/* JSON output for diagnostics
Copyright (C) 2018-2023 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"
#include "system.h"
#include "coretypes.h"
#include "diagnostic.h"
#include "selftest-diagnostic.h"
#include "diagnostic-metadata.h"
#include "json.h"
#include "selftest.h"
/* Subclass of diagnostic_output_format for JSON output. */
class json_output_format : public diagnostic_output_format
{
public:
void on_begin_group () final override
{
/* No-op. */
}
void on_end_group () final override
{
m_cur_group = nullptr;
m_cur_children_array = nullptr;
}
void
on_begin_diagnostic (diagnostic_info *) final override
{
/* No-op. */
}
void
on_end_diagnostic (diagnostic_info *diagnostic,
diagnostic_t orig_diag_kind) final override;
void on_diagram (const diagnostic_diagram &) final override
{
/* No-op. */
}
protected:
json_output_format (diagnostic_context &context)
: diagnostic_output_format (context),
m_toplevel_array (new json::array ()),
m_cur_group (nullptr),
m_cur_children_array (nullptr)
{
}
/* Flush the top-level array to OUTF. */
void
flush_to_file (FILE *outf)
{
m_toplevel_array->dump (outf);
fprintf (outf, "\n");
delete m_toplevel_array;
m_toplevel_array = nullptr;
}
private:
/* The top-level JSON array of pending diagnostics. */
json::array *m_toplevel_array;
/* The JSON object for the current diagnostic group. */
json::object *m_cur_group;
/* The JSON array for the "children" array within the current diagnostic
group. */
json::array *m_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_string ("file", exploc.file);
result->set_integer ("line", exploc.line);
const enum diagnostics_column_unit orig_unit = context->m_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 != ARRAY_SIZE (column_fields); ++i)
{
context->m_column_unit = column_fields[i].unit;
const int col = context->converted_column (exploc);
result->set_integer (column_fields[i].name, col);
if (column_fields[i].unit == orig_unit)
the_column = col;
}
gcc_assert (the_column != INT_MIN);
result->set_integer ("column", the_column);
context->m_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 (loc_range->m_label->get_text (range_idx));
if (text.get ())
result->set_string ("label", text.get ());
}
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 ("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_integer ("cwe", metadata->get_cwe ());
return metadata_obj;
}
/* Implementation of "on_end_diagnostic" vfunc for JSON output.
Generate a JSON object for DIAGNOSTIC, and store for output
within current diagnostic group. */
void
json_output_format::on_end_diagnostic (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_string ("kind", rstrip);
free (rstrip);
}
// FIXME: encoding of the message (json::string requires UTF-8)
diag_obj->set_string ("message", pp_formatted_text (m_context.printer));
pp_clear_output_area (m_context.printer);
char *option_text;
option_text = m_context.m_option_name (&m_context, diagnostic->option_index,
orig_diag_kind, diagnostic->kind);
if (option_text)
{
diag_obj->set_string ("option", option_text);
free (option_text);
}
if (m_context.m_get_option_url)
{
char *option_url = m_context.m_get_option_url (&m_context,
diagnostic->option_index);
if (option_url)
{
diag_obj->set_string ("option_url", 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 (m_cur_group)
{
gcc_assert (m_cur_children_array);
m_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. */
m_toplevel_array->append (diag_obj);
m_cur_group = diag_obj;
m_cur_children_array = new json::array ();
diag_obj->set ("children", m_cur_children_array);
diag_obj->set_integer ("column-origin", m_context.m_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 (&m_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 (&m_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 && m_context.m_make_json_for_path)
{
json::value *path_value
= m_context.m_make_json_for_path (&m_context, path);
diag_obj->set ("path", path_value);
}
diag_obj->set ("escape-source",
new json::literal (richloc->escape_on_output_p ()));
}
class json_stderr_output_format : public json_output_format
{
public:
json_stderr_output_format (diagnostic_context &context)
: json_output_format (context)
{
}
~json_stderr_output_format ()
{
flush_to_file (stderr);
}
};
class json_file_output_format : public json_output_format
{
public:
json_file_output_format (diagnostic_context &context,
const char *base_file_name)
: json_output_format (context),
m_base_file_name (xstrdup (base_file_name))
{
}
~json_file_output_format ()
{
char *filename = concat (m_base_file_name, ".gcc.json", NULL);
free (m_base_file_name);
m_base_file_name = nullptr;
FILE *outf = fopen (filename, "w");
if (!outf)
{
const char *errstr = xstrerror (errno);
fnotice (stderr, "error: unable to open '%s' for writing: %s\n",
filename, errstr);
free (filename);
return;
}
flush_to_file (outf);
fclose (outf);
free (filename);
}
private:
char *m_base_file_name;
};
/* Populate CONTEXT in preparation for JSON output (either to stderr, or
to a file). */
static void
diagnostic_output_format_init_json (diagnostic_context *context)
{
/* Override callbacks. */
context->m_print_path = nullptr; /* handled in json_end_diagnostic. */
/* The metadata is handled in JSON format, rather than as text. */
context->set_show_cwe (false);
context->set_show_rules (false);
/* The option is handled in JSON format, rather than as text. */
context->set_show_option_requested (false);
/* Don't colorize the text. */
pp_show_color (context->printer) = false;
}
/* Populate CONTEXT in preparation for JSON output to stderr. */
void
diagnostic_output_format_init_json_stderr (diagnostic_context *context)
{
diagnostic_output_format_init_json (context);
context->set_output_format (new json_stderr_output_format (*context));
}
/* Populate CONTEXT in preparation for JSON output to a file named
BASE_FILE_NAME.gcc.json. */
void
diagnostic_output_format_init_json_file (diagnostic_context *context,
const char *base_file_name)
{
diagnostic_output_format_init_json (context);
context->set_output_format (new json_file_output_format (*context,
base_file_name));
}
#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 */