#[macro_use] extern crate postgres; extern crate url; #[cfg(feature = "openssl")] extern crate openssl; #[cfg(feature = "security-framework")] extern crate security_framework; #[cfg(feature = "openssl")] use openssl::ssl::{SslContext, SslMethod}; use std::thread; use std::io; use std::io::prelude::*; use std::time::Duration; use postgres::{HandleNotice, Connection, GenericConnection, SslMode, IntoConnectParams, IsolationLevel}; use postgres::error::{Error, ConnectError, DbError}; use postgres::types::{Oid, Type, Kind, WrongType}; use postgres::error::SqlState::{SyntaxError, QueryCanceled, UndefinedTable, InvalidCatalogName, InvalidPassword, CardinalityViolation}; use postgres::error::ErrorPosition::Normal; use postgres::rows::RowIndex; use postgres::notification::Notification; macro_rules! or_panic { ($e:expr) => ( match $e { Ok(ok) => ok, Err(err) => panic!("{:#?}", err) } ) } mod types; #[test] fn test_non_default_database() { or_panic!(Connection::connect("postgres://postgres@localhost/postgres", SslMode::None)); } #[test] fn test_url_terminating_slash() { or_panic!(Connection::connect("postgres://postgres@localhost/", SslMode::None)); } #[test] fn test_prepare_err() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = conn.prepare("invalid sql database"); match stmt { Err(Error::Db(ref e)) if e.code == SyntaxError && e.position == Some(Normal(1)) => {} Err(e) => panic!("Unexpected result {:?}", e), _ => panic!("Unexpected result"), } } #[test] fn test_unknown_database() { match Connection::connect("postgres://postgres@localhost/asdf", SslMode::None) { Err(ConnectError::Db(ref e)) if e.code == InvalidCatalogName => {} Err(resp) => panic!("Unexpected result {:?}", resp), _ => panic!("Unexpected result"), } } #[test] fn test_connection_finish() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); assert!(conn.finish().is_ok()); } #[test] #[cfg_attr(not(feature = "unix_socket"), ignore)] fn test_unix_connection() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SHOW unix_socket_directories")); let result = or_panic!(stmt.query(&[])); let unix_socket_directories: String = result.iter().map(|row| row.get(0)).next().unwrap(); if unix_socket_directories.is_empty() { panic!("can't test connect_unix; unix_socket_directories is empty"); } let unix_socket_directory = unix_socket_directories.split(',').next().unwrap(); let path = url::percent_encoding::utf8_percent_encode( unix_socket_directory, url::percent_encoding::USERNAME_ENCODE_SET); let url = format!("postgres://postgres@{}", path); let conn = or_panic!(Connection::connect(&url[..], SslMode::None)); assert!(conn.finish().is_ok()); } #[test] fn test_transaction_commit() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", &[])); let trans = or_panic!(conn.transaction()); or_panic!(trans.execute("INSERT INTO foo (id) VALUES ($1)", &[&1i32])); trans.set_commit(); drop(trans); let stmt = or_panic!(conn.prepare("SELECT * FROM foo")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_transaction_commit_finish() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", &[])); let trans = or_panic!(conn.transaction()); or_panic!(trans.execute("INSERT INTO foo (id) VALUES ($1)", &[&1i32])); trans.set_commit(); assert!(trans.finish().is_ok()); let stmt = or_panic!(conn.prepare("SELECT * FROM foo")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_transaction_commit_method() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", &[])); let trans = or_panic!(conn.transaction()); or_panic!(trans.execute("INSERT INTO foo (id) VALUES ($1)", &[&1i32])); assert!(trans.commit().is_ok()); let stmt = or_panic!(conn.prepare("SELECT * FROM foo")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_transaction_rollback() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", &[])); or_panic!(conn.execute("INSERT INTO foo (id) VALUES ($1)", &[&1i32])); let trans = or_panic!(conn.transaction()); or_panic!(trans.execute("INSERT INTO foo (id) VALUES ($1)", &[&2i32])); drop(trans); let stmt = or_panic!(conn.prepare("SELECT * FROM foo")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_transaction_rollback_finish() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", &[])); or_panic!(conn.execute("INSERT INTO foo (id) VALUES ($1)", &[&1i32])); let trans = or_panic!(conn.transaction()); or_panic!(trans.execute("INSERT INTO foo (id) VALUES ($1)", &[&2i32])); assert!(trans.finish().is_ok()); let stmt = or_panic!(conn.prepare("SELECT * FROM foo")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_nested_transactions() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", &[])); or_panic!(conn.execute("INSERT INTO foo (id) VALUES (1)", &[])); { let trans1 = or_panic!(conn.transaction()); or_panic!(trans1.execute("INSERT INTO foo (id) VALUES (2)", &[])); { let trans2 = or_panic!(trans1.transaction()); or_panic!(trans2.execute("INSERT INTO foo (id) VALUES (3)", &[])); } { let trans2 = or_panic!(trans1.transaction()); or_panic!(trans2.execute("INSERT INTO foo (id) VALUES (4)", &[])); { let trans3 = or_panic!(trans2.transaction()); or_panic!(trans3.execute("INSERT INTO foo (id) VALUES (5)", &[])); } { let trans3 = or_panic!(trans2.transaction()); or_panic!(trans3.execute("INSERT INTO foo (id) VALUES (6)", &[])); assert!(trans3.commit().is_ok()); } assert!(trans2.commit().is_ok()); } let stmt = or_panic!(trans1.prepare("SELECT * FROM foo ORDER BY id")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32, 2, 4, 6], result.iter().map(|row| row.get(0)).collect::>()); } let stmt = or_panic!(conn.prepare("SELECT * FROM foo ORDER BY id")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_nested_transactions_finish() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", &[])); or_panic!(conn.execute("INSERT INTO foo (id) VALUES (1)", &[])); { let trans1 = or_panic!(conn.transaction()); or_panic!(trans1.execute("INSERT INTO foo (id) VALUES (2)", &[])); { let trans2 = or_panic!(trans1.transaction()); or_panic!(trans2.execute("INSERT INTO foo (id) VALUES (3)", &[])); assert!(trans2.finish().is_ok()); } { let trans2 = or_panic!(trans1.transaction()); or_panic!(trans2.execute("INSERT INTO foo (id) VALUES (4)", &[])); { let trans3 = or_panic!(trans2.transaction()); or_panic!(trans3.execute("INSERT INTO foo (id) VALUES (5)", &[])); assert!(trans3.finish().is_ok()); } { let trans3 = or_panic!(trans2.transaction()); or_panic!(trans3.execute("INSERT INTO foo (id) VALUES (6)", &[])); trans3.set_commit(); assert!(trans3.finish().is_ok()); } trans2.set_commit(); assert!(trans2.finish().is_ok()); } // in a block to unborrow trans1 for the finish call { let stmt = or_panic!(trans1.prepare("SELECT * FROM foo ORDER BY id")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32, 2, 4, 6], result.iter().map(|row| row.get(0)).collect::>()); } assert!(trans1.finish().is_ok()); } let stmt = or_panic!(conn.prepare("SELECT * FROM foo ORDER BY id")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i32], result.iter().map(|row| row.get(0)).collect::>()); } #[test] #[should_panic(expected = "active transaction")] fn test_conn_trans_when_nested() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let _trans = or_panic!(conn.transaction()); conn.transaction().unwrap(); } #[test] #[should_panic(expected = "active transaction")] fn test_trans_with_nested_trans() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let trans = or_panic!(conn.transaction()); let _trans2 = or_panic!(trans.transaction()); trans.transaction().unwrap(); } #[test] fn test_stmt_execute_after_transaction() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let trans = or_panic!(conn.transaction()); let stmt = or_panic!(trans.prepare("SELECT 1")); or_panic!(trans.finish()); let result = or_panic!(stmt.query(&[])); assert_eq!(1i32, result.iter().next().unwrap().get(0)); } #[test] fn test_stmt_finish() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id BIGINT PRIMARY KEY)", &[])); let stmt = or_panic!(conn.prepare("SELECT * FROM foo")); assert!(stmt.finish().is_ok()); } #[test] fn test_batch_execute() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let query = "CREATE TEMPORARY TABLE foo (id BIGINT PRIMARY KEY); INSERT INTO foo (id) VALUES (10);"; or_panic!(conn.batch_execute(query)); let stmt = or_panic!(conn.prepare("SELECT * from foo ORDER BY id")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![10i64], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_batch_execute_error() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let query = "CREATE TEMPORARY TABLE foo (id BIGINT PRIMARY KEY); INSERT INTO foo (id) VALUES (10); asdfa; INSERT INTO foo (id) VALUES (11)"; conn.batch_execute(query).err().unwrap(); let stmt = conn.prepare("SELECT * FROM foo ORDER BY id"); match stmt { Err(Error::Db(ref e)) if e.code == UndefinedTable => {} Err(e) => panic!("unexpected error {:?}", e), _ => panic!("unexpected success"), } } #[test] fn test_transaction_batch_execute() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let trans = or_panic!(conn.transaction()); let query = "CREATE TEMPORARY TABLE foo (id BIGINT PRIMARY KEY); INSERT INTO foo (id) VALUES (10);"; or_panic!(trans.batch_execute(query)); let stmt = or_panic!(trans.prepare("SELECT * from foo ORDER BY id")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![10i64], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_query() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id BIGINT PRIMARY KEY)", &[])); or_panic!(conn.execute("INSERT INTO foo (id) VALUES ($1), ($2)", &[&1i64, &2i64])); let stmt = or_panic!(conn.prepare("SELECT * from foo ORDER BY id")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![1i64, 2], result.iter().map(|row| row.get(0)).collect::>()); } #[test] fn test_error_after_datarow() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare(" SELECT (SELECT generate_series(1, ss.i)) FROM (SELECT gs.i FROM generate_series(1, 2) gs(i) ORDER BY gs.i LIMIT 2) ss")); match stmt.query(&[]) { Err(Error::Db(ref e)) if e.code == CardinalityViolation => {} Err(err) => panic!("Unexpected error {:?}", err), Ok(_) => panic!("Expected failure"), }; } #[test] fn test_lazy_query() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let trans = or_panic!(conn.transaction()); or_panic!(trans.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", &[])); let stmt = or_panic!(trans.prepare("INSERT INTO foo (id) VALUES ($1)")); let values = vec!(0i32, 1, 2, 3, 4, 5); for value in values.iter() { or_panic!(stmt.execute(&[value])); } let stmt = or_panic!(trans.prepare("SELECT id FROM foo ORDER BY id")); let result = or_panic!(stmt.lazy_query(&trans, &[], 2)); assert_eq!(values, result.map(|row| row.unwrap().get(0)).collect::>()); } #[test] #[should_panic(expected = "same `Connection` as")] fn test_lazy_query_wrong_conn() { let conn1 = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let conn2 = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let trans = or_panic!(conn1.transaction()); let stmt = or_panic!(conn2.prepare("SELECT 1::INT")); stmt.lazy_query(&trans, &[], 1).unwrap(); } #[test] fn test_param_types() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT $1::INT, $2::VARCHAR")); assert_eq!(stmt.param_types(), &[Type::Int4, Type::Varchar][..]); } #[test] fn test_columns() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT 1::INT as a, 'hi'::VARCHAR as b")); let cols = stmt.columns(); assert_eq!(2, cols.len()); assert_eq!(cols[0].name(), "a"); assert_eq!(cols[0].type_(), &Type::Int4); assert_eq!(cols[1].name(), "b"); assert_eq!(cols[1].type_(), &Type::Varchar); } #[test] fn test_execute_counts() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); assert_eq!(0, or_panic!(conn.execute("CREATE TEMPORARY TABLE foo ( id SERIAL PRIMARY KEY, b INT )", &[]))); assert_eq!(3, or_panic!(conn.execute("INSERT INTO foo (b) VALUES ($1), ($2), ($2)", &[&1i32, &2i32]))); assert_eq!(2, or_panic!(conn.execute("UPDATE foo SET b = 0 WHERE b = 2", &[]))); assert_eq!(3, or_panic!(conn.execute("SELECT * FROM foo", &[]))); } #[test] fn test_wrong_param_type() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); match conn.execute("SELECT $1::VARCHAR", &[&1i32]) { Err(Error::Conversion(ref e)) if e.is::() => {} res => panic!("unexpected result {:?}", res) } } #[test] #[should_panic(expected = "expected 2 parameters but got 1")] fn test_too_few_params() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let _ = conn.execute("SELECT $1::INT, $2::INT", &[&1i32]); } #[test] #[should_panic(expected = "expected 2 parameters but got 3")] fn test_too_many_params() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let _ = conn.execute("SELECT $1::INT, $2::INT", &[&1i32, &2i32, &3i32]); } #[test] fn test_index_named() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT 10::INT as val")); let result = or_panic!(stmt.query(&[])); assert_eq!(vec![10i32], result.iter().map(|row| row.get("val")).collect::>()); } #[test] #[should_panic] fn test_index_named_fail() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT 10::INT as id")); let result = or_panic!(stmt.query(&[])); let _: i32 = result.iter().next().unwrap().get("asdf"); } #[test] fn test_get_named_err() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT 10::INT as id")); let result = or_panic!(stmt.query(&[])); match result.iter().next().unwrap().get_opt::<_, i32>("asdf") { None => {} res => panic!("unexpected result {:?}", res), }; } #[test] fn test_get_was_null() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT NULL::INT as id")); let result = or_panic!(stmt.query(&[])); match result.iter().next().unwrap().get_opt::<_, i32>(0) { Some(Err(Error::Conversion(..))) => {} res => panic!("unexpected result {:?}", res), }; } #[test] fn test_get_off_by_one() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT 10::INT as id")); let result = or_panic!(stmt.query(&[])); match result.iter().next().unwrap().get_opt::<_, i32>(1) { None => {} res => panic!("unexpected result {:?}", res), }; } #[test] fn test_custom_notice_handler() { static mut count: usize = 0; struct Handler; impl HandleNotice for Handler { fn handle_notice(&mut self, notice: DbError) { assert_eq!("note", notice.message); unsafe { count += 1; } } } let conn = or_panic!(Connection::connect( "postgres://postgres@localhost?client_min_messages=NOTICE", SslMode::None)); conn.set_notice_handler(Box::new(Handler)); or_panic!(conn.execute("CREATE FUNCTION pg_temp.note() RETURNS INT AS $$ BEGIN RAISE NOTICE 'note'; RETURN 1; END; $$ LANGUAGE plpgsql", &[])); or_panic!(conn.execute("SELECT pg_temp.note()", &[])); assert_eq!(unsafe { count }, 1); } #[test] fn test_notification_iterator_none() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); assert!(conn.notifications().iter().next().is_none()); } fn check_notification(expected: Notification, actual: Notification) { assert_eq!(&expected.channel, &actual.channel); assert_eq!(&expected.payload, &actual.payload); } #[test] fn test_notification_iterator_some() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let notifications = conn.notifications(); let mut it = notifications.iter(); or_panic!(conn.execute("LISTEN test_notification_iterator_one_channel", &[])); or_panic!(conn.execute("LISTEN test_notification_iterator_one_channel2", &[])); or_panic!(conn.execute("NOTIFY test_notification_iterator_one_channel, 'hello'", &[])); or_panic!(conn.execute("NOTIFY test_notification_iterator_one_channel2, 'world'", &[])); check_notification(Notification { pid: 0, channel: "test_notification_iterator_one_channel".to_string(), payload: "hello".to_string() }, it.next().unwrap().unwrap()); check_notification(Notification { pid: 0, channel: "test_notification_iterator_one_channel2".to_string(), payload: "world".to_string() }, it.next().unwrap().unwrap()); assert!(it.next().is_none()); or_panic!(conn.execute("NOTIFY test_notification_iterator_one_channel, '!'", &[])); check_notification(Notification { pid: 0, channel: "test_notification_iterator_one_channel".to_string(), payload: "!".to_string() }, it.next().unwrap().unwrap()); assert!(it.next().is_none()); } #[test] fn test_notifications_next_block() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("LISTEN test_notifications_next_block", &[])); let _t = thread::spawn(|| { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); thread::sleep(Duration::from_millis(500)); or_panic!(conn.execute("NOTIFY test_notifications_next_block, 'foo'", &[])); }); let notifications = conn.notifications(); check_notification(Notification { pid: 0, channel: "test_notifications_next_block".to_string(), payload: "foo".to_string() }, or_panic!(notifications.blocking_iter().next().unwrap())); } #[test] fn test_notification_next_timeout() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("LISTEN test_notifications_next_timeout", &[])); let _t = thread::spawn(|| { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); thread::sleep(Duration::from_millis(500)); or_panic!(conn.execute("NOTIFY test_notifications_next_timeout, 'foo'", &[])); thread::sleep(Duration::from_millis(1500)); or_panic!(conn.execute("NOTIFY test_notifications_next_timeout, 'foo'", &[])); }); let notifications = conn.notifications(); let mut it = notifications.timeout_iter(Duration::from_secs(1)); check_notification(Notification { pid: 0, channel: "test_notifications_next_timeout".to_string(), payload: "foo".to_string() }, or_panic!(it.next().unwrap())); assert!(it.next().is_none()); } #[test] // This test is pretty sad, but I don't think there's a better way :( fn test_cancel_query() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let cancel_data = conn.cancel_data(); let t = thread::spawn(move || { thread::sleep(Duration::from_millis(500)); assert!(postgres::cancel_query("postgres://postgres@localhost", SslMode::None, &cancel_data).is_ok()); }); match conn.execute("SELECT pg_sleep(10)", &[]) { Err(Error::Db(ref e)) if e.code == QueryCanceled => {} Err(res) => panic!("Unexpected result {:?}", res), _ => panic!("Unexpected result"), } t.join().unwrap(); } #[test] #[cfg(feature = "openssl")] fn test_require_ssl_conn() { let ctx = SslContext::new(SslMethod::Sslv23).unwrap(); let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::Require(&ctx))); or_panic!(conn.execute("SELECT 1::VARCHAR", &[])); } #[test] #[cfg(feature = "openssl")] fn test_prefer_ssl_conn() { let ctx = SslContext::new(SslMethod::Sslv23).unwrap(); let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::Prefer(&ctx))); or_panic!(conn.execute("SELECT 1::VARCHAR", &[])); } #[test] #[cfg(feature = "security-framework")] fn security_framework_ssl() { use security_framework::certificate::SecCertificate; use security_framework::secure_transport::ClientBuilder; let certificate = include_bytes!("../.travis/server.der"); let certificate = or_panic!(SecCertificate::from_der(certificate)); let mut builder = ClientBuilder::new(); builder.anchor_certificates(&[certificate]); let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::Require(&builder))); or_panic!(conn.execute("SELECT 1::VARCHAR", &[])); } #[test] fn test_plaintext_pass() { or_panic!(Connection::connect("postgres://pass_user:password@localhost/postgres", SslMode::None)); } #[test] fn test_plaintext_pass_no_pass() { let ret = Connection::connect("postgres://pass_user@localhost/postgres", SslMode::None); match ret { Err(ConnectError::ConnectParams(..)) => (), Err(err) => panic!("Unexpected error {:?}", err), _ => panic!("Expected error") } } #[test] fn test_plaintext_pass_wrong_pass() { let ret = Connection::connect("postgres://pass_user:asdf@localhost/postgres", SslMode::None); match ret { Err(ConnectError::Db(ref e)) if e.code == InvalidPassword => {} Err(err) => panic!("Unexpected error {:?}", err), _ => panic!("Expected error") } } #[test] fn test_md5_pass() { or_panic!(Connection::connect("postgres://md5_user:password@localhost/postgres", SslMode::None)); } #[test] fn test_md5_pass_no_pass() { let ret = Connection::connect("postgres://md5_user@localhost/postgres", SslMode::None); match ret { Err(ConnectError::ConnectParams(..)) => (), Err(err) => panic!("Unexpected error {:?}", err), _ => panic!("Expected error") } } #[test] fn test_md5_pass_wrong_pass() { let ret = Connection::connect("postgres://md5_user:asdf@localhost/postgres", SslMode::None); match ret { Err(ConnectError::Db(ref e)) if e.code == InvalidPassword => {} Err(err) => panic!("Unexpected error {:?}", err), _ => panic!("Expected error") } } #[test] fn test_execute_copy_from_err() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT)", &[])); let stmt = or_panic!(conn.prepare("COPY foo (id) FROM STDIN")); match stmt.execute(&[]) { Err(Error::Db(ref err)) if err.message.contains("COPY") => {} Err(err) => panic!("Unexpected error {:?}", err), _ => panic!("Expected error"), } match stmt.query(&[]) { Err(Error::Db(ref err)) if err.message.contains("COPY") => {} Err(err) => panic!("Unexpected error {:?}", err), _ => panic!("Expected error"), }; } #[test] fn test_batch_execute_copy_from_err() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT)", &[])); match conn.batch_execute("COPY foo (id) FROM STDIN") { Err(Error::Db(ref err)) if err.message.contains("COPY") => {} Err(err) => panic!("Unexpected error {:?}", err), _ => panic!("Expected error"), } } #[test] fn test_copy_io_error() { struct ErrorReader; impl io::Read for ErrorReader { fn read(&mut self, _: &mut [u8]) -> io::Result { Err(io::Error::new(io::ErrorKind::AddrNotAvailable, "boom")) } } let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT)", &[])); let stmt = or_panic!(conn.prepare("COPY foo (id) FROM STDIN")); match stmt.copy_in(&[], &mut ErrorReader) { Err(Error::Io(ref e)) if e.kind() == io::ErrorKind::AddrNotAvailable => {} Err(err) => panic!("Unexpected error {:?}", err), _ => panic!("Expected error"), } or_panic!(conn.execute("SELECT 1", &[])); } #[test] fn test_copy() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT)", &[])); let stmt = or_panic!(conn.prepare("COPY foo (id) FROM STDIN")); let mut data = &b"1\n2\n3\n5\n8\n"[..]; assert_eq!(5, or_panic!(stmt.copy_in(&[], &mut data))); let stmt = or_panic!(conn.prepare("SELECT id FROM foo ORDER BY id")); assert_eq!(vec![1i32, 2, 3, 5, 8], stmt.query(&[]).unwrap().iter().map(|r| r.get(0)).collect::>()); } #[test] fn test_query_copy_out_err() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.batch_execute(" CREATE TEMPORARY TABLE foo (id INT); INSERT INTO foo (id) VALUES (0), (1), (2), (3)")); let stmt = or_panic!(conn.prepare("COPY foo (id) TO STDOUT")); match stmt.query(&[]) { Ok(_) => panic!("unexpected success"), Err(Error::Io(ref e)) if e.to_string().contains("COPY") => {} Err(e) => panic!("unexpected error {:?}", e), }; } #[test] fn test_copy_out() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.batch_execute(" CREATE TEMPORARY TABLE foo (id INT); INSERT INTO foo (id) VALUES (0), (1), (2), (3)")); let stmt = or_panic!(conn.prepare("COPY (SELECT id FROM foo ORDER BY id) TO STDOUT")); let mut buf = vec![]; let count = or_panic!(stmt.copy_out(&[], &mut buf)); assert_eq!(count, 4); assert_eq!(buf, b"0\n1\n2\n3\n"); or_panic!(conn.batch_execute("SELECT 1")); } #[test] fn test_copy_out_error() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.batch_execute(" CREATE TEMPORARY TABLE foo (id INT); INSERT INTO foo (id) VALUES (0), (1), (2), (3)")); let stmt = or_panic!(conn.prepare("COPY (SELECT id FROM foo ORDER BY id) TO STDOUT (OIDS)")); let mut buf = vec![]; match stmt.copy_out(&[], &mut buf) { Ok(_) => panic!("unexpected success"), Err(Error::Db(..)) => {} Err(e) => panic!("unexpected error {}", e), } } #[test] // Just make sure the impls don't infinite loop fn test_generic_connection() { fn f(t: &T) where T: GenericConnection { or_panic!(t.execute("SELECT 1", &[])); } let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); f(&conn); let trans = or_panic!(conn.transaction()); f(&trans); } #[test] fn test_custom_range_element_type() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let trans = or_panic!(conn.transaction()); or_panic!(trans.execute("CREATE TYPE floatrange AS RANGE ( subtype = float8, subtype_diff = float8mi )", &[])); let stmt = or_panic!(trans.prepare("SELECT $1::floatrange")); match &stmt.param_types()[0] { &Type::Other(ref u) => { assert_eq!("floatrange", u.name()); assert_eq!(&Kind::Range(Type::Float8), u.kind()); assert_eq!("public", u.schema()); } t => panic!("Unexpected type {:?}", t) } } #[test] fn test_prepare_cached() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo (id INT)", &[])); or_panic!(conn.execute("INSERT INTO foo (id) VALUES (1), (2)", &[])); let stmt = or_panic!(conn.prepare_cached("SELECT id FROM foo ORDER BY id")); assert_eq!(vec![1, 2], or_panic!(stmt.query(&[])).iter().map(|r| r.get(0)).collect::>()); or_panic!(stmt.finish()); let stmt = or_panic!(conn.prepare_cached("SELECT id FROM foo ORDER BY id")); assert_eq!(vec![1, 2], or_panic!(stmt.query(&[])).iter().map(|r| r.get(0)).collect::>()); or_panic!(stmt.finish()); let stmt = or_panic!(conn.prepare_cached("SELECT id FROM foo ORDER BY id DESC")); assert_eq!(vec![2, 1], or_panic!(stmt.query(&[])).iter().map(|r| r.get(0)).collect::>()); or_panic!(stmt.finish()); } #[test] fn test_is_active() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); assert!(conn.is_active()); let trans = or_panic!(conn.transaction()); assert!(!conn.is_active()); assert!(trans.is_active()); { let trans2 = or_panic!(trans.transaction()); assert!(!conn.is_active()); assert!(!trans.is_active()); assert!(trans2.is_active()); or_panic!(trans2.finish()); } assert!(!conn.is_active()); assert!(trans.is_active()); or_panic!(trans.finish()); assert!(conn.is_active()); } #[test] fn test_parameter() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); assert_eq!(Some("UTF8".to_string()), conn.parameter("client_encoding")); assert_eq!(None, conn.parameter("asdf")); } #[test] fn test_get_bytes() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT '\\x00010203'::BYTEA")); let result = or_panic!(stmt.query(&[])); assert_eq!(b"\x00\x01\x02\x03", result.iter().next().unwrap().get_bytes(0).unwrap()); } #[test] fn test_get_opt_wrong_type() { let conn = Connection::connect("postgres://postgres@localhost", SslMode::None).unwrap(); let stmt = conn.prepare("SELECT 1::INT").unwrap(); let res = stmt.query(&[]).unwrap(); match res.iter().next().unwrap().get_opt::<_, String>(0) { Some(Ok(_)) => panic!("unexpected success"), Some(Err(Error::Conversion(ref e))) if e.is::() => {} Some(Err(e)) => panic!("unexpected error {}", e), None => panic!("unexpected None"), } } #[test] fn url_encoded_password() { let params = "postgresql://username%7b%7c:password%7b%7c@localhost".into_connect_params().unwrap(); assert_eq!("username{|", ¶ms.user.as_ref().unwrap().user[..]); assert_eq!("password{|", ¶ms.user.as_ref().unwrap().password.as_ref().unwrap()[..]); } #[test] fn test_transaction_isolation_level() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", SslMode::None)); assert_eq!(IsolationLevel::ReadCommitted, or_panic!(conn.transaction_isolation())); or_panic!(conn.set_transaction_isolation(IsolationLevel::ReadUncommitted)); assert_eq!(IsolationLevel::ReadUncommitted, or_panic!(conn.transaction_isolation())); or_panic!(conn.set_transaction_isolation(IsolationLevel::RepeatableRead)); assert_eq!(IsolationLevel::RepeatableRead, or_panic!(conn.transaction_isolation())); or_panic!(conn.set_transaction_isolation(IsolationLevel::Serializable)); assert_eq!(IsolationLevel::Serializable, or_panic!(conn.transaction_isolation())); or_panic!(conn.set_transaction_isolation(IsolationLevel::ReadCommitted)); assert_eq!(IsolationLevel::ReadCommitted, or_panic!(conn.transaction_isolation())); } #[test] fn test_rows_index() { let conn = Connection::connect("postgres://postgres@localhost", SslMode::None).unwrap(); conn.batch_execute(" CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY); INSERT INTO foo (id) VALUES (1), (2), (3); ").unwrap(); let stmt = conn.prepare("SELECT id FROM foo ORDER BY id").unwrap(); let rows = stmt.query(&[]).unwrap(); assert_eq!(3, rows.len()); assert_eq!(2i32, rows.get(1).get(0)); } #[test] fn test_row_case_insensitive() { let conn = Connection::connect("postgres://postgres@localhost", SslMode::None).unwrap(); conn.batch_execute("CREATE TEMPORARY TABLE foo (foo INT, \"bAr\" INT, \"Bar\" INT);").unwrap(); let stmt = conn.prepare("SELECT * FROM foo").unwrap(); assert_eq!(Some(0), "foo".idx(&stmt)); assert_eq!(Some(0), "FOO".idx(&stmt)); assert_eq!(Some(1), "bar".idx(&stmt)); assert_eq!(Some(1), "bAr".idx(&stmt)); assert_eq!(Some(2), "Bar".idx(&stmt)); } #[test] fn test_type_names() { let conn = Connection::connect("postgres://postgres@localhost", SslMode::None).unwrap(); let stmt = conn.prepare("SELECT t.oid, t.typname FROM pg_catalog.pg_type t, pg_namespace n WHERE n.oid = t.typnamespace AND n.nspname = 'pg_catalog' AND t.oid < 10000 AND t.typtype != 'c'").unwrap(); for row in &stmt.query(&[]).unwrap() { let id: Oid = row.get(0); let name: String = row.get(1); assert_eq!(Type::from_oid(id).unwrap().name(), name); } } #[test] fn test_conn_query() { let conn = Connection::connect("postgres://postgres@localhost", SslMode::None).unwrap(); conn.batch_execute(" CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY); INSERT INTO foo (id) VALUES (1), (2), (3); ").unwrap(); let ids = conn.query("SELECT id FROM foo ORDER BY id", &[]) .unwrap() .iter() .map(|r| r.get(0)) .collect::>(); assert_eq!(ids, [1, 2, 3]); }