go.rice is a Go package that makes working with resources such as html,js,css,images and templates very easy. During development go.rice
will load required files directly from disk. Upon deployment it is easy to add all resource files to a executable using the rice
tool, without changing the source code for your package. go.rice provides several methods to add resources to a binary.
The first thing go.rice does is finding the correct absolute path for your resource files. Say you are executing go binary in your home directory, but your html-files
are located in $GOPATH/src/yourApplication/html-files
. go.rice
will lookup the correct path for that directory (relative to the location of yourApplication). The only thing you have to do is include the resources using rice.FindBox("html-files")
.
This only works when the source is available to the machine executing the binary. Which is always the case when the binary was installed with go get
or go install
. It might occur that you wish to simply provide a binary, without source. The rice
tool analyses source code and finds call's to rice.FindBox(..)
and adds the required directories to the executable binary. There are several methods to add these resources. You can 'embed' by generating go source code, or append the resource to the executable as zip file. In both cases go.rice
will detect the embedded or appended resources and load those, instead of looking up files from disk.
Use go get
to install the package the rice
tool.
go get github.com/GeertJohan/go.rice
go get github.com/GeertJohan/go.rice/rice
Import the package: import "github.com/GeertJohan/go.rice"
Serving a static content folder over HTTP with a rice Box
http.Handle("/", http.FileServer(rice.MustFindBox("http-files").HTTPBox()))
http.ListenAndServe(":8080", nil)
Service a static content folder over HTTP at a non-root location
box := rice.MustFindBox("cssfiles")
cssFileServer := http.StripPrefix("/css/", http.FileServer(box.HTTPBox()))
http.Handle("/css/", cssFileServer)
http.ListenAndServe(":8080", nil)
Note the trailing slash in /css/
in both the call to
http.StripPrefix
and http.Handle
.
Loading a template
// find a rice.Box
templateBox, err := rice.FindBox("example-templates")
if err != nil {
log.Fatal(err)
}
// get file contents as string
templateString, err := templateBox.String("message.tmpl")
if err != nil {
log.Fatal(err)
}
// parse and execute the template
tmplMessage, err := template.New("message").Parse(templateString)
if err != nil {
log.Fatal(err)
}
tmplMessage.Execute(os.Stdout, map[string]string{"Message": "Hello, world!"})
Never call FindBox()
or MustFindBox()
from an init()
function, as the boxes might have not been loaded at that time.
The rice
tool lets you add the resources to a binary executable so the files are not loaded from the filesystem anymore. This creates a 'standalone' executable. There are several ways to add the resources to a binary, each has pro's and con's but all will work without requiring changes to the way you load the resources.
Embed resources by generating Go source code
This method must be executed before building. It generates a single Go source file called rice-box.go for each package, that is compiled by the go compiler into the binary.
The downside with this option is that the generated go source files can become very large, which will slow down compilation and require lots of memory to compile.
Execute the following commands:
rice embed-go
go build
A Note on Symbolic Links: embed-go
uses the os.Walk
function
from the standard library. The os.Walk
function does not follow
symbolic links. So, when creating a box, be aware that any symbolic
links inside your box's directory will not be followed. However,
if the box itself is a symbolic link, its actual location will be
resolved first and then walked. In summary, if your box location is a
symbolic link, it will be followed but none of the symbolic links in
the box will be followed.
Embed resources by generating a coff .syso file and some .go source code
** This method is experimental and should not be used for production systems just yet **
This method must be executed before building. It generates a COFF .syso file and Go source file that are compiled by the go compiler into the binary.
Execute the following commands:
rice embed-syso
go build
Append resources to executable as zip file
This method changes an already built executable. It appends the resources as zip file to the binary. It makes compilation a lot faster and can be used with large resource files.
Downsides for appending are that it requires zip
to be installed and does not provide a working Seek method.
Run the following commands to create a standalone executable.
go build -o example
rice append --exec example
Note: requires zip command to be installed
On windows, install zip from http://gnuwin32.sourceforge.net/packages/zip.htm or cygwin/msys toolsets.
Run rice -h
for information about all options.
You can run the -h option for each sub-command, e.g. rice append -h
.
When opening a new box, the rice package tries to locate the resources in the following order:
- embedded in generated go source
- appended as zip
- 'live' from filesystem
This project is licensed under a Simplified BSD license. Please read the LICENSE file.
This package is not completed yet. Though it already provides working embedding, some important featuers are still missing.
- implement Readdir() correctly on virtualDir
- in-code TODO's
- find boxes in imported packages
Less important stuff:
- idea, os/arch dependent embeds. rice checks if embedding file has _os_arch or build flags. If box is not requested by file without buildflags, then the buildflags are applied to the embed file.
You will find package documentation at godoc.org/github.com/GeertJohan/go.rice.