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README.txt

1                       ==============================
2                       The Google URL Parsing Library
3                       ==============================
4
5This is the Google URL Parsing Library which parses and canonicalizes URLs.
6Please see the LICENSE.txt file for licensing information.
7
8Features
9========
10
11   * Easily embeddable: This library was written for a variety of client and
12     server programs in mind, so unlike most implementations of URL parsing
13     and canonicalization, it can be easily emdedded.
14
15   * Fast: hundreds of thousands of typical URLs can be parsed and
16     canonicalized per second on a modern CPU. It is much faster than, for
17     example, calling WinInet's corresponding functions.
18
19   * Compatible: When possible, this library has strived for IE7 compatability
20     for both general web compatability, and so IE addons or other applications
21     that communicate with or embed IE will work properly.
22
23     It supports Unix-style file URLs, as well as the more complex rules for
24     Window file URLs. Note that total compatability is not possible (for
25     example, IE6 and IE7 disagree about how to parse certain IP addresses),
26     and that this is more strict about certain illegal, rarely used, and
27     potentially dangerous constructs such as escaped control characters in
28     host names that IE will allow. It is typically a little less strict than
29     Firefox.
30
31
32Example
33=======
34
35An example implementation of a URL object that uses this library is provided
36in src/gurl.*. This implementation uses the "application integration" layer
37discussed below to interface with the low-level parsing and canonicalization
38functions.
39
40
41Building
42========
43
44The canonicalization files require ICU for some UTF-8 and UTF-16 conversion
45macros. If your project does not use ICU, it should be straightforward to
46factor out the macros and functions used in ICU, there are only a few well-
47isolated things that are used.
48
49TODO(brettw) ADD INSTRUCTIONS FOR GETTING ICU HERE!
50
51logging.h and logging.cc are Windows-only because the corresponding Unix
52logging system has many dependencies. This library uses few of the logging
53macros, and a dummy header can easily be written that defines the
54appropriate things for Unix.
55
56
57Definitions
58===========
59
60"Standard URL": A URL with an "authority", which is a hostname and optionally
61   a port, username, and password. Most URLs are standard such as HTTP and FTP.
62
63"File URL": A URL that references a file on disk. There are special rules for
64   this type of URL. Note that it may have a hostname! "localhost" is allowed,
65   for example "file://localhost/foo" is the same as "file:///foo".
66
67"Path URL": This is everything else. There is no standard on how to treat these
68   URLs, or even what they are called. This library decomposes them into a
69   scheme and a path. The path is everything following the scheme. This type of
70   URL includes "javascript", "data", and even "mailto" (although "mailto"
71   might look like a standard scheme in some respects, it is not).
72
73
74Design
75======
76
77The library is divided into four layers. They are listed here from the lowest
78to the highest; you can use any portion of the library as long as you embed the
79layers below it.
80
811. Parsing
82----------
83At the lowest level is the parsing code. The files encompasing this are
84url_parse.* and the main include file is src/url_parse.h. This code will, given
85an input string, parse it into the most likely form of a URL.
86
87Parsing can not fail and does no validation. The exception is the port number,
88which it currently validates, but this is a bug. Given crazy input, the parser
89will do its best to find the various URL components according to its rules (see
90url_parse_unittest.cc for some examples).
91
92To use this, an application will typically use ExtractScheme to determine the
93type of a given input URL, and then call one of the initialization functions:
94"ParseStandardURL", "ParsePathURL", or "ParseFileURL". This will result in
95a "Parsed" structure which identifies the substrings of each identified
96component.
97
982. Canonicalization
99-------------------
100At the next highest level is canonicalization. The files encompasing this are
101url_canon.* and the main include file is src/url_canon.h. This code will
102validate an already-parsed URL, and will convert it to a canonical form. For
103example, this will convert host names to lowercase, convert IP addresses
104into dotted-decimal notation, handle encoding issues, etc.
105
106This layer will always do its best to produce a reasonable output string, but
107it may return that the string is invalid. For example, if there are invalid
108characters in the host name, it will escape them or replace them with the
109Unicode "invalid character" character, but will fail. This way, the program can
110display error messages to the user with the output, log it, etc.  and the
111string will have some meaning.
112
113Canonicalized output is written to a CanonOutput object which is a simple
114wrapper around an expanding buffer. An implementation called RawCanonOutput is
115proivided that writes to a raw buffer with a fixed amount statically allocated
116(for performance). Applications using STL can use StdStringCanonOutput defined
117in url_canon_stdstring.h which writes into a std::string.
118
119A normal application would call one of the three high-level functions
120"CanonicalizeStandardURL", "CanonicalizeFileURL", and CanonicalizePathURL"
121depending on the type of URL in question. Lower-level functions are also
122provided which will canonicalize individual parts of a URL (for example,
123"CanonicalizeHost").
124
125Part of this layer is the integration with the host system for IDN and encoding
126conversion. An implementation that provides integration with the ICU
127(http://www-306.ibm.com/software/globalization/icu/index.jsp) is provided in
128src/url_canon_icu.cc. The embedder may wish to replace this file with
129implementations of the functions for their own IDN library if they do not use
130ICU.
131
1323. Application integration
133--------------------------
134The canonicalization and parsing layers do not know anything about the URI
135schemes supported by your application. The parsing and canonicalization
136functions are very low-level, and you must call the correct function to do the
137work (for example, "CanonicalizeFileURL").
138
139The application integration in url_util.* provides wrappers around the
140low-level parsing and canonicalization to call the correct versions for
141different identified schemes.  Embedders will want to modify this file if
142necessary to suit the needs of their application.
143
1444. URL object
145-------------
146The highest level is the "URL" object that a C++ application would use to
147to encapsulate a URL. Embedders will typically want to provide their own URL
148object that meets the requirements of their system. A reasonably complete
149example implemnetation is provided in src/gurl.*. You may wish to use this
150object, extend or modify it, or write your own.
151
152Whitespace
153----------
154Sometimes, you may want to remove linefeeds and tabs from the content of a URL.
155Some web pages, for example, expect that a URL spanning two lines should be
156treated as one with the newline removed. Depending on the source of the URLs
157you are canonicalizing, these newlines may or may not be trimmed off.
158
159If you want this behavior, call RemoveURLWhitespace before parsing. This will
160remove CR, LF and TAB from the input. Note that it preserves spaces. On typical
161URLs, this function produces a 10-15% speed reduction, so it is optional and
162not done automatically. The example GURL object and the url_util wrapper does
163this for you.
164
165Tests
166=====
167
168There are a number of *_unittest.cc and *_perftest.cc files. These files are
169not currently compilable as they rely on a not-included unit testing framework
170Tests are declared like this:
171  TEST(TestCaseName, TestName) {
172    ASSERT_TRUE(a);
173    EXPECT_EQ(a, b);
174  }
175If you would like to compile them, it should be straightforward to define
176the TEST macro (which would declare a function by combining the two arguments)
177and the other macros whose behavior should be self-explanatory (EXPECT is like
178an ASSERT, but does not stop the test, if you are doing this, you probably
179don't care about this difference). Then you would define a .cc file that
180calls all of these functions.
181