/* * FreeRTOS+TCP * Copyright (C) 2022 Amazon.com, Inc. or its affiliates. All Rights Reserved. * * SPDX-License-Identifier: MIT * * Permission is hereby granted, free of charge, to any person obtaining a copy of * this software and associated documentation files (the "Software"), to deal in * the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of * the Software, and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * http://aws.amazon.com/freertos * http://www.FreeRTOS.org */ /** * @file FreeRTOS_DNS_Cache.c * @brief File that handles the DNS caching option */ /* FreeRTOS+TCP includes. */ #include "FreeRTOS_IP.h" #include "FreeRTOS_Sockets.h" #include "FreeRTOS_UDP_IP.h" #include "FreeRTOS_DHCP.h" #include "NetworkBufferManagement.h" #include "NetworkInterface.h" #include "FreeRTOS_DNS_Cache.h" #include "FreeRTOS_DNS_Globals.h" /* Standard includes. */ #include #include #include #if ( ( ipconfigUSE_DNS != 0 ) && ( ipconfigUSE_DNS_CACHE == 1 ) ) /*! * @brief DNS cache structure instantiation */ static DNSCacheRow_t xDNSCache[ ipconfigDNS_CACHE_ENTRIES ]; /*! * @brief indicates the index of a free entry in the cache structure * \a DNSCacheRow_t */ static UBaseType_t uxFreeEntry = 0U; /** returns the index of the hostname entry in the dns cache. */ static BaseType_t prvFindEntryIndex( const char * pcName, const IPv46_Address_t * pxIP, UBaseType_t * uxResult ); /** get entry at \p index from the cache. */ static BaseType_t prvGetCacheIPEntry( UBaseType_t uxIndex, IPv46_Address_t * pxIP, uint32_t ulCurrentTimeSeconds, struct freertos_addrinfo ** ppxAddressInfo ); /** update entry at \p index in the cache. */ static void prvUpdateCacheEntry( UBaseType_t uxIndex, uint32_t ulTTL, const IPv46_Address_t * pxIP, uint32_t ulCurrentTimeSeconds ); /** insert entry in the cache. */ static void prvInsertCacheEntry( const char * pcName, uint32_t ulTTL, const IPv46_Address_t * pxIP, uint32_t ulCurrentTimeSeconds ); /** Copy DNS cache entries at xIndex to a linked struct addrinfo. */ static void prvReadDNSCache( BaseType_t uxIndex, struct freertos_addrinfo ** ppxAddressInfo ); /*-----------------------------------------------------------*/ #if ( ipconfigUSE_IPv4 != 0 ) /** * @brief perform a dns lookup in the local cache * @param pcHostName the lookup name * @return ulIPAddress with the value from the cache else returns a zero if the * cache is not enabled or the lookup is not successful * @post the global structure \a xDNSCache might be modified */ uint32_t FreeRTOS_dnslookup( const char * pcHostName ) { IPv46_Address_t xIPv46_Address; /* Looking up an IPv4 address in the DNS cache. */ ( void ) memset( &xIPv46_Address, 0, sizeof( xIPv46_Address ) ); ( void ) FreeRTOS_ProcessDNSCache( pcHostName, &( xIPv46_Address ), 0, pdTRUE, NULL ); return xIPv46_Address.xIPAddress.ulIP_IPv4; } /*-----------------------------------------------------------*/ #endif /* if ( ipconfigUSE_IPv4 != 0 ) */ #if ( ipconfigUSE_IPv6 != 0 ) /** * @brief Perform a dns lookup in the local cache (IPv6) * @param pcHostName The lookup name * @param pxAddress_IPv6 The IPv6 address looked up from the cache if the return value is non zero. * @return ulReturn Non zero if name is found in cache else returns a zero if the * cache is not enabled or the lookup is not successful * @post the global structure \a xDNSCache might be modified */ uint32_t FreeRTOS_dnslookup6( const char * pcHostName, IPv6_Address_t * pxAddress_IPv6 ) { IPv46_Address_t xIPv46_Address; BaseType_t xResult; uint32_t ulReturn = 0U; /* Looking up an IPv6 address in the DNS cache. */ ( void ) memset( &xIPv46_Address, 0, sizeof( xIPv46_Address ) ); /* Let FreeRTOS_ProcessDNSCache only return IPv6 addresses. */ xIPv46_Address.xIs_IPv6 = pdTRUE; xResult = FreeRTOS_ProcessDNSCache( pcHostName, &xIPv46_Address, 0, pdTRUE, NULL ); if( xResult != pdFALSE ) { ( void ) memcpy( pxAddress_IPv6->ucBytes, xIPv46_Address.xIPAddress.xIP_IPv6.ucBytes, ipSIZE_OF_IPv6_ADDRESS ); ulReturn = 1U; } return ulReturn; } /*-----------------------------------------------------------*/ #endif /* if ( ipconfigUSE_IPv6 != 0 ) */ /** * @brief perform a dns update in the local cache * @param pcName the lookup name * @param pxIP the ip value to insert/replace (IPv4/v6) * @param ulTTL Time To live (in seconds) * @param xLookUp Ignored * @param ppxAddressInfo A pointer to a pointer where the find results * will be stored. * @return this is a dummy return, we are actually ignoring the return value * from this function * @post the global structure \a xDNSCache might be modified */ BaseType_t FreeRTOS_dns_update( const char * pcName, IPv46_Address_t * pxIP, uint32_t ulTTL, BaseType_t xLookUp, struct freertos_addrinfo ** ppxAddressInfo ) { /* _HT_ we can as well remove the parameter 'xLookUp'. */ ( void ) xLookUp; ( void ) FreeRTOS_ProcessDNSCache( pcName, pxIP, ulTTL, pdFALSE, ppxAddressInfo ); return pdTRUE; } /** * @brief perform a dns clear in the local cache * @post the global structure \a xDNSCache is modified */ void FreeRTOS_dnsclear( void ) { ( void ) memset( xDNSCache, 0x0, sizeof( xDNSCache ) ); uxFreeEntry = 0U; } /** * @brief process a DNS Cache request (get, update, or insert) * * @param[in] pcName the name of the host * @param[in,out] pxIP when doing a lookup, will be set, when doing an update, * will be read. * @param[in] ulTTL Time To Live (in seconds) * @param[in] xLookUp pdTRUE if a look-up is expected, pdFALSE, when the DNS cache must * be updated. * @param[in,out] ppxAddressInfo A pointer to a pointer where the find results * will be stored. * @return whether the operation was successful * @post the global structure \a xDNSCache might be modified */ BaseType_t FreeRTOS_ProcessDNSCache( const char * pcName, IPv46_Address_t * pxIP, uint32_t ulTTL, BaseType_t xLookUp, struct freertos_addrinfo ** ppxAddressInfo ) { UBaseType_t uxIndex; BaseType_t xResult; /* Get the current time in clock-ticks. */ TickType_t xCurrentTickCount = xTaskGetTickCount(); /* In milliseconds. */ uint32_t ulCurrentTimeSeconds; configASSERT( ( pcName != NULL ) ); if( xLookUp != pdFALSE ) { pxIP->xIPAddress.ulIP_IPv4 = 0U; } ulCurrentTimeSeconds = ( uint32_t ) ( ( xCurrentTickCount / portTICK_PERIOD_MS ) / 1000U ); xResult = prvFindEntryIndex( pcName, pxIP, &uxIndex ); if( xResult == pdTRUE ) { /* Element found */ /* Is this function called for a lookup or to add/update an IP address? */ if( xLookUp == pdTRUE ) { /* This statement can only be reached when xResult is true; which * implies that the entry is present and a 'get' operation will result * in success. Therefore, it is safe to ignore the return value of the * below function. */ ( void ) prvGetCacheIPEntry( uxIndex, pxIP, ulCurrentTimeSeconds, ppxAddressInfo ); } else { prvUpdateCacheEntry( uxIndex, ulTTL, pxIP, ulCurrentTimeSeconds ); } } else /* Element not Found xResult = pdFALSE */ { if( xLookUp == pdTRUE ) { pxIP->xIPAddress.ulIP_IPv4 = 0U; } else { prvInsertCacheEntry( pcName, ulTTL, pxIP, ulCurrentTimeSeconds ); } } #if ( ipconfigHAS_DEBUG_PRINTF != 0 ) if( ( xLookUp == pdFALSE ) || ( pxIP->xIPAddress.ulIP_IPv4 != 0U ) ) { char pcAddress[ 40 ]; IP_Address_t xAddress; BaseType_t xFamily = FREERTOS_AF_INET; switch( pxIP->xIs_IPv6 ) { #if ( ipconfigUSE_IPv6 != 0 ) case pdTRUE: ( void ) memcpy( xAddress.xIP_IPv6.ucBytes, pxIP->xIPAddress.xIP_IPv6.ucBytes, ipSIZE_OF_IPv6_ADDRESS ); xFamily = FREERTOS_AF_INET6; break; #endif /* if ( ipconfigUSE_IPv6 != 0 ) */ #if ( ipconfigUSE_IPv4 != 0 ) case pdFALSE: xAddress.ulIP_IPv4 = pxIP->xIPAddress.ulIP_IPv4; break; #endif /* if ( ipconfigUSE_IPv4 != 0 ) */ default: /* MISRA 16.4 Compliance */ FreeRTOS_debug_printf( ( "FreeRTOS_ProcessDNSCache: Undefined IP Type \n" ) ); break; } ( void ) FreeRTOS_inet_ntop( xFamily, ( const void * ) xAddress.xIP_IPv6.ucBytes, pcAddress, ( socklen_t ) sizeof( pcAddress ) ); FreeRTOS_debug_printf( ( "FreeRTOS_ProcessDNSCache: %s: '%s' @ %s (TTL %u)\n", ( xLookUp != 0 ) ? "look-up" : "add", pcName, pcAddress, ( unsigned ) FreeRTOS_ntohl( ulTTL ) ) ); } #endif /* ( ipconfigHAS_DEBUG_PRINTF != 0 ) */ return xResult; } /** * @brief returns the index of the hostname entry in the dns cache. * @param[in] pcName find it in the cache * @param[in] pxIP ip address * @param [out] uxResult index number * @returns res pdTRUE if index in found else pdFALSE */ static BaseType_t prvFindEntryIndex( const char * pcName, const IPv46_Address_t * pxIP, UBaseType_t * uxResult ) { BaseType_t xReturn = pdFALSE; UBaseType_t uxIndex; /* For each entry in the DNS cache table. */ for( uxIndex = 0; uxIndex < ipconfigDNS_CACHE_ENTRIES; uxIndex++ ) { if( xDNSCache[ uxIndex ].pcName[ 0 ] == ( char ) 0 ) { /* empty slot */ continue; } if( strcmp( xDNSCache[ uxIndex ].pcName, pcName ) == 0 ) { /* hostname found */ /* IPv6 is enabled, See if the cache entry has the correct type. */ if( pxIP->xIs_IPv6 == xDNSCache[ uxIndex ].xAddresses[ 0 ].xIs_IPv6 ) { xReturn = pdTRUE; *uxResult = uxIndex; break; } } } return xReturn; } /*-----------------------------------------------------------*/ /** * @brief get entry at \p index from the cache * @param[in] uxIndex index in the cache * @param[out] pxIP fill it with the result * @param[in] ulCurrentTimeSeconds current time * @param[out] ppxAddressInfo Target to store the DNS entries. * @returns \c pdTRUE if the value is valid \c pdFALSE otherwise * @post the global structure \a xDNSCache might be modified * */ static BaseType_t prvGetCacheIPEntry( UBaseType_t uxIndex, IPv46_Address_t * pxIP, uint32_t ulCurrentTimeSeconds, struct freertos_addrinfo ** ppxAddressInfo ) { BaseType_t isRead; uint32_t ulIPAddressIndex = 0; uint32_t ulAge = ulCurrentTimeSeconds - xDNSCache[ uxIndex ].ulTimeWhenAddedInSeconds; /* Confirm that the record is still fresh. * The field ulTTL was stored as network-endian. */ if( ulAge < FreeRTOS_ntohl( xDNSCache[ uxIndex ].ulTTL ) ) { #if ( ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY > 1 ) uint8_t ucIndex; /* The ucCurrentIPAddress value increments without bound and will rollover, */ /* modulo it by the number of IP addresses to keep it in range. */ /* Also perform a final modulo by the max number of IP addresses */ /* per DNS cache entry to prevent out-of-bounds access in the event */ /* that ucNumIPAddresses has been corrupted. */ ucIndex = xDNSCache[ uxIndex ].ucCurrentIPAddress % xDNSCache[ uxIndex ].ucNumIPAddresses; ucIndex = ucIndex % ( uint8_t ) ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY; ulIPAddressIndex = ucIndex; xDNSCache[ uxIndex ].ucCurrentIPAddress++; #endif /* if ( ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY > 1 ) */ ( void ) memcpy( pxIP, &( xDNSCache[ uxIndex ].xAddresses[ ulIPAddressIndex ] ), sizeof( *pxIP ) ); isRead = pdTRUE; if( ppxAddressInfo != NULL ) { /* Copy all entries from position 'uxIndex' to a linked struct addrinfo. */ prvReadDNSCache( ( BaseType_t ) uxIndex, ppxAddressInfo ); } } else { /* Age out the old cached record. */ xDNSCache[ uxIndex ].pcName[ 0 ] = ( char ) 0; isRead = pdFALSE; } return isRead; } /*-----------------------------------------------------------*/ /** * @brief update entry at \p index in the cache * @param[in] uxIndex index in the cache * @param[in] ulTTL time to live (in seconds) * @param[in] pxIP ip to update the cache with * @param[in] ulCurrentTimeSeconds current time * @post the global structure \a xDNSCache is modified */ static void prvUpdateCacheEntry( UBaseType_t uxIndex, uint32_t ulTTL, const IPv46_Address_t * pxIP, uint32_t ulCurrentTimeSeconds ) { uint32_t ulIPAddressIndex = 0; #if ( ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY > 1 ) if( xDNSCache[ uxIndex ].ucNumIPAddresses < ( uint8_t ) ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY ) { /* If more answers exist than there are IP address storage * slots they will overwrite entry 0 */ ulIPAddressIndex = xDNSCache[ uxIndex ].ucNumIPAddresses; xDNSCache[ uxIndex ].ucNumIPAddresses++; } #endif ( void ) memcpy( &( xDNSCache[ uxIndex ].xAddresses[ ulIPAddressIndex ] ), pxIP, sizeof( *pxIP ) ); xDNSCache[ uxIndex ].ulTTL = ulTTL; xDNSCache[ uxIndex ].ulTimeWhenAddedInSeconds = ulCurrentTimeSeconds; } /*-----------------------------------------------------------*/ /** * @brief insert entry in the cache * @param[in] pcName cache entry key * @param[in] ulTTL time to live (in seconds) * @param[in] pxIP ip address * @param[in] ulCurrentTimeSeconds current time * @post the global structure \a xDNSCache is modified */ static void prvInsertCacheEntry( const char * pcName, uint32_t ulTTL, const IPv46_Address_t * pxIP, uint32_t ulCurrentTimeSeconds ) { /* Add or update the item. */ if( strlen( pcName ) < ( size_t ) ipconfigDNS_CACHE_NAME_LENGTH ) { ( void ) strcpy( xDNSCache[ uxFreeEntry ].pcName, pcName ); ( void ) memcpy( &( xDNSCache[ uxFreeEntry ].xAddresses[ 0 ] ), pxIP, sizeof( *pxIP ) ); xDNSCache[ uxFreeEntry ].ulTTL = ulTTL; xDNSCache[ uxFreeEntry ].ulTimeWhenAddedInSeconds = ulCurrentTimeSeconds; #if ( ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY > 1 ) xDNSCache[ uxFreeEntry ].ucNumIPAddresses = 1; xDNSCache[ uxFreeEntry ].ucCurrentIPAddress = 0; /* Initialize all remaining IP addresses in this entry to 0 */ ( void ) memset( &xDNSCache[ uxFreeEntry ].xAddresses[ 1 ], 0, sizeof( xDNSCache[ uxFreeEntry ].xAddresses[ 1 ] ) * ( ( uint32_t ) ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY - 1U ) ); #endif uxFreeEntry++; if( uxFreeEntry == ipconfigDNS_CACHE_ENTRIES ) { uxFreeEntry = 0; } } } /*-----------------------------------------------------------*/ /** * @brief Copy DNS cache entries at uxIndex to a linked struct addrinfo. * @param[in] uxIndex The index from where entries must be copied. * @param[out] ppxAddressInfo Target to store the DNS entries. */ static void prvReadDNSCache( BaseType_t uxIndex, struct freertos_addrinfo ** ppxAddressInfo ) { size_t uxIPAddressIndex; size_t uxNumIPAddresses = 1U; const IPv46_Address_t * pxAddresses; struct freertos_addrinfo * pxNewAddress = NULL; struct freertos_addrinfo ** ppxLastAddress = ppxAddressInfo; #if ( ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY > 1 ) uxNumIPAddresses = ( size_t ) xDNSCache[ uxIndex ].ucNumIPAddresses; if( uxNumIPAddresses > ( size_t ) ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY ) { /* Make this a configASSERT()? */ uxNumIPAddresses = ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY; } #endif /* ( ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY > 1 ) */ for( uxIPAddressIndex = 0; uxIPAddressIndex < uxNumIPAddresses; uxIPAddressIndex++ ) { pxAddresses = &( xDNSCache[ uxIndex ].xAddresses[ uxIPAddressIndex ] ); switch( pxAddresses->xIs_IPv6 ) /* LCOV_EXCL_BR_LINE - xIs_IPv6 is always either pdFALSE or pdTRUE. */ { #if ( ipconfigUSE_IPv4 != 0 ) case pdFALSE: { const uint8_t * ucBytes = ( const uint8_t * ) &( pxAddresses->xIPAddress.ulIP_IPv4 ); pxNewAddress = pxNew_AddrInfo( xDNSCache[ uxIndex ].pcName, FREERTOS_AF_INET4, ucBytes ); } break; #endif /* ( ipconfigUSE_IPv4 != 0 ) */ #if ( ipconfigUSE_IPv6 != 0 ) case pdTRUE: pxNewAddress = pxNew_AddrInfo( xDNSCache[ uxIndex ].pcName, FREERTOS_AF_INET6, pxAddresses->xIPAddress.xIP_IPv6.ucBytes ); break; #endif /* ( ipconfigUSE_IPv6 != 0 ) */ default: /* LCOV_EXCL_LINE - xIs_IPv6 is always either pdFALSE or FREERTOS_AF_INET6. */ /* MISRA 16.4 Compliance */ FreeRTOS_debug_printf( ( "prvReadDNSCache: Undefined IP Type \n" ) ); break; /* LCOV_EXCL_LINE - xIs_IPv6 is always either pdFALSE or FREERTOS_AF_INET6. */ } if( pxNewAddress == NULL ) { /* Malloc must has failed. */ break; } /* Set either 'ppxAddressInfo' or 'pxNewAddress->ai_next'. */ *( ppxLastAddress ) = pxNewAddress; ppxLastAddress = &( pxNewAddress->ai_next ); } } /*-----------------------------------------------------------*/ /** * @brief Lookup the given hostname in the DNS cache * @param[in] pcHostName THe host name to lookup * @param[in] xFamily IP type FREERTOS_AF_INET6 / FREERTOS_AF_INET4 * @param[out] ppxAddressInfo Target to store the DNS entries. * @returns This function returns either a valid IPv4 address, or * in case of an IPv6 lookup, it will return a non-zero. */ uint32_t Prepare_CacheLookup( const char * pcHostName, BaseType_t xFamily, struct freertos_addrinfo ** ppxAddressInfo ) { uint32_t ulIPAddress = 0U; IPv46_Address_t xIPv46_Address; switch( xFamily ) { #if ( ipconfigUSE_IPv4 != 0 ) case FREERTOS_AF_INET: { BaseType_t xFound; xIPv46_Address.xIs_IPv6 = pdFALSE; xFound = FreeRTOS_ProcessDNSCache( pcHostName, &( xIPv46_Address ), 0, pdTRUE, ppxAddressInfo ); if( xFound != 0 ) { if( ( ppxAddressInfo != NULL ) && ( *( ppxAddressInfo ) != NULL ) ) { const struct freertos_sockaddr * sockaddr = ( *( ppxAddressInfo ) )->ai_addr; ulIPAddress = sockaddr->sin_address.ulIP_IPv4; } } else { /* prvGetHostByName will be called to start a DNS lookup. */ } } break; #endif /* ( ipconfigUSE_IPv4 != 0 ) */ #if ( ipconfigUSE_IPv6 != 0 ) case FREERTOS_AF_INET6: { BaseType_t xFound; xIPv46_Address.xIs_IPv6 = pdTRUE; xFound = FreeRTOS_ProcessDNSCache( pcHostName, &( xIPv46_Address ), 0, pdTRUE, ppxAddressInfo ); if( xFound != 0 ) { if( ( ppxAddressInfo != NULL ) && ( *( ppxAddressInfo ) != NULL ) ) { /* This function returns either a valid IPv4 address, or * in case of an IPv6 lookup, it will return a non-zero */ ulIPAddress = 1U; } } else { /* prvGetHostByName will be called to start a DNS lookup. */ } } break; #endif /* ( ipconfigUSE_IPv6 != 0 ) */ default: /* MISRA 16.4 Compliance */ FreeRTOS_debug_printf( ( "Prepare_CacheLookup: Undefined xFamily \n" ) ); break; } return ulIPAddress; } /*-----------------------------------------------------------*/ #if ( ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY > 1 ) /** * @brief For debugging only: prints the contents of the DNS cache table. */ void vShowDNSCacheTable( void ) { UBaseType_t xEntry; UBaseType_t xSubEntry; for( xEntry = 0; xEntry < ipconfigDNS_CACHE_ENTRIES; xEntry++ ) { const DNSCacheRow_t * pxRow = &( xDNSCache[ xEntry ] ); if( pxRow->pcName[ 0 ] != ( char ) 0 ) { FreeRTOS_printf( ( "Entry %2u: %s use %u/%u\n", ( unsigned ) xEntry, pxRow->pcName, ( unsigned ) pxRow->ucCurrentIPAddress, ( unsigned ) pxRow->ucNumIPAddresses ) ); for( xSubEntry = 0; xSubEntry < pxRow->ucNumIPAddresses; xSubEntry++ ) { char pcAddress[ 40 ] = ""; switch( pxRow->xAddresses[ 0 ].xIs_IPv6 ) { /* The first entry determines the type of row: * either IPv4 or IPv6. */ #if ( ipconfigUSE_IPv4 != 0 ) case pdFALSE: ( void ) FreeRTOS_inet_ntop( FREERTOS_AF_INET4, ( const void * ) &( pxRow->xAddresses[ xSubEntry ].xIPAddress.ulIP_IPv4 ), pcAddress, sizeof( pcAddress ) ); break; #endif /* ( ipconfigUSE_IPv4 != 0 ) */ #if ( ipconfigUSE_IPv6 != 0 ) case pdTRUE: ( void ) FreeRTOS_inet_ntop( FREERTOS_AF_INET6, ( const void * ) pxRow->xAddresses[ xSubEntry ].xIPAddress.xIP_IPv6.ucBytes, pcAddress, sizeof( pcAddress ) ); break; #endif /* ( ipconfigUSE_IPv6 != 0 ) */ default: /* MISRA 16.4 Compliance */ FreeRTOS_debug_printf( ( "vShowDNSCacheTable: Undefined IP Type \n" ) ); break; } FreeRTOS_printf( ( " %2u: %s\n", ( unsigned ) xSubEntry, pcAddress ) ); } } } } #endif /* if ( ipconfigDNS_CACHE_ADDRESSES_PER_ENTRY > 1 ) */ /*-----------------------------------------------------------*/ #endif /* if ( ( ipconfigUSE_DNS != 0 ) && ( ipconfigUSE_DNS_CACHE == 1 ) ) */