/* Subclasses of diagnostic_path and diagnostic_event for analyzer diagnostics. Copyright (C) 2019-2020 Free Software Foundation, Inc. Contributed by David Malcolm . 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 . */ #ifndef GCC_ANALYZER_CHECKER_PATH_H #define GCC_ANALYZER_CHECKER_PATH_H namespace ana { /* An enum for discriminating between the concrete subclasses of checker_event. */ enum event_kind { EK_DEBUG, EK_CUSTOM, EK_STMT, EK_FUNCTION_ENTRY, EK_STATE_CHANGE, EK_START_CFG_EDGE, EK_END_CFG_EDGE, EK_CALL_EDGE, EK_RETURN_EDGE, EK_SETJMP, EK_REWIND_FROM_LONGJMP, EK_REWIND_TO_SETJMP, EK_WARNING }; extern const char *event_kind_to_string (enum event_kind ek); /* Event subclasses. The class hierarchy looks like this (using indentation to show inheritance, and with event_kinds shown for the concrete subclasses): diagnostic_event checker_event debug_event (EK_DEBUG) custom_event (EK_CUSTOM) statement_event (EK_STMT) function_entry_event (EK_FUNCTION_ENTRY) state_change_event (EK_STATE_CHANGE) superedge_event cfg_edge_event start_cfg_edge_event (EK_START_CFG_EDGE) end_cfg_edge_event (EK_END_CFG_EDGE) call_event (EK_CALL_EDGE) return_edge (EK_RETURN_EDGE) setjmp_event (EK_SETJMP) rewind_event rewind_from_longjmp_event (EK_REWIND_FROM_LONGJMP) rewind_to_setjmp_event (EK_REWIND_TO_SETJMP) warning_event (EK_WARNING). */ /* Abstract subclass of diagnostic_event; the base class for use in checker_path (the analyzer's diagnostic_path subclass). */ class checker_event : public diagnostic_event { public: checker_event (enum event_kind kind, location_t loc, tree fndecl, int depth) : m_kind (kind), m_loc (loc), m_fndecl (fndecl), m_depth (depth), m_pending_diagnostic (NULL), m_emission_id () { } /* Implementation of diagnostic_event. */ location_t get_location () const FINAL OVERRIDE { return m_loc; } tree get_fndecl () const FINAL OVERRIDE { return m_fndecl; } int get_stack_depth () const FINAL OVERRIDE { return m_depth; } /* Additional functionality. */ virtual void prepare_for_emission (checker_path *, pending_diagnostic *pd, diagnostic_event_id_t emission_id); virtual bool is_call_p () const { return false; } virtual bool is_function_entry_p () const { return false; } virtual bool is_return_p () const { return false; } void dump (pretty_printer *pp) const; public: const enum event_kind m_kind; protected: location_t m_loc; tree m_fndecl; int m_depth; pending_diagnostic *m_pending_diagnostic; diagnostic_event_id_t m_emission_id; // only set once all pruning has occurred }; /* A concrete event subclass for a purely textual event, for use in debugging path creation and filtering. */ class debug_event : public checker_event { public: debug_event (location_t loc, tree fndecl, int depth, const char *desc) : checker_event (EK_DEBUG, loc, fndecl, depth), m_desc (xstrdup (desc)) { } ~debug_event () { free (m_desc); } label_text get_desc (bool) const FINAL OVERRIDE; private: char *m_desc; }; /* A concrete event subclass for custom events. These are not filtered, as they are likely to be pertinent to the diagnostic. */ class custom_event : public checker_event { public: custom_event (location_t loc, tree fndecl, int depth, const char *desc) : checker_event (EK_CUSTOM, loc, fndecl, depth), m_desc (xstrdup (desc)) { } ~custom_event () { free (m_desc); } label_text get_desc (bool) const FINAL OVERRIDE; private: char *m_desc; }; /* A concrete event subclass describing the execution of a gimple statement, for use at high verbosity levels when debugging paths. */ class statement_event : public checker_event { public: statement_event (const gimple *stmt, tree fndecl, int depth, const program_state &dst_state); label_text get_desc (bool) const FINAL OVERRIDE; const gimple * const m_stmt; const program_state m_dst_state; }; /* An event subclass describing the entry to a function. */ class function_entry_event : public checker_event { public: function_entry_event (location_t loc, tree fndecl, int depth) : checker_event (EK_FUNCTION_ENTRY, loc, fndecl, depth) { } label_text get_desc (bool can_colorize) const FINAL OVERRIDE; bool is_function_entry_p () const FINAL OVERRIDE { return true; } }; /* Subclass of checker_event describing a state change. */ class state_change_event : public checker_event { public: state_change_event (const supernode *node, const gimple *stmt, int stack_depth, const state_machine &sm, tree var, state_machine::state_t from, state_machine::state_t to, tree origin, const program_state &dst_state); label_text get_desc (bool can_colorize) const FINAL OVERRIDE; region_id get_lvalue (tree expr, region_model_context *ctxt) const { return m_dst_state.m_region_model->get_lvalue (expr, ctxt); } const supernode *m_node; const gimple *m_stmt; const state_machine &m_sm; tree m_var; state_machine::state_t m_from; state_machine::state_t m_to; tree m_origin; program_state m_dst_state; }; /* Subclass of checker_event; parent class for subclasses that relate to a superedge. */ class superedge_event : public checker_event { public: /* Mark this edge event as being either an interprocedural call or return in which VAR is in STATE, and that this is critical to the diagnostic (so that get_desc can attempt to get a better description from any pending_diagnostic). */ void record_critical_state (tree var, state_machine::state_t state) { m_var = var; m_critical_state = state; } const callgraph_superedge& get_callgraph_superedge () const; bool should_filter_p (int verbosity) const; protected: superedge_event (enum event_kind kind, const exploded_edge &eedge, location_t loc, tree fndecl, int depth); public: const exploded_edge &m_eedge; const superedge *m_sedge; tree m_var; state_machine::state_t m_critical_state; }; /* An abstract event subclass for when a CFG edge is followed; it has two subclasses, representing the start of the edge and the end of the edge, which come in pairs. */ class cfg_edge_event : public superedge_event { public: const cfg_superedge& get_cfg_superedge () const; protected: cfg_edge_event (enum event_kind kind, const exploded_edge &eedge, location_t loc, tree fndecl, int depth); }; /* A concrete event subclass for the start of a CFG edge e.g. "following 'false' branch...'. */ class start_cfg_edge_event : public cfg_edge_event { public: start_cfg_edge_event (const exploded_edge &eedge, location_t loc, tree fndecl, int depth) : cfg_edge_event (EK_START_CFG_EDGE, eedge, loc, fndecl, depth) { } label_text get_desc (bool can_colorize) const FINAL OVERRIDE; private: label_text maybe_describe_condition (bool can_colorize) const; static label_text maybe_describe_condition (bool can_colorize, tree lhs, enum tree_code op, tree rhs); static bool should_print_expr_p (tree); }; /* A concrete event subclass for the end of a CFG edge e.g. "...to here'. */ class end_cfg_edge_event : public cfg_edge_event { public: end_cfg_edge_event (const exploded_edge &eedge, location_t loc, tree fndecl, int depth) : cfg_edge_event (EK_END_CFG_EDGE, eedge, loc, fndecl, depth) { } label_text get_desc (bool /*can_colorize*/) const FINAL OVERRIDE { return label_text::borrow ("...to here"); } }; /* A concrete event subclass for an interprocedural call. */ class call_event : public superedge_event { public: call_event (const exploded_edge &eedge, location_t loc, tree fndecl, int depth); label_text get_desc (bool can_colorize) const FINAL OVERRIDE; bool is_call_p () const FINAL OVERRIDE; }; /* A concrete event subclass for an interprocedural return. */ class return_event : public superedge_event { public: return_event (const exploded_edge &eedge, location_t loc, tree fndecl, int depth); label_text get_desc (bool can_colorize) const FINAL OVERRIDE; bool is_return_p () const FINAL OVERRIDE; }; /* A concrete event subclass for a setjmp or sigsetjmp call. */ class setjmp_event : public checker_event { public: setjmp_event (location_t loc, const exploded_node *enode, tree fndecl, int depth, const gcall *setjmp_call) : checker_event (EK_SETJMP, loc, fndecl, depth), m_enode (enode), m_setjmp_call (setjmp_call) { } label_text get_desc (bool can_colorize) const FINAL OVERRIDE; void prepare_for_emission (checker_path *path, pending_diagnostic *pd, diagnostic_event_id_t emission_id) FINAL OVERRIDE; private: const exploded_node *m_enode; const gcall *m_setjmp_call; }; /* An abstract event subclass for rewinding from a longjmp to a setjmp (or siglongjmp to sigsetjmp). Base class for two from/to subclasses, showing the two halves of the rewind. */ class rewind_event : public checker_event { public: tree get_longjmp_caller () const; tree get_setjmp_caller () const; const exploded_edge *get_eedge () const { return m_eedge; } protected: rewind_event (const exploded_edge *eedge, enum event_kind kind, location_t loc, tree fndecl, int depth, const rewind_info_t *rewind_info); const rewind_info_t *m_rewind_info; private: const exploded_edge *m_eedge; }; /* A concrete event subclass for rewinding from a longjmp to a setjmp, showing the longjmp (or siglongjmp). */ class rewind_from_longjmp_event : public rewind_event { public: rewind_from_longjmp_event (const exploded_edge *eedge, location_t loc, tree fndecl, int depth, const rewind_info_t *rewind_info) : rewind_event (eedge, EK_REWIND_FROM_LONGJMP, loc, fndecl, depth, rewind_info) { } label_text get_desc (bool can_colorize) const FINAL OVERRIDE; }; /* A concrete event subclass for rewinding from a longjmp to a setjmp, showing the setjmp (or sigsetjmp). */ class rewind_to_setjmp_event : public rewind_event { public: rewind_to_setjmp_event (const exploded_edge *eedge, location_t loc, tree fndecl, int depth, const rewind_info_t *rewind_info) : rewind_event (eedge, EK_REWIND_TO_SETJMP, loc, fndecl, depth, rewind_info) { } label_text get_desc (bool can_colorize) const FINAL OVERRIDE; void prepare_for_emission (checker_path *path, pending_diagnostic *pd, diagnostic_event_id_t emission_id) FINAL OVERRIDE; private: diagnostic_event_id_t m_original_setjmp_event_id; }; /* Concrete subclass of checker_event for use at the end of a path: a repeat of the warning message at the end of the path (perhaps with references to pertinent events that occurred on the way), at the point where the problem occurs. */ class warning_event : public checker_event { public: warning_event (location_t loc, tree fndecl, int depth, const state_machine *sm, tree var, state_machine::state_t state) : checker_event (EK_WARNING, loc, fndecl, depth), m_sm (sm), m_var (var), m_state (state) { } label_text get_desc (bool can_colorize) const FINAL OVERRIDE; private: const state_machine *m_sm; tree m_var; state_machine::state_t m_state; }; /* Subclass of diagnostic_path for analyzer diagnostics. */ class checker_path : public diagnostic_path { public: checker_path () : diagnostic_path () {} /* Implementation of diagnostic_path vfuncs. */ unsigned num_events () const FINAL OVERRIDE { return m_events.length (); } const diagnostic_event & get_event (int idx) const FINAL OVERRIDE { return *m_events[idx]; } checker_event *get_checker_event (int idx) { return m_events[idx]; } void dump (pretty_printer *pp) const; void debug () const; void maybe_log (logger *logger, const char *desc) const; void add_event (checker_event *event) { m_events.safe_push (event); } void delete_event (int idx) { checker_event *event = m_events[idx]; m_events.ordered_remove (idx); delete event; } void add_final_event (const state_machine *sm, const exploded_node *enode, const gimple *stmt, tree var, state_machine::state_t state); /* After all event-pruning, a hook for notifying each event what its ID will be. The events are notified in order, allowing for later events to refer to the IDs of earlier events in their descriptions. */ void prepare_for_emission (pending_diagnostic *pd) { checker_event *e; int i; FOR_EACH_VEC_ELT (m_events, i, e) e->prepare_for_emission (this, pd, diagnostic_event_id_t (i)); } void record_setjmp_event (const exploded_node *enode, diagnostic_event_id_t setjmp_emission_id) { m_setjmp_event_ids.put (enode, setjmp_emission_id); } bool get_setjmp_event (const exploded_node *enode, diagnostic_event_id_t *out_emission_id) { if (diagnostic_event_id_t *emission_id = m_setjmp_event_ids.get (enode)) { *out_emission_id = *emission_id; return true; } return false; } private: DISABLE_COPY_AND_ASSIGN(checker_path); /* The events that have occurred along this path. */ auto_delete_vec m_events; /* During prepare_for_emission (and after), the setjmp_event for each exploded_node *, so that rewind events can refer to them in their descriptions. */ hash_map m_setjmp_event_ids; }; } // namespace ana #endif /* GCC_ANALYZER_CHECKER_PATH_H */