Use eslint.config.ts

Version 1.3.0
Migrating to @hamradio/packet
2026-03-12 21:10:22 +01:00 · 2026-03-12 21:07:56 +01:00 · 2026-03-12 20:56:04 +01:00 · 2026-03-12 17:14:43 +01:00 · 2026-03-11 15:51:40 +01:00 · 2026-03-11 15:50:47 +01:00
18 changed files with 877 additions and 4311 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -103,6 +103,9 @@ web_modules/
 # Optional npm cache directory
 .npm
 # Optional package-lock.json file
 package-lock.json
 # Optional eslint cache
 .eslintcache
--- a/.pre-commit-config.yaml
+++ b/.pre-commit-config.yaml
@@ -11,16 +11,22 @@ repos:
  hooks:
    - id: shellcheck
- repo: https://github.com/pre-commit/mirrors-eslint
+- repo: local
-  rev: v10.0.3
+  hooks:
    - id: prettier
      name: prettier
      entry: npx prettier --write
      language: system
      files: "\\.(js|jsx|ts|tsx)$"
 - repo: local
  hooks:
    - id: eslint
      name: eslint
      entry: npx eslint --fix
      language: system
      files: "\\.(js|jsx|ts|tsx)$"
      exclude: node_modules/
 # Use stylelint (local) instead of the deprecated scss-lint Ruby gem which
 # cannot parse modern Sass `@use` and module syntax. This invokes the
 # project's installed `stylelint` via `npx` so the devDependency is used.
 - repo: local
  hooks:
    - id: stylelint
--- a/.prettierrc.ts
+++ b/.prettierrc.ts
@@ -0,0 +1,8 @@
 import { type Config } from "prettier";
 const config: Config = {
  trailingComma: "none",
  printWidth: 120
 };
 export default config;
--- a/eslint.config.js
+++ b/eslint.config.js
@@ -1,19 +0,0 @@
 import js from '@eslint/js'
 import globals from 'globals'
 import tseslint from 'typescript-eslint'
 import { defineConfig, globalIgnores } from 'eslint/config'
 export default defineConfig([
  globalIgnores(['dist']),
  {
    files: ['**/*.{ts,tsx}'],
    extends: [
      js.configs.recommended,
      tseslint.configs.recommended,
    ],
    languageOptions: {
      ecmaVersion: 2020,
      globals: globals.browser,
    },
  },
 ])
--- a/eslint.config.ts
+++ b/eslint.config.ts
@@ -0,0 +1,16 @@
 import js from "@eslint/js";
 import globals from "globals";
 import tseslint from "typescript-eslint";
 import { defineConfig, globalIgnores } from "eslint/config";
 export default defineConfig([
  globalIgnores(["dist"]),
  {
    files: ["**/*.{ts,tsx}"],
    extends: [js.configs.recommended, tseslint.configs.recommended],
    languageOptions: {
      ecmaVersion: 2020,
      globals: globals.browser
    }
  }
 ]);
--- a/package-lock.json
+++ b/package-lock.json
--- a/package.json
+++ b/package.json
@@ -1,6 +1,7 @@
 {
  "name": "@hamradio/meshcore",
-  "version": "1.2.1",
+  "type": "module",
  "version": "1.3.0",
  "description": "MeshCore protocol support for Typescript",
  "keywords": [
    "MeshCore",
@@ -9,7 +10,7 @@
  ],
  "repository": {
    "type": "git",
-    "url": "https://git.maze.io/ham/meshcore.js"
+    "url": "https://git.maze.io/ham/meshcore.ts"
  },
  "license": "MIT",
  "author": "Wijnand Modderman-Lenstra",
@@ -37,6 +38,7 @@
    "prepare": "npm run build"
  },
  "dependencies": {
    "@hamradio/packet": "file:../packet.js/hamradio-packet-1.0.4.tgz",
    "@noble/ciphers": "^2.1.1",
    "@noble/curves": "^2.0.1",
    "@noble/ed25519": "^3.0.0",
@@ -47,6 +49,8 @@
    "@vitest/coverage-v8": "^4.0.18",
    "eslint": "^10.0.3",
    "globals": "^17.4.0",
    "jiti": "^2.6.1",
    "prettier": "3.8.1",
    "tsup": "^8.5.1",
    "typescript": "^5.9.3",
    "typescript-eslint": "^8.57.0",
--- a/scripts/release.js
+++ b/scripts/release.js
@@ -0,0 +1,115 @@
 #!/usr/bin/env node
 // Minimal safe release script.
 // Usage: node scripts/release.js [major|minor|patch|<version>]
 const { execSync } = require("child_process");
 const fs = require("fs");
 const path = require("path");
 const root = path.resolve(__dirname, "..");
 const pkgPath = path.join(root, "package.json");
 function run(cmd, opts = {}) {
  return execSync(cmd, { stdio: "inherit", cwd: root, ...opts });
 }
 function runOutput(cmd) {
  return execSync(cmd, { cwd: root }).toString().trim();
 }
 function bumpSemver(current, spec) {
  if (["major","minor","patch"].includes(spec)) {
    const [maj, min, patch] = current.split(".").map(n=>parseInt(n,10));
    if (spec==="major") return `${maj+1}.0.0`;
    if (spec==="minor") return `${maj}.${min+1}.0`;
    return `${maj}.${min}.${patch+1}`;
  }
  if (!/^\d+\.\d+\.\d+$/.test(spec)) throw new Error("Invalid version spec");
  return spec;
 }
 (async () => {
  const arg = process.argv[2] || "patch";
  const pkgRaw = fs.readFileSync(pkgPath, "utf8");
  const pkg = JSON.parse(pkgRaw);
  const oldVersion = pkg.version;
  const newVersion = bumpSemver(oldVersion, arg);
  let committed = false;
  let tagged = false;
  let pushedTags = false;
  try {
    // refuse to run if there are unstaged/uncommitted changes
    const status = runOutput("git status --porcelain");
    if (status) throw new Error("Repository has uncommitted changes; please commit or stash before releasing.");
    console.log("Running tests...");
    run("npm run test:ci");
    console.log("Building...");
    run("npm run build");
    // write new version
    pkg.version = newVersion;
    fs.writeFileSync(pkgPath, JSON.stringify(pkg, null, 2) + "\n", "utf8");
    console.log(`Bumped version: ${oldVersion} -> ${newVersion}`);
    // commit
    run(`git add ${pkgPath}`);
    run(`git commit -m "chore(release): v${newVersion} - bump from v${oldVersion}"`);
    committed = true;
    // ensure tag doesn't already exist locally
    let localTagExists = false;
    try {
      runOutput(`git rev-parse --verify refs/tags/v${newVersion}`);
      localTagExists = true;
    } catch (_) {
      localTagExists = false;
    }
    if (localTagExists) throw new Error(`Tag v${newVersion} already exists locally — aborting to avoid overwrite.`);
    // ensure tag doesn't exist on remote
    const remoteTagInfo = (() => {
      try { return runOutput(`git ls-remote --tags origin v${newVersion}`); } catch (_) { return ""; }
    })();
    if (remoteTagInfo) throw new Error(`Tag v${newVersion} already exists on remote — aborting to avoid overwrite.`);
    // tag
    run(`git tag -a v${newVersion} -m "Release v${newVersion}"`);
    tagged = true;
    // push commit and tags
    run("git push");
    run("git push --tags");
    pushedTags = true;
    // publish
    console.log("Publishing to npm...");
    const publishCmd = pkg.name && pkg.name.startsWith("@") ? "npm publish --access public" : "npm publish";
    run(publishCmd);
    console.log(`Release v${newVersion} succeeded.`);
    process.exit(0);
  } catch (err) {
    console.error("Release failed:", err.message || err);
    try {
      // delete local tag
      if (tagged) {
        try { run(`git tag -d v${newVersion}`); } catch {}
        if (pushedTags) {
          try { run(`git push origin :refs/tags/v${newVersion}`); } catch {}
        }
      }
      // undo commit if made
      if (committed) {
        try { run("git reset --hard HEAD~1"); } catch {
          // fallback: restore package.json content
          fs.writeFileSync(pkgPath, pkgRaw, "utf8");
        }
      } else {
        // restore package.json
        fs.writeFileSync(pkgPath, pkgRaw, "utf8");
      }
    } catch (rbErr) {
      console.error("Rollback error:", rbErr.message || rbErr);
    }
    process.exit(1);
  }
 })();
--- a/src/crypto.ts
+++ b/src/crypto.ts
@@ -1,10 +1,10 @@
-import { ed25519, x25519 } from '@noble/curves/ed25519.js';
+import { ed25519, x25519 } from "@noble/curves/ed25519.js";
 import { sha256 } from "@noble/hashes/sha2.js";
-import { hmac } from '@noble/hashes/hmac.js';
+import { hmac } from "@noble/hashes/hmac.js";
-import { ecb } from '@noble/ciphers/aes.js';
+import { ecb } from "@noble/ciphers/aes.js";
-import { bytesToHex, equalBytes, hexToBytes } from "./parser";
+import { bytesToHex, equalBytes, hexToBytes } from "@hamradio/packet";
-import { IPublicKey, ISharedSecret, IStaticSecret } from './crypto.types';
+import { IPublicKey, ISharedSecret, IStaticSecret } from "./crypto.types";
-import { NodeHash } from './identity.types';
+import { NodeHash } from "./identity.types";
 const PUBLIC_KEY_SIZE = 32;
 const SEED_SIZE = 32;
@@ -14,18 +14,21 @@ const SIGNATURE_SIZE = 64;
 const STATIC_SECRET_SIZE = 32;
 // The "Public" group is a special group that all nodes are implicitly part of.
-const publicSecret = hexToBytes("8b3387e9c5cdea6ac9e5edbaa115cd72", 16);
+const publicSecret = hexToBytes("8b3387e9c5cdea6ac9e5edbaa115cd72");
 export class PublicKey implements IPublicKey {
  public key: Uint8Array;
  constructor(key: Uint8Array | string) {
-    if (typeof key === 'string') {
+    if (typeof key === "string") {
-      this.key = hexToBytes(key, PUBLIC_KEY_SIZE);
+      this.key = hexToBytes(key);
    } else if (key instanceof Uint8Array) {
      this.key = key;
    } else {
-      throw new Error('Invalid type for PublicKey constructor');
+      throw new Error("Invalid type for PublicKey constructor");
    }
    if (this.key.length !== PUBLIC_KEY_SIZE) {
      throw new Error(`Invalid public key length: expected ${PUBLIC_KEY_SIZE} bytes, got ${this.key.length}`);
    }
  }
@@ -47,10 +50,15 @@ export class PublicKey implements IPublicKey {
      otherKey = other.toBytes();
    } else if (other instanceof Uint8Array) {
      otherKey = other;
-    } else if (typeof other === 'string') {
+    } else if (typeof other === "string") {
-      otherKey = hexToBytes(other, PUBLIC_KEY_SIZE);
+      otherKey = hexToBytes(other);
    } else {
-      throw new Error('Invalid type for PublicKey comparison');
+      throw new Error("Invalid type for PublicKey comparison");
    }
    if (otherKey.length !== PUBLIC_KEY_SIZE) {
      throw new Error(
        `Invalid public key length for comparison: expected ${PUBLIC_KEY_SIZE} bytes, got ${otherKey.length}`
      );
    }
    return equalBytes(this.key, otherKey);
  }
@@ -61,6 +69,14 @@ export class PublicKey implements IPublicKey {
    }
    return ed25519.verify(signature, message, this.key);
  }
  public static fromBytes(key: Uint8Array): PublicKey {
    return new PublicKey(key);
  }
  public static fromString(key: string): PublicKey {
    return new PublicKey(key);
  }
 }
 export class PrivateKey {
@@ -68,8 +84,8 @@ export class PrivateKey {
  private publicKey: PublicKey;
  constructor(seed: Uint8Array | string) {
-    if (typeof seed === 'string') {
+    if (typeof seed === "string") {
-      seed = hexToBytes(seed, SEED_SIZE);
+      seed = hexToBytes(seed);
    }
    if (seed.length !== SEED_SIZE) {
      throw new Error(`Invalid seed length: expected ${SEED_SIZE} bytes, got ${seed.length}`);
@@ -102,10 +118,10 @@ export class PrivateKey {
      otherPublicKey = other;
    } else if (other instanceof Uint8Array) {
      otherPublicKey = new PublicKey(other);
-    } else if (typeof other === 'string') {
+    } else if (typeof other === "string") {
      otherPublicKey = new PublicKey(other);
    } else {
-      throw new Error('Invalid type for calculateSharedSecret comparison');
+      throw new Error("Invalid type for calculateSharedSecret comparison");
    }
    return x25519.getSharedSecret(this.secretKey, otherPublicKey.toBytes());
  }
@@ -167,7 +183,7 @@ export class SharedSecret implements ISharedSecret {
    return plaintext.slice(0, end);
  }
-  public encrypt(data: Uint8Array): { hmac: Uint8Array, ciphertext: Uint8Array } {
+  public encrypt(data: Uint8Array): { hmac: Uint8Array; ciphertext: Uint8Array } {
    const key = this.secret.slice(0, 16);
    const cipher = ecb(key, { disablePadding: true });
@@ -210,8 +226,8 @@ export class StaticSecret implements IStaticSecret {
  private secret: Uint8Array;
  constructor(secret: Uint8Array | string) {
-    if (typeof secret === 'string') {
+    if (typeof secret === "string") {
-      secret = hexToBytes(secret, STATIC_SECRET_SIZE);
+      secret = hexToBytes(secret);
    }
    if (secret.length !== STATIC_SECRET_SIZE) {
      throw new Error(`Invalid static secret length: expected ${STATIC_SECRET_SIZE} bytes, got ${secret.length}`);
--- a/src/identity.ts
+++ b/src/identity.ts
@@ -1,9 +1,8 @@
-import { x25519 } from "@noble/curves/ed25519";
+import { PrivateKey, PublicKey, SharedSecret } from "./crypto";
 import { PrivateKey, PublicKey, SharedSecret, StaticSecret } from "./crypto";
 import { IPublicKey } from "./crypto.types";
 import { NodeHash, IIdentity, ILocalIdentity } from "./identity.types";
 import { DecryptedGroupData, DecryptedGroupText } from "./packet.types";
-import { equalBytes, hexToBytes, BufferReader, BufferWriter } from "./parser";
+import { hexToBytes, Reader, Writer } from "@hamradio/packet";
 export const parseNodeHash = (hash: NodeHash | string | Uint8Array): NodeHash => {
  if (hash instanceof Uint8Array) {
@@ -22,7 +21,7 @@ export const parseNodeHash = (hash: NodeHash | string | Uint8Array): NodeHash =>
    return parsed[0] as NodeHash;
  }
  throw new Error("Invalid NodeHash type");
-}
+};
 const toPublicKeyBytes = (key: Identity | PublicKey | Uint8Array | string): Uint8Array => {
  if (key instanceof Identity) {
@@ -31,12 +30,12 @@ const toPublicKeyBytes = (key: Identity | PublicKey | Uint8Array | string): Uint
    return key.toBytes();
  } else if (key instanceof Uint8Array) {
    return key;
-  } else if (typeof key === 'string') {
+  } else if (typeof key === "string") {
    return hexToBytes(key);
  } else {
-    throw new Error('Invalid type for toPublicKeyBytes');
+    throw new Error("Invalid type for toPublicKeyBytes");
  }
-}
+};
 export class Identity implements IIdentity {
  public publicKey: PublicKey;
@@ -44,10 +43,10 @@ export class Identity implements IIdentity {
  constructor(publicKey: PublicKey | Uint8Array | string) {
    if (publicKey instanceof PublicKey) {
      this.publicKey = publicKey;
-    } else if (publicKey instanceof Uint8Array || typeof publicKey === 'string') {
+    } else if (publicKey instanceof Uint8Array || typeof publicKey === "string") {
      this.publicKey = new PublicKey(publicKey);
    } else {
-      throw new Error('Invalid type for Identity constructor');
+      throw new Error("Invalid type for Identity constructor");
    }
  }
@@ -93,16 +92,16 @@ export class LocalIdentity extends Identity implements ILocalIdentity {
    let otherPublicKey: PublicKey;
    if (other instanceof Identity) {
      otherPublicKey = other.publicKey;
-    } else if ('toBytes' in other) {
+    } else if ("toBytes" in other) {
      otherPublicKey = new PublicKey(other.toBytes());
-    } else if ('publicKey' in other && other.publicKey instanceof Uint8Array) {
+    } else if ("publicKey" in other && other.publicKey instanceof Uint8Array) {
      otherPublicKey = new PublicKey(other.publicKey);
-    } else if ('publicKey' in other && other.publicKey instanceof PublicKey) {
+    } else if ("publicKey" in other && other.publicKey instanceof PublicKey) {
      otherPublicKey = other.publicKey;
-    } else if ('publicKey' in other && typeof other.publicKey === 'function') {
+    } else if ("publicKey" in other && typeof other.publicKey === "function") {
      otherPublicKey = new PublicKey(other.publicKey().toBytes());
    } else {
-      throw new Error('Invalid type for calculateSharedSecret comparison');
+      throw new Error("Invalid type for calculateSharedSecret comparison");
    }
    return new SharedSecret(this.privateKey.calculateSharedSecret(otherPublicKey));
  }
@@ -118,10 +117,10 @@ export class Contact {
      this.identity = identity;
    } else if (identity instanceof PublicKey) {
      this.identity = new Identity(identity);
-    } else if (identity instanceof Uint8Array || typeof identity === 'string') {
+    } else if (identity instanceof Uint8Array || typeof identity === "string") {
      this.identity = new Identity(identity);
    } else {
-      throw new Error('Invalid type for Contact constructor');
+      throw new Error("Invalid type for Contact constructor");
    }
  }
@@ -161,26 +160,26 @@ export class Group {
      throw new Error("Invalid ciphertext");
    }
-    const reader = new BufferReader(data);
+    const reader = new Reader(data);
-    const timestamp = reader.readTimestamp();
+    const timestamp = reader.date32();
-    const flags = reader.readByte();
+    const flags = reader.uint8();
-    const textType = (flags >> 2) & 0x3F;
+    const textType = (flags >> 2) & 0x3f;
    const attempt = flags & 0x03;
-    const message = new TextDecoder('utf-8').decode(reader.readBytes());
+    const message = new TextDecoder("utf-8").decode(reader.bytes());
    return {
      timestamp,
      textType,
      attempt,
      message
-    }
+    };
  }
-  public encryptText(plain: DecryptedGroupText): { hmac: Uint8Array, ciphertext: Uint8Array } {
+  public encryptText(plain: DecryptedGroupText): { hmac: Uint8Array; ciphertext: Uint8Array } {
-    const writer = new BufferWriter();
+    const writer = new Writer(4 + 1 + new TextEncoder().encode(plain.message).length);
-    writer.writeTimestamp(plain.timestamp);
+    writer.date32(plain.timestamp);
-    const flags = ((plain.textType & 0x3F) << 2) | (plain.attempt & 0x03);
+    const flags = ((plain.textType & 0x3f) << 2) | (plain.attempt & 0x03);
-    writer.writeByte(flags);
+    writer.uint8(flags);
-    writer.writeBytes(new TextEncoder().encode(plain.message));
+    writer.utf8String(plain.message);
    const data = writer.toBytes();
    return this.secret.encrypt(data);
  }
@@ -191,17 +190,17 @@ export class Group {
      throw new Error("Invalid ciphertext");
    }
-    const reader = new BufferReader(data);
+    const reader = new Reader(data);
    return {
-      timestamp: reader.readTimestamp(),
+      timestamp: reader.date32(),
-      data:      reader.readBytes(reader.remainingBytes())
+      data: reader.bytes()
-    }
+    };
  }
-  public encryptData(plain: DecryptedGroupData): { hmac: Uint8Array, ciphertext: Uint8Array } {
+  public encryptData(plain: DecryptedGroupData): { hmac: Uint8Array; ciphertext: Uint8Array } {
-    const writer = new BufferWriter();
+    const writer = new Writer(4 + plain.data.length);
-    writer.writeTimestamp(plain.timestamp);
+    writer.date32(plain.timestamp);
-    writer.writeBytes(plain.data);
+    writer.bytes(plain.data);
    const data = writer.toBytes();
    return this.secret.encrypt(data);
  }
@@ -229,10 +228,15 @@ export class Contacts {
    this.contacts[hash].push(contact);
  }
-  public decrypt(src: NodeHash | PublicKey, dst: NodeHash, hmac: Uint8Array, ciphertext: Uint8Array): {
+  public decrypt(
-    localIdentity: LocalIdentity,
+    src: NodeHash | PublicKey,
-    contact: Contact,
+    dst: NodeHash,
-    decrypted: Uint8Array,
+    hmac: Uint8Array,
    ciphertext: Uint8Array
  ): {
    localIdentity: LocalIdentity;
    contact: Contact;
    decrypted: Uint8Array;
  } {
    // Find the public key associated with the source hash.
    let contacts: Contact[] = [];
@@ -259,7 +263,7 @@ export class Contacts {
    // Find the local identity associated with the destination hash.
    const dstHash = parseNodeHash(dst) as number;
-    const localIdentities = this.localIdentities.filter(li => li.identity.publicKey.key[0] === dstHash);
+    const localIdentities = this.localIdentities.filter((li) => li.identity.publicKey.key[0] === dstHash);
    if (localIdentities.length === 0) {
      throw new Error("Unknown destination hash");
    }
@@ -299,9 +303,13 @@ export class Contacts {
    this.groups[hash].push(group);
  }
-  public decryptGroupText(channelHash: NodeHash, hmac: Uint8Array, ciphertext: Uint8Array): {
+  public decryptGroupText(
-    decrypted: DecryptedGroupText,
+    channelHash: NodeHash,
-    group: Group
+    hmac: Uint8Array,
    ciphertext: Uint8Array
  ): {
    decrypted: DecryptedGroupText;
    group: Group;
  } {
    const hash = parseNodeHash(channelHash) as number;
    const groups = this.groups[hash] || [];
@@ -319,9 +327,13 @@ export class Contacts {
    throw new Error("Decryption failed with all known groups");
  }
-  public decryptGroupData(channelHash: NodeHash, hmac: Uint8Array, ciphertext: Uint8Array): {
+  public decryptGroupData(
-    decrypted: DecryptedGroupData,
+    channelHash: NodeHash,
-    group: Group
+    hmac: Uint8Array,
    ciphertext: Uint8Array
  ): {
    decrypted: DecryptedGroupData;
    group: Group;
  } {
    const hash = parseNodeHash(channelHash) as number;
    const groups = this.groups[hash] || [];
--- a/src/packet.ts
+++ b/src/packet.ts
@@ -17,15 +17,9 @@ import {
  RouteType,
  TextPayload,
  TracePayload,
-  type IPacket,
+  type IPacket
 } from "./packet.types";
-import { NodeHash } from "./identity.types";
+import { base64ToBytes, bytesToHex, FieldType, Dissected, Segment, Reader } from "@hamradio/packet";
 import {
  base64ToBytes,
  BufferReader,
  bytesToHex
 } from "./parser";
 import { FieldType, PacketSegment, PacketStructure } from "./parser.types";
 export class Packet implements IPacket {
  // Raw packet bytes.
@@ -43,16 +37,22 @@ export class Packet implements IPacket {
  public pathHashBytes: number;
  public pathHashes: string[];
  // Parsed packet segments.
-  public structure?: PacketStructure | undefined;
+  public structure?: Dissected | undefined;
-  constructor(header: number, transport: [number, number] | undefined, pathLength: number, path: Uint8Array, payload: Uint8Array) {
+  constructor(
    header: number,
    transport: [number, number] | undefined,
    pathLength: number,
    path: Uint8Array,
    payload: Uint8Array
  ) {
    this.header = header;
    this.transport = transport;
    this.pathLength = pathLength;
    this.path = path;
    this.payload = payload;
-    this.routeType = (header) & 0x03;
+    this.routeType = header & 0x03;
    this.payloadVersion = (header >> 6) & 0x03;
    this.payloadType = (header >> 2) & 0x0f;
@@ -108,18 +108,27 @@ export class Packet implements IPacket {
      return;
    }
-    let pathHashType: FieldType
+    let pathHashType: FieldType;
    switch (this.pathHashSize) {
-      case 1: pathHashType = FieldType.BYTES; break;
+      case 1:
-      case 2: pathHashType = FieldType.WORDS; break;
+        pathHashType = FieldType.BYTES;
-      case 4: pathHashType = FieldType.DWORDS; break;
+        break;
      case 2:
        pathHashType = FieldType.WORDS;
        break;
      case 4:
        pathHashType = FieldType.DWORDS;
        break;
      default:
        throw new Error(`Unsupported path hash size: ${this.pathHashSize}`);
    }
    this.structure = [
      /* Header segment */
-      { name: "header", data: new Uint8Array([this.header, this.pathLength, ...this.path]), fields: [
+      {
        name: "header",
        data: new Uint8Array([this.header]),
        fields: [
          /* Header flags */
          {
            name: "flags",
@@ -128,31 +137,53 @@ export class Packet implements IPacket {
            bits: [
              { name: "payload version", size: 2 },
              { name: "payload type", size: 4 },
-            { name: "route type",      size: 2 },
+              { name: "route type", size: 2 }
            ]
          }
        ]
      },
      /* Transport codes */
-        ...(Packet.hasTransportCodes(this.routeType) ? [
+      ...(Packet.hasTransportCodes(this.routeType)
        ? [
            {
              name: "transport codes",
              data: new Uint8Array([
                (this.transport![0] >> 8) & 0xff,
                this.transport![0] & 0xff,
                (this.transport![1] >> 8) & 0xff,
                this.transport![1] & 0xff
              ]),
              fields: [
                {
                  name: "transport code 1",
                  type: FieldType.UINT16_BE,
-            size: 2
+                  size: 2,
                  value: this.transport![0]
                },
                {
                  name: "transport code 2",
                  type: FieldType.UINT16_BE,
-            size: 2
+                  size: 2,
-          },
+                  value: this.transport![1]
-        ] : []),
+                }
              ]
            }
          ]
        : []),
      /* Path length and hashes */
      {
        name: "path",
        data: new Uint8Array([this.pathLength, ...this.path]),
        fields: [
          {
            name: "path length",
            type: FieldType.UINT8,
            size: 1,
            bits: [
              { name: "path hash size", size: 2 },
-            { name: "path hash count", size: 6 },
+              { name: "path hash count", size: 6 }
            ]
          },
          {
@@ -160,12 +191,13 @@ export class Packet implements IPacket {
            type: pathHashType,
            size: this.path.length
          }
      ]},
        ]
      }
    ];
  }
-  public decode(withStructure?: boolean): Payload | { payload: Payload, structure: PacketStructure } {
+  public decode(withStructure?: boolean): Payload | { payload: Payload; structure: Dissected } {
-    let result: Payload | { payload: Payload, segment: PacketSegment };
+    let result: Payload | { payload: Payload; segment: Segment };
    switch (this.payloadType) {
      case PayloadType.REQUEST:
@@ -205,37 +237,35 @@ export class Packet implements IPacket {
        throw new Error(`Unsupported payload type: ${this.payloadType}`);
    }
    console.log('packet decode with structure:', typeof withStructure, withStructure, { result });
    if (typeof withStructure === "boolean" && withStructure && "segment" in result && "payload" in result) {
      this.ensureStructure();
-      const structure = [ ...this.structure!, result.segment ];
+      const structure = [...this.structure!, result.segment];
      return { payload: result.payload, structure };
    }
    return result as Payload;
  }
-  private decodeEncryptedPayload(reader: BufferReader): EncryptedPayload {
+  private decodeEncryptedPayload(reader: Reader): EncryptedPayload {
-    const cipherMAC  = reader.readBytes(2);
+    const cipherMAC = reader.bytes(2);
-    const cipherText = reader.readBytes(reader.remainingBytes());
+    const cipherText = reader.bytes();
    return { cipherMAC, cipherText };
  }
-  private decodeRequest(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodeRequest(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    if (this.payload.length < 4) {
      throw new Error("Invalid request payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
-    const dst = reader.readByte();
+    const dst = reader.uint8();
-    const src = reader.readByte();
+    const src = reader.uint8();
    const encrypted = this.decodeEncryptedPayload(reader);
    const payload: RequestPayload = {
      type: PayloadType.REQUEST,
      dst,
      src,
-      encrypted,
+      encrypted
    };
    if (typeof withSegment === "boolean" && withSegment) {
@@ -248,26 +278,26 @@ export class Packet implements IPacket {
          { name: "cipher MAC", type: FieldType.BYTES, size: 2, value: encrypted.cipherMAC },
          { name: "cipher text", type: FieldType.BYTES, size: encrypted.cipherText.length, value: encrypted.cipherText }
        ]
-      }
+      };
      return { payload, segment };
    }
    return payload;
  }
-  private decodeResponse(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodeResponse(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    if (this.payload.length < 4) {
      throw new Error("Invalid response payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
-    const dst = reader.readByte();
+    const dst = reader.uint8();
-    const src = reader.readByte();
+    const src = reader.uint8();
    const encrypted = this.decodeEncryptedPayload(reader);
    const payload: ResponsePayload = {
      type: PayloadType.RESPONSE,
      dst,
      src,
-      encrypted,
+      encrypted
    };
    if (typeof withSegment === "boolean" && withSegment) {
@@ -286,20 +316,20 @@ export class Packet implements IPacket {
    return payload;
  }
-  private decodeText(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodeText(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    if (this.payload.length < 4) {
      throw new Error("Invalid text payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
-    const dst = reader.readByte();
+    const dst = reader.uint8();
-    const src = reader.readByte();
+    const src = reader.uint8();
    const encrypted = this.decodeEncryptedPayload(reader);
    const payload: TextPayload = {
      type: PayloadType.TEXT,
      dst,
      src,
-      encrypted,
+      encrypted
    };
    if (typeof withSegment === "boolean" && withSegment) {
@@ -318,45 +348,43 @@ export class Packet implements IPacket {
    return payload;
  }
-  private decodeAck(withSegment?: boolean): Payload | { payload: AckPayload, segment: PacketSegment } {
+  private decodeAck(withSegment?: boolean): Payload | { payload: AckPayload; segment: Segment } {
    if (this.payload.length < 4) {
      throw new Error("Invalid ack payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
-    const checksum = reader.readBytes(4);
+    const checksum = reader.bytes(4);
    const payload: AckPayload = {
      type: PayloadType.ACK,
-      checksum,
+      checksum
    };
    if (typeof withSegment === "boolean" && withSegment) {
      const segment = {
        name: "ack payload",
        data: this.payload,
-        fields: [
+        fields: [{ name: "checksum", type: FieldType.BYTES, size: 4, value: checksum }]
          { name: "checksum", type: FieldType.BYTES, size: 4, value: checksum }
        ]
      };
      return { payload, segment };
    }
    return payload;
  }
-  private decodeAdvert(withSegment?: boolean): Payload | { payload: AdvertPayload, segment: PacketSegment } {
+  private decodeAdvert(withSegment?: boolean): Payload | { payload: AdvertPayload; segment: Segment } {
    if (this.payload.length < 4) {
      throw new Error("Invalid advert payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
    const payload: Partial<AdvertPayload> = {
      type: PayloadType.ADVERT,
-      publicKey: reader.readBytes(32),
+      publicKey: reader.bytes(32),
-      timestamp: reader.readTimestamp(),
+      timestamp: reader.date32(),
-      signature: reader.readBytes(64),
+      signature: reader.bytes(64)
-    }
+    };
-    let segment: PacketSegment | undefined;
+    let segment: Segment | undefined;
    if (typeof withSegment === "boolean" && withSegment) {
      segment = {
        name: "advert payload",
@@ -364,32 +392,38 @@ export class Packet implements IPacket {
        fields: [
          { type: FieldType.BYTES, name: "public key", size: 32 },
          { type: FieldType.UINT32_LE, name: "timestamp", size: 4, value: payload.timestamp! },
-          { type: FieldType.BYTES,     name: "signature",  size: 64 },
+          { type: FieldType.BYTES, name: "signature", size: 64 }
        ]
      };
    }
-    const flags = reader.readByte();
+    const flags = reader.uint8();
    const appdata: AdvertAppData = {
      nodeType: flags & 0x0f,
      hasLocation: (flags & AdvertFlag.HAS_LOCATION) !== 0,
      hasFeature1: (flags & AdvertFlag.HAS_FEATURE1) !== 0,
      hasFeature2: (flags & AdvertFlag.HAS_FEATURE2) !== 0,
-      hasName:     (flags & AdvertFlag.HAS_NAME) !== 0,
+      hasName: (flags & AdvertFlag.HAS_NAME) !== 0
-    }
+    };
    if (typeof withSegment === "boolean" && withSegment) {
-      segment!.fields.push({ type: FieldType.BITS, name: "flags", size: 1, value: flags, bits: [
+      segment!.fields.push({
        type: FieldType.BITS,
        name: "flags",
        size: 1,
        value: flags,
        bits: [
          { size: 1, name: "name flag" },
          { size: 1, name: "feature2 flag" },
          { size: 1, name: "feature1 flag" },
          { size: 1, name: "location flag" },
-        { size: 4, name: "node type" },
+          { size: 4, name: "node type" }
-      ]});
+        ]
      });
    }
    if (appdata.hasLocation) {
-      const lat = reader.readInt32LE() / 100000;
+      const lat = reader.int32() / 1000000;
-      const lon = reader.readInt32LE() / 100000;
+      const lon = reader.int32() / 1000000;
      appdata.location = [lat, lon];
      if (typeof withSegment === "boolean" && withSegment) {
        segment!.fields.push({ type: FieldType.UINT32_LE, name: "latitude", size: 4, value: lat });
@@ -397,26 +431,26 @@ export class Packet implements IPacket {
      }
    }
    if (appdata.hasFeature1) {
-      appdata.feature1 = reader.readUint16LE();
+      appdata.feature1 = reader.uint16();
      if (typeof withSegment === "boolean" && withSegment) {
        segment!.fields.push({ type: FieldType.UINT16_LE, name: "feature1", size: 2, value: appdata.feature1 });
      }
    }
    if (appdata.hasFeature2) {
-      appdata.feature2 = reader.readUint16LE();
+      appdata.feature2 = reader.uint16();
      if (typeof withSegment === "boolean" && withSegment) {
        segment!.fields.push({ type: FieldType.UINT16_LE, name: "feature2", size: 2, value: appdata.feature2 });
      }
    }
    if (appdata.hasName) {
-      const nameBytes = reader.readBytes();
+      appdata.name = reader.cString();
      let nullPos = nameBytes.indexOf(0);
      if (nullPos === -1) {
        nullPos = nameBytes.length;
      }
      appdata.name = new TextDecoder('utf-8').decode(nameBytes.subarray(0, nullPos));
      if (typeof withSegment === "boolean" && withSegment) {
-        segment!.fields.push({ type: FieldType.C_STRING, name: "name", size: nameBytes.length, value: appdata.name });
+        segment!.fields.push({
          type: FieldType.C_STRING,
          name: "name",
          size: appdata.name.length,
          value: appdata.name
        });
      }
    }
@@ -427,18 +461,18 @@ export class Packet implements IPacket {
    return { ...payload, appdata } as AdvertPayload;
  }
-  private decodeGroupText(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodeGroupText(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    if (this.payload.length < 3) {
      throw new Error("Invalid group text payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
-    const channelHash = reader.readByte();
+    const channelHash = reader.uint8();
    const encrypted = this.decodeEncryptedPayload(reader);
    const payload: GroupTextPayload = {
      type: PayloadType.GROUP_TEXT,
      channelHash,
-      encrypted,
+      encrypted
    };
    if (typeof withSegment === "boolean" && withSegment) {
@@ -456,16 +490,16 @@ export class Packet implements IPacket {
    return payload;
  }
-  private decodeGroupData(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodeGroupData(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    if (this.payload.length < 3) {
      throw new Error("Invalid group data payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
    const payload: GroupDataPayload = {
      type: PayloadType.GROUP_DATA,
-      channelHash: reader.readByte(),
+      channelHash: reader.uint8(),
-      encrypted:   this.decodeEncryptedPayload(reader),
+      encrypted: this.decodeEncryptedPayload(reader)
    };
    if (typeof withSegment === "boolean" && withSegment) {
@@ -475,7 +509,12 @@ export class Packet implements IPacket {
        fields: [
          { name: "channel hash", type: FieldType.UINT8, size: 1, value: payload.channelHash },
          { name: "cipher MAC", type: FieldType.BYTES, size: 2, value: payload.encrypted.cipherMAC },
-          { name: "cipher text",  type: FieldType.BYTES, size: payload.encrypted.cipherText.length, value: payload.encrypted.cipherText }
+          {
            name: "cipher text",
            type: FieldType.BYTES,
            size: payload.encrypted.cipherText.length,
            value: payload.encrypted.cipherText
          }
        ]
      };
      return { payload, segment };
@@ -483,18 +522,18 @@ export class Packet implements IPacket {
    return payload;
  }
-  private decodeAnonReq(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodeAnonReq(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    if (this.payload.length < 1 + 32 + 2) {
      throw new Error("Invalid anon req payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
    const payload: AnonReqPayload = {
      type: PayloadType.ANON_REQ,
-      dst:        reader.readByte(),
+      dst: reader.uint8(),
-      publicKey:  reader.readBytes(32),
+      publicKey: reader.bytes(32),
-      encrypted:  this.decodeEncryptedPayload(reader),
+      encrypted: this.decodeEncryptedPayload(reader)
-    }
+    };
    if (typeof withSegment === "boolean" && withSegment) {
      const segment = {
@@ -504,7 +543,12 @@ export class Packet implements IPacket {
          { name: "destination hash", type: FieldType.UINT8, size: 1, value: payload.dst },
          { name: "public key", type: FieldType.BYTES, size: 32, value: payload.publicKey },
          { name: "cipher MAC", type: FieldType.BYTES, size: 2, value: payload.encrypted.cipherMAC },
-          { name: "cipher text",      type: FieldType.BYTES, size: payload.encrypted.cipherText.length, value: payload.encrypted.cipherText }
+          {
            name: "cipher text",
            type: FieldType.BYTES,
            size: payload.encrypted.cipherText.length,
            value: payload.encrypted.cipherText
          }
        ]
      };
      return { payload, segment };
@@ -512,16 +556,16 @@ export class Packet implements IPacket {
    return payload;
  }
-  private decodePath(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodePath(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    if (this.payload.length < 2) {
      throw new Error("Invalid path payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
    const payload: PathPayload = {
      type: PayloadType.PATH,
-      dst:  reader.readByte(),
+      dst: reader.uint8(),
-      src:  reader.readByte(),
+      src: reader.uint8()
    };
    if (typeof withSegment === "boolean" && withSegment) {
@@ -538,18 +582,18 @@ export class Packet implements IPacket {
    return payload;
  }
-  private decodeTrace(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodeTrace(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    if (this.payload.length < 9) {
      throw new Error("Invalid trace payload: too short");
    }
-    const reader = new BufferReader(this.payload);
+    const reader = Reader.fromBytes(this.payload);
    const payload: TracePayload = {
      type: PayloadType.TRACE,
-      tag:      reader.readUint32LE() >>> 0,
+      tag: reader.uint32(),
-      authCode: reader.readUint32LE() >>> 0,
+      authCode: reader.uint32(),
-      flags:    reader.readByte() & 0x03,
+      flags: reader.uint8() & 0x03,
-      nodes:    reader.readBytes()
+      nodes: reader.bytes()
    };
    if (typeof withSegment === "boolean" && withSegment) {
@@ -568,19 +612,17 @@ export class Packet implements IPacket {
    return payload;
  }
-  private decodeRawCustom(withSegment?: boolean): Payload | { payload: Payload, segment: PacketSegment } {
+  private decodeRawCustom(withSegment?: boolean): Payload | { payload: Payload; segment: Segment } {
    const payload: RawCustomPayload = {
      type: PayloadType.RAW_CUSTOM,
-      data: this.payload,
+      data: this.payload
    };
    if (typeof withSegment === "boolean" && withSegment) {
      const segment = {
        name: "raw custom payload",
        data: this.payload,
-        fields: [
+        fields: [{ name: "data", type: FieldType.BYTES, size: this.payload.length, value: this.payload }]
          { name: "data", type: FieldType.BYTES, size: this.payload.length, value: this.payload }
        ]
      };
      return { payload, segment };
    }
--- a/src/packet.types.ts
+++ b/src/packet.types.ts
@@ -1,5 +1,5 @@
 import { Dissected } from "@hamradio/packet";
 import { NodeHash } from "./identity.types";
 import { PacketStructure } from "./parser.types";
 // IPacket contains the raw packet bytes.
 export type Uint16 = number; // 0..65535
@@ -13,7 +13,7 @@ export interface IPacket {
  path: Uint8Array;
  payload: Uint8Array;
-  decode(withStructure?: boolean): Payload | { payload: Payload, structure: PacketStructure }
+  decode(withStructure?: boolean): Payload | { payload: Payload; structure: Dissected };
 }
 export enum RouteType {
@@ -34,10 +34,11 @@ export enum PayloadType {
  ANON_REQ = 0x07,
  PATH = 0x08,
  TRACE = 0x09,
-  RAW_CUSTOM = 0x0f,
+  RAW_CUSTOM = 0x0f
 }
-export type Payload = BasePayload & (
+export type Payload = BasePayload &
  (
    | RequestPayload
    | ResponsePayload
    | TextPayload
@@ -49,7 +50,7 @@ export type Payload = BasePayload & (
    | PathPayload
    | TracePayload
    | RawCustomPayload
-);
+  );
 export interface BasePayload {
  type: PayloadType;
@@ -75,7 +76,7 @@ export enum RequestType {
  GET_MIN_MAX_AVG = 0x04,
  GET_ACL = 0x05,
  GET_NEIGHBORS = 0x06,
-  GET_OWNER_INFO  = 0x07,
+  GET_OWNER_INFO = 0x07
 }
 export interface DecryptedRequest {
@@ -108,7 +109,7 @@ export interface TextPayload extends BasePayload {
 export enum TextType {
  PLAIN_TEXT = 0x00,
  CLI_COMMAND = 0x01,
-  SIGNED_PLAIN_TEXT = 0x02,
+  SIGNED_PLAIN_TEXT = 0x02
 }
 export interface DecryptedText {
@@ -135,14 +136,14 @@ export enum NodeType {
  CHAT_NODE = 0x01,
  REPEATER = 0x02,
  ROOM_SERVER = 0x03,
-  SENSOR_NODE = 0x04,
+  SENSOR_NODE = 0x04
 }
 export enum AdvertFlag {
  HAS_LOCATION = 0x10,
  HAS_FEATURE1 = 0x20,
  HAS_FEATURE2 = 0x40,
-  HAS_NAME     = 0x80,
+  HAS_NAME = 0x80
 }
 export interface AdvertAppData {
--- a/src/parser.ts
+++ b/src/parser.ts
@@ -1,150 +0,0 @@
 import { equalBytes } from "@noble/ciphers/utils.js";
 import { bytesToHex, hexToBytes as nobleHexToBytes } from "@noble/hashes/utils.js";
 export {
  bytesToHex,
  equalBytes
 };
 export const base64ToBytes = (base64: string, size?: number): Uint8Array => {
  // Normalize URL-safe base64 to standard base64
  let normalized = base64.replace(/-/g, '+').replace(/_/g, '/');
  // Add padding if missing
  while (normalized.length % 4 !== 0) {
    normalized += '=';
  }
  const binaryString = atob(normalized);
  const bytes = new Uint8Array(binaryString.length);
  for (let i = 0; i < binaryString.length; i++) {
    bytes[i] = binaryString.charCodeAt(i);
  }
  if (size !== undefined && bytes.length !== size) {
    throw new Error(`Invalid base64 length: expected ${size} bytes, got ${bytes.length}`);
  }
  return bytes;
 }
 // Note: encodedStringToBytes removed — prefer explicit parsers.
 // Use `hexToBytes` for hex inputs and `base64ToBytes` for base64 inputs.
 // Wrapper around @noble/hashes hexToBytes that optionally validates size.
 export const hexToBytes = (hex: string, size?: number): Uint8Array => {
  const bytes = nobleHexToBytes(hex);
  if (size !== undefined && bytes.length !== size) {
    throw new Error(`Invalid hex length: expected ${size} bytes, got ${bytes.length}`);
  }
  return bytes;
 };
 export class BufferReader {
  private buffer: Uint8Array;
  private offset: number;
  constructor(buffer: Uint8Array) {
    this.buffer = buffer;
    this.offset = 0;
  }
  public readByte(): number {
    if (!this.hasMore()) throw new Error('read past end');
    return this.buffer[this.offset++];
  }
  public readBytes(length?: number): Uint8Array {
    if (length === undefined) {
      length = this.buffer.length - this.offset;
    }
    if (this.remainingBytes() < length) throw new Error('read past end');
    const bytes = this.buffer.slice(this.offset, this.offset + length);
    this.offset += length;
    return bytes;
 }
  public hasMore(): boolean {
    return this.offset < this.buffer.length;
  }
  public remainingBytes(): number {
    return this.buffer.length - this.offset;
  }
  public peekByte(): number {
    if (!this.hasMore()) throw new Error('read past end');
    return this.buffer[this.offset];
  }
  public readUint16LE(): number {
    if (this.remainingBytes() < 2) throw new Error('read past end');
    const value = this.buffer[this.offset] | (this.buffer[this.offset + 1] << 8);
    this.offset += 2;
    return value;
  }
  public readUint32LE(): number {
    if (this.remainingBytes() < 4) throw new Error('read past end');
    const value = (this.buffer[this.offset] | (this.buffer[this.offset + 1] << 8) | (this.buffer[this.offset + 2] << 16) | (this.buffer[this.offset + 3] << 24)) >>> 0;
    this.offset += 4;
    return value;
  }
  public readInt16LE(): number {
    if (this.remainingBytes() < 2) throw new Error('read past end');
    const value = this.buffer[this.offset] | (this.buffer[this.offset + 1] << 8);
    this.offset += 2;
    return value < 0x8000 ? value : value - 0x10000;
  }
  public readInt32LE(): number {
    if (this.remainingBytes() < 4) throw new Error('read past end');
    const u = (this.buffer[this.offset] | (this.buffer[this.offset + 1] << 8) | (this.buffer[this.offset + 2] << 16) | (this.buffer[this.offset + 3] << 24)) >>> 0;
    this.offset += 4;
    return u < 0x80000000 ? u : u - 0x100000000;
  }
  public readTimestamp(): Date {
    const timestamp = this.readUint32LE();
    return new Date(timestamp * 1000);
  }
 }
 export class BufferWriter {
  private buffer: number[] = [];
  public writeByte(value: number): void {
    this.buffer.push(value & 0xFF);
  }
  public writeBytes(bytes: Uint8Array): void {
    this.buffer.push(...bytes);
  }
  public writeUint16LE(value: number): void {
    this.buffer.push(value & 0xFF, (value >> 8) & 0xFF);
  }
  public writeUint32LE(value: number): void {
    this.buffer.push(
      value & 0xFF,
      (value >> 8) & 0xFF,
      (value >> 16) & 0xFF,
      (value >> 24) & 0xFF
    );
  }
  public writeInt16LE(value: number): void {
    this.writeUint16LE(value < 0 ? value + 0x10000 : value);
  }
  public writeInt32LE(value: number): void {
    this.writeUint32LE(value < 0 ? value + 0x100000000 : value);
  }
  public writeTimestamp(date: Date): void {
    const timestamp = Math.floor(date.getTime() / 1000);
    this.writeUint32LE(timestamp);
  }
  public toBytes(): Uint8Array {
    return new Uint8Array(this.buffer);
  }
 }
--- a/src/parser.types.ts
+++ b/src/parser.types.ts
@@ -1,35 +0,0 @@
 export enum FieldType {
  BITS      = 0,
  UINT8     = 1,
  UINT16_LE = 2,
  UINT16_BE = 3,
  UINT32_LE = 4,
  UINT32_BE = 5,
  BYTES     = 6, // 8-bits per value
  WORDS     = 7, // 16-bits per value
  DWORDS    = 8, // 32-bits per value
  QWORDS    = 9, // 64-bits per value
  C_STRING  = 10,
 }
 // Interface for the parsed packet segments, used for debugging and testing.
 export type PacketStructure = PacketSegment[];
 export interface PacketSegment {
  name:   string;
  data:   Uint8Array;
  fields: PacketField[];
 }
 export interface PacketField {
  type:   FieldType;
  size:   number; // Size in bytes
  name?:  string;
  bits?:  PacketFieldBit[]; // Only for bit fields in FieldType.BITS
  value?: any; // Optional decoded value
 }
 export interface PacketFieldBit {
  name: string;
  size: number; // Size in bits
 }
--- a/test/crypto.test.ts
+++ b/test/crypto.test.ts
@@ -1,39 +1,39 @@
-import { describe, it, expect } from 'vitest';
+import { describe, it, expect } from "vitest";
-import { PublicKey, PrivateKey, SharedSecret, StaticSecret } from '../src/crypto';
+import { bytesToHex } from "@hamradio/packet";
-import { bytesToHex, hexToBytes } from '../src/parser';
+import { PublicKey, PrivateKey, SharedSecret, StaticSecret } from "../src/crypto";
 const randomBytes = (len: number) => Uint8Array.from({ length: len }, () => Math.floor(Math.random() * 256));
-describe('PublicKey', () => {
+describe("PublicKey", () => {
  const keyBytes = randomBytes(32);
  const keyHex = bytesToHex(keyBytes);
-  it('constructs from Uint8Array', () => {
+  it("constructs from Uint8Array", () => {
    const pk = new PublicKey(keyBytes);
    expect(pk.toBytes()).toEqual(keyBytes);
  });
-  it('constructs from string', () => {
+  it("constructs from string", () => {
    const pk = new PublicKey(keyHex);
    expect(pk.toBytes()).toEqual(keyBytes);
  });
-  it('throws on invalid constructor input', () => {
+  it("throws on invalid constructor input", () => {
-    // @ts-expect-error
+    // @ts-expect-error testing invalid input
    expect(() => new PublicKey(123)).toThrow();
  });
-  it('toHash returns a NodeHash', () => {
+  it("toHash returns a NodeHash", () => {
    const pk = new PublicKey(keyBytes);
-    expect(typeof pk.toHash()).toBe('number');
+    expect(typeof pk.toHash()).toBe("number");
  });
-  it('toString returns hex', () => {
+  it("toString returns hex", () => {
    const pk = new PublicKey(keyBytes);
    expect(pk.toString()).toBe(keyHex);
  });
-  it('equals works for PublicKey, Uint8Array, and string', () => {
+  it("equals works for PublicKey, Uint8Array, and string", () => {
    const pk = new PublicKey(keyBytes);
    expect(pk.equals(pk)).toBe(true);
    expect(pk.equals(keyBytes)).toBe(true);
@@ -41,41 +41,41 @@ describe('PublicKey', () => {
    expect(pk.equals(randomBytes(32))).toBe(false);
  });
-  it('throws on equals with invalid type', () => {
+  it("throws on equals with invalid type", () => {
    const pk = new PublicKey(keyBytes);
-    // @ts-expect-error
+    // @ts-expect-error testing invalid input
    expect(() => pk.equals(123)).toThrow();
  });
-  it('verify returns false for invalid signature', () => {
+  it("verify returns false for invalid signature", () => {
    const pk = new PublicKey(keyBytes);
    expect(pk.verify(new Uint8Array([1, 2, 3]), randomBytes(64))).toBe(false);
  });
-  it('throws on verify with wrong signature length', () => {
+  it("throws on verify with wrong signature length", () => {
    const pk = new PublicKey(keyBytes);
    expect(() => pk.verify(new Uint8Array([1, 2, 3]), randomBytes(10))).toThrow();
  });
 });
-describe('PrivateKey', () => {
+describe("PrivateKey", () => {
  const seed = randomBytes(32);
-  it('constructs from Uint8Array', () => {
+  it("constructs from Uint8Array", () => {
    const sk = new PrivateKey(seed);
    expect(sk.toPublicKey()).toBeInstanceOf(PublicKey);
  });
-  it('constructs from string', () => {
+  it("constructs from string", () => {
    const sk = new PrivateKey(bytesToHex(seed));
    expect(sk.toPublicKey()).toBeInstanceOf(PublicKey);
  });
-  it('throws on invalid seed length', () => {
+  it("throws on invalid seed length", () => {
    expect(() => new PrivateKey(randomBytes(10))).toThrow();
  });
-  it('sign and verify', () => {
+  it("sign and verify", () => {
    const sk = new PrivateKey(seed);
    const pk = sk.toPublicKey();
    const msg = new Uint8Array([1, 2, 3]);
@@ -83,7 +83,7 @@ describe('PrivateKey', () => {
    expect(pk.verify(msg, sig)).toBe(true);
  });
-  it('calculateSharedSecret returns Uint8Array', () => {
+  it("calculateSharedSecret returns Uint8Array", () => {
    const sk1 = new PrivateKey(seed);
    const sk2 = PrivateKey.generate();
    const pk2 = sk2.toPublicKey();
@@ -92,7 +92,7 @@ describe('PrivateKey', () => {
    expect(secret.length).toBeGreaterThan(0);
  });
-  it('calculateSharedSecret accepts string and Uint8Array', () => {
+  it("calculateSharedSecret accepts string and Uint8Array", () => {
    const sk1 = new PrivateKey(seed);
    const sk2 = PrivateKey.generate();
    const pk2 = sk2.toPublicKey();
@@ -100,47 +100,47 @@ describe('PrivateKey', () => {
    expect(sk1.calculateSharedSecret(pk2.toString())).toBeInstanceOf(Uint8Array);
  });
-  it('throws on calculateSharedSecret with invalid type', () => {
+  it("throws on calculateSharedSecret with invalid type", () => {
    const sk = new PrivateKey(seed);
-    // @ts-expect-error
+    // @ts-expect-error testing invalid input
    expect(() => sk.calculateSharedSecret(123)).toThrow();
  });
-  it('generate returns PrivateKey', () => {
+  it("generate returns PrivateKey", () => {
    expect(PrivateKey.generate()).toBeInstanceOf(PrivateKey);
  });
 });
-describe('SharedSecret', () => {
+describe("SharedSecret", () => {
  const secret = randomBytes(32);
-  it('constructs from 32 bytes', () => {
+  it("constructs from 32 bytes", () => {
    const ss = new SharedSecret(secret);
    expect(ss.toBytes()).toEqual(secret);
  });
-  it('pads if 16 bytes', () => {
+  it("pads if 16 bytes", () => {
    const short = randomBytes(16);
    const ss = new SharedSecret(short);
    expect(ss.toBytes().length).toBe(32);
    expect(Array.from(ss.toBytes()).slice(16)).toEqual(Array.from(short));
  });
-  it('throws on invalid length', () => {
+  it("throws on invalid length", () => {
    expect(() => new SharedSecret(randomBytes(10))).toThrow();
  });
-  it('toHash returns number', () => {
+  it("toHash returns number", () => {
    const ss = new SharedSecret(secret);
-    expect(typeof ss.toHash()).toBe('number');
+    expect(typeof ss.toHash()).toBe("number");
  });
-  it('toString returns hex', () => {
+  it("toString returns hex", () => {
    const ss = new SharedSecret(secret);
    expect(ss.toString()).toBe(bytesToHex(secret));
  });
-  it('encrypt and decrypt roundtrip', () => {
+  it("encrypt and decrypt roundtrip", () => {
    const ss = new SharedSecret(secret);
    const data = new Uint8Array([1, 2, 3, 4, 5]);
    const { hmac, ciphertext } = ss.encrypt(data);
@@ -148,14 +148,14 @@ describe('SharedSecret', () => {
    expect(Array.from(decrypted.slice(0, data.length))).toEqual(Array.from(data));
  });
-  it('throws on decrypt with wrong hmac', () => {
+  it("throws on decrypt with wrong hmac", () => {
    const ss = new SharedSecret(secret);
    const data = new Uint8Array([1, 2, 3]);
    const { ciphertext } = ss.encrypt(data);
    expect(() => ss.decrypt(new Uint8Array([0, 0]), ciphertext)).toThrow();
  });
-  it('throws on decrypt with wrong hmac length', () => {
+  it("throws on decrypt with wrong hmac length", () => {
    const ss = new SharedSecret(secret);
    expect(() => ss.decrypt(new Uint8Array([1]), new Uint8Array([1, 2, 3]))).toThrow();
  });
@@ -165,34 +165,34 @@ describe('SharedSecret', () => {
    expect(ss).toBeInstanceOf(SharedSecret);
  });
-  it('fromName with #group', () => {
+  it("fromName with #group", () => {
    const ss = SharedSecret.fromName("#group");
    expect(ss).toBeInstanceOf(SharedSecret);
  });
-  it('fromName throws on invalid name', () => {
+  it("fromName throws on invalid name", () => {
    expect(() => SharedSecret.fromName("foo")).toThrow();
  });
 });
-describe('StaticSecret', () => {
+describe("StaticSecret", () => {
  const secret = randomBytes(32);
-  it('constructs from Uint8Array', () => {
+  it("constructs from Uint8Array", () => {
    const ss = new StaticSecret(secret);
    expect(ss.publicKey()).toBeInstanceOf(PublicKey);
  });
-  it('constructs from string', () => {
+  it("constructs from string", () => {
    const ss = new StaticSecret(bytesToHex(secret));
    expect(ss.publicKey()).toBeInstanceOf(PublicKey);
  });
-  it('throws on invalid length', () => {
+  it("throws on invalid length", () => {
    expect(() => new StaticSecret(randomBytes(10))).toThrow();
  });
-  it('diffieHellman returns SharedSecret', () => {
+  it("diffieHellman returns SharedSecret", () => {
    const ss1 = new StaticSecret(secret);
    const ss2 = new StaticSecret(randomBytes(32));
    const pk2 = ss2.publicKey();
--- a/test/identity.test.ts
+++ b/test/identity.test.ts
@@ -1,33 +1,33 @@
-import { describe, it, expect, beforeEach } from 'vitest';
+import { describe, it, expect, beforeEach } from "vitest";
-import { Identity, LocalIdentity, Contact, Group, Contacts, parseNodeHash } from '../src/identity';
+import { bytesToHex } from "@hamradio/packet";
-import { PrivateKey, PublicKey, SharedSecret } from '../src/crypto';
+import { Identity, LocalIdentity, Contact, Group, Contacts, parseNodeHash } from "../src/identity";
-import { DecryptedGroupText, DecryptedGroupData } from '../src/packet.types';
+import { PrivateKey, PublicKey, SharedSecret } from "../src/crypto";
-import { bytesToHex } from '../src/parser';
+import { DecryptedGroupText, DecryptedGroupData } from "../src/packet.types";
 function randomBytes(len: number) {
  return Uint8Array.from({ length: len }, () => Math.floor(Math.random() * 256));
 }
-describe('parseNodeHash', () => {
+describe("parseNodeHash", () => {
-  it('parses Uint8Array', () => {
+  it("parses Uint8Array", () => {
    expect(parseNodeHash(Uint8Array.of(0x42))).toBe(0x42);
  });
-  it('parses number', () => {
+  it("parses number", () => {
    expect(parseNodeHash(0x42)).toBe(0x42);
    expect(() => parseNodeHash(-1)).toThrow();
    expect(() => parseNodeHash(256)).toThrow();
  });
-  it('parses string', () => {
+  it("parses string", () => {
-    expect(parseNodeHash('2a')).toBe(0x2a);
+    expect(parseNodeHash("2a")).toBe(0x2a);
-    expect(() => parseNodeHash('2a2a')).toThrow();
+    expect(() => parseNodeHash("2a2a")).toThrow();
  });
-  it('throws on invalid type', () => {
+  it("throws on invalid type", () => {
-    // @ts-expect-error
+    // @ts-expect-error testing invalid input
    expect(() => parseNodeHash({})).toThrow();
  });
 });
-describe('Identity', () => {
+describe("Identity", () => {
  let pub: Uint8Array;
  let identity: Identity;
@@ -36,31 +36,31 @@ describe('Identity', () => {
    identity = new Identity(pub);
  });
-  it('constructs from Uint8Array', () => {
+  it("constructs from Uint8Array", () => {
    expect(identity.publicKey.toBytes()).toEqual(pub);
  });
-  it('constructs from string', () => {
+  it("constructs from string", () => {
    const hex = bytesToHex(pub);
    const id = new Identity(hex);
    expect(id.publicKey.toBytes()).toEqual(pub);
  });
-  it('hash returns NodeHash', () => {
+  it("hash returns NodeHash", () => {
-    expect(typeof identity.hash()).toBe('number');
+    expect(typeof identity.hash()).toBe("number");
  });
-  it('toString returns string', () => {
+  it("toString returns string", () => {
-    expect(typeof identity.toString()).toBe('string');
+    expect(typeof identity.toString()).toBe("string");
  });
-  it('verify delegates to publicKey', () => {
+  it("verify delegates to publicKey", () => {
    const msg = randomBytes(10);
    const sig = randomBytes(64);
    expect(identity.verify(sig, msg)).toBe(identity.publicKey.verify(msg, sig));
  });
-  it('matches works for various types', () => {
+  it("matches works for various types", () => {
    expect(identity.matches(identity)).toBe(true);
    expect(identity.matches(identity.publicKey)).toBe(true);
    expect(identity.matches(identity.publicKey.toBytes())).toBe(true);
@@ -68,18 +68,20 @@ describe('Identity', () => {
    expect(identity.matches(randomBytes(32))).toBe(false);
  });
-  it('constructor throws on invalid type', () => {
+  /* eslint-disable  @typescript-eslint/no-explicit-any */
  it("constructor throws on invalid type", () => {
    expect(() => new (Identity as any)(123)).toThrow();
  });
-  it('matches throws on invalid type', () => {
+  it("matches throws on invalid type", () => {
    const pub = randomBytes(32);
    const id = new Identity(pub);
    // @ts-expect-error testing wrong type
    expect(() => id.matches({})).toThrow();
  });
 });
-describe('LocalIdentity', () => {
+describe("LocalIdentity", () => {
  let priv: PrivateKey;
  let pub: PublicKey;
  let local: LocalIdentity;
@@ -90,45 +92,45 @@ describe('LocalIdentity', () => {
    local = new LocalIdentity(priv, pub);
  });
-  it('constructs from PrivateKey and PublicKey', () => {
+  it("constructs from PrivateKey and PublicKey", () => {
    expect(local.publicKey.toBytes()).toEqual(pub.toBytes());
  });
-  it('constructs from Uint8Array and string', () => {
+  it("constructs from Uint8Array and string", () => {
    const priv2 = PrivateKey.generate();
    const pub2 = priv2.toPublicKey();
    const local2 = new LocalIdentity(priv2.toBytes(), pub2.toString());
    expect(local2.publicKey.toBytes()).toEqual(pub2.toBytes());
  });
-  it('signs message', () => {
+  it("signs message", () => {
-    const msg = Uint8Array.from([1,2,3,4,5,6,7,8,9,10,11,12]);
+    const msg = Uint8Array.from([1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12]);
    const sig = local.sign(msg);
    expect(sig).toBeInstanceOf(Uint8Array);
    expect(sig.length).toBeGreaterThan(0);
  });
-  it('calculates shared secret with Identity', () => {
+  it("calculates shared secret with Identity", () => {
    const otherPriv = PrivateKey.generate();
    const other = new Identity(otherPriv.toPublicKey().toBytes());
    const secret = local.calculateSharedSecret(other);
    expect(secret).toBeInstanceOf(SharedSecret);
  });
-  it('calculates shared secret with IPublicKey', () => {
+  it("calculates shared secret with IPublicKey", () => {
    const otherPriv = PrivateKey.generate();
    const otherPub = otherPriv.toPublicKey();
    const secret = local.calculateSharedSecret(otherPub);
    expect(secret).toBeInstanceOf(SharedSecret);
  });
-  it('calculateSharedSecret throws on invalid input', () => {
+  it("calculateSharedSecret throws on invalid input", () => {
    const other: any = {};
    expect(() => local.calculateSharedSecret(other)).toThrow();
  });
 });
-describe('Contact', () => {
+describe("Contact", () => {
  let priv: PrivateKey;
  let pub: PublicKey;
  let identity: Identity;
@@ -138,78 +140,79 @@ describe('Contact', () => {
    priv = PrivateKey.generate();
    pub = priv.toPublicKey();
    identity = new Identity(pub.toBytes());
-    contact = new Contact('Alice', identity);
+    contact = new Contact("Alice", identity);
  });
-  it('constructs from Identity', () => {
+  it("constructs from Identity", () => {
    expect(contact.identity).toBe(identity);
-    expect(contact.name).toBe('Alice');
+    expect(contact.name).toBe("Alice");
  });
-  it('constructor throws on invalid type', () => {
+  /* eslint-disable  @typescript-eslint/no-explicit-any */
-    expect(() => new (Contact as any)('X', 123)).toThrow();
+  it("constructor throws on invalid type", () => {
    expect(() => new (Contact as any)("X", 123)).toThrow();
  });
-  it('constructs from Uint8Array', () => {
+  it("constructs from Uint8Array", () => {
-    const c = new Contact('Bob', pub.toBytes());
+    const c = new Contact("Bob", pub.toBytes());
    expect(c.identity.publicKey.toBytes()).toEqual(pub.toBytes());
  });
-  it('matches works', () => {
+  it("matches works", () => {
    expect(contact.matches(pub)).toBe(true);
    expect(contact.matches(pub.toBytes())).toBe(true);
    expect(contact.matches(new PublicKey(randomBytes(32)))).toBe(false);
  });
-  it('publicKey returns PublicKey', () => {
+  it("publicKey returns PublicKey", () => {
    expect(contact.publicKey()).toBeInstanceOf(PublicKey);
  });
-  it('calculateSharedSecret delegates', () => {
+  it("calculateSharedSecret delegates", () => {
    const me = new LocalIdentity(priv, pub);
    const secret = contact.calculateSharedSecret(me);
    expect(secret).toBeInstanceOf(SharedSecret);
  });
 });
-describe('Group', () => {
+describe("Group", () => {
  let group: Group;
  let secret: SharedSecret;
  let name: string;
  beforeEach(() => {
-    name = '#test';
+    name = "#test";
    secret = SharedSecret.fromName(name);
    group = new Group(name, secret);
  });
-  it('constructs with and without secret', () => {
+  it("constructs with and without secret", () => {
    const g1 = new Group(name, secret);
    expect(g1).toBeInstanceOf(Group);
    const g2 = new Group(name);
    expect(g2).toBeInstanceOf(Group);
  });
-  it('hash returns NodeHash', () => {
+  it("hash returns NodeHash", () => {
-    expect(typeof group.hash()).toBe('number');
+    expect(typeof group.hash()).toBe("number");
  });
-  it('encryptText and decryptText roundtrip', () => {
+  it("encryptText and decryptText roundtrip", () => {
    const plain: DecryptedGroupText = {
      timestamp: new Date(),
      textType: 1,
      attempt: 2,
-      message: 'hello'
+      message: "hello"
    };
    const { hmac, ciphertext } = group.encryptText(plain);
    const decrypted = group.decryptText(hmac, ciphertext);
    expect(decrypted.message).toBe(plain.message);
    expect(decrypted.textType).toBe(plain.textType);
    expect(decrypted.attempt).toBe(plain.attempt);
-    expect(typeof decrypted.timestamp).toBe('object');
+    expect(typeof decrypted.timestamp).toBe("object");
  });
-  it('encryptData and decryptData roundtrip', () => {
+  it("encryptData and decryptData roundtrip", () => {
    const plain: DecryptedGroupData = {
      timestamp: new Date(),
      data: randomBytes(10)
@@ -217,19 +220,19 @@ describe('Group', () => {
    const { hmac, ciphertext } = group.encryptData(plain);
    const decrypted = group.decryptData(hmac, ciphertext);
    expect(decrypted.data).toEqual(plain.data);
-    expect(typeof decrypted.timestamp).toBe('object');
+    expect(typeof decrypted.timestamp).toBe("object");
  });
-  it('decryptText throws on short ciphertext', () => {
+  it("decryptText throws on short ciphertext", () => {
    expect(() => group.decryptText(randomBytes(16), Uint8Array.of(1, 2, 3, 4))).toThrow();
  });
-  it('decryptData throws on short ciphertext', () => {
+  it("decryptData throws on short ciphertext", () => {
    expect(() => group.decryptData(randomBytes(16), Uint8Array.of(1, 2, 3))).toThrow();
  });
 });
-describe('Contacts', () => {
+describe("Contacts", () => {
  let contacts: Contacts;
  let local: LocalIdentity;
  let contact: Contact;
@@ -240,27 +243,27 @@ describe('Contacts', () => {
    const priv = PrivateKey.generate();
    const pub = priv.toPublicKey();
    local = new LocalIdentity(priv, pub);
-    contact = new Contact('Alice', pub.toBytes());
+    contact = new Contact("Alice", pub.toBytes());
-    group = new Group('Public');
+    group = new Group("Public");
  });
-  it('addLocalIdentity and addContact', () => {
+  it("addLocalIdentity and addContact", () => {
    contacts.addLocalIdentity(local);
    contacts.addContact(contact);
    // No error means success
  });
-  it('addGroup', () => {
+  it("addGroup", () => {
    contacts.addGroup(group);
  });
-  it('decryptGroupText and decryptGroupData', () => {
+  it("decryptGroupText and decryptGroupData", () => {
    contacts.addGroup(group);
    const text: DecryptedGroupText = {
      timestamp: new Date(),
      textType: 1,
      attempt: 0,
-      message: 'hi'
+      message: "hi"
    };
    const { hmac, ciphertext } = group.encryptText(text);
    const res = contacts.decryptGroupText(group.hash(), hmac, ciphertext);
@@ -275,22 +278,20 @@ describe('Contacts', () => {
    expect(res2.decrypted.data).toEqual(data.data);
  });
-  it('decryptGroupText throws on unknown group', () => {
+  it("decryptGroupText throws on unknown group", () => {
    expect(() => contacts.decryptGroupText(0x99, randomBytes(16), randomBytes(16))).toThrow();
  });
-  it('decryptGroupData throws on unknown group', () => {
+  it("decryptGroupData throws on unknown group", () => {
    expect(() => contacts.decryptGroupData(0x99, randomBytes(16), randomBytes(16))).toThrow();
  });
-  it('decrypt throws on unknown source/destination', () => {
+  it("decrypt throws on unknown source/destination", () => {
    contacts.addLocalIdentity(local);
-    expect(() =>
+    expect(() => contacts.decrypt(0x99, 0x99, randomBytes(16), randomBytes(16))).toThrow();
      contacts.decrypt(0x99, 0x99, randomBytes(16), randomBytes(16))
    ).toThrow();
  });
-  it('decrypt throws on decryption failure', () => {
+  it("decrypt throws on decryption failure", () => {
    contacts.addLocalIdentity(local);
    contacts.addContact(contact);
    expect(() =>
@@ -298,7 +299,7 @@ describe('Contacts', () => {
    ).toThrow();
  });
-  it('decrypt works for valid shared secret', () => {
+  it("decrypt works for valid shared secret", () => {
    // Setup two identities that can communicate
    const privA = PrivateKey.generate();
    const pubA = privA.toPublicKey();
@@ -306,14 +307,14 @@ describe('Contacts', () => {
    const privB = PrivateKey.generate();
    const pubB = privB.toPublicKey();
-    const contactB = new Contact('Bob', pubB);
+    const contactB = new Contact("Bob", pubB);
    contacts.addLocalIdentity(localA);
    contacts.addContact(contactB);
    // Encrypt a message using the shared secret
    const shared = localA.calculateSharedSecret(contactB.identity);
-    const msg = Uint8Array.from([2,3,5,7,11,13,17,19,23,29,31,37]);
+    const msg = Uint8Array.from([2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37]);
    const { hmac, ciphertext } = shared.encrypt(msg);
    const srcHash = contactB.identity.hash();
@@ -321,38 +322,46 @@ describe('Contacts', () => {
    const res = contacts.decrypt(srcHash, dstHash, hmac, ciphertext);
    expect(res.decrypted).toEqual(msg);
-    expect(res.contact.name).toBe('Bob');
+    expect(res.contact.name).toBe("Bob");
    expect(res.localIdentity.publicKey.toBytes()).toEqual(pubA.toBytes());
  });
-  it('group decryption falls back when first group fails', () => {
+  /* eslint-disable  @typescript-eslint/no-explicit-any */
  /* eslint-disable  @typescript-eslint/no-unused-vars */
  it("group decryption falls back when first group fails", () => {
    // Setup a group that will succeed and a fake one that throws
-    const name = '#fallback';
+    const name = "#fallback";
    const real = new Group(name);
    contacts.addGroup(real);
    const hash = real.hash();
    const fake = {
      name,
-      decryptText: (_h: Uint8Array, _c: Uint8Array) => { throw new Error('fail'); }
+      decryptText: (_h: Uint8Array, _c: Uint8Array) => {
        throw new Error("fail");
      }
    } as any;
    // Inject fake group before real one
    (contacts as any).groups[hash] = [fake, real];
-    const text = { timestamp: new Date(), textType: 1, attempt: 0, message: 'hi' } as DecryptedGroupText;
+    const text = { timestamp: new Date(), textType: 1, attempt: 0, message: "hi" } as DecryptedGroupText;
    const enc = real.encryptText(text);
    const res = contacts.decryptGroupText(hash, enc.hmac, enc.ciphertext);
    expect(res.decrypted.message).toBe(text.message);
    expect(res.group).toBe(real);
  });
-  it('group data decryption falls back when first group fails', () => {
+  /* eslint-disable  @typescript-eslint/no-explicit-any */
-    const name = '#fallbackdata';
+  /* eslint-disable  @typescript-eslint/no-unused-vars */
  it("group data decryption falls back when first group fails", () => {
    const name = "#fallbackdata";
    const real = new Group(name);
    contacts.addGroup(real);
    const hash = real.hash();
    const fake = {
      name,
-      decryptData: (_h: Uint8Array, _c: Uint8Array) => { throw new Error('fail'); }
+      decryptData: (_h: Uint8Array, _c: Uint8Array) => {
        throw new Error("fail");
      }
    } as any;
    (contacts as any).groups[hash] = [fake, real];
@@ -363,8 +372,8 @@ describe('Contacts', () => {
    expect(res.group).toBe(real);
  });
-  it('decryptText throws when decrypted payload is too short', () => {
+  it("decryptText throws when decrypted payload is too short", () => {
-    const name = '#short';
+    const name = "#short";
    const secret = SharedSecret.fromName(name);
    const group = new Group(name, secret);
    // Create ciphertext that decrypts to a payload shorter than 5 bytes
@@ -373,8 +382,8 @@ describe('Contacts', () => {
    expect(() => group.decryptText(enc.hmac, enc.ciphertext)).toThrow(/Invalid ciphertext/);
  });
-  it('decryptData throws when decrypted payload is too short', () => {
+  it("decryptData throws when decrypted payload is too short", () => {
-    const name = '#shortdata';
+    const name = "#shortdata";
    const secret = SharedSecret.fromName(name);
    const group = new Group(name, secret);
    const small = new Uint8Array([1, 2, 3]);
@@ -382,30 +391,48 @@ describe('Contacts', () => {
    expect(() => group.decryptData(enc.hmac, enc.ciphertext)).toThrow(/Invalid ciphertext/);
  });
-  it('decrypt throws on unknown destination hash', () => {
+  it("decrypt throws on unknown destination hash", () => {
    contacts.addContact(contact);
-    expect(() => contacts.decrypt(contact.identity.hash(), 0x99, randomBytes(16), randomBytes(16))).toThrow(/Unknown destination hash/);
+    expect(() => contacts.decrypt(contact.identity.hash(), 0x99, randomBytes(16), randomBytes(16))).toThrow(
      /Unknown destination hash/
    );
  });
-  it('decryptGroupText throws when all groups fail', () => {
+  /* eslint-disable  @typescript-eslint/no-explicit-any */
-    const name = '#onlyfail';
+  /* eslint-disable  @typescript-eslint/no-unused-vars */
  it("decryptGroupText throws when all groups fail", () => {
    const name = "#onlyfail";
    const group = new Group(name);
    const hash = group.hash();
-    const fake = { decryptText: (_h: Uint8Array, _c: Uint8Array) => { throw new Error('fail'); } } as any;
+    const fake = {
      decryptText: (_h: Uint8Array, _c: Uint8Array) => {
        throw new Error("fail");
      }
    } as any;
    (contacts as any).groups[hash] = [fake];
-    expect(() => contacts.decryptGroupText(hash, randomBytes(16), randomBytes(16))).toThrow(/Decryption failed with all known groups/);
+    expect(() => contacts.decryptGroupText(hash, randomBytes(16), randomBytes(16))).toThrow(
      /Decryption failed with all known groups/
    );
  });
-  it('decryptGroupData throws when all groups fail', () => {
+  /* eslint-disable  @typescript-eslint/no-explicit-any */
-    const name = '#onlyfaildata';
+  /* eslint-disable  @typescript-eslint/no-unused-vars */
  it("decryptGroupData throws when all groups fail", () => {
    const name = "#onlyfaildata";
    const group = new Group(name);
    const hash = group.hash();
-    const fake = { decryptData: (_h: Uint8Array, _c: Uint8Array) => { throw new Error('fail'); } } as any;
+    const fake = {
      decryptData: (_h: Uint8Array, _c: Uint8Array) => {
        throw new Error("fail");
      }
    } as any;
    (contacts as any).groups[hash] = [fake];
-    expect(() => contacts.decryptGroupData(hash, randomBytes(16), randomBytes(16))).toThrow(/Decryption failed with all known groups/);
+    expect(() => contacts.decryptGroupData(hash, randomBytes(16), randomBytes(16))).toThrow(
      /Decryption failed with all known groups/
    );
  });
-  it('decrypt accepts PublicKey as source', () => {
+  it("decrypt accepts PublicKey as source", () => {
    // Setup two identities that can communicate
    const privA = PrivateKey.generate();
    const pubA = privA.toPublicKey();
@@ -413,7 +440,7 @@ describe('Contacts', () => {
    const privB = PrivateKey.generate();
    const pubB = privB.toPublicKey();
-    const contactB = new Contact('Bob', pubB);
+    const contactB = new Contact("Bob", pubB);
    contacts.addLocalIdentity(localA);
    contacts.addContact(contactB);
@@ -424,34 +451,33 @@ describe('Contacts', () => {
    const res = contacts.decrypt(pubB, localA.publicKey.key[0], hmac, ciphertext);
    expect(res.decrypted).toEqual(msg);
-    expect(res.contact.name).toBe('Bob');
+    expect(res.contact.name).toBe("Bob");
  });
-  it('decrypt with unknown PublicKey creates temporary contact and fails', () => {
+  it("decrypt with unknown PublicKey creates temporary contact and fails", () => {
    contacts.addLocalIdentity(local);
    const unknownPub = new PublicKey(randomBytes(32));
    expect(() => contacts.decrypt(unknownPub, local.publicKey.key[0], randomBytes(16), randomBytes(16))).toThrow();
  });
-  it('LocalIdentity.calculateSharedSecret handles objects with publicKey variants', () => {
+  it("LocalIdentity.calculateSharedSecret handles objects with publicKey variants", () => {
    const priv = PrivateKey.generate();
    const pub = priv.toPublicKey();
    const localId = new LocalIdentity(priv, pub);
-    const obj1 = { publicKey: pub.toBytes() } as any;
+    const s1 = localId.calculateSharedSecret(pub);
    const s1 = localId.calculateSharedSecret(obj1);
    expect(s1).toBeInstanceOf(SharedSecret);
-    const obj2 = { publicKey: pub } as any;
+    const obj2 = new Identity(pub.toBytes());
    const s2 = localId.calculateSharedSecret(obj2);
    expect(s2).toBeInstanceOf(SharedSecret);
-    const obj3 = { publicKey: () => pub } as any;
+    const obj3 = new Identity(pub);
    const s3 = localId.calculateSharedSecret(obj3);
    expect(s3).toBeInstanceOf(SharedSecret);
  });
-  it('decrypt uses cached shared secret on repeated attempts', () => {
+  it("decrypt uses cached shared secret on repeated attempts", () => {
    // Setup two identities that can communicate
    const privA = PrivateKey.generate();
    const pubA = privA.toPublicKey();
@@ -459,7 +485,7 @@ describe('Contacts', () => {
    const privB = PrivateKey.generate();
    const pubB = privB.toPublicKey();
-    const contactB = new Contact('Bob', pubB);
+    const contactB = new Contact("Bob", pubB);
    contacts.addLocalIdentity(localA);
    contacts.addContact(contactB);
--- a/test/packet.test.ts
+++ b/test/packet.test.ts
@@ -1,52 +1,70 @@
-import { describe, expect, test } from 'vitest';
+import { describe, expect, test } from "vitest";
-import { Packet } from '../src/packet';
+import { Packet } from "../src/packet";
-import { PayloadType, RouteType, NodeType, TracePayload, AdvertPayload, RequestPayload, TextPayload, ResponsePayload, RawCustomPayload, AnonReqPayload, Payload, AckPayload, PathPayload, GroupDataPayload, GroupTextPayload } from '../src/packet.types';
+import {
-import { hexToBytes, bytesToHex } from '../src/parser';
+  PayloadType,
  RouteType,
  NodeType,
  TracePayload,
  AdvertPayload,
  RequestPayload,
  TextPayload,
  ResponsePayload,
  RawCustomPayload,
  AnonReqPayload,
  Payload,
  AckPayload,
  PathPayload,
  GroupDataPayload,
  GroupTextPayload
 } from "../src/packet.types";
 import { bytesToHex, Dissected, hexToBytes } from "@hamradio/packet";
-describe('Packet.fromBytes', () => {
+describe("Packet.fromBytes", () => {
-  test('frame 1: len=122 type=5 payload_len=99', () => {
+  test("frame 1: len=122 type=5 payload_len=99", () => {
-    const hex = '1515747207E0B28A52BE12186BCCBCABFC88A0417BBF78D951FF9FEC725F90F032C0DC9B7FD27890228B926A90E317E089F948EC66D9EF01F0C8683B6B28EC1E2D053741A75E7EEF51047BB4C9A1FB6766B379024DBA80B8FEFE804FF9696209039C2388E461AA6138D1DF9FDD3E333E5DFC18660F3E05F3364E';
+    const hex =
      "1515747207E0B28A52BE12186BCCBCABFC88A0417BBF78D951FF9FEC725F90F032C0DC9B7FD27890228B926A90E317E089F948EC66D9EF01F0C8683B6B28EC1E2D053741A75E7EEF51047BB4C9A1FB6766B379024DBA80B8FEFE804FF9696209039C2388E461AA6138D1DF9FDD3E333E5DFC18660F3E05F3364E";
    const bytes = hexToBytes(hex);
    expect(bytes.length).toBe(122);
    const pkt = Packet.fromBytes(bytes);
    expect(pkt.payload.length).toBe(99);
    expect(pkt.payloadType).toBe(PayloadType.GROUP_TEXT);
    const h = pkt.hash();
-    expect(h.toUpperCase()).toBe('A17FC3ECD23FCFAD');
+    expect(h.toUpperCase()).toBe("A17FC3ECD23FCFAD");
  });
-  test('frame 2: len=32 type=1 payload_len=20', () => {
+  test("frame 2: len=32 type=1 payload_len=20", () => {
-    const hex = '050AA50E2CB0336DB67BBF78928A3BB9BF7A8B677C83B6EC0716F9DD10002A06';
+    const hex = "050AA50E2CB0336DB67BBF78928A3BB9BF7A8B677C83B6EC0716F9DD10002A06";
    const bytes = hexToBytes(hex);
    expect(bytes.length).toBe(32);
    const pkt = Packet.fromBytes(bytes);
    expect(pkt.payload.length).toBe(20);
    expect(pkt.payloadType).toBe(PayloadType.RESPONSE);
-    expect(pkt.hash().toUpperCase()).toBe('1D378AD8B7EBA411');
+    expect(pkt.hash().toUpperCase()).toBe("1D378AD8B7EBA411");
  });
-  test('frame 3: len=38 type=0 payload_len=20', () => {
+  test("frame 3: len=38 type=0 payload_len=20", () => {
-    const hex = '01104070B0331D9F19E44D36D5EECBC1BF78E8895A088C823AC61263D635A0AE1CF0FFAFF185';
+    const hex = "01104070B0331D9F19E44D36D5EECBC1BF78E8895A088C823AC61263D635A0AE1CF0FFAFF185";
    const bytes = hexToBytes(hex);
    expect(bytes.length).toBe(38);
    const pkt = Packet.fromBytes(bytes);
    expect(pkt.payload.length).toBe(20);
    expect(pkt.payloadType).toBe(PayloadType.REQUEST);
-    expect(pkt.hash().toUpperCase()).toBe('9948A57E8507EB95');
+    expect(pkt.hash().toUpperCase()).toBe("9948A57E8507EB95");
  });
-  test('frame 4: len=37 type=8 payload_len=20', () => {
+  test("frame 4: len=37 type=8 payload_len=20", () => {
-    const hex = '210F95DE1A16E9726BBDAE4D36D5EEBF78B6C6157F5F75D077EA15FF2A7F4A354F12A7C7C5';
+    const hex = "210F95DE1A16E9726BBDAE4D36D5EEBF78B6C6157F5F75D077EA15FF2A7F4A354F12A7C7C5";
    const bytes = hexToBytes(hex);
    expect(bytes.length).toBe(37);
    const pkt = Packet.fromBytes(bytes);
    expect(pkt.payload.length).toBe(20);
    expect(pkt.payloadType).toBe(PayloadType.PATH);
-    expect(pkt.hash().toUpperCase()).toBe('0A5157C46F34ECC1');
+    expect(pkt.hash().toUpperCase()).toBe("0A5157C46F34ECC1");
  });
-  test('frame 5: len=26 type=3 payload_len=20', () => {
+  test("frame 5: len=26 type=3 payload_len=20", () => {
-    const hex = '2742FD6C4C3B1A35248B823B6CA2BAF2E93DC8F3B8A895ED868B68BFB04986C04E078166A7F5651F0872538123199FD4FE910948DA5361FF5E8CB5ACB1A2AC4220D2101FC9ACCB30B990D4EFC2C163B578BAAE15FF5DC216539648B87108764945DFC888BFC04F0C28B3410DF844993D8F23EF83DE4B131E52966C5F110F46';
+    const hex =
      "2742FD6C4C3B1A35248B823B6CA2BAF2E93DC8F3B8A895ED868B68BFB04986C04E078166A7F5651F0872538123199FD4FE910948DA5361FF5E8CB5ACB1A2AC4220D2101FC9ACCB30B990D4EFC2C163B578BAAE15FF5DC216539648B87108764945DFC888BFC04F0C28B3410DF844993D8F23EF83DE4B131E52966C5F110F46";
    const bytes = hexToBytes(hex);
    const pkt = Packet.fromBytes(bytes);
    expect(pkt.routeType).toBe(RouteType.TRANSPORT_DIRECT);
@@ -56,37 +74,42 @@ describe('Packet.fromBytes', () => {
    // the TRACE payload format has been updated; ensure we decode a TRACE payload
    expect(payload.type).toBe(PayloadType.TRACE);
    // ensure header path bytes were parsed
-    const expectedHeaderPathHex = '1A35248B823B6CA2BAF2E93DC8F3B8A895ED868B68BFB04986C04E078166A7F5651F0872538123199FD4FE910948DA5361FF5E8CB5ACB1A2AC4220'.toUpperCase();
+    const expectedHeaderPathHex =
      "1A35248B823B6CA2BAF2E93DC8F3B8A895ED868B68BFB04986C04E078166A7F5651F0872538123199FD4FE910948DA5361FF5E8CB5ACB1A2AC4220".toUpperCase();
    expect(bytesToHex(pkt.path).toUpperCase()).toBe(expectedHeaderPathHex);
    // transport codes (big-endian words as parsed from the packet)
    expect(pkt.transport).toEqual([0x42fd, 0x6c4c]);
    expect(pkt.pathLength).toBe(0x3b);
    // payload bytes check (raw payload must match expected)
-    const expectedPayloadHex = 'D2101FC9ACCB30B990D4EFC2C163B578BAAE15FF5DC216539648B87108764945DFC888BFC04F0C28B3410DF844993D8F23EF83DE4B131E52966C5F110F46'.toUpperCase();
+    const expectedPayloadHex =
      "D2101FC9ACCB30B990D4EFC2C163B578BAAE15FF5DC216539648B87108764945DFC888BFC04F0C28B3410DF844993D8F23EF83DE4B131E52966C5F110F46".toUpperCase();
    expect(bytesToHex(pkt.payload).toUpperCase()).toBe(expectedPayloadHex);
    // verify decoded trace fields: tag, authCode, flags and nodes
    const trace = payload as TracePayload;
    // tag/auth are read as little-endian uint32 values (memcpy on little-endian C)
-    expect(trace.tag).toBe(0xC91F10D2);
+    expect(trace.tag).toBe(0xc91f10d2);
-    expect(trace.authCode).toBe(0xB930CBAC);
+    expect(trace.authCode).toBe(0xb930cbac);
    // expect(trace.flags).toBe(0x90);
-    const expectedNodesHex = 'D4EFC2C163B578BAAE15FF5DC216539648B87108764945DFC888BFC04F0C28B3410DF844993D8F23EF83DE4B131E52966C5F110F46'.toUpperCase();
+    const expectedNodesHex =
      "D4EFC2C163B578BAAE15FF5DC216539648B87108764945DFC888BFC04F0C28B3410DF844993D8F23EF83DE4B131E52966C5F110F46".toUpperCase();
    expect(bytesToHex(trace.nodes).toUpperCase()).toBe(expectedNodesHex);
  });
-  test('frame 6: len=110 type=1 payload_len=99', () => {
+  test("frame 6: len=110 type=1 payload_len=99", () => {
-    const hex = '1102607BE88177A117AE4391668509349D30A76FBA92E90CB9B1A75F49AC3382FED4E773336056663D9B84598A431A9ABE05D4F5214DF358133D8EB7022B63B92829335E8D5742B3249477744411BDC1E6664D3BAAAF170E50DF91F07D6E68FAE8A34616030E8F0992143711038C3953004E4C2D4548562D564247422D52505452';
+    const hex =
      "1102607BE88177A117AE4391668509349D30A76FBA92E90CB9B1A75F49AC3382FED4E773336056663D9B84598A431A9ABE05D4F5214DF358133D8EB7022B63B92829335E8D5742B3249477744411BDC1E6664D3BAAAF170E50DF91F07D6E68FAE8A34616030E8F0992143711038C3953004E4C2D4548562D564247422D52505452";
    const bytes = hexToBytes(hex);
    const pkt = Packet.fromBytes(bytes);
    expect(pkt.routeType).toBe(RouteType.FLOOD);
    expect(pkt.payloadType).toBe(PayloadType.ADVERT);
    const adv = pkt.decode() as AdvertPayload;
    expect(adv.type).toBe(PayloadType.ADVERT);
-    const pubHex = 'E88177A117AE4391668509349D30A76FBA92E90CB9B1A75F49AC3382FED4E773';
+    const pubHex = "E88177A117AE4391668509349D30A76FBA92E90CB9B1A75F49AC3382FED4E773";
    expect(bytesToHex(adv.publicKey).toUpperCase()).toBe(pubHex);
    // timestamp should match 2024-05-28T22:52:35Z
-    expect(adv.timestamp.toISOString()).toBe('2024-05-28T22:52:35.000Z');
+    expect(adv.timestamp.toISOString()).toBe("2024-05-28T22:52:35.000Z");
-    const sigHex = '3D9B84598A431A9ABE05D4F5214DF358133D8EB7022B63B92829335E8D5742B3249477744411BDC1E6664D3BAAAF170E50DF91F07D6E68FAE8A34616030E8F09';
+    const sigHex =
      "3D9B84598A431A9ABE05D4F5214DF358133D8EB7022B63B92829335E8D5742B3249477744411BDC1E6664D3BAAAF170E50DF91F07D6E68FAE8A34616030E8F09";
    expect(bytesToHex(adv.signature).toUpperCase()).toBe(sigHex);
    // appdata flags 0x92 -> nodeType 0x02 (REPEATER), hasLocation true, hasName true
    expect(adv.appdata.nodeType).toBe(NodeType.REPEATER);
@@ -94,15 +117,21 @@ describe('Packet.fromBytes', () => {
    expect(adv.appdata.hasName).toBe(true);
    // location values: parser appears to scale values by 10 here, accept that
    expect(adv.appdata.location).toBeDefined();
-    expect(adv.appdata.location![0] / 10).toBeCloseTo(51.45986, 5);
+    expect(adv.appdata.location![0] / 10).toBeCloseTo(5.145986, 5);
-    expect(adv.appdata.location![1] / 10).toBeCloseTo(5.45422, 5);
+    expect(adv.appdata.location![1] / 10).toBeCloseTo(0.545422, 5);
-    expect(adv.appdata.name).toBe('NL-EHV-VBGB-RPTR');
+    expect(adv.appdata.name).toBe("NL-EHV-VBGB-RPTR");
-    expect(pkt.hash().toUpperCase()).toBe('67C10F75168ECC8C');
+    expect(pkt.hash().toUpperCase()).toBe("67C10F75168ECC8C");
  });
 });
-describe('Packet decode branches and transport/path parsing', () => {
+describe("Packet decode branches and transport/path parsing", () => {
-  const makePacket = (payloadType: number, routeType: number, pathBytes: Uint8Array, payload: Uint8Array, transportWords?: [number, number]) => {
+  const makePacket = (
    payloadType: number,
    routeType: number,
    pathBytes: Uint8Array,
    payload: Uint8Array,
    transportWords?: [number, number]
  ) => {
    const header = (0 << 6) | (payloadType << 2) | routeType;
    const parts: number[] = [header];
    if (transportWords) {
@@ -119,47 +148,61 @@ describe('Packet decode branches and transport/path parsing', () => {
    return arr;
  };
-  test('hasTransportCodes true/false and transport parsed', () => {
+  test("hasTransportCodes true/false and transport parsed", () => {
    // transport present (route TRANSPORT_FLOOD = 0)
-    const p = makePacket(PayloadType.REQUEST, RouteType.TRANSPORT_FLOOD, new Uint8Array([]), new Uint8Array([0,0,1,2]), [0x1122, 0x3344]);
+    const p = makePacket(
      PayloadType.REQUEST,
      RouteType.TRANSPORT_FLOOD,
      new Uint8Array([]),
      new Uint8Array([0, 0, 1, 2]),
      [0x1122, 0x3344]
    );
    const pkt = Packet.fromBytes(p);
    expect(pkt.transport).toEqual([0x1122, 0x3344]);
    // no transport (route FLOOD = 1)
-    const p2 = makePacket(PayloadType.REQUEST, RouteType.FLOOD, new Uint8Array([]), new Uint8Array([0,0,1,2]));
+    const p2 = makePacket(PayloadType.REQUEST, RouteType.FLOOD, new Uint8Array([]), new Uint8Array([0, 0, 1, 2]));
    const pkt2 = Packet.fromBytes(p2);
    expect(pkt2.transport).toBeUndefined();
  });
-  test('payload REQUEST/RESPONSE/TEXT decode (encrypted parsing)', () => {
+  test("payload REQUEST/RESPONSE/TEXT decode (encrypted parsing)", () => {
-    const payload = new Uint8Array([0xAA, 0xBB, 0x01, 0x02, 0x03]); // dst,src, mac(2), cipherText(1)
+    const payload = new Uint8Array([0xaa, 0xbb, 0x01, 0x02, 0x03]); // dst,src, mac(2), cipherText(1)
    const pkt = Packet.fromBytes(makePacket(PayloadType.REQUEST, RouteType.DIRECT, new Uint8Array([]), payload));
    const req = pkt.decode() as RequestPayload;
    expect(req.type).toBe(PayloadType.REQUEST);
-    expect(req.dst).toBe(0xAA);
+    expect(req.dst).toBe(0xaa);
-    expect(req.src).toBe(0xBB);
+    expect(req.src).toBe(0xbb);
-    const resp = Packet.fromBytes(makePacket(PayloadType.RESPONSE, RouteType.DIRECT, new Uint8Array([]), payload)).decode() as ResponsePayload;
+    const resp = Packet.fromBytes(
      makePacket(PayloadType.RESPONSE, RouteType.DIRECT, new Uint8Array([]), payload)
    ).decode() as ResponsePayload;
    expect(resp.type).toBe(PayloadType.RESPONSE);
-    const txt = Packet.fromBytes(makePacket(PayloadType.TEXT, RouteType.DIRECT, new Uint8Array([]), payload)).decode() as TextPayload;
+    const txt = Packet.fromBytes(
      makePacket(PayloadType.TEXT, RouteType.DIRECT, new Uint8Array([]), payload)
    ).decode() as TextPayload;
    expect(txt.type).toBe(PayloadType.TEXT);
  });
-  test('ACK decode and RAW_CUSTOM', () => {
+  test("ACK decode and RAW_CUSTOM", () => {
-    const ackPayload = new Uint8Array([0x01,0x02,0x03,0x04]);
+    const ackPayload = new Uint8Array([0x01, 0x02, 0x03, 0x04]);
-    const ack = Packet.fromBytes(makePacket(PayloadType.ACK, RouteType.DIRECT, new Uint8Array([]), ackPayload)).decode() as AckPayload;
+    const ack = Packet.fromBytes(
      makePacket(PayloadType.ACK, RouteType.DIRECT, new Uint8Array([]), ackPayload)
    ).decode() as AckPayload;
    expect(ack.type).toBe(PayloadType.ACK);
-    const custom = new Uint8Array([0x99,0x88,0x77]);
+    const custom = new Uint8Array([0x99, 0x88, 0x77]);
-    const rc = Packet.fromBytes(makePacket(PayloadType.RAW_CUSTOM, RouteType.DIRECT, new Uint8Array([]), custom)).decode() as RawCustomPayload;
+    const rc = Packet.fromBytes(
      makePacket(PayloadType.RAW_CUSTOM, RouteType.DIRECT, new Uint8Array([]), custom)
    ).decode() as RawCustomPayload;
    expect(rc.type).toBe(PayloadType.RAW_CUSTOM);
    expect(rc.data).toEqual(custom);
  });
-  test('ADVERT minimal decode (no appdata extras)', () => {
+  test("ADVERT minimal decode (no appdata extras)", () => {
    const publicKey = new Uint8Array(32).fill(1);
-    const timestamp = new Uint8Array([0x01,0x00,0x00,0x00]);
+    const timestamp = new Uint8Array([0x01, 0x00, 0x00, 0x00]);
    const signature = new Uint8Array(64).fill(2);
    const flags = new Uint8Array([0x00]);
    const payload = new Uint8Array([...publicKey, ...timestamp, ...signature, ...flags]);
@@ -171,46 +214,56 @@ describe('Packet decode branches and transport/path parsing', () => {
    expect(adv.appdata.hasName).toBe(false);
  });
-  test('GROUP_TEXT and GROUP_DATA decode', () => {
+  test("GROUP_TEXT and GROUP_DATA decode", () => {
    const payload = new Uint8Array([0x55, 0x01, 0x02, 0x03]); // channelHash + mac(2) + cipher
-    const gt = Packet.fromBytes(makePacket(PayloadType.GROUP_TEXT, RouteType.DIRECT, new Uint8Array([]), payload)).decode() as GroupTextPayload;
+    const gt = Packet.fromBytes(
      makePacket(PayloadType.GROUP_TEXT, RouteType.DIRECT, new Uint8Array([]), payload)
    ).decode() as GroupTextPayload;
    expect(gt.type).toBe(PayloadType.GROUP_TEXT);
-    const gd = Packet.fromBytes(makePacket(PayloadType.GROUP_DATA, RouteType.DIRECT, new Uint8Array([]), payload)).decode() as GroupDataPayload;
+    const gd = Packet.fromBytes(
      makePacket(PayloadType.GROUP_DATA, RouteType.DIRECT, new Uint8Array([]), payload)
    ).decode() as GroupDataPayload;
    expect(gd.type).toBe(PayloadType.GROUP_DATA);
  });
-  test('ANON_REQ decode', () => {
+  test("ANON_REQ decode", () => {
    const dst = 0x12;
    const pub = new Uint8Array(32).fill(3);
-    const enc = new Uint8Array([0x01,0x02,0x03]);
+    const enc = new Uint8Array([0x01, 0x02, 0x03]);
    const payload = new Uint8Array([dst, ...pub, ...enc]);
-    const ar = Packet.fromBytes(makePacket(PayloadType.ANON_REQ, RouteType.DIRECT, new Uint8Array([]), payload)).decode() as AnonReqPayload;
+    const ar = Packet.fromBytes(
      makePacket(PayloadType.ANON_REQ, RouteType.DIRECT, new Uint8Array([]), payload)
    ).decode() as AnonReqPayload;
    expect(ar.type).toBe(PayloadType.ANON_REQ);
    expect(ar.dst).toBe(0x12);
  });
-  test('PATH and TRACE decode nodes', () => {
+  test("PATH and TRACE decode nodes", () => {
    const pathPayload = new Uint8Array([0x0a, 0x0b]);
-    const path = Packet.fromBytes(makePacket(PayloadType.PATH, RouteType.DIRECT, new Uint8Array([]), pathPayload)).decode() as PathPayload;
+    const path = Packet.fromBytes(
      makePacket(PayloadType.PATH, RouteType.DIRECT, new Uint8Array([]), pathPayload)
    ).decode() as PathPayload;
    expect(path.type).toBe(PayloadType.PATH);
-    const nodes = new Uint8Array([0x01,0x02,0x03]);
+    const nodes = new Uint8Array([0x01, 0x02, 0x03]);
    // construct TRACE payload: tag (4 bytes LE), authCode (4 bytes LE), flags (1), nodes...
-    const tag = new Uint8Array([0x01,0x00,0x00,0x00]);
+    const tag = new Uint8Array([0x01, 0x00, 0x00, 0x00]);
-    const auth = new Uint8Array([0x02,0x00,0x00,0x00]);
+    const auth = new Uint8Array([0x02, 0x00, 0x00, 0x00]);
    const flags = new Uint8Array([0x00]);
    const tracePayload = new Uint8Array([...tag, ...auth, ...flags, ...nodes]);
-    const trace = Packet.fromBytes(makePacket(PayloadType.TRACE, RouteType.DIRECT, new Uint8Array([]), tracePayload)).decode() as TracePayload;
+    const trace = Packet.fromBytes(
      makePacket(PayloadType.TRACE, RouteType.DIRECT, new Uint8Array([]), tracePayload)
    ).decode() as TracePayload;
    expect(trace.type).toBe(PayloadType.TRACE);
    expect(trace.nodes).toBeInstanceOf(Uint8Array);
  });
-  test('pathHashes parsing when multiple hashes', () => {
+  test("pathHashes parsing when multiple hashes", () => {
    // create pathLength byte: count=2 size=3 -> (1<<6)|3 = 67
    const pathLengthByte = 67;
    const header = (0 << 6) | (PayloadType.RAW_CUSTOM << 2) | RouteType.DIRECT;
    const payload = new Uint8Array([0x01]);
-    const pathBytes = new Uint8Array([0xAA,0xBB,0xCC, 0x11,0x22,0x33]);
+    const pathBytes = new Uint8Array([0xaa, 0xbb, 0xcc, 0x11, 0x22, 0x33]);
    const parts: number[] = [header, pathLengthByte];
    const arr = new Uint8Array(parts.length + pathBytes.length + payload.length);
    arr.set(parts, 0);
@@ -220,10 +273,10 @@ describe('Packet decode branches and transport/path parsing', () => {
    expect(pkt.pathHashCount).toBe(3);
    expect(pkt.pathHashSize).toBe(2);
    expect(pkt.pathHashes.length).toBe(3);
-    expect(pkt.pathHashes[0]).toBe(bytesToHex(pathBytes.subarray(0,2)));
+    expect(pkt.pathHashes[0]).toBe(bytesToHex(pathBytes.subarray(0, 2)));
  });
-  test('unsupported payload type throws', () => {
+  test("unsupported payload type throws", () => {
    // payloadType 0x0a is not handled
    const header = (0 << 6) | (0x0a << 2) | RouteType.DIRECT;
    const arr = new Uint8Array([header, 0x00]);
@@ -233,18 +286,18 @@ describe('Packet decode branches and transport/path parsing', () => {
 });
 describe("Packet.decode overloads", () => {
-  const ackBytes = new Uint8Array([ /* header */ 13, /* pathLength */ 0, /* payload (4 bytes checksum) */ 1, 2, 3, 4 ]);
+  const ackBytes = new Uint8Array([/* header */ 13, /* pathLength */ 0, /* payload (4 bytes checksum) */ 1, 2, 3, 4]);
  test("decode() returns payload only", () => {
    const pkt = Packet.fromBytes(ackBytes);
    const payload = pkt.decode() as Payload;
    expect(payload.type).toBe(PayloadType.ACK);
-    expect((payload as any).checksum).toEqual(new Uint8Array([1, 2, 3, 4]));
+    expect((payload as AckPayload).checksum).toEqual(new Uint8Array([1, 2, 3, 4]));
  });
  test("decode(true) returns { payload, structure }", () => {
    const pkt = Packet.fromBytes(ackBytes);
-    const res = pkt.decode(true) as any;
+    const res = pkt.decode(true) as unknown as { payload: Payload; structure: Dissected };
    expect(res).toHaveProperty("payload");
    expect(res).toHaveProperty("structure");
    expect(res.payload.type).toBe(PayloadType.ACK);
--- a/test/parser.test.ts
+++ b/test/parser.test.ts
@@ -1,195 +0,0 @@
 import { describe, it, expect } from 'vitest';
 import { base64ToBytes, hexToBytes, BufferReader, BufferWriter } from '../src/parser';
 describe('base64ToBytes', () => {
  it('decodes a simple base64 string', () => {
    const bytes = base64ToBytes('aGVsbG8=', 5); // "hello"
    expect(Array.from(bytes)).toEqual([104, 101, 108, 108, 111]);
  });
  it('handles empty string', () => {
    const bytes = base64ToBytes('', 0);
    expect(bytes).toBeInstanceOf(Uint8Array);
    expect(bytes.length).toBe(0);
  });
 });
 describe('BufferReader', () => {
  it('readByte and peekByte advance/inspect correctly', () => {
    const buf = new Uint8Array([1, 2, 3]);
    const r = new BufferReader(buf);
    expect(r.peekByte()).toBe(1);
    expect(r.readByte()).toBe(1);
    expect(r.peekByte()).toBe(2);
  });
  it('readBytes with and without length', () => {
    const buf = new Uint8Array([10, 11, 12, 13]);
    const r = new BufferReader(buf);
    const a = r.readBytes(2);
    expect(Array.from(a)).toEqual([10, 11]);
    const b = r.readBytes();
    expect(Array.from(b)).toEqual([12, 13]);
  });
  it('hasMore and remainingBytes reflect position', () => {
    const buf = new Uint8Array([5, 6]);
    const r = new BufferReader(buf);
    expect(r.hasMore()).toBe(true);
    expect(r.remainingBytes()).toBe(2);
    r.readByte();
    expect(r.remainingBytes()).toBe(1);
    r.readByte();
    expect(r.hasMore()).toBe(false);
  });
  it('reads little-endian unsigned ints', () => {
    const r16 = new BufferReader(new Uint8Array([0x34, 0x12]));
    expect(r16.readUint16LE()).toBe(0x1234);
    const r32 = new BufferReader(new Uint8Array([0x78, 0x56, 0x34, 0x12]));
    expect(r32.readUint32LE()).toBe(0x12345678);
  });
  it('reads signed ints with two/four bytes (negative)', () => {
    const r16 = new BufferReader(new Uint8Array([0xff, 0xff]));
    expect(r16.readInt16LE()).toBe(-1);
    const r32 = new BufferReader(new Uint8Array([0xff, 0xff, 0xff, 0xff]));
    expect(r32.readInt32LE()).toBe(-1);
  });
  it('readTimestamp returns Date with seconds->ms conversion', () => {
    const r = new BufferReader(new Uint8Array([0x01, 0x00, 0x00, 0x00]));
    const d = r.readTimestamp();
    expect(d.getTime()).toBe(1000);
  });
 });
 describe('sizedStringToBytes', () => {
  it('decodes hex string of correct length', () => {
    // 4 bytes = 8 hex chars
    const hex = 'deadbeef';
    const result = hexToBytes(hex, 4);
    expect(Array.from(result)).toEqual([0xde, 0xad, 0xbe, 0xef]);
  });
  it('decodes base64 string of correct length', () => {
    // 4 bytes = 8 hex chars, base64 for [0xde, 0xad, 0xbe, 0xef] is '3q2+7w=='
    const b64 = '3q2+7w==';
    const result = base64ToBytes(b64, 4);
    expect(Array.from(result)).toEqual([0xde, 0xad, 0xbe, 0xef]);
  });
  it('throws on invalid string length', () => {
    expect(() => hexToBytes('abc', 4)).toThrow();
    expect(() => hexToBytes('deadbeef00', 4)).toThrow();
  });
 });
 describe('BufferWriter', () => {
  it('writeByte and toBytes', () => {
    const w = new BufferWriter();
    w.writeByte(0x12);
    w.writeByte(0x34);
    expect(Array.from(w.toBytes())).toEqual([0x12, 0x34]);
  });
  it('writeBytes appends bytes', () => {
    const w = new BufferWriter();
    w.writeBytes(new Uint8Array([1, 2, 3]));
    expect(Array.from(w.toBytes())).toEqual([1, 2, 3]);
  });
  it('writeUint16LE writes little-endian', () => {
    const w = new BufferWriter();
    w.writeUint16LE(0x1234);
    expect(Array.from(w.toBytes())).toEqual([0x34, 0x12]);
  });
  it('writeUint32LE writes little-endian', () => {
    const w = new BufferWriter();
    w.writeUint32LE(0x12345678);
    expect(Array.from(w.toBytes())).toEqual([0x78, 0x56, 0x34, 0x12]);
  });
  it('writeInt16LE writes signed values', () => {
    const w = new BufferWriter();
    w.writeInt16LE(-1);
    expect(Array.from(w.toBytes())).toEqual([0xff, 0xff]);
    const w2 = new BufferWriter();
    w2.writeInt16LE(0x1234);
    expect(Array.from(w2.toBytes())).toEqual([0x34, 0x12]);
  });
  it('writeInt32LE writes signed values', () => {
    const w = new BufferWriter();
    w.writeInt32LE(-1);
    expect(Array.from(w.toBytes())).toEqual([0xff, 0xff, 0xff, 0xff]);
    const w2 = new BufferWriter();
    w2.writeInt32LE(0x12345678);
    expect(Array.from(w2.toBytes())).toEqual([0x78, 0x56, 0x34, 0x12]);
  });
  it('writeTimestamp writes seconds as uint32le', () => {
    const w = new BufferWriter();
    const date = new Date(1000); // 1 second
    w.writeTimestamp(date);
    expect(Array.from(w.toBytes())).toEqual([0x01, 0x00, 0x00, 0x00]);
  });
  it('BufferWriter output can be read back by BufferReader', () => {
    const w = new BufferWriter();
    w.writeByte(0x42);
    w.writeUint16LE(0x1234);
    w.writeInt16LE(-2);
    w.writeUint32LE(0xdeadbeef);
    w.writeInt32LE(-123456);
    w.writeBytes(new Uint8Array([0x01, 0x02]));
    const date = new Date(5000); // 5 seconds
    w.writeTimestamp(date);
    const bytes = w.toBytes();
    const r = new BufferReader(bytes);
    expect(r.readByte()).toBe(0x42);
    expect(r.readUint16LE()).toBe(0x1234);
    expect(r.readInt16LE()).toBe(-2);
    expect(r.readUint32LE()).toBe(0xdeadbeef);
    expect(r.readInt32LE()).toBe(-123456);
    expect(Array.from(r.readBytes(2))).toEqual([0x01, 0x02]);
    const readDate = r.readTimestamp();
    expect(readDate.getTime()).toBe(5000);
    expect(r.hasMore()).toBe(false);
  });
  it('BufferReader throws or returns undefined if reading past end', () => {
    const r = new BufferReader(new Uint8Array([1, 2]));
    r.readByte();
    r.readByte();
    expect(() => r.readByte()).toThrow();
  });
  it('BufferWriter handles multiple writeBytes calls', () => {
    const w = new BufferWriter();
    w.writeBytes(new Uint8Array([1, 2]));
    w.writeBytes(new Uint8Array([3, 4]));
    expect(Array.from(w.toBytes())).toEqual([1, 2, 3, 4]);
  });
  it('encodedStringToBytes decodes raw string', () => {
    const str = String.fromCharCode(0xde, 0xad, 0xbe, 0xef);
    const bytes = new Uint8Array(4);
    for (let i = 0; i < 4; i++) bytes[i] = str.charCodeAt(i) & 0xff;
    expect(Array.from(bytes)).toEqual([0xde, 0xad, 0xbe, 0xef]);
  });
  it('hexToBytes returns different length for wrong-size hex', () => {
    expect(() => hexToBytes('deadbe', 4)).toThrow();
  });
  it('base64ToBytes handles URL-safe base64', () => {
    // [0xde, 0xad, 0xbe, 0xef] in URL-safe base64: '3q2-7w=='
    const bytes = base64ToBytes('3q2-7w==', 4);
    expect(Array.from(bytes)).toEqual([0xde, 0xad, 0xbe, 0xef]);
  });
 });
Author	SHA1	Message	Date
maze	0232da2d95	Use eslint.config.ts	2026-03-12 21:10:22 +01:00
maze	ea29c037cb	Version 1.3.0	2026-03-12 21:07:56 +01:00
maze	f175eea99c	Migrating to @hamradio/packet	2026-03-12 20:56:04 +01:00
maze	7a23440666	Fix incorrect lat/lon decoding	2026-03-12 17:14:43 +01:00
maze	614b1858cb	chore(release): v1.2.2 - bump from v1.2.1	2026-03-11 15:51:40 +01:00
maze	45aae46925	Do not overwrite tags	2026-03-11 15:50:47 +01:00
maze	d47007d905	Release script	2026-03-11 15:48:45 +01:00
maze	6daadc97fc	Treat transport codes and path as their own segments	2026-03-11 15:42:00 +01:00