James Eversole
e3117e3ac8
Replace JSON-based bundle manifest with a CBOR-encoded format. The manifest is now a canonical CBOR map with order-strict key decoding, raw 32-byte hash payloads (instead of hex-encoded JSON), and compact binary representation.
135 lines
4.7 KiB
JavaScript
135 lines
4.7 KiB
JavaScript
import { readFileSync } from "node:fs";
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import { strictEqual, ok, throws } from "node:assert";
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import { createHash } from "node:crypto";
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import { describe, it } from "node:test";
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import {
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parseBundle,
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parseManifest,
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} from "../src/bundle.js";
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import {
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parseNodeSection as bundleParseNodeSection,
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} from "../src/bundle.js";
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import {
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verifyNodeHashes,
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parseNodeSection as parseNodes,
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} from "../src/merkle.js";
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const fixtureDir = "../../test/fixtures";
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describe("bundle parsing", () => {
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it("valid bundle parses header and sections", () => {
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const bundle = parseBundle(
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readFileSync(`${fixtureDir}/id.arborix`)
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);
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strictEqual(bundle.version, "1.0");
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strictEqual(bundle.sectionCount, 2);
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ok(bundle.sections.has(1)); // manifest
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ok(bundle.sections.has(2)); // nodes
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});
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it("parseManifest returns valid manifest", () => {
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const manifest = parseManifest(
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readFileSync(`${fixtureDir}/id.arborix`)
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);
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strictEqual(manifest.schema, "arborix.bundle.manifest.v1");
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strictEqual(manifest.bundleType, "tree-calculus-executable-object");
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strictEqual(manifest.closure, "complete");
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strictEqual(manifest.tree.calculus, "tree-calculus.v1");
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strictEqual(manifest.tree.nodeHash.algorithm, "sha256");
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strictEqual(manifest.tree.nodeHash.domain, "arborix.merkle.node.v1");
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strictEqual(manifest.runtime.semantics, "tree-calculus.v1");
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strictEqual(manifest.runtime.abi, "arborix.abi.tree.v1");
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});
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});
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describe("hash verification", () => {
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it("valid bundle nodes verify", () => {
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const data = bundleParseNodeSection(
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readFileSync(`${fixtureDir}/id.arborix`)
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);
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const { nodeMap } = parseNodes(data);
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const { verified } = verifyNodeHashes(nodeMap);
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ok(verified, "all node hashes should verify");
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});
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});
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describe("errors", () => {
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it("bad magic fails", () => {
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const buf = Buffer.alloc(32, 0);
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buf.write("WRONGMAG", 0, 8);
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throws(() => parseBundle(buf), /invalid magic/);
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});
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it("unsupported version fails", () => {
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const buf = Buffer.alloc(32, 0);
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buf.write("ARBORIX\0", 0, 8);
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buf.writeUInt16BE(2, 8); // major version 2
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throws(() => parseBundle(buf), /unsupported bundle major version/);
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});
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it("bad section digest fails", () => {
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const buf = readFileSync(`${fixtureDir}/id.arborix`);
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// Corrupt one byte in the manifest section
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buf[152] ^= 0x01;
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throws(() => parseBundle(buf), /digest mismatch/);
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});
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it("truncated bundle fails", () => {
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const buf = readFileSync(`${fixtureDir}/id.arborix`);
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const truncated = buf.slice(0, 40);
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throws(() => parseBundle(truncated), /truncated/);
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});
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it("missing nodes section fails", () => {
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// Build a bundle with only manifest entry in the directory (1 section instead of 2)
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const header = Buffer.alloc(32, 0);
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header.write("ARBORIX\0", 0, 8);
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header.writeUInt16BE(1, 8); // major version
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header.writeUInt16BE(0, 10); // minor version
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header.writeUInt32BE(1, 12); // 1 section
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// Build a manifest JSON
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const manifestObj = {
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schema: "arborix.bundle.manifest.v1",
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bundleType: "tree-calculus-executable-object",
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tree: {
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calculus: "tree-calculus.v1",
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nodeHash: {
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algorithm: "sha256",
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domain: "arborix.merkle.node.v1"
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},
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nodePayload: "arborix.merkle.payload.v1"
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},
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runtime: {
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semantics: "tree-calculus.v1",
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evaluation: "normal-order",
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abi: "arborix.abi.tree.v1",
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capabilities: []
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},
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closure: "complete",
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roots: [{ hash: Buffer.alloc(32).toString("hex"), role: "default" }],
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exports: [{ name: "root", root: Buffer.alloc(32).toString("hex"), kind: "term", abi: "arborix.abi.tree.v1" }],
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metadata: { createdBy: "arborix" }
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};
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const manifestJson = JSON.stringify(manifestObj);
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const manifestBytes = Buffer.from(manifestJson);
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// Section directory entry (60 bytes, all fields are u64 after the u16s)
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const entry = Buffer.alloc(60, 0);
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entry.writeUInt32BE(1, 0); // type: manifest
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entry.writeUInt16BE(1, 4); // version
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entry.writeUInt16BE(1, 6); // flags: critical
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entry.writeUInt16BE(0, 8); // compression: none
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entry.writeUInt16BE(1, 10); // digest algorithm: sha256
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entry.writeBigUInt64BE(BigInt(32 + 60), 12); // offset (u64)
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entry.writeBigUInt64BE(BigInt(manifestBytes.length), 20); // length (u64)
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entry.set(createHash("sha256").update(manifestBytes).digest(), 28); // digest (32 bytes)
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// Set dirOffset to 32 so parseBundle reads directory from after header
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header.writeBigUInt64BE(BigInt(32), 24);
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const bundleBuf = Buffer.concat([header, entry, manifestBytes]);
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throws(() => parseBundle(bundleBuf), /missing required section/);
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});
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});
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