scan_session.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_SCAN_SESSION_H_
 #define SHILL_SCAN_SESSION_H_

 #include <deque>
 #include <set>
 #include <vector>

 #include <base/basictypes.h>
 #include <base/callback.h>
 #include <base/memory/weak_ptr.h>
 #include <gtest/gtest_prod.h>  // for FRIEND_TEST
 #include <metrics/timer.h>

 #include "shill/byte_string.h"
 #include "shill/netlink_manager.h"
 #include "shill/wifi_provider.h"

 namespace shill {

 class EventDispatcher;
 class Metrics;
 class NetlinkManager;
 class NetlinkMessage;
 class Nl80211Message;

 // |ScanSession| sends requests to the kernel to scan WiFi frequencies for
 // access points.  The sequence for a single scan is as follows:
 //
 //   +-------------+                                                +--------+
 //   | ScanSession |                                                | Kernel |
 //   +---+---------+                                                +-----+--+
 //       |--- NL80211_CMD_TRIGGER_SCAN ---------------------------------->|
 //       |<-- NL80211_CMD_TRIGGER_SCAN (broadcast) -----------------------|
 //       |<-- NL80211_CMD_NEW_SCAN_RESULTS (broadcast) -------------------|
 //       |--- NL80211_CMD_GET_SCAN -------------------------------------->|
 //       |<-- NL80211_CMD_NEW_SCAN_RESULTS (reply, unicast, NLM_F_MULTI) -|
 //       |<-- NL80211_CMD_NEW_SCAN_RESULTS (reply, unicast, NLM_F_MULTI) -|
 //       |                               ...                              |
 //       |<-- NL80211_CMD_NEW_SCAN_RESULTS (reply, unicast, NLM_F_MULTI) -|
 //       |                                                                |
 //
 // Scanning WiFi frequencies for access points takes a long time (on the order
 // of 100ms per frequency and the kernel doesn't return the result until the
 // answers are ready for all the frequencies in the batch).  Given this,
 // scanning all frequencies in one batch takes a very long time.
 //
 // A ScanSession is used to distribute a scan across multiple requests (hoping
 // that a successful connection will result from an early request thereby
 // obviating the need for the remainder of the scan).  A ScanSession can be
 // used as follows (note, this is shown as synchronous code for clarity
 // but it really should be implemented as asynchronous code):
 //
 // ScanSession::FractionList scan_fractions;
 // scan_fractions.push_back(<some value>);
 // ...
 // scan_fractions.push_back(<some value>);
 // ScanSession scan_session(netlink_manager_, dispatcher(),
 //                          frequencies_seen_ever, all_scan_frequencies_,
 //                          interface_index(), scan_fractions,
 //                          kMinScanFrequencies, kMaxScanFrequencies,
 //                          on_scan_failed);
 // while (scan_session.HasMoreFrequencies()) {
 //   scan_session.InitiateScan();
 //   // Wait for scan results.  In the current WiFi code, this means wait
 //   // until |WiFi::ScanDone| is called.
 // }

 class ScanSession {
  public:
   typedef base::Closure OnScanFailed;
   typedef std::deque<float> FractionList;
   // Used as a fraction in |FractionList| to indicate that future scans in
   // this session should not be limited to a subset of the frequencies we've
   // already seen.
   static const float kAllFrequencies;

   // Sets up a new progressive scan session.  Uses |netlink_manager| to send
   // NL80211_CMD_TRIGGER_SCAN messages to the kernel (uses |dispatcher| to
   // reissue those commands if a send request returns EBUSY).  Multiple scans
   // for APs on wifi device |ifindex| are issued (one for each call to
   // |InitiateScan|) on wifi frequencies taken from the union of unique
   // frequencies in |previous_frequencies| and |available_frequencies| (most
   // commonly seen frequencies before less commonly seen ones followed by
   // never-before seen frequencies, the latter in an unspecified order).
   //
   // Each scan takes a greater percentile (described by the values in
   // |fractions|) of the previously seen frequencies (but no less than
   // |min_frequencies| and no more than |max_frequencies|).  After all
   // previously seen frequencies have been requested, each |InitiateScan|
   // scans the next |max_frequencies| until all |available_frequencies| have
   // been exhausted.
   //
   // If a scan request to the kernel returns an error, |on_scan_failed| is
   // called.  The caller can reissue the scan by calling |ReInitiateScan| or
   // abort the scan session by deleting the |ScanSession| object.
   ScanSession(NetlinkManager *netlink_manager,
               EventDispatcher *dispatcher,
               const WiFiProvider::FrequencyCountList &previous_frequencies,
               const std::set<uint16_t> &available_frequencies,
               uint32_t ifindex,
               const FractionList &fractions,
               size_t min_frequencies,
               size_t max_frequencies,
               OnScanFailed on_scan_failed,
               Metrics *metrics);

   virtual ~ScanSession();

   // Returns true if |ScanSession| contains unscanned frequencies.
   virtual bool HasMoreFrequencies() const;

   // Adds an SSID to the list of things for which to scan.  Useful for hidden
   // SSIDs.
   virtual void AddSsid(const ByteString &ssid);

   // Start a wifi scan of the next set of frequencies (derived from the
   // constructor's parameters) after saving those frequencies for the potential
   // need to reinitiate a scan.
   virtual void InitiateScan();

   // Re-issues the previous scan (i.e., it uses the same frequency list as the
   // previous scan).  Other classes may use this when |on_scan_failed| is
   // called.  Called by |OnTriggerScanResponse| when the previous attempt to do
   // a scan fails.
   void ReInitiateScan();

  private:
   friend class ScanSessionTest;
   friend class WiFiObjectTest;  // OnTriggerScanResponse.
   FRIEND_TEST(ScanSessionTest, EBusy);
   FRIEND_TEST(ScanSessionTest, OnError);
   FRIEND_TEST(ScanSessionTest, OnTriggerScanResponse);

   // Milliseconds to wait before retrying a failed scan.
   static const uint64_t kScanRetryDelayMilliseconds;
   // Number of times to retry a failed scan before giving up and calling
   // |on_scan_failed_|.
   static const size_t kScanRetryCount;

   // Assists with sorting the |previous_frequencies| passed to the
   // constructor.
   static bool CompareFrequencyCount(const WiFiProvider::FrequencyCount &first,
                                     const WiFiProvider::FrequencyCount &second);

   // |GetScanFrequencies| gets the next set of WiFi scan frequencies.  Returns
   // at least |min_frequencies| (unless fewer frequencies remain from previous
   // calls) and no more than |max_frequencies|.  Inside these constraints,
   // |GetScanFrequencies| tries to return at least the number of frequencies
   // required to reach the connection fraction |scan_fraction| out of the total
   // number of previous connections.  For example, the first call requesting
   // 33.3% will return the minimum number frequencies that add up to _at least_
   // the 33.3rd percentile of frequencies to which we've successfully connected
   // in the past.  The next call of 33.3% returns the minimum number of
   // frequencies required so that the total of the frequencies returned are _at
   // least_ the 66.6th percentile of the frequencies to which we've successfully
   // connected.
   //
   // For example, say we've connected to 3 frequencies before:
   //  freq a,count=10; freq b,count=5; freq c,count=5.
   //
   //  GetScanFrequencies(.50,2,10) // Returns a & b (|a| reaches %ile but |b| is
   //                               // required to meet the minimum).
   //  GetScanFrequencies(.51,2,10) // Returns c & 9 frequencies from the list
   //                               // of frequencies to which we've never
   //                               // connected.
   virtual std::vector<uint16_t> GetScanFrequencies(float scan_fraction,
                                                    size_t min_frequencies,
                                                    size_t max_frequencies);

   // Does the real work of initiating a scan by sending an
   // NL80211_CMD_TRIGGER_SCAN message to the kernel and installing a handler for
   // any response (which only happens in the error case).
   void DoScan(const std::vector<uint16_t> &scan_frequencies);

   // Handles any unicast response to NL80211_CMD_TRIGGER_SCAN (which is,
   // likely, an error -- when things work, we get an
   // NL80211_CMD_NEW_SCAN_RESULTS broadcast message).
   void OnTriggerScanResponse(const Nl80211Message &message);
   void OnTriggerScanErrorResponse(NetlinkManager::AuxilliaryMessageType type,
                                   const NetlinkMessage *netlink_message);
   void ReportEbusyTime(int log_level);

   // Logs the results of the scan.
   void ReportResults(int log_level);

   base::WeakPtrFactory<ScanSession> weak_ptr_factory_;

   NetlinkManager *netlink_manager_;
   EventDispatcher *dispatcher_;

   // List of frequencies, sorted by the number of successful connections for
   // each frequency.
   WiFiProvider::FrequencyCountList frequency_list_;
   size_t total_connections_;
   size_t total_connects_provided_;
   float total_fraction_wanted_;
   std::vector<uint16_t> current_scan_frequencies_;
   uint32_t wifi_interface_index_;
   std::set<ByteString, bool(*)(const ByteString &, const ByteString &)> ssids_;
   FractionList fractions_;
   size_t min_frequencies_;
   size_t max_frequencies_;
   OnScanFailed on_scan_failed_;
   size_t scan_tries_left_;
   bool found_error_;

   // Statistics gathering.
   size_t original_frequency_count_;
   chromeos_metrics::Timer ebusy_timer_;
   Metrics *metrics_;

   DISALLOW_COPY_AND_ASSIGN(ScanSession);
 };

 }  // namespace shill.

 #endif  // SHILL_SCAN_SESSION_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_SCAN_SESSION_H_
	#define SHILL_SCAN_SESSION_H_

	#include <deque>
	#include <set>
	#include <vector>

	#include <base/basictypes.h>
	#include <base/callback.h>
	#include <base/memory/weak_ptr.h>
	#include <gtest/gtest_prod.h> // for FRIEND_TEST
	#include <metrics/timer.h>

	#include "shill/byte_string.h"
	#include "shill/netlink_manager.h"
	#include "shill/wifi_provider.h"

	namespace shill {

	class EventDispatcher;
	class Metrics;
	class NetlinkManager;
	class NetlinkMessage;
	class Nl80211Message;

	// \|ScanSession\| sends requests to the kernel to scan WiFi frequencies for
	// access points. The sequence for a single scan is as follows:
	//
	// +-------------+ +--------+
	// \| ScanSession \| \| Kernel \|
	// +---+---------+ +-----+--+
	// \|--- NL80211_CMD_TRIGGER_SCAN ---------------------------------->\|
	// \|<-- NL80211_CMD_TRIGGER_SCAN (broadcast) -----------------------\|
	// \|<-- NL80211_CMD_NEW_SCAN_RESULTS (broadcast) -------------------\|
	// \|--- NL80211_CMD_GET_SCAN -------------------------------------->\|
	// \|<-- NL80211_CMD_NEW_SCAN_RESULTS (reply, unicast, NLM_F_MULTI) -\|
	// \|<-- NL80211_CMD_NEW_SCAN_RESULTS (reply, unicast, NLM_F_MULTI) -\|
	// \| ... \|
	// \|<-- NL80211_CMD_NEW_SCAN_RESULTS (reply, unicast, NLM_F_MULTI) -\|
	// \| \|
	//
	// Scanning WiFi frequencies for access points takes a long time (on the order
	// of 100ms per frequency and the kernel doesn't return the result until the
	// answers are ready for all the frequencies in the batch). Given this,
	// scanning all frequencies in one batch takes a very long time.
	//
	// A ScanSession is used to distribute a scan across multiple requests (hoping
	// that a successful connection will result from an early request thereby
	// obviating the need for the remainder of the scan). A ScanSession can be
	// used as follows (note, this is shown as synchronous code for clarity
	// but it really should be implemented as asynchronous code):
	//
	// ScanSession::FractionList scan_fractions;
	// scan_fractions.push_back(<some value>);
	// ...
	// scan_fractions.push_back(<some value>);
	// ScanSession scan_session(netlink_manager_, dispatcher(),
	// frequencies_seen_ever, all_scan_frequencies_,
	// interface_index(), scan_fractions,
	// kMinScanFrequencies, kMaxScanFrequencies,
	// on_scan_failed);
	// while (scan_session.HasMoreFrequencies()) {
	// scan_session.InitiateScan();
	// // Wait for scan results. In the current WiFi code, this means wait
	// // until \|WiFi::ScanDone\| is called.
	// }

	class ScanSession {
	public:
	typedef base::Closure OnScanFailed;
	typedef std::deque<float> FractionList;
	// Used as a fraction in \|FractionList\| to indicate that future scans in
	// this session should not be limited to a subset of the frequencies we've
	// already seen.
	static const float kAllFrequencies;

	// Sets up a new progressive scan session. Uses \|netlink_manager\| to send
	// NL80211_CMD_TRIGGER_SCAN messages to the kernel (uses \|dispatcher\| to
	// reissue those commands if a send request returns EBUSY). Multiple scans
	// for APs on wifi device \|ifindex\| are issued (one for each call to
	// \|InitiateScan\|) on wifi frequencies taken from the union of unique
	// frequencies in \|previous_frequencies\| and \|available_frequencies\| (most
	// commonly seen frequencies before less commonly seen ones followed by
	// never-before seen frequencies, the latter in an unspecified order).
	//
	// Each scan takes a greater percentile (described by the values in
	// \|fractions\|) of the previously seen frequencies (but no less than
	// \|min_frequencies\| and no more than \|max_frequencies\|). After all
	// previously seen frequencies have been requested, each \|InitiateScan\|
	// scans the next \|max_frequencies\| until all \|available_frequencies\| have
	// been exhausted.
	//
	// If a scan request to the kernel returns an error, \|on_scan_failed\| is
	// called. The caller can reissue the scan by calling \|ReInitiateScan\| or
	// abort the scan session by deleting the \|ScanSession\| object.
	ScanSession(NetlinkManager *netlink_manager,
	EventDispatcher *dispatcher,
	const WiFiProvider::FrequencyCountList &previous_frequencies,
	const std::set<uint16_t> &available_frequencies,
	uint32_t ifindex,
	const FractionList &fractions,
	size_t min_frequencies,
	size_t max_frequencies,
	OnScanFailed on_scan_failed,
	Metrics *metrics);

	virtual ~ScanSession();

	// Returns true if \|ScanSession\| contains unscanned frequencies.
	virtual bool HasMoreFrequencies() const;

	// Adds an SSID to the list of things for which to scan. Useful for hidden
	// SSIDs.
	virtual void AddSsid(const ByteString &ssid);

	// Start a wifi scan of the next set of frequencies (derived from the
	// constructor's parameters) after saving those frequencies for the potential
	// need to reinitiate a scan.
	virtual void InitiateScan();

	// Re-issues the previous scan (i.e., it uses the same frequency list as the
	// previous scan). Other classes may use this when \|on_scan_failed\| is
	// called. Called by \|OnTriggerScanResponse\| when the previous attempt to do
	// a scan fails.
	void ReInitiateScan();

	private:
	friend class ScanSessionTest;
	friend class WiFiObjectTest; // OnTriggerScanResponse.
	FRIEND_TEST(ScanSessionTest, EBusy);
	FRIEND_TEST(ScanSessionTest, OnError);
	FRIEND_TEST(ScanSessionTest, OnTriggerScanResponse);

	// Milliseconds to wait before retrying a failed scan.
	static const uint64_t kScanRetryDelayMilliseconds;
	// Number of times to retry a failed scan before giving up and calling
	// \|on_scan_failed_\|.
	static const size_t kScanRetryCount;

	// Assists with sorting the \|previous_frequencies\| passed to the
	// constructor.
	static bool CompareFrequencyCount(const WiFiProvider::FrequencyCount &first,
	const WiFiProvider::FrequencyCount &second);

	// \|GetScanFrequencies\| gets the next set of WiFi scan frequencies. Returns
	// at least \|min_frequencies\| (unless fewer frequencies remain from previous
	// calls) and no more than \|max_frequencies\|. Inside these constraints,
	// \|GetScanFrequencies\| tries to return at least the number of frequencies
	// required to reach the connection fraction \|scan_fraction\| out of the total
	// number of previous connections. For example, the first call requesting
	// 33.3% will return the minimum number frequencies that add up to _at least_
	// the 33.3rd percentile of frequencies to which we've successfully connected
	// in the past. The next call of 33.3% returns the minimum number of
	// frequencies required so that the total of the frequencies returned are _at
	// least_ the 66.6th percentile of the frequencies to which we've successfully
	// connected.
	//
	// For example, say we've connected to 3 frequencies before:
	// freq a,count=10; freq b,count=5; freq c,count=5.
	//
	// GetScanFrequencies(.50,2,10) // Returns a & b (\|a\| reaches %ile but \|b\| is
	// // required to meet the minimum).
	// GetScanFrequencies(.51,2,10) // Returns c & 9 frequencies from the list
	// // of frequencies to which we've never
	// // connected.
	virtual std::vector<uint16_t> GetScanFrequencies(float scan_fraction,
	size_t min_frequencies,
	size_t max_frequencies);

	// Does the real work of initiating a scan by sending an
	// NL80211_CMD_TRIGGER_SCAN message to the kernel and installing a handler for
	// any response (which only happens in the error case).
	void DoScan(const std::vector<uint16_t> &scan_frequencies);

	// Handles any unicast response to NL80211_CMD_TRIGGER_SCAN (which is,
	// likely, an error -- when things work, we get an
	// NL80211_CMD_NEW_SCAN_RESULTS broadcast message).
	void OnTriggerScanResponse(const Nl80211Message &message);
	void OnTriggerScanErrorResponse(NetlinkManager::AuxilliaryMessageType type,
	const NetlinkMessage *netlink_message);
	void ReportEbusyTime(int log_level);

	// Logs the results of the scan.
	void ReportResults(int log_level);

	base::WeakPtrFactory<ScanSession> weak_ptr_factory_;

	NetlinkManager *netlink_manager_;
	EventDispatcher *dispatcher_;

	// List of frequencies, sorted by the number of successful connections for
	// each frequency.
	WiFiProvider::FrequencyCountList frequency_list_;
	size_t total_connections_;
	size_t total_connects_provided_;
	float total_fraction_wanted_;
	std::vector<uint16_t> current_scan_frequencies_;
	uint32_t wifi_interface_index_;
	std::set<ByteString, bool(*)(const ByteString &, const ByteString &)> ssids_;
	FractionList fractions_;
	size_t min_frequencies_;
	size_t max_frequencies_;
	OnScanFailed on_scan_failed_;
	size_t scan_tries_left_;
	bool found_error_;

	// Statistics gathering.
	size_t original_frequency_count_;
	chromeos_metrics::Timer ebusy_timer_;
	Metrics *metrics_;

	DISALLOW_COPY_AND_ASSIGN(ScanSession);
	};

	} // namespace shill.

	#endif // SHILL_SCAN_SESSION_H_