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android / platform / external / libnfc-nci / 2fde3566dcbec967d6b4d61fc1a1638923c45b11 / . / src / nfc / ndef / ndef_utils.c
blob: 974005a5cc7540cfc6b8c63379f3a7e815f0c219 [file] [log] [blame]
/******************************************************************************
*
* Copyright (C) 2010-2014 Broadcom Corporation
*
* 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.
*
******************************************************************************/
/******************************************************************************
*
* This file contains source code for some utility functions to help parse
* and build NFC Data Exchange Format (NDEF) messages
*
******************************************************************************/
#include <string.h>
#include "ndef_utils.h"
/*******************************************************************************
**
** Static Local Functions
**
*******************************************************************************/
/*******************************************************************************
**
** Function shiftdown
**
** Description shift memory down (to make space to insert a record)
**
*******************************************************************************/
static void shiftdown (UINT8 *p_mem, UINT32 len, UINT32 shift_amount)
{
register UINT8 *ps = p_mem + len - 1;
register UINT8 *pd = ps + shift_amount;
register UINT32 xx;
for (xx = 0; xx < len; xx++)
*pd-- = *ps--;
}
/*******************************************************************************
**
** Function shiftup
**
** Description shift memory up (to delete a record)
**
*******************************************************************************/
static void shiftup (UINT8 *p_dest, UINT8 *p_src, UINT32 len)
{
register UINT8 *ps = p_src;
register UINT8 *pd = p_dest;
register UINT32 xx;
for (xx = 0; xx < len; xx++)
*pd++ = *ps++;
}
/*******************************************************************************
**
** Function NDEF_MsgValidate
**
** Description This function validates an NDEF message.
**
** Returns TRUE if all OK, or FALSE if the message is invalid.
**
*******************************************************************************/
tNDEF_STATUS NDEF_MsgValidate (UINT8 *p_msg, UINT32 msg_len, BOOLEAN b_allow_chunks)
{
UINT8 *p_rec = p_msg;
UINT8 *p_end = p_msg + msg_len;
UINT8 rec_hdr=0, type_len, id_len;
int count;
UINT32 payload_len;
BOOLEAN bInChunk = FALSE;
if ( (p_msg == NULL) || (msg_len < 3) )
return (NDEF_MSG_TOO_SHORT);
/* The first record must have the MB bit set */
if ((*p_msg & NDEF_MB_MASK) == 0)
return (NDEF_MSG_NO_MSG_BEGIN);
/* The first record cannot be a chunk */
if ((*p_msg & NDEF_TNF_MASK) == NDEF_TNF_UNCHANGED)
return (NDEF_MSG_UNEXPECTED_CHUNK);
for (count = 0; p_rec < p_end; count++)
{
/* if less than short record header */
if (p_rec + 3 > p_end)
return (NDEF_MSG_TOO_SHORT);
rec_hdr = *p_rec++;
/* The second and all subsequent records must NOT have the MB bit set */
if ( (count > 0) && (rec_hdr & NDEF_MB_MASK) )
return (NDEF_MSG_EXTRA_MSG_BEGIN);
/* Type field length */
type_len = *p_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
{
/* if less than 4 bytes payload length */
if (p_rec + 4 > p_end)
return (NDEF_MSG_TOO_SHORT);
BE_STREAM_TO_UINT32 (payload_len, p_rec);
}
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
{
/* if less than 1 byte ID field length */
if (p_rec + 1 > p_end)
return (NDEF_MSG_TOO_SHORT);
id_len = *p_rec++;
}
else
id_len = 0;
/* A chunk must have type "unchanged", and no type or ID fields */
if (rec_hdr & NDEF_CF_MASK)
{
if (!b_allow_chunks)
return (NDEF_MSG_UNEXPECTED_CHUNK);
/* Inside a chunk, the type must be unchanged and no type or ID field i sallowed */
if (bInChunk)
{
if ( (type_len != 0) || (id_len != 0) || ((rec_hdr & NDEF_TNF_MASK) != NDEF_TNF_UNCHANGED) )
return (NDEF_MSG_INVALID_CHUNK);
}
else
{
/* First record of a chunk must NOT have type "unchanged" */
if ((rec_hdr & NDEF_TNF_MASK) == NDEF_TNF_UNCHANGED)
return (NDEF_MSG_INVALID_CHUNK);
bInChunk = TRUE;
}
}
else
{
/* This may be the last guy in a chunk. */
if (bInChunk)
{
if ( (type_len != 0) || (id_len != 0) || ((rec_hdr & NDEF_TNF_MASK) != NDEF_TNF_UNCHANGED) )
return (NDEF_MSG_INVALID_CHUNK);
bInChunk = FALSE;
}
else
{
/* If not in a chunk, the record must NOT have type "unchanged" */
if ((rec_hdr & NDEF_TNF_MASK) == NDEF_TNF_UNCHANGED)
return (NDEF_MSG_INVALID_CHUNK);
}
}
/* An empty record must NOT have a type, ID or payload */
if ((rec_hdr & NDEF_TNF_MASK) == NDEF_TNF_EMPTY)
{
if ( (type_len != 0) || (id_len != 0) || (payload_len != 0) )
return (NDEF_MSG_INVALID_EMPTY_REC);
}
if ((rec_hdr & NDEF_TNF_MASK) == NDEF_TNF_UNKNOWN)
{
if (type_len != 0)
return (NDEF_MSG_LENGTH_MISMATCH);
}
/* Point to next record */
p_rec += (payload_len + type_len + id_len);
if (rec_hdr & NDEF_ME_MASK)
break;
rec_hdr = 0;
}
/* The last record should have the ME bit set */
if ((rec_hdr & NDEF_ME_MASK) == 0)
return (NDEF_MSG_NO_MSG_END);
/* p_rec should equal p_end if all the length fields were correct */
if (p_rec != p_end)
return (NDEF_MSG_LENGTH_MISMATCH);
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgGetNumRecs
**
** Description This function gets the number of records in the given NDEF
** message.
**
** Returns The record count, or 0 if the message is invalid.
**
*******************************************************************************/
INT32 NDEF_MsgGetNumRecs (UINT8 *p_msg)
{
UINT8 *p_rec = p_msg;
UINT8 rec_hdr, type_len, id_len;
int count;
UINT32 payload_len;
for (count = 0; ; )
{
count++;
rec_hdr = *p_rec++;
if (rec_hdr & NDEF_ME_MASK)
break;
/* Type field length */
type_len = *p_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_rec);
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_rec++;
else
id_len = 0;
/* Point to next record */
p_rec += (payload_len + type_len + id_len);
}
/* Return the number of records found */
return (count);
}
/*******************************************************************************
**
** Function NDEF_MsgGetRecLength
**
** Description This function returns length of the current record in the given
** NDEF message.
**
** Returns Length of record
**
*******************************************************************************/
UINT32 NDEF_MsgGetRecLength (UINT8 *p_cur_rec)
{
UINT8 rec_hdr, type_len, id_len;
UINT32 rec_len = 0;
UINT32 payload_len;
/* Get the current record's header */
rec_hdr = *p_cur_rec++;
rec_len++;
/* Type field length */
type_len = *p_cur_rec++;
rec_len++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
{
payload_len = *p_cur_rec++;
rec_len++;
}
else
{
BE_STREAM_TO_UINT32 (payload_len, p_cur_rec);
rec_len += 4;
}
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
{
id_len = *p_cur_rec++;
rec_len++;
}
else
id_len = 0;
/* Total length of record */
rec_len += (payload_len + type_len + id_len);
return (rec_len);
}
/*******************************************************************************
**
** Function NDEF_MsgGetNextRec
**
** Description This function gets a pointer to the next record in the given
** NDEF message. If the current record pointer is NULL, a pointer
** to the first record is returned.
**
** Returns Pointer to the start of the record, or NULL if no more
**
*******************************************************************************/
UINT8 *NDEF_MsgGetNextRec (UINT8 *p_cur_rec)
{
UINT8 rec_hdr, type_len, id_len;
UINT32 payload_len;
/* Get the current record's header */
rec_hdr = *p_cur_rec++;
/* If this is the last record, return NULL */
if (rec_hdr & NDEF_ME_MASK)
return (NULL);
/* Type field length */
type_len = *p_cur_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_cur_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_cur_rec);
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_cur_rec++;
else
id_len = 0;
/* Point to next record */
p_cur_rec += (payload_len + type_len + id_len);
return (p_cur_rec);
}
/*******************************************************************************
**
** Function NDEF_MsgGetRecByIndex
**
** Description This function gets a pointer to the record with the given
** index (0-based index) in the given NDEF message.
**
** Returns Pointer to the start of the record, or NULL
**
*******************************************************************************/
UINT8 *NDEF_MsgGetRecByIndex (UINT8 *p_msg, INT32 index)
{
UINT8 *p_rec = p_msg;
UINT8 rec_hdr, type_len, id_len;
INT32 count;
UINT32 payload_len;
for (count = 0; ; count++)
{
if (count == index)
return (p_rec);
rec_hdr = *p_rec++;
if (rec_hdr & NDEF_ME_MASK)
return (NULL);
/* Type field length */
type_len = *p_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_rec);
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_rec++;
else
id_len = 0;
/* Point to next record */
p_rec += (payload_len + type_len + id_len);
}
/* If here, there is no record of that index */
return (NULL);
}
/*******************************************************************************
**
** Function NDEF_MsgGetLastRecInMsg
**
** Description This function gets a pointer to the last record in the
** given NDEF message.
**
** Returns Pointer to the start of the last record, or NULL if some problem
**
*******************************************************************************/
UINT8 *NDEF_MsgGetLastRecInMsg (UINT8 *p_msg)
{
UINT8 *p_rec = p_msg;
UINT8 *pRecStart;
UINT8 rec_hdr, type_len, id_len;
UINT32 payload_len;
for ( ; ; )
{
pRecStart = p_rec;
rec_hdr = *p_rec++;
if (rec_hdr & NDEF_ME_MASK)
break;
/* Type field length */
type_len = *p_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_rec);
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_rec++;
else
id_len = 0;
/* Point to next record */
p_rec += (payload_len + type_len + id_len);
}
return (pRecStart);
}
/*******************************************************************************
**
** Function NDEF_MsgGetFirstRecByType
**
** Description This function gets a pointer to the first record with the given
** record type in the given NDEF message.
**
** Returns Pointer to the start of the record, or NULL
**
*******************************************************************************/
UINT8 *NDEF_MsgGetFirstRecByType (UINT8 *p_msg, UINT8 tnf, UINT8 *p_type, UINT8 tlen)
{
UINT8 *p_rec = p_msg;
UINT8 *pRecStart;
UINT8 rec_hdr, type_len, id_len;
UINT32 payload_len;
for ( ; ; )
{
pRecStart = p_rec;
rec_hdr = *p_rec++;
/* Type field length */
type_len = *p_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_rec);
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_rec++;
else
id_len = 0;
/* At this point, p_rec points to the start of the type field. We need to */
/* compare the type of the type, the length of the type and the data */
if ( ((rec_hdr & NDEF_TNF_MASK) == tnf)
&& (type_len == tlen)
&& (!memcmp (p_rec, p_type, tlen)) )
return (pRecStart);
/* If this was the last record, return NULL */
if (rec_hdr & NDEF_ME_MASK)
return (NULL);
/* Point to next record */
p_rec += (payload_len + type_len + id_len);
}
/* If here, there is no record of that type */
return (NULL);
}
/*******************************************************************************
**
** Function NDEF_MsgGetNextRecByType
**
** Description This function gets a pointer to the next record with the given
** record type in the given NDEF message.
**
** Returns Pointer to the start of the record, or NULL
**
*******************************************************************************/
UINT8 *NDEF_MsgGetNextRecByType (UINT8 *p_cur_rec, UINT8 tnf, UINT8 *p_type, UINT8 tlen)
{
UINT8 *p_rec;
UINT8 *pRecStart;
UINT8 rec_hdr, type_len, id_len;
UINT32 payload_len;
/* If this is the last record in the message, return NULL */
if ((p_rec = NDEF_MsgGetNextRec (p_cur_rec)) == NULL)
return (NULL);
for ( ; ; )
{
pRecStart = p_rec;
rec_hdr = *p_rec++;
/* Type field length */
type_len = *p_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_rec);
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_rec++;
else
id_len = 0;
/* At this point, p_rec points to the start of the type field. We need to */
/* compare the type of the type, the length of the type and the data */
if ( ((rec_hdr & NDEF_TNF_MASK) == tnf)
&& (type_len == tlen)
&& (!memcmp (p_rec, p_type, tlen)) )
return (pRecStart);
/* If this was the last record, return NULL */
if (rec_hdr & NDEF_ME_MASK)
break;
/* Point to next record */
p_rec += (payload_len + type_len + id_len);
}
/* If here, there is no record of that type */
return (NULL);
}
/*******************************************************************************
**
** Function NDEF_MsgGetFirstRecById
**
** Description This function gets a pointer to the first record with the given
** record id in the given NDEF message.
**
** Returns Pointer to the start of the record, or NULL
**
*******************************************************************************/
UINT8 *NDEF_MsgGetFirstRecById (UINT8 *p_msg, UINT8 *p_id, UINT8 ilen)
{
UINT8 *p_rec = p_msg;
UINT8 *pRecStart;
UINT8 rec_hdr, type_len, id_len;
UINT32 payload_len;
for ( ; ; )
{
pRecStart = p_rec;
rec_hdr = *p_rec++;
/* Type field length */
type_len = *p_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_rec);
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_rec++;
else
id_len = 0;
/* At this point, p_rec points to the start of the type field. Skip it */
p_rec += type_len;
/* At this point, p_rec points to the start of the ID field. Compare length and data */
if ( (id_len == ilen) && (!memcmp (p_rec, p_id, ilen)) )
return (pRecStart);
/* If this was the last record, return NULL */
if (rec_hdr & NDEF_ME_MASK)
return (NULL);
/* Point to next record */
p_rec += (id_len + payload_len);
}
/* If here, there is no record of that ID */
return (NULL);
}
/*******************************************************************************
**
** Function NDEF_MsgGetNextRecById
**
** Description This function gets a pointer to the next record with the given
** record id in the given NDEF message.
**
** Returns Pointer to the start of the record, or NULL
**
*******************************************************************************/
UINT8 *NDEF_MsgGetNextRecById (UINT8 *p_cur_rec, UINT8 *p_id, UINT8 ilen)
{
UINT8 *p_rec;
UINT8 *pRecStart;
UINT8 rec_hdr, type_len, id_len;
UINT32 payload_len;
/* If this is the last record in the message, return NULL */
if ((p_rec = NDEF_MsgGetNextRec (p_cur_rec)) == NULL)
return (NULL);
for ( ; ; )
{
pRecStart = p_rec;
rec_hdr = *p_rec++;
/* Type field length */
type_len = *p_rec++;
/* Payload length - can be 1 or 4 bytes */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_rec);
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_rec++;
else
id_len = 0;
/* At this point, p_rec points to the start of the type field. Skip it */
p_rec += type_len;
/* At this point, p_rec points to the start of the ID field. Compare length and data */
if ( (id_len == ilen) && (!memcmp (p_rec, p_id, ilen)) )
return (pRecStart);
/* If this was the last record, return NULL */
if (rec_hdr & NDEF_ME_MASK)
break;
/* Point to next record */
p_rec += (id_len + payload_len);
}
/* If here, there is no record of that ID */
return (NULL);
}
/*******************************************************************************
**
** Function NDEF_RecGetType
**
** Description This function gets a pointer to the record type for the given NDEF record.
**
** Returns Pointer to Type (NULL if none). TNF and len are filled in.
**
*******************************************************************************/
UINT8 *NDEF_RecGetType (UINT8 *p_rec, UINT8 *p_tnf, UINT8 *p_type_len)
{
UINT8 rec_hdr, type_len;
/* First byte is the record header */
rec_hdr = *p_rec++;
/* Next byte is the type field length */
type_len = *p_rec++;
/* Skip the payload length */
if (rec_hdr & NDEF_SR_MASK)
p_rec += 1;
else
p_rec += 4;
/* Skip ID field Length, if present */
if (rec_hdr & NDEF_IL_MASK)
p_rec++;
/* At this point, p_rec points to the start of the type field. */
*p_type_len = type_len;
*p_tnf = rec_hdr & NDEF_TNF_MASK;
if (type_len == 0)
return (NULL);
else
return (p_rec);
}
/*******************************************************************************
**
** Function NDEF_RecGetId
**
** Description This function gets a pointer to the record id for the given NDEF record.
**
** Returns Pointer to Id (NULL if none). ID Len is filled in.
**
*******************************************************************************/
UINT8 *NDEF_RecGetId (UINT8 *p_rec, UINT8 *p_id_len)
{
UINT8 rec_hdr, type_len;
/* First byte is the record header */
rec_hdr = *p_rec++;
/* Next byte is the type field length */
type_len = *p_rec++;
/* Skip the payload length */
if (rec_hdr & NDEF_SR_MASK)
p_rec++;
else
p_rec += 4;
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
*p_id_len = *p_rec++;
else
*p_id_len = 0;
/* p_rec now points to the start of the type field. The ID field follows it */
if (*p_id_len == 0)
return (NULL);
else
return (p_rec + type_len);
}
/*******************************************************************************
**
** Function NDEF_RecGetPayload
**
** Description This function gets a pointer to the payload for the given NDEF record.
**
** Returns a pointer to the payload (or NULL none). Payload len filled in.
**
*******************************************************************************/
UINT8 *NDEF_RecGetPayload (UINT8 *p_rec, UINT32 *p_payload_len)
{
UINT8 rec_hdr, type_len, id_len;
UINT32 payload_len;
/* First byte is the record header */
rec_hdr = *p_rec++;
/* Next byte is the type field length */
type_len = *p_rec++;
/* Next is the payload length (1 or 4 bytes) */
if (rec_hdr & NDEF_SR_MASK)
payload_len = *p_rec++;
else
BE_STREAM_TO_UINT32 (payload_len, p_rec);
*p_payload_len = payload_len;
/* ID field Length */
if (rec_hdr & NDEF_IL_MASK)
id_len = *p_rec++;
else
id_len = 0;
/* p_rec now points to the start of the type field. The ID field follows it, then the payload */
if (payload_len == 0)
return (NULL);
else
return (p_rec + type_len + id_len);
}
/*******************************************************************************
**
** Function NDEF_MsgInit
**
** Description This function initializes an NDEF message.
**
** Returns void
** *p_cur_size is initialized to 0
**
*******************************************************************************/
void NDEF_MsgInit (UINT8 *p_msg, UINT32 max_size, UINT32 *p_cur_size)
{
*p_cur_size = 0;
memset (p_msg, 0, max_size);
}
/*******************************************************************************
**
** Function NDEF_MsgAddRec
**
** Description This function adds an NDEF record to the end of an NDEF message.
**
** Returns OK, or error if the record did not fit
** *p_cur_size is updated
**
*******************************************************************************/
extern tNDEF_STATUS NDEF_MsgAddRec (UINT8 *p_msg, UINT32 max_size, UINT32 *p_cur_size,
UINT8 tnf, UINT8 *p_type, UINT8 type_len,
UINT8 *p_id, UINT8 id_len,
UINT8 *p_payload, UINT32 payload_len)
{
UINT8 *p_rec = p_msg + *p_cur_size;
UINT32 recSize;
int plen = (payload_len < 256) ? 1 : 4;
int ilen = (id_len == 0) ? 0 : 1;
if (tnf > NDEF_TNF_RESERVED)
{
tnf = NDEF_TNF_UNKNOWN;
type_len = 0;
}
/* First, make sure the record will fit. we need at least 2 bytes for header and type length */
recSize = payload_len + 2 + type_len + plen + ilen + id_len;
if ((*p_cur_size + recSize) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
/* Construct the record header. For the first record, set both begin and end bits */
if (*p_cur_size == 0)
*p_rec = tnf | NDEF_MB_MASK | NDEF_ME_MASK;
else
{
/* Find the previous last and clear his 'Message End' bit */
UINT8 *pLast = NDEF_MsgGetLastRecInMsg (p_msg);
if (!pLast)
return (NDEF_MSG_NO_MSG_END);
*pLast &= ~NDEF_ME_MASK;
*p_rec = tnf | NDEF_ME_MASK;
}
if (plen == 1)
*p_rec |= NDEF_SR_MASK;
if (ilen != 0)
*p_rec |= NDEF_IL_MASK;
p_rec++;
/* The next byte is the type field length */
*p_rec++ = type_len;
/* Payload length - can be 1 or 4 bytes */
if (plen == 1)
*p_rec++ = (UINT8)payload_len;
else
UINT32_TO_BE_STREAM (p_rec, payload_len);
/* ID field Length (optional) */
if (ilen > 0)
*p_rec++ = id_len;
/* Next comes the type */
if (type_len)
{
if (p_type)
memcpy (p_rec, p_type, type_len);
p_rec += type_len;
}
/* Next comes the ID */
if (id_len)
{
if (p_id)
memcpy (p_rec, p_id, id_len);
p_rec += id_len;
}
/* And lastly the payload. If NULL, the app just wants to reserve memory */
if (p_payload)
memcpy (p_rec, p_payload, payload_len);
*p_cur_size += recSize;
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgInsertRec
**
** Description This function inserts a record at a specific index into the
** given NDEF message
**
** Returns OK, or error if the record did not fit
** *p_cur_size is updated
**
*******************************************************************************/
extern tNDEF_STATUS NDEF_MsgInsertRec (UINT8 *p_msg, UINT32 max_size, UINT32 *p_cur_size, INT32 index,
UINT8 tnf, UINT8 *p_type, UINT8 type_len,
UINT8 *p_id, UINT8 id_len,
UINT8 *p_payload, UINT32 payload_len)
{
UINT8 *p_rec;
UINT32 recSize;
INT32 plen = (payload_len < 256) ? 1 : 4;
INT32 ilen = (id_len == 0) ? 0 : 1;
/* First, make sure the record will fit. we need at least 2 bytes for header and type length */
recSize = payload_len + 2 + type_len + plen + ilen + id_len;
if ((*p_cur_size + recSize) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
/* See where the new record goes. If at the end, call the 'AddRec' function */
if ( (index >= NDEF_MsgGetNumRecs (p_msg))
|| ((p_rec = NDEF_MsgGetRecByIndex(p_msg, index)) == NULL) )
{
return NDEF_MsgAddRec (p_msg, max_size, p_cur_size, tnf, p_type, type_len,
p_id, id_len, p_payload, payload_len);
}
/* If we are inserting at the beginning, remove the MB bit from the current first */
if (index == 0)
*p_msg &= ~NDEF_MB_MASK;
/* Make space for the new record */
shiftdown (p_rec, (UINT32)(*p_cur_size - (p_rec - p_msg)), recSize);
/* If adding at the beginning, set begin bit */
if (index == 0)
*p_rec = tnf | NDEF_MB_MASK;
else
*p_rec = tnf;
if (plen == 1)
*p_rec |= NDEF_SR_MASK;
if (ilen != 0)
*p_rec |= NDEF_IL_MASK;
p_rec++;
/* The next byte is the type field length */
*p_rec++ = type_len;
/* Payload length - can be 1 or 4 bytes */
if (plen == 1)
*p_rec++ = (UINT8)payload_len;
else
UINT32_TO_BE_STREAM (p_rec, payload_len);
/* ID field Length (optional) */
if (ilen != 0)
*p_rec++ = id_len;
/* Next comes the type */
if (type_len)
{
if (p_type)
memcpy (p_rec, p_type, type_len);
p_rec += type_len;
}
/* Next comes the ID */
if (ilen != 0)
{
if (p_id)
memcpy (p_rec, p_id, id_len);
p_rec += id_len;
}
/* And lastly the payload. If NULL, the app just wants to reserve memory */
if (p_payload)
memcpy (p_rec, p_payload, payload_len);
*p_cur_size += recSize;
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgAppendRec
**
** Description This function adds NDEF records to the end of an NDEF message.
**
** Returns OK, or error if the record did not fit
** *p_cur_size is updated
**
*******************************************************************************/
extern tNDEF_STATUS NDEF_MsgAppendRec (UINT8 *p_msg, UINT32 max_size, UINT32 *p_cur_size,
UINT8 *p_new_rec, UINT32 new_rec_len)
{
UINT8 *p_rec;
tNDEF_STATUS status;
/* First, validate new records */
if ((status = NDEF_MsgValidate(p_new_rec, new_rec_len, FALSE)) != NDEF_OK)
return (status);
/* First, make sure the record will fit */
if ((*p_cur_size + new_rec_len) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
/* Find where to copy new record */
if (*p_cur_size == 0)
p_rec = p_msg;
else
{
/* Find the previous last and clear his 'Message End' bit */
UINT8 *pLast = NDEF_MsgGetLastRecInMsg (p_msg);
if (!pLast)
return (NDEF_MSG_NO_MSG_END);
*pLast &= ~NDEF_ME_MASK;
p_rec = p_msg + *p_cur_size;
/* clear 'Message Begin' bit of new record */
*p_new_rec &= ~NDEF_MB_MASK;
}
/* append new records */
memcpy (p_rec, p_new_rec, new_rec_len);
*p_cur_size += new_rec_len;
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgAppendPayload
**
** Description This function appends extra payload to a specific record in the
** given NDEF message
**
** Returns OK, or error if the extra payload did not fit
** *p_cur_size is updated
**
*******************************************************************************/
tNDEF_STATUS NDEF_MsgAppendPayload (UINT8 *p_msg, UINT32 max_size, UINT32 *p_cur_size,
UINT8 *p_rec, UINT8 *p_add_pl, UINT32 add_pl_len)
{
UINT32 prev_paylen, new_paylen;
UINT8 *p_prev_pl, *pp;
UINT8 incr_lenfld = 0;
UINT8 type_len, id_len;
/* Skip header */
pp = p_rec + 1;
/* Next byte is the type field length */
type_len = *pp++;
/* Next is the payload length (1 or 4 bytes) */
if (*p_rec & NDEF_SR_MASK)
prev_paylen = *pp++;
else
BE_STREAM_TO_UINT32 (prev_paylen, pp);
/* ID field Length */
if (*p_rec & NDEF_IL_MASK)
id_len = *pp++;
else
id_len = 0;
p_prev_pl = pp + type_len + id_len;
new_paylen = prev_paylen + add_pl_len;
/* Previous payload may be < 256, and this addition may make it larger than 256 */
/* If that were to happen, the payload length field goes from 1 byte to 4 bytes */
if ( (prev_paylen < 256) && (new_paylen > 255) )
incr_lenfld = 3;
/* Check that it all fits */
if ((*p_cur_size + add_pl_len + incr_lenfld) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
/* Point to payload length field */
pp = p_rec + 2;
/* If we need to increase the length field from 1 to 4 bytes, do it first */
if (incr_lenfld)
{
shiftdown (pp + 1, (UINT32)(*p_cur_size - (pp - p_msg) - 1), 3);
p_prev_pl += 3;
}
/* Store in the new length */
if (new_paylen > 255)
{
*p_rec &= ~NDEF_SR_MASK;
UINT32_TO_BE_STREAM (pp, new_paylen);
}
else
*pp = (UINT8)new_paylen;
/* Point to the end of the previous payload */
pp = p_prev_pl + prev_paylen;
/* If we are not the last record, make space for the extra payload */
if ((*p_rec & NDEF_ME_MASK) == 0)
shiftdown (pp, (UINT32)(*p_cur_size - (pp - p_msg)), add_pl_len);
/* Now copy in the additional payload data */
memcpy (pp, p_add_pl, add_pl_len);
*p_cur_size += add_pl_len + incr_lenfld;
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgReplacePayload
**
** Description This function replaces the payload of a specific record in the
** given NDEF message
**
** Returns OK, or error if the new payload did not fit
** *p_cur_size is updated
**
*******************************************************************************/
tNDEF_STATUS NDEF_MsgReplacePayload (UINT8 *p_msg, UINT32 max_size, UINT32 *p_cur_size,
UINT8 *p_rec, UINT8 *p_new_pl, UINT32 new_pl_len)
{
UINT32 prev_paylen;
UINT8 *p_prev_pl, *pp;
UINT32 paylen_delta;
UINT8 type_len, id_len;
/* Skip header */
pp = p_rec + 1;
/* Next byte is the type field length */
type_len = *pp++;
/* Next is the payload length (1 or 4 bytes) */
if (*p_rec & NDEF_SR_MASK)
prev_paylen = *pp++;
else
BE_STREAM_TO_UINT32 (prev_paylen, pp);
/* ID field Length */
if (*p_rec & NDEF_IL_MASK)
id_len = *pp++;
else
id_len = 0;
p_prev_pl = pp + type_len + id_len;
/* Point to payload length field again */
pp = p_rec + 2;
if (new_pl_len > prev_paylen)
{
/* New payload is larger than the previous */
paylen_delta = new_pl_len - prev_paylen;
/* If the previous payload length was < 256, and new is > 255 */
/* the payload length field goes from 1 byte to 4 bytes */
if ( (prev_paylen < 256) && (new_pl_len > 255) )
{
if ((*p_cur_size + paylen_delta + 3) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
shiftdown (pp + 1, (UINT32)(*p_cur_size - (pp - p_msg) - 1), 3);
p_prev_pl += 3;
*p_cur_size += 3;
*p_rec &= ~NDEF_SR_MASK;
}
else if ((*p_cur_size + paylen_delta) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
/* Store in the new length */
if (new_pl_len > 255)
{
UINT32_TO_BE_STREAM (pp, new_pl_len);
}
else
*pp = (UINT8)new_pl_len;
/* Point to the end of the previous payload */
pp = p_prev_pl + prev_paylen;
/* If we are not the last record, make space for the extra payload */
if ((*p_rec & NDEF_ME_MASK) == 0)
shiftdown (pp, (UINT32)(*p_cur_size - (pp - p_msg)), paylen_delta);
*p_cur_size += paylen_delta;
}
else if (new_pl_len < prev_paylen)
{
/* New payload is smaller than the previous */
paylen_delta = prev_paylen - new_pl_len;
/* If the previous payload was > 256, and new is less than 256 */
/* the payload length field goes from 4 bytes to 1 byte */
if ( (prev_paylen > 255) && (new_pl_len < 256) )
{
shiftup (pp + 1, pp + 4, (UINT32)(*p_cur_size - (pp - p_msg) - 3));
p_prev_pl -= 3;
*p_cur_size -= 3;
*p_rec |= NDEF_SR_MASK;
}
/* Store in the new length */
if (new_pl_len > 255)
{
UINT32_TO_BE_STREAM (pp, new_pl_len);
}
else
*pp = (UINT8)new_pl_len;
/* Point to the end of the previous payload */
pp = p_prev_pl + prev_paylen;
/* If we are not the last record, remove the extra space from the previous payload */
if ((*p_rec & NDEF_ME_MASK) == 0)
shiftup (pp - paylen_delta, pp, (UINT32)(*p_cur_size - (pp - p_msg)));
*p_cur_size -= paylen_delta;
}
/* Now copy in the new payload data */
if (p_new_pl)
memcpy (p_prev_pl, p_new_pl, new_pl_len);
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgReplaceType
**
** Description This function replaces the type field of a specific record in the
** given NDEF message
**
** Returns OK, or error if the new type field did not fit
** *p_cur_size is updated
**
*******************************************************************************/
tNDEF_STATUS NDEF_MsgReplaceType (UINT8 *p_msg, UINT32 max_size, UINT32 *p_cur_size,
UINT8 *p_rec, UINT8 *p_new_type, UINT8 new_type_len)
{
UINT8 typelen_delta;
UINT8 *p_prev_type, prev_type_len;
UINT8 *pp;
/* Skip header */
pp = p_rec + 1;
/* Next byte is the type field length */
prev_type_len = *pp++;
/* Skip the payload length */
if (*p_rec & NDEF_SR_MASK)
pp += 1;
else
pp += 4;
if (*p_rec & NDEF_IL_MASK)
pp++;
/* Save pointer to the start of the type field */
p_prev_type = pp;
if (new_type_len > prev_type_len)
{
/* New type is larger than the previous */
typelen_delta = new_type_len - prev_type_len;
if ((*p_cur_size + typelen_delta) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
/* Point to the end of the previous type, and make space for the extra data */
pp = p_prev_type + prev_type_len;
shiftdown (pp, (UINT32)(*p_cur_size - (pp - p_msg)), typelen_delta);
*p_cur_size += typelen_delta;
}
else if (new_type_len < prev_type_len)
{
/* New type field is smaller than the previous */
typelen_delta = prev_type_len - new_type_len;
/* Point to the end of the previous type, and shift up to fill the the unused space */
pp = p_prev_type + prev_type_len;
shiftup (pp - typelen_delta, pp, (UINT32)(*p_cur_size - (pp - p_msg)));
*p_cur_size -= typelen_delta;
}
/* Save in new type length */
p_rec[1] = new_type_len;
/* Now copy in the new type field data */
if (p_new_type)
memcpy (p_prev_type, p_new_type, new_type_len);
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgReplaceId
**
** Description This function replaces the ID field of a specific record in the
** given NDEF message
**
** Returns OK, or error if the new ID field did not fit
** *p_cur_size is updated
**
*******************************************************************************/
tNDEF_STATUS NDEF_MsgReplaceId (UINT8 *p_msg, UINT32 max_size, UINT32 *p_cur_size,
UINT8 *p_rec, UINT8 *p_new_id, UINT8 new_id_len)
{
UINT8 idlen_delta;
UINT8 *p_prev_id, *p_idlen_field;
UINT8 prev_id_len, type_len;
UINT8 *pp;
/* Skip header */
pp = p_rec + 1;
/* Next byte is the type field length */
type_len = *pp++;
/* Skip the payload length */
if (*p_rec & NDEF_SR_MASK)
pp += 1;
else
pp += 4;
p_idlen_field = pp;
if (*p_rec & NDEF_IL_MASK)
prev_id_len = *pp++;
else
prev_id_len = 0;
/* Save pointer to the start of the ID field (right after the type field) */
p_prev_id = pp + type_len;
if (new_id_len > prev_id_len)
{
/* New ID field is larger than the previous */
idlen_delta = new_id_len - prev_id_len;
/* If the previous ID length was 0, we need to add a 1-byte ID length */
if (prev_id_len == 0)
{
if ((*p_cur_size + idlen_delta + 1) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
shiftdown (p_idlen_field, (UINT32)(*p_cur_size - (p_idlen_field - p_msg)), 1);
p_prev_id += 1;
*p_cur_size += 1;
*p_rec |= NDEF_IL_MASK;
}
else if ((*p_cur_size + idlen_delta) > max_size)
return (NDEF_MSG_INSUFFICIENT_MEM);
/* Point to the end of the previous ID field, and make space for the extra data */
pp = p_prev_id + prev_id_len;
shiftdown (pp, (UINT32)(*p_cur_size - (pp - p_msg)), idlen_delta);
*p_cur_size += idlen_delta;
}
else if (new_id_len < prev_id_len)
{
/* New ID field is smaller than the previous */
idlen_delta = prev_id_len - new_id_len;
/* Point to the end of the previous ID, and shift up to fill the the unused space */
pp = p_prev_id + prev_id_len;
shiftup (pp - idlen_delta, pp, (UINT32)(*p_cur_size - (pp - p_msg)));
*p_cur_size -= idlen_delta;
/* If removing the ID, make sure that length field is also removed */
if (new_id_len == 0)
{
shiftup (p_idlen_field, p_idlen_field + 1, (UINT32)(*p_cur_size - (p_idlen_field - p_msg - (UINT32)1)));
*p_rec &= ~NDEF_IL_MASK;
*p_cur_size -= 1;
}
}
/* Save in new ID length and data */
if (new_id_len)
{
*p_idlen_field = new_id_len;
if (p_new_id)
memcpy (p_prev_id, p_new_id, new_id_len);
}
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgRemoveRec
**
** Description This function removes the record at the given
** index in the given NDEF message.
**
** Returns TRUE if OK, FALSE if the index was invalid
** *p_cur_size is updated
**
*******************************************************************************/
tNDEF_STATUS NDEF_MsgRemoveRec (UINT8 *p_msg, UINT32 *p_cur_size, INT32 index)
{
UINT8 *p_rec = NDEF_MsgGetRecByIndex (p_msg, index);
UINT8 *pNext, *pPrev;
if (!p_rec)
return (NDEF_REC_NOT_FOUND);
/* If this is the first record in the message... */
if (*p_rec & NDEF_MB_MASK)
{
/* Find the second record (if any) and set his 'Message Begin' bit */
if ((pNext = NDEF_MsgGetRecByIndex(p_msg, 1)) != NULL)
{
*pNext |= NDEF_MB_MASK;
*p_cur_size -= (UINT32)(pNext - p_msg);
shiftup (p_msg, pNext, *p_cur_size);
}
else
*p_cur_size = 0; /* No more records, lenght must be zero */
return (NDEF_OK);
}
/* If this is the last record in the message... */
if (*p_rec & NDEF_ME_MASK)
{
if (index > 0)
{
/* Find the previous record and set his 'Message End' bit */
if ((pPrev = NDEF_MsgGetRecByIndex(p_msg, index - 1)) == NULL)
return (FALSE);
*pPrev |= NDEF_ME_MASK;
}
*p_cur_size = (UINT32)(p_rec - p_msg);
return (NDEF_OK);
}
/* Not the first or the last... get the address of the next record */
if ((pNext = NDEF_MsgGetNextRec (p_rec)) == NULL)
return (FALSE);
/* We are removing p_rec, so shift from pNext to the end */
shiftup (p_rec, pNext, (UINT32)(*p_cur_size - (pNext - p_msg)));
*p_cur_size -= (UINT32)(pNext - p_rec);
return (NDEF_OK);
}
/*******************************************************************************
**
** Function NDEF_MsgCopyAndDechunk
**
** Description This function copies and de-chunks an NDEF message.
** It is assumed that the destination is at least as large
** as the source, since the source may not actually contain
** any chunks.
**
** Returns The output byte count
**
*******************************************************************************/
tNDEF_STATUS NDEF_MsgCopyAndDechunk (UINT8 *p_src, UINT32 src_len, UINT8 *p_dest, UINT32 *p_out_len)
{
UINT32 out_len, max_out_len;
UINT8 *p_rec;
UINT8 *p_prev_rec = p_dest;
UINT8 *p_type, *p_id, *p_pay;
UINT8 type_len, id_len, tnf;
UINT32 pay_len;
tNDEF_STATUS status;
/* First, validate the source */
if ((status = NDEF_MsgValidate(p_src, src_len, TRUE)) != NDEF_OK)
return (status);
/* The output buffer must be at least as large as the input buffer */
max_out_len = src_len;
/* Initialize output */
NDEF_MsgInit (p_dest, max_out_len, &out_len);
p_rec = p_src;
/* Now, copy record by record */
while ((p_rec != NULL) && (status == NDEF_OK))
{
p_type = NDEF_RecGetType (p_rec, &tnf, &type_len);
p_id = NDEF_RecGetId (p_rec, &id_len);
p_pay = NDEF_RecGetPayload (p_rec, &pay_len);
/* If this is the continuation of a chunk, append the payload to the previous */
if (tnf == NDEF_TNF_UNCHANGED)
{
if (p_pay)
{
status = NDEF_MsgAppendPayload (p_dest, max_out_len, &out_len, p_prev_rec, p_pay, pay_len);
}
}
else
{
p_prev_rec = p_dest + out_len;
status = NDEF_MsgAddRec (p_dest, max_out_len, &out_len, tnf, p_type, type_len,
p_id, id_len, p_pay, pay_len);
}
p_rec = NDEF_MsgGetNextRec (p_rec);
}
*p_out_len = out_len;
return (status);
}