// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use serde::Deserialize; use serde::Serialize; use serde_v8::utils::js_exec; use serde_v8::utils::v8_do; use serde_v8::Result; #[derive(Deserialize)] struct MagicOp<'s> { #[allow(unused)] pub a: u64, #[allow(unused)] pub b: u64, pub c: serde_v8::Value<'s>, #[allow(unused)] pub operator: Option, } #[derive(Serialize)] struct MagicContainer<'s> { pub magic: bool, pub contains: serde_v8::Value<'s>, } #[test] fn magic_basic() { v8_do(|| { let isolate = &mut v8::Isolate::new(v8::CreateParams::default()); let handle_scope = &mut v8::HandleScope::new(isolate); let context = v8::Context::new(handle_scope); let scope = &mut v8::ContextScope::new(handle_scope, context); // Decode let v = js_exec(scope, "({a: 1, b: 3, c: 'abracadabra'})"); let mop: MagicOp = serde_v8::from_v8(scope, v).unwrap(); // Check string let v8_value: v8::Local = mop.c.into(); let vs = v8::Local::::try_from(v8_value).unwrap(); let s = vs.to_rust_string_lossy(scope); assert_eq!(s, "abracadabra"); // Encode let container = MagicContainer { magic: true, contains: v.into(), }; let vc = serde_v8::to_v8(scope, container).unwrap(); // JSON stringify & check let json = v8::json::stringify(scope, vc).unwrap(); let s2 = json.to_rust_string_lossy(scope); assert_eq!( s2, r#"{"magic":true,"contains":{"a":1,"b":3,"c":"abracadabra"}}"# ); }) } #[test] fn magic_buffer() { v8_do(|| { // Init isolate let isolate = &mut v8::Isolate::new(v8::CreateParams::default()); let handle_scope = &mut v8::HandleScope::new(isolate); let context = v8::Context::new(handle_scope); let scope = &mut v8::ContextScope::new(handle_scope, context); let global = context.global(scope); // Simple buffer let v8_array = js_exec(scope, "new Uint8Array([1,2,3,4,5])"); let zbuf: serde_v8::ZeroCopyBuf = serde_v8::from_v8(scope, v8_array).unwrap(); assert_eq!(&*zbuf, &[1, 2, 3, 4, 5]); // Multi buffers let v8_arrays = js_exec(scope, "[new Uint8Array([1,2]), new Uint8Array([3,4,5])]"); let (z1, z2): (serde_v8::ZeroCopyBuf, serde_v8::ZeroCopyBuf) = serde_v8::from_v8(scope, v8_arrays).unwrap(); assert_eq!(&*z1, &[1, 2]); assert_eq!(&*z2, &[3, 4, 5]); // Wrapped in option, like our current op-ABI let v8_array = js_exec(scope, "new Uint8Array([1,2,3,4,5])"); let zbuf: Option = serde_v8::from_v8(scope, v8_array).unwrap(); assert_eq!(&*zbuf.unwrap(), &[1, 2, 3, 4, 5]); // Observe mutation in JS let v8_array = js_exec(scope, "new Uint8Array([1,2,3,4,5])"); let mut zbuf: serde_v8::ZeroCopyBuf = serde_v8::from_v8(scope, v8_array).unwrap(); let key = serde_v8::to_v8(scope, "t1").unwrap(); global.set(scope, key, v8_array); (&mut *zbuf)[2] = 42; let eq = js_exec(scope, "t1[2] === 42"); assert!(eq.is_true()); // Shared buffers let v8_array = js_exec(scope, "new Uint8Array(new SharedArrayBuffer([1,2,3,4,5]))"); let zbuf: Result = serde_v8::from_v8(scope, v8_array); assert!(zbuf.is_err()); // Serialization let buf: Vec = vec![1, 2, 3, 99, 5]; let zbuf: serde_v8::ZeroCopyBuf = buf.into(); let v8_value = serde_v8::to_v8(scope, zbuf).unwrap(); let key = serde_v8::to_v8(scope, "t2").unwrap(); global.set(scope, key, v8_value); let eq = js_exec(scope, "t2[3] === 99"); assert!(eq.is_true()); // Composite Serialization #[derive(serde::Serialize)] struct Wrapper { a: serde_v8::ZeroCopyBuf, b: serde_v8::ZeroCopyBuf, } let buf1: Vec = vec![1, 2, 33, 4, 5]; let buf2: Vec = vec![5, 4, 3, 2, 11]; let wrapped = Wrapper { a: buf1.into(), b: buf2.into(), }; let v8_value = serde_v8::to_v8(scope, wrapped).unwrap(); let key = serde_v8::to_v8(scope, "t3").unwrap(); global.set(scope, key, v8_value); let eq = js_exec(scope, "t3.a[2] === 33"); assert!(eq.is_true()); let eq = js_exec(scope, "t3.b[4] === 11"); assert!(eq.is_true()); // ZeroCopyBuf as bytes::Bytes let v8_array = js_exec(scope, "new Uint8Array([1,2,3,4,5])"); let zbuf: serde_v8::ZeroCopyBuf = serde_v8::from_v8(scope, v8_array).unwrap(); let buf: bytes::Bytes = zbuf.into(); assert_eq!(buf, bytes::Bytes::from_static(&[1, 2, 3, 4, 5])); assert_eq!(buf, bytes::Bytes::from_static(&[1, 2, 3, 4, 5])); assert_eq!(buf.slice(0..2), bytes::Bytes::from_static(&[1, 2])); assert_eq!(buf.slice(2..), bytes::Bytes::from_static(&[3, 4, 5])); // We're specifically testing that slices are preserved post-clone #[allow(clippy::redundant_clone)] let buf2 = buf.slice(2..).clone(); assert_eq!(buf2, bytes::Bytes::from_static(&[3, 4, 5])); }) } #[test] fn magic_byte_string() { v8_do(|| { // Init isolate let isolate = &mut v8::Isolate::new(v8::CreateParams::default()); let handle_scope = &mut v8::HandleScope::new(isolate); let context = v8::Context::new(handle_scope); let scope = &mut v8::ContextScope::new(handle_scope, context); let global = context.global(scope); // JS string to ByteString let v8_string = js_exec(scope, "'test \\0\\t\\n\\r\\x7F\\x80áþÆñ'"); let rust_reflex: serde_v8::ByteString = serde_v8::from_v8(scope, v8_string).unwrap(); assert_eq!( rust_reflex.as_slice(), b"test \0\t\n\r\x7F\x80\xE1\xFE\xC6\xF1" ); // Non-Latin-1 characters let v8_string = js_exec(scope, "'日本語'"); let rust_reflex: Result = serde_v8::from_v8(scope, v8_string); assert!(rust_reflex.is_err()); // Windows-1252 characters that aren't Latin-1 let v8_string = js_exec(scope, "'œ'"); let rust_reflex: Result = serde_v8::from_v8(scope, v8_string); assert!(rust_reflex.is_err()); // ByteString to JS string let expected = "a\x00sf:~\x7Fá\u{009C}þ\u{008A}"; let buf: Vec = b"a\x00sf:~\x7F\xE1\x9C\xFE\x8A".as_ref().into(); let zbuf = serde_v8::ByteString::from(buf); let v8_value = serde_v8::to_v8(scope, zbuf).unwrap(); let key = serde_v8::to_v8(scope, "actual").unwrap(); global.set(scope, key, v8_value); let v8_value_expected = serde_v8::to_v8(scope, expected).unwrap(); let key_expected = serde_v8::to_v8(scope, "expected").unwrap(); global.set(scope, key_expected, v8_value_expected); let eq = js_exec(scope, "actual === expected"); assert!(eq.is_true()); }) }