/* * Copyright (c) 2015 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* Copyright (c) 2005 Eliot Dresselhaus Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /* Turn data structures into byte streams for saving or transport. */ #include #include #include void serialize_64 (serialize_main_t * m, va_list * va) { u64 x = va_arg (*va, u64); u32 lo, hi; lo = x; hi = x >> 32; serialize_integer (m, lo, sizeof (lo)); serialize_integer (m, hi, sizeof (hi)); } void serialize_32 (serialize_main_t * m, va_list * va) { u32 x = va_arg (*va, u32); serialize_integer (m, x, sizeof (x)); } void serialize_16 (serialize_main_t * m, va_list * va) { u32 x = va_arg (*va, u32); serialize_integer (m, x, sizeof (u16)); } void serialize_8 (serialize_main_t * m, va_list * va) { u32 x = va_arg (*va, u32); serialize_integer (m, x, sizeof (u8)); } void unserialize_64 (serialize_main_t * m, va_list * va) { u64 *x = va_arg (*va, u64 *); u32 lo, hi; unserialize_integer (m, &lo, sizeof (lo)); unserialize_integer (m, &hi, sizeof (hi)); *x = ((u64) hi << 32) | (u64) lo; } void unserialize_32 (serialize_main_t * m, va_list * va) { u32 *x = va_arg (*va, u32 *); unserialize_integer (m, x, sizeof (x[0])); } void unserialize_16 (serialize_main_t * m, va_list * va) { u16 *x = va_arg (*va, u16 *); u32 t; unserialize_integer (m, &t, sizeof (x[0])); x[0] = t; } void unserialize_8 (serialize_main_t * m, va_list * va) { u8 *x = va_arg (*va, u8 *); u32 t; unserialize_integer (m, &t, sizeof (x[0])); x[0] = t; } void serialize_f64 (serialize_main_t * m, va_list * va) { f64 x = va_arg (*va, f64); union { f64 f; u64 i; } y; y.f = x; serialize (m, serialize_64, y.i); } void serialize_f32 (serialize_main_t * m, va_list * va) { f32 x = va_arg (*va, f64); union { f32 f; u32 i; } y; y.f = x; serialize_integer (m, y.i, sizeof (y.i)); } void unserialize_f64 (serialize_main_t * m, va_list * va) { f64 *x = va_arg (*va, f64 *); union { f64 f; u64 i; } y; unserialize (m, unserialize_64, &y.i); *x = y.f; } void unserialize_f32 (serialize_main_t * m, va_list * va) { f32 *x = va_arg (*va, f32 *); union { f32 f; u32 i; } y; unserialize_integer (m, &y.i, sizeof (y.i)); *x = y.f; } void serialize_cstring (serialize_main_t * m, char *s) { u32 len = s ? strlen (s) : 0; void *p; serialize_likely_small_unsigned_integer (m, len); if (len > 0) { p = serialize_get (m, len); clib_memcpy (p, s, len); } } void unserialize_cstring (serialize_main_t * m, char **s) { char *p, *r = 0; u32 len; len = unserialize_likely_small_unsigned_integer (m); /* * Given broken enough data, we could get len = 0xFFFFFFFF. * Add one, it overflows, we call vec_new (char, 0), then * memcpy until we bus error. */ if (len > 0 && len != 0xFFFFFFFF) { r = vec_new (char, len + 1); p = unserialize_get (m, len); clib_memcpy (r, p, len); /* Null terminate. */ r[len] = 0; } *s = r; } /* vec_serialize/vec_unserialize helper functions for basic vector types. */ void serialize_vec_8 (serialize_main_t * m, va_list * va) { u8 *s = va_arg (*va, u8 *); u32 n = va_arg (*va, u32); u8 *p = serialize_get (m, n * sizeof (u8)); clib_memcpy (p, s, n * sizeof (u8)); } void unserialize_vec_8 (serialize_main_t * m, va_list * va) { u8 *s = va_arg (*va, u8 *); u32 n = va_arg (*va, u32); u8 *p = unserialize_get (m, n); clib_memcpy (s, p, n); } #define _(n_bits) \ void serialize_vec_##n_bits (serialize_main_t * m, va_list * va) \ { \ u##n_bits * s = va_arg (*va, u##n_bits *); \ u32 n = va_arg (*va, u32); \ u##n_bits * p = serialize_get (m, n * sizeof (s[0])); \ \ while (n >= 4) \ { \ p[0] = clib_host_to_net_u##n_bits (s[0]); \ p[1] = clib_host_to_net_u##n_bits (s[1]); \ p[2] = clib_host_to_net_u##n_bits (s[2]); \ p[3] = clib_host_to_net_u##n_bits (s[3]); \ s += 4; \ p += 4; \ n -= 4; \ } \ \ while (n >= 1) \ { \ p[0] = clib_host_to_net_u##n_bits (s[0]); \ s += 1; \ p += 1; \ n -= 1; \ } \ } \ \ void unserialize_vec_##n_bits (serialize_main_t * m, va_list * va) \ { \ u##n_bits * s = va_arg (*va, u##n_bits *); \ u32 n = va_arg (*va, u32); \ u##n_bits * p = unserialize_get (m, n * sizeof (s[0])); \ \ while (n >= 4) \ { \ s[0] = clib_net_to_host_mem_u##n_bits (&p[0]); \ s[1] = clib_net_to_host_mem_u##n_bits (&p[1]); \ s[2] = clib_net_to_host_mem_u##n_bits (&p[2]); \ s[3] = clib_net_to_host_mem_u##n_bits (&p[3]); \ s += 4; \ p += 4; \ n -= 4; \ } \ \ while (n >= 1) \ { \ s[0] = clib_net_to_host_mem_u##n_bits (&p[0]); \ s += 1; \ p += 1; \ n -= 1; \ } \ } _(16); _(32); _(64); #undef _ #define SERIALIZE_VECTOR_CHUNK_SIZE 64 void serialize_vector (serialize_main_t * m, va_list * va) { void *vec = va_arg (*va, void *); u32 elt_bytes = va_arg (*va, u32); serialize_function_t *f = va_arg (*va, serialize_function_t *); u32 l = vec_len (vec); void *p = vec; serialize_integer (m, l, sizeof (l)); /* Serialize vector in chunks for cache locality. */ while (l != 0) { u32 n = clib_min (SERIALIZE_VECTOR_CHUNK_SIZE, l); serialize (m, f, p, n); l -= n; p += SERIALIZE_VECTOR_CHUNK_SIZE * elt_bytes; } } void * unserialize_vector_ha (serialize_main_t * m, u32 elt_bytes, u32 header_bytes, u32 align, u32 max_length, serialize_function_t * f) { void *v, *p; u32 l; unserialize_integer (m, &l, sizeof (l)); if (l > max_length) serialize_error (&m->header, clib_error_create ("bad vector length %d", l)); p = v = _vec_resize (0, l, (uword) l * elt_bytes, header_bytes, /* align */ align); while (l != 0) { u32 n = clib_min (SERIALIZE_VECTOR_CHUNK_SIZE, l); unserialize (m, f, p, n); l -= n; p += SERIALIZE_VECTOR_CHUNK_SIZE * elt_bytes; } return v; } void unserialize_aligned_vector (serialize_main_t * m, va_list * va) { void **vec = va_arg (*va, void **); u32 elt_bytes = va_arg (*va, u32); serialize_function_t *f = va_arg (*va, serialize_function_t *); u32 align = va_arg (*va, u32); *vec = unserialize_vector_ha (m, elt_bytes, /* header_bytes */ 0, /* align */ align, /* max_length */ ~0, f); } void unserialize_vector (serialize_main_t * m, va_list * va) { void **vec = va_arg (*va, void **); u32 elt_bytes = va_arg (*va, u32); serialize_function_t *f = va_arg (*va, serialize_function_t *); *vec = unserialize_vector_ha (m, elt_bytes, /* header_bytes */ 0, /* align */ 0, /* max_length */ ~0, f); } void serialize_bitmap (serialize_main_t * m, uword * b) { u32 l, i, n_u32s; l = vec_len (b); n_u32s = l * sizeof (b[0]) / sizeof (u32); serialize_integer (m, n_u32s, sizeof (n_u32s)); /* Send 32 bit words, low-order word first on 64 bit. */ for (i = 0; i < l; i++) { serialize_integer (m, b[i], sizeof (u32)); if (BITS (uword) == 64) serialize_integer (m, (u64) b[i] >> (u64) 32, sizeof (u32)); } } uword * unserialize_bitmap (serialize_main_t * m) { uword *b = 0; u32 i, n_u32s; unserialize_integer (m, &n_u32s, sizeof (n_u32s)); if (n_u32s == 0) return b; i = (n_u32s * sizeof (u32) + sizeof (b[0]) - 1) / sizeof (b[0]); vec_resize (b, i); for (i = 0; i < n_u32s; i++) { u32 data; unserialize_integer (m, &data, sizeof (u32)); /* Low-word is first on 64 bit. */ if (BITS (uword) == 64) { if ((i % 2) == 0) b[i / 2] |= (u64) data << (u64) 0; else b[i / 2] |= (u64) data << (u64) 32; } else { b[i] = data; } } return b; } void serialize_pool (serialize_main_t * m, va_list * va) { void *pool = va_arg (*va, void *); u32 elt_bytes = va_arg (*va, u32); serialize_function_t *f = va_arg (*va, serialize_function_t *); u32 l, lo, hi; pool_header_t *p; l = vec_len (pool); serialize_integer (m, l, sizeof (u32)); if (l == 0) return; p = pool_header (pool); /* No need to send free bitmap. Need to send index vector to guarantee that unserialized pool will be identical. */ vec_serialize (m, p->free_indices, serialize_vec_32); pool_foreach_region (lo, hi, pool, serialize (m, f, pool + lo * elt_bytes, hi - lo)); } static void * unserialize_pool_helper (serialize_main_t * m, u32 elt_bytes, u32 align, serialize_function_t * f) { void *v; u32 i, l, lo, hi; pool_header_t *p; unserialize_integer (m, &l, sizeof (l)); if (l == 0) { return 0; } v = _vec_resize (0, l, (uword) l * elt_bytes, sizeof (p[0]), align); p = pool_header (v); vec_unserialize (m, &p->free_indices, unserialize_vec_32); /* Construct free bitmap. */ p->free_bitmap = 0; for (i = 0; i < vec_len (p->free_indices); i++) p->free_bitmap = clib_bitmap_ori (p->free_bitmap, p->free_indices[i]); pool_foreach_region (lo, hi, v, unserialize (m, f, v + lo * elt_bytes, hi - lo)); return v; } void unserialize_pool (serialize_main_t * m, va_list * va) { void **result = va_arg (*va, void **); u32 elt_bytes = va_arg (*va, u32); serialize_function_t *f = va_arg (*va, serialize_function_t *); *result = unserialize_pool_helper (m, elt_bytes, /* align */ 0, f); } void unserialize_aligned_pool (serialize_main_t * m, va_list * va) { void **result = va_arg (*va, void **); u32 elt_bytes = va_arg (*va, u32); u32 align = va_arg (*va, u32); serialize_function_t *f = va_arg (*va, serialize_function_t *); *result = unserialize_pool_helper (m, elt_bytes, align, f); } static void serialize_vec_heap_elt (serialize_main_t * m, va_list * va) { heap_elt_t *e = va_arg (*va, heap_elt_t *); u32 i, n = va_arg (*va, u32); for (i = 0; i < n; i++) { serialize_integer (m, e[i].offset, sizeof (e[i].offset)); serialize_integer (m, e[i].next, sizeof (e[i].next)); serialize_integer (m, e[i].prev, sizeof (e[i].prev)); } } static void unserialize_vec_heap_elt (serialize_main_t * m, va_list * va) { heap_elt_t *e = va_arg (*va, heap_elt_t *); u32 i, n = va_arg (*va, u32); for (i = 0; i < n; i++) { unserialize_integer (m, &e[i].offset, sizeof (e[i].offset)); unserialize_integer (m, &e[i].next, sizeof (e[i].next)); unserialize_integer (m, &e[i].prev, sizeof (e[i].prev)); } } void serialize_heap (serialize_main_t * m, va_list * va) { void *heap = va_arg (*va, void *); serialize_function_t *f = va_arg (*va, serialize_function_t *); u32 i, l; heap_header_t *h; l = vec_len (heap); serialize_integer (m, l, sizeof (u32)); if (l == 0) return; h = heap_header (heap); #define foreach_serialize_heap_header_integer \ _ (head) _ (tail) _ (used_count) _ (max_len) _ (flags) _ (elt_bytes) #define _(f) serialize_integer (m, h->f, sizeof (h->f)); foreach_serialize_heap_header_integer; #undef _ serialize_integer (m, vec_len (h->free_lists), sizeof (u32)); for (i = 0; i < vec_len (h->free_lists); i++) vec_serialize (m, h->free_lists[i], serialize_vec_32); vec_serialize (m, h->elts, serialize_vec_heap_elt); vec_serialize (m, h->small_free_elt_free_index, serialize_vec_32); vec_serialize (m, h->free_elts, serialize_vec_32); /* Serialize data in heap. */ { heap_elt_t *e, *end; e = h->elts + h->head; end = h->elts + h->tail; while (1) { if (!heap_is_free (e)) { void *v = heap + heap_offset (e) * h->elt_bytes; u32 n = heap_elt_size (heap, e); serialize (m, f, v, n); } if (e == end) break; e = heap_next (e); } } } void unserialize_heap (serialize_main_t * m, va_list * va) { void **result = va_arg (*va, void **); serialize_function_t *f = va_arg (*va, serialize_function_t *); u32 i, vl, fl; heap_header_t h; void *heap; unserialize_integer (m, &vl, sizeof (u32)); if (vl == 0) { *result = 0; return; } memset (&h, 0, sizeof (h)); #define _(f) unserialize_integer (m, &h.f, sizeof (h.f)); foreach_serialize_heap_header_integer; #undef _ unserialize_integer (m, &fl, sizeof (u32)); vec_resize (h.free_lists, fl); for (i = 0; i < vec_len (h.free_lists); i++) vec_unserialize (m, &h.free_lists[i], unserialize_vec_32); vec_unserialize (m, &h.elts, unserialize_vec_heap_elt); vec_unserialize (m, &h.small_free_elt_free_index, unserialize_vec_32); vec_unserialize (m, &h.free_elts, unserialize_vec_32); /* Re-construct used elt bitmap. */ if (CLIB_DEBUG > 0) { heap_elt_t *e; vec_foreach (e, h.elts) { if (!heap_is_free (e)) h.used_elt_bitmap = clib_bitmap_ori (h.used_elt_bitmap, e - h.elts); } } heap = *result = _heap_new (vl, h.elt_bytes); heap_header (heap)[0] = h; /* Unserialize data in heap. */ { heap_elt_t *e, *end; e = h.elts + h.head; end = h.elts + h.tail; while (1) { if (!heap_is_free (e)) { void *v = heap + heap_offset (e) * h.elt_bytes; u32 n = heap_elt_size (heap, e); unserialize (m, f, v, n); } if (e == end) break; e = heap_next (e); } } } void serialize_magic (serialize_main_t * m, void *magic, u32 magic_bytes) { void *p; serialize_integer (m, magic_bytes, sizeof (magic_bytes)); p = serialize_get (m, magic_bytes); clib_memcpy (p, magic, magic_bytes); } void unserialize_check_magic (serialize_main_t * m, void *magic, u32 magic_bytes) { u32 l; void *d; unserialize_integer (m, &l, sizeof (l)); if (l != magic_bytes) { bad: serialize_error_return (m, "bad magic number"); } d = serialize_get (m, magic_bytes); if (memcmp (magic, d, magic_bytes)) goto bad; } clib_error_t * va_serialize (serialize_main_t * sm, va_list * va) { serialize_main_header_t *m = &sm->header; serialize_function_t *f = va_arg (*va, serialize_function_t *); clib_error_t *error = 0; m->recursion_level += 1; if (m->recursion_level == 1) { uword r = clib_setjmp (&m->error_longjmp, 0); error = uword_to_pointer (r, clib_error_t *); } if (!error) f (sm, va); m->recursion_level -= 1; return error; } clib_error_t * serialize (serialize_main_t * m, ...) { clib_error_t *error; va_list va; va_start (va, m); error = va_serialize (m, &va); va_end (va); return error; } clib_error_t * unserialize (serialize_main_t * m, ...) { clib_error_t *error; va_list va; va_start (va, m); error = va_serialize (m, &va); va_end (va); return error; } static void * serialize_write_not_inline (serialize_main_header_t * m, serialize_stream_t * s, uword n_bytes_to_write, uword flags) { uword cur_bi, n_left_b, n_left_o; ASSERT (s->current_buffer_index <= s->n_buffer_bytes); cur_bi = s->current_buffer_index; n_left_b = s->n_buffer_bytes - cur_bi; n_left_o = vec_len (s->overflow_buffer); /* Prepend overflow buffer if present. */ do { if (n_left_o > 0 && n_left_b > 0) { uword n = clib_min (n_left_b, n_left_o); clib_memcpy (s->buffer + cur_bi, s->overflow_buffer, n); cur_bi += n; n_left_b -= n; n_left_o -= n; if (n_left_o == 0) _vec_len (s->overflow_buffer) = 0; else vec_delete (s->overflow_buffer, n, 0); } /* Call data function when buffer is complete. Data function should dispatch with current buffer and give us a new one to write more data into. */ if (n_left_b == 0) { s->current_buffer_index = cur_bi; m->data_function (m, s); cur_bi = s->current_buffer_index; n_left_b = s->n_buffer_bytes - cur_bi; } } while (n_left_o > 0); if (n_left_o > 0 || n_left_b < n_bytes_to_write) { u8 *r; vec_add2 (s->overflow_buffer, r, n_bytes_to_write); return r; } else { s->current_buffer_index = cur_bi + n_bytes_to_write; return s->buffer + cur_bi; } } static void * serialize_read_not_inline (serialize_main_header_t * m, serialize_stream_t * s, uword n_bytes_to_read, uword flags) { uword cur_bi, cur_oi, n_left_b, n_left_o, n_left_to_read; ASSERT (s->current_buffer_index <= s->n_buffer_bytes); cur_bi = s->current_buffer_index; cur_oi = s->current_overflow_index; n_left_b = s->n_buffer_bytes - cur_bi; n_left_o = vec_len (s->overflow_buffer) - cur_oi; /* Read from overflow? */ if (n_left_o >= n_bytes_to_read) { s->current_overflow_index = cur_oi + n_bytes_to_read; return vec_elt_at_index (s->overflow_buffer, cur_oi); } /* Reset overflow buffer. */ if (n_left_o == 0 && s->overflow_buffer) { s->current_overflow_index = 0; _vec_len (s->overflow_buffer) = 0; } n_left_to_read = n_bytes_to_read; while (n_left_to_read > 0) { uword n; /* If we don't have enough data between overflow and normal buffer call read function. */ if (n_left_o + n_left_b < n_bytes_to_read) { /* Save any left over buffer in overflow vector. */ if (n_left_b > 0) { vec_add (s->overflow_buffer, s->buffer + cur_bi, n_left_b); n_left_o += n_left_b; n_left_to_read -= n_left_b; /* Advance buffer to end --- even if SERIALIZE_FLAG_NO_ADVANCE_CURRENT_BUFFER_INDEX is set. */ cur_bi = s->n_buffer_bytes; n_left_b = 0; } if (m->data_function) { m->data_function (m, s); cur_bi = s->current_buffer_index; n_left_b = s->n_buffer_bytes - cur_bi; } } /* For first time through loop return if we have enough data in normal buffer and overflow vector is empty. */ if (n_left_o == 0 && n_left_to_read == n_bytes_to_read && n_left_b >= n_left_to_read) { s->current_buffer_index = cur_bi + n_bytes_to_read; return s->buffer + cur_bi; } if (!m->data_function || serialize_stream_is_end_of_stream (s)) { /* This can happen for a peek at end of file. Pad overflow buffer with 0s. */ vec_resize (s->overflow_buffer, n_left_to_read); n_left_o += n_left_to_read; n_left_to_read = 0; } else { /* Copy from buffer to overflow vector. */ n = clib_min (n_left_to_read, n_left_b); vec_add (s->overflow_buffer, s->buffer + cur_bi, n); cur_bi += n; n_left_b -= n; n_left_o += n; n_left_to_read -= n; } } s->current_buffer_index = cur_bi; s->current_overflow_index = cur_oi + n_bytes_to_read; return vec_elt_at_index (s->overflow_buffer, cur_oi); } void * serialize_read_write_not_inline (serialize_main_header_t * m, serialize_stream_t * s, uword n_bytes, uword flags) { return (((flags & SERIALIZE_FLAG_IS_READ) ? serialize_read_not_inline : serialize_write_not_inline) (m, s, n_bytes, flags)); } static void serialize_read_write_close (serialize_main_header_t * m, serialize_stream_t * s, uword flags) { if (serialize_stream_is_end_of_stream (s)) return; if (flags & SERIALIZE_FLAG_IS_WRITE) /* "Write" 0 bytes to flush overflow vector. */ serialize_write_not_inline (m, s, /* n bytes */ 0, flags); serialize_stream_set_end_of_stream (s); /* Call it one last time to flush buffer and close. */ m->data_function (m, s); vec_free (s->overflow_buffer); } void serialize_close (serialize_main_t * m) { serialize_read_write_close (&m->header, &m->stream, SERIALIZE_FLAG_IS_WRITE); } void unserialize_close (serialize_main_t * m) { serialize_read_write_close (&m->header, &m->stream, SERIALIZE_FLAG_IS_READ); } void serialize_open_data (serialize_main_t * m, u8 * data, uword n_data_bytes) { memset (m, 0, sizeof (m[0])); m->stream.buffer = data; m->stream.n_buffer_bytes = n_data_bytes; } void unserialize_open_data (serialize_main_t * m, u8 * data, uword n_data_bytes) { serialize_open_data (m, data, n_data_bytes); } static void serialize_vector_write (serialize_main_header_t * m, serialize_stream_t * s) { if (!serialize_stream_is_end_of_stream (s)) { /* Double buffer size. */ uword l = vec_len (s->buffer); vec_resize (s->buffer, l > 0 ? l : 64); s->n_buffer_bytes = vec_len (s->buffer); } } void serialize_open_vector (serialize_main_t * m, u8 * vector) { memset (m, 0, sizeof (m[0])); m->header.data_function = serialize_vector_write; m->stream.buffer = vector; m->stream.current_buffer_index = 0; m->stream.n_buffer_bytes = vec_len (vector); } void * serialize_close_vector (serialize_main_t * m) { serialize_stream_t *s = &m->stream; void *result; serialize_close (m); /* frees overflow buffer */ if (s->buffer) _vec_len (s->buffer) = s->current_buffer_index; result = s->buffer; memset (m, 0, sizeof (m[0])); return result; } void serialize_multiple_1 (serialize_main_t * m, void *data, uword data_stride, uword n_data) { u8 *d = data; u8 *p; uword n_left = n_data; while (n_left >= 4) { p = serialize_get (m, 4 * sizeof (d[0])); p[0] = d[0 * data_stride]; p[1] = d[1 * data_stride]; p[2] = d[2 * data_stride]; p[3] = d[3 * data_stride]; n_left -= 4; d += 4 * data_stride; } if (n_left > 0) { p = serialize_get (m, n_left * sizeof (p[0])); while (n_left > 0) { p[0] = d[0]; p += 1; d += 1 * data_stride; n_left -= 1; } } } void serialize_multiple_2 (serialize_main_t * m, void *data, uword data_stride, uword n_data) { void *d = data; u16 *p; uword n_left = n_data; while (n_left >= 4) { p = serialize_get (m, 4 * sizeof (p[0])); clib_mem_unaligned (p + 0, u16) = clib_host_to_net_mem_u16 (d + 0 * data_stride); clib_mem_unaligned (p + 1, u16) = clib_host_to_net_mem_u16 (d + 1 * data_stride); clib_mem_unaligned (p + 2, u16) = clib_host_to_net_mem_u16 (d + 2 * data_stride); clib_mem_unaligned (p + 3, u16) = clib_host_to_net_mem_u16 (d + 3 * data_stride); n_left -= 4; d += 4 * data_stride; } if (n_left > 0) { p = serialize_get (m, n_left * sizeof (p[0])); while (n_left > 0) { clib_mem_unaligned (p + 0, u16) = clib_host_to_net_mem_u16 (d + 0 * data_stride); p += 1; d += 1 * data_stride; n_left -= 1; } } } void serialize_multiple_4 (serialize_main_t * m, void *data, uword data_stride, uword n_data) { void *d = data; u32 *p; uword n_left = n_data; while (n_left >= 4) { p = serialize_get (m, 4 * sizeof (p[0])); clib_mem_unaligned (p + 0, u32) = clib_host_to_net_mem_u32 (d + 0 * data_stride); clib_mem_unaligned (p + 1, u32) = clib_host_to_net_mem_u32 (d + 1 * data_stride); clib_mem_unaligned (p + 2, u32) = clib_host_to_net_mem_u32 (d + 2 * data_stride); clib_mem_unaligned (p + 3, u32) = clib_host_to_net_mem_u32 (d + 3 * data_stride); n_left -= 4; d += 4 * data_stride; } if (n_left > 0) { p = serialize_get (m, n_left * sizeof (p[0])); while (n_left > 0) { clib_mem_unaligned (p + 0, u32) = clib_host_to_net_mem_u32 (d + 0 * data_stride); p += 1; d += 1 * data_stride; n_left -= 1; } } } void unserialize_multiple_1 (serialize_main_t * m, void *data, uword data_stride, uword n_data) { u8 *d = data; u8 *p; uword n_left = n_data; while (n_left >= 4) { p = unserialize_get (m, 4 * sizeof (d[0])); d[0 * data_stride] = p[0]; d[1 * data_stride] = p[1]; d[2 * data_stride] = p[2]; d[3 * data_stride] = p[3]; n_left -= 4; d += 4 * data_stride; } if (n_left > 0) { p = unserialize_get (m, n_left * sizeof (p[0])); while (n_left > 0) { d[0] = p[0]; p += 1; d += 1 * data_stride; n_left -= 1; } } } void unserialize_multiple_2 (serialize_main_t * m, void *data, uword data_stride, uword n_data) { void *d = data; u16 *p; uword n_left = n_data; while (n_left >= 4) { p = unserialize_get (m, 4 * sizeof (p[0])); clib_mem_unaligned (d + 0 * data_stride, u16) = clib_net_to_host_mem_u16 (p + 0); clib_mem_unaligned (d + 1 * data_stride, u16) = clib_net_to_host_mem_u16 (p + 1); clib_mem_unaligned (d + 2 * data_stride, u16) = clib_net_to_host_mem_u16 (p + 2); clib_mem_unaligned (d + 3 * data_stride, u16) = clib_net_to_host_mem_u16 (p + 3); n_left -= 4; d += 4 * data_stride; } if (n_left > 0) { p = unserialize_get (m, n_left * sizeof (p[0])); while (n_left > 0) { clib_mem_unaligned (d + 0 * data_stride, u16) = clib_net_to_host_mem_u16 (p + 0); p += 1; d += 1 * data_stride; n_left -= 1; } } } void unserialize_multiple_4 (serialize_main_t * m, void *data, uword data_stride, uword n_data) { void *d = data; u32 *p; uword n_left = n_data; while (n_left >= 4) { p = unserialize_get (m, 4 * sizeof (p[0])); clib_mem_unaligned (d + 0 * data_stride, u32) = clib_net_to_host_mem_u32 (p + 0); clib_mem_unaligned (d + 1 * data_stride, u32) = clib_net_to_host_mem_u32 (p + 1); clib_mem_unaligned (d + 2 * data_stride, u32) = clib_net_to_host_mem_u32 (p + 2); clib_mem_unaligned (d + 3 * data_stride, u32) = clib_net_to_host_mem_u32 (p + 3); n_left -= 4; d += 4 * data_stride; } if (n_left > 0) { p = unserialize_get (m, n_left * sizeof (p[0])); while (n_left > 0) { clib_mem_unaligned (d + 0 * data_stride, u32) = clib_net_to_host_mem_u32 (p + 0); p += 1; d += 1 * data_stride; n_left -= 1; } } } #ifdef CLIB_UNIX #include #include static void unix_file_write (serialize_main_header_t * m, serialize_stream_t * s) { int fd, n; fd = s->data_function_opaque; n = write (fd, s->buffer, s->current_buffer_index); if (n < 0) { if (!unix_error_is_fatal (errno)) n = 0; else serialize_error (m, clib_error_return_unix (0, "write")); } if (n == s->current_buffer_index) _vec_len (s->buffer) = 0; else vec_delete (s->buffer, n, 0); s->current_buffer_index = vec_len (s->buffer); } static void unix_file_read (serialize_main_header_t * m, serialize_stream_t * s) { int fd, n; fd = s->data_function_opaque; n = read (fd, s->buffer, vec_len (s->buffer)); if (n < 0) { if (!unix_error_is_fatal (errno)) n = 0; else serialize_error (m, clib_error_return_unix (0, "read")); } else if (n == 0) serialize_stream_set_end_of_stream (s); s->current_buffer_index = 0; s->n_buffer_bytes = n; } static void serialize_open_unix_file_descriptor_helper (serialize_main_t * m, int fd, uword is_read) { memset (m, 0, sizeof (m[0])); vec_resize (m->stream.buffer, 4096); if (!is_read) { m->stream.n_buffer_bytes = vec_len (m->stream.buffer); _vec_len (m->stream.buffer) = 0; } m->header.data_function = is_read ? unix_file_read : unix_file_write; m->stream.data_function_opaque = fd; } void serialize_open_unix_file_descriptor (serialize_main_t * m, int fd) { serialize_open_unix_file_descriptor_helper (m, fd, /* is_read */ 0); } void unserialize_open_unix_file_descriptor (serialize_main_t * m, int fd) { serialize_open_unix_file_descriptor_helper (m, fd, /* is_read */ 1); } static clib_error_t * serialize_open_unix_file_helper (serialize_main_t * m, char *file, uword is_read) { int fd, mode; mode = is_read ? O_RDONLY : O_RDWR | O_CREAT | O_TRUNC; fd = open (file, mode, 0666); if (fd < 0) return clib_error_return_unix (0, "open `%s'", file); serialize_open_unix_file_descriptor_helper (m, fd, is_read); return 0; } clib_error_t * serialize_open_unix_file (serialize_main_t * m, char *file) { return serialize_open_unix_file_helper (m, file, /* is_read */ 0); } clib_error_t * unserialize_open_unix_file (serialize_main_t * m, char *file) { return serialize_open_unix_file_helper (m, file, /* is_read */ 1); } #endif /* CLIB_UNIX */ /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */