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/*******************************************************************************
* Copyright (C) ST-Ericsson SA 2011
* License terms: 3-clause BSD license
******************************************************************************/
/*
* @addtogroup ldr_utilities
* @{
* @addtogroup serialization
* @{
*/
/*******************************************************************************
* Includes
******************************************************************************/
#include "r_serialization.h"
#include <string.h>
#include <stdlib.h>
#include "r_debug_macro.h"
/*******************************************************************************
* Definition of external functions
******************************************************************************/
void get_block(const void **data_pp, void *target_p, uint32 length)
{
memcpy(target_p, *data_pp, length);
*(const uint8 **)data_pp += length;
}
uint8 get_uint8(void **data_pp)
{
const uint8 *d = *(const uint8 **)data_pp;
*(const uint8 **)data_pp += sizeof(uint8);
return d[0];
}
uint16 get_uint16_le(void **data_pp)
{
const uint8 *d = *(const uint8 **)data_pp;
*(const uint8 **)data_pp += sizeof(uint16);
return (d[1] << 8) | d[0];
}
uint16 get_uint16_be(void **data_pp)
{
const uint8 *d = *(const uint8 **)data_pp;
*(const uint8 **)data_pp += sizeof(uint16);
return (d[0] << 8) | d[1];
}
uint32 get_uint32_le(void **data_pp)
{
const uint8 *d = *(const uint8 **) data_pp;
*(const uint8 **)data_pp += sizeof(uint32);
return ((d[3] << 8 | d[2]) << 8 | d[1]) << 8 | d[0];
}
uint64 get_uint64_le(void **data_pp)
{
const uint8 *d = *(const uint8 **) data_pp;
*(const uint8 **)data_pp += sizeof(uint64);
return (((((((uint64)d[7] << 8 | d[6]) << 8 | d[5]) << 8 | d[4]) << 8 | d[3]) << 8 | d[2]) << 8 | d[1]) << 8 | d[0];
}
uint32 get_uint32_string_le(void **data_pp)
{
const uint8 *d = *(const uint8 **) data_pp;
//*(const uint8 **)data_pp += sizeof(uint32);
return ((d[3] << 8 | d[2]) << 8 | d[1]) << 8 | (d[0] + sizeof(uint32));
}
uint32 get_uint32_be(void **data_pp)
{
const uint8 *d = *(const uint8 **) data_pp;
*(const uint8 **)data_pp += sizeof(uint32);
return ((d[0] << 8 | d[1]) << 8 | d[2]) << 8 | d[3];
}
void put_block(void **data_pp, const void *source_p, uint32 length)
{
if (length > 0) {
memcpy(*data_pp, source_p, length);
*(const uint8 **)data_pp += length;
}
}
void put_string(void **data_pp, const void *source_p, uint32 length)
{
if (length > 0) {
memcpy(*data_pp, &length, sizeof(uint32));
*(const uint8 **)data_pp += sizeof(uint32);
memcpy(*data_pp, source_p, length);
*(const uint8 **)data_pp += length;
}
}
void put_uint8(void **data_pp, uint8 v)
{
**(uint8 **) data_pp = v;
*(uint8 **) data_pp += sizeof(uint8);
}
void put_uint16_le(void **data_pp, uint16 v)
{
uint8 *d = *(uint8 **) data_pp;
d[0] = v & 0xff;
d[1] = v >> 8;
*(uint8 **)data_pp += sizeof(uint16);
}
void put_uint16_be(void **data_pp, uint16 v)
{
uint8 *d = *(uint8 **) data_pp;
d[1] = v & 0xff;
d[0] = v >> 8;
*(uint8 **)data_pp += sizeof(uint16);
}
void put_uint32_le(void **data_pp, uint32 v)
{
uint8 *d = *(uint8 **) data_pp;
uint8 *v_p = (uint8 *)&v;
d[0] = v_p[0];
d[1] = v_p[1];
d[2] = v_p[2];
d[3] = v_p[3];
*(uint8 **)data_pp += sizeof(uint32);
}
void put_uint32_be(void **data_pp, uint32 v)
{
uint8 *d = *(uint8 **) data_pp;
uint8 *v_p = (uint8 *)&v;
d[3] = v_p[0];
d[2] = v_p[1];
d[1] = v_p[2];
d[0] = v_p[3];
*(uint8 **)data_pp += sizeof(uint32);
}
void put_uint64_le(void **data_pp, uint64 v)
{
uint8 *d = *(uint8 **) data_pp;
uint8 *v_p = (uint8 *)&v;
d[0] = v_p[0];
d[1] = v_p[1];
d[2] = v_p[2];
d[3] = v_p[3];
d[4] = v_p[4];
d[5] = v_p[5];
d[6] = v_p[6];
d[7] = v_p[7];
*(uint8 **)data_pp += sizeof(uint32);
*(uint8 **)data_pp += sizeof(uint32);
}
void put_uint64_be(void **data_pp, uint64 v)
{
uint8 *d = *(uint8 **) data_pp;
uint8 *v_p = (uint8 *)&v;
d[7] = v_p[0];
d[6] = v_p[1];
d[5] = v_p[2];
d[4] = v_p[3];
d[3] = v_p[4];
d[2] = v_p[5];
d[1] = v_p[6];
d[0] = v_p[7];
*(uint8 **)data_pp += sizeof(uint32);
*(uint8 **)data_pp += sizeof(uint32);
}
void skip_uint8(void **data_pp)
{
*(const uint8 **)data_pp += sizeof(uint8);
}
void skip_uint16(void **data_pp)
{
*(const uint8 **)data_pp += sizeof(uint16);
}
void skip_uint32(void **data_pp)
{
*(const uint8 **)data_pp += sizeof(uint32);
}
void skip_block(void **data_pp, uint32 length)
{
*(const uint8 **)data_pp += length;
}
char *skip_str(void **data_pp)
{
char *Result_p = NULL;
uint32 StrLength;
ASSERT(NULL != data_pp);
Result_p = *(char **)data_pp;
ASSERT(NULL != Result_p);
StrLength = get_uint32_le(data_pp);
*(char **)data_pp += StrLength;
return Result_p;
}
char *get_strdup(void *String_p)
{
char *Result_p;
uint32 StrLength = strlen((char *)String_p) + 1;
Result_p = (char *)malloc(StrLength);
ASSERT(Result_p != NULL);
strncpy(Result_p, (char *)String_p, StrLength);
Result_p[StrLength - 1] = 0;
return Result_p;
}
void insert_string(char **data_pp, const char *source_p, uint32 length)
{
*data_pp = NULL;
*data_pp = (char *)malloc(sizeof(uint32) + length);
ASSERT(NULL != *data_pp);
memcpy(*data_pp, &length, sizeof(uint32));
memcpy(*data_pp + sizeof(uint32), source_p, length);
}
#if defined(CFG_ENABLE_LOADER_SERIALIZATION)
uint32 get_directory_entries_len(const DirEntry_t *source_p, uint32 DirectoryEntriesCount)
{
uint32 EntriesLen = 0;
uint32 i = 0;
for (i = 0; i < DirectoryEntriesCount; i++) {
EntriesLen += get_uint32_string_le((void **)&source_p[i].Name_p);
EntriesLen += sizeof(uint32) + sizeof(uint32) + sizeof(uint64);
}
return EntriesLen;
}
void serialize_directory_entries(void **data_pp, const DirEntry_t *source_p, uint32 DirectoryEntriesCount)
{
uint32 NameLength = 0;
uint32 i = 0;
for (i = 0; i < DirectoryEntriesCount; i++) {
NameLength = get_uint32_string_le((void **)&source_p[i].Name_p);
memcpy(*data_pp, source_p[i].Name_p, NameLength);
*(const uint8 **)data_pp += NameLength;
memcpy(*data_pp, &source_p[i].Size, sizeof(uint64));
*(const uint8 **)data_pp += sizeof(uint64);
memcpy(*data_pp, &source_p[i].Mode, sizeof(uint32));
*(const uint8 **)data_pp += sizeof(uint32);
memcpy(*data_pp, &source_p[i].Time, sizeof(uint32));
*(const uint8 **)data_pp += sizeof(uint32);
}
}
uint32 get_device_entries_len(const ListDevice_t *source_p, uint32 DeviceEntriesCount)
{
uint32 EntriesLen = 0;
uint32 i = 0;
for (i = 0; i < DeviceEntriesCount; i++) {
if (NULL != source_p[i].Path_p) {
EntriesLen += get_uint32_string_le((void **)&source_p[i].Path_p);
} else {
EntriesLen += sizeof(uint32);
}
if (NULL != source_p[i].Type_p) {
EntriesLen += get_uint32_string_le((void **)&source_p[i].Type_p);
} else {
EntriesLen += sizeof(uint32);
}
EntriesLen += sizeof(uint64) + sizeof(uint64) + sizeof(uint64);
}
return EntriesLen;
}
void serialize_device_entries(void **data_pp, const ListDevice_t *source_p, uint32 DeviceEntriesCount)
{
uint32 PathLen = 0;
uint32 TypeLen = 0;
uint32 i = 0;
for (i = 0; i < DeviceEntriesCount; i++) {
if (NULL != source_p[i].Path_p) {
PathLen = get_uint32_string_le((void **)&source_p[i].Path_p);
memcpy(*data_pp, source_p[i].Path_p, PathLen);
*(const uint8 **)data_pp += PathLen;
} else {
memset(*data_pp, 0x00, sizeof(char *));
*(const uint8 **)data_pp += sizeof(char *);
}
if (NULL != source_p[i].Type_p) {
TypeLen = get_uint32_string_le((void **)&source_p[i].Type_p);
memcpy(*data_pp, source_p[i].Type_p, TypeLen);
*(const uint8 **)data_pp += TypeLen;
} else {
memset(*data_pp, 0x00, sizeof(char *));
*(const uint8 **)data_pp += sizeof(char *);
}
memcpy(*data_pp, &source_p[i].BlockSize, sizeof(uint64));
*(const uint8 **)data_pp += sizeof(uint64);
memcpy(*data_pp, &source_p[i].Start, sizeof(uint64));
*(const uint8 **)data_pp += sizeof(uint64);
memcpy(*data_pp, &source_p[i].Length, sizeof(uint64));
*(const uint8 **)data_pp += sizeof(uint64);
}
}
#endif
/* @} */
/* @} */
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