sftpgo-mirror/common/ratelimiter.go

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package common
import (
"errors"
"fmt"
"net"
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"sort"
"sync"
"sync/atomic"
"time"
"golang.org/x/time/rate"
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"github.com/drakkan/sftpgo/v2/util"
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)
var (
errNoBucket = errors.New("no bucket found")
errReserve = errors.New("unable to reserve token")
rateLimiterProtocolValues = []string{ProtocolSSH, ProtocolFTP, ProtocolWebDAV, ProtocolHTTP}
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)
// RateLimiterType defines the supported rate limiters types
type RateLimiterType int
// Supported rate limiter types
const (
rateLimiterTypeGlobal RateLimiterType = iota + 1
rateLimiterTypeSource
)
// RateLimiterConfig defines the configuration for a rate limiter
type RateLimiterConfig struct {
// Average defines the maximum rate allowed. 0 means disabled
Average int64 `json:"average" mapstructure:"average"`
// Period defines the period as milliseconds. Default: 1000 (1 second).
// The rate is actually defined by dividing average by period.
// So for a rate below 1 req/s, one needs to define a period larger than a second.
Period int64 `json:"period" mapstructure:"period"`
// Burst is the maximum number of requests allowed to go through in the
// same arbitrarily small period of time. Default: 1.
Burst int `json:"burst" mapstructure:"burst"`
// Type defines the rate limiter type:
// - rateLimiterTypeGlobal is a global rate limiter independent from the source
// - rateLimiterTypeSource is a per-source rate limiter
Type int `json:"type" mapstructure:"type"`
// Protocols defines the protocols for this rate limiter.
// Available protocols are: "SFTP", "FTP", "DAV".
// A rate limiter with no protocols defined is disabled
Protocols []string `json:"protocols" mapstructure:"protocols"`
// AllowList defines a list of IP addresses and IP ranges excluded from rate limiting
AllowList []string `json:"allow_list" mapstructure:"mapstructure"`
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// If the rate limit is exceeded, the defender is enabled, and this is a per-source limiter,
// a new defender event will be generated
GenerateDefenderEvents bool `json:"generate_defender_events" mapstructure:"generate_defender_events"`
// The number of per-ip rate limiters kept in memory will vary between the
// soft and hard limit
EntriesSoftLimit int `json:"entries_soft_limit" mapstructure:"entries_soft_limit"`
EntriesHardLimit int `json:"entries_hard_limit" mapstructure:"entries_hard_limit"`
}
func (r *RateLimiterConfig) isEnabled() bool {
return r.Average > 0 && len(r.Protocols) > 0
}
func (r *RateLimiterConfig) validate() error {
if r.Burst < 1 {
return fmt.Errorf("invalid burst %v. It must be >= 1", r.Burst)
}
if r.Period < 100 {
return fmt.Errorf("invalid period %v. It must be >= 100", r.Period)
}
if r.Type != int(rateLimiterTypeGlobal) && r.Type != int(rateLimiterTypeSource) {
return fmt.Errorf("invalid type %v", r.Type)
}
if r.Type != int(rateLimiterTypeGlobal) {
if r.EntriesSoftLimit <= 0 {
return fmt.Errorf("invalid entries_soft_limit %v", r.EntriesSoftLimit)
}
if r.EntriesHardLimit <= r.EntriesSoftLimit {
return fmt.Errorf("invalid entries_hard_limit %v must be > %v", r.EntriesHardLimit, r.EntriesSoftLimit)
}
}
r.Protocols = util.RemoveDuplicates(r.Protocols, true)
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for _, protocol := range r.Protocols {
if !util.Contains(rateLimiterProtocolValues, protocol) {
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return fmt.Errorf("invalid protocol %#v", protocol)
}
}
return nil
}
func (r *RateLimiterConfig) getLimiter() *rateLimiter {
limiter := &rateLimiter{
burst: r.Burst,
globalBucket: nil,
generateDefenderEvents: r.GenerateDefenderEvents,
}
var maxDelay time.Duration
period := time.Duration(r.Period) * time.Millisecond
rtl := float64(r.Average*int64(time.Second)) / float64(period)
limiter.rate = rate.Limit(rtl)
if rtl < 1 {
maxDelay = period / 2
} else {
maxDelay = time.Second / (time.Duration(rtl) * 2)
}
if maxDelay > 10*time.Second {
maxDelay = 10 * time.Second
}
limiter.maxDelay = maxDelay
limiter.buckets = sourceBuckets{
buckets: make(map[string]sourceRateLimiter),
hardLimit: r.EntriesHardLimit,
softLimit: r.EntriesSoftLimit,
}
if r.Type != int(rateLimiterTypeSource) {
limiter.globalBucket = rate.NewLimiter(limiter.rate, limiter.burst)
}
return limiter
}
// RateLimiter defines a rate limiter
type rateLimiter struct {
rate rate.Limit
burst int
maxDelay time.Duration
globalBucket *rate.Limiter
buckets sourceBuckets
generateDefenderEvents bool
allowList []func(net.IP) bool
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}
// Wait blocks until the limit allows one event to happen
// or returns an error if the time to wait exceeds the max
// allowed delay
func (rl *rateLimiter) Wait(source string) (time.Duration, error) {
if len(rl.allowList) > 0 {
ip := net.ParseIP(source)
if ip != nil {
for idx := range rl.allowList {
if rl.allowList[idx](ip) {
return 0, nil
}
}
}
}
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var res *rate.Reservation
if rl.globalBucket != nil {
res = rl.globalBucket.Reserve()
} else {
var err error
res, err = rl.buckets.reserve(source)
if err != nil {
rateLimiter := rate.NewLimiter(rl.rate, rl.burst)
res = rl.buckets.addAndReserve(rateLimiter, source)
}
}
if !res.OK() {
return 0, errReserve
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}
delay := res.Delay()
if delay > rl.maxDelay {
res.Cancel()
if rl.generateDefenderEvents && rl.globalBucket == nil {
AddDefenderEvent(source, HostEventLimitExceeded)
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}
return delay, fmt.Errorf("rate limit exceed, wait time to respect rate %v, max wait time allowed %v", delay, rl.maxDelay)
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}
time.Sleep(delay)
return 0, nil
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}
type sourceRateLimiter struct {
lastActivity int64
bucket *rate.Limiter
}
func (s *sourceRateLimiter) updateLastActivity() {
atomic.StoreInt64(&s.lastActivity, time.Now().UnixNano())
}
func (s *sourceRateLimiter) getLastActivity() int64 {
return atomic.LoadInt64(&s.lastActivity)
}
type sourceBuckets struct {
sync.RWMutex
buckets map[string]sourceRateLimiter
hardLimit int
softLimit int
}
func (b *sourceBuckets) reserve(source string) (*rate.Reservation, error) {
b.RLock()
defer b.RUnlock()
if src, ok := b.buckets[source]; ok {
src.updateLastActivity()
return src.bucket.Reserve(), nil
}
return nil, errNoBucket
}
func (b *sourceBuckets) addAndReserve(r *rate.Limiter, source string) *rate.Reservation {
b.Lock()
defer b.Unlock()
b.cleanup()
src := sourceRateLimiter{
bucket: r,
}
src.updateLastActivity()
b.buckets[source] = src
return src.bucket.Reserve()
}
func (b *sourceBuckets) cleanup() {
if len(b.buckets) >= b.hardLimit {
numToRemove := len(b.buckets) - b.softLimit
kvList := make(kvList, 0, len(b.buckets))
for k, v := range b.buckets {
kvList = append(kvList, kv{
Key: k,
Value: v.getLastActivity(),
})
}
sort.Sort(kvList)
for idx, kv := range kvList {
if idx >= numToRemove {
break
}
delete(b.buckets, kv.Key)
}
}
}