// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package web import ( "context" "net" "net/http" "sync" "time" "golang.org/x/time/rate" ) //IPRateLimiterConfig configures an IPRateLimiter. type IPRateLimiterConfig struct { Duration time.Duration `help:"the rate at which request are allowed" default:"5m"` Burst int `help:"number of events before the limit kicks in" default:"3"` NumLimits int `help:"number of IPs whose rate limits we store" default:"1000"` } //IPRateLimiter imposes a rate limit per HTTP user IP. type IPRateLimiter struct { config IPRateLimiterConfig mu sync.Mutex ipLimits map[string]*userLimit } //userLimit is the per-IP limiter. type userLimit struct { limiter *rate.Limiter lastSeen time.Time } //NewIPRateLimiter constructs an IPRateLimiter. func NewIPRateLimiter(config IPRateLimiterConfig) *IPRateLimiter { return &IPRateLimiter{ config: config, ipLimits: make(map[string]*userLimit), } } // Run occasionally cleans old rate-limiting data, until context cancel. func (rl *IPRateLimiter) Run(ctx context.Context) { cleanupTicker := time.NewTicker(rl.config.Duration) defer cleanupTicker.Stop() for { select { case <-ctx.Done(): return case <-cleanupTicker.C: rl.cleanupLimiters() } } } // cleanupLimiters removes old rate limits to free memory. func (rl *IPRateLimiter) cleanupLimiters() { rl.mu.Lock() defer rl.mu.Unlock() for ip, v := range rl.ipLimits { if time.Since(v.lastSeen) > rl.config.Duration { delete(rl.ipLimits, ip) } } } //Limit applies a per IP rate limiting as an HTTP Handler. func (rl *IPRateLimiter) Limit(next http.Handler) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { ip, _, err := net.SplitHostPort(r.RemoteAddr) if err != nil { http.Error(w, http.StatusText(http.StatusInternalServerError), http.StatusInternalServerError) return } ipLimit := rl.getUserLimit(ip) if !ipLimit.Allow() { http.Error(w, http.StatusText(http.StatusTooManyRequests), http.StatusTooManyRequests) return } next.ServeHTTP(w, r) }) } //getUserLimit returns a rate limiter for an IP. func (rl *IPRateLimiter) getUserLimit(ip string) *rate.Limiter { rl.mu.Lock() defer rl.mu.Unlock() v, exists := rl.ipLimits[ip] if !exists { if len(rl.ipLimits) >= rl.config.NumLimits { // Tracking only N limits prevents an out-of-memory DOS attack // Returning StatusTooManyRequests would be just as bad // The least-bad option may be to remove the oldest key oldestKey := "" var oldestTime *time.Time for ip, v := range rl.ipLimits { // while we're looping, we'd prefer to just delete expired records if time.Since(v.lastSeen) > rl.config.Duration { delete(rl.ipLimits, ip) } // but we're prepared to delete the oldest non-expired if oldestTime == nil || v.lastSeen.Before(*oldestTime) { oldestTime = &v.lastSeen oldestKey = ip } } //only delete the oldest non-expired if there's still an issue if oldestKey != "" && len(rl.ipLimits) >= rl.config.NumLimits { delete(rl.ipLimits, oldestKey) } } limiter := rate.NewLimiter(rate.Limit(time.Second)/rate.Limit(rl.config.Duration), rl.config.Burst) rl.ipLimits[ip] = &userLimit{limiter, time.Now()} return limiter } v.lastSeen = time.Now() return v.limiter } //Burst returns the number of events that happen before the rate limit. func (rl *IPRateLimiter) Burst() int { return rl.config.Burst } //Duration returns the amount of time required between events. func (rl *IPRateLimiter) Duration() time.Duration { return rl.config.Duration }