gcc/analyzer/program-state.h - gcc - Git at Google

 /* Classes for representing the state of interest at a given path of analysis.
    Copyright (C) 2019-2022 Free Software Foundation, Inc.
    Contributed by David Malcolm <dmalcolm@redhat.com>.

 This file is part of GCC.

 GCC is free software; you can redistribute it and/or modify it
 under the terms of the GNU General Public License as published by
 the Free Software Foundation; either version 3, or (at your option)
 any later version.

 GCC is distributed in the hope that it will be useful, but
 WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 #ifndef GCC_ANALYZER_PROGRAM_STATE_H
 #define GCC_ANALYZER_PROGRAM_STATE_H

 namespace ana {

 /* Data shared by all program_state instances.  */

 class extrinsic_state
 {
 public:
   extrinsic_state (auto_delete_vec <state_machine> &checkers,
 		   engine *eng,
 		   logger *logger = NULL)
   : m_checkers (checkers), m_logger (logger), m_engine (eng)
   {
   }

   const state_machine &get_sm (int idx) const
   {
     return *m_checkers[idx];
   }

   const char *get_name (int idx) const
   {
     return m_checkers[idx]->get_name ();
   }

   unsigned get_num_checkers () const { return m_checkers.length (); }

   logger *get_logger () const { return m_logger; }

   void dump_to_pp (pretty_printer *pp) const;
   void dump_to_file (FILE *outf) const;
   void dump () const;

   json::object *to_json () const;

   engine *get_engine () const { return m_engine; }
   region_model_manager *get_model_manager () const;

   bool get_sm_idx_by_name (const char *name, unsigned *out) const;

 private:
   /* The state machines.  */
   auto_delete_vec <state_machine> &m_checkers;

   logger *m_logger;
   engine *m_engine;
 };

 /* Map from svalue * to state machine state, also capturing the origin of
    each state.  */

 class sm_state_map
 {
 public:
   /* An entry in the hash_map.  */
   struct entry_t
   {
     /* Default ctor needed by hash_map::empty.  */
     entry_t ()
     : m_state (0), m_origin (NULL)
     {
     }

     entry_t (state_machine::state_t state,
 	     const svalue *origin)
     : m_state (state), m_origin (origin)
     {}

     bool operator== (const entry_t &other) const
     {
       return (m_state == other.m_state
 	      && m_origin == other.m_origin);
     }
     bool operator!= (const entry_t &other) const
     {
       return !(*this == other);
     }

     static int cmp (const entry_t &entry_a, const entry_t &entry_b);

     state_machine::state_t m_state;
     const svalue *m_origin;
   };
   typedef hash_map <const svalue *, entry_t> map_t;
   typedef map_t::iterator iterator_t;

   sm_state_map (const state_machine &sm);

   sm_state_map *clone () const;

   void print (const region_model *model,
 	      bool simple, bool multiline,
 	      pretty_printer *pp) const;
   void dump (bool simple) const;

   json::object *to_json () const;

   bool is_empty_p () const;

   hashval_t hash () const;

   bool operator== (const sm_state_map &other) const;
   bool operator!= (const sm_state_map &other) const
   {
     return !(*this == other);
   }

   state_machine::state_t get_state (const svalue *sval,
 				    const extrinsic_state &ext_state) const;
   const svalue *get_origin (const svalue *sval,
 			    const extrinsic_state &ext_state) const;

   void set_state (region_model *model,
 		  const svalue *sval,
 		  state_machine::state_t state,
 		  const svalue *origin,
 		  const extrinsic_state &ext_state);
   bool set_state (const equiv_class &ec,
 		  state_machine::state_t state,
 		  const svalue *origin,
 		  const extrinsic_state &ext_state);
   bool impl_set_state (const svalue *sval,
 		       state_machine::state_t state,
 		       const svalue *origin,
 		       const extrinsic_state &ext_state);

   void set_global_state (state_machine::state_t state);
   state_machine::state_t get_global_state () const;

   void on_svalue_leak (const svalue *sval,
 		       impl_region_model_context *ctxt);
   void on_liveness_change (const svalue_set &live_svalues,
 			   const region_model *model,
 			   impl_region_model_context *ctxt);

   void on_unknown_change (const svalue *sval,
 			  bool is_mutable,
 			  const extrinsic_state &ext_state);

   void purge_state_involving (const svalue *sval,
 			      const extrinsic_state &ext_state);

   iterator_t begin () const { return m_map.begin (); }
   iterator_t end () const { return m_map.end (); }
   size_t elements () const { return m_map.elements (); }

   static int cmp (const sm_state_map &smap_a, const sm_state_map &smap_b);

   static const svalue *
   canonicalize_svalue (const svalue *sval, const extrinsic_state &ext_state);

 private:
   const state_machine &m_sm;
   map_t m_map;
   state_machine::state_t m_global_state;
 };

 /* A class for representing the state of interest at a given path of
    analysis.

    Currently this is a combination of:
    (a) a region_model, giving:
       (a.1) a hierarchy of memory regions
       (a.2) values for the regions
       (a.3) inequalities between values
    (b) sm_state_maps per state machine, giving a sparse mapping of
        values to states.  */

 class program_state
 {
 public:
   program_state (const extrinsic_state &ext_state);
   program_state (const program_state &other);
   program_state& operator= (const program_state &other);
   program_state (program_state &&other);
   ~program_state ();

   hashval_t hash () const;
   bool operator== (const program_state &other) const;
   bool operator!= (const program_state &other) const
   {
     return !(*this == other);
   }

   void print (const extrinsic_state &ext_state,
 	      pretty_printer *pp) const;

   void dump_to_pp (const extrinsic_state &ext_state, bool simple,
 		   bool multiline, pretty_printer *pp) const;
   void dump_to_file (const extrinsic_state &ext_state, bool simple,
 		     bool multiline, FILE *outf) const;
   void dump (const extrinsic_state &ext_state, bool simple) const;

   json::object *to_json (const extrinsic_state &ext_state) const;

   void push_frame (const extrinsic_state &ext_state, function *fun);
   function * get_current_function () const;

   void push_call (exploded_graph &eg,
 		  exploded_node *enode,
 		  const gcall *call_stmt,
 		  uncertainty_t *uncertainty);

   void returning_call (exploded_graph &eg,
 		       exploded_node *enode,
 		       const gcall *call_stmt,
 		       uncertainty_t *uncertainty);


   bool on_edge (exploded_graph &eg,
 		exploded_node *enode,
 		const superedge *succ,
 		uncertainty_t *uncertainty);

   program_state prune_for_point (exploded_graph &eg,
 				 const program_point &point,
 				 exploded_node *enode_for_diag,
 				 uncertainty_t *uncertainty) const;

   tree get_representative_tree (const svalue *sval) const;

   bool can_purge_p (const extrinsic_state &ext_state,
 		    const svalue *sval) const
   {
     /* Don't purge vars that have non-purgeable sm state, to avoid
        generating false "leak" complaints.  */
     int i;
     sm_state_map *smap;
     FOR_EACH_VEC_ELT (m_checker_states, i, smap)
       {
 	const state_machine &sm = ext_state.get_sm (i);
 	if (!sm.can_purge_p (smap->get_state (sval, ext_state)))
 	  return false;
       }
     return true;
   }

   bool can_purge_base_region_p (const extrinsic_state &ext_state,
 				const region *base_reg) const;

   bool can_merge_with_p (const program_state &other,
 			 const extrinsic_state &ext_state,
 			 const program_point &point,
 			 program_state *out) const;

   void validate (const extrinsic_state &ext_state) const;

   static void detect_leaks (const program_state &src_state,
 			    const program_state &dest_state,
 			    const svalue *extra_sval,
 			    const extrinsic_state &ext_state,
 			    region_model_context *ctxt);

   void impl_call_analyzer_dump_state (const gcall *call,
 				      const extrinsic_state &ext_state,
 				      region_model_context *ctxt);

   /* TODO: lose the pointer here (const-correctness issues?).  */
   region_model *m_region_model;
   auto_delete_vec<sm_state_map> m_checker_states;

   /* If false, then don't attempt to explore further states along this path.
      For use in "handling" lvalues for tree codes we haven't yet
      implemented.  */
   bool m_valid;
 };

 /* An abstract base class for use with for_each_state_change.  */

 class state_change_visitor
 {
 public:
   virtual ~state_change_visitor () {}

   /* Return true for early exit, false to keep iterating.  */
   virtual bool on_global_state_change (const state_machine &sm,
 				       state_machine::state_t src_sm_val,
 				       state_machine::state_t dst_sm_val) = 0;

   /* Return true for early exit, false to keep iterating.  */
   virtual bool on_state_change (const state_machine &sm,
 				state_machine::state_t src_sm_val,
 				state_machine::state_t dst_sm_val,
 				const svalue *dst_sval,
 				const svalue *dst_origin_sval) = 0;
 };

 extern bool for_each_state_change (const program_state &src_state,
 				    const program_state &dst_state,
 				    const extrinsic_state &ext_state,
 				    state_change_visitor *visitor);

 } // namespace ana

 #endif /* GCC_ANALYZER_PROGRAM_STATE_H */
	/* Classes for representing the state of interest at a given path of analysis.
	Copyright (C) 2019-2022 Free Software Foundation, Inc.
	Contributed by David Malcolm <dmalcolm@redhat.com>.

	This file is part of GCC.

	GCC is free software; you can redistribute it and/or modify it
	under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 3, or (at your option)
	any later version.

	GCC is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#ifndef GCC_ANALYZER_PROGRAM_STATE_H
	#define GCC_ANALYZER_PROGRAM_STATE_H

	namespace ana {

	/* Data shared by all program_state instances. */

	class extrinsic_state
	{
	public:
	extrinsic_state (auto_delete_vec <state_machine> &checkers,
	engine *eng,
	logger *logger = NULL)
	: m_checkers (checkers), m_logger (logger), m_engine (eng)
	{
	}

	const state_machine &get_sm (int idx) const
	{
	return *m_checkers[idx];
	}

	const char *get_name (int idx) const
	{
	return m_checkers[idx]->get_name ();
	}

	unsigned get_num_checkers () const { return m_checkers.length (); }

	logger *get_logger () const { return m_logger; }

	void dump_to_pp (pretty_printer *pp) const;
	void dump_to_file (FILE *outf) const;
	void dump () const;

	json::object *to_json () const;

	engine *get_engine () const { return m_engine; }
	region_model_manager *get_model_manager () const;

	bool get_sm_idx_by_name (const char name, unsigned out) const;

	private:
	/* The state machines. */
	auto_delete_vec <state_machine> &m_checkers;

	logger *m_logger;
	engine *m_engine;
	};

	/* Map from svalue * to state machine state, also capturing the origin of
	each state. */

	class sm_state_map
	{
	public:
	/* An entry in the hash_map. */
	struct entry_t
	{
	/* Default ctor needed by hash_map::empty. */
	entry_t ()
	: m_state (0), m_origin (NULL)
	{
	}

	entry_t (state_machine::state_t state,
	const svalue *origin)
	: m_state (state), m_origin (origin)
	{}

	bool operator== (const entry_t &other) const
	{
	return (m_state == other.m_state
	&& m_origin == other.m_origin);
	}
	bool operator!= (const entry_t &other) const
	{
	return !(*this == other);
	}

	static int cmp (const entry_t &entry_a, const entry_t &entry_b);

	state_machine::state_t m_state;
	const svalue *m_origin;
	};
	typedef hash_map <const svalue *, entry_t> map_t;
	typedef map_t::iterator iterator_t;

	sm_state_map (const state_machine &sm);

	sm_state_map *clone () const;

	void print (const region_model *model,
	bool simple, bool multiline,
	pretty_printer *pp) const;
	void dump (bool simple) const;

	json::object *to_json () const;

	bool is_empty_p () const;

	hashval_t hash () const;

	bool operator== (const sm_state_map &other) const;
	bool operator!= (const sm_state_map &other) const
	{
	return !(*this == other);
	}

	state_machine::state_t get_state (const svalue *sval,
	const extrinsic_state &ext_state) const;
	const svalue get_origin (const svalue sval,
	const extrinsic_state &ext_state) const;

	void set_state (region_model *model,
	const svalue *sval,
	state_machine::state_t state,
	const svalue *origin,
	const extrinsic_state &ext_state);
	bool set_state (const equiv_class &ec,
	state_machine::state_t state,
	const svalue *origin,
	const extrinsic_state &ext_state);
	bool impl_set_state (const svalue *sval,
	state_machine::state_t state,
	const svalue *origin,
	const extrinsic_state &ext_state);

	void set_global_state (state_machine::state_t state);
	state_machine::state_t get_global_state () const;

	void on_svalue_leak (const svalue *sval,
	impl_region_model_context *ctxt);
	void on_liveness_change (const svalue_set &live_svalues,
	const region_model *model,
	impl_region_model_context *ctxt);

	void on_unknown_change (const svalue *sval,
	bool is_mutable,
	const extrinsic_state &ext_state);

	void purge_state_involving (const svalue *sval,
	const extrinsic_state &ext_state);

	iterator_t begin () const { return m_map.begin (); }
	iterator_t end () const { return m_map.end (); }
	size_t elements () const { return m_map.elements (); }

	static int cmp (const sm_state_map &smap_a, const sm_state_map &smap_b);

	static const svalue *
	canonicalize_svalue (const svalue *sval, const extrinsic_state &ext_state);

	private:
	const state_machine &m_sm;
	map_t m_map;
	state_machine::state_t m_global_state;
	};

	/* A class for representing the state of interest at a given path of
	analysis.

	Currently this is a combination of:
	(a) a region_model, giving:
	(a.1) a hierarchy of memory regions
	(a.2) values for the regions
	(a.3) inequalities between values
	(b) sm_state_maps per state machine, giving a sparse mapping of
	values to states. */

	class program_state
	{
	public:
	program_state (const extrinsic_state &ext_state);
	program_state (const program_state &other);
	program_state& operator= (const program_state &other);
	program_state (program_state &&other);
	~program_state ();

	hashval_t hash () const;
	bool operator== (const program_state &other) const;
	bool operator!= (const program_state &other) const
	{
	return !(*this == other);
	}

	void print (const extrinsic_state &ext_state,
	pretty_printer *pp) const;

	void dump_to_pp (const extrinsic_state &ext_state, bool simple,
	bool multiline, pretty_printer *pp) const;
	void dump_to_file (const extrinsic_state &ext_state, bool simple,
	bool multiline, FILE *outf) const;
	void dump (const extrinsic_state &ext_state, bool simple) const;

	json::object *to_json (const extrinsic_state &ext_state) const;

	void push_frame (const extrinsic_state &ext_state, function *fun);
	function * get_current_function () const;

	void push_call (exploded_graph &eg,
	exploded_node *enode,
	const gcall *call_stmt,
	uncertainty_t *uncertainty);

	void returning_call (exploded_graph &eg,
	exploded_node *enode,
	const gcall *call_stmt,
	uncertainty_t *uncertainty);


	bool on_edge (exploded_graph &eg,
	exploded_node *enode,
	const superedge *succ,
	uncertainty_t *uncertainty);

	program_state prune_for_point (exploded_graph &eg,
	const program_point &point,
	exploded_node *enode_for_diag,
	uncertainty_t *uncertainty) const;

	tree get_representative_tree (const svalue *sval) const;

	bool can_purge_p (const extrinsic_state &ext_state,
	const svalue *sval) const
	{
	/* Don't purge vars that have non-purgeable sm state, to avoid
	generating false "leak" complaints. */
	int i;
	sm_state_map *smap;
	FOR_EACH_VEC_ELT (m_checker_states, i, smap)
	{
	const state_machine &sm = ext_state.get_sm (i);
	if (!sm.can_purge_p (smap->get_state (sval, ext_state)))
	return false;
	}
	return true;
	}

	bool can_purge_base_region_p (const extrinsic_state &ext_state,
	const region *base_reg) const;

	bool can_merge_with_p (const program_state &other,
	const extrinsic_state &ext_state,
	const program_point &point,
	program_state *out) const;

	void validate (const extrinsic_state &ext_state) const;

	static void detect_leaks (const program_state &src_state,
	const program_state &dest_state,
	const svalue *extra_sval,
	const extrinsic_state &ext_state,
	region_model_context *ctxt);

	void impl_call_analyzer_dump_state (const gcall *call,
	const extrinsic_state &ext_state,
	region_model_context *ctxt);

	/* TODO: lose the pointer here (const-correctness issues?). */
	region_model *m_region_model;
	auto_delete_vec<sm_state_map> m_checker_states;

	/* If false, then don't attempt to explore further states along this path.
	For use in "handling" lvalues for tree codes we haven't yet
	implemented. */
	bool m_valid;
	};

	/* An abstract base class for use with for_each_state_change. */

	class state_change_visitor
	{
	public:
	virtual ~state_change_visitor () {}

	/* Return true for early exit, false to keep iterating. */
	virtual bool on_global_state_change (const state_machine &sm,
	state_machine::state_t src_sm_val,
	state_machine::state_t dst_sm_val) = 0;

	/* Return true for early exit, false to keep iterating. */
	virtual bool on_state_change (const state_machine &sm,
	state_machine::state_t src_sm_val,
	state_machine::state_t dst_sm_val,
	const svalue *dst_sval,
	const svalue *dst_origin_sval) = 0;
	};

	extern bool for_each_state_change (const program_state &src_state,
	const program_state &dst_state,
	const extrinsic_state &ext_state,
	state_change_visitor *visitor);

	} // namespace ana

	#endif /* GCC_ANALYZER_PROGRAM_STATE_H */