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// Copyright (C) 2012-2020 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 <database/db_log.h>
#include <exceptions/exceptions.h>
#include <mysql/mysql_connection.h>
#include <boost/lexical_cast.hpp>
#include <algorithm>
#include <stdint.h>
#include <string>
#include <limits>
using namespace isc;
using namespace std;
namespace isc {
namespace db {
bool MySqlHolder::atexit_ = []{atexit([]{mysql_library_end();});return true;};
/// @todo: Migrate this default value to src/bin/dhcpX/simple_parserX.cc
const int MYSQL_DEFAULT_CONNECTION_TIMEOUT = 5; // seconds
MySqlTransaction::MySqlTransaction(MySqlConnection& conn)
: conn_(conn), committed_(false) {
conn_.startTransaction();
}
MySqlTransaction::~MySqlTransaction() {
// Rollback if the MySqlTransaction::commit wasn't explicitly
// called.
if (!committed_) {
conn_.rollback();
}
}
void
MySqlTransaction::commit() {
conn_.commit();
committed_ = true;
}
// Open the database using the parameters passed to the constructor.
void
MySqlConnection::openDatabase() {
// Set up the values of the parameters
const char* host = "localhost";
string shost;
try {
shost = getParameter("host");
host = shost.c_str();
} catch (...) {
// No host. Fine, we'll use "localhost"
}
unsigned int port = 0;
string sport;
try {
sport = getParameter("port");
} catch (...) {
// No port parameter, we are going to use the default port.
sport = "";
}
if (sport.size() > 0) {
// Port was given, so try to convert it to an integer.
try {
port = boost::lexical_cast<unsigned int>(sport);
} catch (...) {
// Port given but could not be converted to an unsigned int.
// Just fall back to the default value.
port = 0;
}
// The port is only valid when it is in the 0..65535 range.
// Again fall back to the default when the given value is invalid.
if (port > numeric_limits<uint16_t>::max()) {
port = 0;
}
}
const char* user = NULL;
string suser;
try {
suser = getParameter("user");
user = suser.c_str();
} catch (...) {
// No user. Fine, we'll use NULL
}
const char* password = NULL;
string spassword;
try {
spassword = getParameter("password");
password = spassword.c_str();
} catch (...) {
// No password. Fine, we'll use NULL
}
const char* name = NULL;
string sname;
try {
sname = getParameter("name");
name = sname.c_str();
} catch (...) {
// No database name. Throw a "NoName" exception
isc_throw(NoDatabaseName, "must specify a name for the database");
}
unsigned int connect_timeout = MYSQL_DEFAULT_CONNECTION_TIMEOUT;
string stimeout;
try {
stimeout = getParameter("connect-timeout");
} catch (...) {
// No timeout parameter, we are going to use the default timeout.
stimeout = "";
}
if (stimeout.size() > 0) {
// Timeout was given, so try to convert it to an integer.
try {
connect_timeout = boost::lexical_cast<unsigned int>(stimeout);
} catch (...) {
// Timeout given but could not be converted to an unsigned int. Set
// the connection timeout to an invalid value to trigger throwing
// of an exception.
connect_timeout = 0;
}
// The timeout is only valid if greater than zero, as depending on the
// database, a zero timeout might signify something like "wait
// indefinitely".
//
// The check below also rejects a value greater than the maximum
// integer value. The lexical_cast operation used to obtain a numeric
// value from a string can get confused if trying to convert a negative
// integer to an unsigned int: instead of throwing an exception, it may
// produce a large positive value.
if ((connect_timeout == 0) ||
(connect_timeout > numeric_limits<int>::max())) {
isc_throw(DbInvalidTimeout, "database connection timeout (" <<
stimeout << ") must be an integer greater than 0");
}
}
// Set options for the connection:
//
// Set options for the connection:
// Make sure auto_reconnect is OFF! Enabling it leaves us with an unusable
// connection after a reconnect as among other things, it drops all our
// pre-compiled statements.
my_bool auto_reconnect = MLM_FALSE;
int result = mysql_options(mysql_, MYSQL_OPT_RECONNECT, &auto_reconnect);
if (result != 0) {
isc_throw(DbOpenError, "unable to set auto-reconnect option: " <<
mysql_error(mysql_));
}
// Make sure we have a large idle time window ... say 30 days...
const char *wait_time = "SET SESSION wait_timeout = 30 * 86400";
result = mysql_options(mysql_, MYSQL_INIT_COMMAND, wait_time);
if (result != 0) {
isc_throw(DbOpenError, "unable to set wait_timeout " <<
mysql_error(mysql_));
}
// Set SQL mode options for the connection: SQL mode governs how what
// constitutes insertable data for a given column, and how to handle
// invalid data. We want to ensure we get the strictest behavior and
// to reject invalid data with an error.
const char *sql_mode = "SET SESSION sql_mode ='STRICT_ALL_TABLES'";
result = mysql_options(mysql_, MYSQL_INIT_COMMAND, sql_mode);
if (result != 0) {
isc_throw(DbOpenError, "unable to set SQL mode options: " <<
mysql_error(mysql_));
}
// Connection timeout, the amount of time taken for the client to drop
// the connection if the server is not responding.
result = mysql_options(mysql_, MYSQL_OPT_CONNECT_TIMEOUT, &connect_timeout);
if (result != 0) {
isc_throw(DbOpenError, "unable to set database connection timeout: " <<
mysql_error(mysql_));
}
// Open the database.
//
// The option CLIENT_FOUND_ROWS is specified so that in an UPDATE,
// the affected rows are the number of rows found that match the
// WHERE clause of the SQL statement, not the rows changed. The reason
// here is that MySQL apparently does not update a row if data has not
// changed and so the "affected rows" (retrievable from MySQL) is zero.
// This makes it hard to distinguish whether the UPDATE changed no rows
// because no row matching the WHERE clause was found, or because a
// row was found but no data was altered.
MYSQL* status = mysql_real_connect(mysql_, host, user, password, name,
port, NULL, CLIENT_FOUND_ROWS);
if (status != mysql_) {
isc_throw(DbOpenError, mysql_error(mysql_));
}
// Enable autocommit. In case transaction is explicitly used, this
// setting will be overwritten for the transaction. However, there are
// cases when lack of autocommit could cause transactions to hang
// until commit or rollback is explicitly called. This already
// caused issues for some unit tests which were unable to cleanup
// the database after the test because of pending transactions.
// Use of autocommit will eliminate this problem.
my_bool autocommit_result = mysql_autocommit(mysql_, 1);
if (autocommit_result != 0) {
isc_throw(DbOperationError, mysql_error(mysql_));
}
// To avoid a flush to disk on every commit, the global parameter
// innodb_flush_log_at_trx_commit should be set to 2. This will cause the
// changes to be written to the log, but flushed to disk in the background
// every second. Setting the parameter to that value will speed up the
// system, but at the risk of losing data if the system crashes.
}
// Get schema version.
std::pair<uint32_t, uint32_t>
MySqlConnection::getVersion(const ParameterMap& parameters) {
// Get a connection.
MySqlConnection conn(parameters);
// Open the database.
conn.openDatabase();
// Allocate a new statement.
MYSQL_STMT *stmt = mysql_stmt_init(conn.mysql_);
if (stmt == NULL) {
isc_throw(DbOperationError, "unable to allocate MySQL prepared "
"statement structure, reason: " << mysql_error(conn.mysql_));
}
try {
// Prepare the statement from SQL text.
const char* version_sql = "SELECT version, minor FROM schema_version";
int status = mysql_stmt_prepare(stmt, version_sql, strlen(version_sql));
if (status != 0) {
isc_throw(DbOperationError, "unable to prepare MySQL statement <"
<< version_sql << ">, reason: "
<< mysql_error(conn.mysql_));
}
// Execute the prepared statement.
if (MysqlExecuteStatement(stmt) != 0) {
isc_throw(DbOperationError, "cannot execute schema version query <"
<< version_sql << ">, reason: "
<< mysql_errno(conn.mysql_));
}
// Bind the output of the statement to the appropriate variables.
MYSQL_BIND bind[2];
memset(bind, 0, sizeof(bind));
uint32_t version;
bind[0].buffer_type = MYSQL_TYPE_LONG;
bind[0].is_unsigned = 1;
bind[0].buffer = &version;
bind[0].buffer_length = sizeof(version);
uint32_t minor;
bind[1].buffer_type = MYSQL_TYPE_LONG;
bind[1].is_unsigned = 1;
bind[1].buffer = &minor;
bind[1].buffer_length = sizeof(minor);
if (mysql_stmt_bind_result(stmt, bind)) {
isc_throw(DbOperationError, "unable to bind result set for <"
<< version_sql << ">, reason: "
<< mysql_errno(conn.mysql_));
}
// Fetch the data.
if (mysql_stmt_fetch(stmt)) {
isc_throw(DbOperationError, "unable to bind result set for <"
<< version_sql << ">, reason: "
<< mysql_errno(conn.mysql_));
}
// Discard the statement and its resources
mysql_stmt_close(stmt);
return (std::make_pair(version, minor));
} catch (const std::exception&) {
// Avoid a memory leak on error.
mysql_stmt_close(stmt);
// Send the exception to the caller.
throw;
}
}
// Prepared statement setup. The textual form of an SQL statement is stored
// in a vector of strings (text_statements_) and is used in the output of
// error messages. The SQL statement is also compiled into a "prepared
// statement" (stored in statements_), which avoids the overhead of compilation
// during use. As prepared statements have resources allocated to them, the
// class destructor explicitly destroys them.
void
MySqlConnection::prepareStatement(uint32_t index, const char* text) {
// Validate that there is space for the statement in the statements array
// and that nothing has been placed there before.
if ((index >= statements_.size()) || (statements_[index] != NULL)) {
isc_throw(InvalidParameter, "invalid prepared statement index (" <<
static_cast<int>(index) << ") or indexed prepared " <<
"statement is not null");
}
// All OK, so prepare the statement
text_statements_[index] = std::string(text);
statements_[index] = mysql_stmt_init(mysql_);
if (statements_[index] == NULL) {
isc_throw(DbOperationError, "unable to allocate MySQL prepared "
"statement structure, reason: " << mysql_error(mysql_));
}
int status = mysql_stmt_prepare(statements_[index], text, strlen(text));
if (status != 0) {
isc_throw(DbOperationError, "unable to prepare MySQL statement <" <<
text << ">, reason: " << mysql_error(mysql_));
}
}
void
MySqlConnection::prepareStatements(const TaggedStatement* start_statement,
const TaggedStatement* end_statement) {
// Created the MySQL prepared statements for each DML statement.
for (const TaggedStatement* tagged_statement = start_statement;
tagged_statement != end_statement; ++tagged_statement) {
if (tagged_statement->index >= statements_.size()) {
statements_.resize(tagged_statement->index + 1, NULL);
text_statements_.resize(tagged_statement->index + 1,
std::string(""));
}
prepareStatement(tagged_statement->index,
tagged_statement->text);
}
}
void MySqlConnection::clearStatements() {
statements_.clear();
text_statements_.clear();
}
/// @brief Destructor
MySqlConnection::~MySqlConnection() {
// Free up the prepared statements, ignoring errors. (What would we do
// about them? We're destroying this object and are not really concerned
// with errors on a database connection that is about to go away.)
for (int i = 0; i < statements_.size(); ++i) {
if (statements_[i] != NULL) {
(void) mysql_stmt_close(statements_[i]);
statements_[i] = NULL;
}
}
statements_.clear();
text_statements_.clear();
}
// Time conversion methods.
//
// Note that the MySQL TIMESTAMP data type (used for "expire") converts data
// from the current timezone to UTC for storage, and from UTC to the current
// timezone for retrieval.
//
// This causes no problems providing that:
// a) cltt is given in local time
// b) We let the system take care of timezone conversion when converting
// from a time read from the database into a local time.
void
MySqlConnection::convertToDatabaseTime(const time_t input_time,
MYSQL_TIME& output_time) {
MySqlBinding::convertToDatabaseTime(input_time, output_time);
}
void
MySqlConnection::convertToDatabaseTime(const time_t cltt,
const uint32_t valid_lifetime,
MYSQL_TIME& expire) {
MySqlBinding::convertToDatabaseTime(cltt, valid_lifetime, expire);
}
void
MySqlConnection::convertFromDatabaseTime(const MYSQL_TIME& expire,
uint32_t valid_lifetime, time_t& cltt) {
MySqlBinding::convertFromDatabaseTime(expire, valid_lifetime, cltt);
}
void
MySqlConnection::startTransaction() {
DB_LOG_DEBUG(DB_DBG_TRACE_DETAIL, MYSQL_START_TRANSACTION);
checkUnusable();
// We create prepared statements for all other queries, but MySQL
// don't support prepared statements for START TRANSACTION.
int status = mysql_query(mysql_, "START TRANSACTION");
if (status != 0) {
isc_throw(DbOperationError, "unable to start transaction, "
"reason: " << mysql_error(mysql_));
}
}
void
MySqlConnection::commit() {
DB_LOG_DEBUG(DB_DBG_TRACE_DETAIL, MYSQL_COMMIT);
checkUnusable();
if (mysql_commit(mysql_) != 0) {
isc_throw(DbOperationError, "commit failed: "
<< mysql_error(mysql_));
}
}
void
MySqlConnection::rollback() {
DB_LOG_DEBUG(DB_DBG_TRACE_DETAIL, MYSQL_ROLLBACK);
checkUnusable();
if (mysql_rollback(mysql_) != 0) {
isc_throw(DbOperationError, "rollback failed: "
<< mysql_error(mysql_));
}
}
} // namespace isc::db
} // namespace isc
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