caddy/modules/caddyhttp/fileserver/matcher.go
Kévin Dunglas efd9251ad3
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fileserver: Add first_exist_fallback strategy for try_files (#6699)
* feat: add first_exist_or_fallback strategy for try_files

* fix tests

* linter
2024-12-03 05:44:49 -07:00

737 lines
22 KiB
Go

// 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 fileserver
import (
"fmt"
"io/fs"
"net/http"
"os"
"path"
"path/filepath"
"runtime"
"strconv"
"strings"
"github.com/google/cel-go/cel"
"github.com/google/cel-go/common"
"github.com/google/cel-go/common/ast"
"github.com/google/cel-go/common/operators"
"github.com/google/cel-go/common/types"
"github.com/google/cel-go/common/types/ref"
"github.com/google/cel-go/parser"
"go.uber.org/zap"
"go.uber.org/zap/zapcore"
"github.com/caddyserver/caddy/v2"
"github.com/caddyserver/caddy/v2/caddyconfig/caddyfile"
"github.com/caddyserver/caddy/v2/modules/caddyhttp"
)
func init() {
caddy.RegisterModule(MatchFile{})
}
// MatchFile is an HTTP request matcher that can match
// requests based upon file existence.
//
// Upon matching, three new placeholders will be made
// available:
//
// - `{http.matchers.file.relative}` The root-relative
// path of the file. This is often useful when rewriting
// requests.
// - `{http.matchers.file.absolute}` The absolute path
// of the matched file.
// - `{http.matchers.file.type}` Set to "directory" if
// the matched file is a directory, "file" otherwise.
// - `{http.matchers.file.remainder}` Set to the remainder
// of the path if the path was split by `split_path`.
//
// Even though file matching may depend on the OS path
// separator, the placeholder values always use /.
type MatchFile struct {
// The file system implementation to use. By default, the
// local disk file system will be used.
FileSystem string `json:"fs,omitempty"`
// The root directory, used for creating absolute
// file paths, and required when working with
// relative paths; if not specified, `{http.vars.root}`
// will be used, if set; otherwise, the current
// directory is assumed. Accepts placeholders.
Root string `json:"root,omitempty"`
// The list of files to try. Each path here is
// considered related to Root. If nil, the request
// URL's path will be assumed. Files and
// directories are treated distinctly, so to match
// a directory, the filepath MUST end in a forward
// slash `/`. To match a regular file, there must
// be no trailing slash. Accepts placeholders. If
// the policy is "first_exist", then an error may
// be triggered as a fallback by configuring "="
// followed by a status code number,
// for example "=404".
TryFiles []string `json:"try_files,omitempty"`
// How to choose a file in TryFiles. Can be:
//
// - first_exist
// - first_exist_fallback
// - smallest_size
// - largest_size
// - most_recently_modified
//
// Default is first_exist.
TryPolicy string `json:"try_policy,omitempty"`
// A list of delimiters to use to split the path in two
// when trying files. If empty, no splitting will
// occur, and the path will be tried as-is. For each
// split value, the left-hand side of the split,
// including the split value, will be the path tried.
// For example, the path `/remote.php/dav/` using the
// split value `.php` would try the file `/remote.php`.
// Each delimiter must appear at the end of a URI path
// component in order to be used as a split delimiter.
SplitPath []string `json:"split_path,omitempty"`
fsmap caddy.FileSystems
logger *zap.Logger
}
// CaddyModule returns the Caddy module information.
func (MatchFile) CaddyModule() caddy.ModuleInfo {
return caddy.ModuleInfo{
ID: "http.matchers.file",
New: func() caddy.Module { return new(MatchFile) },
}
}
// UnmarshalCaddyfile sets up the matcher from Caddyfile tokens. Syntax:
//
// file <files...> {
// root <path>
// try_files <files...>
// try_policy first_exist|smallest_size|largest_size|most_recently_modified
// }
func (m *MatchFile) UnmarshalCaddyfile(d *caddyfile.Dispenser) error {
// iterate to merge multiple matchers into one
for d.Next() {
m.TryFiles = append(m.TryFiles, d.RemainingArgs()...)
for d.NextBlock(0) {
switch d.Val() {
case "root":
if !d.NextArg() {
return d.ArgErr()
}
m.Root = d.Val()
case "try_files":
m.TryFiles = append(m.TryFiles, d.RemainingArgs()...)
if len(m.TryFiles) == 0 {
return d.ArgErr()
}
case "try_policy":
if !d.NextArg() {
return d.ArgErr()
}
m.TryPolicy = d.Val()
case "split_path":
m.SplitPath = d.RemainingArgs()
if len(m.SplitPath) == 0 {
return d.ArgErr()
}
default:
return d.Errf("unrecognized subdirective: %s", d.Val())
}
}
}
return nil
}
// CELLibrary produces options that expose this matcher for use in CEL
// expression matchers.
//
// Example:
//
// expression file()
// expression file({http.request.uri.path}, '/index.php')
// expression file({'root': '/srv', 'try_files': [{http.request.uri.path}, '/index.php'], 'try_policy': 'first_exist', 'split_path': ['.php']})
func (MatchFile) CELLibrary(ctx caddy.Context) (cel.Library, error) {
requestType := cel.ObjectType("http.Request")
matcherFactory := func(data ref.Val) (caddyhttp.RequestMatcherWithError, error) {
values, err := caddyhttp.CELValueToMapStrList(data)
if err != nil {
return nil, err
}
var root string
if len(values["root"]) > 0 {
root = values["root"][0]
}
var fsName string
if len(values["fs"]) > 0 {
fsName = values["fs"][0]
}
var try_policy string
if len(values["try_policy"]) > 0 {
try_policy = values["try_policy"][0]
}
m := MatchFile{
Root: root,
TryFiles: values["try_files"],
TryPolicy: try_policy,
SplitPath: values["split_path"],
FileSystem: fsName,
}
err = m.Provision(ctx)
return m, err
}
envOptions := []cel.EnvOption{
cel.Macros(parser.NewGlobalVarArgMacro("file", celFileMatcherMacroExpander())),
cel.Function("file", cel.Overload("file_request_map", []*cel.Type{requestType, caddyhttp.CELTypeJSON}, cel.BoolType)),
cel.Function("file_request_map",
cel.Overload("file_request_map", []*cel.Type{requestType, caddyhttp.CELTypeJSON}, cel.BoolType),
cel.SingletonBinaryBinding(caddyhttp.CELMatcherRuntimeFunction("file_request_map", matcherFactory))),
}
programOptions := []cel.ProgramOption{
cel.CustomDecorator(caddyhttp.CELMatcherDecorator("file_request_map", matcherFactory)),
}
return caddyhttp.NewMatcherCELLibrary(envOptions, programOptions), nil
}
func celFileMatcherMacroExpander() parser.MacroExpander {
return func(eh parser.ExprHelper, target ast.Expr, args []ast.Expr) (ast.Expr, *common.Error) {
if len(args) == 0 {
return eh.NewCall("file",
eh.NewIdent(caddyhttp.CELRequestVarName),
eh.NewMap(),
), nil
}
if len(args) == 1 {
arg := args[0]
if isCELStringLiteral(arg) || isCELCaddyPlaceholderCall(arg) {
return eh.NewCall("file",
eh.NewIdent(caddyhttp.CELRequestVarName),
eh.NewMap(eh.NewMapEntry(
eh.NewLiteral(types.String("try_files")),
eh.NewList(arg),
false,
)),
), nil
}
if isCELTryFilesLiteral(arg) {
return eh.NewCall("file", eh.NewIdent(caddyhttp.CELRequestVarName), arg), nil
}
return nil, &common.Error{
Location: eh.OffsetLocation(arg.ID()),
Message: "matcher requires either a map or string literal argument",
}
}
for _, arg := range args {
if !(isCELStringLiteral(arg) || isCELCaddyPlaceholderCall(arg)) {
return nil, &common.Error{
Location: eh.OffsetLocation(arg.ID()),
Message: "matcher only supports repeated string literal arguments",
}
}
}
return eh.NewCall("file",
eh.NewIdent(caddyhttp.CELRequestVarName),
eh.NewMap(eh.NewMapEntry(
eh.NewLiteral(types.String("try_files")),
eh.NewList(args...),
false,
)),
), nil
}
}
// Provision sets up m's defaults.
func (m *MatchFile) Provision(ctx caddy.Context) error {
m.logger = ctx.Logger()
m.fsmap = ctx.Filesystems()
if m.Root == "" {
m.Root = "{http.vars.root}"
}
if m.FileSystem == "" {
m.FileSystem = "{http.vars.fs}"
}
// if list of files to try was omitted entirely, assume URL path
// (use placeholder instead of r.URL.Path; see issue #4146)
if m.TryFiles == nil {
m.TryFiles = []string{"{http.request.uri.path}"}
}
return nil
}
// Validate ensures m has a valid configuration.
func (m MatchFile) Validate() error {
switch m.TryPolicy {
case "",
tryPolicyFirstExist,
tryPolicyLargestSize,
tryPolicySmallestSize,
tryPolicyMostRecentlyMod:
default:
return fmt.Errorf("unknown try policy %s", m.TryPolicy)
}
return nil
}
// Match returns true if r matches m. Returns true
// if a file was matched. If so, four placeholders
// will be available:
// - http.matchers.file.relative: Path to file relative to site root
// - http.matchers.file.absolute: Path to file including site root
// - http.matchers.file.type: file or directory
// - http.matchers.file.remainder: Portion remaining after splitting file path (if configured)
func (m MatchFile) Match(r *http.Request) bool {
match, err := m.selectFile(r)
if err != nil {
// nolint:staticcheck
caddyhttp.SetVar(r.Context(), caddyhttp.MatcherErrorVarKey, err)
}
return match
}
// MatchWithError returns true if r matches m.
func (m MatchFile) MatchWithError(r *http.Request) (bool, error) {
return m.selectFile(r)
}
// selectFile chooses a file according to m.TryPolicy by appending
// the paths in m.TryFiles to m.Root, with placeholder replacements.
func (m MatchFile) selectFile(r *http.Request) (bool, error) {
repl := r.Context().Value(caddy.ReplacerCtxKey).(*caddy.Replacer)
root := filepath.Clean(repl.ReplaceAll(m.Root, "."))
fsName := repl.ReplaceAll(m.FileSystem, "")
fileSystem, ok := m.fsmap.Get(fsName)
if !ok {
if c := m.logger.Check(zapcore.ErrorLevel, "use of unregistered filesystem"); c != nil {
c.Write(zap.String("fs", fsName))
}
return false, nil
}
type matchCandidate struct {
fullpath, relative, splitRemainder string
}
// makeCandidates evaluates placeholders in file and expands any glob expressions
// to build a list of file candidates. Special glob characters are escaped in
// placeholder replacements so globs cannot be expanded from placeholders, and
// globs are not evaluated on Windows because of its path separator character:
// escaping is not supported so we can't safely glob on Windows, or we can't
// support placeholders on Windows (pick one). (Actually, evaluating untrusted
// globs is not the end of the world since the file server will still hide any
// hidden files, it just might lead to unexpected behavior.)
makeCandidates := func(file string) []matchCandidate {
// first, evaluate placeholders in the file pattern
expandedFile, err := repl.ReplaceFunc(file, func(variable string, val any) (any, error) {
if runtime.GOOS == "windows" {
return val, nil
}
switch v := val.(type) {
case string:
return globSafeRepl.Replace(v), nil
case fmt.Stringer:
return globSafeRepl.Replace(v.String()), nil
}
return val, nil
})
if err != nil {
if c := m.logger.Check(zapcore.ErrorLevel, "evaluating placeholders"); c != nil {
c.Write(zap.Error(err))
}
expandedFile = file // "oh well," I guess?
}
// clean the path and split, if configured -- we must split before
// globbing so that the file system doesn't include the remainder
// ("afterSplit") in the filename; be sure to restore trailing slash
beforeSplit, afterSplit := m.firstSplit(path.Clean(expandedFile))
if strings.HasSuffix(file, "/") {
beforeSplit += "/"
}
// create the full path to the file by prepending the site root
fullPattern := caddyhttp.SanitizedPathJoin(root, beforeSplit)
// expand glob expressions, but not on Windows because Glob() doesn't
// support escaping on Windows due to path separator)
var globResults []string
if runtime.GOOS == "windows" {
globResults = []string{fullPattern} // precious Windows
} else {
globResults, err = fs.Glob(fileSystem, fullPattern)
if err != nil {
if c := m.logger.Check(zapcore.ErrorLevel, "expanding glob"); c != nil {
c.Write(zap.Error(err))
}
}
}
// for each glob result, combine all the forms of the path
var candidates []matchCandidate
for _, result := range globResults {
candidates = append(candidates, matchCandidate{
fullpath: result,
relative: strings.TrimPrefix(result, root),
splitRemainder: afterSplit,
})
}
return candidates
}
// setPlaceholders creates the placeholders for the matched file
setPlaceholders := func(candidate matchCandidate, isDir bool) {
repl.Set("http.matchers.file.relative", filepath.ToSlash(candidate.relative))
repl.Set("http.matchers.file.absolute", filepath.ToSlash(candidate.fullpath))
repl.Set("http.matchers.file.remainder", filepath.ToSlash(candidate.splitRemainder))
fileType := "file"
if isDir {
fileType = "directory"
}
repl.Set("http.matchers.file.type", fileType)
}
// match file according to the configured policy
switch m.TryPolicy {
case "", tryPolicyFirstExist, tryPolicyFirstExistFallback:
maxI := -1
if m.TryPolicy == tryPolicyFirstExistFallback {
maxI = len(m.TryFiles) - 1
}
for i, pattern := range m.TryFiles {
// If the pattern is a status code, emit an error,
// which short-circuits the middleware pipeline and
// writes an HTTP error response.
if err := parseErrorCode(pattern); err != nil {
return false, err
}
candidates := makeCandidates(pattern)
for _, c := range candidates {
// Skip the IO if using fallback policy and it's the latest item
if i == maxI {
setPlaceholders(c, false)
return true, nil
}
if info, exists := m.strictFileExists(fileSystem, c.fullpath); exists {
setPlaceholders(c, info.IsDir())
return true, nil
}
}
}
case tryPolicyLargestSize:
var largestSize int64
var largest matchCandidate
var largestInfo os.FileInfo
for _, pattern := range m.TryFiles {
candidates := makeCandidates(pattern)
for _, c := range candidates {
info, err := fs.Stat(fileSystem, c.fullpath)
if err == nil && info.Size() > largestSize {
largestSize = info.Size()
largest = c
largestInfo = info
}
}
}
if largestInfo == nil {
return false, nil
}
setPlaceholders(largest, largestInfo.IsDir())
return true, nil
case tryPolicySmallestSize:
var smallestSize int64
var smallest matchCandidate
var smallestInfo os.FileInfo
for _, pattern := range m.TryFiles {
candidates := makeCandidates(pattern)
for _, c := range candidates {
info, err := fs.Stat(fileSystem, c.fullpath)
if err == nil && (smallestSize == 0 || info.Size() < smallestSize) {
smallestSize = info.Size()
smallest = c
smallestInfo = info
}
}
}
if smallestInfo == nil {
return false, nil
}
setPlaceholders(smallest, smallestInfo.IsDir())
return true, nil
case tryPolicyMostRecentlyMod:
var recent matchCandidate
var recentInfo os.FileInfo
for _, pattern := range m.TryFiles {
candidates := makeCandidates(pattern)
for _, c := range candidates {
info, err := fs.Stat(fileSystem, c.fullpath)
if err == nil &&
(recentInfo == nil || info.ModTime().After(recentInfo.ModTime())) {
recent = c
recentInfo = info
}
}
}
if recentInfo == nil {
return false, nil
}
setPlaceholders(recent, recentInfo.IsDir())
return true, nil
}
return false, nil
}
// parseErrorCode checks if the input is a status
// code number, prefixed by "=", and returns an
// error if so.
func parseErrorCode(input string) error {
if len(input) > 1 && input[0] == '=' {
code, err := strconv.Atoi(input[1:])
if err != nil || code < 100 || code > 999 {
return nil
}
return caddyhttp.Error(code, fmt.Errorf("%s", input[1:]))
}
return nil
}
// strictFileExists returns true if file exists
// and matches the convention of the given file
// path. If the path ends in a forward slash,
// the file must also be a directory; if it does
// NOT end in a forward slash, the file must NOT
// be a directory.
func (m MatchFile) strictFileExists(fileSystem fs.FS, file string) (os.FileInfo, bool) {
info, err := fs.Stat(fileSystem, file)
if err != nil {
// in reality, this can be any error
// such as permission or even obscure
// ones like "is not a directory" (when
// trying to stat a file within a file);
// in those cases we can't be sure if
// the file exists, so we just treat any
// error as if it does not exist; see
// https://stackoverflow.com/a/12518877/1048862
return nil, false
}
if strings.HasSuffix(file, separator) {
// by convention, file paths ending
// in a path separator must be a directory
return info, info.IsDir()
}
// by convention, file paths NOT ending
// in a path separator must NOT be a directory
return info, !info.IsDir()
}
// firstSplit returns the first result where the path
// can be split in two by a value in m.SplitPath. The
// return values are the first piece of the path that
// ends with the split substring and the remainder.
// If the path cannot be split, the path is returned
// as-is (with no remainder).
func (m MatchFile) firstSplit(path string) (splitPart, remainder string) {
for _, split := range m.SplitPath {
if idx := indexFold(path, split); idx > -1 {
pos := idx + len(split)
// skip the split if it's not the final part of the filename
if pos != len(path) && !strings.HasPrefix(path[pos:], "/") {
continue
}
return path[:pos], path[pos:]
}
}
return path, ""
}
// There is no strings.IndexFold() function like there is strings.EqualFold(),
// but we can use strings.EqualFold() to build our own case-insensitive
// substring search (as of Go 1.14).
func indexFold(haystack, needle string) int {
nlen := len(needle)
for i := 0; i+nlen < len(haystack); i++ {
if strings.EqualFold(haystack[i:i+nlen], needle) {
return i
}
}
return -1
}
// isCELTryFilesLiteral returns whether the expression resolves to a map literal containing
// only string keys with or a placeholder call.
func isCELTryFilesLiteral(e ast.Expr) bool {
switch e.Kind() {
case ast.MapKind:
mapExpr := e.AsMap()
for _, entry := range mapExpr.Entries() {
mapKey := entry.AsMapEntry().Key()
mapVal := entry.AsMapEntry().Value()
if !isCELStringLiteral(mapKey) {
return false
}
mapKeyStr := mapKey.AsLiteral().ConvertToType(types.StringType).Value()
if mapKeyStr == "try_files" || mapKeyStr == "split_path" {
if !isCELStringListLiteral(mapVal) {
return false
}
} else if mapKeyStr == "try_policy" || mapKeyStr == "root" {
if !(isCELStringExpr(mapVal)) {
return false
}
} else {
return false
}
}
return true
case ast.UnspecifiedExprKind, ast.CallKind, ast.ComprehensionKind, ast.IdentKind, ast.ListKind, ast.LiteralKind, ast.SelectKind, ast.StructKind:
// appeasing the linter :)
}
return false
}
// isCELStringExpr indicates whether the expression is a supported string expression
func isCELStringExpr(e ast.Expr) bool {
return isCELStringLiteral(e) || isCELCaddyPlaceholderCall(e) || isCELConcatCall(e)
}
// isCELStringLiteral returns whether the expression is a CEL string literal.
func isCELStringLiteral(e ast.Expr) bool {
switch e.Kind() {
case ast.LiteralKind:
constant := e.AsLiteral()
switch constant.Type() {
case types.StringType:
return true
}
case ast.UnspecifiedExprKind, ast.CallKind, ast.ComprehensionKind, ast.IdentKind, ast.ListKind, ast.MapKind, ast.SelectKind, ast.StructKind:
// appeasing the linter :)
}
return false
}
// isCELCaddyPlaceholderCall returns whether the expression is a caddy placeholder call.
func isCELCaddyPlaceholderCall(e ast.Expr) bool {
switch e.Kind() {
case ast.CallKind:
call := e.AsCall()
if call.FunctionName() == caddyhttp.CELPlaceholderFuncName {
return true
}
case ast.UnspecifiedExprKind, ast.ComprehensionKind, ast.IdentKind, ast.ListKind, ast.LiteralKind, ast.MapKind, ast.SelectKind, ast.StructKind:
// appeasing the linter :)
}
return false
}
// isCELConcatCall tests whether the expression is a concat function (+) with string, placeholder, or
// other concat call arguments.
func isCELConcatCall(e ast.Expr) bool {
switch e.Kind() {
case ast.CallKind:
call := e.AsCall()
if call.Target().Kind() != ast.UnspecifiedExprKind {
return false
}
if call.FunctionName() != operators.Add {
return false
}
for _, arg := range call.Args() {
if !isCELStringExpr(arg) {
return false
}
}
return true
case ast.UnspecifiedExprKind, ast.ComprehensionKind, ast.IdentKind, ast.ListKind, ast.LiteralKind, ast.MapKind, ast.SelectKind, ast.StructKind:
// appeasing the linter :)
}
return false
}
// isCELStringListLiteral returns whether the expression resolves to a list literal
// containing only string constants or a placeholder call.
func isCELStringListLiteral(e ast.Expr) bool {
switch e.Kind() {
case ast.ListKind:
list := e.AsList()
for _, elem := range list.Elements() {
if !isCELStringExpr(elem) {
return false
}
}
return true
case ast.UnspecifiedExprKind, ast.CallKind, ast.ComprehensionKind, ast.IdentKind, ast.LiteralKind, ast.MapKind, ast.SelectKind, ast.StructKind:
// appeasing the linter :)
}
return false
}
// globSafeRepl replaces special glob characters with escaped
// equivalents. Note that the filepath godoc states that
// escaping is not done on Windows because of the separator.
var globSafeRepl = strings.NewReplacer(
"*", "\\*",
"[", "\\[",
"?", "\\?",
)
const (
tryPolicyFirstExist = "first_exist"
tryPolicyFirstExistFallback = "first_exist_fallback"
tryPolicyLargestSize = "largest_size"
tryPolicySmallestSize = "smallest_size"
tryPolicyMostRecentlyMod = "most_recently_modified"
)
// Interface guards
var (
_ caddy.Validator = (*MatchFile)(nil)
_ caddyhttp.RequestMatcherWithError = (*MatchFile)(nil)
_ caddyhttp.CELLibraryProducer = (*MatchFile)(nil)
)