Diego Ostuni
Fork for the GitHub
Diff: lib_NDEF.cpp
- Revision:
- 0:de13951f30f6
diff -r 000000000000 -r de13951f30f6 lib_NDEF.cpp
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/lib_NDEF.cpp Thu Nov 14 10:34:11 2019 +0000
@@ -0,0 +1,749 @@
+/**
+ ******************************************************************************
+ * @file lib_NDEF.c
+ * @author MMY Application Team
+ * @version $Revision: 3210 $
+ * @date $Date: 2016-12-05 15:37:48 +0100 (Mon, 05 Dec 2016) $
+ * @brief This file help to manage NDEF file, to parse and identify them.
+ ******************************************************************************
+ * @attention
+ *
+ * <h2><center>© COPYRIGHT 2015 STMicroelectronics</center></h2>
+ *
+ * Licensed under ST MYLIBERTY SOFTWARE LICENSE AGREEMENT (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.st.com/myliberty
+ *
+ * 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,
+ * AND SPECIFICALLY DISCLAIMING THE IMPLIED WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *
+ ******************************************************************************
+ */
+
+/* Includes ------------------------------------------------------------------*/
+#include "lib_NDEF.h"
+#include "lib_NDEF_Bluetooth.h"
+#include "lib_NDEF_Handover.h"
+#include "lib_NDEF_Wifi.h"
+#include "mbed.h"
+
+/** @addtogroup NFC_libraries
+ * @{
+ * @brief <b>This is the library used to manage the content of the TAG (data)
+ * But also the specific feature of the tag, for instance
+ * password, gpo... </b>
+ */
+
+
+/** @addtogroup libNFC_FORUM
+ * @{
+ * @brief This part of the library manage data which follow NFC forum organisation.
+ */
+
+/** @defgroup libNDEF_Private_Functions
+ * @{
+ */
+
+
+static uint16_t NDEF_IsNDEFPresent( I2C* mi2cChannel );
+static uint16_t NDEF_ParseRecordHeader( sRecordInfo_t *pRecordStruct );
+static void NDEF_ParseWellKnownType( sRecordInfo_t *pRecordStruct );
+static void NDEF_ParseMediaType( sRecordInfo_t *pRecordStruct );
+static void NDEF_ParseForumExternalType( sRecordInfo_t *pRecordStruct );
+static void NDEF_ParseURI( sRecordInfo_t *pRecordStruct );
+static void NDEF_ParseSP( sRecordInfo_t *pRecordStruct );
+static uint16_t NDEF_IdentifySPRecord( sRecordInfo_t *pRecordStruct, uint8_t* pPayload );
+
+/** @brief This buffer is used to store the data sent/received by the TAG. */
+uint8_t NDEF_Buffer [NDEF_MAX_SIZE];
+/** @brief Size of the buffer used to build the NDEF messages. */
+uint32_t NDEF_Buffer_size = NDEF_MAX_SIZE;
+/** @brief This buffer is used when it's required to prepare a record before adding it to the NDEF_Buffer. */
+uint8_t NDEF_Record_Buffer [NDEF_RECORD_MAX_SIZE];
+/** @brief Size of the buffer used when a record has to be prepared. */
+uint32_t NDEF_Record_Buffer_size = NDEF_RECORD_MAX_SIZE;
+
+/* In case of smart Poster composed with different record, 3 records supported so far */
+sRecordInfo_t SPRecordStruct1, SPRecordStruct2, SPRecordStruct3, SPRecordStruct4;
+sRecordInfo_t *SPRecordStructAdd[SP_MAX_RECORD] = { &SPRecordStruct1, &SPRecordStruct2, &SPRecordStruct3, &SPRecordStruct4 };
+
+/**
+ * @brief This function checks that the tag contain a NDEF message.
+ * @retval NDEF_OK : There is a NDEF file stored in tag.
+ * @retval NDEF_ERROR : No NDEF in the tag.
+ */
+static uint16_t NDEF_IsNDEFPresent( I2C* mi2cChannel )
+{
+ uint16_t FileSize;
+
+ /* Check NDEF existence */
+ NfcTag_GetLength(&FileSize, mi2cChannel);
+
+ if( FileSize != 0 )
+ return NDEF_OK;
+ else
+ return NDEF_ERROR;
+}
+
+/**
+ * @brief This function identify the type of record.
+ * @param pRecordStruct : pointer on the record structure to fill.
+ * @param pPayload : pointer on the payload.
+ * @retval Status : Status of the operation.
+ */
+static uint16_t NDEF_IdentifySPRecord( sRecordInfo_t *pRecordStruct, uint8_t* pPayload )
+{
+ uint16_t status = NDEF_ERROR;
+ uint16_t SizeOfRecordHeader, TypeNbByte, PayloadLengthField, IDLengthField, IDNbByte;
+
+ /* Is ID length field present */
+ if( (*pPayload) & IL_Mask )
+ {
+ IDLengthField = ID_LENGTH_FIELD;
+ }
+ else
+ {
+ IDLengthField = 0;
+ }
+
+ /* it's a SR */
+ if( (*pPayload) & SR_Mask )
+ {
+ TypeNbByte = pPayload[1];
+ PayloadLengthField = 1;
+ if( IDLengthField == ID_LENGTH_FIELD )
+ IDNbByte = pPayload[3];
+ else
+ IDNbByte = 0;
+ }
+ else
+ {
+ TypeNbByte = pPayload[1];
+ PayloadLengthField = 4;
+ if( IDLengthField == ID_LENGTH_FIELD )
+ IDNbByte = pPayload[6];
+ else
+ IDNbByte = 0;
+ }
+
+ SizeOfRecordHeader = RECORD_FLAG_FIELD + TYPE_LENGTH_FIELD + PayloadLengthField + IDLengthField + TypeNbByte + IDNbByte;
+
+ /* it's a SR */
+ if( pPayload[0] & SR_Mask )
+ {
+ pRecordStruct->RecordFlags = pPayload[0];
+ pRecordStruct->TypeLength = TypeNbByte;
+ pRecordStruct->PayloadLength = pPayload[2];
+ pRecordStruct->IDLength = IDNbByte;
+ memcpy( pRecordStruct->Type, &pPayload[3+IDNbByte], TypeNbByte );
+ memcpy( pRecordStruct->ID, &pPayload[3+IDNbByte+TypeNbByte], IDNbByte );
+ pRecordStruct->PayloadOffset = SizeOfRecordHeader;
+ }
+ else
+ {
+ pRecordStruct->RecordFlags = pPayload[0];
+ pRecordStruct->TypeLength = TypeNbByte;
+ pRecordStruct->PayloadLength = ( ((uint32_t)pPayload[2]) << 24 ) |
+ ( ((uint32_t)pPayload[3]) << 16 ) |
+ ( ((uint32_t)pPayload[4]) << 8 )
+ | pPayload[5] ;
+ pRecordStruct->IDLength = IDNbByte;
+ memcpy( pRecordStruct->Type, &pPayload[6+IDNbByte], TypeNbByte );
+ memcpy( pRecordStruct->ID, &pPayload[6+IDNbByte+TypeNbByte], IDNbByte );
+ pRecordStruct->PayloadOffset = SizeOfRecordHeader;
+ }
+
+ pRecordStruct->PayloadBufferAdd = pPayload + SizeOfRecordHeader ;
+
+ status = NDEF_ParseRecordHeader( pRecordStruct );
+
+ return status;
+}
+
+/**
+ * @brief This function parse the record header and dispatch regarding TNF value.
+ * @param pRecordStruct : pointer on the record structure to fill.
+ * @retval NDEF_OK : record identified and structure filled.
+ * @retval NDEF_ERROR : Not supported.
+ */
+static uint16_t NDEF_ParseRecordHeader( sRecordInfo_t *pRecordStruct )
+{
+ uint16_t status = NDEF_OK;
+
+ switch( (pRecordStruct->RecordFlags & TNF_Mask) )
+ {
+ case TNF_WellKnown:
+ NDEF_ParseWellKnownType( pRecordStruct );
+ break;
+
+ case TNF_MediaType:
+ NDEF_ParseMediaType( pRecordStruct );
+ break;
+
+ case TNF_NFCForumExternal:
+ NDEF_ParseForumExternalType( pRecordStruct);
+ break;
+
+ default:
+ /* currently not supported or unknown*/
+ pRecordStruct->NDEF_Type = UNKNOWN_TYPE;
+ status = NDEF_ERROR;
+ }
+ return status;
+}
+
+/**
+ * @brief This function parse the Well Known type record.
+ * @param pRecordStruct : pointer on the record structure to fill.
+ */
+static void NDEF_ParseWellKnownType( sRecordInfo_t *pRecordStruct )
+{
+ uint8_t* pPayload;
+
+ pPayload = (uint8_t*)( pRecordStruct->PayloadBufferAdd );
+
+ if( !memcmp( &(pRecordStruct->Type), SMART_POSTER_TYPE_STRING, pRecordStruct->TypeLength ) )
+ {
+ /* special case where we have to parse others records */
+ pRecordStruct->NDEF_Type = SMARTPOSTER_TYPE;
+ NDEF_ParseSP( pRecordStruct );
+ }
+
+ else if( !memcmp( &(pRecordStruct->Type), URI_TYPE_STRING, pRecordStruct->TypeLength ) )
+ {
+ /* it's an URI Type check if it's an URL or SMS or ... */
+ /* check identifier */
+ if( *pPayload == URI_ID_0x00 )
+ {
+ NDEF_ParseURI( pRecordStruct );
+ }
+ else if( (*pPayload > URI_ID_0x00) && (*pPayload < URI_RFU) )
+ {
+ /* email special case */
+ if( *pPayload == (uint8_t) URI_ID_0x06 )
+ {
+ pRecordStruct->NDEF_Type = URI_EMAIL_TYPE;
+ }
+ else
+ {
+ pRecordStruct->NDEF_Type = WELL_KNOWN_ABRIDGED_URI_TYPE;
+ }
+ }
+ else
+ {
+ pRecordStruct->NDEF_Type = UNKNOWN_TYPE;
+ }
+ }
+
+ else if( !memcmp( &(pRecordStruct->Type), TEXT_TYPE_STRING, pRecordStruct->TypeLength ) )
+ {
+ pRecordStruct->NDEF_Type = TEXT_TYPE;
+ } else if ((!memcmp( &(pRecordStruct->Type), NDEF_HANDOVER_SELECT_TYPE_STR, pRecordStruct->TypeLength )) ||
+ (!memcmp( &(pRecordStruct->Type), NDEF_HANDOVER_REQUEST_TYPE_STR, pRecordStruct->TypeLength ) ))
+ {
+ pRecordStruct->NDEF_Type = HANDOVER_TYPE;
+ }
+ else
+ pRecordStruct->NDEF_Type = UNKNOWN_TYPE;
+}
+
+/**
+ * @brief This function parse the Media type record.
+ * @param pRecordStruct : pointer on the record structure to fill.
+ */
+static void NDEF_ParseMediaType( sRecordInfo_t *pRecordStruct )
+{
+ if( !memcmp( &(pRecordStruct->Type), VCARD_TYPE_STRING, pRecordStruct->TypeLength ) )
+ pRecordStruct->NDEF_Type = VCARD_TYPE;
+ else if( !memcmp( &(pRecordStruct->Type), XVCARD_TYPE_STRING, pRecordStruct->TypeLength ) )
+ pRecordStruct->NDEF_Type = VCARD_TYPE;
+ else if( !memcmp( &(pRecordStruct->Type), XVCARD2_TYPE_STRING, pRecordStruct->TypeLength ) )
+ pRecordStruct->NDEF_Type = VCARD_TYPE;
+ else if (!memcmp(&pRecordStruct->Type, NDEF_BLUETOOTH_BREDR_MIME_TYPE, pRecordStruct->TypeLength))
+ pRecordStruct->NDEF_Type = BT_TYPE;
+ else if (!memcmp(&pRecordStruct->Type, NDEF_BLUETOOTH_BLE_MIME_TYPE, pRecordStruct->TypeLength))
+ pRecordStruct->NDEF_Type = BLE_TYPE;
+ else if (!memcmp(&pRecordStruct->Type, WIFITOKEN_TYPE_STRING, pRecordStruct->TypeLength))
+ pRecordStruct->NDEF_Type = URI_WIFITOKEN_TYPE;
+ else
+ pRecordStruct->NDEF_Type = UNKNOWN_TYPE;
+}
+
+/**
+ * @brief This function parse the Forum External type record.
+ * @param pRecordStruct : pointer on the record structure to fill.
+ */
+static void NDEF_ParseForumExternalType( sRecordInfo_t *pRecordStruct )
+{
+ if( !memcmp( &(pRecordStruct->Type), M24SR_DISCOVERY_APP_STRING, pRecordStruct->TypeLength ) )
+ pRecordStruct->NDEF_Type = M24SR_DISCOVERY_APP_TYPE;
+ else
+ pRecordStruct->NDEF_Type = UNKNOWN_TYPE;
+}
+
+/**
+ * @brief This function parse the URI type record.
+ * @param pRecordStruct : pointer on the record structure to fill.
+ */
+static void NDEF_ParseURI( sRecordInfo_t *pRecordStruct )
+{
+ uint8_t* pPayload;
+
+ pPayload = (uint8_t*)( pRecordStruct->PayloadBufferAdd );
+ pPayload++; /* to skip URI identifier first URI payload byte */
+
+ if( !memcmp( pPayload, SMS_TYPE_STRING, strlen(SMS_TYPE_STRING) ) )
+ {
+ pRecordStruct->NDEF_Type = URI_SMS_TYPE;
+ }
+ else if( !memcmp( pPayload, GEO_TYPE_STRING, strlen(GEO_TYPE_STRING) ) )
+ {
+ pRecordStruct->NDEF_Type = URI_GEO_TYPE;
+ }
+ else
+ pRecordStruct->NDEF_Type = UNKNOWN_TYPE;
+}
+
+/**
+ * @brief This function parse the Smart Poster.
+ * @param pRecordStruct : pointer on the record structure to fill.
+ */
+static void NDEF_ParseSP( sRecordInfo_t *pRecordStruct )
+{
+ uint8_t* pPayload;
+ uint32_t PayloadSize = 0;
+ uint32_t SPPayloadSize = 0;
+ uint32_t OffsetInSPPayload = 0;
+ uint32_t RecordPosition = 0;
+ sRecordInfo_t *pSPRecordStruct;
+
+ /* initialize variable with size of the payload and poiter on data */
+ PayloadSize = pRecordStruct->PayloadLength;
+
+ pPayload = (uint8_t*)( pRecordStruct->PayloadBufferAdd );
+
+ pSPRecordStruct = SPRecordStructAdd[0];
+
+ /* Initailize the number of record find in the SP payload */
+ pRecordStruct->NbOfRecordInSPPayload = 0;
+
+ do
+ {
+ pSPRecordStruct = SPRecordStructAdd[RecordPosition];
+ /* identify the record in the SP payload */
+ if( NDEF_IdentifySPRecord( pSPRecordStruct, pPayload ) == NDEF_OK )
+ {
+ /* store add of structure that will contain the other record information */
+ pRecordStruct->NbOfRecordInSPPayload++;
+ pRecordStruct->SPRecordStructAdd[RecordPosition] = pSPRecordStruct;
+
+ /* After SPRecord + First Record check if we are at the end of NDEF file */
+ SPPayloadSize = pSPRecordStruct->PayloadLength;
+
+ OffsetInSPPayload += pSPRecordStruct->PayloadOffset + SPPayloadSize;
+ pPayload += OffsetInSPPayload;
+ }
+ else /* Recommended Action Record for example */
+ {
+ SPPayloadSize = 0;
+ }
+ RecordPosition++;
+ }
+ while( (OffsetInSPPayload < PayloadSize) && RecordPosition<SP_MAX_RECORD); /* there is another record */
+}
+
+/**
+ * @}
+ */
+
+/** @defgroup libNDEF_Public_Functions
+ * @{
+ */
+
+
+/**
+ * @brief This function identify the NDEF message stored in tag.
+ * @param pRecordStruct : Structure to fill with record information.
+ * @param pNDEF : pointer on the NDEF message data.
+ * @retval NDEF_OK : record struct filled.
+ * @retval NDEF_ERROR : record struct not updated.
+ */
+uint16_t NDEF_IdentifyNDEF( sRecordInfo_t *pRecordStruct, uint8_t* pNDEF, I2C* mi2cChannel )
+{
+ uint16_t SizeOfRecordHeader, TypeNbByte, PayloadLengthField, IDLengthField, IDNbByte;
+
+ /* check NDEF present */
+ if( NDEF_IsNDEFPresent(mi2cChannel) != NDEF_OK )
+ {
+ return NDEF_ERROR;
+ }
+
+ /* Read the NDEF file */
+ NfcTag_ReadNDEF( pNDEF, mi2cChannel );
+
+ /* Is ID length field present */
+ if( (*pNDEF) & IL_Mask )
+ {
+ IDLengthField = ID_LENGTH_FIELD;
+ }
+ else
+ {
+ IDLengthField = 0;
+ }
+
+ /* it's a SR */
+ if( (*pNDEF) & SR_Mask )
+ {
+ /* Analyse short record layout */
+ TypeNbByte = pNDEF[1];
+ PayloadLengthField = 1;
+ if( IDLengthField == ID_LENGTH_FIELD )
+ IDNbByte = pNDEF[3];
+ else
+ IDNbByte = 0;
+ }
+ else
+ {
+ /* Analyse normal record layout */
+ TypeNbByte = pNDEF[1];
+ PayloadLengthField = 4;
+ if( IDLengthField == ID_LENGTH_FIELD )
+ IDNbByte = pNDEF[6];
+ else
+ IDNbByte = 0;
+ }
+
+ SizeOfRecordHeader = RECORD_FLAG_FIELD + TYPE_LENGTH_FIELD + PayloadLengthField + IDLengthField + TypeNbByte + IDNbByte;
+
+ /* Read record header */
+ /* it's a SR */
+ if( pNDEF[0] & SR_Mask )
+ {
+ pRecordStruct->RecordFlags = pNDEF[0];
+ pRecordStruct->TypeLength = TypeNbByte;
+ pRecordStruct->PayloadLength = pNDEF[2];
+ pRecordStruct->IDLength = IDNbByte;
+ memcpy( pRecordStruct->Type, &pNDEF[3+IDNbByte], TypeNbByte );
+ memcpy( pRecordStruct->ID, &pNDEF[3+IDNbByte+TypeNbByte], IDNbByte );
+ pRecordStruct->PayloadOffset = SizeOfRecordHeader;
+ }
+ else
+ {
+ pRecordStruct->RecordFlags = pNDEF[0];
+ pRecordStruct->TypeLength = TypeNbByte;
+ pRecordStruct->PayloadLength = ( ((uint32_t)pNDEF[2]) << 24 ) |
+ ( ((uint32_t)pNDEF[3]) << 16 ) |
+ ( ((uint32_t)pNDEF[4]) << 8 )
+ | pNDEF[5] ;
+ pRecordStruct->IDLength = IDNbByte;
+ memcpy( pRecordStruct->Type, &pNDEF[6+IDNbByte], TypeNbByte );
+ memcpy( pRecordStruct->ID, &pNDEF[6+IDNbByte+TypeNbByte], IDNbByte );
+ pRecordStruct->PayloadOffset = SizeOfRecordHeader;
+ }
+
+ pRecordStruct->PayloadBufferAdd = pNDEF;
+
+ NDEF_ParseRecordHeader( pRecordStruct );
+
+ return NDEF_OK;
+}
+
+/**
+ * @brief This function read the NDEF content of the TAG.
+ * @param pNDEF : pointer on the buffer to store NDEF data.
+ * @retval NDEF_OK : NDEF file data retrieve and store in the buffer.
+ * @retval NDEF_ERROR : not able to read NDEF from tag.
+ * @retval NDEF_ERROR_MEMORY_INTERNAL : Cannot read tag.
+ * @retval NDEF_ERROR_NOT_FORMATED : CCFile data not supported or not present.
+ * @retval NDEF_ERROR_MEMORY_TAG : Size not compatible with memory.
+ * @retval NDEF_ERROR_LOCKED : Tag locked, cannot be read.
+ */
+uint16_t NDEF_ReadNDEF( uint8_t* pNDEF, I2C* mi2cChannel )
+{
+ return NfcTag_ReadNDEF( pNDEF, mi2cChannel );
+}
+
+
+
+/**
+ * @brief This function read the NDEF size of the TAG.
+ * @param Size : pointer to a 16-bit Size (in bytes) to be returned.
+ * @retval NDEF_OK : NDEF file data retrieve and store in the buffer.
+ * @retval NDEF_ERROR : not able to read NDEF from tag.
+ * @retval NDEF_ERROR_MEMORY_INTERNAL : Cannot read tag.
+ * @retval NDEF_ERROR_NOT_FORMATED : CCFile data not supported or not present.
+ * @retval NDEF_ERROR_MEMORY_TAG : Size not compatible with memory.
+ * @retval NDEF_ERROR_LOCKED : Tag locked, cannot be read.
+ */
+uint16_t NDEF_getNDEFSize(uint16_t* Size, I2C* mi2cChannel)
+{
+ return NfcTag_GetLength(Size, mi2cChannel);
+}
+/**
+ * @brief This function write the NDEF in the TAG.
+ * @param pNDEF : pointer on the buffer containing the NDEF data.
+ * @retval NDEF_OK : NDEF file data written in the tag.
+ * @retval NDEF_ERROR : not able to store NDEF in tag.
+ * @retval NDEF_ERROR_MEMORY_INTERNAL : Cannot write to tag.
+ * @retval NDEF_ERROR_NOT_FORMATED : CCFile data not supported or not present.
+ * @retval NDEF_ERROR_MEMORY_TAG : Size not compatible with memory.
+ * @retval NDEF_ERROR_LOCKED : Tag locked, cannot be write.
+ */
+uint16_t NDEF_WriteNDEF( uint16_t NDEF_Size, uint8_t *pNDEF, I2C* mi2cChannel )
+{
+ return NfcTag_WriteNDEF( NDEF_Size, pNDEF, mi2cChannel );
+
+}
+
+/**
+ * @brief This function append the record to an the NDEF in the TAG.
+ * @param pRecord : pointer on the record with data to be written.
+ * @retval NDEF_OK : NDEF file data written in the tag.
+ * @retval NDEF_ERROR : not able to store NDEF in tag.
+ * @retval NDEF_ERROR_MEMORY_INTERNAL : Cannot write to tag.
+ * @retval NDEF_ERROR_NOT_FORMATED : CCFile data not supported or not present.
+ * @retval NDEF_ERROR_MEMORY_TAG : Size not compatible with memory.
+ * @retval NDEF_ERROR_LOCKED : Tag locked, cannot be write.
+ */
+uint16_t NDEF_AppendRecord(sRecordInfo_t *Record, I2C* mi2cChannel )
+{
+ uint16_t status;
+ uint16_t NDEF_Size = 0;
+ uint8_t* pData = NDEF_Buffer;
+
+ status = NDEF_getNDEFSize(&NDEF_Size, mi2cChannel);
+ if(status != NDEF_OK) return status ;
+
+ if(NDEF_Size != 0)
+ {
+ // There are already records in the NDEF
+ Record->RecordFlags &= ~MB_Mask;
+
+ status = NfcTag_ReadNDEF(pData, mi2cChannel);
+ if(status != NDEF_OK) return status ;
+
+ uint8_t* pNdefRecord;
+ sRecordInfo_t LastRecord;
+ do {
+ pNdefRecord = pData;
+ NDEF_IdentifyBuffer(&LastRecord,pData);
+ pData += LastRecord.PayloadOffset + LastRecord.PayloadLength;
+ // TO DO: add a security condition to avoid infinite loop if NDEF file is corrupted
+ } while(!(LastRecord.RecordFlags & ME_Mask));
+ LastRecord.RecordFlags &= ~ME_Mask;
+ *pNdefRecord = LastRecord.RecordFlags;
+ } else {
+ // This will be the first message in memory
+ Record->RecordFlags |= MB_Mask;
+ }
+ Record->RecordFlags |= ME_Mask;
+ uint32_t RecordLength = NDEF_WriteRecord(Record,pData, mi2cChannel);
+
+
+ return NfcTag_WriteNDEF( NDEF_Size + RecordLength, NDEF_Buffer, mi2cChannel );
+
+}
+
+
+
+/**
+ * @brief This function identify the NDEF message stored in tag.
+ * @param pRecordStruct : Structure to fill with record information.
+ * @param pNDEF : pointer on the NDEF message data.
+ * @retval NDEF_OK : record struct filled.
+ * @retval NDEF_ERROR : record struct not updated.
+ */
+uint16_t NDEF_IdentifyBuffer( sRecordInfo_t *pRecordStruct, uint8_t* pNDEF )
+{
+ uint16_t SizeOfRecordHeader, TypeNbByte, PayloadLengthField, IDLengthField, IDNbByte;
+
+ /* Is ID length field present */
+ if( (*pNDEF) & IL_Mask )
+ {
+ IDLengthField = ID_LENGTH_FIELD;
+ }
+ else
+ {
+ IDLengthField = 0;
+ }
+
+ /* it's a SR */
+ if( (*pNDEF) & SR_Mask )
+ {
+ /* Analyse short record layout */
+ TypeNbByte = pNDEF[1];
+ PayloadLengthField = 1;
+ if( IDLengthField == ID_LENGTH_FIELD )
+ IDNbByte = pNDEF[3];
+ else
+ IDNbByte = 0;
+ }
+ else
+ {
+ /* Analyse normal record layout */
+ TypeNbByte = pNDEF[1];
+ PayloadLengthField = 4;
+ if( IDLengthField == ID_LENGTH_FIELD )
+ IDNbByte = pNDEF[6];
+ else
+ IDNbByte = 0;
+ }
+
+ SizeOfRecordHeader = RECORD_FLAG_FIELD + TYPE_LENGTH_FIELD + PayloadLengthField + IDLengthField + TypeNbByte + IDNbByte;
+
+ /* it's a SR */
+ if( pNDEF[0] & SR_Mask )
+ {
+ pRecordStruct->RecordFlags = pNDEF[0];
+ pRecordStruct->TypeLength = TypeNbByte;
+ pRecordStruct->PayloadLength = pNDEF[2];
+ pRecordStruct->IDLength = IDNbByte;
+ memcpy( pRecordStruct->Type, &pNDEF[3+IDLengthField], TypeNbByte );
+ memcpy( pRecordStruct->ID, &pNDEF[3+IDLengthField+TypeNbByte], IDNbByte );
+ pRecordStruct->PayloadOffset = SizeOfRecordHeader;
+ }
+ else
+ {
+ pRecordStruct->RecordFlags = pNDEF[0];
+ pRecordStruct->TypeLength = TypeNbByte;
+ pRecordStruct->PayloadLength = ( ((uint32_t)pNDEF[2]) << 24 ) |
+ ( ((uint32_t)pNDEF[3]) << 16 ) |
+ ( ((uint32_t)pNDEF[4]) << 8 )
+ | pNDEF[5] ;
+ pRecordStruct->IDLength = IDNbByte;
+ memcpy( pRecordStruct->Type, &pNDEF[6+IDNbByte], TypeNbByte );
+ memcpy( pRecordStruct->ID, &pNDEF[6+IDNbByte+TypeNbByte], IDNbByte );
+ pRecordStruct->PayloadOffset = SizeOfRecordHeader;
+ }
+
+ pRecordStruct->PayloadBufferAdd = &pNDEF[pRecordStruct->PayloadOffset];
+
+ NDEF_ParseRecordHeader( pRecordStruct );
+
+ return NDEF_OK;
+}
+
+/**
+ * @brief This function writes a record into a NDEF buffer. (update SR flag if required)
+ * @param pRecord : Structure with record information to be written.
+ * @param pNDEF : pointer on the NDEF buffer.
+ * @retval Length : Length of the written data (in bytes)
+ */
+uint32_t NDEF_WriteRecord( sRecordInfo_t *pRecord, uint8_t* pNDEF, I2C* mi2cChannel )
+{
+ /************************************/
+/* 7 | 6 | 5 | 4 | 3 | 2 1 0 */
+/*----------------------------------*/
+/* MB ME CF SR IL TNF */
+/*----------------------------------*/
+/* TYPE LENGTH */
+/*----------------------------------*/
+/* PAYLOAD LENGTH 3 */
+/*----------------------------------*/
+/* PAYLOAD LENGTH 2 */
+/*----------------------------------*/
+/* PAYLOAD LENGTH 1 */
+/*----------------------------------*/
+/* PAYLOAD LENGTH 0 */
+/*----------------------------------*/
+/* ID LENGTH */
+/*----------------------------------*/
+/* TYPE */
+/*----------------------------------*/
+/* ID */
+/*----------------------------------*/
+/* PAYLOAD */
+/************************************/
+ uint8_t * start = pNDEF;
+
+ // start by considering payload length
+ if(pRecord->PayloadLength <= 0xFF)
+ pRecord->RecordFlags |= SR_Mask;
+ else
+ pRecord->RecordFlags &= ~SR_Mask;
+
+ // Then start writing!
+ *pNDEF++ = pRecord->RecordFlags;
+
+ *pNDEF++ = pRecord->TypeLength;
+
+ if (!(pRecord->RecordFlags & SR_Mask))
+ {
+ *pNDEF++ = (pRecord->PayloadLength >> 24) & 0xFF;
+ *pNDEF++ = (pRecord->PayloadLength >> 16) & 0xFF ;
+ *pNDEF++ = (pRecord->PayloadLength >> 8) & 0xFF;
+ }
+ *pNDEF++ = (pRecord->PayloadLength) & 0xFF;
+
+ if(pRecord->RecordFlags & IL_Mask)
+ *pNDEF++ = (pRecord->IDLength);
+
+ memcpy(pNDEF,pRecord->Type,pRecord->TypeLength);
+ pNDEF += pRecord->TypeLength;
+
+ if(pRecord->RecordFlags & IL_Mask)
+ {
+ memcpy(pNDEF,pRecord->ID,pRecord->IDLength);
+ pNDEF += pRecord->IDLength;
+ }
+
+ memcpy(pNDEF,pRecord->PayloadBufferAdd,pRecord->PayloadLength);
+ pNDEF += pRecord->PayloadLength;
+
+ return (pNDEF - start);
+}
+
+/**
+ * @brief This function return the length a record data (update SR flag if required)
+ * @param pRecord : Structure with record information
+ * @retval Length : Length of the data (in bytes)
+ */
+uint32_t NDEF_GetRecordLength( sRecordInfo_t *pRecord )
+{
+ // start by considering payload length
+ if(pRecord->PayloadLength <= 0xFF)
+ pRecord->RecordFlags |= SR_Mask;
+ else
+ pRecord->RecordFlags &= ~SR_Mask;
+
+ // Then compute the length
+ uint32_t length = 1 + // Flags
+ 1 + // Type length
+ ((pRecord->RecordFlags & SR_Mask)? 1 : 4) + // Payload length
+ ((pRecord->RecordFlags & IL_Mask)? 1 : 0) + // ID length
+ pRecord->TypeLength + // Type
+ ((pRecord->RecordFlags & IL_Mask)? pRecord->IDLength : 0) + // ID
+ pRecord->PayloadLength; // Payload;
+
+ return length;
+}
+
+/**
+ * @brief This function clears the NDEF file
+ * @retval NDEF Status
+ */
+uint16_t NDEF_ClearNDEF(I2C* mi2cChannel)
+{
+ return NDEF_WriteNDEF(0 , NULL, mi2cChannel);
+}
+
+/**
+ * @}
+ */
+
+/**
+ * @}
+ */
+
+/**
+ * @}
+ */
+
+/******************* (C) COPYRIGHT 2015 STMicroelectronics *****END OF FILE****/