/* * Copyright (c) 2008, 2009, 2010, 2011 Nicira Networks. * * 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. */ #include #include "ofpbuf.h" #include #include #include #include "dynamic-string.h" #include "util.h" static void ofpbuf_use__(struct ofpbuf *b, void *base, size_t allocated, enum ofpbuf_source source) { b->base = b->data = base; b->allocated = allocated; b->source = source; b->size = 0; b->l2 = b->l3 = b->l4 = b->l7 = NULL; list_poison(&b->list_node); b->private_p = NULL; } /* Initializes 'b' as an empty ofpbuf that contains the 'allocated' bytes of * memory starting at 'base'. 'base' should be the first byte of a region * obtained from malloc(). It will be freed (with free()) if 'b' is resized or * freed. */ void ofpbuf_use(struct ofpbuf *b, void *base, size_t allocated) { ofpbuf_use__(b, base, allocated, OFPBUF_MALLOC); } /* Initializes 'b' as an empty ofpbuf that contains the 'allocated' bytes of * memory starting at 'base'. 'base' should point to a buffer on the stack. * * An ofpbuf operation that requires reallocating data will assert-fail if this * function was used to initialize it. * * 'base' should be appropriately aligned. Using an array of uint32_t or * uint64_t for the buffer is a reasonable way to ensure appropriate alignment * for 32- or 64-bit data. * * (Nothing actually relies on 'base' being allocated on the stack. It could * be static or malloc()'d memory. But stack space is the most common use * case.) */ void ofpbuf_use_stack(struct ofpbuf *b, void *base, size_t allocated) { ofpbuf_use__(b, base, allocated, OFPBUF_STACK); } /* Initializes 'b' as an ofpbuf whose data starts at 'data' and continues for * 'size' bytes. This is appropriate for an ofpbuf that will be used to * inspect existing data, without moving it around or reallocating it, and * generally without modifying it at all. * * An ofpbuf operation that requires reallocating data will assert-fail if this * function was used to initialize it. */ void ofpbuf_use_const(struct ofpbuf *b, const void *data, size_t size) { ofpbuf_use__(b, (void *) data, size, OFPBUF_STACK); b->size = size; } /* Initializes 'b' as an empty ofpbuf with an initial capacity of 'size' * bytes. */ void ofpbuf_init(struct ofpbuf *b, size_t size) { ofpbuf_use(b, size ? xmalloc(size) : NULL, size); } /* Frees memory that 'b' points to. */ void ofpbuf_uninit(struct ofpbuf *b) { if (b && b->source == OFPBUF_MALLOC) { free(b->base); } } /* Frees memory that 'b' points to and allocates a new ofpbuf */ void ofpbuf_reinit(struct ofpbuf *b, size_t size) { ofpbuf_uninit(b); ofpbuf_init(b, size); } /* Creates and returns a new ofpbuf with an initial capacity of 'size' * bytes. */ struct ofpbuf * ofpbuf_new(size_t size) { struct ofpbuf *b = xmalloc(sizeof *b); ofpbuf_init(b, size); return b; } /* Creates and returns a new ofpbuf with an initial capacity of 'size + * headroom' bytes, reserving the first 'headroom' bytes as headroom. */ struct ofpbuf * ofpbuf_new_with_headroom(size_t size, size_t headroom) { struct ofpbuf *b = ofpbuf_new(size + headroom); ofpbuf_reserve(b, headroom); return b; } /* Creates and returns a new ofpbuf that initially contains a copy of the * 'buffer->size' bytes of data starting at 'buffer->data' with no headroom or * tailroom. */ struct ofpbuf * ofpbuf_clone(const struct ofpbuf *buffer) { return ofpbuf_clone_data(buffer->data, buffer->size); } /* Creates and returns a new ofpbuf whose data are copied from 'buffer'. The * returned ofpbuf will additionally have 'headroom' bytes of headroom. */ struct ofpbuf * ofpbuf_clone_with_headroom(const struct ofpbuf *buffer, size_t headroom) { return ofpbuf_clone_data_with_headroom(buffer->data, buffer->size, headroom); } /* Creates and returns a new ofpbuf that initially contains a copy of the * 'size' bytes of data starting at 'data' with no headroom or tailroom. */ struct ofpbuf * ofpbuf_clone_data(const void *data, size_t size) { return ofpbuf_clone_data_with_headroom(data, size, 0); } /* Creates and returns a new ofpbuf that initially contains 'headroom' bytes of * headroom followed by a copy of the 'size' bytes of data starting at * 'data'. */ struct ofpbuf * ofpbuf_clone_data_with_headroom(const void *data, size_t size, size_t headroom) { struct ofpbuf *b = ofpbuf_new_with_headroom(size, headroom); ofpbuf_put(b, data, size); return b; } /* Frees memory that 'b' points to, as well as 'b' itself. */ void ofpbuf_delete(struct ofpbuf *b) { if (b) { ofpbuf_uninit(b); free(b); } } /* Returns the number of bytes of headroom in 'b', that is, the number of bytes * of unused space in ofpbuf 'b' before the data that is in use. (Most * commonly, the data in a ofpbuf is at its beginning, and thus the ofpbuf's * headroom is 0.) */ size_t ofpbuf_headroom(const struct ofpbuf *b) { return (char*)b->data - (char*)b->base; } /* Returns the number of bytes that may be appended to the tail end of ofpbuf * 'b' before the ofpbuf must be reallocated. */ size_t ofpbuf_tailroom(const struct ofpbuf *b) { return (char*)ofpbuf_end(b) - (char*)ofpbuf_tail(b); } static void ofpbuf_copy__(struct ofpbuf *b, uint8_t *new_base, size_t new_headroom, size_t new_tailroom) { const uint8_t *old_base = b->base; size_t old_headroom = ofpbuf_headroom(b); size_t old_tailroom = ofpbuf_tailroom(b); size_t copy_headroom = MIN(old_headroom, new_headroom); size_t copy_tailroom = MIN(old_tailroom, new_tailroom); memcpy(&new_base[new_headroom - copy_headroom], &old_base[old_headroom - copy_headroom], copy_headroom + b->size + copy_tailroom); } /* Reallocates 'b' so that it has exactly 'new_headroom' and 'new_tailroom' * bytes of headroom and tailroom, respectively. */ static void ofpbuf_resize__(struct ofpbuf *b, size_t new_headroom, size_t new_tailroom) { void *new_base, *new_data; size_t new_allocated; new_allocated = new_headroom + b->size + new_tailroom; switch (b->source) { case OFPBUF_MALLOC: if (new_headroom == ofpbuf_headroom(b)) { new_base = xrealloc(b->base, new_allocated); } else { new_base = xmalloc(new_allocated); ofpbuf_copy__(b, new_base, new_headroom, new_tailroom); free(b->base); } break; case OFPBUF_STACK: NOT_REACHED(); default: NOT_REACHED(); } b->allocated = new_allocated; b->base = new_base; new_data = (char *) new_base + new_headroom; if (b->data != new_data) { uintptr_t data_delta = (char *) new_data - (char *) b->data; b->data = new_data; if (b->l2) { b->l2 = (char *) b->l2 + data_delta; } if (b->l3) { b->l3 = (char *) b->l3 + data_delta; } if (b->l4) { b->l4 = (char *) b->l4 + data_delta; } if (b->l7) { b->l7 = (char *) b->l7 + data_delta; } } } /* Ensures that 'b' has room for at least 'size' bytes at its tail end, * reallocating and copying its data if necessary. Its headroom, if any, is * preserved. */ void ofpbuf_prealloc_tailroom(struct ofpbuf *b, size_t size) { if (size > ofpbuf_tailroom(b)) { ofpbuf_resize__(b, ofpbuf_headroom(b), MAX(size, 64)); } } /* Ensures that 'b' has room for at least 'size' bytes at its head, * reallocating and copying its data if necessary. Its tailroom, if any, is * preserved. */ void ofpbuf_prealloc_headroom(struct ofpbuf *b, size_t size) { if (size > ofpbuf_headroom(b)) { ofpbuf_resize__(b, MAX(size, 64), ofpbuf_tailroom(b)); } } /* Trims the size of 'b' to fit its actual content, reducing its tailroom to * 0. Its headroom, if any, is preserved. * * Buffers not obtained from malloc() are not resized, since that wouldn't save * any memory. */ void ofpbuf_trim(struct ofpbuf *b) { if (b->source == OFPBUF_MALLOC && (ofpbuf_headroom(b) || ofpbuf_tailroom(b))) { ofpbuf_resize__(b, 0, 0); } } /* Appends 'size' bytes of data to the tail end of 'b', reallocating and * copying its data if necessary. Returns a pointer to the first byte of the * new data, which is left uninitialized. */ void * ofpbuf_put_uninit(struct ofpbuf *b, size_t size) { void *p; ofpbuf_prealloc_tailroom(b, size); p = ofpbuf_tail(b); b->size += size; return p; } /* Appends 'size' zeroed bytes to the tail end of 'b'. Data in 'b' is * reallocated and copied if necessary. Returns a pointer to the first byte of * the data's location in the ofpbuf. */ void * ofpbuf_put_zeros(struct ofpbuf *b, size_t size) { void *dst = ofpbuf_put_uninit(b, size); memset(dst, 0, size); return dst; } /* Appends the 'size' bytes of data in 'p' to the tail end of 'b'. Data in 'b' * is reallocated and copied if necessary. Returns a pointer to the first * byte of the data's location in the ofpbuf. */ void * ofpbuf_put(struct ofpbuf *b, const void *p, size_t size) { void *dst = ofpbuf_put_uninit(b, size); memcpy(dst, p, size); return dst; } /* Parses as many pairs of hex digits as possible (possibly separated by * spaces) from the beginning of 's', appending bytes for their values to 'b'. * Returns the first character of 's' that is not the first of a pair of hex * digits. If 'n' is nonnull, stores the number of bytes added to 'b' in * '*n'. */ char * ofpbuf_put_hex(struct ofpbuf *b, const char *s, size_t *n) { size_t initial_size = b->size; for (;;) { uint8_t byte; bool ok; s += strspn(s, " "); byte = hexits_value(s, 2, &ok); if (!ok) { if (n) { *n = b->size - initial_size; } return (char *) s; } ofpbuf_put(b, &byte, 1); s += 2; } } /* Reserves 'size' bytes of headroom so that they can be later allocated with * ofpbuf_push_uninit() without reallocating the ofpbuf. */ void ofpbuf_reserve(struct ofpbuf *b, size_t size) { assert(!b->size); ofpbuf_prealloc_tailroom(b, size); b->data = (char*)b->data + size; } /* Prefixes 'size' bytes to the head end of 'b', reallocating and copying its * data if necessary. Returns a pointer to the first byte of the data's * location in the ofpbuf. The new data is left uninitialized. */ void * ofpbuf_push_uninit(struct ofpbuf *b, size_t size) { ofpbuf_prealloc_headroom(b, size); b->data = (char*)b->data - size; b->size += size; return b->data; } /* Prefixes 'size' zeroed bytes to the head end of 'b', reallocating and * copying its data if necessary. Returns a pointer to the first byte of the * data's location in the ofpbuf. */ void * ofpbuf_push_zeros(struct ofpbuf *b, size_t size) { void *dst = ofpbuf_push_uninit(b, size); memset(dst, 0, size); return dst; } /* Copies the 'size' bytes starting at 'p' to the head end of 'b', reallocating * and copying its data if necessary. Returns a pointer to the first byte of * the data's location in the ofpbuf. */ void * ofpbuf_push(struct ofpbuf *b, const void *p, size_t size) { void *dst = ofpbuf_push_uninit(b, size); memcpy(dst, p, size); return dst; } /* If 'b' contains at least 'offset + size' bytes of data, returns a pointer to * byte 'offset'. Otherwise, returns a null pointer. */ void * ofpbuf_at(const struct ofpbuf *b, size_t offset, size_t size) { return offset + size <= b->size ? (char *) b->data + offset : NULL; } /* Returns a pointer to byte 'offset' in 'b', which must contain at least * 'offset + size' bytes of data. */ void * ofpbuf_at_assert(const struct ofpbuf *b, size_t offset, size_t size) { assert(offset + size <= b->size); return ((char *) b->data) + offset; } /* Returns the byte following the last byte of data in use in 'b'. */ void * ofpbuf_tail(const struct ofpbuf *b) { return (char *) b->data + b->size; } /* Returns the byte following the last byte allocated for use (but not * necessarily in use) by 'b'. */ void * ofpbuf_end(const struct ofpbuf *b) { return (char *) b->base + b->allocated; } /* Clears any data from 'b'. */ void ofpbuf_clear(struct ofpbuf *b) { b->data = b->base; b->size = 0; } /* Removes 'size' bytes from the head end of 'b', which must contain at least * 'size' bytes of data. Returns the first byte of data removed. */ void * ofpbuf_pull(struct ofpbuf *b, size_t size) { void *data = b->data; assert(b->size >= size); b->data = (char*)b->data + size; b->size -= size; return data; } /* If 'b' has at least 'size' bytes of data, removes that many bytes from the * head end of 'b' and returns the first byte removed. Otherwise, returns a * null pointer without modifying 'b'. */ void * ofpbuf_try_pull(struct ofpbuf *b, size_t size) { return b->size >= size ? ofpbuf_pull(b, size) : NULL; } /* Returns the data in 'b' as a block of malloc()'d memory and frees the buffer * within 'b'. (If 'b' itself was dynamically allocated, e.g. with * ofpbuf_new(), then it should still be freed with, e.g., ofpbuf_delete().) */ void * ofpbuf_steal_data(struct ofpbuf *b) { void *p; if (b->source == OFPBUF_MALLOC && b->data == b->base) { p = b->data; } else { p = xmemdup(b->data, b->size); if (b->source == OFPBUF_MALLOC) { free(b->base); } } b->base = b->data = NULL; return p; } /* Returns a string that describes some of 'b''s metadata plus a hex dump of up * to 'maxbytes' from the start of the buffer. */ char * ofpbuf_to_string(const struct ofpbuf *b, size_t maxbytes) { struct ds s; ds_init(&s); ds_put_format(&s, "size=%zu, allocated=%zu, head=%zu, tail=%zu\n", b->size, b->allocated, ofpbuf_headroom(b), ofpbuf_tailroom(b)); ds_put_hex_dump(&s, b->data, MIN(b->size, maxbytes), 0, false); return ds_cstr(&s); } /* Removes each of the "struct ofpbuf"s on 'list' from the list and frees * them. */ void ofpbuf_list_delete(struct list *list) { struct ofpbuf *b, *next; LIST_FOR_EACH_SAFE (b, next, list_node, list) { list_remove(&b->list_node); ofpbuf_delete(b); } }