[safe browsing] Remove support for reading version 2 PrefixSet files.
[chromium-blink-merge.git] / url / url_canon_unittest.cc
blob469e8a0a2739b158fc87cf852c093dc9d0472387
1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include <errno.h>
7 #include "base/macros.h"
8 #include "testing/gtest/include/gtest/gtest.h"
9 #include "url/url_canon.h"
10 #include "url/url_canon_internal.h"
11 #include "url/url_canon_stdstring.h"
12 #include "url/url_parse.h"
13 #include "url/url_test_utils.h"
15 // Some implementations of base/basictypes.h may define ARRAYSIZE.
16 // If it's not defined, we define it to the ARRAYSIZE_UNSAFE macro
17 // which is in our version of basictypes.h.
18 #ifndef ARRAYSIZE
19 #define ARRAYSIZE ARRAYSIZE_UNSAFE
20 #endif
22 namespace url {
24 using test_utils::WStringToUTF16;
25 using test_utils::ConvertUTF8ToUTF16;
26 using test_utils::ConvertUTF16ToUTF8;
28 namespace {
30 struct ComponentCase {
31 const char* input;
32 const char* expected;
33 Component expected_component;
34 bool expected_success;
37 // ComponentCase but with dual 8-bit/16-bit input. Generally, the unit tests
38 // treat each input as optional, and will only try processing if non-NULL.
39 // The output is always 8-bit.
40 struct DualComponentCase {
41 const char* input8;
42 const wchar_t* input16;
43 const char* expected;
44 Component expected_component;
45 bool expected_success;
48 // Test cases for CanonicalizeIPAddress(). The inputs are identical to
49 // DualComponentCase, but the output has extra CanonHostInfo fields.
50 struct IPAddressCase {
51 const char* input8;
52 const wchar_t* input16;
53 const char* expected;
54 Component expected_component;
56 // CanonHostInfo fields, for verbose output.
57 CanonHostInfo::Family expected_family;
58 int expected_num_ipv4_components;
59 const char* expected_address_hex; // Two hex chars per IP address byte.
62 std::string BytesToHexString(unsigned char bytes[16], int length) {
63 EXPECT_TRUE(length == 0 || length == 4 || length == 16)
64 << "Bad IP address length: " << length;
65 std::string result;
66 for (int i = 0; i < length; ++i) {
67 result.push_back(kHexCharLookup[(bytes[i] >> 4) & 0xf]);
68 result.push_back(kHexCharLookup[bytes[i] & 0xf]);
70 return result;
73 struct ReplaceCase {
74 const char* base;
75 const char* scheme;
76 const char* username;
77 const char* password;
78 const char* host;
79 const char* port;
80 const char* path;
81 const char* query;
82 const char* ref;
83 const char* expected;
86 // Magic string used in the replacements code that tells SetupReplComp to
87 // call the clear function.
88 const char kDeleteComp[] = "|";
90 // Sets up a replacement for a single component. This is given pointers to
91 // the set and clear function for the component being replaced, and will
92 // either set the component (if it exists) or clear it (if the replacement
93 // string matches kDeleteComp).
95 // This template is currently used only for the 8-bit case, and the strlen
96 // causes it to fail in other cases. It is left a template in case we have
97 // tests for wide replacements.
98 template<typename CHAR>
99 void SetupReplComp(
100 void (Replacements<CHAR>::*set)(const CHAR*, const Component&),
101 void (Replacements<CHAR>::*clear)(),
102 Replacements<CHAR>* rep,
103 const CHAR* str) {
104 if (str && str[0] == kDeleteComp[0]) {
105 (rep->*clear)();
106 } else if (str) {
107 (rep->*set)(str, Component(0, static_cast<int>(strlen(str))));
111 } // namespace
113 TEST(URLCanonTest, DoAppendUTF8) {
114 struct UTF8Case {
115 unsigned input;
116 const char* output;
117 } utf_cases[] = {
118 // Valid code points.
119 {0x24, "\x24"},
120 {0xA2, "\xC2\xA2"},
121 {0x20AC, "\xE2\x82\xAC"},
122 {0x24B62, "\xF0\xA4\xAD\xA2"},
123 {0x10FFFF, "\xF4\x8F\xBF\xBF"},
125 std::string out_str;
126 for (size_t i = 0; i < ARRAYSIZE(utf_cases); i++) {
127 out_str.clear();
128 StdStringCanonOutput output(&out_str);
129 AppendUTF8Value(utf_cases[i].input, &output);
130 output.Complete();
131 EXPECT_EQ(utf_cases[i].output, out_str);
135 #if defined(GTEST_HAS_DEATH_TEST)
136 // TODO(mattm): Can't run this in debug mode for now, since the DCHECK will
137 // cause the Chromium stacktrace dialog to appear and hang the test.
138 // See http://crbug.com/49580.
139 #if defined(NDEBUG) && !defined(DCHECK_ALWAYS_ON)
140 #define MAYBE_DoAppendUTF8Invalid DoAppendUTF8Invalid
141 #else
142 #define MAYBE_DoAppendUTF8Invalid DISABLED_DoAppendUTF8Invalid
143 #endif
144 TEST(URLCanonTest, MAYBE_DoAppendUTF8Invalid) {
145 std::string out_str;
146 StdStringCanonOutput output(&out_str);
147 // Invalid code point (too large).
148 ASSERT_DEBUG_DEATH({
149 AppendUTF8Value(0x110000, &output);
150 output.Complete();
151 EXPECT_EQ("", out_str);
152 }, "");
154 #endif // defined(GTEST_HAS_DEATH_TEST)
156 TEST(URLCanonTest, UTF) {
157 // Low-level test that we handle reading, canonicalization, and writing
158 // UTF-8/UTF-16 strings properly.
159 struct UTFCase {
160 const char* input8;
161 const wchar_t* input16;
162 bool expected_success;
163 const char* output;
164 } utf_cases[] = {
165 // Valid canonical input should get passed through & escaped.
166 {"\xe4\xbd\xa0\xe5\xa5\xbd", L"\x4f60\x597d", true, "%E4%BD%A0%E5%A5%BD"},
167 // Test a characer that takes > 16 bits (U+10300 = old italic letter A)
168 {"\xF0\x90\x8C\x80", L"\xd800\xdf00", true, "%F0%90%8C%80"},
169 // Non-shortest-form UTF-8 are invalid. The bad char should be replaced
170 // with the invalid character (EF BF DB in UTF-8).
171 {"\xf0\x84\xbd\xa0\xe5\xa5\xbd", NULL, false, "%EF%BF%BD%E5%A5%BD"},
172 // Invalid UTF-8 sequences should be marked as invalid (the first
173 // sequence is truncated).
174 {"\xe4\xa0\xe5\xa5\xbd", L"\xd800\x597d", false, "%EF%BF%BD%E5%A5%BD"},
175 // Character going off the end.
176 {"\xe4\xbd\xa0\xe5\xa5", L"\x4f60\xd800", false, "%E4%BD%A0%EF%BF%BD"},
177 // ...same with low surrogates with no high surrogate.
178 {"\xed\xb0\x80", L"\xdc00", false, "%EF%BF%BD"},
179 // Test a UTF-8 encoded surrogate value is marked as invalid.
180 // ED A0 80 = U+D800
181 {"\xed\xa0\x80", NULL, false, "%EF%BF%BD"},
184 std::string out_str;
185 for (size_t i = 0; i < ARRAYSIZE(utf_cases); i++) {
186 if (utf_cases[i].input8) {
187 out_str.clear();
188 StdStringCanonOutput output(&out_str);
190 int input_len = static_cast<int>(strlen(utf_cases[i].input8));
191 bool success = true;
192 for (int ch = 0; ch < input_len; ch++) {
193 success &= AppendUTF8EscapedChar(utf_cases[i].input8, &ch, input_len,
194 &output);
196 output.Complete();
197 EXPECT_EQ(utf_cases[i].expected_success, success);
198 EXPECT_EQ(std::string(utf_cases[i].output), out_str);
200 if (utf_cases[i].input16) {
201 out_str.clear();
202 StdStringCanonOutput output(&out_str);
204 base::string16 input_str(WStringToUTF16(utf_cases[i].input16));
205 int input_len = static_cast<int>(input_str.length());
206 bool success = true;
207 for (int ch = 0; ch < input_len; ch++) {
208 success &= AppendUTF8EscapedChar(input_str.c_str(), &ch, input_len,
209 &output);
211 output.Complete();
212 EXPECT_EQ(utf_cases[i].expected_success, success);
213 EXPECT_EQ(std::string(utf_cases[i].output), out_str);
216 if (utf_cases[i].input8 && utf_cases[i].input16 &&
217 utf_cases[i].expected_success) {
218 // Check that the UTF-8 and UTF-16 inputs are equivalent.
220 // UTF-16 -> UTF-8
221 std::string input8_str(utf_cases[i].input8);
222 base::string16 input16_str(WStringToUTF16(utf_cases[i].input16));
223 EXPECT_EQ(input8_str, ConvertUTF16ToUTF8(input16_str));
225 // UTF-8 -> UTF-16
226 EXPECT_EQ(input16_str, ConvertUTF8ToUTF16(input8_str));
231 TEST(URLCanonTest, Scheme) {
232 // Here, we're mostly testing that unusual characters are handled properly.
233 // The canonicalizer doesn't do any parsing or whitespace detection. It will
234 // also do its best on error, and will escape funny sequences (these won't be
235 // valid schemes and it will return error).
237 // Note that the canonicalizer will append a colon to the output to separate
238 // out the rest of the URL, which is not present in the input. We check,
239 // however, that the output range includes everything but the colon.
240 ComponentCase scheme_cases[] = {
241 {"http", "http:", Component(0, 4), true},
242 {"HTTP", "http:", Component(0, 4), true},
243 {" HTTP ", "%20http%20:", Component(0, 10), false},
244 {"htt: ", "htt%3A%20:", Component(0, 9), false},
245 {"\xe4\xbd\xa0\xe5\xa5\xbdhttp", "%E4%BD%A0%E5%A5%BDhttp:", Component(0, 22), false},
246 // Don't re-escape something already escaped. Note that it will
247 // "canonicalize" the 'A' to 'a', but that's OK.
248 {"ht%3Atp", "ht%3atp:", Component(0, 7), false},
251 std::string out_str;
253 for (size_t i = 0; i < arraysize(scheme_cases); i++) {
254 int url_len = static_cast<int>(strlen(scheme_cases[i].input));
255 Component in_comp(0, url_len);
256 Component out_comp;
258 out_str.clear();
259 StdStringCanonOutput output1(&out_str);
260 bool success = CanonicalizeScheme(scheme_cases[i].input, in_comp, &output1,
261 &out_comp);
262 output1.Complete();
264 EXPECT_EQ(scheme_cases[i].expected_success, success);
265 EXPECT_EQ(std::string(scheme_cases[i].expected), out_str);
266 EXPECT_EQ(scheme_cases[i].expected_component.begin, out_comp.begin);
267 EXPECT_EQ(scheme_cases[i].expected_component.len, out_comp.len);
269 // Now try the wide version
270 out_str.clear();
271 StdStringCanonOutput output2(&out_str);
273 base::string16 wide_input(ConvertUTF8ToUTF16(scheme_cases[i].input));
274 in_comp.len = static_cast<int>(wide_input.length());
275 success = CanonicalizeScheme(wide_input.c_str(), in_comp, &output2,
276 &out_comp);
277 output2.Complete();
279 EXPECT_EQ(scheme_cases[i].expected_success, success);
280 EXPECT_EQ(std::string(scheme_cases[i].expected), out_str);
281 EXPECT_EQ(scheme_cases[i].expected_component.begin, out_comp.begin);
282 EXPECT_EQ(scheme_cases[i].expected_component.len, out_comp.len);
285 // Test the case where the scheme is declared nonexistant, it should be
286 // converted into an empty scheme.
287 Component out_comp;
288 out_str.clear();
289 StdStringCanonOutput output(&out_str);
291 EXPECT_TRUE(CanonicalizeScheme("", Component(0, -1), &output, &out_comp));
292 output.Complete();
294 EXPECT_EQ(std::string(":"), out_str);
295 EXPECT_EQ(0, out_comp.begin);
296 EXPECT_EQ(0, out_comp.len);
299 TEST(URLCanonTest, Host) {
300 IPAddressCase host_cases[] = {
301 // Basic canonicalization, uppercase should be converted to lowercase.
302 {"GoOgLe.CoM", L"GoOgLe.CoM", "google.com", Component(0, 10), CanonHostInfo::NEUTRAL, -1, ""},
303 // Spaces and some other characters should be escaped.
304 {"Goo%20 goo%7C|.com", L"Goo%20 goo%7C|.com", "goo%20%20goo%7C%7C.com", Component(0, 22), CanonHostInfo::NEUTRAL, -1, ""},
305 // Exciting different types of spaces!
306 {NULL, L"GOO\x00a0\x3000goo.com", "goo%20%20goo.com", Component(0, 16), CanonHostInfo::NEUTRAL, -1, ""},
307 // Other types of space (no-break, zero-width, zero-width-no-break) are
308 // name-prepped away to nothing.
309 {NULL, L"GOO\x200b\x2060\xfeffgoo.com", "googoo.com", Component(0, 10), CanonHostInfo::NEUTRAL, -1, ""},
310 // Ideographic full stop (full-width period for Chinese, etc.) should be
311 // treated as a dot.
312 {NULL, L"www.foo\x3002" L"bar.com", "www.foo.bar.com", Component(0, 15), CanonHostInfo::NEUTRAL, -1, ""},
313 // Invalid unicode characters should fail...
314 // ...In wide input, ICU will barf and we'll end up with the input as
315 // escaped UTF-8 (the invalid character should be replaced with the
316 // replacement character).
317 {"\xef\xb7\x90zyx.com", L"\xfdd0zyx.com", "%EF%BF%BDzyx.com", Component(0, 16), CanonHostInfo::BROKEN, -1, ""},
318 // ...This is the same as previous but with with escaped.
319 {"%ef%b7%90zyx.com", L"%ef%b7%90zyx.com", "%EF%BF%BDzyx.com", Component(0, 16), CanonHostInfo::BROKEN, -1, ""},
320 // Test name prepping, fullwidth input should be converted to ASCII and NOT
321 // IDN-ized. This is "Go" in fullwidth UTF-8/UTF-16.
322 {"\xef\xbc\xa7\xef\xbd\x8f.com", L"\xff27\xff4f.com", "go.com", Component(0, 6), CanonHostInfo::NEUTRAL, -1, ""},
323 // Test that fullwidth escaped values are properly name-prepped,
324 // then converted or rejected.
325 // ...%41 in fullwidth = 'A' (also as escaped UTF-8 input)
326 {"\xef\xbc\x85\xef\xbc\x94\xef\xbc\x91.com", L"\xff05\xff14\xff11.com", "a.com", Component(0, 5), CanonHostInfo::NEUTRAL, -1, ""},
327 {"%ef%bc%85%ef%bc%94%ef%bc%91.com", L"%ef%bc%85%ef%bc%94%ef%bc%91.com", "a.com", Component(0, 5), CanonHostInfo::NEUTRAL, -1, ""},
328 // ...%00 in fullwidth should fail (also as escaped UTF-8 input)
329 {"\xef\xbc\x85\xef\xbc\x90\xef\xbc\x90.com", L"\xff05\xff10\xff10.com", "%00.com", Component(0, 7), CanonHostInfo::BROKEN, -1, ""},
330 {"%ef%bc%85%ef%bc%90%ef%bc%90.com", L"%ef%bc%85%ef%bc%90%ef%bc%90.com", "%00.com", Component(0, 7), CanonHostInfo::BROKEN, -1, ""},
331 // Basic IDN support, UTF-8 and UTF-16 input should be converted to IDN
332 {"\xe4\xbd\xa0\xe5\xa5\xbd\xe4\xbd\xa0\xe5\xa5\xbd", L"\x4f60\x597d\x4f60\x597d", "xn--6qqa088eba", Component(0, 14), CanonHostInfo::NEUTRAL, -1, ""},
333 // See http://unicode.org/cldr/utility/idna.jsp for other
334 // examples/experiments and http://goo.gl/7yG11o
335 // for the full list of characters handled differently by
336 // IDNA 2003, UTS 46 (http://unicode.org/reports/tr46/ ) and IDNA 2008.
338 // 4 Deviation characters are mapped/ignored in UTS 46 transitional
339 // mechansm. UTS 46, table 4 row (g).
340 // Sharp-s is mapped to 'ss' in UTS 46 and IDNA 2003.
341 // Otherwise, it'd be "xn--fuball-cta.de".
342 {"fu\xc3\x9f" "ball.de", L"fu\x00df" L"ball.de", "fussball.de",
343 Component(0, 11), CanonHostInfo::NEUTRAL, -1, ""},
344 // Final-sigma (U+03C3) is mapped to regular sigma (U+03C2).
345 // Otherwise, it'd be "xn--wxaijb9b".
346 {"\xcf\x83\xcf\x8c\xce\xbb\xce\xbf\xcf\x82", L"\x3c3\x3cc\x3bb\x3bf\x3c2",
347 "xn--wxaikc6b", Component(0, 12),
348 CanonHostInfo::NEUTRAL, -1, ""},
349 // ZWNJ (U+200C) and ZWJ (U+200D) are mapped away in UTS 46 transitional
350 // handling as well as in IDNA 2003.
351 {"a\xe2\x80\x8c" "b\xe2\x80\x8d" "c", L"a\x200c" L"b\x200d" L"c", "abc",
352 Component(0, 3), CanonHostInfo::NEUTRAL, -1, ""},
353 // ZWJ between Devanagari characters is still mapped away in UTS 46
354 // transitional handling. IDNA 2008 would give xn--11bo0mv54g.
355 {"\xe0\xa4\x95\xe0\xa5\x8d\xe2\x80\x8d\xe0\xa4\x9c",
356 L"\x915\x94d\x200d\x91c", "xn--11bo0m",
357 Component(0, 10), CanonHostInfo::NEUTRAL, -1, ""},
358 // Fullwidth exclamation mark is disallowed. UTS 46, table 4, row (b)
359 // However, we do allow this at the moment because we don't use
360 // STD3 rules and canonicalize full-width ASCII to ASCII.
361 {"wow\xef\xbc\x81", L"wow\xff01", "wow%21",
362 Component(0, 6), CanonHostInfo::NEUTRAL, -1, ""},
363 // U+2132 (turned capital F) is disallowed. UTS 46, table 4, row (c)
364 // Allowed in IDNA 2003, but the mapping changed after Unicode 3.2
365 {"\xe2\x84\xb2oo", L"\x2132oo", "%E2%84%B2oo",
366 Component(0, 11), CanonHostInfo::BROKEN, -1, ""},
367 // U+2F868 (CJK Comp) is disallowed. UTS 46, table 4, row (d)
368 // Allowed in IDNA 2003, but the mapping changed after Unicode 3.2
369 {"\xf0\xaf\xa1\xa8\xe5\xa7\xbb.cn", L"\xd87e\xdc68\x59fb.cn",
370 "%F0%AF%A1%A8%E5%A7%BB.cn",
371 Component(0, 24), CanonHostInfo::BROKEN, -1, ""},
372 // Maps uppercase letters to lower case letters. UTS 46 table 4 row (e)
373 {"M\xc3\x9cNCHEN", L"M\xdcNCHEN", "xn--mnchen-3ya",
374 Component(0, 14), CanonHostInfo::NEUTRAL, -1, ""},
375 // Symbol/punctuations are allowed in IDNA 2003/UTS46.
376 // Not allowed in IDNA 2008. UTS 46 table 4 row (f).
377 {"\xe2\x99\xa5ny.us", L"\x2665ny.us", "xn--ny-s0x.us",
378 Component(0, 13), CanonHostInfo::NEUTRAL, -1, ""},
379 // U+11013 is new in Unicode 6.0 and is allowed. UTS 46 table 4, row (h)
380 // We used to allow it because we passed through unassigned code points.
381 {"\xf0\x91\x80\x93.com", L"\xd804\xdc13.com", "xn--n00d.com",
382 Component(0, 12), CanonHostInfo::NEUTRAL, -1, ""},
383 // U+0602 is disallowed in UTS46/IDNA 2008. UTS 46 table 4, row(i)
384 // Used to be allowed in INDA 2003.
385 {"\xd8\x82.eg", L"\x602.eg", "%D8%82.eg",
386 Component(0, 9), CanonHostInfo::BROKEN, -1, ""},
387 // U+20B7 is new in Unicode 5.2 (not a part of IDNA 2003 based
388 // on Unicode 3.2). We did allow it in the past because we let unassigned
389 // code point pass. We continue to allow it even though it's a
390 // "punctuation and symbol" blocked in IDNA 2008.
391 // UTS 46 table 4, row (j)
392 {"\xe2\x82\xb7.com", L"\x20b7.com", "xn--wzg.com",
393 Component(0, 11), CanonHostInfo::NEUTRAL, -1, ""},
394 // Maps uppercase letters to lower case letters.
395 // In IDNA 2003, it's allowed without case-folding
396 // ( xn--bc-7cb.com ) because it's not defined in Unicode 3.2
397 // (added in Unicode 4.1). UTS 46 table 4 row (k)
398 {"bc\xc8\xba.com", L"bc\x23a.com", "xn--bc-is1a.com",
399 Component(0, 15), CanonHostInfo::NEUTRAL, -1, ""},
400 // BiDi check test
401 // "Divehi" in Divehi (Thaana script) ends with BidiClass=NSM.
402 // Disallowed in IDNA 2003 but now allowed in UTS 46/IDNA 2008.
403 {"\xde\x8b\xde\xa8\xde\x88\xde\xac\xde\x80\xde\xa8",
404 L"\x78b\x7a8\x788\x7ac\x780\x7a8", "xn--hqbpi0jcw",
405 Component(0, 13), CanonHostInfo::NEUTRAL, -1, ""},
406 // Disallowed in both IDNA 2003 and 2008 with BiDi check.
407 // Labels starting with a RTL character cannot end with a LTR character.
408 {"\xd8\xac\xd8\xa7\xd8\xb1xyz", L"\x62c\x627\x631xyz",
409 "%D8%AC%D8%A7%D8%B1xyz", Component(0, 21),
410 CanonHostInfo::BROKEN, -1, ""},
411 // Labels starting with a RTL character can end with BC=EN (European
412 // number). Disallowed in IDNA 2003 but now allowed.
413 {"\xd8\xac\xd8\xa7\xd8\xb1" "2", L"\x62c\x627\x631" L"2",
414 "xn--2-ymcov", Component(0, 11),
415 CanonHostInfo::NEUTRAL, -1, ""},
416 // Labels starting with a RTL character cannot have "L" characters
417 // even if it ends with an BC=EN. Disallowed in both IDNA 2003/2008.
418 {"\xd8\xac\xd8\xa7\xd8\xb1xy2", L"\x62c\x627\x631xy2",
419 "%D8%AC%D8%A7%D8%B1xy2", Component(0, 21),
420 CanonHostInfo::BROKEN, -1, ""},
421 // Labels starting with a RTL character can end with BC=AN (Arabic number)
422 // Disallowed in IDNA 2003, but now allowed.
423 {"\xd8\xac\xd8\xa7\xd8\xb1\xd9\xa2", L"\x62c\x627\x631\x662",
424 "xn--mgbjq0r", Component(0, 11),
425 CanonHostInfo::NEUTRAL, -1, ""},
426 // Labels starting with a RTL character cannot have "L" characters
427 // even if it ends with an BC=AN (Arabic number).
428 // Disallowed in both IDNA 2003/2008.
429 {"\xd8\xac\xd8\xa7\xd8\xb1xy\xd9\xa2", L"\x62c\x627\x631xy\x662",
430 "%D8%AC%D8%A7%D8%B1xy%D9%A2", Component(0, 26),
431 CanonHostInfo::BROKEN, -1, ""},
432 // Labels starting with a RTL character cannot mix BC=EN and BC=AN
433 {"\xd8\xac\xd8\xa7\xd8\xb1xy2\xd9\xa2", L"\x62c\x627\x631xy2\x662",
434 "%D8%AC%D8%A7%D8%B1xy2%D9%A2", Component(0, 27),
435 CanonHostInfo::BROKEN, -1, ""},
436 // As of Unicode 6.2, U+20CF is not assigned. We do not allow it.
437 {"\xe2\x83\x8f.com", L"\x20cf.com", "%E2%83%8F.com",
438 Component(0, 13), CanonHostInfo::BROKEN, -1, ""},
439 // U+0080 is not allowed.
440 {"\xc2\x80.com", L"\x80.com", "%C2%80.com",
441 Component(0, 10), CanonHostInfo::BROKEN, -1, ""},
442 // Mixed UTF-8 and escaped UTF-8 (narrow case) and UTF-16 and escaped
443 // Mixed UTF-8 and escaped UTF-8 (narrow case) and UTF-16 and escaped
444 // UTF-8 (wide case). The output should be equivalent to the true wide
445 // character input above).
446 {"%E4%BD%A0%E5%A5%BD\xe4\xbd\xa0\xe5\xa5\xbd",
447 L"%E4%BD%A0%E5%A5%BD\x4f60\x597d", "xn--6qqa088eba",
448 Component(0, 14), CanonHostInfo::NEUTRAL, -1, ""},
449 // Invalid escaped characters should fail and the percents should be
450 // escaped.
451 {"%zz%66%a", L"%zz%66%a", "%25zzf%25a", Component(0, 10),
452 CanonHostInfo::BROKEN, -1, ""},
453 // If we get an invalid character that has been escaped.
454 {"%25", L"%25", "%25", Component(0, 3),
455 CanonHostInfo::BROKEN, -1, ""},
456 {"hello%00", L"hello%00", "hello%00", Component(0, 8),
457 CanonHostInfo::BROKEN, -1, ""},
458 // Escaped numbers should be treated like IP addresses if they are.
459 {"%30%78%63%30%2e%30%32%35%30.01", L"%30%78%63%30%2e%30%32%35%30.01",
460 "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 3,
461 "C0A80001"},
462 {"%30%78%63%30%2e%30%32%35%30.01%2e", L"%30%78%63%30%2e%30%32%35%30.01%2e",
463 "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 3,
464 "C0A80001"},
465 // Invalid escaping should trigger the regular host error handling.
466 {"%3g%78%63%30%2e%30%32%35%30%2E.01", L"%3g%78%63%30%2e%30%32%35%30%2E.01", "%253gxc0.0250..01", Component(0, 17), CanonHostInfo::BROKEN, -1, ""},
467 // Something that isn't exactly an IP should get treated as a host and
468 // spaces escaped.
469 {"192.168.0.1 hello", L"192.168.0.1 hello", "192.168.0.1%20hello", Component(0, 19), CanonHostInfo::NEUTRAL, -1, ""},
470 // Fullwidth and escaped UTF-8 fullwidth should still be treated as IP.
471 // These are "0Xc0.0250.01" in fullwidth.
472 {"\xef\xbc\x90%Ef%bc\xb8%ef%Bd%83\xef\xbc\x90%EF%BC%8E\xef\xbc\x90\xef\xbc\x92\xef\xbc\x95\xef\xbc\x90\xef\xbc%8E\xef\xbc\x90\xef\xbc\x91", L"\xff10\xff38\xff43\xff10\xff0e\xff10\xff12\xff15\xff10\xff0e\xff10\xff11", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 3, "C0A80001"},
473 // Broken IP addresses get marked as such.
474 {"192.168.0.257", L"192.168.0.257", "192.168.0.257", Component(0, 13), CanonHostInfo::BROKEN, -1, ""},
475 {"[google.com]", L"[google.com]", "[google.com]", Component(0, 12), CanonHostInfo::BROKEN, -1, ""},
476 // Cyrillic letter followed by '(' should return punycode for '(' escaped
477 // before punycode string was created. I.e.
478 // if '(' is escaped after punycode is created we would get xn--%28-8tb
479 // (incorrect).
480 {"\xd1\x82(", L"\x0442(", "xn--%28-7ed", Component(0, 11),
481 CanonHostInfo::NEUTRAL, -1, ""},
482 // Address with all hexidecimal characters with leading number of 1<<32
483 // or greater and should return NEUTRAL rather than BROKEN if not all
484 // components are numbers.
485 {"12345678912345.de", L"12345678912345.de", "12345678912345.de", Component(0, 17), CanonHostInfo::NEUTRAL, -1, ""},
486 {"1.12345678912345.de", L"1.12345678912345.de", "1.12345678912345.de", Component(0, 19), CanonHostInfo::NEUTRAL, -1, ""},
487 {"12345678912345.12345678912345.de", L"12345678912345.12345678912345.de", "12345678912345.12345678912345.de", Component(0, 32), CanonHostInfo::NEUTRAL, -1, ""},
488 {"1.2.0xB3A73CE5B59.de", L"1.2.0xB3A73CE5B59.de", "1.2.0xb3a73ce5b59.de", Component(0, 20), CanonHostInfo::NEUTRAL, -1, ""},
489 {"12345678912345.0xde", L"12345678912345.0xde", "12345678912345.0xde", Component(0, 19), CanonHostInfo::BROKEN, -1, ""},
492 // CanonicalizeHost() non-verbose.
493 std::string out_str;
494 for (size_t i = 0; i < arraysize(host_cases); i++) {
495 // Narrow version.
496 if (host_cases[i].input8) {
497 int host_len = static_cast<int>(strlen(host_cases[i].input8));
498 Component in_comp(0, host_len);
499 Component out_comp;
501 out_str.clear();
502 StdStringCanonOutput output(&out_str);
504 bool success = CanonicalizeHost(host_cases[i].input8, in_comp, &output,
505 &out_comp);
506 output.Complete();
508 EXPECT_EQ(host_cases[i].expected_family != CanonHostInfo::BROKEN,
509 success) << "for input: " << host_cases[i].input8;
510 EXPECT_EQ(std::string(host_cases[i].expected), out_str) <<
511 "for input: " << host_cases[i].input8;
512 EXPECT_EQ(host_cases[i].expected_component.begin, out_comp.begin) <<
513 "for input: " << host_cases[i].input8;
514 EXPECT_EQ(host_cases[i].expected_component.len, out_comp.len) <<
515 "for input: " << host_cases[i].input8;
518 // Wide version.
519 if (host_cases[i].input16) {
520 base::string16 input16(WStringToUTF16(host_cases[i].input16));
521 int host_len = static_cast<int>(input16.length());
522 Component in_comp(0, host_len);
523 Component out_comp;
525 out_str.clear();
526 StdStringCanonOutput output(&out_str);
528 bool success = CanonicalizeHost(input16.c_str(), in_comp, &output,
529 &out_comp);
530 output.Complete();
532 EXPECT_EQ(host_cases[i].expected_family != CanonHostInfo::BROKEN,
533 success);
534 EXPECT_EQ(std::string(host_cases[i].expected), out_str);
535 EXPECT_EQ(host_cases[i].expected_component.begin, out_comp.begin);
536 EXPECT_EQ(host_cases[i].expected_component.len, out_comp.len);
540 // CanonicalizeHostVerbose()
541 for (size_t i = 0; i < arraysize(host_cases); i++) {
542 // Narrow version.
543 if (host_cases[i].input8) {
544 int host_len = static_cast<int>(strlen(host_cases[i].input8));
545 Component in_comp(0, host_len);
547 out_str.clear();
548 StdStringCanonOutput output(&out_str);
549 CanonHostInfo host_info;
551 CanonicalizeHostVerbose(host_cases[i].input8, in_comp, &output,
552 &host_info);
553 output.Complete();
555 EXPECT_EQ(host_cases[i].expected_family, host_info.family);
556 EXPECT_EQ(std::string(host_cases[i].expected), out_str);
557 EXPECT_EQ(host_cases[i].expected_component.begin,
558 host_info.out_host.begin);
559 EXPECT_EQ(host_cases[i].expected_component.len, host_info.out_host.len);
560 EXPECT_EQ(std::string(host_cases[i].expected_address_hex),
561 BytesToHexString(host_info.address, host_info.AddressLength()));
562 if (host_cases[i].expected_family == CanonHostInfo::IPV4) {
563 EXPECT_EQ(host_cases[i].expected_num_ipv4_components,
564 host_info.num_ipv4_components);
568 // Wide version.
569 if (host_cases[i].input16) {
570 base::string16 input16(WStringToUTF16(host_cases[i].input16));
571 int host_len = static_cast<int>(input16.length());
572 Component in_comp(0, host_len);
574 out_str.clear();
575 StdStringCanonOutput output(&out_str);
576 CanonHostInfo host_info;
578 CanonicalizeHostVerbose(input16.c_str(), in_comp, &output, &host_info);
579 output.Complete();
581 EXPECT_EQ(host_cases[i].expected_family, host_info.family);
582 EXPECT_EQ(std::string(host_cases[i].expected), out_str);
583 EXPECT_EQ(host_cases[i].expected_component.begin,
584 host_info.out_host.begin);
585 EXPECT_EQ(host_cases[i].expected_component.len, host_info.out_host.len);
586 EXPECT_EQ(std::string(host_cases[i].expected_address_hex),
587 BytesToHexString(host_info.address, host_info.AddressLength()));
588 if (host_cases[i].expected_family == CanonHostInfo::IPV4) {
589 EXPECT_EQ(host_cases[i].expected_num_ipv4_components,
590 host_info.num_ipv4_components);
596 TEST(URLCanonTest, IPv4) {
597 IPAddressCase cases[] = {
598 // Empty is not an IP address.
599 {"", L"", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
600 {".", L".", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
601 // Regular IP addresses in different bases.
602 {"192.168.0.1", L"192.168.0.1", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 4, "C0A80001"},
603 {"0300.0250.00.01", L"0300.0250.00.01", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 4, "C0A80001"},
604 {"0xC0.0Xa8.0x0.0x1", L"0xC0.0Xa8.0x0.0x1", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 4, "C0A80001"},
605 // Non-IP addresses due to invalid characters.
606 {"192.168.9.com", L"192.168.9.com", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
607 // Invalid characters for the base should be rejected.
608 {"19a.168.0.1", L"19a.168.0.1", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
609 {"0308.0250.00.01", L"0308.0250.00.01", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
610 {"0xCG.0xA8.0x0.0x1", L"0xCG.0xA8.0x0.0x1", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
611 // If there are not enough components, the last one should fill them out.
612 {"192", L"192", "0.0.0.192", Component(0, 9), CanonHostInfo::IPV4, 1, "000000C0"},
613 {"0xC0a80001", L"0xC0a80001", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 1, "C0A80001"},
614 {"030052000001", L"030052000001", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 1, "C0A80001"},
615 {"000030052000001", L"000030052000001", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 1, "C0A80001"},
616 {"192.168", L"192.168", "192.0.0.168", Component(0, 11), CanonHostInfo::IPV4, 2, "C00000A8"},
617 {"192.0x00A80001", L"192.0x000A80001", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 2, "C0A80001"},
618 {"0xc0.052000001", L"0xc0.052000001", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 2, "C0A80001"},
619 {"192.168.1", L"192.168.1", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 3, "C0A80001"},
620 // Too many components means not an IP address.
621 {"192.168.0.0.1", L"192.168.0.0.1", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
622 // We allow a single trailing dot.
623 {"192.168.0.1.", L"192.168.0.1.", "192.168.0.1", Component(0, 11), CanonHostInfo::IPV4, 4, "C0A80001"},
624 {"192.168.0.1. hello", L"192.168.0.1. hello", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
625 {"192.168.0.1..", L"192.168.0.1..", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
626 // Two dots in a row means not an IP address.
627 {"192.168..1", L"192.168..1", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
628 // Any numerical overflow should be marked as BROKEN.
629 {"0x100.0", L"0x100.0", "", Component(), CanonHostInfo::BROKEN, -1, ""},
630 {"0x100.0.0", L"0x100.0.0", "", Component(), CanonHostInfo::BROKEN, -1, ""},
631 {"0x100.0.0.0", L"0x100.0.0.0", "", Component(), CanonHostInfo::BROKEN, -1, ""},
632 {"0.0x100.0.0", L"0.0x100.0.0", "", Component(), CanonHostInfo::BROKEN, -1, ""},
633 {"0.0.0x100.0", L"0.0.0x100.0", "", Component(), CanonHostInfo::BROKEN, -1, ""},
634 {"0.0.0.0x100", L"0.0.0.0x100", "", Component(), CanonHostInfo::BROKEN, -1, ""},
635 {"0.0.0x10000", L"0.0.0x10000", "", Component(), CanonHostInfo::BROKEN, -1, ""},
636 {"0.0x1000000", L"0.0x1000000", "", Component(), CanonHostInfo::BROKEN, -1, ""},
637 {"0x100000000", L"0x100000000", "", Component(), CanonHostInfo::BROKEN, -1, ""},
638 // Repeat the previous tests, minus 1, to verify boundaries.
639 {"0xFF.0", L"0xFF.0", "255.0.0.0", Component(0, 9), CanonHostInfo::IPV4, 2, "FF000000"},
640 {"0xFF.0.0", L"0xFF.0.0", "255.0.0.0", Component(0, 9), CanonHostInfo::IPV4, 3, "FF000000"},
641 {"0xFF.0.0.0", L"0xFF.0.0.0", "255.0.0.0", Component(0, 9), CanonHostInfo::IPV4, 4, "FF000000"},
642 {"0.0xFF.0.0", L"0.0xFF.0.0", "0.255.0.0", Component(0, 9), CanonHostInfo::IPV4, 4, "00FF0000"},
643 {"0.0.0xFF.0", L"0.0.0xFF.0", "0.0.255.0", Component(0, 9), CanonHostInfo::IPV4, 4, "0000FF00"},
644 {"0.0.0.0xFF", L"0.0.0.0xFF", "0.0.0.255", Component(0, 9), CanonHostInfo::IPV4, 4, "000000FF"},
645 {"0.0.0xFFFF", L"0.0.0xFFFF", "0.0.255.255", Component(0, 11), CanonHostInfo::IPV4, 3, "0000FFFF"},
646 {"0.0xFFFFFF", L"0.0xFFFFFF", "0.255.255.255", Component(0, 13), CanonHostInfo::IPV4, 2, "00FFFFFF"},
647 {"0xFFFFFFFF", L"0xFFFFFFFF", "255.255.255.255", Component(0, 15), CanonHostInfo::IPV4, 1, "FFFFFFFF"},
648 // Old trunctations tests. They're all "BROKEN" now.
649 {"276.256.0xf1a2.077777", L"276.256.0xf1a2.077777", "", Component(), CanonHostInfo::BROKEN, -1, ""},
650 {"192.168.0.257", L"192.168.0.257", "", Component(), CanonHostInfo::BROKEN, -1, ""},
651 {"192.168.0xa20001", L"192.168.0xa20001", "", Component(), CanonHostInfo::BROKEN, -1, ""},
652 {"192.015052000001", L"192.015052000001", "", Component(), CanonHostInfo::BROKEN, -1, ""},
653 {"0X12C0a80001", L"0X12C0a80001", "", Component(), CanonHostInfo::BROKEN, -1, ""},
654 {"276.1.2", L"276.1.2", "", Component(), CanonHostInfo::BROKEN, -1, ""},
655 // Spaces should be rejected.
656 {"192.168.0.1 hello", L"192.168.0.1 hello", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
657 // Very large numbers.
658 {"0000000000000300.0x00000000000000fF.00000000000000001", L"0000000000000300.0x00000000000000fF.00000000000000001", "192.255.0.1", Component(0, 11), CanonHostInfo::IPV4, 3, "C0FF0001"},
659 {"0000000000000300.0xffffffffFFFFFFFF.3022415481470977", L"0000000000000300.0xffffffffFFFFFFFF.3022415481470977", "", Component(0, 11), CanonHostInfo::BROKEN, -1, ""},
660 // A number has no length limit, but long numbers can still overflow.
661 {"00000000000000000001", L"00000000000000000001", "0.0.0.1", Component(0, 7), CanonHostInfo::IPV4, 1, "00000001"},
662 {"0000000000000000100000000000000001", L"0000000000000000100000000000000001", "", Component(), CanonHostInfo::BROKEN, -1, ""},
663 // If a long component is non-numeric, it's a hostname, *not* a broken IP.
664 {"0.0.0.000000000000000000z", L"0.0.0.000000000000000000z", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
665 {"0.0.0.100000000000000000z", L"0.0.0.100000000000000000z", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
666 // Truncation of all zeros should still result in 0.
667 {"0.00.0x.0x0", L"0.00.0x.0x0", "0.0.0.0", Component(0, 7), CanonHostInfo::IPV4, 4, "00000000"},
670 for (size_t i = 0; i < arraysize(cases); i++) {
671 // 8-bit version.
672 Component component(0, static_cast<int>(strlen(cases[i].input8)));
674 std::string out_str1;
675 StdStringCanonOutput output1(&out_str1);
676 CanonHostInfo host_info;
677 CanonicalizeIPAddress(cases[i].input8, component, &output1, &host_info);
678 output1.Complete();
680 EXPECT_EQ(cases[i].expected_family, host_info.family);
681 EXPECT_EQ(std::string(cases[i].expected_address_hex),
682 BytesToHexString(host_info.address, host_info.AddressLength()));
683 if (host_info.family == CanonHostInfo::IPV4) {
684 EXPECT_STREQ(cases[i].expected, out_str1.c_str());
685 EXPECT_EQ(cases[i].expected_component.begin, host_info.out_host.begin);
686 EXPECT_EQ(cases[i].expected_component.len, host_info.out_host.len);
687 EXPECT_EQ(cases[i].expected_num_ipv4_components,
688 host_info.num_ipv4_components);
691 // 16-bit version.
692 base::string16 input16(WStringToUTF16(cases[i].input16));
693 component = Component(0, static_cast<int>(input16.length()));
695 std::string out_str2;
696 StdStringCanonOutput output2(&out_str2);
697 CanonicalizeIPAddress(input16.c_str(), component, &output2, &host_info);
698 output2.Complete();
700 EXPECT_EQ(cases[i].expected_family, host_info.family);
701 EXPECT_EQ(std::string(cases[i].expected_address_hex),
702 BytesToHexString(host_info.address, host_info.AddressLength()));
703 if (host_info.family == CanonHostInfo::IPV4) {
704 EXPECT_STREQ(cases[i].expected, out_str2.c_str());
705 EXPECT_EQ(cases[i].expected_component.begin, host_info.out_host.begin);
706 EXPECT_EQ(cases[i].expected_component.len, host_info.out_host.len);
707 EXPECT_EQ(cases[i].expected_num_ipv4_components,
708 host_info.num_ipv4_components);
713 TEST(URLCanonTest, IPv6) {
714 IPAddressCase cases[] = {
715 // Empty is not an IP address.
716 {"", L"", "", Component(), CanonHostInfo::NEUTRAL, -1, ""},
717 // Non-IPs with [:] characters are marked BROKEN.
718 {":", L":", "", Component(), CanonHostInfo::BROKEN, -1, ""},
719 {"[", L"[", "", Component(), CanonHostInfo::BROKEN, -1, ""},
720 {"[:", L"[:", "", Component(), CanonHostInfo::BROKEN, -1, ""},
721 {"]", L"]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
722 {":]", L":]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
723 {"[]", L"[]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
724 {"[:]", L"[:]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
725 // Regular IP address is invalid without bounding '[' and ']'.
726 {"2001:db8::1", L"2001:db8::1", "", Component(), CanonHostInfo::BROKEN, -1, ""},
727 {"[2001:db8::1", L"[2001:db8::1", "", Component(), CanonHostInfo::BROKEN, -1, ""},
728 {"2001:db8::1]", L"2001:db8::1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
729 // Regular IP addresses.
730 {"[::]", L"[::]", "[::]", Component(0,4), CanonHostInfo::IPV6, -1, "00000000000000000000000000000000"},
731 {"[::1]", L"[::1]", "[::1]", Component(0,5), CanonHostInfo::IPV6, -1, "00000000000000000000000000000001"},
732 {"[1::]", L"[1::]", "[1::]", Component(0,5), CanonHostInfo::IPV6, -1, "00010000000000000000000000000000"},
734 // Leading zeros should be stripped.
735 {"[000:01:02:003:004:5:6:007]", L"[000:01:02:003:004:5:6:007]", "[0:1:2:3:4:5:6:7]", Component(0,17), CanonHostInfo::IPV6, -1, "00000001000200030004000500060007"},
737 // Upper case letters should be lowercased.
738 {"[A:b:c:DE:fF:0:1:aC]", L"[A:b:c:DE:fF:0:1:aC]", "[a:b:c:de:ff:0:1:ac]", Component(0,20), CanonHostInfo::IPV6, -1, "000A000B000C00DE00FF0000000100AC"},
740 // The same address can be written with different contractions, but should
741 // get canonicalized to the same thing.
742 {"[1:0:0:2::3:0]", L"[1:0:0:2::3:0]", "[1::2:0:0:3:0]", Component(0,14), CanonHostInfo::IPV6, -1, "00010000000000020000000000030000"},
743 {"[1::2:0:0:3:0]", L"[1::2:0:0:3:0]", "[1::2:0:0:3:0]", Component(0,14), CanonHostInfo::IPV6, -1, "00010000000000020000000000030000"},
745 // Addresses with embedded IPv4.
746 {"[::192.168.0.1]", L"[::192.168.0.1]", "[::c0a8:1]", Component(0,10), CanonHostInfo::IPV6, -1, "000000000000000000000000C0A80001"},
747 {"[::ffff:192.168.0.1]", L"[::ffff:192.168.0.1]", "[::ffff:c0a8:1]", Component(0,15), CanonHostInfo::IPV6, -1, "00000000000000000000FFFFC0A80001"},
748 {"[::eeee:192.168.0.1]", L"[::eeee:192.168.0.1]", "[::eeee:c0a8:1]", Component(0, 15), CanonHostInfo::IPV6, -1, "00000000000000000000EEEEC0A80001"},
749 {"[2001::192.168.0.1]", L"[2001::192.168.0.1]", "[2001::c0a8:1]", Component(0, 14), CanonHostInfo::IPV6, -1, "200100000000000000000000C0A80001"},
750 {"[1:2:192.168.0.1:5:6]", L"[1:2:192.168.0.1:5:6]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
752 // IPv4 with last component missing.
753 {"[::ffff:192.1.2]", L"[::ffff:192.1.2]", "[::ffff:c001:2]", Component(0,15), CanonHostInfo::IPV6, -1, "00000000000000000000FFFFC0010002"},
755 // IPv4 using hex.
756 // TODO(eroman): Should this format be disallowed?
757 {"[::ffff:0xC0.0Xa8.0x0.0x1]", L"[::ffff:0xC0.0Xa8.0x0.0x1]", "[::ffff:c0a8:1]", Component(0,15), CanonHostInfo::IPV6, -1, "00000000000000000000FFFFC0A80001"},
759 // There may be zeros surrounding the "::" contraction.
760 {"[0:0::0:0:8]", L"[0:0::0:0:8]", "[::8]", Component(0,5), CanonHostInfo::IPV6, -1, "00000000000000000000000000000008"},
762 {"[2001:db8::1]", L"[2001:db8::1]", "[2001:db8::1]", Component(0,13), CanonHostInfo::IPV6, -1, "20010DB8000000000000000000000001"},
764 // Can only have one "::" contraction in an IPv6 string literal.
765 {"[2001::db8::1]", L"[2001::db8::1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
766 // No more than 2 consecutive ':'s.
767 {"[2001:db8:::1]", L"[2001:db8:::1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
768 {"[:::]", L"[:::]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
769 // Non-IP addresses due to invalid characters.
770 {"[2001::.com]", L"[2001::.com]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
771 // If there are not enough components, the last one should fill them out.
772 // ... omitted at this time ...
773 // Too many components means not an IP address. Similarly with too few if using IPv4 compat or mapped addresses.
774 {"[::192.168.0.0.1]", L"[::192.168.0.0.1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
775 {"[::ffff:192.168.0.0.1]", L"[::ffff:192.168.0.0.1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
776 {"[1:2:3:4:5:6:7:8:9]", L"[1:2:3:4:5:6:7:8:9]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
777 // Too many bits (even though 8 comonents, the last one holds 32 bits).
778 {"[0:0:0:0:0:0:0:192.168.0.1]", L"[0:0:0:0:0:0:0:192.168.0.1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
780 // Too many bits specified -- the contraction would have to be zero-length
781 // to not exceed 128 bits.
782 {"[1:2:3:4:5:6::192.168.0.1]", L"[1:2:3:4:5:6::192.168.0.1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
784 // The contraction is for 16 bits of zero.
785 {"[1:2:3:4:5:6::8]", L"[1:2:3:4:5:6::8]", "[1:2:3:4:5:6:0:8]", Component(0,17), CanonHostInfo::IPV6, -1, "00010002000300040005000600000008"},
787 // Cannot have a trailing colon.
788 {"[1:2:3:4:5:6:7:8:]", L"[1:2:3:4:5:6:7:8:]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
789 {"[1:2:3:4:5:6:192.168.0.1:]", L"[1:2:3:4:5:6:192.168.0.1:]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
791 // Cannot have negative numbers.
792 {"[-1:2:3:4:5:6:7:8]", L"[-1:2:3:4:5:6:7:8]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
794 // Scope ID -- the URL may contain an optional ["%" <scope_id>] section.
795 // The scope_id should be included in the canonicalized URL, and is an
796 // unsigned decimal number.
798 // Invalid because no ID was given after the percent.
800 // Don't allow scope-id
801 {"[1::%1]", L"[1::%1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
802 {"[1::%eth0]", L"[1::%eth0]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
803 {"[1::%]", L"[1::%]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
804 {"[%]", L"[%]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
805 {"[::%:]", L"[::%:]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
807 // Don't allow leading or trailing colons.
808 {"[:0:0::0:0:8]", L"[:0:0::0:0:8]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
809 {"[0:0::0:0:8:]", L"[0:0::0:0:8:]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
810 {"[:0:0::0:0:8:]", L"[:0:0::0:0:8:]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
812 // We allow a single trailing dot.
813 // ... omitted at this time ...
814 // Two dots in a row means not an IP address.
815 {"[::192.168..1]", L"[::192.168..1]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
816 // Any non-first components get truncated to one byte.
817 // ... omitted at this time ...
818 // Spaces should be rejected.
819 {"[::1 hello]", L"[::1 hello]", "", Component(), CanonHostInfo::BROKEN, -1, ""},
822 for (size_t i = 0; i < arraysize(cases); i++) {
823 // 8-bit version.
824 Component component(0, static_cast<int>(strlen(cases[i].input8)));
826 std::string out_str1;
827 StdStringCanonOutput output1(&out_str1);
828 CanonHostInfo host_info;
829 CanonicalizeIPAddress(cases[i].input8, component, &output1, &host_info);
830 output1.Complete();
832 EXPECT_EQ(cases[i].expected_family, host_info.family);
833 EXPECT_EQ(std::string(cases[i].expected_address_hex),
834 BytesToHexString(host_info.address, host_info.AddressLength())) << "iter " << i << " host " << cases[i].input8;
835 if (host_info.family == CanonHostInfo::IPV6) {
836 EXPECT_STREQ(cases[i].expected, out_str1.c_str());
837 EXPECT_EQ(cases[i].expected_component.begin,
838 host_info.out_host.begin);
839 EXPECT_EQ(cases[i].expected_component.len, host_info.out_host.len);
842 // 16-bit version.
843 base::string16 input16(WStringToUTF16(cases[i].input16));
844 component = Component(0, static_cast<int>(input16.length()));
846 std::string out_str2;
847 StdStringCanonOutput output2(&out_str2);
848 CanonicalizeIPAddress(input16.c_str(), component, &output2, &host_info);
849 output2.Complete();
851 EXPECT_EQ(cases[i].expected_family, host_info.family);
852 EXPECT_EQ(std::string(cases[i].expected_address_hex),
853 BytesToHexString(host_info.address, host_info.AddressLength()));
854 if (host_info.family == CanonHostInfo::IPV6) {
855 EXPECT_STREQ(cases[i].expected, out_str2.c_str());
856 EXPECT_EQ(cases[i].expected_component.begin, host_info.out_host.begin);
857 EXPECT_EQ(cases[i].expected_component.len, host_info.out_host.len);
862 TEST(URLCanonTest, IPEmpty) {
863 std::string out_str1;
864 StdStringCanonOutput output1(&out_str1);
865 CanonHostInfo host_info;
867 // This tests tests.
868 const char spec[] = "192.168.0.1";
869 CanonicalizeIPAddress(spec, Component(), &output1, &host_info);
870 EXPECT_FALSE(host_info.IsIPAddress());
872 CanonicalizeIPAddress(spec, Component(0, 0), &output1, &host_info);
873 EXPECT_FALSE(host_info.IsIPAddress());
876 TEST(URLCanonTest, UserInfo) {
877 // Note that the canonicalizer should escape and treat empty components as
878 // not being there.
880 // We actually parse a full input URL so we can get the initial components.
881 struct UserComponentCase {
882 const char* input;
883 const char* expected;
884 Component expected_username;
885 Component expected_password;
886 bool expected_success;
887 } user_info_cases[] = {
888 {"http://user:pass@host.com/", "user:pass@", Component(0, 4), Component(5, 4), true},
889 {"http://@host.com/", "", Component(0, -1), Component(0, -1), true},
890 {"http://:@host.com/", "", Component(0, -1), Component(0, -1), true},
891 {"http://foo:@host.com/", "foo@", Component(0, 3), Component(0, -1), true},
892 {"http://:foo@host.com/", ":foo@", Component(0, 0), Component(1, 3), true},
893 {"http://^ :$\t@host.com/", "%5E%20:$%09@", Component(0, 6), Component(7, 4), true},
894 {"http://user:pass@/", "user:pass@", Component(0, 4), Component(5, 4), true},
895 {"http://%2540:bar@domain.com/", "%2540:bar@", Component(0, 5), Component(6, 3), true },
897 // IE7 compatability: old versions allowed backslashes in usernames, but
898 // IE7 does not. We disallow it as well.
899 {"ftp://me\\mydomain:pass@foo.com/", "", Component(0, -1), Component(0, -1), true},
902 for (size_t i = 0; i < ARRAYSIZE(user_info_cases); i++) {
903 int url_len = static_cast<int>(strlen(user_info_cases[i].input));
904 Parsed parsed;
905 ParseStandardURL(user_info_cases[i].input, url_len, &parsed);
906 Component out_user, out_pass;
907 std::string out_str;
908 StdStringCanonOutput output1(&out_str);
910 bool success = CanonicalizeUserInfo(user_info_cases[i].input,
911 parsed.username,
912 user_info_cases[i].input,
913 parsed.password,
914 &output1,
915 &out_user,
916 &out_pass);
917 output1.Complete();
919 EXPECT_EQ(user_info_cases[i].expected_success, success);
920 EXPECT_EQ(std::string(user_info_cases[i].expected), out_str);
921 EXPECT_EQ(user_info_cases[i].expected_username.begin, out_user.begin);
922 EXPECT_EQ(user_info_cases[i].expected_username.len, out_user.len);
923 EXPECT_EQ(user_info_cases[i].expected_password.begin, out_pass.begin);
924 EXPECT_EQ(user_info_cases[i].expected_password.len, out_pass.len);
926 // Now try the wide version
927 out_str.clear();
928 StdStringCanonOutput output2(&out_str);
929 base::string16 wide_input(ConvertUTF8ToUTF16(user_info_cases[i].input));
930 success = CanonicalizeUserInfo(wide_input.c_str(),
931 parsed.username,
932 wide_input.c_str(),
933 parsed.password,
934 &output2,
935 &out_user,
936 &out_pass);
937 output2.Complete();
939 EXPECT_EQ(user_info_cases[i].expected_success, success);
940 EXPECT_EQ(std::string(user_info_cases[i].expected), out_str);
941 EXPECT_EQ(user_info_cases[i].expected_username.begin, out_user.begin);
942 EXPECT_EQ(user_info_cases[i].expected_username.len, out_user.len);
943 EXPECT_EQ(user_info_cases[i].expected_password.begin, out_pass.begin);
944 EXPECT_EQ(user_info_cases[i].expected_password.len, out_pass.len);
948 TEST(URLCanonTest, Port) {
949 // We only need to test that the number gets properly put into the output
950 // buffer. The parser unit tests will test scanning the number correctly.
952 // Note that the CanonicalizePort will always prepend a colon to the output
953 // to separate it from the colon that it assumes preceeds it.
954 struct PortCase {
955 const char* input;
956 int default_port;
957 const char* expected;
958 Component expected_component;
959 bool expected_success;
960 } port_cases[] = {
961 // Invalid input should be copied w/ failure.
962 {"as df", 80, ":as%20df", Component(1, 7), false},
963 {"-2", 80, ":-2", Component(1, 2), false},
964 // Default port should be omitted.
965 {"80", 80, "", Component(0, -1), true},
966 {"8080", 80, ":8080", Component(1, 4), true},
967 // PORT_UNSPECIFIED should mean always keep the port.
968 {"80", PORT_UNSPECIFIED, ":80", Component(1, 2), true},
971 for (size_t i = 0; i < ARRAYSIZE(port_cases); i++) {
972 int url_len = static_cast<int>(strlen(port_cases[i].input));
973 Component in_comp(0, url_len);
974 Component out_comp;
975 std::string out_str;
976 StdStringCanonOutput output1(&out_str);
977 bool success = CanonicalizePort(port_cases[i].input,
978 in_comp,
979 port_cases[i].default_port,
980 &output1,
981 &out_comp);
982 output1.Complete();
984 EXPECT_EQ(port_cases[i].expected_success, success);
985 EXPECT_EQ(std::string(port_cases[i].expected), out_str);
986 EXPECT_EQ(port_cases[i].expected_component.begin, out_comp.begin);
987 EXPECT_EQ(port_cases[i].expected_component.len, out_comp.len);
989 // Now try the wide version
990 out_str.clear();
991 StdStringCanonOutput output2(&out_str);
992 base::string16 wide_input(ConvertUTF8ToUTF16(port_cases[i].input));
993 success = CanonicalizePort(wide_input.c_str(),
994 in_comp,
995 port_cases[i].default_port,
996 &output2,
997 &out_comp);
998 output2.Complete();
1000 EXPECT_EQ(port_cases[i].expected_success, success);
1001 EXPECT_EQ(std::string(port_cases[i].expected), out_str);
1002 EXPECT_EQ(port_cases[i].expected_component.begin, out_comp.begin);
1003 EXPECT_EQ(port_cases[i].expected_component.len, out_comp.len);
1007 TEST(URLCanonTest, Path) {
1008 DualComponentCase path_cases[] = {
1009 // ----- path collapsing tests -----
1010 {"/././foo", L"/././foo", "/foo", Component(0, 4), true},
1011 {"/./.foo", L"/./.foo", "/.foo", Component(0, 5), true},
1012 {"/foo/.", L"/foo/.", "/foo/", Component(0, 5), true},
1013 {"/foo/./", L"/foo/./", "/foo/", Component(0, 5), true},
1014 // double dots followed by a slash or the end of the string count
1015 {"/foo/bar/..", L"/foo/bar/..", "/foo/", Component(0, 5), true},
1016 {"/foo/bar/../", L"/foo/bar/../", "/foo/", Component(0, 5), true},
1017 // don't count double dots when they aren't followed by a slash
1018 {"/foo/..bar", L"/foo/..bar", "/foo/..bar", Component(0, 10), true},
1019 // some in the middle
1020 {"/foo/bar/../ton", L"/foo/bar/../ton", "/foo/ton", Component(0, 8), true},
1021 {"/foo/bar/../ton/../../a", L"/foo/bar/../ton/../../a", "/a", Component(0, 2), true},
1022 // we should not be able to go above the root
1023 {"/foo/../../..", L"/foo/../../..", "/", Component(0, 1), true},
1024 {"/foo/../../../ton", L"/foo/../../../ton", "/ton", Component(0, 4), true},
1025 // escaped dots should be unescaped and treated the same as dots
1026 {"/foo/%2e", L"/foo/%2e", "/foo/", Component(0, 5), true},
1027 {"/foo/%2e%2", L"/foo/%2e%2", "/foo/.%2", Component(0, 8), true},
1028 {"/foo/%2e./%2e%2e/.%2e/%2e.bar", L"/foo/%2e./%2e%2e/.%2e/%2e.bar", "/..bar", Component(0, 6), true},
1029 // Multiple slashes in a row should be preserved and treated like empty
1030 // directory names.
1031 {"////../..", L"////../..", "//", Component(0, 2), true},
1033 // ----- escaping tests -----
1034 {"/foo", L"/foo", "/foo", Component(0, 4), true},
1035 // Valid escape sequence
1036 {"/%20foo", L"/%20foo", "/%20foo", Component(0, 7), true},
1037 // Invalid escape sequence we should pass through unchanged.
1038 {"/foo%", L"/foo%", "/foo%", Component(0, 5), true},
1039 {"/foo%2", L"/foo%2", "/foo%2", Component(0, 6), true},
1040 // Invalid escape sequence: bad characters should be treated the same as
1041 // the sourrounding text, not as escaped (in this case, UTF-8).
1042 {"/foo%2zbar", L"/foo%2zbar", "/foo%2zbar", Component(0, 10), true},
1043 {"/foo%2\xc2\xa9zbar", NULL, "/foo%2%C2%A9zbar", Component(0, 16), true},
1044 {NULL, L"/foo%2\xc2\xa9zbar", "/foo%2%C3%82%C2%A9zbar", Component(0, 22), true},
1045 // Regular characters that are escaped should be unescaped
1046 {"/foo%41%7a", L"/foo%41%7a", "/fooAz", Component(0, 6), true},
1047 // Funny characters that are unescaped should be escaped
1048 {"/foo\x09\x91%91", NULL, "/foo%09%91%91", Component(0, 13), true},
1049 {NULL, L"/foo\x09\x91%91", "/foo%09%C2%91%91", Component(0, 16), true},
1050 // Invalid characters that are escaped should cause a failure.
1051 {"/foo%00%51", L"/foo%00%51", "/foo%00Q", Component(0, 8), false},
1052 // Some characters should be passed through unchanged regardless of esc.
1053 {"/(%28:%3A%29)", L"/(%28:%3A%29)", "/(%28:%3A%29)", Component(0, 13), true},
1054 // Characters that are properly escaped should not have the case changed
1055 // of hex letters.
1056 {"/%3A%3a%3C%3c", L"/%3A%3a%3C%3c", "/%3A%3a%3C%3c", Component(0, 13), true},
1057 // Funny characters that are unescaped should be escaped
1058 {"/foo\tbar", L"/foo\tbar", "/foo%09bar", Component(0, 10), true},
1059 // Backslashes should get converted to forward slashes
1060 {"\\foo\\bar", L"\\foo\\bar", "/foo/bar", Component(0, 8), true},
1061 // Hashes found in paths (possibly only when the caller explicitly sets
1062 // the path on an already-parsed URL) should be escaped.
1063 {"/foo#bar", L"/foo#bar", "/foo%23bar", Component(0, 10), true},
1064 // %7f should be allowed and %3D should not be unescaped (these were wrong
1065 // in a previous version).
1066 {"/%7Ffp3%3Eju%3Dduvgw%3Dd", L"/%7Ffp3%3Eju%3Dduvgw%3Dd", "/%7Ffp3%3Eju%3Dduvgw%3Dd", Component(0, 24), true},
1067 // @ should be passed through unchanged (escaped or unescaped).
1068 {"/@asdf%40", L"/@asdf%40", "/@asdf%40", Component(0, 9), true},
1070 // ----- encoding tests -----
1071 // Basic conversions
1072 {"/\xe4\xbd\xa0\xe5\xa5\xbd\xe4\xbd\xa0\xe5\xa5\xbd", L"/\x4f60\x597d\x4f60\x597d", "/%E4%BD%A0%E5%A5%BD%E4%BD%A0%E5%A5%BD", Component(0, 37), true},
1073 // Invalid unicode characters should fail. We only do validation on
1074 // UTF-16 input, so this doesn't happen on 8-bit.
1075 {"/\xef\xb7\x90zyx", NULL, "/%EF%B7%90zyx", Component(0, 13), true},
1076 {NULL, L"/\xfdd0zyx", "/%EF%BF%BDzyx", Component(0, 13), false},
1079 for (size_t i = 0; i < arraysize(path_cases); i++) {
1080 if (path_cases[i].input8) {
1081 int len = static_cast<int>(strlen(path_cases[i].input8));
1082 Component in_comp(0, len);
1083 Component out_comp;
1084 std::string out_str;
1085 StdStringCanonOutput output(&out_str);
1086 bool success =
1087 CanonicalizePath(path_cases[i].input8, in_comp, &output, &out_comp);
1088 output.Complete();
1090 EXPECT_EQ(path_cases[i].expected_success, success);
1091 EXPECT_EQ(path_cases[i].expected_component.begin, out_comp.begin);
1092 EXPECT_EQ(path_cases[i].expected_component.len, out_comp.len);
1093 EXPECT_EQ(path_cases[i].expected, out_str);
1096 if (path_cases[i].input16) {
1097 base::string16 input16(WStringToUTF16(path_cases[i].input16));
1098 int len = static_cast<int>(input16.length());
1099 Component in_comp(0, len);
1100 Component out_comp;
1101 std::string out_str;
1102 StdStringCanonOutput output(&out_str);
1104 bool success =
1105 CanonicalizePath(input16.c_str(), in_comp, &output, &out_comp);
1106 output.Complete();
1108 EXPECT_EQ(path_cases[i].expected_success, success);
1109 EXPECT_EQ(path_cases[i].expected_component.begin, out_comp.begin);
1110 EXPECT_EQ(path_cases[i].expected_component.len, out_comp.len);
1111 EXPECT_EQ(path_cases[i].expected, out_str);
1115 // Manual test: embedded NULLs should be escaped and the URL should be marked
1116 // as invalid.
1117 const char path_with_null[] = "/ab\0c";
1118 Component in_comp(0, 5);
1119 Component out_comp;
1121 std::string out_str;
1122 StdStringCanonOutput output(&out_str);
1123 bool success = CanonicalizePath(path_with_null, in_comp, &output, &out_comp);
1124 output.Complete();
1125 EXPECT_FALSE(success);
1126 EXPECT_EQ("/ab%00c", out_str);
1129 TEST(URLCanonTest, Query) {
1130 struct QueryCase {
1131 const char* input8;
1132 const wchar_t* input16;
1133 const char* expected;
1134 } query_cases[] = {
1135 // Regular ASCII case.
1136 {"foo=bar", L"foo=bar", "?foo=bar"},
1137 // Allow question marks in the query without escaping
1138 {"as?df", L"as?df", "?as?df"},
1139 // Always escape '#' since it would mark the ref.
1140 {"as#df", L"as#df", "?as%23df"},
1141 // Escape some questionable 8-bit characters, but never unescape.
1142 {"\x02hello\x7f bye", L"\x02hello\x7f bye", "?%02hello%7F%20bye"},
1143 {"%40%41123", L"%40%41123", "?%40%41123"},
1144 // Chinese input/output
1145 {"q=\xe4\xbd\xa0\xe5\xa5\xbd", L"q=\x4f60\x597d", "?q=%E4%BD%A0%E5%A5%BD"},
1146 // Invalid UTF-8/16 input should be replaced with invalid characters.
1147 {"q=\xed\xed", L"q=\xd800\xd800", "?q=%EF%BF%BD%EF%BF%BD"},
1148 // Don't allow < or > because sometimes they are used for XSS if the
1149 // URL is echoed in content. Firefox does this, IE doesn't.
1150 {"q=<asdf>", L"q=<asdf>", "?q=%3Casdf%3E"},
1151 // Escape double quotemarks in the query.
1152 {"q=\"asdf\"", L"q=\"asdf\"", "?q=%22asdf%22"},
1155 for (size_t i = 0; i < ARRAYSIZE(query_cases); i++) {
1156 Component out_comp;
1158 if (query_cases[i].input8) {
1159 int len = static_cast<int>(strlen(query_cases[i].input8));
1160 Component in_comp(0, len);
1161 std::string out_str;
1163 StdStringCanonOutput output(&out_str);
1164 CanonicalizeQuery(query_cases[i].input8, in_comp, NULL, &output,
1165 &out_comp);
1166 output.Complete();
1168 EXPECT_EQ(query_cases[i].expected, out_str);
1171 if (query_cases[i].input16) {
1172 base::string16 input16(WStringToUTF16(query_cases[i].input16));
1173 int len = static_cast<int>(input16.length());
1174 Component in_comp(0, len);
1175 std::string out_str;
1177 StdStringCanonOutput output(&out_str);
1178 CanonicalizeQuery(input16.c_str(), in_comp, NULL, &output, &out_comp);
1179 output.Complete();
1181 EXPECT_EQ(query_cases[i].expected, out_str);
1185 // Extra test for input with embedded NULL;
1186 std::string out_str;
1187 StdStringCanonOutput output(&out_str);
1188 Component out_comp;
1189 CanonicalizeQuery("a \x00z\x01", Component(0, 5), NULL, &output, &out_comp);
1190 output.Complete();
1191 EXPECT_EQ("?a%20%00z%01", out_str);
1194 TEST(URLCanonTest, Ref) {
1195 // Refs are trivial, it just checks the encoding.
1196 DualComponentCase ref_cases[] = {
1197 // Regular one, we shouldn't escape spaces, et al.
1198 {"hello, world", L"hello, world", "#hello, world", Component(1, 12), true},
1199 // UTF-8/wide input should be preserved
1200 {"\xc2\xa9", L"\xa9", "#\xc2\xa9", Component(1, 2), true},
1201 // Test a characer that takes > 16 bits (U+10300 = old italic letter A)
1202 {"\xF0\x90\x8C\x80ss", L"\xd800\xdf00ss", "#\xF0\x90\x8C\x80ss", Component(1, 6), true},
1203 // Escaping should be preserved unchanged, even invalid ones
1204 {"%41%a", L"%41%a", "#%41%a", Component(1, 5), true},
1205 // Invalid UTF-8/16 input should be flagged and the input made valid
1206 {"\xc2", NULL, "#\xef\xbf\xbd", Component(1, 3), true},
1207 {NULL, L"\xd800\x597d", "#\xef\xbf\xbd\xe5\xa5\xbd", Component(1, 6), true},
1208 // Test a Unicode invalid character.
1209 {"a\xef\xb7\x90", L"a\xfdd0", "#a\xef\xbf\xbd", Component(1, 4), true},
1210 // Refs can have # signs and we should preserve them.
1211 {"asdf#qwer", L"asdf#qwer", "#asdf#qwer", Component(1, 9), true},
1212 {"#asdf", L"#asdf", "##asdf", Component(1, 5), true},
1215 for (size_t i = 0; i < arraysize(ref_cases); i++) {
1216 // 8-bit input
1217 if (ref_cases[i].input8) {
1218 int len = static_cast<int>(strlen(ref_cases[i].input8));
1219 Component in_comp(0, len);
1220 Component out_comp;
1222 std::string out_str;
1223 StdStringCanonOutput output(&out_str);
1224 CanonicalizeRef(ref_cases[i].input8, in_comp, &output, &out_comp);
1225 output.Complete();
1227 EXPECT_EQ(ref_cases[i].expected_component.begin, out_comp.begin);
1228 EXPECT_EQ(ref_cases[i].expected_component.len, out_comp.len);
1229 EXPECT_EQ(ref_cases[i].expected, out_str);
1232 // 16-bit input
1233 if (ref_cases[i].input16) {
1234 base::string16 input16(WStringToUTF16(ref_cases[i].input16));
1235 int len = static_cast<int>(input16.length());
1236 Component in_comp(0, len);
1237 Component out_comp;
1239 std::string out_str;
1240 StdStringCanonOutput output(&out_str);
1241 CanonicalizeRef(input16.c_str(), in_comp, &output, &out_comp);
1242 output.Complete();
1244 EXPECT_EQ(ref_cases[i].expected_component.begin, out_comp.begin);
1245 EXPECT_EQ(ref_cases[i].expected_component.len, out_comp.len);
1246 EXPECT_EQ(ref_cases[i].expected, out_str);
1250 // Try one with an embedded NULL. It should be stripped.
1251 const char null_input[5] = "ab\x00z";
1252 Component null_input_component(0, 4);
1253 Component out_comp;
1255 std::string out_str;
1256 StdStringCanonOutput output(&out_str);
1257 CanonicalizeRef(null_input, null_input_component, &output, &out_comp);
1258 output.Complete();
1260 EXPECT_EQ(1, out_comp.begin);
1261 EXPECT_EQ(3, out_comp.len);
1262 EXPECT_EQ("#abz", out_str);
1265 TEST(URLCanonTest, CanonicalizeStandardURL) {
1266 // The individual component canonicalize tests should have caught the cases
1267 // for each of those components. Here, we just need to test that the various
1268 // parts are included or excluded properly, and have the correct separators.
1269 struct URLCase {
1270 const char* input;
1271 const char* expected;
1272 bool expected_success;
1273 } cases[] = {
1274 {"http://www.google.com/foo?bar=baz#", "http://www.google.com/foo?bar=baz#", true},
1275 {"http://[www.google.com]/", "http://[www.google.com]/", false},
1276 {"ht\ttp:@www.google.com:80/;p?#", "ht%09tp://www.google.com:80/;p?#", false},
1277 {"http:////////user:@google.com:99?foo", "http://user@google.com:99/?foo", true},
1278 {"www.google.com", ":www.google.com/", true},
1279 {"http://192.0x00A80001", "http://192.168.0.1/", true},
1280 {"http://www/foo%2Ehtml", "http://www/foo.html", true},
1281 {"http://user:pass@/", "http://user:pass@/", false},
1282 {"http://%25DOMAIN:foobar@foodomain.com/", "http://%25DOMAIN:foobar@foodomain.com/", true},
1284 // Backslashes should get converted to forward slashes.
1285 {"http:\\\\www.google.com\\foo", "http://www.google.com/foo", true},
1287 // Busted refs shouldn't make the whole thing fail.
1288 {"http://www.google.com/asdf#\xc2", "http://www.google.com/asdf#\xef\xbf\xbd", true},
1290 // Basic port tests.
1291 {"http://foo:80/", "http://foo/", true},
1292 {"http://foo:81/", "http://foo:81/", true},
1293 {"httpa://foo:80/", "httpa://foo:80/", true},
1294 {"http://foo:-80/", "http://foo:-80/", false},
1296 {"https://foo:443/", "https://foo/", true},
1297 {"https://foo:80/", "https://foo:80/", true},
1298 {"ftp://foo:21/", "ftp://foo/", true},
1299 {"ftp://foo:80/", "ftp://foo:80/", true},
1300 {"gopher://foo:70/", "gopher://foo/", true},
1301 {"gopher://foo:443/", "gopher://foo:443/", true},
1302 {"ws://foo:80/", "ws://foo/", true},
1303 {"ws://foo:81/", "ws://foo:81/", true},
1304 {"ws://foo:443/", "ws://foo:443/", true},
1305 {"ws://foo:815/", "ws://foo:815/", true},
1306 {"wss://foo:80/", "wss://foo:80/", true},
1307 {"wss://foo:81/", "wss://foo:81/", true},
1308 {"wss://foo:443/", "wss://foo/", true},
1309 {"wss://foo:815/", "wss://foo:815/", true},
1312 for (size_t i = 0; i < ARRAYSIZE(cases); i++) {
1313 int url_len = static_cast<int>(strlen(cases[i].input));
1314 Parsed parsed;
1315 ParseStandardURL(cases[i].input, url_len, &parsed);
1317 Parsed out_parsed;
1318 std::string out_str;
1319 StdStringCanonOutput output(&out_str);
1320 bool success = CanonicalizeStandardURL(
1321 cases[i].input, url_len, parsed, NULL, &output, &out_parsed);
1322 output.Complete();
1324 EXPECT_EQ(cases[i].expected_success, success);
1325 EXPECT_EQ(cases[i].expected, out_str);
1329 // The codepath here is the same as for regular canonicalization, so we just
1330 // need to test that things are replaced or not correctly.
1331 TEST(URLCanonTest, ReplaceStandardURL) {
1332 ReplaceCase replace_cases[] = {
1333 // Common case of truncating the path.
1334 {"http://www.google.com/foo?bar=baz#ref", NULL, NULL, NULL, NULL, NULL, "/", kDeleteComp, kDeleteComp, "http://www.google.com/"},
1335 // Replace everything
1336 {"http://a:b@google.com:22/foo;bar?baz@cat", "https", "me", "pw", "host.com", "99", "/path", "query", "ref", "https://me:pw@host.com:99/path?query#ref"},
1337 // Replace nothing
1338 {"http://a:b@google.com:22/foo?baz@cat", NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, "http://a:b@google.com:22/foo?baz@cat"},
1339 // Replace scheme with filesystem. The result is garbage, but you asked
1340 // for it.
1341 {"http://a:b@google.com:22/foo?baz@cat", "filesystem", NULL, NULL, NULL, NULL, NULL, NULL, NULL, "filesystem://a:b@google.com:22/foo?baz@cat"},
1344 for (size_t i = 0; i < arraysize(replace_cases); i++) {
1345 const ReplaceCase& cur = replace_cases[i];
1346 int base_len = static_cast<int>(strlen(cur.base));
1347 Parsed parsed;
1348 ParseStandardURL(cur.base, base_len, &parsed);
1350 Replacements<char> r;
1351 typedef Replacements<char> R; // Clean up syntax.
1353 // Note that for the scheme we pass in a different clear function since
1354 // there is no function to clear the scheme.
1355 SetupReplComp(&R::SetScheme, &R::ClearRef, &r, cur.scheme);
1356 SetupReplComp(&R::SetUsername, &R::ClearUsername, &r, cur.username);
1357 SetupReplComp(&R::SetPassword, &R::ClearPassword, &r, cur.password);
1358 SetupReplComp(&R::SetHost, &R::ClearHost, &r, cur.host);
1359 SetupReplComp(&R::SetPort, &R::ClearPort, &r, cur.port);
1360 SetupReplComp(&R::SetPath, &R::ClearPath, &r, cur.path);
1361 SetupReplComp(&R::SetQuery, &R::ClearQuery, &r, cur.query);
1362 SetupReplComp(&R::SetRef, &R::ClearRef, &r, cur.ref);
1364 std::string out_str;
1365 StdStringCanonOutput output(&out_str);
1366 Parsed out_parsed;
1367 ReplaceStandardURL(replace_cases[i].base, parsed, r, NULL, &output,
1368 &out_parsed);
1369 output.Complete();
1371 EXPECT_EQ(replace_cases[i].expected, out_str);
1374 // The path pointer should be ignored if the address is invalid.
1376 const char src[] = "http://www.google.com/here_is_the_path";
1377 int src_len = static_cast<int>(strlen(src));
1379 Parsed parsed;
1380 ParseStandardURL(src, src_len, &parsed);
1382 // Replace the path to 0 length string. By using 1 as the string address,
1383 // the test should get an access violation if it tries to dereference it.
1384 Replacements<char> r;
1385 r.SetPath(reinterpret_cast<char*>(0x00000001), Component(0, 0));
1386 std::string out_str1;
1387 StdStringCanonOutput output1(&out_str1);
1388 Parsed new_parsed;
1389 ReplaceStandardURL(src, parsed, r, NULL, &output1, &new_parsed);
1390 output1.Complete();
1391 EXPECT_STREQ("http://www.google.com/", out_str1.c_str());
1393 // Same with an "invalid" path.
1394 r.SetPath(reinterpret_cast<char*>(0x00000001), Component());
1395 std::string out_str2;
1396 StdStringCanonOutput output2(&out_str2);
1397 ReplaceStandardURL(src, parsed, r, NULL, &output2, &new_parsed);
1398 output2.Complete();
1399 EXPECT_STREQ("http://www.google.com/", out_str2.c_str());
1403 TEST(URLCanonTest, ReplaceFileURL) {
1404 ReplaceCase replace_cases[] = {
1405 // Replace everything
1406 {"file:///C:/gaba?query#ref", NULL, NULL, NULL, "filer", NULL, "/foo", "b", "c", "file://filer/foo?b#c"},
1407 // Replace nothing
1408 {"file:///C:/gaba?query#ref", NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, "file:///C:/gaba?query#ref"},
1409 // Clear non-path components (common)
1410 {"file:///C:/gaba?query#ref", NULL, NULL, NULL, NULL, NULL, NULL, kDeleteComp, kDeleteComp, "file:///C:/gaba"},
1411 // Replace path with something that doesn't begin with a slash and make
1412 // sure it gets added properly.
1413 {"file:///C:/gaba", NULL, NULL, NULL, NULL, NULL, "interesting/", NULL, NULL, "file:///interesting/"},
1414 {"file:///home/gaba?query#ref", NULL, NULL, NULL, "filer", NULL, "/foo", "b", "c", "file://filer/foo?b#c"},
1415 {"file:///home/gaba?query#ref", NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, "file:///home/gaba?query#ref"},
1416 {"file:///home/gaba?query#ref", NULL, NULL, NULL, NULL, NULL, NULL, kDeleteComp, kDeleteComp, "file:///home/gaba"},
1417 {"file:///home/gaba", NULL, NULL, NULL, NULL, NULL, "interesting/", NULL, NULL, "file:///interesting/"},
1418 // Replace scheme -- shouldn't do anything.
1419 {"file:///C:/gaba?query#ref", "http", NULL, NULL, NULL, NULL, NULL, NULL, NULL, "file:///C:/gaba?query#ref"},
1422 for (size_t i = 0; i < arraysize(replace_cases); i++) {
1423 const ReplaceCase& cur = replace_cases[i];
1424 int base_len = static_cast<int>(strlen(cur.base));
1425 Parsed parsed;
1426 ParseFileURL(cur.base, base_len, &parsed);
1428 Replacements<char> r;
1429 typedef Replacements<char> R; // Clean up syntax.
1430 SetupReplComp(&R::SetScheme, &R::ClearRef, &r, cur.scheme);
1431 SetupReplComp(&R::SetUsername, &R::ClearUsername, &r, cur.username);
1432 SetupReplComp(&R::SetPassword, &R::ClearPassword, &r, cur.password);
1433 SetupReplComp(&R::SetHost, &R::ClearHost, &r, cur.host);
1434 SetupReplComp(&R::SetPort, &R::ClearPort, &r, cur.port);
1435 SetupReplComp(&R::SetPath, &R::ClearPath, &r, cur.path);
1436 SetupReplComp(&R::SetQuery, &R::ClearQuery, &r, cur.query);
1437 SetupReplComp(&R::SetRef, &R::ClearRef, &r, cur.ref);
1439 std::string out_str;
1440 StdStringCanonOutput output(&out_str);
1441 Parsed out_parsed;
1442 ReplaceFileURL(cur.base, parsed, r, NULL, &output, &out_parsed);
1443 output.Complete();
1445 EXPECT_EQ(replace_cases[i].expected, out_str);
1449 TEST(URLCanonTest, ReplaceFileSystemURL) {
1450 ReplaceCase replace_cases[] = {
1451 // Replace everything in the outer URL.
1452 {"filesystem:file:///temporary/gaba?query#ref", NULL, NULL, NULL, NULL, NULL, "/foo", "b", "c", "filesystem:file:///temporary/foo?b#c"},
1453 // Replace nothing
1454 {"filesystem:file:///temporary/gaba?query#ref", NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, "filesystem:file:///temporary/gaba?query#ref"},
1455 // Clear non-path components (common)
1456 {"filesystem:file:///temporary/gaba?query#ref", NULL, NULL, NULL, NULL, NULL, NULL, kDeleteComp, kDeleteComp, "filesystem:file:///temporary/gaba"},
1457 // Replace path with something that doesn't begin with a slash and make
1458 // sure it gets added properly.
1459 {"filesystem:file:///temporary/gaba?query#ref", NULL, NULL, NULL, NULL, NULL, "interesting/", NULL, NULL, "filesystem:file:///temporary/interesting/?query#ref"},
1460 // Replace scheme -- shouldn't do anything.
1461 {"filesystem:http://u:p@bar.com/t/gaba?query#ref", "http", NULL, NULL, NULL, NULL, NULL, NULL, NULL, "filesystem:http://u:p@bar.com/t/gaba?query#ref"},
1462 // Replace username -- shouldn't do anything.
1463 {"filesystem:http://u:p@bar.com/t/gaba?query#ref", NULL, "u2", NULL, NULL, NULL, NULL, NULL, NULL, "filesystem:http://u:p@bar.com/t/gaba?query#ref"},
1464 // Replace password -- shouldn't do anything.
1465 {"filesystem:http://u:p@bar.com/t/gaba?query#ref", NULL, NULL, "pw2", NULL, NULL, NULL, NULL, NULL, "filesystem:http://u:p@bar.com/t/gaba?query#ref"},
1466 // Replace host -- shouldn't do anything.
1467 {"filesystem:http://u:p@bar.com/t/gaba?query#ref", NULL, NULL, NULL, "foo.com", NULL, NULL, NULL, NULL, "filesystem:http://u:p@bar.com/t/gaba?query#ref"},
1468 // Replace port -- shouldn't do anything.
1469 {"filesystem:http://u:p@bar.com:40/t/gaba?query#ref", NULL, NULL, NULL, NULL, "41", NULL, NULL, NULL, "filesystem:http://u:p@bar.com:40/t/gaba?query#ref"},
1472 for (size_t i = 0; i < arraysize(replace_cases); i++) {
1473 const ReplaceCase& cur = replace_cases[i];
1474 int base_len = static_cast<int>(strlen(cur.base));
1475 Parsed parsed;
1476 ParseFileSystemURL(cur.base, base_len, &parsed);
1478 Replacements<char> r;
1479 typedef Replacements<char> R; // Clean up syntax.
1480 SetupReplComp(&R::SetScheme, &R::ClearRef, &r, cur.scheme);
1481 SetupReplComp(&R::SetUsername, &R::ClearUsername, &r, cur.username);
1482 SetupReplComp(&R::SetPassword, &R::ClearPassword, &r, cur.password);
1483 SetupReplComp(&R::SetHost, &R::ClearHost, &r, cur.host);
1484 SetupReplComp(&R::SetPort, &R::ClearPort, &r, cur.port);
1485 SetupReplComp(&R::SetPath, &R::ClearPath, &r, cur.path);
1486 SetupReplComp(&R::SetQuery, &R::ClearQuery, &r, cur.query);
1487 SetupReplComp(&R::SetRef, &R::ClearRef, &r, cur.ref);
1489 std::string out_str;
1490 StdStringCanonOutput output(&out_str);
1491 Parsed out_parsed;
1492 ReplaceFileSystemURL(cur.base, parsed, r, NULL, &output, &out_parsed);
1493 output.Complete();
1495 EXPECT_EQ(replace_cases[i].expected, out_str);
1499 TEST(URLCanonTest, ReplacePathURL) {
1500 ReplaceCase replace_cases[] = {
1501 // Replace everything
1502 {"data:foo", "javascript", NULL, NULL, NULL, NULL, "alert('foo?');", NULL, NULL, "javascript:alert('foo?');"},
1503 // Replace nothing
1504 {"data:foo", NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, "data:foo"},
1505 // Replace one or the other
1506 {"data:foo", "javascript", NULL, NULL, NULL, NULL, NULL, NULL, NULL, "javascript:foo"},
1507 {"data:foo", NULL, NULL, NULL, NULL, NULL, "bar", NULL, NULL, "data:bar"},
1508 {"data:foo", NULL, NULL, NULL, NULL, NULL, kDeleteComp, NULL, NULL, "data:"},
1511 for (size_t i = 0; i < arraysize(replace_cases); i++) {
1512 const ReplaceCase& cur = replace_cases[i];
1513 int base_len = static_cast<int>(strlen(cur.base));
1514 Parsed parsed;
1515 ParsePathURL(cur.base, base_len, false, &parsed);
1517 Replacements<char> r;
1518 typedef Replacements<char> R; // Clean up syntax.
1519 SetupReplComp(&R::SetScheme, &R::ClearRef, &r, cur.scheme);
1520 SetupReplComp(&R::SetUsername, &R::ClearUsername, &r, cur.username);
1521 SetupReplComp(&R::SetPassword, &R::ClearPassword, &r, cur.password);
1522 SetupReplComp(&R::SetHost, &R::ClearHost, &r, cur.host);
1523 SetupReplComp(&R::SetPort, &R::ClearPort, &r, cur.port);
1524 SetupReplComp(&R::SetPath, &R::ClearPath, &r, cur.path);
1525 SetupReplComp(&R::SetQuery, &R::ClearQuery, &r, cur.query);
1526 SetupReplComp(&R::SetRef, &R::ClearRef, &r, cur.ref);
1528 std::string out_str;
1529 StdStringCanonOutput output(&out_str);
1530 Parsed out_parsed;
1531 ReplacePathURL(cur.base, parsed, r, &output, &out_parsed);
1532 output.Complete();
1534 EXPECT_EQ(replace_cases[i].expected, out_str);
1538 TEST(URLCanonTest, ReplaceMailtoURL) {
1539 ReplaceCase replace_cases[] = {
1540 // Replace everything
1541 {"mailto:jon@foo.com?body=sup", "mailto", NULL, NULL, NULL, NULL, "addr1", "to=tony", NULL, "mailto:addr1?to=tony"},
1542 // Replace nothing
1543 {"mailto:jon@foo.com?body=sup", NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, "mailto:jon@foo.com?body=sup"},
1544 // Replace the path
1545 {"mailto:jon@foo.com?body=sup", NULL, NULL, NULL, NULL, NULL, "jason", NULL, NULL, "mailto:jason?body=sup"},
1546 // Replace the query
1547 {"mailto:jon@foo.com?body=sup", NULL, NULL, NULL, NULL, NULL, NULL, "custom=1", NULL, "mailto:jon@foo.com?custom=1"},
1548 // Replace the path and query
1549 {"mailto:jon@foo.com?body=sup", NULL, NULL, NULL, NULL, NULL, "jason", "custom=1", NULL, "mailto:jason?custom=1"},
1550 // Set the query to empty (should leave trailing question mark)
1551 {"mailto:jon@foo.com?body=sup", NULL, NULL, NULL, NULL, NULL, NULL, "", NULL, "mailto:jon@foo.com?"},
1552 // Clear the query
1553 {"mailto:jon@foo.com?body=sup", NULL, NULL, NULL, NULL, NULL, NULL, "|", NULL, "mailto:jon@foo.com"},
1554 // Clear the path
1555 {"mailto:jon@foo.com?body=sup", NULL, NULL, NULL, NULL, NULL, "|", NULL, NULL, "mailto:?body=sup"},
1556 // Clear the path + query
1557 {"mailto:", NULL, NULL, NULL, NULL, NULL, "|", "|", NULL, "mailto:"},
1558 // Setting the ref should have no effect
1559 {"mailto:addr1", NULL, NULL, NULL, NULL, NULL, NULL, NULL, "BLAH", "mailto:addr1"},
1562 for (size_t i = 0; i < arraysize(replace_cases); i++) {
1563 const ReplaceCase& cur = replace_cases[i];
1564 int base_len = static_cast<int>(strlen(cur.base));
1565 Parsed parsed;
1566 ParseMailtoURL(cur.base, base_len, &parsed);
1568 Replacements<char> r;
1569 typedef Replacements<char> R;
1570 SetupReplComp(&R::SetScheme, &R::ClearRef, &r, cur.scheme);
1571 SetupReplComp(&R::SetUsername, &R::ClearUsername, &r, cur.username);
1572 SetupReplComp(&R::SetPassword, &R::ClearPassword, &r, cur.password);
1573 SetupReplComp(&R::SetHost, &R::ClearHost, &r, cur.host);
1574 SetupReplComp(&R::SetPort, &R::ClearPort, &r, cur.port);
1575 SetupReplComp(&R::SetPath, &R::ClearPath, &r, cur.path);
1576 SetupReplComp(&R::SetQuery, &R::ClearQuery, &r, cur.query);
1577 SetupReplComp(&R::SetRef, &R::ClearRef, &r, cur.ref);
1579 std::string out_str;
1580 StdStringCanonOutput output(&out_str);
1581 Parsed out_parsed;
1582 ReplaceMailtoURL(cur.base, parsed, r, &output, &out_parsed);
1583 output.Complete();
1585 EXPECT_EQ(replace_cases[i].expected, out_str);
1589 TEST(URLCanonTest, CanonicalizeFileURL) {
1590 struct URLCase {
1591 const char* input;
1592 const char* expected;
1593 bool expected_success;
1594 Component expected_host;
1595 Component expected_path;
1596 } cases[] = {
1597 #ifdef _WIN32
1598 // Windows-style paths
1599 {"file:c:\\foo\\bar.html", "file:///C:/foo/bar.html", true, Component(), Component(7, 16)},
1600 {" File:c|////foo\\bar.html", "file:///C:////foo/bar.html", true, Component(), Component(7, 19)},
1601 {"file:", "file:///", true, Component(), Component(7, 1)},
1602 {"file:UNChost/path", "file://unchost/path", true, Component(7, 7), Component(14, 5)},
1603 // CanonicalizeFileURL supports absolute Windows style paths for IE
1604 // compatability. Note that the caller must decide that this is a file
1605 // URL itself so it can call the file canonicalizer. This is usually
1606 // done automatically as part of relative URL resolving.
1607 {"c:\\foo\\bar", "file:///C:/foo/bar", true, Component(), Component(7, 11)},
1608 {"C|/foo/bar", "file:///C:/foo/bar", true, Component(), Component(7, 11)},
1609 {"/C|\\foo\\bar", "file:///C:/foo/bar", true, Component(), Component(7, 11)},
1610 {"//C|/foo/bar", "file:///C:/foo/bar", true, Component(), Component(7, 11)},
1611 {"//server/file", "file://server/file", true, Component(7, 6), Component(13, 5)},
1612 {"\\\\server\\file", "file://server/file", true, Component(7, 6), Component(13, 5)},
1613 {"/\\server/file", "file://server/file", true, Component(7, 6), Component(13, 5)},
1614 // We should preserve the number of slashes after the colon for IE
1615 // compatability, except when there is none, in which case we should
1616 // add one.
1617 {"file:c:foo/bar.html", "file:///C:/foo/bar.html", true, Component(), Component(7, 16)},
1618 {"file:/\\/\\C:\\\\//foo\\bar.html", "file:///C:////foo/bar.html", true, Component(), Component(7, 19)},
1619 // Three slashes should be non-UNC, even if there is no drive spec (IE
1620 // does this, which makes the resulting request invalid).
1621 {"file:///foo/bar.txt", "file:///foo/bar.txt", true, Component(), Component(7, 12)},
1622 // TODO(brettw) we should probably fail for invalid host names, which
1623 // would change the expected result on this test. We also currently allow
1624 // colon even though it's probably invalid, because its currently the
1625 // "natural" result of the way the canonicalizer is written. There doesn't
1626 // seem to be a strong argument for why allowing it here would be bad, so
1627 // we just tolerate it and the load will fail later.
1628 {"FILE:/\\/\\7:\\\\//foo\\bar.html", "file://7:////foo/bar.html", false, Component(7, 2), Component(9, 16)},
1629 {"file:filer/home\\me", "file://filer/home/me", true, Component(7, 5), Component(12, 8)},
1630 // Make sure relative paths can't go above the "C:"
1631 {"file:///C:/foo/../../../bar.html", "file:///C:/bar.html", true, Component(), Component(7, 12)},
1632 // Busted refs shouldn't make the whole thing fail.
1633 {"file:///C:/asdf#\xc2", "file:///C:/asdf#\xef\xbf\xbd", true, Component(), Component(7, 8)},
1634 #else
1635 // Unix-style paths
1636 {"file:///home/me", "file:///home/me", true, Component(), Component(7, 8)},
1637 // Windowsy ones should get still treated as Unix-style.
1638 {"file:c:\\foo\\bar.html", "file:///c:/foo/bar.html", true, Component(), Component(7, 16)},
1639 {"file:c|//foo\\bar.html", "file:///c%7C//foo/bar.html", true, Component(), Component(7, 19)},
1640 // file: tests from WebKit (LayoutTests/fast/loader/url-parse-1.html)
1641 {"//", "file:///", true, Component(), Component(7, 1)},
1642 {"///", "file:///", true, Component(), Component(7, 1)},
1643 {"///test", "file:///test", true, Component(), Component(7, 5)},
1644 {"file://test", "file://test/", true, Component(7, 4), Component(11, 1)},
1645 {"file://localhost", "file://localhost/", true, Component(7, 9), Component(16, 1)},
1646 {"file://localhost/", "file://localhost/", true, Component(7, 9), Component(16, 1)},
1647 {"file://localhost/test", "file://localhost/test", true, Component(7, 9), Component(16, 5)},
1648 #endif // _WIN32
1651 for (size_t i = 0; i < ARRAYSIZE(cases); i++) {
1652 int url_len = static_cast<int>(strlen(cases[i].input));
1653 Parsed parsed;
1654 ParseFileURL(cases[i].input, url_len, &parsed);
1656 Parsed out_parsed;
1657 std::string out_str;
1658 StdStringCanonOutput output(&out_str);
1659 bool success = CanonicalizeFileURL(cases[i].input, url_len, parsed, NULL,
1660 &output, &out_parsed);
1661 output.Complete();
1663 EXPECT_EQ(cases[i].expected_success, success);
1664 EXPECT_EQ(cases[i].expected, out_str);
1666 // Make sure the spec was properly identified, the file canonicalizer has
1667 // different code for writing the spec.
1668 EXPECT_EQ(0, out_parsed.scheme.begin);
1669 EXPECT_EQ(4, out_parsed.scheme.len);
1671 EXPECT_EQ(cases[i].expected_host.begin, out_parsed.host.begin);
1672 EXPECT_EQ(cases[i].expected_host.len, out_parsed.host.len);
1674 EXPECT_EQ(cases[i].expected_path.begin, out_parsed.path.begin);
1675 EXPECT_EQ(cases[i].expected_path.len, out_parsed.path.len);
1679 TEST(URLCanonTest, CanonicalizeFileSystemURL) {
1680 struct URLCase {
1681 const char* input;
1682 const char* expected;
1683 bool expected_success;
1684 } cases[] = {
1685 {"Filesystem:htTp://www.Foo.com:80/tempoRary", "filesystem:http://www.foo.com/tempoRary/", true},
1686 {"filesystem:httpS://www.foo.com/temporary/", "filesystem:https://www.foo.com/temporary/", true},
1687 {"filesystem:http://www.foo.com//", "filesystem:http://www.foo.com//", false},
1688 {"filesystem:http://www.foo.com/persistent/bob?query#ref", "filesystem:http://www.foo.com/persistent/bob?query#ref", true},
1689 {"filesystem:fIle://\\temporary/", "filesystem:file:///temporary/", true},
1690 {"filesystem:fiLe:///temporary", "filesystem:file:///temporary/", true},
1691 {"filesystem:File:///temporary/Bob?qUery#reF", "filesystem:file:///temporary/Bob?qUery#reF", true},
1694 for (size_t i = 0; i < ARRAYSIZE(cases); i++) {
1695 int url_len = static_cast<int>(strlen(cases[i].input));
1696 Parsed parsed;
1697 ParseFileSystemURL(cases[i].input, url_len, &parsed);
1699 Parsed out_parsed;
1700 std::string out_str;
1701 StdStringCanonOutput output(&out_str);
1702 bool success = CanonicalizeFileSystemURL(cases[i].input, url_len, parsed,
1703 NULL, &output, &out_parsed);
1704 output.Complete();
1706 EXPECT_EQ(cases[i].expected_success, success);
1707 EXPECT_EQ(cases[i].expected, out_str);
1709 // Make sure the spec was properly identified, the filesystem canonicalizer
1710 // has different code for writing the spec.
1711 EXPECT_EQ(0, out_parsed.scheme.begin);
1712 EXPECT_EQ(10, out_parsed.scheme.len);
1713 if (success)
1714 EXPECT_GT(out_parsed.path.len, 0);
1718 TEST(URLCanonTest, CanonicalizePathURL) {
1719 // Path URLs should get canonicalized schemes but nothing else.
1720 struct PathCase {
1721 const char* input;
1722 const char* expected;
1723 } path_cases[] = {
1724 {"javascript:", "javascript:"},
1725 {"JavaScript:Foo", "javascript:Foo"},
1726 {":\":This /is interesting;?#", ":\":This /is interesting;?#"},
1729 for (size_t i = 0; i < ARRAYSIZE(path_cases); i++) {
1730 int url_len = static_cast<int>(strlen(path_cases[i].input));
1731 Parsed parsed;
1732 ParsePathURL(path_cases[i].input, url_len, true, &parsed);
1734 Parsed out_parsed;
1735 std::string out_str;
1736 StdStringCanonOutput output(&out_str);
1737 bool success = CanonicalizePathURL(path_cases[i].input, url_len, parsed,
1738 &output, &out_parsed);
1739 output.Complete();
1741 EXPECT_TRUE(success);
1742 EXPECT_EQ(path_cases[i].expected, out_str);
1744 EXPECT_EQ(0, out_parsed.host.begin);
1745 EXPECT_EQ(-1, out_parsed.host.len);
1747 // When we end with a colon at the end, there should be no path.
1748 if (path_cases[i].input[url_len - 1] == ':') {
1749 EXPECT_EQ(0, out_parsed.GetContent().begin);
1750 EXPECT_EQ(-1, out_parsed.GetContent().len);
1755 TEST(URLCanonTest, CanonicalizeMailtoURL) {
1756 struct URLCase {
1757 const char* input;
1758 const char* expected;
1759 bool expected_success;
1760 Component expected_path;
1761 Component expected_query;
1762 } cases[] = {
1763 {"mailto:addr1", "mailto:addr1", true, Component(7, 5), Component()},
1764 {"mailto:addr1@foo.com", "mailto:addr1@foo.com", true, Component(7, 13), Component()},
1765 // Trailing whitespace is stripped.
1766 {"MaIlTo:addr1 \t ", "mailto:addr1", true, Component(7, 5), Component()},
1767 {"MaIlTo:addr1?to=jon", "mailto:addr1?to=jon", true, Component(7, 5), Component(13,6)},
1768 {"mailto:addr1,addr2", "mailto:addr1,addr2", true, Component(7, 11), Component()},
1769 {"mailto:addr1, addr2", "mailto:addr1, addr2", true, Component(7, 12), Component()},
1770 {"mailto:addr1%2caddr2", "mailto:addr1%2caddr2", true, Component(7, 13), Component()},
1771 {"mailto:\xF0\x90\x8C\x80", "mailto:%F0%90%8C%80", true, Component(7, 12), Component()},
1772 // Null character should be escaped to %00
1773 {"mailto:addr1\0addr2?foo", "mailto:addr1%00addr2?foo", true, Component(7, 13), Component(21, 3)},
1774 // Invalid -- UTF-8 encoded surrogate value.
1775 {"mailto:\xed\xa0\x80", "mailto:%EF%BF%BD", false, Component(7, 9), Component()},
1776 {"mailto:addr1?", "mailto:addr1?", true, Component(7, 5), Component(13, 0)},
1779 // Define outside of loop to catch bugs where components aren't reset
1780 Parsed parsed;
1781 Parsed out_parsed;
1783 for (size_t i = 0; i < ARRAYSIZE(cases); i++) {
1784 int url_len = static_cast<int>(strlen(cases[i].input));
1785 if (i == 8) {
1786 // The 9th test case purposely has a '\0' in it -- don't count it
1787 // as the string terminator.
1788 url_len = 22;
1790 ParseMailtoURL(cases[i].input, url_len, &parsed);
1792 std::string out_str;
1793 StdStringCanonOutput output(&out_str);
1794 bool success = CanonicalizeMailtoURL(cases[i].input, url_len, parsed,
1795 &output, &out_parsed);
1796 output.Complete();
1798 EXPECT_EQ(cases[i].expected_success, success);
1799 EXPECT_EQ(cases[i].expected, out_str);
1801 // Make sure the spec was properly identified
1802 EXPECT_EQ(0, out_parsed.scheme.begin);
1803 EXPECT_EQ(6, out_parsed.scheme.len);
1805 EXPECT_EQ(cases[i].expected_path.begin, out_parsed.path.begin);
1806 EXPECT_EQ(cases[i].expected_path.len, out_parsed.path.len);
1808 EXPECT_EQ(cases[i].expected_query.begin, out_parsed.query.begin);
1809 EXPECT_EQ(cases[i].expected_query.len, out_parsed.query.len);
1813 #ifndef WIN32
1815 TEST(URLCanonTest, _itoa_s) {
1816 // We fill the buffer with 0xff to ensure that it's getting properly
1817 // null-terminated. We also allocate one byte more than what we tell
1818 // _itoa_s about, and ensure that the extra byte is untouched.
1819 char buf[6];
1820 memset(buf, 0xff, sizeof(buf));
1821 EXPECT_EQ(0, _itoa_s(12, buf, sizeof(buf) - 1, 10));
1822 EXPECT_STREQ("12", buf);
1823 EXPECT_EQ('\xFF', buf[3]);
1825 // Test the edge cases - exactly the buffer size and one over
1826 memset(buf, 0xff, sizeof(buf));
1827 EXPECT_EQ(0, _itoa_s(1234, buf, sizeof(buf) - 1, 10));
1828 EXPECT_STREQ("1234", buf);
1829 EXPECT_EQ('\xFF', buf[5]);
1831 memset(buf, 0xff, sizeof(buf));
1832 EXPECT_EQ(EINVAL, _itoa_s(12345, buf, sizeof(buf) - 1, 10));
1833 EXPECT_EQ('\xFF', buf[5]); // should never write to this location
1835 // Test the template overload (note that this will see the full buffer)
1836 memset(buf, 0xff, sizeof(buf));
1837 EXPECT_EQ(0, _itoa_s(12, buf, 10));
1838 EXPECT_STREQ("12", buf);
1839 EXPECT_EQ('\xFF', buf[3]);
1841 memset(buf, 0xff, sizeof(buf));
1842 EXPECT_EQ(0, _itoa_s(12345, buf, 10));
1843 EXPECT_STREQ("12345", buf);
1845 EXPECT_EQ(EINVAL, _itoa_s(123456, buf, 10));
1847 // Test that radix 16 is supported.
1848 memset(buf, 0xff, sizeof(buf));
1849 EXPECT_EQ(0, _itoa_s(1234, buf, sizeof(buf) - 1, 16));
1850 EXPECT_STREQ("4d2", buf);
1851 EXPECT_EQ('\xFF', buf[5]);
1854 TEST(URLCanonTest, _itow_s) {
1855 // We fill the buffer with 0xff to ensure that it's getting properly
1856 // null-terminated. We also allocate one byte more than what we tell
1857 // _itoa_s about, and ensure that the extra byte is untouched.
1858 base::char16 buf[6];
1859 const char fill_mem = 0xff;
1860 const base::char16 fill_char = 0xffff;
1861 memset(buf, fill_mem, sizeof(buf));
1862 EXPECT_EQ(0, _itow_s(12, buf, sizeof(buf) / 2 - 1, 10));
1863 EXPECT_EQ(WStringToUTF16(L"12"), base::string16(buf));
1864 EXPECT_EQ(fill_char, buf[3]);
1866 // Test the edge cases - exactly the buffer size and one over
1867 EXPECT_EQ(0, _itow_s(1234, buf, sizeof(buf) / 2 - 1, 10));
1868 EXPECT_EQ(WStringToUTF16(L"1234"), base::string16(buf));
1869 EXPECT_EQ(fill_char, buf[5]);
1871 memset(buf, fill_mem, sizeof(buf));
1872 EXPECT_EQ(EINVAL, _itow_s(12345, buf, sizeof(buf) / 2 - 1, 10));
1873 EXPECT_EQ(fill_char, buf[5]); // should never write to this location
1875 // Test the template overload (note that this will see the full buffer)
1876 memset(buf, fill_mem, sizeof(buf));
1877 EXPECT_EQ(0, _itow_s(12, buf, 10));
1878 EXPECT_EQ(WStringToUTF16(L"12"), base::string16(buf));
1879 EXPECT_EQ(fill_char, buf[3]);
1881 memset(buf, fill_mem, sizeof(buf));
1882 EXPECT_EQ(0, _itow_s(12345, buf, 10));
1883 EXPECT_EQ(WStringToUTF16(L"12345"), base::string16(buf));
1885 EXPECT_EQ(EINVAL, _itow_s(123456, buf, 10));
1888 #endif // !WIN32
1890 // Returns true if the given two structures are the same.
1891 static bool ParsedIsEqual(const Parsed& a, const Parsed& b) {
1892 return a.scheme.begin == b.scheme.begin && a.scheme.len == b.scheme.len &&
1893 a.username.begin == b.username.begin && a.username.len == b.username.len &&
1894 a.password.begin == b.password.begin && a.password.len == b.password.len &&
1895 a.host.begin == b.host.begin && a.host.len == b.host.len &&
1896 a.port.begin == b.port.begin && a.port.len == b.port.len &&
1897 a.path.begin == b.path.begin && a.path.len == b.path.len &&
1898 a.query.begin == b.query.begin && a.query.len == b.query.len &&
1899 a.ref.begin == b.ref.begin && a.ref.len == b.ref.len;
1902 TEST(URLCanonTest, ResolveRelativeURL) {
1903 struct RelativeCase {
1904 const char* base; // Input base URL: MUST BE CANONICAL
1905 bool is_base_hier; // Is the base URL hierarchical
1906 bool is_base_file; // Tells us if the base is a file URL.
1907 const char* test; // Input URL to test against.
1908 bool succeed_relative; // Whether we expect IsRelativeURL to succeed
1909 bool is_rel; // Whether we expect |test| to be relative or not.
1910 bool succeed_resolve; // Whether we expect ResolveRelativeURL to succeed.
1911 const char* resolved; // What we expect in the result when resolving.
1912 } rel_cases[] = {
1913 // Basic absolute input.
1914 {"http://host/a", true, false, "http://another/", true, false, false, NULL},
1915 {"http://host/a", true, false, "http:////another/", true, false, false, NULL},
1916 // Empty relative URLs should only remove the ref part of the URL,
1917 // leaving the rest unchanged.
1918 {"http://foo/bar", true, false, "", true, true, true, "http://foo/bar"},
1919 {"http://foo/bar#ref", true, false, "", true, true, true, "http://foo/bar"},
1920 {"http://foo/bar#", true, false, "", true, true, true, "http://foo/bar"},
1921 // Spaces at the ends of the relative path should be ignored.
1922 {"http://foo/bar", true, false, " another ", true, true, true, "http://foo/another"},
1923 {"http://foo/bar", true, false, " . ", true, true, true, "http://foo/"},
1924 {"http://foo/bar", true, false, " \t ", true, true, true, "http://foo/bar"},
1925 // Matching schemes without two slashes are treated as relative.
1926 {"http://host/a", true, false, "http:path", true, true, true, "http://host/path"},
1927 {"http://host/a/", true, false, "http:path", true, true, true, "http://host/a/path"},
1928 {"http://host/a", true, false, "http:/path", true, true, true, "http://host/path"},
1929 {"http://host/a", true, false, "HTTP:/path", true, true, true, "http://host/path"},
1930 // Nonmatching schemes are absolute.
1931 {"http://host/a", true, false, "https:host2", true, false, false, NULL},
1932 {"http://host/a", true, false, "htto:/host2", true, false, false, NULL},
1933 // Absolute path input
1934 {"http://host/a", true, false, "/b/c/d", true, true, true, "http://host/b/c/d"},
1935 {"http://host/a", true, false, "\\b\\c\\d", true, true, true, "http://host/b/c/d"},
1936 {"http://host/a", true, false, "/b/../c", true, true, true, "http://host/c"},
1937 {"http://host/a?b#c", true, false, "/b/../c", true, true, true, "http://host/c"},
1938 {"http://host/a", true, false, "\\b/../c?x#y", true, true, true, "http://host/c?x#y"},
1939 {"http://host/a?b#c", true, false, "/b/../c?x#y", true, true, true, "http://host/c?x#y"},
1940 // Relative path input
1941 {"http://host/a", true, false, "b", true, true, true, "http://host/b"},
1942 {"http://host/a", true, false, "bc/de", true, true, true, "http://host/bc/de"},
1943 {"http://host/a/", true, false, "bc/de?query#ref", true, true, true, "http://host/a/bc/de?query#ref"},
1944 {"http://host/a/", true, false, ".", true, true, true, "http://host/a/"},
1945 {"http://host/a/", true, false, "..", true, true, true, "http://host/"},
1946 {"http://host/a/", true, false, "./..", true, true, true, "http://host/"},
1947 {"http://host/a/", true, false, "../.", true, true, true, "http://host/"},
1948 {"http://host/a/", true, false, "././.", true, true, true, "http://host/a/"},
1949 {"http://host/a?query#ref", true, false, "../../../foo", true, true, true, "http://host/foo"},
1950 // Query input
1951 {"http://host/a", true, false, "?foo=bar", true, true, true, "http://host/a?foo=bar"},
1952 {"http://host/a?x=y#z", true, false, "?", true, true, true, "http://host/a?"},
1953 {"http://host/a?x=y#z", true, false, "?foo=bar#com", true, true, true, "http://host/a?foo=bar#com"},
1954 // Ref input
1955 {"http://host/a", true, false, "#ref", true, true, true, "http://host/a#ref"},
1956 {"http://host/a#b", true, false, "#", true, true, true, "http://host/a#"},
1957 {"http://host/a?foo=bar#hello", true, false, "#bye", true, true, true, "http://host/a?foo=bar#bye"},
1958 // Non-hierarchical base: no relative handling. Relative input should
1959 // error, and if a scheme is present, it should be treated as absolute.
1960 {"data:foobar", false, false, "baz.html", false, false, false, NULL},
1961 {"data:foobar", false, false, "data:baz", true, false, false, NULL},
1962 {"data:foobar", false, false, "data:/base", true, false, false, NULL},
1963 // Non-hierarchical base: absolute input should succeed.
1964 {"data:foobar", false, false, "http://host/", true, false, false, NULL},
1965 {"data:foobar", false, false, "http:host", true, false, false, NULL},
1966 // Invalid schemes should be treated as relative.
1967 {"http://foo/bar", true, false, "./asd:fgh", true, true, true, "http://foo/asd:fgh"},
1968 {"http://foo/bar", true, false, ":foo", true, true, true, "http://foo/:foo"},
1969 {"http://foo/bar", true, false, " hello world", true, true, true, "http://foo/hello%20world"},
1970 {"data:asdf", false, false, ":foo", false, false, false, NULL},
1971 {"data:asdf", false, false, "bad(':foo')", false, false, false, NULL},
1972 // We should treat semicolons like any other character in URL resolving
1973 {"http://host/a", true, false, ";foo", true, true, true, "http://host/;foo"},
1974 {"http://host/a;", true, false, ";foo", true, true, true, "http://host/;foo"},
1975 {"http://host/a", true, false, ";/../bar", true, true, true, "http://host/bar"},
1976 // Relative URLs can also be written as "//foo/bar" which is relative to
1977 // the scheme. In this case, it would take the old scheme, so for http
1978 // the example would resolve to "http://foo/bar".
1979 {"http://host/a", true, false, "//another", true, true, true, "http://another/"},
1980 {"http://host/a", true, false, "//another/path?query#ref", true, true, true, "http://another/path?query#ref"},
1981 {"http://host/a", true, false, "///another/path", true, true, true, "http://another/path"},
1982 {"http://host/a", true, false, "//Another\\path", true, true, true, "http://another/path"},
1983 {"http://host/a", true, false, "//", true, true, false, "http:"},
1984 // IE will also allow one or the other to be a backslash to get the same
1985 // behavior.
1986 {"http://host/a", true, false, "\\/another/path", true, true, true, "http://another/path"},
1987 {"http://host/a", true, false, "/\\Another\\path", true, true, true, "http://another/path"},
1988 #ifdef WIN32
1989 // Resolving against Windows file base URLs.
1990 {"file:///C:/foo", true, true, "http://host/", true, false, false, NULL},
1991 {"file:///C:/foo", true, true, "bar", true, true, true, "file:///C:/bar"},
1992 {"file:///C:/foo", true, true, "../../../bar.html", true, true, true, "file:///C:/bar.html"},
1993 {"file:///C:/foo", true, true, "/../bar.html", true, true, true, "file:///C:/bar.html"},
1994 // But two backslashes on Windows should be UNC so should be treated
1995 // as absolute.
1996 {"http://host/a", true, false, "\\\\another\\path", true, false, false, NULL},
1997 // IE doesn't support drive specs starting with two slashes. It fails
1998 // immediately and doesn't even try to load. We fix it up to either
1999 // an absolute path or UNC depending on what it looks like.
2000 {"file:///C:/something", true, true, "//c:/foo", true, true, true, "file:///C:/foo"},
2001 {"file:///C:/something", true, true, "//localhost/c:/foo", true, true, true, "file:///C:/foo"},
2002 // Windows drive specs should be allowed and treated as absolute.
2003 {"file:///C:/foo", true, true, "c:", true, false, false, NULL},
2004 {"file:///C:/foo", true, true, "c:/foo", true, false, false, NULL},
2005 {"http://host/a", true, false, "c:\\foo", true, false, false, NULL},
2006 // Relative paths with drive letters should be allowed when the base is
2007 // also a file.
2008 {"file:///C:/foo", true, true, "/z:/bar", true, true, true, "file:///Z:/bar"},
2009 // Treat absolute paths as being off of the drive.
2010 {"file:///C:/foo", true, true, "/bar", true, true, true, "file:///C:/bar"},
2011 {"file://localhost/C:/foo", true, true, "/bar", true, true, true, "file://localhost/C:/bar"},
2012 {"file:///C:/foo/com/", true, true, "/bar", true, true, true, "file:///C:/bar"},
2013 // On Windows, two slashes without a drive letter when the base is a file
2014 // means that the path is UNC.
2015 {"file:///C:/something", true, true, "//somehost/path", true, true, true, "file://somehost/path"},
2016 {"file:///C:/something", true, true, "/\\//somehost/path", true, true, true, "file://somehost/path"},
2017 #else
2018 // On Unix we fall back to relative behavior since there's nothing else
2019 // reasonable to do.
2020 {"http://host/a", true, false, "\\\\Another\\path", true, true, true, "http://another/path"},
2021 #endif
2022 // Even on Windows, we don't allow relative drive specs when the base
2023 // is not file.
2024 {"http://host/a", true, false, "/c:\\foo", true, true, true, "http://host/c:/foo"},
2025 {"http://host/a", true, false, "//c:\\foo", true, true, true, "http://c/foo"},
2026 // Ensure that ports aren't allowed for hosts relative to a file url.
2027 // Although the result string shows a host:port portion, the call to
2028 // resolve the relative URL returns false, indicating parse failure,
2029 // which is what is required.
2030 {"file:///foo.txt", true, true, "//host:80/bar.txt", true, true, false, "file://host:80/bar.txt"},
2031 // Filesystem URL tests; filesystem URLs are only valid and relative if
2032 // they have no scheme, e.g. "./index.html". There's no valid equivalent
2033 // to http:index.html.
2034 {"filesystem:http://host/t/path", true, false, "filesystem:http://host/t/path2", true, false, false, NULL},
2035 {"filesystem:http://host/t/path", true, false, "filesystem:https://host/t/path2", true, false, false, NULL},
2036 {"filesystem:http://host/t/path", true, false, "http://host/t/path2", true, false, false, NULL},
2037 {"http://host/t/path", true, false, "filesystem:http://host/t/path2", true, false, false, NULL},
2038 {"filesystem:http://host/t/path", true, false, "./path2", true, true, true, "filesystem:http://host/t/path2"},
2039 {"filesystem:http://host/t/path/", true, false, "path2", true, true, true, "filesystem:http://host/t/path/path2"},
2040 {"filesystem:http://host/t/path", true, false, "filesystem:http:path2", true, false, false, NULL},
2041 // Absolute URLs are still not relative to a non-standard base URL.
2042 {"about:blank", false, false, "http://X/A", true, false, true, ""},
2043 {"about:blank", false, false, "content://content.Provider/", true, false, true, ""},
2046 for (size_t i = 0; i < ARRAYSIZE(rel_cases); i++) {
2047 const RelativeCase& cur_case = rel_cases[i];
2049 Parsed parsed;
2050 int base_len = static_cast<int>(strlen(cur_case.base));
2051 if (cur_case.is_base_file)
2052 ParseFileURL(cur_case.base, base_len, &parsed);
2053 else if (cur_case.is_base_hier)
2054 ParseStandardURL(cur_case.base, base_len, &parsed);
2055 else
2056 ParsePathURL(cur_case.base, base_len, false, &parsed);
2058 // First see if it is relative.
2059 int test_len = static_cast<int>(strlen(cur_case.test));
2060 bool is_relative;
2061 Component relative_component;
2062 bool succeed_is_rel = IsRelativeURL(
2063 cur_case.base, parsed, cur_case.test, test_len, cur_case.is_base_hier,
2064 &is_relative, &relative_component);
2066 EXPECT_EQ(cur_case.succeed_relative, succeed_is_rel) <<
2067 "succeed is rel failure on " << cur_case.test;
2068 EXPECT_EQ(cur_case.is_rel, is_relative) <<
2069 "is rel failure on " << cur_case.test;
2070 // Now resolve it.
2071 if (succeed_is_rel && is_relative && cur_case.is_rel) {
2072 std::string resolved;
2073 StdStringCanonOutput output(&resolved);
2074 Parsed resolved_parsed;
2076 bool succeed_resolve = ResolveRelativeURL(
2077 cur_case.base, parsed, cur_case.is_base_file, cur_case.test,
2078 relative_component, NULL, &output, &resolved_parsed);
2079 output.Complete();
2081 EXPECT_EQ(cur_case.succeed_resolve, succeed_resolve);
2082 EXPECT_EQ(cur_case.resolved, resolved) << " on " << cur_case.test;
2084 // Verify that the output parsed structure is the same as parsing a
2085 // the URL freshly.
2086 Parsed ref_parsed;
2087 int resolved_len = static_cast<int>(resolved.size());
2088 if (cur_case.is_base_file) {
2089 ParseFileURL(resolved.c_str(), resolved_len, &ref_parsed);
2090 } else if (cur_case.is_base_hier) {
2091 ParseStandardURL(resolved.c_str(), resolved_len, &ref_parsed);
2092 } else {
2093 ParsePathURL(resolved.c_str(), resolved_len, false, &ref_parsed);
2095 EXPECT_TRUE(ParsedIsEqual(ref_parsed, resolved_parsed));
2100 // It used to be when we did a replacement with a long buffer of UTF-16
2101 // characters, we would get invalid data in the URL. This is because the buffer
2102 // it used to hold the UTF-8 data was resized, while some pointers were still
2103 // kept to the old buffer that was removed.
2104 TEST(URLCanonTest, ReplacementOverflow) {
2105 const char src[] = "file:///C:/foo/bar";
2106 int src_len = static_cast<int>(strlen(src));
2107 Parsed parsed;
2108 ParseFileURL(src, src_len, &parsed);
2110 // Override two components, the path with something short, and the query with
2111 // sonething long enough to trigger the bug.
2112 Replacements<base::char16> repl;
2113 base::string16 new_query;
2114 for (int i = 0; i < 4800; i++)
2115 new_query.push_back('a');
2117 base::string16 new_path(WStringToUTF16(L"/foo"));
2118 repl.SetPath(new_path.c_str(), Component(0, 4));
2119 repl.SetQuery(new_query.c_str(),
2120 Component(0, static_cast<int>(new_query.length())));
2122 // Call ReplaceComponents on the string. It doesn't matter if we call it for
2123 // standard URLs, file URLs, etc, since they will go to the same replacement
2124 // function that was buggy.
2125 Parsed repl_parsed;
2126 std::string repl_str;
2127 StdStringCanonOutput repl_output(&repl_str);
2128 ReplaceFileURL(src, parsed, repl, NULL, &repl_output, &repl_parsed);
2129 repl_output.Complete();
2131 // Generate the expected string and check.
2132 std::string expected("file:///foo?");
2133 for (size_t i = 0; i < new_query.length(); i++)
2134 expected.push_back('a');
2135 EXPECT_TRUE(expected == repl_str);
2138 } // namespace url