/* * pg_connection.c - PG::Connection class extension * $Id$ * */ #include "pg.h" /******************************************************************** * * Document-class: PG::Connection * * The class to access PostgreSQL RDBMS, based on the libpq interface, * provides convenient OO methods to interact with PostgreSQL. * * For example, to send query to the database on the localhost: * require 'pg' * conn = PG::Connection.open(:dbname => 'test') * res = conn.exec('SELECT $1 AS a, $2 AS b, $3 AS c',[1, 2, nil]) * # Equivalent to: * # res = conn.exec('SELECT 1 AS a, 2 AS b, NULL AS c') * * See the PGresult class for information on working with the results of a query. * */ VALUE rb_cPGconn; static PQnoticeReceiver default_notice_receiver = NULL; static PQnoticeProcessor default_notice_processor = NULL; static PGconn *pgconn_check( VALUE ); static VALUE pgconn_finish( VALUE ); /* * Global functions */ /* * Fetch the data pointer and check it for sanity. */ PGconn * pg_get_pgconn( VALUE self ) { PGconn *conn = pgconn_check( self ); if ( !conn ) rb_fatal( "Use of uninitialized PG::Connection." ); return conn; } /* * Allocation/ */ /* * Object validity checker. Returns the data pointer. */ static PGconn * pgconn_check( VALUE self ) { Check_Type( self, T_DATA ); if ( !rb_obj_is_kind_of(self, rb_cPGconn) ) { rb_raise( rb_eTypeError, "wrong argument type %s (expected PG::Connection)", rb_obj_classname( self ) ); } return DATA_PTR( self ); } /* * GC Free function */ static void pgconn_gc_free( PGconn *conn ) { if (conn != NULL) PQfinish( conn ); } /************************************************************************** * Class Methods **************************************************************************/ /* * Document-method: allocate * * call-seq: * PG::Connection.allocate -> conn */ static VALUE pgconn_s_allocate( VALUE klass ) { return Data_Wrap_Struct( klass, NULL, pgconn_gc_free, NULL ); } /* * Document-method: new * * call-seq: * PG::Connection.new -> conn * PG::Connection.new(connection_hash) -> conn * PG::Connection.new(connection_string) -> conn * PG::Connection.new(host, port, options, tty, dbname, user, password) -> conn * * Create a connection to the specified server. * * [+host+] * server hostname * [+hostaddr+] * server address (avoids hostname lookup, overrides +host+) * [+port+] * server port number * [+dbname+] * connecting database name * [+user+] * login user name * [+password+] * login password * [+connect_timeout+] * maximum time to wait for connection to succeed * [+options+] * backend options * [+tty+] * (ignored in newer versions of PostgreSQL) * [+sslmode+] * (disable|allow|prefer|require) * [+krbsrvname+] * kerberos service name * [+gsslib+] * GSS library to use for GSSAPI authentication * [+service+] * service name to use for additional parameters * * Examples: * * # Connect using all defaults * PG::Connection.new * * # As a Hash * PG::Connection.new( :dbname => 'test', :port => 5432 ) * * # As a String * PG::Connection.new( "dbname=test port=5432" ) * * # As an Array * PG::Connection.new( nil, 5432, nil, nil, 'test', nil, nil ) * * If the Ruby default internal encoding is set (i.e., Encoding.default_internal != nil), the * connection will have its +client_encoding+ set accordingly. * * Raises a PG::Error if the connection fails. */ static VALUE pgconn_init(int argc, VALUE *argv, VALUE self) { PGconn *conn = NULL; VALUE conninfo; VALUE error; #ifdef M17N_SUPPORTED rb_encoding *enc; const char *encname; #endif conninfo = rb_funcall2( rb_cPGconn, rb_intern("parse_connect_args"), argc, argv ); conn = PQconnectdb(StringValuePtr(conninfo)); if(conn == NULL) rb_raise(rb_ePGerror, "PQconnectStart() unable to allocate structure"); Check_Type(self, T_DATA); DATA_PTR(self) = conn; if (PQstatus(conn) == CONNECTION_BAD) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } #ifdef M17N_SUPPORTED /* If Ruby has its Encoding.default_internal set, set PostgreSQL's client_encoding * to match */ if (( enc = rb_default_internal_encoding() )) { encname = pg_get_rb_encoding_as_pg_encoding( enc ); if ( PQsetClientEncoding(conn, encname) != 0 ) rb_warn( "Failed to set the default_internal encoding to %s: '%s'", encname, PQerrorMessage(conn) ); } #endif if (rb_block_given_p()) { return rb_ensure(rb_yield, self, pgconn_finish, self); } return self; } /* * call-seq: * PG::Connection.connect_start(connection_hash) -> conn * PG::Connection.connect_start(connection_string) -> conn * PG::Connection.connect_start(host, port, options, tty, dbname, login, password) -> conn * * This is an asynchronous version of PG::Connection.connect(). * * Use #connect_poll to poll the status of the connection. * * NOTE: this does *not* set the connection's +client_encoding+ for you if * Encoding.default_internal is set. To set it after the connection is established, * call #internal_encoding=. You can also set it automatically by setting * ENV['PGCLIENTENCODING'], or include the 'options' connection parameter. * */ static VALUE pgconn_s_connect_start( int argc, VALUE *argv, VALUE klass ) { PGconn *conn = NULL; VALUE rb_conn; VALUE conninfo; VALUE error; /* * PG::Connection.connect_start must act as both alloc() and initialize() * because it is not invoked by calling new(). */ rb_conn = pgconn_s_allocate( klass ); conninfo = rb_funcall2( klass, rb_intern("parse_connect_args"), argc, argv ); conn = PQconnectStart( StringValuePtr(conninfo) ); if( conn == NULL ) rb_raise(rb_ePGerror, "PQconnectStart() unable to allocate structure"); Check_Type(rb_conn, T_DATA); DATA_PTR(rb_conn) = conn; if ( PQstatus(conn) == CONNECTION_BAD ) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", rb_conn); rb_exc_raise(error); } if ( rb_block_given_p() ) { return rb_ensure( rb_yield, rb_conn, pgconn_finish, rb_conn ); } return rb_conn; } /* * call-seq: * PG::Connection.conndefaults() -> Array * * Returns an array of hashes. Each hash has the keys: * [+:keyword+] * the name of the option * [+:envvar+] * the environment variable to fall back to * [+:compiled+] * the compiled in option as a secondary fallback * [+:val+] * the option's current value, or +nil+ if not known * [+:label+] * the label for the field * [+:dispchar+] * "" for normal, "D" for debug, and "*" for password * [+:dispsize+] * field size */ static VALUE pgconn_s_conndefaults(VALUE self) { PQconninfoOption *options = PQconndefaults(); VALUE ary = rb_ary_new(); VALUE hash; int i = 0; UNUSED( self ); for(i = 0; options[i].keyword != NULL; i++) { hash = rb_hash_new(); if(options[i].keyword) rb_hash_aset(hash, ID2SYM(rb_intern("keyword")), rb_str_new2(options[i].keyword)); if(options[i].envvar) rb_hash_aset(hash, ID2SYM(rb_intern("envvar")), rb_str_new2(options[i].envvar)); if(options[i].compiled) rb_hash_aset(hash, ID2SYM(rb_intern("compiled")), rb_str_new2(options[i].compiled)); if(options[i].val) rb_hash_aset(hash, ID2SYM(rb_intern("val")), rb_str_new2(options[i].val)); if(options[i].label) rb_hash_aset(hash, ID2SYM(rb_intern("label")), rb_str_new2(options[i].label)); if(options[i].dispchar) rb_hash_aset(hash, ID2SYM(rb_intern("dispchar")), rb_str_new2(options[i].dispchar)); rb_hash_aset(hash, ID2SYM(rb_intern("dispsize")), INT2NUM(options[i].dispsize)); rb_ary_push(ary, hash); } PQconninfoFree(options); return ary; } /* * call-seq: * PG::Connection.encrypt_password( password, username ) -> String * * This function is intended to be used by client applications that * send commands like: +ALTER USER joe PASSWORD 'pwd'+. * The arguments are the cleartext password, and the SQL name * of the user it is for. * * Return value is the encrypted password. */ static VALUE pgconn_s_encrypt_password(VALUE self, VALUE password, VALUE username) { char *encrypted = NULL; VALUE rval = Qnil; UNUSED( self ); Check_Type(password, T_STRING); Check_Type(username, T_STRING); encrypted = PQencryptPassword(StringValuePtr(password), StringValuePtr(username)); rval = rb_str_new2( encrypted ); PQfreemem( encrypted ); OBJ_INFECT( rval, password ); OBJ_INFECT( rval, username ); return rval; } /* * call-seq: * PG::Connection.isthreadsafe() -> Boolean * * Returns +true+ if libpq is thread safe, +false+ otherwise. */ static VALUE pgconn_s_isthreadsafe(VALUE self) { UNUSED( self ); return PQisthreadsafe() ? Qtrue : Qfalse; } /************************************************************************** * PG::Connection INSTANCE METHODS **************************************************************************/ /* * call-seq: * conn.connect_poll() -> Fixnum * * Returns one of: * [+PGRES_POLLING_READING+] * wait until the socket is ready to read * [+PGRES_POLLING_WRITING+] * wait until the socket is ready to write * [+PGRES_POLLING_FAILED+] * the asynchronous connection has failed * [+PGRES_POLLING_OK+] * the asynchronous connection is ready * * Example: * conn = PG::Connection.connect_start("dbname=mydatabase") * socket = IO.for_fd(conn.socket) * status = conn.connect_poll * while(status != PG::PGRES_POLLING_OK) do * # do some work while waiting for the connection to complete * if(status == PG::PGRES_POLLING_READING) * if(not select([socket], [], [], 10.0)) * raise "Asynchronous connection timed out!" * end * elsif(status == PG::PGRES_POLLING_WRITING) * if(not select([], [socket], [], 10.0)) * raise "Asynchronous connection timed out!" * end * end * status = conn.connect_poll * end * # now conn.status == CONNECTION_OK, and connection * # is ready. */ static VALUE pgconn_connect_poll(VALUE self) { PostgresPollingStatusType status; status = PQconnectPoll(pg_get_pgconn(self)); return INT2FIX((int)status); } /* * call-seq: * conn.finish * * Closes the backend connection. */ static VALUE pgconn_finish(VALUE self) { PQfinish(pg_get_pgconn(self)); DATA_PTR(self) = NULL; return Qnil; } /* * call-seq: * conn.finished? -> boolean * * Returns +true+ if the backend connection has been closed. */ static VALUE pgconn_finished_p( VALUE self ) { if ( DATA_PTR(self) ) return Qfalse; return Qtrue; } /* * call-seq: * conn.reset() * * Resets the backend connection. This method closes the * backend connection and tries to re-connect. */ static VALUE pgconn_reset(VALUE self) { PQreset(pg_get_pgconn(self)); return self; } /* * call-seq: * conn.reset_start() -> nil * * Initiate a connection reset in a nonblocking manner. * This will close the current connection and attempt to * reconnect using the same connection parameters. * Use #reset_poll to check the status of the * connection reset. */ static VALUE pgconn_reset_start(VALUE self) { if(PQresetStart(pg_get_pgconn(self)) == 0) rb_raise(rb_ePGerror, "reset has failed"); return Qnil; } /* * call-seq: * conn.reset_poll -> Fixnum * * Checks the status of a connection reset operation. * See #connect_start and #connect_poll for * usage information and return values. */ static VALUE pgconn_reset_poll(VALUE self) { PostgresPollingStatusType status; status = PQresetPoll(pg_get_pgconn(self)); return INT2FIX((int)status); } /* * call-seq: * conn.db() * * Returns the connected database name. */ static VALUE pgconn_db(VALUE self) { char *db = PQdb(pg_get_pgconn(self)); if (!db) return Qnil; return rb_tainted_str_new2(db); } /* * call-seq: * conn.user() * * Returns the authenticated user name. */ static VALUE pgconn_user(VALUE self) { char *user = PQuser(pg_get_pgconn(self)); if (!user) return Qnil; return rb_tainted_str_new2(user); } /* * call-seq: * conn.pass() * * Returns the authenticated user name. */ static VALUE pgconn_pass(VALUE self) { char *user = PQpass(pg_get_pgconn(self)); if (!user) return Qnil; return rb_tainted_str_new2(user); } /* * call-seq: * conn.host() * * Returns the connected server name. */ static VALUE pgconn_host(VALUE self) { char *host = PQhost(pg_get_pgconn(self)); if (!host) return Qnil; return rb_tainted_str_new2(host); } /* * call-seq: * conn.port() * * Returns the connected server port number. */ static VALUE pgconn_port(VALUE self) { char* port = PQport(pg_get_pgconn(self)); return INT2NUM(atol(port)); } /* * call-seq: * conn.tty() * * Returns the connected pgtty. (Obsolete) */ static VALUE pgconn_tty(VALUE self) { char *tty = PQtty(pg_get_pgconn(self)); if (!tty) return Qnil; return rb_tainted_str_new2(tty); } /* * call-seq: * conn.options() * * Returns backend option string. */ static VALUE pgconn_options(VALUE self) { char *options = PQoptions(pg_get_pgconn(self)); if (!options) return Qnil; return rb_tainted_str_new2(options); } /* * call-seq: * conn.status() * * Returns status of connection : CONNECTION_OK or CONNECTION_BAD */ static VALUE pgconn_status(VALUE self) { return INT2NUM(PQstatus(pg_get_pgconn(self))); } /* * call-seq: * conn.transaction_status() * * returns one of the following statuses: * PQTRANS_IDLE = 0 (connection idle) * PQTRANS_ACTIVE = 1 (command in progress) * PQTRANS_INTRANS = 2 (idle, within transaction block) * PQTRANS_INERROR = 3 (idle, within failed transaction) * PQTRANS_UNKNOWN = 4 (cannot determine status) */ static VALUE pgconn_transaction_status(VALUE self) { return INT2NUM(PQtransactionStatus(pg_get_pgconn(self))); } /* * call-seq: * conn.parameter_status( param_name ) -> String * * Returns the setting of parameter _param_name_, where * _param_name_ is one of * * +server_version+ * * +server_encoding+ * * +client_encoding+ * * +is_superuser+ * * +session_authorization+ * * +DateStyle+ * * +TimeZone+ * * +integer_datetimes+ * * +standard_conforming_strings+ * * Returns nil if the value of the parameter is not known. */ static VALUE pgconn_parameter_status(VALUE self, VALUE param_name) { const char *ret = PQparameterStatus(pg_get_pgconn(self), StringValuePtr(param_name)); if(ret == NULL) return Qnil; else return rb_tainted_str_new2(ret); } /* * call-seq: * conn.protocol_version -> Integer * * The 3.0 protocol will normally be used when communicating with PostgreSQL 7.4 * or later servers; pre-7.4 servers support only protocol 2.0. (Protocol 1.0 is * obsolete and not supported by libpq.) */ static VALUE pgconn_protocol_version(VALUE self) { return INT2NUM(PQprotocolVersion(pg_get_pgconn(self))); } /* * call-seq: * conn.server_version -> Integer * * The number is formed by converting the major, minor, and revision * numbers into two-decimal-digit numbers and appending them together. * For example, version 7.4.2 will be returned as 70402, and version * 8.1 will be returned as 80100 (leading zeroes are not shown). Zero * is returned if the connection is bad. * */ static VALUE pgconn_server_version(VALUE self) { return INT2NUM(PQserverVersion(pg_get_pgconn(self))); } /* * call-seq: * conn.error_message -> String * * Returns the error message about connection. */ static VALUE pgconn_error_message(VALUE self) { char *error = PQerrorMessage(pg_get_pgconn(self)); if (!error) return Qnil; return rb_tainted_str_new2(error); } /* * call-seq: * conn.socket() -> Fixnum * * Returns the socket's file descriptor for this connection. */ static VALUE pgconn_socket(VALUE self) { int sd; if( (sd = PQsocket(pg_get_pgconn(self))) < 0) rb_raise(rb_ePGerror, "Can't get socket descriptor"); return INT2NUM(sd); } /* * call-seq: * conn.backend_pid() -> Fixnum * * Returns the process ID of the backend server * process for this connection. * Note that this is a PID on database server host. */ static VALUE pgconn_backend_pid(VALUE self) { return INT2NUM(PQbackendPID(pg_get_pgconn(self))); } /* * call-seq: * conn.connection_needs_password() -> Boolean * * Returns +true+ if the authentication method required a * password, but none was available. +false+ otherwise. */ static VALUE pgconn_connection_needs_password(VALUE self) { return PQconnectionNeedsPassword(pg_get_pgconn(self)) ? Qtrue : Qfalse; } /* * call-seq: * conn.connection_used_password() -> Boolean * * Returns +true+ if the authentication method used * a caller-supplied password, +false+ otherwise. */ static VALUE pgconn_connection_used_password(VALUE self) { return PQconnectionUsedPassword(pg_get_pgconn(self)) ? Qtrue : Qfalse; } /* :TODO: get_ssl */ /* * call-seq: * conn.exec(sql [, params, result_format ] ) -> PGresult * conn.exec(sql [, params, result_format ] ) {|pg_result| block } * * Sends SQL query request specified by _sql_ to PostgreSQL. * Returns a PGresult instance on success. * On failure, it raises a PGError exception. * * +params+ is an optional array of the bind parameters for the SQL query. * Each element of the +params+ array may be either: * a hash of the form: * {:value => String (value of bind parameter) * :type => Fixnum (oid of type of bind parameter) * :format => Fixnum (0 for text, 1 for binary) * } * or, it may be a String. If it is a string, that is equivalent to the hash: * { :value => , :type => 0, :format => 0 } * * PostgreSQL bind parameters are represented as $1, $1, $2, etc., * inside the SQL query. The 0th element of the +params+ array is bound * to $1, the 1st element is bound to $2, etc. +nil+ is treated as +NULL+. * * If the types are not specified, they will be inferred by PostgreSQL. * Instead of specifying type oids, it's recommended to simply add * explicit casts in the query to ensure that the right type is used. * * For example: "SELECT $1::int" * * The optional +result_format+ should be 0 for text results, 1 * for binary. * * If the optional code block is given, it will be passed result as an argument, * and the PGresult object will automatically be cleared when the block terminates. * In this instance, conn.exec returns the value of the block. */ static VALUE pgconn_exec(int argc, VALUE *argv, VALUE self) { PGconn *conn = pg_get_pgconn(self); PGresult *result = NULL; VALUE rb_pgresult; VALUE command, params, in_res_fmt; VALUE param, param_type, param_value, param_format; VALUE param_value_tmp; VALUE sym_type, sym_value, sym_format; VALUE gc_array; int i=0; int nParams; Oid *paramTypes; char ** paramValues; int *paramLengths; int *paramFormats; int resultFormat; rb_scan_args(argc, argv, "12", &command, ¶ms, &in_res_fmt); Check_Type(command, T_STRING); /* If called with no parameters, use PQexec */ if(NIL_P(params)) { result = PQexec(conn, StringValuePtr(command)); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); if (rb_block_given_p()) { return rb_ensure(rb_yield, rb_pgresult, pg_result_clear, rb_pgresult); } return rb_pgresult; } /* If called with parameters, and optionally result_format, * use PQexecParams */ Check_Type(params, T_ARRAY); if(NIL_P(in_res_fmt)) { resultFormat = 0; } else { resultFormat = NUM2INT(in_res_fmt); } gc_array = rb_ary_new(); rb_gc_register_address(&gc_array); sym_type = ID2SYM(rb_intern("type")); sym_value = ID2SYM(rb_intern("value")); sym_format = ID2SYM(rb_intern("format")); nParams = (int)RARRAY_LEN(params); paramTypes = ALLOC_N(Oid, nParams); paramValues = ALLOC_N(char *, nParams); paramLengths = ALLOC_N(int, nParams); paramFormats = ALLOC_N(int, nParams); for(i = 0; i < nParams; i++) { param = rb_ary_entry(params, i); if (TYPE(param) == T_HASH) { param_type = rb_hash_aref(param, sym_type); param_value_tmp = rb_hash_aref(param, sym_value); if(param_value_tmp == Qnil) param_value = param_value_tmp; else param_value = rb_obj_as_string(param_value_tmp); param_format = rb_hash_aref(param, sym_format); } else { param_type = Qnil; if(param == Qnil) param_value = param; else param_value = rb_obj_as_string(param); param_format = Qnil; } if(param_type == Qnil) paramTypes[i] = 0; else paramTypes[i] = NUM2INT(param_type); if(param_value == Qnil) { paramValues[i] = NULL; paramLengths[i] = 0; } else { Check_Type(param_value, T_STRING); /* make sure param_value doesn't get freed by the GC */ rb_ary_push(gc_array, param_value); paramValues[i] = StringValuePtr(param_value); paramLengths[i] = (int)RSTRING_LEN(param_value); } if(param_format == Qnil) paramFormats[i] = 0; else paramFormats[i] = NUM2INT(param_format); } result = PQexecParams(conn, StringValuePtr(command), nParams, paramTypes, (const char * const *)paramValues, paramLengths, paramFormats, resultFormat); rb_gc_unregister_address(&gc_array); xfree(paramTypes); xfree(paramValues); xfree(paramLengths); xfree(paramFormats); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); if (rb_block_given_p()) { return rb_ensure(rb_yield, rb_pgresult, pg_result_clear, rb_pgresult); } return rb_pgresult; } /* * call-seq: * conn.prepare(stmt_name, sql [, param_types ] ) -> PGresult * * Prepares statement _sql_ with name _name_ to be executed later. * Returns a PGresult instance on success. * On failure, it raises a PGError exception. * * +param_types+ is an optional parameter to specify the Oids of the * types of the parameters. * * If the types are not specified, they will be inferred by PostgreSQL. * Instead of specifying type oids, it's recommended to simply add * explicit casts in the query to ensure that the right type is used. * * For example: "SELECT $1::int" * * PostgreSQL bind parameters are represented as $1, $1, $2, etc., * inside the SQL query. */ static VALUE pgconn_prepare(int argc, VALUE *argv, VALUE self) { PGconn *conn = pg_get_pgconn(self); PGresult *result = NULL; VALUE rb_pgresult; VALUE name, command, in_paramtypes; VALUE param; int i = 0; int nParams = 0; Oid *paramTypes = NULL; rb_scan_args(argc, argv, "21", &name, &command, &in_paramtypes); Check_Type(name, T_STRING); Check_Type(command, T_STRING); if(! NIL_P(in_paramtypes)) { Check_Type(in_paramtypes, T_ARRAY); nParams = (int)RARRAY_LEN(in_paramtypes); paramTypes = ALLOC_N(Oid, nParams); for(i = 0; i < nParams; i++) { param = rb_ary_entry(in_paramtypes, i); Check_Type(param, T_FIXNUM); if(param == Qnil) paramTypes[i] = 0; else paramTypes[i] = NUM2INT(param); } } result = PQprepare(conn, StringValuePtr(name), StringValuePtr(command), nParams, paramTypes); xfree(paramTypes); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); return rb_pgresult; } /* * call-seq: * conn.exec_prepared(statement_name [, params, result_format ] ) -> PGresult * conn.exec_prepared(statement_name [, params, result_format ] ) {|pg_result| block } * * Execute prepared named statement specified by _statement_name_. * Returns a PGresult instance on success. * On failure, it raises a PGError exception. * * +params+ is an array of the optional bind parameters for the * SQL query. Each element of the +params+ array may be either: * a hash of the form: * {:value => String (value of bind parameter) * :format => Fixnum (0 for text, 1 for binary) * } * or, it may be a String. If it is a string, that is equivalent to the hash: * { :value => , :format => 0 } * * PostgreSQL bind parameters are represented as $1, $1, $2, etc., * inside the SQL query. The 0th element of the +params+ array is bound * to $1, the 1st element is bound to $2, etc. +nil+ is treated as +NULL+. * * The optional +result_format+ should be 0 for text results, 1 * for binary. * * If the optional code block is given, it will be passed result as an argument, * and the PGresult object will automatically be cleared when the block terminates. * In this instance, conn.exec_prepared returns the value of the block. */ static VALUE pgconn_exec_prepared(int argc, VALUE *argv, VALUE self) { PGconn *conn = pg_get_pgconn(self); PGresult *result = NULL; VALUE rb_pgresult; VALUE name, params, in_res_fmt; VALUE param, param_value, param_format; VALUE param_value_tmp; VALUE sym_value, sym_format; VALUE gc_array; int i = 0; int nParams; char ** paramValues; int *paramLengths; int *paramFormats; int resultFormat; rb_scan_args(argc, argv, "12", &name, ¶ms, &in_res_fmt); Check_Type(name, T_STRING); if(NIL_P(params)) { params = rb_ary_new2(0); resultFormat = 0; } else { Check_Type(params, T_ARRAY); } if(NIL_P(in_res_fmt)) { resultFormat = 0; } else { resultFormat = NUM2INT(in_res_fmt); } gc_array = rb_ary_new(); rb_gc_register_address(&gc_array); sym_value = ID2SYM(rb_intern("value")); sym_format = ID2SYM(rb_intern("format")); nParams = (int)RARRAY_LEN(params); paramValues = ALLOC_N(char *, nParams); paramLengths = ALLOC_N(int, nParams); paramFormats = ALLOC_N(int, nParams); for(i = 0; i < nParams; i++) { param = rb_ary_entry(params, i); if (TYPE(param) == T_HASH) { param_value_tmp = rb_hash_aref(param, sym_value); if(param_value_tmp == Qnil) param_value = param_value_tmp; else param_value = rb_obj_as_string(param_value_tmp); param_format = rb_hash_aref(param, sym_format); } else { if(param == Qnil) param_value = param; else param_value = rb_obj_as_string(param); param_format = INT2NUM(0); } if(param_value == Qnil) { paramValues[i] = NULL; paramLengths[i] = 0; } else { Check_Type(param_value, T_STRING); /* make sure param_value doesn't get freed by the GC */ rb_ary_push(gc_array, param_value); paramValues[i] = StringValuePtr(param_value); paramLengths[i] = (int)RSTRING_LEN(param_value); } if(param_format == Qnil) paramFormats[i] = 0; else paramFormats[i] = NUM2INT(param_format); } result = PQexecPrepared(conn, StringValuePtr(name), nParams, (const char * const *)paramValues, paramLengths, paramFormats, resultFormat); rb_gc_unregister_address(&gc_array); xfree(paramValues); xfree(paramLengths); xfree(paramFormats); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); if (rb_block_given_p()) { return rb_ensure(rb_yield, rb_pgresult, pg_result_clear, rb_pgresult); } return rb_pgresult; } /* * call-seq: * conn.describe_prepared( statement_name ) -> PGresult * * Retrieve information about the prepared statement * _statement_name_. */ static VALUE pgconn_describe_prepared(VALUE self, VALUE stmt_name) { PGresult *result; VALUE rb_pgresult; PGconn *conn = pg_get_pgconn(self); char *stmt; if(stmt_name == Qnil) { stmt = NULL; } else { Check_Type(stmt_name, T_STRING); stmt = StringValuePtr(stmt_name); } result = PQdescribePrepared(conn, stmt); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); return rb_pgresult; } /* * call-seq: * conn.describe_portal( portal_name ) -> PGresult * * Retrieve information about the portal _portal_name_. */ static VALUE pgconn_describe_portal(self, stmt_name) VALUE self, stmt_name; { PGresult *result; VALUE rb_pgresult; PGconn *conn = pg_get_pgconn(self); char *stmt; if(stmt_name == Qnil) { stmt = NULL; } else { Check_Type(stmt_name, T_STRING); stmt = StringValuePtr(stmt_name); } result = PQdescribePortal(conn, stmt); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); return rb_pgresult; } /* * call-seq: * conn.make_empty_pgresult( status ) -> PGresult * * Constructs and empty PGresult with status _status_. * _status_ may be one of: * * +PGRES_EMPTY_QUERY+ * * +PGRES_COMMAND_OK+ * * +PGRES_TUPLES_OK+ * * +PGRES_COPY_OUT+ * * +PGRES_COPY_IN+ * * +PGRES_BAD_RESPONSE+ * * +PGRES_NONFATAL_ERROR+ * * +PGRES_FATAL_ERROR+ */ static VALUE pgconn_make_empty_pgresult(VALUE self, VALUE status) { PGresult *result; VALUE rb_pgresult; PGconn *conn = pg_get_pgconn(self); result = PQmakeEmptyPGresult(conn, NUM2INT(status)); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); return rb_pgresult; } /* * call-seq: * conn.escape_string( str ) -> String * * Connection instance method for versions of 8.1 and higher of libpq * uses PQescapeStringConn, which is safer. Avoid calling as a class method, * the class method uses the deprecated PQescapeString() API function. * * Returns a SQL-safe version of the String _str_. * This is the preferred way to make strings safe for inclusion in * SQL queries. * * Consider using exec_params, which avoids the need for passing values * inside of SQL commands. * * Encoding of escaped string will be equal to client encoding of connection. */ static VALUE pgconn_s_escape(VALUE self, VALUE string) { char *escaped; size_t size; int error; VALUE result; #ifdef M17N_SUPPORTED rb_encoding* enc; #endif Check_Type(string, T_STRING); escaped = ALLOC_N(char, RSTRING_LEN(string) * 2 + 1); if(rb_obj_class(self) == rb_cPGconn) { size = PQescapeStringConn(pg_get_pgconn(self), escaped, RSTRING_PTR(string), RSTRING_LEN(string), &error); if(error) { xfree(escaped); rb_raise(rb_ePGerror, "%s", PQerrorMessage(pg_get_pgconn(self))); } } else { size = PQescapeString(escaped, RSTRING_PTR(string), (int)RSTRING_LEN(string)); } result = rb_str_new(escaped, size); xfree(escaped); OBJ_INFECT(result, string); #ifdef M17N_SUPPORTED if ( rb_obj_class(self) == rb_cPGconn ) { enc = pg_conn_enc_get( pg_get_pgconn(self) ); } else { enc = rb_enc_get(string); } rb_enc_associate(result, enc); #endif return result; } /* * call-seq: * conn.escape_bytea( string ) -> String * * Connection instance method for versions of 8.1 and higher of libpq * uses PQescapeByteaConn, which is safer. Avoid calling as a class method, * the class method uses the deprecated PQescapeBytea() API function. * * Use the instance method version of this function, it is safer than the * class method. * * Escapes binary data for use within an SQL command with the type +bytea+. * * Certain byte values must be escaped (but all byte values may be escaped) * when used as part of a +bytea+ literal in an SQL statement. In general, to * escape a byte, it is converted into the three digit octal number equal to * the octet value, and preceded by two backslashes. The single quote (') and * backslash (\) characters have special alternative escape sequences. * #escape_bytea performs this operation, escaping only the minimally required * bytes. * * Consider using exec_params, which avoids the need for passing values inside of * SQL commands. */ static VALUE pgconn_s_escape_bytea(VALUE self, VALUE str) { unsigned char *from, *to; size_t from_len, to_len; VALUE ret; Check_Type(str, T_STRING); from = (unsigned char*)RSTRING_PTR(str); from_len = RSTRING_LEN(str); if(rb_obj_class(self) == rb_cPGconn) { to = PQescapeByteaConn(pg_get_pgconn(self), from, from_len, &to_len); } else { to = PQescapeBytea( from, from_len, &to_len); } ret = rb_str_new((char*)to, to_len - 1); OBJ_INFECT(ret, str); PQfreemem(to); return ret; } /* * call-seq: * PG::Connection.unescape_bytea( string ) * * Converts an escaped string representation of binary data into binary data --- the * reverse of #escape_bytea. This is needed when retrieving +bytea+ data in text format, * but not when retrieving it in binary format. * */ static VALUE pgconn_s_unescape_bytea(VALUE self, VALUE str) { unsigned char *from, *to; size_t to_len; VALUE ret; UNUSED( self ); Check_Type(str, T_STRING); from = (unsigned char*)StringValuePtr(str); to = PQunescapeBytea(from, &to_len); ret = rb_str_new((char*)to, to_len); OBJ_INFECT(ret, str); PQfreemem(to); return ret; } /* * call-seq: * conn.send_query(sql [, params, result_format ] ) -> nil * * Sends SQL query request specified by _sql_ to PostgreSQL for * asynchronous processing, and immediately returns. * On failure, it raises a PGError exception. * * +params+ is an optional array of the bind parameters for the SQL query. * Each element of the +params+ array may be either: * a hash of the form: * {:value => String (value of bind parameter) * :type => Fixnum (oid of type of bind parameter) * :format => Fixnum (0 for text, 1 for binary) * } * or, it may be a String. If it is a string, that is equivalent to the hash: * { :value => , :type => 0, :format => 0 } * * PostgreSQL bind parameters are represented as $1, $1, $2, etc., * inside the SQL query. The 0th element of the +params+ array is bound * to $1, the 1st element is bound to $2, etc. +nil+ is treated as +NULL+. * * If the types are not specified, they will be inferred by PostgreSQL. * Instead of specifying type oids, it's recommended to simply add * explicit casts in the query to ensure that the right type is used. * * For example: "SELECT $1::int" * * The optional +result_format+ should be 0 for text results, 1 * for binary. */ static VALUE pgconn_send_query(int argc, VALUE *argv, VALUE self) { PGconn *conn = pg_get_pgconn(self); int result; VALUE command, params, in_res_fmt; VALUE param, param_type, param_value, param_format; VALUE param_value_tmp; VALUE sym_type, sym_value, sym_format; VALUE gc_array; VALUE error; int i=0; int nParams; Oid *paramTypes; char ** paramValues; int *paramLengths; int *paramFormats; int resultFormat; rb_scan_args(argc, argv, "12", &command, ¶ms, &in_res_fmt); Check_Type(command, T_STRING); /* If called with no parameters, use PQsendQuery */ if(NIL_P(params)) { if(PQsendQuery(conn,StringValuePtr(command)) == 0) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return Qnil; } /* If called with parameters, and optionally result_format, * use PQsendQueryParams */ Check_Type(params, T_ARRAY); if(NIL_P(in_res_fmt)) { resultFormat = 0; } else { resultFormat = NUM2INT(in_res_fmt); } gc_array = rb_ary_new(); rb_gc_register_address(&gc_array); sym_type = ID2SYM(rb_intern("type")); sym_value = ID2SYM(rb_intern("value")); sym_format = ID2SYM(rb_intern("format")); nParams = (int)RARRAY_LEN(params); paramTypes = ALLOC_N(Oid, nParams); paramValues = ALLOC_N(char *, nParams); paramLengths = ALLOC_N(int, nParams); paramFormats = ALLOC_N(int, nParams); for(i = 0; i < nParams; i++) { param = rb_ary_entry(params, i); if (TYPE(param) == T_HASH) { param_type = rb_hash_aref(param, sym_type); param_value_tmp = rb_hash_aref(param, sym_value); if(param_value_tmp == Qnil) param_value = param_value_tmp; else param_value = rb_obj_as_string(param_value_tmp); param_format = rb_hash_aref(param, sym_format); } else { param_type = INT2NUM(0); if(param == Qnil) param_value = param; else param_value = rb_obj_as_string(param); param_format = INT2NUM(0); } if(param_type == Qnil) paramTypes[i] = 0; else paramTypes[i] = NUM2INT(param_type); if(param_value == Qnil) { paramValues[i] = NULL; paramLengths[i] = 0; } else { Check_Type(param_value, T_STRING); /* make sure param_value doesn't get freed by the GC */ rb_ary_push(gc_array, param_value); paramValues[i] = StringValuePtr(param_value); paramLengths[i] = (int)RSTRING_LEN(param_value); } if(param_format == Qnil) paramFormats[i] = 0; else paramFormats[i] = NUM2INT(param_format); } result = PQsendQueryParams(conn, StringValuePtr(command), nParams, paramTypes, (const char * const *)paramValues, paramLengths, paramFormats, resultFormat); rb_gc_unregister_address(&gc_array); xfree(paramTypes); xfree(paramValues); xfree(paramLengths); xfree(paramFormats); if(result == 0) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return Qnil; } /* * call-seq: * conn.send_prepare( stmt_name, sql [, param_types ] ) -> nil * * Prepares statement _sql_ with name _name_ to be executed later. * Sends prepare command asynchronously, and returns immediately. * On failure, it raises a PGError exception. * * +param_types+ is an optional parameter to specify the Oids of the * types of the parameters. * * If the types are not specified, they will be inferred by PostgreSQL. * Instead of specifying type oids, it's recommended to simply add * explicit casts in the query to ensure that the right type is used. * * For example: "SELECT $1::int" * * PostgreSQL bind parameters are represented as $1, $1, $2, etc., * inside the SQL query. */ static VALUE pgconn_send_prepare(int argc, VALUE *argv, VALUE self) { PGconn *conn = pg_get_pgconn(self); int result; VALUE name, command, in_paramtypes; VALUE param; VALUE error; int i = 0; int nParams = 0; Oid *paramTypes = NULL; rb_scan_args(argc, argv, "21", &name, &command, &in_paramtypes); Check_Type(name, T_STRING); Check_Type(command, T_STRING); if(! NIL_P(in_paramtypes)) { Check_Type(in_paramtypes, T_ARRAY); nParams = (int)RARRAY_LEN(in_paramtypes); paramTypes = ALLOC_N(Oid, nParams); for(i = 0; i < nParams; i++) { param = rb_ary_entry(in_paramtypes, i); Check_Type(param, T_FIXNUM); if(param == Qnil) paramTypes[i] = 0; else paramTypes[i] = NUM2INT(param); } } result = PQsendPrepare(conn, StringValuePtr(name), StringValuePtr(command), nParams, paramTypes); xfree(paramTypes); if(result == 0) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return Qnil; } /* * call-seq: * conn.send_query_prepared( statement_name [, params, result_format ] ) * -> nil * * Execute prepared named statement specified by _statement_name_ * asynchronously, and returns immediately. * On failure, it raises a PGError exception. * * +params+ is an array of the optional bind parameters for the * SQL query. Each element of the +params+ array may be either: * a hash of the form: * {:value => String (value of bind parameter) * :format => Fixnum (0 for text, 1 for binary) * } * or, it may be a String. If it is a string, that is equivalent to the hash: * { :value => , :format => 0 } * * PostgreSQL bind parameters are represented as $1, $1, $2, etc., * inside the SQL query. The 0th element of the +params+ array is bound * to $1, the 1st element is bound to $2, etc. +nil+ is treated as +NULL+. * * The optional +result_format+ should be 0 for text results, 1 * for binary. */ static VALUE pgconn_send_query_prepared(int argc, VALUE *argv, VALUE self) { PGconn *conn = pg_get_pgconn(self); int result; VALUE name, params, in_res_fmt; VALUE param, param_value, param_format; VALUE param_value_tmp; VALUE sym_value, sym_format; VALUE gc_array; VALUE error; int i = 0; int nParams; char ** paramValues; int *paramLengths; int *paramFormats; int resultFormat; rb_scan_args(argc, argv, "12", &name, ¶ms, &in_res_fmt); Check_Type(name, T_STRING); if(NIL_P(params)) { params = rb_ary_new2(0); resultFormat = 0; } else { Check_Type(params, T_ARRAY); } if(NIL_P(in_res_fmt)) { resultFormat = 0; } else { resultFormat = NUM2INT(in_res_fmt); } gc_array = rb_ary_new(); rb_gc_register_address(&gc_array); sym_value = ID2SYM(rb_intern("value")); sym_format = ID2SYM(rb_intern("format")); nParams = (int)RARRAY_LEN(params); paramValues = ALLOC_N(char *, nParams); paramLengths = ALLOC_N(int, nParams); paramFormats = ALLOC_N(int, nParams); for(i = 0; i < nParams; i++) { param = rb_ary_entry(params, i); if (TYPE(param) == T_HASH) { param_value_tmp = rb_hash_aref(param, sym_value); if(param_value_tmp == Qnil) param_value = param_value_tmp; else param_value = rb_obj_as_string(param_value_tmp); param_format = rb_hash_aref(param, sym_format); } else { if(param == Qnil) param_value = param; else param_value = rb_obj_as_string(param); param_format = INT2NUM(0); } if(param_value == Qnil) { paramValues[i] = NULL; paramLengths[i] = 0; } else { Check_Type(param_value, T_STRING); /* make sure param_value doesn't get freed by the GC */ rb_ary_push(gc_array, param_value); paramValues[i] = StringValuePtr(param_value); paramLengths[i] = (int)RSTRING_LEN(param_value); } if(param_format == Qnil) paramFormats[i] = 0; else paramFormats[i] = NUM2INT(param_format); } result = PQsendQueryPrepared(conn, StringValuePtr(name), nParams, (const char * const *)paramValues, paramLengths, paramFormats, resultFormat); rb_gc_unregister_address(&gc_array); xfree(paramValues); xfree(paramLengths); xfree(paramFormats); if(result == 0) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return Qnil; } /* * call-seq: * conn.send_describe_prepared( statement_name ) -> nil * * Asynchronously send _command_ to the server. Does not block. * Use in combination with +conn.get_result+. */ static VALUE pgconn_send_describe_prepared(VALUE self, VALUE stmt_name) { VALUE error; PGconn *conn = pg_get_pgconn(self); /* returns 0 on failure */ if(PQsendDescribePrepared(conn,StringValuePtr(stmt_name)) == 0) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return Qnil; } /* * call-seq: * conn.send_describe_portal( portal_name ) -> nil * * Asynchronously send _command_ to the server. Does not block. * Use in combination with +conn.get_result+. */ static VALUE pgconn_send_describe_portal(VALUE self, VALUE portal) { VALUE error; PGconn *conn = pg_get_pgconn(self); /* returns 0 on failure */ if(PQsendDescribePortal(conn,StringValuePtr(portal)) == 0) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return Qnil; } /* * call-seq: * conn.get_result() -> PGresult * conn.get_result() {|pg_result| block } * * Blocks waiting for the next result from a call to * #send_query (or another asynchronous command), and returns * it. Returns +nil+ if no more results are available. * * Note: call this function repeatedly until it returns +nil+, or else * you will not be able to issue further commands. * * If the optional code block is given, it will be passed result as an argument, * and the PGresult object will automatically be cleared when the block terminates. * In this instance, conn.exec returns the value of the block. */ static VALUE pgconn_get_result(VALUE self) { PGconn *conn = pg_get_pgconn(self); PGresult *result; VALUE rb_pgresult; result = PQgetResult(conn); if(result == NULL) return Qnil; rb_pgresult = pg_new_result(result, conn); if (rb_block_given_p()) { return rb_ensure(rb_yield, rb_pgresult, pg_result_clear, rb_pgresult); } return rb_pgresult; } /* * call-seq: * conn.consume_input() * * If input is available from the server, consume it. * After calling +consume_input+, you can check +is_busy+ * or *notifies* to see if the state has changed. */ static VALUE pgconn_consume_input(self) VALUE self; { VALUE error; PGconn *conn = pg_get_pgconn(self); /* returns 0 on error */ if(PQconsumeInput(conn) == 0) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return Qnil; } /* * call-seq: * conn.is_busy() -> Boolean * * Returns +true+ if a command is busy, that is, if * PQgetResult would block. Otherwise returns +false+. */ static VALUE pgconn_is_busy(self) VALUE self; { return PQisBusy(pg_get_pgconn(self)) ? Qtrue : Qfalse; } /* * call-seq: * conn.setnonblocking(Boolean) -> nil * * Sets the nonblocking status of the connection. * In the blocking state, calls to #send_query * will block until the message is sent to the server, * but will not wait for the query results. * In the nonblocking state, calls to #send_query * will return an error if the socket is not ready for * writing. * Note: This function does not affect #exec, because * that function doesn't return until the server has * processed the query and returned the results. * Returns +nil+. */ static VALUE pgconn_setnonblocking(self, state) VALUE self, state; { int arg; VALUE error; PGconn *conn = pg_get_pgconn(self); if(state == Qtrue) arg = 1; else if (state == Qfalse) arg = 0; else rb_raise(rb_eArgError, "Boolean value expected"); if(PQsetnonblocking(conn, arg) == -1) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return Qnil; } /* * call-seq: * conn.isnonblocking() -> Boolean * * Returns +true+ if a command is busy, that is, if * PQgetResult would block. Otherwise returns +false+. */ static VALUE pgconn_isnonblocking(self) VALUE self; { return PQisnonblocking(pg_get_pgconn(self)) ? Qtrue : Qfalse; } /* * call-seq: * conn.flush() -> Boolean * * Attempts to flush any queued output data to the server. * Returns +true+ if data is successfully flushed, +false+ * if not (can only return +false+ if connection is * nonblocking. * Raises PGError exception if some other failure occurred. */ static VALUE pgconn_flush(self) VALUE self; { PGconn *conn = pg_get_pgconn(self); int ret; VALUE error; ret = PQflush(conn); if(ret == -1) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return (ret) ? Qfalse : Qtrue; } /* * call-seq: * conn.cancel() -> String * * Requests cancellation of the command currently being * processed. (Only implemented in PostgreSQL >= 8.0) * * Returns +nil+ on success, or a string containing the * error message if a failure occurs. */ static VALUE pgconn_cancel(VALUE self) { #ifdef HAVE_PQGETCANCEL char errbuf[256]; PGcancel *cancel; VALUE retval; int ret; cancel = PQgetCancel(pg_get_pgconn(self)); if(cancel == NULL) rb_raise(rb_ePGerror,"Invalid connection!"); ret = PQcancel(cancel, errbuf, 256); if(ret == 1) retval = Qnil; else retval = rb_str_new2(errbuf); PQfreeCancel(cancel); return retval; #else rb_notimplement(); #endif } /* * call-seq: * conn.notifies() * * Returns a hash of the unprocessed notifications. * If there is no unprocessed notifier, it returns +nil+. */ static VALUE pgconn_notifies(VALUE self) { PGconn* conn = pg_get_pgconn(self); PGnotify *notification; VALUE hash; VALUE sym_relname, sym_be_pid, sym_extra; VALUE relname, be_pid, extra; sym_relname = ID2SYM(rb_intern("relname")); sym_be_pid = ID2SYM(rb_intern("be_pid")); sym_extra = ID2SYM(rb_intern("extra")); notification = PQnotifies(conn); if (notification == NULL) { return Qnil; } hash = rb_hash_new(); relname = rb_tainted_str_new2(notification->relname); be_pid = INT2NUM(notification->be_pid); extra = rb_tainted_str_new2(notification->extra); rb_hash_aset(hash, sym_relname, relname); rb_hash_aset(hash, sym_be_pid, be_pid); rb_hash_aset(hash, sym_extra, extra); PQfreemem(notification); return hash; } #ifdef _WIN32 /* * Duplicate the sockets from libpq and create temporary CRT FDs */ void create_crt_fd(fd_set *os_set, fd_set *crt_set) { int i; crt_set->fd_count = os_set->fd_count; for (i = 0; i < os_set->fd_count; i++) { WSAPROTOCOL_INFO wsa_pi; /* dupicate the SOCKET */ int r = WSADuplicateSocket(os_set->fd_array[i], GetCurrentProcessId(), &wsa_pi); SOCKET s = WSASocket(wsa_pi.iAddressFamily, wsa_pi.iSocketType, wsa_pi.iProtocol, &wsa_pi, 0, 0); /* create the CRT fd so ruby can get back to the SOCKET */ int fd = _open_osfhandle(s, O_RDWR|O_BINARY); os_set->fd_array[i] = s; crt_set->fd_array[i] = fd; } } /* * Clean up the CRT FDs from create_crt_fd() */ void cleanup_crt_fd(fd_set *os_set, fd_set *crt_set) { int i; for (i = 0; i < os_set->fd_count; i++) { /* cleanup the CRT fd */ _close(crt_set->fd_array[i]); /* cleanup the duplicated SOCKET */ closesocket(os_set->fd_array[i]); } } #endif /* * call-seq: * conn.wait_for_notify( [ timeout ] ) -> String * conn.wait_for_notify( [ timeout ] ) { |event, pid| block } * conn.wait_for_notify( [ timeout ] ) { |event, pid, payload| block } # PostgreSQL 9.0 * * Blocks while waiting for notification(s), or until the optional * _timeout_ is reached, whichever comes first. _timeout_ is * measured in seconds and can be fractional. * * Returns +nil+ if _timeout_ is reached, the name of the NOTIFY * event otherwise. If used in block form, passes the name of the * NOTIFY +event+ and the generating +pid+ into the block. * * Under PostgreSQL 9.0 and later, if the notification is sent with * the optional +payload+ string, it will be given to the block as the * third argument. * */ static VALUE pgconn_wait_for_notify(int argc, VALUE *argv, VALUE self) { PGconn *conn = pg_get_pgconn( self ); PGnotify *notification; int sd = PQsocket( conn ); int ret; struct timeval timeout; struct timeval *ptimeout = NULL; VALUE timeout_in = Qnil, relname = Qnil, be_pid = Qnil, extra = Qnil; double timeout_sec; fd_set sd_rset; #ifdef _WIN32 fd_set crt_sd_rset; #endif if ( sd < 0 ) rb_bug( "PQsocket(conn): couldn't fetch the connection's socket!" ); rb_scan_args( argc, argv, "01", &timeout_in ); if ( RTEST(timeout_in) ) { timeout_sec = NUM2DBL( timeout_in ); timeout.tv_sec = (time_t)timeout_sec; timeout.tv_usec = (suseconds_t)( (timeout_sec - (long)timeout_sec) * 1e6 ); ptimeout = &timeout; } /* Check for notifications */ while ( (notification = PQnotifies(conn)) == NULL ) { FD_ZERO( &sd_rset ); FD_SET( sd, &sd_rset ); #ifdef _WIN32 create_crt_fd(&sd_rset, &crt_sd_rset); #endif /* Wait for the socket to become readable before checking again */ ret = rb_thread_select( sd+1, &sd_rset, NULL, NULL, ptimeout ); #ifdef _WIN32 cleanup_crt_fd(&sd_rset, &crt_sd_rset); #endif if ( ret < 0 ) rb_sys_fail( 0 ); /* Return nil if the select timed out */ if ( ret == 0 ) return Qnil; /* Read the socket */ if ( (ret = PQconsumeInput(conn)) != 1 ) rb_raise( rb_ePGerror, "PQconsumeInput == %d: %s", ret, PQerrorMessage(conn) ); } relname = rb_tainted_str_new2( notification->relname ); ASSOCIATE_INDEX( relname, self ); be_pid = INT2NUM( notification->be_pid ); #ifdef HAVE_ST_NOTIFY_EXTRA if ( *notification->extra ) { extra = rb_tainted_str_new2( notification->extra ); ASSOCIATE_INDEX( extra, self ); } #endif PQfreemem( notification ); if ( rb_block_given_p() ) rb_yield_values( 3, relname, be_pid, extra ); return relname; } /* * call-seq: * conn.put_copy_data( buffer ) -> Boolean * * Transmits _buffer_ as copy data to the server. * Returns true if the data was sent, false if it was * not sent (false is only possible if the connection * is in nonblocking mode, and this command would block). * * Raises an exception if an error occurs. */ static VALUE pgconn_put_copy_data(self, buffer) VALUE self, buffer; { int ret; VALUE error; PGconn *conn = pg_get_pgconn(self); Check_Type(buffer, T_STRING); ret = PQputCopyData(conn, RSTRING_PTR(buffer), (int)RSTRING_LEN(buffer)); if(ret == -1) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return (ret) ? Qtrue : Qfalse; } /* * call-seq: * conn.put_copy_end( [ error_message ] ) -> Boolean * * Sends end-of-data indication to the server. * * _error_message_ is an optional parameter, and if set, * forces the COPY command to fail with the string * _error_message_. * * Returns true if the end-of-data was sent, false if it was * not sent (false is only possible if the connection * is in nonblocking mode, and this command would block). */ static VALUE pgconn_put_copy_end(int argc, VALUE *argv, VALUE self) { VALUE str; VALUE error; int ret; char *error_message = NULL; PGconn *conn = pg_get_pgconn(self); if (rb_scan_args(argc, argv, "01", &str) == 0) error_message = NULL; else error_message = StringValuePtr(str); ret = PQputCopyEnd(conn, error_message); if(ret == -1) { error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } return (ret) ? Qtrue : Qfalse; } /* * call-seq: * conn.get_copy_data( [ async = false ] ) -> String * * Return a string containing one row of data, +nil+ * if the copy is done, or +false+ if the call would * block (only possible if _async_ is true). * */ static VALUE pgconn_get_copy_data(int argc, VALUE *argv, VALUE self ) { VALUE async_in; VALUE error; VALUE result_str; int ret; int async; char *buffer; PGconn *conn = pg_get_pgconn(self); if (rb_scan_args(argc, argv, "01", &async_in) == 0) async = 0; else async = (async_in == Qfalse || async_in == Qnil) ? 0 : 1; ret = PQgetCopyData(conn, &buffer, async); if(ret == -2) { /* error */ error = rb_exc_new2(rb_ePGerror, PQerrorMessage(conn)); rb_iv_set(error, "@connection", self); rb_exc_raise(error); } if(ret == -1) { /* No data left */ return Qnil; } if(ret == 0) { /* would block */ return Qfalse; } result_str = rb_tainted_str_new(buffer, ret); PQfreemem(buffer); return result_str; } /* * call-seq: * conn.set_error_verbosity( verbosity ) -> Fixnum * * Sets connection's verbosity to _verbosity_ and returns * the previous setting. Available settings are: * * PQERRORS_TERSE * * PQERRORS_DEFAULT * * PQERRORS_VERBOSE */ static VALUE pgconn_set_error_verbosity(VALUE self, VALUE in_verbosity) { PGconn *conn = pg_get_pgconn(self); PGVerbosity verbosity = NUM2INT(in_verbosity); return INT2FIX(PQsetErrorVerbosity(conn, verbosity)); } /* * call-seq: * conn.trace( stream ) -> nil * * Enables tracing message passing between backend. The * trace message will be written to the stream _stream_, * which must implement a method +fileno+ that returns * a writable file descriptor. */ static VALUE pgconn_trace(VALUE self, VALUE stream) { VALUE fileno; FILE *new_fp; int old_fd, new_fd; VALUE new_file; if(rb_respond_to(stream,rb_intern("fileno")) == Qfalse) rb_raise(rb_eArgError, "stream does not respond to method: fileno"); fileno = rb_funcall(stream, rb_intern("fileno"), 0); if(fileno == Qnil) rb_raise(rb_eArgError, "can't get file descriptor from stream"); /* Duplicate the file descriptor and re-open * it. Then, make it into a ruby File object * and assign it to an instance variable. * This prevents a problem when the File * object passed to this function is closed * before the connection object is. */ old_fd = NUM2INT(fileno); new_fd = dup(old_fd); new_fp = fdopen(new_fd, "w"); if(new_fp == NULL) rb_raise(rb_eArgError, "stream is not writable"); new_file = rb_funcall(rb_cIO, rb_intern("new"), 1, INT2NUM(new_fd)); rb_iv_set(self, "@trace_stream", new_file); PQtrace(pg_get_pgconn(self), new_fp); return Qnil; } /* * call-seq: * conn.untrace() -> nil * * Disables the message tracing. */ static VALUE pgconn_untrace(VALUE self) { VALUE trace_stream; PQuntrace(pg_get_pgconn(self)); trace_stream = rb_iv_get(self, "@trace_stream"); rb_funcall(trace_stream, rb_intern("close"), 0); rb_iv_set(self, "@trace_stream", Qnil); return Qnil; } /* * Notice callback proxy function -- delegate the callback to the * currently-registered Ruby notice_receiver object. */ static void notice_receiver_proxy(void *arg, const PGresult *result) { VALUE proc; VALUE self = (VALUE)arg; if ((proc = rb_iv_get(self, "@notice_receiver")) != Qnil) { rb_funcall(proc, rb_intern("call"), 1, Data_Wrap_Struct(rb_cPGresult, NULL, NULL, (PGresult*)result)); } return; } /* * call-seq: * conn.set_notice_receiver {|result| ... } -> Proc * * Notice and warning messages generated by the server are not returned * by the query execution functions, since they do not imply failure of * the query. Instead they are passed to a notice handling function, and * execution continues normally after the handler returns. The default * notice handling function prints the message on stderr, but the * application can override this behavior by supplying its own handling * function. * * For historical reasons, there are two levels of notice handling, called the * notice receiver and notice processor. The default behavior is for the notice * receiver to format the notice and pass a string to the notice processor for * printing. However, an application that chooses to provide its own notice * receiver will typically ignore the notice processor layer and just do all * the work in the notice receiver. * * This function takes a new block to act as the handler, which should * accept a single parameter that will be a PGresult object, and returns * the Proc object previously set, or +nil+ if it was previously the default. * * If you pass no arguments, it will reset the handler to the default. */ static VALUE pgconn_set_notice_receiver(VALUE self) { VALUE proc, old_proc; PGconn *conn = pg_get_pgconn(self); /* If default_notice_receiver is unset, assume that the current * notice receiver is the default, and save it to a global variable. * This should not be a problem because the default receiver is * always the same, so won't vary among connections. */ if(default_notice_receiver == NULL) default_notice_receiver = PQsetNoticeReceiver(conn, NULL, NULL); old_proc = rb_iv_get(self, "@notice_receiver"); if( rb_block_given_p() ) { proc = rb_block_proc(); PQsetNoticeReceiver(conn, notice_receiver_proxy, (void *)self); } else { /* if no block is given, set back to default */ proc = Qnil; PQsetNoticeReceiver(conn, default_notice_receiver, NULL); } rb_iv_set(self, "@notice_receiver", proc); return old_proc; } /* * Notice callback proxy function -- delegate the callback to the * currently-registered Ruby notice_processor object. */ static void notice_processor_proxy(void *arg, const char *message) { VALUE proc; VALUE self = (VALUE)arg; if ((proc = rb_iv_get(self, "@notice_processor")) != Qnil) { rb_funcall(proc, rb_intern("call"), 1, rb_tainted_str_new2(message)); } return; } /* * call-seq: * conn.set_notice_processor {|message| ... } -> Proc * * See #set_notice_receiver for the desription of what this and the * notice_processor methods do. * * This function takes a new block to act as the notice processor and returns * the Proc object previously set, or +nil+ if it was previously the default. * The block should accept a single PG::Result object. * * If you pass no arguments, it will reset the handler to the default. */ static VALUE pgconn_set_notice_processor(VALUE self) { VALUE proc, old_proc; PGconn *conn = pg_get_pgconn(self); /* If default_notice_processor is unset, assume that the current * notice processor is the default, and save it to a global variable. * This should not be a problem because the default processor is * always the same, so won't vary among connections. */ if(default_notice_processor == NULL) default_notice_processor = PQsetNoticeProcessor(conn, NULL, NULL); old_proc = rb_iv_get(self, "@notice_processor"); if( rb_block_given_p() ) { proc = rb_block_proc(); PQsetNoticeProcessor(conn, notice_processor_proxy, (void *)self); } else { /* if no block is given, set back to default */ proc = Qnil; PQsetNoticeProcessor(conn, default_notice_processor, NULL); } rb_iv_set(self, "@notice_processor", proc); return old_proc; } /* * call-seq: * conn.get_client_encoding() -> String * * Returns the client encoding as a String. */ static VALUE pgconn_get_client_encoding(VALUE self) { char *encoding = (char *)pg_encoding_to_char(PQclientEncoding(pg_get_pgconn(self))); return rb_tainted_str_new2(encoding); } /* * call-seq: * conn.set_client_encoding( encoding ) * * Sets the client encoding to the _encoding_ String. */ static VALUE pgconn_set_client_encoding(VALUE self, VALUE str) { PGconn *conn = pg_get_pgconn( self ); Check_Type(str, T_STRING); if ( (PQsetClientEncoding(conn, StringValuePtr(str))) == -1 ) { rb_raise(rb_ePGerror, "invalid encoding name: %s",StringValuePtr(str)); } return Qnil; } /* * call-seq: * conn.transaction { |conn| ... } -> nil * * Executes a +BEGIN+ at the start of the block, * and a +COMMIT+ at the end of the block, or * +ROLLBACK+ if any exception occurs. */ static VALUE pgconn_transaction(VALUE self) { PGconn *conn = pg_get_pgconn(self); PGresult *result; VALUE rb_pgresult; int status; if (rb_block_given_p()) { result = PQexec(conn, "BEGIN"); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); rb_protect(rb_yield, self, &status); if(status == 0) { result = PQexec(conn, "COMMIT"); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); } else { /* exception occurred, ROLLBACK and re-raise */ result = PQexec(conn, "ROLLBACK"); rb_pgresult = pg_new_result(result, conn); pg_check_result(self, rb_pgresult); rb_jump_tag(status); } } else { /* no block supplied? */ rb_raise(rb_eArgError, "Must supply block for PG::Connection#transaction"); } return Qnil; } /* * call-seq: * PG::Connection.quote_ident( str ) -> String * conn.quote_ident( str ) -> String * * Returns a string that is safe for inclusion in a SQL query as an * identifier. Note: this is not a quote function for values, but for * identifiers. * * For example, in a typical SQL query: SELECT FOO FROM MYTABLE * The identifier FOO is folded to lower case, so it actually * means foo. If you really want to access the case-sensitive * field name FOO, use this function like * PG::Connection.quote_ident('FOO'), which will return "FOO" * (with double-quotes). PostgreSQL will see the double-quotes, and * it will not fold to lower case. * * Similarly, this function also protects against special characters, * and other things that might allow SQL injection if the identifier * comes from an untrusted source. */ static VALUE pgconn_s_quote_ident(VALUE self, VALUE in_str) { VALUE ret; char *str = StringValuePtr(in_str); /* result size at most NAMEDATALEN*2 plus surrounding * double-quotes. */ char buffer[NAMEDATALEN*2+2]; unsigned int i=0,j=0; UNUSED( self ); if(strlen(str) >= NAMEDATALEN) { rb_raise(rb_eArgError, "Input string is longer than NAMEDATALEN-1 (%d)", NAMEDATALEN-1); } buffer[j++] = '"'; for(i = 0; i < strlen(str) && str[i]; i++) { if(str[i] == '"') buffer[j++] = '"'; buffer[j++] = str[i]; } buffer[j++] = '"'; ret = rb_str_new(buffer,j); OBJ_INFECT(ret, in_str); return ret; } #ifndef _WIN32 /* * call-seq: * conn.block( [ timeout ] ) -> Boolean * * Blocks until the server is no longer busy, or until the * optional _timeout_ is reached, whichever comes first. * _timeout_ is measured in seconds and can be fractional. * * Returns +false+ if _timeout_ is reached, +true+ otherwise. * * If +true+ is returned, +conn.is_busy+ will return +false+ * and +conn.get_result+ will not block. */ static VALUE pgconn_block( int argc, VALUE *argv, VALUE self ) { PGconn *conn = pg_get_pgconn( self ); int sd = PQsocket( conn ); int ret; /* If WIN32 and Ruby 1.9 do not use rb_thread_select() which sometimes hangs * and does not wait (nor sleep) any time even if timeout is given. * Instead use the Winsock events and rb_w32_wait_events(). */ struct timeval timeout; struct timeval *ptimeout = NULL; fd_set sd_rset; VALUE timeout_in; double timeout_sec; if ( rb_scan_args(argc, argv, "01", &timeout_in) == 1 ) { timeout_sec = NUM2DBL( timeout_in ); timeout.tv_sec = (time_t)timeout_sec; timeout.tv_usec = (suseconds_t)((timeout_sec - (long)timeout_sec) * 1e6); ptimeout = &timeout; } /* Check for connection errors (PQisBusy is true on connection errors) */ if ( PQconsumeInput(conn) == 0 ) rb_raise( rb_ePGerror, "%s", PQerrorMessage(conn) ); while ( PQisBusy(conn) ) { FD_ZERO( &sd_rset ); FD_SET( sd, &sd_rset ); if ( (ret = rb_thread_select( sd+1, &sd_rset, NULL, NULL, ptimeout )) < 0 ) rb_sys_fail( "rb_thread_select()" ); /* Raises */ /* Return false if there was a timeout argument and the select() timed out */ if ( ret == 0 && argc ) return Qfalse; /* Check for connection errors (PQisBusy is true on connection errors) */ if ( PQconsumeInput(conn) == 0 ) rb_raise( rb_ePGerror, "%s", PQerrorMessage(conn) ); } return Qtrue; } #else /* _WIN32 */ /* * Win32 PG::Connection#block -- on Windows, use platform-specific strategies to wait for the socket * instead of rb_thread_select(). */ /* Win32 + Ruby 1.9+ */ #ifdef HAVE_RUBY_VM_H int rb_w32_wait_events( HANDLE *events, int num, DWORD timeout ); /* If WIN32 and Ruby 1.9 do not use rb_thread_select() which sometimes hangs * and does not wait (nor sleep) any time even if timeout is given. * Instead use the Winsock events and rb_w32_wait_events(). */ static VALUE pgconn_block( int argc, VALUE *argv, VALUE self ) { PGconn *conn = pg_get_pgconn( self ); int sd = PQsocket( conn ); int ret; DWORD timeout_milisec = INFINITY; DWORD wait_ret; WSAEVENT hEvent; VALUE timeout_in; double timeout_sec; hEvent = WSACreateEvent(); if ( rb_scan_args(argc, argv, "01", &timeout_in) == 1 ) { timeout_sec = NUM2DBL( timeout_in ); timeout_milisec = (DWORD)( (timeout_sec - (DWORD)timeout_sec) * 1e3 ); } /* Check for connection errors (PQisBusy is true on connection errors) */ if( PQconsumeInput(conn) == 0 ) { WSACloseEvent( hEvent ); rb_raise( rb_ePGerror, PQerrorMessage(conn) ); } while ( PQisBusy(conn) ) { if ( WSAEventSelect(sd, hEvent, FD_READ|FD_CLOSE) == SOCKET_ERROR ) { WSACloseEvent( hEvent ); rb_raise( rb_ePGerror, "WSAEventSelect socket error: %d", WSAGetLastError() ); } wait_ret = rb_w32_wait_events( &hEvent, 1, 100 ); if ( wait_ret == WAIT_TIMEOUT ) { ret = 0; } else if ( wait_ret == WAIT_OBJECT_0 ) { ret = 1; } else if ( wait_ret == WAIT_FAILED ) { WSACloseEvent( hEvent ); rb_raise( rb_ePGerror, "Wait on socket error (WaitForMultipleObjects): %d", GetLastError() ); } else { WSACloseEvent( hEvent ); rb_raise( rb_ePGerror, "Wait on socket abandoned (WaitForMultipleObjects)" ); } /* Return false if there was a timeout argument and the select() timed out */ if ( ret == 0 && argc ) { WSACloseEvent( hEvent ); return Qfalse; } /* Check for connection errors (PQisBusy is true on connection errors) */ if ( PQconsumeInput(conn) == 0 ) { WSACloseEvent( hEvent ); rb_raise( rb_ePGerror, PQerrorMessage(conn) ); } } WSACloseEvent( hEvent ); return Qtrue; } #else /* Win32 + Ruby < 1.9 */ static VALUE pgconn_block( int argc, VALUE *argv, VALUE self ) { PGconn *conn = pg_get_pgconn( self ); int sd = PQsocket( conn ); int ret; struct timeval timeout; struct timeval *ptimeout = NULL; fd_set sd_rset; fd_set crt_sd_rset; VALUE timeout_in; double timeout_sec; /* Always set a timeout, as rb_thread_select() sometimes * doesn't return when a second ruby thread is running although data * could be read. So we use timeout-based polling instead. */ timeout.tv_sec = 0; timeout.tv_usec = 10000; /* 10ms */ ptimeout = &timeout; if ( rb_scan_args(argc, argv, "01", &timeout_in) == 1 ) { timeout_sec = NUM2DBL( timeout_in ); timeout.tv_sec = (time_t)timeout_sec; timeout.tv_usec = (suseconds_t)((timeout_sec - (long)timeout_sec) * 1e6); ptimeout = &timeout; } /* Check for connection errors (PQisBusy is true on connection errors) */ if( PQconsumeInput(conn) == 0 ) rb_raise( rb_ePGerror, PQerrorMessage(conn) ); while ( PQisBusy(conn) ) { FD_ZERO( &sd_rset ); FD_SET( sd, &sd_rset ); create_crt_fd( &sd_rset, &crt_sd_rset ); ret = rb_thread_select( sd+1, &sd_rset, NULL, NULL, ptimeout ); cleanup_crt_fd( &sd_rset, &crt_sd_rset ); /* Return false if there was a timeout argument and the select() timed out */ if ( ret == 0 && argc ) return Qfalse; /* Check for connection errors (PQisBusy is true on connection errors) */ if ( PQconsumeInput(conn) == 0 ) rb_raise( rb_ePGerror, PQerrorMessage(conn) ); } return Qtrue; } #endif /* Ruby 1.9 */ #endif /* Win32 */ /* * call-seq: * conn.get_last_result( ) -> PGresult * * This function retrieves all available results * on the current connection (from previously issued * asynchronous commands like +send_query()+) and * returns the last non-NULL result, or +nil+ if no * results are available. * * This function is similar to #get_result * except that it is designed to get one and only * one result. */ static VALUE pgconn_get_last_result(VALUE self) { PGconn *conn = pg_get_pgconn(self); VALUE rb_pgresult = Qnil; PGresult *cur, *prev; cur = prev = NULL; while ((cur = PQgetResult(conn)) != NULL) { int status; if (prev) PQclear(prev); prev = cur; status = PQresultStatus(cur); if (status == PGRES_COPY_OUT || status == PGRES_COPY_IN) break; } if (prev) { rb_pgresult = pg_new_result(prev, conn); pg_check_result(self, rb_pgresult); } return rb_pgresult; } /* * call-seq: * conn.async_exec(sql [, params, result_format ] ) -> PGresult * conn.async_exec(sql [, params, result_format ] ) {|pg_result| block } * * This function has the same behavior as #exec, * except that it's implemented using asynchronous command * processing and ruby's +rb_thread_select+ in order to * allow other threads to process while waiting for the * server to complete the request. */ static VALUE pgconn_async_exec(int argc, VALUE *argv, VALUE self) { VALUE rb_pgresult = Qnil; /* remove any remaining results from the queue */ pgconn_block( 0, NULL, self ); /* wait for input (without blocking) before reading the last result */ pgconn_get_last_result( self ); pgconn_send_query( argc, argv, self ); pgconn_block( 0, NULL, self ); rb_pgresult = pgconn_get_last_result( self ); if ( rb_block_given_p() ) { return rb_ensure( rb_yield, rb_pgresult, pg_result_clear, rb_pgresult ); } return rb_pgresult; } /************************************************************************** * LARGE OBJECT SUPPORT **************************************************************************/ /* * call-seq: * conn.lo_creat( [mode] ) -> Fixnum * * Creates a large object with mode _mode_. Returns a large object Oid. * On failure, it raises PGError exception. */ static VALUE pgconn_locreat(int argc, VALUE *argv, VALUE self) { Oid lo_oid; int mode; VALUE nmode; PGconn *conn = pg_get_pgconn(self); if (rb_scan_args(argc, argv, "01", &nmode) == 0) mode = INV_READ; else mode = NUM2INT(nmode); lo_oid = lo_creat(conn, mode); if (lo_oid == 0) rb_raise(rb_ePGerror, "lo_creat failed"); return INT2FIX(lo_oid); } /* * call-seq: * conn.lo_create( oid ) -> Fixnum * * Creates a large object with oid _oid_. Returns the large object Oid. * On failure, it raises PGError exception. */ static VALUE pgconn_locreate(VALUE self, VALUE in_lo_oid) { Oid ret, lo_oid; PGconn *conn = pg_get_pgconn(self); lo_oid = NUM2INT(in_lo_oid); ret = lo_create(conn, lo_oid); if (ret == InvalidOid) rb_raise(rb_ePGerror, "lo_create failed"); return INT2FIX(ret); } /* * call-seq: * conn.lo_import(file) -> Fixnum * * Import a file to a large object. Returns a large object Oid. * * On failure, it raises a PGError exception. */ static VALUE pgconn_loimport(VALUE self, VALUE filename) { Oid lo_oid; PGconn *conn = pg_get_pgconn(self); Check_Type(filename, T_STRING); lo_oid = lo_import(conn, StringValuePtr(filename)); if (lo_oid == 0) { rb_raise(rb_ePGerror, "%s", PQerrorMessage(conn)); } return INT2FIX(lo_oid); } /* * call-seq: * conn.lo_export( oid, file ) -> nil * * Saves a large object of _oid_ to a _file_. */ static VALUE pgconn_loexport(VALUE self, VALUE lo_oid, VALUE filename) { PGconn *conn = pg_get_pgconn(self); int oid; Check_Type(filename, T_STRING); oid = NUM2INT(lo_oid); if (oid < 0) { rb_raise(rb_ePGerror, "invalid large object oid %d",oid); } if (lo_export(conn, oid, StringValuePtr(filename)) < 0) { rb_raise(rb_ePGerror, "%s", PQerrorMessage(conn)); } return Qnil; } /* * call-seq: * conn.lo_open( oid, [mode] ) -> Fixnum * * Open a large object of _oid_. Returns a large object descriptor * instance on success. The _mode_ argument specifies the mode for * the opened large object,which is either +INV_READ+, or +INV_WRITE+. * * If _mode_ is omitted, the default is +INV_READ+. */ static VALUE pgconn_loopen(int argc, VALUE *argv, VALUE self) { Oid lo_oid; int fd, mode; VALUE nmode, selfid; PGconn *conn = pg_get_pgconn(self); rb_scan_args(argc, argv, "11", &selfid, &nmode); lo_oid = NUM2INT(selfid); if(NIL_P(nmode)) mode = INV_READ; else mode = NUM2INT(nmode); if((fd = lo_open(conn, lo_oid, mode)) < 0) { rb_raise(rb_ePGerror, "can't open large object: %s", PQerrorMessage(conn)); } return INT2FIX(fd); } /* * call-seq: * conn.lo_write( lo_desc, buffer ) -> Fixnum * * Writes the string _buffer_ to the large object _lo_desc_. * Returns the number of bytes written. */ static VALUE pgconn_lowrite(VALUE self, VALUE in_lo_desc, VALUE buffer) { int n; PGconn *conn = pg_get_pgconn(self); int fd = NUM2INT(in_lo_desc); Check_Type(buffer, T_STRING); if( RSTRING_LEN(buffer) < 0) { rb_raise(rb_ePGerror, "write buffer zero string"); } if((n = lo_write(conn, fd, StringValuePtr(buffer), RSTRING_LEN(buffer))) < 0) { rb_raise(rb_ePGerror, "lo_write failed: %s", PQerrorMessage(conn)); } return INT2FIX(n); } /* * call-seq: * conn.lo_read( lo_desc, len ) -> String * * Attempts to read _len_ bytes from large object _lo_desc_, * returns resulting data. */ static VALUE pgconn_loread(VALUE self, VALUE in_lo_desc, VALUE in_len) { int ret; PGconn *conn = pg_get_pgconn(self); int len = NUM2INT(in_len); int lo_desc = NUM2INT(in_lo_desc); VALUE str; char *buffer; buffer = ALLOC_N(char, len); if(buffer == NULL) rb_raise(rb_eNoMemError, "ALLOC failed!"); if (len < 0){ rb_raise(rb_ePGerror,"nagative length %d given", len); } if((ret = lo_read(conn, lo_desc, buffer, len)) < 0) rb_raise(rb_ePGerror, "lo_read failed"); if(ret == 0) { xfree(buffer); return Qnil; } str = rb_tainted_str_new(buffer, ret); xfree(buffer); return str; } /* * call-seq: * conn.lo_lseek( lo_desc, offset, whence ) -> Fixnum * * Move the large object pointer _lo_desc_ to offset _offset_. * Valid values for _whence_ are +SEEK_SET+, +SEEK_CUR+, and +SEEK_END+. * (Or 0, 1, or 2.) */ static VALUE pgconn_lolseek(VALUE self, VALUE in_lo_desc, VALUE offset, VALUE whence) { PGconn *conn = pg_get_pgconn(self); int lo_desc = NUM2INT(in_lo_desc); int ret; if((ret = lo_lseek(conn, lo_desc, NUM2INT(offset), NUM2INT(whence))) < 0) { rb_raise(rb_ePGerror, "lo_lseek failed"); } return INT2FIX(ret); } /* * call-seq: * conn.lo_tell( lo_desc ) -> Fixnum * * Returns the current position of the large object _lo_desc_. */ static VALUE pgconn_lotell(VALUE self, VALUE in_lo_desc) { int position; PGconn *conn = pg_get_pgconn(self); int lo_desc = NUM2INT(in_lo_desc); if((position = lo_tell(conn, lo_desc)) < 0) rb_raise(rb_ePGerror,"lo_tell failed"); return INT2FIX(position); } /* * call-seq: * conn.lo_truncate( lo_desc, len ) -> nil * * Truncates the large object _lo_desc_ to size _len_. */ static VALUE pgconn_lotruncate(VALUE self, VALUE in_lo_desc, VALUE in_len) { PGconn *conn = pg_get_pgconn(self); int lo_desc = NUM2INT(in_lo_desc); size_t len = NUM2INT(in_len); if(lo_truncate(conn,lo_desc,len) < 0) rb_raise(rb_ePGerror,"lo_truncate failed"); return Qnil; } /* * call-seq: * conn.lo_close( lo_desc ) -> nil * * Closes the postgres large object of _lo_desc_. */ static VALUE pgconn_loclose(VALUE self, VALUE in_lo_desc) { PGconn *conn = pg_get_pgconn(self); int lo_desc = NUM2INT(in_lo_desc); if(lo_close(conn,lo_desc) < 0) rb_raise(rb_ePGerror,"lo_close failed"); return Qnil; } /* * call-seq: * conn.lo_unlink( oid ) -> nil * * Unlinks (deletes) the postgres large object of _oid_. */ static VALUE pgconn_lounlink(VALUE self, VALUE in_oid) { PGconn *conn = pg_get_pgconn(self); int oid = NUM2INT(in_oid); if (oid < 0) rb_raise(rb_ePGerror, "invalid oid %d",oid); if(lo_unlink(conn,oid) < 0) rb_raise(rb_ePGerror,"lo_unlink failed"); return Qnil; } #ifdef M17N_SUPPORTED /* * call-seq: * conn.internal_encoding -> Encoding * * defined in Ruby 1.9 or later. * * Returns: * * an Encoding - client_encoding of the connection as a Ruby Encoding object. * * nil - the client_encoding is 'SQL_ASCII' */ static VALUE pgconn_internal_encoding(VALUE self) { PGconn *conn = pg_get_pgconn( self ); rb_encoding *enc = pg_conn_enc_get( conn ); if ( enc ) { return rb_enc_from_encoding( enc ); } else { return Qnil; } } static VALUE pgconn_external_encoding(VALUE self); /* * call-seq: * conn.internal_encoding = value * * A wrapper of #set_client_encoding. * defined in Ruby 1.9 or later. * * +value+ can be one of: * * an Encoding * * a String - a name of Encoding * * +nil+ - sets the client_encoding to SQL_ASCII. */ static VALUE pgconn_internal_encoding_set(VALUE self, VALUE enc) { if (NIL_P(enc)) { pgconn_set_client_encoding( self, rb_usascii_str_new_cstr("SQL_ASCII") ); return enc; } else if ( TYPE(enc) == T_STRING && strcasecmp("JOHAB", RSTRING_PTR(enc)) == 0 ) { pgconn_set_client_encoding(self, rb_usascii_str_new_cstr("JOHAB")); return enc; } else { rb_encoding *rbenc = rb_to_encoding( enc ); const char *name = pg_get_rb_encoding_as_pg_encoding( rbenc ); if ( PQsetClientEncoding(pg_get_pgconn( self ), name) == -1 ) { VALUE server_encoding = pgconn_external_encoding( self ); rb_raise( rb_eEncCompatError, "incompatible character encodings: %s and %s", rb_enc_name(rb_to_encoding(server_encoding)), name ); } return enc; } rb_raise( rb_ePGerror, "unknown encoding: %s", RSTRING_PTR(rb_inspect(enc)) ); return Qnil; } /* * call-seq: * conn.external_encoding() -> Encoding * * defined in Ruby 1.9 or later. * - Returns the server_encoding of the connected database as a Ruby Encoding object. * - Maps 'SQL_ASCII' to ASCII-8BIT. */ static VALUE pgconn_external_encoding(VALUE self) { PGconn *conn = pg_get_pgconn( self ); VALUE encoding = rb_iv_get( self, "@external_encoding" ); rb_encoding *enc = NULL; const char *pg_encname = NULL; /* Use cached value if found */ if ( RTEST(encoding) ) return encoding; pg_encname = PQparameterStatus( conn, "server_encoding" ); enc = pg_get_pg_encname_as_rb_encoding( pg_encname ); encoding = rb_enc_from_encoding( enc ); rb_iv_set( self, "@external_encoding", encoding ); return encoding; } #endif /* M17N_SUPPORTED */ void init_pg_connection() { rb_cPGconn = rb_define_class_under( rb_mPG, "Connection", rb_cObject ); rb_include_module(rb_cPGconn, rb_mPGconstants); /****** PG::Connection CLASS METHODS ******/ rb_define_alloc_func( rb_cPGconn, pgconn_s_allocate ); SINGLETON_ALIAS(rb_cPGconn, "connect", "new"); SINGLETON_ALIAS(rb_cPGconn, "open", "new"); SINGLETON_ALIAS(rb_cPGconn, "setdb", "new"); SINGLETON_ALIAS(rb_cPGconn, "setdblogin", "new"); rb_define_singleton_method(rb_cPGconn, "escape_string", pgconn_s_escape, 1); SINGLETON_ALIAS(rb_cPGconn, "escape", "escape_string"); rb_define_singleton_method(rb_cPGconn, "escape_bytea", pgconn_s_escape_bytea, 1); rb_define_singleton_method(rb_cPGconn, "unescape_bytea", pgconn_s_unescape_bytea, 1); rb_define_singleton_method(rb_cPGconn, "isthreadsafe", pgconn_s_isthreadsafe, 0); rb_define_singleton_method(rb_cPGconn, "encrypt_password", pgconn_s_encrypt_password, 2); rb_define_singleton_method(rb_cPGconn, "quote_ident", pgconn_s_quote_ident, 1); rb_define_singleton_method(rb_cPGconn, "connect_start", pgconn_s_connect_start, -1); rb_define_singleton_method(rb_cPGconn, "conndefaults", pgconn_s_conndefaults, 0); /****** PG::Connection INSTANCE METHODS: Connection Control ******/ rb_define_method(rb_cPGconn, "initialize", pgconn_init, -1); rb_define_method(rb_cPGconn, "connect_poll", pgconn_connect_poll, 0); rb_define_method(rb_cPGconn, "finish", pgconn_finish, 0); rb_define_method(rb_cPGconn, "finished?", pgconn_finished_p, 0); rb_define_method(rb_cPGconn, "reset", pgconn_reset, 0); rb_define_method(rb_cPGconn, "reset_start", pgconn_reset_start, 0); rb_define_method(rb_cPGconn, "reset_poll", pgconn_reset_poll, 0); rb_define_method(rb_cPGconn, "conndefaults", pgconn_s_conndefaults, 0); rb_define_alias(rb_cPGconn, "close", "finish"); /****** PG::Connection INSTANCE METHODS: Connection Status ******/ rb_define_method(rb_cPGconn, "db", pgconn_db, 0); rb_define_method(rb_cPGconn, "user", pgconn_user, 0); rb_define_method(rb_cPGconn, "pass", pgconn_pass, 0); rb_define_method(rb_cPGconn, "host", pgconn_host, 0); rb_define_method(rb_cPGconn, "port", pgconn_port, 0); rb_define_method(rb_cPGconn, "tty", pgconn_tty, 0); rb_define_method(rb_cPGconn, "options", pgconn_options, 0); rb_define_method(rb_cPGconn, "status", pgconn_status, 0); rb_define_method(rb_cPGconn, "transaction_status", pgconn_transaction_status, 0); rb_define_method(rb_cPGconn, "parameter_status", pgconn_parameter_status, 1); rb_define_method(rb_cPGconn, "protocol_version", pgconn_protocol_version, 0); rb_define_method(rb_cPGconn, "server_version", pgconn_server_version, 0); rb_define_method(rb_cPGconn, "error_message", pgconn_error_message, 0); rb_define_method(rb_cPGconn, "socket", pgconn_socket, 0); rb_define_method(rb_cPGconn, "backend_pid", pgconn_backend_pid, 0); rb_define_method(rb_cPGconn, "connection_needs_password", pgconn_connection_needs_password, 0); rb_define_method(rb_cPGconn, "connection_used_password", pgconn_connection_used_password, 0); /* rb_define_method(rb_cPGconn, "getssl", pgconn_getssl, 0); */ /****** PG::Connection INSTANCE METHODS: Command Execution ******/ rb_define_method(rb_cPGconn, "exec", pgconn_exec, -1); rb_define_alias(rb_cPGconn, "query", "exec"); rb_define_method(rb_cPGconn, "prepare", pgconn_prepare, -1); rb_define_method(rb_cPGconn, "exec_prepared", pgconn_exec_prepared, -1); rb_define_method(rb_cPGconn, "describe_prepared", pgconn_describe_prepared, 1); rb_define_method(rb_cPGconn, "describe_portal", pgconn_describe_portal, 1); rb_define_method(rb_cPGconn, "make_empty_pgresult", pgconn_make_empty_pgresult, 1); rb_define_method(rb_cPGconn, "escape_string", pgconn_s_escape, 1); rb_define_alias(rb_cPGconn, "escape", "escape_string"); rb_define_method(rb_cPGconn, "escape_bytea", pgconn_s_escape_bytea, 1); rb_define_method(rb_cPGconn, "unescape_bytea", pgconn_s_unescape_bytea, 1); /****** PG::Connection INSTANCE METHODS: Asynchronous Command Processing ******/ rb_define_method(rb_cPGconn, "send_query", pgconn_send_query, -1); rb_define_method(rb_cPGconn, "send_prepare", pgconn_send_prepare, -1); rb_define_method(rb_cPGconn, "send_query_prepared", pgconn_send_query_prepared, -1); rb_define_method(rb_cPGconn, "send_describe_prepared", pgconn_send_describe_prepared, 1); rb_define_method(rb_cPGconn, "send_describe_portal", pgconn_send_describe_portal, 1); rb_define_method(rb_cPGconn, "get_result", pgconn_get_result, 0); rb_define_method(rb_cPGconn, "consume_input", pgconn_consume_input, 0); rb_define_method(rb_cPGconn, "is_busy", pgconn_is_busy, 0); rb_define_method(rb_cPGconn, "setnonblocking", pgconn_setnonblocking, 1); rb_define_method(rb_cPGconn, "isnonblocking", pgconn_isnonblocking, 0); rb_define_alias(rb_cPGconn, "nonblocking?", "isnonblocking"); rb_define_method(rb_cPGconn, "flush", pgconn_flush, 0); /****** PG::Connection INSTANCE METHODS: Cancelling Queries in Progress ******/ rb_define_method(rb_cPGconn, "cancel", pgconn_cancel, 0); /****** PG::Connection INSTANCE METHODS: NOTIFY ******/ rb_define_method(rb_cPGconn, "notifies", pgconn_notifies, 0); /****** PG::Connection INSTANCE METHODS: COPY ******/ rb_define_method(rb_cPGconn, "put_copy_data", pgconn_put_copy_data, 1); rb_define_method(rb_cPGconn, "put_copy_end", pgconn_put_copy_end, -1); rb_define_method(rb_cPGconn, "get_copy_data", pgconn_get_copy_data, -1); /****** PG::Connection INSTANCE METHODS: Control Functions ******/ rb_define_method(rb_cPGconn, "set_error_verbosity", pgconn_set_error_verbosity, 1); rb_define_method(rb_cPGconn, "trace", pgconn_trace, 1); rb_define_method(rb_cPGconn, "untrace", pgconn_untrace, 0); /****** PG::Connection INSTANCE METHODS: Notice Processing ******/ rb_define_method(rb_cPGconn, "set_notice_receiver", pgconn_set_notice_receiver, 0); rb_define_method(rb_cPGconn, "set_notice_processor", pgconn_set_notice_processor, 0); /****** PG::Connection INSTANCE METHODS: Other ******/ rb_define_method(rb_cPGconn, "get_client_encoding", pgconn_get_client_encoding, 0); rb_define_method(rb_cPGconn, "set_client_encoding", pgconn_set_client_encoding, 1); rb_define_alias(rb_cPGconn, "client_encoding=", "set_client_encoding"); rb_define_method(rb_cPGconn, "transaction", pgconn_transaction, 0); rb_define_method(rb_cPGconn, "block", pgconn_block, -1); rb_define_method(rb_cPGconn, "wait_for_notify", pgconn_wait_for_notify, -1); rb_define_alias(rb_cPGconn, "notifies_wait", "wait_for_notify"); rb_define_method(rb_cPGconn, "quote_ident", pgconn_s_quote_ident, 1); rb_define_method(rb_cPGconn, "async_exec", pgconn_async_exec, -1); rb_define_alias(rb_cPGconn, "async_query", "async_exec"); rb_define_method(rb_cPGconn, "get_last_result", pgconn_get_last_result, 0); /****** PG::Connection INSTANCE METHODS: Large Object Support ******/ rb_define_method(rb_cPGconn, "lo_creat", pgconn_locreat, -1); rb_define_alias(rb_cPGconn, "locreat", "lo_creat"); rb_define_method(rb_cPGconn, "lo_create", pgconn_locreate, 1); rb_define_alias(rb_cPGconn, "locreate", "lo_create"); rb_define_method(rb_cPGconn, "lo_import", pgconn_loimport, 1); rb_define_alias(rb_cPGconn, "loimport", "lo_import"); rb_define_method(rb_cPGconn, "lo_export", pgconn_loexport, 2); rb_define_alias(rb_cPGconn, "loexport", "lo_export"); rb_define_method(rb_cPGconn, "lo_open", pgconn_loopen, -1); rb_define_alias(rb_cPGconn, "loopen", "lo_open"); rb_define_method(rb_cPGconn, "lo_write",pgconn_lowrite, 2); rb_define_alias(rb_cPGconn, "lowrite", "lo_write"); rb_define_method(rb_cPGconn, "lo_read",pgconn_loread, 2); rb_define_alias(rb_cPGconn, "loread", "lo_read"); rb_define_method(rb_cPGconn, "lo_lseek",pgconn_lolseek, 3); rb_define_alias(rb_cPGconn, "lolseek", "lo_lseek"); rb_define_alias(rb_cPGconn, "lo_seek", "lo_lseek"); rb_define_alias(rb_cPGconn, "loseek", "lo_lseek"); rb_define_method(rb_cPGconn, "lo_tell",pgconn_lotell, 1); rb_define_alias(rb_cPGconn, "lotell", "lo_tell"); rb_define_method(rb_cPGconn, "lo_truncate", pgconn_lotruncate, 2); rb_define_alias(rb_cPGconn, "lotruncate", "lo_truncate"); rb_define_method(rb_cPGconn, "lo_close",pgconn_loclose, 1); rb_define_alias(rb_cPGconn, "loclose", "lo_close"); rb_define_method(rb_cPGconn, "lo_unlink", pgconn_lounlink, 1); rb_define_alias(rb_cPGconn, "lounlink", "lo_unlink"); #ifdef M17N_SUPPORTED rb_define_method(rb_cPGconn, "internal_encoding", pgconn_internal_encoding, 0); rb_define_method(rb_cPGconn, "internal_encoding=", pgconn_internal_encoding_set, 1); rb_define_method(rb_cPGconn, "external_encoding", pgconn_external_encoding, 0); #endif /* M17N_SUPPORTED */ }