6075ea3c39
* Use ccache in Travis This should speed up builds as we are rebuilding the same libvirt versions and it takes over half of test run time. * Show ccache stats before and after building libvirt |
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.travis | ||
internal | ||
libvirttest | ||
scripts | ||
.travis.yml | ||
AUTHORS | ||
const.gen.go | ||
CONTRIBUTING.md | ||
doc.go | ||
libvirt_integration_test.go | ||
libvirt_test.go | ||
libvirt.gen.go | ||
libvirt.go | ||
libvirt.yml | ||
libvirtd.conf | ||
LICENSE.md | ||
README.md | ||
rpc_test.go | ||
rpc.go |
libvirt
Package go-libvirt
provides a pure Go interface for interacting with libvirt.
Rather than using Libvirt's C bindings, this package makes use of libvirt's RPC interface, as documented here. Connections to the libvirt server may be local, or remote. RPC packets are encoded using the XDR standard as defined by RFC 4506.
libvirt's RPC interface is quite extensive, and changes from one version to the next, so
this project uses a code generator to build the go bindings. The code generator should
be run whenever you want to build go-libvirt for a new version of libvirt. To do this,
you'll need to set an environment variable LIBVIRT_SOURCE
to the directory containing
the untarred libvirt sources, and then run go generate ./...
from the go-libvirt directory.
The code generator consumes src/remote/remote_protocol.x
and produces go bindings for all the remote procedures defined there.
How to Use This Library
Once you've vendored go-libvirt into your project, you'll probably want to call some libvirt functions. There's some example code below showing how to connect to libvirt and make one such call, but once you get past the introduction you'll next want to call some other libvirt functions. How do you find them?
Start with the libvirt API reference.
Let's say you want to gracefully shutdown a VM, and after reading through the
libvirt docs you determine that virDomainShutdown() is the function you want to
call to do that. Where's that function in go-libvirt? We transform the names
slightly when building the go bindings. There's no need for a global prefix like
"vir" in Go, since all our functions are inside the package namespace, so we
drop it. That means the Go function for virDomainShutdown()
is just DomainShutdown()
,
and sure enough, you can find the Go function DomainShutdown()
in libvirt.gen.go,
with parameters and return values equivalent to those documented in the API
reference.
Suppose you then decide you need more control over your shutdown, so you switch
over to virDomainShutdownFlags()
. As its name suggests, this function takes a
flag parameter which has possible values specified in an enum called
virDomainShutdownFlagValues
. Flag types like this are a little tricky for the
code generator, because the C functions just take an integer type - only the
libvirt documentation actually ties the flags to the enum types. In most cases
though we're able to generate a wrapper function with a distinct flag type,
making it easier for Go tooling to suggest possible flag values while you're
working. Checking the documentation for this function:
godoc github.com/digitalocean/go-libvirt DomainShutdownFlags
returns this:
func (l *Libvirt) DomainShutdownFlags(Dom Domain, Flags DomainShutdownFlagValues) (err error)
If you want to see the possible flag values, godoc
can help again:
$ godoc github.com/digitalocean/go-libvirt DomainShutdownFlagValues
type DomainShutdownFlagValues int32
DomainShutdownFlagValues as declared in libvirt/libvirt-domain.h:1121
const (
DomainShutdownDefault DomainShutdownFlagValues = iota
DomainShutdownAcpiPowerBtn DomainShutdownFlagValues = 1
DomainShutdownGuestAgent DomainShutdownFlagValues = 2
DomainShutdownInitctl DomainShutdownFlagValues = 4
DomainShutdownSignal DomainShutdownFlagValues = 8
DomainShutdownParavirt DomainShutdownFlagValues = 16
)
DomainShutdownFlagValues enumeration from libvirt/libvirt-domain.h:1121
One other suggestion: most of the code in go-libvirt is now generated, but a few hand-written routines still exist in libvirt.go, and wrap calls to the generated code with slightly different parameters or return values. We suggest avoiding these hand-written routines and calling the generated routines in libvirt.gen.go instead. Over time these handwritten routines will be removed from go-libvirt.
Warning
The libvirt project strongly recommends against talking to the RPC interface directly. They consider it to be a private implementation detail with the possibility of being entirely rearchitected in the future.
While these package are reasonably well-tested and have seen some use inside of DigitalOcean, there may be subtle bugs which could cause the packages to act in unexpected ways. Use at your own risk!
In addition, the API is not considered stable at this time. If you would like
to include package libvirt
in a project, we highly recommend vendoring it into
your project.
Example
package main
import (
"fmt"
"log"
"net"
"time"
"github.com/digitalocean/go-libvirt"
)
func main() {
//c, err := net.DialTimeout("tcp", "127.0.0.1:16509", 2*time.Second)
//c, err := net.DialTimeout("tcp", "192.168.1.12:16509", 2*time.Second)
c, err := net.DialTimeout("unix", "/var/run/libvirt/libvirt-sock", 2*time.Second)
if err != nil {
log.Fatalf("failed to dial libvirt: %v", err)
}
l := libvirt.New(c)
if err := l.Connect(); err != nil {
log.Fatalf("failed to connect: %v", err)
}
v, err := l.Version()
if err != nil {
log.Fatalf("failed to retrieve libvirt version: %v", err)
}
fmt.Println("Version:", v)
domains, err := l.Domains()
if err != nil {
log.Fatalf("failed to retrieve domains: %v", err)
}
fmt.Println("ID\tName\t\tUUID")
fmt.Printf("--------------------------------------------------------\n")
for _, d := range domains {
fmt.Printf("%d\t%s\t%x\n", d.ID, d.Name, d.UUID)
}
if err := l.Disconnect(); err != nil {
log.Fatal("failed to disconnect: %v", err)
}
}
Version: 1.3.4
ID Name UUID
--------------------------------------------------------
1 Test-1 dc329f87d4de47198cfd2e21c6105b01
2 Test-2 dc229f87d4de47198cfd2e21c6105b01