/* * blob - library for generating/parsing tagged binary data * * Copyright (C) 2010 Felix Fietkau * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 2.1 * as published by the Free Software Foundation * * This program 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 General Public License for more details. */ #include "blob.h" static bool blob_buffer_grow(struct blob_buf *buf, int minlen) { buf->buflen += ((minlen / 256) + 1) * 256; buf->buf = realloc(buf->buf, buf->buflen); return !!buf->buf; } static void blob_init(struct blob_attr *attr, int id, unsigned int len) { len &= BLOB_ATTR_LEN_MASK; len |= (id << BLOB_ATTR_ID_SHIFT) & BLOB_ATTR_ID_MASK; attr->id_len = cpu_to_be32(len); } static inline struct blob_attr * offset_to_attr(struct blob_buf *buf, int offset) { void *ptr = (char *)buf->buf + offset; return ptr; } static inline int attr_to_offset(struct blob_buf *buf, struct blob_attr *attr) { return (char *)attr - (char *) buf->buf; } static struct blob_attr * blob_add(struct blob_buf *buf, struct blob_attr *pos, int id, int payload) { int offset = attr_to_offset(buf, pos); int required = (offset + sizeof(struct blob_attr) + payload) - buf->buflen; struct blob_attr *attr; if (required > 0) { int offset_head = attr_to_offset(buf, buf->head); if (!buf->grow || !buf->grow(buf, required)) return NULL; buf->head = offset_to_attr(buf, offset_head); attr = offset_to_attr(buf, offset); } else { attr = pos; } blob_init(attr, id, payload + sizeof(struct blob_attr)); return attr; } int blob_buf_init(struct blob_buf *buf, int id) { if (!buf->grow) buf->grow = blob_buffer_grow; buf->head = buf->buf; if (blob_add(buf, buf->buf, id, 0) == NULL) return -ENOMEM; return 0; } struct blob_attr * blob_new(struct blob_buf *buf, int id, int payload) { struct blob_attr *attr; attr = blob_add(buf, blob_next(buf->head), id, payload); if (!attr) return NULL; blob_set_raw_len(buf->head, blob_pad_len(buf->head) + blob_pad_len(attr)); return attr; } struct blob_attr * blob_put(struct blob_buf *buf, int id, const void *ptr, int len) { struct blob_attr *attr; attr = blob_new(buf, id, len); if (!attr) return NULL; if (ptr) memcpy(blob_data(attr), ptr, len); return attr; } void * blob_nest_start(struct blob_buf *buf, int id) { unsigned long offset = attr_to_offset(buf, buf->head); buf->head = blob_new(buf, id, 0); return (void *) offset; } void blob_nest_end(struct blob_buf *buf, void *cookie) { struct blob_attr *attr = offset_to_attr(buf, (unsigned long) cookie); blob_set_raw_len(attr, blob_pad_len(attr) + blob_len(buf->head)); buf->head = attr; } static const int blob_type_minlen[BLOB_ATTR_LAST] = { [BLOB_ATTR_STRING] = 1, [BLOB_ATTR_INT8] = sizeof(uint8_t), [BLOB_ATTR_INT16] = sizeof(uint16_t), [BLOB_ATTR_INT32] = sizeof(uint32_t), [BLOB_ATTR_INT64] = sizeof(uint64_t), }; int blob_parse(struct blob_attr *attr, struct blob_attr **data, struct blob_attr_info *info, int max) { struct blob_attr *pos; int found = 0; int rem; memset(data, 0, sizeof(struct blob_attr *) * max); blob_for_each_attr(pos, attr, rem) { int id = blob_id(pos); int len = blob_len(pos); if (id >= max) continue; if (info) { int type = info[id].type; if (type < BLOB_ATTR_LAST) { if (type >= BLOB_ATTR_INT8 && type <= BLOB_ATTR_INT64) { if (len != blob_type_minlen[type]) continue; } else { if (len < blob_type_minlen[type]) continue; } } if (info[id].minlen && len < info[id].minlen) continue; if (info[id].maxlen && len > info[id].maxlen) continue; if (info[id].validate && !info[id].validate(&info[id], attr)) continue; } if (!data[id]) found++; data[id] = pos; } return found; }