mirror of https://github.com/caddyserver/caddy.git
393 lines
13 KiB
Go
393 lines
13 KiB
Go
// Copyright 2015 Matthew Holt and The Caddy Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package httpcaddyfile
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import (
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"fmt"
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"net"
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"reflect"
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"strconv"
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"strings"
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"unicode"
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"github.com/caddyserver/caddy/v2"
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"github.com/caddyserver/caddy/v2/caddyconfig/caddyfile"
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"github.com/caddyserver/caddy/v2/modules/caddyhttp"
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"github.com/caddyserver/certmagic"
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)
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// mapAddressToServerBlocks returns a map of listener address to list of server
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// blocks that will be served on that address. To do this, each server block is
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// expanded so that each one is considered individually, although keys of a
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// server block that share the same address stay grouped together so the config
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// isn't repeated unnecessarily. For example, this Caddyfile:
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//
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// example.com {
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// bind 127.0.0.1
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// }
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// www.example.com, example.net/path, localhost:9999 {
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// bind 127.0.0.1 1.2.3.4
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// }
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//
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// has two server blocks to start with. But expressed in this Caddyfile are
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// actually 4 listener addresses: 127.0.0.1:443, 1.2.3.4:443, 127.0.0.1:9999,
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// and 127.0.0.1:9999. This is because the bind directive is applied to each
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// key of its server block (specifying the host part), and each key may have
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// a different port. And we definitely need to be sure that a site which is
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// bound to be served on a specific interface is not served on others just
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// because that is more convenient: it would be a potential security risk
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// if the difference between interfaces means private vs. public.
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//
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// So what this function does for the example above is iterate each server
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// block, and for each server block, iterate its keys. For the first, it
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// finds one key (example.com) and determines its listener address
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// (127.0.0.1:443 - because of 'bind' and automatic HTTPS). It then adds
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// the listener address to the map value returned by this function, with
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// the first server block as one of its associations.
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//
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// It then iterates each key on the second server block and associates them
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// with one or more listener addresses. Indeed, each key in this block has
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// two listener addresses because of the 'bind' directive. Once we know
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// which addresses serve which keys, we can create a new server block for
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// each address containing the contents of the server block and only those
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// specific keys of the server block which use that address.
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//
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// It is possible and even likely that some keys in the returned map have
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// the exact same list of server blocks (i.e. they are identical). This
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// happens when multiple hosts are declared with a 'bind' directive and
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// the resulting listener addresses are not shared by any other server
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// block (or the other server blocks are exactly identical in their token
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// contents). This happens with our example above because 1.2.3.4:443
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// and 1.2.3.4:9999 are used exclusively with the second server block. This
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// repetition may be undesirable, so call consolidateAddrMappings() to map
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// multiple addresses to the same lists of server blocks (a many:many mapping).
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// (Doing this is essentially a map-reduce technique.)
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func (st *ServerType) mapAddressToServerBlocks(originalServerBlocks []serverBlock,
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options map[string]interface{}) (map[string][]serverBlock, error) {
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sbmap := make(map[string][]serverBlock)
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for i, sblock := range originalServerBlocks {
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// within a server block, we need to map all the listener addresses
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// implied by the server block to the keys of the server block which
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// will be served by them; this has the effect of treating each
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// key of a server block as its own, but without having to repeat its
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// contents in cases where multiple keys really can be served together
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addrToKeys := make(map[string][]string)
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for j, key := range sblock.block.Keys {
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// a key can have multiple listener addresses if there are multiple
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// arguments to the 'bind' directive (although they will all have
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// the same port, since the port is defined by the key or is implicit
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// through automatic HTTPS)
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addrs, err := st.listenerAddrsForServerBlockKey(sblock, key, options)
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if err != nil {
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return nil, fmt.Errorf("server block %d, key %d (%s): determining listener address: %v", i, j, key, err)
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}
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// associate this key with each listener address it is served on
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for _, addr := range addrs {
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addrToKeys[addr] = append(addrToKeys[addr], key)
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}
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}
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// now that we know which addresses serve which keys of this
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// server block, we iterate that mapping and create a list of
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// new server blocks for each address where the keys of the
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// server block are only the ones which use the address; but
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// the contents (tokens) are of course the same
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for addr, keys := range addrToKeys {
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// parse keys so that we only have to do it once
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parsedKeys := make([]Address, 0, len(keys))
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for _, key := range keys {
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addr, err := ParseAddress(key)
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if err != nil {
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return nil, fmt.Errorf("parsing key '%s': %v", key, err)
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}
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parsedKeys = append(parsedKeys, addr.Normalize())
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}
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sbmap[addr] = append(sbmap[addr], serverBlock{
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block: caddyfile.ServerBlock{
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Keys: keys,
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Segments: sblock.block.Segments,
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},
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pile: sblock.pile,
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keys: parsedKeys,
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})
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}
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}
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return sbmap, nil
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}
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// consolidateAddrMappings eliminates repetition of identical server blocks in a mapping of
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// single listener addresses to lists of server blocks. Since multiple addresses may serve
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// identical sites (server block contents), this function turns a 1:many mapping into a
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// many:many mapping. Server block contents (tokens) must be exactly identical so that
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// reflect.DeepEqual returns true in order for the addresses to be combined. Identical
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// entries are deleted from the addrToServerBlocks map. Essentially, each pairing (each
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// association from multiple addresses to multiple server blocks; i.e. each element of
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// the returned slice) becomes a server definition in the output JSON.
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func (st *ServerType) consolidateAddrMappings(addrToServerBlocks map[string][]serverBlock) []sbAddrAssociation {
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sbaddrs := make([]sbAddrAssociation, 0, len(addrToServerBlocks))
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for addr, sblocks := range addrToServerBlocks {
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// we start with knowing that at least this address
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// maps to these server blocks
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a := sbAddrAssociation{
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addresses: []string{addr},
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serverBlocks: sblocks,
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}
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// now find other addresses that map to identical
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// server blocks and add them to our list of
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// addresses, while removing them from the map
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for otherAddr, otherSblocks := range addrToServerBlocks {
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if addr == otherAddr {
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continue
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}
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if reflect.DeepEqual(sblocks, otherSblocks) {
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a.addresses = append(a.addresses, otherAddr)
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delete(addrToServerBlocks, otherAddr)
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}
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}
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sbaddrs = append(sbaddrs, a)
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}
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return sbaddrs
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}
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func (st *ServerType) listenerAddrsForServerBlockKey(sblock serverBlock, key string,
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options map[string]interface{}) ([]string, error) {
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addr, err := ParseAddress(key)
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if err != nil {
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return nil, fmt.Errorf("parsing key: %v", err)
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}
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addr = addr.Normalize()
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// figure out the HTTP and HTTPS ports; either
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// use defaults, or override with user config
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httpPort, httpsPort := strconv.Itoa(caddyhttp.DefaultHTTPPort), strconv.Itoa(caddyhttp.DefaultHTTPSPort)
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if hport, ok := options["http_port"]; ok {
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httpPort = strconv.Itoa(hport.(int))
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}
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if hsport, ok := options["https_port"]; ok {
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httpsPort = strconv.Itoa(hsport.(int))
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}
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// default port is the HTTPS port
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lnPort := httpsPort
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if addr.Port != "" {
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// port explicitly defined
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lnPort = addr.Port
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} else if addr.Scheme == "http" {
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// port inferred from scheme
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lnPort = httpPort
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}
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// error if scheme and port combination violate convention
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if (addr.Scheme == "http" && lnPort == httpsPort) || (addr.Scheme == "https" && lnPort == httpPort) {
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return nil, fmt.Errorf("[%s] scheme and port violate convention", key)
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}
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// the bind directive specifies hosts, but is optional
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lnHosts := make([]string, 0, len(sblock.pile))
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for _, cfgVal := range sblock.pile["bind"] {
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lnHosts = append(lnHosts, cfgVal.Value.([]string)...)
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}
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if len(lnHosts) == 0 {
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lnHosts = []string{""}
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}
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// use a map to prevent duplication
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listeners := make(map[string]struct{})
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for _, host := range lnHosts {
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addr, err := caddy.ParseNetworkAddress(host)
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if err == nil && addr.IsUnixNetwork() {
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listeners[host] = struct{}{}
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} else {
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listeners[net.JoinHostPort(host, lnPort)] = struct{}{}
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}
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}
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// now turn map into list
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listenersList := make([]string, 0, len(listeners))
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for lnStr := range listeners {
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listenersList = append(listenersList, lnStr)
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}
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return listenersList, nil
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}
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// Address represents a site address. It contains
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// the original input value, and the component
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// parts of an address. The component parts may be
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// updated to the correct values as setup proceeds,
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// but the original value should never be changed.
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//
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// The Host field must be in a normalized form.
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type Address struct {
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Original, Scheme, Host, Port, Path string
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}
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// ParseAddress parses an address string into a structured format with separate
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// scheme, host, port, and path portions, as well as the original input string.
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func ParseAddress(str string) (Address, error) {
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const maxLen = 4096
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if len(str) > maxLen {
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str = str[:maxLen]
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}
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remaining := strings.TrimSpace(str)
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a := Address{Original: remaining}
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// extract scheme
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splitScheme := strings.SplitN(remaining, "://", 2)
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switch len(splitScheme) {
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case 0:
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return a, nil
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case 1:
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remaining = splitScheme[0]
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case 2:
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a.Scheme = splitScheme[0]
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remaining = splitScheme[1]
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}
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// extract host and port
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hostSplit := strings.SplitN(remaining, "/", 2)
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if len(hostSplit) > 0 {
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host, port, err := net.SplitHostPort(hostSplit[0])
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if err != nil {
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host, port, err = net.SplitHostPort(hostSplit[0] + ":")
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if err != nil {
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host = hostSplit[0]
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}
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}
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a.Host = host
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a.Port = port
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}
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if len(hostSplit) == 2 {
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// all that remains is the path
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a.Path = "/" + hostSplit[1]
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}
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// make sure port is valid
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if a.Port != "" {
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if portNum, err := strconv.Atoi(a.Port); err != nil {
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return Address{}, fmt.Errorf("invalid port '%s': %v", a.Port, err)
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} else if portNum < 0 || portNum > 65535 {
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return Address{}, fmt.Errorf("port %d is out of range", portNum)
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}
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}
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return a, nil
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}
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// String returns a human-readable form of a. It will
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// be a cleaned-up and filled-out URL string.
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func (a Address) String() string {
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if a.Host == "" && a.Port == "" {
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return ""
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}
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scheme := a.Scheme
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if scheme == "" {
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if a.Port == strconv.Itoa(certmagic.HTTPSPort) {
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scheme = "https"
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} else {
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scheme = "http"
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}
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}
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s := scheme
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if s != "" {
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s += "://"
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}
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if a.Port != "" &&
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((scheme == "https" && a.Port != strconv.Itoa(caddyhttp.DefaultHTTPSPort)) ||
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(scheme == "http" && a.Port != strconv.Itoa(caddyhttp.DefaultHTTPPort))) {
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s += net.JoinHostPort(a.Host, a.Port)
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} else {
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s += a.Host
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}
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if a.Path != "" {
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s += a.Path
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}
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return s
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}
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// Normalize returns a normalized version of a.
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func (a Address) Normalize() Address {
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path := a.Path
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// ensure host is normalized if it's an IP address
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host := strings.TrimSpace(a.Host)
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if ip := net.ParseIP(host); ip != nil {
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host = ip.String()
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}
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return Address{
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Original: a.Original,
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Scheme: lowerExceptPlaceholders(a.Scheme),
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Host: lowerExceptPlaceholders(host),
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Port: a.Port,
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Path: path,
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}
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}
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// Key returns a string form of a, much like String() does, but this
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// method doesn't add anything default that wasn't in the original.
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func (a Address) Key() string {
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res := ""
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if a.Scheme != "" {
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res += a.Scheme + "://"
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}
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if a.Host != "" {
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res += a.Host
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}
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// insert port only if the original has its own explicit port
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if a.Port != "" &&
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len(a.Original) >= len(res) &&
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strings.HasPrefix(a.Original[len(res):], ":"+a.Port) {
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res += ":" + a.Port
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}
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if a.Path != "" {
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res += a.Path
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}
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return res
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}
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// lowerExceptPlaceholders lowercases s except within
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// placeholders (substrings in non-escaped '{ }' spans).
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// See https://github.com/caddyserver/caddy/issues/3264
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func lowerExceptPlaceholders(s string) string {
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var sb strings.Builder
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var escaped, inPlaceholder bool
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for _, ch := range s {
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if ch == '\\' && !escaped {
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escaped = true
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sb.WriteRune(ch)
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continue
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}
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if ch == '{' && !escaped {
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inPlaceholder = true
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}
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if ch == '}' && inPlaceholder && !escaped {
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inPlaceholder = false
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}
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if inPlaceholder {
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sb.WriteRune(ch)
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} else {
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sb.WriteRune(unicode.ToLower(ch))
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}
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escaped = false
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}
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return sb.String()
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}
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