use collections::HashMap; use serialize::json; use sync; use sync::Future; use time; use time::Timespec; use uuid::Uuid; use openssl::ssl::{SslContext, Sslv3}; use std::f32; use std::f64; use std::io::timer; use {PostgresNoticeHandler, PostgresNotification, PostgresConnection, ResultDescription, RequireSsl, PreferSsl, NoSsl}; use error::{PgConnectDbError, PgDbError, PgWrongConnection, DnsError, MissingPassword, Position, PostgresDbError, SyntaxError, InvalidPassword, QueryCanceled, InvalidCatalogName}; use types::{ToSql, FromSql, PgInt4, PgVarchar}; use types::array::{ArrayBase}; use types::range::{Range, Inclusive, Exclusive, RangeBound}; use pool::PostgresConnectionPool; #[test] // Make sure we can take both connections at once and can still get one after fn test_pool() { let pool = or_fail!(PostgresConnectionPool::new("postgres://postgres@localhost", NoSsl, 2)); let (stream1, stream2) = sync::duplex(); let pool1 = pool.clone(); let mut fut1 = Future::spawn(proc() { let _conn = pool1.get_connection(); stream1.send(()); stream1.recv(); }); let pool2 = pool.clone(); let mut fut2 = Future::spawn(proc() { let _conn = pool2.get_connection(); stream2.send(()); stream2.recv(); }); fut1.get(); fut2.get(); pool.get_connection(); } #[test] fn test_non_default_database() { or_fail!(PostgresConnection::connect("postgres://postgres@localhost/postgres", &NoSsl)); } #[test] fn test_url_terminating_slash() { or_fail!(PostgresConnection::connect("postgres://postgres@localhost/", &NoSsl)); } #[test] fn test_prepare_err() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); match conn.prepare("invalid sql statment") { Err(PgDbError(PostgresDbError { code: SyntaxError, position: Some(Position(1)), .. })) => (), resp => fail!("Unexpected result {:?}", resp) } } #[test] fn test_unknown_database() { match PostgresConnection::connect("postgres://postgres@localhost/asdf", &NoSsl) { Err(PgConnectDbError(PostgresDbError { code: InvalidCatalogName, .. })) => {} resp => fail!("Unexpected result {:?}", resp) } } #[test] fn test_connection_finish() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); assert!(conn.finish().is_ok()); } #[test] fn test_transaction_commit() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", [])); let trans = or_fail!(conn.transaction()); or_fail!(trans.execute("INSERT INTO foo (id) VALUES ($1)", [&1i32 as &ToSql])); drop(trans); let stmt = or_fail!(conn.prepare("SELECT * FROM foo")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i32], result.map(|row| row[1]).collect()); } #[test] fn test_transaction_commit_finish() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", [])); let trans = or_fail!(conn.transaction()); or_fail!(trans.execute("INSERT INTO foo (id) VALUES ($1)", [&1i32 as &ToSql])); assert!(trans.finish().is_ok()); let stmt = or_fail!(conn.prepare("SELECT * FROM foo")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i32], result.map(|row| row[1]).collect()); } #[test] fn test_transaction_rollback() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", [])); or_fail!(conn.execute("INSERT INTO foo (id) VALUES ($1)", [&1i32 as &ToSql])); let trans = or_fail!(conn.transaction()); or_fail!(trans.execute("INSERT INTO foo (id) VALUES ($1)", [&2i32 as &ToSql])); trans.set_rollback(); drop(trans); let stmt = or_fail!(conn.prepare("SELECT * FROM foo")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i32], result.map(|row| row[1]).collect()); } #[test] fn test_transaction_rollback_finish() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", [])); or_fail!(conn.execute("INSERT INTO foo (id) VALUES ($1)", [&1i32 as &ToSql])); let trans = or_fail!(conn.transaction()); or_fail!(trans.execute("INSERT INTO foo (id) VALUES ($1)", [&2i32 as &ToSql])); trans.set_rollback(); assert!(trans.finish().is_ok()); let stmt = or_fail!(conn.prepare("SELECT * FROM foo")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i32], result.map(|row| row[1]).collect()); } #[test] fn test_nested_transactions() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", [])); or_fail!(conn.execute("INSERT INTO foo (id) VALUES (1)", [])); { let trans1 = or_fail!(conn.transaction()); or_fail!(trans1.execute("INSERT INTO foo (id) VALUES (2)", [])); { let trans2 = or_fail!(trans1.transaction()); or_fail!(trans2.execute("INSERT INTO foo (id) VALUES (3)", [])); trans2.set_rollback(); } { let trans2 = or_fail!(trans1.transaction()); or_fail!(trans2.execute("INSERT INTO foo (id) VALUES (4)", [])); { let trans3 = or_fail!(trans2.transaction()); or_fail!(trans3.execute("INSERT INTO foo (id) VALUES (5)", [])); trans3.set_rollback(); } { let trans3 = or_fail!(trans2.transaction()); or_fail!(trans3.execute("INSERT INTO foo (id) VALUES (6)", [])); } } let stmt = or_fail!(conn.prepare("SELECT * FROM foo ORDER BY id")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i32, 2, 4, 6], result.map(|row| row[1]).collect()); trans1.set_rollback(); } let stmt = or_fail!(conn.prepare("SELECT * FROM foo ORDER BY id")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i32], result.map(|row| row[1]).collect()); } #[test] fn test_nested_transactions_finish() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", [])); or_fail!(conn.execute("INSERT INTO foo (id) VALUES (1)", [])); { let trans1 = or_fail!(conn.transaction()); or_fail!(trans1.execute("INSERT INTO foo (id) VALUES (2)", [])); { let trans2 = or_fail!(trans1.transaction()); or_fail!(trans2.execute("INSERT INTO foo (id) VALUES (3)", [])); trans2.set_rollback(); assert!(trans2.finish().is_ok()); } { let trans2 = or_fail!(trans1.transaction()); or_fail!(trans2.execute("INSERT INTO foo (id) VALUES (4)", [])); { let trans3 = or_fail!(trans2.transaction()); or_fail!(trans3.execute("INSERT INTO foo (id) VALUES (5)", [])); trans3.set_rollback(); assert!(trans3.finish().is_ok()); } { let trans3 = or_fail!(trans2.transaction()); or_fail!(trans3.execute("INSERT INTO foo (id) VALUES (6)", [])); assert!(trans3.finish().is_ok()); } assert!(trans2.finish().is_ok()); } let stmt = or_fail!(conn.prepare("SELECT * FROM foo ORDER BY id")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i32, 2, 4, 6], result.map(|row| row[1]).collect()); trans1.set_rollback(); assert!(trans1.finish().is_ok()); } let stmt = or_fail!(conn.prepare("SELECT * FROM foo ORDER BY id")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i32], result.map(|row| row[1]).collect()); } #[test] fn test_stmt_finish() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id BIGINT PRIMARY KEY)", [])); let stmt = or_fail!(conn.prepare("SELECT * FROM foo")); assert!(stmt.finish().is_ok()); } #[test] fn test_query() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id BIGINT PRIMARY KEY)", [])); or_fail!(conn.execute("INSERT INTO foo (id) VALUES ($1), ($2)", [&1i64 as &ToSql, &2i64 as &ToSql])); let stmt = or_fail!(conn.prepare("SELECT * from foo ORDER BY id")); let result = or_fail!(stmt.query([])); assert_eq!(~[1i64, 2], result.map(|row| row[1]).collect()); } #[test] fn test_result_finish() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo (id BIGINT PRIMARY KEY)", [])); let stmt = or_fail!(conn.prepare("SELECT * FROM foo")); let result = or_fail!(stmt.query([])); assert!(result.finish().is_ok()); } #[test] fn test_lazy_query() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let trans = or_fail!(conn.transaction()); or_fail!(trans.execute("CREATE TEMPORARY TABLE foo (id INT PRIMARY KEY)", [])); let stmt = or_fail!(trans.prepare("INSERT INTO foo (id) VALUES ($1)")); let values = vec!(0i32, 1, 2, 3, 4, 5); for value in values.iter() { or_fail!(stmt.execute([value as &ToSql])); } let stmt = or_fail!(conn.prepare("SELECT id FROM foo ORDER BY id")); let result = or_fail!(trans.lazy_query(&stmt, [], 2)); assert_eq!(values, result.map(|row| row.unwrap()[1]).collect()); trans.set_rollback(); } #[test] fn test_lazy_query_wrong_conn() { let conn1 = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let conn2 = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let trans = or_fail!(conn1.transaction()); let stmt = or_fail!(conn2.prepare("SELECT 1::INT")); match trans.lazy_query(&stmt, [], 1) { Err(PgWrongConnection) => {} Err(err) => fail!("Unexpected error {}", err), Ok(_) => fail!("Expected failure") } } #[test] fn test_param_types() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let stmt = or_fail!(conn.prepare("SELECT $1::INT, $2::VARCHAR")); assert_eq!(stmt.param_types(), &[PgInt4, PgVarchar]); } #[test] fn test_result_descriptions() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let stmt = or_fail!(conn.prepare("SELECT 1::INT as a, 'hi'::VARCHAR as b")); assert!(stmt.result_descriptions() == [ResultDescription { name: ~"a", ty: PgInt4}, ResultDescription { name: ~"b", ty: PgVarchar}]); } #[test] fn test_execute_counts() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); assert_eq!(0, or_fail!(conn.execute("CREATE TEMPORARY TABLE foo ( id SERIAL PRIMARY KEY, b INT )", []))); assert_eq!(3, or_fail!(conn.execute("INSERT INTO foo (b) VALUES ($1), ($2), ($2)", [&1i32 as &ToSql, &2i32 as &ToSql]))); assert_eq!(2, or_fail!(conn.execute("UPDATE foo SET b = 0 WHERE b = 2", []))); assert_eq!(3, or_fail!(conn.execute("SELECT * FROM foo", []))); } fn test_type(sql_type: &str, checks: &[(T, S)]) { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); for &(ref val, ref repr) in checks.iter() { let stmt = or_fail!(conn.prepare(format!("SELECT {:s}::{}", *repr, sql_type))); let result = or_fail!(stmt.query([])).next().unwrap()[1]; assert!(val == &result); let stmt = or_fail!(conn.prepare("SELECT $1::" + sql_type)); let result = or_fail!(stmt.query([val as &ToSql])).next().unwrap()[1]; assert!(val == &result); } } #[test] fn test_bool_params() { test_type("BOOL", [(Some(true), "'t'"), (Some(false), "'f'"), (None, "NULL")]); } #[test] fn test_i8_params() { test_type("\"char\"", [(Some('a' as i8), "'a'"), (None, "NULL")]); } #[test] fn test_i16_params() { test_type("SMALLINT", [(Some(15001i16), "15001"), (Some(-15001i16), "-15001"), (None, "NULL")]); } #[test] fn test_i32_params() { test_type("INT", [(Some(2147483548i32), "2147483548"), (Some(-2147483548i32), "-2147483548"), (None, "NULL")]); } #[test] fn test_i64_params() { test_type("BIGINT", [(Some(9223372036854775708i64), "9223372036854775708"), (Some(-9223372036854775708i64), "-9223372036854775708"), (None, "NULL")]); } #[test] fn test_f32_params() { test_type("REAL", [(Some(f32::INFINITY), "'infinity'"), (Some(f32::NEG_INFINITY), "'-infinity'"), (Some(1000.55), "1000.55"), (None, "NULL")]); } #[test] fn test_f64_params() { test_type("DOUBLE PRECISION", [(Some(f64::INFINITY), "'infinity'"), (Some(f64::NEG_INFINITY), "'-infinity'"), (Some(10000.55), "10000.55"), (None, "NULL")]); } #[test] fn test_varchar_params() { test_type("VARCHAR", [(Some(~"hello world"), "'hello world'"), (Some(~"イロハニホヘト チリヌルヲ"), "'イロハニホヘト チリヌルヲ'"), (None, "NULL")]); } #[test] fn test_text_params() { test_type("TEXT", [(Some(~"hello world"), "'hello world'"), (Some(~"イロハニホヘト チリヌルヲ"), "'イロハニホヘト チリヌルヲ'"), (None, "NULL")]); } #[test] fn test_bpchar_params() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); or_fail!(conn.execute("CREATE TEMPORARY TABLE foo ( id SERIAL PRIMARY KEY, b CHAR(5) )", [])); or_fail!(conn.execute("INSERT INTO foo (b) VALUES ($1), ($2), ($3)", [&Some("12345") as &ToSql, &Some("123") as &ToSql, &None::<~str> as &ToSql])); let stmt = or_fail!(conn.prepare("SELECT b FROM foo ORDER BY id")); let res = or_fail!(stmt.query([])); assert_eq!(~[Some(~"12345"), Some(~"123 "), None], res.map(|row| row[1]).collect()); } #[test] fn test_bytea_params() { test_type("BYTEA", [(Some(~[0u8, 1, 2, 3, 254, 255]), "'\\x00010203feff'"), (None, "NULL")]); } #[test] fn test_json_params() { test_type("JSON", [(Some(json::from_str("[10, 11, 12]").unwrap()), "'[10, 11, 12]'"), (Some(json::from_str("{\"f\": \"asd\"}").unwrap()), "'{\"f\": \"asd\"}'"), (None, "NULL")]) } #[test] fn test_uuid_params() { test_type("UUID", [(Some(Uuid::parse_string("a0eebc99-9c0b-4ef8-bb6d-6bb9bd380a11").unwrap()), "'a0eebc99-9c0b-4ef8-bb6d-6bb9bd380a11'"), (None, "NULL")]) } #[test] fn test_tm_params() { fn make_check<'a>(time: &'a str) -> (Option, &'a str) { (Some(time::strptime(time, "'%Y-%m-%d %H:%M:%S.%f'").unwrap().to_timespec()), time) } test_type("TIMESTAMP", [make_check("'1970-01-01 00:00:00.01'"), make_check("'1965-09-25 11:19:33.100314'"), make_check("'2010-02-09 23:11:45.1202'"), (None, "NULL")]); test_type("TIMESTAMP WITH TIME ZONE", [make_check("'1970-01-01 00:00:00.01'"), make_check("'1965-09-25 11:19:33.100314'"), make_check("'2010-02-09 23:11:45.1202'"), (None, "NULL")]); } macro_rules! test_range( ($name:expr, $t:ty, $low:expr, $low_str:expr, $high:expr, $high_str:expr) => ({ let tests = [(Some(range!('(', ')')), ~"'(,)'"), (Some(range!('[' $low, ')')), "'[" + $low_str + ",)'"), (Some(range!('(' $low, ')')), "'(" + $low_str + ",)'"), (Some(range!('(', $high ']')), "'(," + $high_str + "]'"), (Some(range!('(', $high ')')), "'(," + $high_str + ")'"), (Some(range!('[' $low, $high ']')), "'[" + $low_str + "," + $high_str + "]'"), (Some(range!('[' $low, $high ')')), "'[" + $low_str + "," + $high_str + ")'"), (Some(range!('(' $low, $high ']')), "'(" + $low_str + "," + $high_str + "]'"), (Some(range!('(' $low, $high ')')), "'(" + $low_str + "," + $high_str + ")'"), (Some(range!(empty)), ~"'empty'"), (None, ~"NULL")]; test_type($name, tests); }) ) #[test] fn test_int4range_params() { test_range!("INT4RANGE", i32, 100i32, "100", 200i32, "200") } #[test] fn test_int8range_params() { test_range!("INT8RANGE", i64, 100i64, "100", 200i64, "200") } fn test_timespec_range_params(sql_type: &str) { fn t(time: &str) -> Timespec { time::strptime(time, "%Y-%m-%d").unwrap().to_timespec() } let low = "1970-01-01"; let high = "1980-01-01"; test_range!(sql_type, Timespec, t(low), low, t(high), high); } #[test] fn test_tsrange_params() { test_timespec_range_params("TSRANGE"); } #[test] fn test_tstzrange_params() { test_timespec_range_params("TSTZRANGE"); } macro_rules! test_array_params( ($name:expr, $v1:expr, $s1:expr, $v2:expr, $s2:expr, $v3:expr, $s3:expr) => ({ let tests = [(Some(ArrayBase::from_vec(vec!(Some($v1), Some($v2), None), 1)), "'{" + $s1 + "," + $s2 + ",NULL}'"), (None, ~"NULL")]; test_type($name + "[]", tests); let mut a = ArrayBase::from_vec(vec!(Some($v1), Some($v2)), 0); a.wrap(-1); a.push_move(ArrayBase::from_vec(vec!(None, Some($v3)), 0)); let tests = [(Some(a), "'[-1:0][0:1]={{" + $s1 + "," + $s2 + "},{NULL," + $s3 + "}}'")]; test_type($name + "[][]", tests); }) ) #[test] fn test_boolarray_params() { test_array_params!("BOOL", false, "f", true, "t", true, "t"); } #[test] fn test_byteaarray_params() { test_array_params!("BYTEA", ~[0u8, 1], r#""\\x0001""#, ~[254u8, 255u8], r#""\\xfeff""#, ~[10u8, 11u8], r#""\\x0a0b""#); } #[test] fn test_chararray_params() { test_array_params!("\"char\"", 'a' as i8, "a", 'z' as i8, "z", '0' as i8, "0"); } #[test] fn test_int2array_params() { test_array_params!("INT2", 0i16, "0", 1i16, "1", 2i16, "2"); } #[test] fn test_int4array_params() { test_array_params!("INT4", 0i32, "0", 1i32, "1", 2i32, "2"); } #[test] fn test_textarray_params() { test_array_params!("TEXT", ~"hello", "hello", ~"world", "world", ~"!", "!"); } #[test] fn test_charnarray_params() { test_array_params!("CHAR(5)", ~"hello", "hello", ~"world", "world", ~"! ", "!"); } #[test] fn test_varchararray_params() { test_array_params!("VARCHAR", ~"hello", "hello", ~"world", "world", ~"!", "!"); } #[test] fn test_int8array_params() { test_array_params!("INT8", 0i64, "0", 1i64, "1", 2i64, "2"); } #[test] fn test_timestamparray_params() { fn make_check<'a>(time: &'a str) -> (Timespec, &'a str) { (time::strptime(time, "%Y-%m-%d %H:%M:%S.%f").unwrap().to_timespec(), time) } let (v1, s1) = make_check("1970-01-01 00:00:00.01"); let (v2, s2) = make_check("1965-09-25 11:19:33.100314"); let (v3, s3) = make_check("2010-02-09 23:11:45.1202"); test_array_params!("TIMESTAMP", v1, s1, v2, s2, v3, s3); test_array_params!("TIMESTAMPTZ", v1, s1, v2, s2, v3, s3); } #[test] fn test_float4array_params() { test_array_params!("FLOAT4", 0f32, "0", 1.5f32, "1.5", 0.009f32, ".009"); } #[test] fn test_float8array_params() { test_array_params!("FLOAT8", 0f64, "0", 1.5f64, "1.5", 0.009f64, ".009"); } #[test] fn test_uuidarray_params() { fn make_check<'a>(uuid: &'a str) -> (Uuid, &'a str) { (Uuid::parse_string(uuid).unwrap(), uuid) } let (v1, s1) = make_check("a0eebc99-9c0b-4ef8-bb6d-6bb9bd380a11"); let (v2, s2) = make_check("00000000-0000-0000-0000-000000000000"); let (v3, s3) = make_check("a0eebc99-9c0b-4ef8-bb6d-6bb9bd380a11"); test_array_params!("UUID", v1, s1, v2, s2, v3, s3); } #[test] fn test_int4rangearray_params() { test_array_params!("INT4RANGE", Range::new(None, None), "\"(,)\"", Range::new(Some(RangeBound::new(10i32, Inclusive)), None), "\"[10,)\"", Range::new(None, Some(RangeBound::new(10i32, Exclusive))), "\"(,10)\""); } #[test] fn test_tsrangearray_params() { fn make_check<'a>(time: &'a str) -> (Timespec, &'a str) { (time::strptime(time, "%Y-%m-%d").unwrap().to_timespec(), time) } let (v1, s1) = make_check("1970-10-11"); let (v2, s2) = make_check("1990-01-01"); let r1 = Range::new(None, None); let rs1 = "\"(,)\""; let r2 = Range::new(Some(RangeBound::new(v1, Inclusive)), None); let rs2 = "\"[" + s1 + ",)\""; let r3 = Range::new(None, Some(RangeBound::new(v2, Exclusive))); let rs3 = "\"(," + s2 + ")\""; test_array_params!("TSRANGE", r1, rs1, r2, rs2, r3, rs3); test_array_params!("TSTZRANGE", r1, rs1, r2, rs2, r3, rs3); } #[test] fn test_int8rangearray_params() { test_array_params!("INT8RANGE", Range::new(None, None), "\"(,)\"", Range::new(Some(RangeBound::new(10i64, Inclusive)), None), "\"[10,)\"", Range::new(None, Some(RangeBound::new(10i64, Exclusive))), "\"(,10)\""); } #[test] fn test_hstore_params() { macro_rules! make_map( ($($k:expr => $v:expr),+) => ({ let mut map = HashMap::new(); $(map.insert($k, $v);)+ map }) ) test_type("hstore", [(Some(make_map!(~"a" => Some(~"1"))), "'a=>1'"), (Some(make_map!(~"hello" => Some(~"world!"), ~"hola" => Some(~"mundo!"), ~"what" => None)), "'hello=>world!,hola=>mundo!,what=>NULL'"), (None, "NULL")]); } fn test_nan_param(sql_type: &str) { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let stmt = or_fail!(conn.prepare("SELECT 'NaN'::" + sql_type)); let mut result = or_fail!(stmt.query([])); let val: T = result.next().unwrap()[1]; assert!(val.is_nan()); let nan: T = Float::nan(); let stmt = or_fail!(conn.prepare("SELECT $1::" + sql_type)); let mut result = or_fail!(stmt.query([&nan as &ToSql])); let val: T = result.next().unwrap()[1]; assert!(val.is_nan()) } #[test] fn test_f32_nan_param() { test_nan_param::("REAL"); } #[test] fn test_f64_nan_param() { test_nan_param::("DOUBLE PRECISION"); } #[test] #[should_fail] fn test_wrong_param_type() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let _ = conn.execute("SELECT $1::VARCHAR", [&1i32 as &ToSql]); } #[test] #[should_fail] fn test_too_few_params() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let _ = conn.execute("SELECT $1::INT, $2::INT", [&1i32 as &ToSql]); } #[test] #[should_fail] fn test_too_many_params() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let _ = conn.execute("SELECT $1::INT, $2::INT", [&1i32 as &ToSql, &2i32 as &ToSql, &3i32 as &ToSql]); } #[test] fn test_get_named() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let stmt = or_fail!(conn.prepare("SELECT 10::INT as val")); let result = or_fail!(stmt.query([])); assert_eq!(~[10i32], result.map(|row| row["val"]).collect()); } #[test] #[should_fail] fn test_get_named_fail() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let stmt = or_fail!(conn.prepare("SELECT 10::INT as id")); let mut result = or_fail!(stmt.query([])); let _: i32 = result.next().unwrap()["asdf"]; } #[test] fn test_custom_notice_handler() { static mut count: uint = 0; struct Handler; impl PostgresNoticeHandler for Handler { fn handle(&mut self, _notice: PostgresDbError) { unsafe { count += 1; } } } let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost?client_min_messages=NOTICE", &NoSsl)); conn.set_notice_handler(~Handler as ~PostgresNoticeHandler); or_fail!(conn.execute("CREATE FUNCTION pg_temp.note() RETURNS INT AS $$ BEGIN RAISE NOTICE 'note'; RETURN 1; END; $$ LANGUAGE plpgsql", [])); or_fail!(conn.execute("SELECT pg_temp.note()", [])); assert_eq!(unsafe { count }, 1); } #[test] fn test_notification_iterator_none() { let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); assert!(conn.notifications().next().is_none()); } #[test] fn test_notification_iterator_some() { fn check_notification(expected: PostgresNotification, actual: Option) { match actual { Some(PostgresNotification { channel, payload, .. }) => { assert_eq!(&expected.channel, &channel); assert_eq!(&expected.payload, &payload); } x => fail!("Expected {:?} but got {:?}", expected, x) } } let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let mut it = conn.notifications(); or_fail!(conn.execute("LISTEN test_notification_iterator_one_channel", [])); or_fail!(conn.execute("LISTEN test_notification_iterator_one_channel2", [])); or_fail!(conn.execute("NOTIFY test_notification_iterator_one_channel, 'hello'", [])); or_fail!(conn.execute("NOTIFY test_notification_iterator_one_channel2, 'world'", [])); check_notification(PostgresNotification { pid: 0, channel: ~"test_notification_iterator_one_channel", payload: ~"hello" }, it.next()); check_notification(PostgresNotification { pid: 0, channel: ~"test_notification_iterator_one_channel2", payload: ~"world" }, it.next()); assert!(it.next().is_none()); or_fail!(conn.execute("NOTIFY test_notification_iterator_one_channel, '!'", [])); check_notification(PostgresNotification { pid: 0, channel: ~"test_notification_iterator_one_channel", payload: ~"!" }, it.next()); 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_fail!(PostgresConnection::connect("postgres://postgres@localhost", &NoSsl)); let cancel_data = conn.cancel_data(); spawn(proc() { timer::sleep(500); assert!(super::cancel_query("postgres://postgres@localhost", &NoSsl, cancel_data).is_ok()); }); match conn.execute("SELECT pg_sleep(10)", []) { Err(PgDbError(PostgresDbError { code: QueryCanceled, .. })) => {} res => fail!("Unexpected result {:?}", res) } } #[test] fn test_require_ssl_conn() { let ctx = SslContext::new(Sslv3); let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &RequireSsl(ctx))); or_fail!(conn.execute("SELECT 1::VARCHAR", [])); } #[test] fn test_prefer_ssl_conn() { let ctx = SslContext::new(Sslv3); let conn = or_fail!(PostgresConnection::connect("postgres://postgres@localhost", &PreferSsl(ctx))); or_fail!(conn.execute("SELECT 1::VARCHAR", [])); } #[test] fn test_plaintext_pass() { or_fail!(PostgresConnection::connect("postgres://pass_user:password@localhost/postgres", &NoSsl)); } #[test] fn test_plaintext_pass_no_pass() { let ret = PostgresConnection::connect("postgres://pass_user@localhost/postgres", &NoSsl); match ret { Err(MissingPassword) => (), Err(err) => fail!("Unexpected error {}", err.to_str()), _ => fail!("Expected error") } } #[test] fn test_plaintext_pass_wrong_pass() { let ret = PostgresConnection::connect("postgres://pass_user:asdf@localhost/postgres", &NoSsl); match ret { Err(PgConnectDbError(PostgresDbError { code: InvalidPassword, .. })) => (), Err(err) => fail!("Unexpected error {}", err.to_str()), _ => fail!("Expected error") } } #[test] fn test_md5_pass() { or_fail!(PostgresConnection::connect("postgres://md5_user:password@localhost/postgres", &NoSsl)); } #[test] fn test_md5_pass_no_pass() { let ret = PostgresConnection::connect("postgres://md5_user@localhost/postgres", &NoSsl); match ret { Err(MissingPassword) => (), Err(err) => fail!("Unexpected error {}", err.to_str()), _ => fail!("Expected error") } } #[test] fn test_md5_pass_wrong_pass() { let ret = PostgresConnection::connect("postgres://md5_user:asdf@localhost/postgres", &NoSsl); match ret { Err(PgConnectDbError(PostgresDbError { code: InvalidPassword, .. })) => (), Err(err) => fail!("Unexpected error {}", err.to_str()), _ => fail!("Expected error") } } #[test] fn test_dns_failure() { let ret = PostgresConnection::connect("postgres://postgres@asdfasdfasdf", &NoSsl); match ret { Err(DnsError) => (), Err(err) => fail!("Unexpected error {}", err.to_str()), _ => fail!("Expected error") } } #[test] fn test_jsonarray_params() { test_array_params!("JSON", json::from_str("[10, 11, 12]").unwrap(), "\"[10,11,12]\"", json::from_str(r#"{"a": 10, "b": null}"#).unwrap(), r#""{\"a\": 10, \"b\": null}""#, json::from_str(r#"{"a": [10], "b": true}"#).unwrap(), r#""{\"a\": [10], \"b\": true}""#); }