tools/fidlcat/lib/interception_workflow.h - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia 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 TOOLS_FIDLCAT_LIB_INTERCEPTION_WORKFLOW_H_
 #define TOOLS_FIDLCAT_LIB_INTERCEPTION_WORKFLOW_H_

 #include <lib/fit/function.h>

 #include <string>

 #include "src/developer/debug/shared/buffered_fd.h"
 #include "src/developer/debug/shared/platform_message_loop.h"
 #include "src/developer/debug/zxdb/client/breakpoint.h"
 #include "src/developer/debug/zxdb/client/filter.h"
 #include "src/developer/debug/zxdb/client/process.h"
 #include "src/developer/debug/zxdb/client/process_observer.h"
 #include "src/developer/debug/zxdb/client/session.h"
 #include "src/developer/debug/zxdb/client/thread.h"
 #include "src/developer/debug/zxdb/client/thread_observer.h"
 #include "src/developer/debug/zxdb/common/err.h"
 #include "tools/fidlcat/command_line_options.h"
 #include "tools/fidlcat/lib/syscall_decoder_dispatcher.h"

 namespace fidlcat {

 class InterceptionWorkflow;
 class SyscallDecoderDispatcher;
 class SyscallDecoder;

 class InterceptingThreadObserver : public zxdb::ThreadObserver {
  public:
   explicit InterceptingThreadObserver(InterceptionWorkflow* workflow) : workflow_(workflow) {}

   InterceptingThreadObserver(const InterceptingThreadObserver&) = delete;
   InterceptingThreadObserver& operator=(const InterceptingThreadObserver&) = delete;

   virtual void OnThreadStopped(zxdb::Thread* thread, const zxdb::StopInfo& info) override;

   virtual ~InterceptingThreadObserver() {}

   void Register(int64_t koid, SyscallDecoder* decoder);
   void AddExitBreakpoint(zxdb::Thread* thread, const std::string& syscall_name, uint64_t address);

   void CreateNewBreakpoint(zxdb::Thread* thread, zxdb::BreakpointSettings& settings);

   uint64_t GetTimestamp();

  private:
   InterceptionWorkflow* workflow_;
   std::unordered_set<uint64_t> exit_breakpoints_;
   std::map<int64_t, SyscallDecoder*> breakpoint_map_;
   std::unordered_set<int64_t> threads_in_error_;
   // By default, the breakpoints at the end of a syscall are put permanently.
   // To test zxdb one shot breakpoints, you can change this value to true.
   bool one_shot_breakpoints_ = false;
 };

 class InterceptingProcessObserver : public zxdb::ProcessObserver {
  public:
   explicit InterceptingProcessObserver(InterceptionWorkflow* workflow) : workflow_(workflow) {}

   void DidCreateProcess(zxdb::Process* process, bool autoattached, uint64_t timestamp) override;
   void WillDestroyProcess(zxdb::Process* process, DestroyReason reason, int exit_code,
                           uint64_t timestamp) override;
   void OnSymbolLoadFailure(zxdb::Process* process, const zxdb::Err& err) override;

  private:
   InterceptionWorkflow* workflow_;
 };

 using SimpleErrorFunction = std::function<void(const zxdb::Err&)>;
 using KoidFunction = std::function<void(const zxdb::Err&, zx_koid_t)>;

 struct ProcessFilter {
   zxdb::Filter* filter;
   bool main_filter;
 };

 struct ConfiguredProcess {
   fxl::WeakPtr<zxdb::Process> process;
   // True if the process is a main process (monitored with --remote-name) and false if the process
   // is secondary (monitored with --extra-name).
   bool main_process;

   ConfiguredProcess(fxl::WeakPtr<zxdb::Process> process, bool main_process)
       : process(process), main_process(main_process) {}
 };

 // Controls the interactions with the debug agent.
 //
 // Most of the operations on this API are synchronous.  They expect a loop
 // running in another thread to deal with the actions, and waits for the loop to
 // complete the actions before returning from the method calls.  In fidlcat,
 // Go() is called in a separate thread to start the loop.  The other operations
 // - Initialize, Connect, Attach, etc - post tasks to that loop that are
 // executed by the other thread.
 class InterceptionWorkflow {
  public:
   friend class InterceptingThreadObserver;
   friend class DataForZxChannelTest;
   friend class ProcessController;

   InterceptionWorkflow();
   ~InterceptionWorkflow();

   // For testing, you can provide your own |session| and |loop|
   InterceptionWorkflow(zxdb::Session* session, debug_ipc::MessageLoop* loop);

   // Some initialization steps:
   // - Set the paths for the zxdb client to look for symbols.
   // - Make sure that the data are routed from the client to the session
   void Initialize(const std::vector<std::string>& symbol_index_files,
                   const std::vector<std::string>& symbol_paths,
                   const std::vector<std::string>& build_id_dirs,
                   const std::vector<std::string>& ids_txts,
                   const std::optional<std::string>& symbol_cache,
                   const std::vector<std::string>& symbol_servers,
                   std::unique_ptr<SyscallDecoderDispatcher> syscall_decoder_dispatcher,
                   bool quit_agent_on_exit);

   void AuthenticateServer(zxdb::SymbolServer* server);

   // Connect the workflow to the host/port pair given.  |and_then| is posted to
   // the loop on completion.
   void Connect(const std::string& host, uint16_t port, const SimpleErrorFunction& and_then);

   // Attach the workflow to the given koids.
   void Attach(const std::vector<zx_koid_t>& process_koids);
   // Using the process tree record, attach the workflow to all processes which belong to a job
   // which matches remote_job_id or remote_job_name.
   void AttachToJobs(const debug_ipc::ProcessTreeRecord& record,
                     const std::vector<std::uint64_t>& remote_job_id,
                     const std::vector<std::string>& remote_job_name,
                     const std::vector<std::string>& remote_name,
                     const std::vector<std::string>& extra_name);

   // Called when a monitored process is detached/dead. This function can
   // called several times with the same koid.
   void ProcessDetached(zx_koid_t koid, uint64_t timestamp);

   // Detach from one target.  session() keeps track of details about the Target
   // object; this just reduces the number of targets to which we are attached by
   // one, and shuts down if we hit 0.
   void Detach();

   // Run the given |command| and attach to it.  Must be connected.  |and_then|
   // is posted to the loop on completion.
   void Launch(zxdb::Target* target, const std::vector<std::string>& command);

   // Run when a process matching the given |filter| regexp is started.  Must be
   // connected.  |and_then| is posted to the loop on completion.
   void Filter(const std::vector<std::string>& filter, bool main_filter, zxdb::Job* job);

   // Sets breakpoints for the various methods we intercept (zx_channel_*, etc)
   // for the given |process|. If the process is secondary and no main process is already monitored,
   // postpone the breakpoints' setting.
   void SetBreakpoints(zxdb::Process* process, uint64_t timestamp);

   // Actually set the breakpoints.
   void DoSetBreakpoints(zxdb::Process* process, uint64_t timestamp);

   // Starts running the loop.  Returns when loop is (asynchronously) terminated.
   static void Go();

   void Shutdown() {
     session()->Disconnect([this](const zxdb::Err& err) {
       loop_->PostTask(FROM_HERE, [this]() { loop_->QuitNow(); });
     });
   }

   zxdb::Target* GetTarget(zx_koid_t process_koid);
   zxdb::Target* GetNewTarget();

   bool HasSymbolServers() const;
   std::vector<zxdb::SymbolServer*> GetSymbolServers() const;

   zxdb::Session* session() const { return session_; }
   bool decode_events() const { return decode_events_; }
   std::map<zx_koid_t, ConfiguredProcess>& configured_processes() { return configured_processes_; }
   SyscallDecoderDispatcher* syscall_decoder_dispatcher() const {
     return syscall_decoder_dispatcher_.get();
   }

   std::unique_ptr<SyscallDecoderDispatcher> GetBackDispatcher() {
     return std::move(syscall_decoder_dispatcher_);
   }

   InterceptingThreadObserver& thread_observer() { return thread_observer_; }

   InterceptionWorkflow(const InterceptionWorkflow&) = delete;
   InterceptionWorkflow& operator=(const InterceptionWorkflow&) = delete;

  private:
   debug_ipc::BufferedFD buffer_;
   zxdb::Session* session_;
   std::vector<ProcessFilter> filters_;
   bool delete_session_;
   debug_ipc::MessageLoop* loop_;
   bool delete_loop_;
   bool decode_events_ = true;
   bool shutdown_done_ = false;
   bool server_authentication_error_ = false;
   int remaining_authentications_ = 0;

   // All the processes for which the breapoints have been set.
   std::map<zx_koid_t, ConfiguredProcess> configured_processes_;

   std::unique_ptr<SyscallDecoderDispatcher> syscall_decoder_dispatcher_;

   InterceptingProcessObserver process_observer_;
   InterceptingThreadObserver thread_observer_;
 };

 }  // namespace fidlcat

 #endif  // TOOLS_FIDLCAT_LIB_INTERCEPTION_WORKFLOW_H_
	// Copyright 2019 The Fuchsia 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 TOOLS_FIDLCAT_LIB_INTERCEPTION_WORKFLOW_H_
	#define TOOLS_FIDLCAT_LIB_INTERCEPTION_WORKFLOW_H_

	#include <lib/fit/function.h>

	#include <string>

	#include "src/developer/debug/shared/buffered_fd.h"
	#include "src/developer/debug/shared/platform_message_loop.h"
	#include "src/developer/debug/zxdb/client/breakpoint.h"
	#include "src/developer/debug/zxdb/client/filter.h"
	#include "src/developer/debug/zxdb/client/process.h"
	#include "src/developer/debug/zxdb/client/process_observer.h"
	#include "src/developer/debug/zxdb/client/session.h"
	#include "src/developer/debug/zxdb/client/thread.h"
	#include "src/developer/debug/zxdb/client/thread_observer.h"
	#include "src/developer/debug/zxdb/common/err.h"
	#include "tools/fidlcat/command_line_options.h"
	#include "tools/fidlcat/lib/syscall_decoder_dispatcher.h"

	namespace fidlcat {

	class InterceptionWorkflow;
	class SyscallDecoderDispatcher;
	class SyscallDecoder;

	class InterceptingThreadObserver : public zxdb::ThreadObserver {
	public:
	explicit InterceptingThreadObserver(InterceptionWorkflow* workflow) : workflow_(workflow) {}

	InterceptingThreadObserver(const InterceptingThreadObserver&) = delete;
	InterceptingThreadObserver& operator=(const InterceptingThreadObserver&) = delete;

	virtual void OnThreadStopped(zxdb::Thread* thread, const zxdb::StopInfo& info) override;

	virtual ~InterceptingThreadObserver() {}

	void Register(int64_t koid, SyscallDecoder* decoder);
	void AddExitBreakpoint(zxdb::Thread* thread, const std::string& syscall_name, uint64_t address);

	void CreateNewBreakpoint(zxdb::Thread* thread, zxdb::BreakpointSettings& settings);

	uint64_t GetTimestamp();

	private:
	InterceptionWorkflow* workflow_;
	std::unordered_set<uint64_t> exit_breakpoints_;
	std::map<int64_t, SyscallDecoder*> breakpoint_map_;
	std::unordered_set<int64_t> threads_in_error_;
	// By default, the breakpoints at the end of a syscall are put permanently.
	// To test zxdb one shot breakpoints, you can change this value to true.
	bool one_shot_breakpoints_ = false;
	};

	class InterceptingProcessObserver : public zxdb::ProcessObserver {
	public:
	explicit InterceptingProcessObserver(InterceptionWorkflow* workflow) : workflow_(workflow) {}

	void DidCreateProcess(zxdb::Process* process, bool autoattached, uint64_t timestamp) override;
	void WillDestroyProcess(zxdb::Process* process, DestroyReason reason, int exit_code,
	uint64_t timestamp) override;
	void OnSymbolLoadFailure(zxdb::Process* process, const zxdb::Err& err) override;

	private:
	InterceptionWorkflow* workflow_;
	};

	using SimpleErrorFunction = std::function<void(const zxdb::Err&)>;
	using KoidFunction = std::function<void(const zxdb::Err&, zx_koid_t)>;

	struct ProcessFilter {
	zxdb::Filter* filter;
	bool main_filter;
	};

	struct ConfiguredProcess {
	fxl::WeakPtr<zxdb::Process> process;
	// True if the process is a main process (monitored with --remote-name) and false if the process
	// is secondary (monitored with --extra-name).
	bool main_process;

	ConfiguredProcess(fxl::WeakPtr<zxdb::Process> process, bool main_process)
	: process(process), main_process(main_process) {}
	};

	// Controls the interactions with the debug agent.
	//
	// Most of the operations on this API are synchronous. They expect a loop
	// running in another thread to deal with the actions, and waits for the loop to
	// complete the actions before returning from the method calls. In fidlcat,
	// Go() is called in a separate thread to start the loop. The other operations
	// - Initialize, Connect, Attach, etc - post tasks to that loop that are
	// executed by the other thread.
	class InterceptionWorkflow {
	public:
	friend class InterceptingThreadObserver;
	friend class DataForZxChannelTest;
	friend class ProcessController;

	InterceptionWorkflow();
	~InterceptionWorkflow();

	// For testing, you can provide your own \|session\| and \|loop\|
	InterceptionWorkflow(zxdb::Session* session, debug_ipc::MessageLoop* loop);

	// Some initialization steps:
	// - Set the paths for the zxdb client to look for symbols.
	// - Make sure that the data are routed from the client to the session
	void Initialize(const std::vector<std::string>& symbol_index_files,
	const std::vector<std::string>& symbol_paths,
	const std::vector<std::string>& build_id_dirs,
	const std::vector<std::string>& ids_txts,
	const std::optional<std::string>& symbol_cache,
	const std::vector<std::string>& symbol_servers,
	std::unique_ptr<SyscallDecoderDispatcher> syscall_decoder_dispatcher,
	bool quit_agent_on_exit);

	void AuthenticateServer(zxdb::SymbolServer* server);

	// Connect the workflow to the host/port pair given. \|and_then\| is posted to
	// the loop on completion.
	void Connect(const std::string& host, uint16_t port, const SimpleErrorFunction& and_then);

	// Attach the workflow to the given koids.
	void Attach(const std::vector<zx_koid_t>& process_koids);
	// Using the process tree record, attach the workflow to all processes which belong to a job
	// which matches remote_job_id or remote_job_name.
	void AttachToJobs(const debug_ipc::ProcessTreeRecord& record,
	const std::vector<std::uint64_t>& remote_job_id,
	const std::vector<std::string>& remote_job_name,
	const std::vector<std::string>& remote_name,
	const std::vector<std::string>& extra_name);

	// Called when a monitored process is detached/dead. This function can
	// called several times with the same koid.
	void ProcessDetached(zx_koid_t koid, uint64_t timestamp);

	// Detach from one target. session() keeps track of details about the Target
	// object; this just reduces the number of targets to which we are attached by
	// one, and shuts down if we hit 0.
	void Detach();

	// Run the given \|command\| and attach to it. Must be connected. \|and_then\|
	// is posted to the loop on completion.
	void Launch(zxdb::Target* target, const std::vector<std::string>& command);

	// Run when a process matching the given \|filter\| regexp is started. Must be
	// connected. \|and_then\| is posted to the loop on completion.
	void Filter(const std::vector<std::string>& filter, bool main_filter, zxdb::Job* job);

	// Sets breakpoints for the various methods we intercept (zx_channel_*, etc)
	// for the given \|process\|. If the process is secondary and no main process is already monitored,
	// postpone the breakpoints' setting.
	void SetBreakpoints(zxdb::Process* process, uint64_t timestamp);

	// Actually set the breakpoints.
	void DoSetBreakpoints(zxdb::Process* process, uint64_t timestamp);

	// Starts running the loop. Returns when loop is (asynchronously) terminated.
	static void Go();

	void Shutdown() {
	session()->Disconnect([this](const zxdb::Err& err) {
	loop_->PostTask(FROM_HERE, [this]() { loop_->QuitNow(); });
	});
	}

	zxdb::Target* GetTarget(zx_koid_t process_koid);
	zxdb::Target* GetNewTarget();

	bool HasSymbolServers() const;
	std::vector<zxdb::SymbolServer*> GetSymbolServers() const;

	zxdb::Session* session() const { return session_; }
	bool decode_events() const { return decode_events_; }
	std::map<zx_koid_t, ConfiguredProcess>& configured_processes() { return configured_processes_; }
	SyscallDecoderDispatcher* syscall_decoder_dispatcher() const {
	return syscall_decoder_dispatcher_.get();
	}

	std::unique_ptr<SyscallDecoderDispatcher> GetBackDispatcher() {
	return std::move(syscall_decoder_dispatcher_);
	}

	InterceptingThreadObserver& thread_observer() { return thread_observer_; }

	InterceptionWorkflow(const InterceptionWorkflow&) = delete;
	InterceptionWorkflow& operator=(const InterceptionWorkflow&) = delete;

	private:
	debug_ipc::BufferedFD buffer_;
	zxdb::Session* session_;
	std::vector<ProcessFilter> filters_;
	bool delete_session_;
	debug_ipc::MessageLoop* loop_;
	bool delete_loop_;
	bool decode_events_ = true;
	bool shutdown_done_ = false;
	bool server_authentication_error_ = false;
	int remaining_authentications_ = 0;

	// All the processes for which the breapoints have been set.
	std::map<zx_koid_t, ConfiguredProcess> configured_processes_;

	std::unique_ptr<SyscallDecoderDispatcher> syscall_decoder_dispatcher_;

	InterceptingProcessObserver process_observer_;
	InterceptingThreadObserver thread_observer_;
	};

	} // namespace fidlcat

	#endif // TOOLS_FIDLCAT_LIB_INTERCEPTION_WORKFLOW_H_