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attack.go
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attack.go
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package main
import (
"crypto/tls"
"crypto/x509"
"errors"
"flag"
"fmt"
"io"
"io/ioutil"
"net"
"net/http"
"os"
"os/signal"
"strings"
"time"
"github.com/tsenart/vegeta/v12/internal/resolver"
vegeta "github.com/tsenart/vegeta/v12/lib"
)
func attackCmd() command {
fs := flag.NewFlagSet("vegeta attack", flag.ExitOnError)
opts := &attackOpts{
headers: headers{http.Header{}},
proxyHeaders: headers{http.Header{}},
laddr: localAddr{&vegeta.DefaultLocalAddr},
rate: vegeta.Rate{Freq: 50, Per: time.Second},
maxBody: vegeta.DefaultMaxBody,
}
fs.StringVar(&opts.name, "name", "", "Attack name")
fs.StringVar(&opts.targetsf, "targets", "stdin", "Targets file")
fs.StringVar(&opts.format, "format", vegeta.HTTPTargetFormat,
fmt.Sprintf("Targets format [%s]", strings.Join(vegeta.TargetFormats, ", ")))
fs.StringVar(&opts.outputf, "output", "stdout", "Output file")
fs.StringVar(&opts.bodyf, "body", "", "Requests body file")
fs.BoolVar(&opts.chunked, "chunked", false, "Send body with chunked transfer encoding")
fs.StringVar(&opts.certf, "cert", "", "TLS client PEM encoded certificate file")
fs.StringVar(&opts.keyf, "key", "", "TLS client PEM encoded private key file")
fs.Var(&opts.rootCerts, "root-certs", "TLS root certificate files (comma separated list)")
fs.BoolVar(&opts.http2, "http2", true, "Send HTTP/2 requests when supported by the server")
fs.BoolVar(&opts.h2c, "h2c", false, "Send HTTP/2 requests without TLS encryption")
fs.BoolVar(&opts.insecure, "insecure", false, "Ignore invalid server TLS certificates")
fs.BoolVar(&opts.lazy, "lazy", false, "Read targets lazily")
fs.DurationVar(&opts.duration, "duration", 0, "Duration of the test [0 = forever]")
fs.DurationVar(&opts.timeout, "timeout", vegeta.DefaultTimeout, "Requests timeout")
fs.Uint64Var(&opts.workers, "workers", vegeta.DefaultWorkers, "Initial number of workers")
fs.Uint64Var(&opts.maxWorkers, "max-workers", vegeta.DefaultMaxWorkers, "Maximum number of workers")
fs.IntVar(&opts.connections, "connections", vegeta.DefaultConnections, "Max open idle connections per target host")
fs.IntVar(&opts.maxConnections, "max-connections", vegeta.DefaultMaxConnections, "Max connections per target host")
fs.IntVar(&opts.redirects, "redirects", vegeta.DefaultRedirects, "Number of redirects to follow. -1 will not follow but marks as success")
fs.Var(&maxBodyFlag{&opts.maxBody}, "max-body", "Maximum number of bytes to capture from response bodies. [-1 = no limit]")
fs.Var(&rateFlag{&opts.rate}, "rate", "Number of requests per time unit [0 = infinity]")
fs.Var(&opts.headers, "header", "Request header")
fs.Var(&opts.proxyHeaders, "proxy-header", "Proxy CONNECT header")
fs.Var(&opts.laddr, "laddr", "Local IP address")
fs.BoolVar(&opts.keepalive, "keepalive", true, "Use persistent connections")
fs.StringVar(&opts.unixSocket, "unix-socket", "", "Connect over a unix socket. This overrides the host address in target URLs")
systemSpecificFlags(fs, opts)
return command{fs, func(args []string) error {
fs.Parse(args)
return attack(opts)
}}
}
var (
errZeroRate = errors.New("rate frequency and time unit must be bigger than zero")
errBadCert = errors.New("bad certificate")
)
// attackOpts aggregates the attack function command options
type attackOpts struct {
name string
targetsf string
format string
outputf string
bodyf string
certf string
keyf string
rootCerts csl
http2 bool
h2c bool
insecure bool
lazy bool
chunked bool
duration time.Duration
timeout time.Duration
rate vegeta.Rate
workers uint64
maxWorkers uint64
connections int
maxConnections int
redirects int
maxBody int64
headers headers
proxyHeaders headers
laddr localAddr
keepalive bool
resolvers csl
unixSocket string
}
// attack validates the attack arguments, sets up the
// required resources, launches the attack and writes the results
func attack(opts *attackOpts) (err error) {
if opts.maxWorkers == vegeta.DefaultMaxWorkers && opts.rate.Freq == 0 {
return fmt.Errorf("-rate=0 requires setting -max-workers")
}
if len(opts.resolvers) > 0 {
res, err := resolver.NewResolver(opts.resolvers)
if err != nil {
return err
}
net.DefaultResolver = res
}
files := map[string]io.Reader{}
for _, filename := range []string{opts.targetsf, opts.bodyf} {
if filename == "" {
continue
}
f, err := file(filename, false)
if err != nil {
return fmt.Errorf("error opening %s: %s", filename, err)
}
defer f.Close()
files[filename] = f
}
var body []byte
if bodyf, ok := files[opts.bodyf]; ok {
if body, err = ioutil.ReadAll(bodyf); err != nil {
return fmt.Errorf("error reading %s: %s", opts.bodyf, err)
}
}
var (
tr vegeta.Targeter
src = files[opts.targetsf]
hdr = opts.headers.Header
proxyHdr = opts.proxyHeaders.Header
)
switch opts.format {
case vegeta.JSONTargetFormat:
tr = vegeta.NewJSONTargeter(src, body, hdr)
case vegeta.HTTPTargetFormat:
tr = vegeta.NewHTTPTargeter(src, body, hdr)
default:
return fmt.Errorf("format %q isn't one of [%s]",
opts.format, strings.Join(vegeta.TargetFormats, ", "))
}
if !opts.lazy {
targets, err := vegeta.ReadAllTargets(tr)
if err != nil {
return err
}
tr = vegeta.NewStaticTargeter(targets...)
}
out, err := file(opts.outputf, true)
if err != nil {
return fmt.Errorf("error opening %s: %s", opts.outputf, err)
}
defer out.Close()
tlsc, err := tlsConfig(opts.insecure, opts.certf, opts.keyf, opts.rootCerts)
if err != nil {
return err
}
atk := vegeta.NewAttacker(
vegeta.Redirects(opts.redirects),
vegeta.Timeout(opts.timeout),
vegeta.LocalAddr(*opts.laddr.IPAddr),
vegeta.TLSConfig(tlsc),
vegeta.Workers(opts.workers),
vegeta.MaxWorkers(opts.maxWorkers),
vegeta.KeepAlive(opts.keepalive),
vegeta.Connections(opts.connections),
vegeta.MaxConnections(opts.maxConnections),
vegeta.HTTP2(opts.http2),
vegeta.H2C(opts.h2c),
vegeta.MaxBody(opts.maxBody),
vegeta.UnixSocket(opts.unixSocket),
vegeta.ProxyHeader(proxyHdr),
vegeta.ChunkedBody(opts.chunked),
)
res := atk.Attack(tr, opts.rate, opts.duration, opts.name)
enc := vegeta.NewEncoder(out)
sig := make(chan os.Signal, 1)
signal.Notify(sig, os.Interrupt)
for {
select {
case <-sig:
atk.Stop()
return nil
case r, ok := <-res:
if !ok {
return nil
}
if err = enc.Encode(r); err != nil {
return err
}
}
}
}
// tlsConfig builds a *tls.Config from the given options.
func tlsConfig(insecure bool, certf, keyf string, rootCerts []string) (*tls.Config, error) {
var err error
files := map[string][]byte{}
filenames := append([]string{certf, keyf}, rootCerts...)
for _, f := range filenames {
if f != "" {
if files[f], err = ioutil.ReadFile(f); err != nil {
return nil, err
}
}
}
c := tls.Config{InsecureSkipVerify: insecure}
if cert, ok := files[certf]; ok {
key, ok := files[keyf]
if !ok {
key = cert
}
certificate, err := tls.X509KeyPair(cert, key)
if err != nil {
return nil, err
}
c.Certificates = append(c.Certificates, certificate)
c.BuildNameToCertificate()
}
if len(rootCerts) > 0 {
c.RootCAs = x509.NewCertPool()
for _, f := range rootCerts {
if !c.RootCAs.AppendCertsFromPEM(files[f]) {
return nil, errBadCert
}
}
}
return &c, nil
}