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/* Subclasses of diagnostic_event for analyzer diagnostics.
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/>. */
#include "config.h"
#define INCLUDE_MEMORY
#include "system.h"
#include "coretypes.h"
#include "tree.h"
#include "function.h"
#include "basic-block.h"
#include "gimple.h"
#include "diagnostic-core.h"
#include "gimple-pretty-print.h"
#include "fold-const.h"
#include "diagnostic-path.h"
#include "options.h"
#include "cgraph.h"
#include "cfg.h"
#include "digraph.h"
#include "diagnostic-event-id.h"
#include "analyzer/analyzer.h"
#include "analyzer/analyzer-logging.h"
#include "analyzer/sm.h"
#include "sbitmap.h"
#include "bitmap.h"
#include "ordered-hash-map.h"
#include "analyzer/call-string.h"
#include "analyzer/program-point.h"
#include "analyzer/store.h"
#include "analyzer/region-model.h"
#include "analyzer/program-state.h"
#include "analyzer/checker-path.h"
#include "gimple-iterator.h"
#include "inlining-iterator.h"
#include "analyzer/supergraph.h"
#include "analyzer/pending-diagnostic.h"
#include "analyzer/diagnostic-manager.h"
#include "analyzer/constraint-manager.h"
#include "analyzer/checker-event.h"
#include "analyzer/exploded-graph.h"
#if ENABLE_ANALYZER
namespace ana {
/* Get a string for EK. */
const char *
event_kind_to_string (enum event_kind ek)
{
switch (ek)
{
default:
gcc_unreachable ();
case EK_DEBUG:
return "EK_DEBUG";
case EK_CUSTOM:
return "EK_CUSTOM";
case EK_STMT:
return "EK_STMT";
case EK_REGION_CREATION:
return "EK_REGION_CREATION";
case EK_FUNCTION_ENTRY:
return "EK_FUNCTION_ENTRY";
case EK_STATE_CHANGE:
return "EK_STATE_CHANGE";
case EK_START_CFG_EDGE:
return "EK_START_CFG_EDGE";
case EK_END_CFG_EDGE:
return "EK_END_CFG_EDGE";
case EK_CALL_EDGE:
return "EK_CALL_EDGE";
case EK_RETURN_EDGE:
return "EK_RETURN_EDGE";
case EK_START_CONSOLIDATED_CFG_EDGES:
return "EK_START_CONSOLIDATED_CFG_EDGES";
case EK_END_CONSOLIDATED_CFG_EDGES:
return "EK_END_CONSOLIDATED_CFG_EDGES";
case EK_INLINED_CALL:
return "EK_INLINED_CALL";
case EK_SETJMP:
return "EK_SETJMP";
case EK_REWIND_FROM_LONGJMP:
return "EK_REWIND_FROM_LONGJMP";
case EK_REWIND_TO_SETJMP:
return "EK_REWIND_TO_SETJMP";
case EK_WARNING:
return "EK_WARNING";
}
}
/* A class for fixing up fndecls and stack depths in checker_event, based
on inlining records.
The early inliner runs before the analyzer, which can lead to confusing
output.
Tne base fndecl and depth within a checker_event are from call strings
in program_points, which reflect the call strings after inlining.
This class lets us offset the depth and fix up the reported fndecl and
stack depth to better reflect the user's original code. */
class inlining_info
{
public:
inlining_info (location_t loc)
{
inlining_iterator iter (loc);
m_inner_fndecl = iter.get_fndecl ();
int num_frames = 0;
while (!iter.done_p ())
{
m_outer_fndecl = iter.get_fndecl ();
num_frames++;
iter.next ();
}
if (num_frames > 1)
m_extra_frames = num_frames - 1;
else
m_extra_frames = 0;
}
tree get_inner_fndecl () const { return m_inner_fndecl; }
int get_extra_frames () const { return m_extra_frames; }
private:
tree m_outer_fndecl;
tree m_inner_fndecl;
int m_extra_frames;
};
/* class checker_event : public diagnostic_event. */
/* checker_event's ctor. */
checker_event::checker_event (enum event_kind kind,
location_t loc, tree fndecl, int depth)
: m_kind (kind), m_loc (loc),
m_original_fndecl (fndecl), m_effective_fndecl (fndecl),
m_original_depth (depth), m_effective_depth (depth),
m_pending_diagnostic (NULL), m_emission_id (),
m_logical_loc (fndecl)
{
/* Update effective fndecl and depth if inlining has been recorded. */
if (flag_analyzer_undo_inlining)
{
inlining_info info (loc);
if (info.get_inner_fndecl ())
{
m_effective_fndecl = info.get_inner_fndecl ();
m_effective_depth += info.get_extra_frames ();
m_logical_loc = tree_logical_location (m_effective_fndecl);
}
}
}
/* No-op implementation of diagnostic_event::get_meaning vfunc for
checker_event: checker events have no meaning by default. */
diagnostic_event::meaning
checker_event::get_meaning () const
{
return meaning ();
}
/* Dump this event to PP (for debugging/logging purposes). */
void
checker_event::dump (pretty_printer *pp) const
{
label_text event_desc (get_desc (false));
pp_printf (pp, "\"%s\" (depth %i",
event_desc.get (), m_effective_depth);
if (m_effective_depth != m_original_depth)
pp_printf (pp, " corrected from %i",
m_original_depth);
if (m_effective_fndecl)
{
pp_printf (pp, ", fndecl %qE", m_effective_fndecl);
if (m_effective_fndecl != m_original_fndecl)
pp_printf (pp, " corrected from %qE", m_original_fndecl);
}
pp_printf (pp, ", m_loc=%x)",
get_location ());
}
/* Dump this event to stderr (for debugging/logging purposes). */
DEBUG_FUNCTION void
checker_event::debug () const
{
pretty_printer pp;
pp_format_decoder (&pp) = default_tree_printer;
pp_show_color (&pp) = pp_show_color (global_dc->printer);
pp.buffer->stream = stderr;
dump (&pp);
pp_newline (&pp);
pp_flush (&pp);
}
/* Hook for being notified when this event has its final id EMISSION_ID
and is about to emitted for PD.
Base implementation of checker_event::prepare_for_emission vfunc;
subclasses that override this should chain up to it.
Record PD and EMISSION_ID, and call the get_desc vfunc, so that any
side-effects of the call to get_desc take place before
pending_diagnostic::emit is called.
For example, state_change_event::get_desc can call
pending_diagnostic::describe_state_change; free_of_non_heap can use this
to tweak the message (TODO: would be neater to simply capture the
pertinent data within the sm-state). */
void
checker_event::prepare_for_emission (checker_path *,
pending_diagnostic *pd,
diagnostic_event_id_t emission_id)
{
m_pending_diagnostic = pd;
m_emission_id = emission_id;
label_text desc = get_desc (false);
}
/* class debug_event : public checker_event. */
/* Implementation of diagnostic_event::get_desc vfunc for
debug_event.
Use the saved string as the event's description. */
label_text
debug_event::get_desc (bool) const
{
return label_text::borrow (m_desc);
}
/* class precanned_custom_event : public custom_event. */
/* Implementation of diagnostic_event::get_desc vfunc for
precanned_custom_event.
Use the saved string as the event's description. */
label_text
precanned_custom_event::get_desc (bool) const
{
return label_text::borrow (m_desc);
}
/* class statement_event : public checker_event. */
/* statement_event's ctor. */
statement_event::statement_event (const gimple *stmt, tree fndecl, int depth,
const program_state &dst_state)
: checker_event (EK_STMT, gimple_location (stmt), fndecl, depth),
m_stmt (stmt),
m_dst_state (dst_state)
{
}
/* Implementation of diagnostic_event::get_desc vfunc for
statement_event.
Use the statement's dump form as the event's description. */
label_text
statement_event::get_desc (bool) const
{
pretty_printer pp;
pp_string (&pp, "stmt: ");
pp_gimple_stmt_1 (&pp, m_stmt, 0, (dump_flags_t)0);
return label_text::take (xstrdup (pp_formatted_text (&pp)));
}
/* class region_creation_event : public checker_event. */
region_creation_event::region_creation_event (const region *reg,
tree capacity,
enum rce_kind kind,
location_t loc,
tree fndecl,
int depth)
: checker_event (EK_REGION_CREATION, loc, fndecl, depth),
m_reg (reg),
m_capacity (capacity),
m_rce_kind (kind)
{
if (m_rce_kind == RCE_CAPACITY)
gcc_assert (capacity);
}
/* Implementation of diagnostic_event::get_desc vfunc for
region_creation_event.
There are effectively 3 kinds of region_region_event, to
avoid combinatorial explosion by trying to convy the
information in a single message. */
label_text
region_creation_event::get_desc (bool can_colorize) const
{
if (m_pending_diagnostic)
{
label_text custom_desc
= m_pending_diagnostic->describe_region_creation_event
(evdesc::region_creation (can_colorize, m_reg));
if (custom_desc.get ())
return custom_desc;
}
switch (m_rce_kind)
{
default:
gcc_unreachable ();
case RCE_MEM_SPACE:
switch (m_reg->get_memory_space ())
{
default:
return label_text::borrow ("region created here");
case MEMSPACE_STACK:
return label_text::borrow ("region created on stack here");
case MEMSPACE_HEAP:
return label_text::borrow ("region created on heap here");
}
break;
case RCE_CAPACITY:
gcc_assert (m_capacity);
if (TREE_CODE (m_capacity) == INTEGER_CST)
{
unsigned HOST_WIDE_INT hwi = tree_to_uhwi (m_capacity);
if (hwi == 1)
return make_label_text (can_colorize,
"capacity: %wu byte", hwi);
else
return make_label_text (can_colorize,
"capacity: %wu bytes", hwi);
}
else
return make_label_text (can_colorize,
"capacity: %qE bytes", m_capacity);
case RCE_DEBUG:
{
pretty_printer pp;
pp_format_decoder (&pp) = default_tree_printer;
pp_string (&pp, "region creation: ");
m_reg->dump_to_pp (&pp, true);
if (m_capacity)
pp_printf (&pp, " capacity: %qE", m_capacity);
return label_text::take (xstrdup (pp_formatted_text (&pp)));
}
break;
}
}
/* class function_entry_event : public checker_event. */
function_entry_event::function_entry_event (const program_point &dst_point)
: checker_event (EK_FUNCTION_ENTRY,
dst_point.get_supernode ()->get_start_location (),
dst_point.get_fndecl (),
dst_point.get_stack_depth ())
{
}
/* Implementation of diagnostic_event::get_desc vfunc for
function_entry_event.
Use a string such as "entry to 'foo'" as the event's description. */
label_text
function_entry_event::get_desc (bool can_colorize) const
{
return make_label_text (can_colorize, "entry to %qE", m_effective_fndecl);
}
/* Implementation of diagnostic_event::get_meaning vfunc for
function entry. */
diagnostic_event::meaning
function_entry_event::get_meaning () const
{
return meaning (VERB_enter, NOUN_function);
}
/* class state_change_event : public checker_event. */
/* state_change_event's ctor. */
state_change_event::state_change_event (const supernode *node,
const gimple *stmt,
int stack_depth,
const state_machine &sm,
const svalue *sval,
state_machine::state_t from,
state_machine::state_t to,
const svalue *origin,
const program_state &dst_state)
: checker_event (EK_STATE_CHANGE,
stmt->location, node->m_fun->decl,
stack_depth),
m_node (node), m_stmt (stmt), m_sm (sm),
m_sval (sval), m_from (from), m_to (to),
m_origin (origin),
m_dst_state (dst_state)
{
}
/* Implementation of diagnostic_event::get_desc vfunc for
state_change_event.
Attempt to generate a nicer human-readable description.
For greatest precision-of-wording, give the pending diagnostic
a chance to describe this state change (in terms of the
diagnostic).
Note that we only have a pending_diagnostic set on the event once
the diagnostic is about to being emitted, so the description for
an event can change. */
label_text
state_change_event::get_desc (bool can_colorize) const
{
if (m_pending_diagnostic)
{
region_model *model = m_dst_state.m_region_model;
tree var = model->get_representative_tree (m_sval);
tree origin = model->get_representative_tree (m_origin);
label_text custom_desc
= m_pending_diagnostic->describe_state_change
(evdesc::state_change (can_colorize, var, origin,
m_from, m_to, m_emission_id, *this));
if (custom_desc.get ())
{
if (flag_analyzer_verbose_state_changes)
{
/* Get any "meaning" of event. */
diagnostic_event::meaning meaning = get_meaning ();
pretty_printer meaning_pp;
meaning.dump_to_pp (&meaning_pp);
/* Append debug version. */
if (m_origin)
return make_label_text
(can_colorize,
"%s (state of %qE: %qs -> %qs, origin: %qE, meaning: %s)",
custom_desc.get (),
var,
m_from->get_name (),
m_to->get_name (),
origin,
pp_formatted_text (&meaning_pp));
else
return make_label_text
(can_colorize,
"%s (state of %qE: %qs -> %qs, NULL origin, meaning: %s)",
custom_desc.get (),
var,
m_from->get_name (),
m_to->get_name (),
pp_formatted_text (&meaning_pp));
}
else
return custom_desc;
}
}
/* Fallback description. */
if (m_sval)
{
label_text sval_desc = m_sval->get_desc ();
if (m_origin)
{
label_text origin_desc = m_origin->get_desc ();
return make_label_text
(can_colorize,
"state of %qs: %qs -> %qs (origin: %qs)",
sval_desc.get (),
m_from->get_name (),
m_to->get_name (),
origin_desc.get ());
}
else
return make_label_text
(can_colorize,
"state of %qs: %qs -> %qs (NULL origin)",
sval_desc.get (),
m_from->get_name (),
m_to->get_name ());
}
else
{
gcc_assert (m_origin == NULL);
return make_label_text
(can_colorize,
"global state: %qs -> %qs",
m_from->get_name (),
m_to->get_name ());
}
}
/* Implementation of diagnostic_event::get_meaning vfunc for
state change events: delegate to the pending_diagnostic to
get any meaning. */
diagnostic_event::meaning
state_change_event::get_meaning () const
{
if (m_pending_diagnostic)
{
region_model *model = m_dst_state.m_region_model;
tree var = model->get_representative_tree (m_sval);
tree origin = model->get_representative_tree (m_origin);
return m_pending_diagnostic->get_meaning_for_state_change
(evdesc::state_change (false, var, origin,
m_from, m_to, m_emission_id, *this));
}
else
return meaning ();
}
/* class superedge_event : public checker_event. */
/* Get the callgraph_superedge for this superedge_event, which must be
for an interprocedural edge, rather than a CFG edge. */
const callgraph_superedge&
superedge_event::get_callgraph_superedge () const
{
gcc_assert (m_sedge->m_kind != SUPEREDGE_CFG_EDGE);
return *m_sedge->dyn_cast_callgraph_superedge ();
}
/* Determine if this event should be filtered at the given verbosity
level. */
bool
superedge_event::should_filter_p (int verbosity) const
{
switch (m_sedge->m_kind)
{
case SUPEREDGE_CFG_EDGE:
{
if (verbosity < 2)
return true;
if (verbosity < 4)
{
/* Filter events with empty descriptions. This ought to filter
FALLTHRU, but retain true/false/switch edges. */
label_text desc = get_desc (false);
gcc_assert (desc.get ());
if (desc.get ()[0] == '\0')
return true;
}
}
break;
default:
break;
}
return false;
}
/* superedge_event's ctor. */
superedge_event::superedge_event (enum event_kind kind,
const exploded_edge &eedge,
location_t loc, tree fndecl, int depth)
: checker_event (kind, loc, fndecl, depth),
m_eedge (eedge), m_sedge (eedge.m_sedge),
m_var (NULL_TREE), m_critical_state (0)
{
}
/* class cfg_edge_event : public superedge_event. */
/* Get the cfg_superedge for this cfg_edge_event. */
const cfg_superedge &
cfg_edge_event::get_cfg_superedge () const
{
return *m_sedge->dyn_cast_cfg_superedge ();
}
/* cfg_edge_event's ctor. */
cfg_edge_event::cfg_edge_event (enum event_kind kind,
const exploded_edge &eedge,
location_t loc, tree fndecl, int depth)
: superedge_event (kind, eedge, loc, fndecl, depth)
{
gcc_assert (eedge.m_sedge->m_kind == SUPEREDGE_CFG_EDGE);
}
/* Implementation of diagnostic_event::get_meaning vfunc for
CFG edge events. */
diagnostic_event::meaning
cfg_edge_event::get_meaning () const
{
const cfg_superedge& cfg_sedge = get_cfg_superedge ();
if (cfg_sedge.true_value_p ())
return meaning (VERB_branch, PROPERTY_true);
else if (cfg_sedge.false_value_p ())
return meaning (VERB_branch, PROPERTY_false);
else
return meaning ();
}
/* class start_cfg_edge_event : public cfg_edge_event. */
/* Implementation of diagnostic_event::get_desc vfunc for
start_cfg_edge_event.
If -fanalyzer-verbose-edges, then generate low-level descriptions, such
as
"taking 'true' edge SN:7 -> SN:8".
Otherwise, generate strings using the label of the underlying CFG if
any, such as:
"following 'true' branch..." or
"following 'case 3' branch..."
"following 'default' branch..."
For conditionals, attempt to supply a description of the condition that
holds, such as:
"following 'false' branch (when 'ptr' is non-NULL)..."
Failing that, return an empty description (which will lead to this event
being filtered). */
label_text
start_cfg_edge_event::get_desc (bool can_colorize) const
{
bool user_facing = !flag_analyzer_verbose_edges;
label_text edge_desc (m_sedge->get_description (user_facing));
if (user_facing)
{
if (edge_desc.get () && strlen (edge_desc.get ()) > 0)
{
label_text cond_desc = maybe_describe_condition (can_colorize);
label_text result;
if (cond_desc.get ())
return make_label_text (can_colorize,
"following %qs branch (%s)...",
edge_desc.get (), cond_desc.get ());
else
return make_label_text (can_colorize,
"following %qs branch...",
edge_desc.get ());
}
else
return label_text::borrow ("");
}
else
{
if (strlen (edge_desc.get ()) > 0)
return make_label_text (can_colorize,
"taking %qs edge SN:%i -> SN:%i",
edge_desc.get (),
m_sedge->m_src->m_index,
m_sedge->m_dest->m_index);
else
return make_label_text (can_colorize,
"taking edge SN:%i -> SN:%i",
m_sedge->m_src->m_index,
m_sedge->m_dest->m_index);
}
}
/* Attempt to generate a description of any condition that holds at this edge.
The intent is to make the user-facing messages more clear, especially for
cases where there's a single or double-negative, such as
when describing the false branch of an inverted condition.
For example, rather than printing just:
| if (!ptr)
| ~
| |
| (1) following 'false' branch...
it's clearer to spell out the condition that holds:
| if (!ptr)
| ~
| |
| (1) following 'false' branch (when 'ptr' is non-NULL)...
^^^^^^^^^^^^^^^^^^^^^^
In the above example, this function would generate the highlighted
string: "when 'ptr' is non-NULL".
If the edge is not a condition, or it's not clear that a description of
the condition would be helpful to the user, return NULL. */
label_text
start_cfg_edge_event::maybe_describe_condition (bool can_colorize) const
{
const cfg_superedge& cfg_sedge = get_cfg_superedge ();
if (cfg_sedge.true_value_p () || cfg_sedge.false_value_p ())
{
const gimple *last_stmt = m_sedge->m_src->get_last_stmt ();
if (const gcond *cond_stmt = dyn_cast <const gcond *> (last_stmt))
{
enum tree_code op = gimple_cond_code (cond_stmt);
tree lhs = gimple_cond_lhs (cond_stmt);
tree rhs = gimple_cond_rhs (cond_stmt);
if (cfg_sedge.false_value_p ())
op = invert_tree_comparison (op, false /* honor_nans */);
return maybe_describe_condition (can_colorize,
lhs, op, rhs);
}
}
return label_text::borrow (NULL);
}
/* Subroutine of maybe_describe_condition above.
Attempt to generate a user-facing description of the condition
LHS OP RHS, but only if it is likely to make it easier for the
user to understand a condition. */
label_text
start_cfg_edge_event::maybe_describe_condition (bool can_colorize,
tree lhs,
enum tree_code op,
tree rhs)
{
/* In theory we could just build a tree via
fold_build2 (op, boolean_type_node, lhs, rhs)
and print it with %qE on it, but this leads to warts such as
parenthesizing vars, such as '(i) <= 9', and uses of '<unknown>'. */
/* Special-case: describe testing the result of strcmp, as figuring
out what the "true" or "false" path is can be confusing to the user. */
if (TREE_CODE (lhs) == SSA_NAME
&& zerop (rhs))
{
if (gcall *call = dyn_cast <gcall *> (SSA_NAME_DEF_STMT (lhs)))
if (is_special_named_call_p (call, "strcmp", 2))
{
if (op == EQ_EXPR)
return label_text::borrow ("when the strings are equal");
if (op == NE_EXPR)
return label_text::borrow ("when the strings are non-equal");
}
}
/* Only attempt to generate text for sufficiently simple expressions. */
if (!should_print_expr_p (lhs))
return label_text::borrow (NULL);
if (!should_print_expr_p (rhs))
return label_text::borrow (NULL);
/* Special cases for pointer comparisons against NULL. */
if (POINTER_TYPE_P (TREE_TYPE (lhs))
&& POINTER_TYPE_P (TREE_TYPE (rhs))
&& zerop (rhs))
{
if (op == EQ_EXPR)
return make_label_text (can_colorize, "when %qE is NULL",
lhs);
if (op == NE_EXPR)
return make_label_text (can_colorize, "when %qE is non-NULL",
lhs);
}
return make_label_text (can_colorize, "when %<%E %s %E%>",
lhs, op_symbol_code (op), rhs);
}
/* Subroutine of maybe_describe_condition.
Return true if EXPR is we will get suitable user-facing output
from %E on it. */
bool
start_cfg_edge_event::should_print_expr_p (tree expr)
{
if (TREE_CODE (expr) == SSA_NAME)
{
if (SSA_NAME_VAR (expr))
return should_print_expr_p (SSA_NAME_VAR (expr));
else
return false;
}
if (DECL_P (expr))
return true;
if (CONSTANT_CLASS_P (expr))
return true;
return false;
}
/* class call_event : public superedge_event. */
/* call_event's ctor. */
call_event::call_event (const exploded_edge &eedge,
location_t loc, tree fndecl, int depth)
: superedge_event (EK_CALL_EDGE, eedge, loc, fndecl, depth)
{
if (eedge.m_sedge)
gcc_assert (eedge.m_sedge->m_kind == SUPEREDGE_CALL);
m_src_snode = eedge.m_src->get_supernode ();
m_dest_snode = eedge.m_dest->get_supernode ();
}
/* Implementation of diagnostic_event::get_desc vfunc for
call_event.
If this call event passes critical state for an sm-based warning,
allow the diagnostic to generate a precise description, such as:
"passing freed pointer 'ptr' in call to 'foo' from 'bar'"
Otherwise, generate a description of the form
"calling 'foo' from 'bar'". */
label_text
call_event::get_desc (bool can_colorize) const
{
if (m_critical_state && m_pending_diagnostic)
{
gcc_assert (m_var);
tree var = fixup_tree_for_diagnostic (m_var);
label_text custom_desc
= m_pending_diagnostic->describe_call_with_state
(evdesc::call_with_state (can_colorize,
m_src_snode->m_fun->decl,
m_dest_snode->m_fun->decl,
var,
m_critical_state));
if (custom_desc.get ())
return custom_desc;
}
return make_label_text (can_colorize,
"calling %qE from %qE",
get_callee_fndecl (),
get_caller_fndecl ());
}
/* Implementation of diagnostic_event::get_meaning vfunc for
function call events. */
diagnostic_event::meaning
call_event::get_meaning () const
{
return meaning (VERB_call, NOUN_function);
}
/* Override of checker_event::is_call_p for calls. */
bool
call_event::is_call_p () const
{
return true;
}
tree
call_event::get_caller_fndecl () const
{
return m_src_snode->m_fun->decl;
}
tree
call_event::get_callee_fndecl () const
{
return m_dest_snode->m_fun->decl;
}
/* class return_event : public superedge_event. */
/* return_event's ctor. */
return_event::return_event (const exploded_edge &eedge,
location_t loc, tree fndecl, int depth)
: superedge_event (EK_RETURN_EDGE, eedge, loc, fndecl, depth)
{
if (eedge.m_sedge)
gcc_assert (eedge.m_sedge->m_kind == SUPEREDGE_RETURN);
m_src_snode = eedge.m_src->get_supernode ();
m_dest_snode = eedge.m_dest->get_supernode ();
}
/* Implementation of diagnostic_event::get_desc vfunc for
return_event.
If this return event returns critical state for an sm-based warning,
allow the diagnostic to generate a precise description, such as:
"possible of NULL to 'foo' from 'bar'"
Otherwise, generate a description of the form
"returning to 'foo' from 'bar'. */
label_text
return_event::get_desc (bool can_colorize) const
{
/* For greatest precision-of-wording, if this is returning the
state involved in the pending diagnostic, give the pending
diagnostic a chance to describe this return (in terms of
itself). */
if (m_critical_state && m_pending_diagnostic)
{
label_text custom_desc
= m_pending_diagnostic->describe_return_of_state
(evdesc::return_of_state (can_colorize,
m_dest_snode->m_fun->decl,
m_src_snode->m_fun->decl,
m_critical_state));
if (custom_desc.get ())
return custom_desc;
}
return make_label_text (can_colorize,
"returning to %qE from %qE",
m_dest_snode->m_fun->decl,
m_src_snode->m_fun->decl);
}
/* Implementation of diagnostic_event::get_meaning vfunc for
function return events. */
diagnostic_event::meaning
return_event::get_meaning () const
{
return meaning (VERB_return, NOUN_function);
}
/* Override of checker_event::is_return_p for returns. */
bool
return_event::is_return_p () const
{
return true;
}
/* class start_consolidated_cfg_edges_event : public checker_event. */
label_text
start_consolidated_cfg_edges_event::get_desc (bool can_colorize) const
{
return make_label_text (can_colorize,
"following %qs branch...",
m_edge_sense ? "true" : "false");
}
/* Implementation of diagnostic_event::get_meaning vfunc for
start_consolidated_cfg_edges_event. */
diagnostic_event::meaning
start_consolidated_cfg_edges_event::get_meaning () const
{
return meaning (VERB_branch,
(m_edge_sense ? PROPERTY_true : PROPERTY_false));
}
/* class inlined_call_event : public checker_event. */
label_text
inlined_call_event::get_desc (bool can_colorize) const
{
return make_label_text (can_colorize,
"inlined call to %qE from %qE",
m_apparent_callee_fndecl,
m_apparent_caller_fndecl);
}
/* Implementation of diagnostic_event::get_meaning vfunc for
reconstructed inlined function calls. */
diagnostic_event::meaning
inlined_call_event::get_meaning () const
{
return meaning (VERB_call, NOUN_function);
}
/* class setjmp_event : public checker_event. */
/* Implementation of diagnostic_event::get_desc vfunc for
setjmp_event. */
label_text
setjmp_event::get_desc (bool can_colorize) const
{
return make_label_text (can_colorize,
"%qs called here",
get_user_facing_name (m_setjmp_call));
}
/* Implementation of checker_event::prepare_for_emission vfunc for setjmp_event.
Record this setjmp's event ID into the path, so that rewind events can
use it. */
void
setjmp_event::prepare_for_emission (checker_path *path,
pending_diagnostic *pd,
diagnostic_event_id_t emission_id)
{
checker_event::prepare_for_emission (path, pd, emission_id);
path->record_setjmp_event (m_enode, emission_id);
}
/* class rewind_event : public checker_event. */
/* Get the fndecl containing the site of the longjmp call. */
tree
rewind_event::get_longjmp_caller () const
{
return m_eedge->m_src->get_function ()->decl;
}
/* Get the fndecl containing the site of the setjmp call. */
tree
rewind_event::get_setjmp_caller () const
{
return m_eedge->m_dest->get_function ()->decl;
}
/* rewind_event's ctor. */
rewind_event::rewind_event (const exploded_edge *eedge,
enum event_kind kind,
location_t loc, tree fndecl, int depth,
const rewind_info_t *rewind_info)
: checker_event (kind, loc, fndecl, depth),
m_rewind_info (rewind_info),
m_eedge (eedge)
{
gcc_assert (m_eedge->m_custom_info.get () == m_rewind_info);
}
/* class rewind_from_longjmp_event : public rewind_event. */
/* Implementation of diagnostic_event::get_desc vfunc for
rewind_from_longjmp_event. */
label_text
rewind_from_longjmp_event::get_desc (bool can_colorize) const
{
const char *src_name
= get_user_facing_name (m_rewind_info->get_longjmp_call ());
if (get_longjmp_caller () == get_setjmp_caller ())
/* Special-case: purely intraprocedural rewind. */
return make_label_text (can_colorize,
"rewinding within %qE from %qs...",
get_longjmp_caller (),
src_name);
else
return make_label_text (can_colorize,
"rewinding from %qs in %qE...",
src_name,
get_longjmp_caller ());
}
/* class rewind_to_setjmp_event : public rewind_event. */
/* Implementation of diagnostic_event::get_desc vfunc for
rewind_to_setjmp_event. */
label_text
rewind_to_setjmp_event::get_desc (bool can_colorize) const
{
const char *dst_name
= get_user_facing_name (m_rewind_info->get_setjmp_call ());
/* If we can, identify the ID of the setjmp_event. */
if (m_original_setjmp_event_id.known_p ())
{
if (get_longjmp_caller () == get_setjmp_caller ())
/* Special-case: purely intraprocedural rewind. */
return make_label_text (can_colorize,
"...to %qs (saved at %@)",
dst_name,
&m_original_setjmp_event_id);
else
return make_label_text (can_colorize,
"...to %qs in %qE (saved at %@)",
dst_name,
get_setjmp_caller (),
&m_original_setjmp_event_id);
}
else
{
if (get_longjmp_caller () == get_setjmp_caller ())
/* Special-case: purely intraprocedural rewind. */
return make_label_text (can_colorize,
"...to %qs",
dst_name,
get_setjmp_caller ());
else
return make_label_text (can_colorize,
"...to %qs in %qE",
dst_name,
get_setjmp_caller ());
}
}
/* Implementation of checker_event::prepare_for_emission vfunc for
rewind_to_setjmp_event.
Attempt to look up the setjmp event ID that recorded the jmp_buf
for this rewind. */
void
rewind_to_setjmp_event::prepare_for_emission (checker_path *path,
pending_diagnostic *pd,
diagnostic_event_id_t emission_id)
{
checker_event::prepare_for_emission (path, pd, emission_id);
path->get_setjmp_event (m_rewind_info->get_enode_origin (),
&m_original_setjmp_event_id);
}
/* class warning_event : public checker_event. */
/* Implementation of diagnostic_event::get_desc vfunc for
warning_event.
If the pending diagnostic implements describe_final_event, use it,
generating a precise description e.g.
"second 'free' here; first 'free' was at (7)"
Otherwise generate a generic description. */
label_text
warning_event::get_desc (bool can_colorize) const
{
if (m_pending_diagnostic)
{
tree var = fixup_tree_for_diagnostic (m_var);
label_text ev_desc
= m_pending_diagnostic->describe_final_event
(evdesc::final_event (can_colorize, var, m_state));
if (ev_desc.get ())
{
if (m_sm && flag_analyzer_verbose_state_changes)
{
if (var)
return make_label_text (can_colorize,
"%s (%qE is in state %qs)",
ev_desc.get (),
var, m_state->get_name ());
else
return make_label_text (can_colorize,
"%s (in global state %qs)",
ev_desc.get (),
m_state->get_name ());
}
else
return ev_desc;
}
}
if (m_sm)
{
if (m_var)
return make_label_text (can_colorize,
"here (%qE is in state %qs)",
m_var, m_state->get_name ());
else
return make_label_text (can_colorize,
"here (in global state %qs)",
m_state->get_name ());
}
else
return label_text::borrow ("here");
}
/* Implementation of diagnostic_event::get_meaning vfunc for
warning_event. */
diagnostic_event::meaning
warning_event::get_meaning () const
{
return meaning (VERB_danger, NOUN_unknown);
}
} // namespace ana
#endif /* #if ENABLE_ANALYZER */