mirror of
https://github.com/caddyserver/caddy.git
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140 lines
3.9 KiB
Go
140 lines
3.9 KiB
Go
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package httpserver
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import (
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"net"
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"strings"
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)
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// vhostTrie facilitates virtual hosting. It matches
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// requests first by hostname (with support for
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// wildcards as TLS certificates support them), then
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// by longest matching path.
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type vhostTrie struct {
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edges map[string]*vhostTrie
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site *SiteConfig // also known as a virtual host
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path string // the path portion of the key for this node
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}
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// newVHostTrie returns a new vhostTrie.
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func newVHostTrie() *vhostTrie {
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return &vhostTrie{edges: make(map[string]*vhostTrie)}
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}
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// Insert adds stack to t keyed by key. The key should be
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// a valid "host/path" combination (or just host).
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func (t *vhostTrie) Insert(key string, site *SiteConfig) {
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host, path := t.splitHostPath(key)
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if _, ok := t.edges[host]; !ok {
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t.edges[host] = newVHostTrie()
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}
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t.edges[host].insertPath(path, path, site)
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}
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// insertPath expects t to be a host node (not a root node),
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// and inserts site into the t according to remainingPath.
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func (t *vhostTrie) insertPath(remainingPath, originalPath string, site *SiteConfig) {
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if remainingPath == "" {
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t.site = site
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t.path = originalPath
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return
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}
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ch := string(remainingPath[0])
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if _, ok := t.edges[ch]; !ok {
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t.edges[ch] = newVHostTrie()
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}
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t.edges[ch].insertPath(remainingPath[1:], originalPath, site)
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}
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// Match returns the virtual host (site) in v with
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// the closest match to key. If there was a match,
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// it returns the SiteConfig and the path portion of
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// the key used to make the match. The matched path
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// would be a prefix of the path portion of the
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// key, if not the whole path portion of the key.
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// If there is no match, nil and empty string will
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// be returned.
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//
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// A typical key will be in the form "host" or "host/path".
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func (t *vhostTrie) Match(key string) (*SiteConfig, string) {
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host, path := t.splitHostPath(key)
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// try the given host, then, if no match, try wildcard hosts
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branch := t.matchHost(host)
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if branch == nil {
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branch = t.matchHost("0.0.0.0")
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}
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if branch == nil {
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branch = t.matchHost("")
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}
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if branch == nil {
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return nil, ""
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}
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node := branch.matchPath(path)
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if node == nil {
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return nil, ""
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}
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return node.site, node.path
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}
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// matchHost returns the vhostTrie matching host. The matching
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// algorithm is the same as used to match certificates to host
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// with SNI during TLS handshakes. In other words, it supports,
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// to some degree, the use of wildcard (*) characters.
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func (t *vhostTrie) matchHost(host string) *vhostTrie {
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// try exact match
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if subtree, ok := t.edges[host]; ok {
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return subtree
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}
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// then try replacing labels in the host
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// with wildcards until we get a match
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labels := strings.Split(host, ".")
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for i := range labels {
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labels[i] = "*"
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candidate := strings.Join(labels, ".")
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if subtree, ok := t.edges[candidate]; ok {
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return subtree
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}
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}
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return nil
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}
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// matchPath traverses t until it finds the longest key matching
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// remainingPath, and returns its node.
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func (t *vhostTrie) matchPath(remainingPath string) *vhostTrie {
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var longestMatch *vhostTrie
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for len(remainingPath) > 0 {
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ch := string(remainingPath[0])
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next, ok := t.edges[ch]
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if !ok {
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break
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}
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if next.site != nil {
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longestMatch = next
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}
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t = next
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remainingPath = remainingPath[1:]
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}
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return longestMatch
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}
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// splitHostPath separates host from path in key.
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func (t *vhostTrie) splitHostPath(key string) (host, path string) {
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parts := strings.SplitN(key, "/", 2)
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host, path = strings.ToLower(parts[0]), "/"
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if len(parts) > 1 {
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path += parts[1]
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}
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// strip out the port (if present) from the host, since
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// each port has its own socket, and each socket has its
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// own listener, and each listener has its own server
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// instance, and each server instance has its own vhosts.
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// removing the port is a simple way to standardize so
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// when requests come in, we can be sure to get a match.
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hostname, _, err := net.SplitHostPort(host)
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if err == nil {
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host = hostname
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}
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return
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}
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