mirror of
https://github.com/denoland/std.git
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408 lines
10 KiB
TypeScript
408 lines
10 KiB
TypeScript
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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import { assertEquals, assertThrows } from "@std/assert";
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import { concat } from "@std/bytes";
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import { random } from "./_common_test.ts";
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import { encodeCbor } from "./encode_cbor.ts";
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import { CborTag } from "./tag.ts";
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Deno.test("encodeCbor() encoding undefined", () => {
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assertEquals(
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encodeCbor(undefined),
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new Uint8Array([0b111_10111]),
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);
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});
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Deno.test("encodeCbor() encoding null", () => {
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assertEquals(encodeCbor(null), new Uint8Array([0b111_10110]));
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});
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Deno.test("encodeCbor() encoding true", () => {
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assertEquals(encodeCbor(true), new Uint8Array([0b111_10101]));
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});
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Deno.test("encodeCbor() encoding false", () => {
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assertEquals(encodeCbor(false), new Uint8Array([0b111_10100]));
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});
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Deno.test("encodeCbor() encoding numbers as Uint", () => {
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let num: number | bigint = random(0, 24);
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assertEquals(encodeCbor(num), new Uint8Array([0b000_00000 + num]));
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num = random(24, 2 ** 8);
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assertEquals(encodeCbor(num), new Uint8Array([0b000_11000, num]));
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num = random(2 ** 8, 2 ** 16);
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assertEquals(
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encodeCbor(num),
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new Uint8Array([0b000_11001, num >> 8 & 0xFF, num & 0xFF]),
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);
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num = random(2 ** 16, 2 ** 32);
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assertEquals(
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encodeCbor(num),
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new Uint8Array([
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0b000_11010,
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num >> 24 & 0xFF,
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num >> 16 & 0xFF,
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num >> 8 & 0xFF,
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num & 0xFF,
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]),
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);
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// JavaScript fails at correctly bit-wising this many bits as a number.
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num = BigInt(Number.MAX_SAFE_INTEGER);
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assertEquals(
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encodeCbor(Number.MAX_SAFE_INTEGER),
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new Uint8Array(
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[
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0b000_11011,
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num >> 56n & 0xFFn,
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num >> 48n & 0xFFn,
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num >> 40n & 0xFFn,
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num >> 32n & 0xFFn,
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num >> 24n & 0xFFn,
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num >> 16n & 0xFFn,
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num >> 8n & 0xFFn,
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num & 0xFFn,
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].map((x) => Number(x)),
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),
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);
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});
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Deno.test("encodeCbor() encoding numbers as Int", () => {
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const num = -random(1, 24); // -0 === 0
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assertEquals(
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encodeCbor(num),
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new Uint8Array([0b001_00000 + (-num - 1)]),
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);
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});
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Deno.test("encodeCbor() encoding numbers as Float", () => {
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const num = Math.random() * 2 ** 32;
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const view = new DataView(new ArrayBuffer(8));
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view.setFloat64(0, num);
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assertEquals(
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encodeCbor(num),
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concat([new Uint8Array([0b111_11011]), new Uint8Array(view.buffer)]),
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);
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});
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Deno.test("encodeCbor() encoding bigints as Uint", () => {
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let num = BigInt(random(0, 24));
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assertEquals(
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encodeCbor(num),
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new Uint8Array([0b000_00000 + Number(num)]),
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);
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num = BigInt(random(24, 2 ** 8));
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assertEquals(encodeCbor(num), new Uint8Array([0b000_11000, Number(num)]));
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num = BigInt(random(2 ** 8, 2 ** 16));
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assertEquals(
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encodeCbor(num),
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new Uint8Array([
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0b000_11001,
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Number(num >> 8n & 0xFFn),
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Number(num & 0xFFn),
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]),
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);
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num = BigInt(random(2 ** 16, 2 ** 32));
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assertEquals(
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encodeCbor(num),
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new Uint8Array([
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0b000_11010,
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Number(num >> 24n & 0xFFn),
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Number(num >> 16n & 0xFFn),
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Number(num >> 8n & 0xFFn),
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Number(num & 0xFFn),
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]),
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);
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num = BigInt(random(2 ** 32, 2 ** 64));
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assertEquals(
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encodeCbor(num),
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new Uint8Array([
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0b000_11011,
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Number(num >> 56n & 0xFFn),
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Number(num >> 48n & 0xFFn),
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Number(num >> 40n & 0xFFn),
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Number(num >> 32n & 0xFFn),
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Number(num >> 24n & 0xFFn),
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Number(num >> 16n & 0xFFn),
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Number(num >> 8n & 0xFFn),
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Number(num & 0xFFn),
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]),
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);
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});
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Deno.test("encodeCbor() encoding bigints as Int", () => {
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const num = -BigInt(random(1, 24)); // -0 === 0
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assertEquals(
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encodeCbor(num),
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new Uint8Array([0b001_00000 + Number(-num - 1n)]),
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);
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});
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Deno.test("encodeCbor() encoding strings", () => {
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const decoder = new TextDecoder();
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let bytes = new Uint8Array(random(0, 24)).map((_) => random(97, 123)); // Range: `a` - `z`
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assertEquals(
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encodeCbor(decoder.decode(bytes)),
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new Uint8Array([0b011_00000 + bytes.length, ...bytes]),
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);
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bytes = new Uint8Array(random(24, 2 ** 8)).map((_) => random(97, 123)); // Range: `a` - `z`
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assertEquals(
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encodeCbor(decoder.decode(bytes)),
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new Uint8Array([0b011_11000, bytes.length, ...bytes]),
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);
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bytes = new Uint8Array(random(2 ** 8, 2 ** 16)).map((_) => random(97, 123)); // Range: `a` - `z`
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assertEquals(
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encodeCbor(decoder.decode(bytes)),
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new Uint8Array([
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0b011_11001,
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bytes.length >> 8 & 0xFF,
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bytes.length & 0xFF,
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...bytes,
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]),
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);
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bytes = new Uint8Array(random(2 ** 16, 2 ** 17)).map((_) => random(97, 123)); // Range: `a` - `z`
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assertEquals(
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encodeCbor(decoder.decode(bytes)),
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new Uint8Array([
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0b011_11010,
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bytes.length >> 24 & 0xFF,
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bytes.length >> 16 & 0xFF,
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bytes.length >> 8 & 0xFF,
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bytes.length & 0xFF,
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...bytes,
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]),
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);
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// Can't test the next bracket up due to JavaScript limitations.
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});
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Deno.test("encodeCbor() encoding Uint8Arrays", () => {
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let bytes = new Uint8Array(random(0, 24));
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assertEquals(
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encodeCbor(bytes),
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new Uint8Array([0b010_00000 + bytes.length, ...bytes]),
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);
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bytes = new Uint8Array(random(24, 2 ** 8));
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assertEquals(
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encodeCbor(bytes),
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new Uint8Array([0b010_11000, bytes.length, ...bytes]),
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);
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bytes = new Uint8Array(random(2 ** 8, 2 ** 16));
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assertEquals(
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encodeCbor(bytes),
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new Uint8Array([
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0b010_11001,
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bytes.length >> 8 & 0xFF,
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bytes.length & 0xFF,
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...bytes,
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]),
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);
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bytes = new Uint8Array(random(2 ** 16, 2 ** 17));
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assertEquals(
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encodeCbor(bytes),
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new Uint8Array([
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0b010_11010,
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bytes.length >> 24 & 0xFF,
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bytes.length >> 16 & 0xFF,
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bytes.length >> 8 & 0xFF,
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bytes.length & 0xFF,
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...bytes,
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]),
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);
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// Can't test the next bracket up due to JavaScript limitations.
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});
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Deno.test("encodeCbor() encoding Dates", () => {
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const date = new Date();
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assertEquals(
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encodeCbor(date),
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new Uint8Array([0b110_00001, ...encodeCbor(date.getTime() / 1000)]),
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);
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});
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Deno.test("encodeCbor() encoding arrays", () => {
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let array = new Array(random(0, 24)).fill(0);
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assertEquals(
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encodeCbor(array),
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new Uint8Array([
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0b100_00000 + array.length,
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...array.map((x) => [...encodeCbor(x)]).flat(),
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]),
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);
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array = new Array(random(24, 2 ** 8)).fill(0);
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assertEquals(
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encodeCbor(array),
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new Uint8Array([
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0b100_11000,
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array.length,
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...array.map((x) => [...encodeCbor(x)]).flat(),
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]),
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);
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array = new Array(random(2 ** 8, 2 ** 16)).fill(0);
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assertEquals(
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encodeCbor(array),
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new Uint8Array([
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0b100_11001,
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array.length >> 8 & 0xFF,
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array.length & 0xFF,
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...array.map((x) => [...encodeCbor(x)]).flat(),
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]),
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);
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array = new Array(random(2 ** 16, 2 ** 17)).fill(0);
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assertEquals(
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encodeCbor(array),
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new Uint8Array([
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0b100_11010,
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array.length >> 24 & 0xFF,
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array.length >> 16 & 0xFF,
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array.length >> 8 & 0xFF,
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array.length & 0xFF,
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...array.map((x) => [...encodeCbor(x)]).flat(),
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]),
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);
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// Can't test the next bracket up due to JavaScript limitations.
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});
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Deno.test("encodeCbor() encoding objects", () => {
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let pairs = random(0, 24);
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let entries: [string, number][] = new Array(pairs).fill(0).map((
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_,
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i,
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) => [i.toString(), i]);
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assertEquals(
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encodeCbor(Object.fromEntries(entries)),
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new Uint8Array([
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0b101_00000 + pairs,
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...entries.map(([k, v]) => [...encodeCbor(k), ...encodeCbor(v)])
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.flat(),
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]),
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);
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pairs = random(24, 2 ** 8);
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entries = new Array(pairs).fill(0).map((_, i) => [i.toString(), i]);
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assertEquals(
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encodeCbor(Object.fromEntries(entries)),
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new Uint8Array([
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0b101_11000,
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pairs,
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...entries.map(([k, v]) => [...encodeCbor(k), ...encodeCbor(v)])
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.flat(),
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]),
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);
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pairs = random(2 ** 8, 2 ** 16);
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entries = new Array(pairs).fill(0).map((_, i) => [i.toString(), i]);
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assertEquals(
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encodeCbor(Object.fromEntries(entries)),
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new Uint8Array([
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0b101_11001,
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pairs >> 8 & 0xFF,
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pairs & 0xFF,
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...entries.map(([k, v]) => [...encodeCbor(k), ...encodeCbor(v)])
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.flat(),
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]),
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);
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// Can't test the next two bracket up due to JavaScript limitations.
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});
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Deno.test("encodeCbor() encoding CborTag()", () => {
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const bytes = new Uint8Array(random(0, 24)).map((_) => random(0, 256));
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assertEquals(
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encodeCbor(new CborTag(2, bytes)),
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new Uint8Array([0b110_00010, 0b010_00000 + bytes.length, ...bytes]),
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);
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});
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Deno.test("encodeCbor() rejecting numbers as Uint", () => {
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const num = 2 ** 65;
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assertThrows(
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() => {
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encodeCbor(num);
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},
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RangeError,
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`Cannot encode number: It (${num}) exceeds 2 ** 64 - 1`,
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);
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});
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Deno.test("encodeCbor() rejecting numbers as Int", () => {
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const num = -(2 ** 65);
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assertThrows(
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() => {
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encodeCbor(num);
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},
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RangeError,
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`Cannot encode number: It (${num}) exceeds -2 ** 64 - 1`,
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);
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});
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Deno.test("encodeCbor() rejecting bigints as Uint", () => {
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const num = 2n ** 65n;
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assertThrows(
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() => {
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encodeCbor(num);
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},
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RangeError,
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`Cannot encode bigint: It (${num}) exceeds 2 ** 64 - 1`,
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);
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});
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Deno.test("encodeCbor() rejecting bigints as Int", () => {
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const num = -(2n ** 65n);
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assertThrows(
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() => {
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encodeCbor(num);
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},
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RangeError,
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`Cannot encode bigint: It (${num}) exceeds -2 ** 64 - 1`,
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);
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});
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Deno.test("encodeCbor() rejecting CborTag()", () => {
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let num = -5;
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assertThrows(
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() => {
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encodeCbor(
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new CborTag(
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num,
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new Uint8Array(random(0, 24)).map((_) => random(0, 256)),
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),
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);
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},
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RangeError,
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`Cannot encode Tag Item: Tag Number (${num}) is less than zero`,
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);
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num = 2 ** 65;
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assertThrows(
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() => {
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encodeCbor(
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new CborTag(
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num,
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new Uint8Array(random(0, 24)).map((_) => random(0, 256)),
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),
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);
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},
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RangeError,
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`Cannot encode Tag Item: Tag Number (${num}) exceeds 2 ** 64 - 1`,
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);
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});
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