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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.
4 
5 // Portions of this code based on Mozilla:
6 //   (netwerk/cookie/src/nsCookieService.cpp)
7 /* ***** BEGIN LICENSE BLOCK *****
8  * Version: MPL 1.1/GPL 2.0/LGPL 2.1
9  *
10  * The contents of this file are subject to the Mozilla Public License Version
11  * 1.1 (the "License"); you may not use this file except in compliance with
12  * the License. You may obtain a copy of the License at
13  * http://www.mozilla.org/MPL/
14  *
15  * Software distributed under the License is distributed on an "AS IS" basis,
16  * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
17  * for the specific language governing rights and limitations under the
18  * License.
19  *
20  * The Original Code is mozilla.org code.
21  *
22  * The Initial Developer of the Original Code is
23  * Netscape Communications Corporation.
24  * Portions created by the Initial Developer are Copyright (C) 2003
25  * the Initial Developer. All Rights Reserved.
26  *
27  * Contributor(s):
28  *   Daniel Witte (dwitte@stanford.edu)
29  *   Michiel van Leeuwen (mvl@exedo.nl)
30  *
31  * Alternatively, the contents of this file may be used under the terms of
32  * either the GNU General Public License Version 2 or later (the "GPL"), or
33  * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
34  * in which case the provisions of the GPL or the LGPL are applicable instead
35  * of those above. If you wish to allow use of your version of this file only
36  * under the terms of either the GPL or the LGPL, and not to allow others to
37  * use your version of this file under the terms of the MPL, indicate your
38  * decision by deleting the provisions above and replace them with the notice
39  * and other provisions required by the GPL or the LGPL. If you do not delete
40  * the provisions above, a recipient may use your version of this file under
41  * the terms of any one of the MPL, the GPL or the LGPL.
42  *
43  * ***** END LICENSE BLOCK ***** */
44 
45 #include "net/cookies/parsed_cookie.h"
46 
47 #include "base/logging.h"
48 #include "base/strings/string_util.h"
49 
50 namespace {
51 
52 const char kPathTokenName[] = "path";
53 const char kDomainTokenName[] = "domain";
54 const char kExpiresTokenName[] = "expires";
55 const char kMaxAgeTokenName[] = "max-age";
56 const char kSecureTokenName[] = "secure";
57 const char kHttpOnlyTokenName[] = "httponly";
58 const char kPriorityTokenName[] = "priority";
59 
60 const char kTerminator[] = "\n\r\0";
61 const int kTerminatorLen = sizeof(kTerminator) - 1;
62 const char kWhitespace[] = " \t";
63 const char kValueSeparator[] = ";";
64 const char kTokenSeparator[] = ";=";
65 
66 // Returns true if |c| occurs in |chars|
67 // TODO(erikwright): maybe make this take an iterator, could check for end also?
CharIsA(const char c,const char * chars)68 inline bool CharIsA(const char c, const char* chars) {
69   return strchr(chars, c) != NULL;
70 }
71 // Seek the iterator to the first occurrence of a character in |chars|.
72 // Returns true if it hit the end, false otherwise.
SeekTo(std::string::const_iterator * it,const std::string::const_iterator & end,const char * chars)73 inline bool SeekTo(std::string::const_iterator* it,
74                    const std::string::const_iterator& end,
75                    const char* chars) {
76   for (; *it != end && !CharIsA(**it, chars); ++(*it)) {}
77   return *it == end;
78 }
79 // Seek the iterator to the first occurrence of a character not in |chars|.
80 // Returns true if it hit the end, false otherwise.
SeekPast(std::string::const_iterator * it,const std::string::const_iterator & end,const char * chars)81 inline bool SeekPast(std::string::const_iterator* it,
82                      const std::string::const_iterator& end,
83                      const char* chars) {
84   for (; *it != end && CharIsA(**it, chars); ++(*it)) {}
85   return *it == end;
86 }
SeekBackPast(std::string::const_iterator * it,const std::string::const_iterator & end,const char * chars)87 inline bool SeekBackPast(std::string::const_iterator* it,
88                          const std::string::const_iterator& end,
89                          const char* chars) {
90   for (; *it != end && CharIsA(**it, chars); --(*it)) {}
91   return *it == end;
92 }
93 
94 // Validate whether |value| is a valid token according to [RFC2616],
95 // Section 2.2.
IsValidToken(const std::string & value)96 bool IsValidToken(const std::string& value) {
97   if (value.empty())
98     return false;
99 
100   // Check that |value| has no separators.
101   std::string separators = "()<>@,;:\\\"/[]?={} \t";
102   if (value.find_first_of(separators) != std::string::npos)
103     return false;
104 
105   // Check that |value| has no CTLs.
106   for (std::string::const_iterator i = value.begin(); i != value.end(); ++i) {
107     if ((*i >= 0 && *i <= 31) || *i >= 127)
108       return false;
109   }
110 
111   return true;
112 }
113 
114 // Validate value, which may be according to RFC 6265
115 // cookie-value      = *cookie-octet / ( DQUOTE *cookie-octet DQUOTE )
116 // cookie-octet      = %x21 / %x23-2B / %x2D-3A / %x3C-5B / %x5D-7E
117 //                      ; US-ASCII characters excluding CTLs,
118 //                      ; whitespace DQUOTE, comma, semicolon,
119 //                      ; and backslash
IsValidCookieValue(const std::string & value)120 bool IsValidCookieValue(const std::string& value) {
121   // Number of characters to skip in validation at beginning and end of string.
122   size_t skip = 0;
123   if (value.size() >= 2 && *value.begin() == '"' && *(value.end()-1) == '"')
124     skip = 1;
125   for (std::string::const_iterator i = value.begin() + skip;
126        i != value.end() - skip; ++i) {
127     bool valid_octet =
128         (*i == 0x21 ||
129          (*i >= 0x23 && *i <= 0x2B) ||
130          (*i >= 0x2D && *i <= 0x3A) ||
131          (*i >= 0x3C && *i <= 0x5B) ||
132          (*i >= 0x5D && *i <= 0x7E));
133     if (!valid_octet)
134       return false;
135   }
136   return true;
137 }
138 
IsControlCharacter(unsigned char c)139 bool IsControlCharacter(unsigned char c) {
140     return (c >= 0) && (c <= 31);
141 }
142 
IsValidCookieAttributeValue(const std::string & value)143 bool IsValidCookieAttributeValue(const std::string& value) {
144   // The greatest common denominator of cookie attribute values is
145   // <any CHAR except CTLs or ";"> according to RFC 6265.
146   for (std::string::const_iterator i = value.begin(); i != value.end(); ++i) {
147     if (IsControlCharacter(*i) || *i == ';')
148       return false;
149   }
150   return true;
151 }
152 
153 }  // namespace
154 
155 namespace net {
156 
ParsedCookie(const std::string & cookie_line)157 ParsedCookie::ParsedCookie(const std::string& cookie_line)
158     : path_index_(0),
159       domain_index_(0),
160       expires_index_(0),
161       maxage_index_(0),
162       secure_index_(0),
163       httponly_index_(0),
164       priority_index_(0) {
165 
166   if (cookie_line.size() > kMaxCookieSize) {
167     VLOG(1) << "Not parsing cookie, too large: " << cookie_line.size();
168     return;
169   }
170 
171   ParseTokenValuePairs(cookie_line);
172   if (!pairs_.empty())
173     SetupAttributes();
174 }
175 
~ParsedCookie()176 ParsedCookie::~ParsedCookie() {
177 }
178 
IsValid() const179 bool ParsedCookie::IsValid() const {
180   return !pairs_.empty();
181 }
182 
Priority() const183 CookiePriority ParsedCookie::Priority() const {
184   return (priority_index_ == 0) ? COOKIE_PRIORITY_DEFAULT :
185       StringToCookiePriority(pairs_[priority_index_].second);
186 }
187 
SetName(const std::string & name)188 bool ParsedCookie::SetName(const std::string& name) {
189   if (!IsValidToken(name))
190     return false;
191   if (pairs_.empty())
192     pairs_.push_back(std::make_pair("", ""));
193   pairs_[0].first = name;
194   return true;
195 }
196 
SetValue(const std::string & value)197 bool ParsedCookie::SetValue(const std::string& value) {
198   if (!IsValidCookieValue(value))
199     return false;
200   if (pairs_.empty())
201     pairs_.push_back(std::make_pair("", ""));
202   pairs_[0].second = value;
203   return true;
204 }
205 
SetPath(const std::string & path)206 bool ParsedCookie::SetPath(const std::string& path) {
207   return SetString(&path_index_, kPathTokenName, path);
208 }
209 
SetDomain(const std::string & domain)210 bool ParsedCookie::SetDomain(const std::string& domain) {
211   return SetString(&domain_index_, kDomainTokenName, domain);
212 }
213 
SetExpires(const std::string & expires)214 bool ParsedCookie::SetExpires(const std::string& expires) {
215   return SetString(&expires_index_, kExpiresTokenName, expires);
216 }
217 
SetMaxAge(const std::string & maxage)218 bool ParsedCookie::SetMaxAge(const std::string& maxage) {
219   return SetString(&maxage_index_, kMaxAgeTokenName, maxage);
220 }
221 
SetIsSecure(bool is_secure)222 bool ParsedCookie::SetIsSecure(bool is_secure) {
223   return SetBool(&secure_index_, kSecureTokenName, is_secure);
224 }
225 
SetIsHttpOnly(bool is_http_only)226 bool ParsedCookie::SetIsHttpOnly(bool is_http_only) {
227   return SetBool(&httponly_index_, kHttpOnlyTokenName, is_http_only);
228 }
229 
SetPriority(const std::string & priority)230 bool ParsedCookie::SetPriority(const std::string& priority) {
231   return SetString(&priority_index_, kPriorityTokenName, priority);
232 }
233 
ToCookieLine() const234 std::string ParsedCookie::ToCookieLine() const {
235   std::string out;
236   for (PairList::const_iterator it = pairs_.begin();
237        it != pairs_.end(); ++it) {
238     if (!out.empty())
239       out.append("; ");
240     out.append(it->first);
241     if (it->first != kSecureTokenName && it->first != kHttpOnlyTokenName) {
242       out.append("=");
243       out.append(it->second);
244     }
245   }
246   return out;
247 }
248 
FindFirstTerminator(const std::string & s)249 std::string::const_iterator ParsedCookie::FindFirstTerminator(
250     const std::string& s) {
251   std::string::const_iterator end = s.end();
252   size_t term_pos =
253       s.find_first_of(std::string(kTerminator, kTerminatorLen));
254   if (term_pos != std::string::npos) {
255     // We found a character we should treat as an end of string.
256     end = s.begin() + term_pos;
257   }
258   return end;
259 }
260 
ParseToken(std::string::const_iterator * it,const std::string::const_iterator & end,std::string::const_iterator * token_start,std::string::const_iterator * token_end)261 bool ParsedCookie::ParseToken(std::string::const_iterator* it,
262                               const std::string::const_iterator& end,
263                               std::string::const_iterator* token_start,
264                               std::string::const_iterator* token_end) {
265   DCHECK(it && token_start && token_end);
266   std::string::const_iterator token_real_end;
267 
268   // Seek past any whitespace before the "token" (the name).
269   // token_start should point at the first character in the token
270   if (SeekPast(it, end, kWhitespace))
271     return false;  // No token, whitespace or empty.
272   *token_start = *it;
273 
274   // Seek over the token, to the token separator.
275   // token_real_end should point at the token separator, i.e. '='.
276   // If it == end after the seek, we probably have a token-value.
277   SeekTo(it, end, kTokenSeparator);
278   token_real_end = *it;
279 
280   // Ignore any whitespace between the token and the token separator.
281   // token_end should point after the last interesting token character,
282   // pointing at either whitespace, or at '=' (and equal to token_real_end).
283   if (*it != *token_start) {  // We could have an empty token name.
284     --(*it);  // Go back before the token separator.
285     // Skip over any whitespace to the first non-whitespace character.
286     SeekBackPast(it, *token_start, kWhitespace);
287     // Point after it.
288     ++(*it);
289   }
290   *token_end = *it;
291 
292   // Seek us back to the end of the token.
293   *it = token_real_end;
294   return true;
295 }
296 
ParseValue(std::string::const_iterator * it,const std::string::const_iterator & end,std::string::const_iterator * value_start,std::string::const_iterator * value_end)297 void ParsedCookie::ParseValue(std::string::const_iterator* it,
298                               const std::string::const_iterator& end,
299                               std::string::const_iterator* value_start,
300                               std::string::const_iterator* value_end) {
301   DCHECK(it && value_start && value_end);
302 
303   // Seek past any whitespace that might in-between the token and value.
304   SeekPast(it, end, kWhitespace);
305   // value_start should point at the first character of the value.
306   *value_start = *it;
307 
308   // Just look for ';' to terminate ('=' allowed).
309   // We can hit the end, maybe they didn't terminate.
310   SeekTo(it, end, kValueSeparator);
311 
312   // Will be pointed at the ; seperator or the end.
313   *value_end = *it;
314 
315   // Ignore any unwanted whitespace after the value.
316   if (*value_end != *value_start) {  // Could have an empty value
317     --(*value_end);
318     SeekBackPast(value_end, *value_start, kWhitespace);
319     ++(*value_end);
320   }
321 }
322 
ParseTokenString(const std::string & token)323 std::string ParsedCookie::ParseTokenString(const std::string& token) {
324   std::string::const_iterator it = token.begin();
325   std::string::const_iterator end = FindFirstTerminator(token);
326 
327   std::string::const_iterator token_start, token_end;
328   if (ParseToken(&it, end, &token_start, &token_end))
329     return std::string(token_start, token_end);
330   return std::string();
331 }
332 
ParseValueString(const std::string & value)333 std::string ParsedCookie::ParseValueString(const std::string& value) {
334   std::string::const_iterator it = value.begin();
335   std::string::const_iterator end = FindFirstTerminator(value);
336 
337   std::string::const_iterator value_start, value_end;
338   ParseValue(&it, end, &value_start, &value_end);
339   return std::string(value_start, value_end);
340 }
341 
342 // Parse all token/value pairs and populate pairs_.
ParseTokenValuePairs(const std::string & cookie_line)343 void ParsedCookie::ParseTokenValuePairs(const std::string& cookie_line) {
344   pairs_.clear();
345 
346   // Ok, here we go.  We should be expecting to be starting somewhere
347   // before the cookie line, not including any header name...
348   std::string::const_iterator start = cookie_line.begin();
349   std::string::const_iterator it = start;
350 
351   // TODO(erikwright): Make sure we're stripping \r\n in the network code.
352   // Then we can log any unexpected terminators.
353   std::string::const_iterator end = FindFirstTerminator(cookie_line);
354 
355   for (int pair_num = 0; pair_num < kMaxPairs && it != end; ++pair_num) {
356     TokenValuePair pair;
357 
358     std::string::const_iterator token_start, token_end;
359     if (!ParseToken(&it, end, &token_start, &token_end))
360       break;
361 
362     if (it == end || *it != '=') {
363       // We have a token-value, we didn't have any token name.
364       if (pair_num == 0) {
365         // For the first time around, we want to treat single values
366         // as a value with an empty name. (Mozilla bug 169091).
367         // IE seems to also have this behavior, ex "AAA", and "AAA=10" will
368         // set 2 different cookies, and setting "BBB" will then replace "AAA".
369         pair.first = "";
370         // Rewind to the beginning of what we thought was the token name,
371         // and let it get parsed as a value.
372         it = token_start;
373       } else {
374         // Any not-first attribute we want to treat a value as a
375         // name with an empty value...  This is so something like
376         // "secure;" will get parsed as a Token name, and not a value.
377         pair.first = std::string(token_start, token_end);
378       }
379     } else {
380       // We have a TOKEN=VALUE.
381       pair.first = std::string(token_start, token_end);
382       ++it;  // Skip past the '='.
383     }
384 
385     // OK, now try to parse a value.
386     std::string::const_iterator value_start, value_end;
387     ParseValue(&it, end, &value_start, &value_end);
388 
389     // OK, we're finished with a Token/Value.
390     pair.second = std::string(value_start, value_end);
391 
392     // From RFC2109: "Attributes (names) (attr) are case-insensitive."
393     if (pair_num != 0)
394       base::StringToLowerASCII(&pair.first);
395     // Ignore Set-Cookie directives contaning control characters. See
396     // http://crbug.com/238041.
397     if (!IsValidCookieAttributeValue(pair.first) ||
398         !IsValidCookieAttributeValue(pair.second)) {
399       pairs_.clear();
400       break;
401     }
402 
403     pairs_.push_back(pair);
404 
405     // We've processed a token/value pair, we're either at the end of
406     // the string or a ValueSeparator like ';', which we want to skip.
407     if (it != end)
408       ++it;
409   }
410 }
411 
SetupAttributes()412 void ParsedCookie::SetupAttributes() {
413   // Ignore Set-Cookie directive where name and value are both empty.
414   if (pairs_[0].first.empty() && pairs_[0].second.empty()) {
415     pairs_.clear();
416     return;
417   }
418 
419   // We skip over the first token/value, the user supplied one.
420   for (size_t i = 1; i < pairs_.size(); ++i) {
421     if (pairs_[i].first == kPathTokenName) {
422       path_index_ = i;
423     } else if (pairs_[i].first == kDomainTokenName) {
424       domain_index_ = i;
425     } else if (pairs_[i].first == kExpiresTokenName) {
426       expires_index_ = i;
427     } else if (pairs_[i].first == kMaxAgeTokenName) {
428       maxage_index_ = i;
429     } else if (pairs_[i].first == kSecureTokenName) {
430       secure_index_ = i;
431     } else if (pairs_[i].first == kHttpOnlyTokenName) {
432       httponly_index_ = i;
433     } else if (pairs_[i].first == kPriorityTokenName) {
434       priority_index_ = i;
435     } else {
436       /* some attribute we don't know or don't care about. */
437     }
438   }
439 }
440 
SetString(size_t * index,const std::string & key,const std::string & value)441 bool ParsedCookie::SetString(size_t* index,
442                              const std::string& key,
443                              const std::string& value) {
444   if (value.empty()) {
445     ClearAttributePair(*index);
446     return true;
447   } else {
448     return SetAttributePair(index, key, value);
449   }
450 }
451 
SetBool(size_t * index,const std::string & key,bool value)452 bool ParsedCookie::SetBool(size_t* index,
453                            const std::string& key,
454                            bool value) {
455   if (!value) {
456     ClearAttributePair(*index);
457     return true;
458   } else {
459     return SetAttributePair(index, key, std::string());
460   }
461 }
462 
SetAttributePair(size_t * index,const std::string & key,const std::string & value)463 bool ParsedCookie::SetAttributePair(size_t* index,
464                                     const std::string& key,
465                                     const std::string& value) {
466   if (!(IsValidToken(key) && IsValidCookieAttributeValue(value)))
467     return false;
468   if (!IsValid())
469     return false;
470   if (*index) {
471     pairs_[*index].second = value;
472   } else {
473     pairs_.push_back(std::make_pair(key, value));
474     *index = pairs_.size() - 1;
475   }
476   return true;
477 }
478 
ClearAttributePair(size_t index)479 void ParsedCookie::ClearAttributePair(size_t index) {
480   // The first pair (name/value of cookie at pairs_[0]) cannot be cleared.
481   // Cookie attributes that don't have a value at the moment, are represented
482   // with an index being equal to 0.
483   if (index == 0)
484     return;
485 
486   size_t* indexes[] = { &path_index_, &domain_index_, &expires_index_,
487                         &maxage_index_, &secure_index_, &httponly_index_,
488                         &priority_index_ };
489   for (size_t i = 0; i < arraysize(indexes); ++i) {
490     if (*indexes[i] == index)
491       *indexes[i] = 0;
492     else if (*indexes[i] > index)
493       --*indexes[i];
494   }
495   pairs_.erase(pairs_.begin() + index);
496 }
497 
498 }  // namespace
499