package core import ( "sync" "time" "v2ray.com/core/common" ) // TimeoutPolicy contains limits for connection timeout. type TimeoutPolicy struct { // Timeout for handshake phase in a connection. Handshake time.Duration // Timeout for connection being idle, i.e., there is no egress or ingress traffic in this connection. ConnectionIdle time.Duration // Timeout for an uplink only connection, i.e., the downlink of the connection has been closed. UplinkOnly time.Duration // Timeout for an downlink only connection, i.e., the uplink of the connection has been closed. DownlinkOnly time.Duration } // StatsPolicy contains settings for stats counters. type StatsPolicy struct { // Whether or not to enable stat counter for user uplink traffic. UserUplink bool // Whether or not to enable stat counter for user downlink traffic. UserDownlink bool } type SystemStatsPolicy struct { // Whether or not to enable stat counter for uplink traffic in inbound handlers. InboundUplink bool // Whether or not to enable stat counter for downlink traffic in inbound handlers. InboundDownlink bool } type SystemPolicy struct { Stats SystemStatsPolicy } // Policy is session based settings for controlling V2Ray requests. It contains various settings (or limits) that may differ for different users in the context. type Policy struct { Timeouts TimeoutPolicy // Timeout settings Stats StatsPolicy } // PolicyManager is a feature that provides Policy for the given user by its id or level. type PolicyManager interface { Feature // ForLevel returns the Policy for the given user level. ForLevel(level uint32) Policy // ForSystem returns the Policy for V2Ray system. ForSystem() SystemPolicy } // DefaultPolicy returns the Policy when user is not specified. func DefaultPolicy() Policy { return Policy{ Timeouts: TimeoutPolicy{ Handshake: time.Second * 4, ConnectionIdle: time.Second * 300, UplinkOnly: time.Second * 2, DownlinkOnly: time.Second * 5, }, Stats: StatsPolicy{ UserUplink: false, UserDownlink: false, }, } } type syncPolicyManager struct { sync.RWMutex PolicyManager } func (m *syncPolicyManager) ForLevel(level uint32) Policy { m.RLock() defer m.RUnlock() if m.PolicyManager == nil { p := DefaultPolicy() if level == 1 { p.Timeouts.ConnectionIdle = time.Second * 600 } return p } return m.PolicyManager.ForLevel(level) } func (m *syncPolicyManager) Start() error { m.RLock() defer m.RUnlock() if m.PolicyManager == nil { return nil } return m.PolicyManager.Start() } func (m *syncPolicyManager) Close() error { m.RLock() defer m.RUnlock() return common.Close(m.PolicyManager) } func (m *syncPolicyManager) Set(manager PolicyManager) { if manager == nil { return } m.Lock() defer m.Unlock() common.Close(m.PolicyManager) m.PolicyManager = manager }