Support symlinks in tools/vim/chromium.ycm_extra_conf.py
[chromium-blink-merge.git] / net / base / net_util_icu.cc
blob8526edaffbe5eaa10801c4a112ec313767a3c377
1 // Copyright (c) 2012 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 "net/base/net_util.h"
7 #include <map>
8 #include <vector>
10 #include "base/i18n/time_formatting.h"
11 #include "base/json/string_escape.h"
12 #include "base/lazy_instance.h"
13 #include "base/logging.h"
14 #include "base/memory/singleton.h"
15 #include "base/stl_util.h"
16 #include "base/strings/string_tokenizer.h"
17 #include "base/strings/string_util.h"
18 #include "base/strings/utf_offset_string_conversions.h"
19 #include "base/strings/utf_string_conversions.h"
20 #include "base/time/time.h"
21 #include "url/gurl.h"
22 #include "third_party/icu/source/common/unicode/uidna.h"
23 #include "third_party/icu/source/common/unicode/uniset.h"
24 #include "third_party/icu/source/common/unicode/uscript.h"
25 #include "third_party/icu/source/common/unicode/uset.h"
26 #include "third_party/icu/source/i18n/unicode/datefmt.h"
27 #include "third_party/icu/source/i18n/unicode/regex.h"
28 #include "third_party/icu/source/i18n/unicode/ulocdata.h"
30 using base::Time;
32 namespace net {
34 namespace {
36 typedef std::vector<size_t> Offsets;
38 // Does some simple normalization of scripts so we can allow certain scripts
39 // to exist together.
40 // TODO(brettw) bug 880223: we should allow some other languages to be
41 // oombined such as Chinese and Latin. We will probably need a more
42 // complicated system of language pairs to have more fine-grained control.
43 UScriptCode NormalizeScript(UScriptCode code) {
44 switch (code) {
45 case USCRIPT_KATAKANA:
46 case USCRIPT_HIRAGANA:
47 case USCRIPT_KATAKANA_OR_HIRAGANA:
48 case USCRIPT_HANGUL: // This one is arguable.
49 return USCRIPT_HAN;
50 default:
51 return code;
55 bool IsIDNComponentInSingleScript(const base::char16* str, int str_len) {
56 UScriptCode first_script = USCRIPT_INVALID_CODE;
57 bool is_first = true;
59 int i = 0;
60 while (i < str_len) {
61 unsigned code_point;
62 U16_NEXT(str, i, str_len, code_point);
64 UErrorCode err = U_ZERO_ERROR;
65 UScriptCode cur_script = uscript_getScript(code_point, &err);
66 if (err != U_ZERO_ERROR)
67 return false; // Report mixed on error.
68 cur_script = NormalizeScript(cur_script);
70 // TODO(brettw) We may have to check for USCRIPT_INHERENT as well.
71 if (is_first && cur_script != USCRIPT_COMMON) {
72 first_script = cur_script;
73 is_first = false;
74 } else {
75 if (cur_script != USCRIPT_COMMON && cur_script != first_script)
76 return false;
79 return true;
82 // Check if the script of a language can be 'safely' mixed with
83 // Latin letters in the ASCII range.
84 bool IsCompatibleWithASCIILetters(const std::string& lang) {
85 // For now, just list Chinese, Japanese and Korean (positive list).
86 // An alternative is negative-listing (languages using Greek and
87 // Cyrillic letters), but it can be more dangerous.
88 return !lang.substr(0, 2).compare("zh") ||
89 !lang.substr(0, 2).compare("ja") ||
90 !lang.substr(0, 2).compare("ko");
93 typedef std::map<std::string, icu::UnicodeSet*> LangToExemplarSetMap;
95 class LangToExemplarSet {
96 public:
97 static LangToExemplarSet* GetInstance() {
98 return Singleton<LangToExemplarSet>::get();
101 private:
102 LangToExemplarSetMap map;
103 LangToExemplarSet() { }
104 ~LangToExemplarSet() {
105 STLDeleteContainerPairSecondPointers(map.begin(), map.end());
108 friend class Singleton<LangToExemplarSet>;
109 friend struct DefaultSingletonTraits<LangToExemplarSet>;
110 friend bool GetExemplarSetForLang(const std::string&, icu::UnicodeSet**);
111 friend void SetExemplarSetForLang(const std::string&, icu::UnicodeSet*);
113 DISALLOW_COPY_AND_ASSIGN(LangToExemplarSet);
116 bool GetExemplarSetForLang(const std::string& lang,
117 icu::UnicodeSet** lang_set) {
118 const LangToExemplarSetMap& map = LangToExemplarSet::GetInstance()->map;
119 LangToExemplarSetMap::const_iterator pos = map.find(lang);
120 if (pos != map.end()) {
121 *lang_set = pos->second;
122 return true;
124 return false;
127 void SetExemplarSetForLang(const std::string& lang,
128 icu::UnicodeSet* lang_set) {
129 LangToExemplarSetMap& map = LangToExemplarSet::GetInstance()->map;
130 map.insert(std::make_pair(lang, lang_set));
133 static base::LazyInstance<base::Lock>::Leaky
134 g_lang_set_lock = LAZY_INSTANCE_INITIALIZER;
136 // Returns true if all the characters in component_characters are used by
137 // the language |lang|.
138 bool IsComponentCoveredByLang(const icu::UnicodeSet& component_characters,
139 const std::string& lang) {
140 CR_DEFINE_STATIC_LOCAL(
141 const icu::UnicodeSet, kASCIILetters, ('a', 'z'));
142 icu::UnicodeSet* lang_set = NULL;
143 // We're called from both the UI thread and the history thread.
145 base::AutoLock lock(g_lang_set_lock.Get());
146 if (!GetExemplarSetForLang(lang, &lang_set)) {
147 UErrorCode status = U_ZERO_ERROR;
148 ULocaleData* uld = ulocdata_open(lang.c_str(), &status);
149 // TODO(jungshik) Turn this check on when the ICU data file is
150 // rebuilt with the minimal subset of locale data for languages
151 // to which Chrome is not localized but which we offer in the list
152 // of languages selectable for Accept-Languages. With the rebuilt ICU
153 // data, ulocdata_open never should fall back to the default locale.
154 // (issue 2078)
155 // DCHECK(U_SUCCESS(status) && status != U_USING_DEFAULT_WARNING);
156 if (U_SUCCESS(status) && status != U_USING_DEFAULT_WARNING) {
157 lang_set = reinterpret_cast<icu::UnicodeSet *>(
158 ulocdata_getExemplarSet(uld, NULL, 0,
159 ULOCDATA_ES_STANDARD, &status));
160 // If |lang| is compatible with ASCII Latin letters, add them.
161 if (IsCompatibleWithASCIILetters(lang))
162 lang_set->addAll(kASCIILetters);
163 } else {
164 lang_set = new icu::UnicodeSet(1, 0);
166 lang_set->freeze();
167 SetExemplarSetForLang(lang, lang_set);
168 ulocdata_close(uld);
171 return !lang_set->isEmpty() && lang_set->containsAll(component_characters);
174 // Returns true if the given Unicode host component is safe to display to the
175 // user.
176 bool IsIDNComponentSafe(const base::char16* str,
177 int str_len,
178 const std::string& languages) {
179 // Most common cases (non-IDN) do not reach here so that we don't
180 // need a fast return path.
181 // TODO(jungshik) : Check if there's any character inappropriate
182 // (although allowed) for domain names.
183 // See http://www.unicode.org/reports/tr39/#IDN_Security_Profiles and
184 // http://www.unicode.org/reports/tr39/data/xidmodifications.txt
185 // For now, we borrow the list from Mozilla and tweaked it slightly.
186 // (e.g. Characters like U+00A0, U+3000, U+3002 are omitted because
187 // they're gonna be canonicalized to U+0020 and full stop before
188 // reaching here.)
189 // The original list is available at
190 // http://kb.mozillazine.org/Network.IDN.blacklist_chars and
191 // at http://mxr.mozilla.org/seamonkey/source/modules/libpref/src/init/all.js#703
193 UErrorCode status = U_ZERO_ERROR;
194 #ifdef U_WCHAR_IS_UTF16
195 icu::UnicodeSet dangerous_characters(icu::UnicodeString(
196 L"[[\\ \u00ad\u00bc\u00bd\u01c3\u0337\u0338"
197 L"\u05c3\u05f4\u06d4\u0702\u115f\u1160][\u2000-\u200b]"
198 L"[\u2024\u2027\u2028\u2029\u2039\u203a\u2044\u205f]"
199 L"[\u2154-\u2156][\u2159-\u215b][\u215f\u2215\u23ae"
200 L"\u29f6\u29f8\u2afb\u2afd][\u2ff0-\u2ffb][\u3014"
201 L"\u3015\u3033\u3164\u321d\u321e\u33ae\u33af\u33c6\u33df\ufe14"
202 L"\ufe15\ufe3f\ufe5d\ufe5e\ufeff\uff0e\uff06\uff61\uffa0\ufff9]"
203 L"[\ufffa-\ufffd]]"), status);
204 DCHECK(U_SUCCESS(status));
205 icu::RegexMatcher dangerous_patterns(icu::UnicodeString(
206 // Lone katakana no, so, or n
207 L"[^\\p{Katakana}][\u30ce\u30f3\u30bd][^\\p{Katakana}]"
208 // Repeating Japanese accent characters
209 L"|[\u3099\u309a\u309b\u309c][\u3099\u309a\u309b\u309c]"),
210 0, status);
211 #else
212 icu::UnicodeSet dangerous_characters(icu::UnicodeString(
213 "[[\\u0020\\u00ad\\u00bc\\u00bd\\u01c3\\u0337\\u0338"
214 "\\u05c3\\u05f4\\u06d4\\u0702\\u115f\\u1160][\\u2000-\\u200b]"
215 "[\\u2024\\u2027\\u2028\\u2029\\u2039\\u203a\\u2044\\u205f]"
216 "[\\u2154-\\u2156][\\u2159-\\u215b][\\u215f\\u2215\\u23ae"
217 "\\u29f6\\u29f8\\u2afb\\u2afd][\\u2ff0-\\u2ffb][\\u3014"
218 "\\u3015\\u3033\\u3164\\u321d\\u321e\\u33ae\\u33af\\u33c6\\u33df\\ufe14"
219 "\\ufe15\\ufe3f\\ufe5d\\ufe5e\\ufeff\\uff0e\\uff06\\uff61\\uffa0\\ufff9]"
220 "[\\ufffa-\\ufffd]]", -1, US_INV), status);
221 DCHECK(U_SUCCESS(status));
222 icu::RegexMatcher dangerous_patterns(icu::UnicodeString(
223 // Lone katakana no, so, or n
224 "[^\\p{Katakana}][\\u30ce\\u30f3\u30bd][^\\p{Katakana}]"
225 // Repeating Japanese accent characters
226 "|[\\u3099\\u309a\\u309b\\u309c][\\u3099\\u309a\\u309b\\u309c]"),
227 0, status);
228 #endif
229 DCHECK(U_SUCCESS(status));
230 icu::UnicodeSet component_characters;
231 icu::UnicodeString component_string(str, str_len);
232 component_characters.addAll(component_string);
233 if (dangerous_characters.containsSome(component_characters))
234 return false;
236 DCHECK(U_SUCCESS(status));
237 dangerous_patterns.reset(component_string);
238 if (dangerous_patterns.find())
239 return false;
241 // If the language list is empty, the result is completely determined
242 // by whether a component is a single script or not. This will block
243 // even "safe" script mixing cases like <Chinese, Latin-ASCII> that are
244 // allowed with |languages| (while it blocks Chinese + Latin letters with
245 // an accent as should be the case), but we want to err on the safe side
246 // when |languages| is empty.
247 if (languages.empty())
248 return IsIDNComponentInSingleScript(str, str_len);
250 // |common_characters| is made up of ASCII numbers, hyphen, plus and
251 // underscore that are used across scripts and allowed in domain names.
252 // (sync'd with characters allowed in url_canon_host with square
253 // brackets excluded.) See kHostCharLookup[] array in url_canon_host.cc.
254 icu::UnicodeSet common_characters(UNICODE_STRING_SIMPLE("[[0-9]\\-_+\\ ]"),
255 status);
256 DCHECK(U_SUCCESS(status));
257 // Subtract common characters because they're always allowed so that
258 // we just have to check if a language-specific set contains
259 // the remainder.
260 component_characters.removeAll(common_characters);
262 base::StringTokenizer t(languages, ",");
263 while (t.GetNext()) {
264 if (IsComponentCoveredByLang(component_characters, t.token()))
265 return true;
267 return false;
270 // A wrapper to use LazyInstance<>::Leaky with ICU's UIDNA, a C pointer to
271 // a UTS46/IDNA 2008 handling object opened with uidna_openUTS46().
273 // We use UTS46 with BiDiCheck to migrate from IDNA 2003 to IDNA 2008 with
274 // the backward compatibility in mind. What it does:
276 // 1. Use the up-to-date Unicode data.
277 // 2. Define a case folding/mapping with the up-to-date Unicode data as
278 // in IDNA 2003.
279 // 3. Use transitional mechanism for 4 deviation characters (sharp-s,
280 // final sigma, ZWJ and ZWNJ) for now.
281 // 4. Continue to allow symbols and punctuations.
282 // 5. Apply new BiDi check rules more permissive than the IDNA 2003 BiDI rules.
283 // 6. Do not apply STD3 rules
284 // 7. Do not allow unassigned code points.
286 // It also closely matches what IE 10 does except for the BiDi check (
287 // http://goo.gl/3XBhqw ).
288 // See http://http://unicode.org/reports/tr46/ and references therein
289 // for more details.
290 struct UIDNAWrapper {
291 UIDNAWrapper() {
292 UErrorCode err = U_ZERO_ERROR;
293 // TODO(jungshik): Change options as different parties (browsers,
294 // registrars, search engines) converge toward a consensus.
295 value = uidna_openUTS46(UIDNA_CHECK_BIDI, &err);
296 if (U_FAILURE(err))
297 value = NULL;
300 UIDNA* value;
303 static base::LazyInstance<UIDNAWrapper>::Leaky
304 g_uidna = LAZY_INSTANCE_INITIALIZER;
306 // Converts one component of a host (between dots) to IDN if safe. The result
307 // will be APPENDED to the given output string and will be the same as the input
308 // if it is not IDN or the IDN is unsafe to display. Returns whether any
309 // conversion was performed.
310 bool IDNToUnicodeOneComponent(const base::char16* comp,
311 size_t comp_len,
312 const std::string& languages,
313 base::string16* out) {
314 DCHECK(out);
315 if (comp_len == 0)
316 return false;
318 // Only transform if the input can be an IDN component.
319 static const base::char16 kIdnPrefix[] = {'x', 'n', '-', '-'};
320 if ((comp_len > arraysize(kIdnPrefix)) &&
321 !memcmp(comp, kIdnPrefix, arraysize(kIdnPrefix) * sizeof(base::char16))) {
322 UIDNA* uidna = g_uidna.Get().value;
323 DCHECK(uidna != NULL);
324 size_t original_length = out->length();
325 int output_length = 64;
326 UIDNAInfo info = UIDNA_INFO_INITIALIZER;
327 UErrorCode status;
328 do {
329 out->resize(original_length + output_length);
330 status = U_ZERO_ERROR;
331 // This returns the actual length required. If this is more than 64
332 // code units, |status| will be U_BUFFER_OVERFLOW_ERROR and we'll try
333 // the conversion again, but with a sufficiently large buffer.
334 output_length = uidna_labelToUnicode(
335 uidna, comp, static_cast<int32_t>(comp_len), &(*out)[original_length],
336 output_length, &info, &status);
337 } while ((status == U_BUFFER_OVERFLOW_ERROR && info.errors == 0));
339 if (U_SUCCESS(status) && info.errors == 0) {
340 // Converted successfully. Ensure that the converted component
341 // can be safely displayed to the user.
342 out->resize(original_length + output_length);
343 if (IsIDNComponentSafe(out->data() + original_length, output_length,
344 languages))
345 return true;
348 // Something went wrong. Revert to original string.
349 out->resize(original_length);
352 // We get here with no IDN or on error, in which case we just append the
353 // literal input.
354 out->append(comp, comp_len);
355 return false;
358 // TODO(brettw) bug 734373: check the scripts for each host component and
359 // don't un-IDN-ize if there is more than one. Alternatively, only IDN for
360 // scripts that the user has installed. For now, just put the entire
361 // path through IDN. Maybe this feature can be implemented in ICU itself?
363 // We may want to skip this step in the case of file URLs to allow unicode
364 // UNC hostnames regardless of encodings.
365 base::string16 IDNToUnicodeWithAdjustments(
366 const std::string& host,
367 const std::string& languages,
368 base::OffsetAdjuster::Adjustments* adjustments) {
369 if (adjustments)
370 adjustments->clear();
371 // Convert the ASCII input to a base::string16 for ICU.
372 base::string16 input16;
373 input16.reserve(host.length());
374 input16.insert(input16.end(), host.begin(), host.end());
376 // Do each component of the host separately, since we enforce script matching
377 // on a per-component basis.
378 base::string16 out16;
380 for (size_t component_start = 0, component_end;
381 component_start < input16.length();
382 component_start = component_end + 1) {
383 // Find the end of the component.
384 component_end = input16.find('.', component_start);
385 if (component_end == base::string16::npos)
386 component_end = input16.length(); // For getting the last component.
387 size_t component_length = component_end - component_start;
388 size_t new_component_start = out16.length();
389 bool converted_idn = false;
390 if (component_end > component_start) {
391 // Add the substring that we just found.
392 converted_idn = IDNToUnicodeOneComponent(
393 input16.data() + component_start, component_length, languages,
394 &out16);
396 size_t new_component_length = out16.length() - new_component_start;
398 if (converted_idn && adjustments) {
399 adjustments->push_back(base::OffsetAdjuster::Adjustment(
400 component_start, component_length, new_component_length));
403 // Need to add the dot we just found (if we found one).
404 if (component_end < input16.length())
405 out16.push_back('.');
408 return out16;
411 // If |component| is valid, its begin is incremented by |delta|.
412 void AdjustComponent(int delta, url::Component* component) {
413 if (!component->is_valid())
414 return;
416 DCHECK(delta >= 0 || component->begin >= -delta);
417 component->begin += delta;
420 // Adjusts all the components of |parsed| by |delta|, except for the scheme.
421 void AdjustAllComponentsButScheme(int delta, url::Parsed* parsed) {
422 AdjustComponent(delta, &(parsed->username));
423 AdjustComponent(delta, &(parsed->password));
424 AdjustComponent(delta, &(parsed->host));
425 AdjustComponent(delta, &(parsed->port));
426 AdjustComponent(delta, &(parsed->path));
427 AdjustComponent(delta, &(parsed->query));
428 AdjustComponent(delta, &(parsed->ref));
431 // Helper for FormatUrlWithOffsets().
432 base::string16 FormatViewSourceUrl(
433 const GURL& url,
434 const std::string& languages,
435 FormatUrlTypes format_types,
436 UnescapeRule::Type unescape_rules,
437 url::Parsed* new_parsed,
438 size_t* prefix_end,
439 base::OffsetAdjuster::Adjustments* adjustments) {
440 DCHECK(new_parsed);
441 const char kViewSource[] = "view-source:";
442 const size_t kViewSourceLength = arraysize(kViewSource) - 1;
444 // Format the underlying URL and record adjustments.
445 const std::string& url_str(url.possibly_invalid_spec());
446 adjustments->clear();
447 base::string16 result(base::ASCIIToUTF16(kViewSource) +
448 FormatUrlWithAdjustments(GURL(url_str.substr(kViewSourceLength)),
449 languages, format_types, unescape_rules,
450 new_parsed, prefix_end, adjustments));
451 // Revise |adjustments| by shifting to the offsets to prefix that the above
452 // call to FormatUrl didn't get to see.
453 for (base::OffsetAdjuster::Adjustments::iterator it = adjustments->begin();
454 it != adjustments->end(); ++it)
455 it->original_offset += kViewSourceLength;
457 // Adjust positions of the parsed components.
458 if (new_parsed->scheme.is_nonempty()) {
459 // Assume "view-source:real-scheme" as a scheme.
460 new_parsed->scheme.len += kViewSourceLength;
461 } else {
462 new_parsed->scheme.begin = 0;
463 new_parsed->scheme.len = kViewSourceLength - 1;
465 AdjustAllComponentsButScheme(kViewSourceLength, new_parsed);
467 if (prefix_end)
468 *prefix_end += kViewSourceLength;
470 return result;
473 class AppendComponentTransform {
474 public:
475 AppendComponentTransform() {}
476 virtual ~AppendComponentTransform() {}
478 virtual base::string16 Execute(
479 const std::string& component_text,
480 base::OffsetAdjuster::Adjustments* adjustments) const = 0;
482 // NOTE: No DISALLOW_COPY_AND_ASSIGN here, since gcc < 4.3.0 requires an
483 // accessible copy constructor in order to call AppendFormattedComponent()
484 // with an inline temporary (see http://gcc.gnu.org/bugs/#cxx%5Frvalbind ).
487 class HostComponentTransform : public AppendComponentTransform {
488 public:
489 explicit HostComponentTransform(const std::string& languages)
490 : languages_(languages) {
493 private:
494 base::string16 Execute(
495 const std::string& component_text,
496 base::OffsetAdjuster::Adjustments* adjustments) const override {
497 return IDNToUnicodeWithAdjustments(component_text, languages_,
498 adjustments);
501 const std::string& languages_;
504 class NonHostComponentTransform : public AppendComponentTransform {
505 public:
506 explicit NonHostComponentTransform(UnescapeRule::Type unescape_rules)
507 : unescape_rules_(unescape_rules) {
510 private:
511 base::string16 Execute(
512 const std::string& component_text,
513 base::OffsetAdjuster::Adjustments* adjustments) const override {
514 return (unescape_rules_ == UnescapeRule::NONE) ?
515 base::UTF8ToUTF16WithAdjustments(component_text, adjustments) :
516 UnescapeAndDecodeUTF8URLComponentWithAdjustments(component_text,
517 unescape_rules_, adjustments);
520 const UnescapeRule::Type unescape_rules_;
523 // Transforms the portion of |spec| covered by |original_component| according to
524 // |transform|. Appends the result to |output|. If |output_component| is
525 // non-NULL, its start and length are set to the transformed component's new
526 // start and length. If |adjustments| is non-NULL, appends adjustments (if
527 // any) that reflect the transformation the original component underwent to
528 // become the transformed value appended to |output|.
529 void AppendFormattedComponent(const std::string& spec,
530 const url::Component& original_component,
531 const AppendComponentTransform& transform,
532 base::string16* output,
533 url::Component* output_component,
534 base::OffsetAdjuster::Adjustments* adjustments) {
535 DCHECK(output);
536 if (original_component.is_nonempty()) {
537 size_t original_component_begin =
538 static_cast<size_t>(original_component.begin);
539 size_t output_component_begin = output->length();
540 std::string component_str(spec, original_component_begin,
541 static_cast<size_t>(original_component.len));
543 // Transform |component_str| and modify |adjustments| appropriately.
544 base::OffsetAdjuster::Adjustments component_transform_adjustments;
545 output->append(
546 transform.Execute(component_str, &component_transform_adjustments));
548 // Shift all the adjustments made for this component so the offsets are
549 // valid for the original string and add them to |adjustments|.
550 for (base::OffsetAdjuster::Adjustments::iterator comp_iter =
551 component_transform_adjustments.begin();
552 comp_iter != component_transform_adjustments.end(); ++comp_iter)
553 comp_iter->original_offset += original_component_begin;
554 if (adjustments) {
555 adjustments->insert(adjustments->end(),
556 component_transform_adjustments.begin(),
557 component_transform_adjustments.end());
560 // Set positions of the parsed component.
561 if (output_component) {
562 output_component->begin = static_cast<int>(output_component_begin);
563 output_component->len =
564 static_cast<int>(output->length() - output_component_begin);
566 } else if (output_component) {
567 output_component->reset();
571 } // namespace
573 const FormatUrlType kFormatUrlOmitNothing = 0;
574 const FormatUrlType kFormatUrlOmitUsernamePassword = 1 << 0;
575 const FormatUrlType kFormatUrlOmitHTTP = 1 << 1;
576 const FormatUrlType kFormatUrlOmitTrailingSlashOnBareHostname = 1 << 2;
577 const FormatUrlType kFormatUrlOmitAll = kFormatUrlOmitUsernamePassword |
578 kFormatUrlOmitHTTP | kFormatUrlOmitTrailingSlashOnBareHostname;
580 base::string16 IDNToUnicode(const std::string& host,
581 const std::string& languages) {
582 return IDNToUnicodeWithAdjustments(host, languages, NULL);
585 std::string GetDirectoryListingEntry(const base::string16& name,
586 const std::string& raw_bytes,
587 bool is_dir,
588 int64 size,
589 Time modified) {
590 std::string result;
591 result.append("<script>addRow(");
592 base::EscapeJSONString(name, true, &result);
593 result.append(",");
594 if (raw_bytes.empty()) {
595 base::EscapeJSONString(EscapePath(base::UTF16ToUTF8(name)), true, &result);
596 } else {
597 base::EscapeJSONString(EscapePath(raw_bytes), true, &result);
599 if (is_dir) {
600 result.append(",1,");
601 } else {
602 result.append(",0,");
605 // Negative size means unknown or not applicable (e.g. directory).
606 base::string16 size_string;
607 if (size >= 0)
608 size_string = FormatBytesUnlocalized(size);
609 base::EscapeJSONString(size_string, true, &result);
611 result.append(",");
613 base::string16 modified_str;
614 // |modified| can be NULL in FTP listings.
615 if (!modified.is_null()) {
616 modified_str = base::TimeFormatShortDateAndTime(modified);
618 base::EscapeJSONString(modified_str, true, &result);
620 result.append(");</script>\n");
622 return result;
625 void AppendFormattedHost(const GURL& url,
626 const std::string& languages,
627 base::string16* output) {
628 AppendFormattedComponent(url.possibly_invalid_spec(),
629 url.parsed_for_possibly_invalid_spec().host,
630 HostComponentTransform(languages), output, NULL, NULL);
633 base::string16 FormatUrlWithOffsets(
634 const GURL& url,
635 const std::string& languages,
636 FormatUrlTypes format_types,
637 UnescapeRule::Type unescape_rules,
638 url::Parsed* new_parsed,
639 size_t* prefix_end,
640 std::vector<size_t>* offsets_for_adjustment) {
641 base::OffsetAdjuster::Adjustments adjustments;
642 const base::string16& format_url_return_value =
643 FormatUrlWithAdjustments(url, languages, format_types, unescape_rules,
644 new_parsed, prefix_end, &adjustments);
645 base::OffsetAdjuster::AdjustOffsets(adjustments, offsets_for_adjustment);
646 if (offsets_for_adjustment) {
647 std::for_each(
648 offsets_for_adjustment->begin(),
649 offsets_for_adjustment->end(),
650 base::LimitOffset<std::string>(format_url_return_value.length()));
652 return format_url_return_value;
655 base::string16 FormatUrlWithAdjustments(
656 const GURL& url,
657 const std::string& languages,
658 FormatUrlTypes format_types,
659 UnescapeRule::Type unescape_rules,
660 url::Parsed* new_parsed,
661 size_t* prefix_end,
662 base::OffsetAdjuster::Adjustments* adjustments) {
663 DCHECK(adjustments != NULL);
664 adjustments->clear();
665 url::Parsed parsed_temp;
666 if (!new_parsed)
667 new_parsed = &parsed_temp;
668 else
669 *new_parsed = url::Parsed();
671 // Special handling for view-source:. Don't use content::kViewSourceScheme
672 // because this library shouldn't depend on chrome.
673 const char* const kViewSource = "view-source";
674 // Reject "view-source:view-source:..." to avoid deep recursion.
675 const char* const kViewSourceTwice = "view-source:view-source:";
676 if (url.SchemeIs(kViewSource) &&
677 !StartsWithASCII(url.possibly_invalid_spec(), kViewSourceTwice, false)) {
678 return FormatViewSourceUrl(url, languages, format_types,
679 unescape_rules, new_parsed, prefix_end,
680 adjustments);
683 // We handle both valid and invalid URLs (this will give us the spec
684 // regardless of validity).
685 const std::string& spec = url.possibly_invalid_spec();
686 const url::Parsed& parsed = url.parsed_for_possibly_invalid_spec();
688 // Scheme & separators. These are ASCII.
689 base::string16 url_string;
690 url_string.insert(
691 url_string.end(), spec.begin(),
692 spec.begin() + parsed.CountCharactersBefore(url::Parsed::USERNAME, true));
693 const char kHTTP[] = "http://";
694 const char kFTP[] = "ftp.";
695 // url_fixer::FixupURL() treats "ftp.foo.com" as ftp://ftp.foo.com. This
696 // means that if we trim "http://" off a URL whose host starts with "ftp." and
697 // the user inputs this into any field subject to fixup (which is basically
698 // all input fields), the meaning would be changed. (In fact, often the
699 // formatted URL is directly pre-filled into an input field.) For this reason
700 // we avoid stripping "http://" in this case.
701 bool omit_http = (format_types & kFormatUrlOmitHTTP) &&
702 EqualsASCII(url_string, kHTTP) &&
703 !StartsWithASCII(url.host(), kFTP, true);
704 new_parsed->scheme = parsed.scheme;
706 // Username & password.
707 if ((format_types & kFormatUrlOmitUsernamePassword) != 0) {
708 // Remove the username and password fields. We don't want to display those
709 // to the user since they can be used for attacks,
710 // e.g. "http://google.com:search@evil.ru/"
711 new_parsed->username.reset();
712 new_parsed->password.reset();
713 // Update the adjustments based on removed username and/or password.
714 if (parsed.username.is_nonempty() || parsed.password.is_nonempty()) {
715 if (parsed.username.is_nonempty() && parsed.password.is_nonempty()) {
716 // The seeming off-by-two is to account for the ':' after the username
717 // and '@' after the password.
718 adjustments->push_back(base::OffsetAdjuster::Adjustment(
719 static_cast<size_t>(parsed.username.begin),
720 static_cast<size_t>(parsed.username.len + parsed.password.len + 2),
721 0));
722 } else {
723 const url::Component* nonempty_component =
724 parsed.username.is_nonempty() ? &parsed.username : &parsed.password;
725 // The seeming off-by-one is to account for the '@' after the
726 // username/password.
727 adjustments->push_back(base::OffsetAdjuster::Adjustment(
728 static_cast<size_t>(nonempty_component->begin),
729 static_cast<size_t>(nonempty_component->len + 1),
730 0));
733 } else {
734 AppendFormattedComponent(spec, parsed.username,
735 NonHostComponentTransform(unescape_rules),
736 &url_string, &new_parsed->username, adjustments);
737 if (parsed.password.is_valid())
738 url_string.push_back(':');
739 AppendFormattedComponent(spec, parsed.password,
740 NonHostComponentTransform(unescape_rules),
741 &url_string, &new_parsed->password, adjustments);
742 if (parsed.username.is_valid() || parsed.password.is_valid())
743 url_string.push_back('@');
745 if (prefix_end)
746 *prefix_end = static_cast<size_t>(url_string.length());
748 // Host.
749 AppendFormattedComponent(spec, parsed.host, HostComponentTransform(languages),
750 &url_string, &new_parsed->host, adjustments);
752 // Port.
753 if (parsed.port.is_nonempty()) {
754 url_string.push_back(':');
755 new_parsed->port.begin = url_string.length();
756 url_string.insert(url_string.end(),
757 spec.begin() + parsed.port.begin,
758 spec.begin() + parsed.port.end());
759 new_parsed->port.len = url_string.length() - new_parsed->port.begin;
760 } else {
761 new_parsed->port.reset();
764 // Path & query. Both get the same general unescape & convert treatment.
765 if (!(format_types & kFormatUrlOmitTrailingSlashOnBareHostname) ||
766 !CanStripTrailingSlash(url)) {
767 AppendFormattedComponent(spec, parsed.path,
768 NonHostComponentTransform(unescape_rules),
769 &url_string, &new_parsed->path, adjustments);
770 } else {
771 if (parsed.path.len > 0) {
772 adjustments->push_back(base::OffsetAdjuster::Adjustment(
773 parsed.path.begin, parsed.path.len, 0));
776 if (parsed.query.is_valid())
777 url_string.push_back('?');
778 AppendFormattedComponent(spec, parsed.query,
779 NonHostComponentTransform(unescape_rules),
780 &url_string, &new_parsed->query, adjustments);
782 // Ref. This is valid, unescaped UTF-8, so we can just convert.
783 if (parsed.ref.is_valid())
784 url_string.push_back('#');
785 AppendFormattedComponent(spec, parsed.ref,
786 NonHostComponentTransform(UnescapeRule::NONE),
787 &url_string, &new_parsed->ref, adjustments);
789 // If we need to strip out http do it after the fact.
790 if (omit_http && StartsWith(url_string, base::ASCIIToUTF16(kHTTP), true)) {
791 const size_t kHTTPSize = arraysize(kHTTP) - 1;
792 url_string = url_string.substr(kHTTPSize);
793 // Because offsets in the |adjustments| are already calculated with respect
794 // to the string with the http:// prefix in it, those offsets remain correct
795 // after stripping the prefix. The only thing necessary is to add an
796 // adjustment to reflect the stripped prefix.
797 adjustments->insert(adjustments->begin(),
798 base::OffsetAdjuster::Adjustment(0, kHTTPSize, 0));
800 if (prefix_end)
801 *prefix_end -= kHTTPSize;
803 // Adjust new_parsed.
804 DCHECK(new_parsed->scheme.is_valid());
805 int delta = -(new_parsed->scheme.len + 3); // +3 for ://.
806 new_parsed->scheme.reset();
807 AdjustAllComponentsButScheme(delta, new_parsed);
810 return url_string;
813 base::string16 FormatUrl(const GURL& url,
814 const std::string& languages,
815 FormatUrlTypes format_types,
816 UnescapeRule::Type unescape_rules,
817 url::Parsed* new_parsed,
818 size_t* prefix_end,
819 size_t* offset_for_adjustment) {
820 Offsets offsets;
821 if (offset_for_adjustment)
822 offsets.push_back(*offset_for_adjustment);
823 base::string16 result = FormatUrlWithOffsets(url, languages, format_types,
824 unescape_rules, new_parsed, prefix_end, &offsets);
825 if (offset_for_adjustment)
826 *offset_for_adjustment = offsets[0];
827 return result;
830 } // namespace net