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-rw-r--r--testing/xpcshell/node-http2/.gitignore7
-rw-r--r--testing/xpcshell/node-http2/.travis.yml5
-rw-r--r--testing/xpcshell/node-http2/HISTORY.md264
-rw-r--r--testing/xpcshell/node-http2/LICENSE22
-rw-r--r--testing/xpcshell/node-http2/README.md173
-rw-r--r--testing/xpcshell/node-http2/example/client.js48
-rw-r--r--testing/xpcshell/node-http2/example/localhost.crt14
-rw-r--r--testing/xpcshell/node-http2/example/localhost.key15
-rw-r--r--testing/xpcshell/node-http2/example/server.js67
-rw-r--r--testing/xpcshell/node-http2/lib/http.js1276
-rw-r--r--testing/xpcshell/node-http2/lib/index.js52
-rw-r--r--testing/xpcshell/node-http2/lib/protocol/compressor.js1428
-rw-r--r--testing/xpcshell/node-http2/lib/protocol/connection.js630
-rw-r--r--testing/xpcshell/node-http2/lib/protocol/endpoint.js262
-rw-r--r--testing/xpcshell/node-http2/lib/protocol/flow.js345
-rw-r--r--testing/xpcshell/node-http2/lib/protocol/framer.js1166
-rw-r--r--testing/xpcshell/node-http2/lib/protocol/index.js91
-rw-r--r--testing/xpcshell/node-http2/lib/protocol/stream.js677
-rw-r--r--testing/xpcshell/node-http2/package.json46
-rw-r--r--testing/xpcshell/node-http2/test/connection.js237
-rw-r--r--testing/xpcshell/node-http2/test/endpoint.js41
-rw-r--r--testing/xpcshell/node-http2/test/flow.js260
-rw-r--r--testing/xpcshell/node-http2/test/framer.js395
-rw-r--r--testing/xpcshell/node-http2/test/http.js793
-rw-r--r--testing/xpcshell/node-http2/test/stream.js413
-rw-r--r--testing/xpcshell/node-http2/test/util.js89
26 files changed, 8816 insertions, 0 deletions
diff --git a/testing/xpcshell/node-http2/.gitignore b/testing/xpcshell/node-http2/.gitignore
new file mode 100644
index 0000000000..bc483625e6
--- /dev/null
+++ b/testing/xpcshell/node-http2/.gitignore
@@ -0,0 +1,7 @@
+node_modules
+.idea
+coverage
+doc
+.vscode/.browse*
+npm-debug.log
+typings \ No newline at end of file
diff --git a/testing/xpcshell/node-http2/.travis.yml b/testing/xpcshell/node-http2/.travis.yml
new file mode 100644
index 0000000000..5ca377d612
--- /dev/null
+++ b/testing/xpcshell/node-http2/.travis.yml
@@ -0,0 +1,5 @@
+ language: node_js
+ node_js:
+ - "iojs"
+ - "0.12"
+
diff --git a/testing/xpcshell/node-http2/HISTORY.md b/testing/xpcshell/node-http2/HISTORY.md
new file mode 100644
index 0000000000..758caa2901
--- /dev/null
+++ b/testing/xpcshell/node-http2/HISTORY.md
@@ -0,0 +1,264 @@
+Version history
+===============
+
+### 3.3.8 (2018-02-15) ###
+* Fix an issue with HTTP trailers and END_STREAM.
+
+### 3.3.7 (2017-09-21) ###
+* Mark as incompatible with node >= 9.0.0 (to encourage using the built-in http2 module available by default in node >= 9.0.0).
+
+### 3.3.6 (2016-09-16) ###
+* We were not appropriately sending HPACK context updates when receiving SETTINGS_HEADER_TABLE_SIZE. This release fixes that bug.
+
+### 3.3.5 (2016-09-06) ###
+* Fix issues with large DATA frames (https://github.com/molnarg/node-http2/issues/207)
+
+### 3.3.4 (2016-04-22) ###
+* More PR bugfixes (https://github.com/molnarg/node-http2/issues?q=milestone%3Av3.3.4)
+
+### 3.3.3 (2016-04-21) ###
+
+* Bugfixes from pull requests (https://github.com/molnarg/node-http2/search?q=milestone%3Av3.3.3&type=Issues&utf8=%E2%9C%93)
+
+### 3.3.2 (2016-01-11) ###
+
+* Fix an incompatibility with Firefox (issue 167)
+
+### 3.3.1 (2016-01-11) ###
+
+* Fix some DoS bugs (issues 145, 146, 147, and 148)
+
+### 3.3.0 (2016-01-10) ###
+
+* Bugfix updates from pull requests
+
+### 3.2.0 (2015-02-19) ###
+
+* Update ALPN token to final RFC version (h2).
+* Update altsvc implementation to draft 06: [draft-ietf-httpbis-alt-svc-06]
+
+[draft-ietf-httpbis-altsvc-06]: http://tools.ietf.org/html/draft-ietf-httpbis-alt-svc-06
+
+### 3.1.2 (2015-02-17) ###
+
+* Update the example server to have a safe push example.
+
+### 3.1.1 (2015-01-29) ###
+
+* Bugfix release.
+* Fixes an issue sending a push promise that is large enough to fill the frame (#93).
+
+### 3.1.0 (2014-12-11) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-16]
+ * This involves some state transition changes that are technically incompatible with draft-14. If you need to be assured to interop on -14, continue using 3.0.1
+
+[draft-ietf-httpbis-http2-16]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-16
+
+### 3.0.1 (2014-11-20) ###
+
+* Bugfix release.
+* Fixed #81 and #87
+* Fixed a bug in flow control (without GitHub issue)
+
+### 3.0.0 (2014-08-25) ###
+
+* Re-join node-http2 and node-http2-protocol into one repository
+* API Changes
+ * The default versions of createServer, request, and get now enforce TLS-only
+ * The raw versions of createServer, request, and get are now under http2.raw instead of http2
+ * What was previously in the http2-protocol repository/module is now available under http2.protocol from this repo/module
+ * http2-protocol.ImplementedVersion is now http2.protocol.VERSION (the ALPN token)
+
+### 2.7.1 (2014-08-01) ###
+
+* Require protocol 0.14.1 (bugfix release)
+
+### 2.7.0 (2014-07-31) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-14]
+
+[draft-ietf-httpbis-http2-14]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-14
+
+### 2.6.0 (2014-06-18) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-13]
+
+[draft-ietf-httpbis-http2-13]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-13
+
+### 2.5.3 (2014-06-15) ###
+
+* Exposing API to send ALTSVC frames
+
+### 2.5.2 (2014-05-25) ###
+
+* Fix a bug that occurs when the ALPN negotiation is unsuccessful
+
+### 2.5.1 (2014-05-25) ###
+
+* Support for node 0.11.x
+* New cipher suite priority list with comformant ciphers on the top (only available in node >=0.11.x)
+
+### 2.5.0 (2014-04-24) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-12]
+
+[draft-ietf-httpbis-http2-12]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-12
+
+### 2.4.0 (2014-04-16) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-11]
+
+[draft-ietf-httpbis-http2-11]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-11
+
+### 2.3.0 (2014-03-12) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-10]
+
+[draft-ietf-httpbis-http2-10]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-10
+
+### 2.2.0 (2013-12-25) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-09]
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-2.2.0.tar.gz)
+
+[draft-ietf-httpbis-http2-09]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-09
+
+### 2.1.1 (2013-12-21) ###
+
+* Minor bugfix
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-2.1.1.tar.gz)
+
+### 2.1.0 (2013-11-10) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-07][draft-07]
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-2.1.0.tar.gz)
+
+[draft-07]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-07
+
+### 2.0.0 (2013-11-09) ###
+
+* Splitting out everything that is not related to negotiating HTTP2 or the node-like HTTP API.
+ These live in separate module from now on:
+ [http2-protocol](https://github.com/molnarg/node-http2-protocol).
+* The only backwards incompatible change: the `Endpoint` class is not exported anymore. Use the
+ http2-protocol module if you want to use this low level interface.
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-2.0.0.tar.gz)
+
+### 1.0.1 (2013-10-14) ###
+
+* Support for ALPN if node supports it (currently needs a custom build)
+* Fix for a few small issues
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-1.0.1.tar.gz)
+
+### 1.0.0 (2013-09-23) ###
+
+* Exporting Endpoint class
+* Support for 'filters' in Endpoint
+* The last time-based release
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-1.0.0.tar.gz)
+
+### 0.4.1 (2013-09-15) ###
+
+* Major performance improvements
+* Minor improvements to error handling
+* [Blog post](http://gabor.molnar.es/blog/2013/09/15/gsoc-week-number-13/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.4.1.tar.gz)
+
+### 0.4.0 (2013-09-09) ###
+
+* Upgrade to the latest draft: [draft-ietf-httpbis-http2-06][draft-06]
+* Support for HTTP trailers
+* Support for TLS SNI (Server Name Indication)
+* Improved stream scheduling algorithm
+* [Blog post](http://gabor.molnar.es/blog/2013/09/09/gsoc-week-number-12/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.4.0.tar.gz)
+
+[draft-06]: http://tools.ietf.org/html/draft-ietf-httpbis-http2-06
+
+### 0.3.1 (2013-09-03) ###
+
+* Lot of testing, bugfixes
+* [Blog post](http://gabor.molnar.es/blog/2013/09/03/gsoc-week-number-11/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.3.1.tar.gz)
+
+### 0.3.0 (2013-08-27) ###
+
+* Support for prioritization
+* Small API compatibility improvements (compatibility with the standard node.js HTTP API)
+* Minor push API change
+* Ability to pass an external bunyan logger when creating a Server or Agent
+* [Blog post](http://gabor.molnar.es/blog/2013/08/27/gsoc-week-number-10/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.3.0.tar.gz)
+
+### 0.2.1 (2013-08-20) ###
+
+* Fixing a flow control bug
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.2.1.tar.gz)
+
+### 0.2.0 (2013-08-19) ###
+
+* Exposing server push in the public API
+* Connection pooling when operating as client
+* Much better API compatibility with the standard node.js HTTPS module
+* Logging improvements
+* [Blog post](http://gabor.molnar.es/blog/2013/08/19/gsoc-week-number-9/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.2.0.tar.gz)
+
+### 0.1.1 (2013-08-12) ###
+
+* Lots of bugfixes
+* Proper flow control for outgoing frames
+* Basic flow control for incoming frames
+* [Blog post](http://gabor.molnar.es/blog/2013/08/12/gsoc-week-number-8/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.1.1.tar.gz)
+
+### 0.1.0 (2013-08-06) ###
+
+* First release with public API (similar to the standard node HTTPS module)
+* Support for NPN negotiation (no ALPN or Upgrade yet)
+* Stream number limitation is in place
+* Push streams works but not exposed yet in the public API
+* [Blog post](http://gabor.molnar.es/blog/2013/08/05/gsoc-week-number-6-and-number-7/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.1.0.tar.gz)
+
+### 0.0.6 (2013-07-19) ###
+
+* `Connection` and `Endpoint` classes are usable, but not yet ready
+* Addition of an example server and client
+* Using [istanbul](https://github.com/gotwarlost/istanbul) for measuring code coverage
+* [Blog post](http://gabor.molnar.es/blog/2013/07/19/gsoc-week-number-5/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.0.6.tar.gz)
+
+### 0.0.5 (2013-07-14) ###
+
+* `Stream` class is done
+* Public API stubs are in place
+* [Blog post](http://gabor.molnar.es/blog/2013/07/14/gsoc-week-number-4/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.0.5.tar.gz)
+
+### 0.0.4 (2013-07-08) ###
+
+* Added logging
+* Started `Stream` class implementation
+* [Blog post](http://gabor.molnar.es/blog/2013/07/08/gsoc-week-number-3/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.0.4.tar.gz)
+
+### 0.0.3 (2013-07-03) ###
+
+* Header compression is ready
+* [Blog post](http://gabor.molnar.es/blog/2013/07/03/the-http-slash-2-header-compression-implementation-of-node-http2/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.0.3.tar.gz)
+
+### 0.0.2 (2013-07-01) ###
+
+* Frame serialization and deserialization ready and updated to match the newest spec
+* Header compression implementation started
+* [Blog post](http://gabor.molnar.es/blog/2013/07/01/gsoc-week-number-2/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.0.2.tar.gz)
+
+### 0.0.1 (2013-06-23) ###
+
+* Frame serialization and deserialization largely done
+* [Blog post](http://gabor.molnar.es/blog/2013/06/23/gsoc-week-number-1/)
+* [Tarball](https://github.com/molnarg/node-http2/archive/node-http2-0.0.1.tar.gz)
diff --git a/testing/xpcshell/node-http2/LICENSE b/testing/xpcshell/node-http2/LICENSE
new file mode 100644
index 0000000000..9bb2e9ce57
--- /dev/null
+++ b/testing/xpcshell/node-http2/LICENSE
@@ -0,0 +1,22 @@
+The MIT License
+
+Copyright (C) 2013 Gábor Molnár <gabor@molnar.es>, Google Inc
+
+Permission is hereby granted, free of charge, to any person obtaining
+a copy of this software and associated documentation files (the
+'Software'), to deal in the Software without restriction, including
+without limitation the rights to use, copy, modify, merge, publish,
+distribute, sublicense, and/or sell copies of the Software, and to
+permit persons to whom the Software is furnished to do so, subject to
+the following conditions:
+
+The above copyright notice and this permission notice shall be
+included in all copies or substantial portions of the Software.
+
+THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND,
+EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
+MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
+IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
+CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
+TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
+SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
diff --git a/testing/xpcshell/node-http2/README.md b/testing/xpcshell/node-http2/README.md
new file mode 100644
index 0000000000..795e0fd05b
--- /dev/null
+++ b/testing/xpcshell/node-http2/README.md
@@ -0,0 +1,173 @@
+node-http2
+==========
+
+An HTTP/2 ([RFC 7540](http://tools.ietf.org/html/rfc7540))
+client and server implementation for node.js.
+
+![Travis CI status](https://travis-ci.org/molnarg/node-http2.svg?branch=master)
+
+**NOTE WELL** This package is officially deprecated. As of node 9.0.0, there is an 'http2' package built-in. You should use that one instead.
+
+Installation
+------------
+
+```
+npm install http2
+```
+
+API
+---
+
+The API is very similar to the [standard node.js HTTPS API](http://nodejs.org/api/https.html). The
+goal is the perfect API compatibility, with additional HTTP2 related extensions (like server push).
+
+Detailed API documentation is primarily maintained in the `lib/http.js` file and is [available in
+the wiki](https://github.com/molnarg/node-http2/wiki/Public-API) as well.
+
+Examples
+--------
+
+### Using as a server ###
+
+```javascript
+var options = {
+ key: fs.readFileSync('./example/localhost.key'),
+ cert: fs.readFileSync('./example/localhost.crt')
+};
+
+require('http2').createServer(options, function(request, response) {
+ response.end('Hello world!');
+}).listen(8080);
+```
+
+### Using as a client ###
+
+```javascript
+require('http2').get('https://localhost:8080/', function(response) {
+ response.pipe(process.stdout);
+});
+```
+
+### Simple static file server ###
+
+An simple static file server serving up content from its own directory is available in the `example`
+directory. Running the server:
+
+```bash
+$ node ./example/server.js
+```
+
+### Simple command line client ###
+
+An example client is also available. Downloading the server's own source code from the server:
+
+```bash
+$ node ./example/client.js 'https://localhost:8080/server.js' >/tmp/server.js
+```
+
+### Server push ###
+
+For a server push example, see the source code of the example
+[server](https://github.com/molnarg/node-http2/blob/master/example/server.js) and
+[client](https://github.com/molnarg/node-http2/blob/master/example/client.js).
+
+Status
+------
+
+* ALPN is only supported in node.js >= 5.0
+* Upgrade mechanism to start HTTP/2 over unencrypted channel is not implemented yet
+ (issue [#4](https://github.com/molnarg/node-http2/issues/4))
+* Other minor features found in
+ [this list](https://github.com/molnarg/node-http2/issues?labels=feature) are not implemented yet
+
+Development
+-----------
+
+### Development dependencies ###
+
+There's a few library you will need to have installed to do anything described in the following
+sections. After installing/cloning node-http2, run `npm install` in its directory to install
+development dependencies.
+
+Used libraries:
+
+* [mocha](http://visionmedia.github.io/mocha/) for tests
+* [chai](http://chaijs.com/) for assertions
+* [istanbul](https://github.com/gotwarlost/istanbul) for code coverage analysis
+* [docco](http://jashkenas.github.io/docco/) for developer documentation
+* [bunyan](https://github.com/trentm/node-bunyan) for logging
+
+For pretty printing logs, you will also need a global install of bunyan (`npm install -g bunyan`).
+
+### Developer documentation ###
+
+The developer documentation is generated from the source code using docco and can be viewed online
+[here](http://molnarg.github.io/node-http2/doc/). If you'd like to have an offline copy, just run
+`npm run-script doc`.
+
+### Running the tests ###
+
+It's easy, just run `npm test`. The tests are written in BDD style, so they are a good starting
+point to understand the code.
+
+### Test coverage ###
+
+To generate a code coverage report, run `npm test --coverage` (which runs very slowly, be patient).
+Code coverage summary as of version 3.0.1:
+```
+Statements : 92.09% ( 1759/1910 )
+Branches : 82.56% ( 696/843 )
+Functions : 91.38% ( 212/232 )
+Lines : 92.17% ( 1753/1902 )
+```
+
+There's a hosted version of the detailed (line-by-line) coverage report
+[here](http://molnarg.github.io/node-http2/coverage/lcov-report/lib/).
+
+### Logging ###
+
+Logging is turned off by default. You can turn it on by passing a bunyan logger as `log` option when
+creating a server or agent.
+
+When using the example server or client, it's very easy to turn logging on: set the `HTTP2_LOG`
+environment variable to `fatal`, `error`, `warn`, `info`, `debug` or `trace` (the logging level).
+To log every single incoming and outgoing data chunk, use `HTTP2_LOG_DATA=1` besides
+`HTTP2_LOG=trace`. Log output goes to the standard error output. If the standard error is redirected
+into a file, then the log output is in bunyan's JSON format for easier post-mortem analysis.
+
+Running the example server and client with `info` level logging output:
+
+```bash
+$ HTTP2_LOG=info node ./example/server.js
+```
+
+```bash
+$ HTTP2_LOG=info node ./example/client.js 'https://localhost:8080/server.js' >/dev/null
+```
+
+Contributors
+------------
+
+The co-maintainer of the project is [Nick Hurley](https://github.com/todesschaf).
+
+Code contributions are always welcome! People who contributed to node-http2 so far:
+
+* [Nick Hurley](https://github.com/todesschaf)
+* [Mike Belshe](https://github.com/mbelshe)
+* [Yoshihiro Iwanaga](https://github.com/iwanaga)
+* [Igor Novikov](https://github.com/vsemogutor)
+* [James Willcox](https://github.com/snorp)
+* [David Björklund](https://github.com/kesla)
+* [Patrick McManus](https://github.com/mcmanus)
+
+Special thanks to Google for financing the development of this module as part of their [Summer of
+Code program](https://developers.google.com/open-source/soc/) (project: [HTTP/2 prototype server
+implementation](https://google-melange.appspot.com/gsoc/project/details/google/gsoc2013/molnarg/5818821692620800)), and
+Nick Hurley of Mozilla, my GSoC mentor, who helped with regular code review and technical advices.
+
+License
+-------
+
+The MIT License
+
+Copyright (C) 2013 Gábor Molnár <gabor@molnar.es>
diff --git a/testing/xpcshell/node-http2/example/client.js b/testing/xpcshell/node-http2/example/client.js
new file mode 100644
index 0000000000..75a4bc011b
--- /dev/null
+++ b/testing/xpcshell/node-http2/example/client.js
@@ -0,0 +1,48 @@
+var fs = require('fs');
+var path = require('path');
+var http2 = require('..');
+var urlParse = require('url').parse;
+
+// Setting the global logger (optional)
+http2.globalAgent = new http2.Agent({
+ rejectUnauthorized: true,
+ log: require('../test/util').createLogger('client')
+});
+
+// Sending the request
+var url = process.argv.pop();
+var options = urlParse(url);
+
+// Optionally verify self-signed certificates.
+if (options.hostname == 'localhost') {
+ options.key = fs.readFileSync(path.join(__dirname, '/localhost.key'));
+ options.ca = fs.readFileSync(path.join(__dirname, '/localhost.crt'));
+}
+
+var request = process.env.HTTP2_PLAIN ? http2.raw.get(options) : http2.get(options);
+
+// Receiving the response
+request.on('response', function(response) {
+ response.pipe(process.stdout);
+ response.on('end', finish);
+});
+
+// Receiving push streams
+request.on('push', function(pushRequest) {
+ var filename = path.join(__dirname, '/push-' + push_count);
+ push_count += 1;
+ console.error('Receiving pushed resource: ' + pushRequest.url + ' -> ' + filename);
+ pushRequest.on('response', function(pushResponse) {
+ pushResponse.pipe(fs.createWriteStream(filename)).on('finish', finish);
+ });
+});
+
+// Quitting after both the response and the associated pushed resources have arrived
+var push_count = 0;
+var finished = 0;
+function finish() {
+ finished += 1;
+ if (finished === (1 + push_count)) {
+ process.exit();
+ }
+}
diff --git a/testing/xpcshell/node-http2/example/localhost.crt b/testing/xpcshell/node-http2/example/localhost.crt
new file mode 100644
index 0000000000..c4e4d2e96d
--- /dev/null
+++ b/testing/xpcshell/node-http2/example/localhost.crt
@@ -0,0 +1,14 @@
+-----BEGIN CERTIFICATE-----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+-----END CERTIFICATE-----
diff --git a/testing/xpcshell/node-http2/example/localhost.key b/testing/xpcshell/node-http2/example/localhost.key
new file mode 100644
index 0000000000..6e1de62642
--- /dev/null
+++ b/testing/xpcshell/node-http2/example/localhost.key
@@ -0,0 +1,15 @@
+-----BEGIN RSA PRIVATE KEY-----
+MIICXQIBAAKBgQDwCzuuPvF0P5G4CY5GO700j6O05JwaCIBt+i9oXLNO7Q7Qf1II
+TGK7p7aJcxF/OiZOLH/KNG9t0cRd+A40bUycpRzSgLgbEdeyHIwMRer0tp2ACZH+
+cMtRVPR6jsqoLbW59pxradVL2o52VIIT+nsgl1vb4EXVGa4L2kele8VbbQIDAQAB
+AoGAKKB+FVup2hb4PsG/RrvNphu5hWA721wdAIAbjfpCjtUocLlb1PO4sjIMfu7u
+wy3AVfLKHhsJ0Phz18OoA8+L65NMoMRsHOGaLEnGIJzJcnDLT5+uTFN5di0a1+UK
+BzB828rlHBNoQisogVCoKTYlCPJAZuI3trEzupWAV28XjTECQQD5LUEwYq4xr62L
+dEq5Qj/+c5paK/jrEBY83VZUmWzYsFgUwmpdku2ITRILQlOM33j6rk8krZZb93sb
+38ydmfwjAkEA9p30zyjOI9kKqTl9WdYNYtIXpyNGYa+Pga33o9pawTewiyS2uCYs
+wnQQV26bQ0YwQqLQhtIbo4fzCO6Ex0w7LwJBANHNbd8cp4kEX35U+3nDM3i+w477
+CUp6sA6tWrw+tqw4xuEr1T1WshOauP+r6AdsPkPsMo0yb7CdzxVoObPVbLsCQQCc
+sx0cjEb/TCeUAy186Z+zzN6umqFb7Jt4wLt7Z4EHCIWqw/c95zPFks3XYDZTdsOv
+c5igMdzR+c4ZPMUthWiNAkByx7If12G1Z/R2Y0vIB0WJq4BJnZCZ0mRR0oAmPoA+
+sZbmwctZ3IU+68Rgr4EAhrU04ygjF67IiNyXX0qqu3VH
+-----END RSA PRIVATE KEY-----
diff --git a/testing/xpcshell/node-http2/example/server.js b/testing/xpcshell/node-http2/example/server.js
new file mode 100644
index 0000000000..66d8f895d1
--- /dev/null
+++ b/testing/xpcshell/node-http2/example/server.js
@@ -0,0 +1,67 @@
+var fs = require('fs');
+var path = require('path');
+var http2 = require('..');
+
+// We cache one file to be able to do simple performance tests without waiting for the disk
+var cachedFile = fs.readFileSync(path.join(__dirname, './server.js'));
+var cachedUrl = '/server.js';
+
+// The callback to handle requests
+function onRequest(request, response) {
+ var filename = path.join(__dirname, request.url);
+
+ // Serving server.js from cache. Useful for microbenchmarks.
+ if (request.url === cachedUrl) {
+ if (response.push) {
+ // Also push down the client js, since it's possible if the requester wants
+ // one, they want both.
+ var push = response.push('/client.js');
+ push.writeHead(200);
+ fs.createReadStream(path.join(__dirname, '/client.js')).pipe(push);
+ }
+ response.end(cachedFile);
+ }
+
+ // Reading file from disk if it exists and is safe.
+ else if ((filename.indexOf(__dirname) === 0) && fs.existsSync(filename) && fs.statSync(filename).isFile()) {
+ response.writeHead(200);
+ var fileStream = fs.createReadStream(filename);
+ fileStream.pipe(response);
+ fileStream.on('finish',response.end);
+ }
+
+ // Example for testing large (boundary-sized) frames.
+ else if (request.url === "/largeframe") {
+ response.writeHead(200);
+ var body = 'a';
+ for (var i = 0; i < 14; i++) {
+ body += body;
+ }
+ body = body + 'a';
+ response.end(body);
+ }
+
+ // Otherwise responding with 404.
+ else {
+ response.writeHead(404);
+ response.end();
+ }
+}
+
+// Creating a bunyan logger (optional)
+var log = require('../test/util').createLogger('server');
+
+// Creating the server in plain or TLS mode (TLS mode is the default)
+var server;
+if (process.env.HTTP2_PLAIN) {
+ server = http2.raw.createServer({
+ log: log
+ }, onRequest);
+} else {
+ server = http2.createServer({
+ log: log,
+ key: fs.readFileSync(path.join(__dirname, '/localhost.key')),
+ cert: fs.readFileSync(path.join(__dirname, '/localhost.crt'))
+ }, onRequest);
+}
+server.listen(process.env.HTTP2_PORT || 8080);
diff --git a/testing/xpcshell/node-http2/lib/http.js b/testing/xpcshell/node-http2/lib/http.js
new file mode 100644
index 0000000000..5690bb9e79
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/http.js
@@ -0,0 +1,1276 @@
+// Public API
+// ==========
+
+// The main governing power behind the http2 API design is that it should look very similar to the
+// existing node.js [HTTPS API][1] (which is, in turn, almost identical to the [HTTP API][2]). The
+// additional features of HTTP/2 are exposed as extensions to this API. Furthermore, node-http2
+// should fall back to using HTTP/1.1 if needed. Compatibility with undocumented or deprecated
+// elements of the node.js HTTP/HTTPS API is a non-goal.
+//
+// Additional and modified API elements
+// ------------------------------------
+//
+// - **Class: http2.Endpoint**: an API for using the raw HTTP/2 framing layer. For documentation
+// see [protocol/endpoint.js](protocol/endpoint.html).
+//
+// - **Class: http2.Server**
+// - **Event: 'connection' (socket, [endpoint])**: there's a second argument if the negotiation of
+// HTTP/2 was successful: the reference to the [Endpoint](protocol/endpoint.html) object tied to the
+// socket.
+//
+// - **http2.createServer(options, [requestListener])**: additional option:
+// - **log**: an optional [bunyan](https://github.com/trentm/node-bunyan) logger object
+//
+// - **Class: http2.ServerResponse**
+// - **response.push(options)**: initiates a server push. `options` describes the 'imaginary'
+// request to which the push stream is a response; the possible options are identical to the
+// ones accepted by `http2.request`. Returns a ServerResponse object that can be used to send
+// the response headers and content.
+//
+// - **Class: http2.Agent**
+// - **new Agent(options)**: additional option:
+// - **log**: an optional [bunyan](https://github.com/trentm/node-bunyan) logger object
+// - **agent.sockets**: only contains TCP sockets that corresponds to HTTP/1 requests.
+// - **agent.endpoints**: contains [Endpoint](protocol/endpoint.html) objects for HTTP/2 connections.
+//
+// - **http2.request(options, [callback])**:
+// - similar to http.request
+//
+// - **http2.get(options, [callback])**:
+// - similar to http.get
+//
+// - **Class: http2.ClientRequest**
+// - **Event: 'socket' (socket)**: in case of an HTTP/2 incoming message, `socket` is a reference
+// to the associated [HTTP/2 Stream](protocol/stream.html) object (and not to the TCP socket).
+// - **Event: 'push' (promise)**: signals the intention of a server push associated to this
+// request. `promise` is an IncomingPromise. If there's no listener for this event, the server
+// push is cancelled.
+// - **request.setPriority(priority)**: assign a priority to this request. `priority` is a number
+// between 0 (highest priority) and 2^31-1 (lowest priority). Default value is 2^30.
+//
+// - **Class: http2.IncomingMessage**
+// - has two subclasses for easier interface description: **IncomingRequest** and
+// **IncomingResponse**
+// - **message.socket**: in case of an HTTP/2 incoming message, it's a reference to the associated
+// [HTTP/2 Stream](protocol/stream.html) object (and not to the TCP socket).
+//
+// - **Class: http2.IncomingRequest (IncomingMessage)**
+// - **message.url**: in case of an HTTP/2 incoming request, the `url` field always contains the
+// path, and never a full url (it contains the path in most cases in the HTTPS api as well).
+// - **message.scheme**: additional field. Mandatory HTTP/2 request metadata.
+// - **message.host**: additional field. Mandatory HTTP/2 request metadata. Note that this
+// replaces the old Host header field, but node-http2 will add Host to the `message.headers` for
+// backwards compatibility.
+//
+// - **Class: http2.IncomingPromise (IncomingRequest)**
+// - contains the metadata of the 'imaginary' request to which the server push is an answer.
+// - **Event: 'response' (response)**: signals the arrival of the actual push stream. `response`
+// is an IncomingResponse.
+// - **Event: 'push' (promise)**: signals the intention of a server push associated to this
+// request. `promise` is an IncomingPromise. If there's no listener for this event, the server
+// push is cancelled.
+// - **promise.cancel()**: cancels the promised server push.
+// - **promise.setPriority(priority)**: assign a priority to this push stream. `priority` is a
+// number between 0 (highest priority) and 2^31-1 (lowest priority). Default value is 2^30.
+//
+// API elements not yet implemented
+// --------------------------------
+//
+// - **Class: http2.Server**
+// - **server.maxHeadersCount**
+//
+// API elements that are not applicable to HTTP/2
+// ----------------------------------------------
+//
+// The reason may be deprecation of certain HTTP/1.1 features, or that some API elements simply
+// don't make sense when using HTTP/2. These will not be present when a request is done with HTTP/2,
+// but will function normally when falling back to using HTTP/1.1.
+//
+// - **Class: http2.Server**
+// - **Event: 'checkContinue'**: not in the spec
+// - **Event: 'upgrade'**: upgrade is deprecated in HTTP/2
+// - **Event: 'timeout'**: HTTP/2 sockets won't timeout because of application level keepalive
+// (PING frames)
+// - **Event: 'connect'**: not yet supported
+// - **server.setTimeout(msecs, [callback])**
+// - **server.timeout**
+//
+// - **Class: http2.ServerResponse**
+// - **Event: 'close'**
+// - **Event: 'timeout'**
+// - **response.writeContinue()**
+// - **response.writeHead(statusCode, [reasonPhrase], [headers])**: reasonPhrase will always be
+// ignored since [it's not supported in HTTP/2][3]
+// - **response.setTimeout(timeout, [callback])**
+//
+// - **Class: http2.Agent**
+// - **agent.maxSockets**: only affects HTTP/1 connection pool. When using HTTP/2, there's always
+// one connection per host.
+//
+// - **Class: http2.ClientRequest**
+// - **Event: 'upgrade'**
+// - **Event: 'connect'**
+// - **Event: 'continue'**
+// - **request.setTimeout(timeout, [callback])**
+// - **request.setNoDelay([noDelay])**
+// - **request.setSocketKeepAlive([enable], [initialDelay])**
+//
+// - **Class: http2.IncomingMessage**
+// - **Event: 'close'**
+// - **message.setTimeout(timeout, [callback])**
+//
+// [1]: https://nodejs.org/api/https.html
+// [2]: https://nodejs.org/api/http.html
+// [3]: https://tools.ietf.org/html/rfc7540#section-8.1.2.4
+
+// Common server and client side code
+// ==================================
+
+var net = require('net');
+var url = require('url');
+var util = require('util');
+var EventEmitter = require('events').EventEmitter;
+var PassThrough = require('stream').PassThrough;
+var Readable = require('stream').Readable;
+var Writable = require('stream').Writable;
+var protocol = require('./protocol');
+var Endpoint = protocol.Endpoint;
+var http = require('http');
+var https = require('https');
+
+exports.STATUS_CODES = http.STATUS_CODES;
+exports.IncomingMessage = IncomingMessage;
+exports.OutgoingMessage = OutgoingMessage;
+exports.protocol = protocol;
+
+var deprecatedHeaders = [
+ 'connection',
+ 'host',
+ 'keep-alive',
+ 'proxy-connection',
+ 'transfer-encoding',
+ 'upgrade'
+];
+
+// When doing NPN/ALPN negotiation, HTTP/1.1 is used as fallback
+var supportedProtocols = [protocol.VERSION, 'http/1.1', 'http/1.0'];
+
+// Ciphersuite list based on the recommendations of https://wiki.mozilla.org/Security/Server_Side_TLS
+// The only modification is that kEDH+AESGCM were placed after DHE and ECDHE suites
+var cipherSuites = [
+ 'ECDHE-RSA-AES128-GCM-SHA256',
+ 'ECDHE-ECDSA-AES128-GCM-SHA256',
+ 'ECDHE-RSA-AES256-GCM-SHA384',
+ 'ECDHE-ECDSA-AES256-GCM-SHA384',
+ 'DHE-RSA-AES128-GCM-SHA256',
+ 'DHE-DSS-AES128-GCM-SHA256',
+ 'ECDHE-RSA-AES128-SHA256',
+ 'ECDHE-ECDSA-AES128-SHA256',
+ 'ECDHE-RSA-AES128-SHA',
+ 'ECDHE-ECDSA-AES128-SHA',
+ 'ECDHE-RSA-AES256-SHA384',
+ 'ECDHE-ECDSA-AES256-SHA384',
+ 'ECDHE-RSA-AES256-SHA',
+ 'ECDHE-ECDSA-AES256-SHA',
+ 'DHE-RSA-AES128-SHA256',
+ 'DHE-RSA-AES128-SHA',
+ 'DHE-DSS-AES128-SHA256',
+ 'DHE-RSA-AES256-SHA256',
+ 'DHE-DSS-AES256-SHA',
+ 'DHE-RSA-AES256-SHA',
+ 'kEDH+AESGCM',
+ 'AES128-GCM-SHA256',
+ 'AES256-GCM-SHA384',
+ 'ECDHE-RSA-RC4-SHA',
+ 'ECDHE-ECDSA-RC4-SHA',
+ 'AES128',
+ 'AES256',
+ 'RC4-SHA',
+ 'HIGH',
+ '!aNULL',
+ '!eNULL',
+ '!EXPORT',
+ '!DES',
+ '!3DES',
+ '!MD5',
+ '!PSK'
+].join(':');
+
+// Logging
+// -------
+
+// Logger shim, used when no logger is provided by the user.
+function noop() {}
+var defaultLogger = {
+ fatal: noop,
+ error: noop,
+ warn : noop,
+ info : noop,
+ debug: noop,
+ trace: noop,
+
+ child: function() { return this; }
+};
+
+// Bunyan serializers exported by submodules that are worth adding when creating a logger.
+exports.serializers = protocol.serializers;
+
+// IncomingMessage class
+// ---------------------
+
+function IncomingMessage(stream) {
+ // * This is basically a read-only wrapper for the [Stream](protocol/stream.html) class.
+ PassThrough.call(this);
+ stream.pipe(this);
+ this.socket = this.stream = stream;
+
+ this._log = stream._log.child({ component: 'http' });
+
+ // * HTTP/2.0 does not define a way to carry the version identifier that is included in the
+ // HTTP/1.1 request/status line. Version is always 2.0.
+ this.httpVersion = '2.0';
+ this.httpVersionMajor = 2;
+ this.httpVersionMinor = 0;
+
+ // * `this.headers` will store the regular headers (and none of the special colon headers)
+ this.headers = {};
+ this.trailers = undefined;
+ this._lastHeadersSeen = undefined;
+
+ // * Other metadata is filled in when the headers arrive.
+ stream.once('headers', this._onHeaders.bind(this));
+ stream.once('end', this._onEnd.bind(this));
+}
+IncomingMessage.prototype = Object.create(PassThrough.prototype, { constructor: { value: IncomingMessage } });
+
+// [Request Header Fields](https://tools.ietf.org/html/rfc7540#section-8.1.2.3)
+// * `headers` argument: HTTP/2.0 request and response header fields carry information as a series
+// of key-value pairs. This includes the target URI for the request, the status code for the
+// response, as well as HTTP header fields.
+IncomingMessage.prototype._onHeaders = function _onHeaders(headers) {
+ // * Detects malformed headers
+ this._validateHeaders(headers);
+
+ // * Store the _regular_ headers in `this.headers`
+ for (var name in headers) {
+ if (name[0] !== ':') {
+ if (name === 'set-cookie' && !Array.isArray(headers[name])) {
+ this.headers[name] = [headers[name]];
+ } else {
+ this.headers[name] = headers[name];
+ }
+ }
+ }
+
+ // * The last header block, if it's not the first, will represent the trailers
+ var self = this;
+ this.stream.on('headers', function(headers) {
+ self._lastHeadersSeen = headers;
+ });
+};
+
+IncomingMessage.prototype._onEnd = function _onEnd() {
+ this.trailers = this._lastHeadersSeen;
+};
+
+IncomingMessage.prototype.setTimeout = noop;
+
+IncomingMessage.prototype._checkSpecialHeader = function _checkSpecialHeader(key, value) {
+ if ((typeof value !== 'string') || (value.length === 0)) {
+ this._log.error({ key: key, value: value }, 'Invalid or missing special header field');
+ this.stream.reset('PROTOCOL_ERROR');
+ }
+
+ return value;
+};
+
+IncomingMessage.prototype._validateHeaders = function _validateHeaders(headers) {
+ // * An HTTP/2.0 request or response MUST NOT include any of the following header fields:
+ // Connection, Host, Keep-Alive, Proxy-Connection, Transfer-Encoding, and Upgrade. A server
+ // MUST treat the presence of any of these header fields as a stream error of type
+ // PROTOCOL_ERROR.
+ // If the TE header is present, it's only valid value is 'trailers'
+ for (var i = 0; i < deprecatedHeaders.length; i++) {
+ var key = deprecatedHeaders[i];
+ if (key in headers || (key === 'te' && headers[key] !== 'trailers')) {
+ this._log.error({ key: key, value: headers[key] }, 'Deprecated header found');
+ this.stream.reset('PROTOCOL_ERROR');
+ return;
+ }
+ }
+
+ for (var headerName in headers) {
+ // * Empty header name field is malformed
+ if (headerName.length <= 1) {
+ this.stream.reset('PROTOCOL_ERROR');
+ return;
+ }
+ // * A request or response containing uppercase header name field names MUST be
+ // treated as malformed (Section 8.1.3.5). Implementations that detect malformed
+ // requests or responses need to ensure that the stream ends.
+ if(/[A-Z]/.test(headerName)) {
+ this.stream.reset('PROTOCOL_ERROR');
+ return;
+ }
+ }
+};
+
+// OutgoingMessage class
+// ---------------------
+
+function OutgoingMessage() {
+ // * This is basically a read-only wrapper for the [Stream](protocol/stream.html) class.
+ Writable.call(this);
+
+ this._headers = {};
+ this._trailers = undefined;
+ this.headersSent = false;
+ this.finished = false;
+
+ this.on('finish', this._finish);
+}
+OutgoingMessage.prototype = Object.create(Writable.prototype, { constructor: { value: OutgoingMessage } });
+
+OutgoingMessage.prototype._write = function _write(chunk, encoding, callback) {
+ if (this.stream) {
+ this.stream.write(chunk, encoding, callback);
+ } else {
+ this.once('socket', this._write.bind(this, chunk, encoding, callback));
+ }
+};
+
+OutgoingMessage.prototype._finish = function _finish() {
+ if (this.stream) {
+ if (this._trailers) {
+ if (this.request) {
+ this.request.addTrailers(this._trailers);
+ } else {
+ this.stream.trailers(this._trailers);
+ }
+ }
+ this.finished = true;
+ this.stream.end();
+ } else {
+ this.once('socket', this._finish.bind(this));
+ }
+};
+
+OutgoingMessage.prototype.setHeader = function setHeader(name, value) {
+ if (this.headersSent) {
+ return this.emit('error', new Error('Can\'t set headers after they are sent.'));
+ } else {
+ name = name.toLowerCase();
+ if (deprecatedHeaders.indexOf(name) !== -1) {
+ return this.emit('error', new Error('Cannot set deprecated header: ' + name));
+ }
+ this._headers[name] = value;
+ }
+};
+
+OutgoingMessage.prototype.removeHeader = function removeHeader(name) {
+ if (this.headersSent) {
+ return this.emit('error', new Error('Can\'t remove headers after they are sent.'));
+ } else {
+ delete this._headers[name.toLowerCase()];
+ }
+};
+
+OutgoingMessage.prototype.getHeader = function getHeader(name) {
+ return this._headers[name.toLowerCase()];
+};
+
+OutgoingMessage.prototype.addTrailers = function addTrailers(trailers) {
+ this._trailers = trailers;
+};
+
+OutgoingMessage.prototype.setTimeout = noop;
+
+OutgoingMessage.prototype._checkSpecialHeader = IncomingMessage.prototype._checkSpecialHeader;
+
+// Server side
+// ===========
+
+exports.Server = Server;
+exports.IncomingRequest = IncomingRequest;
+exports.OutgoingResponse = OutgoingResponse;
+exports.ServerResponse = OutgoingResponse; // for API compatibility
+
+// Forward events `event` on `source` to all listeners on `target`.
+//
+// Note: The calling context is `source`.
+function forwardEvent(event, source, target) {
+ function forward() {
+ var listeners = target.listeners(event);
+
+ var n = listeners.length;
+
+ // Special case for `error` event with no listeners.
+ if (n === 0 && event === 'error') {
+ var args = [event];
+ args.push.apply(args, arguments);
+
+ target.emit.apply(target, args);
+ return;
+ }
+
+ for (var i = 0; i < n; ++i) {
+ listeners[i].apply(source, arguments);
+ }
+ }
+
+ source.on(event, forward);
+
+ // A reference to the function is necessary to be able to stop
+ // forwarding.
+ return forward;
+}
+
+// Server class
+// ------------
+
+function Server(options) {
+ options = util._extend({}, options);
+
+ this._log = (options.log || defaultLogger).child({ component: 'http' });
+ this._settings = options.settings;
+
+ var start = this._start.bind(this);
+ var fallback = this._fallback.bind(this);
+
+ // HTTP2 over TLS (using NPN or ALPN)
+ if ((options.key && options.cert) || options.pfx) {
+ this._log.info('Creating HTTP/2 server over TLS');
+ this._mode = 'tls';
+ options.ALPNProtocols = supportedProtocols;
+ options.NPNProtocols = supportedProtocols;
+ options.ciphers = options.ciphers || cipherSuites;
+ options.honorCipherOrder = (options.honorCipherOrder != false);
+ this._server = https.createServer(options);
+ this._originalSocketListeners = this._server.listeners('secureConnection');
+ this._server.removeAllListeners('secureConnection');
+ this._server.on('secureConnection', function(socket) {
+ var negotiatedProtocol = socket.alpnProtocol || socket.npnProtocol;
+ // It's true that the client MUST use SNI, but if it doesn't, we don't care, don't fall back to HTTP/1,
+ // since if the ALPN negotiation is otherwise successful, the client thinks we speak HTTP/2 but we don't.
+ if (negotiatedProtocol === protocol.VERSION) {
+ start(socket);
+ } else {
+ fallback(socket);
+ }
+ });
+ this._server.on('request', this.emit.bind(this, 'request'));
+ this._server.on('connect', this.emit.bind(this, 'connect'));
+
+ forwardEvent('error', this._server, this);
+ forwardEvent('listening', this._server, this);
+ }
+
+ // HTTP2 over plain TCP
+ else if (options.plain) {
+ this._log.info('Creating HTTP/2 server over plain TCP');
+ this._mode = 'plain';
+ this._server = net.createServer(start);
+ }
+
+ // HTTP/2 with HTTP/1.1 upgrade
+ else {
+ this._log.error('Trying to create HTTP/2 server with Upgrade from HTTP/1.1');
+ throw new Error('HTTP1.1 -> HTTP2 upgrade is not yet supported. Please provide TLS keys.');
+ }
+
+ this._server.on('close', this.emit.bind(this, 'close'));
+}
+Server.prototype = Object.create(EventEmitter.prototype, { constructor: { value: Server } });
+
+// Starting HTTP/2
+Server.prototype._start = function _start(socket) {
+ var endpoint = new Endpoint(this._log, 'SERVER', this._settings);
+
+ this._log.info({ e: endpoint,
+ client: socket.remoteAddress + ':' + socket.remotePort,
+ SNI: socket.servername
+ }, 'New incoming HTTP/2 connection');
+
+ endpoint.pipe(socket).pipe(endpoint);
+
+ var self = this;
+ endpoint.on('stream', function _onStream(stream) {
+ var response = new OutgoingResponse(stream);
+ var request = new IncomingRequest(stream);
+
+ // Some conformance to Node.js Https specs allows to distinguish clients:
+ request.remoteAddress = socket.remoteAddress;
+ request.remotePort = socket.remotePort;
+ request.connection = request.socket = response.socket = socket;
+
+ request.once('ready', self.emit.bind(self, 'request', request, response));
+ });
+
+ endpoint.on('error', this.emit.bind(this, 'clientError'));
+ socket.on('error', this.emit.bind(this, 'clientError'));
+
+ this.emit('connection', socket, endpoint);
+};
+
+Server.prototype._fallback = function _fallback(socket) {
+ var negotiatedProtocol = socket.alpnProtocol || socket.npnProtocol;
+
+ this._log.info({ client: socket.remoteAddress + ':' + socket.remotePort,
+ protocol: negotiatedProtocol,
+ SNI: socket.servername
+ }, 'Falling back to simple HTTPS');
+
+ for (var i = 0; i < this._originalSocketListeners.length; i++) {
+ this._originalSocketListeners[i].call(this._server, socket);
+ }
+
+ this.emit('connection', socket);
+};
+
+// There are [3 possible signatures][1] of the `listen` function. Every arguments is forwarded to
+// the backing TCP or HTTPS server.
+// [1]: https://nodejs.org/api/http.html#http_server_listen_port_hostname_backlog_callback
+Server.prototype.listen = function listen(port, hostname) {
+ this._log.info({ on: ((typeof hostname === 'string') ? (hostname + ':' + port) : port) },
+ 'Listening for incoming connections');
+ this._server.listen.apply(this._server, arguments);
+
+ return this._server;
+};
+
+Server.prototype.close = function close(callback) {
+ this._log.info('Closing server');
+ this._server.close(callback);
+};
+
+Server.prototype.setTimeout = function setTimeout(timeout, callback) {
+ if (this._mode === 'tls') {
+ this._server.setTimeout(timeout, callback);
+ }
+};
+
+Object.defineProperty(Server.prototype, 'timeout', {
+ get: function getTimeout() {
+ if (this._mode === 'tls') {
+ return this._server.timeout;
+ } else {
+ return undefined;
+ }
+ },
+ set: function setTimeout(timeout) {
+ if (this._mode === 'tls') {
+ this._server.timeout = timeout;
+ }
+ }
+});
+
+// Overriding `EventEmitter`'s `on(event, listener)` method to forward certain subscriptions to
+// `server`.There are events on the `http.Server` class where it makes difference whether someone is
+// listening on the event or not. In these cases, we can not simply forward the events from the
+// `server` to `this` since that means a listener. Instead, we forward the subscriptions.
+Server.prototype.on = function on(event, listener) {
+ if ((event === 'upgrade') || (event === 'timeout')) {
+ return this._server.on(event, listener && listener.bind(this));
+ } else {
+ return EventEmitter.prototype.on.call(this, event, listener);
+ }
+};
+
+// `addContext` is used to add Server Name Indication contexts
+Server.prototype.addContext = function addContext(hostname, credentials) {
+ if (this._mode === 'tls') {
+ this._server.addContext(hostname, credentials);
+ }
+};
+
+Server.prototype.address = function address() {
+ return this._server.address()
+};
+
+function createServerRaw(options, requestListener) {
+ if (typeof options === 'function') {
+ requestListener = options;
+ options = {};
+ }
+
+ if (options.pfx || (options.key && options.cert)) {
+ throw new Error('options.pfx, options.key, and options.cert are nonsensical!');
+ }
+
+ options.plain = true;
+ var server = new Server(options);
+
+ if (requestListener) {
+ server.on('request', requestListener);
+ }
+
+ return server;
+}
+
+function createServerTLS(options, requestListener) {
+ if (typeof options === 'function') {
+ throw new Error('options are required!');
+ }
+ if (!options.pfx && !(options.key && options.cert)) {
+ throw new Error('options.pfx or options.key and options.cert are required!');
+ }
+ options.plain = false;
+
+ var server = new Server(options);
+
+ if (requestListener) {
+ server.on('request', requestListener);
+ }
+
+ return server;
+}
+
+// Exposed main interfaces for HTTPS connections (the default)
+exports.https = {};
+exports.createServer = exports.https.createServer = createServerTLS;
+exports.request = exports.https.request = requestTLS;
+exports.get = exports.https.get = getTLS;
+
+// Exposed main interfaces for raw TCP connections (not recommended)
+exports.raw = {};
+exports.raw.createServer = createServerRaw;
+exports.raw.request = requestRaw;
+exports.raw.get = getRaw;
+
+// Exposed main interfaces for HTTP plaintext upgrade connections (not implemented)
+function notImplemented() {
+ throw new Error('HTTP UPGRADE is not implemented!');
+}
+
+exports.http = {};
+exports.http.createServer = exports.http.request = exports.http.get = notImplemented;
+
+// IncomingRequest class
+// ---------------------
+
+function IncomingRequest(stream) {
+ IncomingMessage.call(this, stream);
+}
+IncomingRequest.prototype = Object.create(IncomingMessage.prototype, { constructor: { value: IncomingRequest } });
+
+// [Request Header Fields](https://tools.ietf.org/html/rfc7540#section-8.1.2.3)
+// * `headers` argument: HTTP/2.0 request and response header fields carry information as a series
+// of key-value pairs. This includes the target URI for the request, the status code for the
+// response, as well as HTTP header fields.
+IncomingRequest.prototype._onHeaders = function _onHeaders(headers) {
+ // * The ":method" header field includes the HTTP method
+ // * The ":scheme" header field includes the scheme portion of the target URI
+ // * The ":authority" header field includes the authority portion of the target URI
+ // * The ":path" header field includes the path and query parts of the target URI.
+ // This field MUST NOT be empty; URIs that do not contain a path component MUST include a value
+ // of '/', unless the request is an OPTIONS request for '*', in which case the ":path" header
+ // field MUST include '*'.
+ // * All HTTP/2.0 requests MUST include exactly one valid value for all of these header fields. A
+ // server MUST treat the absence of any of these header fields, presence of multiple values, or
+ // an invalid value as a stream error of type PROTOCOL_ERROR.
+ this.method = this._checkSpecialHeader(':method' , headers[':method']);
+ this.host = this._checkSpecialHeader(':authority', headers[':authority'] );
+ if (this.method == "CONNECT") {
+ this.scheme = headers[':scheme'];
+ this.url = headers[':path'];
+ if (!this.method || !this.host) {
+ // This is invalid, and we've sent a RST_STREAM, so don't continue processing
+ return;
+ }
+ } else {
+ this.scheme = this._checkSpecialHeader(':scheme' , headers[':scheme']);
+ this.url = this._checkSpecialHeader(':path' , headers[':path'] );
+ if (!this.method || !this.scheme || !this.host || !this.url) {
+ // This is invalid, and we've sent a RST_STREAM, so don't continue processing
+ return;
+ }
+ }
+
+ // * Host header is included in the headers object for backwards compatibility.
+ this.headers.host = this.host;
+
+ // * Handling regular headers.
+ IncomingMessage.prototype._onHeaders.call(this, headers);
+
+ // * Signaling that the headers arrived.
+ this._log.info({ method: this.method, scheme: this.scheme, host: this.host,
+ path: this.url, headers: this.headers }, 'Incoming request');
+ this.emit('ready');
+};
+
+// OutgoingResponse class
+// ----------------------
+
+function OutgoingResponse(stream) {
+ OutgoingMessage.call(this);
+
+ this._log = stream._log.child({ component: 'http' });
+
+ this.stream = stream;
+ this.statusCode = 200;
+ this.sendDate = true;
+
+ this.stream.once('headers', this._onRequestHeaders.bind(this));
+}
+OutgoingResponse.prototype = Object.create(OutgoingMessage.prototype, { constructor: { value: OutgoingResponse } });
+
+OutgoingResponse.prototype.writeHead = function writeHead(statusCode, reasonPhrase, headers) {
+ if (this.headersSent) {
+ return;
+ }
+
+ if (typeof reasonPhrase === 'string') {
+ this._log.warn('Reason phrase argument was present but ignored by the writeHead method');
+ } else {
+ headers = reasonPhrase;
+ }
+
+ for (var name in headers) {
+ this.setHeader(name, headers[name]);
+ }
+ headers = this._headers;
+
+ if (this.sendDate && !('date' in this._headers)) {
+ headers.date = (new Date()).toUTCString();
+ }
+
+ this._log.info({ status: statusCode, headers: this._headers }, 'Sending server response');
+
+ headers[':status'] = this.statusCode = statusCode;
+
+ this.stream.headers(headers);
+ if (statusCode >= 200) {
+ this.headersSent = true;
+ } else {
+ this._headers = {};
+ }
+};
+
+OutgoingResponse.prototype._implicitHeaders = function _implicitHeaders() {
+ if (!this.headersSent) {
+ this.writeHead(this.statusCode);
+ }
+};
+
+OutgoingResponse.prototype._implicitHeader = function() {
+ this._implicitHeaders();
+};
+
+OutgoingResponse.prototype.write = function write() {
+ this._implicitHeaders();
+ return OutgoingMessage.prototype.write.apply(this, arguments);
+};
+
+OutgoingResponse.prototype.end = function end() {
+ this.finshed = true;
+ this._implicitHeaders();
+ return OutgoingMessage.prototype.end.apply(this, arguments);
+};
+
+OutgoingResponse.prototype._onRequestHeaders = function _onRequestHeaders(headers) {
+ this._requestHeaders = headers;
+};
+
+OutgoingResponse.prototype.push = function push(options) {
+ if (typeof options === 'string') {
+ options = url.parse(options);
+ }
+
+ if (!options.path) {
+ throw new Error('`path` option is mandatory.');
+ }
+
+ var promise = util._extend({
+ ':method': (options.method || 'GET').toUpperCase(),
+ ':scheme': (options.protocol && options.protocol.slice(0, -1)) || this._requestHeaders[':scheme'],
+ ':authority': options.hostname || options.host || this._requestHeaders[':authority'],
+ ':path': options.path
+ }, options.headers);
+
+ this._log.info({ method: promise[':method'], scheme: promise[':scheme'],
+ authority: promise[':authority'], path: promise[':path'],
+ headers: options.headers }, 'Promising push stream');
+
+ var pushStream = this.stream.promise(promise);
+
+ return new OutgoingResponse(pushStream);
+};
+
+OutgoingResponse.prototype.altsvc = function altsvc(host, port, protocolID, maxAge, origin) {
+ if (origin === undefined) {
+ origin = "";
+ }
+ this.stream.altsvc(host, port, protocolID, maxAge, origin);
+};
+
+// Overriding `EventEmitter`'s `on(event, listener)` method to forward certain subscriptions to
+// `request`. See `Server.prototype.on` for explanation.
+OutgoingResponse.prototype.on = function on(event, listener) {
+ if (this.request && (event === 'timeout')) {
+ this.request.on(event, listener && listener.bind(this));
+ } else {
+ OutgoingMessage.prototype.on.call(this, event, listener);
+ }
+};
+
+// Client side
+// ===========
+
+exports.ClientRequest = OutgoingRequest; // for API compatibility
+exports.OutgoingRequest = OutgoingRequest;
+exports.IncomingResponse = IncomingResponse;
+exports.Agent = Agent;
+exports.globalAgent = undefined;
+
+function requestRaw(options, callback) {
+ if (typeof options === "string") {
+ options = url.parse(options);
+ }
+ options.plain = true;
+ if (options.protocol && options.protocol !== "http:") {
+ throw new Error('This interface only supports http-schemed URLs');
+ }
+ if (options.agent && typeof(options.agent.request) === 'function') {
+ var agentOptions = util._extend({}, options);
+ delete agentOptions.agent;
+ return options.agent.request(agentOptions, callback);
+ }
+ return exports.globalAgent.request(options, callback);
+}
+
+function requestTLS(options, callback) {
+ if (typeof options === "string") {
+ options = url.parse(options);
+ }
+ options.plain = false;
+ if (options.protocol && options.protocol !== "https:") {
+ throw new Error('This interface only supports https-schemed URLs');
+ }
+ if (options.agent && typeof(options.agent.request) === 'function') {
+ var agentOptions = util._extend({}, options);
+ delete agentOptions.agent;
+ return options.agent.request(agentOptions, callback);
+ }
+ return exports.globalAgent.request(options, callback);
+}
+
+function getRaw(options, callback) {
+ if (typeof options === "string") {
+ options = url.parse(options);
+ }
+ options.plain = true;
+ if (options.protocol && options.protocol !== "http:") {
+ throw new Error('This interface only supports http-schemed URLs');
+ }
+ if (options.agent && typeof(options.agent.get) === 'function') {
+ var agentOptions = util._extend({}, options);
+ delete agentOptions.agent;
+ return options.agent.get(agentOptions, callback);
+ }
+ return exports.globalAgent.get(options, callback);
+}
+
+function getTLS(options, callback) {
+ if (typeof options === "string") {
+ options = url.parse(options);
+ }
+ options.plain = false;
+ if (options.protocol && options.protocol !== "https:") {
+ throw new Error('This interface only supports https-schemed URLs');
+ }
+ if (options.agent && typeof(options.agent.get) === 'function') {
+ var agentOptions = util._extend({}, options);
+ delete agentOptions.agent;
+ return options.agent.get(agentOptions, callback);
+ }
+ return exports.globalAgent.get(options, callback);
+}
+
+// Agent class
+// -----------
+
+function Agent(options) {
+ EventEmitter.call(this);
+ this.setMaxListeners(0);
+
+ options = util._extend({}, options);
+
+ this._settings = options.settings;
+ this._log = (options.log || defaultLogger).child({ component: 'http' });
+ this.endpoints = {};
+
+ // * Using an own HTTPS agent, because the global agent does not look at `NPN/ALPNProtocols` when
+ // generating the key identifying the connection, so we may get useless non-negotiated TLS
+ // channels even if we ask for a negotiated one. This agent will contain only negotiated
+ // channels.
+ options.ALPNProtocols = supportedProtocols;
+ options.NPNProtocols = supportedProtocols;
+ this._httpsAgent = new https.Agent(options);
+
+ this.sockets = this._httpsAgent.sockets;
+ this.requests = this._httpsAgent.requests;
+}
+Agent.prototype = Object.create(EventEmitter.prototype, { constructor: { value: Agent } });
+
+Agent.prototype.request = function request(options, callback) {
+ if (typeof options === 'string') {
+ options = url.parse(options);
+ } else {
+ options = util._extend({}, options);
+ }
+
+ options.method = (options.method || 'GET').toUpperCase();
+ options.protocol = options.protocol || 'https:';
+ options.host = options.hostname || options.host || 'localhost';
+ options.port = options.port || 443;
+ options.path = options.path || '/';
+
+ if (!options.plain && options.protocol === 'http:') {
+ this._log.error('Trying to negotiate client request with Upgrade from HTTP/1.1');
+ this.emit('error', new Error('HTTP1.1 -> HTTP2 upgrade is not yet supported.'));
+ }
+
+ var request = new OutgoingRequest(this._log);
+
+ if (callback) {
+ request.on('response', callback);
+ }
+
+ var key = [
+ !!options.plain,
+ options.host,
+ options.port
+ ].join(':');
+ var self = this;
+
+ // * There's an existing HTTP/2 connection to this host
+ if (key in this.endpoints) {
+ var endpoint = this.endpoints[key];
+ request._start(endpoint.createStream(), options);
+ }
+
+ // * HTTP/2 over plain TCP
+ else if (options.plain) {
+ endpoint = new Endpoint(this._log, 'CLIENT', this._settings);
+ endpoint.socket = net.connect({
+ host: options.host,
+ port: options.port,
+ localAddress: options.localAddress
+ });
+
+ endpoint.socket.on('error', function (error) {
+ self._log.error('Socket error: ' + error.toString());
+ request.emit('error', error);
+ });
+
+ endpoint.on('error', function(error){
+ self._log.error('Connection error: ' + error.toString());
+ request.emit('error', error);
+ });
+
+ this.endpoints[key] = endpoint;
+ endpoint.pipe(endpoint.socket).pipe(endpoint);
+ request._start(endpoint.createStream(), options);
+ }
+
+ // * HTTP/2 over TLS negotiated using NPN or ALPN, or fallback to HTTPS1
+ else {
+ var started = false;
+ var createAgent = hasAgentOptions(options);
+ options.ALPNProtocols = supportedProtocols;
+ options.NPNProtocols = supportedProtocols;
+ options.servername = options.host; // Server Name Indication
+ options.ciphers = options.ciphers || cipherSuites;
+ if (createAgent) {
+ options.agent = new https.Agent(options);
+ } else if (options.agent == null) {
+ options.agent = this._httpsAgent;
+ }
+ var httpsRequest = https.request(options);
+
+ httpsRequest.on('error', function (error) {
+ self._log.error('Socket error: ' + error.toString());
+ self.removeAllListeners(key);
+ request.emit('error', error);
+ });
+
+ httpsRequest.on('socket', function(socket) {
+ var negotiatedProtocol = socket.alpnProtocol || socket.npnProtocol;
+ if (negotiatedProtocol != null) { // null in >=0.11.0, undefined in <0.11.0
+ negotiated();
+ } else {
+ socket.on('secureConnect', negotiated);
+ }
+ });
+
+ function negotiated() {
+ var endpoint;
+ var negotiatedProtocol = httpsRequest.socket.alpnProtocol || httpsRequest.socket.npnProtocol;
+ if (negotiatedProtocol === protocol.VERSION) {
+ httpsRequest.socket.emit('agentRemove');
+ unbundleSocket(httpsRequest.socket);
+ endpoint = new Endpoint(self._log, 'CLIENT', self._settings);
+ endpoint.socket = httpsRequest.socket;
+ endpoint.pipe(endpoint.socket).pipe(endpoint);
+ }
+ if (started) {
+ // ** In the meantime, an other connection was made to the same host...
+ if (endpoint) {
+ // *** and it turned out to be HTTP2 and the request was multiplexed on that one, so we should close this one
+ endpoint.close();
+ }
+ // *** otherwise, the fallback to HTTPS1 is already done.
+ } else {
+ if (endpoint) {
+ self._log.info({ e: endpoint, server: options.host + ':' + options.port },
+ 'New outgoing HTTP/2 connection');
+ self.endpoints[key] = endpoint;
+ self.emit(key, endpoint);
+ } else {
+ self.emit(key, undefined);
+ }
+ }
+ }
+
+ this.once(key, function(endpoint) {
+ started = true;
+ if (endpoint) {
+ request._start(endpoint.createStream(), options);
+ } else {
+ request._fallback(httpsRequest);
+ }
+ });
+ }
+
+ return request;
+};
+
+Agent.prototype.get = function get(options, callback) {
+ var request = this.request(options, callback);
+ request.end();
+ return request;
+};
+
+Agent.prototype.destroy = function(error) {
+ if (this._httpsAgent) {
+ this._httpsAgent.destroy();
+ }
+ for (var key in this.endpoints) {
+ this.endpoints[key].close(error);
+ }
+};
+
+function unbundleSocket(socket) {
+ socket.removeAllListeners('data');
+ socket.removeAllListeners('end');
+ socket.removeAllListeners('readable');
+ socket.removeAllListeners('close');
+ socket.removeAllListeners('error');
+ socket.unpipe();
+ delete socket.ondata;
+ delete socket.onend;
+}
+
+function hasAgentOptions(options) {
+ return options.pfx != null ||
+ options.key != null ||
+ options.passphrase != null ||
+ options.cert != null ||
+ options.ca != null ||
+ options.ciphers != null ||
+ options.rejectUnauthorized != null ||
+ options.secureProtocol != null;
+}
+
+Object.defineProperty(Agent.prototype, 'maxSockets', {
+ get: function getMaxSockets() {
+ return this._httpsAgent.maxSockets;
+ },
+ set: function setMaxSockets(value) {
+ this._httpsAgent.maxSockets = value;
+ }
+});
+
+exports.globalAgent = new Agent();
+
+// OutgoingRequest class
+// ---------------------
+
+function OutgoingRequest() {
+ OutgoingMessage.call(this);
+
+ this._log = undefined;
+
+ this.stream = undefined;
+}
+OutgoingRequest.prototype = Object.create(OutgoingMessage.prototype, { constructor: { value: OutgoingRequest } });
+
+OutgoingRequest.prototype._start = function _start(stream, options) {
+ this.stream = stream;
+ this.options = options;
+
+ this._log = stream._log.child({ component: 'http' });
+
+ for (var key in options.headers) {
+ this.setHeader(key, options.headers[key]);
+ }
+ var headers = this._headers;
+ delete headers.host;
+
+ if (options.auth) {
+ headers.authorization = 'Basic ' + Buffer.from(options.auth).toString('base64');
+ }
+
+ headers[':scheme'] = options.protocol.slice(0, -1);
+ headers[':method'] = options.method;
+ headers[':authority'] = options.host;
+ headers[':path'] = options.path;
+
+ this._log.info({ scheme: headers[':scheme'], method: headers[':method'],
+ authority: headers[':authority'], path: headers[':path'],
+ headers: (options.headers || {}) }, 'Sending request');
+ this.stream.headers(headers);
+ this.headersSent = true;
+
+ this.emit('socket', this.stream);
+ var response = new IncomingResponse(this.stream);
+ response.req = this;
+ response.once('ready', this.emit.bind(this, 'response', response));
+
+ this.stream.on('promise', this._onPromise.bind(this));
+};
+
+OutgoingRequest.prototype._fallback = function _fallback(request) {
+ request.on('response', this.emit.bind(this, 'response'));
+ this.stream = this.request = request;
+ this.emit('socket', this.socket);
+};
+
+OutgoingRequest.prototype.setPriority = function setPriority(priority) {
+ if (this.stream) {
+ this.stream.priority(priority);
+ } else {
+ this.once('socket', this.setPriority.bind(this, priority));
+ }
+};
+
+// Overriding `EventEmitter`'s `on(event, listener)` method to forward certain subscriptions to
+// `request`. See `Server.prototype.on` for explanation.
+OutgoingRequest.prototype.on = function on(event, listener) {
+ if (this.request && (event === 'upgrade')) {
+ this.request.on(event, listener && listener.bind(this));
+ } else {
+ OutgoingMessage.prototype.on.call(this, event, listener);
+ }
+};
+
+// Methods only in fallback mode
+OutgoingRequest.prototype.setNoDelay = function setNoDelay(noDelay) {
+ if (this.request) {
+ this.request.setNoDelay(noDelay);
+ } else if (!this.stream) {
+ this.on('socket', this.setNoDelay.bind(this, noDelay));
+ }
+};
+
+OutgoingRequest.prototype.setSocketKeepAlive = function setSocketKeepAlive(enable, initialDelay) {
+ if (this.request) {
+ this.request.setSocketKeepAlive(enable, initialDelay);
+ } else if (!this.stream) {
+ this.on('socket', this.setSocketKeepAlive.bind(this, enable, initialDelay));
+ }
+};
+
+OutgoingRequest.prototype.setTimeout = function setTimeout(timeout, callback) {
+ if (this.request) {
+ this.request.setTimeout(timeout, callback);
+ } else if (!this.stream) {
+ this.on('socket', this.setTimeout.bind(this, timeout, callback));
+ }
+};
+
+// Aborting the request
+OutgoingRequest.prototype.abort = function abort() {
+ if (this.request) {
+ this.request.abort();
+ } else if (this.stream) {
+ this.stream.reset('CANCEL');
+ } else {
+ this.on('socket', this.abort.bind(this));
+ }
+};
+
+// Receiving push promises
+OutgoingRequest.prototype._onPromise = function _onPromise(stream, headers) {
+ this._log.info({ push_stream: stream.id }, 'Receiving push promise');
+
+ var promise = new IncomingPromise(stream, headers);
+
+ if (this.listeners('push').length > 0) {
+ this.emit('push', promise);
+ } else {
+ promise.cancel();
+ }
+};
+
+// IncomingResponse class
+// ----------------------
+
+function IncomingResponse(stream) {
+ IncomingMessage.call(this, stream);
+}
+IncomingResponse.prototype = Object.create(IncomingMessage.prototype, { constructor: { value: IncomingResponse } });
+
+// [Response Header Fields](https://tools.ietf.org/html/rfc7540#section-8.1.2.4)
+// * `headers` argument: HTTP/2.0 request and response header fields carry information as a series
+// of key-value pairs. This includes the target URI for the request, the status code for the
+// response, as well as HTTP header fields.
+IncomingResponse.prototype._onHeaders = function _onHeaders(headers) {
+ // * A single ":status" header field is defined that carries the HTTP status code field. This
+ // header field MUST be included in all responses.
+ // * A client MUST treat the absence of the ":status" header field, the presence of multiple
+ // values, or an invalid value as a stream error of type PROTOCOL_ERROR.
+ // Note: currently, we do not enforce it strictly: we accept any format, and parse it as int
+ // * HTTP/2.0 does not define a way to carry the reason phrase that is included in an HTTP/1.1
+ // status line.
+ this.statusCode = parseInt(this._checkSpecialHeader(':status', headers[':status']));
+
+ // * Handling regular headers.
+ IncomingMessage.prototype._onHeaders.call(this, headers);
+
+ // * Signaling that the headers arrived.
+ this._log.info({ status: this.statusCode, headers: this.headers}, 'Incoming response');
+ this.emit('ready');
+};
+
+// IncomingPromise class
+// -------------------------
+
+function IncomingPromise(responseStream, promiseHeaders) {
+ var stream = new Readable();
+ stream._read = noop;
+ stream.push(null);
+ stream._log = responseStream._log;
+
+ IncomingRequest.call(this, stream);
+
+ this._onHeaders(promiseHeaders);
+
+ this._responseStream = responseStream;
+
+ var response = new IncomingResponse(this._responseStream);
+ response.once('ready', this.emit.bind(this, 'response', response));
+
+ this.stream.on('promise', this._onPromise.bind(this));
+}
+IncomingPromise.prototype = Object.create(IncomingRequest.prototype, { constructor: { value: IncomingPromise } });
+
+IncomingPromise.prototype.cancel = function cancel() {
+ this._responseStream.reset('CANCEL');
+};
+
+IncomingPromise.prototype.setPriority = function setPriority(priority) {
+ this._responseStream.priority(priority);
+};
+
+IncomingPromise.prototype._onPromise = OutgoingRequest.prototype._onPromise;
diff --git a/testing/xpcshell/node-http2/lib/index.js b/testing/xpcshell/node-http2/lib/index.js
new file mode 100644
index 0000000000..c67883defe
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/index.js
@@ -0,0 +1,52 @@
+// [node-http2][homepage] is an [HTTP/2][http2] implementation for [node.js][node].
+//
+// The core of the protocol is implemented in the protocol sub-directory. This directory provides
+// two important features on top of the protocol:
+//
+// * Implementation of different negotiation schemes that can be used to start a HTTP2 connection.
+// These include TLS ALPN, Upgrade and Plain TCP.
+//
+// * Providing an API very similar to the standard node.js [HTTPS module API][node-https]
+// (which is in turn very similar to the [HTTP module API][node-http]).
+//
+// [homepage]: https://github.com/molnarg/node-http2
+// [http2]: https://tools.ietf.org/html/rfc7540
+// [node]: https://nodejs.org/
+// [node-https]: https://nodejs.org/api/https.html
+// [node-http]: https://nodejs.org/api/http.html
+
+module.exports = require('./http');
+
+/*
+ HTTP API
+
+ | ^
+ | |
+ +-------------|------------|------------------------------------------------------+
+ | | | Server/Agent |
+ | v | |
+ | +----------+ +----------+ |
+ | | Outgoing | | Incoming | |
+ | | req/res. | | req/res. | |
+ | +----------+ +----------+ |
+ | | ^ |
+ | | | |
+ | +---------|------------|-------------------------------------+ +----- |
+ | | | | Endpoint | | |
+ | | | | | | |
+ | | v | | | |
+ | | +-----------------------+ +-------------------- | | |
+ | | | Stream | | Stream ... | | |
+ | | +-----------------------+ +-------------------- | | |
+ | | | | |
+ | +------------------------------------------------------------+ +----- |
+ | | | |
+ | | | |
+ | v | |
+ | +------------------------------------------------------------+ +----- |
+ | | TCP stream | | ... |
+ | +------------------------------------------------------------+ +----- |
+ | |
+ +---------------------------------------------------------------------------------+
+
+*/
diff --git a/testing/xpcshell/node-http2/lib/protocol/compressor.js b/testing/xpcshell/node-http2/lib/protocol/compressor.js
new file mode 100644
index 0000000000..6f91f86ec9
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/protocol/compressor.js
@@ -0,0 +1,1428 @@
+// The implementation of the [HTTP/2 Header Compression][http2-compression] spec is separated from
+// the 'integration' part which handles HEADERS and PUSH_PROMISE frames. The compression itself is
+// implemented in the first part of the file, and consists of three classes: `HeaderTable`,
+// `HeaderSetDecompressor` and `HeaderSetCompressor`. The two latter classes are
+// [Transform Stream][node-transform] subclasses that operate in [object mode][node-objectmode].
+// These transform chunks of binary data into `[name, value]` pairs and vice versa, and store their
+// state in `HeaderTable` instances.
+//
+// The 'integration' part is also implemented by two [Transform Stream][node-transform] subclasses
+// that operate in [object mode][node-objectmode]: the `Compressor` and the `Decompressor`. These
+// provide a layer between the [framer](framer.html) and the
+// [connection handling component](connection.html).
+//
+// [node-transform]: https://nodejs.org/api/stream.html#stream_class_stream_transform
+// [node-objectmode]: https://nodejs.org/api/stream.html#stream_new_stream_readable_options
+// [http2-compression]: https://tools.ietf.org/html/rfc7541
+
+exports.HeaderTable = HeaderTable;
+exports.HuffmanTable = HuffmanTable;
+exports.HeaderSetCompressor = HeaderSetCompressor;
+exports.HeaderSetDecompressor = HeaderSetDecompressor;
+exports.Compressor = Compressor;
+exports.Decompressor = Decompressor;
+
+var TransformStream = require('stream').Transform;
+var assert = require('assert');
+var util = require('util');
+
+// Header compression
+// ==================
+
+// The HeaderTable class
+// ---------------------
+
+// The [Header Table] is a component used to associate headers to index values. It is basically an
+// ordered list of `[name, value]` pairs, so it's implemented as a subclass of `Array`.
+// In this implementation, the Header Table and the [Static Table] are handled as a single table.
+// [Header Table]: https://tools.ietf.org/html/rfc7541#section-2.3.2
+// [Static Table]: https://tools.ietf.org/html/rfc7541#section-2.3.1
+function HeaderTable(log, limit) {
+ var self = HeaderTable.staticTable.map(entryFromPair);
+ self._log = log;
+ self._limit = limit || DEFAULT_HEADER_TABLE_LIMIT;
+ self._staticLength = self.length;
+ self._size = 0;
+ self._enforceLimit = HeaderTable.prototype._enforceLimit;
+ self.add = HeaderTable.prototype.add;
+ self.setSizeLimit = HeaderTable.prototype.setSizeLimit;
+ return self;
+}
+
+function entryFromPair(pair) {
+ var entry = pair.slice();
+ entry._size = size(entry);
+ return entry;
+}
+
+// The encoder decides how to update the header table and as such can control how much memory is
+// used by the header table. To limit the memory requirements on the decoder side, the header table
+// size is bounded.
+//
+// * The default header table size limit is 4096 bytes.
+// * The size of an entry is defined as follows: the size of an entry is the sum of its name's
+// length in bytes, of its value's length in bytes and of 32 bytes.
+// * The size of a header table is the sum of the size of its entries.
+var DEFAULT_HEADER_TABLE_LIMIT = 4096;
+
+function size(entry) {
+ return (Buffer.from(entry[0] + entry[1], 'utf8')).length + 32;
+}
+
+// The `add(index, entry)` can be used to [manage the header table][tablemgmt]:
+// [tablemgmt]: https://tools.ietf.org/html/rfc7541#section-4
+//
+// * it pushes the new `entry` at the beggining of the table
+// * before doing such a modification, it has to be ensured that the header table size will stay
+// lower than or equal to the header table size limit. To achieve this, entries are evicted from
+// the end of the header table until the size of the header table is less than or equal to
+// `(this._limit - entry.size)`, or until the table is empty.
+//
+// <---------- Index Address Space ---------->
+// <-- Static Table --> <-- Header Table -->
+// +---+-----------+---+ +---+-----------+---+
+// | 0 | ... | k | |k+1| ... | n |
+// +---+-----------+---+ +---+-----------+---+
+// ^ |
+// | V
+// Insertion Point Drop Point
+
+HeaderTable.prototype._enforceLimit = function _enforceLimit(limit) {
+ var droppedEntries = [];
+ while ((this._size > 0) && (this._size > limit)) {
+ var dropped = this.pop();
+ this._size -= dropped._size;
+ droppedEntries.unshift(dropped);
+ }
+ return droppedEntries;
+};
+
+HeaderTable.prototype.add = function(entry) {
+ var limit = this._limit - entry._size;
+ var droppedEntries = this._enforceLimit(limit);
+
+ if (this._size <= limit) {
+ this.splice(this._staticLength, 0, entry);
+ this._size += entry._size;
+ }
+
+ return droppedEntries;
+};
+
+// The table size limit can be changed externally. In this case, the same eviction algorithm is used
+HeaderTable.prototype.setSizeLimit = function setSizeLimit(limit) {
+ this._limit = limit;
+ this._enforceLimit(this._limit);
+};
+
+// [The Static Table](https://tools.ietf.org/html/rfc7541#section-2.3.1)
+// ------------------
+
+// The table is generated with feeding the table from the spec to the following sed command:
+//
+// sed -re "s/\s*\| [0-9]+\s*\| ([^ ]*)/ [ '\1'/g" -e "s/\|\s([^ ]*)/, '\1'/g" -e 's/ \|/],/g'
+
+HeaderTable.staticTable = [
+ [ ':authority' , '' ],
+ [ ':method' , 'GET' ],
+ [ ':method' , 'POST' ],
+ [ ':path' , '/' ],
+ [ ':path' , '/index.html' ],
+ [ ':scheme' , 'http' ],
+ [ ':scheme' , 'https' ],
+ [ ':status' , '200' ],
+ [ ':status' , '204' ],
+ [ ':status' , '206' ],
+ [ ':status' , '304' ],
+ [ ':status' , '400' ],
+ [ ':status' , '404' ],
+ [ ':status' , '500' ],
+ [ 'accept-charset' , '' ],
+ [ 'accept-encoding' , 'gzip, deflate'],
+ [ 'accept-language' , '' ],
+ [ 'accept-ranges' , '' ],
+ [ 'accept' , '' ],
+ [ 'access-control-allow-origin' , '' ],
+ [ 'age' , '' ],
+ [ 'allow' , '' ],
+ [ 'authorization' , '' ],
+ [ 'cache-control' , '' ],
+ [ 'content-disposition' , '' ],
+ [ 'content-encoding' , '' ],
+ [ 'content-language' , '' ],
+ [ 'content-length' , '' ],
+ [ 'content-location' , '' ],
+ [ 'content-range' , '' ],
+ [ 'content-type' , '' ],
+ [ 'cookie' , '' ],
+ [ 'date' , '' ],
+ [ 'etag' , '' ],
+ [ 'expect' , '' ],
+ [ 'expires' , '' ],
+ [ 'from' , '' ],
+ [ 'host' , '' ],
+ [ 'if-match' , '' ],
+ [ 'if-modified-since' , '' ],
+ [ 'if-none-match' , '' ],
+ [ 'if-range' , '' ],
+ [ 'if-unmodified-since' , '' ],
+ [ 'last-modified' , '' ],
+ [ 'link' , '' ],
+ [ 'location' , '' ],
+ [ 'max-forwards' , '' ],
+ [ 'proxy-authenticate' , '' ],
+ [ 'proxy-authorization' , '' ],
+ [ 'range' , '' ],
+ [ 'referer' , '' ],
+ [ 'refresh' , '' ],
+ [ 'retry-after' , '' ],
+ [ 'server' , '' ],
+ [ 'set-cookie' , '' ],
+ [ 'strict-transport-security' , '' ],
+ [ 'transfer-encoding' , '' ],
+ [ 'user-agent' , '' ],
+ [ 'vary' , '' ],
+ [ 'via' , '' ],
+ [ 'www-authenticate' , '' ]
+];
+
+// The HeaderSetDecompressor class
+// -------------------------------
+
+// A `HeaderSetDecompressor` instance is a transform stream that can be used to *decompress a
+// single header set*. Its input is a stream of binary data chunks and its output is a stream of
+// `[name, value]` pairs.
+//
+// Currently, it is not a proper streaming decompressor implementation, since it buffer its input
+// until the end os the stream, and then processes the whole header block at once.
+
+util.inherits(HeaderSetDecompressor, TransformStream);
+function HeaderSetDecompressor(log, table) {
+ TransformStream.call(this, { objectMode: true });
+
+ this._log = log.child({ component: 'compressor' });
+ this._table = table;
+ this._chunks = [];
+}
+
+// `_transform` is the implementation of the [corresponding virtual function][_transform] of the
+// TransformStream class. It collects the data chunks for later processing.
+// [_transform]: https://nodejs.org/api/stream.html#stream_transform_transform_chunk_encoding_callback
+HeaderSetDecompressor.prototype._transform = function _transform(chunk, encoding, callback) {
+ this._chunks.push(chunk);
+ callback();
+};
+
+// `execute(rep)` executes the given [header representation][representation].
+// [representation]: https://tools.ietf.org/html/rfc7541#section-6
+
+// The *JavaScript object representation* of a header representation:
+//
+// {
+// name: String || Integer, // string literal or index
+// value: String || Integer, // string literal or index
+// index: Boolean // with or without indexing
+// }
+//
+// *Important:* to ease the indexing of the header table, indexes start at 0 instead of 1.
+//
+// Examples:
+//
+// Indexed:
+// { name: 2 , value: 2 , index: false }
+// Literal:
+// { name: 2 , value: 'X', index: false } // without indexing
+// { name: 2 , value: 'Y', index: true } // with indexing
+// { name: 'A', value: 'Z', index: true } // with indexing, literal name
+HeaderSetDecompressor.prototype._execute = function _execute(rep) {
+ this._log.trace({ key: rep.name, value: rep.value, index: rep.index },
+ 'Executing header representation');
+
+ var entry, pair;
+
+ if (rep.contextUpdate) {
+ this._table.setSizeLimit(rep.newMaxSize);
+ }
+
+ // * An _indexed representation_ entails the following actions:
+ // * The header field corresponding to the referenced entry is emitted
+ else if (typeof rep.value === 'number') {
+ var index = rep.value;
+ entry = this._table[index];
+
+ pair = entry.slice();
+ this.push(pair);
+ }
+
+ // * A _literal representation_ that is _not added_ to the header table entails the following
+ // action:
+ // * The header is emitted.
+ // * A _literal representation_ that is _added_ to the header table entails the following further
+ // actions:
+ // * The header is added to the header table.
+ // * The header is emitted.
+ else {
+ if (typeof rep.name === 'number') {
+ pair = [this._table[rep.name][0], rep.value];
+ } else {
+ pair = [rep.name, rep.value];
+ }
+
+ if (rep.index) {
+ entry = entryFromPair(pair);
+ this._table.add(entry);
+ }
+
+ this.push(pair);
+ }
+};
+
+// `_flush` is the implementation of the [corresponding virtual function][_flush] of the
+// TransformStream class. The whole decompressing process is done in `_flush`. It gets called when
+// the input stream is over.
+// [_flush]: https://nodejs.org/api/stream.html#stream_transform_flush_callback
+HeaderSetDecompressor.prototype._flush = function _flush(callback) {
+ var buffer = concat(this._chunks);
+
+ // * processes the header representations
+ buffer.cursor = 0;
+ while (buffer.cursor < buffer.length) {
+ this._execute(HeaderSetDecompressor.header(buffer));
+ }
+
+ callback();
+};
+
+// The HeaderSetCompressor class
+// -----------------------------
+
+// A `HeaderSetCompressor` instance is a transform stream that can be used to *compress a single
+// header set*. Its input is a stream of `[name, value]` pairs and its output is a stream of
+// binary data chunks.
+//
+// It is a real streaming compressor, since it does not wait until the header set is complete.
+//
+// The compression algorithm is (intentionally) not specified by the spec. Therefore, the current
+// compression algorithm can probably be improved in the future.
+
+util.inherits(HeaderSetCompressor, TransformStream);
+function HeaderSetCompressor(log, table) {
+ TransformStream.call(this, { objectMode: true });
+
+ this._log = log.child({ component: 'compressor' });
+ this._table = table;
+ this.push = TransformStream.prototype.push.bind(this);
+}
+
+HeaderSetCompressor.prototype.send = function send(rep) {
+ this._log.trace({ key: rep.name, value: rep.value, index: rep.index },
+ 'Emitting header representation');
+
+ if (!rep.chunks) {
+ rep.chunks = HeaderSetCompressor.header(rep);
+ }
+ rep.chunks.forEach(this.push);
+};
+
+// `_transform` is the implementation of the [corresponding virtual function][_transform] of the
+// TransformStream class. It processes the input headers one by one:
+// [_transform]: https://nodejs.org/api/stream.html#stream_transform_transform_chunk_encoding_callback
+HeaderSetCompressor.prototype._transform = function _transform(pair, encoding, callback) {
+ var name = pair[0].toLowerCase();
+ var value = pair[1];
+ var entry, rep;
+
+ // * tries to find full (name, value) or name match in the header table
+ var nameMatch = -1, fullMatch = -1;
+ for (var droppedIndex = 0; droppedIndex < this._table.length; droppedIndex++) {
+ entry = this._table[droppedIndex];
+ if (entry[0] === name) {
+ if (entry[1] === value) {
+ fullMatch = droppedIndex;
+ break;
+ } else if (nameMatch === -1) {
+ nameMatch = droppedIndex;
+ }
+ }
+ }
+
+ var mustNeverIndex = ((name === 'cookie' && value.length < 20) ||
+ (name === 'set-cookie' && value.length < 20) ||
+ name === 'authorization');
+
+ if (fullMatch !== -1 && !mustNeverIndex) {
+ this.send({ name: fullMatch, value: fullMatch, index: false });
+ }
+
+ // * otherwise, it will be a literal representation (with a name index if there's a name match)
+ else {
+ entry = entryFromPair(pair);
+
+ var indexing = (entry._size < this._table._limit / 2) && !mustNeverIndex;
+
+ if (indexing) {
+ this._table.add(entry);
+ }
+
+ this.send({ name: (nameMatch !== -1) ? nameMatch : name, value: value, index: indexing, mustNeverIndex: mustNeverIndex, contextUpdate: false });
+ }
+
+ callback();
+};
+
+// `_flush` is the implementation of the [corresponding virtual function][_flush] of the
+// TransformStream class. It gets called when there's no more header to compress. The final step:
+// [_flush]: https://nodejs.org/api/stream.html#stream_transform_flush_callback
+HeaderSetCompressor.prototype._flush = function _flush(callback) {
+ callback();
+};
+
+// [Detailed Format](https://tools.ietf.org/html/rfc7541#section-5)
+// -----------------
+
+// ### Integer representation ###
+//
+// The algorithm to represent an integer I is as follows:
+//
+// 1. If I < 2^N - 1, encode I on N bits
+// 2. Else, encode 2^N - 1 on N bits and do the following steps:
+// 1. Set I to (I - (2^N - 1)) and Q to 1
+// 2. While Q > 0
+// 1. Compute Q and R, quotient and remainder of I divided by 2^7
+// 2. If Q is strictly greater than 0, write one 1 bit; otherwise, write one 0 bit
+// 3. Encode R on the next 7 bits
+// 4. I = Q
+
+HeaderSetCompressor.integer = function writeInteger(I, N) {
+ var limit = Math.pow(2,N) - 1;
+ if (I < limit) {
+ return [Buffer.from([I])];
+ }
+
+ var bytes = [];
+ if (N !== 0) {
+ bytes.push(limit);
+ }
+ I -= limit;
+
+ var Q = 1, R;
+ while (Q > 0) {
+ Q = Math.floor(I / 128);
+ R = I % 128;
+
+ if (Q > 0) {
+ R += 128;
+ }
+ bytes.push(R);
+
+ I = Q;
+ }
+
+ return [Buffer.from(bytes)];
+};
+
+// The inverse algorithm:
+//
+// 1. Set I to the number coded on the lower N bits of the first byte
+// 2. If I is smaller than 2^N - 1 then return I
+// 2. Else the number is encoded on more than one byte, so do the following steps:
+// 1. Set M to 0
+// 2. While returning with I
+// 1. Let B be the next byte (the first byte if N is 0)
+// 2. Read out the lower 7 bits of B and multiply it with 2^M
+// 3. Increase I with this number
+// 4. Increase M by 7
+// 5. Return I if the most significant bit of B is 0
+
+HeaderSetDecompressor.integer = function readInteger(buffer, N) {
+ var limit = Math.pow(2,N) - 1;
+
+ var I = buffer[buffer.cursor] & limit;
+ if (N !== 0) {
+ buffer.cursor += 1;
+ }
+
+ if (I === limit) {
+ var M = 0;
+ do {
+ I += (buffer[buffer.cursor] & 127) << M;
+ M += 7;
+ buffer.cursor += 1;
+ } while (buffer[buffer.cursor - 1] & 128);
+ }
+
+ return I;
+};
+
+// ### Huffman Encoding ###
+
+function HuffmanTable(table) {
+ function createTree(codes, position) {
+ if (codes.length === 1) {
+ return [table.indexOf(codes[0])];
+ }
+
+ else {
+ position = position || 0;
+ var zero = [];
+ var one = [];
+ for (var i = 0; i < codes.length; i++) {
+ var string = codes[i];
+ if (string[position] === '0') {
+ zero.push(string);
+ } else {
+ one.push(string);
+ }
+ }
+ return [createTree(zero, position + 1), createTree(one, position + 1)];
+ }
+ }
+
+ this.tree = createTree(table);
+
+ this.codes = table.map(function(bits) {
+ return parseInt(bits, 2);
+ });
+ this.lengths = table.map(function(bits) {
+ return bits.length;
+ });
+}
+
+HuffmanTable.prototype.encode = function encode(buffer) {
+ var result = [];
+ var space = 8;
+
+ function add(data) {
+ if (space === 8) {
+ result.push(data);
+ } else {
+ result[result.length - 1] |= data;
+ }
+ }
+
+ for (var i = 0; i < buffer.length; i++) {
+ var byte = buffer[i];
+ var code = this.codes[byte];
+ var length = this.lengths[byte];
+
+ while (length !== 0) {
+ if (space >= length) {
+ add(code << (space - length));
+ code = 0;
+ space -= length;
+ length = 0;
+ } else {
+ var shift = length - space;
+ var msb = code >> shift;
+ add(msb);
+ code -= msb << shift;
+ length -= space;
+ space = 0;
+ }
+
+ if (space === 0) {
+ space = 8;
+ }
+ }
+ }
+
+ if (space !== 8) {
+ add(this.codes[256] >> (this.lengths[256] - space));
+ }
+
+ return Buffer.from(result);
+};
+
+HuffmanTable.prototype.decode = function decode(buffer) {
+ var result = [];
+ var subtree = this.tree;
+
+ for (var i = 0; i < buffer.length; i++) {
+ var byte = buffer[i];
+
+ for (var j = 0; j < 8; j++) {
+ var bit = (byte & 128) ? 1 : 0;
+ byte = byte << 1;
+
+ subtree = subtree[bit];
+ if (subtree.length === 1) {
+ result.push(subtree[0]);
+ subtree = this.tree;
+ }
+ }
+ }
+
+ return Buffer.from(result);
+};
+
+// The initializer arrays for the Huffman tables are generated with feeding the tables from the
+// spec to this sed command:
+//
+// sed -e "s/^.* [|]//g" -e "s/|//g" -e "s/ .*//g" -e "s/^/ '/g" -e "s/$/',/g"
+
+HuffmanTable.huffmanTable = new HuffmanTable([
+ '1111111111000',
+ '11111111111111111011000',
+ '1111111111111111111111100010',
+ '1111111111111111111111100011',
+ '1111111111111111111111100100',
+ '1111111111111111111111100101',
+ '1111111111111111111111100110',
+ '1111111111111111111111100111',
+ '1111111111111111111111101000',
+ '111111111111111111101010',
+ '111111111111111111111111111100',
+ '1111111111111111111111101001',
+ '1111111111111111111111101010',
+ '111111111111111111111111111101',
+ '1111111111111111111111101011',
+ '1111111111111111111111101100',
+ '1111111111111111111111101101',
+ '1111111111111111111111101110',
+ '1111111111111111111111101111',
+ '1111111111111111111111110000',
+ '1111111111111111111111110001',
+ '1111111111111111111111110010',
+ '111111111111111111111111111110',
+ '1111111111111111111111110011',
+ '1111111111111111111111110100',
+ '1111111111111111111111110101',
+ '1111111111111111111111110110',
+ '1111111111111111111111110111',
+ '1111111111111111111111111000',
+ '1111111111111111111111111001',
+ '1111111111111111111111111010',
+ '1111111111111111111111111011',
+ '010100',
+ '1111111000',
+ '1111111001',
+ '111111111010',
+ '1111111111001',
+ '010101',
+ '11111000',
+ '11111111010',
+ '1111111010',
+ '1111111011',
+ '11111001',
+ '11111111011',
+ '11111010',
+ '010110',
+ '010111',
+ '011000',
+ '00000',
+ '00001',
+ '00010',
+ '011001',
+ '011010',
+ '011011',
+ '011100',
+ '011101',
+ '011110',
+ '011111',
+ '1011100',
+ '11111011',
+ '111111111111100',
+ '100000',
+ '111111111011',
+ '1111111100',
+ '1111111111010',
+ '100001',
+ '1011101',
+ '1011110',
+ '1011111',
+ '1100000',
+ '1100001',
+ '1100010',
+ '1100011',
+ '1100100',
+ '1100101',
+ '1100110',
+ '1100111',
+ '1101000',
+ '1101001',
+ '1101010',
+ '1101011',
+ '1101100',
+ '1101101',
+ '1101110',
+ '1101111',
+ '1110000',
+ '1110001',
+ '1110010',
+ '11111100',
+ '1110011',
+ '11111101',
+ '1111111111011',
+ '1111111111111110000',
+ '1111111111100',
+ '11111111111100',
+ '100010',
+ '111111111111101',
+ '00011',
+ '100011',
+ '00100',
+ '100100',
+ '00101',
+ '100101',
+ '100110',
+ '100111',
+ '00110',
+ '1110100',
+ '1110101',
+ '101000',
+ '101001',
+ '101010',
+ '00111',
+ '101011',
+ '1110110',
+ '101100',
+ '01000',
+ '01001',
+ '101101',
+ '1110111',
+ '1111000',
+ '1111001',
+ '1111010',
+ '1111011',
+ '111111111111110',
+ '11111111100',
+ '11111111111101',
+ '1111111111101',
+ '1111111111111111111111111100',
+ '11111111111111100110',
+ '1111111111111111010010',
+ '11111111111111100111',
+ '11111111111111101000',
+ '1111111111111111010011',
+ '1111111111111111010100',
+ '1111111111111111010101',
+ '11111111111111111011001',
+ '1111111111111111010110',
+ '11111111111111111011010',
+ '11111111111111111011011',
+ '11111111111111111011100',
+ '11111111111111111011101',
+ '11111111111111111011110',
+ '111111111111111111101011',
+ '11111111111111111011111',
+ '111111111111111111101100',
+ '111111111111111111101101',
+ '1111111111111111010111',
+ '11111111111111111100000',
+ '111111111111111111101110',
+ '11111111111111111100001',
+ '11111111111111111100010',
+ '11111111111111111100011',
+ '11111111111111111100100',
+ '111111111111111011100',
+ '1111111111111111011000',
+ '11111111111111111100101',
+ '1111111111111111011001',
+ '11111111111111111100110',
+ '11111111111111111100111',
+ '111111111111111111101111',
+ '1111111111111111011010',
+ '111111111111111011101',
+ '11111111111111101001',
+ '1111111111111111011011',
+ '1111111111111111011100',
+ '11111111111111111101000',
+ '11111111111111111101001',
+ '111111111111111011110',
+ '11111111111111111101010',
+ '1111111111111111011101',
+ '1111111111111111011110',
+ '111111111111111111110000',
+ '111111111111111011111',
+ '1111111111111111011111',
+ '11111111111111111101011',
+ '11111111111111111101100',
+ '111111111111111100000',
+ '111111111111111100001',
+ '1111111111111111100000',
+ '111111111111111100010',
+ '11111111111111111101101',
+ '1111111111111111100001',
+ '11111111111111111101110',
+ '11111111111111111101111',
+ '11111111111111101010',
+ '1111111111111111100010',
+ '1111111111111111100011',
+ '1111111111111111100100',
+ '11111111111111111110000',
+ '1111111111111111100101',
+ '1111111111111111100110',
+ '11111111111111111110001',
+ '11111111111111111111100000',
+ '11111111111111111111100001',
+ '11111111111111101011',
+ '1111111111111110001',
+ '1111111111111111100111',
+ '11111111111111111110010',
+ '1111111111111111101000',
+ '1111111111111111111101100',
+ '11111111111111111111100010',
+ '11111111111111111111100011',
+ '11111111111111111111100100',
+ '111111111111111111111011110',
+ '111111111111111111111011111',
+ '11111111111111111111100101',
+ '111111111111111111110001',
+ '1111111111111111111101101',
+ '1111111111111110010',
+ '111111111111111100011',
+ '11111111111111111111100110',
+ '111111111111111111111100000',
+ '111111111111111111111100001',
+ '11111111111111111111100111',
+ '111111111111111111111100010',
+ '111111111111111111110010',
+ '111111111111111100100',
+ '111111111111111100101',
+ '11111111111111111111101000',
+ '11111111111111111111101001',
+ '1111111111111111111111111101',
+ '111111111111111111111100011',
+ '111111111111111111111100100',
+ '111111111111111111111100101',
+ '11111111111111101100',
+ '111111111111111111110011',
+ '11111111111111101101',
+ '111111111111111100110',
+ '1111111111111111101001',
+ '111111111111111100111',
+ '111111111111111101000',
+ '11111111111111111110011',
+ '1111111111111111101010',
+ '1111111111111111101011',
+ '1111111111111111111101110',
+ '1111111111111111111101111',
+ '111111111111111111110100',
+ '111111111111111111110101',
+ '11111111111111111111101010',
+ '11111111111111111110100',
+ '11111111111111111111101011',
+ '111111111111111111111100110',
+ '11111111111111111111101100',
+ '11111111111111111111101101',
+ '111111111111111111111100111',
+ '111111111111111111111101000',
+ '111111111111111111111101001',
+ '111111111111111111111101010',
+ '111111111111111111111101011',
+ '1111111111111111111111111110',
+ '111111111111111111111101100',
+ '111111111111111111111101101',
+ '111111111111111111111101110',
+ '111111111111111111111101111',
+ '111111111111111111111110000',
+ '11111111111111111111101110',
+ '111111111111111111111111111111'
+]);
+
+// ### String literal representation ###
+//
+// Literal **strings** can represent header names or header values. There's two variant of the
+// string encoding:
+//
+// String literal with Huffman encoding:
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 1 | Value Length Prefix (7) |
+// +---+---+---+---+---+---+---+---+
+// | Value Length (0-N bytes) |
+// +---+---+---+---+---+---+---+---+
+// ...
+// +---+---+---+---+---+---+---+---+
+// | Huffman Encoded Data |Padding|
+// +---+---+---+---+---+---+---+---+
+//
+// String literal without Huffman encoding:
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 0 | Value Length Prefix (7) |
+// +---+---+---+---+---+---+---+---+
+// | Value Length (0-N bytes) |
+// +---+---+---+---+---+---+---+---+
+// ...
+// +---+---+---+---+---+---+---+---+
+// | Field Bytes Without Encoding |
+// +---+---+---+---+---+---+---+---+
+
+HeaderSetCompressor.string = function writeString(str) {
+ str = Buffer.from(str, 'utf8');
+
+ var huffman = HuffmanTable.huffmanTable.encode(str);
+ if (huffman.length < str.length) {
+ var length = HeaderSetCompressor.integer(huffman.length, 7);
+ length[0][0] |= 128;
+ return length.concat(huffman);
+ }
+
+ else {
+ length = HeaderSetCompressor.integer(str.length, 7);
+ return length.concat(str);
+ }
+};
+
+HeaderSetDecompressor.string = function readString(buffer) {
+ var huffman = buffer[buffer.cursor] & 128;
+ var length = HeaderSetDecompressor.integer(buffer, 7);
+ var encoded = buffer.slice(buffer.cursor, buffer.cursor + length);
+ buffer.cursor += length;
+ return (huffman ? HuffmanTable.huffmanTable.decode(encoded) : encoded).toString('utf8');
+};
+
+// ### Header represenations ###
+
+// The JavaScript object representation is described near the
+// `HeaderSetDecompressor.prototype._execute()` method definition.
+//
+// **All binary header representations** start with a prefix signaling the representation type and
+// an index represented using prefix coded integers:
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 1 | Index (7+) | Indexed Representation
+// +---+---------------------------+
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 0 | 1 | Index (6+) |
+// +---+---+---+-------------------+ Literal w/ Indexing
+// | Value Length (8+) |
+// +-------------------------------+ w/ Indexed Name
+// | Value String (Length octets) |
+// +-------------------------------+
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 0 | 1 | 0 |
+// +---+---+---+-------------------+
+// | Name Length (8+) |
+// +-------------------------------+ Literal w/ Indexing
+// | Name String (Length octets) |
+// +-------------------------------+ w/ New Name
+// | Value Length (8+) |
+// +-------------------------------+
+// | Value String (Length octets) |
+// +-------------------------------+
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 0 | 0 | 0 | 0 | Index (4+) |
+// +---+---+---+-------------------+ Literal w/o Incremental Indexing
+// | Value Length (8+) |
+// +-------------------------------+ w/ Indexed Name
+// | Value String (Length octets) |
+// +-------------------------------+
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 0 | 0 | 0 | 0 | 0 |
+// +---+---+---+-------------------+
+// | Name Length (8+) |
+// +-------------------------------+ Literal w/o Incremental Indexing
+// | Name String (Length octets) |
+// +-------------------------------+ w/ New Name
+// | Value Length (8+) |
+// +-------------------------------+
+// | Value String (Length octets) |
+// +-------------------------------+
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 0 | 0 | 0 | 1 | Index (4+) |
+// +---+---+---+-------------------+ Literal never indexed
+// | Value Length (8+) |
+// +-------------------------------+ w/ Indexed Name
+// | Value String (Length octets) |
+// +-------------------------------+
+//
+// 0 1 2 3 4 5 6 7
+// +---+---+---+---+---+---+---+---+
+// | 0 | 0 | 0 | 1 | 0 |
+// +---+---+---+-------------------+
+// | Name Length (8+) |
+// +-------------------------------+ Literal never indexed
+// | Name String (Length octets) |
+// +-------------------------------+ w/ New Name
+// | Value Length (8+) |
+// +-------------------------------+
+// | Value String (Length octets) |
+// +-------------------------------+
+//
+// The **Indexed Representation** consists of the 1-bit prefix and the Index that is represented as
+// a 7-bit prefix coded integer and nothing else.
+//
+// After the first bits, **all literal representations** specify the header name, either as a
+// pointer to the Header Table (Index) or a string literal. When the string literal representation
+// is used, the Index is set to 0 and the string literal starts at the second byte.
+//
+// For **all literal representations**, the specification of the header value comes next. It is
+// always represented as a string.
+
+var representations = {
+ indexed : { prefix: 7, pattern: 0x80 },
+ literalIncremental : { prefix: 6, pattern: 0x40 },
+ contextUpdate : { prefix: 0, pattern: 0x20 },
+ literalNeverIndexed : { prefix: 4, pattern: 0x10 },
+ literal : { prefix: 4, pattern: 0x00 }
+};
+
+HeaderSetCompressor.header = function writeHeader(header) {
+ var representation, buffers = [];
+
+ if (header.contextUpdate) {
+ representation = representations.contextUpdate;
+ } else if (typeof header.value === 'number') {
+ representation = representations.indexed;
+ } else if (header.index) {
+ representation = representations.literalIncremental;
+ } else if (header.mustNeverIndex) {
+ representation = representations.literalNeverIndexed;
+ } else {
+ representation = representations.literal;
+ }
+
+ if (representation === representations.contextUpdate) {
+ buffers.push(HeaderSetCompressor.integer(header.newMaxSize, 5));
+ }
+
+ else if (representation === representations.indexed) {
+ buffers.push(HeaderSetCompressor.integer(header.value + 1, representation.prefix));
+ }
+
+ else {
+ if (typeof header.name === 'number') {
+ buffers.push(HeaderSetCompressor.integer(header.name + 1, representation.prefix));
+ } else {
+ buffers.push(HeaderSetCompressor.integer(0, representation.prefix));
+ buffers.push(HeaderSetCompressor.string(header.name));
+ }
+ buffers.push(HeaderSetCompressor.string(header.value));
+ }
+
+ buffers[0][0][0] |= representation.pattern;
+
+ return Array.prototype.concat.apply([], buffers); // array of arrays of buffers -> array of buffers
+};
+
+HeaderSetDecompressor.header = function readHeader(buffer) {
+ var representation, header = {};
+
+ var firstByte = buffer[buffer.cursor];
+ if (firstByte & 0x80) {
+ representation = representations.indexed;
+ } else if (firstByte & 0x40) {
+ representation = representations.literalIncremental;
+ } else if (firstByte & 0x20) {
+ representation = representations.contextUpdate;
+ } else if (firstByte & 0x10) {
+ representation = representations.literalNeverIndexed;
+ } else {
+ representation = representations.literal;
+ }
+
+ header.value = header.name = -1;
+ header.index = false;
+ header.contextUpdate = false;
+ header.newMaxSize = 0;
+ header.mustNeverIndex = false;
+
+ if (representation === representations.contextUpdate) {
+ header.contextUpdate = true;
+ header.newMaxSize = HeaderSetDecompressor.integer(buffer, 5);
+ }
+
+ else if (representation === representations.indexed) {
+ header.value = header.name = HeaderSetDecompressor.integer(buffer, representation.prefix) - 1;
+ }
+
+ else {
+ header.name = HeaderSetDecompressor.integer(buffer, representation.prefix) - 1;
+ if (header.name === -1) {
+ header.name = HeaderSetDecompressor.string(buffer);
+ }
+ header.value = HeaderSetDecompressor.string(buffer);
+ header.index = (representation === representations.literalIncremental);
+ header.mustNeverIndex = (representation === representations.literalNeverIndexed);
+ }
+
+ return header;
+};
+
+// Integration with HTTP/2
+// =======================
+
+// This section describes the interaction between the compressor/decompressor and the rest of the
+// HTTP/2 implementation. The `Compressor` and the `Decompressor` makes up a layer between the
+// [framer](framer.html) and the [connection handling component](connection.html). They let most
+// frames pass through, except HEADERS and PUSH_PROMISE frames. They convert the frames between
+// these two representations:
+//
+// { {
+// type: 'HEADERS', type: 'HEADERS',
+// flags: {}, flags: {},
+// stream: 1, <===> stream: 1,
+// headers: { data: Buffer
+// N1: 'V1', }
+// N2: ['V1', 'V2', ...],
+// // ...
+// }
+// }
+//
+// There are possibly several binary frame that belong to a single non-binary frame.
+
+var MAX_HTTP_PAYLOAD_SIZE = 16384;
+
+// The Compressor class
+// --------------------
+
+// The Compressor transform stream is basically stateless.
+util.inherits(Compressor, TransformStream);
+function Compressor(log, type) {
+ TransformStream.call(this, { objectMode: true });
+
+ this._log = log.child({ component: 'compressor' });
+
+ assert((type === 'REQUEST') || (type === 'RESPONSE'));
+ this._table = new HeaderTable(this._log);
+
+ this.tableSizeChangePending = false;
+ this.lowestTableSizePending = 0;
+ this.tableSizeSetting = DEFAULT_HEADER_TABLE_LIMIT;
+}
+
+// Changing the header table size
+Compressor.prototype.setTableSizeLimit = function setTableSizeLimit(size) {
+ this._table.setSizeLimit(size);
+ if (!this.tableSizeChangePending || size < this.lowestTableSizePending) {
+ this.lowestTableSizePending = size;
+ }
+ this.tableSizeSetting = size;
+ this.tableSizeChangePending = true;
+};
+
+// `compress` takes a header set, and compresses it using a new `HeaderSetCompressor` stream
+// instance. This means that from now on, the advantages of streaming header encoding are lost,
+// but the API becomes simpler.
+Compressor.prototype.compress = function compress(headers) {
+ var compressor = new HeaderSetCompressor(this._log, this._table);
+
+ if (this.tableSizeChangePending) {
+ if (this.lowestTableSizePending < this.tableSizeSetting) {
+ compressor.send({contextUpdate: true, newMaxSize: this.lowestTableSizePending,
+ name: "", value: "", index: 0});
+ }
+ compressor.send({contextUpdate: true, newMaxSize: this.tableSizeSetting,
+ name: "", value: "", index: 0});
+ this.tableSizeChangePending = false;
+ }
+ var colonHeaders = [];
+ var nonColonHeaders = [];
+
+ // To ensure we send colon headers first
+ for (var name in headers) {
+ if (name.trim()[0] === ':') {
+ colonHeaders.push(name);
+ } else {
+ nonColonHeaders.push(name);
+ }
+ }
+
+ function compressHeader(name) {
+ var value = headers[name];
+ name = String(name).toLowerCase();
+
+ // * To allow for better compression efficiency, the Cookie header field MAY be split into
+ // separate header fields, each with one or more cookie-pairs.
+ if (name == 'cookie') {
+ if (!(value instanceof Array)) {
+ value = [value];
+ }
+ value = Array.prototype.concat.apply([], value.map(function(cookie) {
+ return String(cookie).split(';').map(trim);
+ }));
+ }
+
+ if (value instanceof Array) {
+ for (var i = 0; i < value.length; i++) {
+ compressor.write([name, String(value[i])]);
+ }
+ } else {
+ compressor.write([name, String(value)]);
+ }
+ }
+
+ colonHeaders.forEach(compressHeader);
+ nonColonHeaders.forEach(compressHeader);
+
+ compressor.end();
+
+ var chunk, chunks = [];
+ while (chunk = compressor.read()) {
+ chunks.push(chunk);
+ }
+
+ function insertSoftIllegalHpack(originalCompressed) {
+ var illegalLiteral = Buffer.from([
+ 0x00, // Literal, no index
+ 0x08, // Name: not huffman encoded, 8 bytes long
+ 0x3a,
+ 0x69,
+ 0x6c,
+ 0x6c,
+ 0x65,
+ 0x67,
+ 0x61,
+ 0x6c, // :illegal
+ 0x10, // Value: not huffman encoded, 16 bytes long
+ // REALLY NOT LEGAL
+ 0x52,
+ 0x45,
+ 0x41,
+ 0x4c,
+ 0x4c,
+ 0x59,
+ 0x20,
+ 0x4e,
+ 0x4f,
+ 0x54,
+ 0x20,
+ 0x4c,
+ 0x45,
+ 0x47,
+ 0x41,
+ 0x4c,
+ ]);
+ var newBufferLength = originalCompressed.length + illegalLiteral.length;
+ var concatenated = Buffer.alloc(newBufferLength);
+ originalCompressed.copy(concatenated, 0);
+ illegalLiteral.copy(concatenated, originalCompressed.length);
+ return concatenated;
+ }
+
+ function insertHardIllegalHpack(originalCompressed) {
+ // Now we have to add an invalid header
+ var illegalIndexed = HeaderSetCompressor.integer(5000, 7);
+ // The above returns an array of buffers, but there's only one buffer, so
+ // get rid of the array.
+ illegalIndexed = illegalIndexed[0];
+ // Set the first bit to 1 to signal this is an indexed representation
+ illegalIndexed[0] |= 0x80;
+ var newBufferLength = originalCompressed.length + illegalIndexed.length;
+ var concatenated = Buffer.alloc(newBufferLength);
+ originalCompressed.copy(concatenated, 0);
+ illegalIndexed.copy(concatenated, originalCompressed.length);
+ return concatenated;
+ }
+
+ if ("x-softillegalhpack" in headers) {
+ return insertSoftIllegalHpack(concat(chunks));
+ }
+
+ if ("x-hardillegalhpack" in headers) {
+ return insertHardIllegalHpack(concat(chunks));
+ }
+
+ return concat(chunks);
+};
+
+// When a `frame` arrives
+Compressor.prototype._transform = function _transform(frame, encoding, done) {
+ // * and it is a HEADERS or PUSH_PROMISE frame
+ // * it generates a header block using the compress method
+ // * cuts the header block into `chunks` that are not larger than `MAX_HTTP_PAYLOAD_SIZE`
+ // * for each chunk, it pushes out a chunk frame that is identical to the original, except
+ // the `data` property which holds the given chunk, the type of the frame which is always
+ // CONTINUATION except for the first frame, and the END_HEADERS/END_PUSH_STREAM flag that
+ // marks the last frame and the END_STREAM flag which is always false before the end
+ if (frame.type === 'HEADERS' || frame.type === 'PUSH_PROMISE') {
+ var buffer = this.compress(frame.headers);
+
+ // This will result in CONTINUATIONs from a PUSH_PROMISE being 4 bytes shorter than they could
+ // be, but that's not the end of the world, and it prevents us from going over MAX_HTTP_PAYLOAD_SIZE
+ // on the initial PUSH_PROMISE frame.
+ var adjustment = frame.type === 'PUSH_PROMISE' ? 4 : 0;
+ var chunks = cut(buffer, MAX_HTTP_PAYLOAD_SIZE - adjustment);
+
+ for (var i = 0; i < chunks.length; i++) {
+ var chunkFrame;
+ var first = (i === 0);
+ var last = (i === chunks.length - 1);
+
+ if (first) {
+ chunkFrame = util._extend({}, frame);
+ chunkFrame.flags = util._extend({}, frame.flags);
+ chunkFrame.flags['END_' + frame.type] = last;
+ } else {
+ chunkFrame = {
+ type: 'CONTINUATION',
+ flags: { END_HEADERS: last },
+ stream: frame.stream
+ };
+ }
+ chunkFrame.data = chunks[i];
+
+ this.push(chunkFrame);
+ }
+ }
+
+ // * otherwise, the frame is forwarded without taking any action
+ else {
+ this.push(frame);
+ }
+
+ done();
+};
+
+// The Decompressor class
+// ----------------------
+
+// The Decompressor is a stateful transform stream, since it has to collect multiple frames first,
+// and the decoding comes after unifying the payload of those frames.
+//
+// If there's a frame in progress, `this._inProgress` is `true`. The frames are collected in
+// `this._frames`, and the type of the frame and the stream identifier is stored in `this._type`
+// and `this._stream` respectively.
+util.inherits(Decompressor, TransformStream);
+function Decompressor(log, type) {
+ TransformStream.call(this, { objectMode: true });
+
+ this._log = log.child({ component: 'compressor' });
+
+ assert((type === 'REQUEST') || (type === 'RESPONSE'));
+ this._table = new HeaderTable(this._log);
+
+ this._inProgress = false;
+ this._base = undefined;
+}
+
+// Changing the header table size
+Decompressor.prototype.setTableSizeLimit = function setTableSizeLimit(size) {
+ this._table.setSizeLimit(size);
+};
+
+// `decompress` takes a full header block, and decompresses it using a new `HeaderSetDecompressor`
+// stream instance. This means that from now on, the advantages of streaming header decoding are
+// lost, but the API becomes simpler.
+Decompressor.prototype.decompress = function decompress(block) {
+ var decompressor = new HeaderSetDecompressor(this._log, this._table);
+ decompressor.end(block);
+
+ var seenNonColonHeader = false;
+ var headers = {};
+ var pair;
+ while (pair = decompressor.read()) {
+ var name = pair[0];
+ var value = pair[1];
+ var isColonHeader = (name.trim()[0] === ':');
+ if (seenNonColonHeader && isColonHeader) {
+ this.emit('error', 'PROTOCOL_ERROR');
+ return headers;
+ }
+ seenNonColonHeader = !isColonHeader;
+ if (name in headers) {
+ if (headers[name] instanceof Array) {
+ headers[name].push(value);
+ } else {
+ headers[name] = [headers[name], value];
+ }
+ } else {
+ headers[name] = value;
+ }
+ }
+
+ // * If there are multiple Cookie header fields after decompression, these MUST be concatenated
+ // into a single octet string using the two octet delimiter of 0x3B, 0x20 (the ASCII
+ // string "; ").
+ if (('cookie' in headers) && (headers['cookie'] instanceof Array)) {
+ headers['cookie'] = headers['cookie'].join('; ');
+ }
+
+ return headers;
+};
+
+// When a `frame` arrives
+Decompressor.prototype._transform = function _transform(frame, encoding, done) {
+ // * and the collection process is already `_inProgress`, the frame is simply stored, except if
+ // it's an illegal frame
+ if (this._inProgress) {
+ if ((frame.type !== 'CONTINUATION') || (frame.stream !== this._base.stream)) {
+ this._log.error('A series of HEADER frames were not continuous');
+ this.emit('error', 'PROTOCOL_ERROR');
+ return;
+ }
+ this._frames.push(frame);
+ }
+
+ // * and the collection process is not `_inProgress`, but the new frame's type is HEADERS or
+ // PUSH_PROMISE, a new collection process begins
+ else if ((frame.type === 'HEADERS') || (frame.type === 'PUSH_PROMISE')) {
+ this._inProgress = true;
+ this._base = util._extend({}, frame);
+ this._frames = [frame];
+ }
+
+ // * otherwise, the frame is forwarded without taking any action
+ else {
+ this.push(frame);
+ }
+
+ // * When the frame signals that it's the last in the series, the header block chunks are
+ // concatenated, the headers are decompressed, and a new frame gets pushed out with the
+ // decompressed headers.
+ if (this._inProgress && (frame.flags.END_HEADERS || frame.flags.END_PUSH_PROMISE)) {
+ var buffer = concat(this._frames.map(function(frame) {
+ return frame.data;
+ }));
+ try {
+ var headers = this.decompress(buffer);
+ } catch(error) {
+ this._log.error({ err: error }, 'Header decompression error');
+ this.emit('error', 'COMPRESSION_ERROR');
+ return;
+ }
+ this.push(util._extend(this._base, { headers: headers }));
+ this._inProgress = false;
+ }
+
+ done();
+};
+
+// Helper functions
+// ================
+
+// Concatenate an array of buffers into a new buffer
+function concat(buffers) {
+ var size = 0;
+ for (var i = 0; i < buffers.length; i++) {
+ size += buffers[i].length;
+ }
+
+ var concatenated = Buffer.alloc(size);
+ for (var cursor = 0, j = 0; j < buffers.length; cursor += buffers[j].length, j++) {
+ buffers[j].copy(concatenated, cursor);
+ }
+
+ return concatenated;
+}
+
+// Cut `buffer` into chunks not larger than `size`
+function cut(buffer, size) {
+ var chunks = [];
+ var cursor = 0;
+ do {
+ var chunkSize = Math.min(size, buffer.length - cursor);
+ chunks.push(buffer.slice(cursor, cursor + chunkSize));
+ cursor += chunkSize;
+ } while(cursor < buffer.length);
+ return chunks;
+}
+
+function trim(string) {
+ return string.trim();
+}
diff --git a/testing/xpcshell/node-http2/lib/protocol/connection.js b/testing/xpcshell/node-http2/lib/protocol/connection.js
new file mode 100644
index 0000000000..8c203675fa
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/protocol/connection.js
@@ -0,0 +1,630 @@
+var assert = require('assert');
+
+// The Connection class
+// ====================
+
+// The Connection class manages HTTP/2 connections. Each instance corresponds to one transport
+// stream (TCP stream). It operates by sending and receiving frames and is implemented as a
+// [Flow](flow.html) subclass.
+
+var Flow = require('./flow').Flow;
+
+exports.Connection = Connection;
+
+// Public API
+// ----------
+
+// * **new Connection(log, firstStreamId, settings)**: create a new Connection
+//
+// * **Event: 'error' (type)**: signals a connection level error made by the other end
+//
+// * **Event: 'peerError' (type)**: signals the receipt of a GOAWAY frame that contains an error
+// code other than NO_ERROR
+//
+// * **Event: 'stream' (stream)**: signals that there's an incoming stream
+//
+// * **createStream(): stream**: initiate a new stream
+//
+// * **set(settings, callback)**: change the value of one or more settings according to the
+// key-value pairs of `settings`. The callback is called after the peer acknowledged the changes.
+//
+// * **ping([callback])**: send a ping and call callback when the answer arrives
+//
+// * **close([error])**: close the stream with an error code
+
+// Constructor
+// -----------
+
+// The main aspects of managing the connection are:
+function Connection(log, firstStreamId, settings) {
+ // * initializing the base class
+ Flow.call(this, 0);
+
+ // * logging: every method uses the common logger object
+ this._log = log.child({ component: 'connection' });
+
+ // * stream management
+ this._initializeStreamManagement(firstStreamId);
+
+ // * lifecycle management
+ this._initializeLifecycleManagement();
+
+ // * flow control
+ this._initializeFlowControl();
+
+ // * settings management
+ this._initializeSettingsManagement(settings);
+
+ // * multiplexing
+ this._initializeMultiplexing();
+}
+Connection.prototype = Object.create(Flow.prototype, { constructor: { value: Connection } });
+
+// Overview
+// --------
+
+// | ^ | ^
+// v | v |
+// +--------------+ +--------------+
+// +---| stream1 |---| stream2 |---- .... ---+
+// | | +----------+ | | +----------+ | |
+// | | | stream1. | | | | stream2. | | |
+// | +-| upstream |-+ +-| upstream |-+ |
+// | +----------+ +----------+ |
+// | | ^ | ^ |
+// | v | v | |
+// | +-----+-------------+-----+-------- .... |
+// | ^ | | | |
+// | | v | | |
+// | +--------------+ | | |
+// | | stream0 | | | |
+// | | connection | | | |
+// | | management | multiplexing |
+// | +--------------+ flow control |
+// | | ^ |
+// | _read() | | _write() |
+// | v | |
+// | +------------+ +-----------+ |
+// | |output queue| |input queue| |
+// +----------------+------------+-+-----------+-----------------+
+// | ^
+// read() | | write()
+// v |
+
+// Stream management
+// -----------------
+
+var Stream = require('./stream').Stream;
+
+// Initialization:
+Connection.prototype._initializeStreamManagement = function _initializeStreamManagement(firstStreamId) {
+ // * streams are stored in two data structures:
+ // * `_streamIds` is an id -> stream map of the streams that are allowed to receive frames.
+ // * `_streamPriorities` is a priority -> [stream] map of stream that allowed to send frames.
+ this._streamIds = [];
+ this._streamPriorities = [];
+
+ // * The next outbound stream ID and the last inbound stream id
+ this._nextStreamId = firstStreamId;
+ this._lastIncomingStream = 0;
+
+ // * Calling `_writeControlFrame` when there's an incoming stream with 0 as stream ID
+ this._streamIds[0] = { upstream: { write: this._writeControlFrame.bind(this) } };
+
+ // * By default, the number of concurrent outbound streams is not limited. The `_streamLimit` can
+ // be set by the SETTINGS_MAX_CONCURRENT_STREAMS setting.
+ this._streamSlotsFree = Infinity;
+ this._streamLimit = Infinity;
+ this.on('RECEIVING_SETTINGS_MAX_CONCURRENT_STREAMS', this._updateStreamLimit);
+};
+
+// `_writeControlFrame` is called when there's an incoming frame in the `_control` stream. It
+// broadcasts the message by creating an event on it.
+Connection.prototype._writeControlFrame = function _writeControlFrame(frame) {
+ if ((frame.type === 'SETTINGS') || (frame.type === 'PING') ||
+ (frame.type === 'GOAWAY') || (frame.type === 'WINDOW_UPDATE') ||
+ (frame.type === 'ALTSVC') || (frame.type == 'ORIGIN')) {
+ this._log.debug({ frame: frame }, 'Receiving connection level frame');
+ this.emit(frame.type, frame);
+ } else {
+ this._log.error({ frame: frame }, 'Invalid connection level frame');
+ this.emit('error', 'PROTOCOL_ERROR');
+ }
+};
+
+// Methods to manage the stream slot pool:
+Connection.prototype._updateStreamLimit = function _updateStreamLimit(newStreamLimit) {
+ var wakeup = (this._streamSlotsFree === 0) && (newStreamLimit > this._streamLimit);
+ this._streamSlotsFree += newStreamLimit - this._streamLimit;
+ this._streamLimit = newStreamLimit;
+ if (wakeup) {
+ this.emit('wakeup');
+ }
+};
+
+Connection.prototype._changeStreamCount = function _changeStreamCount(change) {
+ if (change) {
+ this._log.trace({ free: this._streamSlotsFree, change: change },
+ 'Changing active stream count.');
+ var wakeup = (this._streamSlotsFree === 0) && (change < 0);
+ this._streamSlotsFree -= change;
+ if (wakeup) {
+ this.emit('wakeup');
+ }
+ }
+};
+
+// Creating a new *inbound or outbound* stream with the given `id` (which is undefined in case of
+// an outbound stream) consists of three steps:
+//
+// 1. var stream = new Stream(this._log, this);
+// 2. this._allocateId(stream, id);
+// 2. this._allocatePriority(stream);
+
+// Allocating an ID to a stream
+Connection.prototype._allocateId = function _allocateId(stream, id) {
+ // * initiated stream without definite ID
+ if (id === undefined) {
+ id = this._nextStreamId;
+ this._nextStreamId += 2;
+ }
+
+ // * incoming stream with a legitim ID (larger than any previous and different parity than ours)
+ else if ((id > this._lastIncomingStream) && ((id - this._nextStreamId) % 2 !== 0)) {
+ this._lastIncomingStream = id;
+ }
+
+ // * incoming stream with invalid ID
+ else {
+ this._log.error({ stream_id: id, lastIncomingStream: this._lastIncomingStream },
+ 'Invalid incoming stream ID.');
+ this.emit('error', 'PROTOCOL_ERROR');
+ return undefined;
+ }
+
+ assert(!(id in this._streamIds));
+
+ // * adding to `this._streamIds`
+ this._log.trace({ s: stream, stream_id: id }, 'Allocating ID for stream.');
+ this._streamIds[id] = stream;
+ stream.id = id;
+ this.emit('new_stream', stream, id);
+
+ // * forwarding connection errors from streams
+ stream.on('connectionError', this.emit.bind(this, 'error'));
+
+ return id;
+};
+
+// Allocating a priority to a stream, and managing priority changes
+Connection.prototype._allocatePriority = function _allocatePriority(stream) {
+ this._log.trace({ s: stream }, 'Allocating priority for stream.');
+ this._insert(stream, stream._priority);
+ stream.on('priority', this._reprioritize.bind(this, stream));
+ stream.upstream.on('readable', this.emit.bind(this, 'wakeup'));
+ this.emit('wakeup');
+};
+
+Connection.prototype._insert = function _insert(stream, priority) {
+ if (priority in this._streamPriorities) {
+ this._streamPriorities[priority].push(stream);
+ } else {
+ this._streamPriorities[priority] = [stream];
+ }
+};
+
+Connection.prototype._reprioritize = function _reprioritize(stream, priority) {
+ var bucket = this._streamPriorities[stream._priority];
+ var index = bucket.indexOf(stream);
+ assert(index !== -1);
+ bucket.splice(index, 1);
+ if (bucket.length === 0) {
+ delete this._streamPriorities[stream._priority];
+ }
+
+ this._insert(stream, priority);
+};
+
+// Creating an *inbound* stream with the given ID. It is called when there's an incoming frame to
+// a previously nonexistent stream.
+Connection.prototype._createIncomingStream = function _createIncomingStream(id) {
+ this._log.debug({ stream_id: id }, 'New incoming stream.');
+
+ var stream = new Stream(this._log, this);
+ this._allocateId(stream, id);
+ this._allocatePriority(stream);
+ this.emit('stream', stream, id);
+
+ return stream;
+};
+
+// Creating an *outbound* stream
+Connection.prototype.createStream = function createStream() {
+ this._log.trace('Creating new outbound stream.');
+
+ // * Receiving is enabled immediately, and an ID gets assigned to the stream
+ var stream = new Stream(this._log, this);
+ this._allocatePriority(stream);
+
+ return stream;
+};
+
+// Multiplexing
+// ------------
+
+Connection.prototype._initializeMultiplexing = function _initializeMultiplexing() {
+ this.on('window_update', this.emit.bind(this, 'wakeup'));
+ this._sendScheduled = false;
+ this._firstFrameReceived = false;
+};
+
+// The `_send` method is a virtual method of the [Flow class](flow.html) that has to be implemented
+// by child classes. It reads frames from streams and pushes them to the output buffer.
+Connection.prototype._send = function _send(immediate) {
+ // * Do not do anything if the connection is already closed
+ if (this._closed) {
+ return;
+ }
+
+ // * Collapsing multiple calls in a turn into a single deferred call
+ if (immediate) {
+ this._sendScheduled = false;
+ } else {
+ if (!this._sendScheduled) {
+ this._sendScheduled = true;
+ setImmediate(this._send.bind(this, true));
+ }
+ return;
+ }
+
+ this._log.trace('Starting forwarding frames from streams.');
+
+ // * Looping through priority `bucket`s in priority order.
+priority_loop:
+ for (var priority in this._streamPriorities) {
+ var bucket = this._streamPriorities[priority];
+ var nextBucket = [];
+
+ // * Forwarding frames from buckets with round-robin scheduling.
+ // 1. pulling out frame
+ // 2. if there's no frame, skip this stream
+ // 3. if forwarding this frame would make `streamCount` greater than `streamLimit`, skip
+ // this stream
+ // 4. adding stream to the bucket of the next round
+ // 5. assigning an ID to the frame (allocating an ID to the stream if there isn't already)
+ // 6. if forwarding a PUSH_PROMISE, allocate ID to the promised stream
+ // 7. forwarding the frame, changing `streamCount` as appropriate
+ // 8. stepping to the next stream if there's still more frame needed in the output buffer
+ // 9. switching to the bucket of the next round
+ while (bucket.length > 0) {
+ for (var index = 0; index < bucket.length; index++) {
+ var stream = bucket[index];
+ var frame = stream.upstream.read((this._window > 0) ? this._window : -1);
+
+ if (!frame) {
+ continue;
+ } else if (frame.count_change > this._streamSlotsFree) {
+ stream.upstream.unshift(frame);
+ continue;
+ }
+
+ nextBucket.push(stream);
+
+ if (frame.stream === undefined) {
+ frame.stream = stream.id || this._allocateId(stream);
+ }
+
+ if (frame.type === 'PUSH_PROMISE') {
+ this._allocatePriority(frame.promised_stream);
+ frame.promised_stream = this._allocateId(frame.promised_stream);
+ }
+
+ this._log.trace({ s: stream, frame: frame }, 'Forwarding outgoing frame');
+ var moreNeeded = this.push(frame);
+ this._changeStreamCount(frame.count_change);
+
+ assert(moreNeeded !== null); // The frame shouldn't be unforwarded
+ if (moreNeeded === false) {
+ break priority_loop;
+ }
+ }
+
+ bucket = nextBucket;
+ nextBucket = [];
+ }
+ }
+
+ // * if we couldn't forward any frame, then sleep until window update, or some other wakeup event
+ if (moreNeeded === undefined) {
+ this.once('wakeup', this._send.bind(this));
+ }
+
+ this._log.trace({ moreNeeded: moreNeeded }, 'Stopping forwarding frames from streams.');
+};
+
+// The `_receive` method is another virtual method of the [Flow class](flow.html) that has to be
+// implemented by child classes. It forwards the given frame to the appropriate stream:
+Connection.prototype._receive = function _receive(frame, done) {
+ this._log.trace({ frame: frame }, 'Forwarding incoming frame');
+
+ // * first frame needs to be checked by the `_onFirstFrameReceived` method
+ if (!this._firstFrameReceived) {
+ this._firstFrameReceived = true;
+ this._onFirstFrameReceived(frame);
+ }
+
+ // Do some sanity checking here before we create a stream
+ if ((frame.type == 'SETTINGS' ||
+ frame.type == 'PING' ||
+ frame.type == 'GOAWAY') &&
+ frame.stream != 0) {
+ // Got connection-level frame on a stream - EEP!
+ this.close('PROTOCOL_ERROR');
+ return;
+ } else if ((frame.type == 'DATA' ||
+ frame.type == 'HEADERS' ||
+ frame.type == 'PRIORITY' ||
+ frame.type == 'RST_STREAM' ||
+ frame.type == 'PUSH_PROMISE' ||
+ frame.type == 'CONTINUATION') &&
+ frame.stream == 0) {
+ // Got stream-level frame on connection - EEP!
+ this.close('PROTOCOL_ERROR');
+ return;
+ }
+ // WINDOW_UPDATE can be on either stream or connection
+
+ // * gets the appropriate stream from the stream registry
+ var stream = this._streamIds[frame.stream];
+
+ // * or creates one if it's not in `this.streams`
+ if (!stream) {
+ stream = this._createIncomingStream(frame.stream);
+ }
+
+ // * in case of PUSH_PROMISE, replaces the promised stream id with a new incoming stream
+ if (frame.type === 'PUSH_PROMISE') {
+ frame.promised_stream = this._createIncomingStream(frame.promised_stream);
+ }
+
+ frame.count_change = this._changeStreamCount.bind(this);
+
+ // * and writes it to the `stream`'s `upstream`
+ stream.upstream.write(frame);
+
+ done();
+};
+
+// Settings management
+// -------------------
+
+var defaultSettings = {
+};
+
+// Settings management initialization:
+Connection.prototype._initializeSettingsManagement = function _initializeSettingsManagement(settings) {
+ // * Setting up the callback queue for setting acknowledgements
+ this._settingsAckCallbacks = [];
+
+ // * Sending the initial settings.
+ this._log.debug({ settings: settings },
+ 'Sending the first SETTINGS frame as part of the connection header.');
+ this.set(settings || defaultSettings);
+
+ // * Forwarding SETTINGS frames to the `_receiveSettings` method
+ this.on('SETTINGS', this._receiveSettings);
+ this.on('RECEIVING_SETTINGS_MAX_FRAME_SIZE', this._sanityCheckMaxFrameSize);
+};
+
+// * Checking that the first frame the other endpoint sends is SETTINGS
+Connection.prototype._onFirstFrameReceived = function _onFirstFrameReceived(frame) {
+ if ((frame.stream === 0) && (frame.type === 'SETTINGS')) {
+ this._log.debug('Receiving the first SETTINGS frame as part of the connection header.');
+ } else {
+ this._log.fatal({ frame: frame }, 'Invalid connection header: first frame is not SETTINGS.');
+ this.emit('error', 'PROTOCOL_ERROR');
+ }
+};
+
+// Handling of incoming SETTINGS frames.
+Connection.prototype._receiveSettings = function _receiveSettings(frame) {
+ // * If it's an ACK, call the appropriate callback
+ if (frame.flags.ACK) {
+ var callback = this._settingsAckCallbacks.shift();
+ if (callback) {
+ callback();
+ }
+ }
+
+ // * If it's a setting change request, then send an ACK and change the appropriate settings
+ else {
+ if (!this._closed) {
+ this.push({
+ type: 'SETTINGS',
+ flags: { ACK: true },
+ stream: 0,
+ settings: {}
+ });
+ }
+ for (var name in frame.settings) {
+ this.emit('RECEIVING_' + name, frame.settings[name]);
+ }
+ }
+};
+
+Connection.prototype._sanityCheckMaxFrameSize = function _sanityCheckMaxFrameSize(value) {
+ if ((value < 0x4000) || (value >= 0x01000000)) {
+ this._log.fatal('Received invalid value for max frame size: ' + value);
+ this.emit('error');
+ }
+};
+
+// Changing one or more settings value and sending out a SETTINGS frame
+Connection.prototype.set = function set(settings, callback) {
+ // * Calling the callback and emitting event when the change is acknowledges
+ var self = this;
+ this._settingsAckCallbacks.push(function() {
+ for (var name in settings) {
+ self.emit('ACKNOWLEDGED_' + name, settings[name]);
+ }
+ if (callback) {
+ callback();
+ }
+ });
+
+ // * Sending out the SETTINGS frame
+ this.push({
+ type: 'SETTINGS',
+ flags: { ACK: false },
+ stream: 0,
+ settings: settings
+ });
+ for (var name in settings) {
+ this.emit('SENDING_' + name, settings[name]);
+ }
+};
+
+// Lifecycle management
+// --------------------
+
+// The main responsibilities of lifecycle management code:
+//
+// * keeping the connection alive by
+// * sending PINGs when the connection is idle
+// * answering PINGs
+// * ending the connection
+
+Connection.prototype._initializeLifecycleManagement = function _initializeLifecycleManagement() {
+ this._pings = {};
+ this.on('PING', this._receivePing);
+ this.on('GOAWAY', this._receiveGoaway);
+ this._closed = false;
+};
+
+// Generating a string of length 16 with random hexadecimal digits
+Connection.prototype._generatePingId = function _generatePingId() {
+ do {
+ var id = '';
+ for (var i = 0; i < 16; i++) {
+ id += Math.floor(Math.random()*16).toString(16);
+ }
+ } while(id in this._pings);
+ return id;
+};
+
+// Sending a ping and calling `callback` when the answer arrives
+Connection.prototype.ping = function ping(callback) {
+ var id = this._generatePingId();
+ var data = Buffer.from(id, 'hex');
+ this._pings[id] = callback;
+
+ this._log.debug({ data: data }, 'Sending PING.');
+ this.push({
+ type: 'PING',
+ flags: {
+ ACK: false
+ },
+ stream: 0,
+ data: data
+ });
+};
+
+// Answering pings
+Connection.prototype._receivePing = function _receivePing(frame) {
+ if (frame.flags.ACK) {
+ var id = frame.data.toString('hex');
+ if (id in this._pings) {
+ this._log.debug({ data: frame.data }, 'Receiving answer for a PING.');
+ var callback = this._pings[id];
+ if (callback) {
+ callback();
+ }
+ delete this._pings[id];
+ } else {
+ this._log.warn({ data: frame.data }, 'Unsolicited PING answer.');
+ }
+
+ } else {
+ this._log.debug({ data: frame.data }, 'Answering PING.');
+ this.push({
+ type: 'PING',
+ flags: {
+ ACK: true
+ },
+ stream: 0,
+ data: frame.data
+ });
+ }
+};
+
+Connection.prototype.originFrame = function originFrame(originList) {
+ this._log.debug(originList, 'emitting origin frame');
+
+ this.push({
+ type: 'ORIGIN',
+ flags: {},
+ stream: 0,
+ originList : originList,
+ });
+};
+
+// Terminating the connection
+Connection.prototype.close = function close(error) {
+ if (this._closed) {
+ this._log.warn('Trying to close an already closed connection');
+ return;
+ }
+
+ this._log.debug({ error: error }, 'Closing the connection');
+ this.push({
+ type: 'GOAWAY',
+ flags: {},
+ stream: 0,
+ last_stream: this._lastIncomingStream,
+ error: error || 'NO_ERROR'
+ });
+ this.push(null);
+ this._closed = true;
+};
+
+Connection.prototype._receiveGoaway = function _receiveGoaway(frame) {
+ this._log.debug({ error: frame.error }, 'Other end closed the connection');
+ this.push(null);
+ this._closed = true;
+ if (frame.error !== 'NO_ERROR') {
+ this.emit('peerError', frame.error);
+ }
+};
+
+// Flow control
+// ------------
+
+Connection.prototype._initializeFlowControl = function _initializeFlowControl() {
+ // Handling of initial window size of individual streams.
+ this._initialStreamWindowSize = INITIAL_STREAM_WINDOW_SIZE;
+ this.on('new_stream', function(stream) {
+ stream.upstream.setInitialWindow(this._initialStreamWindowSize);
+ });
+ this.on('RECEIVING_SETTINGS_INITIAL_WINDOW_SIZE', this._setInitialStreamWindowSize);
+ this._streamIds[0].upstream.setInitialWindow = function noop() {};
+};
+
+// The initial connection flow control window is 65535 bytes.
+var INITIAL_STREAM_WINDOW_SIZE = 65535;
+
+// A SETTINGS frame can alter the initial flow control window size for all current streams. When the
+// value of SETTINGS_INITIAL_WINDOW_SIZE changes, a receiver MUST adjust the window size of all
+// stream by calling the `setInitialStreamWindowSize` method. The window size has to be modified by
+// the difference between the new value and the old value.
+Connection.prototype._setInitialStreamWindowSize = function _setInitialStreamWindowSize(size) {
+ if ((this._initialStreamWindowSize === Infinity) && (size !== Infinity)) {
+ this._log.error('Trying to manipulate initial flow control window size after flow control was turned off.');
+ this.emit('error', 'FLOW_CONTROL_ERROR');
+ } else {
+ this._log.debug({ size: size }, 'Changing stream initial window size.');
+ this._initialStreamWindowSize = size;
+ this._streamIds.forEach(function(stream) {
+ stream.upstream.setInitialWindow(size);
+ });
+ }
+};
diff --git a/testing/xpcshell/node-http2/lib/protocol/endpoint.js b/testing/xpcshell/node-http2/lib/protocol/endpoint.js
new file mode 100644
index 0000000000..127f4c4c5c
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/protocol/endpoint.js
@@ -0,0 +1,262 @@
+var assert = require('assert');
+
+var Serializer = require('./framer').Serializer;
+var Deserializer = require('./framer').Deserializer;
+var Compressor = require('./compressor').Compressor;
+var Decompressor = require('./compressor').Decompressor;
+var Connection = require('./connection').Connection;
+var Duplex = require('stream').Duplex;
+var Transform = require('stream').Transform;
+
+exports.Endpoint = Endpoint;
+
+// The Endpoint class
+// ==================
+
+// Public API
+// ----------
+
+// - **new Endpoint(log, role, settings, filters)**: create a new Endpoint.
+//
+// - `log`: bunyan logger of the parent
+// - `role`: 'CLIENT' or 'SERVER'
+// - `settings`: initial HTTP/2 settings
+// - `filters`: a map of functions that filter the traffic between components (for debugging or
+// intentional failure injection).
+//
+// Filter functions get three arguments:
+// 1. `frame`: the current frame
+// 2. `forward(frame)`: function that can be used to forward a frame to the next component
+// 3. `done()`: callback to signal the end of the filter process
+//
+// Valid filter names and their position in the stack:
+// - `beforeSerialization`: after compression, before serialization
+// - `beforeCompression`: after multiplexing, before compression
+// - `afterDeserialization`: after deserialization, before decompression
+// - `afterDecompression`: after decompression, before multiplexing
+//
+// * **Event: 'stream' (Stream)**: 'stream' event forwarded from the underlying Connection
+//
+// * **Event: 'error' (type)**: signals an error
+//
+// * **createStream(): Stream**: initiate a new stream (forwarded to the underlying Connection)
+//
+// * **close([error])**: close the connection with an error code
+
+// Constructor
+// -----------
+
+// The process of initialization:
+function Endpoint(log, role, settings, filters) {
+ Duplex.call(this);
+
+ // * Initializing logging infrastructure
+ this._log = log.child({ component: 'endpoint', e: this });
+
+ // * First part of the handshake process: sending and receiving the client connection header
+ // prelude.
+ assert((role === 'CLIENT') || role === 'SERVER');
+ if (role === 'CLIENT') {
+ this._writePrelude();
+ } else {
+ this._readPrelude();
+ }
+
+ // * Initialization of component. This includes the second part of the handshake process:
+ // sending the first SETTINGS frame. This is done by the connection class right after
+ // initialization.
+ this._initializeDataFlow(role, settings, filters || {});
+
+ // * Initialization of management code.
+ this._initializeManagement();
+
+ // * Initializing error handling.
+ this._initializeErrorHandling();
+}
+Endpoint.prototype = Object.create(Duplex.prototype, { constructor: { value: Endpoint } });
+
+// Handshake
+// ---------
+
+var CLIENT_PRELUDE = Buffer.from('PRI * HTTP/2.0\r\n\r\nSM\r\n\r\n');
+
+// Writing the client header is simple and synchronous.
+Endpoint.prototype._writePrelude = function _writePrelude() {
+ this._log.debug('Sending the client connection header prelude.');
+ this.push(CLIENT_PRELUDE);
+};
+
+// The asynchronous process of reading the client header:
+Endpoint.prototype._readPrelude = function _readPrelude() {
+ // * progress in the header is tracker using a `cursor`
+ var cursor = 0;
+
+ // * `_write` is temporarily replaced by the comparator function
+ this._write = function _temporalWrite(chunk, encoding, done) {
+ // * which compares the stored header with the current `chunk` byte by byte and emits the
+ // 'error' event if there's a byte that doesn't match
+ var offset = cursor;
+ while(cursor < CLIENT_PRELUDE.length && (cursor - offset) < chunk.length) {
+ if (CLIENT_PRELUDE[cursor] !== chunk[cursor - offset]) {
+ this._log.fatal({ cursor: cursor, offset: offset, chunk: chunk },
+ 'Client connection header prelude does not match.');
+ this._error('handshake', 'PROTOCOL_ERROR');
+ return;
+ }
+ cursor += 1;
+ }
+
+ // * if the whole header is over, and there were no error then restore the original `_write`
+ // and call it with the remaining part of the current chunk
+ if (cursor === CLIENT_PRELUDE.length) {
+ this._log.debug('Successfully received the client connection header prelude.');
+ delete this._write;
+ chunk = chunk.slice(cursor - offset);
+ this._write(chunk, encoding, done);
+ }
+ };
+};
+
+// Data flow
+// ---------
+
+// +---------------------------------------------+
+// | |
+// | +-------------------------------------+ |
+// | | +---------+ +---------+ +---------+ | |
+// | | | stream1 | | stream2 | | ... | | |
+// | | +---------+ +---------+ +---------+ | |
+// | | connection | |
+// | +-------------------------------------+ |
+// | | ^ |
+// | pipe | | pipe |
+// | v | |
+// | +------------------+------------------+ |
+// | | compressor | decompressor | |
+// | +------------------+------------------+ |
+// | | ^ |
+// | pipe | | pipe |
+// | v | |
+// | +------------------+------------------+ |
+// | | serializer | deserializer | |
+// | +------------------+------------------+ |
+// | | ^ |
+// | _read() | | _write() |
+// | v | |
+// | +------------+ +-----------+ |
+// | |output queue| |input queue| |
+// +------+------------+-----+-----------+-------+
+// | ^
+// read() | | write()
+// v |
+
+function createTransformStream(filter) {
+ var transform = new Transform({ objectMode: true });
+ var push = transform.push.bind(transform);
+ transform._transform = function(frame, encoding, done) {
+ filter(frame, push, done);
+ };
+ return transform;
+}
+
+function pipeAndFilter(stream1, stream2, filter) {
+ if (filter) {
+ stream1.pipe(createTransformStream(filter)).pipe(stream2);
+ } else {
+ stream1.pipe(stream2);
+ }
+}
+
+Endpoint.prototype._initializeDataFlow = function _initializeDataFlow(role, settings, filters) {
+ var firstStreamId, compressorRole, decompressorRole;
+ if (role === 'CLIENT') {
+ firstStreamId = 1;
+ compressorRole = 'REQUEST';
+ decompressorRole = 'RESPONSE';
+ } else {
+ firstStreamId = 2;
+ compressorRole = 'RESPONSE';
+ decompressorRole = 'REQUEST';
+ }
+
+ this._serializer = new Serializer(this._log);
+ this._deserializer = new Deserializer(this._log);
+ this._compressor = new Compressor(this._log, compressorRole);
+ this._decompressor = new Decompressor(this._log, decompressorRole);
+ this._connection = new Connection(this._log, firstStreamId, settings);
+
+ pipeAndFilter(this._connection, this._compressor, filters.beforeCompression);
+ pipeAndFilter(this._compressor, this._serializer, filters.beforeSerialization);
+ pipeAndFilter(this._deserializer, this._decompressor, filters.afterDeserialization);
+ pipeAndFilter(this._decompressor, this._connection, filters.afterDecompression);
+
+ this._connection.on('ACKNOWLEDGED_SETTINGS_HEADER_TABLE_SIZE',
+ this._decompressor.setTableSizeLimit.bind(this._decompressor));
+ this._connection.on('RECEIVING_SETTINGS_HEADER_TABLE_SIZE',
+ this._compressor.setTableSizeLimit.bind(this._compressor));
+};
+
+var noread = {};
+Endpoint.prototype._read = function _read() {
+ this._readableState.sync = true;
+ var moreNeeded = noread, chunk;
+ while (moreNeeded && (chunk = this._serializer.read())) {
+ moreNeeded = this.push(chunk);
+ }
+ if (moreNeeded === noread) {
+ this._serializer.once('readable', this._read.bind(this));
+ }
+ this._readableState.sync = false;
+};
+
+Endpoint.prototype._write = function _write(chunk, encoding, done) {
+ this._deserializer.write(chunk, encoding, done);
+};
+
+// Management
+// --------------
+
+Endpoint.prototype._initializeManagement = function _initializeManagement() {
+ this._connection.on('stream', this.emit.bind(this, 'stream'));
+};
+
+Endpoint.prototype.createStream = function createStream() {
+ return this._connection.createStream();
+};
+
+// Error handling
+// --------------
+
+Endpoint.prototype._initializeErrorHandling = function _initializeErrorHandling() {
+ this._serializer.on('error', this._error.bind(this, 'serializer'));
+ this._deserializer.on('error', this._error.bind(this, 'deserializer'));
+ this._compressor.on('error', this._error.bind(this, 'compressor'));
+ this._decompressor.on('error', this._error.bind(this, 'decompressor'));
+ this._connection.on('error', this._error.bind(this, 'connection'));
+
+ this._connection.on('peerError', this.emit.bind(this, 'peerError'));
+};
+
+Endpoint.prototype._error = function _error(component, error) {
+ this._log.fatal({ source: component, message: error }, 'Fatal error, closing connection');
+ this.close(error);
+ setImmediate(this.emit.bind(this, 'error', error));
+};
+
+Endpoint.prototype.close = function close(error) {
+ this._connection.close(error);
+};
+
+// Bunyan serializers
+// ------------------
+
+exports.serializers = {};
+
+var nextId = 0;
+exports.serializers.e = function(endpoint) {
+ if (!('id' in endpoint)) {
+ endpoint.id = nextId;
+ nextId += 1;
+ }
+ return endpoint.id;
+};
diff --git a/testing/xpcshell/node-http2/lib/protocol/flow.js b/testing/xpcshell/node-http2/lib/protocol/flow.js
new file mode 100644
index 0000000000..6bec857551
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/protocol/flow.js
@@ -0,0 +1,345 @@
+var assert = require('assert');
+
+// The Flow class
+// ==============
+
+// Flow is a [Duplex stream][1] subclass which implements HTTP/2 flow control. It is designed to be
+// subclassed by [Connection](connection.html) and the `upstream` component of [Stream](stream.html).
+// [1]: https://nodejs.org/api/stream.html#stream_class_stream_duplex
+
+var Duplex = require('stream').Duplex;
+
+exports.Flow = Flow;
+
+// Public API
+// ----------
+
+// * **Event: 'error' (type)**: signals an error
+//
+// * **setInitialWindow(size)**: the initial flow control window size can be changed *any time*
+// ([as described in the standard][1]) using this method
+//
+// [1]: https://tools.ietf.org/html/rfc7540#section-6.9.2
+
+// API for child classes
+// ---------------------
+
+// * **new Flow([flowControlId])**: creating a new flow that will listen for WINDOW_UPDATES frames
+// with the given `flowControlId` (or every update frame if not given)
+//
+// * **_send()**: called when more frames should be pushed. The child class is expected to override
+// this (instead of the `_read` method of the Duplex class).
+//
+// * **_receive(frame, readyCallback)**: called when there's an incoming frame. The child class is
+// expected to override this (instead of the `_write` method of the Duplex class).
+//
+// * **push(frame): bool**: schedules `frame` for sending.
+//
+// Returns `true` if it needs more frames in the output queue, `false` if the output queue is
+// full, and `null` if did not push the frame into the output queue (instead, it pushed it into
+// the flow control queue).
+//
+// * **read(limit): frame**: like the regular `read`, but the 'flow control size' (0 for non-DATA
+// frames, length of the payload for DATA frames) of the returned frame will be under `limit`.
+// Small exception: pass -1 as `limit` if the max. flow control size is 0. `read(0)` means the
+// same thing as [in the original API](https://nodejs.org/api/stream.html#stream_stream_read_0).
+//
+// * **getLastQueuedFrame(): frame**: returns the last frame in output buffers
+//
+// * **_log**: the Flow class uses the `_log` object of the parent
+
+// Constructor
+// -----------
+
+// When a HTTP/2.0 connection is first established, new streams are created with an initial flow
+// control window size of 65535 bytes.
+var INITIAL_WINDOW_SIZE = 65535;
+
+// `flowControlId` is needed if only specific WINDOW_UPDATEs should be watched.
+function Flow(flowControlId) {
+ Duplex.call(this, { objectMode: true });
+
+ this._window = this._initialWindow = INITIAL_WINDOW_SIZE;
+ this._flowControlId = flowControlId;
+ this._queue = [];
+ this._ended = false;
+ this._received = 0;
+}
+Flow.prototype = Object.create(Duplex.prototype, { constructor: { value: Flow } });
+
+// Incoming frames
+// ---------------
+
+// `_receive` is called when there's an incoming frame.
+Flow.prototype._receive = function _receive(frame, callback) {
+ throw new Error('The _receive(frame, callback) method has to be overridden by the child class!');
+};
+
+// `_receive` is called by `_write` which in turn is [called by Duplex][1] when someone `write()`s
+// to the flow. It emits the 'receiving' event and notifies the window size tracking code if the
+// incoming frame is a WINDOW_UPDATE.
+// [1]: https://nodejs.org/api/stream.html#stream_writable_write_chunk_encoding_callback_1
+Flow.prototype._write = function _write(frame, encoding, callback) {
+ var sentToUs = (this._flowControlId === undefined) || (frame.stream === this._flowControlId);
+
+ if (sentToUs && (frame.flags.END_STREAM || (frame.type === 'RST_STREAM'))) {
+ this._ended = true;
+ }
+
+ if ((frame.type === 'DATA') && (frame.data.length > 0)) {
+ this._receive(frame, function() {
+ this._received += frame.data.length;
+ if (!this._restoreWindowTimer) {
+ this._restoreWindowTimer = setImmediate(this._restoreWindow.bind(this));
+ }
+ callback();
+ }.bind(this));
+ }
+
+ else {
+ this._receive(frame, callback);
+ }
+
+ if (sentToUs && (frame.type === 'WINDOW_UPDATE')) {
+ this._updateWindow(frame);
+ }
+};
+
+// `_restoreWindow` basically acknowledges the DATA frames received since it's last call. It sends
+// a WINDOW_UPDATE that restores the flow control window of the remote end.
+// TODO: push this directly into the output queue. No need to wait for DATA frames in the queue.
+Flow.prototype._restoreWindow = function _restoreWindow() {
+ delete this._restoreWindowTimer;
+ if (!this._ended && (this._received > 0)) {
+ this.push({
+ type: 'WINDOW_UPDATE',
+ flags: {},
+ stream: this._flowControlId,
+ window_size: this._received
+ });
+ this._received = 0;
+ }
+};
+
+// Outgoing frames - sending procedure
+// -----------------------------------
+
+// flow
+// +-------------------------------------------------+
+// | |
+// +--------+ +---------+ |
+// read() | output | _read() | flow | _send() |
+// <----------| |<----------| control |<------------- |
+// | buffer | | buffer | |
+// +--------+ +---------+ |
+// | input | |
+// ---------->| |-----------------------------------> |
+// write() | buffer | _write() _receive() |
+// +--------+ |
+// | |
+// +-------------------------------------------------+
+
+// `_send` is called when more frames should be pushed to the output buffer.
+Flow.prototype._send = function _send() {
+ throw new Error('The _send() method has to be overridden by the child class!');
+};
+
+// `_send` is called by `_read` which is in turn [called by Duplex][1] when it wants to have more
+// items in the output queue.
+// [1]: https://nodejs.org/api/stream.html#stream_writable_write_chunk_encoding_callback_1
+Flow.prototype._read = function _read() {
+ // * if the flow control queue is empty, then let the user push more frames
+ if (this._queue.length === 0) {
+ this._send();
+ }
+
+ // * if there are items in the flow control queue, then let's put them into the output queue (to
+ // the extent it is possible with respect to the window size and output queue feedback)
+ else if (this._window > 0) {
+ this._readableState.sync = true; // to avoid reentrant calls
+ do {
+ var moreNeeded = this._push(this._queue[0]);
+ if (moreNeeded !== null) {
+ this._queue.shift();
+ }
+ } while (moreNeeded && (this._queue.length > 0));
+ this._readableState.sync = false;
+
+ assert((!moreNeeded) || // * output queue is full
+ (this._queue.length === 0) || // * flow control queue is empty
+ (!this._window && (this._queue[0].type === 'DATA'))); // * waiting for window update
+ }
+
+ // * otherwise, come back when the flow control window is positive
+ else {
+ this.once('window_update', this._read);
+ }
+};
+
+var MAX_PAYLOAD_SIZE = 4096; // Must not be greater than MAX_HTTP_PAYLOAD_SIZE which is 16383
+
+// `read(limit)` is like the `read` of the Readable class, but it guarantess that the 'flow control
+// size' (0 for non-DATA frames, length of the payload for DATA frames) of the returned frame will
+// be under `limit`.
+Flow.prototype.read = function read(limit) {
+ if (limit === 0) {
+ return Duplex.prototype.read.call(this, 0);
+ } else if (limit === -1) {
+ limit = 0;
+ } else if ((limit === undefined) || (limit > MAX_PAYLOAD_SIZE)) {
+ limit = MAX_PAYLOAD_SIZE;
+ }
+
+ // * Looking at the first frame in the queue without pulling it out if possible.
+ var frame = this._readableState.buffer[0];
+ if (!frame && !this._readableState.ended) {
+ this._read();
+ frame = this._readableState.buffer[0];
+ }
+
+ if (frame && (frame.type === 'DATA')) {
+ // * If the frame is DATA, then there's two special cases:
+ // * if the limit is 0, we shouldn't return anything
+ // * if the size of the frame is larger than limit, then the frame should be split
+ if (limit === 0) {
+ return Duplex.prototype.read.call(this, 0);
+ }
+
+ else if (frame.data.length > limit) {
+ this._log.trace({ frame: frame, size: frame.data.length, forwardable: limit },
+ 'Splitting out forwardable part of a DATA frame.');
+ this.unshift({
+ type: 'DATA',
+ flags: {},
+ stream: frame.stream,
+ data: frame.data.slice(0, limit)
+ });
+ frame.data = frame.data.slice(limit);
+ }
+ }
+
+ return Duplex.prototype.read.call(this);
+};
+
+// `_parentPush` pushes the given `frame` into the output queue
+Flow.prototype._parentPush = function _parentPush(frame) {
+ this._log.trace({ frame: frame }, 'Pushing frame into the output queue');
+
+ if (frame && (frame.type === 'DATA') && (this._window !== Infinity)) {
+ this._log.trace({ window: this._window, by: frame.data.length },
+ 'Decreasing flow control window size.');
+ this._window -= frame.data.length;
+ assert(this._window >= 0);
+ }
+
+ return Duplex.prototype.push.call(this, frame);
+};
+
+// `_push(frame)` pushes `frame` into the output queue and decreases the flow control window size.
+// It is capable of splitting DATA frames into smaller parts, if the window size is not enough to
+// push the whole frame. The return value is similar to `push` except that it returns `null` if it
+// did not push the whole frame to the output queue (but maybe it did push part of the frame).
+Flow.prototype._push = function _push(frame) {
+ var data = frame && (frame.type === 'DATA') && frame.data;
+ var maxFrameLength = (this._window < 16384) ? this._window : 16384;
+
+ if (!data || (data.length <= maxFrameLength)) {
+ return this._parentPush(frame);
+ }
+
+ else if (this._window <= 0) {
+ return null;
+ }
+
+ else {
+ this._log.trace({ frame: frame, size: frame.data.length, forwardable: this._window },
+ 'Splitting out forwardable part of a DATA frame.');
+ frame.data = data.slice(maxFrameLength);
+ this._parentPush({
+ type: 'DATA',
+ flags: {},
+ stream: frame.stream,
+ data: data.slice(0, maxFrameLength)
+ });
+ return null;
+ }
+};
+
+// Push `frame` into the flow control queue, or if it's empty, then directly into the output queue
+Flow.prototype.push = function push(frame) {
+ if (frame === null) {
+ this._log.debug('Enqueueing outgoing End Of Stream');
+ } else {
+ this._log.debug({ frame: frame }, 'Enqueueing outgoing frame');
+ }
+
+ var moreNeeded = null;
+ if (this._queue.length === 0) {
+ moreNeeded = this._push(frame);
+ }
+
+ if (moreNeeded === null) {
+ this._queue.push(frame);
+ }
+
+ return moreNeeded;
+};
+
+// `getLastQueuedFrame` returns the last frame in output buffers. This is primarily used by the
+// [Stream](stream.html) class to mark the last frame with END_STREAM flag.
+Flow.prototype.getLastQueuedFrame = function getLastQueuedFrame() {
+ var readableQueue = this._readableState.buffer;
+ return this._queue[this._queue.length - 1] || readableQueue[readableQueue.length - 1];
+};
+
+// Outgoing frames - managing the window size
+// ------------------------------------------
+
+// Flow control window size is manipulated using the `_increaseWindow` method.
+//
+// * Invoking it with `Infinite` means turning off flow control. Flow control cannot be enabled
+// again once disabled. Any attempt to re-enable flow control MUST be rejected with a
+// FLOW_CONTROL_ERROR error code.
+// * A sender MUST NOT allow a flow control window to exceed 2^31 - 1 bytes. The action taken
+// depends on it being a stream or the connection itself.
+
+var WINDOW_SIZE_LIMIT = Math.pow(2, 31) - 1;
+
+Flow.prototype._increaseWindow = function _increaseWindow(size) {
+ if ((this._window === Infinity) && (size !== Infinity)) {
+ this._log.error('Trying to increase flow control window after flow control was turned off.');
+ this.emit('error', 'FLOW_CONTROL_ERROR');
+ } else {
+ this._log.trace({ window: this._window, by: size }, 'Increasing flow control window size.');
+ this._window += size;
+ if ((this._window !== Infinity) && (this._window > WINDOW_SIZE_LIMIT)) {
+ this._log.error('Flow control window grew too large.');
+ this.emit('error', 'FLOW_CONTROL_ERROR');
+ } else {
+ if (size != 0) {
+ this.emit('window_update');
+ }
+ }
+ }
+};
+
+// The `_updateWindow` method gets called every time there's an incoming WINDOW_UPDATE frame. It
+// modifies the flow control window:
+//
+// * Flow control can be disabled for an individual stream by sending a WINDOW_UPDATE with the
+// END_FLOW_CONTROL flag set. The payload of a WINDOW_UPDATE frame that has the END_FLOW_CONTROL
+// flag set is ignored.
+// * A sender that receives a WINDOW_UPDATE frame updates the corresponding window by the amount
+// specified in the frame.
+Flow.prototype._updateWindow = function _updateWindow(frame) {
+ this._increaseWindow(frame.flags.END_FLOW_CONTROL ? Infinity : frame.window_size);
+};
+
+// A SETTINGS frame can alter the initial flow control window size for all current streams. When the
+// value of SETTINGS_INITIAL_WINDOW_SIZE changes, a receiver MUST adjust the size of all stream by
+// calling the `setInitialWindow` method. The window size has to be modified by the difference
+// between the new value and the old value.
+Flow.prototype.setInitialWindow = function setInitialWindow(initialWindow) {
+ this._increaseWindow(initialWindow - this._initialWindow);
+ this._initialWindow = initialWindow;
+};
diff --git a/testing/xpcshell/node-http2/lib/protocol/framer.js b/testing/xpcshell/node-http2/lib/protocol/framer.js
new file mode 100644
index 0000000000..055402f8d8
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/protocol/framer.js
@@ -0,0 +1,1166 @@
+// The framer consists of two [Transform Stream][1] subclasses that operate in [object mode][2]:
+// the Serializer and the Deserializer
+// [1]: https://nodejs.org/api/stream.html#stream_class_stream_transform
+// [2]: https://nodejs.org/api/stream.html#stream_new_stream_readable_options
+var assert = require('assert');
+
+var Transform = require('stream').Transform;
+
+exports.Serializer = Serializer;
+exports.Deserializer = Deserializer;
+
+var logData = Boolean(process.env.HTTP2_LOG_DATA);
+
+var MAX_PAYLOAD_SIZE = 16384;
+var WINDOW_UPDATE_PAYLOAD_SIZE = 4;
+
+// Serializer
+// ----------
+//
+// Frame Objects
+// * * * * * * * --+---------------------------
+// | |
+// v v Buffers
+// [] -----> Payload Ser. --[buffers]--> Header Ser. --> * * * *
+// empty adds payload adds header
+// array buffers buffer
+
+function Serializer(log) {
+ this._log = log.child({ component: 'serializer' });
+ Transform.call(this, { objectMode: true });
+}
+Serializer.prototype = Object.create(Transform.prototype, { constructor: { value: Serializer } });
+
+// When there's an incoming frame object, it first generates the frame type specific part of the
+// frame (payload), and then then adds the header part which holds fields that are common to all
+// frame types (like the length of the payload).
+Serializer.prototype._transform = function _transform(frame, encoding, done) {
+ this._log.trace({ frame: frame }, 'Outgoing frame');
+
+ assert(frame.type in Serializer, 'Unknown frame type: ' + frame.type);
+
+ var buffers = [];
+ Serializer[frame.type](frame, buffers);
+ var length = Serializer.commonHeader(frame, buffers);
+
+ assert(length <= MAX_PAYLOAD_SIZE, 'Frame too large!');
+
+ for (var i = 0; i < buffers.length; i++) {
+ if (logData) {
+ this._log.trace({ data: buffers[i] }, 'Outgoing data');
+ }
+ this.push(buffers[i]);
+ }
+
+ done();
+};
+
+// Deserializer
+// ------------
+//
+// Buffers
+// * * * * --------+-------------------------
+// | |
+// v v Frame Objects
+// {} -----> Header Des. --{frame}--> Payload Des. --> * * * * * * *
+// empty adds parsed adds parsed
+// object header properties payload properties
+
+function Deserializer(log, role) {
+ this._role = role;
+ this._log = log.child({ component: 'deserializer' });
+ Transform.call(this, { objectMode: true });
+ this._next(COMMON_HEADER_SIZE);
+}
+Deserializer.prototype = Object.create(Transform.prototype, { constructor: { value: Deserializer } });
+
+// The Deserializer is stateful, and it's two main alternating states are: *waiting for header* and
+// *waiting for payload*. The state is stored in the boolean property `_waitingForHeader`.
+//
+// When entering a new state, a `_buffer` is created that will hold the accumulated data (header or
+// payload). The `_cursor` is used to track the progress.
+Deserializer.prototype._next = function(size) {
+ this._cursor = 0;
+ this._buffer = Buffer.alloc(size);
+ this._waitingForHeader = !this._waitingForHeader;
+ if (this._waitingForHeader) {
+ this._frame = {};
+ }
+};
+
+// Parsing an incoming buffer is an iterative process because it can hold multiple frames if it's
+// large enough. A `cursor` is used to track the progress in parsing the incoming `chunk`.
+Deserializer.prototype._transform = function _transform(chunk, encoding, done) {
+ var cursor = 0;
+
+ if (logData) {
+ this._log.trace({ data: chunk }, 'Incoming data');
+ }
+
+ while(cursor < chunk.length) {
+ // The content of an incoming buffer is first copied to `_buffer`. If it can't hold the full
+ // chunk, then only a part of it is copied.
+ var toCopy = Math.min(chunk.length - cursor, this._buffer.length - this._cursor);
+ chunk.copy(this._buffer, this._cursor, cursor, cursor + toCopy);
+ this._cursor += toCopy;
+ cursor += toCopy;
+
+ // When `_buffer` is full, it's content gets parsed either as header or payload depending on
+ // the actual state.
+
+ // If it's header then the parsed data is stored in a temporary variable and then the
+ // deserializer waits for the specified length payload.
+ if ((this._cursor === this._buffer.length) && this._waitingForHeader) {
+ var payloadSize = Deserializer.commonHeader(this._buffer, this._frame);
+ if (payloadSize <= MAX_PAYLOAD_SIZE) {
+ this._next(payloadSize);
+ } else {
+ this.emit('error', 'FRAME_SIZE_ERROR');
+ return;
+ }
+ }
+
+ // If it's payload then the the frame object is finalized and then gets pushed out.
+ // Unknown frame types are ignored.
+ //
+ // Note: If we just finished the parsing of a header and the payload length is 0, this branch
+ // will also run.
+ if ((this._cursor === this._buffer.length) && !this._waitingForHeader) {
+ if (this._frame.type) {
+ var error = Deserializer[this._frame.type](this._buffer, this._frame, this._role);
+ if (error) {
+ this._log.error('Incoming frame parsing error: ' + error);
+ this.emit('error', error);
+ } else {
+ this._log.trace({ frame: this._frame }, 'Incoming frame');
+ this.push(this._frame);
+ }
+ } else {
+ this._log.error('Unknown type incoming frame');
+ // Ignore it other than logging
+ }
+ this._next(COMMON_HEADER_SIZE);
+ }
+ }
+
+ done();
+};
+
+// [Frame Header](https://tools.ietf.org/html/rfc7540#section-4.1)
+// --------------------------------------------------------------
+//
+// HTTP/2 frames share a common base format consisting of a 9-byte header followed by 0 to 2^24 - 1
+// bytes of data.
+//
+// Additional size limits can be set by specific application uses. HTTP limits the frame size to
+// 16,384 octets by default, though this can be increased by a receiver.
+//
+// 0 1 2 3
+// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+// | Length (24) |
+// +---------------+---------------+---------------+
+// | Type (8) | Flags (8) |
+// +-+-----------------------------+---------------+---------------+
+// |R| Stream Identifier (31) |
+// +-+-------------------------------------------------------------+
+// | Frame Data (0...) ...
+// +---------------------------------------------------------------+
+//
+// The fields of the frame header are defined as:
+//
+// * Length:
+// The length of the frame data expressed as an unsigned 24-bit integer. The 9 bytes of the frame
+// header are not included in this value.
+//
+// * Type:
+// The 8-bit type of the frame. The frame type determines how the remainder of the frame header
+// and data are interpreted. Implementations MUST ignore unsupported and unrecognized frame types.
+//
+// * Flags:
+// An 8-bit field reserved for frame-type specific boolean flags.
+//
+// Flags are assigned semantics specific to the indicated frame type. Flags that have no defined
+// semantics for a particular frame type MUST be ignored, and MUST be left unset (0) when sending.
+//
+// * R:
+// A reserved 1-bit field. The semantics of this bit are undefined and the bit MUST remain unset
+// (0) when sending and MUST be ignored when receiving.
+//
+// * Stream Identifier:
+// A 31-bit stream identifier. The value 0 is reserved for frames that are associated with the
+// connection as a whole as opposed to an individual stream.
+//
+// The structure and content of the remaining frame data is dependent entirely on the frame type.
+
+var COMMON_HEADER_SIZE = 9;
+
+var frameTypes = [];
+
+var frameFlags = {};
+
+var genericAttributes = ['type', 'flags', 'stream'];
+
+var typeSpecificAttributes = {};
+
+Serializer.commonHeader = function writeCommonHeader(frame, buffers) {
+ var headerBuffer = Buffer.alloc(COMMON_HEADER_SIZE);
+
+ var size = 0;
+ for (var i = 0; i < buffers.length; i++) {
+ size += buffers[i].length;
+ }
+ headerBuffer.writeUInt8(0, 0);
+ headerBuffer.writeUInt16BE(size, 1);
+
+ var typeId = frameTypes.indexOf(frame.type); // If we are here then the type is valid for sure
+ headerBuffer.writeUInt8(typeId, 3);
+
+ var flagByte = 0;
+ for (var flag in frame.flags) {
+ var position = frameFlags[frame.type].indexOf(flag);
+ assert(position !== -1, 'Unknown flag for frame type ' + frame.type + ': ' + flag);
+ if (frame.flags[flag]) {
+ flagByte |= (1 << position);
+ }
+ }
+ headerBuffer.writeUInt8(flagByte, 4);
+
+ assert((0 <= frame.stream) && (frame.stream < 0x7fffffff), frame.stream);
+ headerBuffer.writeUInt32BE(frame.stream || 0, 5);
+
+ buffers.unshift(headerBuffer);
+
+ return size;
+};
+
+Deserializer.commonHeader = function readCommonHeader(buffer, frame) {
+ if (buffer.length < 9) {
+ return 'FRAME_SIZE_ERROR';
+ }
+
+ var totallyWastedByte = buffer.readUInt8(0);
+ var length = buffer.readUInt16BE(1);
+ // We do this just for sanity checking later on, to make sure no one sent us a
+ // frame that's super large.
+ length += totallyWastedByte << 16;
+
+ frame.type = frameTypes[buffer.readUInt8(3)];
+ if (!frame.type) {
+ // We are required to ignore unknown frame types
+ return length;
+ }
+
+ frame.flags = {};
+ var flagByte = buffer.readUInt8(4);
+ var definedFlags = frameFlags[frame.type];
+ for (var i = 0; i < definedFlags.length; i++) {
+ frame.flags[definedFlags[i]] = Boolean(flagByte & (1 << i));
+ }
+
+ frame.stream = buffer.readUInt32BE(5) & 0x7fffffff;
+
+ return length;
+};
+
+// Frame types
+// ===========
+
+// Every frame type is registered in the following places:
+//
+// * `frameTypes`: a register of frame type codes (used by `commonHeader()`)
+// * `frameFlags`: a register of valid flags for frame types (used by `commonHeader()`)
+// * `typeSpecificAttributes`: a register of frame specific frame object attributes (used by
+// logging code and also serves as documentation for frame objects)
+
+// [DATA Frames](https://tools.ietf.org/html/rfc7540#section-6.1)
+// ------------------------------------------------------------
+//
+// DATA frames (type=0x0) convey arbitrary, variable-length sequences of octets associated with a
+// stream.
+//
+// The DATA frame defines the following flags:
+//
+// * END_STREAM (0x1):
+// Bit 1 being set indicates that this frame is the last that the endpoint will send for the
+// identified stream.
+// * PADDED (0x08):
+// Bit 4 being set indicates that the Pad Length field is present.
+
+frameTypes[0x0] = 'DATA';
+
+frameFlags.DATA = ['END_STREAM', 'RESERVED2', 'RESERVED4', 'PADDED'];
+
+typeSpecificAttributes.DATA = ['data'];
+
+Serializer.DATA = function writeData(frame, buffers) {
+ buffers.push(frame.data);
+};
+
+Deserializer.DATA = function readData(buffer, frame) {
+ var dataOffset = 0;
+ var paddingLength = 0;
+ if (frame.flags.PADDED) {
+ if (buffer.length < 1) {
+ // We must have at least one byte for padding control, but we don't. Bad peer!
+ return 'FRAME_SIZE_ERROR';
+ }
+ paddingLength = (buffer.readUInt8(dataOffset) & 0xff);
+ dataOffset = 1;
+ }
+
+ if (paddingLength) {
+ if (paddingLength >= (buffer.length - 1)) {
+ // We don't have enough room for the padding advertised - bad peer!
+ return 'FRAME_SIZE_ERROR';
+ }
+ frame.data = buffer.slice(dataOffset, -1 * paddingLength);
+ } else {
+ frame.data = buffer.slice(dataOffset);
+ }
+};
+
+// [HEADERS](https://tools.ietf.org/html/rfc7540#section-6.2)
+// --------------------------------------------------------------
+//
+// The HEADERS frame (type=0x1) allows the sender to create a stream.
+//
+// The HEADERS frame defines the following flags:
+//
+// * END_STREAM (0x1):
+// Bit 1 being set indicates that this frame is the last that the endpoint will send for the
+// identified stream.
+// * END_HEADERS (0x4):
+// The END_HEADERS bit indicates that this frame contains the entire payload necessary to provide
+// a complete set of headers.
+// * PADDED (0x08):
+// Bit 4 being set indicates that the Pad Length field is present.
+// * PRIORITY (0x20):
+// Bit 6 being set indicates that the Exlusive Flag (E), Stream Dependency, and Weight fields are
+// present.
+
+frameTypes[0x1] = 'HEADERS';
+
+frameFlags.HEADERS = ['END_STREAM', 'RESERVED2', 'END_HEADERS', 'PADDED', 'RESERVED5', 'PRIORITY'];
+
+typeSpecificAttributes.HEADERS = ['priorityDependency', 'priorityWeight', 'exclusiveDependency', 'headers', 'data'];
+
+// 0 1 2 3
+// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+// |Pad Length? (8)|
+// +-+-------------+---------------+-------------------------------+
+// |E| Stream Dependency? (31) |
+// +-+-------------+-----------------------------------------------+
+// | Weight? (8) |
+// +-+-------------+-----------------------------------------------+
+// | Header Block Fragment (*) ...
+// +---------------------------------------------------------------+
+// | Padding (*) ...
+// +---------------------------------------------------------------+
+//
+// The payload of a HEADERS frame contains a Headers Block
+
+Serializer.HEADERS = function writeHeadersPriority(frame, buffers) {
+ if (frame.flags.PRIORITY) {
+ var buffer = Buffer.alloc(5);
+ assert((0 <= frame.priorityDependency) && (frame.priorityDependency <= 0x7fffffff), frame.priorityDependency);
+ buffer.writeUInt32BE(frame.priorityDependency, 0);
+ if (frame.exclusiveDependency) {
+ buffer[0] |= 0x80;
+ }
+ assert((0 <= frame.priorityWeight) && (frame.priorityWeight <= 0xff), frame.priorityWeight);
+ buffer.writeUInt8(frame.priorityWeight, 4);
+ buffers.push(buffer);
+ }
+ buffers.push(frame.data);
+};
+
+Deserializer.HEADERS = function readHeadersPriority(buffer, frame) {
+ var minFrameLength = 0;
+ if (frame.flags.PADDED) {
+ minFrameLength += 1;
+ }
+ if (frame.flags.PRIORITY) {
+ minFrameLength += 5;
+ }
+ if (buffer.length < minFrameLength) {
+ // Peer didn't send enough data - bad peer!
+ return 'FRAME_SIZE_ERROR';
+ }
+
+ var dataOffset = 0;
+ var paddingLength = 0;
+ if (frame.flags.PADDED) {
+ paddingLength = (buffer.readUInt8(dataOffset) & 0xff);
+ dataOffset = 1;
+ }
+
+ if (frame.flags.PRIORITY) {
+ var dependencyData = Buffer.alloc(4);
+ buffer.copy(dependencyData, 0, dataOffset, dataOffset + 4);
+ dataOffset += 4;
+ frame.exclusiveDependency = !!(dependencyData[0] & 0x80);
+ dependencyData[0] &= 0x7f;
+ frame.priorityDependency = dependencyData.readUInt32BE(0);
+ frame.priorityWeight = buffer.readUInt8(dataOffset);
+ dataOffset += 1;
+ }
+
+ if (paddingLength) {
+ if ((buffer.length - dataOffset) < paddingLength) {
+ // Not enough data left to satisfy the advertised padding - bad peer!
+ return 'FRAME_SIZE_ERROR';
+ }
+ frame.data = buffer.slice(dataOffset, -1 * paddingLength);
+ } else {
+ frame.data = buffer.slice(dataOffset);
+ }
+};
+
+// [PRIORITY](https://tools.ietf.org/html/rfc7540#section-6.3)
+// -------------------------------------------------------
+//
+// The PRIORITY frame (type=0x2) specifies the sender-advised priority of a stream.
+//
+// The PRIORITY frame does not define any flags.
+
+frameTypes[0x2] = 'PRIORITY';
+
+frameFlags.PRIORITY = [];
+
+typeSpecificAttributes.PRIORITY = ['priorityDependency', 'priorityWeight', 'exclusiveDependency'];
+
+// 0 1 2 3
+// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+// |E| Stream Dependency? (31) |
+// +-+-------------+-----------------------------------------------+
+// | Weight? (8) |
+// +-+-------------+
+//
+// The payload of a PRIORITY frame contains an exclusive bit, a 31-bit dependency, and an 8-bit weight
+
+Serializer.PRIORITY = function writePriority(frame, buffers) {
+ var buffer = Buffer.alloc(5);
+ assert((0 <= frame.priorityDependency) && (frame.priorityDependency <= 0x7fffffff), frame.priorityDependency);
+ buffer.writeUInt32BE(frame.priorityDependency, 0);
+ if (frame.exclusiveDependency) {
+ buffer[0] |= 0x80;
+ }
+ assert((0 <= frame.priorityWeight) && (frame.priorityWeight <= 0xff), frame.priorityWeight);
+ buffer.writeUInt8(frame.priorityWeight, 4);
+
+ buffers.push(buffer);
+};
+
+Deserializer.PRIORITY = function readPriority(buffer, frame) {
+ if (buffer.length < 5) {
+ // PRIORITY frames are 5 bytes long. Bad peer!
+ return 'FRAME_SIZE_ERROR';
+ }
+ var dependencyData = Buffer.alloc(4);
+ buffer.copy(dependencyData, 0, 0, 4);
+ frame.exclusiveDependency = !!(dependencyData[0] & 0x80);
+ dependencyData[0] &= 0x7f;
+ frame.priorityDependency = dependencyData.readUInt32BE(0);
+ frame.priorityWeight = buffer.readUInt8(4);
+};
+
+// [RST_STREAM](https://tools.ietf.org/html/rfc7540#section-6.4)
+// -----------------------------------------------------------
+//
+// The RST_STREAM frame (type=0x3) allows for abnormal termination of a stream.
+//
+// No type-flags are defined.
+
+frameTypes[0x3] = 'RST_STREAM';
+
+frameFlags.RST_STREAM = [];
+
+typeSpecificAttributes.RST_STREAM = ['error'];
+
+// 0 1 2 3
+// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+// | Error Code (32) |
+// +---------------------------------------------------------------+
+//
+// The RST_STREAM frame contains a single unsigned, 32-bit integer identifying the error
+// code (see Error Codes). The error code indicates why the stream is being terminated.
+
+Serializer.RST_STREAM = function writeRstStream(frame, buffers) {
+ var buffer = Buffer.alloc(4);
+ var code = errorCodes.indexOf(frame.error);
+ assert((0 <= code) && (code <= 0xffffffff), code);
+ buffer.writeUInt32BE(code, 0);
+ buffers.push(buffer);
+};
+
+Deserializer.RST_STREAM = function readRstStream(buffer, frame) {
+ if (buffer.length < 4) {
+ // RST_STREAM is 4 bytes long. Bad peer!
+ return 'FRAME_SIZE_ERROR';
+ }
+ frame.error = errorCodes[buffer.readUInt32BE(0)];
+ if (!frame.error) {
+ // Unknown error codes are considered equivalent to INTERNAL_ERROR
+ frame.error = 'INTERNAL_ERROR';
+ }
+};
+
+// [SETTINGS](https://tools.ietf.org/html/rfc7540#section-6.5)
+// -------------------------------------------------------
+//
+// The SETTINGS frame (type=0x4) conveys configuration parameters that affect how endpoints
+// communicate.
+//
+// The SETTINGS frame defines the following flag:
+
+// * ACK (0x1):
+// Bit 1 being set indicates that this frame acknowledges receipt and application of the peer's
+// SETTINGS frame.
+frameTypes[0x4] = 'SETTINGS';
+
+frameFlags.SETTINGS = ['ACK'];
+
+typeSpecificAttributes.SETTINGS = ['settings'];
+
+// The payload of a SETTINGS frame consists of zero or more settings. Each setting consists of a
+// 16-bit identifier, and an unsigned 32-bit value.
+//
+// 0 1 2 3
+// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+// | Identifier(16) | Value (32) |
+// +-----------------+---------------------------------------------+
+// ...Value |
+// +---------------------------------+
+//
+// Each setting in a SETTINGS frame replaces the existing value for that setting. Settings are
+// processed in the order in which they appear, and a receiver of a SETTINGS frame does not need to
+// maintain any state other than the current value of settings. Therefore, the value of a setting
+// is the last value that is seen by a receiver. This permits the inclusion of the same settings
+// multiple times in the same SETTINGS frame, though doing so does nothing other than waste
+// connection capacity.
+
+Serializer.SETTINGS = function writeSettings(frame, buffers) {
+ var settings = [], settingsLeft = Object.keys(frame.settings);
+ definedSettings.forEach(function(setting, id) {
+ if (setting.name in frame.settings) {
+ settingsLeft.splice(settingsLeft.indexOf(setting.name), 1);
+ var value = frame.settings[setting.name];
+ settings.push({ id: id, value: setting.flag ? Boolean(value) : value });
+ }
+ });
+ assert(settingsLeft.length === 0, 'Unknown settings: ' + settingsLeft.join(', '));
+
+ var buffer = Buffer.alloc(settings.length * 6);
+ for (var i = 0; i < settings.length; i++) {
+ buffer.writeUInt16BE(settings[i].id & 0xffff, i*6);
+ buffer.writeUInt32BE(settings[i].value, i*6 + 2);
+ }
+
+ buffers.push(buffer);
+};
+
+Deserializer.SETTINGS = function readSettings(buffer, frame, role) {
+ frame.settings = {};
+
+ // Receipt of a SETTINGS frame with the ACK flag set and a length
+ // field value other than 0 MUST be treated as a connection error
+ // (Section 5.4.1) of type FRAME_SIZE_ERROR.
+ if(frame.flags.ACK && buffer.length != 0) {
+ return 'FRAME_SIZE_ERROR';
+ }
+
+ if (buffer.length % 6 !== 0) {
+ return 'PROTOCOL_ERROR';
+ }
+ for (var i = 0; i < buffer.length / 6; i++) {
+ var id = buffer.readUInt16BE(i*6) & 0xffff;
+ var setting = definedSettings[id];
+ if (setting) {
+ if (role == 'CLIENT' && setting.name == 'SETTINGS_ENABLE_PUSH') {
+ return 'SETTINGS frame on client got SETTINGS_ENABLE_PUSH';
+ }
+ var value = buffer.readUInt32BE(i*6 + 2);
+ frame.settings[setting.name] = setting.flag ? Boolean(value & 0x1) : value;
+ }
+ }
+};
+
+// The following settings are defined:
+var definedSettings = [];
+
+// * SETTINGS_HEADER_TABLE_SIZE (1):
+// Allows the sender to inform the remote endpoint of the size of the header compression table
+// used to decode header blocks.
+definedSettings[1] = { name: 'SETTINGS_HEADER_TABLE_SIZE', flag: false };
+
+// * SETTINGS_ENABLE_PUSH (2):
+// This setting can be use to disable server push. An endpoint MUST NOT send a PUSH_PROMISE frame
+// if it receives this setting set to a value of 0. The default value is 1, which indicates that
+// push is permitted.
+definedSettings[2] = { name: 'SETTINGS_ENABLE_PUSH', flag: true };
+
+// * SETTINGS_MAX_CONCURRENT_STREAMS (3):
+// indicates the maximum number of concurrent streams that the sender will allow.
+definedSettings[3] = { name: 'SETTINGS_MAX_CONCURRENT_STREAMS', flag: false };
+
+// * SETTINGS_INITIAL_WINDOW_SIZE (4):
+// indicates the sender's initial stream window size (in bytes) for new streams.
+definedSettings[4] = { name: 'SETTINGS_INITIAL_WINDOW_SIZE', flag: false };
+
+// * SETTINGS_MAX_FRAME_SIZE (5):
+// indicates the maximum size of a frame the receiver will allow.
+definedSettings[5] = { name: 'SETTINGS_MAX_FRAME_SIZE', flag: false };
+
+// [PUSH_PROMISE](https://tools.ietf.org/html/rfc7540#section-6.6)
+// ---------------------------------------------------------------
+//
+// The PUSH_PROMISE frame (type=0x5) is used to notify the peer endpoint in advance of streams the
+// sender intends to initiate.
+//
+// The PUSH_PROMISE frame defines the following flags:
+//
+// * END_PUSH_PROMISE (0x4):
+// The END_PUSH_PROMISE bit indicates that this frame contains the entire payload necessary to
+// provide a complete set of headers.
+
+frameTypes[0x5] = 'PUSH_PROMISE';
+
+frameFlags.PUSH_PROMISE = ['RESERVED1', 'RESERVED2', 'END_PUSH_PROMISE', 'PADDED'];
+
+typeSpecificAttributes.PUSH_PROMISE = ['promised_stream', 'headers', 'data'];
+
+// 0 1 2 3
+// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+// |Pad Length? (8)|
+// +-+-------------+-----------------------------------------------+
+// |X| Promised-Stream-ID (31) |
+// +-+-------------------------------------------------------------+
+// | Header Block Fragment (*) ...
+// +---------------------------------------------------------------+
+// | Padding (*) ...
+// +---------------------------------------------------------------+
+//
+// The PUSH_PROMISE frame includes the unsigned 31-bit identifier of
+// the stream the endpoint plans to create along with a minimal set of headers that provide
+// additional context for the stream.
+
+Serializer.PUSH_PROMISE = function writePushPromise(frame, buffers) {
+ var buffer = Buffer.alloc(4);
+
+ var promised_stream = frame.promised_stream;
+ assert((0 <= promised_stream) && (promised_stream <= 0x7fffffff), promised_stream);
+ buffer.writeUInt32BE(promised_stream, 0);
+
+ buffers.push(buffer);
+ buffers.push(frame.data);
+};
+
+Deserializer.PUSH_PROMISE = function readPushPromise(buffer, frame) {
+ if (buffer.length < 4) {
+ return 'FRAME_SIZE_ERROR';
+ }
+ var dataOffset = 0;
+ var paddingLength = 0;
+ if (frame.flags.PADDED) {
+ if (buffer.length < 5) {
+ return 'FRAME_SIZE_ERROR';
+ }
+ paddingLength = (buffer.readUInt8(dataOffset) & 0xff);
+ dataOffset = 1;
+ }
+ frame.promised_stream = buffer.readUInt32BE(dataOffset) & 0x7fffffff;
+ dataOffset += 4;
+ if (paddingLength) {
+ if ((buffer.length - dataOffset) < paddingLength) {
+ return 'FRAME_SIZE_ERROR';
+ }
+ frame.data = buffer.slice(dataOffset, -1 * paddingLength);
+ } else {
+ frame.data = buffer.slice(dataOffset);
+ }
+};
+
+// [PING](https://tools.ietf.org/html/rfc7540#section-6.7)
+// -----------------------------------------------
+//
+// The PING frame (type=0x6) is a mechanism for measuring a minimal round-trip time from the
+// sender, as well as determining whether an idle connection is still functional.
+//
+// The PING frame defines one type-specific flag:
+//
+// * ACK (0x1):
+// Bit 1 being set indicates that this PING frame is a PING response.
+
+frameTypes[0x6] = 'PING';
+
+frameFlags.PING = ['ACK'];
+
+typeSpecificAttributes.PING = ['data'];
+
+// In addition to the frame header, PING frames MUST contain 8 additional octets of opaque data.
+
+Serializer.PING = function writePing(frame, buffers) {
+ buffers.push(frame.data);
+};
+
+Deserializer.PING = function readPing(buffer, frame) {
+ if (buffer.length !== 8) {
+ return 'FRAME_SIZE_ERROR';
+ }
+ frame.data = buffer;
+};
+
+// [GOAWAY](https://tools.ietf.org/html/rfc7540#section-6.8)
+// ---------------------------------------------------
+//
+// The GOAWAY frame (type=0x7) informs the remote peer to stop creating streams on this connection.
+//
+// The GOAWAY frame does not define any flags.
+
+frameTypes[0x7] = 'GOAWAY';
+
+frameFlags.GOAWAY = [];
+
+typeSpecificAttributes.GOAWAY = ['last_stream', 'error'];
+
+// 0 1 2 3
+// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+// |X| Last-Stream-ID (31) |
+// +-+-------------------------------------------------------------+
+// | Error Code (32) |
+// +---------------------------------------------------------------+
+//
+// The last stream identifier in the GOAWAY frame contains the highest numbered stream identifier
+// for which the sender of the GOAWAY frame has received frames on and might have taken some action
+// on.
+//
+// The GOAWAY frame also contains a 32-bit error code (see Error Codes) that contains the reason for
+// closing the connection.
+
+Serializer.GOAWAY = function writeGoaway(frame, buffers) {
+ var buffer = Buffer.alloc(8);
+
+ var last_stream = frame.last_stream;
+ assert((0 <= last_stream) && (last_stream <= 0x7fffffff), last_stream);
+ buffer.writeUInt32BE(last_stream, 0);
+
+ var code = errorCodes.indexOf(frame.error);
+ assert((0 <= code) && (code <= 0xffffffff), code);
+ buffer.writeUInt32BE(code, 4);
+
+ buffers.push(buffer);
+};
+
+Deserializer.GOAWAY = function readGoaway(buffer, frame) {
+ if (buffer.length !== 8) {
+ // GOAWAY must have 8 bytes
+ return 'FRAME_SIZE_ERROR';
+ }
+ frame.last_stream = buffer.readUInt32BE(0) & 0x7fffffff;
+ frame.error = errorCodes[buffer.readUInt32BE(4)];
+ if (!frame.error) {
+ // Unknown error types are to be considered equivalent to INTERNAL ERROR
+ frame.error = 'INTERNAL_ERROR';
+ }
+};
+
+// [WINDOW_UPDATE](https://tools.ietf.org/html/rfc7540#section-6.9)
+// -----------------------------------------------------------------
+//
+// The WINDOW_UPDATE frame (type=0x8) is used to implement flow control.
+//
+// The WINDOW_UPDATE frame does not define any flags.
+
+frameTypes[0x8] = 'WINDOW_UPDATE';
+
+frameFlags.WINDOW_UPDATE = [];
+
+typeSpecificAttributes.WINDOW_UPDATE = ['window_size'];
+
+// The payload of a WINDOW_UPDATE frame is a 32-bit value indicating the additional number of bytes
+// that the sender can transmit in addition to the existing flow control window. The legal range
+// for this field is 1 to 2^31 - 1 (0x7fffffff) bytes; the most significant bit of this value is
+// reserved.
+
+Serializer.WINDOW_UPDATE = function writeWindowUpdate(frame, buffers) {
+ var buffer = Buffer.alloc(4);
+
+ var window_size = frame.window_size;
+ assert((0 < window_size) && (window_size <= 0x7fffffff), window_size);
+ buffer.writeUInt32BE(window_size, 0);
+
+ buffers.push(buffer);
+};
+
+Deserializer.WINDOW_UPDATE = function readWindowUpdate(buffer, frame) {
+ if (buffer.length !== WINDOW_UPDATE_PAYLOAD_SIZE) {
+ return 'FRAME_SIZE_ERROR';
+ }
+ frame.window_size = buffer.readUInt32BE(0) & 0x7fffffff;
+ if (frame.window_size === 0) {
+ return 'PROTOCOL_ERROR';
+ }
+};
+
+// [CONTINUATION](https://tools.ietf.org/html/rfc7540#section-6.10)
+// ------------------------------------------------------------
+//
+// The CONTINUATION frame (type=0x9) is used to continue a sequence of header block fragments.
+//
+// The CONTINUATION frame defines the following flag:
+//
+// * END_HEADERS (0x4):
+// The END_HEADERS bit indicates that this frame ends the sequence of header block fragments
+// necessary to provide a complete set of headers.
+
+frameTypes[0x9] = 'CONTINUATION';
+
+frameFlags.CONTINUATION = ['RESERVED1', 'RESERVED2', 'END_HEADERS'];
+
+typeSpecificAttributes.CONTINUATION = ['headers', 'data'];
+
+Serializer.CONTINUATION = function writeContinuation(frame, buffers) {
+ buffers.push(frame.data);
+};
+
+Deserializer.CONTINUATION = function readContinuation(buffer, frame) {
+ frame.data = buffer;
+};
+
+// [ALTSVC](https://tools.ietf.org/html/rfc7838#section-4)
+// ------------------------------------------------------------
+//
+// The ALTSVC frame (type=0xA) advertises the availability of an alternative service to the client.
+//
+// The ALTSVC frame does not define any flags.
+
+frameTypes[0xA] = 'ALTSVC';
+
+frameFlags.ALTSVC = [];
+
+// 0 1 2 3
+// 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+// +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+// | Origin-Len (16) | Origin? (*) ...
+// +-------------------------------+----------------+--------------+
+// | Alt-Svc-Field-Value (*) ...
+// +---------------------------------------------------------------+
+//
+// The ALTSVC frame contains the following fields:
+//
+// Origin-Len: An unsigned, 16-bit integer indicating the length, in
+// octets, of the Origin field.
+//
+// Origin: An OPTIONAL sequence of characters containing ASCII
+// serialisation of an origin ([RFC6454](https://tools.ietf.org/html/rfc6454),
+// Section 6.2) that the alternate service is applicable to.
+//
+// Alt-Svc-Field-Value: A sequence of octets (length determined by
+// subtracting the length of all preceding fields from the frame
+// length) containing a value identical to the Alt-Svc field value
+// defined in (Section 3)[https://tools.ietf.org/html/rfc7838#section-3]
+// (ABNF production "Alt-Svc").
+
+typeSpecificAttributes.ALTSVC = ['maxAge', 'port', 'protocolID', 'host',
+ 'origin'];
+
+function istchar(c) {
+ return ('!#$&\'*+-.^_`|~1234567890ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz'.indexOf(c) > -1);
+}
+
+function hexencode(s) {
+ var t = '';
+ for (var i = 0; i < s.length; i++) {
+ if (!istchar(s[i])) {
+ t += '%';
+ t += Buffer.from(s[i]).toString('hex');
+ } else {
+ t += s[i];
+ }
+ }
+ return t;
+}
+
+Serializer.ALTSVC = function writeAltSvc(frame, buffers) {
+ var buffer = Buffer.alloc(2);
+ buffer.writeUInt16BE(frame.origin.length, 0);
+ buffers.push(buffer);
+ buffers.push(Buffer.from(frame.origin, 'ascii'));
+
+ var fieldValue = hexencode(frame.protocolID) + '="' + frame.host + ':' + frame.port + '"';
+ if (frame.maxAge !== 86400) { // 86400 is the default
+ fieldValue += "; ma=" + frame.maxAge;
+ }
+
+ buffers.push(Buffer.from(fieldValue, 'ascii'));
+};
+
+function stripquotes(s) {
+ var start = 0;
+ var end = s.length;
+ while ((start < end) && (s[start] === '"')) {
+ start++;
+ }
+ while ((end > start) && (s[end - 1] === '"')) {
+ end--;
+ }
+ if (start >= end) {
+ return "";
+ }
+ return s.substring(start, end);
+}
+
+function splitNameValue(nvpair) {
+ var eq = -1;
+ var inQuotes = false;
+
+ for (var i = 0; i < nvpair.length; i++) {
+ if (nvpair[i] === '"') {
+ inQuotes = !inQuotes;
+ continue;
+ }
+ if (inQuotes) {
+ continue;
+ }
+ if (nvpair[i] === '=') {
+ eq = i;
+ break;
+ }
+ }
+
+ if (eq === -1) {
+ return {'name': nvpair, 'value': null};
+ }
+
+ var name = stripquotes(nvpair.substring(0, eq).trim());
+ var value = stripquotes(nvpair.substring(eq + 1).trim());
+ return {'name': name, 'value': value};
+}
+
+function splitHeaderParameters(hv) {
+ return parseHeaderValue(hv, ';', splitNameValue);
+}
+
+function parseHeaderValue(hv, separator, callback) {
+ var start = 0;
+ var inQuotes = false;
+ var values = [];
+
+ for (var i = 0; i < hv.length; i++) {
+ if (hv[i] === '"') {
+ inQuotes = !inQuotes;
+ continue;
+ }
+ if (inQuotes) {
+ // Just skip this
+ continue;
+ }
+ if (hv[i] === separator) {
+ var newValue = hv.substring(start, i).trim();
+ if (newValue.length > 0) {
+ newValue = callback(newValue);
+ values.push(newValue);
+ }
+ start = i + 1;
+ }
+ }
+
+ var newValue = hv.substring(start).trim();
+ if (newValue.length > 0) {
+ newValue = callback(newValue);
+ values.push(newValue);
+ }
+
+ return values;
+}
+
+function rsplit(s, delim, count) {
+ var nsplits = 0;
+ var end = s.length;
+ var rval = [];
+ for (var i = s.length - 1; i >= 0; i--) {
+ if (s[i] === delim) {
+ var t = s.substring(i + 1, end);
+ end = i;
+ rval.unshift(t);
+ nsplits++;
+ if (nsplits === count) {
+ break;
+ }
+ }
+ }
+ if (end !== 0) {
+ rval.unshift(s.substring(0, end));
+ }
+ return rval;
+}
+
+function ishex(c) {
+ return ('0123456789ABCDEFabcdef'.indexOf(c) > -1);
+}
+
+function unescape(s) {
+ var i = 0;
+ var t = '';
+ while (i < s.length) {
+ if (s[i] != '%' || !ishex(s[i + 1]) || !ishex(s[i + 2])) {
+ t += s[i];
+ } else {
+ ++i;
+ var hexvalue = '';
+ if (i < s.length) {
+ hexvalue += s[i];
+ ++i;
+ }
+ if (i < s.length) {
+ hexvalue += s[i];
+ }
+ if (hexvalue.length > 0) {
+ t += Buffer.from(hexvalue, 'hex').toString();
+ } else {
+ t += '%';
+ }
+ }
+
+ ++i;
+ }
+ return t;
+}
+
+Deserializer.ALTSVC = function readAltSvc(buffer, frame) {
+ if (buffer.length < 2) {
+ return 'FRAME_SIZE_ERROR';
+ }
+ var originLength = buffer.readUInt16BE(0);
+ if ((buffer.length - 2) < originLength) {
+ return 'FRAME_SIZE_ERROR';
+ }
+ frame.origin = buffer.toString('ascii', 2, 2 + originLength);
+ var fieldValue = buffer.toString('ascii', 2 + originLength);
+ var values = parseHeaderValue(fieldValue, ',', splitHeaderParameters);
+ if (values.length > 1) {
+ // TODO - warn that we only use one here
+ }
+ if (values.length === 0) {
+ // Well that's a malformed frame. Just ignore it.
+ return;
+ }
+
+ var chosenAltSvc = values[0];
+ frame.maxAge = 86400; // Default
+ for (var i = 0; i < chosenAltSvc.length; i++) {
+ if (i === 0) {
+ // This corresponds to the protocolID="<host>:<port>" item
+ frame.protocolID = unescape(chosenAltSvc[i].name);
+ var hostport = rsplit(chosenAltSvc[i].value, ':', 1);
+ frame.host = hostport[0];
+ frame.port = parseInt(hostport[1], 10);
+ } else if (chosenAltSvc[i].name == 'ma') {
+ frame.maxAge = parseInt(chosenAltSvc[i].value, 10);
+ }
+ // Otherwise, we just ignore this
+ }
+};
+
+// frame 0xB was BLOCKED and some versions of chrome will
+// throw PROTOCOL_ERROR upon seeing it with non 0 payload
+
+frameTypes[0xC] = 'ORIGIN';
+frameFlags.ORIGIN = [];
+typeSpecificAttributes.ORIGIN = ['originList'];
+
+Serializer.ORIGIN = function writeOrigin(frame, buffers) {
+ for (var i = 0; i < frame.originList.length; i++) {
+ var buffer = Buffer.alloc(2);
+ buffer.writeUInt16BE(frame.originList[i].length, 0);
+ buffers.push(buffer);
+ buffers.push(Buffer.from(frame.originList[i], 'ascii'));
+ }
+};
+
+Deserializer.ORIGIN = function readOrigin(buffer, frame) {
+ // ignored
+};
+
+
+// [Error Codes](https://tools.ietf.org/html/rfc7540#section-7)
+// ------------------------------------------------------------
+
+var errorCodes = [
+ 'NO_ERROR',
+ 'PROTOCOL_ERROR',
+ 'INTERNAL_ERROR',
+ 'FLOW_CONTROL_ERROR',
+ 'SETTINGS_TIMEOUT',
+ 'STREAM_CLOSED',
+ 'FRAME_SIZE_ERROR',
+ 'REFUSED_STREAM',
+ 'CANCEL',
+ 'COMPRESSION_ERROR',
+ 'CONNECT_ERROR',
+ 'ENHANCE_YOUR_CALM',
+ 'INADEQUATE_SECURITY',
+ 'HTTP_1_1_REQUIRED'
+];
+
+// Logging
+// -------
+
+// [Bunyan serializers](https://github.com/trentm/node-bunyan#serializers) to improve logging output
+// for debug messages emitted in this component.
+exports.serializers = {};
+
+// * `frame` serializer: it transforms data attributes from Buffers to hex strings and filters out
+// flags that are not present.
+var frameCounter = 0;
+exports.serializers.frame = function(frame) {
+ if (!frame) {
+ return null;
+ }
+
+ if ('id' in frame) {
+ return frame.id;
+ }
+
+ frame.id = frameCounter;
+ frameCounter += 1;
+
+ var logEntry = { id: frame.id };
+ genericAttributes.concat(typeSpecificAttributes[frame.type]).forEach(function(name) {
+ logEntry[name] = frame[name];
+ });
+
+ if (frame.data instanceof Buffer) {
+ if (logEntry.data.length > 50) {
+ logEntry.data = frame.data.slice(0, 47).toString('hex') + '...';
+ } else {
+ logEntry.data = frame.data.toString('hex');
+ }
+
+ if (!('length' in logEntry)) {
+ logEntry.length = frame.data.length;
+ }
+ }
+
+ if (frame.promised_stream instanceof Object) {
+ logEntry.promised_stream = 'stream-' + frame.promised_stream.id;
+ }
+
+ logEntry.flags = Object.keys(frame.flags || {}).filter(function(name) {
+ return frame.flags[name] === true;
+ });
+
+ return logEntry;
+};
+
+// * `data` serializer: it simply transforms a buffer to a hex string.
+exports.serializers.data = function(data) {
+ return data.toString('hex');
+};
diff --git a/testing/xpcshell/node-http2/lib/protocol/index.js b/testing/xpcshell/node-http2/lib/protocol/index.js
new file mode 100644
index 0000000000..0f3720e2ce
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/protocol/index.js
@@ -0,0 +1,91 @@
+// This is an implementation of the [HTTP/2][http2]
+// framing layer for [node.js][node].
+//
+// The main building blocks are [node.js streams][node-stream] that are connected through pipes.
+//
+// The main components are:
+//
+// * [Endpoint](endpoint.html): represents an HTTP/2 endpoint (client or server). It's
+// responsible for the the first part of the handshake process (sending/receiving the
+// [connection header][http2-connheader]) and manages other components (framer, compressor,
+// connection, streams) that make up a client or server.
+//
+// * [Connection](connection.html): multiplexes the active HTTP/2 streams, manages connection
+// lifecycle and settings, and responsible for enforcing the connection level limits (flow
+// control, initiated stream limit)
+//
+// * [Stream](stream.html): implementation of the [HTTP/2 stream concept][http2-stream].
+// Implements the [stream state machine][http2-streamstate] defined by the standard, provides
+// management methods and events for using the stream (sending/receiving headers, data, etc.),
+// and enforces stream level constraints (flow control, sending only legal frames).
+//
+// * [Flow](flow.html): implements flow control for Connection and Stream as parent class.
+//
+// * [Compressor and Decompressor](compressor.html): compression and decompression of HEADER and
+// PUSH_PROMISE frames
+//
+// * [Serializer and Deserializer](framer.html): the lowest layer in the stack that transforms
+// between the binary and the JavaScript object representation of HTTP/2 frames
+//
+// [http2]: https://tools.ietf.org/html/rfc7540
+// [http2-connheader]: https://tools.ietf.org/html/rfc7540#section-3.5
+// [http2-stream]: https://tools.ietf.org/html/rfc7540#section-5
+// [http2-streamstate]: https://tools.ietf.org/html/rfc7540#section-5.1
+// [node]: https://nodejs.org/
+// [node-stream]: https://nodejs.org/api/stream.html
+// [node-https]: https://nodejs.org/api/https.html
+// [node-http]: https://nodejs.org/api/http.html
+
+exports.VERSION = 'h2';
+
+exports.Endpoint = require('./endpoint').Endpoint;
+
+/* Bunyan serializers exported by submodules that are worth adding when creating a logger. */
+exports.serializers = {};
+var modules = ['./framer', './compressor', './flow', './connection', './stream', './endpoint'];
+modules.map(require).forEach(function(module) {
+ for (var name in module.serializers) {
+ exports.serializers[name] = module.serializers[name];
+ }
+});
+
+/*
+ Stream API Endpoint API
+ Stream data
+
+ | ^ | ^
+ | | | |
+ | | | |
+ +-----------|------------|---------------------------------------+
+ | | | Endpoint |
+ | | | |
+ | +-------|------------|-----------------------------------+ |
+ | | | | Connection | |
+ | | v | | |
+ | | +-----------------------+ +-------------------- | |
+ | | | Stream | | Stream ... | |
+ | | +-----------------------+ +-------------------- | |
+ | | | ^ | ^ | |
+ | | v | v | | |
+ | | +------------+--+--------+--+------------+- ... | |
+ | | | ^ | |
+ | | | | | |
+ | +-----------------------|--------|-----------------------+ |
+ | | | |
+ | v | |
+ | +--------------------------+ +--------------------------+ |
+ | | Compressor | | Decompressor | |
+ | +--------------------------+ +--------------------------+ |
+ | | ^ |
+ | v | |
+ | +--------------------------+ +--------------------------+ |
+ | | Serializer | | Deserializer | |
+ | +--------------------------+ +--------------------------+ |
+ | | ^ |
+ +---------------------------|--------|---------------------------+
+ | |
+ v |
+
+ Raw data
+
+*/
diff --git a/testing/xpcshell/node-http2/lib/protocol/stream.js b/testing/xpcshell/node-http2/lib/protocol/stream.js
new file mode 100644
index 0000000000..b80dff0098
--- /dev/null
+++ b/testing/xpcshell/node-http2/lib/protocol/stream.js
@@ -0,0 +1,677 @@
+var assert = require('assert');
+
+// The Stream class
+// ================
+
+// Stream is a [Duplex stream](https://nodejs.org/api/stream.html#stream_class_stream_duplex)
+// subclass that implements the [HTTP/2 Stream](https://tools.ietf.org/html/rfc7540#section-5)
+// concept. It has two 'sides': one that is used by the user to send/receive data (the `stream`
+// object itself) and one that is used by a Connection to read/write frames to/from the other peer
+// (`stream.upstream`).
+
+var Duplex = require('stream').Duplex;
+
+exports.Stream = Stream;
+
+// Public API
+// ----------
+
+// * **new Stream(log, connection)**: create a new Stream
+//
+// * **Event: 'headers' (headers)**: signals incoming headers
+//
+// * **Event: 'promise' (stream, headers)**: signals an incoming push promise
+//
+// * **Event: 'priority' (priority)**: signals a priority change. `priority` is a number between 0
+// (highest priority) and 2^31-1 (lowest priority). Default value is 2^30.
+//
+// * **Event: 'error' (type)**: signals an error
+//
+// * **headers(headers)**: send headers
+//
+// * **promise(headers): Stream**: promise a stream
+//
+// * **priority(priority)**: set the priority of the stream. Priority can be changed by the peer
+// too, but once it is set locally, it can not be changed remotely.
+//
+// * **reset(error)**: reset the stream with an error code
+//
+// * **upstream**: a [Flow](flow.js) that is used by the parent connection to write/read frames
+// that are to be sent/arrived to/from the peer and are related to this stream.
+//
+// Headers are always in the [regular node.js header format][1].
+// [1]: https://nodejs.org/api/http.html#http_message_headers
+
+// Constructor
+// -----------
+
+// The main aspects of managing the stream are:
+function Stream(log, connection) {
+ Duplex.call(this);
+
+ // * logging
+ this._log = log.child({ component: 'stream', s: this });
+
+ // * receiving and sending stream management commands
+ this._initializeManagement();
+
+ // * sending and receiving frames to/from the upstream connection
+ this._initializeDataFlow();
+
+ // * maintaining the state of the stream (idle, open, closed, etc.) and error detection
+ this._initializeState();
+
+ this.connection = connection;
+ this.sentEndStream = false;
+}
+
+Stream.prototype = Object.create(Duplex.prototype, { constructor: { value: Stream } });
+
+// Managing the stream
+// -------------------
+
+// the default stream priority is 2^30
+var DEFAULT_PRIORITY = Math.pow(2, 30);
+var MAX_PRIORITY = Math.pow(2, 31) - 1;
+
+// PUSH_PROMISE and HEADERS are forwarded to the user through events.
+Stream.prototype._initializeManagement = function _initializeManagement() {
+ this._resetSent = false;
+ this._priority = DEFAULT_PRIORITY;
+ this._letPeerPrioritize = true;
+};
+
+Stream.prototype.promise = function promise(headers) {
+ var stream = new Stream(this._log, this.connection);
+ stream._priority = Math.min(this._priority + 1, MAX_PRIORITY);
+ this._pushUpstream({
+ type: 'PUSH_PROMISE',
+ flags: {},
+ stream: this.id,
+ promised_stream: stream,
+ headers: headers
+ });
+ return stream;
+};
+
+Stream.prototype._onPromise = function _onPromise(frame) {
+ this.emit('promise', frame.promised_stream, frame.headers);
+};
+
+Stream.prototype.headers = function headers(headers) {
+ this._pushUpstream({
+ type: 'HEADERS',
+ flags: {},
+ stream: this.id,
+ headers: headers
+ });
+};
+
+Stream.prototype.trailers = function trailers(trailers) {
+ this.sentEndStream = true;
+ this._pushUpstream({
+ type: 'HEADERS',
+ flags: {'END_STREAM': true},
+ stream: this.id,
+ headers: trailers
+ });
+};
+
+Stream.prototype._onHeaders = function _onHeaders(frame) {
+ if (frame.priority !== undefined) {
+ this.priority(frame.priority, true);
+ }
+ this.emit('headers', frame.headers);
+};
+
+Stream.prototype.priority = function priority(priority, peer) {
+ if ((peer && this._letPeerPrioritize) || !peer) {
+ if (!peer) {
+ this._letPeerPrioritize = false;
+
+ var lastFrame = this.upstream.getLastQueuedFrame();
+ if (lastFrame && ((lastFrame.type === 'HEADERS') || (lastFrame.type === 'PRIORITY'))) {
+ lastFrame.priority = priority;
+ } else {
+ this._pushUpstream({
+ type: 'PRIORITY',
+ flags: {},
+ stream: this.id,
+ priority: priority
+ });
+ }
+ }
+
+ this._log.debug({ priority: priority }, 'Changing priority');
+ this.emit('priority', priority);
+ this._priority = priority;
+ }
+};
+
+Stream.prototype._onPriority = function _onPriority(frame) {
+ this.priority(frame.priority, true);
+};
+
+// Resetting the stream. Normally, an endpoint SHOULD NOT send more than one RST_STREAM frame for
+// any stream.
+Stream.prototype.reset = function reset(error) {
+ if (!this._resetSent) {
+ this._resetSent = true;
+ this._pushUpstream({
+ type: 'RST_STREAM',
+ flags: {},
+ stream: this.id,
+ error: error
+ });
+ }
+};
+
+// Specify an alternate service for the origin of this stream
+Stream.prototype.altsvc = function altsvc(host, port, protocolID, maxAge, origin) {
+ var stream;
+ if (origin) {
+ stream = 0;
+ } else {
+ stream = this.id;
+ }
+ this._pushUpstream({
+ type: 'ALTSVC',
+ flags: {},
+ stream: stream,
+ host: host,
+ port: port,
+ protocolID: protocolID,
+ origin: origin,
+ maxAge: maxAge
+ });
+};
+
+// Data flow
+// ---------
+
+// The incoming and the generated outgoing frames are received/transmitted on the `this.upstream`
+// [Flow](flow.html). The [Connection](connection.html) object instantiating the stream will read
+// and write frames to/from it. The stream itself is a regular [Duplex stream][1], and is used by
+// the user to write or read the body of the request.
+// [1]: https://nodejs.org/api/stream.html#stream_class_stream_duplex
+
+// upstream side stream user side
+//
+// +------------------------------------+
+// | |
+// +------------------+ |
+// | upstream | |
+// | | |
+// +--+ | +--|
+// read() | | _send() | _write() | | write(buf)
+// <--------------|B |<--------------|--------------| B|<------------
+// | | | | |
+// frames +--+ | +--| buffers
+// | | | | |
+// -------------->|B |---------------|------------->| B|------------>
+// write(frame) | | _receive() | _read() | | read()
+// +--+ | +--|
+// | | |
+// | | |
+// +------------------+ |
+// | |
+// +------------------------------------+
+//
+// B: input or output buffer
+
+var Flow = require('./flow').Flow;
+
+Stream.prototype._initializeDataFlow = function _initializeDataFlow() {
+ this.id = undefined;
+
+ this._ended = false;
+
+ this.upstream = new Flow();
+ this.upstream._log = this._log;
+ this.upstream._send = this._send.bind(this);
+ this.upstream._receive = this._receive.bind(this);
+ this.upstream.write = this._writeUpstream.bind(this);
+ this.upstream.on('error', this.emit.bind(this, 'error'));
+
+ this.on('finish', this._finishing);
+};
+
+Stream.prototype._pushUpstream = function _pushUpstream(frame) {
+ this.upstream.push(frame);
+ this._transition(true, frame);
+};
+
+// Overriding the upstream's `write` allows us to act immediately instead of waiting for the input
+// queue to empty. This is important in case of control frames.
+Stream.prototype._writeUpstream = function _writeUpstream(frame) {
+ this._log.debug({ frame: frame }, 'Receiving frame');
+
+ var moreNeeded = Flow.prototype.write.call(this.upstream, frame);
+
+ // * Transition to a new state if that's the effect of receiving the frame
+ this._transition(false, frame);
+
+ // * If it's a control frame. Call the appropriate handler method.
+ if (frame.type === 'HEADERS') {
+ if (this._processedHeaders && !frame.flags['END_STREAM']) {
+ this.emit('error', 'PROTOCOL_ERROR');
+ }
+ this._processedHeaders = true;
+ this._onHeaders(frame);
+ } else if (frame.type === 'PUSH_PROMISE') {
+ this._onPromise(frame);
+ } else if (frame.type === 'PRIORITY') {
+ this._onPriority(frame);
+ } else if (frame.type === 'ALTSVC') {
+ // TODO
+ } else if (frame.type === 'ORIGIN') {
+ // TODO
+ }
+
+ // * If it's an invalid stream level frame, emit error
+ else if ((frame.type !== 'DATA') &&
+ (frame.type !== 'WINDOW_UPDATE') &&
+ (frame.type !== 'RST_STREAM')) {
+ this._log.error({ frame: frame }, 'Invalid stream level frame');
+ this.emit('error', 'PROTOCOL_ERROR');
+ }
+
+ return moreNeeded;
+};
+
+// The `_receive` method (= `upstream._receive`) gets called when there's an incoming frame.
+Stream.prototype._receive = function _receive(frame, ready) {
+ // * If it's a DATA frame, then push the payload into the output buffer on the other side.
+ // Call ready when the other side is ready to receive more.
+ if (!this._ended && (frame.type === 'DATA')) {
+ var moreNeeded = this.push(frame.data);
+ if (!moreNeeded) {
+ this._receiveMore = ready;
+ }
+ }
+
+ // * Any frame may signal the end of the stream with the END_STREAM flag
+ if (!this._ended && (frame.flags.END_STREAM || (frame.type === 'RST_STREAM'))) {
+ this.push(null);
+ this._ended = true;
+ }
+
+ // * Postpone calling `ready` if `push()` returned a falsy value
+ if (this._receiveMore !== ready) {
+ ready();
+ }
+};
+
+// The `_read` method is called when the user side is ready to receive more data. If there's a
+// pending write on the upstream, then call its pending ready callback to receive more frames.
+Stream.prototype._read = function _read() {
+ if (this._receiveMore) {
+ var receiveMore = this._receiveMore;
+ delete this._receiveMore;
+ receiveMore();
+ }
+};
+
+// The `write` method gets called when there's a write request from the user.
+Stream.prototype._write = function _write(buffer, encoding, ready) {
+ // * Chunking is done by the upstream Flow.
+ var moreNeeded = this._pushUpstream({
+ type: 'DATA',
+ flags: {},
+ stream: this.id,
+ data: buffer
+ });
+
+ // * Call ready when upstream is ready to receive more frames.
+ if (moreNeeded) {
+ ready();
+ } else {
+ this._sendMore = ready;
+ }
+};
+
+// The `_send` (= `upstream._send`) method is called when upstream is ready to receive more frames.
+// If there's a pending write on the user side, then call its pending ready callback to receive more
+// writes.
+Stream.prototype._send = function _send() {
+ if (this._sendMore) {
+ var sendMore = this._sendMore;
+ delete this._sendMore;
+ sendMore();
+ }
+};
+
+// When the stream is finishing (the user calls `end()` on it), then we have to set the `END_STREAM`
+// flag on the last frame. If there's no frame in the queue, or if it doesn't support this flag,
+// then we create a 0 length DATA frame. We could do this all the time, but putting the flag on an
+// existing frame is a nice optimization.
+var emptyBuffer = Buffer.alloc(0);
+Stream.prototype._finishing = function _finishing() {
+ var endFrame = {
+ type: 'DATA',
+ flags: { END_STREAM: true },
+ stream: this.id,
+ data: emptyBuffer
+ };
+
+ if (this.sentEndStream) {
+ this._log.debug('Already sent END_STREAM, not sending again.');
+ return;
+ }
+
+ this.sentEndStream = true;
+ var lastFrame = this.upstream.getLastQueuedFrame();
+ if (lastFrame && ((lastFrame.type === 'DATA') || (lastFrame.type === 'HEADERS'))) {
+ this._log.debug({ frame: lastFrame }, 'Marking last frame with END_STREAM flag.');
+ lastFrame.flags.END_STREAM = true;
+ this._transition(true, endFrame);
+ } else {
+ this._pushUpstream(endFrame);
+ }
+};
+
+// [Stream States](https://tools.ietf.org/html/rfc7540#section-5.1)
+// ----------------
+//
+// +--------+
+// PP | | PP
+// ,--------| idle |--------.
+// / | | \
+// v +--------+ v
+// +----------+ | +----------+
+// | | | H | |
+// ,---| reserved | | | reserved |---.
+// | | (local) | v | (remote) | |
+// | +----------+ +--------+ +----------+ |
+// | | ES | | ES | |
+// | | H ,-------| open |-------. | H |
+// | | / | | \ | |
+// | v v +--------+ v v |
+// | +----------+ | +----------+ |
+// | | half | | | half | |
+// | | closed | | R | closed | |
+// | | (remote) | | | (local) | |
+// | +----------+ | +----------+ |
+// | | v | |
+// | | ES / R +--------+ ES / R | |
+// | `----------->| |<-----------' |
+// | R | closed | R |
+// `-------------------->| |<--------------------'
+// +--------+
+
+// Streams begin in the IDLE state and transitions happen when there's an incoming or outgoing frame
+Stream.prototype._initializeState = function _initializeState() {
+ this.state = 'IDLE';
+ this._initiated = undefined;
+ this._closedByUs = undefined;
+ this._closedWithRst = undefined;
+ this._processedHeaders = false;
+};
+
+// Only `_setState` should change `this.state` directly. It also logs the state change and notifies
+// interested parties using the 'state' event.
+Stream.prototype._setState = function transition(state) {
+ assert(this.state !== state);
+ this._log.debug({ from: this.state, to: state }, 'State transition');
+ this.state = state;
+ this.emit('state', state);
+};
+
+// A state is 'active' if the stream in that state counts towards the concurrency limit. Streams
+// that are in the "open" state, or either of the "half closed" states count toward this limit.
+function activeState(state) {
+ return ((state === 'HALF_CLOSED_LOCAL') || (state === 'HALF_CLOSED_REMOTE') || (state === 'OPEN'));
+}
+
+// `_transition` is called every time there's an incoming or outgoing frame. It manages state
+// transitions, and detects stream errors. A stream error is always caused by a frame that is not
+// allowed in the current state.
+Stream.prototype._transition = function transition(sending, frame) {
+ var receiving = !sending;
+ var connectionError;
+ var streamError;
+
+ var DATA = false, HEADERS = false, PRIORITY = false, ALTSVC = false, ORIGIN = false;
+ var RST_STREAM = false, PUSH_PROMISE = false, WINDOW_UPDATE = false;
+ switch(frame.type) {
+ case 'DATA' : DATA = true; break;
+ case 'HEADERS' : HEADERS = true; break;
+ case 'PRIORITY' : PRIORITY = true; break;
+ case 'RST_STREAM' : RST_STREAM = true; break;
+ case 'PUSH_PROMISE' : PUSH_PROMISE = true; break;
+ case 'WINDOW_UPDATE': WINDOW_UPDATE = true; break;
+ case 'ALTSVC' : ALTSVC = true; break;
+ case 'ORIGIN' : ORIGIN = true; break;
+ }
+
+ var previousState = this.state;
+
+ switch (this.state) {
+ // All streams start in the **idle** state. In this state, no frames have been exchanged.
+ //
+ // * Sending or receiving a HEADERS frame causes the stream to become "open".
+ //
+ // When the HEADERS frame contains the END_STREAM flags, then two state transitions happen.
+ case 'IDLE':
+ if (HEADERS) {
+ this._setState('OPEN');
+ if (frame.flags.END_STREAM) {
+ this._setState(sending ? 'HALF_CLOSED_LOCAL' : 'HALF_CLOSED_REMOTE');
+ }
+ this._initiated = sending;
+ } else if (sending && RST_STREAM) {
+ this._setState('CLOSED');
+ } else if (PRIORITY) {
+ /* No state change */
+ } else {
+ connectionError = 'PROTOCOL_ERROR';
+ }
+ break;
+
+ // A stream in the **reserved (local)** state is one that has been promised by sending a
+ // PUSH_PROMISE frame.
+ //
+ // * The endpoint can send a HEADERS frame. This causes the stream to open in a "half closed
+ // (remote)" state.
+ // * Either endpoint can send a RST_STREAM frame to cause the stream to become "closed". This
+ // releases the stream reservation.
+ // * An endpoint may receive PRIORITY frame in this state.
+ // * An endpoint MUST NOT send any other type of frame in this state.
+ case 'RESERVED_LOCAL':
+ if (sending && HEADERS) {
+ this._setState('HALF_CLOSED_REMOTE');
+ } else if (RST_STREAM) {
+ this._setState('CLOSED');
+ } else if (PRIORITY) {
+ /* No state change */
+ } else {
+ connectionError = 'PROTOCOL_ERROR';
+ }
+ break;
+
+ // A stream in the **reserved (remote)** state has been reserved by a remote peer.
+ //
+ // * Either endpoint can send a RST_STREAM frame to cause the stream to become "closed". This
+ // releases the stream reservation.
+ // * Receiving a HEADERS frame causes the stream to transition to "half closed (local)".
+ // * An endpoint MAY send PRIORITY frames in this state to reprioritize the stream.
+ // * Receiving any other type of frame MUST be treated as a stream error of type PROTOCOL_ERROR.
+ case 'RESERVED_REMOTE':
+ if (RST_STREAM) {
+ this._setState('CLOSED');
+ } else if (receiving && HEADERS) {
+ this._setState('HALF_CLOSED_LOCAL');
+ } else if (PRIORITY || ORIGIN) {
+ /* No state change */
+ } else {
+ connectionError = 'PROTOCOL_ERROR';
+ }
+ break;
+
+ // The **open** state is where both peers can send frames. In this state, sending peers observe
+ // advertised stream level flow control limits.
+ //
+ // * From this state either endpoint can send a frame with a END_STREAM flag set, which causes
+ // the stream to transition into one of the "half closed" states: an endpoint sending a
+ // END_STREAM flag causes the stream state to become "half closed (local)"; an endpoint
+ // receiving a END_STREAM flag causes the stream state to become "half closed (remote)".
+ // * Either endpoint can send a RST_STREAM frame from this state, causing it to transition
+ // immediately to "closed".
+ case 'OPEN':
+ if (frame.flags.END_STREAM) {
+ this._setState(sending ? 'HALF_CLOSED_LOCAL' : 'HALF_CLOSED_REMOTE');
+ } else if (RST_STREAM) {
+ this._setState('CLOSED');
+ } else {
+ /* No state change */
+ }
+ break;
+
+ // A stream that is **half closed (local)** cannot be used for sending frames.
+ //
+ // * A stream transitions from this state to "closed" when a frame that contains a END_STREAM
+ // flag is received, or when either peer sends a RST_STREAM frame.
+ // * An endpoint MAY send or receive PRIORITY frames in this state to reprioritize the stream.
+ // * WINDOW_UPDATE can be sent by a peer that has sent a frame bearing the END_STREAM flag.
+ case 'HALF_CLOSED_LOCAL':
+ if (RST_STREAM || (receiving && frame.flags.END_STREAM)) {
+ this._setState('CLOSED');
+ } else if (ORIGIN || ALTSVC || receiving || PRIORITY || (sending && WINDOW_UPDATE)) {
+ /* No state change */
+ } else {
+ connectionError = 'PROTOCOL_ERROR';
+ }
+ break;
+
+ // A stream that is **half closed (remote)** is no longer being used by the peer to send frames.
+ // In this state, an endpoint is no longer obligated to maintain a receiver flow control window
+ // if it performs flow control.
+ //
+ // * If an endpoint receives additional frames for a stream that is in this state it MUST
+ // respond with a stream error of type STREAM_CLOSED.
+ // * A stream can transition from this state to "closed" by sending a frame that contains a
+ // END_STREAM flag, or when either peer sends a RST_STREAM frame.
+ // * An endpoint MAY send or receive PRIORITY frames in this state to reprioritize the stream.
+ // * A receiver MAY receive a WINDOW_UPDATE frame on a "half closed (remote)" stream.
+ case 'HALF_CLOSED_REMOTE':
+ if (RST_STREAM || (sending && frame.flags.END_STREAM)) {
+ this._setState('CLOSED');
+ } else if (ORIGIN || ALTSVC || sending || PRIORITY || (receiving && WINDOW_UPDATE)) {
+ /* No state change */
+ } else {
+ connectionError = 'PROTOCOL_ERROR';
+ }
+ break;
+
+ // The **closed** state is the terminal state.
+ //
+ // * An endpoint MUST NOT send frames on a closed stream. An endpoint that receives a frame
+ // after receiving a RST_STREAM or a frame containing a END_STREAM flag on that stream MUST
+ // treat that as a stream error of type STREAM_CLOSED.
+ // * WINDOW_UPDATE, PRIORITY or RST_STREAM frames can be received in this state for a short
+ // period after a frame containing an END_STREAM flag is sent. Until the remote peer receives
+ // and processes the frame bearing the END_STREAM flag, it might send either frame type.
+ // Endpoints MUST ignore WINDOW_UPDATE frames received in this state, though endpoints MAY
+ // choose to treat WINDOW_UPDATE frames that arrive a significant time after sending
+ // END_STREAM as a connection error of type PROTOCOL_ERROR.
+ // * If this state is reached as a result of sending a RST_STREAM frame, the peer that receives
+ // the RST_STREAM might have already sent - or enqueued for sending - frames on the stream
+ // that cannot be withdrawn. An endpoint that sends a RST_STREAM frame MUST ignore frames that
+ // it receives on closed streams after it has sent a RST_STREAM frame. An endpoint MAY choose
+ // to limit the period over which it ignores frames and treat frames that arrive after this
+ // time as being in error.
+ // * An endpoint might receive a PUSH_PROMISE frame after it sends RST_STREAM. PUSH_PROMISE
+ // causes a stream to become "reserved". If promised streams are not desired, a RST_STREAM
+ // can be used to close any of those streams.
+ case 'CLOSED':
+ if (PRIORITY || (sending && RST_STREAM) ||
+ (receiving && WINDOW_UPDATE) ||
+ (receiving && this._closedByUs &&
+ (this._closedWithRst || RST_STREAM || ALTSVC || ORIGIN))) {
+ /* No state change */
+ } else {
+ streamError = 'STREAM_CLOSED';
+ }
+ break;
+ }
+
+ // Noting that the connection was closed by the other endpoint. It may be important in edge cases.
+ // For example, when the peer tries to cancel a promised stream, but we already sent every data
+ // on it, then the stream is in CLOSED state, yet we want to ignore the incoming RST_STREAM.
+ if ((this.state === 'CLOSED') && (previousState !== 'CLOSED')) {
+ this._closedByUs = sending;
+ this._closedWithRst = RST_STREAM;
+ }
+
+ // Sending/receiving a PUSH_PROMISE
+ //
+ // * Sending a PUSH_PROMISE frame marks the associated stream for later use. The stream state
+ // for the reserved stream transitions to "reserved (local)".
+ // * Receiving a PUSH_PROMISE frame marks the associated stream as reserved by the remote peer.
+ // The state of the stream becomes "reserved (remote)".
+ if (PUSH_PROMISE && !connectionError && !streamError) {
+ /* This assertion must hold, because _transition is called immediately when a frame is written
+ to the stream. If it would be called when a frame gets out of the input queue, the state
+ of the reserved could have been changed by then. */
+ assert(frame.promised_stream.state === 'IDLE', frame.promised_stream.state);
+ frame.promised_stream._setState(sending ? 'RESERVED_LOCAL' : 'RESERVED_REMOTE');
+ frame.promised_stream._initiated = sending;
+ }
+
+ // Signaling how sending/receiving this frame changes the active stream count (-1, 0 or +1)
+ if (this._initiated) {
+ var change = (activeState(this.state) - activeState(previousState));
+ if (sending) {
+ frame.count_change = change;
+ } else {
+ frame.count_change(change);
+ }
+ } else if (sending) {
+ frame.count_change = 0;
+ }
+
+ // Common error handling.
+ if (connectionError || streamError) {
+ var info = {
+ error: connectionError,
+ frame: frame,
+ state: this.state,
+ closedByUs: this._closedByUs,
+ closedWithRst: this._closedWithRst
+ };
+
+ // * When sending something invalid, throwing an exception, since it is probably a bug.
+ if (sending) {
+ this._log.error(info, 'Sending illegal frame.');
+ return this.emit('error', new Error('Sending illegal frame (' + frame.type + ') in ' + this.state + ' state.'));
+ }
+
+ // * In case of a serious problem, emitting and error and letting someone else handle it
+ // (e.g. closing the connection)
+ // * When receiving something invalid, sending an RST_STREAM using the `reset` method.
+ // This will automatically cause a transition to the CLOSED state.
+ else {
+ this._log.error(info, 'Received illegal frame.');
+ if (connectionError) {
+ this.emit('connectionError', connectionError);
+ } else {
+ this.reset(streamError);
+ this.emit('error', streamError);
+ }
+ }
+ }
+};
+
+// Bunyan serializers
+// ------------------
+
+exports.serializers = {};
+
+var nextId = 0;
+exports.serializers.s = function(stream) {
+ if (!('_id' in stream)) {
+ stream._id = nextId;
+ nextId += 1;
+ }
+ return stream._id;
+};
diff --git a/testing/xpcshell/node-http2/package.json b/testing/xpcshell/node-http2/package.json
new file mode 100644
index 0000000000..ca1d3cbb73
--- /dev/null
+++ b/testing/xpcshell/node-http2/package.json
@@ -0,0 +1,46 @@
+{
+ "name": "http2",
+ "version": "3.3.8",
+ "description": "An HTTP/2 client and server implementation",
+ "main": "lib/index.js",
+ "engines": {
+ "node": ">=0.12.0 <9.0.0"
+ },
+ "devDependencies": {
+ "istanbul": "*",
+ "chai": "*",
+ "mocha": "*",
+ "docco": "*",
+ "bunyan": "*"
+ },
+ "scripts": {
+ "test": "istanbul test _mocha -- --reporter spec --slow 500 --timeout 15000",
+ "doc": "docco lib/* --output doc --layout parallel --template root.jst --css doc/docco.css && docco lib/protocol/* --output doc/protocol --layout parallel --template protocol.jst --css doc/docco.css"
+ },
+ "repository": {
+ "type": "git",
+ "url": "https://github.com/molnarg/node-http2.git"
+ },
+ "homepage": "https://github.com/molnarg/node-http2",
+ "bugs": {
+ "url": "https://github.com/molnarg/node-http2/issues"
+ },
+ "keywords": [
+ "http",
+ "http2",
+ "client",
+ "server"
+ ],
+ "author": "Gábor Molnár <gabor@molnar.es> (http://gabor.molnar.es)",
+ "contributors": [
+ "Nick Hurley",
+ "Mike Belshe",
+ "Yoshihiro Iwanaga",
+ "Igor Novikov",
+ "James Willcox",
+ "David Björklund",
+ "Patrick McManus"
+ ],
+ "license": "MIT",
+ "readmeFilename": "README.md"
+}
diff --git a/testing/xpcshell/node-http2/test/connection.js b/testing/xpcshell/node-http2/test/connection.js
new file mode 100644
index 0000000000..21785d620a
--- /dev/null
+++ b/testing/xpcshell/node-http2/test/connection.js
@@ -0,0 +1,237 @@
+var expect = require('chai').expect;
+var util = require('./util');
+
+var Connection = require('../lib/protocol/connection').Connection;
+
+var settings = {
+ SETTINGS_MAX_CONCURRENT_STREAMS: 100,
+ SETTINGS_INITIAL_WINDOW_SIZE: 100000
+};
+
+var MAX_PRIORITY = Math.pow(2, 31) - 1;
+var MAX_RANDOM_PRIORITY = 10;
+
+function randomPriority() {
+ return Math.floor(Math.random() * (MAX_RANDOM_PRIORITY + 1));
+}
+
+function expectPriorityOrder(priorities) {
+ priorities.forEach(function(bucket, priority) {
+ bucket.forEach(function(stream) {
+ expect(stream._priority).to.be.equal(priority);
+ });
+ });
+}
+
+describe('connection.js', function() {
+ describe('Connection class', function() {
+ describe('method ._insert(stream)', function() {
+ it('should insert the stream in _streamPriorities in a place determined by stream._priority', function() {
+ var streams = [];
+ var connection = Object.create(Connection.prototype, { _streamPriorities: { value: streams }});
+ var streamCount = 10;
+
+ for (var i = 0; i < streamCount; i++) {
+ var stream = { _priority: randomPriority() };
+ connection._insert(stream, stream._priority);
+ expect(connection._streamPriorities[stream._priority]).to.include(stream);
+ }
+
+ expectPriorityOrder(connection._streamPriorities);
+ });
+ });
+ describe('method ._reprioritize(stream)', function() {
+ it('should eject and then insert the stream in _streamPriorities in a place determined by stream._priority', function() {
+ var streams = [];
+ var connection = Object.create(Connection.prototype, { _streamPriorities: { value: streams }});
+ var streamCount = 10;
+ var oldPriority, newPriority, stream;
+
+ for (var i = 0; i < streamCount; i++) {
+ oldPriority = randomPriority();
+ while ((newPriority = randomPriority()) === oldPriority);
+ stream = { _priority: oldPriority };
+ connection._insert(stream, oldPriority);
+ connection._reprioritize(stream, newPriority);
+ stream._priority = newPriority;
+
+ expect(connection._streamPriorities[newPriority]).to.include(stream);
+ expect(connection._streamPriorities[oldPriority] || []).to.not.include(stream);
+ }
+
+ expectPriorityOrder(streams);
+ });
+ });
+ describe('invalid operation', function() {
+ describe('unsolicited ping answer', function() {
+ it('should be ignored', function() {
+ var connection = new Connection(util.log, 1, settings);
+
+ connection._receivePing({
+ stream: 0,
+ type: 'PING',
+ flags: {
+ 'PONG': true
+ },
+ data: Buffer.alloc(8)
+ });
+ });
+ });
+ });
+ });
+ describe('test scenario', function() {
+ var c, s;
+ beforeEach(function() {
+ c = new Connection(util.log.child({ role: 'client' }), 1, settings);
+ s = new Connection(util.log.child({ role: 'client' }), 2, settings);
+ c.pipe(s).pipe(c);
+ });
+
+ describe('connection setup', function() {
+ it('should work as expected', function(done) {
+ setTimeout(function() {
+ // If there are no exception until this, then we're done
+ done();
+ }, 10);
+ });
+ });
+ describe('sending/receiving a request', function() {
+ it('should work as expected', function(done) {
+ // Request and response data
+ var request_headers = {
+ ':method': 'GET',
+ ':path': '/'
+ };
+ var request_data = Buffer.alloc(0);
+ var response_headers = {
+ ':status': '200'
+ };
+ var response_data = Buffer.from('12345678', 'hex');
+
+ // Setting up server
+ s.on('stream', function(server_stream) {
+ server_stream.on('headers', function(headers) {
+ expect(headers).to.deep.equal(request_headers);
+ server_stream.headers(response_headers);
+ server_stream.end(response_data);
+ });
+ });
+
+ // Sending request
+ var client_stream = c.createStream();
+ client_stream.headers(request_headers);
+ client_stream.end(request_data);
+
+ // Waiting for answer
+ done = util.callNTimes(2, done);
+ client_stream.on('headers', function(headers) {
+ expect(headers).to.deep.equal(response_headers);
+ done();
+ });
+ client_stream.on('data', function(data) {
+ expect(data).to.deep.equal(response_data);
+ done();
+ });
+ });
+ });
+ describe('server push', function() {
+ it('should work as expected', function(done) {
+ var request_headers = { ':method': 'get', ':path': '/' };
+ var response_headers = { ':status': '200' };
+ var push_request_headers = { ':method': 'get', ':path': '/x' };
+ var push_response_headers = { ':status': '200' };
+ var response_content = Buffer.alloc(10);
+ var push_content = Buffer.alloc(10);
+
+ done = util.callNTimes(5, done);
+
+ s.on('stream', function(response) {
+ response.headers(response_headers);
+
+ var pushed = response.promise(push_request_headers);
+ pushed.headers(push_response_headers);
+ pushed.end(push_content);
+
+ response.end(response_content);
+ });
+
+ var request = c.createStream();
+ request.headers(request_headers);
+ request.end();
+ request.on('headers', function(headers) {
+ expect(headers).to.deep.equal(response_headers);
+ done();
+ });
+ request.on('data', function(data) {
+ expect(data).to.deep.equal(response_content);
+ done();
+ });
+ request.on('promise', function(pushed, headers) {
+ expect(headers).to.deep.equal(push_request_headers);
+ pushed.on('headers', function(headers) {
+ expect(headers).to.deep.equal(response_headers);
+ done();
+ });
+ pushed.on('data', function(data) {
+ expect(data).to.deep.equal(push_content);
+ done();
+ });
+ pushed.on('end', done);
+ });
+ });
+ });
+ describe('ping from client', function() {
+ it('should work as expected', function(done) {
+ c.ping(function() {
+ done();
+ });
+ });
+ });
+ describe('ping from server', function() {
+ it('should work as expected', function(done) {
+ s.ping(function() {
+ done();
+ });
+ });
+ });
+ describe('creating two streams and then using them in reverse order', function() {
+ it('should not result in non-monotonous local ID ordering', function() {
+ var s1 = c.createStream();
+ var s2 = c.createStream();
+ s2.headers({ ':method': 'get', ':path': '/' });
+ s1.headers({ ':method': 'get', ':path': '/' });
+ });
+ });
+ describe('creating two promises and then using them in reverse order', function() {
+ it('should not result in non-monotonous local ID ordering', function(done) {
+ s.on('stream', function(response) {
+ response.headers({ ':status': '200' });
+
+ var p1 = s.createStream();
+ var p2 = s.createStream();
+ response.promise(p2, { ':method': 'get', ':path': '/p2' });
+ response.promise(p1, { ':method': 'get', ':path': '/p1' });
+ p2.headers({ ':status': '200' });
+ p1.headers({ ':status': '200' });
+ });
+
+ var request = c.createStream();
+ request.headers({ ':method': 'get', ':path': '/' });
+
+ done = util.callNTimes(2, done);
+ request.on('promise', function() {
+ done();
+ });
+ });
+ });
+ describe('closing the connection on one end', function() {
+ it('should result in closed streams on both ends', function(done) {
+ done = util.callNTimes(2, done);
+ c.on('end', done);
+ s.on('end', done);
+
+ c.close();
+ });
+ });
+ });
+});
diff --git a/testing/xpcshell/node-http2/test/endpoint.js b/testing/xpcshell/node-http2/test/endpoint.js
new file mode 100644
index 0000000000..bdd2569d42
--- /dev/null
+++ b/testing/xpcshell/node-http2/test/endpoint.js
@@ -0,0 +1,41 @@
+var expect = require('chai').expect;
+var util = require('./util');
+
+var endpoint = require('../lib/protocol/endpoint');
+var Endpoint = endpoint.Endpoint;
+
+var settings = {
+ SETTINGS_MAX_CONCURRENT_STREAMS: 100,
+ SETTINGS_INITIAL_WINDOW_SIZE: 100000
+};
+
+describe('endpoint.js', function() {
+ describe('scenario', function() {
+ describe('connection setup', function() {
+ it('should work as expected', function(done) {
+ var c = new Endpoint(util.log.child({ role: 'client' }), 'CLIENT', settings);
+ var s = new Endpoint(util.log.child({ role: 'client' }), 'SERVER', settings);
+
+ util.log.debug('Test initialization over, starting piping.');
+ c.pipe(s).pipe(c);
+
+ setTimeout(function() {
+ // If there are no exception until this, then we're done
+ done();
+ }, 10);
+ });
+ });
+ });
+ describe('bunyan serializer', function() {
+ describe('`e`', function() {
+ var format = endpoint.serializers.e;
+ it('should assign a unique ID to each endpoint', function() {
+ var c = new Endpoint(util.log.child({ role: 'client' }), 'CLIENT', settings);
+ var s = new Endpoint(util.log.child({ role: 'client' }), 'SERVER', settings);
+ expect(format(c)).to.not.equal(format(s));
+ expect(format(c)).to.equal(format(c));
+ expect(format(s)).to.equal(format(s));
+ });
+ });
+ });
+});
diff --git a/testing/xpcshell/node-http2/test/flow.js b/testing/xpcshell/node-http2/test/flow.js
new file mode 100644
index 0000000000..a64ab010c9
--- /dev/null
+++ b/testing/xpcshell/node-http2/test/flow.js
@@ -0,0 +1,260 @@
+var expect = require('chai').expect;
+var util = require('./util');
+
+var Flow = require('../lib/protocol/flow').Flow;
+
+var MAX_PAYLOAD_SIZE = 16384;
+
+function createFlow(log) {
+ var flowControlId = util.random(10, 100);
+ var flow = new Flow(flowControlId);
+ flow._log = util.log.child(log || {});
+ return flow;
+}
+
+describe('flow.js', function() {
+ describe('Flow class', function() {
+ var flow;
+ beforeEach(function() {
+ flow = createFlow();
+ });
+
+ describe('._receive(frame, callback) method', function() {
+ it('is called when there\'s a frame in the input buffer to be consumed', function(done) {
+ var frame = { type: 'PRIORITY', flags: {}, priority: 1 };
+ flow._receive = function _receive(receivedFrame, callback) {
+ expect(receivedFrame).to.equal(frame);
+ callback();
+ };
+ flow.write(frame, done);
+ });
+ it('has to be overridden by the child class, otherwise it throws', function() {
+ expect(flow._receive.bind(flow)).to.throw(Error);
+ });
+ });
+ describe('._send() method', function() {
+ it('is called when the output buffer should be filled with more frames and the flow' +
+ 'control queue is empty', function() {
+ var notFlowControlledFrame = { type: 'PRIORITY', flags: {}, priority: 1 };
+ flow._send = function _send() {
+ this.push(notFlowControlledFrame);
+ };
+ expect(flow.read()).to.equal(notFlowControlledFrame);
+
+ flow._window = 0;
+ flow._queue.push({ type: 'DATA', flags: {}, data: { length: 1 } });
+ var frame = flow.read();
+ while (frame.type === notFlowControlledFrame.type) frame = flow.read();
+ expect(frame.type).to.equal('BLOCKED');
+ expect(flow.read()).to.equal(null);
+ });
+ it('has to be overridden by the child class, otherwise it throws', function() {
+ expect(flow._send.bind(flow)).to.throw(Error);
+ });
+ });
+ describe('._increaseWindow(size) method', function() {
+ it('should increase `this._window` by `size`', function() {
+ flow._send = util.noop;
+ flow._window = 0;
+
+ var increase1 = util.random(0,100);
+ var increase2 = util.random(0,100);
+ flow._increaseWindow(increase1);
+ flow._increaseWindow(increase2);
+ expect(flow._window).to.equal(increase1 + increase2);
+
+ flow._increaseWindow(Infinity);
+ expect(flow._window).to.equal(Infinity);
+ });
+ it('should emit error when increasing with a finite `size` when `_window` is infinite', function() {
+ flow._send = util.noop;
+ flow._increaseWindow(Infinity);
+ var increase = util.random(1,100);
+
+ expect(flow._increaseWindow.bind(flow, increase)).to.throw('Uncaught, unspecified "error" event.');
+ });
+ it('should emit error when `_window` grows over the window limit', function() {
+ var WINDOW_SIZE_LIMIT = Math.pow(2, 31) - 1;
+ flow._send = util.noop;
+ flow._window = 0;
+
+ flow._increaseWindow(WINDOW_SIZE_LIMIT);
+ expect(flow._increaseWindow.bind(flow, 1)).to.throw('Uncaught, unspecified "error" event.');
+
+ });
+ });
+ describe('.read() method', function() {
+ describe('when the flow control queue is not empty', function() {
+ it('should return the first item in the queue if the window is enough', function() {
+ var priorityFrame = { type: 'PRIORITY', flags: {}, priority: 1 };
+ var dataFrame = { type: 'DATA', flags: {}, data: { length: 10 } };
+ flow._send = util.noop;
+ flow._window = 10;
+ flow._queue = [priorityFrame, dataFrame];
+
+ expect(flow.read()).to.equal(priorityFrame);
+ expect(flow.read()).to.equal(dataFrame);
+ });
+ it('should also split DATA frames when needed', function() {
+ var buffer = Buffer.alloc(10);
+ var dataFrame = { type: 'DATA', flags: {}, stream: util.random(0, 100), data: buffer };
+ flow._send = util.noop;
+ flow._window = 5;
+ flow._queue = [dataFrame];
+
+ var expectedFragment = { flags: {}, type: 'DATA', stream: dataFrame.stream, data: buffer.slice(0,5) };
+ expect(flow.read()).to.deep.equal(expectedFragment);
+ expect(dataFrame.data).to.deep.equal(buffer.slice(5));
+ });
+ });
+ });
+ describe('.push(frame) method', function() {
+ it('should push `frame` into the output queue or the flow control queue', function() {
+ var priorityFrame = { type: 'PRIORITY', flags: {}, priority: 1 };
+ var dataFrame = { type: 'DATA', flags: {}, data: { length: 10 } };
+ flow._window = 10;
+
+ flow.push(dataFrame); // output queue
+ flow.push(dataFrame); // flow control queue, because of depleted window
+ flow.push(priorityFrame); // flow control queue, because it's not empty
+
+ expect(flow.read()).to.be.equal(dataFrame);
+ expect(flow._queue[0]).to.be.equal(dataFrame);
+ expect(flow._queue[1]).to.be.equal(priorityFrame);
+ });
+ });
+ describe('.write() method', function() {
+ it('call with a DATA frame should trigger sending WINDOW_UPDATE if remote flow control is not' +
+ 'disabled', function(done) {
+ flow._window = 100;
+ flow._send = util.noop;
+ flow._receive = function(frame, callback) {
+ callback();
+ };
+
+ var buffer = Buffer.alloc(util.random(10, 100));
+ flow.write({ type: 'DATA', flags: {}, data: buffer });
+ flow.once('readable', function() {
+ expect(flow.read()).to.be.deep.equal({
+ type: 'WINDOW_UPDATE',
+ flags: {},
+ stream: flow._flowControlId,
+ window_size: buffer.length
+ });
+ done();
+ });
+ });
+ });
+ });
+ describe('test scenario', function() {
+ var flow1, flow2;
+ beforeEach(function() {
+ flow1 = createFlow({ flow: 1 });
+ flow2 = createFlow({ flow: 2 });
+ flow1._flowControlId = flow2._flowControlId;
+ flow1._send = flow2._send = util.noop;
+ flow1._receive = flow2._receive = function(frame, callback) { callback(); };
+ });
+
+ describe('sending a large data stream', function() {
+ it('should work as expected', function(done) {
+ // Sender side
+ var frameNumber = util.random(5, 8);
+ var input = [];
+ flow1._send = function _send() {
+ if (input.length >= frameNumber) {
+ this.push({ type: 'DATA', flags: { END_STREAM: true }, data: Buffer.alloc(0) });
+ this.push(null);
+ } else {
+ var buffer = Buffer.allocUnsafe(util.random(1000, 100000));
+ input.push(buffer);
+ this.push({ type: 'DATA', flags: {}, data: buffer });
+ }
+ };
+
+ // Receiver side
+ var output = [];
+ flow2._receive = function _receive(frame, callback) {
+ if (frame.type === 'DATA') {
+ expect(frame.data.length).to.be.lte(MAX_PAYLOAD_SIZE);
+ output.push(frame.data);
+ }
+ if (frame.flags.END_STREAM) {
+ this.emit('end_stream');
+ }
+ callback();
+ };
+
+ // Checking results
+ flow2.on('end_stream', function() {
+ input = util.concat(input);
+ output = util.concat(output);
+
+ expect(input).to.deep.equal(output);
+
+ done();
+ });
+
+ // Start piping
+ flow1.pipe(flow2).pipe(flow1);
+ });
+ });
+
+ describe('when running out of window', function() {
+ it('should send a BLOCKED frame', function(done) {
+ // Sender side
+ var frameNumber = util.random(5, 8);
+ var input = [];
+ flow1._send = function _send() {
+ if (input.length >= frameNumber) {
+ this.push({ type: 'DATA', flags: { END_STREAM: true }, data: Buffer.alloc(0) });
+ this.push(null);
+ } else {
+ var buffer = Buffer.allocUnsafe(util.random(1000, 100000));
+ input.push(buffer);
+ this.push({ type: 'DATA', flags: {}, data: buffer });
+ }
+ };
+
+ // Receiver side
+ // Do not send WINDOW_UPDATESs except when the other side sends BLOCKED
+ var output = [];
+ flow2._restoreWindow = util.noop;
+ flow2._receive = function _receive(frame, callback) {
+ if (frame.type === 'DATA') {
+ expect(frame.data.length).to.be.lte(MAX_PAYLOAD_SIZE);
+ output.push(frame.data);
+ }
+ if (frame.flags.END_STREAM) {
+ this.emit('end_stream');
+ }
+ if (frame.type === 'BLOCKED') {
+ setTimeout(function() {
+ this._push({
+ type: 'WINDOW_UPDATE',
+ flags: {},
+ stream: this._flowControlId,
+ window_size: this._received
+ });
+ this._received = 0;
+ }.bind(this), 20);
+ }
+ callback();
+ };
+
+ // Checking results
+ flow2.on('end_stream', function() {
+ input = util.concat(input);
+ output = util.concat(output);
+
+ expect(input).to.deep.equal(output);
+
+ done();
+ });
+
+ // Start piping
+ flow1.pipe(flow2).pipe(flow1);
+ });
+ });
+ });
+});
diff --git a/testing/xpcshell/node-http2/test/framer.js b/testing/xpcshell/node-http2/test/framer.js
new file mode 100644
index 0000000000..e2eb693665
--- /dev/null
+++ b/testing/xpcshell/node-http2/test/framer.js
@@ -0,0 +1,395 @@
+var expect = require('chai').expect;
+var util = require('./util');
+
+var framer = require('../lib/protocol/framer');
+var Serializer = framer.Serializer;
+var Deserializer = framer.Deserializer;
+
+var frame_types = {
+ DATA: ['data'],
+ HEADERS: ['priority_information', 'data'],
+ PRIORITY: ['priority_information'],
+ RST_STREAM: ['error'],
+ SETTINGS: ['settings'],
+ PUSH_PROMISE: ['promised_stream', 'data'],
+ PING: ['data'],
+ GOAWAY: ['last_stream', 'error'],
+ WINDOW_UPDATE: ['window_size'],
+ CONTINUATION: ['data'],
+ ALTSVC: ['protocolID', 'host', 'port', 'origin', 'maxAge']
+};
+
+var test_frames = [{
+ frame: {
+ type: 'DATA',
+ flags: { END_STREAM: false, RESERVED2: false, RESERVED4: false,
+ PADDED: false },
+ stream: 10,
+
+ data: Buffer.from('12345678', 'hex')
+ },
+ // length + type + flags + stream + content
+ buffer: Buffer.from('000004' + '00' + '00' + '0000000A' + '12345678', 'hex')
+
+}, {
+ frame: {
+ type: 'HEADERS',
+ flags: { END_STREAM: false, RESERVED2: false, END_HEADERS: false,
+ PADDED: false, RESERVED5: false, PRIORITY: false },
+ stream: 15,
+
+ data: Buffer.from('12345678', 'hex')
+ },
+ buffer: Buffer.from('000004' + '01' + '00' + '0000000F' + '12345678', 'hex')
+
+}, {
+ frame: {
+ type: 'HEADERS',
+ flags: { END_STREAM: false, RESERVED2: false, END_HEADERS: false,
+ PADDED: false, RESERVED5: false, PRIORITY: true },
+ stream: 15,
+ priorityDependency: 10,
+ priorityWeight: 5,
+ exclusiveDependency: false,
+
+ data: Buffer.from('12345678', 'hex')
+ },
+ buffer: Buffer.from('000009' + '01' + '20' + '0000000F' + '0000000A' + '05' + '12345678', 'hex')
+
+
+}, {
+ frame: {
+ type: 'HEADERS',
+ flags: { END_STREAM: false, RESERVED2: false, END_HEADERS: false,
+ PADDED: false, RESERVED5: false, PRIORITY: true },
+ stream: 15,
+ priorityDependency: 10,
+ priorityWeight: 5,
+ exclusiveDependency: true,
+
+ data: Buffer.from('12345678', 'hex')
+ },
+ buffer: Buffer.from('000009' + '01' + '20' + '0000000F' + '8000000A' + '05' + '12345678', 'hex')
+
+}, {
+ frame: {
+ type: 'PRIORITY',
+ flags: { },
+ stream: 10,
+
+ priorityDependency: 9,
+ priorityWeight: 5,
+ exclusiveDependency: false
+ },
+ buffer: Buffer.from('000005' + '02' + '00' + '0000000A' + '00000009' + '05', 'hex')
+
+}, {
+ frame: {
+ type: 'PRIORITY',
+ flags: { },
+ stream: 10,
+
+ priorityDependency: 9,
+ priorityWeight: 5,
+ exclusiveDependency: true
+ },
+ buffer: Buffer.from('000005' + '02' + '00' + '0000000A' + '80000009' + '05', 'hex')
+
+}, {
+ frame: {
+ type: 'RST_STREAM',
+ flags: { },
+ stream: 10,
+
+ error: 'INTERNAL_ERROR'
+ },
+ buffer: Buffer.from('000004' + '03' + '00' + '0000000A' + '00000002', 'hex')
+
+}, {
+ frame: {
+ type: 'SETTINGS',
+ flags: { ACK: false },
+ stream: 10,
+
+ settings: {
+ SETTINGS_HEADER_TABLE_SIZE: 0x12345678,
+ SETTINGS_ENABLE_PUSH: true,
+ SETTINGS_MAX_CONCURRENT_STREAMS: 0x01234567,
+ SETTINGS_INITIAL_WINDOW_SIZE: 0x89ABCDEF,
+ SETTINGS_MAX_FRAME_SIZE: 0x00010000
+ }
+ },
+ buffer: Buffer.from('00001E' + '04' + '00' + '0000000A' + '0001' + '12345678' +
+ '0002' + '00000001' +
+ '0003' + '01234567' +
+ '0004' + '89ABCDEF' +
+ '0005' + '00010000', 'hex')
+
+}, {
+ frame: {
+ type: 'PUSH_PROMISE',
+ flags: { RESERVED1: false, RESERVED2: false, END_PUSH_PROMISE: false,
+ PADDED: false },
+ stream: 15,
+
+ promised_stream: 3,
+ data: Buffer.from('12345678', 'hex')
+ },
+ buffer: Buffer.from('000008' + '05' + '00' + '0000000F' + '00000003' + '12345678', 'hex')
+
+}, {
+ frame: {
+ type: 'PING',
+ flags: { ACK: false },
+ stream: 15,
+
+ data: Buffer.from('1234567887654321', 'hex')
+ },
+ buffer: Buffer.from('000008' + '06' + '00' + '0000000F' + '1234567887654321', 'hex')
+
+}, {
+ frame: {
+ type: 'GOAWAY',
+ flags: { },
+ stream: 10,
+
+ last_stream: 0x12345678,
+ error: 'PROTOCOL_ERROR'
+ },
+ buffer: Buffer.from('000008' + '07' + '00' + '0000000A' + '12345678' + '00000001', 'hex')
+
+}, {
+ frame: {
+ type: 'WINDOW_UPDATE',
+ flags: { },
+ stream: 10,
+
+ window_size: 0x12345678
+ },
+ buffer: Buffer.from('000004' + '08' + '00' + '0000000A' + '12345678', 'hex')
+}, {
+ frame: {
+ type: 'CONTINUATION',
+ flags: { RESERVED1: false, RESERVED2: false, END_HEADERS: true },
+ stream: 10,
+
+ data: Buffer.from('12345678', 'hex')
+ },
+ // length + type + flags + stream + content
+ buffer: Buffer.from('000004' + '09' + '04' + '0000000A' + '12345678', 'hex')
+}, {
+ frame: {
+ type: 'ALTSVC',
+ flags: { },
+ stream: 0,
+
+ maxAge: 31536000,
+ port: 4443,
+ protocolID: "h2",
+ host: "altsvc.example.com",
+ origin: ""
+ },
+ buffer: Buffer.from(Buffer.from('00002B' + '0A' + '00' + '00000000' + '0000', 'hex') + Buffer.from('h2="altsvc.example.com:4443"; ma=31536000', 'ascii'))
+}, {
+ frame: {
+ type: 'ALTSVC',
+ flags: { },
+ stream: 0,
+
+ maxAge: 31536000,
+ port: 4443,
+ protocolID: "h2",
+ host: "altsvc.example.com",
+ origin: "https://onlyme.example.com"
+ },
+ buffer: Buffer.from(Buffer.from('000045' + '0A' + '00' + '00000000' + '001A', 'hex') + Buffer.from('https://onlyme.example.comh2="altsvc.example.com:4443"; ma=31536000', 'ascii'))
+
+}, {
+ frame: {
+ type: 'BLOCKED',
+ flags: { },
+ stream: 10
+ },
+ buffer: Buffer.from('000000' + '0B' + '00' + '0000000A', 'hex')
+}];
+
+var deserializer_test_frames = test_frames.slice(0);
+var padded_test_frames = [{
+ frame: {
+ type: 'DATA',
+ flags: { END_STREAM: false, RESERVED2: false, RESERVED4: false,
+ PADDED: true },
+ stream: 10,
+ data: Buffer.from('12345678', 'hex')
+ },
+ // length + type + flags + stream + pad length + content + padding
+ buffer: Buffer.from('00000B' + '00' + '08' + '0000000A' + '06' + '12345678' + '000000000000', 'hex')
+
+}, {
+ frame: {
+ type: 'HEADERS',
+ flags: { END_STREAM: false, RESERVED2: false, END_HEADERS: false,
+ PADDED: true, RESERVED5: false, PRIORITY: false },
+ stream: 15,
+
+ data: Buffer.from('12345678', 'hex')
+ },
+ // length + type + flags + stream + pad length + data + padding
+ buffer: Buffer.from('00000B' + '01' + '08' + '0000000F' + '06' + '12345678' + '000000000000', 'hex')
+
+}, {
+ frame: {
+ type: 'HEADERS',
+ flags: { END_STREAM: false, RESERVED2: false, END_HEADERS: false,
+ PADDED: true, RESERVED5: false, PRIORITY: true },
+ stream: 15,
+ priorityDependency: 10,
+ priorityWeight: 5,
+ exclusiveDependency: false,
+
+ data: Buffer.from('12345678', 'hex')
+ },
+ // length + type + flags + stream + pad length + priority dependency + priority weight + data + padding
+ buffer: Buffer.from('000010' + '01' + '28' + '0000000F' + '06' + '0000000A' + '05' + '12345678' + '000000000000', 'hex')
+
+}, {
+ frame: {
+ type: 'HEADERS',
+ flags: { END_STREAM: false, RESERVED2: false, END_HEADERS: false,
+ PADDED: true, RESERVED5: false, PRIORITY: true },
+ stream: 15,
+ priorityDependency: 10,
+ priorityWeight: 5,
+ exclusiveDependency: true,
+
+ data: Buffer.from('12345678', 'hex')
+ },
+ // length + type + flags + stream + pad length + priority dependency + priority weight + data + padding
+ buffer: Buffer.from('000010' + '01' + '28' + '0000000F' + '06' + '8000000A' + '05' + '12345678' + '000000000000', 'hex')
+
+}, {
+ frame: {
+ type: 'PUSH_PROMISE',
+ flags: { RESERVED1: false, RESERVED2: false, END_PUSH_PROMISE: false,
+ PADDED: true },
+ stream: 15,
+
+ promised_stream: 3,
+ data: Buffer.from('12345678', 'hex')
+ },
+ // length + type + flags + stream + pad length + promised stream + data + padding
+ buffer: Buffer.from('00000F' + '05' + '08' + '0000000F' + '06' + '00000003' + '12345678' + '000000000000', 'hex')
+
+}];
+for (var idx = 0; idx < padded_test_frames.length; idx++) {
+ deserializer_test_frames.push(padded_test_frames[idx]);
+}
+
+
+describe('framer.js', function() {
+ describe('Serializer', function() {
+ describe('static method .commonHeader({ type, flags, stream }, buffer_array)', function() {
+ it('should add the appropriate 9 byte header buffer in front of the others', function() {
+ for (var i = 0; i < test_frames.length; i++) {
+ var test = test_frames[i];
+ var buffers = [test.buffer.slice(9)];
+ var header_buffer = test.buffer.slice(0,9);
+ Serializer.commonHeader(test.frame, buffers);
+ expect(buffers[0]).to.deep.equal(header_buffer);
+ }
+ });
+ });
+
+ Object.keys(frame_types).forEach(function(type) {
+ var tests = test_frames.filter(function(test) { return test.frame.type === type; });
+ var frame_shape = '{ ' + frame_types[type].join(', ') + ' }';
+ describe('static method .' + type + '(' + frame_shape + ', buffer_array)', function() {
+ it('should push buffers to the array that make up a ' + type + ' type payload', function() {
+ for (var i = 0; i < tests.length; i++) {
+ var test = tests[i];
+ var buffers = [];
+ Serializer[type](test.frame, buffers);
+ expect(util.concat(buffers)).to.deep.equal(test.buffer.slice(9));
+ }
+ });
+ });
+ });
+
+ describe('transform stream', function() {
+ it('should transform frame objects to appropriate buffers', function() {
+ var stream = new Serializer(util.log);
+
+ for (var i = 0; i < test_frames.length; i++) {
+ var test = test_frames[i];
+ stream.write(test.frame);
+ var chunk, buffer = Buffer.alloc(0);
+ while (chunk = stream.read()) {
+ buffer = util.concat([buffer, chunk]);
+ }
+ expect(buffer).to.be.deep.equal(test.buffer);
+ }
+ });
+ });
+ });
+
+ describe('Deserializer', function() {
+ describe('static method .commonHeader(header_buffer, frame)', function() {
+ it('should augment the frame object with these properties: { type, flags, stream })', function() {
+ for (var i = 0; i < deserializer_test_frames.length; i++) {
+ var test = deserializer_test_frames[i], frame = {};
+ Deserializer.commonHeader(test.buffer.slice(0,9), frame);
+ expect(frame).to.deep.equal({
+ type: test.frame.type,
+ flags: test.frame.flags,
+ stream: test.frame.stream
+ });
+ }
+ });
+ });
+
+ Object.keys(frame_types).forEach(function(type) {
+ var tests = deserializer_test_frames.filter(function(test) { return test.frame.type === type; });
+ var frame_shape = '{ ' + frame_types[type].join(', ') + ' }';
+ describe('static method .' + type + '(payload_buffer, frame)', function() {
+ it('should augment the frame object with these properties: ' + frame_shape, function() {
+ for (var i = 0; i < tests.length; i++) {
+ var test = tests[i];
+ var frame = {
+ type: test.frame.type,
+ flags: test.frame.flags,
+ stream: test.frame.stream
+ };
+ Deserializer[type](test.buffer.slice(9), frame);
+ expect(frame).to.deep.equal(test.frame);
+ }
+ });
+ });
+ });
+
+ describe('transform stream', function() {
+ it('should transform buffers to appropriate frame object', function() {
+ var stream = new Deserializer(util.log);
+
+ var shuffled = util.shuffleBuffers(deserializer_test_frames.map(function(test) { return test.buffer; }));
+ shuffled.forEach(stream.write.bind(stream));
+
+ for (var j = 0; j < deserializer_test_frames.length; j++) {
+ expect(stream.read()).to.be.deep.equal(deserializer_test_frames[j].frame);
+ }
+ });
+ });
+ });
+
+ describe('bunyan formatter', function() {
+ describe('`frame`', function() {
+ var format = framer.serializers.frame;
+ it('should assign a unique ID to each frame', function() {
+ var frame1 = { type: 'DATA', data: Buffer.alloc(10) };
+ var frame2 = { type: 'PRIORITY', priority: 1 };
+ expect(format(frame1).id).to.be.equal(format(frame1));
+ expect(format(frame2).id).to.be.equal(format(frame2));
+ expect(format(frame1)).to.not.be.equal(format(frame2));
+ });
+ });
+ });
+});
diff --git a/testing/xpcshell/node-http2/test/http.js b/testing/xpcshell/node-http2/test/http.js
new file mode 100644
index 0000000000..95a074e4a0
--- /dev/null
+++ b/testing/xpcshell/node-http2/test/http.js
@@ -0,0 +1,793 @@
+var expect = require('chai').expect;
+var util = require('./util');
+var fs = require('fs');
+var path = require('path');
+var url = require('url');
+var net = require('net');
+
+var http2 = require('../lib/http');
+var https = require('https');
+
+var serverOptions = {
+ key: fs.readFileSync(path.join(__dirname, '../example/localhost.key')),
+ cert: fs.readFileSync(path.join(__dirname, '../example/localhost.crt')),
+ rejectUnauthorized: true,
+ log: util.serverLog
+};
+
+var agentOptions = {
+ key: serverOptions.key,
+ ca: serverOptions.cert,
+ rejectUnauthorized: true,
+ log: util.clientLog
+};
+
+var globalAgent = new http2.Agent(agentOptions);
+
+describe('http.js', function() {
+ beforeEach(function() {
+ http2.globalAgent = globalAgent;
+ });
+ describe('Server', function() {
+ describe('new Server(options)', function() {
+ it('should throw if called without \'plain\' or TLS options', function() {
+ expect(function() {
+ new http2.Server();
+ }).to.throw(Error);
+ expect(function() {
+ http2.createServer(util.noop);
+ }).to.throw(Error);
+ });
+ });
+ describe('method `listen()`', function () {
+ it('should emit `listening` event', function (done) {
+ var server = http2.createServer(serverOptions);
+
+ server.on('listening', function () {
+ server.close();
+
+ done();
+ })
+
+ server.listen(0);
+ });
+ it('should emit `error` on failure', function (done) {
+ var server = http2.createServer(serverOptions);
+
+ // This TCP server is used to explicitly take a port to make
+ // server.listen() fails.
+ var net = require('net').createServer();
+
+ server.on('error', function () {
+ net.close()
+
+ done();
+ });
+
+ net.listen(0, function () {
+ server.listen(this.address().port);
+ });
+ });
+ });
+ describe('property `timeout`', function() {
+ it('should be a proxy for the backing HTTPS server\'s `timeout` property', function() {
+ var server = new http2.Server(serverOptions);
+ var backingServer = server._server;
+ var newTimeout = 10;
+ server.timeout = newTimeout;
+ expect(server.timeout).to.be.equal(newTimeout);
+ expect(backingServer.timeout).to.be.equal(newTimeout);
+ });
+ });
+ describe('method `setTimeout(timeout, [callback])`', function() {
+ it('should be a proxy for the backing HTTPS server\'s `setTimeout` method', function() {
+ var server = new http2.Server(serverOptions);
+ var backingServer = server._server;
+ var newTimeout = 10;
+ var newCallback = util.noop;
+ backingServer.setTimeout = function(timeout, callback) {
+ expect(timeout).to.be.equal(newTimeout);
+ expect(callback).to.be.equal(newCallback);
+ };
+ server.setTimeout(newTimeout, newCallback);
+ });
+ });
+ });
+ describe('Agent', function() {
+ describe('property `maxSockets`', function() {
+ it('should be a proxy for the backing HTTPS agent\'s `maxSockets` property', function() {
+ var agent = new http2.Agent({ log: util.clientLog });
+ var backingAgent = agent._httpsAgent;
+ var newMaxSockets = backingAgent.maxSockets + 1;
+ agent.maxSockets = newMaxSockets;
+ expect(agent.maxSockets).to.be.equal(newMaxSockets);
+ expect(backingAgent.maxSockets).to.be.equal(newMaxSockets);
+ });
+ });
+ describe('method `request(options, [callback])`', function() {
+ it('should use a new agent for request-specific TLS settings', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(1234, function() {
+ var options = url.parse('https://localhost:1234' + path);
+ options.key = agentOptions.key;
+ options.ca = agentOptions.ca;
+ options.rejectUnauthorized = true;
+
+ http2.globalAgent = new http2.Agent({ log: util.clientLog });
+ http2.get(options, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ server.close();
+ done();
+ });
+ });
+ });
+ });
+ it('should throw when trying to use with \'http\' scheme', function() {
+ expect(function() {
+ var agent = new http2.Agent({ log: util.clientLog });
+ agent.request({ protocol: 'http:' });
+ }).to.throw(Error);
+ });
+ });
+ });
+ describe('OutgoingRequest', function() {
+ function testFallbackProxyMethod(name, originalArguments, done) {
+ var request = new http2.OutgoingRequest();
+
+ // When in HTTP/2 mode, this call should be ignored
+ request.stream = { reset: util.noop };
+ request[name].apply(request, originalArguments);
+ delete request.stream;
+
+ // When in fallback mode, this call should be forwarded
+ request[name].apply(request, originalArguments);
+ var mockFallbackRequest = { on: util.noop };
+ mockFallbackRequest[name] = function() {
+ expect(Array.prototype.slice.call(arguments)).to.deep.equal(originalArguments);
+ done();
+ };
+ request._fallback(mockFallbackRequest);
+ }
+ describe('method `setNoDelay(noDelay)`', function() {
+ it('should act as a proxy for the backing HTTPS agent\'s `setNoDelay` method', function(done) {
+ testFallbackProxyMethod('setNoDelay', [true], done);
+ });
+ });
+ describe('method `setSocketKeepAlive(enable, initialDelay)`', function() {
+ it('should act as a proxy for the backing HTTPS agent\'s `setSocketKeepAlive` method', function(done) {
+ testFallbackProxyMethod('setSocketKeepAlive', [true, util.random(10, 100)], done);
+ });
+ });
+ describe('method `setTimeout(timeout, [callback])`', function() {
+ it('should act as a proxy for the backing HTTPS agent\'s `setTimeout` method', function(done) {
+ testFallbackProxyMethod('setTimeout', [util.random(10, 100), util.noop], done);
+ });
+ });
+ describe('method `abort()`', function() {
+ it('should act as a proxy for the backing HTTPS agent\'s `abort` method', function(done) {
+ testFallbackProxyMethod('abort', [], done);
+ });
+ });
+ });
+ describe('OutgoingResponse', function() {
+ it('should throw error when writeHead is called multiple times on it', function() {
+ var called = false;
+ var stream = { _log: util.log, headers: function () {
+ if (called) {
+ throw new Error('Should not send headers twice');
+ } else {
+ called = true;
+ }
+ }, once: util.noop };
+ var response = new http2.OutgoingResponse(stream);
+
+ response.writeHead(200);
+ response.writeHead(404);
+ });
+ it('field finished should be Boolean', function(){
+ var stream = { _log: util.log, headers: function () {}, once: util.noop };
+ var response = new http2.OutgoingResponse(stream);
+ expect(response.finished).to.be.a('Boolean');
+ });
+ it('field finished should initially be false and then go to true when response completes',function(done){
+ var res;
+ var server = http2.createServer(serverOptions, function(request, response) {
+ res = response;
+ expect(res.finished).to.be.false;
+ response.end('HiThere');
+ });
+ server.listen(1236, function() {
+ http2.get('https://localhost:1236/finished-test', function(response) {
+ response.on('data', function(data){
+ var sink = data; //
+ });
+ response.on('end',function(){
+ expect(res.finished).to.be.true;
+ server.close();
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('test scenario', function() {
+ describe('simple request', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(1234, function() {
+ http2.get('https://localhost:1234' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ server.close();
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('2 simple request in parallel', function() {
+ it('should work as expected', function(originalDone) {
+ var path = '/x';
+ var message = 'Hello world';
+ var done = util.callNTimes(2, function() {
+ server.close();
+ originalDone();
+ });
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(1234, function() {
+ http2.get('https://localhost:1234' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ http2.get('https://localhost:1234' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('100 simple request in a series', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ var n = 100;
+ server.listen(1242, function() {
+ doRequest();
+ function doRequest() {
+ http2.get('https://localhost:1242' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ if (n) {
+ n -= 1;
+ doRequest();
+ } else {
+ server.close();
+ done();
+ }
+ });
+ });
+ }
+ });
+ });
+ });
+ describe('request with payload', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ request.once('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ response.end();
+ });
+ });
+
+ server.listen(1240, function() {
+ var request = http2.request({
+ host: 'localhost',
+ port: 1240,
+ path: path
+ });
+ request.write(message);
+ request.end();
+ request.on('response', function() {
+ server.close();
+ done();
+ });
+ });
+ });
+ });
+ describe('request with custom status code and headers', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+ var headerName = 'name';
+ var headerValue = 'value';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ // Request URL and headers
+ expect(request.url).to.equal(path);
+ expect(request.headers[headerName]).to.equal(headerValue);
+
+ // A header to be overwritten later
+ response.setHeader(headerName, 'to be overwritten');
+ expect(response.getHeader(headerName)).to.equal('to be overwritten');
+
+ // A header to be deleted
+ response.setHeader('nonexistent', 'x');
+ response.removeHeader('nonexistent');
+ expect(response.getHeader('nonexistent')).to.equal(undefined);
+
+ // A set-cookie header which should always be an array
+ response.setHeader('set-cookie', 'foo');
+
+ // Don't send date
+ response.sendDate = false;
+
+ // Specifying more headers, the status code and a reason phrase with `writeHead`
+ var moreHeaders = {};
+ moreHeaders[headerName] = headerValue;
+ response.writeHead(600, 'to be discarded', moreHeaders);
+ expect(response.getHeader(headerName)).to.equal(headerValue);
+
+ // Empty response body
+ response.end(message);
+ });
+
+ server.listen(1239, function() {
+ var headers = {};
+ headers[headerName] = headerValue;
+ var request = http2.request({
+ host: 'localhost',
+ port: 1239,
+ path: path,
+ headers: headers
+ });
+ request.end();
+ request.on('response', function(response) {
+ expect(response.headers[headerName]).to.equal(headerValue);
+ expect(response.headers['nonexistent']).to.equal(undefined);
+ expect(response.headers['set-cookie']).to.an.instanceof(Array)
+ expect(response.headers['set-cookie']).to.deep.equal(['foo'])
+ expect(response.headers['date']).to.equal(undefined);
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ server.close();
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('request over plain TCP', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.raw.createServer({
+ log: util.serverLog
+ }, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(1237, function() {
+ var request = http2.raw.request({
+ plain: true,
+ host: 'localhost',
+ port: 1237,
+ path: path
+ }, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ server.close();
+ done();
+ });
+ });
+ request.end();
+ });
+ });
+ });
+ describe('get over plain TCP', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.raw.createServer({
+ log: util.serverLog
+ }, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(1237, function() {
+ var request = http2.raw.get('http://localhost:1237/x', function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ server.close();
+ done();
+ });
+ });
+ request.end();
+ });
+ });
+ });
+ describe('request to an HTTPS/1 server', function() {
+ it('should fall back to HTTPS/1 successfully', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = https.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(5678, function() {
+ http2.get('https://localhost:5678' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('2 parallel request to an HTTPS/1 server', function() {
+ it('should fall back to HTTPS/1 successfully', function(originalDone) {
+ var path = '/x';
+ var message = 'Hello world';
+ var done = util.callNTimes(2, function() {
+ server.close();
+ originalDone();
+ });
+
+ var server = https.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(6789, function() {
+ http2.get('https://localhost:6789' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ http2.get('https://localhost:6789' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('HTTPS/1 request to a HTTP/2 server', function() {
+ it('should fall back to HTTPS/1 successfully', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(1236, function() {
+ var options = url.parse('https://localhost:1236' + path);
+ options.agent = new https.Agent(agentOptions);
+ https.get(options, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('two parallel request', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(1237, function() {
+ done = util.callNTimes(2, done);
+ // 1. request
+ http2.get('https://localhost:1237' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ // 2. request
+ http2.get('https://localhost:1237' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('two subsequent request', function() {
+ it('should use the same HTTP/2 connection', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ response.end(message);
+ });
+
+ server.listen(1238, function() {
+ // 1. request
+ http2.get('https://localhost:1238' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+
+ // 2. request
+ http2.get('https://localhost:1238' + path, function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ });
+ });
+ });
+ });
+ });
+ });
+ describe('https server node module specification conformance', function() {
+ it('should provide API for remote HTTP 1.1 client address', function(done) {
+ var remoteAddress = null;
+ var remotePort = null;
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ // HTTPS 1.1 client with Node 0.10 server
+ if (!request.remoteAddress) {
+ if (request.socket.socket) {
+ remoteAddress = request.socket.socket.remoteAddress;
+ remotePort = request.socket.socket.remotePort;
+ } else {
+ remoteAddress = request.socket.remoteAddress;
+ remotePort = request.socket.remotePort;
+ }
+ } else {
+ // HTTPS 1.1/2.0 client with Node 0.12 server
+ remoteAddress = request.remoteAddress;
+ remotePort = request.remotePort;
+ }
+ response.write('Pong');
+ response.end();
+ });
+
+ server.listen(1259, 'localhost', function() {
+ var request = https.request({
+ host: 'localhost',
+ port: 1259,
+ path: '/',
+ ca: serverOptions.cert
+ });
+ request.write('Ping');
+ request.end();
+ request.on('response', function(response) {
+ response.on('data', function(data) {
+ var localAddress = response.socket.address();
+ expect(remoteAddress).to.equal(localAddress.address);
+ expect(remotePort).to.equal(localAddress.port);
+ server.close();
+ done();
+ });
+ });
+ });
+ });
+ it('should provide API for remote HTTP 2.0 client address', function(done) {
+ var remoteAddress = null;
+ var remotePort = null;
+ var localAddress = null;
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ remoteAddress = request.remoteAddress;
+ remotePort = request.remotePort;
+ response.write('Pong');
+ response.end();
+ });
+
+ server.listen(1258, 'localhost', function() {
+ var request = http2.request({
+ host: 'localhost',
+ port: 1258,
+ path: '/'
+ });
+ request.write('Ping');
+ globalAgent.on('false:localhost:1258', function(endpoint) {
+ localAddress = endpoint.socket.address();
+ });
+ request.end();
+ request.on('response', function(response) {
+ response.on('data', function(data) {
+ expect(remoteAddress).to.equal(localAddress.address);
+ expect(remotePort).to.equal(localAddress.port);
+ server.close();
+ done();
+ });
+ });
+ });
+ });
+ it('should expose net.Socket as .socket and .connection', function(done) {
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.socket).to.equal(request.connection);
+ expect(request.socket).to.be.instanceof(net.Socket);
+ response.write('Pong');
+ response.end();
+ done();
+ });
+
+ server.listen(1248, 'localhost', function() {
+ var request = https.request({
+ host: 'localhost',
+ port: 1248,
+ path: '/',
+ ca: serverOptions.cert
+ });
+ request.write('Ping');
+ request.end();
+ });
+ });
+ });
+ describe('request and response with trailers', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+ var requestTrailers = { 'content-md5': 'x' };
+ var responseTrailers = { 'content-md5': 'y' };
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ request.on('data', util.noop);
+ request.once('end', function() {
+ expect(request.trailers).to.deep.equal(requestTrailers);
+ response.write(message);
+ response.addTrailers(responseTrailers);
+ response.end();
+ });
+ });
+
+ server.listen(1241, function() {
+ var request = http2.request('https://localhost:1241' + path);
+ request.addTrailers(requestTrailers);
+ request.end();
+ request.on('response', function(response) {
+ response.on('data', util.noop);
+ response.once('end', function() {
+ expect(response.trailers).to.deep.equal(responseTrailers);
+ done();
+ });
+ });
+ });
+ });
+ });
+ describe('Handle socket error', function () {
+ it('HTTPS on Connection Refused error', function (done) {
+ var path = '/x';
+ var request = http2.request('https://127.0.0.1:6666' + path);
+
+ request.on('error', function (err) {
+ expect(err.errno).to.equal('ECONNREFUSED');
+ done();
+ });
+
+ request.on('response', function (response) {
+ server._server._handle.destroy();
+
+ response.on('data', util.noop);
+
+ response.once('end', function () {
+ done(new Error('Request should have failed'));
+ });
+ });
+
+ request.end();
+
+ });
+ it('HTTP on Connection Refused error', function (done) {
+ var path = '/x';
+
+ var request = http2.raw.request('http://127.0.0.1:6666' + path);
+
+ request.on('error', function (err) {
+ expect(err.errno).to.equal('ECONNREFUSED');
+ done();
+ });
+
+ request.on('response', function (response) {
+ server._server._handle.destroy();
+
+ response.on('data', util.noop);
+
+ response.once('end', function () {
+ done(new Error('Request should have failed'));
+ });
+ });
+
+ request.end();
+ });
+ });
+ describe('server push', function() {
+ it('should work as expected', function(done) {
+ var path = '/x';
+ var message = 'Hello world';
+ var pushedPath = '/y';
+ var pushedMessage = 'Hello world 2';
+
+ var server = http2.createServer(serverOptions, function(request, response) {
+ expect(request.url).to.equal(path);
+ var push1 = response.push('/y');
+ push1.end(pushedMessage);
+ var push2 = response.push({ path: '/y', protocol: 'https:' });
+ push2.end(pushedMessage);
+ response.end(message);
+ });
+
+ server.listen(1235, function() {
+ var request = http2.get('https://localhost:1235' + path);
+ done = util.callNTimes(5, done);
+
+ request.on('response', function(response) {
+ response.on('data', function(data) {
+ expect(data.toString()).to.equal(message);
+ done();
+ });
+ response.on('end', done);
+ });
+
+ request.on('push', function(promise) {
+ expect(promise.url).to.be.equal(pushedPath);
+ promise.on('response', function(pushStream) {
+ pushStream.on('data', function(data) {
+ expect(data.toString()).to.equal(pushedMessage);
+ done();
+ });
+ pushStream.on('end', done);
+ });
+ });
+ });
+ });
+ });
+ });
+});
diff --git a/testing/xpcshell/node-http2/test/stream.js b/testing/xpcshell/node-http2/test/stream.js
new file mode 100644
index 0000000000..9e60932b8e
--- /dev/null
+++ b/testing/xpcshell/node-http2/test/stream.js
@@ -0,0 +1,413 @@
+var expect = require('chai').expect;
+var util = require('./util');
+
+var stream = require('../lib/protocol/stream');
+var Stream = stream.Stream;
+
+function createStream() {
+ var stream = new Stream(util.log, null);
+ stream.upstream._window = Infinity;
+ return stream;
+}
+
+// Execute a list of commands and assertions
+var recorded_events = ['state', 'error', 'window_update', 'headers', 'promise'];
+function execute_sequence(stream, sequence, done) {
+ if (!done) {
+ done = sequence;
+ sequence = stream;
+ stream = createStream();
+ }
+
+ var outgoing_frames = [];
+
+ var emit = stream.emit, events = [];
+ stream.emit = function(name) {
+ if (recorded_events.indexOf(name) !== -1) {
+ events.push({ name: name, data: Array.prototype.slice.call(arguments, 1) });
+ }
+ return emit.apply(this, arguments);
+ };
+
+ var commands = [], checks = [];
+ sequence.forEach(function(step) {
+ if ('method' in step || 'incoming' in step || 'outgoing' in step || 'wait' in step || 'set_state' in step) {
+ commands.push(step);
+ }
+
+ if ('outgoing' in step || 'event' in step || 'active' in step) {
+ checks.push(step);
+ }
+ });
+
+ var activeCount = 0;
+ function count_change(change) {
+ activeCount += change;
+ }
+
+ function execute(callback) {
+ var command = commands.shift();
+ if (command) {
+ if ('method' in command) {
+ var value = stream[command.method.name].apply(stream, command.method.arguments);
+ if (command.method.ret) {
+ command.method.ret(value);
+ }
+ execute(callback);
+ } else if ('incoming' in command) {
+ command.incoming.count_change = count_change;
+ stream.upstream.write(command.incoming);
+ execute(callback);
+ } else if ('outgoing' in command) {
+ outgoing_frames.push(stream.upstream.read());
+ execute(callback);
+ } else if ('set_state' in command) {
+ stream.state = command.set_state;
+ execute(callback);
+ } else if ('wait' in command) {
+ setTimeout(execute.bind(null, callback), command.wait);
+ } else {
+ throw new Error('Invalid command', command);
+ }
+ } else {
+ setTimeout(callback, 5);
+ }
+ }
+
+ function check() {
+ checks.forEach(function(check) {
+ if ('outgoing' in check) {
+ var frame = outgoing_frames.shift();
+ for (var key in check.outgoing) {
+ expect(frame).to.have.property(key).that.deep.equals(check.outgoing[key]);
+ }
+ count_change(frame.count_change);
+ } else if ('event' in check) {
+ var event = events.shift();
+ expect(event.name).to.be.equal(check.event.name);
+ check.event.data.forEach(function(data, index) {
+ expect(event.data[index]).to.deep.equal(data);
+ });
+ } else if ('active' in check) {
+ expect(activeCount).to.be.equal(check.active);
+ } else {
+ throw new Error('Invalid check', check);
+ }
+ });
+ done();
+ }
+
+ setImmediate(execute.bind(null, check));
+}
+
+var example_frames = [
+ { type: 'PRIORITY', flags: {}, priority: 1 },
+ { type: 'WINDOW_UPDATE', flags: {}, settings: {} },
+ { type: 'RST_STREAM', flags: {}, error: 'CANCEL' },
+ { type: 'HEADERS', flags: {}, headers: {}, priority: undefined },
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {}, promised_stream: new Stream(util.log, null) }
+];
+
+var invalid_incoming_frames = {
+ IDLE: [
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'WINDOW_UPDATE', flags: {}, settings: {} },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {} },
+ { type: 'RST_STREAM', flags: {}, error: 'CANCEL' }
+ ],
+ RESERVED_LOCAL: [
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'HEADERS', flags: {}, headers: {}, priority: undefined },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {} },
+ { type: 'WINDOW_UPDATE', flags: {}, settings: {} }
+ ],
+ RESERVED_REMOTE: [
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {} },
+ { type: 'WINDOW_UPDATE', flags: {}, settings: {} }
+ ],
+ OPEN: [
+ ],
+ HALF_CLOSED_LOCAL: [
+ ],
+ HALF_CLOSED_REMOTE: [
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'HEADERS', flags: {}, headers: {}, priority: undefined },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {} }
+ ]
+};
+
+var invalid_outgoing_frames = {
+ IDLE: [
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'WINDOW_UPDATE', flags: {}, settings: {} },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {} }
+ ],
+ RESERVED_LOCAL: [
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {} },
+ { type: 'WINDOW_UPDATE', flags: {}, settings: {} }
+ ],
+ RESERVED_REMOTE: [
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'HEADERS', flags: {}, headers: {}, priority: undefined },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {} },
+ { type: 'WINDOW_UPDATE', flags: {}, settings: {} }
+ ],
+ OPEN: [
+ ],
+ HALF_CLOSED_LOCAL: [
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'HEADERS', flags: {}, headers: {}, priority: undefined },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {} }
+ ],
+ HALF_CLOSED_REMOTE: [
+ ],
+ CLOSED: [
+ { type: 'WINDOW_UPDATE', flags: {}, settings: {} },
+ { type: 'HEADERS', flags: {}, headers: {}, priority: undefined },
+ { type: 'DATA', flags: {}, data: Buffer.alloc(5) },
+ { type: 'PUSH_PROMISE', flags: {}, headers: {}, promised_stream: new Stream(util.log, null) }
+ ]
+};
+
+describe('stream.js', function() {
+ describe('Stream class', function() {
+ describe('._transition(sending, frame) method', function() {
+ it('should emit error, and answer RST_STREAM for invalid incoming frames', function() {
+ Object.keys(invalid_incoming_frames).forEach(function(state) {
+ invalid_incoming_frames[state].forEach(function(invalid_frame) {
+ var stream = createStream();
+ var connectionErrorHappened = false;
+ stream.state = state;
+ stream.once('connectionError', function() { connectionErrorHappened = true; });
+ stream._transition(false, invalid_frame);
+ expect(connectionErrorHappened);
+ });
+ });
+
+ // CLOSED state as a result of incoming END_STREAM (or RST_STREAM)
+ var stream = createStream();
+ stream.headers({});
+ stream.end();
+ stream.upstream.write({ type: 'HEADERS', headers:{}, flags: { END_STREAM: true }, count_change: util.noop });
+ example_frames.slice(2).forEach(function(invalid_frame) {
+ invalid_frame.count_change = util.noop;
+ expect(stream._transition.bind(stream, false, invalid_frame)).to.throw('Uncaught, unspecified "error" event.');
+ });
+
+ // CLOSED state as a result of outgoing END_STREAM
+ stream = createStream();
+ stream.upstream.write({ type: 'HEADERS', headers:{}, flags: { END_STREAM: true }, count_change: util.noop });
+ stream.headers({});
+ stream.end();
+ example_frames.slice(3).forEach(function(invalid_frame) {
+ invalid_frame.count_change = util.noop;
+ expect(stream._transition.bind(stream, false, invalid_frame)).to.throw('Uncaught, unspecified "error" event.');
+ });
+ });
+ it('should throw exception for invalid outgoing frames', function() {
+ Object.keys(invalid_outgoing_frames).forEach(function(state) {
+ invalid_outgoing_frames[state].forEach(function(invalid_frame) {
+ var stream = createStream();
+ stream.state = state;
+ expect(stream._transition.bind(stream, true, invalid_frame)).to.throw(Error);
+ });
+ });
+ });
+ it('should close the stream when there\'s an incoming or outgoing RST_STREAM', function() {
+ [
+ 'RESERVED_LOCAL',
+ 'RESERVED_REMOTE',
+ 'OPEN',
+ 'HALF_CLOSED_LOCAL',
+ 'HALF_CLOSED_REMOTE'
+ ].forEach(function(state) {
+ [true, false].forEach(function(sending) {
+ var stream = createStream();
+ stream.state = state;
+ stream._transition(sending, { type: 'RST_STREAM', flags: {} });
+ expect(stream.state).to.be.equal('CLOSED');
+ });
+ });
+ });
+ it('should ignore any incoming frame after sending reset', function() {
+ var stream = createStream();
+ stream.reset();
+ example_frames.forEach(stream._transition.bind(stream, false));
+ });
+ it('should ignore certain incoming frames after closing the stream with END_STREAM', function() {
+ var stream = createStream();
+ stream.upstream.write({ type: 'HEADERS', flags: { END_STREAM: true }, headers:{} });
+ stream.headers({});
+ stream.end();
+ example_frames.slice(0,3).forEach(function(frame) {
+ frame.count_change = util.noop;
+ stream._transition(false, frame);
+ });
+ });
+ });
+ });
+ describe('test scenario', function() {
+ describe('sending request', function() {
+ it('should trigger the appropriate state transitions and outgoing frames', function(done) {
+ execute_sequence([
+ { method : { name: 'headers', arguments: [{ ':path': '/' }] } },
+ { outgoing: { type: 'HEADERS', flags: { }, headers: { ':path': '/' } } },
+ { event : { name: 'state', data: ['OPEN'] } },
+
+ { wait : 5 },
+ { method : { name: 'end', arguments: [] } },
+ { event : { name: 'state', data: ['HALF_CLOSED_LOCAL'] } },
+ { outgoing: { type: 'DATA', flags: { END_STREAM: true }, data: Buffer.alloc(0) } },
+
+ { wait : 10 },
+ { incoming: { type: 'HEADERS', flags: { }, headers: { ':status': 200 } } },
+ { incoming: { type: 'DATA' , flags: { END_STREAM: true }, data: Buffer.alloc(5) } },
+ { event : { name: 'headers', data: [{ ':status': 200 }] } },
+ { event : { name: 'state', data: ['CLOSED'] } },
+
+ { active : 0 }
+ ], done);
+ });
+ });
+ describe('answering request', function() {
+ it('should trigger the appropriate state transitions and outgoing frames', function(done) {
+ var payload = Buffer.alloc(5);
+ execute_sequence([
+ { incoming: { type: 'HEADERS', flags: { }, headers: { ':path': '/' } } },
+ { event : { name: 'state', data: ['OPEN'] } },
+ { event : { name: 'headers', data: [{ ':path': '/' }] } },
+
+ { wait : 5 },
+ { incoming: { type: 'DATA', flags: { }, data: Buffer.alloc(5) } },
+ { incoming: { type: 'DATA', flags: { END_STREAM: true }, data: Buffer.alloc(10) } },
+ { event : { name: 'state', data: ['HALF_CLOSED_REMOTE'] } },
+
+ { wait : 5 },
+ { method : { name: 'headers', arguments: [{ ':status': 200 }] } },
+ { outgoing: { type: 'HEADERS', flags: { }, headers: { ':status': 200 } } },
+
+ { wait : 5 },
+ { method : { name: 'end', arguments: [payload] } },
+ { outgoing: { type: 'DATA', flags: { END_STREAM: true }, data: payload } },
+ { event : { name: 'state', data: ['CLOSED'] } },
+
+ { active : 0 }
+ ], done);
+ });
+ });
+ describe('sending push stream', function() {
+ it('should trigger the appropriate state transitions and outgoing frames', function(done) {
+ var payload = Buffer.alloc(5);
+ var pushStream;
+
+ execute_sequence([
+ // receiving request
+ { incoming: { type: 'HEADERS', flags: { END_STREAM: true }, headers: { ':path': '/' } } },
+ { event : { name: 'state', data: ['OPEN'] } },
+ { event : { name: 'state', data: ['HALF_CLOSED_REMOTE'] } },
+ { event : { name: 'headers', data: [{ ':path': '/' }] } },
+
+ // sending response headers
+ { wait : 5 },
+ { method : { name: 'headers', arguments: [{ ':status': '200' }] } },
+ { outgoing: { type: 'HEADERS', flags: { }, headers: { ':status': '200' } } },
+
+ // sending push promise
+ { method : { name: 'promise', arguments: [{ ':path': '/' }], ret: function(str) { pushStream = str; } } },
+ { outgoing: { type: 'PUSH_PROMISE', flags: { }, headers: { ':path': '/' } } },
+
+ // sending response data
+ { method : { name: 'end', arguments: [payload] } },
+ { outgoing: { type: 'DATA', flags: { END_STREAM: true }, data: payload } },
+ { event : { name: 'state', data: ['CLOSED'] } },
+
+ { active : 0 }
+ ], function() {
+ // initial state of the promised stream
+ expect(pushStream.state).to.equal('RESERVED_LOCAL');
+
+ execute_sequence(pushStream, [
+ // push headers
+ { wait : 5 },
+ { method : { name: 'headers', arguments: [{ ':status': '200' }] } },
+ { outgoing: { type: 'HEADERS', flags: { }, headers: { ':status': '200' } } },
+ { event : { name: 'state', data: ['HALF_CLOSED_REMOTE'] } },
+
+ // push data
+ { method : { name: 'end', arguments: [payload] } },
+ { outgoing: { type: 'DATA', flags: { END_STREAM: true }, data: payload } },
+ { event : { name: 'state', data: ['CLOSED'] } },
+
+ { active : 1 }
+ ], done);
+ });
+ });
+ });
+ describe('receiving push stream', function() {
+ it('should trigger the appropriate state transitions and outgoing frames', function(done) {
+ var payload = Buffer.alloc(5);
+ var original_stream = createStream();
+ var promised_stream = createStream();
+
+ done = util.callNTimes(2, done);
+
+ execute_sequence(original_stream, [
+ // sending request headers
+ { method : { name: 'headers', arguments: [{ ':path': '/' }] } },
+ { method : { name: 'end', arguments: [] } },
+ { outgoing: { type: 'HEADERS', flags: { END_STREAM: true }, headers: { ':path': '/' } } },
+ { event : { name: 'state', data: ['OPEN'] } },
+ { event : { name: 'state', data: ['HALF_CLOSED_LOCAL'] } },
+
+ // receiving response headers
+ { wait : 10 },
+ { incoming: { type: 'HEADERS', flags: { }, headers: { ':status': 200 } } },
+ { event : { name: 'headers', data: [{ ':status': 200 }] } },
+
+ // receiving push promise
+ { incoming: { type: 'PUSH_PROMISE', flags: { }, headers: { ':path': '/2.html' }, promised_stream: promised_stream } },
+ { event : { name: 'promise', data: [promised_stream, { ':path': '/2.html' }] } },
+
+ // receiving response data
+ { incoming: { type: 'DATA' , flags: { END_STREAM: true }, data: payload } },
+ { event : { name: 'state', data: ['CLOSED'] } },
+
+ { active : 0 }
+ ], done);
+
+ execute_sequence(promised_stream, [
+ // initial state of the promised stream
+ { event : { name: 'state', data: ['RESERVED_REMOTE'] } },
+
+ // push headers
+ { wait : 10 },
+ { incoming: { type: 'HEADERS', flags: { END_STREAM: false }, headers: { ':status': 200 } } },
+ { event : { name: 'state', data: ['HALF_CLOSED_LOCAL'] } },
+ { event : { name: 'headers', data: [{ ':status': 200 }] } },
+
+ // push data
+ { incoming: { type: 'DATA', flags: { END_STREAM: true }, data: payload } },
+ { event : { name: 'state', data: ['CLOSED'] } },
+
+ { active : 0 }
+ ], done);
+ });
+ });
+ });
+
+ describe('bunyan formatter', function() {
+ describe('`s`', function() {
+ var format = stream.serializers.s;
+ it('should assign a unique ID to each frame', function() {
+ var stream1 = createStream();
+ var stream2 = createStream();
+ expect(format(stream1)).to.be.equal(format(stream1));
+ expect(format(stream2)).to.be.equal(format(stream2));
+ expect(format(stream1)).to.not.be.equal(format(stream2));
+ });
+ });
+ });
+});
diff --git a/testing/xpcshell/node-http2/test/util.js b/testing/xpcshell/node-http2/test/util.js
new file mode 100644
index 0000000000..c612e38b14
--- /dev/null
+++ b/testing/xpcshell/node-http2/test/util.js
@@ -0,0 +1,89 @@
+var path = require('path');
+var fs = require('fs');
+var spawn = require('child_process').spawn;
+
+function noop() {}
+exports.noop = noop;
+
+if (process.env.HTTP2_LOG) {
+ var logOutput = process.stderr;
+ if (process.stderr.isTTY) {
+ var bin = path.resolve(path.dirname(require.resolve('bunyan')), '..', 'bin', 'bunyan');
+ if(bin && fs.existsSync(bin)) {
+ logOutput = spawn(bin, ['-o', 'short'], {
+ stdio: [null, process.stderr, process.stderr]
+ }).stdin;
+ }
+ }
+ exports.createLogger = function(name) {
+ return require('bunyan').createLogger({
+ name: name,
+ stream: logOutput,
+ level: process.env.HTTP2_LOG,
+ serializers: require('../lib/http').serializers
+ });
+ };
+ exports.log = exports.createLogger('test');
+ exports.clientLog = exports.createLogger('client');
+ exports.serverLog = exports.createLogger('server');
+} else {
+ exports.createLogger = function() {
+ return exports.log;
+ };
+ exports.log = exports.clientLog = exports.serverLog = {
+ fatal: noop,
+ error: noop,
+ warn : noop,
+ info : noop,
+ debug: noop,
+ trace: noop,
+
+ child: function() { return this; }
+ };
+}
+
+exports.callNTimes = function callNTimes(limit, done) {
+ if (limit === 0) {
+ done();
+ } else {
+ var i = 0;
+ return function() {
+ i += 1;
+ if (i === limit) {
+ done();
+ }
+ };
+ }
+};
+
+// Concatenate an array of buffers into a new buffer
+exports.concat = function concat(buffers) {
+ var size = 0;
+ for (var i = 0; i < buffers.length; i++) {
+ size += buffers[i].length;
+ }
+
+ var concatenated = Buffer.alloc(size);
+ for (var cursor = 0, j = 0; j < buffers.length; cursor += buffers[j].length, j++) {
+ buffers[j].copy(concatenated, cursor);
+ }
+
+ return concatenated;
+};
+
+exports.random = function random(min, max) {
+ return min + Math.floor(Math.random() * (max - min + 1));
+};
+
+// Concatenate an array of buffers and then cut them into random size buffers
+exports.shuffleBuffers = function shuffleBuffers(buffers) {
+ var concatenated = exports.concat(buffers), output = [], written = 0;
+
+ while (written < concatenated.length) {
+ var chunk_size = Math.min(concatenated.length - written, Math.ceil(Math.random()*20));
+ output.push(concatenated.slice(written, written + chunk_size));
+ written += chunk_size;
+ }
+
+ return output;
+};