// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Brought to you by the letter D and the number 2. #ifndef NET_BASE_COOKIE_MONSTER_H_ #define NET_BASE_COOKIE_MONSTER_H_ #include #include #include #include #include "base/basictypes.h" #include "base/lock.h" #include "base/time.h" #include "net/base/cookie_store.h" class GURL; namespace net { // The cookie monster is the system for storing and retrieving cookies. It has // an in-memory list of all cookies, and synchronizes non-session cookies to an // optional permanent storage that implements the PersistentCookieStore // interface. // // This class IS thread-safe. Normally, it is only used on the I/O thread, but // is also accessed directly through Automation for UI testing. // // TODO(deanm) Implement CookieMonster, the cookie database. // - Verify that our domain enforcement and non-dotted handling is correct class CookieMonster : public CookieStore { public: class ParsedCookie; class CanonicalCookie; class PersistentCookieStore; // NOTE(deanm): // I benchmarked hash_multimap vs multimap. We're going to be query-heavy // so it would seem like hashing would help. However they were very // close, with multimap being a tiny bit faster. I think this is because // our map is at max around 1000 entries, and the additional complexity // for the hashing might not overcome the O(log(1000)) for querying // a multimap. Also, multimap is standard, another reason to use it. typedef std::multimap CookieMap; typedef std::pair CookieMapItPair; typedef std::pair KeyedCanonicalCookie; typedef std::pair CookieListPair; typedef std::vector CookieList; CookieMonster(); // The store passed in should not have had Init() called on it yet. This class // will take care of initializing it. The backing store is NOT owned by this // class, but it must remain valid for the duration of the cookie monster's // existence. CookieMonster(PersistentCookieStore* store); #ifdef UNIT_TEST CookieMonster(int last_access_threshold_seconds) : initialized_(false), store_(NULL), last_access_threshold_( base::TimeDelta::FromSeconds(last_access_threshold_seconds)) { SetDefaultCookieableSchemes(); } #endif ~CookieMonster(); // Parse the string with the cookie time (very forgivingly). static base::Time ParseCookieTime(const std::string& time_string); // CookieStore implementation. virtual bool SetCookie(const GURL& url, const std::string& cookie_line); virtual bool SetCookieWithOptions(const GURL& url, const std::string& cookie_line, const CookieOptions& options); virtual bool SetCookieWithCreationTime(const GURL& url, const std::string& cookie_line, const base::Time& creation_time); virtual bool SetCookieWithCreationTimeWithOptions( const GURL& url, const std::string& cookie_line, const base::Time& creation_time, const CookieOptions& options); virtual void SetCookies(const GURL& url, const std::vector& cookies); virtual void SetCookiesWithOptions(const GURL& url, const std::vector& cookies, const CookieOptions& options); virtual std::string GetCookies(const GURL& url); virtual std::string GetCookiesWithOptions(const GURL& url, const CookieOptions& options); virtual CookieMonster* GetCookieMonster() { return this; } // Returns all the cookies, for use in management UI, etc. This does not mark // the cookies as having been accessed. CookieList GetAllCookies(); // Delete all of the cookies. int DeleteAll(bool sync_to_store); // Delete all of the cookies that have a creation_date greater than or equal // to |delete_begin| and less than |delete_end| int DeleteAllCreatedBetween(const base::Time& delete_begin, const base::Time& delete_end, bool sync_to_store); // Delete all of the cookies that have a creation_date more recent than the // one passed into the function via |delete_after|. int DeleteAllCreatedAfter(const base::Time& delete_begin, bool sync_to_store); // Delete one specific cookie. bool DeleteCookie(const std::string& domain, const CanonicalCookie& cookie, bool sync_to_store); // Override the default list of schemes that are allowed to be set in // this cookie store. Calling his overrides the value of // "enable_file_scheme_". void SetCookieableSchemes(const char* schemes[], size_t num_schemes); // There are some unknowns about how to correctly handle file:// cookies, // and our implementation for this is not robust enough. This allows you // to enable support, but it should only be used for testing. Bug 1157243. // Must be called before creating a CookieMonster instance. static void EnableFileScheme(); static bool enable_file_scheme_; private: // Called by all non-static functions to ensure that the cookies store has // been initialized. This is not done during creating so it doesn't block // the window showing. // Note: this method should always be called with lock_ held. void InitIfNecessary() { if (!initialized_) { if (store_) InitStore(); initialized_ = true; } } // Initializes the backing store and reads existing cookies from it. // Should only be called by InitIfNecessary(). void InitStore(); void SetDefaultCookieableSchemes(); void FindCookiesForHostAndDomain(const GURL& url, const CookieOptions& options, std::vector* cookies); void FindCookiesForKey(const std::string& key, const GURL& url, const CookieOptions& options, const base::Time& current, std::vector* cookies); // Delete any cookies that are equivalent to |ecc| (same path, key, etc). // If |skip_httponly| is true, httponly cookies will not be deleted. The // return value with be true if |skip_httponly| skipped an httponly cookie. // NOTE: There should never be more than a single matching equivalent cookie. bool DeleteAnyEquivalentCookie(const std::string& key, const CanonicalCookie& ecc, bool skip_httponly); void InternalInsertCookie(const std::string& key, CanonicalCookie* cc, bool sync_to_store); void InternalUpdateCookieAccessTime(CanonicalCookie* cc); void InternalDeleteCookie(CookieMap::iterator it, bool sync_to_store); // If the number of cookies for host |key|, or globally, are over preset // maximums, garbage collects, first for the host and then globally, as // described by GarbageCollectRange(). The limits can be found as constants // at the top of the function body. // // Returns the number of cookies deleted (useful for debugging). int GarbageCollect(const base::Time& current, const std::string& key); // Deletes all expired cookies in |itpair|; // then, if the number of remaining cookies is greater than |num_max|, // collects the least recently accessed cookies until // (|num_max| - |num_purge|) cookies remain. // // Returns the number of cookies deleted. int GarbageCollectRange(const base::Time& current, const CookieMapItPair& itpair, size_t num_max, size_t num_purge); // Helper for GarbageCollectRange(); can be called directly as well. Deletes // all expired cookies in |itpair|. If |cookie_its| is non-NULL, it is // populated with all the non-expired cookies from |itpair|. // // Returns the number of cookies deleted. int GarbageCollectExpired(const base::Time& current, const CookieMapItPair& itpair, std::vector* cookie_its); bool HasCookieableScheme(const GURL& url); CookieMap cookies_; // Indicates whether the cookie store has been initialized. This happens // lazily in InitStoreIfNecessary(). bool initialized_; PersistentCookieStore* store_; // The resolution of our time isn't enough, so we do something // ugly and increment when we've seen the same time twice. base::Time CurrentTime(); base::Time last_time_seen_; // Minimum delay after updating a cookie's LastAccessDate before we will // update it again. const base::TimeDelta last_access_threshold_; std::vector cookieable_schemes_; // Lock for thread-safety Lock lock_; DISALLOW_COPY_AND_ASSIGN(CookieMonster); }; class CookieMonster::ParsedCookie { public: typedef std::pair TokenValuePair; typedef std::vector PairList; // The maximum length of a cookie string we will try to parse static const size_t kMaxCookieSize = 4096; // The maximum number of Token/Value pairs. Shouldn't have more than 8. static const int kMaxPairs = 16; // Construct from a cookie string like "BLAH=1; path=/; domain=.google.com" ParsedCookie(const std::string& cookie_line); ~ParsedCookie() { } // You should not call any other methods on the class if !IsValid bool IsValid() const { return is_valid_; } const std::string& Name() const { return pairs_[0].first; } const std::string& Token() const { return Name(); } const std::string& Value() const { return pairs_[0].second; } bool HasPath() const { return path_index_ != 0; } const std::string& Path() const { return pairs_[path_index_].second; } bool HasDomain() const { return domain_index_ != 0; } const std::string& Domain() const { return pairs_[domain_index_].second; } bool HasExpires() const { return expires_index_ != 0; } const std::string& Expires() const { return pairs_[expires_index_].second; } bool HasMaxAge() const { return maxage_index_ != 0; } const std::string& MaxAge() const { return pairs_[maxage_index_].second; } bool IsSecure() const { return secure_index_ != 0; } bool IsHttpOnly() const { return httponly_index_ != 0; } // Return the number of attributes, for example, returning 2 for: // "BLAH=hah; path=/; domain=.google.com" size_t NumberOfAttributes() const { return pairs_.size() - 1; } // For debugging only! std::string DebugString() const; private: void ParseTokenValuePairs(const std::string& cookie_line); void SetupAttributes(); PairList pairs_; bool is_valid_; // These will default to 0, but that should never be valid since the // 0th index is the user supplied token/value, not an attribute. // We're really never going to have more than like 8 attributes, so we // could fit these into 3 bits each if we're worried about size... size_t path_index_; size_t domain_index_; size_t expires_index_; size_t maxage_index_; size_t secure_index_; size_t httponly_index_; DISALLOW_COPY_AND_ASSIGN(ParsedCookie); }; class CookieMonster::CanonicalCookie { public: CanonicalCookie(const std::string& name, const std::string& value, const std::string& path, bool secure, bool httponly, const base::Time& creation, const base::Time& last_access, bool has_expires, const base::Time& expires) : name_(name), value_(value), path_(path), creation_date_(creation), last_access_date_(last_access), expiry_date_(expires), has_expires_(has_expires), secure_(secure), httponly_(httponly) { } #if defined(_MSC_VER) && _CPPLIB_VER == 505 // On Visual Studio 2008 Service Pack 1, std::vector<> do an early // optimization in a way that requires the availability of a default // constructor. It is because it sees std::pair<> as "swappable", so creates a // dummy to swap with, which requires an empty constructor for any entry in // the std::pair. CanonicalCookie() { } #endif // Supports the default copy constructor. const std::string& Name() const { return name_; } const std::string& Value() const { return value_; } const std::string& Path() const { return path_; } const base::Time& CreationDate() const { return creation_date_; } const base::Time& LastAccessDate() const { return last_access_date_; } bool DoesExpire() const { return has_expires_; } bool IsPersistent() const { return DoesExpire(); } const base::Time& ExpiryDate() const { return expiry_date_; } bool IsSecure() const { return secure_; } bool IsHttpOnly() const { return httponly_; } bool IsExpired(const base::Time& current) { return has_expires_ && current >= expiry_date_; } // Are the cookies considered equivalent in the eyes of the RFC. // This says that the domain and path should string match identically. bool IsEquivalent(const CanonicalCookie& ecc) const { // It seems like it would make sense to take secure and httponly into // account, but the RFC doesn't specify this. return name_ == ecc.Name() && path_ == ecc.Path(); } void SetLastAccessDate(const base::Time& date) { last_access_date_ = date; } bool IsOnPath(const std::string& url_path) const; std::string DebugString() const; private: std::string name_; std::string value_; std::string path_; base::Time creation_date_; base::Time last_access_date_; base::Time expiry_date_; bool has_expires_; bool secure_; bool httponly_; }; class CookieMonster::PersistentCookieStore { public: virtual ~PersistentCookieStore() { } // Initializes the store and retrieves the existing cookies. This will be // called only once at startup. virtual bool Load(std::vector*) = 0; virtual void AddCookie(const std::string&, const CanonicalCookie&) = 0; virtual void UpdateCookieAccessTime(const CanonicalCookie&) = 0; virtual void DeleteCookie(const CanonicalCookie&) = 0; protected: PersistentCookieStore() { } private: DISALLOW_COPY_AND_ASSIGN(PersistentCookieStore); }; } // namespace net #endif // NET_BASE_COOKIE_MONSTER_H_