/*! Rust-Postgres is a pure-Rust frontend for the popular PostgreSQL database. It exposes a high level interface in the vein of JDBC or Go's `database/sql` package. ```rust,no_run extern crate postgres; extern crate time; use time::Timespec; use postgres::{PostgresConnection, NoSsl}; use postgres::types::ToSql; struct Person { id: i32, name: String, time_created: Timespec, data: Option> } fn main() { let conn = PostgresConnection::connect("postgresql://postgres@localhost", &NoSsl).unwrap(); conn.execute("CREATE TABLE person ( id SERIAL PRIMARY KEY, name VARCHAR NOT NULL, time_created TIMESTAMP NOT NULL, data BYTEA )", []).unwrap(); let me = Person { id: 0, name: "Steven".to_str(), time_created: time::get_time(), data: None }; conn.execute("INSERT INTO person (name, time_created, data) VALUES ($1, $2, $3)", [&me.name as &ToSql, &me.time_created as &ToSql, &me.data as &ToSql]).unwrap(); let stmt = conn.prepare("SELECT id, name, time_created, data FROM person") .unwrap(); for row in stmt.query([]).unwrap() { let person = Person { id: row[1], name: row[2], time_created: row[3], data: row[4] }; println!("Found person {}", person.name); } } ``` */ #![crate_id="github.com/sfackler/rust-postgres#postgres:0.0"] #![crate_type="rlib"] #![crate_type="dylib"] #![doc(html_root_url="http://sfackler.github.io/rust-postgres/doc")] #![warn(missing_doc)] #![feature(macro_rules, struct_variant, phase)] extern crate collections; extern crate openssl; extern crate serialize; extern crate sync; extern crate time; extern crate phf; #[phase(syntax)] extern crate phf_mac; extern crate url; #[phase(syntax, link)] extern crate log; extern crate uuid; use collections::{Deque, RingBuf}; use url::{UserInfo, Url}; use openssl::crypto::hash::{MD5, Hasher}; use openssl::ssl::SslContext; use serialize::hex::ToHex; use std::cell::{Cell, RefCell}; use std::collections::HashMap; use std::from_str::FromStr; use std::io::{BufferedStream, IoResult}; use std::io::net::ip::Port; use std::mem; use std::task; use std::fmt; use error::{InvalidUrl, MissingPassword, MissingUser, PgConnectDbError, PgConnectStreamError, PgDbError, PgInvalidColumn, PgStreamDesynchronized, PgStreamError, PgWrongParamCount, PostgresConnectError, PostgresDbError, PostgresError, UnsupportedAuthentication, PgWrongConnection, PgWrongTransaction}; use io::{MaybeSslStream, InternalStream}; use message::{AuthenticationCleartextPassword, AuthenticationGSS, AuthenticationKerberosV5, AuthenticationMD5Password, AuthenticationOk, AuthenticationSCMCredential, AuthenticationSSPI, BackendKeyData, BackendMessage, BindComplete, CommandComplete, DataRow, EmptyQueryResponse, ErrorResponse, NoData, NoticeResponse, NotificationResponse, ParameterDescription, ParameterStatus, ParseComplete, PortalSuspended, ReadyForQuery, RowDescription, RowDescriptionEntry}; use message::{Bind, CancelRequest, Close, Describe, Execute, FrontendMessage, Parse, PasswordMessage, Query, StartupMessage, Sync, Terminate}; use message::{WriteMessage, ReadMessage}; use types::{Oid, PostgresType, ToSql, FromSql, PgUnknownType}; macro_rules! try_pg_conn( ($e:expr) => ( match $e { Ok(ok) => ok, Err(err) => return Err(PgConnectStreamError(err)) } ) ) macro_rules! try_pg( ($e:expr) => ( match $e { Ok(ok) => ok, Err(err) => return Err(PgStreamError(err)) } ) ) macro_rules! try_desync( ($e:expr) => ( match $e { Ok(ok) => ok, Err(err) => { self.desynchronized = true; return Err(err); } } ) ) macro_rules! check_desync( ($e:expr) => ({ if $e.canary() != CANARY { fail!("PostgresConnection use after free. See mozilla/rust#13246."); } if $e.is_desynchronized() { return Err(PgStreamDesynchronized); } }) ) pub mod error; mod io; pub mod pool; mod message; pub mod types; #[cfg(test)] mod test; static CANARY: u32 = 0xdeadbeef; /// A typedef of the result returned by many methods. pub type PostgresResult = Result; /// Specifies the target server to connect to. #[deriving(Clone)] pub enum PostgresConnectTarget { /// Connect via TCP to the specified host. TargetTcp(String), /// Connect via a Unix domain socket in the specified directory. TargetUnix(Path) } /// Information necessary to open a new connection to a Postgres server. #[deriving(Clone)] pub struct PostgresConnectParams { /// The target server pub target: PostgresConnectTarget, /// The target port. /// /// Defaults to 5432 if not specified. pub port: Option, /// The user to login as. /// /// `PostgresConnection::connect` requires a user but `cancel_query` does /// not. pub user: Option, /// An optional password used for authentication pub password: Option, /// The database to connect to. Defaults the value of `user`. pub database: Option, /// Runtime parameters to be passed to the Postgres backend. pub options: Vec<(String, String)>, } /// A trait implemented by types that can be converted into a /// `PostgresConnectParams`. pub trait IntoConnectParams { /// Converts the value of `self` into a `PostgresConnectParams`. fn into_connect_params(self) -> Result; } impl IntoConnectParams for PostgresConnectParams { fn into_connect_params(self) -> Result { Ok(self) } } impl<'a> IntoConnectParams for &'a str { fn into_connect_params(self) -> Result { match url::from_str(self) { Ok(url) => url.into_connect_params(), Err(err) => return Err(InvalidUrl(err)), } } } impl IntoConnectParams for Url { fn into_connect_params(self) -> Result { let Url { host, port, user, path, query: options, .. } = self; let maybe_path = url::decode_component(host.as_slice()); let target = if maybe_path.as_slice().starts_with("/") { TargetUnix(Path::new(maybe_path)) } else { TargetTcp(host) }; let (user, pass) = match user { Some(UserInfo { user, pass }) => (Some(user), pass), None => (None, None), }; let port = match port { Some(port) => match FromStr::from_str(port.as_slice()) { Some(port) => Some(port), None => return Err(InvalidUrl("invalid port".to_str())), }, None => None, }; let database = if !path.is_empty() { // path contains the leading / let (_, path) = path.as_slice().slice_shift_char(); Some(path.to_str()) } else { None }; Ok(PostgresConnectParams { target: target, port: port, user: user, password: pass, database: database, options: options, }) } } /// Trait for types that can handle Postgres notice messages pub trait PostgresNoticeHandler { /// Handle a Postgres notice message fn handle(&mut self, notice: PostgresDbError); } /// A notice handler which logs at the `info` level. /// /// This is the default handler used by a `PostgresConnection`. pub struct DefaultNoticeHandler; impl PostgresNoticeHandler for DefaultNoticeHandler { fn handle(&mut self, notice: PostgresDbError) { info!("{}: {}", notice.severity, notice.message); } } /// An asynchronous notification #[deriving(Show)] pub struct PostgresNotification { /// The process ID of the notifying backend process pub pid: i32, /// The name of the channel that the notify has been raised on pub channel: String, /// The "payload" string passed from the notifying process pub payload: String, } /// An iterator over asynchronous notifications pub struct PostgresNotifications<'conn> { conn: &'conn PostgresConnection } impl<'conn> Iterator for PostgresNotifications<'conn> { /// Returns the oldest pending notification or `None` if there are none. /// /// # Note /// /// `next` may return `Some` notification after returning `None` if a new /// notification was received. fn next(&mut self) -> Option { self.conn.conn.borrow_mut().notifications.pop_front() } } /// Contains information necessary to cancel queries for a session pub struct PostgresCancelData { /// The process ID of the session pub process_id: i32, /// The secret key for the session pub secret_key: i32, } /// Attempts to cancel an in-progress query. /// /// The backend provides no information about whether a cancellation attempt /// was successful or not. An error will only be returned if the driver was /// unable to connect to the database. /// /// A `PostgresCancelData` object can be created via /// `PostgresConnection::cancel_data`. The object can cancel any query made on /// that connection. /// /// Only the host and port of the connetion info are used. See /// `PostgresConnection::connect` for details of the `params` argument. /// /// # Example /// /// ```rust,no_run /// # use postgres::{PostgresConnection, NoSsl}; /// # let url = ""; /// let conn = PostgresConnection::connect(url, &NoSsl).unwrap(); /// let cancel_data = conn.cancel_data(); /// spawn(proc() { /// conn.execute("SOME EXPENSIVE QUERY", []).unwrap(); /// }); /// # let _ = /// postgres::cancel_query(url, &NoSsl, cancel_data); /// ``` pub fn cancel_query(params: T, ssl: &SslMode, data: PostgresCancelData) -> Result<(), PostgresConnectError> { let params = try!(params.into_connect_params()); let mut socket = match io::initialize_stream(¶ms, ssl) { Ok(socket) => socket, Err(err) => return Err(err) }; try_pg_conn!(socket.write_message(&CancelRequest { code: message::CANCEL_CODE, process_id: data.process_id, secret_key: data.secret_key })); try_pg_conn!(socket.flush()); Ok(()) } struct InnerPostgresConnection { stream: BufferedStream>, next_stmt_id: uint, notice_handler: Box, notifications: RingBuf, cancel_data: PostgresCancelData, unknown_types: HashMap, desynchronized: bool, finished: bool, trans_depth: u32, canary: u32, } impl Drop for InnerPostgresConnection { fn drop(&mut self) { if !self.finished { let _ = self.finish_inner(); } } } impl InnerPostgresConnection { fn connect(params: T, ssl: &SslMode) -> Result { let params = try!(params.into_connect_params()); let stream = try!(io::initialize_stream(¶ms, ssl)); let PostgresConnectParams { user, password, database, mut options, .. } = params; let user = match user { Some(user) => user, None => return Err(MissingUser), }; let mut conn = InnerPostgresConnection { stream: BufferedStream::new(stream), next_stmt_id: 0, notice_handler: box DefaultNoticeHandler, notifications: RingBuf::new(), cancel_data: PostgresCancelData { process_id: 0, secret_key: 0 }, unknown_types: HashMap::new(), desynchronized: false, finished: false, trans_depth: 0, canary: CANARY, }; options.push(("client_encoding".to_str(), "UTF8".to_str())); // Postgres uses the value of TimeZone as the time zone for TIMESTAMP // WITH TIME ZONE values. Timespec converts to GMT internally. options.push(("TimeZone".to_str(), "GMT".to_str())); // We have to clone here since we need the user again for auth options.push(("user".to_str(), user.clone())); match database { Some(database) => options.push(("database".to_str(), database)), None => {} } try_pg_conn!(conn.write_messages([StartupMessage { version: message::PROTOCOL_VERSION, parameters: options.as_slice() }])); try!(conn.handle_auth(user, password)); loop { match try_pg_conn!(conn.read_message()) { BackendKeyData { process_id, secret_key } => { conn.cancel_data.process_id = process_id; conn.cancel_data.secret_key = secret_key; } ReadyForQuery { .. } => break, ErrorResponse { fields } => return Err(PgConnectDbError(PostgresDbError::new(fields))), _ => unreachable!() } } Ok(conn) } fn write_messages(&mut self, messages: &[FrontendMessage]) -> IoResult<()> { assert!(!self.desynchronized); for message in messages.iter() { try_desync!(self.stream.write_message(message)); } Ok(try_desync!(self.stream.flush())) } fn read_message(&mut self) -> IoResult { assert!(!self.desynchronized); loop { match try_desync!(self.stream.read_message()) { NoticeResponse { fields } => self.notice_handler.handle(PostgresDbError::new(fields)), NotificationResponse { pid, channel, payload } => self.notifications.push_back(PostgresNotification { pid: pid, channel: channel, payload: payload }), ParameterStatus { parameter, value } => debug!("Parameter {} = {}", parameter, value), val => return Ok(val) } } } fn handle_auth(&mut self, user: String, pass: Option) -> Result<(), PostgresConnectError> { match try_pg_conn!(self.read_message()) { AuthenticationOk => return Ok(()), AuthenticationCleartextPassword => { let pass = match pass { Some(pass) => pass, None => return Err(MissingPassword) }; try_pg_conn!(self.write_messages([PasswordMessage { password: pass.as_slice(), }])); } AuthenticationMD5Password { salt } => { let pass = match pass { Some(pass) => pass, None => return Err(MissingPassword) }; let hasher = Hasher::new(MD5); hasher.update(pass.as_bytes()); hasher.update(user.as_bytes()); let output = hasher.final().as_slice().to_hex(); let hasher = Hasher::new(MD5); hasher.update(output.as_bytes()); hasher.update(salt); let output = format!("md5{}", hasher.final().as_slice().to_hex()); try_pg_conn!(self.write_messages([PasswordMessage { password: output.as_slice() }])); } AuthenticationKerberosV5 | AuthenticationSCMCredential | AuthenticationGSS | AuthenticationSSPI => return Err(UnsupportedAuthentication), ErrorResponse { fields } => return Err(PgConnectDbError(PostgresDbError::new(fields))), _ => unreachable!() } match try_pg_conn!(self.read_message()) { AuthenticationOk => Ok(()), ErrorResponse { fields } => Err(PgConnectDbError(PostgresDbError::new(fields))), _ => unreachable!() } } fn set_notice_handler(&mut self, handler: Box) -> Box { mem::replace(&mut self.notice_handler, handler) } fn prepare<'a>(&mut self, query: &str, conn: &'a PostgresConnection) -> PostgresResult> { let stmt_name = format!("s{}", self.next_stmt_id); self.next_stmt_id += 1; try_pg!(self.write_messages([ Parse { name: stmt_name.as_slice(), query: query, param_types: [] }, Describe { variant: 'S' as u8, name: stmt_name.as_slice(), }, Sync])); match try_pg!(self.read_message()) { ParseComplete => {} ErrorResponse { fields } => { try!(self.wait_for_ready()); return Err(PgDbError(PostgresDbError::new(fields))); } _ => unreachable!() } let mut param_types: Vec = match try_pg!(self.read_message()) { ParameterDescription { types } => types.iter().map(|ty| PostgresType::from_oid(*ty)).collect(), _ => unreachable!() }; let mut result_desc: Vec = match try_pg!(self.read_message()) { RowDescription { descriptions } => descriptions.move_iter().map(|desc| { let RowDescriptionEntry { name, type_oid, .. } = desc; ResultDescription { name: name, ty: PostgresType::from_oid(type_oid) } }).collect(), NoData => vec![], _ => unreachable!() }; try!(self.wait_for_ready()); // now that the connection is ready again, get unknown type names try!(self.set_type_names(param_types.mut_iter())); try!(self.set_type_names(result_desc.mut_iter().map(|d| &mut d.ty))); Ok(PostgresStatement { conn: conn, name: stmt_name, param_types: param_types, result_desc: result_desc, next_portal_id: Cell::new(0), finished: false, }) } fn set_type_names<'a, I: Iterator<&'a mut PostgresType>>(&mut self, mut it: I) -> PostgresResult<()> { for ty in it { match *ty { PgUnknownType { oid, ref mut name } => *name = try!(self.get_type_name(oid)), _ => {} } } Ok(()) } fn get_type_name(&mut self, oid: Oid) -> PostgresResult { match self.unknown_types.find(&oid) { Some(name) => return Ok(name.clone()), None => {} } let name = try!(self.quick_query(format!("SELECT typname FROM pg_type \ WHERE oid={}", oid).as_slice())) .move_iter().next().unwrap().move_iter().next().unwrap().unwrap(); self.unknown_types.insert(oid, name.clone()); Ok(name) } fn is_desynchronized(&self) -> bool { self.desynchronized } fn canary(&self) -> u32 { self.canary } fn wait_for_ready(&mut self) -> PostgresResult<()> { match try_pg!(self.read_message()) { ReadyForQuery { .. } => Ok(()), _ => unreachable!() } } fn quick_query(&mut self, query: &str) -> PostgresResult>>> { check_desync!(self); try_pg!(self.write_messages([Query { query: query }])); let mut result = vec![]; loop { match try_pg!(self.read_message()) { ReadyForQuery { .. } => break, DataRow { row } => { result.push(row.move_iter().map(|opt| { opt.map(|b| String::from_utf8(b).unwrap()) }).collect()); } ErrorResponse { fields } => { try!(self.wait_for_ready()); return Err(PgDbError(PostgresDbError::new(fields))); } _ => {} } } Ok(result) } fn finish_inner(&mut self) -> PostgresResult<()> { check_desync!(self); self.canary = 0; try_pg!(self.write_messages([Terminate])); Ok(()) } } /// A connection to a Postgres database. pub struct PostgresConnection { conn: RefCell } impl PostgresConnection { /// Creates a new connection to a Postgres database. /// /// Most applications can use a URL string in the normal format: /// /// ```notrust /// postgresql://user[:password]@host[:port][/database][?param1=val1[[¶m2=val2]...]] /// ``` /// /// The password may be omitted if not required. The default Postgres port /// (5432) is used if none is specified. The database name defaults to the /// username if not specified. /// /// To connect to the server via Unix sockets, `host` should be set to the /// absolute path of the directory containing the socket file. Since `/` is /// a reserved character in URLs, the path should be URL encoded. If the /// path contains non-UTF 8 characters, a `PostgresConnectParams` struct /// should be created manually and passed in. Note that Postgres does not /// support SSL over Unix sockets. /// /// # Examples /// /// ```rust,no_run /// # use postgres::{PostgresConnection, NoSsl}; /// let url = "postgresql://postgres:hunter2@localhost:2994/foodb"; /// let maybe_conn = PostgresConnection::connect(url, &NoSsl); /// let conn = match maybe_conn { /// Ok(conn) => conn, /// Err(err) => fail!("Error connecting: {}", err) /// }; /// ``` /// /// ```rust,no_run /// # use postgres::{PostgresConnection, NoSsl}; /// let url = "postgresql://postgres@%2Frun%2Fpostgres"; /// let maybe_conn = PostgresConnection::connect(url, &NoSsl); /// ``` /// /// ```rust,no_run /// # use postgres::{PostgresConnection, PostgresConnectParams, NoSsl, TargetUnix}; /// # let some_crazy_path = Path::new(""); /// let params = PostgresConnectParams { /// target: TargetUnix(some_crazy_path), /// port: None, /// user: Some("postgres".to_str()), /// password: None, /// database: None, /// options: vec![], /// }; /// let maybe_conn = PostgresConnection::connect(params, &NoSsl); /// ``` pub fn connect(params: T, ssl: &SslMode) -> Result { InnerPostgresConnection::connect(params, ssl).map(|conn| { PostgresConnection { conn: RefCell::new(conn) } }) } /// Sets the notice handler for the connection, returning the old handler. pub fn set_notice_handler(&self, handler: Box) -> Box { self.conn.borrow_mut().set_notice_handler(handler) } /// Returns an iterator over asynchronous notification messages. /// /// Use the `LISTEN` command to register this connection for notifications. pub fn notifications<'a>(&'a self) -> PostgresNotifications<'a> { PostgresNotifications { conn: self } } /// Creates a new prepared statement. /// /// A statement may contain parameters, specified by `$n` where `n` is the /// index of the parameter in the list provided at execution time, /// 1-indexed. /// /// The statement is associated with the connection that created it and may /// not outlive that connection. /// /// # Example /// /// ```rust,no_run /// # use postgres::{PostgresConnection, NoSsl}; /// # let conn = PostgresConnection::connect("", &NoSsl).unwrap(); /// let maybe_stmt = conn.prepare("SELECT foo FROM bar WHERE baz = $1"); /// let stmt = match maybe_stmt { /// Ok(stmt) => stmt, /// Err(err) => fail!("Error preparing statement: {}", err) /// }; pub fn prepare<'a>(&'a self, query: &str) -> PostgresResult> { let mut conn = self.conn.borrow_mut(); if conn.trans_depth != 0 { return Err(PgWrongTransaction); } conn.prepare(query, self) } /// Begins a new transaction. /// /// Returns a `PostgresTransaction` object which should be used instead of /// the connection for the duration of the transaction. The transaction /// is active until the `PostgresTransaction` object falls out of scope. /// A transaction will commit by default unless the task fails or the /// transaction is set to roll back. /// /// # Example /// /// ```rust,no_run /// # use postgres::{PostgresConnection, NoSsl}; /// # fn foo() -> Result<(), postgres::error::PostgresError> { /// # let conn = PostgresConnection::connect("", &NoSsl).unwrap(); /// let trans = try!(conn.transaction()); /// try!(trans.execute("UPDATE foo SET bar = 10", [])); /// /// # let something_bad_happened = true; /// if something_bad_happened { /// trans.set_rollback(); /// } /// /// drop(trans); /// # Ok(()) /// # } /// ``` pub fn transaction<'a>(&'a self) -> PostgresResult> { check_desync!(self); if self.conn.borrow().trans_depth != 0 { return Err(PgWrongTransaction); } try!(self.quick_query("BEGIN")); self.conn.borrow_mut().trans_depth += 1; Ok(PostgresTransaction { conn: self, commit: Cell::new(true), depth: 1, finished: false, }) } /// A convenience function for queries that are only run once. /// /// If an error is returned, it could have come from either the preparation /// or execution of the statement. /// /// On success, returns the number of rows modified or 0 if not applicable. pub fn execute(&self, query: &str, params: &[&ToSql]) -> PostgresResult { self.prepare(query).and_then(|stmt| stmt.execute(params)) } /// Returns information used to cancel pending queries. /// /// Used with the `cancel_query` function. The object returned can be used /// to cancel any query executed by the connection it was created from. pub fn cancel_data(&self) -> PostgresCancelData { self.conn.borrow().cancel_data } /// Returns whether or not the stream has been desynchronized due to an /// error in the communication channel with the server. /// /// If this has occurred, all further queries will immediately return an /// error. pub fn is_desynchronized(&self) -> bool { self.conn.borrow().is_desynchronized() } /// Consumes the connection, closing it. /// /// Functionally equivalent to the `Drop` implementation for /// `PostgresConnection` except that it returns any error encountered to /// the caller. pub fn finish(self) -> PostgresResult<()> { let mut conn = self.conn.borrow_mut(); conn.finished = true; conn.finish_inner() } fn canary(&self) -> u32 { self.conn.borrow().canary() } fn quick_query(&self, query: &str) -> PostgresResult>>> { self.conn.borrow_mut().quick_query(query) } fn wait_for_ready(&self) -> PostgresResult<()> { self.conn.borrow_mut().wait_for_ready() } fn read_message(&self) -> IoResult { self.conn.borrow_mut().read_message() } fn write_messages(&self, messages: &[FrontendMessage]) -> IoResult<()> { self.conn.borrow_mut().write_messages(messages) } } /// Specifies the SSL support requested for a new connection pub enum SslMode { /// The connection will not use SSL NoSsl, /// The connection will use SSL if the backend supports it PreferSsl(SslContext), /// The connection must use SSL RequireSsl(SslContext) } /// Represents a transaction on a database connection. /// /// The transaction will commit by default. pub struct PostgresTransaction<'conn> { conn: &'conn PostgresConnection, commit: Cell, depth: u32, finished: bool, } #[unsafe_destructor] impl<'conn> Drop for PostgresTransaction<'conn> { fn drop(&mut self) { if !self.finished { let _ = self.finish_inner(); } } } impl<'conn> PostgresTransaction<'conn> { fn finish_inner(&mut self) -> PostgresResult<()> { debug_assert!(self.depth == self.conn.conn.borrow().trans_depth); let rollback = task::failing() || !self.commit.get(); let query = match (rollback, self.depth != 1) { (true, true) => "ROLLBACK TO sp", (true, false) => "ROLLBACK", (false, true) => "RELEASE sp", (false, false) => "COMMIT", }; self.conn.conn.borrow_mut().trans_depth -= 1; self.conn.quick_query(query).map(|_| ()) } /// Like `PostgresConnection::prepare`. pub fn prepare<'a>(&'a self, query: &str) -> PostgresResult> { if self.conn.conn.borrow().trans_depth != self.depth { return Err(PgWrongTransaction); } self.conn.conn.borrow_mut().prepare(query, self.conn) } /// Like `PostgresConnection::execute`. pub fn execute(&self, query: &str, params: &[&ToSql]) -> PostgresResult { self.prepare(query).and_then(|s| s.execute(params)) } /// Like `PostgresConnection::transaction`. pub fn transaction<'a>(&'a self) -> PostgresResult> { check_desync!(self.conn); if self.conn.conn.borrow().trans_depth != self.depth { return Err(PgWrongTransaction); } try!(self.conn.quick_query("SAVEPOINT sp")); self.conn.conn.borrow_mut().trans_depth += 1; Ok(PostgresTransaction { conn: self.conn, commit: Cell::new(true), depth: self.depth + 1, finished: false, }) } /// Determines if the transaction is currently set to commit or roll back. pub fn will_commit(&self) -> bool { self.commit.get() } /// Sets the transaction to commit at its completion. pub fn set_commit(&self) { self.commit.set(true); } /// Sets the transaction to roll back at its completion. pub fn set_rollback(&self) { self.commit.set(false); } /// Consumes the transaction, commiting or rolling it back as appropriate. /// /// Functionally equivalent to the `Drop` implementation of /// `PostgresTransaction` except that it returns any error to the caller. pub fn finish(mut self) -> PostgresResult<()> { self.finished = true; self.finish_inner() } /// Executes a prepared statement, returning a lazily loaded iterator over /// the resulting rows. /// /// No more than `row_limit` rows will be stored in memory at a time. Rows /// will be pulled from the database in batches of `row_limit` as needed. /// If `row_limit` is 0, `lazy_query` is equivalent to `query`. pub fn lazy_query<'trans, 'stmt>(&'trans self, stmt: &'stmt PostgresStatement, params: &[&ToSql], row_limit: uint) -> PostgresResult> { if self.conn as *_ != stmt.conn as *_ { return Err(PgWrongConnection); } check_desync!(self.conn); stmt.lazy_query(row_limit, params).map(|result| { PostgresLazyRows { trans: self, result: result } }) } } /// A prepared statement pub struct PostgresStatement<'conn> { conn: &'conn PostgresConnection, name: String, param_types: Vec, result_desc: Vec, next_portal_id: Cell, finished: bool, } #[unsafe_destructor] impl<'conn> Drop for PostgresStatement<'conn> { fn drop(&mut self) { if !self.finished { let _ = self.finish_inner(); } } } impl<'conn> PostgresStatement<'conn> { fn finish_inner(&mut self) -> PostgresResult<()> { check_desync!(self.conn); try_pg!(self.conn.write_messages([ Close { variant: 'S' as u8, name: self.name.as_slice() }, Sync])); loop { match try_pg!(self.conn.read_message()) { ReadyForQuery { .. } => break, ErrorResponse { fields } => { try!(self.conn.wait_for_ready()); return Err(PgDbError(PostgresDbError::new(fields))); } _ => {} } } Ok(()) } fn inner_execute(&self, portal_name: &str, row_limit: uint, params: &[&ToSql]) -> PostgresResult<()> { if self.param_types.len() != params.len() { return Err(PgWrongParamCount { expected: self.param_types.len(), actual: params.len(), }); } let mut formats = vec![]; let mut values = vec![]; for (¶m, ty) in params.iter().zip(self.param_types.iter()) { let (format, value) = try!(param.to_sql(ty)); formats.push(format as i16); values.push(value); }; let result_formats: Vec = self.result_desc.iter().map(|desc| { desc.ty.result_format() as i16 }).collect(); try_pg!(self.conn.write_messages([ Bind { portal: portal_name, statement: self.name.as_slice(), formats: formats.as_slice(), values: values.as_slice(), result_formats: result_formats.as_slice() }, Execute { portal: portal_name, max_rows: row_limit as i32 }, Sync])); match try_pg!(self.conn.read_message()) { BindComplete => Ok(()), ErrorResponse { fields } => { try!(self.conn.wait_for_ready()); Err(PgDbError(PostgresDbError::new(fields))) } _ => unreachable!() } } fn lazy_query<'a>(&'a self, row_limit: uint, params: &[&ToSql]) -> PostgresResult> { let id = self.next_portal_id.get(); self.next_portal_id.set(id + 1); let portal_name = format!("{}p{}", self.name, id); try!(self.inner_execute(portal_name.as_slice(), row_limit, params)); let mut result = PostgresRows { stmt: self, name: portal_name, data: RingBuf::new(), row_limit: row_limit, more_rows: true, finished: false, }; try!(result.read_rows()) Ok(result) } /// Returns a slice containing the expected parameter types. pub fn param_types<'a>(&'a self) -> &'a [PostgresType] { self.param_types.as_slice() } /// Returns a slice describing the columns of the result of the query. pub fn result_descriptions<'a>(&'a self) -> &'a [ResultDescription] { self.result_desc.as_slice() } /// Executes the prepared statement, returning the number of rows modified. /// /// If the statement does not modify any rows (e.g. SELECT), 0 is returned. /// /// # Example /// /// ```rust,no_run /// # use postgres::{PostgresConnection, NoSsl}; /// # use postgres::types::ToSql; /// # let conn = PostgresConnection::connect("", &NoSsl).unwrap(); /// # let bar = 1i32; /// # let baz = true; /// let stmt = conn.prepare("UPDATE foo SET bar = $1 WHERE baz = $2").unwrap(); /// match stmt.execute([&bar as &ToSql, &baz as &ToSql]) { /// Ok(count) => println!("{} row(s) updated", count), /// Err(err) => println!("Error executing query: {}", err) /// } pub fn execute(&self, params: &[&ToSql]) -> PostgresResult { check_desync!(self.conn); try!(self.inner_execute("", 0, params)); let num; loop { match try_pg!(self.conn.read_message()) { DataRow { .. } => {} ErrorResponse { fields } => { try!(self.conn.wait_for_ready()); return Err(PgDbError(PostgresDbError::new(fields))); } CommandComplete { tag } => { let s = tag.as_slice().split(' ').last().unwrap(); num = FromStr::from_str(s).unwrap_or(0); break; } EmptyQueryResponse => { num = 0; break; } _ => unreachable!() } } try!(self.conn.wait_for_ready()); Ok(num) } /// Executes the prepared statement, returning an iterator over the /// resulting rows. /// /// # Example /// /// ```rust,no_run /// # use postgres::{PostgresConnection, NoSsl}; /// # use postgres::types::ToSql; /// # let conn = PostgresConnection::connect("", &NoSsl).unwrap(); /// let stmt = conn.prepare("SELECT foo FROM bar WHERE baz = $1").unwrap(); /// # let baz = true; /// let mut rows = match stmt.query([&baz as &ToSql]) { /// Ok(rows) => rows, /// Err(err) => fail!("Error running query: {}", err) /// }; /// for row in rows { /// let foo: i32 = row["foo"]; /// println!("foo: {}", foo); /// } /// ``` pub fn query<'a>(&'a self, params: &[&ToSql]) -> PostgresResult> { check_desync!(self.conn); self.lazy_query(0, params) } /// Consumes the statement, clearing it from the Postgres session. /// /// Functionally identical to the `Drop` implementation of the /// `PostgresStatement` except that it returns any error to the caller. pub fn finish(mut self) -> PostgresResult<()> { self.finished = true; self.finish_inner() } } /// Information about a column of the result of a query. #[deriving(PartialEq, Eq)] pub struct ResultDescription { /// The name of the column pub name: String, /// The type of the data in the column pub ty: PostgresType } /// An iterator over the resulting rows of a query. pub struct PostgresRows<'stmt> { stmt: &'stmt PostgresStatement<'stmt>, name: String, data: RingBuf>>>, row_limit: uint, more_rows: bool, finished: bool, } #[unsafe_destructor] impl<'stmt> Drop for PostgresRows<'stmt> { fn drop(&mut self) { if !self.finished { let _ = self.finish_inner(); } } } impl<'stmt> PostgresRows<'stmt> { fn finish_inner(&mut self) -> PostgresResult<()> { check_desync!(self.stmt.conn); try_pg!(self.stmt.conn.write_messages([ Close { variant: 'P' as u8, name: self.name.as_slice() }, Sync])); loop { match try_pg!(self.stmt.conn.read_message()) { ReadyForQuery { .. } => break, ErrorResponse { fields } => { try!(self.stmt.conn.wait_for_ready()); return Err(PgDbError(PostgresDbError::new(fields))); } _ => {} } } Ok(()) } fn read_rows(&mut self) -> PostgresResult<()> { loop { match try_pg!(self.stmt.conn.read_message()) { EmptyQueryResponse | CommandComplete { .. } => { self.more_rows = false; break; }, PortalSuspended => { self.more_rows = true; break; }, DataRow { row } => self.data.push_back(row), _ => unreachable!() } } self.stmt.conn.wait_for_ready() } fn execute(&mut self) -> PostgresResult<()> { try_pg!(self.stmt.conn.write_messages([ Execute { portal: self.name.as_slice(), max_rows: self.row_limit as i32 }, Sync])); self.read_rows() } /// Consumes the `PostgresRows`, cleaning up associated state. /// /// Functionally identical to the `Drop` implementation on `PostgresRows` /// except that it returns any error to the caller. pub fn finish(mut self) -> PostgresResult<()> { self.finished = true; self.finish_inner() } fn try_next(&mut self) -> Option>> { if self.data.is_empty() && self.more_rows { match self.execute() { Ok(()) => {} Err(err) => return Some(Err(err)) } } self.data.pop_front().map(|row| { Ok(PostgresRow { stmt: self.stmt, data: row }) }) } } impl<'stmt> Iterator> for PostgresRows<'stmt> { #[inline] fn next(&mut self) -> Option> { // we'll never hit the network on a non-lazy result self.try_next().map(|r| r.unwrap()) } #[inline] fn size_hint(&self) -> (uint, Option) { let lower = self.data.len(); let upper = if self.more_rows { None } else { Some(lower) }; (lower, upper) } } /// A single result row of a query. pub struct PostgresRow<'stmt> { stmt: &'stmt PostgresStatement<'stmt>, data: Vec>> } impl<'stmt> PostgresRow<'stmt> { /// Retrieves the contents of a field of the row. /// /// A field can be accessed by the name or index of its column, though /// access by index is more efficient. Rows are 1-indexed. /// /// Returns an `Error` value if the index does not reference a column or /// the return type is not compatible with the Postgres type. pub fn get(&self, idx: I) -> PostgresResult { let idx = match idx.idx(self.stmt) { Some(idx) => idx, None => return Err(PgInvalidColumn) }; FromSql::from_sql(&self.stmt.result_desc.get(idx).ty, self.data.get(idx)) } } impl<'stmt> Container for PostgresRow<'stmt> { #[inline] fn len(&self) -> uint { self.data.len() } } impl<'stmt, I: RowIndex+Clone+fmt::Show, T: FromSql> Index for PostgresRow<'stmt> { /// Retreives the contents of a field of the row. /// /// A field can be accessed by the name or index of its column, though /// access by index is more efficient. Rows are 1-indexed. /// /// # Failure /// /// Fails if the index does not reference a column or the return type is /// not compatible with the Postgres type. /// /// # Example /// /// ```rust,no_run /// # use postgres::{PostgresConnection, NoSsl}; /// # let conn = PostgresConnection::connect("", &NoSsl).unwrap(); /// # let stmt = conn.prepare("").unwrap(); /// # let mut result = stmt.query([]).unwrap(); /// # let row = result.next().unwrap(); /// let foo: i32 = row[1]; /// let bar: String = row["bar"]; /// ``` fn index(&self, idx: &I) -> T { match self.get(idx.clone()) { Ok(ok) => ok, Err(err) => fail!("error retrieving column {}: {}", idx, err) } } } /// A trait implemented by types that can index into columns of a row. pub trait RowIndex { /// Returns the index of the appropriate column, or `None` if no such /// column exists. fn idx(&self, stmt: &PostgresStatement) -> Option; } impl RowIndex for uint { #[inline] fn idx(&self, stmt: &PostgresStatement) -> Option { if *self == 0 || *self > stmt.result_desc.len() { None } else { Some(*self - 1) } } } // This is a convenience as the 1 in get[1] resolves to int :( impl RowIndex for int { #[inline] fn idx(&self, stmt: &PostgresStatement) -> Option { if *self < 0 { None } else { (*self as uint).idx(stmt) } } } impl<'a> RowIndex for &'a str { #[inline] fn idx(&self, stmt: &PostgresStatement) -> Option { stmt.result_descriptions().iter() .position(|d| d.name.as_slice() == *self) } } /// A lazily-loaded iterator over the resulting rows of a query pub struct PostgresLazyRows<'trans, 'stmt> { result: PostgresRows<'stmt>, trans: &'trans PostgresTransaction<'trans>, } impl<'trans, 'stmt> PostgresLazyRows<'trans, 'stmt> { /// Like `PostgresRows::finish`. #[inline] pub fn finish(self) -> PostgresResult<()> { self.result.finish() } } impl<'trans, 'stmt> Iterator>> for PostgresLazyRows<'trans, 'stmt> { #[inline] fn next(&mut self) -> Option>> { self.result.try_next() } #[inline] fn size_hint(&self) -> (uint, Option) { self.result.size_hint() } }