syncthing/lib/config/optionsconfiguration.go
Jakob Borg 9b660c1959
lib/config, lib/connections: Configurable protocol priority (ref #8626) (#8868)
This makes the various protocol priorities configurable among the other
options. With this, it's possible to prefer QUIC over TCP for WAN
connections, for example. Both sides need to be similarly configured for
this to work properly.

The default priority order remains the same as previously (TCP, QUIC,
Relay, with LAN better than WAN).

To make this happen I made each dialer & listener more priority aware,
and moved the check for whether a connection is LAN or not into the
dialer / listener -- this is the new "lanChecker" type that's passed
around.
2023-04-16 14:54:28 +02:00

212 lines
6.8 KiB
Go

// Copyright (C) 2014 The Syncthing Authors.
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this file,
// You can obtain one at https://mozilla.org/MPL/2.0/.
package config
import (
"fmt"
"runtime"
"github.com/syncthing/syncthing/lib/protocol"
"github.com/syncthing/syncthing/lib/rand"
"github.com/syncthing/syncthing/lib/util"
)
func (opts OptionsConfiguration) Copy() OptionsConfiguration {
optsCopy := opts
optsCopy.RawListenAddresses = make([]string, len(opts.RawListenAddresses))
copy(optsCopy.RawListenAddresses, opts.RawListenAddresses)
optsCopy.RawGlobalAnnServers = make([]string, len(opts.RawGlobalAnnServers))
copy(optsCopy.RawGlobalAnnServers, opts.RawGlobalAnnServers)
optsCopy.AlwaysLocalNets = make([]string, len(opts.AlwaysLocalNets))
copy(optsCopy.AlwaysLocalNets, opts.AlwaysLocalNets)
optsCopy.UnackedNotificationIDs = make([]string, len(opts.UnackedNotificationIDs))
copy(optsCopy.UnackedNotificationIDs, opts.UnackedNotificationIDs)
return optsCopy
}
func (opts *OptionsConfiguration) prepare(guiPWIsSet bool) {
util.FillNilSlices(opts)
opts.RawListenAddresses = util.UniqueTrimmedStrings(opts.RawListenAddresses)
opts.RawGlobalAnnServers = util.UniqueTrimmedStrings(opts.RawGlobalAnnServers)
// Very short reconnection intervals are annoying
if opts.ReconnectIntervalS < 5 {
opts.ReconnectIntervalS = 5
}
if guiPWIsSet && len(opts.UnackedNotificationIDs) > 0 {
for i, key := range opts.UnackedNotificationIDs {
if key == "authenticationUserAndPassword" {
opts.UnackedNotificationIDs = append(opts.UnackedNotificationIDs[:i], opts.UnackedNotificationIDs[i+1:]...)
break
}
}
}
// Negative limits are meaningless, zero means unlimited.
if opts.ConnectionLimitEnough < 0 {
opts.ConnectionLimitEnough = 0
}
if opts.ConnectionLimitMax < 0 {
opts.ConnectionLimitMax = 0
}
if opts.ConnectionPriorityQUICWAN <= opts.ConnectionPriorityQUICLAN {
l.Warnln("Connection priority number for QUIC over WAN must be worse (higher) than QUIC over LAN. Correcting.")
opts.ConnectionPriorityQUICWAN = opts.ConnectionPriorityQUICLAN + 1
}
if opts.ConnectionPriorityTCPWAN <= opts.ConnectionPriorityTCPLAN {
l.Warnln("Connection priority number for TCP over WAN must be worse (higher) than TCP over LAN. Correcting.")
opts.ConnectionPriorityTCPWAN = opts.ConnectionPriorityTCPLAN + 1
}
}
// RequiresRestartOnly returns a copy with only the attributes that require
// restart on change.
func (opts OptionsConfiguration) RequiresRestartOnly() OptionsConfiguration {
optsCopy := opts
blank := OptionsConfiguration{}
util.CopyMatchingTag(&blank, &optsCopy, "restart", func(v string) bool {
if len(v) > 0 && v != "true" {
panic(fmt.Sprintf(`unexpected tag value: %s. Expected untagged or "true"`, v))
}
return v != "true"
})
return optsCopy
}
func (opts OptionsConfiguration) IsStunDisabled() bool {
return opts.StunKeepaliveMinS < 1 || opts.StunKeepaliveStartS < 1 || !opts.NATEnabled
}
func (opts OptionsConfiguration) ListenAddresses() []string {
var addresses []string
for _, addr := range opts.RawListenAddresses {
switch addr {
case "default":
addresses = append(addresses, DefaultListenAddresses...)
default:
addresses = append(addresses, addr)
}
}
return util.UniqueTrimmedStrings(addresses)
}
func (opts OptionsConfiguration) StunServers() []string {
var addresses []string
for _, addr := range opts.RawStunServers {
switch addr {
case "default":
defaultPrimaryAddresses := make([]string, len(DefaultPrimaryStunServers))
copy(defaultPrimaryAddresses, DefaultPrimaryStunServers)
rand.Shuffle(defaultPrimaryAddresses)
addresses = append(addresses, defaultPrimaryAddresses...)
defaultSecondaryAddresses := make([]string, len(DefaultSecondaryStunServers))
copy(defaultSecondaryAddresses, DefaultSecondaryStunServers)
rand.Shuffle(defaultSecondaryAddresses)
addresses = append(addresses, defaultSecondaryAddresses...)
default:
addresses = append(addresses, addr)
}
}
addresses = util.UniqueTrimmedStrings(addresses)
return addresses
}
func (opts OptionsConfiguration) GlobalDiscoveryServers() []string {
var servers []string
for _, srv := range opts.RawGlobalAnnServers {
switch srv {
case "default":
servers = append(servers, DefaultDiscoveryServers...)
case "default-v4":
servers = append(servers, DefaultDiscoveryServersV4...)
case "default-v6":
servers = append(servers, DefaultDiscoveryServersV6...)
default:
servers = append(servers, srv)
}
}
return util.UniqueTrimmedStrings(servers)
}
func (opts OptionsConfiguration) MaxFolderConcurrency() int {
// If a value is set, trust that.
if opts.RawMaxFolderConcurrency > 0 {
return opts.RawMaxFolderConcurrency
}
if opts.RawMaxFolderConcurrency < 0 {
// -1 etc means unlimited, which in the implementation means zero
return 0
}
// Otherwise default to the number of CPU cores in the system as a rough
// approximation of system powerfullness.
if n := runtime.GOMAXPROCS(-1); n > 0 {
return n
}
// We should never get here to begin with, but since we're here let's
// use some sort of reasonable compromise between the old "no limit" and
// getting nothing done... (Median number of folders out there at time
// of writing is two, 95-percentile at 12 folders.)
return 4 // https://xkcd.com/221/
}
func (opts OptionsConfiguration) MaxConcurrentIncomingRequestKiB() int {
// Negative is disabled, which in limiter land is spelled zero
if opts.RawMaxCIRequestKiB < 0 {
return 0
}
if opts.RawMaxCIRequestKiB == 0 {
// The default is 256 MiB
return 256 * 1024 // KiB
}
// We can't really do less than a couple of concurrent blocks or we'll
// pretty much stall completely. Check that an explicit value is large
// enough.
const minAllowed = 2 * protocol.MaxBlockSize / 1024
if opts.RawMaxCIRequestKiB < minAllowed {
return minAllowed
}
// Roll with it.
return opts.RawMaxCIRequestKiB
}
func (opts OptionsConfiguration) AutoUpgradeEnabled() bool {
return opts.AutoUpgradeIntervalH > 0
}
func (opts OptionsConfiguration) FeatureFlag(name string) bool {
for _, flag := range opts.FeatureFlags {
if flag == name {
return true
}
}
return false
}
// LowestConnectionLimit is the lower of ConnectionLimitEnough or
// ConnectionLimitMax, or whichever of them is actually set if only one of
// them is set. It's the point where we should stop dialing.
func (opts OptionsConfiguration) LowestConnectionLimit() int {
limit := opts.ConnectionLimitEnough
if limit == 0 || (opts.ConnectionLimitMax != 0 && opts.ConnectionLimitMax < limit) {
// It doesn't really make sense to set Max lower than Enough but
// someone might do it while experimenting and it's easy for us to
// do the right thing.
limit = opts.ConnectionLimitMax
}
return limit
}