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diff -r 000000000000 -r de13951f30f6 lib_NDEF_Wifi.cpp
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+++ b/lib_NDEF_Wifi.cpp	Thu Nov 14 10:34:11 2019 +0000
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+/**
+  ******************************************************************************
+  * @file    lib_NDEF_Wifi.c
+  * @author  Central LAB
+  * @version V1.0.0
+  * @date    7-October-2015
+  * @ingroup LibNDEF_Wifi
+  * @brief   This file helps to manage a NDEF message representing a Wifi Token.
+  ******************************************************************************
+  * @attention
+  *
+  * <h2><center>&copy; COPYRIGHT 2016 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_Wifi.h"
+#define ATTRIBUTE_ID_SSID_LSB                                               0X10
+#define ATTRIBUTE_ID_SSID_MSB                                               0X45
+
+
+#define ATTRIBUTE_ID_NETWORK_LSB                                            0X10
+#define ATTRIBUTE_ID_NETWORK_MSB                                            0X27
+
+
+/** @addtogroup lib_NDEF_Wifi Wifi OOB library (WPS)
+  * @ingroup  libNDEF
+  *	@brief    This module is used to manage a Wifi Out-Of-Band NDEF message, to start a communication based on Wifi.
+  * @details  The Wifi OOB format is described by the Wifi Protected Setup specification.
+  *           It consists in a list of data elements formated as type-length-value.
+  *           This module allows to build, write & read such data embedded in a NDEF message.
+  * @section  Wifi_Library_Usage Wifi NDEF library usage
+  * @subsection  Write_Wifi_OOB How to write a Wifi OOB
+  *           The Wifi OOB written in a NDEF record by this module has the following structure:
+  *           - Version
+  *           - Credential
+                - Network index
+                - SSID
+                - Authentication Type
+                - Encryption Type
+                - Network Key
+                - MAC Address
+                - Vendor Extension
+                  - Network Key Shareable
+                - Vendor Extension
+                  - Version2
+                  
+                To write a Wifi OOB, the user must:
+                1. Instanciate & initialize a `sWifiTokenInfo` structure, such as:
+                
+                       sWifiTokenInfo wps_oob = {.NetworkSSID        = "MY_SSID",
+                                                 .AuthenticationType = NDEF_WIFI_AUTHENTICATION_NONE,
+                                                 .EncryptionType     = NDEF_WIFI_ENCRYPTION_NONE,
+                                                 .NetworkKey         = "01234567"};
+                  @note
+                  1. `AuthenticationType` & `EncryptionType` fields must respectively be values from enums: `Ndef_Wifi_Authentication_t` & `Ndef_Wifi_Encryption_t`.
+                  2. If the `Network key` is set to an empty string, the library sets it to `00000000`.\n
+                   Even if 0-length Network Key is supposed to be supported, smartphones dont necessarily accept it.
+
+                2. Call the `NDEF_WriteWifiToken` function on a pointer on the previous struct instance:
+                
+                       NDEF_WriteWifiToken(&wps_oob);
+  * @subsection  Read_Wifi_OOB How to read a Wifi OOB
+  *          1. Read the 1st record of the NDEF message:
+  *
+  *                 sRecordInfo_t rRecord;
+  *                 NDEF_ReadNDEF(NDEF_Buffer);
+  *                 NDEF_IdentifyBuffer(rRecord,NDEF_Buffer);
+  *          2. Decode the Wifi OOB:
+  *
+  *                 sWifiTokenInfo wps;
+  *                 NDEF_ReadWifiToken(&record, &wps);
+  *             @note
+  *               Only the `NetworkSSID` & `NetworkKey` are extracted from the Wifi OOB, other fields of the `sWifiTokenInfo` structure are left un-initialized.
+  * @{
+  */
+
+/* This buffer contains the data send/received by the TAG */
+extern uint8_t NDEF_Buffer [NDEF_MAX_SIZE];
+
+
+static void NDEF_FillWifiTokenStruct( uint8_t* pPayload, uint32_t PayloadSize, sWifiTokenInfo *pWifiTokenStruct);
+static void NDEF_Read_WifiToken ( struct sRecordInfo *pRecordStruct, sWifiTokenInfo *pWifiTokenStruct );
+
+/**
+  * @brief  This function fills a WifiToken structure with information from the NDEF message.
+	* @param	pPayload Pointer on the payload data of the NDEF message.
+	* @param	PayloadSize number of data in the payload.
+	* @param	pWifiTokenStruct pointer on the structure to fill.
+  * @retval NONE 
+  */
+static void NDEF_FillWifiTokenStruct( uint8_t* pPayload, uint32_t PayloadSize, sWifiTokenInfo *pWifiTokenStruct)
+{
+	uint8_t* pLastByteAdd,data1,data2,*temp,*temp_br ;
+        uint16_t SSIDLen,NetWorkKeyLen;
+        uint8_t *dbg,dbg1;
+      
+	
+	pLastByteAdd = (uint8_t*)(pPayload + PayloadSize);
+        pPayload--;     
+        
+        while(pPayload++ != pLastByteAdd)
+        {
+          uint8_t attribute = *pPayload;
+          temp_br = pPayload;
+          switch(attribute)
+          {
+            
+          case ATTRIBUTE_ID_SSID_LSB:
+            temp = pPayload;
+            dbg = temp;
+            dbg1 = *++dbg;
+            if(dbg1 == ATTRIBUTE_ID_SSID_MSB )
+            {
+              data1 = *++dbg;
+              data2 = *++dbg;
+              SSIDLen = data1;
+              SSIDLen = SSIDLen << 8;
+              SSIDLen |= data2;
+              pPayload += 4;
+              memcpy( pWifiTokenStruct->NetworkSSID, pPayload, SSIDLen);
+              /* add end of string charactere */
+              pWifiTokenStruct->NetworkSSID[SSIDLen] = '\0';	
+              pPayload += SSIDLen - 1;
+            }
+            else if(dbg1 == ATTRIBUTE_ID_NETWORK_MSB )
+            {
+              data1 = *++dbg;
+              data2 = *++dbg;
+              NetWorkKeyLen = data1;
+              NetWorkKeyLen = NetWorkKeyLen << 8;
+              NetWorkKeyLen |= data2;
+              pPayload += 4;
+              memcpy( pWifiTokenStruct->NetworkKey, pPayload, NetWorkKeyLen);
+              /* add end of string charactere */
+              pWifiTokenStruct->NetworkKey[NetWorkKeyLen] = '\0';
+              pPayload += NetWorkKeyLen -1;
+            }
+            else
+            {
+              pPayload = temp_br;
+            }
+            
+          break; 
+           
+          default :
+            ;
+          }
+        }
+        
+}
+
+/**
+  * @brief  This fonction reads the WifiToken and store data in a structure.
+	* @param	pRecordStruct Pointer on the record structure.
+	* @param	pWifiTokenStruct Pointer on the structure to fill.
+  * @retval NONE 
+  */
+static void NDEF_Read_WifiToken ( struct sRecordInfo *pRecordStruct, sWifiTokenInfo *pWifiTokenStruct )
+{
+	uint8_t* pPayload;
+	uint32_t PayloadSize;
+	
+	PayloadSize = pRecordStruct->PayloadLength;
+	
+	/* Read record header */
+	pPayload = (uint8_t*)(pRecordStruct->PayloadBufferAdd);
+	
+	if( pRecordStruct->NDEF_Type == URI_WIFITOKEN_TYPE)
+		NDEF_FillWifiTokenStruct(pPayload , PayloadSize, pWifiTokenStruct);
+  
+}
+
+
+/**
+  * @brief  This fonction reads a NDEF record and retrieves a WifiToken information if any.
+  * @param	pRecordStruct Pointer on the record structure.
+	* @param	pWifiTokenStruct Pointer on a `sWifiTokenInfo` structure to fill with the WifiToken information.
+  * @retval NDEF_OK WifiToken information from NDEF have been retrieved.
+	* @retval NDEF_ERROR Not able to retrieve the WifiToken information.
+  */
+uint16_t NDEF_ReadWifiToken(struct sRecordInfo *pRecordStruct, sWifiTokenInfo *pWifiTokenStruct)
+{
+	uint16_t status = NDEF_ERROR;
+	  
+	if( pRecordStruct->NDEF_Type == URI_WIFITOKEN_TYPE )
+	{	
+		NDEF_Read_WifiToken(pRecordStruct, pWifiTokenStruct );
+		status = NDEF_OK;
+	}
+	
+	return status;
+}
+
+
+/**
+  * @brief  This fonction writes a NDEF message built with the WifiToken data given in the structure.
+	* @param	pWifiTokenStruct Pointer on the structure containing the WifiToken information.
+  * @retval NDEF_OK The NDEF message has been successfully written.
+	* @retval NDEF_ERROR Not able to store the NDEF message inside the tag.
+  */
+uint16_t NDEF_WriteWifiToken ( sWifiTokenInfo *pWifiTokenStruct, I2C* mi2cChannel )
+{
+	uint16_t status = NDEF_ERROR;
+        uint8_t* pPayload,initStage = 0;
+        uint16_t DataSize;
+        uint32_t PayloadSize,SSIDSize,SSIDKeySize;
+
+  if(pWifiTokenStruct->NetworkKey[0] == '\0')
+  {
+    /* Empty network key is not supported by Phones */
+    strcpy(pWifiTokenStruct->NetworkKey, NDEF_WIFI_DEFAULT_NETWORK_KEY);
+  }
+  
+          uint8_t configToken1[] = {0x10,0x4A, /* Attribute ID : Version*/
+                                    0x00,0x01, /* Attribute ID Length*/
+                                    0x10,    /* Version 1.0*/
+                                    0x10,0x0E,  /* Attribute ID Credential*/  
+                                    0x00,0x48, /* Attribute ID Length*/
+                                    0x10,0x26, /* Attribute ID : Network Index*/
+                                    0x00,0x01, /* Attribute Length*/
+                                    0x01,  /* Index */
+                                    0x10,0x45, /* Attribute ID :SSID*/
+                            
+        };
+        
+      /* Fill SSID length + SSID between configToken1 and configToken3*/ 
+
+          uint8_t configToken3[] = {0x10,0x03, /* Attribute ID :Authentication Type*/
+                                    0x00,0x02, /* Attribute Length*/
+                                    0x00,0x01,  /* Attribute Type : Open*/
+                                    0x10,0x0F,  /* Attribute ID  : Encryption Type*/
+                                    0x00,0x02,  /* Attribute Length*/
+                                    0x00,0x01, /* Encryption Type : None*/
+                                    0x10,0x27};  /* Attribute ID  : Network Key */
+        
+              
+     /*Fill SSID KEY Length and SSID Key between configToken3 and configToken5*/
+
+          uint8_t configToken5[] = {0x10,0x20, /* Attribute ID  : MAC Address */
+                                    0x00,0x06, /* Attribute Length*/
+                                    0, /*MAC-ADDRESS*/
+                                    0, /*MAC-ADDRESS*/
+                                    0, /*MAC-ADDRESS*/
+                                    0, /*MAC-ADDRESS*/
+                                    0, /*MAC-ADDRESS*/
+                                    0, /*MAC-ADDRESS*/
+                                    0x10,0x49, /* Attribute ID  : Vendor Extension */
+                                    0x00,0x06, /* Attribute Length*/
+                                    0x00,0x37,0x2A, /* Vendor ID:WFA*/
+                                    0x02, /* Subelement ID:Network Key Shareable*/
+                                    0x01, /* Subelement Length*/
+                                    0x01, /*Network Key Shareable : TRUE*/
+                                    0x10,0x49, /* Attribute ID  : Vendor Extension */
+                                    0x00,0x06,/* Attribute Length*/
+                                    0x00,0x37,0x2A,/* Vendor ID:WFA*/
+                                    0x00, /* Subelement ID:Version2*/
+                                    0x01, /* Subelement Length:1*/
+                                    0x20 /* Version2*/
+        };
+               
+
+  /* Set size of the tokens */
+  const uint32_t CONFIG_TOKEN_1 = sizeof(configToken1);
+  const uint32_t CONFIG_TOKEN_3 = sizeof(configToken3);
+  const uint32_t CONFIG_TOKEN_5 = sizeof(configToken5);
+
+  /* Update Token3 for Autentication & Encryption Types, their default value is coded in token3 */
+  configToken3[CONFIG_TOKEN_3_AUTHENTICATION_TYPE_INDEX] = pWifiTokenStruct->AuthenticationType & 0xFF;
+  configToken3[CONFIG_TOKEN_3_ENCRYPTION_TYPE_INDEX] = pWifiTokenStruct->EncryptionType & 0xFF;
+
+	/* fill Wifi record header */
+	NDEF_Buffer[FIRST_RECORD_OFFSET] = 0xD2;   /* Record Flag */
+	NDEF_Buffer[FIRST_RECORD_OFFSET+1] = WIFITOKEN_TYPE_STRING_LENGTH;
+	NDEF_Buffer[FIRST_RECORD_OFFSET+2] = 76; /* needs to be autocalculated - done at the end */
+  
+	memcpy(&NDEF_Buffer[FIRST_RECORD_OFFSET+3], WIFITOKEN_TYPE_STRING, WIFITOKEN_TYPE_STRING_LENGTH);
+	
+	pPayload = &NDEF_Buffer[FIRST_RECORD_OFFSET+3+WIFITOKEN_TYPE_STRING_LENGTH];
+	PayloadSize = 0;
+	
+  /* Compute credential length */
+        
+  uint16_t credential_length =  5 +                                     // Network index
+                                4 +                                     // SSID type + length
+                                strlen(pWifiTokenStruct->NetworkSSID) + // SSID
+                                CONFIG_TOKEN_3 +
+                                2 +                                     // Network key length
+                                strlen(pWifiTokenStruct->NetworkKey) +  // Network KEY
+                                CONFIG_TOKEN_5;
+	
+  /* update credential length */
+  configToken1[CONFIG_TOKEN_1_CREDENTIAL_LENGTH_INDEX + 1] = credential_length & 0xff;
+  configToken1[CONFIG_TOKEN_1_CREDENTIAL_LENGTH_INDEX] = credential_length>>8;
+  
+  
+        for(initStage=0;initStage<CONFIG_TOKEN_1;initStage++)
+        {
+          *pPayload =configToken1[initStage];
+          pPayload++;
+        }
+        
+        /*Fill SSID length and SSID value*/
+        SSIDSize = strlen(pWifiTokenStruct->NetworkSSID);
+        *pPayload = 0x00; pPayload++;
+        *pPayload = SSIDSize & 0x000000FF; pPayload++;
+        
+        strcpy((char*)pPayload,pWifiTokenStruct->NetworkSSID);
+        pPayload = pPayload + strlen(pWifiTokenStruct->NetworkSSID);
+ 
+        for(initStage=0;initStage<CONFIG_TOKEN_3;initStage++)
+        {
+          *pPayload =configToken3[initStage];
+          pPayload++;
+        }
+        
+      /* Fill the SSIDKey length and SSIDKey value */
+        SSIDKeySize = strlen(pWifiTokenStruct->NetworkKey);
+        *pPayload = 0x00; pPayload++;
+        *pPayload = SSIDKeySize & 0x000000FF; pPayload++;
+        
+        memcpy((char*)pPayload,pWifiTokenStruct->NetworkKey,SSIDKeySize);
+        pPayload = pPayload + SSIDKeySize;
+
+        for(initStage=0;initStage<CONFIG_TOKEN_5;initStage++)
+        {
+          *pPayload =configToken5[initStage];
+          pPayload++;
+        }
+
+	PayloadSize += CONFIG_TOKEN_1 + CONFIG_TOKEN_3 + CONFIG_TOKEN_5 + SSIDSize + SSIDKeySize + 4 ; // +4 is for SSID & Key length fields
+		
+	NDEF_Buffer[FIRST_RECORD_OFFSET+2] = (PayloadSize & 0x000000FF);
+	
+	DataSize = PayloadSize + 3 + WIFITOKEN_TYPE_STRING_LENGTH;
+	
+	/* Write NDEF */
+	status = NDEF_WriteNDEF(DataSize , NDEF_Buffer, mi2cChannel);
+
+  return status;
+}
+
+
+/**
+  * @}
+  */
+
+
+
+/******************* (C) COPYRIGHT 2016 STMicroelectronics *****END OF FILE****/
+
+