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/* A state machine for detecting misuses of <stdio.h>'s FILE * API.
   Copyright (C) 2019-2023 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 "make-unique.h"
#include "tree.h"
#include "function.h"
#include "basic-block.h"
#include "gimple.h"
#include "options.h"
#include "diagnostic-path.h"
#include "diagnostic-metadata.h"
#include "analyzer/analyzer.h"
#include "diagnostic-event-id.h"
#include "analyzer/analyzer-logging.h"
#include "analyzer/sm.h"
#include "analyzer/pending-diagnostic.h"
#include "analyzer/function-set.h"
#include "analyzer/analyzer-selftests.h"
#include "selftest.h"
#include "analyzer/call-string.h"
#include "analyzer/program-point.h"
#include "analyzer/store.h"
#include "analyzer/region-model.h"
#include "analyzer/call-details.h"

#if ENABLE_ANALYZER

namespace ana {

namespace {

/* A state machine for detecting misuses of <stdio.h>'s FILE * API.  */

class fileptr_state_machine : public state_machine
{
public:
  fileptr_state_machine (logger *logger);

  bool inherited_state_p () const final override { return false; }

  state_machine::state_t
  get_default_state (const svalue *sval) const final override
  {
    if (tree cst = sval->maybe_get_constant ())
      {
	if (zerop (cst))
	  return m_null;
      }
    return m_start;
  }

  bool on_stmt (sm_context *sm_ctxt,
		const supernode *node,
		const gimple *stmt) const final override;

  void on_condition (sm_context *sm_ctxt,
		     const supernode *node,
		     const gimple *stmt,
		     const svalue *lhs,
		     enum tree_code op,
		     const svalue *rhs) const final override;

  bool can_purge_p (state_t s) const final override;
  std::unique_ptr<pending_diagnostic> on_leak (tree var) const final override;

  /* State for a FILE * returned from fopen that hasn't been checked for
     NULL.
     It could be an open stream, or could be NULL.  */
  state_t m_unchecked;

  /* State for a FILE * that's known to be NULL.  */
  state_t m_null;

  /* State for a FILE * that's known to be a non-NULL open stream.  */
  state_t m_nonnull;

  /* State for a FILE * that's had fclose called on it.  */
  state_t m_closed;

  /* Stop state, for a FILE * we don't want to track any more.  */
  state_t m_stop;
};

/* Base class for diagnostics relative to fileptr_state_machine.  */

class file_diagnostic : public pending_diagnostic
{
public:
  file_diagnostic (const fileptr_state_machine &sm, tree arg)
  : m_sm (sm), m_arg (arg)
  {}

  bool subclass_equal_p (const pending_diagnostic &base_other) const override
  {
    return same_tree_p (m_arg, ((const file_diagnostic &)base_other).m_arg);
  }

  label_text describe_state_change (const evdesc::state_change &change)
    override
  {
    if (change.m_old_state == m_sm.get_start_state ()
	&& change.m_new_state == m_sm.m_unchecked)
      // TODO: verify that it's the fopen stmt, not a copy
      return label_text::borrow ("opened here");
    if (change.m_old_state == m_sm.m_unchecked
	&& change.m_new_state == m_sm.m_nonnull)
      {
	if (change.m_expr)
	  return change.formatted_print ("assuming %qE is non-NULL",
					 change.m_expr);
	else
	  return change.formatted_print ("assuming FILE * is non-NULL");
      }
    if (change.m_new_state == m_sm.m_null)
      {
	if (change.m_expr)
	  return change.formatted_print ("assuming %qE is NULL",
					 change.m_expr);
	else
	  return change.formatted_print ("assuming FILE * is NULL");
      }
    return label_text ();
  }

  diagnostic_event::meaning
  get_meaning_for_state_change (const evdesc::state_change &change)
    const final override
  {
    if (change.m_old_state == m_sm.get_start_state ()
	&& change.m_new_state == m_sm.m_unchecked)
      return diagnostic_event::meaning (diagnostic_event::VERB_acquire,
					diagnostic_event::NOUN_resource);
    if (change.m_new_state == m_sm.m_closed)
      return diagnostic_event::meaning (diagnostic_event::VERB_release,
					diagnostic_event::NOUN_resource);
    return diagnostic_event::meaning ();
  }

protected:
  const fileptr_state_machine &m_sm;
  tree m_arg;
};

class double_fclose : public file_diagnostic
{
public:
  double_fclose (const fileptr_state_machine &sm, tree arg)
    : file_diagnostic (sm, arg)
  {}

  const char *get_kind () const final override { return "double_fclose"; }

  int get_controlling_option () const final override
  {
    return OPT_Wanalyzer_double_fclose;
  }

  bool emit (rich_location *rich_loc, logger *) final override
  {
    diagnostic_metadata m;
    /* CWE-1341: Multiple Releases of Same Resource or Handle.  */
    m.add_cwe (1341);
    return warning_meta (rich_loc, m, get_controlling_option (),
			 "double %<fclose%> of FILE %qE",
			 m_arg);
  }

  label_text describe_state_change (const evdesc::state_change &change)
    override
  {
    if (change.m_new_state == m_sm.m_closed)
      {
	m_first_fclose_event = change.m_event_id;
	return change.formatted_print ("first %qs here", "fclose");
      }
    return file_diagnostic::describe_state_change (change);
  }

  label_text describe_final_event (const evdesc::final_event &ev) final override
  {
    if (m_first_fclose_event.known_p ())
      return ev.formatted_print ("second %qs here; first %qs was at %@",
				 "fclose", "fclose",
				 &m_first_fclose_event);
    return ev.formatted_print ("second %qs here", "fclose");
  }

private:
  diagnostic_event_id_t m_first_fclose_event;
};

class file_leak : public file_diagnostic
{
public:
  file_leak (const fileptr_state_machine &sm, tree arg)
    : file_diagnostic (sm, arg)
  {}

  const char *get_kind () const final override { return "file_leak"; }

  int get_controlling_option () const final override
  {
    return OPT_Wanalyzer_file_leak;
  }

  bool emit (rich_location *rich_loc, logger *) final override
  {
    diagnostic_metadata m;
    /* CWE-775: "Missing Release of File Descriptor or Handle after
       Effective Lifetime". */
    m.add_cwe (775);
    if (m_arg)
      return warning_meta (rich_loc, m, get_controlling_option (),
			   "leak of FILE %qE",
			   m_arg);
    else
      return warning_meta (rich_loc, m, get_controlling_option (),
			   "leak of FILE");
  }

  label_text describe_state_change (const evdesc::state_change &change)
    final override
  {
    if (change.m_new_state == m_sm.m_unchecked)
      {
	m_fopen_event = change.m_event_id;
	return label_text::borrow ("opened here");
      }
    return file_diagnostic::describe_state_change (change);
  }

  label_text describe_final_event (const evdesc::final_event &ev) final override
  {
    if (m_fopen_event.known_p ())
      {
	if (ev.m_expr)
	  return ev.formatted_print ("%qE leaks here; was opened at %@",
				     ev.m_expr, &m_fopen_event);
	else
	  return ev.formatted_print ("leaks here; was opened at %@",
				     &m_fopen_event);
      }
    else
      {
	if (ev.m_expr)
	  return ev.formatted_print ("%qE leaks here", ev.m_expr);
	else
	  return ev.formatted_print ("leaks here");
      }
  }

private:
  diagnostic_event_id_t m_fopen_event;
};

/* fileptr_state_machine's ctor.  */

fileptr_state_machine::fileptr_state_machine (logger *logger)
: state_machine ("file", logger)
{
  m_unchecked = add_state ("unchecked");
  m_null = add_state ("null");
  m_nonnull = add_state ("nonnull");
  m_closed = add_state ("closed");
  m_stop = add_state ("stop");
}

/* Get a set of functions that are known to take a FILE * that must be open,
   and are known to not close it.  */

static function_set
get_file_using_fns ()
{
  // TODO: populate this list more fully
  static const char * const funcnames[] = {
    /* This array must be kept sorted.  */
    "__fbufsize",
    "__flbf",
    "__fpending",
    "__fpurge",
    "__freadable",
    "__freading",
    "__fsetlocking",
    "__fwritable",
    "__fwriting",
    "clearerr",
    "clearerr_unlocked",
    "feof",
    "feof_unlocked",
    "ferror",
    "ferror_unlocked",
    "fflush", // safe to call with NULL
    "fflush_unlocked",  // safe to call with NULL
    "fgetc",
    "fgetc_unlocked",
    "fgetpos",
    "fgets",
    "fgets_unlocked",
    "fgetwc_unlocked",
    "fgetws_unlocked",
    "fileno",
    "fileno_unlocked",
    "fprintf",
    "fputc",
    "fputc_unlocked",
    "fputs",
    "fputs_unlocked",
    "fputwc_unlocked",
    "fputws_unlocked",
    "fread_unlocked",
    "fseek",
    "fsetpos",
    "ftell",
    "fwrite_unlocked",
    "getc",
    "getc_unlocked",
    "getwc_unlocked",
    "putc",
    "putc_unlocked",
    "rewind",
    "setbuf",
    "setbuffer",
    "setlinebuf",
    "setvbuf",
    "ungetc",
    "vfprintf"
  };
  const size_t count = ARRAY_SIZE (funcnames);
  function_set fs (funcnames, count);
  return fs;
}

/* Return true if FNDECL is known to require an open FILE *, and is known
   to not close it.  */

static bool
is_file_using_fn_p (tree fndecl)
{
  function_set fs = get_file_using_fns ();
  if (fs.contains_decl_p (fndecl))
    return true;

  /* Also support variants of these names prefixed with "_IO_".  */
  const char *name = IDENTIFIER_POINTER (DECL_NAME (fndecl));
  if (startswith (name, "_IO_") && fs.contains_name_p (name + 4))
    return true;

  return false;
}

/* Implementation of state_machine::on_stmt vfunc for fileptr_state_machine.  */

bool
fileptr_state_machine::on_stmt (sm_context *sm_ctxt,
				const supernode *node,
				const gimple *stmt) const
{
  if (const gcall *call = dyn_cast <const gcall *> (stmt))
    if (tree callee_fndecl = sm_ctxt->get_fndecl_for_call (call))
      {
	if (is_named_call_p (callee_fndecl, "fopen", call, 2))
	  {
	    tree lhs = gimple_call_lhs (call);
	    if (lhs)
	      sm_ctxt->on_transition (node, stmt, lhs, m_start, m_unchecked);
	    else
	      {
		/* TODO: report leak.  */
	      }
	    return true;
	  }

	if (is_named_call_p (callee_fndecl, "fclose", call, 1))
	  {
	    tree arg = gimple_call_arg (call, 0);

	    sm_ctxt->on_transition (node, stmt, arg, m_start, m_closed);

	    // TODO: is it safe to call fclose (NULL) ?
	    sm_ctxt->on_transition (node, stmt, arg, m_unchecked, m_closed);
	    sm_ctxt->on_transition (node, stmt, arg, m_null, m_closed);

	    sm_ctxt->on_transition (node, stmt , arg, m_nonnull, m_closed);

	    if (sm_ctxt->get_state (stmt, arg) == m_closed)
	      {
		tree diag_arg = sm_ctxt->get_diagnostic_tree (arg);
		sm_ctxt->warn (node, stmt, arg,
			       make_unique<double_fclose> (*this, diag_arg));
		sm_ctxt->set_next_state (stmt, arg, m_stop);
	      }
	    return true;
	  }

	if (is_file_using_fn_p (callee_fndecl))
	  {
	    // TODO: operations on unchecked file
	    return true;
	  }
	// etc
      }

  return false;
}

/* Implementation of state_machine::on_condition vfunc for
   fileptr_state_machine.
   Potentially transition state 'unchecked' to 'nonnull' or to 'null'.  */

void
fileptr_state_machine::on_condition (sm_context *sm_ctxt,
				     const supernode *node,
				     const gimple *stmt,
				     const svalue *lhs,
				     enum tree_code op,
				     const svalue *rhs) const
{
  if (!rhs->all_zeroes_p ())
    return;

  // TODO: has to be a FILE *, specifically
  if (!any_pointer_p (lhs))
    return;
  // TODO: has to be a FILE *, specifically
  if (!any_pointer_p (rhs))
    return;

  if (op == NE_EXPR)
    {
      log ("got 'ARG != 0' match");
      sm_ctxt->on_transition (node, stmt,
			      lhs, m_unchecked, m_nonnull);
    }
  else if (op == EQ_EXPR)
    {
      log ("got 'ARG == 0' match");
      sm_ctxt->on_transition (node, stmt,
			      lhs, m_unchecked, m_null);
    }
}

/* Implementation of state_machine::can_purge_p vfunc for fileptr_state_machine.
   Don't allow purging of pointers in state 'unchecked' or 'nonnull'
   (to avoid false leak reports).  */

bool
fileptr_state_machine::can_purge_p (state_t s) const
{
  return s != m_unchecked && s != m_nonnull;
}

/* Implementation of state_machine::on_leak vfunc for
   fileptr_state_machine, for complaining about leaks of FILE * in
   state 'unchecked' and 'nonnull'.  */

std::unique_ptr<pending_diagnostic>
fileptr_state_machine::on_leak (tree var) const
{
  return make_unique<file_leak> (*this, var);
}

} // anonymous namespace

/* Internal interface to this file. */

state_machine *
make_fileptr_state_machine (logger *logger)
{
  return new fileptr_state_machine (logger);
}

/* Handler for various stdio-related builtins that merely have external
   effects that are out of scope for the analyzer: we only want to model
   the effects on the return value.  */

class kf_stdio_output_fn : public known_function
{
public:
  bool matches_call_types_p (const call_details &) const final override
  {
    return true;
  }

  /* A no-op; we just want the conjured return value.  */
};

/* Handler for "ferror"".  */

class kf_ferror : public known_function
{
public:
  bool matches_call_types_p (const call_details &cd) const final override
  {
    return (cd.num_args () == 1
	    && cd.arg_is_pointer_p (0));
  }

  /* No side effects.  */
};

/* Handler for "fileno"".  */

class kf_fileno : public known_function
{
public:
  bool matches_call_types_p (const call_details &cd) const final override
  {
    return (cd.num_args () == 1
	    && cd.arg_is_pointer_p (0));
  }

  /* No side effects.  */
};

/* Handler for "fgets" and "fgets_unlocked".  */

class kf_fgets : public known_function
{
public:
  bool matches_call_types_p (const call_details &cd) const final override
  {
    return (cd.num_args () == 3
	    && cd.arg_is_pointer_p (0)
	    && cd.arg_is_pointer_p (2));
  }

  void impl_call_pre (const call_details &cd) const final override
  {
    /* Ideally we would bifurcate state here between the
       error vs no error cases.  */
    region_model *model = cd.get_model ();
    const svalue *ptr_sval = cd.get_arg_svalue (0);
    if (const region *reg = ptr_sval->maybe_get_region ())
      {
	const region *base_reg = reg->get_base_region ();
	const svalue *new_sval = cd.get_or_create_conjured_svalue (base_reg);
	model->set_value (base_reg, new_sval, cd.get_ctxt ());
      }
  }
};

/* Handler for "fread".
     size_t fread(void *restrict buffer, size_t size, size_t count,
		  FILE *restrict stream);
   See e.g. https://en.cppreference.com/w/c/io/fread
   and https://www.man7.org/linux/man-pages/man3/fread.3.html */

class kf_fread : public known_function
{
public:
  bool matches_call_types_p (const call_details &cd) const final override
  {
    return (cd.num_args () == 4
	    && cd.arg_is_pointer_p (0)
	    && cd.arg_is_size_p (1)
	    && cd.arg_is_size_p (2)
	    && cd.arg_is_pointer_p (3));
  }

  /* For now, assume that any call to "fread" fully clobbers the buffer
     passed in.  This isn't quite correct (e.g. errors, partial reads;
     see PR analyzer/108689), but at least stops us falsely complaining
     about the buffer being uninitialized.  */
  void impl_call_pre (const call_details &cd) const final override
  {
    region_model *model = cd.get_model ();
    const svalue *ptr_sval = cd.get_arg_svalue (0);
    if (const region *reg = ptr_sval->maybe_get_region ())
      {
	const region *base_reg = reg->get_base_region ();
	const svalue *new_sval = cd.get_or_create_conjured_svalue (base_reg);
	model->set_value (base_reg, new_sval, cd.get_ctxt ());
      }
  }
};

/* Handler for "getc"".  */

class kf_getc : public known_function
{
public:
  bool matches_call_types_p (const call_details &cd) const final override
  {
    return (cd.num_args () == 1
	    && cd.arg_is_pointer_p (0));
  }

  /* No side effects.  */
};

/* Handler for "getchar"".  */

class kf_getchar : public known_function
{
public:
  bool matches_call_types_p (const call_details &cd) const final override
  {
    return cd.num_args () == 0;
  }

  /* Empty.  No side-effects (tracking stream state is out-of-scope
     for the analyzer).  */
};

/* Populate KFM with instances of known functions relating to
   stdio streams.  */

void
register_known_file_functions (known_function_manager &kfm)
{
  kfm.add (BUILT_IN_FPRINTF, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_FPRINTF_UNLOCKED, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_FPUTC, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_FPUTC_UNLOCKED, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_FPUTS, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_FPUTS_UNLOCKED, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_FWRITE, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_FWRITE_UNLOCKED, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_PRINTF, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_PRINTF_UNLOCKED, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_PUTC, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_PUTCHAR, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_PUTCHAR_UNLOCKED, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_PUTC_UNLOCKED, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_PUTS, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_PUTS_UNLOCKED, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_VFPRINTF, make_unique<kf_stdio_output_fn> ());
  kfm.add (BUILT_IN_VPRINTF, make_unique<kf_stdio_output_fn> ());

  kfm.add ("ferror", make_unique<kf_ferror> ());
  kfm.add ("fgets", make_unique<kf_fgets> ());
  kfm.add ("fgets_unlocked", make_unique<kf_fgets> ()); // non-standard
  kfm.add ("fileno", make_unique<kf_fileno> ());
  kfm.add ("fread", make_unique<kf_fread> ());
  kfm.add ("getc", make_unique<kf_getc> ());
  kfm.add ("getchar", make_unique<kf_getchar> ());
}

#if CHECKING_P

namespace selftest {

/* Run all of the selftests within this file.  */

void
analyzer_sm_file_cc_tests ()
{
  function_set fs = get_file_using_fns ();
  fs.assert_sorted ();
  fs.assert_sane ();
}

} // namespace selftest

#endif /* CHECKING_P */

} // namespace ana

#endif /* #if ENABLE_ANALYZER */