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diag.go
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diag.go
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/*
Package diag provides a set of network throttling filters for diagnostic purpose.
The filters enable adding artificial latency, limiting bandwidth or chunking responses with custom chunk size
and delay. This throttling can be applied to the proxy responses or to the outgoing backend requests. An
additional filter, randomContent, can be used to generate response with random text of specified length.
*/
package diag
import (
"io"
"math/rand"
"net/http"
"time"
log "github.com/sirupsen/logrus"
"github.com/zalando/skipper/filters"
"github.com/zalando/skipper/filters/serve"
)
const defaultChunkSize = 512
const (
RandomName = "randomContent"
LatencyName = "latency"
ChunksName = "chunks"
BandwidthName = "bandwidth"
BackendLatencyName = "backendLatency"
BackendBandwidthName = "backendBandwidth"
BackendChunksName = "backendChunks"
)
type throttleType int
const (
latency throttleType = iota
bandwidth
chunks
backendLatency
backendBandwidth
backendChunks
)
type random struct {
len int
}
type throttle struct {
typ throttleType
chunkSize int
delay time.Duration
}
var randomChars = []byte("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789")
func kbps2bpms(kbps float64) float64 {
return kbps * 1024 / 1000
}
// NewRandom creates a filter specification whose filter instances can be used
// to respond to requests with random text of specified length. It expects the
// the byte length of the random response to be generated as an argument.
// Eskip example:
//
// * -> randomContent(2048) -> <shunt>;
//
func NewRandom() filters.Spec { return &random{} }
// NewLatency creates a filter specification whose filter instances can be used
// to add additional latency to responses. It expects the latency in milliseconds
// as an argument. It always adds this value in addition to the natural latency,
// and does not do any adjustments. Eskip example:
//
// * -> latency(120) -> "https://www.example.org";
//
func NewLatency() filters.Spec { return &throttle{typ: latency} }
// NewBandwidth creates a filter specification whose filter instances can be used
// to maximize the bandwidth of the responses. It expects the bandwidth in
// kbyte/sec as an argument.
//
// * -> bandwidth(30) -> "https://www.example.org";
//
func NewBandwidth() filters.Spec { return &throttle{typ: bandwidth} }
// NewChunks creates a filter specification whose filter instances can be used
// set artificial delays in between response chunks. It expects the byte length
// of the chunks and the delay milliseconds.
//
// * -> chunks(1024, "120ms") -> "https://www.example.org";
//
func NewChunks() filters.Spec { return &throttle{typ: chunks} }
// NewBackendLatency is the equivalent of NewLatency but for outgoing backend
// requests. Eskip example:
//
// * -> backendLatency(120) -> "https://www.example.org";
//
func NewBackendLatency() filters.Spec { return &throttle{typ: backendLatency} }
// NewBackendBandwidth is the equivalent of NewBandwidth but for outgoing backend
// requests. Eskip example:
//
// * -> backendBandwidth(30) -> "https://www.example.org";
//
func NewBackendBandwidth() filters.Spec { return &throttle{typ: backendBandwidth} }
// NewBackendChunks is the equivalent of NewChunks but for outgoing backend
// requests. Eskip example:
//
// * -> backendChunks(1024, 120) -> "https://www.example.org";
//
func NewBackendChunks() filters.Spec { return &throttle{typ: backendChunks} }
func (r *random) Name() string { return RandomName }
func (r *random) CreateFilter(args []interface{}) (filters.Filter, error) {
if len(args) != 1 {
return nil, filters.ErrInvalidFilterParameters
}
if l, ok := args[0].(float64); ok {
return &random{int(l)}, nil
} else {
return nil, filters.ErrInvalidFilterParameters
}
}
func (r *random) ServeHTTP(w http.ResponseWriter, _ *http.Request) {
for n := 0; n < r.len; {
l := defaultChunkSize
if n+l > r.len {
l = r.len - n
}
b := make([]byte, l)
for i := 0; i < l; i++ {
b[i] = randomChars[rand.Intn(len(randomChars))]
}
ni, err := w.Write(b)
if err != nil {
log.Error("error while writing random content", err)
return
}
n += ni
}
}
func (r *random) Request(ctx filters.FilterContext) {
serve.ServeHTTP(ctx, r)
}
func (r *random) Response(ctx filters.FilterContext) {}
func (t *throttle) Name() string {
switch t.typ {
case latency:
return LatencyName
case bandwidth:
return BandwidthName
case chunks:
return ChunksName
case backendLatency:
return BackendLatencyName
case backendBandwidth:
return BackendBandwidthName
case backendChunks:
return BackendChunksName
default:
panic("invalid throttle type")
}
}
func parseDuration(v interface{}) (time.Duration, error) {
var d time.Duration
switch vt := v.(type) {
case float64:
d = time.Duration(vt) * time.Millisecond
case string:
var err error
d, err = time.ParseDuration(vt)
if err != nil {
return 0, filters.ErrInvalidFilterParameters
}
}
if d < 0 {
return 0, filters.ErrInvalidFilterParameters
}
return d, nil
}
func parseLatencyArgs(args []interface{}) (int, time.Duration, error) {
if len(args) != 1 {
return 0, 0, filters.ErrInvalidFilterParameters
}
d, err := parseDuration(args[0])
return 0, d, err
}
func parseBandwidthArgs(args []interface{}) (int, time.Duration, error) {
if len(args) != 1 {
return 0, 0, filters.ErrInvalidFilterParameters
}
kbps, ok := args[0].(float64)
if !ok || kbps <= 0 {
return 0, 0, filters.ErrInvalidFilterParameters
}
bpms := kbps2bpms(kbps)
return defaultChunkSize, time.Duration(float64(defaultChunkSize)/bpms) * time.Millisecond, nil
}
func parseChunksArgs(args []interface{}) (int, time.Duration, error) {
if len(args) != 2 {
return 0, 0, filters.ErrInvalidFilterParameters
}
size, ok := args[0].(float64)
if !ok || size <= 0 {
return 0, 0, filters.ErrInvalidFilterParameters
}
d, err := parseDuration(args[1])
return int(size), d, err
}
func (t *throttle) CreateFilter(args []interface{}) (filters.Filter, error) {
var (
chunkSize int
delay time.Duration
err error
)
switch t.typ {
case latency, backendLatency:
chunkSize, delay, err = parseLatencyArgs(args)
case bandwidth, backendBandwidth:
chunkSize, delay, err = parseBandwidthArgs(args)
case chunks, backendChunks:
chunkSize, delay, err = parseChunksArgs(args)
default:
panic("invalid throttle type")
}
if err != nil {
return nil, err
}
return &throttle{t.typ, chunkSize, delay}, nil
}
func (t *throttle) goThrottle(in io.ReadCloser, close bool) io.ReadCloser {
if t.chunkSize <= 0 {
time.Sleep(t.delay)
return in
}
r, w := io.Pipe()
time.Sleep(t.delay)
go func() {
var err error
defer func() {
w.CloseWithError(err)
if close {
in.Close()
}
}()
b := make([]byte, defaultChunkSize)
for err == nil {
n := 0
var start time.Time
switch t.typ {
case bandwidth, backendBandwidth:
start = time.Now()
}
for n < t.chunkSize {
ni := 0
eof := false
bi := b
if t.chunkSize-n < len(bi) {
bi = bi[:t.chunkSize-n]
}
ni, err = in.Read(bi)
if err == io.EOF {
eof = true
err = nil
}
if err != nil {
break
}
ni, err = w.Write(bi[:ni])
if err != nil {
break
}
n += ni
if eof {
err = io.EOF
break
}
}
if err == nil {
delay := t.delay
switch t.typ {
case bandwidth, backendBandwidth:
delay -= time.Since(start)
}
time.Sleep(delay)
}
}
}()
return r
}
func (t *throttle) Request(ctx filters.FilterContext) {
switch t.typ {
case latency, bandwidth, chunks:
return
}
req := ctx.Request()
req.Body = t.goThrottle(req.Body, false)
}
func (t *throttle) Response(ctx filters.FilterContext) {
switch t.typ {
case backendLatency, backendBandwidth, backendChunks:
return
}
rsp := ctx.Response()
rsp.Body = t.goThrottle(rsp.Body, true)
}