use serde::Serialize; use serde_cbor::ser::{Serializer, SliceWrite}; #[test] fn test_str() { serialize_and_compare("foobar", b"ffoobar"); } #[test] fn test_list() { serialize_and_compare(&[1, 2, 3], b"\x83\x01\x02\x03"); } #[test] fn test_float() { serialize_and_compare(12.3f64, b"\xfb@(\x99\x99\x99\x99\x99\x9a"); } #[test] fn test_integer() { // u8 serialize_and_compare(24, b"\x18\x18"); // i8 serialize_and_compare(-5, b"\x24"); // i16 serialize_and_compare(-300, b"\x39\x01\x2b"); // i32 serialize_and_compare(-23567997, b"\x3a\x01\x67\x9e\x7c"); // u64 serialize_and_compare(::core::u64::MAX, b"\x1b\xff\xff\xff\xff\xff\xff\xff\xff"); } fn serialize_and_compare(value: T, expected: &[u8]) { let mut slice = [0u8; 64]; let writer = SliceWrite::new(&mut slice); let mut serializer = Serializer::new(writer); value.serialize(&mut serializer).unwrap(); let writer = serializer.into_inner(); let end = writer.bytes_written(); let slice = writer.into_inner(); assert_eq!(&slice[..end], expected); } #[cfg(feature = "std")] mod std_tests { use serde::Serializer; use serde_cbor::ser; use serde_cbor::{from_slice, to_vec}; use std::collections::BTreeMap; #[test] fn test_string() { let value = "foobar".to_owned(); assert_eq!(&to_vec(&value).unwrap()[..], b"ffoobar"); } #[test] fn test_list() { let value = vec![1, 2, 3]; assert_eq!(&to_vec(&value).unwrap()[..], b"\x83\x01\x02\x03"); } #[test] fn test_object() { let mut object = BTreeMap::new(); object.insert("a".to_owned(), "A".to_owned()); object.insert("b".to_owned(), "B".to_owned()); object.insert("c".to_owned(), "C".to_owned()); object.insert("d".to_owned(), "D".to_owned()); object.insert("e".to_owned(), "E".to_owned()); let vec = to_vec(&object).unwrap(); let test_object = from_slice(&vec[..]).unwrap(); assert_eq!(object, test_object); } #[test] fn test_object_list_keys() { let mut object = BTreeMap::new(); object.insert(vec![0i64], ()); object.insert(vec![100i64], ()); object.insert(vec![-1i64], ()); object.insert(vec![-2i64], ()); object.insert(vec![0i64, 0i64], ()); object.insert(vec![0i64, -1i64], ()); let vec = to_vec(&serde_cbor::value::to_value(object.clone()).unwrap()).unwrap(); assert_eq!( vec![ 166, 129, 0, 246, 129, 24, 100, 246, 129, 32, 246, 129, 33, 246, 130, 0, 0, 246, 130, 0, 32, 246 ], vec ); let test_object = from_slice(&vec[..]).unwrap(); assert_eq!(object, test_object); } #[test] fn test_object_object_keys() { use std::iter::FromIterator; let mut object = BTreeMap::new(); let keys = vec![ vec!["a"], vec!["b"], vec!["c"], vec!["d"], vec!["aa"], vec!["a", "aa"], ] .into_iter() .map(|v| BTreeMap::from_iter(v.into_iter().map(|s| (s.to_owned(), ())))); for key in keys { object.insert(key, ()); } let vec = to_vec(&serde_cbor::value::to_value(object.clone()).unwrap()).unwrap(); assert_eq!( vec![ 166, 161, 97, 97, 246, 246, 161, 97, 98, 246, 246, 161, 97, 99, 246, 246, 161, 97, 100, 246, 246, 161, 98, 97, 97, 246, 246, 162, 97, 97, 246, 98, 97, 97, 246, 246 ], vec ); let test_object = from_slice(&vec[..]).unwrap(); assert_eq!(object, test_object); } #[test] fn test_float() { let vec = to_vec(&12.3f64).unwrap(); assert_eq!(vec, b"\xfb@(\x99\x99\x99\x99\x99\x9a"); } #[test] fn test_f32() { let vec = to_vec(&4000.5f32).unwrap(); assert_eq!(vec, b"\xfa\x45\x7a\x08\x00"); } #[test] fn test_infinity() { let vec = to_vec(&::std::f64::INFINITY).unwrap(); assert_eq!(vec, b"\xf9|\x00"); } #[test] fn test_neg_infinity() { let vec = to_vec(&::std::f64::NEG_INFINITY).unwrap(); assert_eq!(vec, b"\xf9\xfc\x00"); } #[test] fn test_nan() { let vec = to_vec(&::std::f32::NAN).unwrap(); assert_eq!(vec, b"\xf9\x7e\x00"); } #[test] fn test_integer() { // u8 let vec = to_vec(&24).unwrap(); assert_eq!(vec, b"\x18\x18"); // i8 let vec = to_vec(&-5).unwrap(); assert_eq!(vec, b"\x24"); // i16 let vec = to_vec(&-300).unwrap(); assert_eq!(vec, b"\x39\x01\x2b"); // i32 let vec = to_vec(&-23567997).unwrap(); assert_eq!(vec, b"\x3a\x01\x67\x9e\x7c"); // u64 let vec = to_vec(&::std::u64::MAX).unwrap(); assert_eq!(vec, b"\x1b\xff\xff\xff\xff\xff\xff\xff\xff"); } #[test] fn test_self_describing() { let mut vec = Vec::new(); { let mut serializer = ser::Serializer::new(&mut vec); serializer.self_describe().unwrap(); serializer.serialize_u64(9).unwrap(); } assert_eq!(vec, b"\xd9\xd9\xf7\x09"); } #[test] fn test_ip_addr() { use std::net::Ipv4Addr; let addr = Ipv4Addr::new(8, 8, 8, 8); let vec = to_vec(&addr).unwrap(); println!("{:?}", vec); assert_eq!(vec.len(), 5); let test_addr: Ipv4Addr = from_slice(&vec).unwrap(); assert_eq!(addr, test_addr); } /// Test all of CBOR's fixed-length byte string types #[test] fn test_byte_string() { // Very short byte strings have 1-byte headers let short = vec![0, 1, 2, 255]; let mut short_s = Vec::new(); serde_cbor::Serializer::new(&mut short_s) .serialize_bytes(&short) .unwrap(); assert_eq!(&short_s[..], [0x44, 0, 1, 2, 255]); // byte strings > 23 bytes have 2-byte headers let medium = vec![ 0u8, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 255, ]; let mut medium_s = Vec::new(); serde_cbor::Serializer::new(&mut medium_s) .serialize_bytes(&medium) .unwrap(); assert_eq!( &medium_s[..], [ 0x58, 24, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 255 ] ); // byte strings > 256 bytes have 3-byte headers let long_vec = (0..256).map(|i| (i & 0xFF) as u8).collect::>(); let mut long_s = Vec::new(); serde_cbor::Serializer::new(&mut long_s) .serialize_bytes(&long_vec) .unwrap(); assert_eq!(&long_s[0..3], [0x59, 1, 0]); assert_eq!(&long_s[3..], &long_vec[..]); // byte strings > 2^16 bytes have 5-byte headers let very_long_vec = (0..65536).map(|i| (i & 0xFF) as u8).collect::>(); let mut very_long_s = Vec::new(); serde_cbor::Serializer::new(&mut very_long_s) .serialize_bytes(&very_long_vec) .unwrap(); assert_eq!(&very_long_s[0..5], [0x5a, 0, 1, 0, 0]); assert_eq!(&very_long_s[5..], &very_long_vec[..]); // byte strings > 2^32 bytes have 9-byte headers, but they take too much RAM // to test in Travis. } #[test] fn test_half() { let vec = to_vec(&42.5f32).unwrap(); assert_eq!(vec, b"\xF9\x51\x50"); assert_eq!(from_slice::(&vec[..]).unwrap(), 42.5f32); } }