/* Paths through the code associated with a diagnostic.
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/>. */
#ifndef GCC_DIAGNOSTIC_PATH_H
#define GCC_DIAGNOSTIC_PATH_H
#include "diagnostic.h" /* for ATTRIBUTE_GCC_DIAG. */
#include "diagnostic-event-id.h"
/* A diagnostic_path is an optional additional piece of metadata associated
with a diagnostic (via its rich_location).
It describes a sequence of events predicted by the compiler that
lead to the problem occurring, with their locations in the user's source,
and text descriptions.
For example, the following error has a 3-event path:
test.c: In function 'demo':
test.c:29:5: error: passing NULL as argument 1 to 'PyList_Append' which
requires a non-NULL parameter
29 | PyList_Append(list, item);
| ^~~~~~~~~~~~~~~~~~~~~~~~~
'demo': events 1-3
|
| 25 | list = PyList_New(0);
| | ^~~~~~~~~~~~~
| | |
| | (1) when 'PyList_New' fails, returning NULL
| 26 |
| 27 | for (i = 0; i < count; i++) {
| | ~~~
| | |
| | (2) when 'i < count'
| 28 | item = PyLong_FromLong(random());
| 29 | PyList_Append(list, item);
| | ~~~~~~~~~~~~~~~~~~~~~~~~~
| | |
| | (3) when calling 'PyList_Append', passing NULL from (1) as argument 1
|
The diagnostic-printing code has consolidated the path into a single
run of events, since all the events are near each other and within the same
function; more complicated examples (such as interprocedural paths)
might be printed as multiple runs of events. */
/* Abstract base classes, describing events within a path, and the paths
themselves. */
/* One event within a diagnostic_path. */
class diagnostic_event
{
public:
/* Enums for giving a sense of what this event means.
Roughly corresponds to SARIF v2.1.0 section 3.38.8. */
enum verb
{
VERB_unknown,
VERB_acquire,
VERB_release,
VERB_enter,
VERB_exit,
VERB_call,
VERB_return,
VERB_branch,
VERB_danger
};
enum noun
{
NOUN_unknown,
NOUN_taint,
NOUN_sensitive, // this one isn't in SARIF v2.1.0; filed as https://github.com/oasis-tcs/sarif-spec/issues/530
NOUN_function,
NOUN_lock,
NOUN_memory,
NOUN_resource
};
enum property
{
PROPERTY_unknown,
PROPERTY_true,
PROPERTY_false
};
/* A bundle of such enums, allowing for descriptions of the meaning of
an event, such as
- "acquire memory": meaning (VERB_acquire, NOUN_memory)
- "take true branch"": meaning (VERB_branch, PROPERTY_true)
- "return from function": meaning (VERB_return, NOUN_function)
etc, as per SARIF's threadFlowLocation "kinds" property
(SARIF v2.1.0 section 3.38.8). */
struct meaning
{
meaning ()
: m_verb (VERB_unknown),
m_noun (NOUN_unknown),
m_property (PROPERTY_unknown)
{
}
meaning (enum verb verb, enum noun noun)
: m_verb (verb), m_noun (noun), m_property (PROPERTY_unknown)
{
}
meaning (enum verb verb, enum property property)
: m_verb (verb), m_noun (NOUN_unknown), m_property (property)
{
}
void dump_to_pp (pretty_printer *pp) const;
static const char *maybe_get_verb_str (enum verb);
static const char *maybe_get_noun_str (enum noun);
static const char *maybe_get_property_str (enum property);
enum verb m_verb;
enum noun m_noun;
enum property m_property;
};
virtual ~diagnostic_event () {}
virtual location_t get_location () const = 0;
virtual tree get_fndecl () const = 0;
/* Stack depth, so that consumers can visualizes the interprocedural
calls, returns, and frame nesting. */
virtual int get_stack_depth () const = 0;
/* Get a localized (and possibly colorized) description of this event. */
virtual label_text get_desc (bool can_colorize) const = 0;
/* Get a logical_location for this event, or NULL. */
virtual const logical_location *get_logical_location () const = 0;
virtual meaning get_meaning () const = 0;
virtual diagnostic_thread_id_t get_thread_id () const = 0;
};
/* Abstract base class representing a thread of execution within
a diagnostic_path.
Each diagnostic_event is associated with one thread.
Typically there is just one thread per diagnostic_path. */
class diagnostic_thread
{
public:
virtual ~diagnostic_thread () {}
virtual label_text get_name (bool can_colorize) const = 0;
};
/* Abstract base class for getting at a sequence of events. */
class diagnostic_path
{
public:
virtual ~diagnostic_path () {}
virtual unsigned num_events () const = 0;
virtual const diagnostic_event & get_event (int idx) const = 0;
virtual unsigned num_threads () const = 0;
virtual const diagnostic_thread &
get_thread (diagnostic_thread_id_t) const = 0;
bool interprocedural_p () const;
bool multithreaded_p () const;
private:
bool get_first_event_in_a_function (unsigned *out_idx) const;
};
/* Concrete subclasses. */
/* A simple implementation of diagnostic_event. */
class simple_diagnostic_event : public diagnostic_event
{
public:
simple_diagnostic_event (location_t loc, tree fndecl, int depth,
const char *desc,
diagnostic_thread_id_t thread_id = 0);
~simple_diagnostic_event ();
location_t get_location () const final override { return m_loc; }
tree get_fndecl () const final override { return m_fndecl; }
int get_stack_depth () const final override { return m_depth; }
label_text get_desc (bool) const final override
{
return label_text::borrow (m_desc);
}
const logical_location *get_logical_location () const final override
{
return NULL;
}
meaning get_meaning () const final override
{
return meaning ();
}
diagnostic_thread_id_t get_thread_id () const final override
{
return m_thread_id;
}
private:
location_t m_loc;
tree m_fndecl;
int m_depth;
char *m_desc; // has been i18n-ed and formatted
diagnostic_thread_id_t m_thread_id;
};
/* A simple implementation of diagnostic_thread. */
class simple_diagnostic_thread : public diagnostic_thread
{
public:
simple_diagnostic_thread (const char *name) : m_name (name) {}
label_text get_name (bool) const final override
{
return label_text::borrow (m_name);
}
private:
const char *m_name; // has been i18n-ed and formatted
};
/* A simple implementation of diagnostic_path, as a vector of
simple_diagnostic_event instances. */
class simple_diagnostic_path : public diagnostic_path
{
public:
simple_diagnostic_path (pretty_printer *event_pp);
unsigned num_events () const final override;
const diagnostic_event & get_event (int idx) const final override;
unsigned num_threads () const final override;
const diagnostic_thread &
get_thread (diagnostic_thread_id_t) const final override;
diagnostic_thread_id_t add_thread (const char *name);
diagnostic_event_id_t add_event (location_t loc, tree fndecl, int depth,
const char *fmt, ...)
ATTRIBUTE_GCC_DIAG(5,6);
diagnostic_event_id_t
add_thread_event (diagnostic_thread_id_t thread_id,
location_t loc, tree fndecl, int depth,
const char *fmt, ...)
ATTRIBUTE_GCC_DIAG(6,7);
private:
auto_delete_vec<simple_diagnostic_thread> m_threads;
auto_delete_vec<simple_diagnostic_event> m_events;
/* (for use by add_event). */
pretty_printer *m_event_pp;
};
extern void debug (diagnostic_path *path);
#endif /* ! GCC_DIAGNOSTIC_PATH_H */