linux-x64/clang/include/lldb/Target/SystemRuntime.h - hafnium/prebuilts - Git at Google

 //===-- SystemRuntime.h -----------------------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef liblldb_SystemRuntime_h_
 #define liblldb_SystemRuntime_h_

 #include <vector>

 #include "lldb/Core/ModuleList.h"
 #include "lldb/Core/PluginInterface.h"
 #include "lldb/Target/QueueItem.h"
 #include "lldb/Target/QueueList.h"
 #include "lldb/Utility/ConstString.h"
 #include "lldb/Utility/StructuredData.h"
 #include "lldb/lldb-private.h"
 #include "lldb/lldb-public.h"

 namespace lldb_private {

 /// \class SystemRuntime SystemRuntime.h "lldb/Target/SystemRuntime.h"
 /// A plug-in interface definition class for system runtimes.
 ///
 /// The system runtime plugins can collect information from the system
 /// libraries during a Process' lifetime and provide information about how
 /// objects/threads were originated.
 ///
 /// For instance, a system runtime plugin use a breakpoint when threads are
 /// created to record the backtrace of where that thread was created. Later,
 /// when backtracing the created thread, it could extend the backtrace to show
 /// where it was originally created from.
 ///
 /// The plugin will insert its own breakpoint when Created and start
 /// collecting information.  Later when it comes time to augment a Thread, it
 /// can be asked to provide that information.
 ///

 class SystemRuntime : public PluginInterface {
 public:
   /// Find a system runtime plugin for a given process.
   ///
   /// Scans the installed SystemRuntime plugins and tries to find an instance
   /// that can be used to track image changes in \a process.
   ///
   /// \param[in] process
   ///     The process for which to try and locate a system runtime
   ///     plugin instance.
   static SystemRuntime *FindPlugin(Process *process);

   /// Construct with a process.
   SystemRuntime(lldb_private::Process *process);

   /// Destructor.
   ///
   /// The destructor is virtual since this class is designed to be inherited
   /// by the plug-in instance.
   ~SystemRuntime() override;

   /// Called after attaching to a process.
   ///
   /// Allow the SystemRuntime plugin to execute some code after attaching to a
   /// process.
   virtual void DidAttach();

   /// Called after launching a process.
   ///
   /// Allow the SystemRuntime plugin to execute some code after launching a
   /// process.
   virtual void DidLaunch();

   /// Called when modules have been loaded in the process.
   ///
   /// Allow the SystemRuntime plugin to enable logging features in the system
   /// runtime libraries.
   virtual void ModulesDidLoad(lldb_private::ModuleList &module_list);

   /// Called before detaching from a process.
   ///
   /// This will give a SystemRuntime plugin a chance to free any resources in
   /// the inferior process before we detach.
   virtual void Detach();

   /// Return a list of thread origin extended backtraces that may be
   /// available.
   ///
   /// A System Runtime may be able to provide a backtrace of when this
   /// thread was originally created.  Furthermore, it may be able to provide
   /// that extended backtrace for different styles of creation. On a system
   /// with both pthreads and libdispatch, aka Grand Central Dispatch, queues,
   /// the system runtime may be able to provide the pthread creation of the
   /// thread and it may also be able to provide the backtrace of when this GCD
   /// queue work block was enqueued. The caller may request these different
   /// origins by name.
   ///
   /// The names will be provided in the order that they are most likely to be
   /// requested.  For instance, a most natural order may be to request the GCD
   /// libdispatch queue origin.  If there is none, then request the pthread
   /// origin.
   ///
   /// \return
   ///   A vector of ConstStrings with names like "pthread" or "libdispatch".
   ///   An empty vector may be returned if no thread origin extended
   ///   backtrace capabilities are available.
   virtual const std::vector<ConstString> &GetExtendedBacktraceTypes();

   /// Return a Thread which shows the origin of this thread's creation.
   ///
   /// This likely returns a HistoryThread which shows how thread was
   /// originally created (e.g. "pthread" type), or how the work that is
   /// currently executing on it was originally enqueued (e.g. "libdispatch"
   /// type).
   ///
   /// There may be a chain of thread-origins; it may be informative to the end
   /// user to query the returned ThreadSP for its origins as well.
   ///
   /// \param [in] thread
   ///   The thread to examine.
   ///
   /// \param [in] type
   ///   The type of thread origin being requested.  The types supported
   ///   are returned from SystemRuntime::GetExtendedBacktraceTypes.
   ///
   /// \return
   ///   A ThreadSP which will have a StackList of frames.  This Thread will
   ///   not appear in the Process' list of current threads.  Normal thread
   ///   operations like stepping will not be available.  This is a historical
   ///   view thread and may be only useful for showing a backtrace.
   ///
   ///   An empty ThreadSP will be returned if no thread origin is available.
   virtual lldb::ThreadSP GetExtendedBacktraceThread(lldb::ThreadSP thread,
                                                     ConstString type);

   /// Get the extended backtrace thread for a QueueItem
   ///
   /// A QueueItem represents a function/block that will be executed on
   /// a libdispatch queue in the future, or it represents a function/block
   /// that is currently executing on a thread.
   ///
   /// This method will report a thread backtrace of the function that enqueued
   /// it originally, if possible.
   ///
   /// \param [in] queue_item_sp
   ///     The QueueItem that we are getting an extended backtrace for.
   ///
   /// \param [in] type
   ///     The type of extended backtrace to fetch.  The types supported
   ///     are returned from SystemRuntime::GetExtendedBacktraceTypes.
   ///
   /// \return
   ///     If an extended backtrace is available, it is returned.  Else
   ///     an empty ThreadSP is returned.
   virtual lldb::ThreadSP
   GetExtendedBacktraceForQueueItem(lldb::QueueItemSP queue_item_sp,
                                    ConstString type) {
     return lldb::ThreadSP();
   }

   /// Populate the Process' QueueList with libdispatch / GCD queues that
   /// exist.
   ///
   /// When process execution is paused, the SystemRuntime may be called to
   /// fill in the list of Queues that currently exist.
   ///
   /// \param [out] queue_list
   ///     This QueueList will be cleared, and any queues that currently exist
   ///     will be added.  An empty QueueList will be returned if no queues
   ///     exist or if this Systemruntime does not support libdispatch queues.
   virtual void PopulateQueueList(lldb_private::QueueList &queue_list) {}

   /// Get the queue name for a thread given a thread's dispatch_qaddr.
   ///
   /// On systems using libdispatch queues, a thread may be associated with a
   /// queue. There will be a call to get the thread's dispatch_qaddr.  At the
   /// dispatch_qaddr we will find the address of this thread's
   /// dispatch_queue_t structure. Given the address of the dispatch_queue_t
   /// structure for a thread, get the queue name and return it.
   ///
   /// \param [in] dispatch_qaddr
   ///     The address of the dispatch_qaddr pointer for this thread.
   ///
   /// \return
   ///     The string of this queue's name.  An empty string is returned if the
   ///     name could not be found.
   virtual std::string
   GetQueueNameFromThreadQAddress(lldb::addr_t dispatch_qaddr) {
     return "";
   }

   /// Get the QueueID for the libdispatch queue given the thread's
   /// dispatch_qaddr.
   ///
   /// On systems using libdispatch queues, a thread may be associated with a
   /// queue. There will be a call to get the thread's dispatch_qaddr.  At the
   /// dispatch_qaddr we will find the address of this thread's
   /// dispatch_queue_t structure. Given the address of the dispatch_queue_t
   /// structure for a thread, get the queue ID and return it.
   ///
   /// \param [in] dispatch_qaddr
   ///     The address of the dispatch_qaddr pointer for this thread.
   ///
   /// \return
   ///     The queue ID, or if it could not be retrieved, LLDB_INVALID_QUEUE_ID.
   virtual lldb::queue_id_t
   GetQueueIDFromThreadQAddress(lldb::addr_t dispatch_qaddr) {
     return LLDB_INVALID_QUEUE_ID;
   }

   /// Get the libdispatch_queue_t address for the queue given the thread's
   /// dispatch_qaddr.
   ///
   /// On systems using libdispatch queues, a thread may be associated with a
   /// queue. There will be a call to get the thread's dispatch_qaddr. Given
   /// the thread's dispatch_qaddr, find the libdispatch_queue_t address and
   /// return it.
   ///
   /// \param [in] dispatch_qaddr
   ///     The address of the dispatch_qaddr pointer for this thread.
   ///
   /// \return
   ///     The libdispatch_queue_t address, or LLDB_INVALID_ADDRESS if
   ///     unavailable/not found.
   virtual lldb::addr_t
   GetLibdispatchQueueAddressFromThreadQAddress(lldb::addr_t dispatch_qaddr) {
     return LLDB_INVALID_ADDRESS;
   }

   /// Retrieve the Queue kind for the queue at a thread's dispatch_qaddr.
   ///
   /// Retrieve the Queue kind - either eQueueKindSerial or
   /// eQueueKindConcurrent, indicating that this queue processes work items
   /// serially or concurrently.
   ///
   /// \return
   ///     The Queue kind, if it could be read, else eQueueKindUnknown.
   virtual lldb::QueueKind GetQueueKind(lldb::addr_t dispatch_qaddr) {
     return lldb::eQueueKindUnknown;
   }

   /// Get the pending work items for a libdispatch Queue
   ///
   /// If this system/process is using libdispatch and the runtime can do so,
   /// retrieve the list of pending work items for the specified Queue and add
   /// it to the Queue.
   ///
   /// \param [in] queue
   ///     The queue of interest.
   virtual void PopulatePendingItemsForQueue(lldb_private::Queue *queue) {}

   /// Complete the fields in a QueueItem
   ///
   /// PopulatePendingItemsForQueue() may not fill in all of the QueueItem
   /// details; when the remaining fields are needed, they will be fetched by
   /// call this method.
   ///
   /// \param [in] queue_item
   ///   The QueueItem that we will be completing.
   ///
   /// \param [in] item_ref
   ///     The item_ref token that is needed to retrieve the rest of the
   ///     information about the QueueItem.
   virtual void CompleteQueueItem(lldb_private::QueueItem *queue_item,
                                  lldb::addr_t item_ref) {}

   /// Add key-value pairs to the StructuredData dictionary object with
   /// information debugserver  may need when constructing the
   /// jThreadExtendedInfo packet.
   ///
   /// \param [out] dict
   ///     Dictionary to which key-value pairs should be added; they will
   ///     be sent to the remote gdb server stub as arguments in the
   ///     jThreadExtendedInfo request.
   virtual void AddThreadExtendedInfoPacketHints(
       lldb_private::StructuredData::ObjectSP dict) {}

   /// Determine whether it is safe to run an expression on a given thread
   ///
   /// If a system must not run functions on a thread in some particular state,
   /// this method gives a way for it to flag that the expression should not be
   /// run.
   ///
   /// \param [in] thread_sp
   ///     The thread we want to run the expression on.
   ///
   /// \return
   ///     True will be returned if there are no known problems with running an
   ///     expression on this thread.  False means that the inferior function
   ///     call should not be made on this thread.
   virtual bool SafeToCallFunctionsOnThisThread(lldb::ThreadSP thread_sp) {
     return true;
   }

 protected:
   // Member variables.
   Process *m_process;

   std::vector<ConstString> m_types;

 private:
   DISALLOW_COPY_AND_ASSIGN(SystemRuntime);
 };

 } // namespace lldb_private

 #endif // liblldb_SystemRuntime_h_
	//===-- SystemRuntime.h ------------------------------------------ C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef liblldb_SystemRuntime_h_
	#define liblldb_SystemRuntime_h_

	#include <vector>

	#include "lldb/Core/ModuleList.h"
	#include "lldb/Core/PluginInterface.h"
	#include "lldb/Target/QueueItem.h"
	#include "lldb/Target/QueueList.h"
	#include "lldb/Utility/ConstString.h"
	#include "lldb/Utility/StructuredData.h"
	#include "lldb/lldb-private.h"
	#include "lldb/lldb-public.h"

	namespace lldb_private {

	/// \class SystemRuntime SystemRuntime.h "lldb/Target/SystemRuntime.h"
	/// A plug-in interface definition class for system runtimes.
	///
	/// The system runtime plugins can collect information from the system
	/// libraries during a Process' lifetime and provide information about how
	/// objects/threads were originated.
	///
	/// For instance, a system runtime plugin use a breakpoint when threads are
	/// created to record the backtrace of where that thread was created. Later,
	/// when backtracing the created thread, it could extend the backtrace to show
	/// where it was originally created from.
	///
	/// The plugin will insert its own breakpoint when Created and start
	/// collecting information. Later when it comes time to augment a Thread, it
	/// can be asked to provide that information.
	///

	class SystemRuntime : public PluginInterface {
	public:
	/// Find a system runtime plugin for a given process.
	///
	/// Scans the installed SystemRuntime plugins and tries to find an instance
	/// that can be used to track image changes in \a process.
	///
	/// \param[in] process
	/// The process for which to try and locate a system runtime
	/// plugin instance.
	static SystemRuntime FindPlugin(Process process);

	/// Construct with a process.
	SystemRuntime(lldb_private::Process *process);

	/// Destructor.
	///
	/// The destructor is virtual since this class is designed to be inherited
	/// by the plug-in instance.
	~SystemRuntime() override;

	/// Called after attaching to a process.
	///
	/// Allow the SystemRuntime plugin to execute some code after attaching to a
	/// process.
	virtual void DidAttach();

	/// Called after launching a process.
	///
	/// Allow the SystemRuntime plugin to execute some code after launching a
	/// process.
	virtual void DidLaunch();

	/// Called when modules have been loaded in the process.
	///
	/// Allow the SystemRuntime plugin to enable logging features in the system
	/// runtime libraries.
	virtual void ModulesDidLoad(lldb_private::ModuleList &module_list);

	/// Called before detaching from a process.
	///
	/// This will give a SystemRuntime plugin a chance to free any resources in
	/// the inferior process before we detach.
	virtual void Detach();

	/// Return a list of thread origin extended backtraces that may be
	/// available.
	///
	/// A System Runtime may be able to provide a backtrace of when this
	/// thread was originally created. Furthermore, it may be able to provide
	/// that extended backtrace for different styles of creation. On a system
	/// with both pthreads and libdispatch, aka Grand Central Dispatch, queues,
	/// the system runtime may be able to provide the pthread creation of the
	/// thread and it may also be able to provide the backtrace of when this GCD
	/// queue work block was enqueued. The caller may request these different
	/// origins by name.
	///
	/// The names will be provided in the order that they are most likely to be
	/// requested. For instance, a most natural order may be to request the GCD
	/// libdispatch queue origin. If there is none, then request the pthread
	/// origin.
	///
	/// \return
	/// A vector of ConstStrings with names like "pthread" or "libdispatch".
	/// An empty vector may be returned if no thread origin extended
	/// backtrace capabilities are available.
	virtual const std::vector<ConstString> &GetExtendedBacktraceTypes();

	/// Return a Thread which shows the origin of this thread's creation.
	///
	/// This likely returns a HistoryThread which shows how thread was
	/// originally created (e.g. "pthread" type), or how the work that is
	/// currently executing on it was originally enqueued (e.g. "libdispatch"
	/// type).
	///
	/// There may be a chain of thread-origins; it may be informative to the end
	/// user to query the returned ThreadSP for its origins as well.
	///
	/// \param [in] thread
	/// The thread to examine.
	///
	/// \param [in] type
	/// The type of thread origin being requested. The types supported
	/// are returned from SystemRuntime::GetExtendedBacktraceTypes.
	///
	/// \return
	/// A ThreadSP which will have a StackList of frames. This Thread will
	/// not appear in the Process' list of current threads. Normal thread
	/// operations like stepping will not be available. This is a historical
	/// view thread and may be only useful for showing a backtrace.
	///
	/// An empty ThreadSP will be returned if no thread origin is available.
	virtual lldb::ThreadSP GetExtendedBacktraceThread(lldb::ThreadSP thread,
	ConstString type);

	/// Get the extended backtrace thread for a QueueItem
	///
	/// A QueueItem represents a function/block that will be executed on
	/// a libdispatch queue in the future, or it represents a function/block
	/// that is currently executing on a thread.
	///
	/// This method will report a thread backtrace of the function that enqueued
	/// it originally, if possible.
	///
	/// \param [in] queue_item_sp
	/// The QueueItem that we are getting an extended backtrace for.
	///
	/// \param [in] type
	/// The type of extended backtrace to fetch. The types supported
	/// are returned from SystemRuntime::GetExtendedBacktraceTypes.
	///
	/// \return
	/// If an extended backtrace is available, it is returned. Else
	/// an empty ThreadSP is returned.
	virtual lldb::ThreadSP
	GetExtendedBacktraceForQueueItem(lldb::QueueItemSP queue_item_sp,
	ConstString type) {
	return lldb::ThreadSP();
	}

	/// Populate the Process' QueueList with libdispatch / GCD queues that
	/// exist.
	///
	/// When process execution is paused, the SystemRuntime may be called to
	/// fill in the list of Queues that currently exist.
	///
	/// \param [out] queue_list
	/// This QueueList will be cleared, and any queues that currently exist
	/// will be added. An empty QueueList will be returned if no queues
	/// exist or if this Systemruntime does not support libdispatch queues.
	virtual void PopulateQueueList(lldb_private::QueueList &queue_list) {}

	/// Get the queue name for a thread given a thread's dispatch_qaddr.
	///
	/// On systems using libdispatch queues, a thread may be associated with a
	/// queue. There will be a call to get the thread's dispatch_qaddr. At the
	/// dispatch_qaddr we will find the address of this thread's
	/// dispatch_queue_t structure. Given the address of the dispatch_queue_t
	/// structure for a thread, get the queue name and return it.
	///
	/// \param [in] dispatch_qaddr
	/// The address of the dispatch_qaddr pointer for this thread.
	///
	/// \return
	/// The string of this queue's name. An empty string is returned if the
	/// name could not be found.
	virtual std::string
	GetQueueNameFromThreadQAddress(lldb::addr_t dispatch_qaddr) {
	return "";
	}

	/// Get the QueueID for the libdispatch queue given the thread's
	/// dispatch_qaddr.
	///
	/// On systems using libdispatch queues, a thread may be associated with a
	/// queue. There will be a call to get the thread's dispatch_qaddr. At the
	/// dispatch_qaddr we will find the address of this thread's
	/// dispatch_queue_t structure. Given the address of the dispatch_queue_t
	/// structure for a thread, get the queue ID and return it.
	///
	/// \param [in] dispatch_qaddr
	/// The address of the dispatch_qaddr pointer for this thread.
	///
	/// \return
	/// The queue ID, or if it could not be retrieved, LLDB_INVALID_QUEUE_ID.
	virtual lldb::queue_id_t
	GetQueueIDFromThreadQAddress(lldb::addr_t dispatch_qaddr) {
	return LLDB_INVALID_QUEUE_ID;
	}

	/// Get the libdispatch_queue_t address for the queue given the thread's
	/// dispatch_qaddr.
	///
	/// On systems using libdispatch queues, a thread may be associated with a
	/// queue. There will be a call to get the thread's dispatch_qaddr. Given
	/// the thread's dispatch_qaddr, find the libdispatch_queue_t address and
	/// return it.
	///
	/// \param [in] dispatch_qaddr
	/// The address of the dispatch_qaddr pointer for this thread.
	///
	/// \return
	/// The libdispatch_queue_t address, or LLDB_INVALID_ADDRESS if
	/// unavailable/not found.
	virtual lldb::addr_t
	GetLibdispatchQueueAddressFromThreadQAddress(lldb::addr_t dispatch_qaddr) {
	return LLDB_INVALID_ADDRESS;
	}

	/// Retrieve the Queue kind for the queue at a thread's dispatch_qaddr.
	///
	/// Retrieve the Queue kind - either eQueueKindSerial or
	/// eQueueKindConcurrent, indicating that this queue processes work items
	/// serially or concurrently.
	///
	/// \return
	/// The Queue kind, if it could be read, else eQueueKindUnknown.
	virtual lldb::QueueKind GetQueueKind(lldb::addr_t dispatch_qaddr) {
	return lldb::eQueueKindUnknown;
	}

	/// Get the pending work items for a libdispatch Queue
	///
	/// If this system/process is using libdispatch and the runtime can do so,
	/// retrieve the list of pending work items for the specified Queue and add
	/// it to the Queue.
	///
	/// \param [in] queue
	/// The queue of interest.
	virtual void PopulatePendingItemsForQueue(lldb_private::Queue *queue) {}

	/// Complete the fields in a QueueItem
	///
	/// PopulatePendingItemsForQueue() may not fill in all of the QueueItem
	/// details; when the remaining fields are needed, they will be fetched by
	/// call this method.
	///
	/// \param [in] queue_item
	/// The QueueItem that we will be completing.
	///
	/// \param [in] item_ref
	/// The item_ref token that is needed to retrieve the rest of the
	/// information about the QueueItem.
	virtual void CompleteQueueItem(lldb_private::QueueItem *queue_item,
	lldb::addr_t item_ref) {}

	/// Add key-value pairs to the StructuredData dictionary object with
	/// information debugserver may need when constructing the
	/// jThreadExtendedInfo packet.
	///
	/// \param [out] dict
	/// Dictionary to which key-value pairs should be added; they will
	/// be sent to the remote gdb server stub as arguments in the
	/// jThreadExtendedInfo request.
	virtual void AddThreadExtendedInfoPacketHints(
	lldb_private::StructuredData::ObjectSP dict) {}

	/// Determine whether it is safe to run an expression on a given thread
	///
	/// If a system must not run functions on a thread in some particular state,
	/// this method gives a way for it to flag that the expression should not be
	/// run.
	///
	/// \param [in] thread_sp
	/// The thread we want to run the expression on.
	///
	/// \return
	/// True will be returned if there are no known problems with running an
	/// expression on this thread. False means that the inferior function
	/// call should not be made on this thread.
	virtual bool SafeToCallFunctionsOnThisThread(lldb::ThreadSP thread_sp) {
	return true;
	}

	protected:
	// Member variables.
	Process *m_process;

	std::vector<ConstString> m_types;

	private:
	DISALLOW_COPY_AND_ASSIGN(SystemRuntime);
	};

	} // namespace lldb_private

	#endif // liblldb_SystemRuntime_h_