mirror of
https://github.com/denoland/deno.git
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196 lines
5.8 KiB
JavaScript
196 lines
5.8 KiB
JavaScript
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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// A simple runtime that doesn't involve typescript or protobufs to test
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// libdeno. Invoked by libdeno_test.cc
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const global = this;
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function assert(cond) {
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if (!cond) throw Error("libdeno_test.js assert failed");
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}
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global.CanCallFunction = () => {
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libdeno.print("Hello world from foo");
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return "foo";
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};
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// This object is created to test snapshotting.
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// See DeserializeInternalFieldsCallback and SerializeInternalFieldsCallback.
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const snapshotted = new Uint8Array([1, 3, 3, 7]);
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global.TypedArraySnapshots = () => {
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assert(snapshotted[0] === 1);
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assert(snapshotted[1] === 3);
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assert(snapshotted[2] === 3);
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assert(snapshotted[3] === 7);
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};
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global.RecvReturnEmpty = () => {
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const m1 = new Uint8Array("abc".split("").map(c => c.charCodeAt(0)));
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const m2 = m1.slice();
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const r1 = libdeno.send(m1);
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assert(r1 == null);
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const r2 = libdeno.send(m2);
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assert(r2 == null);
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};
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global.RecvReturnBar = () => {
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const m = new Uint8Array("abc".split("").map(c => c.charCodeAt(0)));
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const r = libdeno.send(m);
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assert(r instanceof Uint8Array);
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assert(r.byteLength === 3);
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const rstr = String.fromCharCode(...r);
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assert(rstr === "bar");
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};
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global.DoubleRecvFails = () => {
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// libdeno.recv is an internal function and should only be called once from the
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// runtime.
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libdeno.recv((channel, msg) => assert(false));
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libdeno.recv((channel, msg) => assert(false));
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};
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global.SendRecvSlice = () => {
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const abLen = 1024;
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let buf = new Uint8Array(abLen);
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for (let i = 0; i < 5; i++) {
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// Set first and last byte, for verification by the native side.
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buf[0] = 100 + i;
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buf[buf.length - 1] = 100 - i;
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// On the native side, the slice is shortened by 19 bytes.
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buf = libdeno.send(buf);
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assert(buf.byteOffset === i * 11);
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assert(buf.byteLength === abLen - i * 30 - 19);
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assert(buf.buffer.byteLength == abLen);
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// Look for values written by the backend.
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assert(buf[0] === 200 + i);
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assert(buf[buf.length - 1] === 200 - i);
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// On the JS side, the start of the slice is moved up by 11 bytes.
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buf = buf.subarray(11);
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assert(buf.byteOffset === (i + 1) * 11);
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assert(buf.byteLength === abLen - (i + 1) * 30);
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}
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};
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global.JSSendArrayBufferViewTypes = () => {
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// Test that ArrayBufferView slices are transferred correctly.
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// Send Uint8Array.
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const ab1 = new ArrayBuffer(4321);
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const u8 = new Uint8Array(ab1, 2468, 1000);
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u8[0] = 1;
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libdeno.send(u8);
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// Send Uint32Array.
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const ab2 = new ArrayBuffer(4321);
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const u32 = new Uint32Array(ab2, 2468, 1000 / Uint32Array.BYTES_PER_ELEMENT);
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u32[0] = 0x02020202;
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libdeno.send(u32);
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// Send DataView.
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const ab3 = new ArrayBuffer(4321);
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const dv = new DataView(ab3, 2468, 1000);
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dv.setUint8(0, 3);
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libdeno.send(dv);
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};
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// The following join has caused SnapshotBug to segfault when using kKeep.
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[].join("");
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global.SnapshotBug = () => {
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assert("1,2,3" === String([1, 2, 3]));
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};
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global.GlobalErrorHandling = () => {
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eval("\n\n notdefined()\n//# sourceURL=helloworld.js");
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};
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// Allocate this buf at the top level to avoid GC.
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const dataBuf = new Uint8Array([3, 4]);
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global.DataBuf = () => {
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const a = new Uint8Array([1, 2]);
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const b = dataBuf;
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// The second parameter of send should modified by the
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// privileged side.
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const r = libdeno.send(a, b);
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assert(r == null);
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// b is different.
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assert(b[0] === 4);
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assert(b[1] === 2);
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// Now we modify it again.
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b[0] = 9;
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b[1] = 8;
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};
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global.CheckPromiseErrors = () => {
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async function fn() {
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throw new Error("message");
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}
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(async () => {
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try {
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await fn();
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} catch (e) {
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libdeno.send(new Uint8Array([42]));
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}
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})();
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};
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global.Shared = () => {
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const ab = libdeno.shared;
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assert(ab instanceof SharedArrayBuffer);
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assert(libdeno.shared != undefined);
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assert(ab.byteLength === 3);
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const ui8 = new Uint8Array(ab);
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assert(ui8[0] === 0);
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assert(ui8[1] === 1);
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assert(ui8[2] === 2);
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ui8[0] = 42;
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ui8[1] = 43;
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ui8[2] = 44;
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};
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global.LibDenoEvalContext = () => {
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const [result, errInfo] = libdeno.evalContext("let a = 1; a");
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assert(result === 1);
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assert(!errInfo);
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const [result2, errInfo2] = libdeno.evalContext("a = a + 1; a");
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assert(result2 === 2);
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assert(!errInfo2);
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};
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global.LibDenoEvalContextError = () => {
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const [result, errInfo] = libdeno.evalContext("not_a_variable");
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assert(!result);
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assert(!!errInfo);
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assert(errInfo.isNativeError); // is a native error (ReferenceError)
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assert(!errInfo.isCompileError); // is NOT a compilation error
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assert(errInfo.thrown.message === "not_a_variable is not defined");
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const [result2, errInfo2] = libdeno.evalContext("throw 1");
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assert(!result2);
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assert(!!errInfo2);
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assert(!errInfo2.isNativeError); // is NOT a native error
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assert(!errInfo2.isCompileError); // is NOT a compilation error
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assert(errInfo2.thrown === 1);
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const [result3, errInfo3] =
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libdeno.evalContext("class AError extends Error {}; throw new AError('e')");
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assert(!result3);
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assert(!!errInfo3);
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assert(errInfo3.isNativeError); // extend from native error, still native error
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assert(!errInfo3.isCompileError); // is NOT a compilation error
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assert(errInfo3.thrown.message === "e");
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const [result4, errInfo4] = libdeno.evalContext("{");
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assert(!result4);
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assert(!!errInfo4);
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assert(errInfo4.isNativeError); // is a native error (SyntaxError)
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assert(errInfo4.isCompileError); // is a compilation error! (braces not closed)
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assert(errInfo4.thrown.message === "Unexpected end of input");
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const [result5, errInfo5] = libdeno.evalContext("eval('{')");
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assert(!result5);
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assert(!!errInfo5);
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assert(errInfo5.isNativeError); // is a native error (SyntaxError)
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assert(!errInfo5.isCompileError); // is NOT a compilation error! (just eval)
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assert(errInfo5.thrown.message === "Unexpected end of input");
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};
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