/* -*- Mode: C; c-basic-offset: 4; indent-tabs-mode: nil -*- */ /* Copyright (C) 2010 Red Hat, Inc. 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 2.1 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, see . */ #include "mem.h" #include #include #include #ifndef MALLOC_ERROR #define MALLOC_ERROR(format, ...) { \ printf(format "\n", ## __VA_ARGS__); \ abort(); \ } #endif size_t spice_strnlen(const char *str, size_t max_len) { size_t len = 0; while (len < max_len && *str != 0) { len++; str++; } return len; } char *spice_strdup(const char *str) { char *copy; if (str == NULL) { return NULL; } copy = (char *)spice_malloc(strlen(str) + 1); strcpy(copy, str); return copy; } char *spice_strndup(const char *str, size_t n_bytes) { char *copy; if (str == NULL) { return NULL; } copy = (char *)spice_malloc(n_bytes + 1); strncpy(copy, str, n_bytes); copy[n_bytes] = 0; return copy; } void *spice_memdup(const void *mem, size_t n_bytes) { void *copy; copy = spice_malloc(n_bytes); memcpy(copy, mem, n_bytes); return copy; } void *spice_malloc(size_t n_bytes) { void *mem; if (SPICE_LIKELY(n_bytes)) { mem = malloc(n_bytes); if (SPICE_LIKELY(mem != NULL)) { return mem; } MALLOC_ERROR("spice_malloc: panic: unable to allocate %lu bytes\n", (unsigned long)n_bytes); } return NULL; } void *spice_malloc0(size_t n_bytes) { void *mem; if (SPICE_LIKELY(n_bytes)) { mem = calloc(1, n_bytes); if (SPICE_LIKELY(mem != NULL)) { return mem; } MALLOC_ERROR("spice_malloc0: panic: unable to allocate %lu bytes\n", (unsigned long)n_bytes); } return NULL; } void *spice_realloc(void *mem, size_t n_bytes) { if (SPICE_LIKELY(n_bytes)) { mem = realloc(mem, n_bytes); if (SPICE_LIKELY(mem != NULL)) { return mem; } MALLOC_ERROR("spice_realloc: panic: unable to allocate %lu bytes\n", (unsigned long)n_bytes); } if (mem) { free(mem); } return NULL; } #define SIZE_OVERFLOWS(a,b) (SPICE_UNLIKELY ((a) > SIZE_MAX / (b))) void *spice_malloc_n(size_t n_blocks, size_t n_block_bytes) { if (SIZE_OVERFLOWS (n_blocks, n_block_bytes)) { MALLOC_ERROR("spice_malloc_n: overflow allocating %lu*%lu bytes", (unsigned long)n_blocks, (unsigned long)n_block_bytes); } return spice_malloc(n_blocks * n_block_bytes); } void *spice_malloc_n_m(size_t n_blocks, size_t n_block_bytes, size_t extra_size) { size_t size1, size2; if (SIZE_OVERFLOWS (n_blocks, n_block_bytes)) { MALLOC_ERROR("spice_malloc_n: overflow allocating %lu*%lu + %lubytes", (unsigned long)n_blocks, (unsigned long)n_block_bytes, (unsigned long)extra_size); } size1 = n_blocks * n_block_bytes; size2 = size1 + extra_size; if (size2 < size1) { MALLOC_ERROR("spice_malloc_n: overflow allocating %lu*%lu + %lubytes", (unsigned long)n_blocks, (unsigned long)n_block_bytes, (unsigned long)extra_size); } return spice_malloc(size2); } void *spice_malloc0_n(size_t n_blocks, size_t n_block_bytes) { if (SIZE_OVERFLOWS (n_blocks, n_block_bytes)) { MALLOC_ERROR("spice_malloc0_n: overflow allocating %lu*%lu bytes", (unsigned long)n_blocks, (unsigned long)n_block_bytes); } return spice_malloc0 (n_blocks * n_block_bytes); } void *spice_realloc_n(void *mem, size_t n_blocks, size_t n_block_bytes) { if (SIZE_OVERFLOWS (n_blocks, n_block_bytes)) { MALLOC_ERROR("spice_realloc_n: overflow allocating %lu*%lu bytes", (unsigned long)n_blocks, (unsigned long)n_block_bytes); } return spice_realloc(mem, n_blocks * n_block_bytes); } SpiceChunks *spice_chunks_new(uint32_t count) { SpiceChunks *chunks; chunks = (SpiceChunks *)spice_malloc_n_m(count, sizeof(SpiceChunk), sizeof(SpiceChunks)); chunks->flags = 0; chunks->num_chunks = count; return chunks; } SpiceChunks *spice_chunks_new_linear(uint8_t *data, uint32_t len) { SpiceChunks *chunks; chunks = spice_chunks_new(1); chunks->data_size = chunks->chunk[0].len = len; chunks->chunk[0].data = data; return chunks; } void spice_chunks_destroy(SpiceChunks *chunks) { unsigned int i; if (chunks->flags & SPICE_CHUNKS_FLAGS_FREE) { for (i = 0; i < chunks->num_chunks; i++) { free(chunks->chunk[i].data); } } free(chunks); } void spice_chunks_linearize(SpiceChunks *chunks) { uint8_t *data, *p; unsigned int i; if (chunks->num_chunks > 1) { data = (uint8_t*)spice_malloc(chunks->data_size); for (p = data, i = 0; i < chunks->num_chunks; i++) { memcpy(p, chunks->chunk[i].data, chunks->chunk[i].len); p += chunks->chunk[i].len; } if (chunks->flags & SPICE_CHUNKS_FLAGS_FREE) { for (i = 0; i < chunks->num_chunks; i++) { free(chunks->chunk[i].data); } } chunks->num_chunks = 1; chunks->flags |= SPICE_CHUNKS_FLAGS_FREE; chunks->flags &= ~SPICE_CHUNKS_FLAGS_UNSTABLE; chunks->chunk[0].data = data; chunks->chunk[0].len = chunks->data_size; } } void spice_buffer_reserve(SpiceBuffer *buffer, size_t len) { if ((buffer->capacity - buffer->offset) < len) { buffer->capacity += (len + 1024); buffer->buffer = (uint8_t*)spice_realloc(buffer->buffer, buffer->capacity); } } int spice_buffer_empty(SpiceBuffer *buffer) { return buffer->offset == 0; } uint8_t *spice_buffer_end(SpiceBuffer *buffer) { return buffer->buffer + buffer->offset; } void spice_buffer_reset(SpiceBuffer *buffer) { buffer->offset = 0; } void spice_buffer_free(SpiceBuffer *buffer) { free(buffer->buffer); buffer->offset = 0; buffer->capacity = 0; buffer->buffer = NULL; } void spice_buffer_append(SpiceBuffer *buffer, const void *data, size_t len) { spice_buffer_reserve(buffer, len); memcpy(buffer->buffer + buffer->offset, data, len); buffer->offset += len; } size_t spice_buffer_copy(SpiceBuffer *buffer, void *dest, size_t len) { len = MIN(buffer->offset, len); memcpy(dest, buffer->buffer, len); return len; } size_t spice_buffer_remove(SpiceBuffer *buffer, size_t len) { len = MIN(buffer->offset, len); memmove(buffer->buffer, buffer->buffer + len, buffer->offset - len); buffer->offset -= len; return len; }