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package reverseproxy
import (
"context"
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"encoding/json"
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"fmt"
weakrand "math/rand"
"net"
"net/http"
"strconv"
"sync"
"time"
"go.uber.org/zap"
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"github.com/caddyserver/caddy/v2"
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)
func init ( ) {
caddy . RegisterModule ( SRVUpstreams { } )
caddy . RegisterModule ( AUpstreams { } )
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caddy . RegisterModule ( MultiUpstreams { } )
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}
// SRVUpstreams provides upstreams from SRV lookups.
// The lookup DNS name can be configured either by
// its individual parts (that is, specifying the
// service, protocol, and name separately) to form
// the standard "_service._proto.name" domain, or
// the domain can be specified directly in name by
// leaving service and proto empty. See RFC 2782.
//
// Lookups are cached and refreshed at the configured
// refresh interval.
//
// Returned upstreams are sorted by priority and weight.
type SRVUpstreams struct {
// The service label.
Service string ` json:"service,omitempty" `
// The protocol label; either tcp or udp.
Proto string ` json:"proto,omitempty" `
// The name label; or, if service and proto are
// empty, the entire domain name to look up.
Name string ` json:"name,omitempty" `
// The interval at which to refresh the SRV lookup.
// Results are cached between lookups. Default: 1m
Refresh caddy . Duration ` json:"refresh,omitempty" `
// Configures the DNS resolver used to resolve the
// SRV address to SRV records.
Resolver * UpstreamResolver ` json:"resolver,omitempty" `
// If Resolver is configured, how long to wait before
// timing out trying to connect to the DNS server.
DialTimeout caddy . Duration ` json:"dial_timeout,omitempty" `
// If Resolver is configured, how long to wait before
// spawning an RFC 6555 Fast Fallback connection.
// A negative value disables this.
FallbackDelay caddy . Duration ` json:"dial_fallback_delay,omitempty" `
resolver * net . Resolver
logger * zap . Logger
}
// CaddyModule returns the Caddy module information.
func ( SRVUpstreams ) CaddyModule ( ) caddy . ModuleInfo {
return caddy . ModuleInfo {
ID : "http.reverse_proxy.upstreams.srv" ,
New : func ( ) caddy . Module { return new ( SRVUpstreams ) } ,
}
}
func ( su * SRVUpstreams ) Provision ( ctx caddy . Context ) error {
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su . logger = ctx . Logger ( )
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if su . Refresh == 0 {
su . Refresh = caddy . Duration ( time . Minute )
}
if su . Resolver != nil {
err := su . Resolver . ParseAddresses ( )
if err != nil {
return err
}
d := & net . Dialer {
Timeout : time . Duration ( su . DialTimeout ) ,
FallbackDelay : time . Duration ( su . FallbackDelay ) ,
}
su . resolver = & net . Resolver {
PreferGo : true ,
Dial : func ( ctx context . Context , _ , _ string ) ( net . Conn , error ) {
//nolint:gosec
addr := su . Resolver . netAddrs [ weakrand . Intn ( len ( su . Resolver . netAddrs ) ) ]
return d . DialContext ( ctx , addr . Network , addr . JoinHostPort ( 0 ) )
} ,
}
}
if su . resolver == nil {
su . resolver = net . DefaultResolver
}
return nil
}
func ( su SRVUpstreams ) GetUpstreams ( r * http . Request ) ( [ ] * Upstream , error ) {
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suAddr , service , proto , name := su . expandedAddr ( r )
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// first, use a cheap read-lock to return a cached result quickly
srvsMu . RLock ( )
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cached := srvs [ suAddr ]
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srvsMu . RUnlock ( )
if cached . isFresh ( ) {
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return allNew ( cached . upstreams ) , nil
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}
// otherwise, obtain a write-lock to update the cached value
srvsMu . Lock ( )
defer srvsMu . Unlock ( )
// check to see if it's still stale, since we're now in a different
// lock from when we first checked freshness; another goroutine might
// have refreshed it in the meantime before we re-obtained our lock
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cached = srvs [ suAddr ]
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if cached . isFresh ( ) {
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return allNew ( cached . upstreams ) , nil
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}
su . logger . Debug ( "refreshing SRV upstreams" ,
zap . String ( "service" , service ) ,
zap . String ( "proto" , proto ) ,
zap . String ( "name" , name ) )
_ , records , err := su . resolver . LookupSRV ( r . Context ( ) , service , proto , name )
if err != nil {
// From LookupSRV docs: "If the response contains invalid names, those records are filtered
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// out and an error will be returned alongside the remaining results, if any." Thus, we
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// only return an error if no records were also returned.
if len ( records ) == 0 {
return nil , err
}
su . logger . Warn ( "SRV records filtered" , zap . Error ( err ) )
}
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upstreams := make ( [ ] Upstream , len ( records ) )
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for i , rec := range records {
su . logger . Debug ( "discovered SRV record" ,
zap . String ( "target" , rec . Target ) ,
zap . Uint16 ( "port" , rec . Port ) ,
zap . Uint16 ( "priority" , rec . Priority ) ,
zap . Uint16 ( "weight" , rec . Weight ) )
addr := net . JoinHostPort ( rec . Target , strconv . Itoa ( int ( rec . Port ) ) )
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upstreams [ i ] = Upstream { Dial : addr }
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}
// before adding a new one to the cache (as opposed to replacing stale one), make room if cache is full
if cached . freshness . IsZero ( ) && len ( srvs ) >= 100 {
for randomKey := range srvs {
delete ( srvs , randomKey )
break
}
}
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srvs [ suAddr ] = srvLookup {
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srvUpstreams : su ,
freshness : time . Now ( ) ,
upstreams : upstreams ,
}
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return allNew ( upstreams ) , nil
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}
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func ( su SRVUpstreams ) String ( ) string {
if su . Service == "" && su . Proto == "" {
return su . Name
}
return su . formattedAddr ( su . Service , su . Proto , su . Name )
}
// expandedAddr expands placeholders in the configured SRV domain labels.
// The return values are: addr, the RFC 2782 representation of the SRV domain;
// service, the service; proto, the protocol; and name, the name.
// If su.Service and su.Proto are empty, name will be returned as addr instead.
func ( su SRVUpstreams ) expandedAddr ( r * http . Request ) ( addr , service , proto , name string ) {
repl := r . Context ( ) . Value ( caddy . ReplacerCtxKey ) . ( * caddy . Replacer )
name = repl . ReplaceAll ( su . Name , "" )
if su . Service == "" && su . Proto == "" {
addr = name
return
}
service = repl . ReplaceAll ( su . Service , "" )
proto = repl . ReplaceAll ( su . Proto , "" )
addr = su . formattedAddr ( service , proto , name )
return
}
// formattedAddr the RFC 2782 representation of the SRV domain, in
// the form "_service._proto.name".
func ( SRVUpstreams ) formattedAddr ( service , proto , name string ) string {
return fmt . Sprintf ( "_%s._%s.%s" , service , proto , name )
}
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type srvLookup struct {
srvUpstreams SRVUpstreams
freshness time . Time
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upstreams [ ] Upstream
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}
func ( sl srvLookup ) isFresh ( ) bool {
return time . Since ( sl . freshness ) < time . Duration ( sl . srvUpstreams . Refresh )
}
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type IPVersions struct {
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IPv4 * bool ` json:"ipv4,omitempty" `
IPv6 * bool ` json:"ipv6,omitempty" `
}
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// AUpstreams provides upstreams from A/AAAA lookups.
// Results are cached and refreshed at the configured
// refresh interval.
type AUpstreams struct {
// The domain name to look up.
Name string ` json:"name,omitempty" `
// The port to use with the upstreams. Default: 80
Port string ` json:"port,omitempty" `
// The interval at which to refresh the A lookup.
// Results are cached between lookups. Default: 1m
Refresh caddy . Duration ` json:"refresh,omitempty" `
// Configures the DNS resolver used to resolve the
// domain name to A records.
Resolver * UpstreamResolver ` json:"resolver,omitempty" `
// If Resolver is configured, how long to wait before
// timing out trying to connect to the DNS server.
DialTimeout caddy . Duration ` json:"dial_timeout,omitempty" `
// If Resolver is configured, how long to wait before
// spawning an RFC 6555 Fast Fallback connection.
// A negative value disables this.
FallbackDelay caddy . Duration ` json:"dial_fallback_delay,omitempty" `
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// The IP versions to resolve for. By default, both
// "ipv4" and "ipv6" will be enabled, which
// correspond to A and AAAA records respectively.
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Versions * IPVersions ` json:"versions,omitempty" `
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resolver * net . Resolver
}
// CaddyModule returns the Caddy module information.
func ( AUpstreams ) CaddyModule ( ) caddy . ModuleInfo {
return caddy . ModuleInfo {
ID : "http.reverse_proxy.upstreams.a" ,
New : func ( ) caddy . Module { return new ( AUpstreams ) } ,
}
}
func ( au * AUpstreams ) Provision ( _ caddy . Context ) error {
if au . Refresh == 0 {
au . Refresh = caddy . Duration ( time . Minute )
}
if au . Port == "" {
au . Port = "80"
}
if au . Resolver != nil {
err := au . Resolver . ParseAddresses ( )
if err != nil {
return err
}
d := & net . Dialer {
Timeout : time . Duration ( au . DialTimeout ) ,
FallbackDelay : time . Duration ( au . FallbackDelay ) ,
}
au . resolver = & net . Resolver {
PreferGo : true ,
Dial : func ( ctx context . Context , _ , _ string ) ( net . Conn , error ) {
//nolint:gosec
addr := au . Resolver . netAddrs [ weakrand . Intn ( len ( au . Resolver . netAddrs ) ) ]
return d . DialContext ( ctx , addr . Network , addr . JoinHostPort ( 0 ) )
} ,
}
}
if au . resolver == nil {
au . resolver = net . DefaultResolver
}
return nil
}
func ( au AUpstreams ) GetUpstreams ( r * http . Request ) ( [ ] * Upstream , error ) {
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repl := r . Context ( ) . Value ( caddy . ReplacerCtxKey ) . ( * caddy . Replacer )
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resolveIpv4 := au . Versions . IPv4 == nil || * au . Versions . IPv4
resolveIpv6 := au . Versions . IPv6 == nil || * au . Versions . IPv6
// Map ipVersion early, so we can use it as part of the cache-key.
// This should be fairly inexpensive and comes and the upside of
// allowing the same dynamic upstream (name + port combination)
// to be used multiple times with different ip versions.
//
// It also forced a cache-miss if a previously cached dynamic
// upstream changes its ip version, e.g. after a config reload,
// while keeping the cache-invalidation as simple as it currently is.
var ipVersion string
switch {
case resolveIpv4 && ! resolveIpv6 :
ipVersion = "ip4"
case ! resolveIpv4 && resolveIpv6 :
ipVersion = "ip6"
default :
ipVersion = "ip"
}
auStr := repl . ReplaceAll ( au . String ( ) + ipVersion , "" )
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// first, use a cheap read-lock to return a cached result quickly
aAaaaMu . RLock ( )
cached := aAaaa [ auStr ]
aAaaaMu . RUnlock ( )
if cached . isFresh ( ) {
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return allNew ( cached . upstreams ) , nil
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}
// otherwise, obtain a write-lock to update the cached value
aAaaaMu . Lock ( )
defer aAaaaMu . Unlock ( )
// check to see if it's still stale, since we're now in a different
// lock from when we first checked freshness; another goroutine might
// have refreshed it in the meantime before we re-obtained our lock
cached = aAaaa [ auStr ]
if cached . isFresh ( ) {
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return allNew ( cached . upstreams ) , nil
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}
name := repl . ReplaceAll ( au . Name , "" )
port := repl . ReplaceAll ( au . Port , "" )
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ips , err := au . resolver . LookupIP ( r . Context ( ) , ipVersion , name )
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if err != nil {
return nil , err
}
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upstreams := make ( [ ] Upstream , len ( ips ) )
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for i , ip := range ips {
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upstreams [ i ] = Upstream {
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Dial : net . JoinHostPort ( ip . String ( ) , port ) ,
}
}
// before adding a new one to the cache (as opposed to replacing stale one), make room if cache is full
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if cached . freshness . IsZero ( ) && len ( aAaaa ) >= 100 {
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for randomKey := range aAaaa {
delete ( aAaaa , randomKey )
break
}
}
aAaaa [ auStr ] = aLookup {
aUpstreams : au ,
freshness : time . Now ( ) ,
upstreams : upstreams ,
}
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return allNew ( upstreams ) , nil
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}
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func ( au AUpstreams ) String ( ) string { return net . JoinHostPort ( au . Name , au . Port ) }
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type aLookup struct {
aUpstreams AUpstreams
freshness time . Time
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upstreams [ ] Upstream
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}
func ( al aLookup ) isFresh ( ) bool {
return time . Since ( al . freshness ) < time . Duration ( al . aUpstreams . Refresh )
}
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// MultiUpstreams is a single dynamic upstream source that
// aggregates the results of multiple dynamic upstream sources.
// All configured sources will be queried in order, with their
// results appended to the end of the list. Errors returned
// from individual sources will be logged and the next source
// will continue to be invoked.
//
// This module makes it easy to implement redundant cluster
// failovers, especially in conjunction with the `first` load
// balancing policy: if the first source returns an error or
// no upstreams, the second source's upstreams will be used
// naturally.
type MultiUpstreams struct {
// The list of upstream source modules to get upstreams from.
// They will be queried in order, with their results appended
// in the order they are returned.
SourcesRaw [ ] json . RawMessage ` json:"sources,omitempty" caddy:"namespace=http.reverse_proxy.upstreams inline_key=source" `
sources [ ] UpstreamSource
logger * zap . Logger
}
// CaddyModule returns the Caddy module information.
func ( MultiUpstreams ) CaddyModule ( ) caddy . ModuleInfo {
return caddy . ModuleInfo {
ID : "http.reverse_proxy.upstreams.multi" ,
New : func ( ) caddy . Module { return new ( MultiUpstreams ) } ,
}
}
func ( mu * MultiUpstreams ) Provision ( ctx caddy . Context ) error {
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mu . logger = ctx . Logger ( )
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if mu . SourcesRaw != nil {
mod , err := ctx . LoadModule ( mu , "SourcesRaw" )
if err != nil {
return fmt . Errorf ( "loading upstream source modules: %v" , err )
}
for _ , src := range mod . ( [ ] any ) {
mu . sources = append ( mu . sources , src . ( UpstreamSource ) )
}
}
return nil
}
func ( mu MultiUpstreams ) GetUpstreams ( r * http . Request ) ( [ ] * Upstream , error ) {
var upstreams [ ] * Upstream
for i , src := range mu . sources {
select {
case <- r . Context ( ) . Done ( ) :
return upstreams , context . Canceled
default :
}
up , err := src . GetUpstreams ( r )
if err != nil {
mu . logger . Error ( "upstream source returned error" ,
zap . Int ( "source_idx" , i ) ,
zap . Error ( err ) )
} else if len ( up ) == 0 {
mu . logger . Warn ( "upstream source returned 0 upstreams" , zap . Int ( "source_idx" , i ) )
} else {
upstreams = append ( upstreams , up ... )
}
}
return upstreams , nil
}
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// UpstreamResolver holds the set of addresses of DNS resolvers of
// upstream addresses
type UpstreamResolver struct {
// The addresses of DNS resolvers to use when looking up the addresses of proxy upstreams.
// It accepts [network addresses](/docs/conventions#network-addresses)
// with port range of only 1. If the host is an IP address, it will be dialed directly to resolve the upstream server.
// If the host is not an IP address, the addresses are resolved using the [name resolution convention](https://golang.org/pkg/net/#hdr-Name_Resolution) of the Go standard library.
// If the array contains more than 1 resolver address, one is chosen at random.
Addresses [ ] string ` json:"addresses,omitempty" `
netAddrs [ ] caddy . NetworkAddress
}
// ParseAddresses parses all the configured network addresses
// and ensures they're ready to be used.
func ( u * UpstreamResolver ) ParseAddresses ( ) error {
for _ , v := range u . Addresses {
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addr , err := caddy . ParseNetworkAddressWithDefaults ( v , "udp" , 53 )
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if err != nil {
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return err
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}
if addr . PortRangeSize ( ) != 1 {
return fmt . Errorf ( "resolver address must have exactly one address; cannot call %v" , addr )
}
u . netAddrs = append ( u . netAddrs , addr )
}
return nil
}
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func allNew ( upstreams [ ] Upstream ) [ ] * Upstream {
results := make ( [ ] * Upstream , len ( upstreams ) )
for i := range upstreams {
results [ i ] = & Upstream { Dial : upstreams [ i ] . Dial }
}
return results
}
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var (
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srvs = make ( map [ string ] srvLookup )
srvsMu sync . RWMutex
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aAaaa = make ( map [ string ] aLookup )
aAaaaMu sync . RWMutex
)
// Interface guards
var (
_ caddy . Provisioner = ( * SRVUpstreams ) ( nil )
_ UpstreamSource = ( * SRVUpstreams ) ( nil )
_ caddy . Provisioner = ( * AUpstreams ) ( nil )
_ UpstreamSource = ( * AUpstreams ) ( nil )
)