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// Copyright 2015 Matthew Holt and The Caddy Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
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package caddyhttp
import (
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"bytes"
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"context"
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"crypto/tls"
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"encoding/json"
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"fmt"
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"io"
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weakrand "math/rand"
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"net"
"net/http"
"strconv"
"strings"
"time"
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"github.com/caddyserver/caddy/v2"
"github.com/caddyserver/caddy/v2/modules/caddytls"
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"github.com/lucas-clemente/quic-go/http3"
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"github.com/mholt/certmagic"
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"go.uber.org/zap"
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)
func init ( ) {
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weakrand . Seed ( time . Now ( ) . UnixNano ( ) )
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err := caddy . RegisterModule ( App { } )
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if err != nil {
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caddy . Log ( ) . Fatal ( err . Error ( ) )
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}
}
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// App is a robust, production-ready HTTP server.
//
// HTTPS is enabled by default if host matchers with qualifying names are used
// in any of routes; certificates are automatically provisioned and renewed.
// Additionally, automatic HTTPS will also enable HTTPS for servers that listen
// only on the HTTPS port but which do not have any TLS connection policies
// defined by adding a good, default TLS connection policy.
//
// In HTTP routes, additional placeholders are available:
//
// Placeholder | Description
// ------------|---------------
// `{http.request.cookie.*}` | HTTP request cookie
// `{http.request.header.*}` | Specific request header field
// `{http.request.host.labels.*}` | Request host labels (0-based from right); e.g. for foo.example.com: 0=com, 1=example, 2=foo
// `{http.request.host}` | The host part of the request's Host header
// `{http.request.hostport}` | The host and port from the request's Host header
// `{http.request.method}` | The request method
// `{http.request.orig.method}` | The request's original method
// `{http.request.orig.path.dir}` | The request's original directory
// `{http.request.orig.path.file}` | The request's original filename
// `{http.request.orig.uri.path}` | The request's original path
// `{http.request.orig.uri.query_string}` | The request's original full query string (with `?`)
// `{http.request.orig.uri.query}` | The request's original query string (without `?`)
// `{http.request.orig.uri}` | The request's original URI
// `{http.request.port}` | The port part of the request's Host header
// `{http.request.proto}` | The protocol of the request
// `{http.request.remote.host}` | The host part of the remote client's address
// `{http.request.remote.port}` | The port part of the remote client's address
// `{http.request.remote}` | The address of the remote client
// `{http.request.scheme}` | The request scheme
// `{http.request.uri.path.*}` | Parts of the path, split by `/` (0-based from left)
// `{http.request.uri.path.dir}` | The directory, excluding leaf filename
// `{http.request.uri.path.file}` | The filename of the path, excluding directory
// `{http.request.uri.path}` | The path component of the request URI
// `{http.request.uri.query_string}` | The full query string (with `?`)
// `{http.request.uri.query.*}` | Individual query string value
// `{http.request.uri.query}` | The query string (without `?`)
// `{http.request.uri}` | The full request URI
// `{http.response.header.*}` | Specific response header field
// `{http.vars.*}` | Custom variables in the HTTP handler chain
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type App struct {
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// HTTPPort specifies the port to use for HTTP (as opposed to HTTPS),
// which is used when setting up HTTP->HTTPS redirects or ACME HTTP
// challenge solvers. Default: 80.
HTTPPort int ` json:"http_port,omitempty" `
// HTTPSPort specifies the port to use for HTTPS, which is used when
// solving the ACME TLS-ALPN challenges, or whenever HTTPS is needed
// but no specific port number is given. Default: 443.
HTTPSPort int ` json:"https_port,omitempty" `
// GracePeriod is how long to wait for active connections when shutting
// down the server. Once the grace period is over, connections will
// be forcefully closed.
GracePeriod caddy . Duration ` json:"grace_period,omitempty" `
// Servers is the list of servers, keyed by arbitrary names chosen
// at your discretion for your own convenience; the keys do not
// affect functionality.
Servers map [ string ] * Server ` json:"servers,omitempty" `
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servers [ ] * http . Server
h3servers [ ] * http3 . Server
h3listeners [ ] net . PacketConn
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ctx caddy . Context
logger * zap . Logger
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}
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// CaddyModule returns the Caddy module information.
func ( App ) CaddyModule ( ) caddy . ModuleInfo {
return caddy . ModuleInfo {
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ID : "http" ,
New : func ( ) caddy . Module { return new ( App ) } ,
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}
}
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// Provision sets up the app.
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func ( app * App ) Provision ( ctx caddy . Context ) error {
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app . ctx = ctx
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app . logger = ctx . Logger ( app )
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repl := caddy . NewReplacer ( )
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for srvName , srv := range app . Servers {
srv . logger = app . logger . Named ( "log" )
srv . errorLogger = app . logger . Named ( "log.error" )
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// only enable access logs if configured
if srv . Logs != nil {
srv . accessLogger = app . logger . Named ( "log.access" )
}
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if srv . AutoHTTPS == nil {
// avoid nil pointer dereferences
srv . AutoHTTPS = new ( AutoHTTPSConfig )
}
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// if not explicitly configured by the user, disallow TLS
// client auth bypass (domain fronting) which could
// otherwise be exploited by sending an unprotected SNI
// value during a TLS handshake, then putting a protected
// domain in the Host header after establishing connection;
// this is a safe default, but we allow users to override
// it for example in the case of running a proxy where
// domain fronting is desired and access is not restricted
// based on hostname
if srv . StrictSNIHost == nil && srv . hasTLSClientAuth ( ) {
trueBool := true
srv . StrictSNIHost = & trueBool
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}
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for i := range srv . Listen {
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lnOut , err := repl . ReplaceOrErr ( srv . Listen [ i ] , true , true )
if err != nil {
return fmt . Errorf ( "server %s, listener %d: %v" ,
srvName , i , err )
}
srv . Listen [ i ] = lnOut
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}
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if srv . Routes != nil {
err := srv . Routes . Provision ( ctx )
if err != nil {
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return fmt . Errorf ( "server %s: setting up server routes: %v" , srvName , err )
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}
http: Change routes to sequential matcher evaluation (#2967)
Previously, all matchers in a route would be evaluated before any
handlers were executed, and a composite route of the matching routes
would be created. This made rewrites especially tricky, since the only
way to defer later matchers' evaluation was to wrap them in a subroute,
or to invoke a "rehandle" which often caused bugs.
Instead, this new sequential design evaluates each route's matchers then
its handlers in lock-step; matcher-handlers-matcher-handlers...
If the first matching route consists of a rewrite, then the second route
will be evaluated against the rewritten request, rather than the original
one, and so on.
This should do away with any need for rehandling.
I've also taken this opportunity to avoid adding new values to the
request context in the handler chain, as this creates a copy of the
Request struct, which may possibly lead to bugs like it has in the past
(see PR #1542, PR #1481, and maybe issue #2463). We now add all the
expected context values in the top-level handler at the server, then
any new values can be added to the variable table via the VarsCtxKey
context key, or just the GetVar/SetVar functions. In particular, we are
using this facility to convey dial information in the reverse proxy.
Had to be careful in one place as the middleware compilation logic has
changed, and moved a bit. We no longer compile a middleware chain per-
request; instead, we can compile it at provision-time, and defer only the
evaluation of matchers to request-time, which should slightly improve
performance. Doing this, however, we take advantage of multiple function
closures, and we also changed the use of HandlerFunc (function pointer)
to Handler (interface)... this led to a situation where, if we aren't
careful, allows one request routed a certain way to permanently change
the "next" handler for all/most other requests! We avoid this by making
a copy of the interface value (which is a lightweight pointer copy) and
using exclusively that within our wrapped handlers. This way, the
original stack frame is preserved in a "read-only" fashion. The comments
in the code describe this phenomenon.
This may very well be a breaking change for some configurations, however
I do not expect it to impact many people. I will make it clear in the
release notes that this change has occurred.
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// pre-compile the handler chain, and be sure to wrap it in our
// route handler so that important security checks are done, etc.
srv . primaryHandlerChain = srv . wrapPrimaryRoute ( srv . Routes . Compile ( ) )
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}
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if srv . Errors != nil {
err := srv . Errors . Routes . Provision ( ctx )
if err != nil {
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return fmt . Errorf ( "server %s: setting up server error handling routes: %v" , srvName , err )
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}
http: Change routes to sequential matcher evaluation (#2967)
Previously, all matchers in a route would be evaluated before any
handlers were executed, and a composite route of the matching routes
would be created. This made rewrites especially tricky, since the only
way to defer later matchers' evaluation was to wrap them in a subroute,
or to invoke a "rehandle" which often caused bugs.
Instead, this new sequential design evaluates each route's matchers then
its handlers in lock-step; matcher-handlers-matcher-handlers...
If the first matching route consists of a rewrite, then the second route
will be evaluated against the rewritten request, rather than the original
one, and so on.
This should do away with any need for rehandling.
I've also taken this opportunity to avoid adding new values to the
request context in the handler chain, as this creates a copy of the
Request struct, which may possibly lead to bugs like it has in the past
(see PR #1542, PR #1481, and maybe issue #2463). We now add all the
expected context values in the top-level handler at the server, then
any new values can be added to the variable table via the VarsCtxKey
context key, or just the GetVar/SetVar functions. In particular, we are
using this facility to convey dial information in the reverse proxy.
Had to be careful in one place as the middleware compilation logic has
changed, and moved a bit. We no longer compile a middleware chain per-
request; instead, we can compile it at provision-time, and defer only the
evaluation of matchers to request-time, which should slightly improve
performance. Doing this, however, we take advantage of multiple function
closures, and we also changed the use of HandlerFunc (function pointer)
to Handler (interface)... this led to a situation where, if we aren't
careful, allows one request routed a certain way to permanently change
the "next" handler for all/most other requests! We avoid this by making
a copy of the interface value (which is a lightweight pointer copy) and
using exclusively that within our wrapped handlers. This way, the
original stack frame is preserved in a "read-only" fashion. The comments
in the code describe this phenomenon.
This may very well be a breaking change for some configurations, however
I do not expect it to impact many people. I will make it clear in the
release notes that this change has occurred.
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srv . errorHandlerChain = srv . Errors . Routes . Compile ( )
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}
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}
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return nil
}
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// Validate ensures the app's configuration is valid.
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func ( app * App ) Validate ( ) error {
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// each server must use distinct listener addresses
lnAddrs := make ( map [ string ] string )
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for srvName , srv := range app . Servers {
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for _ , addr := range srv . Listen {
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listenAddr , err := caddy . ParseNetworkAddress ( addr )
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if err != nil {
return fmt . Errorf ( "invalid listener address '%s': %v" , addr , err )
}
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// check that every address in the port range is unique to this server;
// we do not use <= here because PortRangeSize() adds 1 to EndPort for us
for i := uint ( 0 ) ; i < listenAddr . PortRangeSize ( ) ; i ++ {
addr := caddy . JoinNetworkAddress ( listenAddr . Network , listenAddr . Host , strconv . Itoa ( int ( listenAddr . StartPort + i ) ) )
if sn , ok := lnAddrs [ addr ] ; ok {
return fmt . Errorf ( "server %s: listener address repeated: %s (already claimed by server '%s')" , srvName , addr , sn )
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}
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lnAddrs [ addr ] = srvName
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}
}
}
return nil
}
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// Start runs the app. It sets up automatic HTTPS if enabled.
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func ( app * App ) Start ( ) error {
err := app . automaticHTTPS ( )
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if err != nil {
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return fmt . Errorf ( "enabling automatic HTTPS: %v" , err )
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}
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for srvName , srv := range app . Servers {
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s := & http . Server {
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ReadTimeout : time . Duration ( srv . ReadTimeout ) ,
ReadHeaderTimeout : time . Duration ( srv . ReadHeaderTimeout ) ,
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WriteTimeout : time . Duration ( srv . WriteTimeout ) ,
IdleTimeout : time . Duration ( srv . IdleTimeout ) ,
MaxHeaderBytes : srv . MaxHeaderBytes ,
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Handler : srv ,
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}
for _ , lnAddr := range srv . Listen {
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listenAddr , err := caddy . ParseNetworkAddress ( lnAddr )
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if err != nil {
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return fmt . Errorf ( "%s: parsing listen address '%s': %v" , srvName , lnAddr , err )
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}
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for i := uint ( 0 ) ; i < listenAddr . PortRangeSize ( ) ; i ++ {
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hostport := listenAddr . JoinHostPort ( i )
ln , err := caddy . Listen ( listenAddr . Network , hostport )
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if err != nil {
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return fmt . Errorf ( "%s: listening on %s: %v" , listenAddr . Network , hostport , err )
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}
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// enable HTTP/2 by default
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for _ , pol := range srv . TLSConnPolicies {
if len ( pol . ALPN ) == 0 {
pol . ALPN = append ( pol . ALPN , defaultALPN ... )
}
}
// enable TLS
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if len ( srv . TLSConnPolicies ) > 0 && int ( i ) != app . httpPort ( ) {
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tlsCfg , err := srv . TLSConnPolicies . TLSConfig ( app . ctx )
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if err != nil {
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return fmt . Errorf ( "%s/%s: making TLS configuration: %v" , listenAddr . Network , hostport , err )
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}
ln = tls . NewListener ( ln , tlsCfg )
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/////////
// TODO: HTTP/3 support is experimental for now
if srv . ExperimentalHTTP3 {
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app . logger . Info ( "enabling experimental HTTP/3 listener" ,
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zap . String ( "addr" , hostport ) ,
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)
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h3ln , err := caddy . ListenPacket ( "udp" , hostport )
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if err != nil {
return fmt . Errorf ( "getting HTTP/3 UDP listener: %v" , err )
}
h3srv := & http3 . Server {
Server : & http . Server {
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Addr : hostport ,
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Handler : srv ,
TLSConfig : tlsCfg ,
} ,
}
go h3srv . Serve ( h3ln )
app . h3servers = append ( app . h3servers , h3srv )
app . h3listeners = append ( app . h3listeners , h3ln )
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srv . h3server = h3srv
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}
/////////
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}
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go s . Serve ( ln )
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app . servers = append ( app . servers , s )
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}
}
}
return nil
}
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// Stop gracefully shuts down the HTTP server.
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func ( app * App ) Stop ( ) error {
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ctx := context . Background ( )
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if app . GracePeriod > 0 {
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var cancel context . CancelFunc
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ctx , cancel = context . WithTimeout ( ctx , time . Duration ( app . GracePeriod ) )
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defer cancel ( )
}
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for _ , s := range app . servers {
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err := s . Shutdown ( ctx )
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if err != nil {
return err
}
}
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// TODO: Closing the http3.Server is the right thing to do,
// however, doing so sometimes causes connections from clients
// to fail after config reloads due to a bug that is yet
// unsolved: https://github.com/caddyserver/caddy/pull/2727
// for _, s := range app.h3servers {
// // TODO: CloseGracefully, once implemented upstream
// // (see https://github.com/lucas-clemente/quic-go/issues/2103)
// err := s.Close()
// if err != nil {
// return err
// }
// }
// as of September 2019, closing the http3.Server
// instances doesn't close their underlying listeners
// so we have todo that ourselves
// (see https://github.com/lucas-clemente/quic-go/issues/2103)
for _ , pc := range app . h3listeners {
err := pc . Close ( )
if err != nil {
return err
}
}
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return nil
}
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func ( app * App ) automaticHTTPS ( ) error {
tlsAppIface , err := app . ctx . App ( "tls" )
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if err != nil {
return fmt . Errorf ( "getting tls app: %v" , err )
}
tlsApp := tlsAppIface . ( * caddytls . TLS )
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// this map will store associations of HTTP listener
// addresses to the routes that do HTTP->HTTPS redirects
lnAddrRedirRoutes := make ( map [ string ] Route )
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repl := caddy . NewReplacer ( )
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for srvName , srv := range app . Servers {
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srv . tlsApp = tlsApp
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if srv . AutoHTTPS . Disabled {
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continue
}
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// skip if all listeners use the HTTP port
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if ! srv . listenersUseAnyPortOtherThan ( app . httpPort ( ) ) {
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app . logger . Info ( "server is only listening on the HTTP port, so no automatic HTTPS will be applied to this server" ,
zap . String ( "server_name" , srvName ) ,
zap . Int ( "http_port" , app . httpPort ( ) ) ,
)
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continue
}
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// if all listeners are on the HTTPS port, make sure
// there is at least one TLS connection policy; it
// should be obvious that they want to use TLS without
// needing to specify one empty policy to enable it
if ! srv . listenersUseAnyPortOtherThan ( app . httpsPort ( ) ) && len ( srv . TLSConnPolicies ) == 0 {
app . logger . Info ( "server is only listening on the HTTPS port but has no TLS connection policies; adding one to enable TLS" ,
zap . String ( "server_name" , srvName ) ,
zap . Int ( "https_port" , app . httpsPort ( ) ) ,
)
srv . TLSConnPolicies = append ( srv . TLSConnPolicies , new ( caddytls . ConnectionPolicy ) )
}
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// find all qualifying domain names, de-duplicated
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domainSet := make ( map [ string ] struct { } )
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for routeIdx , route := range srv . Routes {
for matcherSetIdx , matcherSet := range route . MatcherSets {
for matcherIdx , m := range matcherSet {
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if hm , ok := m . ( * MatchHost ) ; ok {
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for hostMatcherIdx , d := range * hm {
d , err = repl . ReplaceOrErr ( d , true , false )
if err != nil {
return fmt . Errorf ( "%s: route %d, matcher set %d, matcher %d, host matcher %d: %v" ,
srvName , routeIdx , matcherSetIdx , matcherIdx , hostMatcherIdx , err )
}
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if certmagic . HostQualifies ( d ) &&
! srv . AutoHTTPS . Skipped ( d , srv . AutoHTTPS . Skip ) {
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domainSet [ d ] = struct { } { }
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}
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}
}
}
}
}
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if len ( domainSet ) > 0 {
// marshal the domains into a slice
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var domains , domainsForCerts [ ] string
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for d := range domainSet {
domains = append ( domains , d )
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if ! srv . AutoHTTPS . Skipped ( d , srv . AutoHTTPS . SkipCerts ) {
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// if a certificate for this name is already loaded,
// don't obtain another one for it, unless we are
// supposed to ignore loaded certificates
if ! srv . AutoHTTPS . IgnoreLoadedCerts &&
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len ( tlsApp . AllMatchingCertificates ( d ) ) > 0 {
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app . logger . Info ( "skipping automatic certificate management because one or more matching certificates are already loaded" ,
zap . String ( "domain" , d ) ,
zap . String ( "server_name" , srvName ) ,
)
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continue
}
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domainsForCerts = append ( domainsForCerts , d )
}
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}
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// ensure that these certificates are managed properly;
// for example, it's implied that the HTTPPort should also
// be the port the HTTP challenge is solved on, and so
// for HTTPS port and TLS-ALPN challenge also - we need
// to tell the TLS app to manage these certs by honoring
// those port configurations
acmeManager := & caddytls . ACMEManagerMaker {
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Challenges : & caddytls . ChallengesConfig {
HTTP : & caddytls . HTTPChallengeConfig {
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AlternatePort : app . HTTPPort , // we specifically want the user-configured port, if any
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} ,
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TLSALPN : & caddytls . TLSALPNChallengeConfig {
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AlternatePort : app . HTTPSPort , // we specifically want the user-configured port, if any
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} ,
} ,
}
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if tlsApp . Automation == nil {
tlsApp . Automation = new ( caddytls . AutomationConfig )
}
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tlsApp . Automation . Policies = append ( tlsApp . Automation . Policies ,
caddytls . AutomationPolicy {
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Hosts : domainsForCerts ,
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Management : acmeManager ,
} )
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// manage their certificates
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app . logger . Info ( "enabling automatic TLS certificate management" ,
zap . Strings ( "domains" , domainsForCerts ) ,
)
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err := tlsApp . Manage ( domainsForCerts )
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if err != nil {
return fmt . Errorf ( "%s: managing certificate for %s: %s" , srvName , domains , err )
}
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// tell the server to use TLS if it is not already doing so
if srv . TLSConnPolicies == nil {
srv . TLSConnPolicies = caddytls . ConnectionPolicies {
& caddytls . ConnectionPolicy { ALPN : defaultALPN } ,
}
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}
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if srv . AutoHTTPS . DisableRedir {
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continue
}
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app . logger . Info ( "enabling automatic HTTP->HTTPS redirects" ,
zap . Strings ( "domains" , domains ) ,
)
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// create HTTP->HTTPS redirects
for _ , addr := range srv . Listen {
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netw , host , port , err := caddy . SplitNetworkAddress ( addr )
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if err != nil {
return fmt . Errorf ( "%s: invalid listener address: %v" , srvName , addr )
}
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if parts := strings . SplitN ( port , "-" , 2 ) ; len ( parts ) == 2 {
port = parts [ 0 ]
}
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redirTo := "https://{http.request.host}"
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if port != strconv . Itoa ( app . httpsPort ( ) ) {
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redirTo += ":" + port
}
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redirTo += "{http.request.uri}"
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// build the plaintext HTTP variant of this address
httpRedirLnAddr := caddy . JoinNetworkAddress ( netw , host , strconv . Itoa ( app . httpPort ( ) ) )
// create the route that does the redirect and associate
// it with the listener address it will be served from
lnAddrRedirRoutes [ httpRedirLnAddr ] = Route {
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MatcherSets : [ ] MatcherSet {
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{
MatchProtocol ( "http" ) ,
MatchHost ( domains ) ,
} ,
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} ,
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Handlers : [ ] MiddlewareHandler {
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StaticResponse {
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StatusCode : WeakString ( strconv . Itoa ( http . StatusPermanentRedirect ) ) ,
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Headers : http . Header {
"Location" : [ ] string { redirTo } ,
"Connection" : [ ] string { "close" } ,
} ,
Close : true ,
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} ,
} ,
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}
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}
}
}
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// if there are HTTP->HTTPS redirects to add, do so now
if len ( lnAddrRedirRoutes ) > 0 {
var redirServerAddrs [ ] string
var redirRoutes [ ] Route
// for each redirect listener, see if there's already a
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// server configured to listen on that exact address; if so,
// simply add the redirect route to the end of its route
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// list; otherwise, we'll create a new server for all the
// listener addresses that are unused and serve the
// remaining redirects from it
redirRoutesLoop :
for addr , redirRoute := range lnAddrRedirRoutes {
for srvName , srv := range app . Servers {
if srv . hasListenerAddress ( addr ) {
// user has configured a server for the same address
// that the redirect runs from; simply append our
// redirect route to the existing routes, with a
// caveat that their config might override ours
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app . logger . Warn ( "server is listening on same interface as redirects, so automatic HTTP->HTTPS redirects might be overridden by your own configuration" ,
zap . String ( "server_name" , srvName ) ,
zap . String ( "interface" , addr ) ,
)
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srv . Routes = append ( srv . Routes , redirRoute )
continue redirRoutesLoop
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}
}
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// no server with this listener address exists;
// save this address and route for custom server
redirServerAddrs = append ( redirServerAddrs , addr )
redirRoutes = append ( redirRoutes , redirRoute )
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}
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// if there are routes remaining which do not belong
// in any existing server, make our own to serve the
// rest of the redirects
if len ( redirServerAddrs ) > 0 {
app . Servers [ "remaining_auto_https_redirects" ] = & Server {
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Listen : redirServerAddrs ,
Routes : redirRoutes ,
tlsApp : tlsApp , // required to solve HTTP challenge
logger : app . logger . Named ( "log" ) ,
errorLogger : app . logger . Named ( "log.error" ) ,
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}
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}
}
return nil
}
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func ( app * App ) httpPort ( ) int {
if app . HTTPPort == 0 {
return DefaultHTTPPort
}
return app . HTTPPort
}
func ( app * App ) httpsPort ( ) int {
if app . HTTPSPort == 0 {
return DefaultHTTPSPort
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}
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return app . HTTPSPort
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}
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var defaultALPN = [ ] string { "h2" , "http/1.1" }
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// RequestMatcher is a type that can match to a request.
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// A route matcher MUST NOT modify the request, with the
// only exception being its context.
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type RequestMatcher interface {
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Match ( * http . Request ) bool
}
// Handler is like http.Handler except ServeHTTP may return an error.
//
// If any handler encounters an error, it should be returned for proper
// handling. Return values should be propagated down the middleware chain
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// by returning it unchanged. Returned errors should not be re-wrapped
// if they are already HandlerError values.
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type Handler interface {
ServeHTTP ( http . ResponseWriter , * http . Request ) error
}
// HandlerFunc is a convenience type like http.HandlerFunc.
type HandlerFunc func ( http . ResponseWriter , * http . Request ) error
// ServeHTTP implements the Handler interface.
func ( f HandlerFunc ) ServeHTTP ( w http . ResponseWriter , r * http . Request ) error {
return f ( w , r )
}
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// Middleware chains one Handler to the next by being passed
// the next Handler in the chain.
http: Change routes to sequential matcher evaluation (#2967)
Previously, all matchers in a route would be evaluated before any
handlers were executed, and a composite route of the matching routes
would be created. This made rewrites especially tricky, since the only
way to defer later matchers' evaluation was to wrap them in a subroute,
or to invoke a "rehandle" which often caused bugs.
Instead, this new sequential design evaluates each route's matchers then
its handlers in lock-step; matcher-handlers-matcher-handlers...
If the first matching route consists of a rewrite, then the second route
will be evaluated against the rewritten request, rather than the original
one, and so on.
This should do away with any need for rehandling.
I've also taken this opportunity to avoid adding new values to the
request context in the handler chain, as this creates a copy of the
Request struct, which may possibly lead to bugs like it has in the past
(see PR #1542, PR #1481, and maybe issue #2463). We now add all the
expected context values in the top-level handler at the server, then
any new values can be added to the variable table via the VarsCtxKey
context key, or just the GetVar/SetVar functions. In particular, we are
using this facility to convey dial information in the reverse proxy.
Had to be careful in one place as the middleware compilation logic has
changed, and moved a bit. We no longer compile a middleware chain per-
request; instead, we can compile it at provision-time, and defer only the
evaluation of matchers to request-time, which should slightly improve
performance. Doing this, however, we take advantage of multiple function
closures, and we also changed the use of HandlerFunc (function pointer)
to Handler (interface)... this led to a situation where, if we aren't
careful, allows one request routed a certain way to permanently change
the "next" handler for all/most other requests! We avoid this by making
a copy of the interface value (which is a lightweight pointer copy) and
using exclusively that within our wrapped handlers. This way, the
original stack frame is preserved in a "read-only" fashion. The comments
in the code describe this phenomenon.
This may very well be a breaking change for some configurations, however
I do not expect it to impact many people. I will make it clear in the
release notes that this change has occurred.
2020-01-09 12:00:13 -05:00
type Middleware func ( Handler ) Handler
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// MiddlewareHandler is like Handler except it takes as a third
// argument the next handler in the chain. The next handler will
// never be nil, but may be a no-op handler if this is the last
// handler in the chain. Handlers which act as middleware should
// call the next handler's ServeHTTP method so as to propagate
// the request down the chain properly. Handlers which act as
// responders (content origins) need not invoke the next handler,
// since the last handler in the chain should be the first to
// write the response.
type MiddlewareHandler interface {
ServeHTTP ( http . ResponseWriter , * http . Request , Handler ) error
}
// emptyHandler is used as a no-op handler.
http: Change routes to sequential matcher evaluation (#2967)
Previously, all matchers in a route would be evaluated before any
handlers were executed, and a composite route of the matching routes
would be created. This made rewrites especially tricky, since the only
way to defer later matchers' evaluation was to wrap them in a subroute,
or to invoke a "rehandle" which often caused bugs.
Instead, this new sequential design evaluates each route's matchers then
its handlers in lock-step; matcher-handlers-matcher-handlers...
If the first matching route consists of a rewrite, then the second route
will be evaluated against the rewritten request, rather than the original
one, and so on.
This should do away with any need for rehandling.
I've also taken this opportunity to avoid adding new values to the
request context in the handler chain, as this creates a copy of the
Request struct, which may possibly lead to bugs like it has in the past
(see PR #1542, PR #1481, and maybe issue #2463). We now add all the
expected context values in the top-level handler at the server, then
any new values can be added to the variable table via the VarsCtxKey
context key, or just the GetVar/SetVar functions. In particular, we are
using this facility to convey dial information in the reverse proxy.
Had to be careful in one place as the middleware compilation logic has
changed, and moved a bit. We no longer compile a middleware chain per-
request; instead, we can compile it at provision-time, and defer only the
evaluation of matchers to request-time, which should slightly improve
performance. Doing this, however, we take advantage of multiple function
closures, and we also changed the use of HandlerFunc (function pointer)
to Handler (interface)... this led to a situation where, if we aren't
careful, allows one request routed a certain way to permanently change
the "next" handler for all/most other requests! We avoid this by making
a copy of the interface value (which is a lightweight pointer copy) and
using exclusively that within our wrapped handlers. This way, the
original stack frame is preserved in a "read-only" fashion. The comments
in the code describe this phenomenon.
This may very well be a breaking change for some configurations, however
I do not expect it to impact many people. I will make it clear in the
release notes that this change has occurred.
2020-01-09 12:00:13 -05:00
var emptyHandler Handler = HandlerFunc ( func ( http . ResponseWriter , * http . Request ) error { return nil } )
2019-04-11 21:42:55 -05:00
2019-08-09 13:05:47 -05:00
// WeakString is a type that unmarshals any JSON value
// as a string literal, with the following exceptions:
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//
// 1. actual string values are decoded as strings; and
// 2. null is decoded as empty string;
//
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// and provides methods for getting the value as various
// primitive types. However, using this type removes any
// type safety as far as deserializing JSON is concerned.
type WeakString string
// UnmarshalJSON satisfies json.Unmarshaler according to
// this type's documentation.
func ( ws * WeakString ) UnmarshalJSON ( b [ ] byte ) error {
if len ( b ) == 0 {
return io . EOF
}
if b [ 0 ] == byte ( '"' ) && b [ len ( b ) - 1 ] == byte ( '"' ) {
var s string
err := json . Unmarshal ( b , & s )
if err != nil {
return err
}
* ws = WeakString ( s )
return nil
}
if bytes . Equal ( b , [ ] byte ( "null" ) ) {
return nil
}
* ws = WeakString ( b )
return nil
}
// MarshalJSON marshals was a boolean if true or false,
// a number if an integer, or a string otherwise.
func ( ws WeakString ) MarshalJSON ( ) ( [ ] byte , error ) {
if ws == "true" {
return [ ] byte ( "true" ) , nil
}
if ws == "false" {
return [ ] byte ( "false" ) , nil
}
if num , err := strconv . Atoi ( string ( ws ) ) ; err == nil {
return json . Marshal ( num )
}
return json . Marshal ( string ( ws ) )
}
// Int returns ws as an integer. If ws is not an
// integer, 0 is returned.
func ( ws WeakString ) Int ( ) int {
num , _ := strconv . Atoi ( string ( ws ) )
return num
}
// Float64 returns ws as a float64. If ws is not a
// float value, the zero value is returned.
func ( ws WeakString ) Float64 ( ) float64 {
num , _ := strconv . ParseFloat ( string ( ws ) , 64 )
return num
}
// Bool returns ws as a boolean. If ws is not a
// boolean, false is returned.
func ( ws WeakString ) Bool ( ) bool {
return string ( ws ) == "true"
}
// String returns ws as a string.
func ( ws WeakString ) String ( ) string {
return string ( ws )
}
2019-10-15 15:07:10 -05:00
// CopyHeader copies HTTP headers by completely
// replacing dest with src. (This allows deletions
// to be propagated, assuming src started as a
// consistent copy of dest.)
func CopyHeader ( dest , src http . Header ) {
for field := range dest {
delete ( dest , field )
}
for field , val := range src {
dest [ field ] = val
}
}
2019-09-02 23:01:02 -05:00
// StatusCodeMatches returns true if a real HTTP status code matches
// the configured status code, which may be either a real HTTP status
// code or an integer representing a class of codes (e.g. 4 for all
// 4xx statuses).
func StatusCodeMatches ( actual , configured int ) bool {
if actual == configured {
return true
}
if configured < 100 && actual >= configured * 100 && actual < ( configured + 1 ) * 100 {
return true
}
return false
}
2019-05-07 10:56:13 -05:00
const (
// DefaultHTTPPort is the default port for HTTP.
DefaultHTTPPort = 80
// DefaultHTTPSPort is the default port for HTTPS.
DefaultHTTPSPort = 443
)
2019-07-07 15:12:22 -05:00
// Interface guards
var (
_ caddy . App = ( * App ) ( nil )
_ caddy . Provisioner = ( * App ) ( nil )
_ caddy . Validator = ( * App ) ( nil )
)