| ============================== |
| The Google URL Parsing Library |
| ============================== |
| |
| This is the Google URL Parsing Library which parses and canonicalizes URLs. |
| Please see the LICENSE.txt file for licensing information. |
| |
| Features |
| ======== |
| |
| * Easily embeddable: This library was written for a variety of client and |
| server programs in mind, so unlike most implementations of URL parsing |
| and canonicalization, it can be easily emdedded. |
| |
| * Fast: hundreds of thousands of typical URLs can be parsed and |
| canonicalized per second on a modern CPU. It is much faster than, for |
| example, calling WinInet's corresponding functions. |
| |
| * Compatible: When possible, this library has strived for IE7 compatability |
| for both general web compatability, and so IE addons or other applications |
| that communicate with or embed IE will work properly. |
| |
| It supports Unix-style file URLs, as well as the more complex rules for |
| Window file URLs. Note that total compatability is not possible (for |
| example, IE6 and IE7 disagree about how to parse certain IP addresses), |
| and that this is more strict about certain illegal, rarely used, and |
| potentially dangerous constructs such as escaped control characters in |
| host names that IE will allow. It is typically a little less strict than |
| Firefox. |
| |
| |
| Example |
| ======= |
| |
| An example implementation of a URL object that uses this library is provided |
| in src/gurl.*. This implementation uses the "application integration" layer |
| discussed below to interface with the low-level parsing and canonicalization |
| functions. |
| |
| |
| Building |
| ======== |
| |
| The canonicalization files require ICU for some UTF-8 and UTF-16 conversion |
| macros. If your project does not use ICU, it should be straightforward to |
| factor out the macros and functions used in ICU, there are only a few well- |
| isolated things that are used. |
| |
| TODO(brettw) ADD INSTRUCTIONS FOR GETTING ICU HERE! |
| |
| logging.h and logging.cc are Windows-only because the corresponding Unix |
| logging system has many dependencies. This library uses few of the logging |
| macros, and a dummy header can easily be written that defines the |
| appropriate things for Unix. |
| |
| |
| Definitions |
| =========== |
| |
| "Standard URL": A URL with an "authority", which is a hostname and optionally |
| a port, username, and password. Most URLs are standard such as HTTP and FTP. |
| |
| "File URL": A URL that references a file on disk. There are special rules for |
| this type of URL. Note that it may have a hostname! "localhost" is allowed, |
| for example "file://localhost/foo" is the same as "file:///foo". |
| |
| "Path URL": This is everything else. There is no standard on how to treat these |
| URLs, or even what they are called. This library decomposes them into a |
| scheme and a path. The path is everything following the scheme. This type of |
| URL includes "javascript", "data", and even "mailto" (although "mailto" |
| might look like a standard scheme in some respects, it is not). |
| |
| |
| Design |
| ====== |
| |
| The library is divided into four layers. They are listed here from the lowest |
| to the highest; you can use any portion of the library as long as you embed the |
| layers below it. |
| |
| 1. Parsing |
| ---------- |
| At the lowest level is the parsing code. The files encompasing this are |
| url_parse.* and the main include file is src/url_parse.h. This code will, given |
| an input string, parse it into the most likely form of a URL. |
| |
| Parsing can not fail and does no validation. The exception is the port number, |
| which it currently validates, but this is a bug. Given crazy input, the parser |
| will do its best to find the various URL components according to its rules (see |
| url_parse_unittest.cc for some examples). |
| |
| To use this, an application will typically use ExtractScheme to determine the |
| type of a given input URL, and then call one of the initialization functions: |
| "ParseStandardURL", "ParsePathURL", or "ParseFileURL". This will result in |
| a "Parsed" structure which identifies the substrings of each identified |
| component. |
| |
| 2. Canonicalization |
| ------------------- |
| At the next highest level is canonicalization. The files encompasing this are |
| url_canon.* and the main include file is src/url_canon.h. This code will |
| validate an already-parsed URL, and will convert it to a canonical form. For |
| example, this will convert host names to lowercase, convert IP addresses |
| into dotted-decimal notation, handle encoding issues, etc. |
| |
| This layer will always do its best to produce a reasonable output string, but |
| it may return that the string is invalid. For example, if there are invalid |
| characters in the host name, it will escape them or replace them with the |
| Unicode "invalid character" character, but will fail. This way, the program can |
| display error messages to the user with the output, log it, etc. and the |
| string will have some meaning. |
| |
| Canonicalized output is written to a CanonOutput object which is a simple |
| wrapper around an expanding buffer. An implementation called RawCanonOutput is |
| proivided that writes to a raw buffer with a fixed amount statically allocated |
| (for performance). Applications using STL can use StdStringCanonOutput defined |
| in url_canon_stdstring.h which writes into a std::string. |
| |
| A normal application would call one of the three high-level functions |
| "CanonicalizeStandardURL", "CanonicalizeFileURL", and CanonicalizePathURL" |
| depending on the type of URL in question. Lower-level functions are also |
| provided which will canonicalize individual parts of a URL (for example, |
| "CanonicalizeHost"). |
| |
| Part of this layer is the integration with the host system for IDN and encoding |
| conversion. An implementation that provides integration with the ICU |
| (http://www-306.ibm.com/software/globalization/icu/index.jsp) is provided in |
| src/url_canon_icu.cc. The embedder may wish to replace this file with |
| implementations of the functions for their own IDN library if they do not use |
| ICU. |
| |
| 3. Application integration |
| -------------------------- |
| The canonicalization and parsing layers do not know anything about the URI |
| schemes supported by your application. The parsing and canonicalization |
| functions are very low-level, and you must call the correct function to do the |
| work (for example, "CanonicalizeFileURL"). |
| |
| The application integration in url_util.* provides wrappers around the |
| low-level parsing and canonicalization to call the correct versions for |
| different identified schemes. Embedders will want to modify this file if |
| necessary to suit the needs of their application. |
| |
| 4. URL object |
| ------------- |
| The highest level is the "URL" object that a C++ application would use to |
| to encapsulate a URL. Embedders will typically want to provide their own URL |
| object that meets the requirements of their system. A reasonably complete |
| example implemnetation is provided in src/gurl.*. You may wish to use this |
| object, extend or modify it, or write your own. |
| |
| Whitespace |
| ---------- |
| Sometimes, you may want to remove linefeeds and tabs from the content of a URL. |
| Some web pages, for example, expect that a URL spanning two lines should be |
| treated as one with the newline removed. Depending on the source of the URLs |
| you are canonicalizing, these newlines may or may not be trimmed off. |
| |
| If you want this behavior, call RemoveURLWhitespace before parsing. This will |
| remove CR, LF and TAB from the input. Note that it preserves spaces. On typical |
| URLs, this function produces a 10-15% speed reduction, so it is optional and |
| not done automatically. The example GURL object and the url_util wrapper does |
| this for you. |
| |
| Tests |
| ===== |
| |
| There are a number of *_unittest.cc and *_perftest.cc files. These files are |
| not currently compilable as they rely on a not-included unit testing framework |
| Tests are declared like this: |
| TEST(TestCaseName, TestName) { |
| ASSERT_TRUE(a); |
| EXPECT_EQ(a, b); |
| } |
| If you would like to compile them, it should be straightforward to define |
| the TEST macro (which would declare a function by combining the two arguments) |
| and the other macros whose behavior should be self-explanatory (EXPECT is like |
| an ASSERT, but does not stop the test, if you are doing this, you probably |
| don't care about this difference). Then you would define a .cc file that |
| calls all of these functions. |