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wireguard-go/ratelimiter/ratelimiter_test.go
David Crawshaw 9cd8909df2 ratelimiter: use a fake clock in tests and style cleanups
The existing test would occasionally flake out with:

	--- FAIL: TestRatelimiter (0.12s)
	    ratelimiter_test.go:99: Test failed for 127.0.0.1 , on: 7 ( not having refilled enough ) expected: false got: true
	FAIL
	FAIL    golang.zx2c4.com/wireguard/ratelimiter  0.171s

The fake clock also means the tests run much faster, so
testing this package with -count=1000 now takes < 100ms.

While here, several style cleanups. The most significant one
is unembeding the sync.Mutex fields in the rate limiter objects.
Embedded as they were, the lock methods were accessible
outside the ratelimiter package. As they aren't needed externally,
keep them internal to make them easier to reason about.

Passes `go test -race -count=10000 ./ratelimiter`

Signed-off-by: David Crawshaw <crawshaw@tailscale.com>
2020-03-30 18:38:36 +11:00

120 lines
2.4 KiB
Go

/* SPDX-License-Identifier: MIT
*
* Copyright (C) 2017-2019 WireGuard LLC. All Rights Reserved.
*/
package ratelimiter
import (
"net"
"testing"
"time"
)
type result struct {
allowed bool
text string
wait time.Duration
}
func TestRatelimiter(t *testing.T) {
var rate Ratelimiter
var expectedResults []result
nano := func(nano int64) time.Duration {
return time.Nanosecond * time.Duration(nano)
}
add := func(res result) {
expectedResults = append(
expectedResults,
res,
)
}
for i := 0; i < packetsBurstable; i++ {
add(result{
allowed: true,
text: "initial burst",
})
}
add(result{
allowed: false,
text: "after burst",
})
add(result{
allowed: true,
wait: nano(time.Second.Nanoseconds() / packetsPerSecond),
text: "filling tokens for single packet",
})
add(result{
allowed: false,
text: "not having refilled enough",
})
add(result{
allowed: true,
wait: 2 * (nano(time.Second.Nanoseconds() / packetsPerSecond)),
text: "filling tokens for two packet burst",
})
add(result{
allowed: true,
text: "second packet in 2 packet burst",
})
add(result{
allowed: false,
text: "packet following 2 packet burst",
})
ips := []net.IP{
net.ParseIP("127.0.0.1"),
net.ParseIP("192.168.1.1"),
net.ParseIP("172.167.2.3"),
net.ParseIP("97.231.252.215"),
net.ParseIP("248.97.91.167"),
net.ParseIP("188.208.233.47"),
net.ParseIP("104.2.183.179"),
net.ParseIP("72.129.46.120"),
net.ParseIP("2001:0db8:0a0b:12f0:0000:0000:0000:0001"),
net.ParseIP("f5c2:818f:c052:655a:9860:b136:6894:25f0"),
net.ParseIP("b2d7:15ab:48a7:b07c:a541:f144:a9fe:54fc"),
net.ParseIP("a47b:786e:1671:a22b:d6f9:4ab0:abc7:c918"),
net.ParseIP("ea1e:d155:7f7a:98fb:2bf5:9483:80f6:5445"),
net.ParseIP("3f0e:54a2:f5b4:cd19:a21d:58e1:3746:84c4"),
}
now := time.Now()
rate.timeNow = func() time.Time {
return now
}
defer func() {
// Lock to avoid data race with cleanup goroutine from Init.
rate.mu.Lock()
defer rate.mu.Unlock()
rate.timeNow = time.Now
}()
timeSleep := func(d time.Duration) {
now = now.Add(d + 1)
rate.cleanup()
}
rate.Init()
defer rate.Close()
for i, res := range expectedResults {
timeSleep(res.wait)
for _, ip := range ips {
allowed := rate.Allow(ip)
if allowed != res.allowed {
t.Fatalf("%d: %s: rate.Allow(%q)=%v, want %v", i, res.text, ip, allowed, res.allowed)
}
}
}
}