wifi_provider.h - chromiumos/platform/shill - Git at Google

 // Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef SHILL_WIFI_PROVIDER_H_
 #define SHILL_WIFI_PROVIDER_H_

 #include <time.h>

 #include <deque>
 #include <map>

 #include <gtest/gtest_prod.h>  // for FRIEND_TEST

 #include "shill/accessor_interface.h"  // for ByteArrays
 #include "shill/refptr_types.h"

 namespace shill {

 class ControlInterface;
 class Error;
 class EventDispatcher;
 class KeyValueStore;
 class Manager;
 class Metrics;
 class StoreInterface;
 class Time;
 class WiFiEndpoint;
 class WiFiService;

 // The WiFi Provider is the holder of all WiFi Services.  It holds both
 // visible (created due to an Endpoint becoming visible) and invisible
 // (created due to user or storage configuration) Services.
 class WiFiProvider {
  public:
   static const char kStorageFrequencies[];
   static const int kMaxStorageFrequencies;
   typedef std::map<uint16, int64> ConnectFrequencyMap;
   // The key to |ConnectFrequencyMapDated| is the number of days since the
   // Epoch.
   typedef std::map<time_t, ConnectFrequencyMap> ConnectFrequencyMapDated;
   struct FrequencyCount {
     FrequencyCount() : frequency(0), connection_count(0) {}
     FrequencyCount(uint16 freq, size_t conn)
         : frequency(freq), connection_count(conn) {}
     uint16 frequency;
     size_t connection_count;  // Number of successful connections at this
                               // frequency.
   };
   typedef std::deque<FrequencyCount> FrequencyCountList;

   WiFiProvider(ControlInterface *control_interface,
                EventDispatcher *dispatcher,
                Metrics *metrics,
                Manager *manager);
   virtual ~WiFiProvider();

   virtual void Start();
   virtual void Stop();

   // Called by Manager.
   virtual void CreateServicesFromProfile(const ProfileRefPtr &profile);
   virtual WiFiServiceRefPtr GetService(const KeyValueStore &args, Error *error);

   // Find a Service with the same SSID, mode and security as provided
   // in |args|.  Returns a reference to a matching service if one
   // exists.  Otherwise it returns a NULL reference and populates |error|.
   virtual WiFiServiceRefPtr FindSimilarService(
       const KeyValueStore &args, Error *error) const;

   // Create a temporary WiFiService with the mode, ssid, security and
   // hidden properties populated from |args|.  Callers outside of the
   // WiFiProvider must must never register this service with the Manager
   // or connect it since it was never added to the provider's service list.
   virtual WiFiServiceRefPtr CreateTemporaryService(
       const KeyValueStore &args, Error *error);

   // Find a Service this Endpoint should be associated with.
   virtual WiFiServiceRefPtr FindServiceForEndpoint(
       const WiFiEndpointConstRefPtr &endpoint);

   // Find or create a Service for |endpoint| to be associated with.  This
   // method first calls FindServiceForEndpoint, and failing this, creates
   // a new Service.  It then associates |endpoint| with this service.
   virtual void OnEndpointAdded(const WiFiEndpointConstRefPtr &endpoint);

   // Called by a Device when it removes an Endpoint.  If the Provider
   // forgets a service as a result, it returns a reference to the
   // forgotten service, otherwise it returns a null reference.
   virtual WiFiServiceRefPtr OnEndpointRemoved(
       const WiFiEndpointConstRefPtr &endpoint);

   // Called by a Device when it receives notification that an Endpoint
   // has changed.  Ensure the updated endpoint still matches its
   // associated service.  If necessary re-assign the endpoint to a new
   // service, otherwise notify the associated service of the update to
   // the endpoint.
   virtual void OnEndpointUpdated(const WiFiEndpointConstRefPtr &endpoint);

   // Called by a WiFiService when it is unloaded and no longer visible.
   virtual bool OnServiceUnloaded(const WiFiServiceRefPtr &service);

   // Get the list of SSIDs for hidden WiFi services we are aware of.
   virtual ByteArrays GetHiddenSSIDList();

   // Calls WiFiService::FixupServiceEntries() and adds a UMA metric if
   // this causes entries to be updated.
   virtual void LoadAndFixupServiceEntries(StoreInterface *storage,
                                           bool is_default_profile);

   // Save configuration for wifi_provider to |storage|.
   virtual bool Save(StoreInterface *storage) const;

   virtual void IncrementConnectCount(uint16 frequency_mhz);

   // Returns a list of all of the frequencies on which this device has
   // connected.  This data is accumulated across multiple shill runs.
   virtual FrequencyCountList GetScanFrequencies() const;

  private:
   friend class WiFiProviderTest;
   FRIEND_TEST(WiFiProviderTest, FrequencyMapAgingIllegalDay);
   FRIEND_TEST(WiFiProviderTest, FrequencyMapBasicAging);
   FRIEND_TEST(WiFiProviderTest, FrequencyMapToStringList);
   FRIEND_TEST(WiFiProviderTest, FrequencyMapToStringListEmpty);
   FRIEND_TEST(WiFiProviderTest, IncrementConnectCount);
   FRIEND_TEST(WiFiProviderTest, IncrementConnectCountCreateNew);
   FRIEND_TEST(WiFiProviderTest, LoadAndFixupServiceEntries);
   FRIEND_TEST(WiFiProviderTest, LoadAndFixupServiceEntriesNothingToDo);
   FRIEND_TEST(WiFiProviderTest, StringListToFrequencyMap);
   FRIEND_TEST(WiFiProviderTest, StringListToFrequencyMapEmpty);

   typedef std::map<const WiFiEndpoint *, WiFiServiceRefPtr> EndpointServiceMap;

   static const char kManagerErrorSSIDTooLong[];
   static const char kManagerErrorSSIDTooShort[];
   static const char kManagerErrorSSIDRequired[];
   static const char kManagerErrorUnsupportedSecurityMode[];
   static const char kManagerErrorUnsupportedServiceMode[];
   static const char kFrequencyDelimiter;
   static const char kStartWeekHeader[];
   static const time_t kIllegalStartWeek;
   static const char kStorageId[];
   static const time_t kWeeksToKeepFrequencyCounts;
   static const time_t kSecondsPerWeek;

   // Add a service to the service_ vector and register it with the Manager.
   WiFiServiceRefPtr AddService(const std::vector<uint8_t> &ssid,
                                const std::string &mode,
                                const std::string &security,
                                bool is_hidden);

   // Find a service given its properties.
   WiFiServiceRefPtr FindService(const std::vector<uint8_t> &ssid,
                                 const std::string &mode,
                                 const std::string &security) const;

   // Disassociate the service from its WiFi device and remove it from the
   // services_ vector.
   void ForgetService(const WiFiServiceRefPtr &service);

   // Retrieve a WiFi service's identifying properties from passed-in |args|.
   // Returns true if |args| are valid and populates |ssid|, |mode|,
   // |security| and |hidden_ssid|, if successful.  Otherwise, this function
   // returns false and populates |error| with the reason for failure.  It
   // is a fatal error if the "Type" parameter passed in |args| is not
   // flimflam::kWiFi.
   static bool GetServiceParametersFromArgs(const KeyValueStore &args,
                                            std::vector<uint8_t> *ssid_bytes,
                                            std::string *mode,
                                            std::string *security_method,
                                            bool *hidden_ssid,
                                            Error *error);

   // Converts frequency profile information from a list of strings of the form
   // "frequency:connection_count" to a form consistent with
   // |connect_count_by_frequency_|.  The first string must be of the form
   // [nnn] where |nnn| is a positive integer that represents the creation time
   // (number of days since the Epoch) of the data.
   static time_t StringListToFrequencyMap(
       const std::vector<std::string> &strings,
       ConnectFrequencyMap *numbers);

   // Extracts the start week from the first string in the StringList for
   // |StringListToFrequencyMap|.
   static time_t GetStringListStartWeek(const std::string &week_string);

   // Extracts frequency and connection count from a string from the StringList
   // for |StringListToFrequencyMap|.  Places those values in |numbers|.
   static void ParseStringListFreqCount(const std::string &freq_count_string,
                                        ConnectFrequencyMap *numbers);

   // Converts frequency profile information from a form consistent with
   // |connect_count_by_frequency_| to a list of strings of the form
   // "frequency:connection_count".  The |creation_day| is the day that the
   // data was first createed (represented as the number of days since the
   // Epoch).
   static void FrequencyMapToStringList(time_t creation_day,
                                        const ConnectFrequencyMap &numbers,
                                        std::vector<std::string> *strings);

   ControlInterface *control_interface_;
   EventDispatcher *dispatcher_;
   Metrics *metrics_;
   Manager *manager_;

   std::vector<WiFiServiceRefPtr> services_;
   EndpointServiceMap service_by_endpoint_;

   bool running_;

   // Map of frequencies at which we've connected and the number of times a
   // successful connection has been made at that frequency.  Absent frequencies
   // have not had a successful connection.
   ConnectFrequencyMap connect_count_by_frequency_;
   // A number of entries of |ConnectFrequencyMap| stored by date of creation.
   ConnectFrequencyMapDated connect_count_by_frequency_dated_;

   // Count of successful wifi connections we've made.
   int64_t total_frequency_connections_;

   Time *time_;

   DISALLOW_COPY_AND_ASSIGN(WiFiProvider);
 };

 }  // namespace shill

 #endif  // SHILL_WIFI_PROVIDER_H_
	// Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef SHILL_WIFI_PROVIDER_H_
	#define SHILL_WIFI_PROVIDER_H_

	#include <time.h>

	#include <deque>
	#include <map>

	#include <gtest/gtest_prod.h> // for FRIEND_TEST

	#include "shill/accessor_interface.h" // for ByteArrays
	#include "shill/refptr_types.h"

	namespace shill {

	class ControlInterface;
	class Error;
	class EventDispatcher;
	class KeyValueStore;
	class Manager;
	class Metrics;
	class StoreInterface;
	class Time;
	class WiFiEndpoint;
	class WiFiService;

	// The WiFi Provider is the holder of all WiFi Services. It holds both
	// visible (created due to an Endpoint becoming visible) and invisible
	// (created due to user or storage configuration) Services.
	class WiFiProvider {
	public:
	static const char kStorageFrequencies[];
	static const int kMaxStorageFrequencies;
	typedef std::map<uint16, int64> ConnectFrequencyMap;
	// The key to \|ConnectFrequencyMapDated\| is the number of days since the
	// Epoch.
	typedef std::map<time_t, ConnectFrequencyMap> ConnectFrequencyMapDated;
	struct FrequencyCount {
	FrequencyCount() : frequency(0), connection_count(0) {}
	FrequencyCount(uint16 freq, size_t conn)
	: frequency(freq), connection_count(conn) {}
	uint16 frequency;
	size_t connection_count; // Number of successful connections at this
	// frequency.
	};
	typedef std::deque<FrequencyCount> FrequencyCountList;

	WiFiProvider(ControlInterface *control_interface,
	EventDispatcher *dispatcher,
	Metrics *metrics,
	Manager *manager);
	virtual ~WiFiProvider();

	virtual void Start();
	virtual void Stop();

	// Called by Manager.
	virtual void CreateServicesFromProfile(const ProfileRefPtr &profile);
	virtual WiFiServiceRefPtr GetService(const KeyValueStore &args, Error *error);

	// Find a Service with the same SSID, mode and security as provided
	// in \|args\|. Returns a reference to a matching service if one
	// exists. Otherwise it returns a NULL reference and populates \|error\|.
	virtual WiFiServiceRefPtr FindSimilarService(
	const KeyValueStore &args, Error *error) const;

	// Create a temporary WiFiService with the mode, ssid, security and
	// hidden properties populated from \|args\|. Callers outside of the
	// WiFiProvider must must never register this service with the Manager
	// or connect it since it was never added to the provider's service list.
	virtual WiFiServiceRefPtr CreateTemporaryService(
	const KeyValueStore &args, Error *error);

	// Find a Service this Endpoint should be associated with.
	virtual WiFiServiceRefPtr FindServiceForEndpoint(
	const WiFiEndpointConstRefPtr &endpoint);

	// Find or create a Service for \|endpoint\| to be associated with. This
	// method first calls FindServiceForEndpoint, and failing this, creates
	// a new Service. It then associates \|endpoint\| with this service.
	virtual void OnEndpointAdded(const WiFiEndpointConstRefPtr &endpoint);

	// Called by a Device when it removes an Endpoint. If the Provider
	// forgets a service as a result, it returns a reference to the
	// forgotten service, otherwise it returns a null reference.
	virtual WiFiServiceRefPtr OnEndpointRemoved(
	const WiFiEndpointConstRefPtr &endpoint);

	// Called by a Device when it receives notification that an Endpoint
	// has changed. Ensure the updated endpoint still matches its
	// associated service. If necessary re-assign the endpoint to a new
	// service, otherwise notify the associated service of the update to
	// the endpoint.
	virtual void OnEndpointUpdated(const WiFiEndpointConstRefPtr &endpoint);

	// Called by a WiFiService when it is unloaded and no longer visible.
	virtual bool OnServiceUnloaded(const WiFiServiceRefPtr &service);

	// Get the list of SSIDs for hidden WiFi services we are aware of.
	virtual ByteArrays GetHiddenSSIDList();

	// Calls WiFiService::FixupServiceEntries() and adds a UMA metric if
	// this causes entries to be updated.
	virtual void LoadAndFixupServiceEntries(StoreInterface *storage,
	bool is_default_profile);

	// Save configuration for wifi_provider to \|storage\|.
	virtual bool Save(StoreInterface *storage) const;

	virtual void IncrementConnectCount(uint16 frequency_mhz);

	// Returns a list of all of the frequencies on which this device has
	// connected. This data is accumulated across multiple shill runs.
	virtual FrequencyCountList GetScanFrequencies() const;

	private:
	friend class WiFiProviderTest;
	FRIEND_TEST(WiFiProviderTest, FrequencyMapAgingIllegalDay);
	FRIEND_TEST(WiFiProviderTest, FrequencyMapBasicAging);
	FRIEND_TEST(WiFiProviderTest, FrequencyMapToStringList);
	FRIEND_TEST(WiFiProviderTest, FrequencyMapToStringListEmpty);
	FRIEND_TEST(WiFiProviderTest, IncrementConnectCount);
	FRIEND_TEST(WiFiProviderTest, IncrementConnectCountCreateNew);
	FRIEND_TEST(WiFiProviderTest, LoadAndFixupServiceEntries);
	FRIEND_TEST(WiFiProviderTest, LoadAndFixupServiceEntriesNothingToDo);
	FRIEND_TEST(WiFiProviderTest, StringListToFrequencyMap);
	FRIEND_TEST(WiFiProviderTest, StringListToFrequencyMapEmpty);

	typedef std::map<const WiFiEndpoint *, WiFiServiceRefPtr> EndpointServiceMap;

	static const char kManagerErrorSSIDTooLong[];
	static const char kManagerErrorSSIDTooShort[];
	static const char kManagerErrorSSIDRequired[];
	static const char kManagerErrorUnsupportedSecurityMode[];
	static const char kManagerErrorUnsupportedServiceMode[];
	static const char kFrequencyDelimiter;
	static const char kStartWeekHeader[];
	static const time_t kIllegalStartWeek;
	static const char kStorageId[];
	static const time_t kWeeksToKeepFrequencyCounts;
	static const time_t kSecondsPerWeek;

	// Add a service to the service_ vector and register it with the Manager.
	WiFiServiceRefPtr AddService(const std::vector<uint8_t> &ssid,
	const std::string &mode,
	const std::string &security,
	bool is_hidden);

	// Find a service given its properties.
	WiFiServiceRefPtr FindService(const std::vector<uint8_t> &ssid,
	const std::string &mode,
	const std::string &security) const;

	// Disassociate the service from its WiFi device and remove it from the
	// services_ vector.
	void ForgetService(const WiFiServiceRefPtr &service);

	// Retrieve a WiFi service's identifying properties from passed-in \|args\|.
	// Returns true if \|args\| are valid and populates \|ssid\|, \|mode\|,
	// \|security\| and \|hidden_ssid\|, if successful. Otherwise, this function
	// returns false and populates \|error\| with the reason for failure. It
	// is a fatal error if the "Type" parameter passed in \|args\| is not
	// flimflam::kWiFi.
	static bool GetServiceParametersFromArgs(const KeyValueStore &args,
	std::vector<uint8_t> *ssid_bytes,
	std::string *mode,
	std::string *security_method,
	bool *hidden_ssid,
	Error *error);

	// Converts frequency profile information from a list of strings of the form
	// "frequency:connection_count" to a form consistent with
	// \|connect_count_by_frequency_\|. The first string must be of the form
	// [nnn] where \|nnn\| is a positive integer that represents the creation time
	// (number of days since the Epoch) of the data.
	static time_t StringListToFrequencyMap(
	const std::vector<std::string> &strings,
	ConnectFrequencyMap *numbers);

	// Extracts the start week from the first string in the StringList for
	// \|StringListToFrequencyMap\|.
	static time_t GetStringListStartWeek(const std::string &week_string);

	// Extracts frequency and connection count from a string from the StringList
	// for \|StringListToFrequencyMap\|. Places those values in \|numbers\|.
	static void ParseStringListFreqCount(const std::string &freq_count_string,
	ConnectFrequencyMap *numbers);

	// Converts frequency profile information from a form consistent with
	// \|connect_count_by_frequency_\| to a list of strings of the form
	// "frequency:connection_count". The \|creation_day\| is the day that the
	// data was first createed (represented as the number of days since the
	// Epoch).
	static void FrequencyMapToStringList(time_t creation_day,
	const ConnectFrequencyMap &numbers,
	std::vector<std::string> *strings);

	ControlInterface *control_interface_;
	EventDispatcher *dispatcher_;
	Metrics *metrics_;
	Manager *manager_;

	std::vector<WiFiServiceRefPtr> services_;
	EndpointServiceMap service_by_endpoint_;

	bool running_;

	// Map of frequencies at which we've connected and the number of times a
	// successful connection has been made at that frequency. Absent frequencies
	// have not had a successful connection.
	ConnectFrequencyMap connect_count_by_frequency_;
	// A number of entries of \|ConnectFrequencyMap\| stored by date of creation.
	ConnectFrequencyMapDated connect_count_by_frequency_dated_;

	// Count of successful wifi connections we've made.
	int64_t total_frequency_connections_;

	Time *time_;

	DISALLOW_COPY_AND_ASSIGN(WiFiProvider);
	};

	} // namespace shill

	#endif // SHILL_WIFI_PROVIDER_H_