package proxy import ( "hash/fnv" "math" "math/rand" "net" "net/http" "sync" ) // HostPool is a collection of UpstreamHosts. type HostPool []*UpstreamHost // Policy decides how a host will be selected from a pool. type Policy interface { Select(pool HostPool, r *http.Request) *UpstreamHost } func init() { RegisterPolicy("random", func() Policy { return &Random{} }) RegisterPolicy("least_conn", func() Policy { return &LeastConn{} }) RegisterPolicy("round_robin", func() Policy { return &RoundRobin{} }) RegisterPolicy("ip_hash", func() Policy { return &IPHash{} }) RegisterPolicy("first", func() Policy { return &First{} }) } // Random is a policy that selects up hosts from a pool at random. type Random struct{} // Select selects an up host at random from the specified pool. func (r *Random) Select(pool HostPool, request *http.Request) *UpstreamHost { // Because the number of available hosts isn't known // up front, the host is selected via reservoir sampling // https://en.wikipedia.org/wiki/Reservoir_sampling var randHost *UpstreamHost count := 0 for _, host := range pool { if !host.Available() { continue } // (n % 1 == 0) holds for all n, therefore randHost // will always get assigned a value if there is // at least 1 available host count++ if (rand.Int() % count) == 0 { randHost = host } } return randHost } // LeastConn is a policy that selects the host with the least connections. type LeastConn struct{} // Select selects the up host with the least number of connections in the // pool. If more than one host has the same least number of connections, // one of the hosts is chosen at random. func (r *LeastConn) Select(pool HostPool, request *http.Request) *UpstreamHost { var bestHost *UpstreamHost count := 0 leastConn := int64(math.MaxInt64) for _, host := range pool { if !host.Available() { continue } if host.Conns < leastConn { leastConn = host.Conns count = 0 } // Among hosts with same least connections, perform a reservoir // sample: https://en.wikipedia.org/wiki/Reservoir_sampling if host.Conns == leastConn { count++ if (rand.Int() % count) == 0 { bestHost = host } } } return bestHost } // RoundRobin is a policy that selects hosts based on round robin ordering. type RoundRobin struct { robin uint32 mutex sync.Mutex } // Select selects an up host from the pool using a round robin ordering scheme. func (r *RoundRobin) Select(pool HostPool, request *http.Request) *UpstreamHost { poolLen := uint32(len(pool)) r.mutex.Lock() defer r.mutex.Unlock() // Return next available host for i := uint32(0); i < poolLen; i++ { r.robin++ host := pool[r.robin%poolLen] if host.Available() { return host } } return nil } // IPHash is a policy that selects hosts based on hashing the request ip type IPHash struct{} func hash(s string) uint32 { h := fnv.New32a() h.Write([]byte(s)) return h.Sum32() } // Select selects an up host from the pool using a round robin ordering scheme. func (r *IPHash) Select(pool HostPool, request *http.Request) *UpstreamHost { poolLen := uint32(len(pool)) clientIP, _, err := net.SplitHostPort(request.RemoteAddr) if err != nil { clientIP = request.RemoteAddr } index := hash(clientIP) % poolLen for i := uint32(0); i < poolLen; i++ { index += i host := pool[index%poolLen] if host.Available() { return host } } return nil } // First is a policy that selects the fist available host type First struct{} // Select selects the first host from the pool, that is available func (r *First) Select(pool HostPool, request *http.Request) *UpstreamHost { for _, host := range pool { if host.Available() { return host } } return nil }