AdGuardHome/internal/aghnet/arpdb.go

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package aghnet
import (
"bufio"
"fmt"
"io"
"net"
"strings"
"sync"
"github.com/AdguardTeam/AdGuardHome/internal/aghos"
"github.com/AdguardTeam/golibs/errors"
"github.com/AdguardTeam/golibs/netutil"
)
// ARPDB: The Network Neighborhood Database
// ARPDB stores and refreshes the network neighborhood reported by ARP (Address
// Resolution Protocol).
type ARPDB interface {
// Refresh updates the stored data. It must be safe for concurrent use.
Refresh() (err error)
// Neighbors returnes the last set of data reported by ARP. Both the method
// and it's result must be safe for concurrent use.
Neighbors() (ns []Neighbor)
}
// NewARPDB returns the ARPDB properly initialized for the OS.
func NewARPDB() (arp ARPDB, err error) {
arp = newARPDB()
err = arp.Refresh()
if err != nil {
return nil, fmt.Errorf("arpdb initial refresh: %w", err)
}
return arp, nil
}
// Empty ARPDB implementation
// EmptyARPDB is the ARPDB implementation that does nothing.
type EmptyARPDB struct{}
// type check
var _ ARPDB = EmptyARPDB{}
// Refresh implements the ARPDB interface for EmptyARPContainer. It does
// nothing and always returns nil error.
func (EmptyARPDB) Refresh() (err error) { return nil }
// Neighbors implements the ARPDB interface for EmptyARPContainer. It always
// returns nil.
func (EmptyARPDB) Neighbors() (ns []Neighbor) { return nil }
// ARPDB Helper Types
// Neighbor is the pair of IP address and MAC address reported by ARP.
type Neighbor struct {
// Name is the hostname of the neighbor. Empty name is valid since not each
// implementation of ARP is able to retrieve that.
Name string
// IP contains either IPv4 or IPv6.
IP net.IP
// MAC contains the hardware address.
MAC net.HardwareAddr
}
// Clone returns the deep copy of n.
func (n Neighbor) Clone() (clone Neighbor) {
return Neighbor{
Name: n.Name,
IP: netutil.CloneIP(n.IP),
MAC: netutil.CloneMAC(n.MAC),
}
}
// neighs is the helper type that stores neighbors to avoid copying its methods
// among all the ARPDB implementations.
type neighs struct {
mu *sync.RWMutex
ns []Neighbor
}
// len returns the length of the neighbors slice. It's safe for concurrent use.
func (ns *neighs) len() (l int) {
ns.mu.RLock()
defer ns.mu.RUnlock()
return len(ns.ns)
}
// clone returns a deep copy of the underlying neighbors slice. It's safe for
// concurrent use.
func (ns *neighs) clone() (cloned []Neighbor) {
ns.mu.RLock()
defer ns.mu.RUnlock()
cloned = make([]Neighbor, len(ns.ns))
for i, n := range ns.ns {
cloned[i] = n.Clone()
}
return cloned
}
// reset replaces the underlying slice with the new one. It's safe for
// concurrent use.
func (ns *neighs) reset(with []Neighbor) {
ns.mu.Lock()
defer ns.mu.Unlock()
ns.ns = with
}
// Command ARPDB
// parseNeighsFunc parses the text from sc as if it'd be an output of some
// ARP-related command. lenHint is a hint for the size of the allocated slice
// of Neighbors.
type parseNeighsFunc func(sc *bufio.Scanner, lenHint int) (ns []Neighbor)
// runCmdFunc is the function that runs some command and returns its output
// wrapped to be a io.Reader.
type runCmdFunc func() (r io.Reader, err error)
// cmdARPDB is the implementation of the ARPDB that uses command line to
// retrieve data.
type cmdARPDB struct {
parse parseNeighsFunc
runcmd runCmdFunc
ns *neighs
}
// type check
var _ ARPDB = (*cmdARPDB)(nil)
// runCmd runs the cmd with it's args and returns the result wrapped to be an
// io.Reader. The error is returned either if the exit code retured by command
// not equals 0 or the execution itself failed.
func runCmd(cmd string, args ...string) (r io.Reader, err error) {
var code int
var out string
code, out, err = aghos.RunCommand(cmd, args...)
if err != nil {
return nil, err
} else if code != 0 {
return nil, fmt.Errorf("unexpected exit code %d", code)
}
return strings.NewReader(out), nil
}
// Refresh implements the ARPDB interface for *cmdARPDB.
func (arp *cmdARPDB) Refresh() (err error) {
defer func() { err = errors.Annotate(err, "cmd arpdb: %w") }()
var r io.Reader
r, err = arp.runcmd()
if err != nil {
return fmt.Errorf("running command: %w", err)
}
sc := bufio.NewScanner(r)
ns := arp.parse(sc, arp.ns.len())
if err = sc.Err(); err != nil {
return fmt.Errorf("scanning the output: %w", err)
}
arp.ns.reset(ns)
return nil
}
// Neighbors implements the ARPDB interface for *cmdARPDB.
func (arp *cmdARPDB) Neighbors() (ns []Neighbor) {
return arp.ns.clone()
}
// Composite ARPDB
// arpdbs is the ARPDB that combines several ARPDB implementations and
// consequently switches between those.
type arpdbs struct {
// arps is the set of ARPDB implementations to range through.
arps []ARPDB
// last is the last succeeded ARPDB index.
last int
}
// newARPDBs returns a properly initialized *arpdbs. It begins refreshing from
// the first of arps.
func newARPDBs(arps ...ARPDB) (arp *arpdbs) {
return &arpdbs{
arps: arps,
last: 0,
}
}
// type check
var _ ARPDB = (*arpdbs)(nil)
// Refresh implements the ARPDB interface for *arpdbs.
func (arp *arpdbs) Refresh() (err error) {
var errs []error
l := len(arp.arps)
// Start from the last succeeded implementation.
for i := 0; i < l; i++ {
cur := (arp.last + i) % l
err = arp.arps[cur].Refresh()
if err == nil {
// The succeeded implementation found so update the last succeeded
// index.
arp.last = cur
return nil
}
errs = append(errs, err)
}
if len(errs) > 0 {
err = errors.List("each arpdb failed", errs...)
}
return err
}
// Neighbors implements the ARPDB interface for *arpdbs.
func (arp *arpdbs) Neighbors() (ns []Neighbor) {
if l := len(arp.arps); l > 0 && arp.last < l {
return arp.arps[arp.last].Neighbors()
}
return nil
}