mirror of
https://github.com/octoleo/syncthing.git
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399 lines
13 KiB
Go
399 lines
13 KiB
Go
// Copyright (C) 2017 The Syncthing Authors.
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//
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// This Source Code Form is subject to the terms of the Mozilla Public
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// License, v. 2.0. If a copy of the MPL was not distributed with this file,
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// You can obtain one at https://mozilla.org/MPL/2.0/.
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package connections
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import (
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"bytes"
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"context"
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crand "crypto/rand"
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"io"
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"math/rand"
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"sync/atomic"
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"testing"
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"github.com/syncthing/syncthing/lib/config"
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"github.com/syncthing/syncthing/lib/events"
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"github.com/syncthing/syncthing/lib/protocol"
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"golang.org/x/time/rate"
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)
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var device1, device2, device3, device4 protocol.DeviceID
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var dev1Conf, dev2Conf, dev3Conf, dev4Conf config.DeviceConfiguration
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func init() {
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device1, _ = protocol.DeviceIDFromString("AIR6LPZ7K4PTTUXQSMUUCPQ5YWOEDFIIQJUG7772YQXXR5YD6AWQ")
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device2, _ = protocol.DeviceIDFromString("GYRZZQB-IRNPV4Z-T7TC52W-EQYJ3TT-FDQW6MW-DFLMU42-SSSU6EM-FBK2VAY")
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device3, _ = protocol.DeviceIDFromString("LGFPDIT-7SKNNJL-VJZA4FC-7QNCRKA-CE753K7-2BW5QDK-2FOZ7FR-FEP57QJ")
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device4, _ = protocol.DeviceIDFromString("P56IOI7-MZJNU2Y-IQGDREY-DM2MGTI-MGL3BXN-PQ6W5BM-TBBZ4TJ-XZWICQ2")
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}
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func newDeviceConfiguration(w config.Wrapper, id protocol.DeviceID, name string) config.DeviceConfiguration {
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cfg := w.DefaultDevice()
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cfg.DeviceID = id
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cfg.Name = name
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return cfg
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}
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func initConfig() (config.Wrapper, context.CancelFunc) {
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wrapper := config.Wrap("/dev/null", config.New(device1), device1, events.NoopLogger)
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dev1Conf = newDeviceConfiguration(wrapper, device1, "device1")
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dev2Conf = newDeviceConfiguration(wrapper, device2, "device2")
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dev3Conf = newDeviceConfiguration(wrapper, device3, "device3")
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dev4Conf = newDeviceConfiguration(wrapper, device4, "device4")
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ctx, cancel := context.WithCancel(context.Background())
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go wrapper.Serve(ctx)
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dev2Conf.MaxRecvKbps = rand.Int() % 100000
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dev2Conf.MaxSendKbps = rand.Int() % 100000
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waiter, _ := wrapper.Modify(func(cfg *config.Configuration) {
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cfg.SetDevices([]config.DeviceConfiguration{dev1Conf, dev2Conf, dev3Conf, dev4Conf})
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})
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waiter.Wait()
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return wrapper, cancel
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}
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func TestLimiterInit(t *testing.T) {
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wrapper, wrapperCancel := initConfig()
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defer wrapperCancel()
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lim := newLimiter(device1, wrapper)
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device2ReadLimit := dev2Conf.MaxRecvKbps
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device2WriteLimit := dev2Conf.MaxSendKbps
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expectedR := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(device2ReadLimit*1024), limiterBurstSize),
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device3: rate.NewLimiter(rate.Inf, limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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}
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expectedW := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(device2WriteLimit*1024), limiterBurstSize),
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device3: rate.NewLimiter(rate.Inf, limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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}
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actualR := lim.deviceReadLimiters
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actualW := lim.deviceWriteLimiters
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checkActualAndExpected(t, actualR, actualW, expectedR, expectedW)
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}
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func TestSetDeviceLimits(t *testing.T) {
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wrapper, wrapperCancel := initConfig()
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defer wrapperCancel()
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lim := newLimiter(device1, wrapper)
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// should still be inf/inf because this is local device
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dev1ReadLimit := rand.Int() % 100000
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dev1WriteLimit := rand.Int() % 100000
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dev1Conf.MaxRecvKbps = dev1ReadLimit
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dev1Conf.MaxSendKbps = dev1WriteLimit
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dev2ReadLimit := rand.Int() % 100000
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dev2WriteLimit := rand.Int() % 100000
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dev2Conf.MaxRecvKbps = dev2ReadLimit
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dev2Conf.MaxSendKbps = dev2WriteLimit
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dev3ReadLimit := rand.Int() % 10000
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dev3Conf.MaxRecvKbps = dev3ReadLimit
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waiter, _ := wrapper.Modify(func(cfg *config.Configuration) {
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cfg.SetDevices([]config.DeviceConfiguration{dev1Conf, dev2Conf, dev3Conf, dev4Conf})
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})
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waiter.Wait()
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expectedR := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(dev2ReadLimit*1024), limiterBurstSize),
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device3: rate.NewLimiter(rate.Limit(dev3ReadLimit*1024), limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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}
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expectedW := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(dev2WriteLimit*1024), limiterBurstSize),
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device3: rate.NewLimiter(rate.Inf, limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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}
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actualR := lim.deviceReadLimiters
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actualW := lim.deviceWriteLimiters
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checkActualAndExpected(t, actualR, actualW, expectedR, expectedW)
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}
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func TestRemoveDevice(t *testing.T) {
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wrapper, wrapperCancel := initConfig()
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defer wrapperCancel()
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lim := newLimiter(device1, wrapper)
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waiter, _ := wrapper.RemoveDevice(device3)
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waiter.Wait()
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expectedR := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(dev2Conf.MaxRecvKbps*1024), limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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}
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expectedW := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(dev2Conf.MaxSendKbps*1024), limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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}
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actualR := lim.deviceReadLimiters
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actualW := lim.deviceWriteLimiters
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checkActualAndExpected(t, actualR, actualW, expectedR, expectedW)
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}
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func TestAddDevice(t *testing.T) {
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wrapper, wrapperCancel := initConfig()
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defer wrapperCancel()
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lim := newLimiter(device1, wrapper)
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addedDevice, _ := protocol.DeviceIDFromString("XZJ4UNS-ENI7QGJ-J45DT6G-QSGML2K-6I4XVOG-NAZ7BF5-2VAOWNT-TFDOMQU")
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addDevConf := newDeviceConfiguration(wrapper, addedDevice, "addedDevice")
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addDevConf.MaxRecvKbps = 120
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addDevConf.MaxSendKbps = 240
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waiter, _ := wrapper.Modify(func(cfg *config.Configuration) {
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cfg.SetDevice(addDevConf)
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})
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waiter.Wait()
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expectedR := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(dev2Conf.MaxRecvKbps*1024), limiterBurstSize),
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device3: rate.NewLimiter(rate.Inf, limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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addedDevice: rate.NewLimiter(rate.Limit(addDevConf.MaxRecvKbps*1024), limiterBurstSize),
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}
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expectedW := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(dev2Conf.MaxSendKbps*1024), limiterBurstSize),
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device3: rate.NewLimiter(rate.Inf, limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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addedDevice: rate.NewLimiter(rate.Limit(addDevConf.MaxSendKbps*1024), limiterBurstSize),
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}
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actualR := lim.deviceReadLimiters
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actualW := lim.deviceWriteLimiters
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checkActualAndExpected(t, actualR, actualW, expectedR, expectedW)
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}
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func TestAddAndRemove(t *testing.T) {
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wrapper, wrapperCancel := initConfig()
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defer wrapperCancel()
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lim := newLimiter(device1, wrapper)
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addedDevice, _ := protocol.DeviceIDFromString("XZJ4UNS-ENI7QGJ-J45DT6G-QSGML2K-6I4XVOG-NAZ7BF5-2VAOWNT-TFDOMQU")
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addDevConf := newDeviceConfiguration(wrapper, addedDevice, "addedDevice")
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addDevConf.MaxRecvKbps = 120
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addDevConf.MaxSendKbps = 240
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waiter, _ := wrapper.Modify(func(cfg *config.Configuration) {
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cfg.SetDevice(addDevConf)
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})
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waiter.Wait()
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waiter, _ = wrapper.RemoveDevice(device3)
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waiter.Wait()
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expectedR := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(dev2Conf.MaxRecvKbps*1024), limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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addedDevice: rate.NewLimiter(rate.Limit(addDevConf.MaxRecvKbps*1024), limiterBurstSize),
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}
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expectedW := map[protocol.DeviceID]*rate.Limiter{
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device2: rate.NewLimiter(rate.Limit(dev2Conf.MaxSendKbps*1024), limiterBurstSize),
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device4: rate.NewLimiter(rate.Inf, limiterBurstSize),
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addedDevice: rate.NewLimiter(rate.Limit(addDevConf.MaxSendKbps*1024), limiterBurstSize),
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}
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actualR := lim.deviceReadLimiters
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actualW := lim.deviceWriteLimiters
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checkActualAndExpected(t, actualR, actualW, expectedR, expectedW)
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}
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func TestLimitedWriterWrite(t *testing.T) {
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// Check that the limited writer writes the correct data in the correct manner.
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// A buffer with random data that is larger than the write size and not
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// a precise multiple either.
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src := make([]byte, int(12.5*8192))
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if _, err := crand.Reader.Read(src); err != nil {
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t.Fatal(err)
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}
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// Write it to the destination using a limited writer, with a wrapper to
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// count the write calls. The defaults on the limited writer should mean
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// it is used (and doesn't take the fast path). In practice the limiter
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// won't delay the test as the burst size is large enough to accommodate
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// regardless of the rate.
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dst := new(bytes.Buffer)
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cw := &countingWriter{w: dst}
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lw := &limitedWriter{
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writer: cw,
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waiterHolder: waiterHolder{
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waiter: rate.NewLimiter(rate.Limit(42), limiterBurstSize),
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limitsLAN: new(atomic.Bool),
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isLAN: false, // enables limiting
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},
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}
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if _, err := io.Copy(lw, bytes.NewReader(src)); err != nil {
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t.Fatal(err)
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}
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// Verify there were lots of writes (we expect one kilobyte write size
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// for the very low rate in this test) and that the end result is
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// identical.
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if cw.writeCount < 10*8 {
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t.Error("expected lots of smaller writes")
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}
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if cw.writeCount > 15*8 {
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t.Error("expected fewer larger writes")
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}
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if !bytes.Equal(src, dst.Bytes()) {
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t.Error("results should be equal")
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}
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// Write it to the destination using a limited writer, with a wrapper to
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// count the write calls. Now we make sure the fast path is used.
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dst = new(bytes.Buffer)
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cw = &countingWriter{w: dst}
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lw = &limitedWriter{
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writer: cw,
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waiterHolder: waiterHolder{
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waiter: rate.NewLimiter(rate.Limit(42), limiterBurstSize),
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limitsLAN: new(atomic.Bool),
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isLAN: true, // disables limiting
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},
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}
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if _, err := io.Copy(lw, bytes.NewReader(src)); err != nil {
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t.Fatal(err)
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}
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// Verify there were a single write and that the end result is identical.
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if cw.writeCount != 1 {
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t.Error("expected just the one write")
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}
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if !bytes.Equal(src, dst.Bytes()) {
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t.Error("results should be equal")
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}
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// Once more, but making sure the fast path is used for an unlimited
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// rate, with multiple unlimited raters even (global and per-device).
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dst = new(bytes.Buffer)
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cw = &countingWriter{w: dst}
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lw = &limitedWriter{
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writer: cw,
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waiterHolder: waiterHolder{
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waiter: totalWaiter{rate.NewLimiter(rate.Inf, limiterBurstSize), rate.NewLimiter(rate.Inf, limiterBurstSize)},
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limitsLAN: new(atomic.Bool),
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isLAN: false, // enables limiting
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},
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}
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if _, err := io.Copy(lw, bytes.NewReader(src)); err != nil {
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t.Fatal(err)
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}
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// Verify there were a single write and that the end result is identical.
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if cw.writeCount != 1 {
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t.Error("expected just the one write")
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}
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if !bytes.Equal(src, dst.Bytes()) {
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t.Error("results should be equal")
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}
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// Once more, but making sure we *don't* take the fast path when there
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// is a combo of limited and unlimited writers.
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dst = new(bytes.Buffer)
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cw = &countingWriter{w: dst}
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lw = &limitedWriter{
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writer: cw,
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waiterHolder: waiterHolder{
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waiter: totalWaiter{
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rate.NewLimiter(rate.Inf, limiterBurstSize),
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rate.NewLimiter(rate.Limit(42), limiterBurstSize),
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rate.NewLimiter(rate.Inf, limiterBurstSize),
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},
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limitsLAN: new(atomic.Bool),
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isLAN: false, // enables limiting
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},
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}
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if _, err := io.Copy(lw, bytes.NewReader(src)); err != nil {
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t.Fatal(err)
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}
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// Verify there were lots of writes and that the end result is identical.
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if cw.writeCount < 10*8 {
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t.Error("expected lots of smaller writes")
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}
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if cw.writeCount > 15*8 {
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t.Error("expected fewer larger writes")
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}
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if !bytes.Equal(src, dst.Bytes()) {
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t.Error("results should be equal")
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}
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}
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func TestTotalWaiterLimit(t *testing.T) {
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cases := []struct {
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w waiter
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r rate.Limit
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}{
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{
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totalWaiter{},
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rate.Inf,
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},
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{
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totalWaiter{rate.NewLimiter(rate.Inf, 42)},
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rate.Inf,
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},
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{
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totalWaiter{rate.NewLimiter(rate.Inf, 42), rate.NewLimiter(rate.Inf, 42)},
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rate.Inf,
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},
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{
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totalWaiter{rate.NewLimiter(rate.Inf, 42), rate.NewLimiter(rate.Limit(12), 42), rate.NewLimiter(rate.Limit(15), 42)},
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rate.Limit(12),
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},
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}
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for _, tc := range cases {
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l := tc.w.Limit()
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if l != tc.r {
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t.Error("incorrect limit returned")
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}
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}
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}
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func checkActualAndExpected(t *testing.T, actualR, actualW, expectedR, expectedW map[protocol.DeviceID]*rate.Limiter) {
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t.Helper()
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if len(expectedW) != len(actualW) || len(expectedR) != len(actualR) {
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t.Errorf("Map lengths differ!")
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}
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for key, val := range expectedR {
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if _, ok := actualR[key]; !ok {
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t.Errorf("Device %s not found in limiter", key)
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}
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if val.Limit() != actualR[key].Limit() {
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t.Errorf("Read limits for device %s differ actual: %f, expected: %f", key, actualR[key].Limit(), val.Limit())
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}
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if expectedW[key].Limit() != actualW[key].Limit() {
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t.Errorf("Write limits for device %s differ actual: %f, expected: %f", key, actualW[key].Limit(), expectedW[key].Limit())
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}
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}
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}
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type countingWriter struct {
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w io.Writer
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writeCount int
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}
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func (w *countingWriter) Write(data []byte) (int, error) {
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w.writeCount++
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return w.w.Write(data)
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}
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