2020-01-15 15:41:59 +00:00
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package connlimit
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import (
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"errors"
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2020-11-13 23:18:36 +00:00
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"fmt"
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2020-01-15 15:41:59 +00:00
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"net"
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"net/http"
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"sync"
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"sync/atomic"
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2020-11-13 23:18:36 +00:00
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"time"
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2020-01-15 15:41:59 +00:00
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)
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var (
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// ErrPerClientIPLimitReached is returned if accepting a new conn would exceed
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// the per-client-ip limit set.
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ErrPerClientIPLimitReached = errors.New("client connection limit reached")
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2020-11-13 23:18:36 +00:00
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tooManyConnsMsg = "Your IP is issuing too many concurrent connections, please rate limit your calls\n"
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tooManyRequestsResponse = []byte(fmt.Sprintf("HTTP/1.1 429 Too Many Requests\r\n"+
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"Content-Type: text/plain\r\n"+
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"Content-Length: %d\r\n"+
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"Connection: close\r\n\r\n%s", len(tooManyConnsMsg), tooManyConnsMsg))
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2020-01-15 15:41:59 +00:00
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)
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// Limiter implements a simple limiter that tracks the number of connections
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// from each client IP. It may be used in it's zero value although no limits
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// will be configured initially - they can be set later with SetConfig.
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type Limiter struct {
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// cs stores the map of active connections by IP address. We store a set of
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// conn pointers not just a counter because http.Server.ConnState hook only
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// gives us a connection object between calls so we need to know if a closed
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// conn is one that was previously accepted or one we've just closed in the
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// ConnState hook because the client has hit its limit.
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cs map[string]map[net.Conn]struct{}
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// l protects access to cs
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l sync.Mutex
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// cfg is stored atomically to provide non-blocking reads via Config. This
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// might be important if this is called regularly in a health or metrics
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// endpoint and shouldn't block new connections being established.
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cfg atomic.Value
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}
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// Config is the configuration for the limiter.
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type Config struct {
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// MaxConnsPerClientIP limits how many concurrent connections are allowed from
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// a given client IP. The IP is the one reported by the connection so cannot
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// be relied upon if clients are connecting through multiple proxies or able
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// to spoof their source IP address in some way. Similarly, multiple clients
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// connected via a proxy or NAT gateway or similar will all be seen as coming
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// from the same IP and so limited as one client.
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MaxConnsPerClientIP int
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}
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// NewLimiter returns a limiter with the specified config.
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func NewLimiter(cfg Config) *Limiter {
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l := &Limiter{}
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l.SetConfig(cfg)
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return l
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}
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// Accept is called as early as possible when handling a new conn. If the
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// connection should be accepted according to the Limiter's Config, it will
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// return a free func and nil error. The free func must be called when the
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// connection is no longer being handled - typically in a defer statement in the
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// main connection handling goroutine, this will decrement the counter for that
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// client IP. If the configured limit has been reached, a no-op func is returned
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// (doesn't need to be called), and ErrPerClientIPLimitReached is returned.
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//
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// If any other error is returned it signifies something wrong with the config
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// or transient failure to read or parse the remote IP. The free func will be a
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// no-op in this case and need not be called.
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func (l *Limiter) Accept(conn net.Conn) (func(), error) {
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2020-05-30 14:29:47 +00:00
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addrKey := connKey(conn)
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2020-01-15 15:41:59 +00:00
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// Load config outside locked section since it's not updated under lock anyway
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// and the atomic Load might be slower/contented so better to do outside lock.
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cfg := l.Config()
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l.l.Lock()
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defer l.l.Unlock()
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if l.cs == nil {
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l.cs = make(map[string]map[net.Conn]struct{})
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}
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cs := l.cs[addrKey]
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if cs == nil {
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cs = make(map[net.Conn]struct{})
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l.cs[addrKey] = cs
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}
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n := len(cs)
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// Might be greater since config is dynamic.
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if cfg.MaxConnsPerClientIP > 0 && n >= cfg.MaxConnsPerClientIP {
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return func() {}, ErrPerClientIPLimitReached
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}
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// Add the conn to the map
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cs[conn] = struct{}{}
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// Create a free func over the address key we used
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free := func() {
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l.freeConn(conn)
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}
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return free, nil
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}
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2020-05-30 14:29:47 +00:00
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func (l *Limiter) NumOpen(addr net.Addr) int {
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addrKey := addrKey(addr)
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l.l.Lock()
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defer l.l.Unlock()
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if l.cs == nil {
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return 0
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}
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cs := l.cs[addrKey]
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if cs == nil {
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return 0
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}
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return len(cs)
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}
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func connKey(conn net.Conn) string {
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return addrKey(conn.RemoteAddr())
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}
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func addrKey(addr net.Addr) string {
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switch a := addr.(type) {
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case *net.TCPAddr:
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return "ip:" + a.IP.String()
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case *net.UDPAddr:
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return "ip:" + a.IP.String()
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case *net.IPAddr:
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return "ip:" + a.IP.String()
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default:
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// not sure what to do with this, just assume whole Addr is relevant?
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return addr.Network() + "/" + addr.String()
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}
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}
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// freeConn removes a connection from the map if it's present. It is a no-op if
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// the conn was never accepted by Accept.
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func (l *Limiter) freeConn(conn net.Conn) {
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addrKey := connKey(conn)
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2020-01-15 15:41:59 +00:00
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l.l.Lock()
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defer l.l.Unlock()
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cs, ok := l.cs[addrKey]
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if !ok {
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return
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}
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delete(cs, conn)
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if len(cs) == 0 {
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delete(l.cs, addrKey)
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}
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}
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// Config returns the current limiter configuration. It is safe to call from any
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// goroutine and does not block new connections being accepted.
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func (l *Limiter) Config() Config {
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cfgRaw := l.cfg.Load()
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if cfg, ok := cfgRaw.(Config); ok {
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return cfg
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}
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return Config{}
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}
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// SetConfig dynamically updates the limiter configuration. It is safe to call
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// from any goroutine. Note that if the limit is lowered, active conns will not
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// be closed and may remain over the limit until they close naturally.
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func (l *Limiter) SetConfig(c Config) {
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l.cfg.Store(c)
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}
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2020-11-13 23:18:36 +00:00
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// HTTPConnStateFuncWithErrorHandler returns a func that can be passed as the ConnState field of
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2020-01-15 15:41:59 +00:00
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// an http.Server. This intercepts new HTTP connections to the server and
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// applies the limiting to new connections.
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//
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// Note that if the conn is hijacked from the HTTP server then it will be freed
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// in the limiter as if it was closed. Servers that use Hijacking must implement
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// their own calls if they need to continue limiting the number of concurrent
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// hijacked connections.
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2020-11-13 23:18:36 +00:00
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// errorHandler MUST close the connection itself
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func (l *Limiter) HTTPConnStateFuncWithErrorHandler(errorHandler func(error, net.Conn)) func(net.Conn, http.ConnState) {
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2020-01-15 15:41:59 +00:00
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return func(conn net.Conn, state http.ConnState) {
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switch state {
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case http.StateNew:
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_, err := l.Accept(conn)
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if err != nil {
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2020-11-13 23:18:36 +00:00
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errorHandler(err, conn)
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}
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case http.StateHijacked:
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l.freeConn(conn)
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case http.StateClosed:
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// Maybe free the conn. This might be a conn we closed in the case above
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// that was never counted as it was over limit but freeConn will be a
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// no-op in that case.
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l.freeConn(conn)
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}
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}
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}
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2020-11-13 23:18:36 +00:00
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// HTTPConnStateFunc is here for ascending compatibility reasons.
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func (l *Limiter) HTTPConnStateFunc() func(net.Conn, http.ConnState) {
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return l.HTTPConnStateFuncWithErrorHandler(func(err error, conn net.Conn) {
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conn.Close()
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})
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}
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// HTTPConnStateFuncWithDefault429Handler return an HTTP 429 if too many connections occur.
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// BEWARE that returning HTTP 429 is done on critical path, you might choose to use
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// HTTPConnStateFuncWithErrorHandler if you want to use a non-blocking strategy.
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func (l *Limiter) HTTPConnStateFuncWithDefault429Handler(writeDeadlineMaxDelay time.Duration) func(net.Conn, http.ConnState) {
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return l.HTTPConnStateFuncWithErrorHandler(func(err error, conn net.Conn) {
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if err == ErrPerClientIPLimitReached {
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// We don't care about slow players
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if writeDeadlineMaxDelay > 0 {
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conn.SetDeadline(time.Now().Add(writeDeadlineMaxDelay))
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}
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conn.Write(tooManyRequestsResponse)
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}
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conn.Close()
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})
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}
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