angular-cn/modules/@angular/compiler/src/url_resolver.ts

358 lines
10 KiB
TypeScript

/**
* @license
* Copyright Google Inc. All Rights Reserved.
*
* Use of this source code is governed by an MIT-style license that can be
* found in the LICENSE file at https://angular.io/license
*/
import {Inject, Injectable, PACKAGE_ROOT_URL} from '@angular/core';
import {StringWrapper, isBlank, isPresent} from './facade/lang';
const _ASSET_SCHEME = 'asset:';
/**
* Create a {@link UrlResolver} with no package prefix.
*/
export function createUrlResolverWithoutPackagePrefix(): UrlResolver {
return new UrlResolver();
}
export function createOfflineCompileUrlResolver(): UrlResolver {
return new UrlResolver(_ASSET_SCHEME);
}
/**
* A default provider for {@link PACKAGE_ROOT_URL} that maps to '/'.
*/
export var DEFAULT_PACKAGE_URL_PROVIDER = {
provide: PACKAGE_ROOT_URL,
useValue: '/'
};
/**
* Used by the {@link Compiler} when resolving HTML and CSS template URLs.
*
* This class can be overridden by the application developer to create custom behavior.
*
* See {@link Compiler}
*
* ## Example
*
* {@example compiler/ts/url_resolver/url_resolver.ts region='url_resolver'}
*
* @security When compiling templates at runtime, you must
* ensure that the entire template comes from a trusted source.
* Attacker-controlled data introduced by a template could expose your
* application to XSS risks. For more detail, see the [Security Guide](http://g.co/ng/security).
*/
@Injectable()
export class UrlResolver {
constructor(@Inject(PACKAGE_ROOT_URL) private _packagePrefix: string = null) {}
/**
* Resolves the `url` given the `baseUrl`:
* - when the `url` is null, the `baseUrl` is returned,
* - if `url` is relative ('path/to/here', './path/to/here'), the resolved url is a combination of
* `baseUrl` and `url`,
* - if `url` is absolute (it has a scheme: 'http://', 'https://' or start with '/'), the `url` is
* returned as is (ignoring the `baseUrl`)
*/
resolve(baseUrl: string, url: string): string {
var resolvedUrl = url;
if (isPresent(baseUrl) && baseUrl.length > 0) {
resolvedUrl = _resolveUrl(baseUrl, resolvedUrl);
}
var resolvedParts = _split(resolvedUrl);
var prefix = this._packagePrefix;
if (isPresent(prefix) && isPresent(resolvedParts) &&
resolvedParts[_ComponentIndex.Scheme] == 'package') {
var path = resolvedParts[_ComponentIndex.Path];
if (this._packagePrefix === _ASSET_SCHEME) {
var pathSegements = path.split(/\//);
resolvedUrl = `asset:${pathSegements[0]}/lib/${pathSegements.slice(1).join('/')}`;
} else {
prefix = StringWrapper.stripRight(prefix, '/');
path = StringWrapper.stripLeft(path, '/');
return `${prefix}/${path}`;
}
}
return resolvedUrl;
}
}
/**
* Extract the scheme of a URL.
*/
export function getUrlScheme(url: string): string {
var match = _split(url);
return (match && match[_ComponentIndex.Scheme]) || '';
}
// The code below is adapted from Traceur:
// https://github.com/google/traceur-compiler/blob/9511c1dafa972bf0de1202a8a863bad02f0f95a8/src/runtime/url.js
/**
* Builds a URI string from already-encoded parts.
*
* No encoding is performed. Any component may be omitted as either null or
* undefined.
*
* @param opt_scheme The scheme such as 'http'.
* @param opt_userInfo The user name before the '@'.
* @param opt_domain The domain such as 'www.google.com', already
* URI-encoded.
* @param opt_port The port number.
* @param opt_path The path, already URI-encoded. If it is not
* empty, it must begin with a slash.
* @param opt_queryData The URI-encoded query data.
* @param opt_fragment The URI-encoded fragment identifier.
* @return The fully combined URI.
*/
function _buildFromEncodedParts(
opt_scheme?: string, opt_userInfo?: string, opt_domain?: string, opt_port?: string,
opt_path?: string, opt_queryData?: string, opt_fragment?: string): string {
var out: string[] = [];
if (isPresent(opt_scheme)) {
out.push(opt_scheme + ':');
}
if (isPresent(opt_domain)) {
out.push('//');
if (isPresent(opt_userInfo)) {
out.push(opt_userInfo + '@');
}
out.push(opt_domain);
if (isPresent(opt_port)) {
out.push(':' + opt_port);
}
}
if (isPresent(opt_path)) {
out.push(opt_path);
}
if (isPresent(opt_queryData)) {
out.push('?' + opt_queryData);
}
if (isPresent(opt_fragment)) {
out.push('#' + opt_fragment);
}
return out.join('');
}
/**
* A regular expression for breaking a URI into its component parts.
*
* {@link http://www.gbiv.com/protocols/uri/rfc/rfc3986.html#RFC2234} says
* As the "first-match-wins" algorithm is identical to the "greedy"
* disambiguation method used by POSIX regular expressions, it is natural and
* commonplace to use a regular expression for parsing the potential five
* components of a URI reference.
*
* The following line is the regular expression for breaking-down a
* well-formed URI reference into its components.
*
* <pre>
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
* 12 3 4 5 6 7 8 9
* </pre>
*
* The numbers in the second line above are only to assist readability; they
* indicate the reference points for each subexpression (i.e., each paired
* parenthesis). We refer to the value matched for subexpression <n> as $<n>.
* For example, matching the above expression to
* <pre>
* http://www.ics.uci.edu/pub/ietf/uri/#Related
* </pre>
* results in the following subexpression matches:
* <pre>
* $1 = http:
* $2 = http
* $3 = //www.ics.uci.edu
* $4 = www.ics.uci.edu
* $5 = /pub/ietf/uri/
* $6 = <undefined>
* $7 = <undefined>
* $8 = #Related
* $9 = Related
* </pre>
* where <undefined> indicates that the component is not present, as is the
* case for the query component in the above example. Therefore, we can
* determine the value of the five components as
* <pre>
* scheme = $2
* authority = $4
* path = $5
* query = $7
* fragment = $9
* </pre>
*
* The regular expression has been modified slightly to expose the
* userInfo, domain, and port separately from the authority.
* The modified version yields
* <pre>
* $1 = http scheme
* $2 = <undefined> userInfo -\
* $3 = www.ics.uci.edu domain | authority
* $4 = <undefined> port -/
* $5 = /pub/ietf/uri/ path
* $6 = <undefined> query without ?
* $7 = Related fragment without #
* </pre>
* @type {!RegExp}
* @internal
*/
var _splitRe = new RegExp(
'^' +
'(?:' +
'([^:/?#.]+)' + // scheme - ignore special characters
// used by other URL parts such as :,
// ?, /, #, and .
':)?' +
'(?://' +
'(?:([^/?#]*)@)?' + // userInfo
'([\\w\\d\\-\\u0100-\\uffff.%]*)' + // domain - restrict to letters,
// digits, dashes, dots, percent
// escapes, and unicode characters.
'(?::([0-9]+))?' + // port
')?' +
'([^?#]+)?' + // path
'(?:\\?([^#]*))?' + // query
'(?:#(.*))?' + // fragment
'$');
/**
* The index of each URI component in the return value of goog.uri.utils.split.
* @enum {number}
*/
enum _ComponentIndex {
Scheme = 1,
UserInfo,
Domain,
Port,
Path,
QueryData,
Fragment
}
/**
* Splits a URI into its component parts.
*
* Each component can be accessed via the component indices; for example:
* <pre>
* goog.uri.utils.split(someStr)[goog.uri.utils.CompontentIndex.QUERY_DATA];
* </pre>
*
* @param uri The URI string to examine.
* @return Each component still URI-encoded.
* Each component that is present will contain the encoded value, whereas
* components that are not present will be undefined or empty, depending
* on the browser's regular expression implementation. Never null, since
* arbitrary strings may still look like path names.
*/
function _split(uri: string): Array<string|any> {
return uri.match(_splitRe);
}
/**
* Removes dot segments in given path component, as described in
* RFC 3986, section 5.2.4.
*
* @param path A non-empty path component.
* @return Path component with removed dot segments.
*/
function _removeDotSegments(path: string): string {
if (path == '/') return '/';
var leadingSlash = path[0] == '/' ? '/' : '';
var trailingSlash = path[path.length - 1] === '/' ? '/' : '';
var segments = path.split('/');
var out: string[] = [];
var up = 0;
for (var pos = 0; pos < segments.length; pos++) {
var segment = segments[pos];
switch (segment) {
case '':
case '.':
break;
case '..':
if (out.length > 0) {
out.pop();
} else {
up++;
}
break;
default:
out.push(segment);
}
}
if (leadingSlash == '') {
while (up-- > 0) {
out.unshift('..');
}
if (out.length === 0) out.push('.');
}
return leadingSlash + out.join('/') + trailingSlash;
}
/**
* Takes an array of the parts from split and canonicalizes the path part
* and then joins all the parts.
*/
function _joinAndCanonicalizePath(parts: any[]): string {
var path = parts[_ComponentIndex.Path];
path = isBlank(path) ? '' : _removeDotSegments(path);
parts[_ComponentIndex.Path] = path;
return _buildFromEncodedParts(
parts[_ComponentIndex.Scheme], parts[_ComponentIndex.UserInfo], parts[_ComponentIndex.Domain],
parts[_ComponentIndex.Port], path, parts[_ComponentIndex.QueryData],
parts[_ComponentIndex.Fragment]);
}
/**
* Resolves a URL.
* @param base The URL acting as the base URL.
* @param to The URL to resolve.
*/
function _resolveUrl(base: string, url: string): string {
var parts = _split(encodeURI(url));
var baseParts = _split(base);
if (isPresent(parts[_ComponentIndex.Scheme])) {
return _joinAndCanonicalizePath(parts);
} else {
parts[_ComponentIndex.Scheme] = baseParts[_ComponentIndex.Scheme];
}
for (var i = _ComponentIndex.Scheme; i <= _ComponentIndex.Port; i++) {
if (isBlank(parts[i])) {
parts[i] = baseParts[i];
}
}
if (parts[_ComponentIndex.Path][0] == '/') {
return _joinAndCanonicalizePath(parts);
}
var path = baseParts[_ComponentIndex.Path];
if (isBlank(path)) path = '/';
var index = path.lastIndexOf('/');
path = path.substring(0, index + 1) + parts[_ComponentIndex.Path];
parts[_ComponentIndex.Path] = path;
return _joinAndCanonicalizePath(parts);
}