| // Copyright 2023 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| // This file implements a decision tree for fast matching of requests to |
| // patterns. |
| // |
| // The root of the tree branches on the host of the request. |
| // The next level branches on the method. |
| // The remaining levels branch on consecutive segments of the path. |
| // |
| // The "more specific wins" precedence rule can result in backtracking. |
| // For example, given the patterns |
| // /a/b/z |
| // /a/{x}/c |
| // we will first try to match the path "/a/b/c" with /a/b/z, and |
| // when that fails we will try against /a/{x}/c. |
| |
| package http |
| |
| import ( |
| "strings" |
| ) |
| |
| // A routingNode is a node in the decision tree. |
| // The same struct is used for leaf and interior nodes. |
| type routingNode struct { |
| // A leaf node holds a single pattern and the Handler it was registered |
| // with. |
| pattern *pattern |
| handler Handler |
| |
| // An interior node maps parts of the incoming request to child nodes. |
| // special children keys: |
| // "/" trailing slash (resulting from {$}) |
| // "" single wildcard |
| children mapping[string, *routingNode] |
| multiChild *routingNode // child with multi wildcard |
| emptyChild *routingNode // optimization: child with key "" |
| } |
| |
| // addPattern adds a pattern and its associated Handler to the tree |
| // at root. |
| func (root *routingNode) addPattern(p *pattern, h Handler) { |
| // First level of tree is host. |
| n := root.addChild(p.host) |
| // Second level of tree is method. |
| n = n.addChild(p.method) |
| // Remaining levels are path. |
| n.addSegments(p.segments, p, h) |
| } |
| |
| // addSegments adds the given segments to the tree rooted at n. |
| // If there are no segments, then n is a leaf node that holds |
| // the given pattern and handler. |
| func (n *routingNode) addSegments(segs []segment, p *pattern, h Handler) { |
| if len(segs) == 0 { |
| n.set(p, h) |
| return |
| } |
| seg := segs[0] |
| if seg.multi { |
| if len(segs) != 1 { |
| panic("multi wildcard not last") |
| } |
| c := &routingNode{} |
| n.multiChild = c |
| c.set(p, h) |
| } else if seg.wild { |
| n.addChild("").addSegments(segs[1:], p, h) |
| } else { |
| n.addChild(seg.s).addSegments(segs[1:], p, h) |
| } |
| } |
| |
| // set sets the pattern and handler for n, which |
| // must be a leaf node. |
| func (n *routingNode) set(p *pattern, h Handler) { |
| if n.pattern != nil || n.handler != nil { |
| panic("non-nil leaf fields") |
| } |
| n.pattern = p |
| n.handler = h |
| } |
| |
| // addChild adds a child node with the given key to n |
| // if one does not exist, and returns the child. |
| func (n *routingNode) addChild(key string) *routingNode { |
| if key == "" { |
| if n.emptyChild == nil { |
| n.emptyChild = &routingNode{} |
| } |
| return n.emptyChild |
| } |
| if c := n.findChild(key); c != nil { |
| return c |
| } |
| c := &routingNode{} |
| n.children.add(key, c) |
| return c |
| } |
| |
| // findChild returns the child of n with the given key, or nil |
| // if there is no child with that key. |
| func (n *routingNode) findChild(key string) *routingNode { |
| if key == "" { |
| return n.emptyChild |
| } |
| r, _ := n.children.find(key) |
| return r |
| } |
| |
| // match returns the leaf node under root that matches the arguments, and a list |
| // of values for pattern wildcards in the order that the wildcards appear. |
| // For example, if the request path is "/a/b/c" and the pattern is "/{x}/b/{y}", |
| // then the second return value will be []string{"a", "c"}. |
| func (root *routingNode) match(host, method, path string) (*routingNode, []string) { |
| if host != "" { |
| // There is a host. If there is a pattern that specifies that host and it |
| // matches, we are done. If the pattern doesn't match, fall through to |
| // try patterns with no host. |
| if l, m := root.findChild(host).matchMethodAndPath(method, path); l != nil { |
| return l, m |
| } |
| } |
| return root.emptyChild.matchMethodAndPath(method, path) |
| } |
| |
| // matchMethodAndPath matches the method and path. |
| // Its return values are the same as [routingNode.match]. |
| // The receiver should be a child of the root. |
| func (n *routingNode) matchMethodAndPath(method, path string) (*routingNode, []string) { |
| if n == nil { |
| return nil, nil |
| } |
| if l, m := n.findChild(method).matchPath(path, nil); l != nil { |
| // Exact match of method name. |
| return l, m |
| } |
| if method == "HEAD" { |
| // GET matches HEAD too. |
| if l, m := n.findChild("GET").matchPath(path, nil); l != nil { |
| return l, m |
| } |
| } |
| // No exact match; try patterns with no method. |
| return n.emptyChild.matchPath(path, nil) |
| } |
| |
| // matchPath matches a path. |
| // Its return values are the same as [routingNode.match]. |
| // matchPath calls itself recursively. The matches argument holds the wildcard matches |
| // found so far. |
| func (n *routingNode) matchPath(path string, matches []string) (*routingNode, []string) { |
| if n == nil { |
| return nil, nil |
| } |
| // If path is empty, then we are done. |
| // If n is a leaf node, we found a match; return it. |
| // If n is an interior node (which means it has a nil pattern), |
| // then we failed to match. |
| if path == "" { |
| if n.pattern == nil { |
| return nil, nil |
| } |
| return n, matches |
| } |
| // Get the first segment of path. |
| seg, rest := firstSegment(path) |
| // First try matching against patterns that have a literal for this position. |
| // We know by construction that such patterns are more specific than those |
| // with a wildcard at this position (they are either more specific, equivalent, |
| // or overlap, and we ruled out the first two when the patterns were registered). |
| if n, m := n.findChild(seg).matchPath(rest, matches); n != nil { |
| return n, m |
| } |
| // If matching a literal fails, try again with patterns that have a single |
| // wildcard (represented by an empty string in the child mapping). |
| // Again, by construction, patterns with a single wildcard must be more specific than |
| // those with a multi wildcard. |
| // We skip this step if the segment is a trailing slash, because single wildcards |
| // don't match trailing slashes. |
| if seg != "/" { |
| if n, m := n.emptyChild.matchPath(rest, append(matches, seg)); n != nil { |
| return n, m |
| } |
| } |
| // Lastly, match the pattern (there can be at most one) that has a multi |
| // wildcard in this position to the rest of the path. |
| if c := n.multiChild; c != nil { |
| // Don't record a match for a nameless wildcard (which arises from a |
| // trailing slash in the pattern). |
| if c.pattern.lastSegment().s != "" { |
| matches = append(matches, pathUnescape(path[1:])) // remove initial slash |
| } |
| return c, matches |
| } |
| return nil, nil |
| } |
| |
| // firstSegment splits path into its first segment, and the rest. |
| // The path must begin with "/". |
| // If path consists of only a slash, firstSegment returns ("/", ""). |
| // The segment is returned unescaped, if possible. |
| func firstSegment(path string) (seg, rest string) { |
| if path == "/" { |
| return "/", "" |
| } |
| path = path[1:] // drop initial slash |
| i := strings.IndexByte(path, '/') |
| if i < 0 { |
| i = len(path) |
| } |
| return pathUnescape(path[:i]), path[i:] |
| } |
| |
| // matchingMethods adds to methodSet all the methods that would result in a |
| // match if passed to routingNode.match with the given host and path. |
| func (root *routingNode) matchingMethods(host, path string, methodSet map[string]bool) { |
| if host != "" { |
| root.findChild(host).matchingMethodsPath(path, methodSet) |
| } |
| root.emptyChild.matchingMethodsPath(path, methodSet) |
| if methodSet["GET"] { |
| methodSet["HEAD"] = true |
| } |
| } |
| |
| func (n *routingNode) matchingMethodsPath(path string, set map[string]bool) { |
| if n == nil { |
| return |
| } |
| n.children.eachPair(func(method string, c *routingNode) bool { |
| if p, _ := c.matchPath(path, nil); p != nil { |
| set[method] = true |
| } |
| return true |
| }) |
| // Don't look at the empty child. If there were an empty |
| // child, it would match on any method, but we only |
| // call this when we fail to match on a method. |
| } |