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NodeJS / TypeScript Readium-2 "streamer"

NodeJS implementation (written in TypeScript) and HTTP micro-services (Express middleware) for https://github.com/readium/architecture/tree/master/streamer

License

Build status

NPM David Travis

Changelog

Prerequisites

  1. https://nodejs.org NodeJS >= 8, NPM >= 5 (check with command line node --version and npm --version)
  2. OPTIONAL: https://yarnpkg.com Yarn >= 1.0 (check with command line yarn --version)

GitHub repository

https://github.com/readium/r2-streamer-js

There is no github.io site for this project (no gh-pages branch).

NPM package

https://www.npmjs.com/package/r2-streamer-js

Command line install:

npm install r2-streamer-js OR yarn add r2-streamer-js

...or manually add in your package.json:

  "dependencies": {
    "r2-streamer-js": "latest"
  }

The JavaScript code distributed in the NPM package is usable as-is (no transpilation required), as it is automatically-generated from the TypeScript source.

Several ECMAScript flavours are provided out-of-the-box: ES5, ES6-2015, ES7-2016, ES8-2017:

https://unpkg.com/r2-streamer-js/dist/

(alternatively, GitHub mirror with semantic-versioning release tags: https://github.com/edrlab/r2-streamer-js-dist/tree/develop/dist/ )

The JavaScript code is not bundled, and it uses require() statement for imports (NodeJS style).

More information about NodeJS compatibility:

http://node.green

Note that web-browser Javascript is currently not supported (only NodeJS runtimes).

The type definitions (aka "typings") are included as *.d.ts files in ./node_modules/r2-streamer-js/dist/**, so this package can be used directly in a TypeScript project.

Example usage:

// from the index file
import { Server } from "r2-streamer-js";

// ES5 import (assuming node_modules/r2-streamer-js/):
import { Server } from "r2-streamer-js/dist/es5/src/http/server";

// ... or alternatively using a convenient path alias in the TypeScript config (+ WebPack etc.):
import { Server } from "@r2-streamer-js/http/server";

Dependencies

https://david-dm.org/readium/r2-streamer-js

A package-lock.json is provided (modern NPM replacement for npm-shrinkwrap.json).

A yarn.lock file is currently not provided at the root of the source tree.

Continuous Integration

https://travis-ci.org/readium/r2-streamer-js

TravisCI builds are triggered automatically at every Git "push" in the develop branch.

Live demos

A test server app (not production-ready) is automatically deployed at every Git "push" in the develop branch:

https://streamer.edrlab.org

Version(s), Git revision(s)

NPM package (latest published):

https://unpkg.com/r2-streamer-js/dist/gitrev.json

Alternatively, GitHub mirror with semantic-versioning release tags:

https://raw.githack.com/edrlab/r2-streamer-js-dist/develop/dist/gitrev.json

Latest deployment:

https://streamer.edrlab.org/version

Developer quick start

Command line steps (NPM, but similar with YARN):

  1. cd r2-streamer-js
  2. git status (please ensure there are no local changes, especially in package-lock.json and the dependency versions in package.json)
  3. rm -rf node_modules (to start from a clean slate)
  4. npm install, or alternatively npm ci (both commands initialize the node_modules tree of package dependencies, based on the strict package-lock.json definition)
  5. npm run build:all (invoke the main build script: clean, lint, compile)
  6. ls dist (that's the build output which gets published as NPM package)
  7. npm run server-debug -- PATH_TO_EPUB_OR_DIR " -1" (ES8-2017 dist, path is relative or absolute, -1 means no limits for HTTP header prefetch Links)
  8. or: npm run start -- 99 (ES6-2015 dist, default ./misc/epubs folder, the 99 value overrides the default maximum number of HTTP header prefetch Links)

Documentation

Basic usage

// ES5 import (assuming node_modules/r2-streamer-js/):
import { Server } from "r2-streamer-js/dist/es5/src/http/server";

// ... or alternatively using a convenient path alias in the TypeScript config (+ WebPack etc.):
import { Server } from "@r2-streamer-js/http/server";

// Constructor parameter is optional:
// disableDecryption: true
// disableOPDS
// disableReaders: true
// disableRemotePubUrl: true to deactivate
const server = new Server({
  disableDecryption: false, // deactivates the decryption of encrypted resources (Readium LCP).
  disableOPDS: true, // deactivates the HTTP routes for the OPDS "micro services" (browser, converter)
  disableReaders: true, // deactivates the built-in "readers" for ReadiumWebPubManifest (HTTP static host / route).
  disableRemotePubUrl: true, // deactivates the HTTP route for loading a remote publication.
  maxPrefetchLinks: 5, // Link HTTP header, with rel = prefetch, see server.ts MAX_PREFETCH_LINKS (default = 10)
});

// First parameter: port number, zero means default (3000),
// unless specified via the environment variable `PORT` (process.env.PORT).
// Tip: the NPM package `portfinder` can be used to automatically find an available port number.
const url = await server.start(3000, false);

// Second constructor parameter: if true, HTTPS instead of HTTP, using a randomly-generated self-signed certificate.
// Also validates encrypted HTTP header during request-request cycles, so should only be used in runtime
// contexts where the client side has access to the private encryption key (i.e. Electron app, see r2-navigator-js)
console.log(server.isSecured()); // false

// A client app that is capable of setting HTTP headers for every request originating from content webviews
// can obtain the special encrypted header using this function:
// (as used internally by the Electron-based `r2-navigator-js` component to secure the transport layer)
const nameValuePair = server.getSecureHTTPHeader(url + "/PATH_TO_RESOURCE");
console.log(nameValuePair.name);
console.log(nameValuePair.value);

// http://127.0.0.1:3000
// Note that ports 80 and 443 (HTTPS) are always implicit (ommitted).
console.log(url);

// `serverInfo.urlScheme` ("http")
// `serverInfo.urlHost` ("127.0.0.1")
// `serverInfo.urlPort` (3000)
console.log(server.serverInfo());

// Calls `uncachePublications()` (see below)
server.stop();

console.log(server.isStarted()); // false

To serve a /robots.txt file that completely disables search robots:

// Call this before `server.start()`
server.preventRobots();

To add custom HTTP routes:

// Call these before `server.start()`.
// They are equivalent to `app.use()` and `app.get()`, where `app` is the underlying Express instance:

server.expressUse("/static-files", express.static("/path/to/files", {
  dotfiles: "ignore",
  etag: true,
  fallthrough: false,
  immutable: true,
  index: false,
  maxAge: "1d",
  redirect: false,
}));

server.expressGet(["/hello.html"], (req: express.Request, res: express.Response) => {

  // Optionally, to add permissive CORS headers to the HTTP response
  server.setResponseCORS(res);

  res.status(200).send("<html><body>Hello</body></html>");
});

To register publications references (local filesystem paths) inside the internal server state (which is used to create the OPDS2 feed, see below):

// This can be called before or after `server.start()`:

// the returned array contains URL routes to the ReadiumWebPubManifests,
// e.g. `/pub/ID/manifest.json`, where `ID` is the base64 encoding of the registered path.
// Note that the returned base64 URL path components are already URI-encoded (escaped).
// (`=` and `/` are typically problematic edge-cases)
const publicationURLs = server.addPublications(["/path/to/book.epub"]);

// ...then:
const publicationPaths = server.getPublications(); // ["/path/to/book.epub"]

// ...and (calls `uncachePublication()`, see below):
const publicationURLs = server.removePublications(["/path/to/book.epub"]);

To get the OPDS2 feed for the currently registered publications:

// This launches a potentially time-consuming Node process that scans (loads) each registered Publication,
// and stores the generated OPDS2 feed inside a temporary filesystem location.
// So this returns `undefined` at the first call, and the client must invoke the function again later.
// Note that both `addPublications()` and `removePublications()` clear the OPDS2 feed entirely,
// requiring its subsequent re-generation (full scan of registered publication paths).
// (poor design, but at this stage really just an OPDS2 demo without real use-case)
const opds2 = server.publicationsOPDS();

To actually load+parse a publication reference (local filesystem path) into a ReadiumWebPubManifest Publication instance, stored in the server's state:

// The Publication object model is defined in `r2-shared-js`
const publication = await server.loadOrGetCachedPublication("/path/to/book.epub");

// The above is basically a lazy-loader that checks the cache before loading+parsing a publication,
// equivalent to:
const publication = server.cachedPublication("/path/to/book.epub");
if (!publication) {
  publication = ...; // load and parse "/path/to/book.epub"
  server.cachePublication("/path/to/book.epub", publication);
}

console.log(server.isPublicationCached("/path/to/book.epub")); // true

// see also:
// (calls `publication.freeDestroy()` to cleanup allocated objects in the Publication,
// particularly the file handle to the underlying zip/EPUB/CBZ file)
server.uncachePublication("/path/to/book.epub");
server.uncachePublications();

Note that HTTP/remote publications URLs can be loaded into the server's cache and subsequently served by the streamer without prior registration via addPublications(). However, publications from the local filesytem will only be served when registered, even if they are cached (in other words, the HTTP route is disabled when the publication is non-registered).

HTTP API (built-in routes / micro-services)

docs/http.md

Support for remote publications

docs/remote-epub.md

Support for OPDS feeds

docs/opds.md

Support for encrypted content

docs/encryption.md