// Copyright (C) 2016-2023 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 #include #include #include // PostgreSQL errors should be tested based on the SQL state code. Each state // code is 5 decimal, ASCII, digits, the first two define the category of // error, the last three are the specific error. PostgreSQL makes the state // code as a char[5]. Macros for each code are defined in PostgreSQL's // server/utils/errcodes.h, although they require a second macro, // MAKE_SQLSTATE for completion. For example, duplicate key error as: // // #define ERRCODE_UNIQUE_VIOLATION MAKE_SQLSTATE('2','3','5','0','5') // // PostgreSQL deliberately omits the MAKE_SQLSTATE macro so callers can/must // supply their own. We'll define it as an initialization list: #define MAKE_SQLSTATE(ch1,ch2,ch3,ch4,ch5) {ch1,ch2,ch3,ch4,ch5} // So we can use it like this: const char some_error[] = ERRCODE_xxxx; #define PGSQL_STATECODE_LEN 5 #include #include using namespace std; namespace isc { namespace db { // Default connection timeout /// @todo: migrate this default timeout to src/bin/dhcpX/simple_parserX.cc const int PGSQL_DEFAULT_CONNECTION_TIMEOUT = 5; // seconds const char PgSqlConnection::DUPLICATE_KEY[] = ERRCODE_UNIQUE_VIOLATION; const char PgSqlConnection::NULL_KEY[] = ERRCODE_NOT_NULL_VIOLATION; bool PgSqlConnection::warned_about_tls = false; PgSqlResult::PgSqlResult(PGresult *result) : result_(result), rows_(0), cols_(0) { if (!result) { // Certain failures, like a loss of connectivity, can return a // null PGresult and we still need to be able to create a PgSqlResult. // We'll set row and col counts to -1 to prevent anyone going off the // rails. rows_ = -1; cols_ = -1; } else { rows_ = PQntuples(result); cols_ = PQnfields(result); } } void PgSqlResult::rowCheck(int row) const { if (row < 0 || row >= rows_) { isc_throw (db::DbOperationError, "row: " << row << ", out of range: 0.." << rows_); } } PgSqlResult::~PgSqlResult() { if (result_) { PQclear(result_); } } void PgSqlResult::colCheck(int col) const { if (col < 0 || col >= cols_) { isc_throw (DbOperationError, "col: " << col << ", out of range: 0.." << cols_); } } void PgSqlResult::rowColCheck(int row, int col) const { rowCheck(row); colCheck(col); } std::string PgSqlResult::getColumnLabel(const int col) const { const char* label = NULL; try { colCheck(col); label = PQfname(result_, col); } catch (...) { std::ostringstream os; os << "Unknown column:" << col; return (os.str()); } return (label); } PgSqlTransaction::PgSqlTransaction(PgSqlConnection& conn) : conn_(conn), committed_(false) { conn_.startTransaction(); } PgSqlTransaction::~PgSqlTransaction() { // If commit() wasn't explicitly called, rollback. if (!committed_) { conn_.rollback(); } } void PgSqlTransaction::commit() { conn_.commit(); committed_ = true; } PgSqlConnection::~PgSqlConnection() { if (conn_) { // Deallocate the prepared queries. if (PQstatus(conn_) == CONNECTION_OK) { PgSqlResult r(PQexec(conn_, "DEALLOCATE all")); if (PQresultStatus(r) != PGRES_COMMAND_OK) { // Highly unlikely but we'll log it and go on. DB_LOG_ERROR(PGSQL_DEALLOC_ERROR) .arg(PQerrorMessage(conn_)); } } } } std::pair PgSqlConnection::getVersion(const ParameterMap& parameters) { // Get a connection. PgSqlConnection conn(parameters); // Open the database. conn.openDatabaseInternal(false); const char* version_sql = "SELECT version, minor FROM schema_version;"; PgSqlResult r(PQexec(conn.conn_, version_sql)); if (PQresultStatus(r) != PGRES_TUPLES_OK) { isc_throw(DbOperationError, "unable to execute PostgreSQL statement <" << version_sql << ", reason: " << PQerrorMessage(conn.conn_)); } uint32_t version; PgSqlExchange::getColumnValue(r, 0, 0, version); uint32_t minor; PgSqlExchange::getColumnValue(r, 0, 1, minor); return (make_pair(version, minor)); } void PgSqlConnection::prepareStatement(const PgSqlTaggedStatement& statement) { // Prepare all statements queries with all known fields datatype PgSqlResult r(PQprepare(conn_, statement.name, statement.text, statement.nbparams, statement.types)); if (PQresultStatus(r) != PGRES_COMMAND_OK) { isc_throw(DbOperationError, "unable to prepare PostgreSQL statement: " << " name: " << statement.name << ", reason: " << PQerrorMessage(conn_) << ", text: " << statement.text); } } void PgSqlConnection::prepareStatements(const PgSqlTaggedStatement* start_statement, const PgSqlTaggedStatement* end_statement) { // Created the PostgreSQL prepared statements. for (const PgSqlTaggedStatement* tagged_statement = start_statement; tagged_statement != end_statement; ++tagged_statement) { prepareStatement(*tagged_statement); } } std::string PgSqlConnection::getConnParameters() { return (getConnParametersInternal(false)); } std::string PgSqlConnection::getConnParametersInternal(bool logging) { string dbconnparameters; string shost = "localhost"; try { shost = getParameter("host"); } catch(...) { // No host. Fine, we'll use "localhost" } dbconnparameters += "host = '" + shost + "'" ; unsigned int port = 0; try { setIntParameterValue("port", 0, numeric_limits::max(), port); } catch (const std::exception& ex) { isc_throw(DbInvalidPort, ex.what()); } // Add port to connection parameters when not default. if (port > 0) { std::ostringstream oss; oss << port; dbconnparameters += " port = " + oss.str(); } string suser; try { suser = getParameter("user"); dbconnparameters += " user = '" + suser + "'"; } catch(...) { // No user. Fine, we'll use NULL } string spassword; try { spassword = getParameter("password"); dbconnparameters += " password = '" + spassword + "'"; } catch(...) { // No password. Fine, we'll use NULL } string sname; try { sname = getParameter("name"); dbconnparameters += " dbname = '" + sname + "'"; } catch(...) { // No database name. Throw a "NoDatabaseName" exception isc_throw(NoDatabaseName, "must specify a name for the database"); } unsigned int connect_timeout = PGSQL_DEFAULT_CONNECTION_TIMEOUT; unsigned int tcp_user_timeout = 0; try { // The timeout is only valid if greater than zero, as depending on the // database, a zero timeout might signify something like "wait // indefinitely". setIntParameterValue("connect-timeout", 1, numeric_limits::max(), connect_timeout); // This timeout value can be 0, meaning that the database client will // follow a default behavior. Earlier Postgres versions didn't have // this parameter, so we allow 0 to skip setting them for these // earlier versions. setIntParameterValue("tcp-user-timeout", 0, numeric_limits::max(), tcp_user_timeout); } catch (const std::exception& ex) { isc_throw(DbInvalidTimeout, ex.what()); } // Append connection timeout. std::ostringstream oss; oss << " connect_timeout = " << connect_timeout; if (tcp_user_timeout > 0) { // tcp_user_timeout parameter is a PostgreSQL 12+ feature. #ifdef HAVE_PGSQL_TCP_USER_TIMEOUT oss << " tcp_user_timeout = " << tcp_user_timeout * 1000; static_cast(logging); #else if (logging) { DB_LOG_WARN(PGSQL_TCP_USER_TIMEOUT_UNSUPPORTED).arg(); } #endif } dbconnparameters += oss.str(); return (dbconnparameters); } void PgSqlConnection::openDatabase() { openDatabaseInternal(true); } void PgSqlConnection::openDatabaseInternal(bool logging) { std::string dbconnparameters = getConnParametersInternal(logging); // Connect to Postgres, saving the low level connection pointer // in the holder object PGconn* new_conn = PQconnectdb(dbconnparameters.c_str()); if (!new_conn) { isc_throw(DbOpenError, "could not allocate connection object"); } if (PQstatus(new_conn) != CONNECTION_OK) { // If we have a connection object, we have to call finish // to release it, but grab the error message first. std::string error_message = PQerrorMessage(new_conn); PQfinish(new_conn); isc_throw(DbOpenError, error_message); } // We have a valid connection, so let's save it to our holder conn_.setConnection(new_conn); } bool PgSqlConnection::compareError(const PgSqlResult& r, const char* error_state) { const char* sqlstate = PQresultErrorField(r, PG_DIAG_SQLSTATE); // PostgreSQL guarantees it will always be 5 characters long return ((sqlstate != NULL) && (memcmp(sqlstate, error_state, PGSQL_STATECODE_LEN) == 0)); } void PgSqlConnection::checkStatementError(const PgSqlResult& r, PgSqlTaggedStatement& statement) { int s = PQresultStatus(r); if (s != PGRES_COMMAND_OK && s != PGRES_TUPLES_OK) { // We're testing the first two chars of SQLSTATE, as this is the // error class. Note, there is a severity field, but it can be // misleadingly returned as fatal. However, a loss of connectivity // can lead to a NULL sqlstate with a status of PGRES_FATAL_ERROR. const char* sqlstate = PQresultErrorField(r, PG_DIAG_SQLSTATE); if ((sqlstate == NULL) || ((memcmp(sqlstate, "08", 2) == 0) || // Connection Exception (memcmp(sqlstate, "53", 2) == 0) || // Insufficient resources (memcmp(sqlstate, "54", 2) == 0) || // Program Limit exceeded (memcmp(sqlstate, "57", 2) == 0) || // Operator intervention (memcmp(sqlstate, "58", 2) == 0))) { // System error DB_LOG_ERROR(PGSQL_FATAL_ERROR) .arg(statement.name) .arg(PQerrorMessage(conn_)) .arg(sqlstate ? sqlstate : ""); // Mark this connection as no longer usable. markUnusable(); // Start the connection recovery. startRecoverDbConnection(); // We still need to throw so caller can error out of the current // processing. isc_throw(DbConnectionUnusable, "fatal database error or connectivity lost"); } // Failure: check for the special case of duplicate entry. if (compareError(r, PgSqlConnection::DUPLICATE_KEY)) { isc_throw(DuplicateEntry, "statement: " << statement.name << ", reason: " << PQerrorMessage(conn_)); } // Failure: check for the special case of null key violation. if (compareError(r, PgSqlConnection::NULL_KEY)) { isc_throw(NullKeyError, "statement: " << statement.name << ", reason: " << PQerrorMessage(conn_)); } // Apparently it wasn't fatal, so we throw with a helpful message. const char* error_message = PQerrorMessage(conn_); isc_throw(DbOperationError, "Statement exec failed for: " << statement.name << ", status: " << s << "sqlstate:[ " << (sqlstate ? sqlstate : "") << " ], reason: " << error_message); } } void PgSqlConnection::startTransaction() { // If it is nested transaction, do nothing. if (++transaction_ref_count_ > 1) { return; } DB_LOG_DEBUG(DB_DBG_TRACE_DETAIL, PGSQL_START_TRANSACTION); checkUnusable(); PgSqlResult r(PQexec(conn_, "START TRANSACTION")); if (PQresultStatus(r) != PGRES_COMMAND_OK) { const char* error_message = PQerrorMessage(conn_); isc_throw(DbOperationError, "unable to start transaction" << error_message); } } bool PgSqlConnection::isTransactionStarted() const { return (transaction_ref_count_ > 0); } void PgSqlConnection::commit() { if (transaction_ref_count_ <= 0) { isc_throw(Unexpected, "commit called for not started transaction - coding error"); } // When committing nested transaction, do nothing. if (--transaction_ref_count_ > 0) { return; } DB_LOG_DEBUG(DB_DBG_TRACE_DETAIL, PGSQL_COMMIT); checkUnusable(); PgSqlResult r(PQexec(conn_, "COMMIT")); if (PQresultStatus(r) != PGRES_COMMAND_OK) { const char* error_message = PQerrorMessage(conn_); isc_throw(DbOperationError, "commit failed: " << error_message); } } void PgSqlConnection::rollback() { if (transaction_ref_count_ <= 0) { isc_throw(Unexpected, "rollback called for not started transaction - coding error"); } // When rolling back nested transaction, do nothing. if (--transaction_ref_count_ > 0) { return; } DB_LOG_DEBUG(DB_DBG_TRACE_DETAIL, PGSQL_ROLLBACK); checkUnusable(); PgSqlResult r(PQexec(conn_, "ROLLBACK")); if (PQresultStatus(r) != PGRES_COMMAND_OK) { const char* error_message = PQerrorMessage(conn_); isc_throw(DbOperationError, "rollback failed: " << error_message); } } void PgSqlConnection::createSavepoint(const std::string& name) { if (transaction_ref_count_ <= 0) { isc_throw(InvalidOperation, "no transaction, cannot create savepoint: " << name); } DB_LOG_DEBUG(DB_DBG_TRACE_DETAIL, PGSQL_CREATE_SAVEPOINT).arg(name); std::string sql("SAVEPOINT " + name); executeSQL(sql); } void PgSqlConnection::rollbackToSavepoint(const std::string& name) { if (transaction_ref_count_ <= 0) { isc_throw(InvalidOperation, "no transaction, cannot rollback to savepoint: " << name); } std::string sql("ROLLBACK TO SAVEPOINT " + name); executeSQL(sql); } void PgSqlConnection::executeSQL(const std::string& sql) { // Use a TaggedStatement so we can call checkStatementError and ensure // we detect connectivity issues properly. PgSqlTaggedStatement statement({0, {OID_NONE}, "run-statement", sql.c_str()}); checkUnusable(); PgSqlResult r(PQexec(conn_, statement.text)); checkStatementError(r, statement); } PgSqlResultPtr PgSqlConnection::executePreparedStatement(PgSqlTaggedStatement& statement, const PsqlBindArray& in_bindings) { checkUnusable(); if (statement.nbparams != in_bindings.size()) { isc_throw (InvalidOperation, "executePreparedStatement:" << " expected: " << statement.nbparams << " parameters, given: " << in_bindings.size() << ", statement: " << statement.name << ", SQL: " << statement.text); } const char* const* values = 0; const int* lengths = 0; const int* formats = 0; if (statement.nbparams > 0) { values = static_cast(&in_bindings.values_[0]); lengths = static_cast(&in_bindings.lengths_[0]); formats = static_cast(&in_bindings.formats_[0]); } PgSqlResultPtr result_set; result_set.reset(new PgSqlResult(PQexecPrepared(conn_, statement.name, statement.nbparams, values, lengths, formats, 0))); checkStatementError(*result_set, statement); return (result_set); } void PgSqlConnection::selectQuery(PgSqlTaggedStatement& statement, const PsqlBindArray& in_bindings, ConsumeResultRowFun process_result_row) { // Execute the prepared statement. PgSqlResultPtr result_set = executePreparedStatement(statement, in_bindings); // Iterate over the returned rows and invoke the row consumption // function on each one. int rows = result_set->getRows(); for (int row = 0; row < rows; ++row) { try { process_result_row(*result_set, row); } catch (const std::exception& ex) { // Rethrow the exception with a bit more data. isc_throw(BadValue, ex.what() << ". Statement is <" << statement.text << ">"); } } } void PgSqlConnection::insertQuery(PgSqlTaggedStatement& statement, const PsqlBindArray& in_bindings) { // Execute the prepared statement. PgSqlResultPtr result_set = executePreparedStatement(statement, in_bindings); } uint64_t PgSqlConnection::updateDeleteQuery(PgSqlTaggedStatement& statement, const PsqlBindArray& in_bindings) { // Execute the prepared statement. PgSqlResultPtr result_set = executePreparedStatement(statement, in_bindings); return (boost::lexical_cast(PQcmdTuples(*result_set))); } template void PgSqlConnection::setIntParameterValue(const std::string& name, int64_t min, int64_t max, T& value) { string svalue; try { svalue = getParameter(name); } catch (...) { // Do nothing if the parameter is not present. } if (svalue.empty()) { return; } try { // Try to convert the value. auto parsed_value = boost::lexical_cast(svalue); // Check if the value is within the specified range. if ((parsed_value < min) || (parsed_value > max)) { isc_throw(BadValue, "bad " << svalue << " value"); } // Everything is fine. Return the parsed value. value = parsed_value; } catch (...) { // We may end up here when lexical_cast fails or when the // parsed value is not within the desired range. In both // cases let's throw the same general error. isc_throw(BadValue, name << " parameter (" << svalue << ") must be an integer between " << min << " and " << max); } } } // end of isc::db namespace } // end of isc namespace