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