forked from tsenart/vegeta
/
attack.go
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/
attack.go
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package vegeta
import (
"context"
"crypto/tls"
"fmt"
"io"
"io/ioutil"
"math"
"net"
"net/http"
"net/url"
"sync"
"time"
"golang.org/x/net/http2"
)
// Attacker is an attack executor which wraps an http.Client
type Attacker struct {
dialer *net.Dialer
client http.Client
stopch chan struct{}
workers uint64
maxWorkers uint64
maxBody int64
redirects int
seqmu sync.Mutex
seq uint64
began time.Time
}
const (
// DefaultRedirects is the default number of times an Attacker follows
// redirects.
DefaultRedirects = 10
// DefaultTimeout is the default amount of time an Attacker waits for a request
// before it times out.
DefaultTimeout = 30 * time.Second
// DefaultConnections is the default amount of max open idle connections per
// target host.
DefaultConnections = 10000
// DefaultWorkers is the default initial number of workers used to carry an attack.
DefaultWorkers = 10
// DefaultMaxWorkers is the default maximum number of workers used to carry an attack.
DefaultMaxWorkers = math.MaxUint64
// DefaultMaxBody is the default max number of bytes to be read from response bodies.
// Defaults to no limit.
DefaultMaxBody = int64(-1)
// NoFollow is the value when redirects are not followed but marked successful
NoFollow = -1
)
var (
// DefaultLocalAddr is the default local IP address an Attacker uses.
DefaultLocalAddr = net.IPAddr{IP: net.IPv4zero}
// DefaultTLSConfig is the default tls.Config an Attacker uses.
DefaultTLSConfig = &tls.Config{InsecureSkipVerify: true}
)
// NewAttacker returns a new Attacker with default options which are overridden
// by the optionally provided opts.
func NewAttacker(opts ...func(*Attacker)) *Attacker {
a := &Attacker{
stopch: make(chan struct{}),
workers: DefaultWorkers,
maxWorkers: DefaultMaxWorkers,
maxBody: DefaultMaxBody,
began: time.Now(),
}
a.dialer = &net.Dialer{
LocalAddr: &net.TCPAddr{IP: DefaultLocalAddr.IP, Zone: DefaultLocalAddr.Zone},
KeepAlive: 30 * time.Second,
}
a.client = http.Client{
Timeout: DefaultTimeout,
Transport: &http.Transport{
Proxy: http.ProxyFromEnvironment,
Dial: a.dialer.Dial,
TLSClientConfig: DefaultTLSConfig,
MaxIdleConnsPerHost: DefaultConnections,
},
}
for _, opt := range opts {
opt(a)
}
return a
}
// Workers returns a functional option which sets the initial number of workers
// an Attacker uses to hit its targets. More workers may be spawned dynamically
// to sustain the requested rate in the face of slow responses and errors.
func Workers(n uint64) func(*Attacker) {
return func(a *Attacker) { a.workers = n }
}
// MaxWorkers returns a functional option which sets the maximum number of workers
// an Attacker can use to hit its targets.
func MaxWorkers(n uint64) func(*Attacker) {
return func(a *Attacker) { a.maxWorkers = n }
}
// Connections returns a functional option which sets the number of maximum idle
// open connections per target host.
func Connections(n int) func(*Attacker) {
return func(a *Attacker) {
tr := a.client.Transport.(*http.Transport)
tr.MaxIdleConnsPerHost = n
}
}
// Redirects returns a functional option which sets the maximum
// number of redirects an Attacker will follow.
func Redirects(n int) func(*Attacker) {
return func(a *Attacker) {
a.redirects = n
a.client.CheckRedirect = func(_ *http.Request, via []*http.Request) error {
switch {
case n == NoFollow:
return http.ErrUseLastResponse
case n < len(via):
return fmt.Errorf("stopped after %d redirects", n)
default:
return nil
}
}
}
}
// Proxy returns a functional option which sets the `Proxy` field on
// the http.Client's Transport
func Proxy(proxy func(*http.Request) (*url.URL, error)) func(*Attacker) {
return func(a *Attacker) {
tr := a.client.Transport.(*http.Transport)
tr.Proxy = proxy
}
}
// Timeout returns a functional option which sets the maximum amount of time
// an Attacker will wait for a request to be responded to and completely read.
func Timeout(d time.Duration) func(*Attacker) {
return func(a *Attacker) {
a.client.Timeout = d
}
}
// LocalAddr returns a functional option which sets the local address
// an Attacker will use with its requests.
func LocalAddr(addr net.IPAddr) func(*Attacker) {
return func(a *Attacker) {
tr := a.client.Transport.(*http.Transport)
a.dialer.LocalAddr = &net.TCPAddr{IP: addr.IP, Zone: addr.Zone}
tr.Dial = a.dialer.Dial
}
}
// KeepAlive returns a functional option which toggles KeepAlive
// connections on the dialer and transport.
func KeepAlive(keepalive bool) func(*Attacker) {
return func(a *Attacker) {
tr := a.client.Transport.(*http.Transport)
tr.DisableKeepAlives = !keepalive
if !keepalive {
a.dialer.KeepAlive = 0
tr.Dial = a.dialer.Dial
}
}
}
// TLSConfig returns a functional option which sets the *tls.Config for a
// Attacker to use with its requests.
func TLSConfig(c *tls.Config) func(*Attacker) {
return func(a *Attacker) {
tr := a.client.Transport.(*http.Transport)
tr.TLSClientConfig = c
}
}
// HTTP2 returns a functional option which enables or disables HTTP/2 support
// on requests performed by an Attacker.
func HTTP2(enabled bool) func(*Attacker) {
return func(a *Attacker) {
if tr := a.client.Transport.(*http.Transport); enabled {
http2.ConfigureTransport(tr)
} else {
tr.TLSNextProto = map[string]func(string, *tls.Conn) http.RoundTripper{}
}
}
}
// H2C returns a functional option which enables H2C support on requests
// performed by an Attacker
func H2C(enabled bool) func(*Attacker) {
return func(a *Attacker) {
if tr := a.client.Transport.(*http.Transport); enabled {
a.client.Transport = &http2.Transport{
AllowHTTP: true,
DialTLS: func(network, addr string, cfg *tls.Config) (net.Conn, error) {
return tr.Dial(network, addr)
},
}
}
}
}
// MaxBody returns a functional option which limits the max number of bytes
// read from response bodies. Set to -1 to disable any limits.
func MaxBody(n int64) func(*Attacker) {
return func(a *Attacker) { a.maxBody = n }
}
// UnixSocket changes the dialer for the attacker to use the specified unix socket file
func UnixSocket(socket string) func(*Attacker) {
return func(a *Attacker) {
if tr, ok := a.client.Transport.(*http.Transport); socket != "" && ok {
tr.DialContext = func(_ context.Context, _, _ string) (net.Conn, error) {
return net.Dial("unix", socket)
}
}
}
}
// Client returns a functional option that allows you to bring your own http.Client
func Client(c *http.Client) func(*Attacker) {
return func(a *Attacker) { a.client = *c }
}
// Attack reads its Targets from the passed Targeter and attacks them at
// the rate specified by the Pacer. When the duration is zero the attack
// runs until Stop is called. Results are sent to the returned channel as soon
// as they arrive and will have their Attack field set to the given name.
func (a *Attacker) Attack(tr Targeter, p Pacer, du time.Duration, name string) <-chan *Result {
var wg sync.WaitGroup
workers := a.workers
if workers > a.maxWorkers {
workers = a.maxWorkers
}
results := make(chan *Result)
ticks := make(chan struct{})
for i := uint64(0); i < workers; i++ {
wg.Add(1)
go a.attack(tr, name, &wg, ticks, results)
}
go func() {
defer close(results)
defer wg.Wait()
defer close(ticks)
began, count := time.Now(), uint64(0)
for {
elapsed := time.Since(began)
if du > 0 && elapsed > du {
return
}
wait, stop := p.Pace(elapsed, count)
if stop {
return
}
time.Sleep(wait)
if workers < a.maxWorkers {
select {
case ticks <- struct{}{}:
count++
continue
case <-a.stopch:
return
default:
// all workers are blocked. start one more and try again
workers++
wg.Add(1)
go a.attack(tr, name, &wg, ticks, results)
}
}
select {
case ticks <- struct{}{}:
count++
case <-a.stopch:
return
}
}
}()
return results
}
// Stop stops the current attack.
func (a *Attacker) Stop() {
select {
case <-a.stopch:
return
default:
close(a.stopch)
}
}
func (a *Attacker) attack(tr Targeter, name string, workers *sync.WaitGroup, ticks <-chan struct{}, results chan<- *Result) {
defer workers.Done()
for range ticks {
results <- a.hit(tr, name)
}
}
func (a *Attacker) hit(tr Targeter, name string) *Result {
var (
res = Result{Attack: name}
tgt Target
err error
)
a.seqmu.Lock()
res.Timestamp = a.began.Add(time.Since(a.began))
res.Seq = a.seq
a.seq++
a.seqmu.Unlock()
defer func() {
res.Latency = time.Since(res.Timestamp)
if err != nil {
res.Error = err.Error()
}
}()
if err = tr(&tgt); err != nil {
a.Stop()
return &res
}
req, err := tgt.Request()
if err != nil {
return &res
}
r, err := a.client.Do(req)
if err != nil {
return &res
}
defer r.Body.Close()
body := io.Reader(r.Body)
if a.maxBody >= 0 {
body = io.LimitReader(r.Body, a.maxBody)
}
if res.Body, err = ioutil.ReadAll(body); err != nil {
return &res
} else if _, err = io.Copy(ioutil.Discard, r.Body); err != nil {
return &res
}
res.BytesIn = uint64(len(res.Body))
if req.ContentLength != -1 {
res.BytesOut = uint64(req.ContentLength)
}
if res.Code = uint16(r.StatusCode); res.Code < 200 || res.Code >= 400 {
res.Error = r.Status
}
return &res
}