// 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. package fastcgi import ( "encoding/json" "net/http" "strconv" "github.com/caddyserver/caddy/v2" "github.com/caddyserver/caddy/v2/caddyconfig" "github.com/caddyserver/caddy/v2/caddyconfig/caddyfile" "github.com/caddyserver/caddy/v2/caddyconfig/httpcaddyfile" "github.com/caddyserver/caddy/v2/modules/caddyhttp" "github.com/caddyserver/caddy/v2/modules/caddyhttp/fileserver" "github.com/caddyserver/caddy/v2/modules/caddyhttp/reverseproxy" "github.com/caddyserver/caddy/v2/modules/caddyhttp/rewrite" ) func init() { httpcaddyfile.RegisterDirective("php_fastcgi", parsePHPFastCGI) } // UnmarshalCaddyfile deserializes Caddyfile tokens into h. // // transport fastcgi { // root // split // env // resolve_root_symlink // dial_timeout // read_timeout // write_timeout // capture_stderr // } func (t *Transport) UnmarshalCaddyfile(d *caddyfile.Dispenser) error { d.Next() // consume transport name for d.NextBlock(0) { switch d.Val() { case "root": if !d.NextArg() { return d.ArgErr() } t.Root = d.Val() case "split": t.SplitPath = d.RemainingArgs() if len(t.SplitPath) == 0 { return d.ArgErr() } case "env": args := d.RemainingArgs() if len(args) != 2 { return d.ArgErr() } if t.EnvVars == nil { t.EnvVars = make(map[string]string) } t.EnvVars[args[0]] = args[1] case "resolve_root_symlink": if d.NextArg() { return d.ArgErr() } t.ResolveRootSymlink = true case "dial_timeout": if !d.NextArg() { return d.ArgErr() } dur, err := caddy.ParseDuration(d.Val()) if err != nil { return d.Errf("bad timeout value %s: %v", d.Val(), err) } t.DialTimeout = caddy.Duration(dur) case "read_timeout": if !d.NextArg() { return d.ArgErr() } dur, err := caddy.ParseDuration(d.Val()) if err != nil { return d.Errf("bad timeout value %s: %v", d.Val(), err) } t.ReadTimeout = caddy.Duration(dur) case "write_timeout": if !d.NextArg() { return d.ArgErr() } dur, err := caddy.ParseDuration(d.Val()) if err != nil { return d.Errf("bad timeout value %s: %v", d.Val(), err) } t.WriteTimeout = caddy.Duration(dur) case "capture_stderr": if d.NextArg() { return d.ArgErr() } t.CaptureStderr = true default: return d.Errf("unrecognized subdirective %s", d.Val()) } } return nil } // parsePHPFastCGI parses the php_fastcgi directive, which has the same syntax // as the reverse_proxy directive (in fact, the reverse_proxy's directive // Unmarshaler is invoked by this function) but the resulting proxy is specially // configured for most™️ PHP apps over FastCGI. A line such as this: // // php_fastcgi localhost:7777 // // is equivalent to a route consisting of: // // # Add trailing slash for directory requests // @canonicalPath { // file {path}/index.php // not path */ // } // redir @canonicalPath {path}/ 308 // // # If the requested file does not exist, try index files // @indexFiles file { // try_files {path} {path}/index.php index.php // split_path .php // } // rewrite @indexFiles {http.matchers.file.relative} // // # Proxy PHP files to the FastCGI responder // @phpFiles path *.php // reverse_proxy @phpFiles localhost:7777 { // transport fastcgi { // split .php // } // } // // Thus, this directive produces multiple handlers, each with a different // matcher because multiple consecutive handlers are necessary to support // the common PHP use case. If this "common" config is not compatible // with a user's PHP requirements, they can use a manual approach based // on the example above to configure it precisely as they need. // // If a matcher is specified by the user, for example: // // php_fastcgi /subpath localhost:7777 // // then the resulting handlers are wrapped in a subroute that uses the // user's matcher as a prerequisite to enter the subroute. In other // words, the directive's matcher is necessary, but not sufficient. func parsePHPFastCGI(h httpcaddyfile.Helper) ([]httpcaddyfile.ConfigValue, error) { if !h.Next() { return nil, h.ArgErr() } // set up the transport for FastCGI, and specifically PHP fcgiTransport := Transport{} // set up the set of file extensions allowed to execute PHP code extensions := []string{".php"} // set the default index file for the try_files rewrites indexFile := "index.php" // set up for explicitly overriding try_files tryFiles := []string{} // if the user specified a matcher token, use that // matcher in a route that wraps both of our routes; // either way, strip the matcher token and pass // the remaining tokens to the unmarshaler so that // we can gain the rest of the reverse_proxy syntax userMatcherSet, err := h.ExtractMatcherSet() if err != nil { return nil, err } // make a new dispenser from the remaining tokens so that we // can reset the dispenser back to this point for the // reverse_proxy unmarshaler to read from it as well dispenser := h.NewFromNextSegment() // read the subdirectives that we allow as overrides to // the php_fastcgi shortcut // NOTE: we delete the tokens as we go so that the reverse_proxy // unmarshal doesn't see these subdirectives which it cannot handle for dispenser.Next() { for dispenser.NextBlock(0) { // ignore any sub-subdirectives that might // have the same name somewhere within // the reverse_proxy passthrough tokens if dispenser.Nesting() != 1 { continue } // parse the php_fastcgi subdirectives switch dispenser.Val() { case "root": if !dispenser.NextArg() { return nil, dispenser.ArgErr() } fcgiTransport.Root = dispenser.Val() dispenser.DeleteN(2) case "split": extensions = dispenser.RemainingArgs() dispenser.DeleteN(len(extensions) + 1) if len(extensions) == 0 { return nil, dispenser.ArgErr() } case "env": args := dispenser.RemainingArgs() dispenser.DeleteN(len(args) + 1) if len(args) != 2 { return nil, dispenser.ArgErr() } if fcgiTransport.EnvVars == nil { fcgiTransport.EnvVars = make(map[string]string) } fcgiTransport.EnvVars[args[0]] = args[1] case "index": args := dispenser.RemainingArgs() dispenser.DeleteN(len(args) + 1) if len(args) != 1 { return nil, dispenser.ArgErr() } indexFile = args[0] case "try_files": args := dispenser.RemainingArgs() dispenser.DeleteN(len(args) + 1) if len(args) < 1 { return nil, dispenser.ArgErr() } tryFiles = args case "resolve_root_symlink": args := dispenser.RemainingArgs() dispenser.DeleteN(len(args) + 1) fcgiTransport.ResolveRootSymlink = true case "dial_timeout": if !dispenser.NextArg() { return nil, dispenser.ArgErr() } dur, err := caddy.ParseDuration(dispenser.Val()) if err != nil { return nil, dispenser.Errf("bad timeout value %s: %v", dispenser.Val(), err) } fcgiTransport.DialTimeout = caddy.Duration(dur) dispenser.DeleteN(2) case "read_timeout": if !dispenser.NextArg() { return nil, dispenser.ArgErr() } dur, err := caddy.ParseDuration(dispenser.Val()) if err != nil { return nil, dispenser.Errf("bad timeout value %s: %v", dispenser.Val(), err) } fcgiTransport.ReadTimeout = caddy.Duration(dur) dispenser.DeleteN(2) case "write_timeout": if !dispenser.NextArg() { return nil, dispenser.ArgErr() } dur, err := caddy.ParseDuration(dispenser.Val()) if err != nil { return nil, dispenser.Errf("bad timeout value %s: %v", dispenser.Val(), err) } fcgiTransport.WriteTimeout = caddy.Duration(dur) dispenser.DeleteN(2) case "capture_stderr": args := dispenser.RemainingArgs() dispenser.DeleteN(len(args) + 1) fcgiTransport.CaptureStderr = true } } } // reset the dispenser after we're done so that the reverse_proxy // unmarshaler can read it from the start dispenser.Reset() // set up a route list that we'll append to routes := caddyhttp.RouteList{} // set the list of allowed path segments on which to split fcgiTransport.SplitPath = extensions // if the index is turned off, we skip the redirect and try_files if indexFile != "off" { // route to redirect to canonical path if index PHP file redirMatcherSet := caddy.ModuleMap{ "file": h.JSON(fileserver.MatchFile{ TryFiles: []string{"{http.request.uri.path}/" + indexFile}, }), "not": h.JSON(caddyhttp.MatchNot{ MatcherSetsRaw: []caddy.ModuleMap{ { "path": h.JSON(caddyhttp.MatchPath{"*/"}), }, }, }), } redirHandler := caddyhttp.StaticResponse{ StatusCode: caddyhttp.WeakString(strconv.Itoa(http.StatusPermanentRedirect)), Headers: http.Header{"Location": []string{"{http.request.orig_uri.path}/"}}, } redirRoute := caddyhttp.Route{ MatcherSetsRaw: []caddy.ModuleMap{redirMatcherSet}, HandlersRaw: []json.RawMessage{caddyconfig.JSONModuleObject(redirHandler, "handler", "static_response", nil)}, } // if tryFiles wasn't overridden, use a reasonable default if len(tryFiles) == 0 { tryFiles = []string{"{http.request.uri.path}", "{http.request.uri.path}/" + indexFile, indexFile} } // route to rewrite to PHP index file rewriteMatcherSet := caddy.ModuleMap{ "file": h.JSON(fileserver.MatchFile{ TryFiles: tryFiles, SplitPath: extensions, }), } rewriteHandler := rewrite.Rewrite{ URI: "{http.matchers.file.relative}", } rewriteRoute := caddyhttp.Route{ MatcherSetsRaw: []caddy.ModuleMap{rewriteMatcherSet}, HandlersRaw: []json.RawMessage{caddyconfig.JSONModuleObject(rewriteHandler, "handler", "rewrite", nil)}, } routes = append(routes, redirRoute, rewriteRoute) } // route to actually reverse proxy requests to PHP files; // match only requests that are for PHP files pathList := []string{} for _, ext := range extensions { pathList = append(pathList, "*"+ext) } rpMatcherSet := caddy.ModuleMap{ "path": h.JSON(pathList), } // create the reverse proxy handler which uses our FastCGI transport rpHandler := &reverseproxy.Handler{ TransportRaw: caddyconfig.JSONModuleObject(fcgiTransport, "protocol", "fastcgi", nil), } // the rest of the config is specified by the user // using the reverse_proxy directive syntax dispenser.Next() // consume the directive name err = rpHandler.UnmarshalCaddyfile(dispenser) if err != nil { return nil, err } err = rpHandler.FinalizeUnmarshalCaddyfile(h) if err != nil { return nil, err } // create the final reverse proxy route which is // conditional on matching PHP files rpRoute := caddyhttp.Route{ MatcherSetsRaw: []caddy.ModuleMap{rpMatcherSet}, HandlersRaw: []json.RawMessage{caddyconfig.JSONModuleObject(rpHandler, "handler", "reverse_proxy", nil)}, } subroute := caddyhttp.Subroute{ Routes: append(routes, rpRoute), } // the user's matcher is a prerequisite for ours, so // wrap ours in a subroute and return that if userMatcherSet != nil { return []httpcaddyfile.ConfigValue{ { Class: "route", Value: caddyhttp.Route{ MatcherSetsRaw: []caddy.ModuleMap{userMatcherSet}, HandlersRaw: []json.RawMessage{caddyconfig.JSONModuleObject(subroute, "handler", "subroute", nil)}, }, }, }, nil } // otherwise, return the literal subroute instead of // individual routes, to ensure they stay together and // are treated as a single unit, without necessarily // creating an actual subroute in the output return []httpcaddyfile.ConfigValue{ { Class: "route", Value: subroute, }, }, nil }