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[chromium-blink-merge.git] / net / http / http_security_headers.cc
blobaff4a305a2902a9738693fca030dcd5e11703535
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 "base/base64.h"
6 #include "base/basictypes.h"
7 #include "base/strings/string_number_conversions.h"
8 #include "base/strings/string_tokenizer.h"
9 #include "base/strings/string_util.h"
10 #include "net/http/http_security_headers.h"
11 #include "net/http/http_util.h"
13 namespace net {
15 namespace {
17 static_assert(kMaxHSTSAgeSecs <= kuint32max, "kMaxHSTSAgeSecs too large");
19 // MaxAgeToInt converts a string representation of a "whole number" of
20 // seconds into a uint32. The string may contain an arbitrarily large number,
21 // which will be clipped to kMaxHSTSAgeSecs and which is guaranteed to fit
22 // within a 32-bit unsigned integer. False is returned on any parse error.
23 bool MaxAgeToInt(std::string::const_iterator begin,
24 std::string::const_iterator end,
25 uint32* result) {
26 const std::string s(begin, end);
27 int64 i = 0;
29 // Return false on any StringToInt64 parse errors *except* for
30 // int64 overflow. StringToInt64 is used, rather than StringToUint64,
31 // in order to properly handle and reject negative numbers
32 // (StringToUint64 does not return false on negative numbers).
33 // For values too large to be stored in an int64, StringToInt64 will
34 // return false with i set to kint64max, so this case is detected
35 // by the immediately following if-statement and allowed to fall
36 // through so that i gets clipped to kMaxHSTSAgeSecs.
37 if (!base::StringToInt64(s, &i) && i != kint64max)
38 return false;
39 if (i < 0)
40 return false;
41 if (i > kMaxHSTSAgeSecs)
42 i = kMaxHSTSAgeSecs;
43 *result = (uint32)i;
44 return true;
47 // Returns true iff there is an item in |pins| which is not present in
48 // |from_cert_chain|. Such an SPKI hash is called a "backup pin".
49 bool IsBackupPinPresent(const HashValueVector& pins,
50 const HashValueVector& from_cert_chain) {
51 for (HashValueVector::const_iterator i = pins.begin(); i != pins.end();
52 ++i) {
53 HashValueVector::const_iterator j =
54 std::find_if(from_cert_chain.begin(), from_cert_chain.end(),
55 HashValuesEqual(*i));
56 if (j == from_cert_chain.end())
57 return true;
60 return false;
63 // Returns true if the intersection of |a| and |b| is not empty. If either
64 // |a| or |b| is empty, returns false.
65 bool HashesIntersect(const HashValueVector& a,
66 const HashValueVector& b) {
67 for (HashValueVector::const_iterator i = a.begin(); i != a.end(); ++i) {
68 HashValueVector::const_iterator j =
69 std::find_if(b.begin(), b.end(), HashValuesEqual(*i));
70 if (j != b.end())
71 return true;
73 return false;
76 // Returns true iff |pins| contains both a live and a backup pin. A live pin
77 // is a pin whose SPKI is present in the certificate chain in |ssl_info|. A
78 // backup pin is a pin intended for disaster recovery, not day-to-day use, and
79 // thus must be absent from the certificate chain. The Public-Key-Pins header
80 // specification requires both.
81 bool IsPinListValid(const HashValueVector& pins,
82 const HashValueVector& from_cert_chain) {
83 // Fast fail: 1 live + 1 backup = at least 2 pins. (Check for actual
84 // liveness and backupness below.)
85 if (pins.size() < 2)
86 return false;
88 if (from_cert_chain.empty())
89 return false;
91 return IsBackupPinPresent(pins, from_cert_chain) &&
92 HashesIntersect(pins, from_cert_chain);
95 std::string Strip(const std::string& source) {
96 if (source.empty())
97 return source;
99 std::string::const_iterator start = source.begin();
100 std::string::const_iterator end = source.end();
101 HttpUtil::TrimLWS(&start, &end);
102 return std::string(start, end);
105 typedef std::pair<std::string, std::string> StringPair;
107 StringPair Split(const std::string& source, char delimiter) {
108 StringPair pair;
109 size_t point = source.find(delimiter);
111 pair.first = source.substr(0, point);
112 if (std::string::npos != point)
113 pair.second = source.substr(point + 1);
115 return pair;
118 bool ParseAndAppendPin(const std::string& value,
119 HashValueTag tag,
120 HashValueVector* hashes) {
121 // Pins are always quoted.
122 if (value.empty() || !HttpUtil::IsQuote(value[0]))
123 return false;
125 std::string unquoted = HttpUtil::Unquote(value);
126 if (unquoted.empty())
127 return false;
129 std::string decoded;
130 if (!base::Base64Decode(unquoted, &decoded))
131 return false;
133 HashValue hash(tag);
134 if (decoded.size() != hash.size())
135 return false;
137 memcpy(hash.data(), decoded.data(), hash.size());
138 hashes->push_back(hash);
139 return true;
142 } // namespace
144 // Parse the Strict-Transport-Security header, as currently defined in
145 // http://tools.ietf.org/html/draft-ietf-websec-strict-transport-sec-14:
147 // Strict-Transport-Security = "Strict-Transport-Security" ":"
148 // [ directive ] *( ";" [ directive ] )
150 // directive = directive-name [ "=" directive-value ]
151 // directive-name = token
152 // directive-value = token | quoted-string
154 // 1. The order of appearance of directives is not significant.
156 // 2. All directives MUST appear only once in an STS header field.
157 // Directives are either optional or required, as stipulated in
158 // their definitions.
160 // 3. Directive names are case-insensitive.
162 // 4. UAs MUST ignore any STS header fields containing directives, or
163 // other header field value data, that does not conform to the
164 // syntax defined in this specification.
166 // 5. If an STS header field contains directive(s) not recognized by
167 // the UA, the UA MUST ignore the unrecognized directives and if the
168 // STS header field otherwise satisfies the above requirements (1
169 // through 4), the UA MUST process the recognized directives.
170 bool ParseHSTSHeader(const std::string& value,
171 base::TimeDelta* max_age,
172 bool* include_subdomains) {
173 uint32 max_age_candidate = 0;
174 bool include_subdomains_candidate = false;
176 // We must see max-age exactly once.
177 int max_age_observed = 0;
178 // We must see includeSubdomains exactly 0 or 1 times.
179 int include_subdomains_observed = 0;
181 enum ParserState {
182 START,
183 AFTER_MAX_AGE_LABEL,
184 AFTER_MAX_AGE_EQUALS,
185 AFTER_MAX_AGE,
186 AFTER_INCLUDE_SUBDOMAINS,
187 AFTER_UNKNOWN_LABEL,
188 DIRECTIVE_END
189 } state = START;
191 base::StringTokenizer tokenizer(value, " \t=;");
192 tokenizer.set_options(base::StringTokenizer::RETURN_DELIMS);
193 tokenizer.set_quote_chars("\"");
194 std::string unquoted;
195 while (tokenizer.GetNext()) {
196 DCHECK(!tokenizer.token_is_delim() || tokenizer.token().length() == 1);
197 switch (state) {
198 case START:
199 case DIRECTIVE_END:
200 if (IsAsciiWhitespace(*tokenizer.token_begin()))
201 continue;
202 if (LowerCaseEqualsASCII(tokenizer.token(), "max-age")) {
203 state = AFTER_MAX_AGE_LABEL;
204 max_age_observed++;
205 } else if (LowerCaseEqualsASCII(tokenizer.token(),
206 "includesubdomains")) {
207 state = AFTER_INCLUDE_SUBDOMAINS;
208 include_subdomains_observed++;
209 include_subdomains_candidate = true;
210 } else {
211 state = AFTER_UNKNOWN_LABEL;
213 break;
215 case AFTER_MAX_AGE_LABEL:
216 if (IsAsciiWhitespace(*tokenizer.token_begin()))
217 continue;
218 if (*tokenizer.token_begin() != '=')
219 return false;
220 DCHECK_EQ(tokenizer.token().length(), 1U);
221 state = AFTER_MAX_AGE_EQUALS;
222 break;
224 case AFTER_MAX_AGE_EQUALS:
225 if (IsAsciiWhitespace(*tokenizer.token_begin()))
226 continue;
227 unquoted = HttpUtil::Unquote(tokenizer.token());
228 if (!MaxAgeToInt(unquoted.begin(), unquoted.end(), &max_age_candidate))
229 return false;
230 state = AFTER_MAX_AGE;
231 break;
233 case AFTER_MAX_AGE:
234 case AFTER_INCLUDE_SUBDOMAINS:
235 if (IsAsciiWhitespace(*tokenizer.token_begin()))
236 continue;
237 else if (*tokenizer.token_begin() == ';')
238 state = DIRECTIVE_END;
239 else
240 return false;
241 break;
243 case AFTER_UNKNOWN_LABEL:
244 // Consume and ignore the post-label contents (if any).
245 if (*tokenizer.token_begin() != ';')
246 continue;
247 state = DIRECTIVE_END;
248 break;
252 // We've consumed all the input. Let's see what state we ended up in.
253 if (max_age_observed != 1 ||
254 (include_subdomains_observed != 0 && include_subdomains_observed != 1)) {
255 return false;
258 switch (state) {
259 case DIRECTIVE_END:
260 case AFTER_MAX_AGE:
261 case AFTER_INCLUDE_SUBDOMAINS:
262 case AFTER_UNKNOWN_LABEL:
263 *max_age = base::TimeDelta::FromSeconds(max_age_candidate);
264 *include_subdomains = include_subdomains_candidate;
265 return true;
266 case START:
267 case AFTER_MAX_AGE_LABEL:
268 case AFTER_MAX_AGE_EQUALS:
269 return false;
270 default:
271 NOTREACHED();
272 return false;
276 // "Public-Key-Pins" ":"
277 // "max-age" "=" delta-seconds ";"
278 // "pin-" algo "=" base64 [ ";" ... ]
279 bool ParseHPKPHeader(const std::string& value,
280 const HashValueVector& chain_hashes,
281 base::TimeDelta* max_age,
282 bool* include_subdomains,
283 HashValueVector* hashes) {
284 bool parsed_max_age = false;
285 bool include_subdomains_candidate = false;
286 uint32 max_age_candidate = 0;
287 HashValueVector pins;
289 std::string source = value;
291 while (!source.empty()) {
292 StringPair semicolon = Split(source, ';');
293 semicolon.first = Strip(semicolon.first);
294 semicolon.second = Strip(semicolon.second);
295 StringPair equals = Split(semicolon.first, '=');
296 equals.first = Strip(equals.first);
297 equals.second = Strip(equals.second);
299 if (LowerCaseEqualsASCII(equals.first, "max-age")) {
300 if (equals.second.empty() ||
301 !MaxAgeToInt(equals.second.begin(), equals.second.end(),
302 &max_age_candidate)) {
303 return false;
305 parsed_max_age = true;
306 } else if (LowerCaseEqualsASCII(equals.first, "pin-sha1")) {
307 if (!ParseAndAppendPin(equals.second, HASH_VALUE_SHA1, &pins))
308 return false;
309 } else if (LowerCaseEqualsASCII(equals.first, "pin-sha256")) {
310 if (!ParseAndAppendPin(equals.second, HASH_VALUE_SHA256, &pins))
311 return false;
312 } else if (LowerCaseEqualsASCII(equals.first, "includesubdomains")) {
313 include_subdomains_candidate = true;
314 } else {
315 // Silently ignore unknown directives for forward compatibility.
318 source = semicolon.second;
321 if (!parsed_max_age)
322 return false;
324 if (!IsPinListValid(pins, chain_hashes))
325 return false;
327 *max_age = base::TimeDelta::FromSeconds(max_age_candidate);
328 *include_subdomains = include_subdomains_candidate;
329 hashes->swap(pins);
331 return true;
334 } // namespace net