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297 lines
12 KiB
Go
297 lines
12 KiB
Go
/*
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* Copyright (c) 2021 IBM Corp and others.
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*
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* All rights reserved. This program and the accompanying materials
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* are made available under the terms of the Eclipse Public License v2.0
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* and Eclipse Distribution License v1.0 which accompany this distribution.
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*
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* The Eclipse Public License is available at
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* https://www.eclipse.org/legal/epl-2.0/
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* and the Eclipse Distribution License is available at
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* http://www.eclipse.org/org/documents/edl-v10.php.
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*
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* Contributors:
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* Seth Hoenig
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* Allan Stockdill-Mander
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* Mike Robertson
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* Matt Brittan
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*/
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package mqtt
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import (
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"errors"
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"sync"
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)
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// Status - Manage the connection status
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// Multiple go routines will want to access/set this. Previously status was implemented as a `uint32` and updated
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// with a mixture of atomic functions and a mutex (leading to some deadlock type issues that were very hard to debug).
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// In this new implementation `connectionStatus` takes over managing the state and provides functions that allow the
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// client to request a move to a particular state (it may reject these requests!). In some cases the 'state' is
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// transitory, for example `connecting`, in those cases a function will be returned that allows the client to move
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// to a more static state (`disconnected` or `connected`).
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// This "belts-and-braces" may be a little over the top but issues with the status have caused a number of difficult
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// to trace bugs in the past and the likelihood that introducing a new system would introduce bugs seemed high!
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// I have written this in a way that should make it very difficult to misuse it (but it does make things a little
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// complex with functions returning functions that return functions!).
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type status uint32
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const (
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disconnected status = iota // default (nil) status is disconnected
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disconnecting // Transitioning from one of the below states back to disconnected
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connecting
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reconnecting
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connected
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)
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// String simplify output of statuses
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func (s status) String() string {
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switch s {
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case disconnected:
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return "disconnected"
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case disconnecting:
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return "disconnecting"
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case connecting:
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return "connecting"
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case reconnecting:
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return "reconnecting"
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case connected:
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return "connected"
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default:
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return "invalid"
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}
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}
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type connCompletedFn func(success bool) error
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type disconnectCompletedFn func()
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type connectionLostHandledFn func(bool) (connCompletedFn, error)
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/* State transitions
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static states are `disconnected` and `connected`. For all other states a process will hold a function that will move
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the state to one of those. That function effectively owns the state and any other changes must not proceed until it
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completes. One exception to that is that the state can always be moved to `disconnecting` which provides a signal that
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transitions to `connected` will be rejected (this is required because a Disconnect can be requested while in the
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Connecting state).
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# Basic Operations
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The standard workflows are:
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disconnected -> `Connecting()` -> connecting -> `connCompletedFn(true)` -> connected
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connected -> `Disconnecting()` -> disconnecting -> `disconnectCompletedFn()` -> disconnected
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connected -> `ConnectionLost(false)` -> disconnecting -> `connectionLostHandledFn(true/false)` -> disconnected
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connected -> `ConnectionLost(true)` -> disconnecting -> `connectionLostHandledFn(true)` -> connected
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Unfortunately the above workflows are complicated by the fact that `Disconnecting()` or `ConnectionLost()` may,
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potentially, be called at any time (i.e. whilst in the middle of transitioning between states). If this happens:
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* The state will be set to disconnecting (which will prevent any request to move the status to connected)
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* The call to `Disconnecting()`/`ConnectionLost()` will block until the previously active call completes and then
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handle the disconnection.
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Reading the tests (unit_status_test.go) might help understand these rules.
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*/
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var (
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errAbortConnection = errors.New("disconnect called whist connection attempt in progress")
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errAlreadyConnectedOrReconnecting = errors.New("status is already connected or reconnecting")
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errStatusMustBeDisconnected = errors.New("status can only transition to connecting from disconnected")
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errAlreadyDisconnected = errors.New("status is already disconnected")
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errDisconnectionRequested = errors.New("disconnection was requested whilst the action was in progress")
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errDisconnectionInProgress = errors.New("disconnection already in progress")
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errAlreadyHandlingConnectionLoss = errors.New("status is already Connection Lost")
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errConnLossWhileDisconnecting = errors.New("connection status is disconnecting so loss of connection is expected")
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)
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// connectionStatus encapsulates, and protects, the connection status.
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type connectionStatus struct {
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sync.RWMutex // Protects the variables below
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status status
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willReconnect bool // only used when status == disconnecting. Indicates that an attempt will be made to reconnect (allows us to abort that)
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// Some statuses are transitional (e.g. connecting, connectionLost, reconnecting, disconnecting), that is, whatever
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// process moves us into that status will move us out of it when an action is complete. Sometimes other users
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// will need to know when the action is complete (e.g. the user calls `Disconnect()` whilst the status is
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// `connecting`). `actionCompleted` will be set whenever we move into one of the above statues and the channel
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// returned to anything else requesting a status change. The channel will be closed when the operation is complete.
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actionCompleted chan struct{} // Only valid whilst status is Connecting or Reconnecting; will be closed when connection completed (success or failure)
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}
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// ConnectionStatus returns the connection status.
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// WARNING: the status may change at any time so users should not assume they are the only goroutine touching this
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func (c *connectionStatus) ConnectionStatus() status {
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c.RLock()
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defer c.RUnlock()
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return c.status
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}
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// ConnectionStatusRetry returns the connection status and retry flag (indicates that we expect to reconnect).
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// WARNING: the status may change at any time so users should not assume they are the only goroutine touching this
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func (c *connectionStatus) ConnectionStatusRetry() (status, bool) {
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c.RLock()
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defer c.RUnlock()
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return c.status, c.willReconnect
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}
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// Connecting - Changes the status to connecting if that is a permitted operation
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// Will do nothing unless the current status is disconnected
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// Returns a function that MUST be called when the operation is complete (pass in true if successful)
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func (c *connectionStatus) Connecting() (connCompletedFn, error) {
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c.Lock()
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defer c.Unlock()
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// Calling Connect when already connecting (or if reconnecting) may not always be considered an error
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if c.status == connected || c.status == reconnecting {
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return nil, errAlreadyConnectedOrReconnecting
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}
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if c.status != disconnected {
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return nil, errStatusMustBeDisconnected
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}
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c.status = connecting
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c.actionCompleted = make(chan struct{})
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return c.connected, nil
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}
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// connected is an internal function (it is returned by functions that set the status to connecting or reconnecting,
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// calling it completes the operation). `success` is used to indicate whether the operation was successfully completed.
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func (c *connectionStatus) connected(success bool) error {
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c.Lock()
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defer func() {
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close(c.actionCompleted) // Alert anything waiting on the connection process to complete
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c.actionCompleted = nil // Be tidy
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c.Unlock()
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}()
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// Status may have moved to disconnecting in the interim (i.e. at users request)
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if c.status == disconnecting {
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return errAbortConnection
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}
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if success {
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c.status = connected
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} else {
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c.status = disconnected
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}
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return nil
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}
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// Disconnecting - should be called when beginning the disconnection process (cleanup etc.).
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// Can be called from ANY status and the end result will always be a status of disconnected
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// Note that if a connection/reconnection attempt is in progress this function will set the status to `disconnecting`
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// then block until the connection process completes (or aborts).
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// Returns a function that MUST be called when the operation is complete (assumed to always be successful!)
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func (c *connectionStatus) Disconnecting() (disconnectCompletedFn, error) {
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c.Lock()
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if c.status == disconnected {
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c.Unlock()
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return nil, errAlreadyDisconnected // May not always be treated as an error
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}
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if c.status == disconnecting { // Need to wait for existing process to complete
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c.willReconnect = false // Ensure that the existing disconnect process will not reconnect
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disConnectDone := c.actionCompleted
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c.Unlock()
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<-disConnectDone // Wait for existing operation to complete
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return nil, errAlreadyDisconnected // Well we are now!
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}
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prevStatus := c.status
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c.status = disconnecting
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// We may need to wait for connection/reconnection process to complete (they should regularly check the status)
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if prevStatus == connecting || prevStatus == reconnecting {
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connectDone := c.actionCompleted
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c.Unlock() // Safe because the only way to leave the disconnecting status is via this function
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<-connectDone
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if prevStatus == reconnecting && !c.willReconnect {
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return nil, errAlreadyDisconnected // Following connectionLost process we will be disconnected
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}
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c.Lock()
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}
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c.actionCompleted = make(chan struct{})
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c.Unlock()
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return c.disconnectionCompleted, nil
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}
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// disconnectionCompleted is an internal function (it is returned by functions that set the status to disconnecting)
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func (c *connectionStatus) disconnectionCompleted() {
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c.Lock()
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defer c.Unlock()
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c.status = disconnected
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close(c.actionCompleted) // Alert anything waiting on the connection process to complete
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c.actionCompleted = nil
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}
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// ConnectionLost - should be called when the connection is lost.
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// This really only differs from Disconnecting in that we may transition into a reconnection (but that could be
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// cancelled something else calls Disconnecting in the meantime).
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// The returned function should be called when cleanup is completed. It will return a function to be called when
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// reconnect completes (or nil if no reconnect requested/disconnect called in the interim).
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// Note: This function may block if a connection is in progress (the move to connected will be rejected)
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func (c *connectionStatus) ConnectionLost(willReconnect bool) (connectionLostHandledFn, error) {
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c.Lock()
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defer c.Unlock()
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if c.status == disconnected {
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return nil, errAlreadyDisconnected
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}
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if c.status == disconnecting { // its expected that connection lost will be called during the disconnection process
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return nil, errDisconnectionInProgress
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}
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c.willReconnect = willReconnect
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prevStatus := c.status
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c.status = disconnecting
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// There is a slight possibility that a connection attempt is in progress (connection up and goroutines started but
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// status not yet changed). By changing the status we ensure that process will exit cleanly
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if prevStatus == connecting || prevStatus == reconnecting {
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connectDone := c.actionCompleted
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c.Unlock() // Safe because the only way to leave the disconnecting status is via this function
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<-connectDone
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c.Lock()
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if !willReconnect {
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// In this case the connection will always be aborted so there is nothing more for us to do
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return nil, errAlreadyDisconnected
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}
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}
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c.actionCompleted = make(chan struct{})
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return c.getConnectionLostHandler(willReconnect), nil
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}
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// getConnectionLostHandler is an internal function. It returns the function to be returned by ConnectionLost
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func (c *connectionStatus) getConnectionLostHandler(reconnectRequested bool) connectionLostHandledFn {
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return func(proceed bool) (connCompletedFn, error) {
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// Note that connCompletedFn will only be provided if both reconnectRequested and proceed are true
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c.Lock()
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defer c.Unlock()
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// `Disconnecting()` may have been called while the disconnection was being processed (this makes it permanent!)
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if !c.willReconnect || !proceed {
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c.status = disconnected
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close(c.actionCompleted) // Alert anything waiting on the connection process to complete
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c.actionCompleted = nil
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if !reconnectRequested || !proceed {
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return nil, nil
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}
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return nil, errDisconnectionRequested
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}
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c.status = reconnecting
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return c.connected, nil // Note that c.actionCompleted is still live and will be closed in connected
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}
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}
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// forceConnectionStatus - forces the connection status to the specified value.
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// This should only be used when there is no alternative (i.e. only in tests and to recover from situations that
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// are unexpected)
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func (c *connectionStatus) forceConnectionStatus(s status) {
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c.Lock()
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defer c.Unlock()
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c.status = s
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}
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