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|
/*
* bplist.c
* Binary plist implementation
*
* Copyright (c) 2011-2016 Nikias Bassen, All Rights Reserved.
* Copyright (c) 2008-2010 Jonathan Beck, All Rights Reserved.
*
* 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, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <plist/plist.h>
#include "plist.h"
#include "hashtable.h"
#include "bytearray.h"
#include "ptrarray.h"
#include <node.h>
#include <node_iterator.h>
/* Magic marker and size. */
#define BPLIST_MAGIC ((uint8_t*)"bplist")
#define BPLIST_MAGIC_SIZE 6
#define BPLIST_VERSION ((uint8_t*)"00")
#define BPLIST_VERSION_SIZE 2
typedef struct __attribute__((packed)) {
uint8_t unused[6];
uint8_t offset_size;
uint8_t ref_size;
uint64_t num_objects;
uint64_t root_object_index;
uint64_t offset_table_offset;
} bplist_trailer_t;
enum
{
BPLIST_NULL = 0x00,
BPLIST_FALSE = 0x08,
BPLIST_TRUE = 0x09,
BPLIST_FILL = 0x0F, /* will be used for length grabbing */
BPLIST_UINT = 0x10,
BPLIST_REAL = 0x20,
BPLIST_DATE = 0x30,
BPLIST_DATA = 0x40,
BPLIST_STRING = 0x50,
BPLIST_UNICODE = 0x60,
BPLIST_UNK_0x70 = 0x70,
BPLIST_UID = 0x80,
BPLIST_ARRAY = 0xA0,
BPLIST_SET = 0xC0,
BPLIST_DICT = 0xD0,
BPLIST_MASK = 0xF0
};
union plist_uint_ptr
{
const void *src;
uint8_t *u8ptr;
uint16_t *u16ptr;
uint32_t *u32ptr;
uint64_t *u64ptr;
};
#define get_unaligned(ptr) \
({ \
struct __attribute__((packed)) { \
typeof(*(ptr)) __v; \
} *__p = (void *) (ptr); \
__p->__v; \
})
#ifndef bswap16
#define bswap16(x) ((((x) & 0xFF00) >> 8) | (((x) & 0x00FF) << 8))
#endif
#ifndef bswap32
#define bswap32(x) ((((x) & 0xFF000000) >> 24) \
| (((x) & 0x00FF0000) >> 8) \
| (((x) & 0x0000FF00) << 8) \
| (((x) & 0x000000FF) << 24))
#endif
#ifndef bswap64
#define bswap64(x) ((((x) & 0xFF00000000000000ull) >> 56) \
| (((x) & 0x00FF000000000000ull) >> 40) \
| (((x) & 0x0000FF0000000000ull) >> 24) \
| (((x) & 0x000000FF00000000ull) >> 8) \
| (((x) & 0x00000000FF000000ull) << 8) \
| (((x) & 0x0000000000FF0000ull) << 24) \
| (((x) & 0x000000000000FF00ull) << 40) \
| (((x) & 0x00000000000000FFull) << 56))
#endif
#ifndef be16toh
#ifdef __BIG_ENDIAN__
#define be16toh(x) (x)
#else
#define be16toh(x) bswap16(x)
#endif
#endif
#ifndef be32toh
#ifdef __BIG_ENDIAN__
#define be32toh(x) (x)
#else
#define be32toh(x) bswap32(x)
#endif
#endif
#ifndef be64toh
#ifdef __BIG_ENDIAN__
#define be64toh(x) (x)
#else
#define be64toh(x) bswap64(x)
#endif
#endif
#ifdef __BIG_ENDIAN__
#define beNtoh(x,n) (x >> ((8-n) << 3))
#else
#define beNtoh(x,n) be64toh(x << ((8-n) << 3))
#endif
#define UINT_TO_HOST(x, n) \
({ \
union plist_uint_ptr __up; \
__up.src = (n > 8) ? x + (n - 8) : x; \
(n >= 8 ? be64toh( get_unaligned(__up.u64ptr) ) : \
(n == 4 ? be32toh( get_unaligned(__up.u32ptr) ) : \
(n == 2 ? be16toh( get_unaligned(__up.u16ptr) ) : \
(n == 1 ? *__up.u8ptr : \
beNtoh( get_unaligned(__up.u64ptr), n) \
)))); \
})
#define get_needed_bytes(x) \
( ((uint64_t)x) < (1ULL << 8) ? 1 : \
( ((uint64_t)x) < (1ULL << 16) ? 2 : \
( ((uint64_t)x) < (1ULL << 24) ? 3 : \
( ((uint64_t)x) < (1ULL << 32) ? 4 : 8))))
#define get_real_bytes(x) (x == (float) x ? sizeof(float) : sizeof(double))
#if (defined(__LITTLE_ENDIAN__) \
&& !defined(__FLOAT_WORD_ORDER__)) \
|| (defined(__FLOAT_WORD_ORDER__) \
&& __FLOAT_WORD_ORDER__ == __ORDER_LITTLE_ENDIAN__)
#define float_bswap64(x) bswap64(x)
#define float_bswap32(x) bswap32(x)
#else
#define float_bswap64(x) (x)
#define float_bswap32(x) (x)
#endif
#define NODE_IS_ROOT(x) (((node_t*)x)->isRoot)
struct bplist_data {
const char* data;
uint64_t size;
uint64_t num_objects;
uint8_t ref_size;
uint8_t offset_size;
const char* offset_table;
uint32_t level;
uint32_t *used_indexes;
};
static plist_t parse_bin_node_at_index(struct bplist_data *bplist, uint32_t node_index);
static plist_t parse_uint_node(const char **bnode, uint8_t size)
{
plist_data_t data = plist_new_plist_data();
size = 1 << size; // make length less misleading
switch (size)
{
case sizeof(uint8_t):
case sizeof(uint16_t):
case sizeof(uint32_t):
case sizeof(uint64_t):
data->length = sizeof(uint64_t);
break;
case 16:
data->length = size;
break;
default:
free(data);
return NULL;
};
data->intval = UINT_TO_HOST(*bnode, size);
(*bnode) += size;
data->type = PLIST_UINT;
return node_create(NULL, data);
}
static plist_t parse_real_node(const char **bnode, uint8_t size)
{
plist_data_t data = plist_new_plist_data();
uint8_t buf[8];
size = 1 << size; // make length less misleading
switch (size)
{
case sizeof(uint32_t):
*(uint32_t*)buf = float_bswap32(*(uint32_t*)*bnode);
data->realval = *(float *) buf;
break;
case sizeof(uint64_t):
*(uint64_t*)buf = float_bswap64(*(uint64_t*)*bnode);
data->realval = *(double *) buf;
break;
default:
free(data);
return NULL;
}
data->type = PLIST_REAL;
data->length = sizeof(double);
return node_create(NULL, data);
}
static plist_t parse_date_node(const char **bnode, uint8_t size)
{
plist_t node = parse_real_node(bnode, size);
plist_data_t data = plist_get_data(node);
data->type = PLIST_DATE;
return node;
}
static plist_t parse_string_node(const char **bnode, uint64_t size)
{
plist_data_t data = plist_new_plist_data();
data->type = PLIST_STRING;
data->strval = (char *) malloc(sizeof(char) * (size + 1));
memcpy(data->strval, *bnode, size);
data->strval[size] = '\0';
data->length = strlen(data->strval);
return node_create(NULL, data);
}
static char *plist_utf16_to_utf8(uint16_t *unistr, long len, long *items_read, long *items_written)
{
if (!unistr || (len <= 0)) return NULL;
char *outbuf = (char*)malloc(4*(len+1));
int p = 0;
int i = 0;
uint16_t wc;
uint32_t w;
int read_lead_surrogate = 0;
while (i < len) {
wc = unistr[i++];
if (wc >= 0xD800 && wc <= 0xDBFF) {
if (!read_lead_surrogate) {
read_lead_surrogate = 1;
w = 0x010000 + ((wc & 0x3FF) << 10);
} else {
// This is invalid, the next 16 bit char should be a trail surrogate.
// Handling error by skipping.
read_lead_surrogate = 0;
}
} else if (wc >= 0xDC00 && wc <= 0xDFFF) {
if (read_lead_surrogate) {
read_lead_surrogate = 0;
w = w | (wc & 0x3FF);
outbuf[p++] = (char)(0xF0 + ((w >> 18) & 0x7));
outbuf[p++] = (char)(0x80 + ((w >> 12) & 0x3F));
outbuf[p++] = (char)(0x80 + ((w >> 6) & 0x3F));
outbuf[p++] = (char)(0x80 + (w & 0x3F));
} else {
// This is invalid. A trail surrogate should always follow a lead surrogate.
// Handling error by skipping
}
} else if (wc >= 0x800) {
outbuf[p++] = (char)(0xE0 + ((wc >> 12) & 0xF));
outbuf[p++] = (char)(0x80 + ((wc >> 6) & 0x3F));
outbuf[p++] = (char)(0x80 + (wc & 0x3F));
} else if (wc >= 0x80) {
outbuf[p++] = (char)(0xC0 + ((wc >> 6) & 0x1F));
outbuf[p++] = (char)(0x80 + (wc & 0x3F));
} else {
outbuf[p++] = (char)(wc & 0x7F);
}
}
if (items_read) {
*items_read = i;
}
if (items_written) {
*items_written = p;
}
outbuf[p] = 0;
return outbuf;
}
static plist_t parse_unicode_node(const char **bnode, uint64_t size)
{
plist_data_t data = plist_new_plist_data();
uint64_t i = 0;
uint16_t *unicodestr = NULL;
char *tmpstr = NULL;
long items_read = 0;
long items_written = 0;
data->type = PLIST_STRING;
unicodestr = (uint16_t*) malloc(sizeof(uint16_t) * size);
for (i = 0; i < size; i++)
unicodestr[i] = be16toh(((uint16_t*)*bnode)[i]);
tmpstr = plist_utf16_to_utf8(unicodestr, size, &items_read, &items_written);
free(unicodestr);
if (!tmpstr) {
plist_free_data(data);
return NULL;
}
tmpstr[items_written] = '\0';
data->type = PLIST_STRING;
data->strval = realloc(tmpstr, items_written+1);
if (!data->strval)
data->strval = tmpstr;
data->length = items_written;
return node_create(NULL, data);
}
static plist_t parse_data_node(const char **bnode, uint64_t size)
{
plist_data_t data = plist_new_plist_data();
data->type = PLIST_DATA;
data->length = size;
data->buff = (uint8_t *) malloc(sizeof(uint8_t) * size);
memcpy(data->buff, *bnode, sizeof(uint8_t) * size);
return node_create(NULL, data);
}
static plist_t parse_dict_node(struct bplist_data *bplist, const char** bnode, uint64_t size)
{
uint64_t j;
uint64_t str_i = 0, str_j = 0;
uint64_t index1, index2;
plist_data_t data = plist_new_plist_data();
const char *const end_data = bplist->data + bplist->size;
const char *index1_ptr = NULL;
const char *index2_ptr = NULL;
data->type = PLIST_DICT;
data->length = size;
plist_t node = node_create(NULL, data);
for (j = 0; j < data->length; j++) {
str_i = j * bplist->ref_size;
str_j = (j + size) * bplist->ref_size;
index1_ptr = (*bnode) + str_i;
index2_ptr = (*bnode) + str_j;
if ((index1_ptr < bplist->data || index1_ptr + bplist->ref_size >= end_data) ||
(index2_ptr < bplist->data || index2_ptr + bplist->ref_size >= end_data)) {
plist_free(node);
return NULL;
}
index1 = UINT_TO_HOST(index1_ptr, bplist->ref_size);
index2 = UINT_TO_HOST(index2_ptr, bplist->ref_size);
if (index1 >= bplist->num_objects) {
plist_free(node);
return NULL;
}
if (index2 >= bplist->num_objects) {
plist_free(node);
return NULL;
}
/* process key node */
plist_t key = parse_bin_node_at_index(bplist, index1);
if (!key) {
plist_free(node);
return NULL;
}
if (plist_get_data(key)->type != PLIST_STRING) {
fprintf(stderr, "ERROR: Malformed binary plist dict, invalid node type for key!\n");
plist_free(node);
return NULL;
}
/* enforce key type */
plist_get_data(key)->type = PLIST_KEY;
if (!plist_get_data(key)->strval) {
fprintf(stderr, "ERROR: Malformed binary plist dict, invalid key node encountered!\n");
plist_free(key);
plist_free(node);
return NULL;
}
/* process value node */
plist_t val = parse_bin_node_at_index(bplist, index2);
if (!val) {
plist_free(key);
plist_free(node);
return NULL;
}
node_attach(node, key);
node_attach(node, val);
}
return node;
}
static plist_t parse_array_node(struct bplist_data *bplist, const char** bnode, uint64_t size)
{
uint64_t j;
uint64_t str_j = 0;
uint64_t index1;
plist_data_t data = plist_new_plist_data();
const char *const end_data = bplist->data + bplist->size;
const char *index1_ptr = NULL;
data->type = PLIST_ARRAY;
data->length = size;
plist_t node = node_create(NULL, data);
for (j = 0; j < data->length; j++) {
str_j = j * bplist->ref_size;
index1_ptr = (*bnode) + str_j;
if (index1_ptr < bplist->data || index1_ptr + bplist->ref_size >= end_data) {
plist_free(node);
return NULL;
}
index1 = UINT_TO_HOST(index1_ptr, bplist->ref_size);
if (index1 >= bplist->num_objects) {
plist_free(node);
return NULL;
}
/* process value node */
plist_t val = parse_bin_node_at_index(bplist, index1);
if (!val) {
plist_free(node);
return NULL;
}
node_attach(node, val);
}
return node;
}
static plist_t parse_uid_node(const char **bnode, uint8_t size)
{
plist_data_t data = plist_new_plist_data();
size = size + 1;
data->intval = UINT_TO_HOST(*bnode, size);
if (data->intval > UINT32_MAX) {
free(data);
return NULL;
}
(*bnode) += size;
data->type = PLIST_UID;
data->length = sizeof(uint64_t);
return node_create(NULL, data);
}
static plist_t parse_bin_node(struct bplist_data *bplist, const char** object)
{
uint16_t type = 0;
uint64_t size = 0;
if (!object)
return NULL;
type = (**object) & BPLIST_MASK;
size = (**object) & BPLIST_FILL;
(*object)++;
switch (type)
{
case BPLIST_NULL:
switch (size)
{
case BPLIST_TRUE:
{
plist_data_t data = plist_new_plist_data();
data->type = PLIST_BOOLEAN;
data->boolval = TRUE;
data->length = 1;
return node_create(NULL, data);
}
case BPLIST_FALSE:
{
plist_data_t data = plist_new_plist_data();
data->type = PLIST_BOOLEAN;
data->boolval = FALSE;
data->length = 1;
return node_create(NULL, data);
}
case BPLIST_NULL:
default:
return NULL;
}
case BPLIST_UINT:
if (*object - bplist->data + (uint64_t)(1 << size) >= bplist->size)
return NULL;
return parse_uint_node(object, size);
case BPLIST_REAL:
if (*object - bplist->data + (uint64_t)(1 << size) >= bplist->size)
return NULL;
return parse_real_node(object, size);
case BPLIST_DATE:
if (3 != size)
return NULL;
if (*object - bplist->data + (uint64_t)(1 << size) >= bplist->size)
return NULL;
return parse_date_node(object, size);
case BPLIST_DATA:
if (BPLIST_FILL == size) {
uint8_t next_size = **object & BPLIST_FILL;
if ((**object & BPLIST_MASK) != BPLIST_UINT)
return NULL;
(*object)++;
size = UINT_TO_HOST(*object, (1 << next_size));
(*object) += (1 << next_size);
}
if (*object - bplist->data + size >= bplist->size)
return NULL;
return parse_data_node(object, size);
case BPLIST_STRING:
if (BPLIST_FILL == size) {
uint8_t next_size = **object & BPLIST_FILL;
if ((**object & BPLIST_MASK) != BPLIST_UINT)
return NULL;
(*object)++;
size = UINT_TO_HOST(*object, (1 << next_size));
(*object) += (1 << next_size);
}
if (*object - bplist->data + size >= bplist->size)
return NULL;
return parse_string_node(object, size);
case BPLIST_UNICODE:
if (BPLIST_FILL == size) {
uint8_t next_size = **object & BPLIST_FILL;
if ((**object & BPLIST_MASK) != BPLIST_UINT)
return NULL;
(*object)++;
size = UINT_TO_HOST(*object, (1 << next_size));
(*object) += (1 << next_size);
}
if (*object - bplist->data + size * 2 >= bplist->size)
return NULL;
return parse_unicode_node(object, size);
case BPLIST_SET:
case BPLIST_ARRAY:
if (BPLIST_FILL == size) {
uint8_t next_size = **object & BPLIST_FILL;
if ((**object & BPLIST_MASK) != BPLIST_UINT)
return NULL;
(*object)++;
size = UINT_TO_HOST(*object, (1 << next_size));
(*object) += (1 << next_size);
}
if (*object - bplist->data + size >= bplist->size)
return NULL;
return parse_array_node(bplist, object, size);
case BPLIST_UID:
return parse_uid_node(object, size);
case BPLIST_DICT:
if (BPLIST_FILL == size) {
uint8_t next_size = **object & BPLIST_FILL;
if ((**object & BPLIST_MASK) != BPLIST_UINT)
return NULL;
(*object)++;
size = UINT_TO_HOST(*object, (1 << next_size));
(*object) += (1 << next_size);
}
if (*object - bplist->data + size >= bplist->size)
return NULL;
return parse_dict_node(bplist, object, size);
default:
return NULL;
}
return NULL;
}
static plist_t parse_bin_node_at_index(struct bplist_data *bplist, uint32_t node_index)
{
int i = 0;
const char* ptr = NULL;
plist_t plist = NULL;
const char* idx_ptr = NULL;
if (node_index > bplist->num_objects)
return NULL;
idx_ptr = bplist->offset_table + node_index * bplist->offset_size;
if (idx_ptr < bplist->offset_table ||
idx_ptr >= bplist->offset_table + bplist->num_objects * bplist->offset_size)
return NULL;
ptr = bplist->data + UINT_TO_HOST(idx_ptr, bplist->offset_size);
/* make sure the node offset is in a sane range */
if ((ptr < bplist->data) || (ptr >= bplist->offset_table)) {
return NULL;
}
/* store node_index for current recursion level */
bplist->used_indexes[bplist->level] = node_index;
/* recursion check */
if (bplist->level > 0) {
for (i = bplist->level-1; i >= 0; i--) {
if (bplist->used_indexes[i] == bplist->used_indexes[bplist->level]) {
fprintf(stderr, "Recursion detected in binary plist. Aborting.\n");
return NULL;
}
}
}
/* finally parse node */
bplist->level++;
plist = parse_bin_node(bplist, &ptr);
bplist->level--;
return plist;
}
PLIST_API void plist_from_bin(const char *plist_bin, uint32_t length, plist_t * plist)
{
bplist_trailer_t *trailer = NULL;
uint8_t offset_size = 0;
uint8_t ref_size = 0;
uint64_t num_objects = 0;
uint64_t root_object = 0;
char *offset_table = NULL;
//first check we have enough data
if (!(length >= BPLIST_MAGIC_SIZE + BPLIST_VERSION_SIZE + sizeof(bplist_trailer_t)))
return;
//check that plist_bin in actually a plist
if (memcmp(plist_bin, BPLIST_MAGIC, BPLIST_MAGIC_SIZE) != 0)
return;
//check for known version
if (memcmp(plist_bin + BPLIST_MAGIC_SIZE, BPLIST_VERSION, BPLIST_VERSION_SIZE) != 0)
return;
//now parse trailer
trailer = (bplist_trailer_t*)(plist_bin + (length - sizeof(bplist_trailer_t)));
offset_size = trailer->offset_size;
ref_size = trailer->ref_size;
num_objects = be64toh(trailer->num_objects);
root_object = be64toh(trailer->root_object_index);
offset_table = (char *)(plist_bin + be64toh(trailer->offset_table_offset));
if (num_objects == 0)
return;
if (offset_size == 0)
return;
if (ref_size == 0)
return;
if (root_object >= num_objects)
return;
if (offset_table < plist_bin || offset_table >= plist_bin + length)
return;
if (offset_table + num_objects * offset_size >= plist_bin + length)
return;
if (sizeof(uint32_t) * num_objects < num_objects)
return;
struct bplist_data bplist;
bplist.data = plist_bin;
bplist.size = length;
bplist.num_objects = num_objects;
bplist.ref_size = ref_size;
bplist.offset_size = offset_size;
bplist.offset_table = offset_table;
bplist.level = 0;
bplist.used_indexes = (uint32_t*)malloc(sizeof(uint32_t) * num_objects);
if (!bplist.used_indexes)
return;
*plist = parse_bin_node_at_index(&bplist, root_object);
free(bplist.used_indexes);
}
static unsigned int plist_data_hash(const void* key)
{
plist_data_t data = plist_get_data((plist_t) key);
unsigned int hash = data->type;
unsigned int i = 0;
char *buff = NULL;
unsigned int size = 0;
switch (data->type)
{
case PLIST_BOOLEAN:
case PLIST_UINT:
case PLIST_REAL:
case PLIST_DATE:
case PLIST_UID:
buff = (char *) &data->intval; //works also for real as we use an union
size = 8;
break;
case PLIST_KEY:
case PLIST_STRING:
buff = data->strval;
size = data->length;
break;
case PLIST_DATA:
case PLIST_ARRAY:
case PLIST_DICT:
//for these types only hash pointer
buff = (char *) &key;
size = sizeof(const void*);
break;
default:
break;
}
// now perform hash using djb2 hashing algorithm
// see: http://www.cse.yorku.ca/~oz/hash.html
hash += 5381;
for (i = 0; i < size; buff++, i++) {
hash = ((hash << 5) + hash) + *buff;
}
return hash;
}
struct serialize_s
{
ptrarray_t* objects;
hashtable_t* ref_table;
};
static void serialize_plist(node_t* node, void* data)
{
uint64_t *index_val = NULL;
struct serialize_s *ser = (struct serialize_s *) data;
uint64_t current_index = ser->objects->len;
//first check that node is not yet in objects
void* val = hash_table_lookup(ser->ref_table, node);
if (val)
{
//data is already in table
return;
}
//insert new ref
index_val = (uint64_t *) malloc(sizeof(uint64_t));
*index_val = current_index;
hash_table_insert(ser->ref_table, node, index_val);
//now append current node to object array
ptr_array_add(ser->objects, node);
//now recurse on children
node_iterator_t *ni = node_iterator_create(node->children);
node_t *ch;
while ((ch = node_iterator_next(ni))) {
serialize_plist(ch, data);
}
node_iterator_destroy(ni);
return;
}
#define Log2(x) (x == 8 ? 3 : (x == 4 ? 2 : (x == 2 ? 1 : 0)))
static void write_int(bytearray_t * bplist, uint64_t val)
{
int size = get_needed_bytes(val);
uint8_t sz;
//do not write 3bytes int node
if (size == 3)
size++;
sz = BPLIST_UINT | Log2(size);
val = be64toh(val);
byte_array_append(bplist, &sz, 1);
byte_array_append(bplist, (uint8_t*)&val + (8-size), size);
}
static void write_uint(bytearray_t * bplist, uint64_t val)
{
uint8_t sz = BPLIST_UINT | 4;
uint64_t zero = 0;
val = be64toh(val);
byte_array_append(bplist, &sz, 1);
byte_array_append(bplist, &zero, sizeof(uint64_t));
byte_array_append(bplist, &val, sizeof(uint64_t));
}
static void write_real(bytearray_t * bplist, double val)
{
int size = get_real_bytes(val); //cheat to know used space
uint8_t buff[9];
buff[0] = BPLIST_REAL | Log2(size);
if (size == sizeof(float)) {
float floatval = (float)val;
*(uint32_t*)(buff+1) = float_bswap32(*(uint32_t*)&floatval);
} else {
*(uint64_t*)(buff+1) = float_bswap64(*(uint64_t*)&val);
}
byte_array_append(bplist, buff, size+1);
}
static void write_date(bytearray_t * bplist, double val)
{
uint8_t buff[9];
buff[0] = BPLIST_DATE | 3;
*(uint64_t*)(buff+1) = float_bswap64(*(uint64_t*)&val);
byte_array_append(bplist, buff, sizeof(buff));
}
static void write_raw_data(bytearray_t * bplist, uint8_t mark, uint8_t * val, uint64_t size)
{
uint8_t marker = mark | (size < 15 ? size : 0xf);
byte_array_append(bplist, &marker, sizeof(uint8_t));
if (size >= 15) {
write_int(bplist, size);
}
if (BPLIST_UNICODE==mark) size <<= 1;
byte_array_append(bplist, val, size);
}
static void write_data(bytearray_t * bplist, uint8_t * val, uint64_t size)
{
write_raw_data(bplist, BPLIST_DATA, val, size);
}
static void write_string(bytearray_t * bplist, char *val)
{
uint64_t size = strlen(val);
write_raw_data(bplist, BPLIST_STRING, (uint8_t *) val, size);
}
static void write_unicode(bytearray_t * bplist, uint16_t * val, uint64_t size)
{
uint64_t i = 0;
uint16_t *buff = (uint16_t*)malloc(size << 1);
for (i = 0; i < size; i++)
buff[i] = be16toh(val[i]);
write_raw_data(bplist, BPLIST_UNICODE, (uint8_t*)buff, size);
free(buff);
}
static void write_array(bytearray_t * bplist, node_t* node, hashtable_t* ref_table, uint8_t ref_size)
{
node_t* cur = NULL;
uint64_t i = 0;
uint64_t size = node_n_children(node);
uint8_t marker = BPLIST_ARRAY | (size < 15 ? size : 0xf);
byte_array_append(bplist, &marker, sizeof(uint8_t));
if (size >= 15) {
write_int(bplist, size);
}
for (i = 0, cur = node_first_child(node); cur && i < size; cur = node_next_sibling(cur), i++) {
uint64_t idx = *(uint64_t *) (hash_table_lookup(ref_table, cur));
idx = be64toh(idx);
byte_array_append(bplist, (uint8_t*)&idx + (sizeof(uint64_t) - ref_size), ref_size);
}
}
static void write_dict(bytearray_t * bplist, node_t* node, hashtable_t* ref_table, uint8_t ref_size)
{
node_t* cur = NULL;
uint64_t i = 0;
uint64_t size = node_n_children(node) / 2;
uint8_t marker = BPLIST_DICT | (size < 15 ? size : 0xf);
byte_array_append(bplist, &marker, sizeof(uint8_t));
if (size >= 15) {
write_int(bplist, size);
}
for (i = 0, cur = node_first_child(node); cur && i < size; cur = node_next_sibling(node_next_sibling(cur)), i++) {
uint64_t idx1 = *(uint64_t *) (hash_table_lookup(ref_table, cur));
idx1 = be64toh(idx1);
byte_array_append(bplist, (uint8_t*)&idx1 + (sizeof(uint64_t) - ref_size), ref_size);
}
for (i = 0, cur = node_first_child(node); cur && i < size; cur = node_next_sibling(node_next_sibling(cur)), i++) {
uint64_t idx2 = *(uint64_t *) (hash_table_lookup(ref_table, cur->next));
idx2 = be64toh(idx2);
byte_array_append(bplist, (uint8_t*)&idx2 + (sizeof(uint64_t) - ref_size), ref_size);
}
}
static void write_uid(bytearray_t * bplist, uint64_t val)
{
val = (uint32_t)val;
int size = get_needed_bytes(val);
uint8_t sz;
//do not write 3bytes int node
if (size == 3)
size++;
sz = BPLIST_UID | (size-1); // yes, this is what Apple does...
val = be64toh(val);
byte_array_append(bplist, &sz, 1);
byte_array_append(bplist, (uint8_t*)&val + (8-size), size);
}
static int is_ascii_string(char* s, int len)
{
int ret = 1, i = 0;
for(i = 0; i < len; i++)
{
if ( !isascii( s[i] ) )
{
ret = 0;
break;
}
}
return ret;
}
static uint16_t *plist_utf8_to_utf16(char *unistr, long size, long *items_read, long *items_written)
{
uint16_t *outbuf = (uint16_t*)malloc(((size*2)+1)*sizeof(uint16_t));
int p = 0;
int i = 0;
unsigned char c0;
unsigned char c1;
unsigned char c2;
unsigned char c3;
uint32_t w;
while (i < size) {
c0 = unistr[i];
c1 = (i < size-1) ? unistr[i+1] : 0;
c2 = (i < size-2) ? unistr[i+2] : 0;
c3 = (i < size-3) ? unistr[i+3] : 0;
if ((c0 >= 0xF0) && (i < size-3) && (c1 >= 0x80) && (c2 >= 0x80) && (c3 >= 0x80)) {
// 4 byte sequence. Need to generate UTF-16 surrogate pair
w = ((((c0 & 7) << 18) + ((c1 & 0x3F) << 12) + ((c2 & 0x3F) << 6) + (c3 & 0x3F)) & 0x1FFFFF) - 0x010000;
outbuf[p++] = 0xD800 + (w >> 10);
outbuf[p++] = 0xDC00 + (w & 0x3FF);
i+=4;
} else if ((c0 >= 0xE0) && (i < size-2) && (c1 >= 0x80) && (c2 >= 0x80)) {
// 3 byte sequence
outbuf[p++] = ((c2 & 0x3F) + ((c1 & 3) << 6)) + (((c1 >> 2) & 15) << 8) + ((c0 & 15) << 12);
i+=3;
} else if ((c0 >= 0xC0) && (i < size-1) && (c1 >= 0x80)) {
// 2 byte sequence
outbuf[p++] = ((c1 & 0x3F) + ((c0 & 3) << 6)) + (((c0 >> 2) & 7) << 8);
i+=2;
} else if (c0 < 0x80) {
// 1 byte sequence
outbuf[p++] = c0;
i+=1;
} else {
// invalid character
fprintf(stderr, "invalid utf8 sequence in string at index %d\n", i);
break;
}
}
if (items_read) {
*items_read = i;
}
if (items_written) {
*items_written = p;
}
outbuf[p] = 0;
return outbuf;
}
PLIST_API void plist_to_bin(plist_t plist, char **plist_bin, uint32_t * length)
{
ptrarray_t* objects = NULL;
hashtable_t* ref_table = NULL;
struct serialize_s ser_s;
uint8_t offset_size = 0;
uint8_t ref_size = 0;
uint64_t num_objects = 0;
uint64_t root_object = 0;
uint64_t offset_table_index = 0;
bytearray_t *bplist_buff = NULL;
uint64_t i = 0;
uint8_t *buff = NULL;
uint64_t *offsets = NULL;
bplist_trailer_t trailer;
//for string
long len = 0;
long items_read = 0;
long items_written = 0;
uint16_t *unicodestr = NULL;
uint64_t objects_len = 0;
uint64_t buff_len = 0;
//check for valid input
if (!plist || !plist_bin || *plist_bin || !length)
return;
//list of objects
objects = ptr_array_new(256);
//hashtable to write only once same nodes
ref_table = hash_table_new(plist_data_hash, plist_data_compare, free);
//serialize plist
ser_s.objects = objects;
ser_s.ref_table = ref_table;
serialize_plist(plist, &ser_s);
//now stream to output buffer
offset_size = 0; //unknown yet
objects_len = objects->len;
ref_size = get_needed_bytes(objects_len);
num_objects = objects->len;
root_object = 0; //root is first in list
offset_table_index = 0; //unknown yet
//setup a dynamic bytes array to store bplist in
bplist_buff = byte_array_new();
//set magic number and version
byte_array_append(bplist_buff, BPLIST_MAGIC, BPLIST_MAGIC_SIZE);
byte_array_append(bplist_buff, BPLIST_VERSION, BPLIST_VERSION_SIZE);
//write objects and table
offsets = (uint64_t *) malloc(num_objects * sizeof(uint64_t));
for (i = 0; i < num_objects; i++)
{
plist_data_t data = plist_get_data(ptr_array_index(objects, i));
offsets[i] = bplist_buff->len;
switch (data->type)
{
case PLIST_BOOLEAN:
buff = (uint8_t *) malloc(sizeof(uint8_t));
buff[0] = data->boolval ? BPLIST_TRUE : BPLIST_FALSE;
byte_array_append(bplist_buff, buff, sizeof(uint8_t));
free(buff);
break;
case PLIST_UINT:
if (data->length == 16) {
write_uint(bplist_buff, data->intval);
} else {
write_int(bplist_buff, data->intval);
}
break;
case PLIST_REAL:
write_real(bplist_buff, data->realval);
break;
case PLIST_KEY:
case PLIST_STRING:
len = strlen(data->strval);
if ( is_ascii_string(data->strval, len) )
{
write_string(bplist_buff, data->strval);
}
else
{
unicodestr = plist_utf8_to_utf16(data->strval, len, &items_read, &items_written);
write_unicode(bplist_buff, unicodestr, items_written);
free(unicodestr);
}
break;
case PLIST_DATA:
write_data(bplist_buff, data->buff, data->length);
case PLIST_ARRAY:
write_array(bplist_buff, ptr_array_index(objects, i), ref_table, ref_size);
break;
case PLIST_DICT:
write_dict(bplist_buff, ptr_array_index(objects, i), ref_table, ref_size);
break;
case PLIST_DATE:
write_date(bplist_buff, data->realval);
break;
case PLIST_UID:
write_uid(bplist_buff, data->intval);
break;
default:
break;
}
}
//free intermediate objects
ptr_array_free(objects);
hash_table_destroy(ref_table);
//write offsets
buff_len = bplist_buff->len;
offset_size = get_needed_bytes(buff_len);
offset_table_index = bplist_buff->len;
for (i = 0; i < num_objects; i++) {
uint64_t offset = be64toh(offsets[i]);
byte_array_append(bplist_buff, (uint8_t*)&offset + (sizeof(uint64_t) - offset_size), offset_size);
}
free(offsets);
//setup trailer
memset(trailer.unused, '\0', sizeof(trailer.unused));
trailer.offset_size = offset_size;
trailer.ref_size = ref_size;
trailer.num_objects = be64toh(num_objects);
trailer.root_object_index = be64toh(root_object);
trailer.offset_table_offset = be64toh(offset_table_index);
byte_array_append(bplist_buff, &trailer, sizeof(bplist_trailer_t));
//set output buffer and size
*plist_bin = bplist_buff->data;
*length = bplist_buff->len;
bplist_buff->data = NULL; // make sure we don't free the output buffer
byte_array_free(bplist_buff);
}
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