src/third_party/llvm-project/lldb/source/Plugins/DynamicLoader/Hexagon-DYLD/HexagonDYLDRendezvous.h - cobalt - Git at Google

 //===-- HexagonDYLDRendezvous.h ---------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef liblldb_HexagonDYLDRendezvous_H_
 #define liblldb_HexagonDYLDRendezvous_H_

 // C Includes
 #include <limits.h> // for PATH_MAX
 // C++ Includes
 #include <list>
 #include <map>
 #include <string>

 // Other libraries and framework includes
 #include "lldb/lldb-defines.h"
 #include "lldb/lldb-types.h"

 namespace lldb_private {
 class Process;
 }

 /// @class HexagonDYLDRendezvous
 /// Interface to the runtime linker.
 ///
 /// A structure is present in a processes memory space which is updated by the
 /// runtime liker each time a module is loaded or unloaded.  This class
 /// provides an interface to this structure and maintains a consistent
 /// snapshot of the currently loaded modules.
 class HexagonDYLDRendezvous {

   // This structure is used to hold the contents of the debug rendezvous
   // information (struct r_debug) as found in the inferiors memory.  Note that
   // the layout of this struct is not binary compatible, it is simply large
   // enough to hold the information on both 32 and 64 bit platforms.
   struct Rendezvous {
     uint64_t version;
     lldb::addr_t map_addr;
     lldb::addr_t brk;
     uint64_t state;
     lldb::addr_t ldbase;

     Rendezvous()
         : version(0), map_addr(LLDB_INVALID_ADDRESS), brk(LLDB_INVALID_ADDRESS),
           state(0), ldbase(0) {}
   };

 public:
   // Various metadata supplied by the inferior's threading library to describe
   // the per-thread state.
   struct ThreadInfo {
     bool valid;             // whether we read valid metadata
     uint32_t dtv_offset;    // offset of DTV pointer within pthread
     uint32_t dtv_slot_size; // size of one DTV slot
     uint32_t modid_offset;  // offset of module ID within link_map
     uint32_t tls_offset;    // offset of TLS pointer within DTV slot
   };

   HexagonDYLDRendezvous(lldb_private::Process *process);

   /// Update the internal snapshot of runtime linker rendezvous and recompute
   /// the currently loaded modules.
   ///
   /// This method should be called once one start up, then once each time the
   /// runtime linker enters the function given by GetBreakAddress().
   ///
   /// @returns true on success and false on failure.
   ///
   /// @see GetBreakAddress().
   bool Resolve();

   /// @returns true if this rendezvous has been located in the inferiors
   /// address space and false otherwise.
   bool IsValid();

   /// @returns the address of the rendezvous structure in the inferiors
   /// address space.
   lldb::addr_t GetRendezvousAddress() const { return m_rendezvous_addr; }

   /// Provide the dyld structure address
   void SetRendezvousAddress(lldb::addr_t);

   /// @returns the version of the rendezvous protocol being used.
   uint64_t GetVersion() const { return m_current.version; }

   /// @returns address in the inferiors address space containing the linked
   /// list of shared object descriptors.
   lldb::addr_t GetLinkMapAddress() const { return m_current.map_addr; }

   /// A breakpoint should be set at this address and Resolve called on each
   /// hit.
   ///
   /// @returns the address of a function called by the runtime linker each
   /// time a module is loaded/unloaded, or about to be loaded/unloaded.
   ///
   /// @see Resolve()
   lldb::addr_t GetBreakAddress() const { return m_current.brk; }

   /// In hexagon it is possible that we can know the dyld breakpoint without
   /// having to find it from the rendezvous structure
   ///
   void SetBreakAddress(lldb::addr_t addr) { m_current.brk = addr; }

   /// Returns the current state of the rendezvous structure.
   uint64_t GetState() const { return m_current.state; }

   /// @returns the base address of the runtime linker in the inferiors address
   /// space.
   lldb::addr_t GetLDBase() const { return m_current.ldbase; }

   /// @returns the thread layout metadata from the inferiors thread library.
   const ThreadInfo &GetThreadInfo();

   /// @returns true if modules have been loaded into the inferior since the
   /// last call to Resolve().
   bool ModulesDidLoad() const { return !m_added_soentries.empty(); }

   /// @returns true if modules have been unloaded from the inferior since the
   /// last call to Resolve().
   bool ModulesDidUnload() const { return !m_removed_soentries.empty(); }

   void DumpToLog(lldb_private::Log *log) const;

   /// Constants describing the state of the rendezvous.
   ///
   /// @see GetState().
   enum RendezvousState {
     eConsistent = 0,
     eAdd,
     eDelete,
   };

   /// Structure representing the shared objects currently loaded into the
   /// inferior process.
   ///
   /// This object is a rough analogue to the struct link_map object which
   /// actually lives in the inferiors memory.
   struct SOEntry {
     lldb::addr_t link_addr; ///< Address of this link_map.
     lldb::addr_t base_addr; ///< Base address of the loaded object.
     lldb::addr_t path_addr; ///< String naming the shared object.
     lldb::addr_t dyn_addr;  ///< Dynamic section of shared object.
     lldb::addr_t next;      ///< Address of next so_entry.
     lldb::addr_t prev;      ///< Address of previous so_entry.
     std::string path;       ///< File name of shared object.

     SOEntry() { clear(); }

     bool operator==(const SOEntry &entry) { return this->path == entry.path; }

     void clear() {
       link_addr = 0;
       base_addr = 0;
       path_addr = 0;
       dyn_addr = 0;
       next = 0;
       prev = 0;
       path.clear();
     }
   };

 protected:
   typedef std::list<SOEntry> SOEntryList;

 public:
   typedef SOEntryList::const_iterator iterator;

   /// Iterators over all currently loaded modules.
   iterator begin() const { return m_soentries.begin(); }
   iterator end() const { return m_soentries.end(); }

   /// Iterators over all modules loaded into the inferior since the last call
   /// to Resolve().
   iterator loaded_begin() const { return m_added_soentries.begin(); }
   iterator loaded_end() const { return m_added_soentries.end(); }

   /// Iterators over all modules unloaded from the inferior since the last
   /// call to Resolve().
   iterator unloaded_begin() const { return m_removed_soentries.begin(); }
   iterator unloaded_end() const { return m_removed_soentries.end(); }

 protected:
   lldb_private::Process *m_process;

   // Cached copy of executable pathname
   char m_exe_path[PATH_MAX];

   /// Location of the r_debug structure in the inferiors address space.
   lldb::addr_t m_rendezvous_addr;

   /// Current and previous snapshots of the rendezvous structure.
   Rendezvous m_current;
   Rendezvous m_previous;

   /// List of SOEntry objects corresponding to the current link map state.
   SOEntryList m_soentries;

   /// List of SOEntry's added to the link map since the last call to
   /// Resolve().
   SOEntryList m_added_soentries;

   /// List of SOEntry's removed from the link map since the last call to
   /// Resolve().
   SOEntryList m_removed_soentries;

   /// Threading metadata read from the inferior.
   ThreadInfo m_thread_info;

   /// Reads an unsigned integer of @p size bytes from the inferior's address
   /// space starting at @p addr.
   ///
   /// @returns addr + size if the read was successful and false otherwise.
   lldb::addr_t ReadWord(lldb::addr_t addr, uint64_t *dst, size_t size);

   /// Reads an address from the inferior's address space starting at @p addr.
   ///
   /// @returns addr + target address size if the read was successful and
   /// 0 otherwise.
   lldb::addr_t ReadPointer(lldb::addr_t addr, lldb::addr_t *dst);

   /// Reads a null-terminated C string from the memory location starting at @p
   /// addr.
   std::string ReadStringFromMemory(lldb::addr_t addr);

   /// Reads an SOEntry starting at @p addr.
   bool ReadSOEntryFromMemory(lldb::addr_t addr, SOEntry &entry);

   /// Updates the current set of SOEntries, the set of added entries, and the
   /// set of removed entries.
   bool UpdateSOEntries();

   bool UpdateSOEntriesForAddition();

   bool UpdateSOEntriesForDeletion();

   /// Reads the current list of shared objects according to the link map
   /// supplied by the runtime linker.
   bool TakeSnapshot(SOEntryList &entry_list);

   enum PThreadField { eSize, eNElem, eOffset };

   bool FindMetadata(const char *name, PThreadField field, uint32_t &value);
 };

 #endif // liblldb_HexagonDYLDRendezvous_H_
	//===-- HexagonDYLDRendezvous.h ---------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef liblldb_HexagonDYLDRendezvous_H_
	#define liblldb_HexagonDYLDRendezvous_H_

	// C Includes
	#include <limits.h> // for PATH_MAX
	// C++ Includes
	#include <list>
	#include <map>
	#include <string>

	// Other libraries and framework includes
	#include "lldb/lldb-defines.h"
	#include "lldb/lldb-types.h"

	namespace lldb_private {
	class Process;
	}

	/// @class HexagonDYLDRendezvous
	/// Interface to the runtime linker.
	///
	/// A structure is present in a processes memory space which is updated by the
	/// runtime liker each time a module is loaded or unloaded. This class
	/// provides an interface to this structure and maintains a consistent
	/// snapshot of the currently loaded modules.
	class HexagonDYLDRendezvous {

	// This structure is used to hold the contents of the debug rendezvous
	// information (struct r_debug) as found in the inferiors memory. Note that
	// the layout of this struct is not binary compatible, it is simply large
	// enough to hold the information on both 32 and 64 bit platforms.
	struct Rendezvous {
	uint64_t version;
	lldb::addr_t map_addr;
	lldb::addr_t brk;
	uint64_t state;
	lldb::addr_t ldbase;

	Rendezvous()
	: version(0), map_addr(LLDB_INVALID_ADDRESS), brk(LLDB_INVALID_ADDRESS),
	state(0), ldbase(0) {}
	};

	public:
	// Various metadata supplied by the inferior's threading library to describe
	// the per-thread state.
	struct ThreadInfo {
	bool valid; // whether we read valid metadata
	uint32_t dtv_offset; // offset of DTV pointer within pthread
	uint32_t dtv_slot_size; // size of one DTV slot
	uint32_t modid_offset; // offset of module ID within link_map
	uint32_t tls_offset; // offset of TLS pointer within DTV slot
	};

	HexagonDYLDRendezvous(lldb_private::Process *process);

	/// Update the internal snapshot of runtime linker rendezvous and recompute
	/// the currently loaded modules.
	///
	/// This method should be called once one start up, then once each time the
	/// runtime linker enters the function given by GetBreakAddress().
	///
	/// @returns true on success and false on failure.
	///
	/// @see GetBreakAddress().
	bool Resolve();

	/// @returns true if this rendezvous has been located in the inferiors
	/// address space and false otherwise.
	bool IsValid();

	/// @returns the address of the rendezvous structure in the inferiors
	/// address space.
	lldb::addr_t GetRendezvousAddress() const { return m_rendezvous_addr; }

	/// Provide the dyld structure address
	void SetRendezvousAddress(lldb::addr_t);

	/// @returns the version of the rendezvous protocol being used.
	uint64_t GetVersion() const { return m_current.version; }

	/// @returns address in the inferiors address space containing the linked
	/// list of shared object descriptors.
	lldb::addr_t GetLinkMapAddress() const { return m_current.map_addr; }

	/// A breakpoint should be set at this address and Resolve called on each
	/// hit.
	///
	/// @returns the address of a function called by the runtime linker each
	/// time a module is loaded/unloaded, or about to be loaded/unloaded.
	///
	/// @see Resolve()
	lldb::addr_t GetBreakAddress() const { return m_current.brk; }

	/// In hexagon it is possible that we can know the dyld breakpoint without
	/// having to find it from the rendezvous structure
	///
	void SetBreakAddress(lldb::addr_t addr) { m_current.brk = addr; }

	/// Returns the current state of the rendezvous structure.
	uint64_t GetState() const { return m_current.state; }

	/// @returns the base address of the runtime linker in the inferiors address
	/// space.
	lldb::addr_t GetLDBase() const { return m_current.ldbase; }

	/// @returns the thread layout metadata from the inferiors thread library.
	const ThreadInfo &GetThreadInfo();

	/// @returns true if modules have been loaded into the inferior since the
	/// last call to Resolve().
	bool ModulesDidLoad() const { return !m_added_soentries.empty(); }

	/// @returns true if modules have been unloaded from the inferior since the
	/// last call to Resolve().
	bool ModulesDidUnload() const { return !m_removed_soentries.empty(); }

	void DumpToLog(lldb_private::Log *log) const;

	/// Constants describing the state of the rendezvous.
	///
	/// @see GetState().
	enum RendezvousState {
	eConsistent = 0,
	eAdd,
	eDelete,
	};

	/// Structure representing the shared objects currently loaded into the
	/// inferior process.
	///
	/// This object is a rough analogue to the struct link_map object which
	/// actually lives in the inferiors memory.
	struct SOEntry {
	lldb::addr_t link_addr; ///< Address of this link_map.
	lldb::addr_t base_addr; ///< Base address of the loaded object.
	lldb::addr_t path_addr; ///< String naming the shared object.
	lldb::addr_t dyn_addr; ///< Dynamic section of shared object.
	lldb::addr_t next; ///< Address of next so_entry.
	lldb::addr_t prev; ///< Address of previous so_entry.
	std::string path; ///< File name of shared object.

	SOEntry() { clear(); }

	bool operator==(const SOEntry &entry) { return this->path == entry.path; }

	void clear() {
	link_addr = 0;
	base_addr = 0;
	path_addr = 0;
	dyn_addr = 0;
	next = 0;
	prev = 0;
	path.clear();
	}
	};

	protected:
	typedef std::list<SOEntry> SOEntryList;

	public:
	typedef SOEntryList::const_iterator iterator;

	/// Iterators over all currently loaded modules.
	iterator begin() const { return m_soentries.begin(); }
	iterator end() const { return m_soentries.end(); }

	/// Iterators over all modules loaded into the inferior since the last call
	/// to Resolve().
	iterator loaded_begin() const { return m_added_soentries.begin(); }
	iterator loaded_end() const { return m_added_soentries.end(); }

	/// Iterators over all modules unloaded from the inferior since the last
	/// call to Resolve().
	iterator unloaded_begin() const { return m_removed_soentries.begin(); }
	iterator unloaded_end() const { return m_removed_soentries.end(); }

	protected:
	lldb_private::Process *m_process;

	// Cached copy of executable pathname
	char m_exe_path[PATH_MAX];

	/// Location of the r_debug structure in the inferiors address space.
	lldb::addr_t m_rendezvous_addr;

	/// Current and previous snapshots of the rendezvous structure.
	Rendezvous m_current;
	Rendezvous m_previous;

	/// List of SOEntry objects corresponding to the current link map state.
	SOEntryList m_soentries;

	/// List of SOEntry's added to the link map since the last call to
	/// Resolve().
	SOEntryList m_added_soentries;

	/// List of SOEntry's removed from the link map since the last call to
	/// Resolve().
	SOEntryList m_removed_soentries;

	/// Threading metadata read from the inferior.
	ThreadInfo m_thread_info;

	/// Reads an unsigned integer of @p size bytes from the inferior's address
	/// space starting at @p addr.
	///
	/// @returns addr + size if the read was successful and false otherwise.
	lldb::addr_t ReadWord(lldb::addr_t addr, uint64_t *dst, size_t size);

	/// Reads an address from the inferior's address space starting at @p addr.
	///
	/// @returns addr + target address size if the read was successful and
	/// 0 otherwise.
	lldb::addr_t ReadPointer(lldb::addr_t addr, lldb::addr_t *dst);

	/// Reads a null-terminated C string from the memory location starting at @p
	/// addr.
	std::string ReadStringFromMemory(lldb::addr_t addr);

	/// Reads an SOEntry starting at @p addr.
	bool ReadSOEntryFromMemory(lldb::addr_t addr, SOEntry &entry);

	/// Updates the current set of SOEntries, the set of added entries, and the
	/// set of removed entries.
	bool UpdateSOEntries();

	bool UpdateSOEntriesForAddition();

	bool UpdateSOEntriesForDeletion();

	/// Reads the current list of shared objects according to the link map
	/// supplied by the runtime linker.
	bool TakeSnapshot(SOEntryList &entry_list);

	enum PThreadField { eSize, eNElem, eOffset };

	bool FindMetadata(const char *name, PThreadField field, uint32_t &value);
	};

	#endif // liblldb_HexagonDYLDRendezvous_H_