@param data_bytes requested size in bytes
@param header_bytes header size in bytes (may be zero)
@param data_align alignment (may be zero)
- @param numa_id numa id (may be zero)
@return v_prime pointer to resized vector, may or may not equal v
*/
-void *vec_resize_allocate_memory (void *v,
- word length_increment,
- uword data_bytes,
- uword header_bytes, uword data_align,
- uword numa_id);
+void *vec_resize_allocate_memory (void *v, word length_increment,
+ uword data_bytes, uword header_bytes,
+ uword data_align);
/** \brief Low-level vector resize function, usually not called directly
@param data_bytes requested size in bytes
@param header_bytes header size in bytes (may be zero)
@param data_align alignment (may be zero)
- @param numa_id (may be ~0)
@return v_prime pointer to resized vector, may or may not equal v
*/
-#define _vec_resize_numa(V,L,DB,HB,A,S) \
-({ \
- __typeof__ ((V)) _V; \
- _V = _vec_resize_inline((void *)V,L,DB,HB,clib_max((__alignof__((V)[0])),(A)),(S)); \
- _V; \
-})
-
-#define _vec_resize(V,L,DB,HB,A) \
- _vec_resize_numa(V,L,DB,HB,A,VEC_NUMA_UNSPECIFIED)
+#define _vec_resize(V, L, DB, HB, A) \
+ ({ \
+ __typeof__ ((V)) _V; \
+ _V = _vec_resize_inline ((void *) V, L, DB, HB, \
+ clib_max ((__alignof__((V)[0])), (A))); \
+ _V; \
+ })
always_inline void *
-_vec_resize_inline (void *v,
- word length_increment,
- uword data_bytes, uword header_bytes, uword data_align,
- uword numa_id)
+_vec_resize_inline (void *v, word length_increment, uword data_bytes,
+ uword header_bytes, uword data_align)
{
vec_header_t *vh = _vec_find (v);
uword new_data_bytes, aligned_header_bytes;
- void *oldheap;
aligned_header_bytes = vec_header_bytes (header_bytes);
{
void *p = v - aligned_header_bytes;
- if (PREDICT_FALSE (numa_id != VEC_NUMA_UNSPECIFIED))
- {
- oldheap = clib_mem_get_per_cpu_heap ();
- clib_mem_set_per_cpu_heap (clib_mem_get_per_numa_heap (numa_id));
- }
-
/* Vector header must start heap object. */
ASSERT (clib_mem_is_heap_object (p));
{
CLIB_MEM_UNPOISON (v, data_bytes);
vh->len += length_increment;
- if (PREDICT_FALSE (numa_id != VEC_NUMA_UNSPECIFIED))
- clib_mem_set_per_cpu_heap (oldheap);
return v;
}
- if (PREDICT_FALSE (numa_id != VEC_NUMA_UNSPECIFIED))
- clib_mem_set_per_cpu_heap (oldheap);
}
/* Slow path: call helper function. */
- return vec_resize_allocate_memory (v, length_increment, data_bytes,
- header_bytes,
- clib_max (sizeof (vec_header_t),
- data_align), numa_id);
+ return vec_resize_allocate_memory (
+ v, length_increment, data_bytes, header_bytes,
+ clib_max (sizeof (vec_header_t), data_align));
}
/** \brief Determine if vector will resize with next allocation
*/
always_inline int
-_vec_resize_will_expand (void *v,
- word length_increment,
- uword data_bytes, uword header_bytes,
- uword data_align)
+_vec_resize_will_expand (void *v, uword n_elts, uword elt_size)
{
- uword new_data_bytes, aligned_header_bytes;
-
- aligned_header_bytes = vec_header_bytes (header_bytes);
-
- new_data_bytes = data_bytes + aligned_header_bytes;
-
if (PREDICT_TRUE (v != 0))
{
- void *p = v - aligned_header_bytes;
-
/* Vector header must start heap object. */
- ASSERT (clib_mem_is_heap_object (p));
+ ASSERT (clib_mem_is_heap_object (vec_header (v)));
- /* Typically we'll not need to resize. */
- if (new_data_bytes <= clib_mem_size (p))
+ if (vec_mem_size (v) >= ((_vec_len (v) + n_elts)) * elt_size)
return 0;
}
return 1;
*/
#define vec_resize_will_expand(V, N) \
- ({ \
- word _v (n) = (N); \
- word _v (l) = vec_len (V); \
- _vec_resize_will_expand ((V), _v (n), \
- (_v (l) + _v (n)) * sizeof ((V)[0]), 0, 0); \
- })
-
-/** \brief Predicate function, says whether the supplied vector is a clib heap
- object (general version).
-
- @param v pointer to a vector
- @param header_bytes vector header size in bytes (may be zero)
- @return 0 or 1
-*/
-uword clib_mem_is_vec_h (void *v, uword header_bytes);
-
-
-/** \brief Predicate function, says whether the supplied vector is a clib heap
- object
-
- @param v pointer to a vector
- @return 0 or 1
-*/
-always_inline uword
-clib_mem_is_vec (void *v)
-{
- return clib_mem_is_vec_h (v, 0);
-}
+ _vec_resize_will_expand (V, N, sizeof ((V)[0]))
/* Local variable naming macro (prevents collisions with other macro naming). */
#define _v(var) _vec_##var
@param N number of elements to add
@param H header size in bytes (may be zero)
@param A alignment (may be zero)
- @param S numa_id (may be zero)
@return V (value-result macro parameter)
*/
-#define vec_resize_has(V,N,H,A,S) \
-do { \
- word _v(n) = (N); \
- word _v(l) = vec_len (V); \
- V = _vec_resize_numa ((V), _v(n), \
- (_v(l) + _v(n)) * sizeof ((V)[0]), \
- (H), (A),(S)); \
-} while (0)
-
-/** \brief Resize a vector (less general version).
- Add N elements to end of given vector V, return pointer to start of vector.
- Vector will have room for H header bytes and will have user's data aligned
- at alignment A (rounded to next power of 2).
-
- @param V pointer to a vector
- @param N number of elements to add
- @param H header size in bytes (may be zero)
- @param A alignment (may be zero)
- @return V (value-result macro parameter)
-*/
-#define vec_resize_ha(V,N,H,A) vec_resize_has(V,N,H,A,VEC_NUMA_UNSPECIFIED)
+#define vec_resize_ha(V, N, H, A) \
+ do \
+ { \
+ word _v (n) = (N); \
+ word _v (l) = vec_len (V); \
+ V = _vec_resize ((V), _v (n), (_v (l) + _v (n)) * sizeof ((V)[0]), (H), \
+ (A)); \
+ } \
+ while (0)
/** \brief Resize a vector (no header, unspecified alignment)
Add N elements to end of given vector V, return pointer to start of vector.
*/
#define vec_new_aligned(T,N,A) vec_new_ha(T,N,0,A)
-/** \brief Free vector's memory (general version)
-
- @param V pointer to a vector
- @param H size of header in bytes
- @return V (value-result parameter, V=0)
-*/
-#define vec_free_h(V,H) \
-do { \
- if (V) \
- { \
- clib_mem_free (vec_header ((V), (H))); \
- V = 0; \
- } \
-} while (0)
-
/** \brief Free vector's memory (no header).
@param V pointer to a vector
@return V (value-result parameter, V=0)
*/
-#define vec_free(V) vec_free_h(V,0)
+#define vec_free(V) \
+ do \
+ { \
+ if (V) \
+ { \
+ clib_mem_free (vec_header ((V))); \
+ V = 0; \
+ } \
+ } \
+ while (0)
void vec_free_not_inline (void *v);
@param V pointer to a vector
@param H size of header in bytes
@param A alignment (may be zero)
- @param S numa (may be VEC_NUMA_UNSPECIFIED)
@return Vdup copy of vector
*/
-#define vec_dup_ha_numa(V,H,A,S) \
-({ \
- __typeof__ ((V)[0]) * _v(v) = 0; \
- uword _v(l) = vec_len (V); \
- if (_v(l) > 0) \
- { \
- vec_resize_has (_v(v), _v(l), (H), (A), (S)); \
- clib_memcpy_fast (_v(v), (V), _v(l) * sizeof ((V)[0]));\
- } \
- _v(v); \
-})
-
-/** \brief Return copy of vector (VEC_NUMA_UNSPECIFIED).
-
- @param V pointer to a vector
- @param H size of header in bytes
- @param A alignment (may be zero)
-
- @return Vdup copy of vector
-*/
-#define vec_dup_ha(V,H,A) \
- vec_dup_ha_numa(V,H,A,VEC_NUMA_UNSPECIFIED)
-
+#define vec_dup_ha(V, H, A) \
+ ({ \
+ __typeof__ ((V)[0]) *_v (v) = 0; \
+ uword _v (l) = vec_len (V); \
+ if (_v (l) > 0) \
+ { \
+ vec_resize_ha (_v (v), _v (l), (H), (A)); \
+ clib_memcpy_fast (_v (v), (V), _v (l) * sizeof ((V)[0])); \
+ } \
+ _v (v); \
+ })
/** \brief Return copy of vector (no header, no alignment)
@param I vector index which will be valid upon return
@param H header size in bytes (may be zero)
@param A alignment (may be zero)
- @param N numa_id (may be zero)
@return V (value-result macro parameter)
*/
-#define vec_validate_han(V,I,H,A,N) \
-do { \
- void *oldheap; \
- STATIC_ASSERT(A==0 || ((A % sizeof(V[0]))==0) \
- || ((sizeof(V[0]) % A) == 0), \
- "vector validate aligned on incorrectly sized object"); \
- word _v(i) = (I); \
- word _v(l) = vec_len (V); \
- if (_v(i) >= _v(l)) \
- { \
- /* switch to the per-numa heap if directed */ \
- if (PREDICT_FALSE(N != VEC_NUMA_UNSPECIFIED)) \
- { \
- oldheap = clib_mem_get_per_cpu_heap(); \
- clib_mem_set_per_cpu_heap (clib_mem_get_per_numa_heap(N)); \
- } \
- \
- vec_resize_ha ((V), 1 + (_v(i) - _v(l)), (H), (A)); \
- /* Must zero new space since user may have previously \
- used e.g. _vec_len (v) -= 10 */ \
- clib_memset ((V) + _v(l), 0, \
- (1 + (_v(i) - _v(l))) * sizeof ((V)[0])); \
- /* Switch back to the global heap */ \
- if (PREDICT_FALSE (N != VEC_NUMA_UNSPECIFIED)) \
- clib_mem_set_per_cpu_heap (oldheap); \
- } \
-} while (0)
-
-#define vec_validate_ha(V,I,H,A) vec_validate_han(V,I,H,A,VEC_NUMA_UNSPECIFIED)
+#define vec_validate_ha(V, I, H, A) \
+ do \
+ { \
+ STATIC_ASSERT (A == 0 || ((A % sizeof (V[0])) == 0) || \
+ ((sizeof (V[0]) % A) == 0), \
+ "vector validate aligned on incorrectly sized object"); \
+ word _v (i) = (I); \
+ word _v (l) = vec_len (V); \
+ if (_v (i) >= _v (l)) \
+ { \
+ vec_resize_ha ((V), 1 + (_v (i) - _v (l)), (H), (A)); \
+ /* Must zero new space since user may have previously \
+ used e.g. _vec_len (v) -= 10 */ \
+ clib_memset ((V) + _v (l), 0, \
+ (1 + (_v (i) - _v (l))) * sizeof ((V)[0])); \
+ } \
+ } \
+ while (0)
/** \brief Make sure vector is long enough for given index
(no header, unspecified alignment)
@param A alignment (may be zero)
@return V (value-result macro parameter)
*/
-#define vec_add_ha(V,E,N,H,A) \
-do { \
- word _v(n) = (N); \
- word _v(l) = vec_len (V); \
- V = _vec_resize ((V), _v(n), (_v(l) + _v(n)) * sizeof ((V)[0]), (H), (A)); \
- clib_memcpy_fast ((V) + _v(l), (E), _v(n) * sizeof ((V)[0])); \
-} while (0)
+#define vec_add_ha(V, E, N, H, A) \
+ do \
+ { \
+ word _v (n) = (N); \
+ if (PREDICT_TRUE (_v (n) > 0)) \
+ { \
+ word _v (l) = vec_len (V); \
+ V = _vec_resize ((V), _v (n), (_v (l) + _v (n)) * sizeof ((V)[0]), \
+ (H), (A)); \
+ clib_memcpy_fast ((V) + _v (l), (E), _v (n) * sizeof ((V)[0])); \
+ } \
+ } \
+ while (0)
/** \brief Add N elements to end of vector V (no header, unspecified alignment)
@return V (value-result macro parameter)
*/
-#define vec_insert_elts_ha(V,E,N,M,H,A) \
-do { \
- word _v(l) = vec_len (V); \
- word _v(n) = (N); \
- word _v(m) = (M); \
- V = _vec_resize ((V), \
- _v(n), \
- (_v(l) + _v(n))*sizeof((V)[0]), \
- (H), (A)); \
- ASSERT (_v(m) <= _v(l)); \
- memmove ((V) + _v(m) + _v(n), \
- (V) + _v(m), \
- (_v(l) - _v(m)) * sizeof ((V)[0])); \
- clib_memcpy_fast ((V) + _v(m), (E), \
- _v(n) * sizeof ((V)[0])); \
-} while (0)
+#define vec_insert_elts_ha(V, E, N, M, H, A) \
+ do \
+ { \
+ word _v (n) = (N); \
+ if (PREDICT_TRUE (_v (n) > 0)) \
+ { \
+ word _v (l) = vec_len (V); \
+ word _v (m) = (M); \
+ V = _vec_resize ((V), _v (n), (_v (l) + _v (n)) * sizeof ((V)[0]), \
+ (H), (A)); \
+ ASSERT (_v (m) <= _v (l)); \
+ memmove ((V) + _v (m) + _v (n), (V) + _v (m), \
+ (_v (l) - _v (m)) * sizeof ((V)[0])); \
+ clib_memcpy_fast ((V) + _v (m), (E), _v (n) * sizeof ((V)[0])); \
+ } \
+ } \
+ while (0)
/** \brief Insert N vector elements starting at element M,
insert given elements (no header, unspecified alignment)
@param V2 vector to append
*/
-#define vec_append(v1,v2) \
-do { \
- uword _v(l1) = vec_len (v1); \
- uword _v(l2) = vec_len (v2); \
- \
- v1 = _vec_resize ((v1), _v(l2), \
- (_v(l1) + _v(l2)) * sizeof ((v1)[0]), 0, 0); \
- clib_memcpy_fast ((v1) + _v(l1), (v2), _v(l2) * sizeof ((v2)[0])); \
-} while (0)
+#define vec_append(v1, v2) \
+ do \
+ { \
+ uword _v (l1) = vec_len (v1); \
+ uword _v (l2) = vec_len (v2); \
+ \
+ if (PREDICT_TRUE (_v (l2) > 0)) \
+ { \
+ v1 = _vec_resize ((v1), _v (l2), \
+ (_v (l1) + _v (l2)) * sizeof ((v1)[0]), 0, 0); \
+ clib_memcpy_fast ((v1) + _v (l1), (v2), \
+ _v (l2) * sizeof ((v2)[0])); \
+ } \
+ } \
+ while (0)
/** \brief Append v2 after v1. Result in v1. Specified alignment.
@param V1 target vector
@param align required alignment
*/
-#define vec_append_aligned(v1,v2,align) \
-do { \
- uword _v(l1) = vec_len (v1); \
- uword _v(l2) = vec_len (v2); \
- \
- v1 = _vec_resize ((v1), _v(l2), \
- (_v(l1) + _v(l2)) * sizeof ((v1)[0]), 0, align); \
- clib_memcpy_fast ((v1) + _v(l1), (v2), _v(l2) * sizeof ((v2)[0])); \
-} while (0)
+#define vec_append_aligned(v1, v2, align) \
+ do \
+ { \
+ uword _v (l1) = vec_len (v1); \
+ uword _v (l2) = vec_len (v2); \
+ \
+ if (PREDICT_TRUE (_v (l2) > 0)) \
+ { \
+ v1 = _vec_resize ( \
+ (v1), _v (l2), (_v (l1) + _v (l2)) * sizeof ((v1)[0]), 0, align); \
+ clib_memcpy_fast ((v1) + _v (l1), (v2), \
+ _v (l2) * sizeof ((v2)[0])); \
+ } \
+ } \
+ while (0)
/** \brief Prepend v2 before v1. Result in v1.
@param V1 target vector
@param V2 vector to prepend
*/
-#define vec_prepend(v1,v2) \
-do { \
- uword _v(l1) = vec_len (v1); \
- uword _v(l2) = vec_len (v2); \
- \
- v1 = _vec_resize ((v1), _v(l2), \
- (_v(l1) + _v(l2)) * sizeof ((v1)[0]), 0, 0); \
- memmove ((v1) + _v(l2), (v1), _v(l1) * sizeof ((v1)[0])); \
- clib_memcpy_fast ((v1), (v2), _v(l2) * sizeof ((v2)[0])); \
-} while (0)
+#define vec_prepend(v1, v2) \
+ do \
+ { \
+ uword _v (l1) = vec_len (v1); \
+ uword _v (l2) = vec_len (v2); \
+ \
+ if (PREDICT_TRUE (_v (l2) > 0)) \
+ { \
+ v1 = _vec_resize ((v1), _v (l2), \
+ (_v (l1) + _v (l2)) * sizeof ((v1)[0]), 0, 0); \
+ memmove ((v1) + _v (l2), (v1), _v (l1) * sizeof ((v1)[0])); \
+ clib_memcpy_fast ((v1), (v2), _v (l2) * sizeof ((v2)[0])); \
+ } \
+ } \
+ while (0)
/** \brief Prepend v2 before v1. Result in v1. Specified alignment
@param V1 target vector
@param align required alignment
*/
-#define vec_prepend_aligned(v1,v2,align) \
-do { \
- uword _v(l1) = vec_len (v1); \
- uword _v(l2) = vec_len (v2); \
- \
- v1 = _vec_resize ((v1), _v(l2), \
- (_v(l1) + _v(l2)) * sizeof ((v1)[0]), 0, align); \
- memmove ((v1) + _v(l2), (v1), _v(l1) * sizeof ((v1)[0])); \
- clib_memcpy_fast ((v1), (v2), _v(l2) * sizeof ((v2)[0])); \
-} while (0)
-
+#define vec_prepend_aligned(v1, v2, align) \
+ do \
+ { \
+ uword _v (l1) = vec_len (v1); \
+ uword _v (l2) = vec_len (v2); \
+ \
+ if (PREDICT_TRUE (_v (l2) > 0)) \
+ { \
+ v1 = _vec_resize ( \
+ (v1), _v (l2), (_v (l1) + _v (l2)) * sizeof ((v1)[0]), 0, align); \
+ memmove ((v1) + _v (l2), (v1), _v (l1) * sizeof ((v1)[0])); \
+ clib_memcpy_fast ((v1), (v2), _v (l2) * sizeof ((v2)[0])); \
+ } \
+ } \
+ while (0)
/** \brief Zero all vector elements. Null-pointer tolerant.
@param var Vector to zero