gcc/diagnostic-format-json.cc - gcc - Git at Google

 /* JSON output for diagnostics
    Copyright (C) 2018-2021 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 "diagnostic.h"
 #include "selftest-diagnostic.h"
 #include "diagnostic-metadata.h"
 #include "json.h"
 #include "selftest.h"

 /* The top-level JSON array of pending diagnostics.  */

 static json::array *toplevel_array;

 /* The JSON object for the current diagnostic group.  */

 static json::object *cur_group;

 /* The JSON array for the "children" array within the current diagnostic
    group.  */

 static json::array *cur_children_array;

 /* Generate a JSON object for LOC.  */

 json::value *
 json_from_expanded_location (diagnostic_context *context, location_t loc)
 {
   expanded_location exploc = expand_location (loc);
   json::object *result = new json::object ();
   if (exploc.file)
     result->set ("file", new json::string (exploc.file));
   result->set ("line", new json::integer_number (exploc.line));

   const enum diagnostics_column_unit orig_unit = context->column_unit;
   struct
   {
     const char *name;
     enum diagnostics_column_unit unit;
   } column_fields[] = {
     {"display-column", DIAGNOSTICS_COLUMN_UNIT_DISPLAY},
     {"byte-column", DIAGNOSTICS_COLUMN_UNIT_BYTE}
   };
   int the_column = INT_MIN;
   for (int i = 0; i != sizeof column_fields / sizeof (*column_fields); ++i)
     {
       context->column_unit = column_fields[i].unit;
       const int col = diagnostic_converted_column (context, exploc);
       result->set (column_fields[i].name, new json::integer_number (col));
       if (column_fields[i].unit == orig_unit)
 	the_column = col;
     }
   gcc_assert (the_column != INT_MIN);
   result->set ("column", new json::integer_number (the_column));
   context->column_unit = orig_unit;
   return result;
 }

 /* Generate a JSON object for LOC_RANGE.  */

 static json::object *
 json_from_location_range (diagnostic_context *context,
 			  const location_range *loc_range, unsigned range_idx)
 {
   location_t caret_loc = get_pure_location (loc_range->m_loc);

   if (caret_loc == UNKNOWN_LOCATION)
     return NULL;

   location_t start_loc = get_start (loc_range->m_loc);
   location_t finish_loc = get_finish (loc_range->m_loc);

   json::object *result = new json::object ();
   result->set ("caret", json_from_expanded_location (context, caret_loc));
   if (start_loc != caret_loc
       && start_loc != UNKNOWN_LOCATION)
     result->set ("start", json_from_expanded_location (context, start_loc));
   if (finish_loc != caret_loc
       && finish_loc != UNKNOWN_LOCATION)
     result->set ("finish", json_from_expanded_location (context, finish_loc));

   if (loc_range->m_label)
     {
       label_text text;
       text = loc_range->m_label->get_text (range_idx);
       if (text.m_buffer)
 	result->set ("label", new json::string (text.m_buffer));
       text.maybe_free ();
     }

   return result;
 }

 /* Generate a JSON object for HINT.  */

 static json::object *
 json_from_fixit_hint (diagnostic_context *context, const fixit_hint *hint)
 {
   json::object *fixit_obj = new json::object ();

   location_t start_loc = hint->get_start_loc ();
   fixit_obj->set ("start", json_from_expanded_location (context, start_loc));
   location_t next_loc = hint->get_next_loc ();
   fixit_obj->set ("next", json_from_expanded_location (context, next_loc));
   fixit_obj->set ("string", new json::string (hint->get_string ()));

   return fixit_obj;
 }

 /* Generate a JSON object for METADATA.  */

 static json::object *
 json_from_metadata (const diagnostic_metadata *metadata)
 {
   json::object *metadata_obj = new json::object ();

   if (metadata->get_cwe ())
     metadata_obj->set ("cwe",
 		       new json::integer_number (metadata->get_cwe ()));

   return metadata_obj;
 }

 /* No-op implementation of "begin_diagnostic" for JSON output.  */

 static void
 json_begin_diagnostic (diagnostic_context *, diagnostic_info *)
 {
 }

 /* Implementation of "end_diagnostic" for JSON output.
    Generate a JSON object for DIAGNOSTIC, and store for output
    within current diagnostic group.  */

 static void
 json_end_diagnostic (diagnostic_context *context, diagnostic_info *diagnostic,
 		     diagnostic_t orig_diag_kind)
 {
   json::object *diag_obj = new json::object ();

   /* Get "kind" of diagnostic.  */
   {
     static const char *const diagnostic_kind_text[] = {
 #define DEFINE_DIAGNOSTIC_KIND(K, T, C) (T),
 #include "diagnostic.def"
 #undef DEFINE_DIAGNOSTIC_KIND
       "must-not-happen"
     };
     /* Lose the trailing ": ".  */
     const char *kind_text = diagnostic_kind_text[diagnostic->kind];
     size_t len = strlen (kind_text);
     gcc_assert (len > 2);
     gcc_assert (kind_text[len - 2] == ':');
     gcc_assert (kind_text[len - 1] == ' ');
     char *rstrip = xstrdup (kind_text);
     rstrip[len - 2] = '\0';
     diag_obj->set ("kind", new json::string (rstrip));
     free (rstrip);
   }

   // FIXME: encoding of the message (json::string requires UTF-8)
   diag_obj->set ("message",
 		 new json::string (pp_formatted_text (context->printer)));
   pp_clear_output_area (context->printer);

   char *option_text;
   option_text = context->option_name (context, diagnostic->option_index,
 				      orig_diag_kind, diagnostic->kind);
   if (option_text)
     {
       diag_obj->set ("option", new json::string (option_text));
       free (option_text);
     }

   if (context->get_option_url)
     {
       char *option_url = context->get_option_url (context,
 						  diagnostic->option_index);
       if (option_url)
 	{
 	  diag_obj->set ("option_url", new json::string (option_url));
 	  free (option_url);
 	}
     }

   /* If we've already emitted a diagnostic within this auto_diagnostic_group,
      then add diag_obj to its "children" array.  */
   if (cur_group)
     {
       gcc_assert (cur_children_array);
       cur_children_array->append (diag_obj);
     }
   else
     {
       /* Otherwise, make diag_obj be the top-level object within the group;
 	 add a "children" array and record the column origin.  */
       toplevel_array->append (diag_obj);
       cur_group = diag_obj;
       cur_children_array = new json::array ();
       diag_obj->set ("children", cur_children_array);
       diag_obj->set ("column-origin",
 		     new json::integer_number (context->column_origin));
     }

   const rich_location *richloc = diagnostic->richloc;

   json::array *loc_array = new json::array ();
   diag_obj->set ("locations", loc_array);

   for (unsigned int i = 0; i < richloc->get_num_locations (); i++)
     {
       const location_range *loc_range = richloc->get_range (i);
       json::object *loc_obj = json_from_location_range (context, loc_range, i);
       if (loc_obj)
 	loc_array->append (loc_obj);
     }

   if (richloc->get_num_fixit_hints ())
     {
       json::array *fixit_array = new json::array ();
       diag_obj->set ("fixits", fixit_array);
       for (unsigned int i = 0; i < richloc->get_num_fixit_hints (); i++)
 	{
 	  const fixit_hint *hint = richloc->get_fixit_hint (i);
 	  json::object *fixit_obj = json_from_fixit_hint (context, hint);
 	  fixit_array->append (fixit_obj);
 	}
     }

   /* TODO: tree-ish things:
      TODO: functions
      TODO: inlining information
      TODO: macro expansion information.  */

   if (diagnostic->metadata)
     {
       json::object *metadata_obj = json_from_metadata (diagnostic->metadata);
       diag_obj->set ("metadata", metadata_obj);
     }

   const diagnostic_path *path = richloc->get_path ();
   if (path && context->make_json_for_path)
     {
       json::value *path_value = context->make_json_for_path (context, path);
       diag_obj->set ("path", path_value);
     }
 }

 /* No-op implementation of "begin_group_cb" for JSON output.  */

 static void
 json_begin_group (diagnostic_context *)
 {
 }

 /* Implementation of "end_group_cb" for JSON output.  */

 static void
 json_end_group (diagnostic_context *)
 {
   cur_group = NULL;
   cur_children_array = NULL;
 }

 /* Callback for final cleanup for JSON output.  */

 static void
 json_final_cb (diagnostic_context *)
 {
   /* Flush the top-level array.  */
   toplevel_array->dump (stderr);
   fprintf (stderr, "\n");
   delete toplevel_array;
   toplevel_array = NULL;
 }

 /* Set the output format for CONTEXT to FORMAT.  */

 void
 diagnostic_output_format_init (diagnostic_context *context,
 			       enum diagnostics_output_format format)
 {
   switch (format)
     {
     default:
       gcc_unreachable ();
     case DIAGNOSTICS_OUTPUT_FORMAT_TEXT:
       /* The default; do nothing.  */
       break;

     case DIAGNOSTICS_OUTPUT_FORMAT_JSON:
       {
 	/* Set up top-level JSON array.  */
 	if (toplevel_array == NULL)
 	  toplevel_array = new json::array ();

 	/* Override callbacks.  */
 	context->begin_diagnostic = json_begin_diagnostic;
 	context->end_diagnostic = json_end_diagnostic;
 	context->begin_group_cb = json_begin_group;
 	context->end_group_cb =  json_end_group;
 	context->final_cb =  json_final_cb;
 	context->print_path = NULL; /* handled in json_end_diagnostic.  */

 	/* The metadata is handled in JSON format, rather than as text.  */
 	context->show_cwe = false;

 	/* The option is handled in JSON format, rather than as text.  */
 	context->show_option_requested = false;

 	/* Don't colorize the text.  */
 	pp_show_color (context->printer) = false;
       }
       break;
     }
 }

 #if CHECKING_P

 namespace selftest {

 /* We shouldn't call json_from_expanded_location on UNKNOWN_LOCATION,
    but verify that we handle this gracefully.  */

 static void
 test_unknown_location ()
 {
   test_diagnostic_context dc;
   delete json_from_expanded_location (&dc, UNKNOWN_LOCATION);
 }

 /* Verify that we gracefully handle attempts to serialize bad
    compound locations.  */

 static void
 test_bad_endpoints ()
 {
   location_t bad_endpoints
     = make_location (BUILTINS_LOCATION,
 		     UNKNOWN_LOCATION, UNKNOWN_LOCATION);

   location_range loc_range;
   loc_range.m_loc = bad_endpoints;
   loc_range.m_range_display_kind = SHOW_RANGE_WITH_CARET;
   loc_range.m_label = NULL;

   test_diagnostic_context dc;
   json::object *obj = json_from_location_range (&dc, &loc_range, 0);
   /* We should have a "caret" value, but no "start" or "finish" values.  */
   ASSERT_TRUE (obj != NULL);
   ASSERT_TRUE (obj->get ("caret") != NULL);
   ASSERT_TRUE (obj->get ("start") == NULL);
   ASSERT_TRUE (obj->get ("finish") == NULL);
   delete obj;
 }

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

 void
 diagnostic_format_json_cc_tests ()
 {
   test_unknown_location ();
   test_bad_endpoints ();
 }

 } // namespace selftest

 #endif /* #if CHECKING_P */
	/* JSON output for diagnostics
	Copyright (C) 2018-2021 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 "diagnostic.h"
	#include "selftest-diagnostic.h"
	#include "diagnostic-metadata.h"
	#include "json.h"
	#include "selftest.h"

	/* The top-level JSON array of pending diagnostics. */

	static json::array *toplevel_array;

	/* The JSON object for the current diagnostic group. */

	static json::object *cur_group;

	/* The JSON array for the "children" array within the current diagnostic
	group. */

	static json::array *cur_children_array;

	/* Generate a JSON object for LOC. */

	json::value *
	json_from_expanded_location (diagnostic_context *context, location_t loc)
	{
	expanded_location exploc = expand_location (loc);
	json::object *result = new json::object ();
	if (exploc.file)
	result->set ("file", new json::string (exploc.file));
	result->set ("line", new json::integer_number (exploc.line));

	const enum diagnostics_column_unit orig_unit = context->column_unit;
	struct
	{
	const char *name;
	enum diagnostics_column_unit unit;
	} column_fields[] = {
	{"display-column", DIAGNOSTICS_COLUMN_UNIT_DISPLAY},
	{"byte-column", DIAGNOSTICS_COLUMN_UNIT_BYTE}
	};
	int the_column = INT_MIN;
	for (int i = 0; i != sizeof column_fields / sizeof (*column_fields); ++i)
	{
	context->column_unit = column_fields[i].unit;
	const int col = diagnostic_converted_column (context, exploc);
	result->set (column_fields[i].name, new json::integer_number (col));
	if (column_fields[i].unit == orig_unit)
	the_column = col;
	}
	gcc_assert (the_column != INT_MIN);
	result->set ("column", new json::integer_number (the_column));
	context->column_unit = orig_unit;
	return result;
	}

	/* Generate a JSON object for LOC_RANGE. */

	static json::object *
	json_from_location_range (diagnostic_context *context,
	const location_range *loc_range, unsigned range_idx)
	{
	location_t caret_loc = get_pure_location (loc_range->m_loc);

	if (caret_loc == UNKNOWN_LOCATION)
	return NULL;

	location_t start_loc = get_start (loc_range->m_loc);
	location_t finish_loc = get_finish (loc_range->m_loc);

	json::object *result = new json::object ();
	result->set ("caret", json_from_expanded_location (context, caret_loc));
	if (start_loc != caret_loc
	&& start_loc != UNKNOWN_LOCATION)
	result->set ("start", json_from_expanded_location (context, start_loc));
	if (finish_loc != caret_loc
	&& finish_loc != UNKNOWN_LOCATION)
	result->set ("finish", json_from_expanded_location (context, finish_loc));

	if (loc_range->m_label)
	{
	label_text text;
	text = loc_range->m_label->get_text (range_idx);
	if (text.m_buffer)
	result->set ("label", new json::string (text.m_buffer));
	text.maybe_free ();
	}

	return result;
	}

	/* Generate a JSON object for HINT. */

	static json::object *
	json_from_fixit_hint (diagnostic_context context, const fixit_hint hint)
	{
	json::object *fixit_obj = new json::object ();

	location_t start_loc = hint->get_start_loc ();
	fixit_obj->set ("start", json_from_expanded_location (context, start_loc));
	location_t next_loc = hint->get_next_loc ();
	fixit_obj->set ("next", json_from_expanded_location (context, next_loc));
	fixit_obj->set ("string", new json::string (hint->get_string ()));

	return fixit_obj;
	}

	/* Generate a JSON object for METADATA. */

	static json::object *
	json_from_metadata (const diagnostic_metadata *metadata)
	{
	json::object *metadata_obj = new json::object ();

	if (metadata->get_cwe ())
	metadata_obj->set ("cwe",
	new json::integer_number (metadata->get_cwe ()));

	return metadata_obj;
	}

	/* No-op implementation of "begin_diagnostic" for JSON output. */

	static void
	json_begin_diagnostic (diagnostic_context , diagnostic_info )
	{
	}

	/* Implementation of "end_diagnostic" for JSON output.
	Generate a JSON object for DIAGNOSTIC, and store for output
	within current diagnostic group. */

	static void
	json_end_diagnostic (diagnostic_context context, diagnostic_info diagnostic,
	diagnostic_t orig_diag_kind)
	{
	json::object *diag_obj = new json::object ();

	/* Get "kind" of diagnostic. */
	{
	static const char *const diagnostic_kind_text[] = {
	#define DEFINE_DIAGNOSTIC_KIND(K, T, C) (T),
	#include "diagnostic.def"
	#undef DEFINE_DIAGNOSTIC_KIND
	"must-not-happen"
	};
	/* Lose the trailing ": ". */
	const char *kind_text = diagnostic_kind_text[diagnostic->kind];
	size_t len = strlen (kind_text);
	gcc_assert (len > 2);
	gcc_assert (kind_text[len - 2] == ':');
	gcc_assert (kind_text[len - 1] == ' ');
	char *rstrip = xstrdup (kind_text);
	rstrip[len - 2] = '\0';
	diag_obj->set ("kind", new json::string (rstrip));
	free (rstrip);
	}

	// FIXME: encoding of the message (json::string requires UTF-8)
	diag_obj->set ("message",
	new json::string (pp_formatted_text (context->printer)));
	pp_clear_output_area (context->printer);

	char *option_text;
	option_text = context->option_name (context, diagnostic->option_index,
	orig_diag_kind, diagnostic->kind);
	if (option_text)
	{
	diag_obj->set ("option", new json::string (option_text));
	free (option_text);
	}

	if (context->get_option_url)
	{
	char *option_url = context->get_option_url (context,
	diagnostic->option_index);
	if (option_url)
	{
	diag_obj->set ("option_url", new json::string (option_url));
	free (option_url);
	}
	}

	/* If we've already emitted a diagnostic within this auto_diagnostic_group,
	then add diag_obj to its "children" array. */
	if (cur_group)
	{
	gcc_assert (cur_children_array);
	cur_children_array->append (diag_obj);
	}
	else
	{
	/* Otherwise, make diag_obj be the top-level object within the group;
	add a "children" array and record the column origin. */
	toplevel_array->append (diag_obj);
	cur_group = diag_obj;
	cur_children_array = new json::array ();
	diag_obj->set ("children", cur_children_array);
	diag_obj->set ("column-origin",
	new json::integer_number (context->column_origin));
	}

	const rich_location *richloc = diagnostic->richloc;

	json::array *loc_array = new json::array ();
	diag_obj->set ("locations", loc_array);

	for (unsigned int i = 0; i < richloc->get_num_locations (); i++)
	{
	const location_range *loc_range = richloc->get_range (i);
	json::object *loc_obj = json_from_location_range (context, loc_range, i);
	if (loc_obj)
	loc_array->append (loc_obj);
	}

	if (richloc->get_num_fixit_hints ())
	{
	json::array *fixit_array = new json::array ();
	diag_obj->set ("fixits", fixit_array);
	for (unsigned int i = 0; i < richloc->get_num_fixit_hints (); i++)
	{
	const fixit_hint *hint = richloc->get_fixit_hint (i);
	json::object *fixit_obj = json_from_fixit_hint (context, hint);
	fixit_array->append (fixit_obj);
	}
	}

	/* TODO: tree-ish things:
	TODO: functions
	TODO: inlining information
	TODO: macro expansion information. */

	if (diagnostic->metadata)
	{
	json::object *metadata_obj = json_from_metadata (diagnostic->metadata);
	diag_obj->set ("metadata", metadata_obj);
	}

	const diagnostic_path *path = richloc->get_path ();
	if (path && context->make_json_for_path)
	{
	json::value *path_value = context->make_json_for_path (context, path);
	diag_obj->set ("path", path_value);
	}
	}

	/* No-op implementation of "begin_group_cb" for JSON output. */

	static void
	json_begin_group (diagnostic_context *)
	{
	}

	/* Implementation of "end_group_cb" for JSON output. */

	static void
	json_end_group (diagnostic_context *)
	{
	cur_group = NULL;
	cur_children_array = NULL;
	}

	/* Callback for final cleanup for JSON output. */

	static void
	json_final_cb (diagnostic_context *)
	{
	/* Flush the top-level array. */
	toplevel_array->dump (stderr);
	fprintf (stderr, "\n");
	delete toplevel_array;
	toplevel_array = NULL;
	}

	/* Set the output format for CONTEXT to FORMAT. */

	void
	diagnostic_output_format_init (diagnostic_context *context,
	enum diagnostics_output_format format)
	{
	switch (format)
	{
	default:
	gcc_unreachable ();
	case DIAGNOSTICS_OUTPUT_FORMAT_TEXT:
	/* The default; do nothing. */
	break;

	case DIAGNOSTICS_OUTPUT_FORMAT_JSON:
	{
	/* Set up top-level JSON array. */
	if (toplevel_array == NULL)
	toplevel_array = new json::array ();

	/* Override callbacks. */
	context->begin_diagnostic = json_begin_diagnostic;
	context->end_diagnostic = json_end_diagnostic;
	context->begin_group_cb = json_begin_group;
	context->end_group_cb = json_end_group;
	context->final_cb = json_final_cb;
	context->print_path = NULL; /* handled in json_end_diagnostic. */

	/* The metadata is handled in JSON format, rather than as text. */
	context->show_cwe = false;

	/* The option is handled in JSON format, rather than as text. */
	context->show_option_requested = false;

	/* Don't colorize the text. */
	pp_show_color (context->printer) = false;
	}
	break;
	}
	}

	#if CHECKING_P

	namespace selftest {

	/* We shouldn't call json_from_expanded_location on UNKNOWN_LOCATION,
	but verify that we handle this gracefully. */

	static void
	test_unknown_location ()
	{
	test_diagnostic_context dc;
	delete json_from_expanded_location (&dc, UNKNOWN_LOCATION);
	}

	/* Verify that we gracefully handle attempts to serialize bad
	compound locations. */

	static void
	test_bad_endpoints ()
	{
	location_t bad_endpoints
	= make_location (BUILTINS_LOCATION,
	UNKNOWN_LOCATION, UNKNOWN_LOCATION);

	location_range loc_range;
	loc_range.m_loc = bad_endpoints;
	loc_range.m_range_display_kind = SHOW_RANGE_WITH_CARET;
	loc_range.m_label = NULL;

	test_diagnostic_context dc;
	json::object *obj = json_from_location_range (&dc, &loc_range, 0);
	/* We should have a "caret" value, but no "start" or "finish" values. */
	ASSERT_TRUE (obj != NULL);
	ASSERT_TRUE (obj->get ("caret") != NULL);
	ASSERT_TRUE (obj->get ("start") == NULL);
	ASSERT_TRUE (obj->get ("finish") == NULL);
	delete obj;
	}

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

	void
	diagnostic_format_json_cc_tests ()
	{
	test_unknown_location ();
	test_bad_endpoints ();
	}

	} // namespace selftest

	#endif /* #if CHECKING_P */