open-nomad/client/fingerprint/network.go
2017-04-07 18:28:22 -07:00

190 lines
5.5 KiB
Go

package fingerprint
import (
"fmt"
"log"
"net"
"github.com/hashicorp/nomad/client/config"
"github.com/hashicorp/nomad/nomad/structs"
)
const (
// defaultNetworkSpeed is the speed set if the network link speed could not
// be detected.
defaultNetworkSpeed = 1000
)
// NetworkFingerprint is used to fingerprint the Network capabilities of a node
type NetworkFingerprint struct {
StaticFingerprinter
logger *log.Logger
interfaceDetector NetworkInterfaceDetector
}
// An interface to isolate calls to various api in net package
// This facilitates testing where we can implement
// fake interfaces and addresses to test varios code paths
type NetworkInterfaceDetector interface {
Interfaces() ([]net.Interface, error)
InterfaceByName(name string) (*net.Interface, error)
Addrs(intf *net.Interface) ([]net.Addr, error)
}
// Implements the interface detector which calls net directly
type DefaultNetworkInterfaceDetector struct {
}
func (b *DefaultNetworkInterfaceDetector) Interfaces() ([]net.Interface, error) {
return net.Interfaces()
}
func (b *DefaultNetworkInterfaceDetector) InterfaceByName(name string) (*net.Interface, error) {
return net.InterfaceByName(name)
}
func (b *DefaultNetworkInterfaceDetector) Addrs(intf *net.Interface) ([]net.Addr, error) {
return intf.Addrs()
}
// NewNetworkFingerprint returns a new NetworkFingerprinter with the given
// logger
func NewNetworkFingerprint(logger *log.Logger) Fingerprint {
f := &NetworkFingerprint{logger: logger, interfaceDetector: &DefaultNetworkInterfaceDetector{}}
return f
}
func (f *NetworkFingerprint) Fingerprint(cfg *config.Config, node *structs.Node) (bool, error) {
if node.Resources == nil {
node.Resources = &structs.Resources{}
}
// Find the named interface
intf, err := f.findInterface(cfg.NetworkInterface)
switch {
case err != nil:
return false, fmt.Errorf("Error while detecting network interface during fingerprinting: %v", err)
case intf == nil:
// No interface could be found
return false, nil
}
// Record the throughput of the interface
var mbits int
throughput := f.linkSpeed(intf.Name)
if cfg.NetworkSpeed != 0 {
mbits = cfg.NetworkSpeed
f.logger.Printf("[DEBUG] fingerprint.network: setting link speed to user configured speed: %d", mbits)
} else if throughput != 0 {
mbits = throughput
f.logger.Printf("[DEBUG] fingerprint.network: link speed for %v set to %v", intf.Name, mbits)
} else {
mbits = defaultNetworkSpeed
f.logger.Printf("[DEBUG] fingerprint.network: link speed could not be detected and no speed specified by user. Defaulting to %d", defaultNetworkSpeed)
}
// Create the network resources from the interface
nwResources, err := f.createNetworkResources(mbits, intf)
if err != nil {
return false, err
}
// Add the network resources to the node
node.Resources.Networks = nwResources
for _, nwResource := range nwResources {
f.logger.Printf("[DEBUG] fingerprint.network: Detected interface %v with IP: %v", intf.Name, nwResource.IP)
}
if len(nwResources) > 0 {
node.Attributes["unique.network.ip-address"] = nwResources[0].IP
}
// return true, because we have a network connection
return true, nil
}
// createNetworkResources creates network resources for every IP
func (f *NetworkFingerprint) createNetworkResources(throughput int, intf *net.Interface) ([]*structs.NetworkResource, error) {
// Find the interface with the name
addrs, err := f.interfaceDetector.Addrs(intf)
if err != nil {
return nil, err
}
nwResources := make([]*structs.NetworkResource, 0)
for _, addr := range addrs {
// Create a new network resource
newNetwork := &structs.NetworkResource{
Device: intf.Name,
MBits: throughput,
}
// Find the IP Addr and the CIDR from the Address
var ip net.IP
switch v := (addr).(type) {
case *net.IPNet:
ip = v.IP
case *net.IPAddr:
ip = v.IP
}
// If the ip is link-local then we ignore it
if ip.IsLinkLocalUnicast() || ip.IsLinkLocalMulticast() {
continue
}
newNetwork.IP = ip.String()
if ip.To4() != nil {
newNetwork.CIDR = newNetwork.IP + "/32"
} else {
newNetwork.CIDR = newNetwork.IP + "/128"
}
nwResources = append(nwResources, newNetwork)
}
return nwResources, nil
}
// Checks if the device is marked UP by the operator
func (f *NetworkFingerprint) isDeviceEnabled(intf *net.Interface) bool {
return intf.Flags&net.FlagUp != 0
}
// Checks if the device has any IP address configured
func (f *NetworkFingerprint) deviceHasIpAddress(intf *net.Interface) bool {
addrs, err := f.interfaceDetector.Addrs(intf)
return err == nil && len(addrs) != 0
}
func (n *NetworkFingerprint) isDeviceLoopBackOrPointToPoint(intf *net.Interface) bool {
return intf.Flags&(net.FlagLoopback|net.FlagPointToPoint) != 0
}
// Returns the interface with the name passed by user
// If the name is blank then it iterates through all the devices
// and finds one which is routable and marked as UP
// It excludes PPP and lo devices unless they are specifically asked
func (f *NetworkFingerprint) findInterface(deviceName string) (*net.Interface, error) {
var interfaces []net.Interface
var err error
if deviceName != "" {
return f.interfaceDetector.InterfaceByName(deviceName)
}
var intfs []net.Interface
if intfs, err = f.interfaceDetector.Interfaces(); err != nil {
return nil, err
}
for _, intf := range intfs {
if f.isDeviceEnabled(&intf) && !f.isDeviceLoopBackOrPointToPoint(&intf) && f.deviceHasIpAddress(&intf) {
interfaces = append(interfaces, intf)
}
}
if len(interfaces) == 0 {
return nil, nil
}
return &interfaces[0], nil
}