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ergo/irc/connection_limits/throttler.go

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// Copyright (c) 2016-2017 Daniel Oaks <daniel@danieloaks.net>
// released under the MIT license
package connection_limits
import (
"fmt"
"net"
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"sync"
"time"
)
// ThrottlerConfig controls the automated connection throttling.
type ThrottlerConfig struct {
Enabled bool
CidrLenIPv4 int `yaml:"cidr-len-ipv4"`
CidrLenIPv6 int `yaml:"cidr-len-ipv6"`
ConnectionsPerCidr int `yaml:"max-connections"`
DurationString string `yaml:"duration"`
Duration time.Duration `yaml:"duration-time"`
BanDurationString string `yaml:"ban-duration"`
BanDuration time.Duration
BanMessage string `yaml:"ban-message"`
Exempted []string
}
// ThrottleDetails holds the connection-throttling details for a subnet/IP.
type ThrottleDetails struct {
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Start time.Time
Count int
}
// GenericThrottle allows enforcing limits of the form
// "at most X events per time window of duration Y"
type GenericThrottle struct {
ThrottleDetails // variable state: what events have been seen
// these are constant after creation:
Duration time.Duration // window length to consider
Limit int // number of events allowed per window
}
// Touch checks whether an additional event is allowed:
// it either denies it (by returning false) or allows it (by returning true)
// and records it
func (g *GenericThrottle) Touch() (throttled bool, remainingTime time.Duration) {
return g.touch(time.Now())
}
func (g *GenericThrottle) touch(now time.Time) (throttled bool, remainingTime time.Duration) {
if g.Limit == 0 {
return // limit of 0 disables throttling
}
elapsed := now.Sub(g.Start)
if elapsed > g.Duration {
// reset window, record the operation
g.Start = now
g.Count = 1
return false, 0
} else if g.Count >= g.Limit {
// we are throttled
return true, g.Start.Add(g.Duration).Sub(now)
} else {
// we are not throttled, record the operation
g.Count += 1
return false, 0
}
}
// Throttler manages automated client connection throttling.
type Throttler struct {
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sync.RWMutex
enabled bool
ipv4Mask net.IPMask
ipv6Mask net.IPMask
subnetLimit int
duration time.Duration
population map[string]ThrottleDetails
// used by the server to ban clients that go over this limit
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banDuration time.Duration
banMessage string
// exemptedIPs holds IPs that are exempt from limits
exemptedIPs map[string]bool
// exemptedNets holds networks that are exempt from limits
exemptedNets []net.IPNet
}
// maskAddr masks the given IPv4/6 address with our cidr limit masks.
func (ct *Throttler) maskAddr(addr net.IP) net.IP {
if addr.To4() == nil {
// IPv6 addr
addr = addr.Mask(ct.ipv6Mask)
} else {
// IPv4 addr
addr = addr.Mask(ct.ipv4Mask)
}
return addr
}
// ResetFor removes any existing count for the given address.
func (ct *Throttler) ResetFor(addr net.IP) {
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ct.Lock()
defer ct.Unlock()
if !ct.enabled {
return
}
// remove
ct.maskAddr(addr)
addrString := addr.String()
delete(ct.population, addrString)
}
// AddClient introduces a new client connection if possible. If we can't, throws an error instead.
func (ct *Throttler) AddClient(addr net.IP) error {
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ct.Lock()
defer ct.Unlock()
if !ct.enabled {
return nil
}
// check exempted lists
if ct.exemptedIPs[addr.String()] {
return nil
}
for _, ex := range ct.exemptedNets {
if ex.Contains(addr) {
return nil
}
}
// check throttle
ct.maskAddr(addr)
addrString := addr.String()
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details := ct.population[addrString] // retrieve mutable throttle state from the map
// add in constant state to process the limiting operation
g := GenericThrottle{
ThrottleDetails: details,
Duration: ct.duration,
Limit: ct.subnetLimit,
}
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throttled, _ := g.Touch() // actually check the limit
ct.population[addrString] = g.ThrottleDetails // store modified mutable state
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if throttled {
return errTooManyClients
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} else {
return nil
}
}
func (ct *Throttler) BanDuration() time.Duration {
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ct.RLock()
defer ct.RUnlock()
return ct.banDuration
}
func (ct *Throttler) BanMessage() string {
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ct.RLock()
defer ct.RUnlock()
return ct.banMessage
}
// NewThrottler returns a new client connection throttler.
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// The throttler is functional, but disabled; it can be enabled via `ApplyConfig`.
func NewThrottler() *Throttler {
var ct Throttler
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// initialize empty population; all other state is configurable
ct.population = make(map[string]ThrottleDetails)
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return &ct
}
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// ApplyConfig atomically applies a config update to a throttler
func (ct *Throttler) ApplyConfig(config ThrottlerConfig) error {
// assemble exempted nets
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exemptedIPs := make(map[string]bool)
var exemptedNets []net.IPNet
for _, cidr := range config.Exempted {
ipaddr := net.ParseIP(cidr)
_, netaddr, err := net.ParseCIDR(cidr)
if ipaddr == nil && err != nil {
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return fmt.Errorf("Could not parse exempted IP/network [%s]", cidr)
}
if ipaddr != nil {
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exemptedIPs[ipaddr.String()] = true
} else {
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exemptedNets = append(exemptedNets, *netaddr)
}
}
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ct.Lock()
defer ct.Unlock()
ct.enabled = config.Enabled
ct.ipv4Mask = net.CIDRMask(config.CidrLenIPv4, 32)
ct.ipv6Mask = net.CIDRMask(config.CidrLenIPv6, 128)
ct.subnetLimit = config.ConnectionsPerCidr
ct.duration = config.Duration
ct.banDuration = config.BanDuration
ct.banMessage = config.BanMessage
ct.exemptedIPs = exemptedIPs
ct.exemptedNets = exemptedNets
return nil
}