const size_t PREFIX_LEN_COL = 8;
static const size_t FQDN_FWD_COL = 9;
static const size_t FQDN_REV_COL = 10;
static const size_t HOSTNAME_COL = 11;
static const size_t HWADDR_COL = 12;
static const size_t HWTYPE_COL = 13;
static const size_t HWADDR_SOURCE_COL = 14;
static const size_t STATE_COL = 15;
static const size_t USER_CONTEXT_COL = 16;
static const size_t POOL_ID_COL = 17;
//@}
/// @brief Number of columns in the table holding DHCPv6 leases.
static const size_t LEASE_COLUMNS = 18;
public:
/// @brief Union for marshalling IAID into and out of the database
/// IAID is defined in the RFC as 4 octets, which Kea code handles as
/// a uint32_t. Postgresql however, offers only signed integer types
/// of sizes 2, 4, and 8 bytes (SMALLINT, INT, and BIGINT respectively).
/// IAID is used in several indexes so rather than use the BIGINT, we
/// use this union to safely move the value into and out of an INT column.
union Uiaid {
/// @brief Constructor
/// @param val unsigned 32 bit value for the IAID.
Uiaid(uint32_t val) : uval_(val) {};
/// @brief Constructor
/// @param val signed 32 bit value for the IAID.
Uiaid(int32_t val) : ival_(val) {};
/// @brief Return a string representing the signed 32-bit value.
std::string dbInputString() {
return (boost::lexical_cast<std::string>(ival_));
};
uint32_t uval_;
int32_t ival_;
};
PgSqlLease6Exchange()
: lease_(), duid_length_(0), duid_(duid_length_), iaid_u_(0),
iaid_str_(""), lease_type_(Lease6::TYPE_NA), lease_type_str_(""),
prefix_len_(0), prefix_len_str_(""), pref_lifetime_(0),
preferred_lifetime_str_(""), hwtype_(0), hwtype_str_(""),
hwaddr_source_(0), hwaddr_source_str_("") {
BOOST_STATIC_ASSERT(17 < LEASE_COLUMNS);
memset(duid_buffer_, 0, sizeof(duid_buffer_));
// Set the column names (for error messages)
columns_.push_back("address");
columns_.push_back("duid");
columns_.push_back("valid_lifetime");
columns_.push_back("expire");
columns_.push_back("subnet_id");
columns_.push_back("pref_lifetime");
columns_.push_back("lease_type");
columns_.push_back("iaid");
columns_.push_back("prefix_len");
columns_.push_back("fqdn_fwd");
columns_.push_back("fqdn_rev");
columns_.push_back("hostname");
columns_.push_back("hwaddr");
columns_.push_back("hwtype");
columns_.push_back("hwaddr_source");
columns_.push_back("state");
columns_.push_back("user_context");
columns_.push_back("pool_id");
}
/// @brief Creates the bind array for sending Lease6 data to the database.
///
/// Converts each Lease6 member into the appropriate form and adds it
/// to the bind array. Note that the array additions must occur in the
/// order the columns are specified in the SQL statement. By convention
/// all columns in the table are explicitly listed in the SQL statement(s)
/// in the same order as they occur in the table.
///
/// @param lease Lease6 object that is to be written to the database
/// @param[out] bind_array array to populate with the lease data values
///
/// @throw DbOperationError if bind_array cannot be populated.
void createBindForSend(const Lease6Ptr& lease, PsqlBindArray& bind_array) {
if (!lease) {
isc_throw(BadValue, "createBindForSend:: Lease6 object is NULL");
}
// Store lease object to ensure it remains valid.
lease_ = lease;
try {
addr_str_ = lease_->addr_.toText();
bind_array.add(addr_str_);
if (lease_->duid_) {
bind_array.add(lease_->duid_->getDuid());
} else {
isc_throw (BadValue, "IPv6 Lease cannot have a null DUID");
}
valid_lifetime_str_ = boost::lexical_cast<std::string>(lease->valid_lft_);
bind_array.add(valid_lifetime_str_);
// The lease structure holds the client last transmission time (cltt_)
// For convenience for external tools, this is converted to lease
// expiry time (expire). The relationship is given by:
// expire = cltt_ + valid_lft_
// Avoid overflow with infinite valid lifetime by using
// expire = cltt_ when valid_lft_ = 0xffffffff
if (lease_->valid_lft_ == Lease::INFINITY_LFT) {
expire_str_ = convertToDatabaseTime(lease->cltt_, 0);
} else {
expire_str_ = convertToDatabaseTime(lease->cltt_,
lease_->valid_lft_);
}
bind_array.add(expire_str_);
subnet_id_str_ = boost::lexical_cast<std::string>(lease->subnet_id_);
bind_array.add(subnet_id_str_);
preferred_lifetime_str_ = boost::lexical_cast<std::string>(lease_->preferred_lft_);
bind_array.add(preferred_lifetime_str_);
lease_type_str_ = boost::lexical_cast<std::string>(lease_->type_);
bind_array.add(lease_type_str_);
// The iaid is stored as an INT in lease6 table, so we must
// lexically cast from an integer version to avoid out of range
// exception failure upon insert.
iaid_u_.uval_ = lease_->iaid_;
iaid_str_ = iaid_u_.dbInputString();
bind_array.add(iaid_str_);
prefix_len_str_ = boost::lexical_cast<std::string>
(static_cast<unsigned int>(lease_->prefixlen_));
bind_array.add(prefix_len_str_);
bind_array.add(lease->fqdn_fwd_);
bind_array.add(lease->fqdn_rev_);
bind_array.add(lease->hostname_);
if (lease->hwaddr_ && !lease->hwaddr_->hwaddr_.empty()) {
// PostgreSql does not provide MAX on variable length types
// so we have to enforce it ourselves.
if (lease->hwaddr_->hwaddr_.size() > HWAddr::MAX_HWADDR_LEN) {
isc_throw(DbOperationError, "Hardware address length : "
<< lease_->hwaddr_->hwaddr_.size()
<< " exceeds maximum allowed of: "
<< HWAddr::MAX_HWADDR_LEN);
}
bind_array.add(lease->hwaddr_->hwaddr_);
} else {
bind_array.add("");
}
if (lease->hwaddr_) {
hwtype_str_ = boost::lexical_cast<std::string>
(static_cast<unsigned int>(lease_->hwaddr_->htype_));
hwaddr_source_str_ = boost::lexical_cast<std::string>
(static_cast<unsigned int>(lease_->hwaddr_->source_));
} else {
hwtype_str_ = boost::lexical_cast<std::string>
(static_cast<unsigned int>(HTYPE_UNDEFINED));
hwaddr_source_str_ = boost::lexical_cast<std::string>
(static_cast<unsigned int>(HWAddr::HWADDR_SOURCE_UNKNOWN));
}
bind_array.add(hwtype_str_);
bind_array.add(hwaddr_source_str_);
state_str_ = boost::lexical_cast<std::string>(lease->state_);
bind_array.add(state_str_);
ConstElementPtr ctx = lease->getContext();
if (ctx) {
user_context_ = ctx->str();
} else {
user_context_ = "";
}
bind_array.add(user_context_);
pool_id_str_ = boost::lexical_cast<std::string>(lease->pool_id_);
bind_array.add(pool_id_str_);
} catch (const std::exception& ex) {
isc_throw(DbOperationError,
"Could not create bind array from Lease6: "
<< lease_->addr_.toText() << ", reason: " << ex.what());
}
}
/// @brief Creates a Lease6 object from a given row in a result set.
///
/// @param r result set containing one or rows from the Lease6 table
/// @param row row number within the result set from to create the Lease6
/// object.
///
/// @return Lease6Ptr to the newly created Lease4 object
/// @throw DbOperationError if the lease cannot be created.
Lease6Ptr convertFromDatabase(const PgSqlResult& r, int row) {
try {
/// @todo In theory, an administrator could tweak lease
/// information in the database. In this case, some of the
/// values could be set to NULL. This is less likely than
/// in case of host reservations, but we may consider if
/// retrieved values should be checked for being NULL to
/// prevent cryptic errors during conversions from NULL
/// to actual values.
IOAddress addr(getIPv6Value(r, row, ADDRESS_COL));
convertFromBytea(r, row, DUID_COL, duid_buffer_, sizeof(duid_buffer_), duid_length_);
DuidPtr duid_ptr(new DUID(duid_buffer_, duid_length_));
getColumnValue(r, row, VALID_LIFETIME_COL, valid_lifetime_);
expire_ = convertFromDatabaseTime(getRawColumnValue(r, row,
EXPIRE_COL));
// Recover from overflow (see createBindForSend)
if (valid_lifetime_ == Lease::INFINITY_LFT) {
cltt_ = expire_;
} else {
cltt_ = expire_ - valid_lifetime_;
}
getColumnValue(r, row, SUBNET_ID_COL, subnet_id_);
getColumnValue(r, row, PREF_LIFETIME_COL, pref_lifetime_);
getLeaseTypeColumnValue(r, row, LEASE_TYPE_COL, lease_type_);
getColumnValue(r, row, IAID_COL, iaid_u_.ival_);
getColumnValue(r, row, PREFIX_LEN_COL, prefix_len_);
getColumnValue(r, row, FQDN_FWD_COL, fqdn_fwd_);
getColumnValue(r, row, FQDN_REV_COL, fqdn_rev_);
hostname_ = getRawColumnValue(r, row, HOSTNAME_COL);
convertFromBytea(r, row, HWADDR_COL, hwaddr_buffer_,
sizeof(hwaddr_buffer_), hwaddr_length_);
getColumnValue(r, row, HWTYPE_COL, hwtype_);
getColumnValue(r, row, HWADDR_SOURCE_COL, hwaddr_source_);
HWAddrPtr hwaddr;
if (hwaddr_length_) {
hwaddr.reset(new HWAddr(hwaddr_buffer_, hwaddr_length_,
hwtype_));
hwaddr->source_ = hwaddr_source_;
}
uint32_t state;
getColumnValue(r, row, STATE_COL, state);
user_context_ = getRawColumnValue(r, row, USER_CONTEXT_COL);
ConstElementPtr ctx;
if (!user_context_.empty()) {
ctx = Element::fromJSON(user_context_);
if (!ctx || (ctx->getType() != Element::map)) {
isc_throw(BadValue, "user context '" << user_context_
<< "' is not a JSON map");
}
}
getColumnValue(r, row, POOL_ID_COL, pool_id_);
if (lease_type_ != Lease::TYPE_PD) {
prefix_len_ = 128;
}
Lease6Ptr result(boost::make_shared<Lease6>(lease_type_, addr,
duid_ptr,
iaid_u_.uval_,
pref_lifetime_,
valid_lifetime_,
subnet_id_, fqdn_fwd_,
fqdn_rev_, hostname_,
hwaddr, prefix_len_));
// Update cltt_ and current_cltt_ explicitly.
result->cltt_ = cltt_;
result->current_cltt_ = cltt_;
result->state_ = state;
if (ctx) {
result->setContext(ctx);
}
result->pool_id_ = pool_id_;
return (result);
} catch (const std::exception& ex) {
isc_throw(DbOperationError,
"Could not convert data to Lease6, reason: "
<< ex.what());
}
}
/// @brief Fetches an integer text column as a Lease6::Type
///
/// @param r the result set containing the query results
/// @param row the row number within the result set
/// @param col the column number within the row
/// @param[out] value parameter to receive the converted value
///
/// Note we depart from overloading getColumnValue to avoid ambiguity
/// with base class methods for integers.
///
/// @throw DbOperationError if the value cannot be fetched or is
/// invalid.
void getLeaseTypeColumnValue(const PgSqlResult& r, const int row,
const size_t col, Lease6::Type& value) const {
uint32_t raw_value = 0;
getColumnValue(r, row, col, raw_value);
switch (raw_value) {
case Lease6::TYPE_NA:
case Lease6::TYPE_TA:
case Lease6::TYPE_PD:
value = static_cast<Lease6::Type>(raw_value);
break;
default:
isc_throw(DbOperationError, "Invalid lease type: " << raw_value
<< " for: " << getColumnLabel(r, col) << " row:" << row);
}
}
private:
/// @brief Lease6 object currently being sent to the database.
/// Storing this value ensures that it remains in scope while any bindings
/// that refer to its contents are in use.
Lease6Ptr lease_;
/// @brief Lease6 specific members for binding and conversion.
//@{
size_t duid_length_;
std::vector<uint8_t> duid_;
uint8_t duid_buffer_[DUID::MAX_DUID_LEN];
union Uiaid iaid_u_;
std::string iaid_str_;
Lease6::Type lease_type_;
std::string lease_type_str_;
uint8_t prefix_len_;
std::string prefix_len_str_;
uint32_t pref_lifetime_;
std::string preferred_lifetime_str_;
uint32_t hwtype_;
std::string hwtype_str_;
uint32_t hwaddr_source_;
std::string hwaddr_source_str_;
//@}
};
/// @brief Base PostgreSQL derivation of the statistical lease data query
///
/// This class provides the functionality such as results storage and row
/// fetching common to fulfilling the statistical lease data query.
///
class PgSqlLeaseStatsQuery : public LeaseStatsQuery {
public:
/// @brief Constructor to query for all subnets' stats
///
/// The query created will return statistics for all subnets
///
/// @param conn A open connection to the database housing the lease data
/// @param statement The lease data SQL prepared statement to execute
/// @param fetch_type Indicates whether or not lease_type should be
/// fetched from the result set
/// @param fetch_pool Indicates if query requires pool data
PgSqlLeaseStatsQuery(PgSqlConnection& conn, PgSqlTaggedStatement& statement,
const bool fetch_type, const bool fetch_pool = false)
: conn_(conn), statement_(statement), result_set_(), next_row_(0),
fetch_type_(fetch_type), fetch_pool_(fetch_pool) {
}
/// @brief Constructor to query for a single subnet's stats
///
/// The query created will return statistics for a single subnet
///
/// @param conn A open connection to the database housing the lease data
/// @param statement The lease data SQL prepared statement to execute
/// @param fetch_type Indicates if query supplies lease type
/// @param subnet_id id of the subnet for which stats are desired
PgSqlLeaseStatsQuery(PgSqlConnection& conn, PgSqlTaggedStatement& statement,
const bool fetch_type, const SubnetID& subnet_id)
: LeaseStatsQuery(subnet_id), conn_(conn), statement_(statement), result_set_(),
next_row_(0), fetch_type_(fetch_type), fetch_pool_(false) {
}
/// @brief Constructor to query for the stats for a range of subnets
///
/// The query created will return statistics for the inclusive range of
/// subnets described by first and last subnet IDs.
///
/// @param conn A open connection to the database housing the lease data
/// @param statement The lease data SQL prepared statement to execute
/// @param fetch_type Indicates if query supplies lease type
/// @param first_subnet_id first subnet in the range of subnets
/// @param last_subnet_id last subnet in the range of subnets
PgSqlLeaseStatsQuery(PgSqlConnection& conn, PgSqlTaggedStatement& statement,
const bool fetch_type, const SubnetID& first_subnet_id,
const SubnetID& last_subnet_id)
: LeaseStatsQuery(first_subnet_id, last_subnet_id), conn_(conn), statement_(statement),
result_set_(), next_row_(0), fetch_type_(fetch_type), fetch_pool_(false) {
}
/// @brief Destructor
virtual ~PgSqlLeaseStatsQuery() {};<--- Destructor in derived class
/// @brief Creates the lease statistical data result set
///
/// The result set is populated by executing a prepared SQL query
/// against the database fetches the lease count per lease state per
/// (per least type - v6 only) per subnet id.
///
/// Depending upon the selection mode, the query will have either no
/// parameters (for all subnets), a subnet id for a single subnet, or
/// a first and last subnet id for a subnet range.
void start() {<--- Function in derived class
if (getSelectMode() == ALL_SUBNETS || getSelectMode() == ALL_SUBNET_POOLS) {
// Run the query with no where clause parameters.
result_set_.reset(new PgSqlResult(PQexecPrepared(conn_, statement_.name,
0, 0, 0, 0, 0)));
} else {
// Set up the WHERE clause values
PsqlBindArray parms;
// Add first_subnet_id used by both single and range.
parms.addTempString(boost::lexical_cast<std::string>(getFirstSubnetID()));
// Add last_subnet_id for range.
if (getSelectMode() == SUBNET_RANGE) {
// Add last_subnet_id used by range.
parms.addTempString(boost::lexical_cast<std::string>(getLastSubnetID()));
}
// Run the query with where clause parameters.
result_set_.reset(new PgSqlResult(PQexecPrepared(conn_, statement_.name,
parms.size(), &parms.values_[0],
&parms.lengths_[0], &parms.formats_[0], 0)));
}
conn_.checkStatementError(*result_set_, statement_);
}
/// @brief Fetches the next row in the result set
///
/// Once the internal result set has been populated by invoking the
/// the start() method, this method is used to iterate over the
/// result set rows. Once the last row has been fetched, subsequent
/// calls will return false.
///
/// Checks against negative values for the state count and logs once
/// a warning message.
///
/// @param row Storage for the fetched row
///
/// @return True if the fetch succeeded, false if there are no more
/// rows to fetch.
bool getNextRow(LeaseStatsRow& row) {<--- Function in derived class
// If we're past the end, punt.
if (next_row_ >= result_set_->getRows()) {
return (false);
}
// Fetch the subnet id.
uint32_t col = 0;
uint32_t subnet_id;
PgSqlExchange::getColumnValue(*result_set_, next_row_, col, subnet_id);
row.subnet_id_ = static_cast<SubnetID>(subnet_id);
++col;
// Fetch the pool id if we were told to do so.
if (fetch_pool_) {
PgSqlExchange::getColumnValue(*result_set_, next_row_, col,
row.pool_id_);
++col;
}
// Fetch the lease type if we were told to do so.
if (fetch_type_) {
uint32_t lease_type;
PgSqlExchange::getColumnValue(*result_set_, next_row_, col,
lease_type);
row.lease_type_ = static_cast<Lease::Type>(lease_type);
++col;
} else {
row.lease_type_ = Lease::TYPE_NA;
}
// Fetch the lease state.
PgSqlExchange::getColumnValue(*result_set_, next_row_, col,
row.lease_state_);
++col;
// Fetch the state count.
PgSqlExchange::getColumnValue(*result_set_, next_row_, col,
row.state_count_);
// Protect against negative state count.a
if (row.state_count_ < 0) {
row.state_count_ = 0;
if (!negative_count_) {
negative_count_ = true;
LOG_WARN(pgsql_lb_logger, PGSQL_LB_NEGATIVE_LEASES_STAT);
}
}
// Point to the next row.
++next_row_;
return (true);
}
protected:
/// @brief Database connection to use to execute the query
PgSqlConnection& conn_;
/// @brief The query's prepared statement
PgSqlTaggedStatement& statement_;
/// @brief The result set returned by Postgres.
boost::shared_ptr<PgSqlResult> result_set_;
/// @brief Index of the next row to fetch
uint32_t next_row_;
/// @brief Indicates if query supplies lease type
bool fetch_type_;
/// @brief Indicates if query requires pool data
bool fetch_pool_;
/// @brief Received negative state count showing a problem
static bool negative_count_;
};
// Initialize negative state count flag to false.
bool PgSqlLeaseStatsQuery::negative_count_ = false;
// PgSqlLeaseContext Constructor
PgSqlLeaseContext::PgSqlLeaseContext(const DatabaseConnection::ParameterMap& parameters,
IOServiceAccessorPtr io_service_accessor,
DbCallback db_reconnect_callback)
: conn_(parameters, io_service_accessor, db_reconnect_callback) {
}
// PgSqlLeaseContextAlloc Constructor and Destructor
PgSqlLeaseMgr::PgSqlLeaseContextAlloc::PgSqlLeaseContextAlloc(
const PgSqlLeaseMgr& mgr) : ctx_(), mgr_(mgr) {
if (MultiThreadingMgr::instance().getMode()) {
// multi-threaded
{
// we need to protect the whole pool_ operation, hence extra scope {}
lock_guard<mutex> lock(mgr_.pool_->mutex_);
if (!mgr_.pool_->pool_.empty()) {
ctx_ = mgr_.pool_->pool_.back();
mgr_.pool_->pool_.pop_back();
}
}
if (!ctx_) {
ctx_ = mgr_.createContext();
}
} else {
// single-threaded
if (mgr_.pool_->pool_.empty()) {
isc_throw(Unexpected, "No available PostgreSQL lease context?!");
}
ctx_ = mgr_.pool_->pool_.back();
}
}
PgSqlLeaseMgr::PgSqlLeaseContextAlloc::~PgSqlLeaseContextAlloc() {
if (MultiThreadingMgr::instance().getMode()) {
// multi-threaded
lock_guard<mutex> lock(mgr_.pool_->mutex_);
mgr_.pool_->pool_.push_back(ctx_);
}
// If running in single-threaded mode, there's nothing to do here.
}
// PgSqlLeaseTrackingContextAlloc Constructor and Destructor
PgSqlLeaseMgr::PgSqlLeaseTrackingContextAlloc::PgSqlLeaseTrackingContextAlloc(
PgSqlLeaseMgr& mgr, const LeasePtr& lease) : ctx_(), mgr_(mgr), lease_(lease) {
if (MultiThreadingMgr::instance().getMode()) {
// multi-threaded
{
// we need to protect the whole pool_ operation, hence extra scope {}
lock_guard<mutex> lock(mgr_.pool_->mutex_);
if (mgr_.hasCallbacks() && !mgr_.tryLock(lease)) {
isc_throw(DbOperationError, "unable to lock the lease " << lease->addr_);
}
if (!mgr_.pool_->pool_.empty()) {
ctx_ = mgr_.pool_->pool_.back();
mgr_.pool_->pool_.pop_back();
}
}
if (!ctx_) {
ctx_ = mgr_.createContext();
}
} else {
// single-threaded
if (mgr_.pool_->pool_.empty()) {
isc_throw(Unexpected, "No available PostgreSQL lease context?!");
}
ctx_ = mgr_.pool_->pool_.back();
}
}
PgSqlLeaseMgr::PgSqlLeaseTrackingContextAlloc::~PgSqlLeaseTrackingContextAlloc() {
if (MultiThreadingMgr::instance().getMode()) {
// multi-threaded
lock_guard<mutex> lock(mgr_.pool_->mutex_);
if (mgr_.hasCallbacks()) {
mgr_.unlock(lease_);
}
mgr_.pool_->pool_.push_back(ctx_);
}
// If running in single-threaded mode, there's nothing to do here.
}
// PgSqlLeaseMgr Constructor and Destructor
PgSqlLeaseMgr::PgSqlLeaseMgr(const DatabaseConnection::ParameterMap& parameters)
: TrackingLeaseMgr(), parameters_(parameters) {
// Check if the extended info tables are enabled.
setExtendedInfoTablesEnabled(parameters);
// Check TLS support.
size_t tls(0);
tls += parameters.count("trust-anchor");
tls += parameters.count("cert-file");
tls += parameters.count("key-file");
tls += parameters.count("cipher-list");
#ifdef HAVE_PGSQL_SSL
if ((tls > 0) && !PgSqlConnection::warned_about_tls) {
PgSqlConnection::warned_about_tls = true;
LOG_INFO(pgsql_lb_logger, PGSQL_LB_TLS_SUPPORT)
.arg(DatabaseConnection::redactedAccessString(parameters_));
PQinitSSL(1);
}
#else
if (tls > 0) {
LOG_ERROR(pgsql_lb_logger, PGSQL_LB_NO_TLS_SUPPORT)
.arg(DatabaseConnection::redactedAccessString(parameters_));
isc_throw(DbOpenError, "Attempt to configure TLS for PostgreSQL "
<< "backend (built with this feature disabled)");
}
#endif
// Create unique timer name per instance.
timer_name_ = "PgSqlLeaseMgr[";
timer_name_ += boost::lexical_cast<std::string>(reinterpret_cast<uint64_t>(this));
timer_name_ += "]DbReconnectTimer";
PgSqlConnection::ensureSchemaVersion(parameters_, DbCallback(&PgSqlLeaseMgr::dbReconnect),
timer_name_);
// Create an initial context.
pool_.reset(new PgSqlLeaseContextPool());
pool_->pool_.push_back(createContext());
}
PgSqlLeaseMgr::~PgSqlLeaseMgr() {
}
bool
PgSqlLeaseMgr::dbReconnect(ReconnectCtlPtr db_reconnect_ctl) {
MultiThreadingCriticalSection cs;
// Invoke application layer connection lost callback.
if (!DatabaseConnection::invokeDbLostCallback(db_reconnect_ctl)) {
return (false);
}
bool reopened = false;
const std::string timer_name = db_reconnect_ctl->timerName();
// At least one connection was lost.
try {
CfgDbAccessPtr cfg_db = CfgMgr::instance().getCurrentCfg()->getCfgDbAccess();
LeaseMgrFactory::recreate(cfg_db->getLeaseDbAccessString());
reopened = true;
} catch (const std::exception& ex) {
LOG_ERROR(pgsql_lb_logger, PGSQL_LB_DB_RECONNECT_ATTEMPT_FAILED)
.arg(ex.what());
}
if (reopened) {
// Cancel the timer.
if (TimerMgr::instance()->isTimerRegistered(timer_name)) {
TimerMgr::instance()->unregisterTimer(timer_name);
}
// Invoke application layer connection recovered callback.
if (!DatabaseConnection::invokeDbRecoveredCallback(db_reconnect_ctl)) {
return (false);
}
} else {
if (!db_reconnect_ctl->checkRetries()) {
// We're out of retries, log it and initiate shutdown.
LOG_ERROR(pgsql_lb_logger, PGSQL_LB_DB_RECONNECT_FAILED)
.arg(db_reconnect_ctl->maxRetries());
// Cancel the timer.
if (TimerMgr::instance()->isTimerRegistered(timer_name)) {
TimerMgr::instance()->unregisterTimer(timer_name);
}
// Invoke application layer connection failed callback.
DatabaseConnection::invokeDbFailedCallback(db_reconnect_ctl);
return (false);
}
LOG_INFO(pgsql_lb_logger, PGSQL_LB_DB_RECONNECT_ATTEMPT_SCHEDULE)
.arg(db_reconnect_ctl->maxRetries() - db_reconnect_ctl->retriesLeft() + 1)
.arg(db_reconnect_ctl->maxRetries())
.arg(db_reconnect_ctl->retryInterval());
// Start the timer.
if (!TimerMgr::instance()->isTimerRegistered(timer_name)) {
TimerMgr::instance()->registerTimer(timer_name,
std::bind(&PgSqlLeaseMgr::dbReconnect, db_reconnect_ctl),
db_reconnect_ctl->retryInterval(),
asiolink::IntervalTimer::ONE_SHOT);
}
TimerMgr::instance()->setup(timer_name);
}
return (true);
}
// Create context.
PgSqlLeaseContextPtr
PgSqlLeaseMgr::createContext() const {
PgSqlLeaseContextPtr ctx(new PgSqlLeaseContext(parameters_,
IOServiceAccessorPtr(new IOServiceAccessor(&DatabaseConnection::getIOService)),
&PgSqlLeaseMgr::dbReconnect));
// Create ReconnectCtl for this connection.
ctx->conn_.makeReconnectCtl(timer_name_);
// Open the database.
ctx->conn_.openDatabase();
// Now prepare the SQL statements.
uint32_t i = 0;
for (; tagged_statements[i].text != NULL; ++i) {
ctx->conn_.prepareStatement(tagged_statements[i]);
}
// Just in case somebody foo-barred things
if (i != NUM_STATEMENTS) {
isc_throw(DbOpenError, "Number of statements prepared: " << i
<< " does not match expected count:" << NUM_STATEMENTS);
}
// Create the exchange objects for use in exchanging data between the
// program and the database.
ctx->exchange4_.reset(new PgSqlLease4Exchange());
ctx->exchange6_.reset(new PgSqlLease6Exchange());
return (ctx);
}
std::string
PgSqlLeaseMgr::getDBVersion() {
std::stringstream tmp;
tmp << "PostgreSQL backend " << PGSQL_SCHEMA_VERSION_MAJOR;
tmp << "." << PGSQL_SCHEMA_VERSION_MINOR;
tmp << ", library " << PQlibVersion();
return (tmp.str());
}
bool
PgSqlLeaseMgr::addLeaseCommon(PgSqlLeaseContextPtr& ctx,
StatementIndex stindex,
PsqlBindArray& bind_array) {
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
int s = PQresultStatus(r);
if (s != PGRES_COMMAND_OK) {
// Failure: check for the special case of duplicate entry. If this is
// the case, we return false to indicate that the row was not added.
// Otherwise we throw an exception.
if (ctx->conn_.compareError(r, PgSqlConnection::DUPLICATE_KEY)) {
return (false);
}
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
}
return (true);
}
bool
PgSqlLeaseMgr::addLease(const Lease4Ptr& lease) {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_ADD_ADDR4)
.arg(lease->addr_.toText());
// Get a context
PgSqlLeaseTrackingContextAlloc get_context(*this, lease);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
PsqlBindArray bind_array;
ctx->exchange4_->createBindForSend(lease, bind_array);
auto result = addLeaseCommon(ctx, INSERT_LEASE4, bind_array);
// Update lease current expiration time (allows update between the creation
// of the Lease up to the point of insertion in the database).
lease->updateCurrentExpirationTime();
// Run installed callbacks.
if (hasCallbacks()) {
trackAddLease(lease);
}
return (result);
}
bool
PgSqlLeaseMgr::addLease(const Lease6Ptr& lease) {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_ADD_ADDR6)
.arg(lease->addr_.toText())
.arg(lease->type_);
lease->extended_info_action_ = Lease6::ACTION_IGNORE;
// Get a context
PgSqlLeaseTrackingContextAlloc get_context(*this, lease);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
PsqlBindArray bind_array;
ctx->exchange6_->createBindForSend(lease, bind_array);
auto result = addLeaseCommon(ctx, INSERT_LEASE6, bind_array);
// Update lease current expiration time (allows update between the creation
// of the Lease up to the point of insertion in the database).
lease->updateCurrentExpirationTime();
if (getExtendedInfoTablesEnabled()) {
static_cast<void>(addExtendedInfo6(lease));
}
// Run installed callbacks.
if (hasCallbacks()) {
trackAddLease(lease);
}
return (result);
}
template <typename Exchange, typename LeaseCollection>
void
PgSqlLeaseMgr::getLeaseCollection(PgSqlLeaseContextPtr& ctx,
StatementIndex stindex,
PsqlBindArray& bind_array,
Exchange& exchange,
LeaseCollection& result,
bool single) const {
const int n = tagged_statements[stindex].nbparams;
PgSqlResult r(PQexecPrepared(ctx->conn_,
tagged_statements[stindex].name, n,
n > 0 ? &bind_array.values_[0] : NULL,
n > 0 ? &bind_array.lengths_[0] : NULL,
n > 0 ? &bind_array.formats_[0] : NULL, 0));
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
int rows = PQntuples(r);
if (single && rows > 1) {
isc_throw(MultipleRecords, "multiple records were found in the "
"database where only one was expected for query "
<< tagged_statements[stindex].name);
}
for(int i = 0; i < rows; ++i) {
result.push_back(exchange->convertFromDatabase(r, i));
}
}
void
PgSqlLeaseMgr::getLease(PgSqlLeaseContextPtr& ctx,
StatementIndex stindex, PsqlBindArray& bind_array,
Lease4Ptr& result) const {
// Create appropriate collection object and get all leases matching
// the selection criteria. The "single" parameter is true to indicate
// that the called method should throw an exception if multiple
// matching records are found: this particular method is called when only
// one or zero matches is expected.
Lease4Collection collection;
getLeaseCollection(ctx, stindex, bind_array, ctx->exchange4_,
collection, true);
// Return single record if present, else clear the lease.
if (collection.empty()) {
result.reset();
} else {
result = *collection.begin();
}
}
void
PgSqlLeaseMgr::getLease(PgSqlLeaseContextPtr& ctx,
StatementIndex stindex, PsqlBindArray& bind_array,
Lease6Ptr& result) const {
// Create appropriate collection object and get all leases matching
// the selection criteria. The "single" parameter is true to indicate
// that the called method should throw an exception if multiple
// matching records are found: this particular method is called when only
// one or zero matches is expected.
Lease6Collection collection;
getLeaseCollection(ctx, stindex, bind_array, ctx->exchange6_,
collection, true);
// Return single record if present, else clear the lease.
if (collection.empty()) {
result.reset();
} else {
result = *collection.begin();
}
}
Lease4Ptr
PgSqlLeaseMgr::getLease4(const IOAddress& addr) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_ADDR4)
.arg(addr.toText());
// Set up the WHERE clause value
PsqlBindArray bind_array;
// LEASE ADDRESS
std::string addr_str = boost::lexical_cast<std::string>(addr.toUint32());
bind_array.add(addr_str);
// Get the data
Lease4Ptr result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLease(ctx, GET_LEASE4_ADDR, bind_array, result);
return (result);
}
Lease4Collection
PgSqlLeaseMgr::getLease4(const HWAddr& hwaddr) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_HWADDR)
.arg(hwaddr.toText());
// Set up the WHERE clause value
PsqlBindArray bind_array;
// HWADDR
if (!hwaddr.hwaddr_.empty()) {
bind_array.add(hwaddr.hwaddr_);
} else {
bind_array.add("");
}
// Get the data
Lease4Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE4_HWADDR, bind_array, result);
return (result);
}
Lease4Ptr
PgSqlLeaseMgr::getLease4(const HWAddr& hwaddr, SubnetID subnet_id) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_SUBID_HWADDR)
.arg(subnet_id)
.arg(hwaddr.toText());
// Set up the WHERE clause value
PsqlBindArray bind_array;
// HWADDR
if (!hwaddr.hwaddr_.empty()) {
bind_array.add(hwaddr.hwaddr_);
} else {
bind_array.add("");
}
// SUBNET_ID
std::string subnet_id_str = boost::lexical_cast<std::string>(subnet_id);
bind_array.add(subnet_id_str);
// Get the data
Lease4Ptr result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLease(ctx, GET_LEASE4_HWADDR_SUBID, bind_array, result);
return (result);
}
Lease4Collection
PgSqlLeaseMgr::getLease4(const ClientId& clientid) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_CLIENTID)
.arg(clientid.toText());
// Set up the WHERE clause value
PsqlBindArray bind_array;
// CLIENT_ID
bind_array.add(clientid.getClientId());
// Get the data
Lease4Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE4_CLIENTID, bind_array, result);
return (result);
}
Lease4Ptr
PgSqlLeaseMgr::getLease4(const ClientId& clientid, SubnetID subnet_id) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_SUBID_CLIENTID)
.arg(subnet_id)
.arg(clientid.toText());
// Set up the WHERE clause value
PsqlBindArray bind_array;
// CLIENT_ID
bind_array.add(clientid.getClientId());
// SUBNET_ID
std::string subnet_id_str = boost::lexical_cast<std::string>(subnet_id);
bind_array.add(subnet_id_str);
// Get the data
Lease4Ptr result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLease(ctx, GET_LEASE4_CLIENTID_SUBID, bind_array, result);
return (result);
}
Lease4Collection
PgSqlLeaseMgr::getLeases4(SubnetID subnet_id) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_SUBID4)
.arg(subnet_id);
// Set up the WHERE clause value
PsqlBindArray bind_array;
// SUBNET_ID
std::string subnet_id_str = boost::lexical_cast<std::string>(subnet_id);
bind_array.add(subnet_id_str);
// ... and get the data
Lease4Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE4_SUBID, bind_array, result);
return (result);
}
Lease4Collection
PgSqlLeaseMgr::getLeases4(const std::string& hostname) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_HOSTNAME4)
.arg(hostname);
// Set up the WHERE clause value
PsqlBindArray bind_array;
// Hostname
bind_array.add(hostname);
// ... and get the data
Lease4Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE4_HOSTNAME, bind_array, result);
return (result);
}
Lease4Collection
PgSqlLeaseMgr::getLeases4() const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET4);
// Provide empty binding array because our query has no parameters in
// WHERE clause.
PsqlBindArray bind_array;
Lease4Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE4, bind_array, result);
return (result);
}
Lease4Collection
PgSqlLeaseMgr::getLeases4(const IOAddress& lower_bound_address,
const LeasePageSize& page_size) const {
// Expecting IPv4 address.
if (!lower_bound_address.isV4()) {
isc_throw(InvalidAddressFamily, "expected IPv4 address while "
"retrieving leases from the lease database, got "
<< lower_bound_address);
}
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_PAGE4)
.arg(page_size.page_size_)
.arg(lower_bound_address.toText());
// Prepare WHERE clause
PsqlBindArray bind_array;
// Bind lower bound address
std::string lb_address_data = boost::lexical_cast<std::string>(lower_bound_address.toUint32());
bind_array.add(lb_address_data);
// Bind page size value
std::string page_size_data = boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
// Get the leases
Lease4Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE4_PAGE, bind_array, result);
return (result);
}
Lease6Ptr
PgSqlLeaseMgr::getLease6(Lease::Type lease_type,
const IOAddress& addr) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_ADDR6)
.arg(addr.toText())
.arg(lease_type);
// Set up the WHERE clause value
PsqlBindArray bind_array;
// LEASE ADDRESS
std::string addr_str = addr.toText();
bind_array.add(addr_str);
// LEASE_TYPE
std::string type_str_ = boost::lexical_cast<std::string>(lease_type);
bind_array.add(type_str_);
// ... and get the data
Lease6Ptr result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLease(ctx, GET_LEASE6_ADDR, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6(Lease::Type lease_type, const DUID& duid,
uint32_t iaid) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_IAID_DUID)
.arg(iaid)
.arg(duid.toText())
.arg(lease_type);
// Set up the WHERE clause value
PsqlBindArray bind_array;
// DUID
bind_array.add(duid.getDuid());
// IAID
std::string iaid_str = PgSqlLease6Exchange::Uiaid(iaid).dbInputString();
bind_array.add(iaid_str);
// LEASE_TYPE
std::string lease_type_str = boost::lexical_cast<std::string>(lease_type);
bind_array.add(lease_type_str);
// ... and get the data
Lease6Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE6_DUID_IAID, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6(Lease::Type lease_type, const DUID& duid,
uint32_t iaid, SubnetID subnet_id) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_IAID_SUBID_DUID)
.arg(iaid)
.arg(subnet_id)
.arg(duid.toText())
.arg(lease_type);
// Set up the WHERE clause value
PsqlBindArray bind_array;
// LEASE_TYPE
std::string lease_type_str = boost::lexical_cast<std::string>(lease_type);
bind_array.add(lease_type_str);
// DUID
bind_array.add(duid.getDuid());
// IAID
std::string iaid_str = PgSqlLease6Exchange::Uiaid(iaid).dbInputString();
bind_array.add(iaid_str);
// SUBNET ID
std::string subnet_id_str = boost::lexical_cast<std::string>(subnet_id);
bind_array.add(subnet_id_str);
// ... and get the data
Lease6Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE6_DUID_IAID_SUBID, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6(SubnetID subnet_id) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_SUBID6)
.arg(subnet_id);
// Set up the WHERE clause value
PsqlBindArray bind_array;
// SUBNET_ID
std::string subnet_id_str = boost::lexical_cast<std::string>(subnet_id);
bind_array.add(subnet_id_str);
// ... and get the data
Lease6Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE6_SUBID, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6(SubnetID subnet_id,
const IOAddress& lower_bound_address,
const LeasePageSize& page_size) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_GET_SUBID_PAGE6)
.arg(page_size.page_size_)
.arg(lower_bound_address.toText())
.arg(subnet_id);
// Expecting IPv6 valid address.
if (!lower_bound_address.isV6()) {
isc_throw(InvalidAddressFamily, "expected IPv6 start address while "
"retrieving leases from the lease database, got "
<< lower_bound_address);
}
Lease6Collection result;
// Prepare WHERE clause
PsqlBindArray bind_array;
// Bind subnet id.
std::string subnet_id_str = boost::lexical_cast<std::string>(subnet_id);
bind_array.add(subnet_id_str);
// Bind lower bound address
std::string lb_address_str = lower_bound_address.toText();
bind_array.add(lb_address_str);
// Bind page size value
std::string page_size_data =
boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Get the leases
getLeaseCollection(ctx, GET_LEASE6_SUBID_PAGE, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6(const DUID& duid) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_DUID)
.arg(duid.toText());
// Set up the WHERE clause value
PsqlBindArray bind_array;
// DUID
bind_array.add(duid.getDuid());
Lease6Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// query to fetch the data
getLeaseCollection(ctx, GET_LEASE6_DUID, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6(const std::string& hostname) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_HOSTNAME6)
.arg(hostname);
// Set up the WHERE clause value
PsqlBindArray bind_array;
// Hostname
bind_array.add(hostname);
// ... and get the data
Lease6Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE6_HOSTNAME, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6() const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET6);
// Provide empty binding array because our query has no parameters in
// WHERE clause.
PsqlBindArray bind_array;
Lease6Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE6, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6(const IOAddress& lower_bound_address,
const LeasePageSize& page_size) const {
// Expecting IPv6 address.
if (!lower_bound_address.isV6()) {
isc_throw(InvalidAddressFamily, "expected IPv6 address while "
"retrieving leases from the lease database, got "
<< lower_bound_address);
}
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_PAGE6)
.arg(page_size.page_size_)
.arg(lower_bound_address.toText());
// Prepare WHERE clause
PsqlBindArray bind_array;
// Bind lower bound address
std::string lb_address_data = lower_bound_address.toText();
bind_array.add(lb_address_data);
// Bind page size value
std::string page_size_data =
boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
// Get the leases
Lease6Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE6_PAGE, bind_array, result);
return (result);
}
void
PgSqlLeaseMgr::getExpiredLeases4(Lease4Collection& expired_leases,
const size_t max_leases) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_EXPIRED4)
.arg(max_leases);
getExpiredLeasesCommon(expired_leases, max_leases, GET_LEASE4_EXPIRE);
}
void
PgSqlLeaseMgr::getExpiredLeases6(Lease6Collection& expired_leases,
const size_t max_leases) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_EXPIRED6)
.arg(max_leases);
getExpiredLeasesCommon(expired_leases, max_leases, GET_LEASE6_EXPIRE);
}
template<typename LeaseCollection>
void
PgSqlLeaseMgr::getExpiredLeasesCommon(LeaseCollection& expired_leases,
const size_t max_leases,
StatementIndex statement_index) const {
PsqlBindArray bind_array;
// Exclude reclaimed leases.
std::string state_str = boost::lexical_cast<std::string>(Lease::STATE_EXPIRED_RECLAIMED);
bind_array.add(state_str);
// Expiration timestamp.
std::string timestamp_str = PgSqlLeaseExchange::convertToDatabaseTime(time(0));
bind_array.add(timestamp_str);
// If the number of leases is 0, we will return all leases. This is
// achieved by setting the limit to a very high value.
uint32_t limit = max_leases > 0 ? static_cast<uint32_t>(max_leases) :
std::numeric_limits<uint32_t>::max();
std::string limit_str = boost::lexical_cast<std::string>(limit);
bind_array.add(limit_str);
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Retrieve leases from the database.
getLeaseCollection(ctx, statement_index, bind_array, expired_leases);
}
template<typename LeasePtr>
void
PgSqlLeaseMgr::updateLeaseCommon(PgSqlLeaseContextPtr& ctx,
StatementIndex stindex,
PsqlBindArray& bind_array,
const LeasePtr& lease) {
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
int affected_rows = boost::lexical_cast<int>(PQcmdTuples(r));
// Check success case first as it is the most likely outcome.
if (affected_rows == 1) {
return;
}
// If no rows affected, lease doesn't exist.
if (affected_rows == 0) {
isc_throw(NoSuchLease, "unable to update lease for address " <<
lease->addr_.toText() << " as it does not exist");
}
// Should not happen - primary key constraint should only have selected
// one row.
isc_throw(DbOperationError, "apparently updated more than one lease "
"that had the address " << lease->addr_.toText());
}
void
PgSqlLeaseMgr::updateLease4(const Lease4Ptr& lease) {
const StatementIndex stindex = UPDATE_LEASE4;
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_UPDATE_ADDR4)
.arg(lease->addr_.toText());
// Get a context
PgSqlLeaseTrackingContextAlloc get_context(*this, lease);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Create the BIND array for the data being updated
PsqlBindArray bind_array;
ctx->exchange4_->createBindForSend(lease, bind_array);
// Set up the WHERE clause and append it to the SQL_BIND array
std::string addr4_str = boost::lexical_cast<std::string>(lease->addr_.toUint32());
bind_array.add(addr4_str);
std::string expire_str;
// Avoid overflow (see createBindForSend)
if (lease->current_valid_lft_ == Lease::INFINITY_LFT) {
expire_str = PgSqlLeaseExchange::convertToDatabaseTime(lease->current_cltt_, 0);
} else {
expire_str = PgSqlLeaseExchange::convertToDatabaseTime(lease->current_cltt_,
lease->current_valid_lft_);
}
bind_array.add(expire_str);
// Drop to common update code
updateLeaseCommon(ctx, stindex, bind_array, lease);
// Update lease current expiration time.
lease->updateCurrentExpirationTime();
// Run installed callbacks.
if (hasCallbacks()) {
trackUpdateLease(lease);
}
}
void
PgSqlLeaseMgr::updateLease6(const Lease6Ptr& lease) {
const StatementIndex stindex = UPDATE_LEASE6;
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_UPDATE_ADDR6)
.arg(lease->addr_.toText())
.arg(lease->type_);
// Get the recorded action and reset it.
Lease6::ExtendedInfoAction recorded_action = lease->extended_info_action_;
lease->extended_info_action_ = Lease6::ACTION_IGNORE;
// Get a context
PgSqlLeaseTrackingContextAlloc get_context(*this, lease);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Create the BIND array for the data being updated
PsqlBindArray bind_array;
ctx->exchange6_->createBindForSend(lease, bind_array);
// Set up the WHERE clause and append it to the BIND array
std::string addr_str = lease->addr_.toText();
bind_array.add(addr_str);
std::string expire_str;
// Avoid overflow (see createBindForSend)
if (lease->current_valid_lft_ == Lease::INFINITY_LFT) {
expire_str = PgSqlLeaseExchange::convertToDatabaseTime(lease->current_cltt_, 0);
} else {
expire_str = PgSqlLeaseExchange::convertToDatabaseTime(lease->current_cltt_,
lease->current_valid_lft_);
}
bind_array.add(expire_str);
// Drop to common update code
updateLeaseCommon(ctx, stindex, bind_array, lease);
// Update lease current expiration time.
lease->updateCurrentExpirationTime();
// Update extended info tables.
if (getExtendedInfoTablesEnabled()) {
switch (recorded_action) {
case Lease6::ACTION_IGNORE:
break;
case Lease6::ACTION_DELETE:
deleteExtendedInfo6(lease->addr_);
break;
case Lease6::ACTION_UPDATE:
deleteExtendedInfo6(lease->addr_);
static_cast<void>(addExtendedInfo6(lease));
break;
}
}
// Run installed callbacks.
if (hasCallbacks()) {
trackUpdateLease(lease);
}
}
uint64_t
PgSqlLeaseMgr::deleteLeaseCommon(PgSqlLeaseContextPtr& ctx,
StatementIndex stindex,
PsqlBindArray& bind_array) {
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
int affected_rows = boost::lexical_cast<int>(PQcmdTuples(r));
return (affected_rows);
}
bool
PgSqlLeaseMgr::deleteLease(const Lease4Ptr& lease) {
const IOAddress& addr = lease->addr_;
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_DELETE_ADDR4)
.arg(addr.toText());
// Set up the WHERE clause value
PsqlBindArray bind_array;
std::string addr4_str = boost::lexical_cast<std::string>(addr.toUint32());
bind_array.add(addr4_str);
std::string expire_str;
// Avoid overflow (see createBindForSend)
if (lease->current_valid_lft_ == Lease::INFINITY_LFT) {
expire_str = PgSqlLeaseExchange::convertToDatabaseTime(lease->current_cltt_, 0);
} else {
expire_str = PgSqlLeaseExchange::convertToDatabaseTime(lease->current_cltt_,
lease->current_valid_lft_);
}
bind_array.add(expire_str);
// Get a context
PgSqlLeaseTrackingContextAlloc get_context(*this, lease);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
auto affected_rows = deleteLeaseCommon(ctx, DELETE_LEASE4, bind_array);
// Check success case first as it is the most likely outcome.
if (affected_rows == 1) {
if (hasCallbacks()) {
trackDeleteLease(lease);
}
return (true);
}
// If no rows affected, lease doesn't exist.
if (affected_rows == 0) {
return (false);
}
// Should not happen - primary key constraint should only have selected
// one row.
isc_throw(DbOperationError, "apparently deleted more than one lease "
"that had the address " << lease->addr_.toText());
}
bool
PgSqlLeaseMgr::deleteLease(const Lease6Ptr& lease) {
const IOAddress& addr = lease->addr_;
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_DELETE_ADDR6)
.arg(addr.toText());
lease->extended_info_action_ = Lease6::ACTION_IGNORE;
// Set up the WHERE clause value
PsqlBindArray bind_array;
std::string addr6_str = addr.toText();
bind_array.add(addr6_str);
std::string expire_str;
// Avoid overflow (see createBindForSend)
if (lease->current_valid_lft_ == Lease::INFINITY_LFT) {
expire_str = PgSqlLeaseExchange::convertToDatabaseTime(lease->current_cltt_, 0);
} else {
expire_str = PgSqlLeaseExchange::convertToDatabaseTime(lease->current_cltt_,
lease->current_valid_lft_);
}
bind_array.add(expire_str);
// Get a context
PgSqlLeaseTrackingContextAlloc get_context(*this, lease);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
auto affected_rows = deleteLeaseCommon(ctx, DELETE_LEASE6, bind_array);
// Check success case first as it is the most likely outcome.
if (affected_rows == 1) {
// Delete references from extended info tables.
// Performed by the delete cascade.
// Run installed callbacks.
if (hasCallbacks()) {
trackDeleteLease(lease);
}
return (true);
}
// If no rows affected, lease doesn't exist.
if (affected_rows == 0) {
return (false);
}
// Should not happen - primary key constraint should only have selected
// one row.
isc_throw(DbOperationError, "apparently deleted more than one lease "
"that had the address " << lease->addr_.toText());
}
uint64_t
PgSqlLeaseMgr::deleteExpiredReclaimedLeases4(const uint32_t secs) {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_DELETE_EXPIRED_RECLAIMED4)
.arg(secs);
return (deleteExpiredReclaimedLeasesCommon(secs, DELETE_LEASE4_STATE_EXPIRED));
}
uint64_t
PgSqlLeaseMgr::deleteExpiredReclaimedLeases6(const uint32_t secs) {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_DELETE_EXPIRED_RECLAIMED6)
.arg(secs);
return (deleteExpiredReclaimedLeasesCommon(secs, DELETE_LEASE6_STATE_EXPIRED));
}
uint64_t
PgSqlLeaseMgr::deleteExpiredReclaimedLeasesCommon(const uint32_t secs,
StatementIndex statement_index) {
PsqlBindArray bind_array;
// State is reclaimed.
std::string state_str = boost::lexical_cast<std::string>(Lease::STATE_EXPIRED_RECLAIMED);
bind_array.add(state_str);
// Expiration timestamp.
std::string expiration_str = PgSqlLeaseExchange::convertToDatabaseTime(time(0) -
static_cast<time_t>(secs));
bind_array.add(expiration_str);
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Delete leases.
return (deleteLeaseCommon(ctx, statement_index, bind_array));
}
string
PgSqlLeaseMgr::checkLimits(ConstElementPtr const& user_context, StatementIndex const stindex) const {
// No user context means no limits means allocation allowed means empty string.
if (!user_context) {
return string();
}
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx(get_context.ctx_);
// Create bindings.
PsqlBindArray bind_array;
std::string const user_context_str(user_context->str());
bind_array.add(user_context_str);
// Execute the select.
PgSqlResult r(PQexecPrepared(ctx->conn_,
tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
std::string limits;
PgSqlExchange::getColumnValue(r, 0, 0, limits);
return limits;
}
string
PgSqlLeaseMgr::checkLimits4(ConstElementPtr const& user_context) const {
return checkLimits(user_context, CHECK_LEASE4_LIMITS);
}
string
PgSqlLeaseMgr::checkLimits6(ConstElementPtr const& user_context) const {
return checkLimits(user_context, CHECK_LEASE6_LIMITS);
}
bool
PgSqlLeaseMgr::isJsonSupported() const {
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx(get_context.ctx_);
// Execute the select.
StatementIndex const stindex(IS_JSON_SUPPORTED);
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
0, 0, 0, 0, 0));
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
bool json_supported;
PgSqlExchange::getColumnValue(r, 0, 0, json_supported);
return json_supported;
}
size_t
PgSqlLeaseMgr::getClassLeaseCount(const ClientClass& client_class,
const Lease::Type& ltype /* = Lease::TYPE_V4*/) const {
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx(get_context.ctx_);
// Create bindings.
PsqlBindArray bind_array;
bind_array.add(client_class);
if (ltype != Lease::TYPE_V4) {
bind_array.add(ltype);
}
// Execute the select.
StatementIndex const stindex(ltype == Lease::TYPE_V4 ? GET_LEASE4_COUNT_BY_CLASS :
GET_LEASE6_COUNT_BY_CLASS);
PgSqlResult r(PQexecPrepared(ctx->conn_,
tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
int rows = PQntuples(r);
if (rows == 0) {
// No entries means 0 leases.
return 0;
}
size_t count;
PgSqlExchange::getColumnValue(r, 0, 0, count);
return count;
}
void
PgSqlLeaseMgr::recountClassLeases4() {
isc_throw(NotImplemented, "PgSqlLeaseMgr::recountClassLeases4() not implemented");
}
void
PgSqlLeaseMgr::recountClassLeases6() {
isc_throw(NotImplemented, "PgSqlLeaseMgr::recountClassLeases6() not implemented");
}
void
PgSqlLeaseMgr::clearClassLeaseCounts() {
isc_throw(NotImplemented, "PgSqlLeaseMgr::clearClassLeaseCounts() not implemented");
}
void
PgSqlLeaseMgr::writeLeases4(const std::string&) {
isc_throw(NotImplemented, "PgSqlLeaseMgr::writeLeases4() not implemented");
}
void
PgSqlLeaseMgr::writeLeases6(const std::string&) {
isc_throw(NotImplemented, "PgSqlLeaseMgr::writeLeases6() not implemented");
}
LeaseStatsQueryPtr
PgSqlLeaseMgr::startLeaseStatsQuery4() {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
LeaseStatsQueryPtr query(new PgSqlLeaseStatsQuery(ctx->conn_,
tagged_statements[ALL_LEASE4_STATS],
false));
query->start();
return(query);
}
LeaseStatsQueryPtr
PgSqlLeaseMgr::startPoolLeaseStatsQuery4() {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
LeaseStatsQueryPtr query(new PgSqlLeaseStatsQuery(ctx->conn_,
tagged_statements[ALL_POOL_LEASE4_STATS],
false, true));
query->start();
return(query);
}
LeaseStatsQueryPtr
PgSqlLeaseMgr::startSubnetLeaseStatsQuery4(const SubnetID& subnet_id) {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
LeaseStatsQueryPtr query(new PgSqlLeaseStatsQuery(ctx->conn_,
tagged_statements[SUBNET_LEASE4_STATS],
false,
subnet_id));
query->start();
return(query);
}
LeaseStatsQueryPtr
PgSqlLeaseMgr::startSubnetRangeLeaseStatsQuery4(const SubnetID& first_subnet_id,
const SubnetID& last_subnet_id) {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
LeaseStatsQueryPtr query(new PgSqlLeaseStatsQuery(ctx->conn_,
tagged_statements[SUBNET_RANGE_LEASE4_STATS],
false,
first_subnet_id,
last_subnet_id));
query->start();
return(query);
}
LeaseStatsQueryPtr
PgSqlLeaseMgr::startLeaseStatsQuery6() {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
LeaseStatsQueryPtr query(new PgSqlLeaseStatsQuery(ctx->conn_,
tagged_statements[ALL_LEASE6_STATS],
true));
query->start();
return(query);
}
LeaseStatsQueryPtr
PgSqlLeaseMgr::startPoolLeaseStatsQuery6() {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
LeaseStatsQueryPtr query(new PgSqlLeaseStatsQuery(ctx->conn_,
tagged_statements[ALL_POOL_LEASE6_STATS],
true, true));
query->start();
return(query);
}
LeaseStatsQueryPtr
PgSqlLeaseMgr::startSubnetLeaseStatsQuery6(const SubnetID& subnet_id) {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
LeaseStatsQueryPtr query(new PgSqlLeaseStatsQuery(ctx->conn_,
tagged_statements[SUBNET_LEASE6_STATS],
true,
subnet_id));
query->start();
return(query);
}
LeaseStatsQueryPtr
PgSqlLeaseMgr::startSubnetRangeLeaseStatsQuery6(const SubnetID& first_subnet_id,
const SubnetID& last_subnet_id) {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
LeaseStatsQueryPtr query(new PgSqlLeaseStatsQuery(ctx->conn_,
tagged_statements[SUBNET_RANGE_LEASE6_STATS],
true,
first_subnet_id,
last_subnet_id));
query->start();
return(query);
}
size_t
PgSqlLeaseMgr::wipeLeases4(const SubnetID& /*subnet_id*/) {
isc_throw(NotImplemented, "wipeLeases4 is not implemented for PostgreSQL backend");
}
size_t
PgSqlLeaseMgr::wipeLeases6(const SubnetID& /*subnet_id*/) {
isc_throw(NotImplemented, "wipeLeases6 is not implemented for PostgreSQL backend");
}
std::string
PgSqlLeaseMgr::getName() const {
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
std::string name = "";
try {
name = ctx->conn_.getParameter("name");
} catch (...) {
// Return an empty name
}
return (name);
}
std::string
PgSqlLeaseMgr::getDescription() const {
return (std::string("PostgreSQL Database"));
}
std::pair<uint32_t, uint32_t>
PgSqlLeaseMgr::getVersion(const string& timer_name) const {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_GET_VERSION);
IOServiceAccessorPtr ac(new IOServiceAccessor(&DatabaseConnection::getIOService));
DbCallback cb(&PgSqlLeaseMgr::dbReconnect);
return (PgSqlConnection::getVersion(parameters_, ac, cb, timer_name));
}
void
PgSqlLeaseMgr::commit() {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_COMMIT);
}
void
PgSqlLeaseMgr::rollback() {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL, PGSQL_LB_ROLLBACK);
}
void
PgSqlLeaseMgr::deleteExtendedInfo6(const IOAddress& addr) {
deleteRelayId6(addr);
deleteRemoteId6(addr);
}
void
PgSqlLeaseMgr::deleteRelayId6(const IOAddress& addr) {
// Set up the WHERE clause value.
PsqlBindArray bind_array;
std::string addr_data = addr.toText();
bind_array.add(addr_data);
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Delete from lease6_relay_id table.
StatementIndex stindex = DELETE_RELAY_ID6;
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
int s = PQresultStatus(r);
if (s != PGRES_COMMAND_OK) {
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
}
}
void
PgSqlLeaseMgr::deleteRemoteId6(const IOAddress& addr) {
// Set up the WHERE clause value.
PsqlBindArray bind_array;
std::string addr_data = addr.toText();
bind_array.add(addr_data);
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Delete from lease6_remote_id table.
StatementIndex stindex = DELETE_REMOTE_ID6;
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
int s = PQresultStatus(r);
if (s != PGRES_COMMAND_OK) {
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
}
}
void
PgSqlLeaseMgr::addRelayId6(const IOAddress& lease_addr,
const vector<uint8_t>& relay_id) {
// Set up the WHERE clause value.
PsqlBindArray bind_array;
// Bind the relay id.
if (relay_id.empty()) {
isc_throw(BadValue, "empty relay id");
}
bind_array.add(relay_id);
// Bind the lease address.
std::string lease_addr_data = lease_addr.toText();
bind_array.add(lease_addr_data);
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Add to lease6_remote_id table.
StatementIndex stindex = ADD_RELAY_ID6;
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
int s = PQresultStatus(r);
if (s != PGRES_COMMAND_OK) {
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
}
}
void
PgSqlLeaseMgr::addRemoteId6(const IOAddress& lease_addr,
const vector<uint8_t>& remote_id) {
// Set up the WHERE clause value.
PsqlBindArray bind_array;
// Bind the remote id.
if (remote_id.empty()) {
isc_throw(BadValue, "empty remote id");
}
bind_array.add(remote_id);
// Bind the lease address.
std::string lease_addr_data = lease_addr.toText();
bind_array.add(lease_addr_data);
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
// Add to lease6_remote_id table.
StatementIndex stindex = ADD_REMOTE_ID6;
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
tagged_statements[stindex].nbparams,
&bind_array.values_[0],
&bind_array.lengths_[0],
&bind_array.formats_[0], 0));
int s = PQresultStatus(r);
if (s != PGRES_COMMAND_OK) {
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
}
}
namespace {
std::string
idToText(const OptionBuffer& id) {
std::stringstream tmp;
tmp << std::hex;
bool delim = false;
for (auto const& it : id) {
if (delim) {
tmp << ":";
}
tmp << std::setw(2) << std::setfill('0')
<< static_cast<unsigned int>(it);
delim = true;
}
return (tmp.str());
}
} // anonymous namespace
Lease4Collection
PgSqlLeaseMgr::getLeases4ByRelayId(const OptionBuffer& relay_id,
const IOAddress& lower_bound_address,
const LeasePageSize& page_size,
const time_t& qry_start_time /* = 0 */,
const time_t& qry_end_time /* = 0 */) {
// Expecting IPv4 address.
if (!lower_bound_address.isV4()) {
isc_throw(InvalidAddressFamily, "expected IPv4 address while "
"retrieving leases from the lease database, got "
<< lower_bound_address);
}
// Catch 2038 bug with 32 bit time_t.
if ((qry_start_time < 0) || (qry_end_time < 0)) {
isc_throw(BadValue, "negative time value");
}
bool have_qst = (qry_start_time > 0);
bool have_qet = (qry_end_time > 0);
// Start time must be before end time.
if (have_qst && have_qet && (qry_start_time > qry_end_time)) {
isc_throw(BadValue, "start time must be before end time");
}
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_GET_RELAYID4)
.arg(page_size.page_size_)
.arg(lower_bound_address.toText())
.arg(idToText(relay_id))
.arg(qry_start_time)
.arg(qry_end_time);
// Prepare WHERE clause
PsqlBindArray bind_array;
// Bind relay id
if (!relay_id.empty()) {
bind_array.add(relay_id);
} else {
bind_array.add("");
}
// Bind lower bound address
std::string lb_address_data =
boost::lexical_cast<std::string>(lower_bound_address.toUint32());
bind_array.add(lb_address_data);
// Bind query start time.
std::string start_time_str;<--- The scope of the variable 'start_time_str' can be reduced. [+]The scope of the variable 'start_time_str' can be reduced. Warning: Be careful when fixing this message, especially when there are inner loops. Here is an example where cppcheck will write that the scope for 'i' can be reduced:
void f(int x)
{
int i = 0;
if (x) {
// it's safe to move 'int i = 0;' here
for (int n = 0; n < 10; ++n) {
// it is possible but not safe to move 'int i = 0;' here
do_something(&i);
}
}
}
When you see this message it is always safe to reduce the variable scope 1 level.
if (have_qst) {
start_time_str = boost::lexical_cast<std::string>(qry_start_time);
bind_array.add(start_time_str);
}
// Bind query end time.
std::string end_time_str;<--- The scope of the variable 'end_time_str' can be reduced. [+]The scope of the variable 'end_time_str' can be reduced. Warning: Be careful when fixing this message, especially when there are inner loops. Here is an example where cppcheck will write that the scope for 'i' can be reduced:
void f(int x)
{
int i = 0;
if (x) {
// it's safe to move 'int i = 0;' here
for (int n = 0; n < 10; ++n) {
// it is possible but not safe to move 'int i = 0;' here
do_something(&i);
}
}
}
When you see this message it is always safe to reduce the variable scope 1 level.
if (have_qet) {
end_time_str = boost::lexical_cast<std::string>(qry_end_time);
bind_array.add(end_time_str);
}
// Bind page size value
std::string page_size_data =
boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
StatementIndex stindex = GET_LEASE4_RELAYID;
if (have_qst && !have_qet) {
stindex = GET_LEASE4_RELAYID_QST;
} else if (have_qst && have_qet) {
stindex = GET_LEASE4_RELAYID_QSET;
} else if (!have_qst && have_qet) {
stindex = GET_LEASE4_RELAYID_QET;
}
// Get the leases
Lease4Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, stindex, bind_array, result);
return (result);
}
Lease4Collection
PgSqlLeaseMgr::getLeases4ByRemoteId(const OptionBuffer& remote_id,
const IOAddress& lower_bound_address,
const LeasePageSize& page_size,
const time_t& qry_start_time /* = 0 */,
const time_t& qry_end_time /* = 0 */) {
// Expecting IPv4 address.
if (!lower_bound_address.isV4()) {
isc_throw(InvalidAddressFamily, "expected IPv4 address while "
"retrieving leases from the lease database, got "
<< lower_bound_address);
}
// Catch 2038 bug with 32 bit time_t.
if ((qry_start_time < 0) || (qry_end_time < 0)) {
isc_throw(BadValue, "negative time value");
}
bool have_qst = (qry_start_time > 0);
bool have_qet = (qry_end_time > 0);
// Start time must be before end time.
if (have_qst && have_qet && (qry_start_time > qry_end_time)) {
isc_throw(BadValue, "start time must be before end time");
}
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_GET_REMOTEID4)
.arg(page_size.page_size_)
.arg(lower_bound_address.toText())
.arg(idToText(remote_id))
.arg(qry_start_time)
.arg(qry_end_time);
// Prepare WHERE clause
PsqlBindArray bind_array;
// Bind remote id
if (!remote_id.empty()) {
bind_array.add(remote_id);
} else {
bind_array.add("");
}
// Bind lower bound address
std::string lb_address_data =
boost::lexical_cast<std::string>(lower_bound_address.toUint32());
bind_array.add(lb_address_data);
// Bind query start time.
std::string start_time_str;<--- The scope of the variable 'start_time_str' can be reduced. [+]The scope of the variable 'start_time_str' can be reduced. Warning: Be careful when fixing this message, especially when there are inner loops. Here is an example where cppcheck will write that the scope for 'i' can be reduced:
void f(int x)
{
int i = 0;
if (x) {
// it's safe to move 'int i = 0;' here
for (int n = 0; n < 10; ++n) {
// it is possible but not safe to move 'int i = 0;' here
do_something(&i);
}
}
}
When you see this message it is always safe to reduce the variable scope 1 level.
if (have_qst) {
start_time_str = boost::lexical_cast<std::string>(qry_start_time);
bind_array.add(start_time_str);
}
// Bind query end time.
std::string end_time_str;<--- The scope of the variable 'end_time_str' can be reduced. [+]The scope of the variable 'end_time_str' can be reduced. Warning: Be careful when fixing this message, especially when there are inner loops. Here is an example where cppcheck will write that the scope for 'i' can be reduced:
void f(int x)
{
int i = 0;
if (x) {
// it's safe to move 'int i = 0;' here
for (int n = 0; n < 10; ++n) {
// it is possible but not safe to move 'int i = 0;' here
do_something(&i);
}
}
}
When you see this message it is always safe to reduce the variable scope 1 level.
if (have_qet) {
end_time_str = boost::lexical_cast<std::string>(qry_end_time);
bind_array.add(end_time_str);
}
// Bind page size value
std::string page_size_data =
boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
StatementIndex stindex = GET_LEASE4_REMOTEID;
if (have_qst && !have_qet) {
stindex = GET_LEASE4_REMOTEID_QST;
} else if (have_qst && have_qet) {
stindex = GET_LEASE4_REMOTEID_QSET;
} else if (!have_qst && have_qet) {
stindex = GET_LEASE4_REMOTEID_QET;
}
// Get the leases
Lease4Collection result;
// Get a context
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, stindex, bind_array, result);
return (result);
}
size_t
PgSqlLeaseMgr::upgradeExtendedInfo4(const LeasePageSize& page_size) {
auto check = CfgMgr::instance().getCurrentCfg()->
getConsistency()->getExtendedInfoSanityCheck();
size_t pages = 0;
size_t updated = 0;
IOAddress start_addr = IOAddress::IPV4_ZERO_ADDRESS();
for (;;) {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_UPGRADE_EXTENDED_INFO4_PAGE)
.arg(pages)
.arg(start_addr.toText())
.arg(updated);
// Prepare WHERE clause.
PsqlBindArray bind_array;
// Bind start address.
uint32_t start_addr_data = start_addr.toUint32();
bind_array.add(start_addr_data);
// Bind page size value.
std::string page_size_data =
boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
Lease4Collection leases;
// Get a context.
{
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE4_UCTX_PAGE, bind_array, leases);
}
if (leases.empty()) {
// Done.
break;
}
++pages;
start_addr = leases.back()->addr_;
for (auto const& lease : leases) {
ConstElementPtr previous_user_context = lease->getContext();
vector<uint8_t> previous_relay_id = lease->relay_id_;
vector<uint8_t> previous_remote_id = lease->remote_id_;
if (!previous_user_context &&
previous_relay_id.empty() &&
previous_remote_id.empty()) {
continue;
}
bool modified = upgradeLease4ExtendedInfo(lease, check);
try {
lease->relay_id_.clear();
lease->remote_id_.clear();
extractLease4ExtendedInfo(lease, false);
if (modified ||
(previous_relay_id != lease->relay_id_) ||
(previous_remote_id != lease->remote_id_)) {
updateLease4(lease);
++updated;
}
} catch (const NoSuchLease&) {
// The lease was modified in parallel:
// as its extended info was processed just ignore.
continue;
} catch (const std::exception& ex) {
// Something when wrong, for instance extract failed.
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE,
PGSQL_LB_UPGRADE_EXTENDED_INFO4_ERROR)
.arg(lease->addr_.toText())
.arg(ex.what());
}
}
}
LOG_INFO(pgsql_lb_logger, PGSQL_LB_UPGRADE_EXTENDED_INFO4)
.arg(pages)
.arg(updated);
return (updated);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6ByRelayId(const DUID& relay_id,
const IOAddress& lower_bound_address,
const LeasePageSize& page_size) {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_GET_RELAYID6)
.arg(page_size.page_size_)
.arg(lower_bound_address.toText())
.arg(relay_id.toText());
// Expecting IPv6 valid address.
if (!lower_bound_address.isV6()) {
isc_throw(InvalidAddressFamily, "expected IPv6 start address while "
"retrieving leases from the lease database, got "
<< lower_bound_address);
}
std::vector<uint8_t> relay_id_data = relay_id.getDuid();
if (relay_id_data.size() == 0) {
isc_throw(BadValue, "empty relay id");
}
// Set up the WHERE clause value.
PsqlBindArray bind_array;
// Bind the relay id.
bind_array.add(relay_id_data);
// Bind the lower bound address.
std::string lb_addr_data = lower_bound_address.toText();
bind_array.add(lb_addr_data);
// Bind page size value.
std::string page_size_data =
boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
Lease6Collection result;
getLeaseCollection(ctx, GET_RELAY_ID6, bind_array, result);
return (result);
}
Lease6Collection
PgSqlLeaseMgr::getLeases6ByRemoteId(const OptionBuffer& remote_id,
const IOAddress& lower_bound_address,
const LeasePageSize& page_size) {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_GET_REMOTEID6)
.arg(page_size.page_size_)
.arg(lower_bound_address.toText())
.arg(idToText(remote_id));
// Expecting IPv6 valid address.
if (!lower_bound_address.isV6()) {
isc_throw(InvalidAddressFamily, "expected IPv6 start address while "
"retrieving leases from the lease database, got "
<< lower_bound_address);
}
if (remote_id.size() == 0) {
isc_throw(BadValue, "empty remote id");
}
// Set up the WHERE clause value.
PsqlBindArray bind_array;
// Bind the remote id.
bind_array.add(remote_id);
// Bind the lower bound address.
std::string lb_addr_data = lower_bound_address.toText();
bind_array.add(lb_addr_data);
// Bind page size value.
std::string page_size_data =
boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
Lease6Collection result;
getLeaseCollection(ctx, GET_REMOTE_ID6, bind_array, result);
return (result);
}
size_t
PgSqlLeaseMgr::upgradeExtendedInfo6(const LeasePageSize& page_size) {
auto check = CfgMgr::instance().getCurrentCfg()->
getConsistency()->getExtendedInfoSanityCheck();
// First step is to wipe tables if enabled.
if (getExtendedInfoTablesEnabled()) {
wipeExtendedInfoTables6();
}
size_t pages = 0;
size_t updated = 0;
IOAddress start_addr = IOAddress::IPV6_ZERO_ADDRESS();
for (;;) {
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE_DETAIL,
PGSQL_LB_UPGRADE_EXTENDED_INFO6_PAGE)
.arg(pages)
.arg(start_addr.toText())
.arg(updated);
// Prepare WHERE clause.
PsqlBindArray bind_array;
// Bind start address.
std::string start_addr_str = start_addr.toText();
bind_array.add(start_addr_str);
// Bind page size value.
std::string page_size_data =
boost::lexical_cast<std::string>(page_size.page_size_);
bind_array.add(page_size_data);
Lease6Collection leases;
// Get a context.
{
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx = get_context.ctx_;
getLeaseCollection(ctx, GET_LEASE6_UCTX_PAGE, bind_array, leases);
}
if (leases.empty()) {
// Done.
break;
}
++pages;
start_addr = leases.back()->addr_;
for (auto const& lease : leases) {
try {
bool modified = upgradeLease6ExtendedInfo(lease, check);
if (modified) {
updateLease6(lease);
}
bool added = (getExtendedInfoTablesEnabled() &&
addExtendedInfo6(lease));
if (modified || added) {
++updated;
}
} catch (const NoSuchLease&) {
// The lease was modified in parallel:
// as its extended info was processed just ignore.
continue;
} catch (const std::exception& ex) {
// Something when wrong, for instance extract failed.
LOG_DEBUG(pgsql_lb_logger, PGSQL_LB_DBG_TRACE,
PGSQL_LB_UPGRADE_EXTENDED_INFO6_ERROR)
.arg(lease->addr_.toText())
.arg(ex.what());
}
}
}
LOG_INFO(pgsql_lb_logger, PGSQL_LB_UPGRADE_EXTENDED_INFO6)
.arg(pages)
.arg(updated);
return (updated);
}
void
PgSqlLeaseMgr::wipeExtendedInfoTables6() {
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx(get_context.ctx_);
// Execute WIPE_RELAY_ID6.
StatementIndex const stindex1 = WIPE_RELAY_ID6;
PgSqlResult r1(PQexecPrepared(ctx->conn_, tagged_statements[stindex1].name,
0, 0, 0, 0, 0));
ctx->conn_.checkStatementError(r1, tagged_statements[stindex1]);
// Execute WIPE_REMOTE_ID6.
StatementIndex const stindex2 = WIPE_REMOTE_ID6;
PgSqlResult r2(PQexecPrepared(ctx->conn_, tagged_statements[stindex2].name,
0, 0, 0, 0, 0));
ctx->conn_.checkStatementError(r2, tagged_statements[stindex2]);
}
size_t
PgSqlLeaseMgr::byRelayId6size() const {
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx(get_context.ctx_);
// Execute COUNT_RELAY_ID6.
StatementIndex stindex = COUNT_RELAY_ID6;
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
0, 0, 0, 0, 0));
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
uint64_t count;
PgSqlExchange::getColumnValue(r, 0, 0, count);
return (static_cast<size_t>(count));
}
size_t
PgSqlLeaseMgr::byRemoteId6size() const {
// Get a context.
PgSqlLeaseContextAlloc get_context(*this);
PgSqlLeaseContextPtr ctx(get_context.ctx_);
// Execute COUNT_REMOTE_ID6.
StatementIndex stindex = COUNT_REMOTE_ID6;
PgSqlResult r(PQexecPrepared(ctx->conn_, tagged_statements[stindex].name,
0, 0, 0, 0, 0));
ctx->conn_.checkStatementError(r, tagged_statements[stindex]);
uint64_t count;
PgSqlExchange::getColumnValue(r, 0, 0, count);
return (static_cast<size_t>(count));
}
TrackingLeaseMgrPtr
PgSqlLeaseMgr::factory(const isc::db::DatabaseConnection::ParameterMap& parameters) {
LOG_INFO(pgsql_lb_logger, PGSQL_LB_DB)
.arg(isc::db::DatabaseConnection::redactedAccessString(parameters));
return (TrackingLeaseMgrPtr(new PgSqlLeaseMgr(parameters)));
}
} // namespace dhcp
} // namespace isc
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