net/dns/mock_host_resolver.h - chromium/src - Git at Google

 // Copyright (c) 2011 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.

 #ifndef NET_DNS_MOCK_HOST_RESOLVER_H_
 #define NET_DNS_MOCK_HOST_RESOLVER_H_

 #include <stddef.h>

 #include <list>
 #include <map>
 #include <string>

 #include "base/macros.h"
 #include "base/memory/weak_ptr.h"
 #include "base/synchronization/lock.h"
 #include "base/synchronization/waitable_event.h"
 #include "base/threading/thread_checker.h"
 #include "net/dns/host_resolver.h"
 #include "net/dns/host_resolver_proc.h"

 namespace net {

 class HostCache;
 class RuleBasedHostResolverProc;

 // Fills |*addrlist| with a socket address for |host_list| which should be a
 // comma-separated list of IPv4 or IPv6 literal(s) without enclosing brackets.
 // If |canonical_name| is non-empty it is used as the DNS canonical name for
 // the host. Returns OK on success, ERR_UNEXPECTED otherwise.
 int ParseAddressList(const std::string& host_list,
                      const std::string& canonical_name,
                      AddressList* addrlist);

 // In most cases, it is important that unit tests avoid relying on making actual
 // DNS queries since the resulting tests can be flaky, especially if the network
 // is unreliable for some reason.  To simplify writing tests that avoid making
 // actual DNS queries, pass a MockHostResolver as the HostResolver dependency.
 // The socket addresses returned can be configured using the
 // RuleBasedHostResolverProc:
 //
 //   host_resolver->rules()->AddRule("foo.com", "1.2.3.4");
 //   host_resolver->rules()->AddRule("bar.com", "2.3.4.5");
 //
 // The above rules define a static mapping from hostnames to IP address
 // literals.  The first parameter to AddRule specifies a host pattern to match
 // against, and the second parameter indicates what value should be used to
 // replace the given hostname.  So, the following is also supported:
 //
 //   host_mapper->AddRule("*.com", "127.0.0.1");
 //
 // Replacement doesn't have to be string representing an IP address. It can
 // re-map one hostname to another as well.
 //
 // By default, MockHostResolvers include a single rule that maps all hosts to
 // 127.0.0.1.

 // Base class shared by MockHostResolver and MockCachingHostResolver.
 class MockHostResolverBase
     : public HostResolver,
       public base::SupportsWeakPtr<MockHostResolverBase> {
  private:
   class RequestImpl;

  public:
   ~MockHostResolverBase() override;

   RuleBasedHostResolverProc* rules() { return rules_.get(); }
   void set_rules(RuleBasedHostResolverProc* rules) { rules_ = rules; }

   // Controls whether resolutions complete synchronously or asynchronously.
   void set_synchronous_mode(bool is_synchronous) {
     synchronous_mode_ = is_synchronous;
   }

   // Asynchronous requests are automatically resolved by default.
   // If set_ondemand_mode() is set then Resolve() returns IO_PENDING and
   // ResolveAllPending() must be explicitly invoked to resolve all requests
   // that are pending.
   void set_ondemand_mode(bool is_ondemand) {
     ondemand_mode_ = is_ondemand;
   }

   // HostResolver methods:
   int Resolve(const RequestInfo& info,
               RequestPriority priority,
               AddressList* addresses,
               const CompletionCallback& callback,
               std::unique_ptr<Request>* request,
               const NetLogWithSource& net_log) override;
   int ResolveFromCache(const RequestInfo& info,
                        AddressList* addresses,
                        const NetLogWithSource& net_log) override;
   HostCache* GetHostCache() override;

   // Detach cancelled request.
   void DetachRequest(size_t id);

   // Resolves all pending requests. It is only valid to invoke this if
   // set_ondemand_mode was set before. The requests are resolved asynchronously,
   // after this call returns.
   void ResolveAllPending();

   // Returns true if there are pending requests that can be resolved by invoking
   // ResolveAllPending().
   bool has_pending_requests() const { return !requests_.empty(); }

   // The number of times that Resolve() has been called.
   size_t num_resolve() const {
     return num_resolve_;
   }

   // The number of times that ResolveFromCache() has been called.
   size_t num_resolve_from_cache() const {
     return num_resolve_from_cache_;
   }

   // Returns the RequestPriority of the last call to Resolve() (or
   // DEFAULT_PRIORITY if Resolve() hasn't been called yet).
   RequestPriority last_request_priority() const {
     return last_request_priority_;
   }

  protected:
   explicit MockHostResolverBase(bool use_caching);

  private:
   typedef std::map<size_t, RequestImpl*> RequestMap;

   // Resolve as IP or from |cache_| return cached error or
   // DNS_CACHE_MISS if failed.
   int ResolveFromIPLiteralOrCache(const RequestInfo& info,
                                   AddressList* addresses);
   // Resolve via |proc_|.
   int ResolveProc(const RequestInfo& info, AddressList* addresses);
   // Resolve request stored in |requests_|. Pass rv to callback.
   void ResolveNow(size_t id);

   RequestPriority last_request_priority_;
   bool synchronous_mode_;
   bool ondemand_mode_;
   scoped_refptr<RuleBasedHostResolverProc> rules_;
   std::unique_ptr<HostCache> cache_;
   RequestMap requests_;
   size_t next_request_id_;

   size_t num_resolve_;
   size_t num_resolve_from_cache_;

   THREAD_CHECKER(thread_checker_);

   DISALLOW_COPY_AND_ASSIGN(MockHostResolverBase);
 };

 class MockHostResolver : public MockHostResolverBase {
  public:
   MockHostResolver() : MockHostResolverBase(false /*use_caching*/) {}
   ~MockHostResolver() override {}
 };

 // Same as MockHostResolver, except internally it uses a host-cache.
 //
 // Note that tests are advised to use MockHostResolver instead, since it is
 // more predictable. (MockHostResolver also can be put into synchronous
 // operation mode in case that is what you needed from the caching version).
 class MockCachingHostResolver : public MockHostResolverBase {
  public:
   MockCachingHostResolver() : MockHostResolverBase(true /*use_caching*/) {}
   ~MockCachingHostResolver() override {}
 };

 // RuleBasedHostResolverProc applies a set of rules to map a host string to
 // a replacement host string. It then uses the system host resolver to return
 // a socket address. Generally the replacement should be an IPv4 literal so
 // there is no network dependency.
 //
 // RuleBasedHostResolverProc is thread-safe, to a limited degree. Rules can be
 // added or removed on any thread.
 class RuleBasedHostResolverProc : public HostResolverProc {
  public:
   explicit RuleBasedHostResolverProc(HostResolverProc* previous);

   // Any hostname matching the given pattern will be replaced with the given
   // |ip_literal|.
   void AddRule(const std::string& host_pattern, const std::string& ip_literal);

   // Same as AddRule(), but further restricts to |address_family|.
   void AddRuleForAddressFamily(const std::string& host_pattern,
                                AddressFamily address_family,
                                const std::string& ip_literal);

   // Same as AddRule(), but the replacement is expected to be an IPv4 or IPv6
   // literal. This can be used in place of AddRule() to bypass the system's
   // host resolver (the address list will be constructed manually).
   // If |canonical_name| is non-empty, it is copied to the resulting AddressList
   // but does not impact DNS resolution.
   // |ip_literal| can be a single IP address like "192.168.1.1" or a comma
   // separated list of IP addresses, like "::1,192:168.1.2".
   void AddIPLiteralRule(const std::string& host_pattern,
                         const std::string& ip_literal,
                         const std::string& canonical_name);

   void AddRuleWithLatency(const std::string& host_pattern,
                           const std::string& replacement,
                           int latency_ms);

   // Make sure that |host| will not be re-mapped or even processed by underlying
   // host resolver procedures. It can also be a pattern.
   void AllowDirectLookup(const std::string& host);

   // Simulate a lookup failure for |host| (it also can be a pattern).
   void AddSimulatedFailure(const std::string& host);

   // Deletes all the rules that have been added.
   void ClearRules();

   // Causes method calls that add or delete rules to assert.
   // TODO(jam): once this class isn't used by tests that use an out of process
   // network service, remove this method and make Rule private.
   void DisableModifications();

   // HostResolverProc methods:
   int Resolve(const std::string& host,
               AddressFamily address_family,
               HostResolverFlags host_resolver_flags,
               AddressList* addrlist,
               int* os_error) override;

   struct Rule {
     enum ResolverType {
       kResolverTypeFail,
       // TODO(mmenke): Is it really reasonable for a "mock" host resolver to
       // fall back to the system resolver?
       kResolverTypeSystem,
       kResolverTypeIPLiteral,
     };

     Rule(ResolverType resolver_type,
          const std::string& host_pattern,
          AddressFamily address_family,
          HostResolverFlags host_resolver_flags,
          const std::string& replacement,
          const std::string& canonical_name,
          int latency_ms);
     Rule(const Rule& other);

     ResolverType resolver_type;
     std::string host_pattern;
     AddressFamily address_family;
     HostResolverFlags host_resolver_flags;
     std::string replacement;
     std::string canonical_name;
     int latency_ms;  // In milliseconds.
   };

   typedef std::list<Rule> RuleList;

   RuleList GetRules();

  private:
   ~RuleBasedHostResolverProc() override;

   void AddRuleInternal(const Rule& rule);

   RuleList rules_;

   // Must be obtained before writing to or reading from |rules_|.
   base::Lock rule_lock_;

   // Whether changes are allowed.
   bool modifications_allowed_;
 };

 // Create rules that map all requests to localhost.
 RuleBasedHostResolverProc* CreateCatchAllHostResolverProc();

 // HangingHostResolver never completes its |Resolve| request.
 class HangingHostResolver : public HostResolver {
  public:
   int Resolve(const RequestInfo& info,
               RequestPriority priority,
               AddressList* addresses,
               const CompletionCallback& callback,
               std::unique_ptr<Request>* out_req,
               const NetLogWithSource& net_log) override;
   int ResolveFromCache(const RequestInfo& info,
                        AddressList* addresses,
                        const NetLogWithSource& net_log) override;
 };

 // This class sets the default HostResolverProc for a particular scope.  The
 // chain of resolver procs starting at |proc| is placed in front of any existing
 // default resolver proc(s).  This means that if multiple
 // ScopedDefaultHostResolverProcs are declared, then resolving will start with
 // the procs given to the last-allocated one, then fall back to the procs given
 // to the previously-allocated one, and so forth.
 //
 // NOTE: Only use this as a catch-all safety net. Individual tests should use
 // MockHostResolver.
 class ScopedDefaultHostResolverProc {
  public:
   ScopedDefaultHostResolverProc();
   explicit ScopedDefaultHostResolverProc(HostResolverProc* proc);

   ~ScopedDefaultHostResolverProc();

   void Init(HostResolverProc* proc);

  private:
   scoped_refptr<HostResolverProc> current_proc_;
   scoped_refptr<HostResolverProc> previous_proc_;
 };

 }  // namespace net

 #endif  // NET_DNS_MOCK_HOST_RESOLVER_H_
	// Copyright (c) 2011 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.

	#ifndef NET_DNS_MOCK_HOST_RESOLVER_H_
	#define NET_DNS_MOCK_HOST_RESOLVER_H_

	#include <stddef.h>

	#include <list>
	#include <map>
	#include <string>

	#include "base/macros.h"
	#include "base/memory/weak_ptr.h"
	#include "base/synchronization/lock.h"
	#include "base/synchronization/waitable_event.h"
	#include "base/threading/thread_checker.h"
	#include "net/dns/host_resolver.h"
	#include "net/dns/host_resolver_proc.h"

	namespace net {

	class HostCache;
	class RuleBasedHostResolverProc;

	// Fills \|*addrlist\| with a socket address for \|host_list\| which should be a
	// comma-separated list of IPv4 or IPv6 literal(s) without enclosing brackets.
	// If \|canonical_name\| is non-empty it is used as the DNS canonical name for
	// the host. Returns OK on success, ERR_UNEXPECTED otherwise.
	int ParseAddressList(const std::string& host_list,
	const std::string& canonical_name,
	AddressList* addrlist);

	// In most cases, it is important that unit tests avoid relying on making actual
	// DNS queries since the resulting tests can be flaky, especially if the network
	// is unreliable for some reason. To simplify writing tests that avoid making
	// actual DNS queries, pass a MockHostResolver as the HostResolver dependency.
	// The socket addresses returned can be configured using the
	// RuleBasedHostResolverProc:
	//
	// host_resolver->rules()->AddRule("foo.com", "1.2.3.4");
	// host_resolver->rules()->AddRule("bar.com", "2.3.4.5");
	//
	// The above rules define a static mapping from hostnames to IP address
	// literals. The first parameter to AddRule specifies a host pattern to match
	// against, and the second parameter indicates what value should be used to
	// replace the given hostname. So, the following is also supported:
	//
	// host_mapper->AddRule("*.com", "127.0.0.1");
	//
	// Replacement doesn't have to be string representing an IP address. It can
	// re-map one hostname to another as well.
	//
	// By default, MockHostResolvers include a single rule that maps all hosts to
	// 127.0.0.1.

	// Base class shared by MockHostResolver and MockCachingHostResolver.
	class MockHostResolverBase
	: public HostResolver,
	public base::SupportsWeakPtr<MockHostResolverBase> {
	private:
	class RequestImpl;

	public:
	~MockHostResolverBase() override;

	RuleBasedHostResolverProc* rules() { return rules_.get(); }
	void set_rules(RuleBasedHostResolverProc* rules) { rules_ = rules; }

	// Controls whether resolutions complete synchronously or asynchronously.
	void set_synchronous_mode(bool is_synchronous) {
	synchronous_mode_ = is_synchronous;
	}

	// Asynchronous requests are automatically resolved by default.
	// If set_ondemand_mode() is set then Resolve() returns IO_PENDING and
	// ResolveAllPending() must be explicitly invoked to resolve all requests
	// that are pending.
	void set_ondemand_mode(bool is_ondemand) {
	ondemand_mode_ = is_ondemand;
	}

	// HostResolver methods:
	int Resolve(const RequestInfo& info,
	RequestPriority priority,
	AddressList* addresses,
	const CompletionCallback& callback,
	std::unique_ptr<Request>* request,
	const NetLogWithSource& net_log) override;
	int ResolveFromCache(const RequestInfo& info,
	AddressList* addresses,
	const NetLogWithSource& net_log) override;
	HostCache* GetHostCache() override;

	// Detach cancelled request.
	void DetachRequest(size_t id);

	// Resolves all pending requests. It is only valid to invoke this if
	// set_ondemand_mode was set before. The requests are resolved asynchronously,
	// after this call returns.
	void ResolveAllPending();

	// Returns true if there are pending requests that can be resolved by invoking
	// ResolveAllPending().
	bool has_pending_requests() const { return !requests_.empty(); }

	// The number of times that Resolve() has been called.
	size_t num_resolve() const {
	return num_resolve_;
	}

	// The number of times that ResolveFromCache() has been called.
	size_t num_resolve_from_cache() const {
	return num_resolve_from_cache_;
	}

	// Returns the RequestPriority of the last call to Resolve() (or
	// DEFAULT_PRIORITY if Resolve() hasn't been called yet).
	RequestPriority last_request_priority() const {
	return last_request_priority_;
	}

	protected:
	explicit MockHostResolverBase(bool use_caching);

	private:
	typedef std::map<size_t, RequestImpl*> RequestMap;

	// Resolve as IP or from \|cache_\| return cached error or
	// DNS_CACHE_MISS if failed.
	int ResolveFromIPLiteralOrCache(const RequestInfo& info,
	AddressList* addresses);
	// Resolve via \|proc_\|.
	int ResolveProc(const RequestInfo& info, AddressList* addresses);
	// Resolve request stored in \|requests_\|. Pass rv to callback.
	void ResolveNow(size_t id);

	RequestPriority last_request_priority_;
	bool synchronous_mode_;
	bool ondemand_mode_;
	scoped_refptr<RuleBasedHostResolverProc> rules_;
	std::unique_ptr<HostCache> cache_;
	RequestMap requests_;
	size_t next_request_id_;

	size_t num_resolve_;
	size_t num_resolve_from_cache_;

	THREAD_CHECKER(thread_checker_);

	DISALLOW_COPY_AND_ASSIGN(MockHostResolverBase);
	};

	class MockHostResolver : public MockHostResolverBase {
	public:
	MockHostResolver() : MockHostResolverBase(false /use_caching/) {}
	~MockHostResolver() override {}
	};

	// Same as MockHostResolver, except internally it uses a host-cache.
	//
	// Note that tests are advised to use MockHostResolver instead, since it is
	// more predictable. (MockHostResolver also can be put into synchronous
	// operation mode in case that is what you needed from the caching version).
	class MockCachingHostResolver : public MockHostResolverBase {
	public:
	MockCachingHostResolver() : MockHostResolverBase(true /use_caching/) {}
	~MockCachingHostResolver() override {}
	};

	// RuleBasedHostResolverProc applies a set of rules to map a host string to
	// a replacement host string. It then uses the system host resolver to return
	// a socket address. Generally the replacement should be an IPv4 literal so
	// there is no network dependency.
	//
	// RuleBasedHostResolverProc is thread-safe, to a limited degree. Rules can be
	// added or removed on any thread.
	class RuleBasedHostResolverProc : public HostResolverProc {
	public:
	explicit RuleBasedHostResolverProc(HostResolverProc* previous);

	// Any hostname matching the given pattern will be replaced with the given
	// \|ip_literal\|.
	void AddRule(const std::string& host_pattern, const std::string& ip_literal);

	// Same as AddRule(), but further restricts to \|address_family\|.
	void AddRuleForAddressFamily(const std::string& host_pattern,
	AddressFamily address_family,
	const std::string& ip_literal);

	// Same as AddRule(), but the replacement is expected to be an IPv4 or IPv6
	// literal. This can be used in place of AddRule() to bypass the system's
	// host resolver (the address list will be constructed manually).
	// If \|canonical_name\| is non-empty, it is copied to the resulting AddressList
	// but does not impact DNS resolution.
	// \|ip_literal\| can be a single IP address like "192.168.1.1" or a comma
	// separated list of IP addresses, like "::1,192:168.1.2".
	void AddIPLiteralRule(const std::string& host_pattern,
	const std::string& ip_literal,
	const std::string& canonical_name);

	void AddRuleWithLatency(const std::string& host_pattern,
	const std::string& replacement,
	int latency_ms);

	// Make sure that \|host\| will not be re-mapped or even processed by underlying
	// host resolver procedures. It can also be a pattern.
	void AllowDirectLookup(const std::string& host);

	// Simulate a lookup failure for \|host\| (it also can be a pattern).
	void AddSimulatedFailure(const std::string& host);

	// Deletes all the rules that have been added.
	void ClearRules();

	// Causes method calls that add or delete rules to assert.
	// TODO(jam): once this class isn't used by tests that use an out of process
	// network service, remove this method and make Rule private.
	void DisableModifications();

	// HostResolverProc methods:
	int Resolve(const std::string& host,
	AddressFamily address_family,
	HostResolverFlags host_resolver_flags,
	AddressList* addrlist,
	int* os_error) override;

	struct Rule {
	enum ResolverType {
	kResolverTypeFail,
	// TODO(mmenke): Is it really reasonable for a "mock" host resolver to
	// fall back to the system resolver?
	kResolverTypeSystem,
	kResolverTypeIPLiteral,
	};

	Rule(ResolverType resolver_type,
	const std::string& host_pattern,
	AddressFamily address_family,
	HostResolverFlags host_resolver_flags,
	const std::string& replacement,
	const std::string& canonical_name,
	int latency_ms);
	Rule(const Rule& other);

	ResolverType resolver_type;
	std::string host_pattern;
	AddressFamily address_family;
	HostResolverFlags host_resolver_flags;
	std::string replacement;
	std::string canonical_name;
	int latency_ms; // In milliseconds.
	};

	typedef std::list<Rule> RuleList;

	RuleList GetRules();

	private:
	~RuleBasedHostResolverProc() override;

	void AddRuleInternal(const Rule& rule);

	RuleList rules_;

	// Must be obtained before writing to or reading from \|rules_\|.
	base::Lock rule_lock_;

	// Whether changes are allowed.
	bool modifications_allowed_;
	};

	// Create rules that map all requests to localhost.
	RuleBasedHostResolverProc* CreateCatchAllHostResolverProc();

	// HangingHostResolver never completes its \|Resolve\| request.
	class HangingHostResolver : public HostResolver {
	public:
	int Resolve(const RequestInfo& info,
	RequestPriority priority,
	AddressList* addresses,
	const CompletionCallback& callback,
	std::unique_ptr<Request>* out_req,
	const NetLogWithSource& net_log) override;
	int ResolveFromCache(const RequestInfo& info,
	AddressList* addresses,
	const NetLogWithSource& net_log) override;
	};

	// This class sets the default HostResolverProc for a particular scope. The
	// chain of resolver procs starting at \|proc\| is placed in front of any existing
	// default resolver proc(s). This means that if multiple
	// ScopedDefaultHostResolverProcs are declared, then resolving will start with
	// the procs given to the last-allocated one, then fall back to the procs given
	// to the previously-allocated one, and so forth.
	//
	// NOTE: Only use this as a catch-all safety net. Individual tests should use
	// MockHostResolver.
	class ScopedDefaultHostResolverProc {
	public:
	ScopedDefaultHostResolverProc();
	explicit ScopedDefaultHostResolverProc(HostResolverProc* proc);

	~ScopedDefaultHostResolverProc();

	void Init(HostResolverProc* proc);

	private:
	scoped_refptr<HostResolverProc> current_proc_;
	scoped_refptr<HostResolverProc> previous_proc_;
	};

	} // namespace net

	#endif // NET_DNS_MOCK_HOST_RESOLVER_H_