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365 lines
13 KiB
C++
365 lines
13 KiB
C++
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/cookies/cookie_util.h"
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#include <cstdio>
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#include <cstdlib>
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#include "base/logging.h"
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#include "base/stl_util.h"
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#include "base/strings/string_tokenizer.h"
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#include "base/strings/string_util.h"
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#include "build/build_config.h"
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#include "net/base/registry_controlled_domains/registry_controlled_domain.h"
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#include "net/base/url_util.h"
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#include "url/gurl.h"
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namespace net {
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namespace cookie_util {
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namespace {
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base::Time MinNonNullTime() {
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return base::Time::FromInternalValue(1);
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}
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// Tries to assemble a base::Time given a base::Time::Exploded representing a
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// UTC calendar date.
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//
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// If the date falls outside of the range supported internally by
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// FromUTCExploded() on the current platform, then the result is:
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//
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// * Time(1) if it's below the range FromUTCExploded() supports.
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// * Time::Max() if it's above the range FromUTCExploded() supports.
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bool SaturatedTimeFromUTCExploded(const base::Time::Exploded& exploded,
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base::Time* out) {
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// Try to calculate the base::Time in the normal fashion.
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if (base::Time::FromUTCExploded(exploded, out)) {
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// Don't return Time(0) on success.
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if (out->is_null())
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*out = MinNonNullTime();
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return true;
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}
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// base::Time::FromUTCExploded() has platform-specific limits:
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//
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// * Windows: Years 1601 - 30827
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// * 32-bit POSIX: Years 1970 - 2038
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//
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// Work around this by returning min/max valid times for times outside those
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// ranges when imploding the time is doomed to fail.
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//
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// Note that the following implementation is NOT perfect. It will accept
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// some invalid calendar dates in the out-of-range case.
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if (!exploded.HasValidValues())
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return false;
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if (exploded.year > base::Time::kExplodedMaxYear) {
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*out = base::Time::Max();
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return true;
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}
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if (exploded.year < base::Time::kExplodedMinYear) {
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*out = MinNonNullTime();
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return true;
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}
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return false;
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}
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} // namespace
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bool DomainIsHostOnly(const std::string& domain_string) {
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return (domain_string.empty() || domain_string[0] != '.');
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}
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std::string GetEffectiveDomain(const std::string& scheme,
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const std::string& host) {
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if (scheme == "http" || scheme == "https" || scheme == "ws" ||
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scheme == "wss") {
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return registry_controlled_domains::GetDomainAndRegistry(
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host,
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registry_controlled_domains::INCLUDE_PRIVATE_REGISTRIES);
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}
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if (!DomainIsHostOnly(host))
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return host.substr(1);
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return host;
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}
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bool GetCookieDomainWithString(const GURL& url,
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const std::string& domain_string,
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std::string* result) {
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const std::string url_host(url.host());
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// If no domain was specified in the domain string, default to a host cookie.
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// We match IE/Firefox in allowing a domain=IPADDR if it matches the url
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// ip address hostname exactly. It should be treated as a host cookie.
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if (domain_string.empty() ||
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(url.HostIsIPAddress() && url_host == domain_string)) {
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*result = url_host;
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DCHECK(DomainIsHostOnly(*result));
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return true;
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}
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// Get the normalized domain specified in cookie line.
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url::CanonHostInfo ignored;
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std::string cookie_domain(CanonicalizeHost(domain_string, &ignored));
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if (cookie_domain.empty())
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return false;
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if (cookie_domain[0] != '.')
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cookie_domain = "." + cookie_domain;
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// Ensure |url| and |cookie_domain| have the same domain+registry.
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const std::string url_scheme(url.scheme());
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const std::string url_domain_and_registry(
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GetEffectiveDomain(url_scheme, url_host));
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if (url_domain_and_registry.empty()) {
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// We match IE/Firefox by treating an exact match between the domain
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// attribute and the request host to be treated as a host cookie.
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if (url_host == domain_string) {
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*result = url_host;
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DCHECK(DomainIsHostOnly(*result));
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return true;
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}
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// Otherwise, IP addresses/intranet hosts/public suffixes can't set
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// domain cookies.
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return false;
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}
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const std::string cookie_domain_and_registry(
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GetEffectiveDomain(url_scheme, cookie_domain));
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if (url_domain_and_registry != cookie_domain_and_registry)
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return false; // Can't set a cookie on a different domain + registry.
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// Ensure |url_host| is |cookie_domain| or one of its subdomains. Given that
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// we know the domain+registry are the same from the above checks, this is
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// basically a simple string suffix check.
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const bool is_suffix = (url_host.length() < cookie_domain.length()) ?
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(cookie_domain != ("." + url_host)) :
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(url_host.compare(url_host.length() - cookie_domain.length(),
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cookie_domain.length(), cookie_domain) != 0);
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if (is_suffix)
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return false;
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*result = cookie_domain;
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return true;
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}
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// Parse a cookie expiration time. We try to be lenient, but we need to
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// assume some order to distinguish the fields. The basic rules:
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// - The month name must be present and prefix the first 3 letters of the
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// full month name (jan for January, jun for June).
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// - If the year is <= 2 digits, it must occur after the day of month.
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// - The time must be of the format hh:mm:ss.
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// An average cookie expiration will look something like this:
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// Sat, 15-Apr-17 21:01:22 GMT
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base::Time ParseCookieExpirationTime(const std::string& time_string) {
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static const char* const kMonths[] = {
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"jan", "feb", "mar", "apr", "may", "jun",
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"jul", "aug", "sep", "oct", "nov", "dec" };
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// We want to be pretty liberal, and support most non-ascii and non-digit
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// characters as a delimiter. We can't treat : as a delimiter, because it
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// is the delimiter for hh:mm:ss, and we want to keep this field together.
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// We make sure to include - and +, since they could prefix numbers.
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// If the cookie attribute came in in quotes (ex expires="XXX"), the quotes
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// will be preserved, and we will get them here. So we make sure to include
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// quote characters, and also \ for anything that was internally escaped.
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static const char kDelimiters[] = "\t !\"#$%&'()*+,-./;<=>?@[\\]^_`{|}~";
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base::Time::Exploded exploded = {0};
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base::StringTokenizer tokenizer(time_string, kDelimiters);
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bool found_day_of_month = false;
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bool found_month = false;
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bool found_time = false;
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bool found_year = false;
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while (tokenizer.GetNext()) {
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const std::string token = tokenizer.token();
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DCHECK(!token.empty());
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bool numerical = base::IsAsciiDigit(token[0]);
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// String field
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if (!numerical) {
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if (!found_month) {
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for (size_t i = 0; i < base::size(kMonths); ++i) {
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// Match prefix, so we could match January, etc
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if (base::StartsWith(token, base::StringPiece(kMonths[i], 3),
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base::CompareCase::INSENSITIVE_ASCII)) {
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exploded.month = static_cast<int>(i) + 1;
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found_month = true;
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break;
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}
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}
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} else {
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// If we've gotten here, it means we've already found and parsed our
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// month, and we have another string, which we would expect to be the
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// the time zone name. According to the RFC and my experiments with
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// how sites format their expirations, we don't have much of a reason
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// to support timezones. We don't want to ever barf on user input,
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// but this DCHECK should pass for well-formed data.
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// DCHECK(token == "GMT");
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}
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// Numeric field w/ a colon
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} else if (token.find(':') != std::string::npos) {
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if (!found_time &&
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#ifdef COMPILER_MSVC
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sscanf_s(
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#else
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sscanf(
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#endif
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token.c_str(), "%2u:%2u:%2u", &exploded.hour,
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&exploded.minute, &exploded.second) == 3) {
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found_time = true;
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} else {
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// We should only ever encounter one time-like thing. If we're here,
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// it means we've found a second, which shouldn't happen. We keep
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// the first. This check should be ok for well-formed input:
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// NOTREACHED();
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}
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// Numeric field
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} else {
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// Overflow with atoi() is unspecified, so we enforce a max length.
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if (!found_day_of_month && token.length() <= 2) {
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exploded.day_of_month = atoi(token.c_str());
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found_day_of_month = true;
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} else if (!found_year && token.length() <= 5) {
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exploded.year = atoi(token.c_str());
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found_year = true;
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} else {
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// If we're here, it means we've either found an extra numeric field,
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// or a numeric field which was too long. For well-formed input, the
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// following check would be reasonable:
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// NOTREACHED();
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}
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}
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}
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if (!found_day_of_month || !found_month || !found_time || !found_year) {
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// We didn't find all of the fields we need. For well-formed input, the
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// following check would be reasonable:
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// NOTREACHED() << "Cookie parse expiration failed: " << time_string;
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return base::Time();
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}
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// Normalize the year to expand abbreviated years to the full year.
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if (exploded.year >= 69 && exploded.year <= 99)
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exploded.year += 1900;
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if (exploded.year >= 0 && exploded.year <= 68)
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exploded.year += 2000;
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// Note that clipping the date if it is outside of a platform-specific range
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// is permitted by: https://tools.ietf.org/html/rfc6265#section-5.2.1
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base::Time result;
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if (SaturatedTimeFromUTCExploded(exploded, &result))
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return result;
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// One of our values was out of expected range. For well-formed input,
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// the following check would be reasonable:
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// NOTREACHED() << "Cookie exploded expiration failed: " << time_string;
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return base::Time();
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}
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GURL CookieOriginToURL(const std::string& domain, bool is_https) {
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if (domain.empty())
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return GURL();
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const std::string scheme = is_https ? "https" : "http";
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const std::string host = domain[0] == '.' ? domain.substr(1) : domain;
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return GURL(scheme + "://" + host);
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}
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bool IsDomainMatch(const std::string& domain, const std::string& host) {
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// Can domain match in two ways; as a domain cookie (where the cookie
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// domain begins with ".") or as a host cookie (where it doesn't).
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// Some consumers of the CookieMonster expect to set cookies on
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// URLs like http://.strange.url. To retrieve cookies in this instance,
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// we allow matching as a host cookie even when the domain_ starts with
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// a period.
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if (host == domain)
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return true;
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// Domain cookie must have an initial ".". To match, it must be
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// equal to url's host with initial period removed, or a suffix of
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// it.
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// Arguably this should only apply to "http" or "https" cookies, but
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// extension cookie tests currently use the funtionality, and if we
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// ever decide to implement that it should be done by preventing
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// such cookies from being set.
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if (domain.empty() || domain[0] != '.')
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return false;
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// The host with a "." prefixed.
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if (domain.compare(1, std::string::npos, host) == 0)
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return true;
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// A pure suffix of the host (ok since we know the domain already
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// starts with a ".")
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return (host.length() > domain.length() &&
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host.compare(host.length() - domain.length(), domain.length(),
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domain) == 0);
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}
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void ParseRequestCookieLine(const std::string& header_value,
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ParsedRequestCookies* parsed_cookies) {
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std::string::const_iterator i = header_value.begin();
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while (i != header_value.end()) {
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// Here we are at the beginning of a cookie.
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// Eat whitespace.
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while (i != header_value.end() && *i == ' ') ++i;
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if (i == header_value.end()) return;
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// Find cookie name.
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std::string::const_iterator cookie_name_beginning = i;
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while (i != header_value.end() && *i != '=') ++i;
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base::StringPiece cookie_name(cookie_name_beginning, i);
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// Find cookie value.
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base::StringPiece cookie_value;
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// Cookies may have no value, in this case '=' may or may not be there.
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if (i != header_value.end() && i + 1 != header_value.end()) {
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++i; // Skip '='.
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std::string::const_iterator cookie_value_beginning = i;
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if (*i == '"') {
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++i; // Skip '"'.
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while (i != header_value.end() && *i != '"') ++i;
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if (i == header_value.end()) return;
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++i; // Skip '"'.
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cookie_value = base::StringPiece(cookie_value_beginning, i);
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// i points to character after '"', potentially a ';'.
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} else {
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while (i != header_value.end() && *i != ';') ++i;
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cookie_value = base::StringPiece(cookie_value_beginning, i);
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// i points to ';' or end of string.
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}
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}
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parsed_cookies->push_back(std::make_pair(cookie_name, cookie_value));
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// Eat ';'.
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if (i != header_value.end()) ++i;
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}
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}
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std::string SerializeRequestCookieLine(
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const ParsedRequestCookies& parsed_cookies) {
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std::string buffer;
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for (ParsedRequestCookies::const_iterator i = parsed_cookies.begin();
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i != parsed_cookies.end(); ++i) {
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if (!buffer.empty())
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buffer.append("; ");
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buffer.append(i->first.begin(), i->first.end());
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buffer.push_back('=');
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buffer.append(i->second.begin(), i->second.end());
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}
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return buffer;
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}
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} // namespace cookie_util
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} // namespace net
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