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/* Finding reachable regions and values.
Copyright (C) 2020-2022 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"
#include "system.h"
#include "coretypes.h"
#include "tree.h"
#include "function.h"
#include "basic-block.h"
#include "gimple.h"
#include "gimple-iterator.h"
#include "diagnostic-core.h"
#include "graphviz.h"
#include "options.h"
#include "cgraph.h"
#include "tree-dfa.h"
#include "stringpool.h"
#include "convert.h"
#include "target.h"
#include "fold-const.h"
#include "tree-pretty-print.h"
#include "tristate.h"
#include "bitmap.h"
#include "selftest.h"
#include "function.h"
#include "analyzer/analyzer.h"
#include "analyzer/analyzer-logging.h"
#include "ordered-hash-map.h"
#include "options.h"
#include "cgraph.h"
#include "cfg.h"
#include "digraph.h"
#include "json.h"
#include "analyzer/call-string.h"
#include "analyzer/program-point.h"
#include "analyzer/store.h"
#include "analyzer/region-model.h"
#include "analyzer/region-model-reachability.h"
#if ENABLE_ANALYZER
namespace ana {
reachable_regions::reachable_regions (region_model *model)
: m_model (model), m_store (model->get_store ()),
m_reachable_base_regs (), m_mutable_base_regs ()
{
}
/* Callback called for each cluster when initializing this object. */
void
reachable_regions::init_cluster_cb (const region *base_reg,
reachable_regions *this_ptr)
{
this_ptr->init_cluster (base_reg);
}
/* Called for each cluster when initializing this object. */
void
reachable_regions::init_cluster (const region *base_reg)
{
/* Mark any globals as mutable (and traverse what they point to). */
const region *parent = base_reg->get_parent_region ();
gcc_assert (parent);
if (parent->get_kind () == RK_GLOBALS)
add (base_reg, true);
/* Mark any clusters that already escaped in previous unknown calls
as mutable (and traverse what they currently point to). */
if (m_store->escaped_p (base_reg))
add (base_reg, true);
if (const symbolic_region *sym_reg = base_reg->dyn_cast_symbolic_region ())
{
const svalue *ptr = sym_reg->get_pointer ();
if (ptr->implicitly_live_p (NULL, m_model))
add (base_reg, true);
switch (ptr->get_kind ())
{
default:
break;
case SK_INITIAL:
{
/* If BASE_REG is *INIT_VAL(REG) for some other REG, see if REG is
unbound and untouched. If so, then add BASE_REG as a root. */
const initial_svalue *init_sval
= as_a <const initial_svalue *> (ptr);
const region *init_sval_reg = init_sval->get_region ();
const region *other_base_reg = init_sval_reg->get_base_region ();
const binding_cluster *other_cluster
= m_store->get_cluster (other_base_reg);
if (other_cluster == NULL
|| !other_cluster->touched_p ())
add (base_reg, true);
}
break;
case SK_UNKNOWN:
case SK_CONJURED:
{
/* If this cluster is due to dereferencing an unknown/conjured
pointer, any values written through the pointer could still
be live. */
add (base_reg, true);
}
break;
}
}
}
/* Lazily mark the cluster containing REG as being reachable, recursively
adding clusters reachable from REG's cluster. */
void
reachable_regions::add (const region *reg, bool is_mutable)
{
gcc_assert (reg);
const region *base_reg = const_cast <region *> (reg->get_base_region ());
gcc_assert (base_reg);
/* Bail out if this cluster is already in the sets at the IS_MUTABLE
level of mutability. */
if (!is_mutable && m_reachable_base_regs.contains (base_reg))
return;
m_reachable_base_regs.add (base_reg);
if (is_mutable)
{
if (m_mutable_base_regs.contains (base_reg))
return;
else
m_mutable_base_regs.add (base_reg);
}
/* Add values within the cluster. If any are pointers, add the pointee. */
if (binding_cluster *bind_cluster = m_store->get_cluster (base_reg))
bind_cluster->for_each_value (handle_sval_cb, this);
else
handle_sval (m_model->get_store_value (reg, NULL));
}
void
reachable_regions::handle_sval_cb (const svalue *sval,
reachable_regions *this_ptr)
{
this_ptr->handle_sval (sval);
}
/* Add SVAL. If it is a pointer, add the pointed-to region. */
void
reachable_regions::handle_sval (const svalue *sval)
{
m_reachable_svals.add (sval);
m_mutable_svals.add (sval);
if (const region_svalue *ptr = sval->dyn_cast_region_svalue ())
{
const region *pointee = ptr->get_pointee ();
/* Use const-ness of pointer type to affect mutability. */
bool ptr_is_mutable = true;
if (ptr->get_type ()
&& TREE_CODE (ptr->get_type ()) == POINTER_TYPE
&& TYPE_READONLY (TREE_TYPE (ptr->get_type ())))
{
ptr_is_mutable = false;
}
else
{
m_mutable_svals.add (sval);
}
add (pointee, ptr_is_mutable);
}
/* Treat all svalues within a compound_svalue as reachable. */
if (const compound_svalue *compound_sval
= sval->dyn_cast_compound_svalue ())
{
for (compound_svalue::iterator_t iter = compound_sval->begin ();
iter != compound_sval->end (); ++iter)
{
const svalue *iter_sval = (*iter).second;
handle_sval (iter_sval);
}
}
if (const svalue *cast = sval->maybe_undo_cast ())
handle_sval (cast);
/* If SVAL is the result of a reversible operation, then the operands
are reachable. */
switch (sval->get_kind ())
{
default:
break;
case SK_UNARYOP:
{
const unaryop_svalue *unaryop_sval = (const unaryop_svalue *)sval;
switch (unaryop_sval->get_op ())
{
default:
break;
case NEGATE_EXPR:
handle_sval (unaryop_sval->get_arg ());
break;
}
}
break;
case SK_BINOP:
{
const binop_svalue *binop_sval = (const binop_svalue *)sval;
switch (binop_sval->get_op ())
{
default:
break;
case POINTER_PLUS_EXPR:
handle_sval (binop_sval->get_arg0 ());
handle_sval (binop_sval->get_arg1 ());
break;
}
}
}
}
/* Add SVAL. If it is a pointer, add the pointed-to region.
Use PARAM_TYPE for determining mutability. */
void
reachable_regions::handle_parm (const svalue *sval, tree param_type)
{
bool is_mutable = true;
if (param_type
&& TREE_CODE (param_type) == POINTER_TYPE
&& TYPE_READONLY (TREE_TYPE (param_type)))
is_mutable = false;
if (is_mutable)
m_mutable_svals.add (sval);
else
m_reachable_svals.add (sval);
if (const region *base_reg = sval->maybe_get_deref_base_region ())
add (base_reg, is_mutable);
/* Treat all svalues within a compound_svalue as reachable. */
if (const compound_svalue *compound_sval
= sval->dyn_cast_compound_svalue ())
{
for (compound_svalue::iterator_t iter = compound_sval->begin ();
iter != compound_sval->end (); ++iter)
{
const svalue *iter_sval = (*iter).second;
handle_sval (iter_sval);
}
}
if (const svalue *cast = sval->maybe_undo_cast ())
handle_sval (cast);
}
/* Update the store to mark the clusters that were found to be mutable
as having escaped.
Notify CTXT about escaping function_decls. */
void
reachable_regions::mark_escaped_clusters (region_model_context *ctxt)
{
auto_vec<const function_region *> escaped_fn_regs
(m_mutable_base_regs.elements ());
for (hash_set<const region *>::iterator iter = m_mutable_base_regs.begin ();
iter != m_mutable_base_regs.end (); ++iter)
{
const region *base_reg = *iter;
m_store->mark_as_escaped (base_reg);
/* If we have a function that's escaped, potentially add
it to the worklist. */
if (const function_region *fn_reg = base_reg->dyn_cast_function_region ())
escaped_fn_regs.quick_push (fn_reg);
}
if (ctxt)
{
/* Sort to ensure deterministic results. */
escaped_fn_regs.qsort (region::cmp_ptr_ptr);
unsigned i;
const function_region *fn_reg;
FOR_EACH_VEC_ELT (escaped_fn_regs, i, fn_reg)
ctxt->on_escaped_function (fn_reg->get_fndecl ());
}
}
/* Dump SET to PP, sorting it to avoid churn when comparing dumps. */
template <typename T>
static void
dump_set (const hash_set<const T *> &set, pretty_printer *pp)
{
auto_vec<const T *> elements (set.elements ());
for (typename hash_set<const T *>::iterator iter = set.begin ();
iter != set.end (); ++iter)
elements.quick_push (*iter);
elements.qsort (T::cmp_ptr_ptr);
unsigned i;
const T *element;
FOR_EACH_VEC_ELT (elements, i, element)
{
pp_string (pp, " ");
element->dump_to_pp (pp, true);
pp_newline (pp);
}
}
/* Dump a multiline representation of this object to PP. */
void
reachable_regions::dump_to_pp (pretty_printer *pp) const
{
pp_string (pp, "reachable clusters: ");
pp_newline (pp);
dump_set (m_reachable_base_regs, pp);
pp_string (pp, "mutable clusters: ");
pp_newline (pp);
dump_set (m_mutable_base_regs, pp);
pp_string (pp, "reachable svals: ");
pp_newline (pp);
dump_set (m_reachable_svals, pp);
pp_string (pp, "mutable svals: ");
pp_newline (pp);
dump_set (m_mutable_svals, pp);
}
/* Dump a multiline representation of this object to stderr. */
DEBUG_FUNCTION void
reachable_regions::dump () 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_to_pp (&pp);
pp_flush (&pp);
}
} // namespace ana
#endif /* #if ENABLE_ANALYZER */
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