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|
/* -*- Mode: C; tab-width: 4; indent-tabs-mode: t; c-basic-offset: 4 -*- */
/* NetworkManager -- Network link manager
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301 USA.
*
* (C) Copyright 2012 Colin Walters <walters@verbum.org>.
* (C) Copyright 2014 Red Hat, Inc.
*/
#ifndef __NM_MACROS_INTERNAL_H__
#define __NM_MACROS_INTERNAL_H__
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <string.h>
#include <gio/gio.h>
/*****************************************************************************/
#define _nm_packed __attribute__ ((__packed__))
#define _nm_unused __attribute__ ((__unused__))
#define _nm_used __attribute__ ((__used__))
#define _nm_pure __attribute__ ((__pure__))
#define _nm_const __attribute__ ((__const__))
#define _nm_printf(a,b) __attribute__ ((__format__ (__printf__, a, b)))
#define _nm_align(s) __attribute__ ((__aligned__ (s)))
#define _nm_section(s) __attribute__ ((__section__ (s)))
#define _nm_alignof(type) __alignof (type)
#define _nm_alignas(type) _nm_align (_nm_alignof (type))
#define nm_auto(fcn) __attribute__ ((__cleanup__(fcn)))
/* This is required to make LTO working.
*
* See https://gitlab.freedesktop.org/NetworkManager/NetworkManager/merge_requests/76#note_112694
* https://gcc.gnu.org/bugzilla/show_bug.cgi?id=48200#c28
*/
#ifndef __clang__
#define _nm_externally_visible __attribute__ ((__externally_visible__))
#else
#define _nm_externally_visible
#endif
#if __GNUC__ >= 7
#define _nm_fallthrough __attribute__ ((__fallthrough__))
#else
#define _nm_fallthrough
#endif
/*****************************************************************************/
#ifdef thread_local
#define _nm_thread_local thread_local
/*
* Don't break on glibc < 2.16 that doesn't define __STDC_NO_THREADS__
* see http://gcc.gnu.org/bugzilla/show_bug.cgi?id=53769
*/
#elif __STDC_VERSION__ >= 201112L && !(defined(__STDC_NO_THREADS__) || (defined(__GNU_LIBRARY__) && __GLIBC__ == 2 && __GLIBC_MINOR__ < 16))
#define _nm_thread_local _Thread_local
#else
#define _nm_thread_local __thread
#endif
/*****************************************************************************/
/* most of our code is single-threaded with a mainloop. Hence, we usually don't need
* any thread-safety. Sometimes, we do need thread-safety (nm-logging), but we can
* avoid locking if we are on the main-thread by:
*
* - modifications of shared data is done infrequently and only from the
* main-thread (nm_logging_setup())
* - read-only access is done frequently (nm_logging_enabled())
* - from the main-thread, we can do that without locking (because
* all modifications are also done on the main thread.
* - from other threads, we need locking. But this is expected to be
* done infrequently too. Important is the lock-free fast-path on the
* main-thread.
*
* By defining NM_THREAD_SAFE_ON_MAIN_THREAD you indicate that this code runs
* on the main-thread. It is by default defined to "1". If you have code that
* is also used on another thread, redefine the define to 0 (to opt in into
* the slow-path).
*/
#define NM_THREAD_SAFE_ON_MAIN_THREAD 1
/*****************************************************************************/
#define NM_AUTO_DEFINE_FCN_VOID(CastType, name, func) \
static inline void name (void *v) \
{ \
func (*((CastType *) v)); \
}
#define NM_AUTO_DEFINE_FCN_VOID0(CastType, name, func) \
static inline void name (void *v) \
{ \
if (*((CastType *) v)) \
func (*((CastType *) v)); \
}
#define NM_AUTO_DEFINE_FCN(Type, name, func) \
static inline void name (Type *v) \
{ \
func (*v); \
}
#define NM_AUTO_DEFINE_FCN0(Type, name, func) \
static inline void name (Type *v) \
{ \
if (*v) \
func (*v); \
}
/*****************************************************************************/
/**
* gs_free:
*
* Call g_free() on a variable location when it goes out of scope.
*/
#define gs_free nm_auto(gs_local_free)
NM_AUTO_DEFINE_FCN_VOID0 (void *, gs_local_free, g_free)
/**
* gs_unref_object:
*
* Call g_object_unref() on a variable location when it goes out of
* scope. Note that unlike g_object_unref(), the variable may be
* %NULL.
*/
#define gs_unref_object nm_auto(gs_local_obj_unref)
NM_AUTO_DEFINE_FCN_VOID0 (GObject *, gs_local_obj_unref, g_object_unref)
/**
* gs_unref_variant:
*
* Call g_variant_unref() on a variable location when it goes out of
* scope. Note that unlike g_variant_unref(), the variable may be
* %NULL.
*/
#define gs_unref_variant nm_auto(gs_local_variant_unref)
NM_AUTO_DEFINE_FCN0 (GVariant *, gs_local_variant_unref, g_variant_unref)
/**
* gs_unref_array:
*
* Call g_array_unref() on a variable location when it goes out of
* scope. Note that unlike g_array_unref(), the variable may be
* %NULL.
*/
#define gs_unref_array nm_auto(gs_local_array_unref)
NM_AUTO_DEFINE_FCN0 (GArray *, gs_local_array_unref, g_array_unref)
/**
* gs_unref_ptrarray:
*
* Call g_ptr_array_unref() on a variable location when it goes out of
* scope. Note that unlike g_ptr_array_unref(), the variable may be
* %NULL.
*/
#define gs_unref_ptrarray nm_auto(gs_local_ptrarray_unref)
NM_AUTO_DEFINE_FCN0 (GPtrArray *, gs_local_ptrarray_unref, g_ptr_array_unref)
/**
* gs_unref_hashtable:
*
* Call g_hash_table_unref() on a variable location when it goes out
* of scope. Note that unlike g_hash_table_unref(), the variable may
* be %NULL.
*/
#define gs_unref_hashtable nm_auto(gs_local_hashtable_unref)
NM_AUTO_DEFINE_FCN0 (GHashTable *, gs_local_hashtable_unref, g_hash_table_unref)
/**
* gs_free_slist:
*
* Call g_slist_free() on a variable location when it goes out
* of scope.
*/
#define gs_free_slist nm_auto(gs_local_free_slist)
NM_AUTO_DEFINE_FCN0 (GSList *, gs_local_free_slist, g_slist_free)
/**
* gs_unref_bytes:
*
* Call g_bytes_unref() on a variable location when it goes out
* of scope. Note that unlike g_bytes_unref(), the variable may
* be %NULL.
*/
#define gs_unref_bytes nm_auto(gs_local_bytes_unref)
NM_AUTO_DEFINE_FCN0 (GBytes *, gs_local_bytes_unref, g_bytes_unref)
/**
* gs_strfreev:
*
* Call g_strfreev() on a variable location when it goes out of scope.
*/
#define gs_strfreev nm_auto(gs_local_strfreev)
NM_AUTO_DEFINE_FCN0 (char **, gs_local_strfreev, g_strfreev)
/**
* gs_free_error:
*
* Call g_error_free() on a variable location when it goes out of scope.
*/
#define gs_free_error nm_auto(gs_local_free_error)
NM_AUTO_DEFINE_FCN0 (GError *, gs_local_free_error, g_error_free)
/**
* gs_unref_keyfile:
*
* Call g_key_file_unref() on a variable location when it goes out of scope.
*/
#define gs_unref_keyfile nm_auto(gs_local_keyfile_unref)
NM_AUTO_DEFINE_FCN0 (GKeyFile *, gs_local_keyfile_unref, g_key_file_unref)
/*****************************************************************************/
#include "nm-glib.h"
/*****************************************************************************/
#define nm_offsetofend(t,m) (G_STRUCT_OFFSET (t,m) + sizeof (((t *) NULL)->m))
/*****************************************************************************/
static inline int nm_close (int fd);
/**
* nm_auto_free:
*
* Call free() on a variable location when it goes out of scope.
* This is for pointers that are allocated with malloc() instead of
* g_malloc().
*
* In practice, since glib 2.45, g_malloc()/g_free() always wraps malloc()/free().
* See bgo#751592. In that case, it would be safe to free pointers allocated with
* malloc() with gs_free or g_free().
*
* However, let's never mix them. To free malloc'ed memory, always use
* free() or nm_auto_free.
*/
NM_AUTO_DEFINE_FCN_VOID0 (void *, _nm_auto_free_impl, free)
#define nm_auto_free nm_auto(_nm_auto_free_impl)
NM_AUTO_DEFINE_FCN0 (GVariantIter *, _nm_auto_free_variant_iter, g_variant_iter_free)
#define nm_auto_free_variant_iter nm_auto(_nm_auto_free_variant_iter)
NM_AUTO_DEFINE_FCN0 (GVariantBuilder *, _nm_auto_unref_variant_builder, g_variant_builder_unref)
#define nm_auto_unref_variant_builder nm_auto(_nm_auto_unref_variant_builder)
#define nm_auto_clear_variant_builder nm_auto(g_variant_builder_clear)
NM_AUTO_DEFINE_FCN0 (GList *, _nm_auto_free_list, g_list_free)
#define nm_auto_free_list nm_auto(_nm_auto_free_list)
NM_AUTO_DEFINE_FCN0 (GChecksum *, _nm_auto_checksum_free, g_checksum_free)
#define nm_auto_free_checksum nm_auto(_nm_auto_checksum_free)
#define nm_auto_unset_gvalue nm_auto(g_value_unset)
NM_AUTO_DEFINE_FCN_VOID0 (void *, _nm_auto_unref_gtypeclass, g_type_class_unref)
#define nm_auto_unref_gtypeclass nm_auto(_nm_auto_unref_gtypeclass)
NM_AUTO_DEFINE_FCN0 (GByteArray *, _nm_auto_unref_bytearray, g_byte_array_unref)
#define nm_auto_unref_bytearray nm_auto(_nm_auto_unref_bytearray)
static inline void
_nm_auto_free_gstring (GString **str)
{
if (*str)
g_string_free (*str, TRUE);
}
#define nm_auto_free_gstring nm_auto(_nm_auto_free_gstring)
static inline void
_nm_auto_close (int *pfd)
{
if (*pfd >= 0) {
int errsv = errno;
(void) nm_close (*pfd);
errno = errsv;
}
}
#define nm_auto_close nm_auto(_nm_auto_close)
static inline void
_nm_auto_fclose (FILE **pfd)
{
if (*pfd) {
int errsv = errno;
(void) fclose (*pfd);
errno = errsv;
}
}
#define nm_auto_fclose nm_auto(_nm_auto_fclose)
static inline void
_nm_auto_protect_errno (int *p_saved_errno)
{
errno = *p_saved_errno;
}
#define NM_AUTO_PROTECT_ERRNO(errsv_saved) nm_auto(_nm_auto_protect_errno) _nm_unused const int errsv_saved = (errno)
NM_AUTO_DEFINE_FCN0 (GSource *, _nm_auto_unref_gsource, g_source_unref);
#define nm_auto_unref_gsource nm_auto(_nm_auto_unref_gsource)
NM_AUTO_DEFINE_FCN0 (GMainLoop *, _nm_auto_unref_gmainloop, g_main_loop_unref);
#define nm_auto_unref_gmainloop nm_auto(_nm_auto_unref_gmainloop)
static inline void
_nm_auto_freev (gpointer ptr)
{
gpointer **p = ptr;
gpointer *_ptr;
if (*p) {
for (_ptr = *p; *_ptr; _ptr++)
g_free (*_ptr);
g_free (*p);
}
}
/* g_free a NULL terminated array of pointers, with also freeing each
* pointer with g_free(). It essentially does the same as
* gs_strfreev / g_strfreev(), but not restricted to strv arrays. */
#define nm_auto_freev nm_auto(_nm_auto_freev)
/*****************************************************************************/
/* http://stackoverflow.com/a/11172679 */
#define _NM_UTILS_MACRO_FIRST(...) __NM_UTILS_MACRO_FIRST_HELPER(__VA_ARGS__, throwaway)
#define __NM_UTILS_MACRO_FIRST_HELPER(first, ...) first
#define _NM_UTILS_MACRO_REST(...) __NM_UTILS_MACRO_REST_HELPER(__NM_UTILS_MACRO_REST_NUM(__VA_ARGS__), __VA_ARGS__)
#define __NM_UTILS_MACRO_REST_HELPER(qty, ...) __NM_UTILS_MACRO_REST_HELPER2(qty, __VA_ARGS__)
#define __NM_UTILS_MACRO_REST_HELPER2(qty, ...) __NM_UTILS_MACRO_REST_HELPER_##qty(__VA_ARGS__)
#define __NM_UTILS_MACRO_REST_HELPER_ONE(first)
#define __NM_UTILS_MACRO_REST_HELPER_TWOORMORE(first, ...) , __VA_ARGS__
#define __NM_UTILS_MACRO_REST_NUM(...) \
__NM_UTILS_MACRO_REST_SELECT_30TH(__VA_ARGS__, \
TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE,\
TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE,\
TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE,\
TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE,\
TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE, TWOORMORE,\
TWOORMORE, TWOORMORE, TWOORMORE, ONE, throwaway)
#define __NM_UTILS_MACRO_REST_SELECT_30TH(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14, a15, a16, a17, a18, a19, a20, a21, a22, a23, a24, a25, a26, a27, a28, a29, a30, ...) a30
/*****************************************************************************/
/* http://stackoverflow.com/a/2124385/354393
* https://stackoverflow.com/questions/11317474/macro-to-count-number-of-arguments
*/
#define NM_NARG(...) \
_NM_NARG(, ##__VA_ARGS__, _NM_NARG_RSEQ_N())
#define _NM_NARG(...) \
_NM_NARG_ARG_N(__VA_ARGS__)
#define _NM_NARG_ARG_N( \
_0, \
_1, _2, _3, _4, _5, _6, _7, _8, _9,_10, \
_11,_12,_13,_14,_15,_16,_17,_18,_19,_20, \
_21,_22,_23,_24,_25,_26,_27,_28,_29,_30, \
_31,_32,_33,_34,_35,_36,_37,_38,_39,_40, \
_41,_42,_43,_44,_45,_46,_47,_48,_49,_50, \
_51,_52,_53,_54,_55,_56,_57,_58,_59,_60, \
_61,_62,_63,N,...) N
#define _NM_NARG_RSEQ_N() \
63,62,61,60, \
59,58,57,56,55,54,53,52,51,50, \
49,48,47,46,45,44,43,42,41,40, \
39,38,37,36,35,34,33,32,31,30, \
29,28,27,26,25,24,23,22,21,20, \
19,18,17,16,15,14,13,12,11,10, \
9,8,7,6,5,4,3,2,1,0
/*****************************************************************************/
#if defined (__GNUC__)
#define _NM_PRAGMA_WARNING_DO(warning) G_STRINGIFY(GCC diagnostic ignored warning)
#elif defined (__clang__)
#define _NM_PRAGMA_WARNING_DO(warning) G_STRINGIFY(clang diagnostic ignored warning)
#endif
/* you can only suppress a specific warning that the compiler
* understands. Otherwise you will get another compiler warning
* about invalid pragma option.
* It's not that bad however, because gcc and clang often have the
* same name for the same warning. */
#if defined (__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))
#define NM_PRAGMA_WARNING_DISABLE(warning) \
_Pragma("GCC diagnostic push") \
_Pragma(_NM_PRAGMA_WARNING_DO(warning))
#elif defined (__clang__)
#define NM_PRAGMA_WARNING_DISABLE(warning) \
_Pragma("clang diagnostic push") \
_Pragma(_NM_PRAGMA_WARNING_DO("-Wunknown-warning-option")) \
_Pragma(_NM_PRAGMA_WARNING_DO(warning))
#else
#define NM_PRAGMA_WARNING_DISABLE(warning)
#endif
#if defined (__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))
#define NM_PRAGMA_WARNING_REENABLE \
_Pragma("GCC diagnostic pop")
#elif defined (__clang__)
#define NM_PRAGMA_WARNING_REENABLE \
_Pragma("clang diagnostic pop")
#else
#define NM_PRAGMA_WARNING_REENABLE
#endif
/*****************************************************************************/
/**
* NM_G_ERROR_MSG:
* @error: (allow-none): the #GError instance
*
* All functions must follow the convention that when they
* return a failure, they must also set the GError to a valid
* message. For external API however, we want to be extra
* careful before accessing the error instance. Use NM_G_ERROR_MSG()
* which is safe to use on NULL.
*
* Returns: the error message.
**/
static inline const char *
NM_G_ERROR_MSG (GError *error)
{
return error ? (error->message ?: "(null)") : "(no-error)"; \
}
/*****************************************************************************/
/* macro to return strlen() of a compile time string. */
#define NM_STRLEN(str) ( sizeof (""str"") - 1 )
/* returns the length of a NULL terminated array of pointers,
* like g_strv_length() does. The difference is:
* - it operats on arrays of pointers (of any kind, requiring no cast).
* - it accepts NULL to return zero. */
#define NM_PTRARRAY_LEN(array) \
({ \
typeof (*(array)) *const _array = (array); \
gsize _n = 0; \
\
if (_array) { \
_nm_unused gconstpointer _type_check_is_pointer = _array[0]; \
\
while (_array[_n]) \
_n++; \
} \
_n; \
})
/* Note: @value is only evaluated when *out_val is present.
* Thus,
* NM_SET_OUT (out_str, g_strdup ("hallo"));
* does the right thing.
*/
#define NM_SET_OUT(out_val, value) \
G_STMT_START { \
typeof(*(out_val)) *_out_val = (out_val); \
\
if (_out_val) { \
*_out_val = (value); \
} \
} G_STMT_END
/*****************************************************************************/
#ifndef _NM_CC_SUPPORT_AUTO_TYPE
#if (defined (__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 9 )))
#define _NM_CC_SUPPORT_AUTO_TYPE 1
#else
#define _NM_CC_SUPPORT_AUTO_TYPE 0
#endif
#endif
#ifndef _NM_CC_SUPPORT_GENERIC
/* In the meantime, NetworkManager requires C11 and _Generic() should always be available.
* However, shared/nm-utils may also be used in VPN/applet, which possibly did not yet
* bump the C standard requirement. Leave this for the moment, but eventually we can
* drop it. */
#if (defined (__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 9 ))) || (defined (__clang__))
#define _NM_CC_SUPPORT_GENERIC 1
#else
#define _NM_CC_SUPPORT_GENERIC 0
#endif
#endif
#if _NM_CC_SUPPORT_AUTO_TYPE
#define _nm_auto_type __auto_type
#endif
#if _NM_CC_SUPPORT_GENERIC
#define _NM_CONSTCAST_FULL_1(type, obj_expr, obj) \
(_Generic ((obj_expr), \
const void *const: ((const type *) (obj)), \
const void * : ((const type *) (obj)), \
void *const: (( type *) (obj)), \
void * : (( type *) (obj)), \
const type *const: ((const type *) (obj)), \
const type * : ((const type *) (obj)), \
type *const: (( type *) (obj)), \
type * : (( type *) (obj))))
#define _NM_CONSTCAST_FULL_2(type, obj_expr, obj, alias_type2) \
(_Generic ((obj_expr), \
const void *const: ((const type *) (obj)), \
const void * : ((const type *) (obj)), \
void *const: (( type *) (obj)), \
void * : (( type *) (obj)), \
const alias_type2 *const: ((const type *) (obj)), \
const alias_type2 * : ((const type *) (obj)), \
alias_type2 *const: (( type *) (obj)), \
alias_type2 * : (( type *) (obj)), \
const type *const: ((const type *) (obj)), \
const type * : ((const type *) (obj)), \
type *const: (( type *) (obj)), \
type * : (( type *) (obj))))
#define _NM_CONSTCAST_FULL_3(type, obj_expr, obj, alias_type2, alias_type3) \
(_Generic ((obj_expr), \
const void *const: ((const type *) (obj)), \
const void * : ((const type *) (obj)), \
void *const: (( type *) (obj)), \
void * : (( type *) (obj)), \
const alias_type2 *const: ((const type *) (obj)), \
const alias_type2 * : ((const type *) (obj)), \
alias_type2 *const: (( type *) (obj)), \
alias_type2 * : (( type *) (obj)), \
const alias_type3 *const: ((const type *) (obj)), \
const alias_type3 * : ((const type *) (obj)), \
alias_type3 *const: (( type *) (obj)), \
alias_type3 * : (( type *) (obj)), \
const type *const: ((const type *) (obj)), \
const type * : ((const type *) (obj)), \
type *const: (( type *) (obj)), \
type * : (( type *) (obj))))
#define _NM_CONSTCAST_FULL_4(type, obj_expr, obj, alias_type2, alias_type3, alias_type4) \
(_Generic ((obj_expr), \
const void *const: ((const type *) (obj)), \
const void * : ((const type *) (obj)), \
void *const: (( type *) (obj)), \
void * : (( type *) (obj)), \
const alias_type2 *const: ((const type *) (obj)), \
const alias_type2 * : ((const type *) (obj)), \
alias_type2 *const: (( type *) (obj)), \
alias_type2 * : (( type *) (obj)), \
const alias_type3 *const: ((const type *) (obj)), \
const alias_type3 * : ((const type *) (obj)), \
alias_type3 *const: (( type *) (obj)), \
alias_type3 * : (( type *) (obj)), \
const alias_type4 *const: ((const type *) (obj)), \
const alias_type4 * : ((const type *) (obj)), \
alias_type4 *const: (( type *) (obj)), \
alias_type4 * : (( type *) (obj)), \
const type *const: ((const type *) (obj)), \
const type * : ((const type *) (obj)), \
type *const: (( type *) (obj)), \
type * : (( type *) (obj))))
#define _NM_CONSTCAST_FULL_x(type, obj_expr, obj, n, ...) (_NM_CONSTCAST_FULL_##n (type, obj_expr, obj, ##__VA_ARGS__))
#define _NM_CONSTCAST_FULL_y(type, obj_expr, obj, n, ...) (_NM_CONSTCAST_FULL_x (type, obj_expr, obj, n, ##__VA_ARGS__))
#define NM_CONSTCAST_FULL( type, obj_expr, obj, ...) (_NM_CONSTCAST_FULL_y (type, obj_expr, obj, NM_NARG (dummy, ##__VA_ARGS__), ##__VA_ARGS__))
#else
#define NM_CONSTCAST_FULL( type, obj_expr, obj, ...) ((type *) (obj))
#endif
#define NM_CONSTCAST(type, obj, ...) \
NM_CONSTCAST_FULL(type, (obj), (obj), ##__VA_ARGS__)
#if _NM_CC_SUPPORT_GENERIC
#define NM_UNCONST_PTR(type, arg) \
_Generic ((arg), \
const type *: ((type *) (arg)), \
type *: ((type *) (arg)))
#else
#define NM_UNCONST_PTR(type, arg) \
((type *) (arg))
#endif
#if _NM_CC_SUPPORT_GENERIC
#define NM_UNCONST_PPTR(type, arg) \
_Generic ((arg), \
const type * *: ((type **) (arg)), \
type * *: ((type **) (arg)), \
const type *const*: ((type **) (arg)), \
type *const*: ((type **) (arg)))
#else
#define NM_UNCONST_PPTR(type, arg) \
((type **) (arg))
#endif
#define NM_GOBJECT_CAST(type, obj, is_check, ...) \
({ \
const void *_obj = (obj); \
\
nm_assert (_obj || (is_check (_obj))); \
NM_CONSTCAST_FULL (type, (obj), _obj, GObject, ##__VA_ARGS__); \
})
#define NM_GOBJECT_CAST_NON_NULL(type, obj, is_check, ...) \
({ \
const void *_obj = (obj); \
\
nm_assert (is_check (_obj)); \
NM_CONSTCAST_FULL (type, (obj), _obj, GObject, ##__VA_ARGS__); \
})
#if _NM_CC_SUPPORT_GENERIC
/* returns @value, if the type of @value matches @type.
* This requires support for C11 _Generic(). If no support is
* present, this returns @value directly.
*
* It's useful to check the let the compiler ensure that @value is
* of a certain type. */
#define _NM_ENSURE_TYPE(type, value) (_Generic ((value), type: (value)))
#else
#define _NM_ENSURE_TYPE(type, value) (value)
#endif
#if _NM_CC_SUPPORT_GENERIC
/* these macros cast (value) to
* - "const char **" (for "MC", mutable-const)
* - "const char *const*" (for "CC", const-const)
* The point is to do this cast, but only accepting pointers
* that are compatible already.
*
* The problem is, if you add a function like g_strdupv(), the input
* argument is not modified (CC), but you want to make it work also
* for "char **". C doesn't allow this form of casting (for good reasons),
* so the function makes a choice like g_strdupv(char**). That means,
* every time you want to call it with a const argument, you need to
* explicitly cast it.
*
* These macros do the cast, but they only accept a compatible input
* type, otherwise they will fail compilation.
*/
#define NM_CAST_STRV_MC(value) \
(_Generic ((value), \
const char * *: (const char * *) (value), \
char * *: (const char * *) (value), \
void *: (const char * *) (value)))
#define NM_CAST_STRV_CC(value) \
(_Generic ((value), \
const char *const*: (const char *const*) (value), \
const char * *: (const char *const*) (value), \
char *const*: (const char *const*) (value), \
char * *: (const char *const*) (value), \
const void *: (const char *const*) (value), \
void *: (const char *const*) (value)))
#else
#define NM_CAST_STRV_MC(value) ((const char * *) (value))
#define NM_CAST_STRV_CC(value) ((const char *const*) (value))
#endif
#if _NM_CC_SUPPORT_GENERIC
#define NM_PROPAGATE_CONST(test_expr, ptr) \
(_Generic ((test_expr), \
const typeof (*(test_expr)) *: ((const typeof (*(ptr)) *) (ptr)), \
default: (_Generic ((test_expr), \
typeof (*(test_expr)) *: (ptr)))))
#else
#define NM_PROPAGATE_CONST(test_expr, ptr) (ptr)
#endif
/* with the way it is implemented, the caller may or may not pass a trailing
* ',' and it will work. However, this makes the macro unsuitable for initializing
* an array. */
#define NM_MAKE_STRV(...) \
((const char *const[(sizeof (((const char *const[]) { __VA_ARGS__ })) / sizeof (const char *)) + 1]) { __VA_ARGS__ })
/*****************************************************************************/
#define _NM_IN_SET_EVAL_1( op, _x, y) (_x == (y))
#define _NM_IN_SET_EVAL_2( op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_1 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_3( op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_2 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_4( op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_3 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_5( op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_4 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_6( op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_5 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_7( op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_6 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_8( op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_7 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_9( op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_8 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_10(op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_9 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_11(op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_10 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_12(op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_11 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_13(op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_12 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_14(op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_13 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_15(op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_14 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_16(op, _x, y, ...) (_x == (y)) op _NM_IN_SET_EVAL_15 (op, _x, __VA_ARGS__)
#define _NM_IN_SET_EVAL_N2(op, _x, n, ...) (_NM_IN_SET_EVAL_##n(op, _x, __VA_ARGS__))
#define _NM_IN_SET_EVAL_N(op, type, x, n, ...) \
({ \
type _x = (x); \
\
/* trigger a -Wenum-compare warning */ \
nm_assert (TRUE || _x == (x)); \
\
!!_NM_IN_SET_EVAL_N2(op, _x, n, __VA_ARGS__); \
})
#define _NM_IN_SET(op, type, x, ...) _NM_IN_SET_EVAL_N(op, type, x, NM_NARG (__VA_ARGS__), __VA_ARGS__)
/* Beware that this does short-circuit evaluation (use "||" instead of "|")
* which has a possibly unexpected non-function-like behavior.
* Use NM_IN_SET_SE if you need all arguments to be evaluated. */
#define NM_IN_SET(x, ...) _NM_IN_SET(||, typeof (x), x, __VA_ARGS__)
/* "SE" stands for "side-effect". Contrary to NM_IN_SET(), this does not do
* short-circuit evaluation, which can make a difference if the arguments have
* side-effects. */
#define NM_IN_SET_SE(x, ...) _NM_IN_SET(|, typeof (x), x, __VA_ARGS__)
/* the *_TYPED forms allow to explicitly select the type of "x". This is useful
* if "x" doesn't support typeof (bitfields) or you want to gracefully convert
* a type using automatic type conversion rules (but not forcing the conversion
* with a cast). */
#define NM_IN_SET_TYPED(type, x, ...) _NM_IN_SET(||, type, x, __VA_ARGS__)
#define NM_IN_SET_SE_TYPED(type, x, ...) _NM_IN_SET(|, type, x, __VA_ARGS__)
/*****************************************************************************/
static inline gboolean
_NM_IN_STRSET_streq (const char *x, const char *s)
{
return s && strcmp (x, s) == 0;
}
#define _NM_IN_STRSET_EVAL_1( op, _x, y) _NM_IN_STRSET_streq (_x, y)
#define _NM_IN_STRSET_EVAL_2( op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_1 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_3( op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_2 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_4( op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_3 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_5( op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_4 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_6( op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_5 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_7( op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_6 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_8( op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_7 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_9( op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_8 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_10(op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_9 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_11(op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_10 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_12(op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_11 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_13(op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_12 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_14(op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_13 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_15(op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_14 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_16(op, _x, y, ...) _NM_IN_STRSET_streq (_x, y) op _NM_IN_STRSET_EVAL_15 (op, _x, __VA_ARGS__)
#define _NM_IN_STRSET_EVAL_N2(op, _x, n, ...) (_NM_IN_STRSET_EVAL_##n(op, _x, __VA_ARGS__))
#define _NM_IN_STRSET_EVAL_N(op, x, n, ...) \
({ \
const char *_x = (x); \
( ((_x == NULL) && _NM_IN_SET_EVAL_N2 (op, ((const char *) NULL), n, __VA_ARGS__)) \
|| ((_x != NULL) && _NM_IN_STRSET_EVAL_N2 (op, _x, n, __VA_ARGS__)) \
); \
})
/* Beware that this does short-circuit evaluation (use "||" instead of "|")
* which has a possibly unexpected non-function-like behavior.
* Use NM_IN_STRSET_SE if you need all arguments to be evaluated. */
#define NM_IN_STRSET(x, ...) _NM_IN_STRSET_EVAL_N(||, x, NM_NARG (__VA_ARGS__), __VA_ARGS__)
/* "SE" stands for "side-effect". Contrary to NM_IN_STRSET(), this does not do
* short-circuit evaluation, which can make a difference if the arguments have
* side-effects. */
#define NM_IN_STRSET_SE(x, ...) _NM_IN_STRSET_EVAL_N(|, x, NM_NARG (__VA_ARGS__), __VA_ARGS__)
#define NM_STRCHAR_ALL(str, ch_iter, predicate) \
({ \
gboolean _val = TRUE; \
const char *_str = (str); \
\
if (_str) { \
for (;;) { \
const char ch_iter = _str[0]; \
\
if (ch_iter != '\0') { \
if (predicate) {\
_str++; \
continue; \
} \
_val = FALSE; \
} \
break; \
} \
} \
_val; \
})
#define NM_STRCHAR_ANY(str, ch_iter, predicate) \
({ \
gboolean _val = FALSE; \
const char *_str = (str); \
\
if (_str) { \
for (;;) { \
const char ch_iter = _str[0]; \
\
if (ch_iter != '\0') { \
if (predicate) { \
; \
} else { \
_str++; \
continue; \
} \
_val = TRUE; \
} \
break; \
} \
} \
_val; \
})
/*****************************************************************************/
/* NM_CACHED_QUARK() returns the GQuark for @string, but caches
* it in a static variable to speed up future lookups.
*
* @string must be a string literal.
*/
#define NM_CACHED_QUARK(string) \
({ \
static GQuark _nm_cached_quark = 0; \
\
(G_LIKELY (_nm_cached_quark != 0) \
? _nm_cached_quark \
: (_nm_cached_quark = g_quark_from_static_string (""string""))); \
})
/* NM_CACHED_QUARK_FCN() is essentially the same as G_DEFINE_QUARK
* with two differences:
* - @string must be a quoted string-literal
* - @fcn must be the full function name, while G_DEFINE_QUARK() appends
* "_quark" to the function name.
* Both properties of G_DEFINE_QUARK() are non favorable, because you can no
* longer grep for string/fcn -- unless you are aware that you are searching
* for G_DEFINE_QUARK() and omit quotes / append _quark(). With NM_CACHED_QUARK_FCN(),
* ctags/cscope can locate the use of @fcn (though it doesn't recognize that
* NM_CACHED_QUARK_FCN() defines it).
*/
#define NM_CACHED_QUARK_FCN(string, fcn) \
GQuark \
fcn (void) \
{ \
return NM_CACHED_QUARK (string); \
}
/*****************************************************************************/
static inline gboolean
nm_streq (const char *s1, const char *s2)
{
return strcmp (s1, s2) == 0;
}
static inline gboolean
nm_streq0 (const char *s1, const char *s2)
{
return (s1 == s2)
|| (s1 && s2 && strcmp (s1, s2) == 0);
}
#define NM_STR_HAS_PREFIX(str, prefix) \
(strncmp ((str), ""prefix"", NM_STRLEN (prefix)) == 0)
#define NM_STR_HAS_SUFFIX(str, suffix) \
({ \
const char *_str = (str); \
gsize _l = strlen (_str); \
\
( (_l >= NM_STRLEN (suffix)) \
&& (memcmp (&_str[_l - NM_STRLEN (suffix)], \
""suffix"", \
NM_STRLEN (suffix)) == 0)); \
})
/*****************************************************************************/
static inline GString *
nm_gstring_prepare (GString **l)
{
if (*l)
g_string_set_size (*l, 0);
else
*l = g_string_sized_new (30);
return *l;
}
static inline GString *
nm_gstring_add_space_delimiter (GString *str)
{
if (str->len > 0)
g_string_append_c (str, ' ');
return str;
}
static inline const char *
nm_str_not_empty (const char *str)
{
return str && str[0] ? str : NULL;
}
static inline char *
nm_strdup_not_empty (const char *str)
{
return str && str[0] ? g_strdup (str) : NULL;
}
static inline char *
nm_str_realloc (char *str)
{
gs_free char *s = str;
/* Returns a new clone of @str and frees @str. The point is that @str
* possibly points to a larger chunck of memory. We want to freshly allocate
* a buffer.
*
* We could use realloc(), but that might not do anything or leave
* @str in its memory pool for chunks of a different size (bad for
* fragmentation).
*
* This is only useful when we want to keep the buffer around for a long
* time and want to re-allocate a more optimal buffer. */
return g_strdup (s);
}
/*****************************************************************************/
#define NM_PRINT_FMT_QUOTED(cond, prefix, str, suffix, str_else) \
(cond) ? (prefix) : "", \
(cond) ? (str) : (str_else), \
(cond) ? (suffix) : ""
#define NM_PRINT_FMT_QUOTE_STRING(arg) NM_PRINT_FMT_QUOTED((arg), "\"", (arg), "\"", "(null)")
/*****************************************************************************/
/* glib/C provides the following kind of assertions:
* - assert() -- disable with NDEBUG
* - g_return_if_fail() -- disable with G_DISABLE_CHECKS
* - g_assert() -- disable with G_DISABLE_ASSERT
* but they are all enabled by default and usually even production builds have
* these kind of assertions enabled. It also means, that disabling assertions
* is an untested configuration, and might have bugs.
*
* Add our own assertion macro nm_assert(), which is disabled by default and must
* be explicitly enabled. They are useful for more expensive checks or checks that
* depend less on runtime conditions (that is, are generally expected to be true). */
#ifndef NM_MORE_ASSERTS
#define NM_MORE_ASSERTS 0
#endif
#if NM_MORE_ASSERTS
#define nm_assert(cond) G_STMT_START { g_assert (cond); } G_STMT_END
#define nm_assert_se(cond) G_STMT_START { if (G_LIKELY (cond)) { ; } else { g_assert (FALSE && (cond)); } } G_STMT_END
#define nm_assert_not_reached() G_STMT_START { g_assert_not_reached (); } G_STMT_END
#else
#define nm_assert(cond) G_STMT_START { if (FALSE) { if (cond) { } } } G_STMT_END
#define nm_assert_se(cond) G_STMT_START { if (G_LIKELY (cond)) { ; } } G_STMT_END
#define nm_assert_not_reached() G_STMT_START { ; } G_STMT_END
#endif
/*****************************************************************************/
#define NM_GOBJECT_PROPERTIES_DEFINE_BASE(...) \
typedef enum { \
PROP_0, \
__VA_ARGS__ \
_PROPERTY_ENUMS_LAST, \
} _PropertyEnums; \
static GParamSpec *obj_properties[_PROPERTY_ENUMS_LAST] = { NULL, }
#define NM_GOBJECT_PROPERTIES_DEFINE(obj_type, ...) \
NM_GOBJECT_PROPERTIES_DEFINE_BASE (__VA_ARGS__); \
static inline void \
_nm_gobject_notify_together_impl (obj_type *obj, guint n, const _PropertyEnums *props) \
{ \
const gboolean freeze_thaw = (n > 1); \
\
nm_assert (G_IS_OBJECT (obj)); \
nm_assert (n > 0); \
\
if (freeze_thaw) \
g_object_freeze_notify ((GObject *) obj); \
while (n-- > 0) { \
const _PropertyEnums prop = *props++; \
\
if (prop != PROP_0) { \
nm_assert ((gsize) prop < G_N_ELEMENTS (obj_properties)); \
nm_assert (obj_properties[prop]); \
g_object_notify_by_pspec ((GObject *) obj, obj_properties[prop]); \
} \
} \
if (freeze_thaw) \
g_object_thaw_notify ((GObject *) obj); \
} \
\
static inline void \
_notify (obj_type *obj, _PropertyEnums prop) \
{ \
_nm_gobject_notify_together_impl (obj, 1, &prop); \
} \
/* invokes _notify() for all arguments (of type _PropertyEnums). Note, that if
* there are more than one prop arguments, this will involve a freeze/thaw
* of GObject property notifications. */
#define nm_gobject_notify_together(obj, ...) \
_nm_gobject_notify_together_impl (obj, NM_NARG (__VA_ARGS__), (const _PropertyEnums[]) { __VA_ARGS__ })
/*****************************************************************************/
#define _NM_GET_PRIVATE(self, type, is_check, ...) (&(NM_GOBJECT_CAST_NON_NULL (type, (self), is_check, ##__VA_ARGS__)->_priv))
#if _NM_CC_SUPPORT_AUTO_TYPE
#define _NM_GET_PRIVATE_PTR(self, type, is_check, ...) \
({ \
_nm_auto_type _self = NM_GOBJECT_CAST_NON_NULL (type, (self), is_check, ##__VA_ARGS__); \
\
NM_PROPAGATE_CONST (_self, _self->_priv); \
})
#else
#define _NM_GET_PRIVATE_PTR(self, type, is_check, ...) (NM_GOBJECT_CAST_NON_NULL (type, (self), is_check, ##__VA_ARGS__)->_priv)
#endif
/*****************************************************************************/
static inline gpointer
nm_g_object_ref (gpointer obj)
{
/* g_object_ref() doesn't accept NULL. */
if (obj)
g_object_ref (obj);
return obj;
}
#define nm_g_object_ref(obj) ((typeof (obj)) nm_g_object_ref (obj))
static inline void
nm_g_object_unref (gpointer obj)
{
/* g_object_unref() doesn't accept NULL. Usully, we workaround that
* by using g_clear_object(), but sometimes that is not convenient
* (for example as as destroy function for a hash table that can contain
* NULL values). */
if (obj)
g_object_unref (obj);
}
/* Assigns GObject @obj to destination @pp, and takes an additional ref.
* The previous value of @pp is unrefed.
*
* It makes sure to first increase the ref-count of @obj, and handles %NULL
* @obj correctly.
* */
#define nm_g_object_ref_set(pp, obj) \
({ \
typeof (*(pp)) *const _pp = (pp); \
typeof (*_pp) const _obj = (obj); \
typeof (*_pp) _p; \
gboolean _changed = FALSE; \
\
nm_assert (!_pp || !*_pp || G_IS_OBJECT (*_pp)); \
nm_assert (!_obj || G_IS_OBJECT (_obj)); \
\
if ( _pp \
&& ((_p = *_pp) != _obj)) { \
nm_g_object_ref (_obj); \
*_pp = _obj; \
nm_g_object_unref (_p); \
_changed = TRUE; \
} \
_changed; \
})
#define nm_clear_pointer(pp, destroy) \
({ \
typeof (*(pp)) *_pp = (pp); \
typeof (*_pp) _p; \
gboolean _changed = FALSE; \
\
if ( _pp \
&& (_p = *_pp)) { \
_nm_unused gconstpointer _p_check_is_pointer = _p; \
\
*_pp = NULL; \
/* g_clear_pointer() assigns @destroy first to a local variable, so that
* you can call "g_clear_pointer (pp, (GDestroyNotify) destroy);" without
* gcc emitting a warning. We don't do that, hence, you cannot cast
* "destroy" first.
*
* On the upside: you are not supposed to cast fcn, because the pointer
* types are preserved. If you really need a cast, you should cast @pp.
* But that is hardly ever necessary. */ \
(destroy) (_p); \
\
_changed = TRUE; \
} \
_changed; \
})
/* basically, replaces
* g_clear_pointer (&location, g_free)
* with
* nm_clear_g_free (&location)
*
* Another advantage is that by using a macro and typeof(), it is more
* typesafe and gives you for example a compiler warning when pp is a const
* pointer or points to a const-pointer.
*/
#define nm_clear_g_free(pp) \
nm_clear_pointer (pp, g_free)
#define nm_clear_g_object(pp) \
nm_clear_pointer (pp, g_object_unref)
static inline gboolean
nm_clear_g_source (guint *id)
{
guint v;
if ( id
&& (v = *id)) {
*id = 0;
g_source_remove (v);
return TRUE;
}
return FALSE;
}
static inline gboolean
nm_clear_g_signal_handler (gpointer self, gulong *id)
{
gulong v;
if ( id
&& (v = *id)) {
*id = 0;
g_signal_handler_disconnect (self, v);
return TRUE;
}
return FALSE;
}
static inline gboolean
nm_clear_g_variant (GVariant **variant)
{
GVariant *v;
if ( variant
&& (v = *variant)) {
*variant = NULL;
g_variant_unref (v);
return TRUE;
}
return FALSE;
}
static inline gboolean
nm_clear_g_cancellable (GCancellable **cancellable)
{
GCancellable *v;
if ( cancellable
&& (v = *cancellable)) {
*cancellable = NULL;
g_cancellable_cancel (v);
g_object_unref (v);
return TRUE;
}
return FALSE;
}
/* If @cancellable_id is not 0, clear it and call g_cancellable_disconnect().
* @cancellable may be %NULL, if there is nothing to disconnect.
*
* It's like nm_clear_g_signal_handler(), except that it uses g_cancellable_disconnect()
* instead of g_signal_handler_disconnect().
*
* Note the warning in glib documentation about dead-lock and what g_cancellable_disconnect()
* actually does. */
static inline gboolean
nm_clear_g_cancellable_disconnect (GCancellable *cancellable, gulong *cancellable_id)
{
gulong id;
if ( cancellable_id
&& (id = *cancellable_id) != 0) {
*cancellable_id = 0;
g_cancellable_disconnect (cancellable, id);
return TRUE;
}
return FALSE;
}
/*****************************************************************************/
static inline GVariant *
nm_g_variant_ref (GVariant *v)
{
if (v)
g_variant_ref (v);
return v;
}
static inline void
nm_g_variant_unref (GVariant *v)
{
if (v)
g_variant_unref (v);
}
/*****************************************************************************/
/* Determine whether @x is a power of two (@x being an integer type).
* Basically, this returns TRUE, if @x has exactly one bit set.
* For negative values and zero, this always returns FALSE. */
#define nm_utils_is_power_of_two(x) ({ \
typeof(x) __x = (x); \
\
( (__x > ((typeof(__x)) 0)) \
&& ((__x & (__x - (((typeof(__x)) 1)))) == ((typeof(__x)) 0))); \
})
#define NM_DIV_ROUND_UP(x, y) \
({ \
const typeof(x) _x = (x); \
const typeof(y) _y = (y); \
\
(_x / _y + !!(_x % _y)); \
})
/*****************************************************************************/
#define NM_UTILS_LOOKUP_DEFAULT(v) return (v)
#define NM_UTILS_LOOKUP_DEFAULT_WARN(v) g_return_val_if_reached (v)
#define NM_UTILS_LOOKUP_DEFAULT_NM_ASSERT(v) { nm_assert_not_reached (); return (v); }
#define NM_UTILS_LOOKUP_ITEM(v, n) (void) 0; case v: return (n); (void) 0
#define NM_UTILS_LOOKUP_STR_ITEM(v, n) NM_UTILS_LOOKUP_ITEM(v, ""n"")
#define NM_UTILS_LOOKUP_ITEM_IGNORE(v) (void) 0; case v: break; (void) 0
#define NM_UTILS_LOOKUP_ITEM_IGNORE_OTHER() (void) 0; default: break; (void) 0
#define _NM_UTILS_LOOKUP_DEFINE(scope, fcn_name, lookup_type, result_type, unknown_val, ...) \
scope result_type \
fcn_name (lookup_type val) \
{ \
switch (val) { \
(void) 0, \
__VA_ARGS__ \
(void) 0; \
}; \
{ unknown_val; } \
}
#define NM_UTILS_LOOKUP_STR_DEFINE(fcn_name, lookup_type, unknown_val, ...) \
_NM_UTILS_LOOKUP_DEFINE (, fcn_name, lookup_type, const char *, unknown_val, __VA_ARGS__)
#define NM_UTILS_LOOKUP_STR_DEFINE_STATIC(fcn_name, lookup_type, unknown_val, ...) \
_NM_UTILS_LOOKUP_DEFINE (static, fcn_name, lookup_type, const char *, unknown_val, __VA_ARGS__)
/* Call the string-lookup-table function @fcn_name. If the function returns
* %NULL, the numeric index is converted to string using a alloca() buffer.
* Beware: this macro uses alloca(). */
#define NM_UTILS_LOOKUP_STR_A(fcn_name, idx) \
({ \
typeof (idx) _idx = (idx); \
const char *_s; \
\
_s = fcn_name (_idx); \
if (!_s) { \
_s = g_alloca (30); \
\
g_snprintf ((char *) _s, 30, "(%lld)", (long long) _idx); \
} \
_s; \
})
/*****************************************************************************/
/* check if @flags has exactly one flag (@check) set. You should call this
* only with @check being a compile time constant and a power of two. */
#define NM_FLAGS_HAS(flags, check) \
( G_STATIC_ASSERT_EXPR ((check) > 0 && ((check) & ((check) - 1)) == 0), NM_FLAGS_ANY ((flags), (check)) )
#define NM_FLAGS_ANY(flags, check) ( ( ((flags) & (check)) != 0 ) ? TRUE : FALSE )
#define NM_FLAGS_ALL(flags, check) ( ( ((flags) & (check)) == (check) ) ? TRUE : FALSE )
#define NM_FLAGS_SET(flags, val) ({ \
const typeof(flags) _flags = (flags); \
const typeof(flags) _val = (val); \
\
_flags | _val; \
})
#define NM_FLAGS_UNSET(flags, val) ({ \
const typeof(flags) _flags = (flags); \
const typeof(flags) _val = (val); \
\
_flags & (~_val); \
})
#define NM_FLAGS_ASSIGN(flags, val, assign) ({ \
const typeof(flags) _flags = (flags); \
const typeof(flags) _val = (val); \
\
(assign) \
? _flags | (_val) \
: _flags & (~_val); \
})
/*****************************************************************************/
#define _NM_BACKPORT_SYMBOL_IMPL(version, return_type, orig_func, versioned_func, args_typed, args) \
return_type versioned_func args_typed; \
_nm_externally_visible return_type versioned_func args_typed \
{ \
return orig_func args; \
} \
return_type orig_func args_typed; \
__asm__(".symver "G_STRINGIFY(versioned_func)", "G_STRINGIFY(orig_func)"@"G_STRINGIFY(version))
#define NM_BACKPORT_SYMBOL(version, return_type, func, args_typed, args) \
_NM_BACKPORT_SYMBOL_IMPL(version, return_type, func, _##func##_##version, args_typed, args)
/*****************************************************************************/
/* mirrors g_ascii_isspace() and what we consider spaces in general. */
#define NM_ASCII_SPACES "\t\n\f\r "
#define nm_str_skip_leading_spaces(str) \
({ \
typeof (*(str)) *_str_sls = (str); \
_nm_unused const char *const _str_type_check = _str_sls; \
\
if (_str_sls) { \
while (g_ascii_isspace (_str_sls[0])) \
_str_sls++; \
} \
_str_sls; \
})
static inline char *
nm_strstrip (char *str)
{
/* g_strstrip doesn't like NULL. */
return str ? g_strstrip (str) : NULL;
}
static inline const char *
nm_strstrip_avoid_copy (const char *str, char **str_free)
{
gsize l;
char *s;
nm_assert (str_free && !*str_free);
if (!str)
return NULL;
str = nm_str_skip_leading_spaces (str);
l = strlen (str);
if ( l == 0
|| !g_ascii_isspace (str[l - 1]))
return str;
while ( l > 0
&& g_ascii_isspace (str[l - 1]))
l--;
s = g_new (char, l + 1);
memcpy (s, str, l);
s[l] = '\0';
*str_free = s;
return s;
}
#define nm_strstrip_avoid_copy_a(alloca_maxlen, str, out_str_free) \
({ \
const char *_str_ssac = (str); \
char **_out_str_free_ssac = (out_str_free); \
\
G_STATIC_ASSERT_EXPR ((alloca_maxlen) > 0); \
\
nm_assert ( _out_str_free_ssac || ((alloca_maxlen) > (str ? strlen (str) : 0u))); \
nm_assert (!_out_str_free_ssac || !*_out_str_free_ssac); \
\
if (_str_ssac) { \
_str_ssac = nm_str_skip_leading_spaces (_str_ssac); \
if (_str_ssac[0] != '\0') { \
gsize _l = strlen (_str_ssac); \
\
if (g_ascii_isspace (_str_ssac[--_l])) { \
while ( _l > 0 \
&& g_ascii_isspace (_str_ssac[_l - 1])) { \
_l--; \
} \
_str_ssac = nm_strndup_a ((alloca_maxlen), _str_ssac, _l, _out_str_free_ssac); \
} \
} \
} \
\
_str_ssac; \
})
/* g_ptr_array_sort()'s compare function takes pointers to the
* value. Thus, you cannot use strcmp directly. You can use
* nm_strcmp_p().
*
* Like strcmp(), this function is not forgiving to accept %NULL. */
static inline int
nm_strcmp_p (gconstpointer a, gconstpointer b)
{
const char *s1 = *((const char **) a);
const char *s2 = *((const char **) b);
return strcmp (s1, s2);
}
/*****************************************************************************/
/* Taken from systemd's UNIQ_T and UNIQ macros. */
#define NM_UNIQ_T(x, uniq) G_PASTE(__unique_prefix_, G_PASTE(x, uniq))
#define NM_UNIQ __COUNTER__
/*****************************************************************************/
/* glib's MIN()/MAX() macros don't have function-like behavior, in that they evaluate
* the argument possibly twice.
*
* Taken from systemd's MIN()/MAX() macros. */
#define NM_MIN(a, b) __NM_MIN(NM_UNIQ, a, NM_UNIQ, b)
#define __NM_MIN(aq, a, bq, b) \
({ \
typeof (a) NM_UNIQ_T(A, aq) = (a); \
typeof (b) NM_UNIQ_T(B, bq) = (b); \
((NM_UNIQ_T(A, aq) < NM_UNIQ_T(B, bq)) ? NM_UNIQ_T(A, aq) : NM_UNIQ_T(B, bq)); \
})
#define NM_MAX(a, b) __NM_MAX(NM_UNIQ, a, NM_UNIQ, b)
#define __NM_MAX(aq, a, bq, b) \
({ \
typeof (a) NM_UNIQ_T(A, aq) = (a); \
typeof (b) NM_UNIQ_T(B, bq) = (b); \
((NM_UNIQ_T(A, aq) > NM_UNIQ_T(B, bq)) ? NM_UNIQ_T(A, aq) : NM_UNIQ_T(B, bq)); \
})
#define NM_CLAMP(x, low, high) __NM_CLAMP(NM_UNIQ, x, NM_UNIQ, low, NM_UNIQ, high)
#define __NM_CLAMP(xq, x, lowq, low, highq, high) \
({ \
typeof(x)NM_UNIQ_T(X,xq) = (x); \
typeof(low) NM_UNIQ_T(LOW,lowq) = (low); \
typeof(high) NM_UNIQ_T(HIGH,highq) = (high); \
\
( (NM_UNIQ_T(X,xq) > NM_UNIQ_T(HIGH,highq)) \
? NM_UNIQ_T(HIGH,highq) \
: (NM_UNIQ_T(X,xq) < NM_UNIQ_T(LOW,lowq)) \
? NM_UNIQ_T(LOW,lowq) \
: NM_UNIQ_T(X,xq)); \
})
#define NM_MAX_WITH_CMP(cmp, a, b) \
({ \
typeof (a) _a = (a); \
typeof (b) _b = (b); \
\
( ((cmp (_a, _b)) >= 0) \
? _a \
: _b); \
})
/* evaluates to (void) if _A or _B are not constant or of different types */
#define NM_CONST_MAX(_A, _B) \
(__builtin_choose_expr (( __builtin_constant_p (_A) \
&& __builtin_constant_p (_B) \
&& __builtin_types_compatible_p (typeof (_A), typeof (_B))), \
((_A) > (_B)) ? (_A) : (_B), \
((void) 0)))
/*****************************************************************************/
/* like g_memdup(). The difference is that the @size argument is of type
* gsize, while g_memdup() has type guint. Since, the size of container types
* like GArray is guint as well, this means trying to g_memdup() an
* array,
* g_memdup (array->data, array->len * sizeof (ElementType))
* will lead to integer overflow, if there are more than G_MAXUINT/sizeof(ElementType)
* bytes. That seems unnecessarily dangerous to me.
* nm_memdup() avoids that, because its size argument is always large enough
* to contain all data that a GArray can hold.
*
* Another minor difference to g_memdup() is that the glib version also
* returns %NULL if @data is %NULL. E.g. g_memdup(NULL, 1)
* gives %NULL, but nm_memdup(NULL, 1) crashes. I think that
* is desirable, because @size MUST be correct at all times. @size
* may be zero, but one must not claim to have non-zero bytes when
* passing a %NULL @data pointer.
*/
static inline gpointer
nm_memdup (gconstpointer data, gsize size)
{
gpointer p;
if (size == 0)
return NULL;
p = g_malloc (size);
memcpy (p, data, size);
return p;
}
static inline char *
_nm_strndup_a_step (char *s, const char *str, gsize len)
{
NM_PRAGMA_WARNING_DISABLE ("-Wstringop-truncation");
if (len > 0)
strncpy (s, str, len);
s[len] = '\0';
return s;
NM_PRAGMA_WARNING_REENABLE;
}
/* Similar to g_strndup(), however, if the string (including the terminating
* NUL char) fits into alloca_maxlen, this will alloca() the memory.
*
* It's a mix of strndup() and strndupa(), but deciding based on @alloca_maxlen
* which one to use.
*
* In case malloc() is necessary, @out_str_free will be set (this string
* must be freed afterwards). It is permissible to pass %NULL as @out_str_free,
* if you ensure that len < alloca_maxlen.
*
* Note that just like g_strndup(), this always returns a buffer with @len + 1
* bytes, even if strlen(@str) is shorter than that (NUL terminated early). We fill
* the buffer with strncpy(), which means, that @str is copied up to the first
* NUL character and then filled with NUL characters. */
#define nm_strndup_a(alloca_maxlen, str, len, out_str_free) \
({ \
const gsize _alloca_maxlen_snd = (alloca_maxlen); \
const char *const _str_snd = (str); \
const gsize _len_snd = (len); \
char **const _out_str_free_snd = (out_str_free); \
char *_s_snd; \
\
G_STATIC_ASSERT_EXPR ((alloca_maxlen) <= 300); \
\
if ( _out_str_free_snd \
&& _len_snd >= _alloca_maxlen_snd) { \
_s_snd = g_malloc (_len_snd + 1); \
*_out_str_free_snd = _s_snd; \
} else { \
g_assert (_len_snd < _alloca_maxlen_snd); \
_s_snd = g_alloca (_len_snd + 1); \
} \
_nm_strndup_a_step (_s_snd, _str_snd, _len_snd); \
})
/*****************************************************************************/
/* generic macro to convert an int to a (heap allocated) string.
*
* Usually, an inline function nm_strdup_int64() would be enough. However,
* that cannot be used for guint64. So, we would also need nm_strdup_uint64().
* This causes subtle error potential, because the caller needs to ensure to
* use the right one (and compiler isn't going to help as it silently casts).
*
* Instead, this generic macro is supposed to handle all integers correctly. */
#if _NM_CC_SUPPORT_GENERIC
#define nm_strdup_int(val) \
_Generic ((val), \
char: g_strdup_printf ("%d", (int) (val)), \
\
signed char: g_strdup_printf ("%d", (signed) (val)), \
signed short: g_strdup_printf ("%d", (signed) (val)), \
signed: g_strdup_printf ("%d", (signed) (val)), \
signed long: g_strdup_printf ("%ld", (signed long) (val)), \
signed long long: g_strdup_printf ("%lld", (signed long long) (val)), \
\
unsigned char: g_strdup_printf ("%u", (unsigned) (val)), \
unsigned short: g_strdup_printf ("%u", (unsigned) (val)), \
unsigned: g_strdup_printf ("%u", (unsigned) (val)), \
unsigned long: g_strdup_printf ("%lu", (unsigned long) (val)), \
unsigned long long: g_strdup_printf ("%llu", (unsigned long long) (val)) \
)
#else
#define nm_strdup_int(val) \
( ( sizeof (val) == sizeof (guint64) \
&& ((typeof (val)) -1) > 0) \
? g_strdup_printf ("%"G_GUINT64_FORMAT, (guint64) (val)) \
: g_strdup_printf ("%"G_GINT64_FORMAT, (gint64) (val)))
#endif
/*****************************************************************************/
static inline guint
nm_encode_version (guint major, guint minor, guint micro)
{
/* analog to the preprocessor macro NM_ENCODE_VERSION(). */
return (major << 16) | (minor << 8) | micro;
}
static inline void
nm_decode_version (guint version, guint *major, guint *minor, guint *micro)
{
*major = (version & 0xFFFF0000u) >> 16;
*minor = (version & 0x0000FF00u) >> 8;
*micro = (version & 0x000000FFu);
}
/*****************************************************************************/
/* taken from systemd's DECIMAL_STR_MAX()
*
* Returns the number of chars needed to format variables of the
* specified type as a decimal string. Adds in extra space for a
* negative '-' prefix (hence works correctly on signed
* types). Includes space for the trailing NUL. */
#define NM_DECIMAL_STR_MAX(type) \
(2+(sizeof(type) <= 1 ? 3 : \
sizeof(type) <= 2 ? 5 : \
sizeof(type) <= 4 ? 10 : \
sizeof(type) <= 8 ? 20 : sizeof(int[-2*(sizeof(type) > 8)])))
/*****************************************************************************/
/* if @str is NULL, return "(null)". Otherwise, allocate a buffer using
* alloca() of and fill it with @str. @str will be quoted with double quote.
* If @str is longer then @trunc_at, the string is truncated and the closing
* quote is instead '^' to indicate truncation.
*
* Thus, the maximum stack allocated buffer will be @trunc_at+3. The maximum
* buffer size must be a constant and not larger than 300. */
#define nm_strquote_a(trunc_at, str) \
({ \
const char *const _str = (str); \
\
(_str \
? ({ \
const gsize _trunc_at = (trunc_at); \
const gsize _strlen_trunc = NM_MIN (strlen (_str), _trunc_at); \
char *_buf; \
\
G_STATIC_ASSERT_EXPR ((trunc_at) <= 300); \
\
_buf = g_alloca (_strlen_trunc + 3); \
_buf[0] = '"'; \
memcpy (&_buf[1], _str, _strlen_trunc); \
_buf[_strlen_trunc + 1] = _str[_strlen_trunc] ? '^' : '"'; \
_buf[_strlen_trunc + 2] = '\0'; \
_buf; \
}) \
: "(null)"); \
})
#define nm_sprintf_buf(buf, format, ...) \
({ \
char * _buf = (buf); \
int _buf_len; \
\
/* some static assert trying to ensure that the buffer is statically allocated.
* It disallows a buffer size of sizeof(gpointer) to catch that. */ \
G_STATIC_ASSERT (G_N_ELEMENTS (buf) == sizeof (buf) && sizeof (buf) != sizeof (char *)); \
_buf_len = g_snprintf (_buf, sizeof (buf), \
""format"", ##__VA_ARGS__); \
nm_assert (_buf_len < sizeof (buf)); \
_buf; \
})
/* it is "unsafe" because @bufsize must not be a constant expression and
* there is no check at compiletime. Regardless of that, the buffer size
* must not be larger than 300 bytes, as this gets stack allocated. */
#define nm_sprintf_buf_unsafe_a(bufsize, format, ...) \
({ \
char *_buf; \
int _buf_len; \
typeof (bufsize) _bufsize = (bufsize); \
\
nm_assert (_bufsize <= 300); \
\
_buf = g_alloca (_bufsize); \
_buf_len = g_snprintf (_buf, _bufsize, \
""format"", ##__VA_ARGS__); \
nm_assert (_buf_len >= 0 && _buf_len < _bufsize); \
_buf; \
})
#define nm_sprintf_bufa(bufsize, format, ...) \
({ \
G_STATIC_ASSERT_EXPR ((bufsize) <= 300); \
nm_sprintf_buf_unsafe_a ((bufsize), format, ##__VA_ARGS__); \
})
/* aims to alloca() a buffer and fill it with printf(format, name).
* Note that format must not contain any format specifier except
* "%s".
* If the resulting string would be too large for stack allocation,
* it allocates a buffer with g_malloc() and assigns it to *p_val_to_free. */
#define nm_construct_name_a(format, name, p_val_to_free) \
({ \
const char *const _name = (name); \
char **const _p_val_to_free = (p_val_to_free); \
const gsize _name_len = strlen (_name); \
char *_buf2; \
\
nm_assert (_p_val_to_free && !*_p_val_to_free); \
if ( NM_STRLEN (format) <= 290 \
&& _name_len < (gsize) (290 - NM_STRLEN (format))) \
_buf2 = nm_sprintf_buf_unsafe_a (NM_STRLEN (format) + _name_len, format, _name); \
else { \
_buf2 = g_strdup_printf (format, _name); \
*_p_val_to_free = _buf2; \
} \
(const char *) _buf2; \
})
/*****************************************************************************/
/**
* The boolean type _Bool is C99 while we mostly stick to C89. However, _Bool is too
* convenient to miss and is effectively available in gcc and clang. So, just use it.
*
* Usually, one would include "stdbool.h" to get the "bool" define which aliases
* _Bool. We provide this define here, because we want to make use of it anywhere.
* (also, stdbool.h is again C99).
*
* Using _Bool has advantages over gboolean:
*
* - commonly _Bool is one byte large, instead of gboolean's 4 bytes (because gboolean
* is a typedef for int). Especially when having boolean fields in a struct, we can
* thereby easily save some space.
*
* - _Bool type guarantees that two "true" expressions compare equal. E.g. the following
* will not work:
* gboolean v1 = 1;
* gboolean v2 = 2;
* g_assert_cmpint (v1, ==, v2); // will fail
* For that, we often to use !! to coerce gboolean values to 0 or 1:
* g_assert_cmpint (!!v2, ==, TRUE);
* With _Bool type, this will be handled properly by the compiler.
*
* - For structs, we might want to safe even more space and use bitfields:
* struct s1 {
* gboolean v1:1;
* };
* But the problem here is that gboolean is signed, so that
* v1 will be either 0 or -1 (not 1, TRUE). Thus, the following
* fails:
* struct s1 s = { .v1 = TRUE, };
* g_assert_cmpint (s1.v1, ==, TRUE);
* It will however work just fine with bool/_Bool while retaining the
* notion of having a boolean value.
*
* Also, add the defines for "true" and "false". Those are nicely highlighted by the editor
* as special types, contrary to glib's "TRUE"/"FALSE".
*/
#ifndef bool
#define bool _Bool
#define true 1
#define false 0
#endif
#ifdef _G_BOOLEAN_EXPR
/* g_assert() uses G_LIKELY(), which in turn uses _G_BOOLEAN_EXPR().
* As glib's implementation uses a local variable _g_boolean_var_,
* we cannot do
* g_assert (some_macro ());
* where some_macro() itself expands to ({g_assert(); ...}).
* In other words, you cannot have a g_assert() inside a g_assert()
* without getting a -Werror=shadow failure.
*
* Workaround that by re-defining _G_BOOLEAN_EXPR()
**/
#undef _G_BOOLEAN_EXPR
#define __NM_G_BOOLEAN_EXPR_IMPL(v, expr) \
({ \
int NM_UNIQ_T(V, v); \
\
if (expr) \
NM_UNIQ_T(V, v) = 1; \
else \
NM_UNIQ_T(V, v) = 0; \
NM_UNIQ_T(V, v); \
})
#define _G_BOOLEAN_EXPR(expr) __NM_G_BOOLEAN_EXPR_IMPL (NM_UNIQ, expr)
#endif
/*****************************************************************************/
/**
* nm_steal_int:
* @p_val: pointer to an int type.
*
* Returns: *p_val and sets *p_val to zero the same time.
* Accepts %NULL, in which case also numeric 0 will be returned.
*/
#define nm_steal_int(p_val) \
({ \
typeof (p_val) const _p_val = (p_val); \
typeof (*_p_val) _val = 0; \
\
if ( _p_val \
&& (_val = *_p_val)) { \
*_p_val = 0; \
} \
_val; \
})
static inline int
nm_steal_fd (int *p_fd)
{
int fd;
if ( p_fd
&& ((fd = *p_fd) >= 0)) {
*p_fd = -1;
return fd;
}
return -1;
}
/**
* nm_close:
*
* Like close() but throws an assertion if the input fd is
* invalid. Closing an invalid fd is a programming error, so
* it's better to catch it early.
*/
static inline int
nm_close (int fd)
{
int r;
r = close (fd);
nm_assert (r != -1 || fd < 0 || errno != EBADF);
return r;
}
#define NM_PID_T_INVAL ((pid_t) -1)
#endif /* __NM_MACROS_INTERNAL_H__ */
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