@omneedia/node-gyp
v3.8.1
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Node.js native addon build tool
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node-gyp
Node.js native addon build tool
node-gyp
is a cross-platform command-line tool written in Node.js for compiling
native addon modules for Node.js. It bundles the gyp
project used by the Chromium team and takes away the pain of dealing with the
various differences in build platforms. It is the replacement to the node-waf
program which is removed for node v0.8
. If you have a native addon for node that
still has a wscript
file, then you should definitely add a binding.gyp
file
to support the latest versions of node.
Multiple target versions of node are supported (i.e. 0.8
, ..., 4
, 5
, 6
,
etc.), regardless of what version of node is actually installed on your system
(node-gyp
downloads the necessary development files or headers for the target version).
Features
- Easy to use, consistent interface
- Same commands to build your module on every platform
- Supports multiple target versions of Node
Installation
You can install with npm
:
$ npm install -g node-gyp
You will also need to install:
On Unix
python
(v2.7
recommended,v3.x.x
is not supported)make
- A proper C/C++ compiler toolchain, like GCC
On macOS
python
(v2.7
recommended,v3.x.x
is not supported) (already installed on macOS)- Xcode
- You also need to install the
Command Line Tools
via Xcode. You can find this under the menuXcode -> Preferences -> Locations
(or by runningxcode-select --install
in your Terminal)- This step will install
gcc
and the related toolchain containingmake
- This step will install
- You also need to install the
On Windows
Option 1
Install all the required tools and configurations using Microsoft's windows-build-tools using npm install --global --production windows-build-tools
from an elevated PowerShell or CMD.exe (run as Administrator).
Option 2
Install tools and configuration manually:
- Install Visual C++ Build Environment: Visual Studio Build Tools (using "Visual C++ build tools" workload) or Visual Studio 2017 Community (using the "Desktop development with C++" workload)
- Install Python 2.7 (
v3.x.x
is not supported), and runnpm config set python python2.7
(or see below for further instructions on specifying the proper Python version and path.) - Launch cmd,
npm config set msvs_version 2017
If the above steps didn't work for you, please visit Microsoft's Node.js Guidelines for Windows for additional tips.
If you have multiple Python versions installed, you can identify which Python
version node-gyp
uses by setting the '--python' variable:
$ node-gyp --python /path/to/python2.7
If node-gyp
is called by way of npm
and you have multiple versions of
Python installed, then you can set npm
's 'python' config key to the appropriate
value:
$ npm config set python /path/to/executable/python2.7
How to Use
To compile your native addon, first go to its root directory:
$ cd my_node_addon
The next step is to generate the appropriate project build files for the current
platform. Use configure
for that:
$ node-gyp configure
Auto-detection fails for Visual C++ Build Tools 2015, so --msvs_version=2015
needs to be added (not needed when run by npm as configured above):
$ node-gyp configure --msvs_version=2015
Note: The configure
step looks for the binding.gyp
file in the current
directory to process. See below for instructions on creating the binding.gyp
file.
Now you will have either a Makefile
(on Unix platforms) or a vcxproj
file
(on Windows) in the build/
directory. Next invoke the build
command:
$ node-gyp build
Now you have your compiled .node
bindings file! The compiled bindings end up
in build/Debug/
or build/Release/
, depending on the build mode. At this point
you can require the .node
file with Node and run your tests!
Note: To create a Debug build of the bindings file, pass the --debug
(or
-d
) switch when running either the configure
, build
or rebuild
command.
The "binding.gyp" file
Previously when node had node-waf
you had to write a wscript
file. The
replacement for that is the binding.gyp
file, which describes the configuration
to build your module in a JSON-like format. This file gets placed in the root of
your package, alongside the package.json
file.
A barebones gyp
file appropriate for building a node addon looks like:
{
"targets": [
{
"target_name": "binding",
"sources": [ "src/binding.cc" ]
}
]
}
Some additional resources for addons and writing gyp
files:
- "Going Native" a nodeschool.io tutorial
- "Hello World" node addon example
- gyp user documentation
- gyp input format reference
- "binding.gyp" files out in the wild wiki page
Commands
node-gyp
responds to the following commands:
| Command | Description
|:--------------|:---------------------------------------------------------------
| help
| Shows the help dialog
| build
| Invokes make
/msbuild.exe
and builds the native addon
| clean
| Removes the build
directory if it exists
| configure
| Generates project build files for the current platform
| rebuild
| Runs clean
, configure
and build
all in a row
| install
| Installs node header files for the given version
| list
| Lists the currently installed node header versions
| remove
| Removes the node header files for the given version
Command Options
node-gyp
accepts the following command options:
| Command | Description
|:----------------------------------|:------------------------------------------
| -j n
, --jobs n
| Run make in parallel
| --target=v6.2.1
| Node version to build for (default=process.version)
| --silly
, --loglevel=silly
| Log all progress to console
| --verbose
, --loglevel=verbose
| Log most progress to console
| --silent
, --loglevel=silent
| Don't log anything to console
| debug
, --debug
| Make Debug build (default=Release)
| --release
, --no-debug
| Make Release build
| -C $dir
, --directory=$dir
| Run command in different directory
| --make=$make
| Override make command (e.g. gmake)
| --thin=yes
| Enable thin static libraries
| --arch=$arch
| Set target architecture (e.g. ia32)
| --tarball=$path
| Get headers from a local tarball
| --devdir=$path
| SDK download directory (default=~/.node-gyp)
| --ensure
| Don't reinstall headers if already present
| --dist-url=$url
| Download header tarball from custom URL
| --proxy=$url
| Set HTTP proxy for downloading header tarball
| --cafile=$cafile
| Override default CA chain (to download tarball)
| --nodedir=$path
| Set the path to the node source code
| --python=$path
| Set path to the python (2) binary
| --msvs_version=$version
| Set Visual Studio version (win)
| --solution=$solution
| Set Visual Studio Solution version (win)
Configuration
node-gyp
responds to environment variables or npm
configuration
- Environment variables take the form
npm_config_OPTION_NAME
for any of the options listed above (dashes in option names should be replaced by underscores). These work also whennode-gyp
is invoked directly:$ export npm_config_devdir=/tmp/.gyp
or on Windows> set npm_config_devdir=c:\temp\.gyp
- As
npm
configuration, variables take the formOPTION_NAME
. This way only works whennode-gyp
is executed bynpm
:$ npm config set [--global] devdir /tmp/.gyp
$ npm i buffertools
License
(The MIT License)
Copyright (c) 2012 Nathan Rajlich <[email protected]>
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.