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Diffstat (limited to 'shared/nm-glib-aux/nm-hash-utils.h')
-rw-r--r--shared/nm-glib-aux/nm-hash-utils.h416
1 files changed, 238 insertions, 178 deletions
diff --git a/shared/nm-glib-aux/nm-hash-utils.h b/shared/nm-glib-aux/nm-hash-utils.h
index 997c751955..ff529d224c 100644
--- a/shared/nm-glib-aux/nm-hash-utils.h
+++ b/shared/nm-glib-aux/nm-hash-utils.h
@@ -12,9 +12,9 @@
/*****************************************************************************/
#define NM_HASH_SEED_16(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9, aa, ab, ac, ad, ae, af) \
- ((const guint8[16]) { a0, a1, a2, a3, a4, a5, a6, a7, a8, a9, aa, ab, ac, ad, ae, af })
+ ((const guint8[16]){a0, a1, a2, a3, a4, a5, a6, a7, a8, a9, aa, ab, ac, ad, ae, af})
-void nm_hash_siphash42_init (CSipHash *h, guint static_seed);
+void nm_hash_siphash42_init(CSipHash *h, guint static_seed);
/* Siphash24 of binary buffer @arr and @len, using the randomized seed from
* other NMHash functions.
@@ -34,39 +34,39 @@ void nm_hash_siphash42_init (CSipHash *h, guint static_seed);
* seed (which is cached for the current run of the program).
*/
static inline guint64
-nm_hash_siphash42 (guint static_seed, const void *ptr, gsize n)
+nm_hash_siphash42(guint static_seed, const void *ptr, gsize n)
{
- CSipHash h;
+ CSipHash h;
- nm_hash_siphash42_init (&h, static_seed);
- c_siphash_append (&h, ptr, n);
- return c_siphash_finalize (&h);
+ nm_hash_siphash42_init(&h, static_seed);
+ c_siphash_append(&h, ptr, n);
+ return c_siphash_finalize(&h);
}
/*****************************************************************************/
struct _NMHashState {
- CSipHash _state;
+ CSipHash _state;
};
typedef struct _NMHashState NMHashState;
-guint nm_hash_static (guint static_seed);
+guint nm_hash_static(guint static_seed);
static inline void
-nm_hash_init (NMHashState *state, guint static_seed)
+nm_hash_init(NMHashState *state, guint static_seed)
{
- nm_assert (state);
+ nm_assert(state);
- nm_hash_siphash42_init (&state->_state, static_seed);
+ nm_hash_siphash42_init(&state->_state, static_seed);
}
static inline guint64
-nm_hash_complete_u64 (NMHashState *state)
+nm_hash_complete_u64(NMHashState *state)
{
- nm_assert (state);
+ nm_assert(state);
- /* this returns the native u64 hash value. Note that this differs
+ /* this returns the native u64 hash value. Note that this differs
* from nm_hash_complete() in two ways:
*
* - the type, guint64 vs. guint.
@@ -75,208 +75,268 @@ nm_hash_complete_u64 (NMHashState *state)
* In practice, nm_hash*() API is implemented via siphash24, so this returns
* the siphash24 value. But that is not guaranteed by the API, and if you need
* siphash24 directly, use c_siphash_*() and nm_hash_siphash42*() API. */
- return c_siphash_finalize (&state->_state);
+ return c_siphash_finalize(&state->_state);
}
static inline guint
-nm_hash_complete (NMHashState *state)
+nm_hash_complete(NMHashState *state)
{
- guint64 h;
+ guint64 h;
- h = nm_hash_complete_u64 (state);
+ h = nm_hash_complete_u64(state);
- /* we don't ever want to return a zero hash.
+ /* we don't ever want to return a zero hash.
*
* NMPObject requires that in _idx_obj_part(), and it's just a good idea. */
- return (((guint) (h >> 32)) ^ ((guint) h))
- ?: 1396707757u;
+ return (((guint)(h >> 32)) ^ ((guint) h)) ?: 1396707757u;
}
static inline void
-nm_hash_update (NMHashState *state, const void *ptr, gsize n)
+nm_hash_update(NMHashState *state, const void *ptr, gsize n)
{
- nm_assert (state);
- nm_assert (n == 0 || ptr);
+ nm_assert(state);
+ nm_assert(n == 0 || ptr);
- /* Note: the data passed in here might be sensitive data (secrets),
+ /* Note: the data passed in here might be sensitive data (secrets),
* that we should nm_explicit_bzero() afterwards. However, since
* we are using siphash24 with a random key, that is not really
* necessary. Something to keep in mind, if we ever move away from
* this hash implementation. */
- c_siphash_append (&state->_state, ptr, n);
+ c_siphash_append(&state->_state, ptr, n);
}
-#define nm_hash_update_val(state, val) \
- G_STMT_START { \
- typeof (val) _val = (val); \
- \
- nm_hash_update ((state), &_val, sizeof (_val)); \
- } G_STMT_END
+#define nm_hash_update_val(state, val) \
+ G_STMT_START \
+ { \
+ typeof(val) _val = (val); \
+ \
+ nm_hash_update((state), &_val, sizeof(_val)); \
+ } \
+ G_STMT_END
-#define nm_hash_update_valp(state, val) \
- nm_hash_update ((state), (val), sizeof (*(val))) \
+#define nm_hash_update_valp(state, val) nm_hash_update((state), (val), sizeof(*(val)))
static inline void
-nm_hash_update_bool (NMHashState *state, bool val)
+nm_hash_update_bool(NMHashState *state, bool val)
{
- nm_hash_update (state, &val, sizeof (val));
+ nm_hash_update(state, &val, sizeof(val));
}
-#define _NM_HASH_COMBINE_BOOLS_x_1( t, y) ((y) ? ((t) (1ull << 0)) : ((t) 0ull))
-#define _NM_HASH_COMBINE_BOOLS_x_2( t, y, ...) ((y) ? ((t) (1ull << 1)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_1 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_x_3( t, y, ...) ((y) ? ((t) (1ull << 2)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_2 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_x_4( t, y, ...) ((y) ? ((t) (1ull << 3)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_3 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_x_5( t, y, ...) ((y) ? ((t) (1ull << 4)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_4 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_x_6( t, y, ...) ((y) ? ((t) (1ull << 5)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_5 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_x_7( t, y, ...) ((y) ? ((t) (1ull << 6)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_6 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_x_8( t, y, ...) ((y) ? ((t) (1ull << 7)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_7 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_x_9( t, y, ...) ((y) ? ((t) (1ull << 8)) : ((t) 0ull)) | (G_STATIC_ASSERT_EXPR (sizeof (t) >= 2), (_NM_HASH_COMBINE_BOOLS_x_8 (t, __VA_ARGS__)))
-#define _NM_HASH_COMBINE_BOOLS_x_10(t, y, ...) ((y) ? ((t) (1ull << 9)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_9 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_x_11(t, y, ...) ((y) ? ((t) (1ull << 10)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_10 (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_n2(t, n, ...) _NM_HASH_COMBINE_BOOLS_x_##n (t, __VA_ARGS__)
-#define _NM_HASH_COMBINE_BOOLS_n(t, n, ...) _NM_HASH_COMBINE_BOOLS_n2(t, n, __VA_ARGS__)
-
-#define NM_HASH_COMBINE_BOOLS(type, ...) ((type) (_NM_HASH_COMBINE_BOOLS_n(type, NM_NARG (__VA_ARGS__), __VA_ARGS__)))
+#define _NM_HASH_COMBINE_BOOLS_x_1(t, y) ((y) ? ((t)(1ull << 0)) : ((t) 0ull))
+#define _NM_HASH_COMBINE_BOOLS_x_2(t, y, ...) \
+ ((y) ? ((t)(1ull << 1)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_1(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_x_3(t, y, ...) \
+ ((y) ? ((t)(1ull << 2)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_2(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_x_4(t, y, ...) \
+ ((y) ? ((t)(1ull << 3)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_3(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_x_5(t, y, ...) \
+ ((y) ? ((t)(1ull << 4)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_4(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_x_6(t, y, ...) \
+ ((y) ? ((t)(1ull << 5)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_5(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_x_7(t, y, ...) \
+ ((y) ? ((t)(1ull << 6)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_6(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_x_8(t, y, ...) \
+ ((y) ? ((t)(1ull << 7)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_7(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_x_9(t, y, ...) \
+ ((y) ? ((t)(1ull << 8)) : ((t) 0ull)) \
+ | (G_STATIC_ASSERT_EXPR(sizeof(t) >= 2), (_NM_HASH_COMBINE_BOOLS_x_8(t, __VA_ARGS__)))
+#define _NM_HASH_COMBINE_BOOLS_x_10(t, y, ...) \
+ ((y) ? ((t)(1ull << 9)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_9(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_x_11(t, y, ...) \
+ ((y) ? ((t)(1ull << 10)) : ((t) 0ull)) | _NM_HASH_COMBINE_BOOLS_x_10(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_n2(t, n, ...) _NM_HASH_COMBINE_BOOLS_x_##n(t, __VA_ARGS__)
+#define _NM_HASH_COMBINE_BOOLS_n(t, n, ...) _NM_HASH_COMBINE_BOOLS_n2(t, n, __VA_ARGS__)
+
+#define NM_HASH_COMBINE_BOOLS(type, ...) \
+ ((type)(_NM_HASH_COMBINE_BOOLS_n(type, NM_NARG(__VA_ARGS__), __VA_ARGS__)))
#define nm_hash_update_bools(state, ...) \
- nm_hash_update_val (state, NM_HASH_COMBINE_BOOLS (guint8, __VA_ARGS__))
-
-#define _NM_HASH_COMBINE_VALS_typ_x_1( y) typeof (y) _v1;
-#define _NM_HASH_COMBINE_VALS_typ_x_2( y, ...) typeof (y) _v2; _NM_HASH_COMBINE_VALS_typ_x_1 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_3( y, ...) typeof (y) _v3; _NM_HASH_COMBINE_VALS_typ_x_2 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_4( y, ...) typeof (y) _v4; _NM_HASH_COMBINE_VALS_typ_x_3 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_5( y, ...) typeof (y) _v5; _NM_HASH_COMBINE_VALS_typ_x_4 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_6( y, ...) typeof (y) _v6; _NM_HASH_COMBINE_VALS_typ_x_5 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_7( y, ...) typeof (y) _v7; _NM_HASH_COMBINE_VALS_typ_x_6 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_8( y, ...) typeof (y) _v8; _NM_HASH_COMBINE_VALS_typ_x_7 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_9( y, ...) typeof (y) _v9; _NM_HASH_COMBINE_VALS_typ_x_8 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_10(y, ...) typeof (y) _v10; _NM_HASH_COMBINE_VALS_typ_x_9 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_11(y, ...) typeof (y) _v11; _NM_HASH_COMBINE_VALS_typ_x_10 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_12(y, ...) typeof (y) _v12; _NM_HASH_COMBINE_VALS_typ_x_11 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_13(y, ...) typeof (y) _v13; _NM_HASH_COMBINE_VALS_typ_x_12 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_14(y, ...) typeof (y) _v14; _NM_HASH_COMBINE_VALS_typ_x_13 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_15(y, ...) typeof (y) _v15; _NM_HASH_COMBINE_VALS_typ_x_14 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_16(y, ...) typeof (y) _v16; _NM_HASH_COMBINE_VALS_typ_x_15 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_17(y, ...) typeof (y) _v17; _NM_HASH_COMBINE_VALS_typ_x_16 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_18(y, ...) typeof (y) _v18; _NM_HASH_COMBINE_VALS_typ_x_17 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_19(y, ...) typeof (y) _v19; _NM_HASH_COMBINE_VALS_typ_x_18 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_x_20(y, ...) typeof (y) _v20; _NM_HASH_COMBINE_VALS_typ_x_19 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_n2(n, ...) _NM_HASH_COMBINE_VALS_typ_x_##n (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_typ_n(n, ...) _NM_HASH_COMBINE_VALS_typ_n2(n, __VA_ARGS__)
-
-#define _NM_HASH_COMBINE_VALS_val_x_1( y) ._v1 = (y),
-#define _NM_HASH_COMBINE_VALS_val_x_2( y, ...) ._v2 = (y), _NM_HASH_COMBINE_VALS_val_x_1 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_3( y, ...) ._v3 = (y), _NM_HASH_COMBINE_VALS_val_x_2 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_4( y, ...) ._v4 = (y), _NM_HASH_COMBINE_VALS_val_x_3 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_5( y, ...) ._v5 = (y), _NM_HASH_COMBINE_VALS_val_x_4 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_6( y, ...) ._v6 = (y), _NM_HASH_COMBINE_VALS_val_x_5 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_7( y, ...) ._v7 = (y), _NM_HASH_COMBINE_VALS_val_x_6 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_8( y, ...) ._v8 = (y), _NM_HASH_COMBINE_VALS_val_x_7 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_9( y, ...) ._v9 = (y), _NM_HASH_COMBINE_VALS_val_x_8 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_10(y, ...) ._v10 = (y), _NM_HASH_COMBINE_VALS_val_x_9 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_11(y, ...) ._v11 = (y), _NM_HASH_COMBINE_VALS_val_x_10 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_12(y, ...) ._v12 = (y), _NM_HASH_COMBINE_VALS_val_x_11 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_13(y, ...) ._v13 = (y), _NM_HASH_COMBINE_VALS_val_x_12 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_14(y, ...) ._v14 = (y), _NM_HASH_COMBINE_VALS_val_x_13 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_15(y, ...) ._v15 = (y), _NM_HASH_COMBINE_VALS_val_x_14 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_16(y, ...) ._v16 = (y), _NM_HASH_COMBINE_VALS_val_x_15 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_17(y, ...) ._v17 = (y), _NM_HASH_COMBINE_VALS_val_x_16 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_18(y, ...) ._v18 = (y), _NM_HASH_COMBINE_VALS_val_x_17 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_19(y, ...) ._v19 = (y), _NM_HASH_COMBINE_VALS_val_x_18 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_x_20(y, ...) ._v20 = (y), _NM_HASH_COMBINE_VALS_val_x_19 (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_n2(n, ...) _NM_HASH_COMBINE_VALS_val_x_##n (__VA_ARGS__)
-#define _NM_HASH_COMBINE_VALS_val_n(n, ...) _NM_HASH_COMBINE_VALS_val_n2(n, __VA_ARGS__)
+ nm_hash_update_val(state, NM_HASH_COMBINE_BOOLS(guint8, __VA_ARGS__))
+
+#define _NM_HASH_COMBINE_VALS_typ_x_1(y) typeof(y) _v1;
+#define _NM_HASH_COMBINE_VALS_typ_x_2(y, ...) \
+ typeof(y) _v2; \
+ _NM_HASH_COMBINE_VALS_typ_x_1(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_3(y, ...) \
+ typeof(y) _v3; \
+ _NM_HASH_COMBINE_VALS_typ_x_2(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_4(y, ...) \
+ typeof(y) _v4; \
+ _NM_HASH_COMBINE_VALS_typ_x_3(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_5(y, ...) \
+ typeof(y) _v5; \
+ _NM_HASH_COMBINE_VALS_typ_x_4(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_6(y, ...) \
+ typeof(y) _v6; \
+ _NM_HASH_COMBINE_VALS_typ_x_5(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_7(y, ...) \
+ typeof(y) _v7; \
+ _NM_HASH_COMBINE_VALS_typ_x_6(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_8(y, ...) \
+ typeof(y) _v8; \
+ _NM_HASH_COMBINE_VALS_typ_x_7(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_9(y, ...) \
+ typeof(y) _v9; \
+ _NM_HASH_COMBINE_VALS_typ_x_8(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_10(y, ...) \
+ typeof(y) _v10; \
+ _NM_HASH_COMBINE_VALS_typ_x_9(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_11(y, ...) \
+ typeof(y) _v11; \
+ _NM_HASH_COMBINE_VALS_typ_x_10(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_12(y, ...) \
+ typeof(y) _v12; \
+ _NM_HASH_COMBINE_VALS_typ_x_11(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_13(y, ...) \
+ typeof(y) _v13; \
+ _NM_HASH_COMBINE_VALS_typ_x_12(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_14(y, ...) \
+ typeof(y) _v14; \
+ _NM_HASH_COMBINE_VALS_typ_x_13(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_15(y, ...) \
+ typeof(y) _v15; \
+ _NM_HASH_COMBINE_VALS_typ_x_14(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_16(y, ...) \
+ typeof(y) _v16; \
+ _NM_HASH_COMBINE_VALS_typ_x_15(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_17(y, ...) \
+ typeof(y) _v17; \
+ _NM_HASH_COMBINE_VALS_typ_x_16(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_18(y, ...) \
+ typeof(y) _v18; \
+ _NM_HASH_COMBINE_VALS_typ_x_17(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_19(y, ...) \
+ typeof(y) _v19; \
+ _NM_HASH_COMBINE_VALS_typ_x_18(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_x_20(y, ...) \
+ typeof(y) _v20; \
+ _NM_HASH_COMBINE_VALS_typ_x_19(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_n2(n, ...) _NM_HASH_COMBINE_VALS_typ_x_##n(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_typ_n(n, ...) _NM_HASH_COMBINE_VALS_typ_n2(n, __VA_ARGS__)
+
+#define _NM_HASH_COMBINE_VALS_val_x_1(y) ._v1 = (y),
+#define _NM_HASH_COMBINE_VALS_val_x_2(y, ...) ._v2 = (y), _NM_HASH_COMBINE_VALS_val_x_1(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_3(y, ...) ._v3 = (y), _NM_HASH_COMBINE_VALS_val_x_2(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_4(y, ...) ._v4 = (y), _NM_HASH_COMBINE_VALS_val_x_3(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_5(y, ...) ._v5 = (y), _NM_HASH_COMBINE_VALS_val_x_4(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_6(y, ...) ._v6 = (y), _NM_HASH_COMBINE_VALS_val_x_5(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_7(y, ...) ._v7 = (y), _NM_HASH_COMBINE_VALS_val_x_6(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_8(y, ...) ._v8 = (y), _NM_HASH_COMBINE_VALS_val_x_7(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_9(y, ...) ._v9 = (y), _NM_HASH_COMBINE_VALS_val_x_8(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_10(y, ...) \
+ ._v10 = (y), _NM_HASH_COMBINE_VALS_val_x_9(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_11(y, ...) \
+ ._v11 = (y), _NM_HASH_COMBINE_VALS_val_x_10(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_12(y, ...) \
+ ._v12 = (y), _NM_HASH_COMBINE_VALS_val_x_11(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_13(y, ...) \
+ ._v13 = (y), _NM_HASH_COMBINE_VALS_val_x_12(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_14(y, ...) \
+ ._v14 = (y), _NM_HASH_COMBINE_VALS_val_x_13(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_15(y, ...) \
+ ._v15 = (y), _NM_HASH_COMBINE_VALS_val_x_14(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_16(y, ...) \
+ ._v16 = (y), _NM_HASH_COMBINE_VALS_val_x_15(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_17(y, ...) \
+ ._v17 = (y), _NM_HASH_COMBINE_VALS_val_x_16(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_18(y, ...) \
+ ._v18 = (y), _NM_HASH_COMBINE_VALS_val_x_17(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_19(y, ...) \
+ ._v19 = (y), _NM_HASH_COMBINE_VALS_val_x_18(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_x_20(y, ...) \
+ ._v20 = (y), _NM_HASH_COMBINE_VALS_val_x_19(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_n2(n, ...) _NM_HASH_COMBINE_VALS_val_x_##n(__VA_ARGS__)
+#define _NM_HASH_COMBINE_VALS_val_n(n, ...) _NM_HASH_COMBINE_VALS_val_n2(n, __VA_ARGS__)
/* NM_HASH_COMBINE_VALS() is faster then nm_hash_update_val() as it combines multiple
* calls to nm_hash_update() using a packed structure. */
-#define NM_HASH_COMBINE_VALS(var, ...) \
- const struct _nm_packed { \
- _NM_HASH_COMBINE_VALS_typ_n (NM_NARG (__VA_ARGS__), __VA_ARGS__) \
- } var _nm_alignas (guint64) = { \
- _NM_HASH_COMBINE_VALS_val_n (NM_NARG (__VA_ARGS__), __VA_ARGS__) \
- }
+#define NM_HASH_COMBINE_VALS(var, ...) \
+ const struct _nm_packed { \
+ _NM_HASH_COMBINE_VALS_typ_n(NM_NARG(__VA_ARGS__), __VA_ARGS__) \
+ } var _nm_alignas(guint64) = {_NM_HASH_COMBINE_VALS_val_n(NM_NARG(__VA_ARGS__), __VA_ARGS__)}
/* nm_hash_update_vals() is faster then nm_hash_update_val() as it combines multiple
* calls to nm_hash_update() using a packed structure. */
-#define nm_hash_update_vals(state, ...) \
- G_STMT_START { \
- NM_HASH_COMBINE_VALS (_val, __VA_ARGS__); \
- \
- nm_hash_update ((state), &_val, sizeof (_val)); \
- } G_STMT_END
+#define nm_hash_update_vals(state, ...) \
+ G_STMT_START \
+ { \
+ NM_HASH_COMBINE_VALS(_val, __VA_ARGS__); \
+ \
+ nm_hash_update((state), &_val, sizeof(_val)); \
+ } \
+ G_STMT_END
static inline void
-nm_hash_update_mem (NMHashState *state, const void *ptr, gsize n)
+nm_hash_update_mem(NMHashState *state, const void *ptr, gsize n)
{
- /* This also hashes the length of the data. That means,
+ /* This also hashes the length of the data. That means,
* hashing two consecutive binary fields (of arbitrary
* length), will hash differently. That is,
* [[1,1], []] differs from [[1],[1]].
*
* If you have a constant length (sizeof), use nm_hash_update()
* instead. */
- nm_hash_update (state, &n, sizeof (n));
- if (n > 0)
- nm_hash_update (state, ptr, n);
+ nm_hash_update(state, &n, sizeof(n));
+ if (n > 0)
+ nm_hash_update(state, ptr, n);
}
static inline void
-nm_hash_update_str0 (NMHashState *state, const char *str)
+nm_hash_update_str0(NMHashState *state, const char *str)
{
- if (str)
- nm_hash_update_mem (state, str, strlen (str));
- else {
- gsize n = G_MAXSIZE;
+ if (str)
+ nm_hash_update_mem(state, str, strlen(str));
+ else {
+ gsize n = G_MAXSIZE;
- nm_hash_update (state, &n, sizeof (n));
- }
+ nm_hash_update(state, &n, sizeof(n));
+ }
}
static inline void
-nm_hash_update_str (NMHashState *state, const char *str)
+nm_hash_update_str(NMHashState *state, const char *str)
{
- nm_assert (str);
- nm_hash_update (state, str, strlen (str) + 1);
+ nm_assert(str);
+ nm_hash_update(state, str, strlen(str) + 1);
}
#if _NM_CC_SUPPORT_GENERIC
-/* Like nm_hash_update_str(), but restricted to arrays only. nm_hash_update_str() only works
+ /* Like nm_hash_update_str(), but restricted to arrays only. nm_hash_update_str() only works
* with a @str argument that cannot be NULL. If you have a string pointer, that is never NULL, use
* nm_hash_update() instead. */
-#define nm_hash_update_strarr(state, str) \
- (_Generic (&(str), \
- const char (*) [sizeof (str)]: nm_hash_update_str ((state), (str)), \
- char (*) [sizeof (str)]: nm_hash_update_str ((state), (str))) \
- )
+ #define nm_hash_update_strarr(state, str) \
+ (_Generic(&(str), const char(*)[sizeof(str)] \
+ : nm_hash_update_str((state), (str)), char(*)[sizeof(str)] \
+ : nm_hash_update_str((state), (str))))
#else
-#define nm_hash_update_strarr(state, str) nm_hash_update_str ((state), (str))
+ #define nm_hash_update_strarr(state, str) nm_hash_update_str((state), (str))
#endif
-guint nm_hash_ptr (gconstpointer ptr);
-guint nm_direct_hash (gconstpointer str);
+guint nm_hash_ptr(gconstpointer ptr);
+guint nm_direct_hash(gconstpointer str);
-guint nm_hash_str (const char *str);
-guint nm_str_hash (gconstpointer str);
+guint nm_hash_str(const char *str);
+guint nm_str_hash(gconstpointer str);
-#define nm_hash_val(static_seed, val) \
- ({ \
- NMHashState _h; \
- \
- nm_hash_init (&_h, (static_seed)); \
- nm_hash_update_val (&_h, (val)); \
- nm_hash_complete (&_h); \
- })
+#define nm_hash_val(static_seed, val) \
+ ({ \
+ NMHashState _h; \
+ \
+ nm_hash_init(&_h, (static_seed)); \
+ nm_hash_update_val(&_h, (val)); \
+ nm_hash_complete(&_h); \
+ })
static inline guint
-nm_hash_mem (guint static_seed, const void *ptr, gsize n)
+nm_hash_mem(guint static_seed, const void *ptr, gsize n)
{
- NMHashState h;
+ NMHashState h;
- if (n == 0)
- return nm_hash_static (static_seed);
- nm_hash_init (&h, static_seed);
- nm_hash_update (&h, ptr, n);
- return nm_hash_complete (&h);
+ if (n == 0)
+ return nm_hash_static(static_seed);
+ nm_hash_init(&h, static_seed);
+ nm_hash_update(&h, ptr, n);
+ return nm_hash_complete(&h);
}
/*****************************************************************************/
@@ -284,20 +344,20 @@ nm_hash_mem (guint static_seed, const void *ptr, gsize n)
/* nm_pstr_*() are for hashing keys that are pointers to strings,
* that is, "const char *const*" types, using strcmp(). */
-guint nm_pstr_hash (gconstpointer p);
+guint nm_pstr_hash(gconstpointer p);
-gboolean nm_pstr_equal (gconstpointer a, gconstpointer b);
+gboolean nm_pstr_equal(gconstpointer a, gconstpointer b);
/*****************************************************************************/
/* nm_pint_*() are for hashing keys that are pointers to int values,
* that is, "const int *" types. */
-guint nm_pint_hash (gconstpointer p);
-gboolean nm_pint_equals (gconstpointer a, gconstpointer b);
+guint nm_pint_hash(gconstpointer p);
+gboolean nm_pint_equals(gconstpointer a, gconstpointer b);
-G_STATIC_ASSERT (sizeof (int) == sizeof (guint32));
-#define nm_puint32_hash nm_pint_hash
+G_STATIC_ASSERT(sizeof(int) == sizeof(guint32));
+#define nm_puint32_hash nm_pint_hash
#define nm_puint32_equals nm_pint_equals
/*****************************************************************************/
@@ -305,25 +365,25 @@ G_STATIC_ASSERT (sizeof (int) == sizeof (guint32));
/* this hashes/compares the pointer value that we point to. Basically,
* (*((const void *const*) a) == *((const void *const*) b)). */
-guint nm_pdirect_hash (gconstpointer p);
+guint nm_pdirect_hash(gconstpointer p);
-gboolean nm_pdirect_equal (gconstpointer a, gconstpointer b);
+gboolean nm_pdirect_equal(gconstpointer a, gconstpointer b);
/* this hashes/compares the direct pointer value by following pointers to
* pointers 2 times.
* (**((const void *const*const*) a) == **((const void *const*const*) b)). */
-guint nm_ppdirect_hash (gconstpointer p);
+guint nm_ppdirect_hash(gconstpointer p);
-gboolean nm_ppdirect_equal (gconstpointer a, gconstpointer b);
+gboolean nm_ppdirect_equal(gconstpointer a, gconstpointer b);
/*****************************************************************************/
-guint nm_gbytes_hash (gconstpointer p);
+guint nm_gbytes_hash(gconstpointer p);
#define nm_gbytes_equal g_bytes_equal
-guint nm_pgbytes_hash (gconstpointer p);
-gboolean nm_pgbytes_equal (gconstpointer a, gconstpointer b);
+guint nm_pgbytes_hash(gconstpointer p);
+gboolean nm_pgbytes_equal(gconstpointer a, gconstpointer b);
/*****************************************************************************/
@@ -337,13 +397,13 @@ gboolean nm_pgbytes_equal (gconstpointer a, gconstpointer b);
* Note that there is a chance that two different pointer values hash to the same obfuscated
* value. So beware of that when reviewing logs. However, such a collision is very unlikely. */
static inline guint64
-nm_hash_obfuscate_ptr (guint static_seed, gconstpointer val)
+nm_hash_obfuscate_ptr(guint static_seed, gconstpointer val)
{
- NMHashState h;
+ NMHashState h;
- nm_hash_init (&h, static_seed);
- nm_hash_update_val (&h, val);
- return nm_hash_complete_u64 (&h);
+ nm_hash_init(&h, static_seed);
+ nm_hash_update_val(&h, val);
+ return nm_hash_complete_u64(&h);
}
/* if you want to log obfuscated pointer for a certain context (like, NMPRuleManager
@@ -354,20 +414,20 @@ nm_hash_obfuscate_ptr (guint static_seed, gconstpointer val)
* for all singletons, so they must all be obfuscated with the same seed. So, this
* macro uses a particular static seed that should be used by when comparing pointer
* values in a global context. */
-#define NM_HASH_OBFUSCATE_PTR(ptr) (nm_hash_obfuscate_ptr (1678382159u, ptr))
+#define NM_HASH_OBFUSCATE_PTR(ptr) (nm_hash_obfuscate_ptr(1678382159u, ptr))
static inline const char *
-nm_hash_obfuscated_ptr_str (gconstpointer ptr, char buf[static 17])
+nm_hash_obfuscated_ptr_str(gconstpointer ptr, char buf[static 17])
{
- int l;
+ int l;
- nm_assert (buf);
- l = g_snprintf (buf, 17, NM_HASH_OBFUSCATE_PTR_FMT, NM_HASH_OBFUSCATE_PTR (ptr));
- nm_assert (l < 17);
- return buf;
+ nm_assert(buf);
+ l = g_snprintf(buf, 17, NM_HASH_OBFUSCATE_PTR_FMT, NM_HASH_OBFUSCATE_PTR(ptr));
+ nm_assert(l < 17);
+ return buf;
}
-#define nm_hash_obfuscated_ptr_str_a(ptr) (nm_hash_obfuscated_ptr_str ((ptr), g_alloca (17)))
+#define nm_hash_obfuscated_ptr_str_a(ptr) (nm_hash_obfuscated_ptr_str((ptr), g_alloca(17)))
/*****************************************************************************/
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