/*********************************************************************
*
* Microchip TCP/IP Stack Demo Application Configuration Header
*
*********************************************************************
* FileName: TCPIPConfig.h
* Dependencies: Microchip TCP/IP Stack
* Processor: PIC18, PIC24F, PIC24H, dsPIC30F, dsPIC33F, PIC32
* Compiler: Microchip C32 v1.10 or higher
* Microchip C30 v3.12 or higher
* Microchip C18 v3.34 or higher
* HI-TECH PICC-18 PRO 9.63PL2 or higher
* Company: Microchip Technology, Inc.
*
* Software License Agreement
*
* Copyright (C) 2002-2010 Microchip Technology Inc. All rights
* reserved.
*
* Microchip licenses to you the right to use, modify, copy, and
* distribute:
* (i) the Software when embedded on a Microchip microcontroller or
* digital signal controller product ("Device") which is
* integrated into Licensee's product; or
* (ii) ONLY the Software driver source files ENC28J60.c, ENC28J60.h,
* ENCX24J600.c and ENCX24J600.h ported to a non-Microchip device
* used in conjunction with a Microchip ethernet controller for
* the sole purpose of interfacing with the ethernet controller.
*
* You should refer to the license agreement accompanying this
* Software for additional information regarding your rights and
* obligations.
*
* THE SOFTWARE AND DOCUMENTATION ARE PROVIDED "AS IS" WITHOUT
* WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT
* LIMITATION, ANY WARRANTY OF MERCHANTABILITY, FITNESS FOR A
* PARTICULAR PURPOSE, TITLE AND NON-INFRINGEMENT. IN NO EVENT SHALL
* MICROCHIP BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES, LOST PROFITS OR LOST DATA, COST OF
* PROCUREMENT OF SUBSTITUTE GOODS, TECHNOLOGY OR SERVICES, ANY CLAIMS
* BY THIRD PARTIES (INCLUDING BUT NOT LIMITED TO ANY DEFENSE
* THEREOF), ANY CLAIMS FOR INDEMNITY OR CONTRIBUTION, OR OTHER
* SIMILAR COSTS, WHETHER ASSERTED ON THE BASIS OF CONTRACT, TORT
* (INCLUDING NEGLIGENCE), BREACH OF WARRANTY, OR OTHERWISE.
*
*
* Author Date Comment
*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
* Howard Schlunder 10/04/2006 Original
* Ken Hesky 07/01/2008 Added ZG2100-specific features
* SG 03/25/2009 Added ZGLinkMgrII specific features
********************************************************************/
#ifndef __TCPIPCONFIG_H
#define __TCPIPCONFIG_H
#include "GenericTypeDefs.h"
#include "Compiler.h"
#define GENERATED_BY_TCPIPCONFIG "Version 1.0.3383.23374"
// =======================================================================
// Application Options
// =======================================================================
/* Application Level Module Selection
* Uncomment or comment the following lines to enable or
* disabled the following high-level application modules.
*/
%STACK_USE_UART%#define STACK_USE_UART // Application demo using UART for IP address display and stack configuration
%STACK_USE_UART2TCP_BRIDGE%#define STACK_USE_UART2TCP_BRIDGE // UART to TCP Bridge application example
%STACK_USE_IP_GLEANING%#define STACK_USE_IP_GLEANING
%STACK_USE_ICMP_SERVER%#define STACK_USE_ICMP_SERVER // Ping query and response capability
%STACK_USE_ICMP_CLIENT%#define STACK_USE_ICMP_CLIENT // Ping transmission capability
%STACK_USE_HTTP_SERVER%#define STACK_USE_HTTP_SERVER // Old HTTP server
%STACK_USE_HTTP2_SERVER%#define STACK_USE_HTTP2_SERVER // New HTTP server with POST, Cookies, Authentication, etc.
%STACK_USE_SSL_SERVER%#define STACK_USE_SSL_SERVER // SSL server socket support (Requires SW300052)
%STACK_USE_SSL_CLIENT%#define STACK_USE_SSL_CLIENT // SSL client socket support (Requires SW300052)
%STACK_USE_AUTO_IP%#define STACK_USE_AUTO_IP // Dynamic link-layer IP address automatic configuration protocol
%STACK_USE_DHCP_CLIENT%#define STACK_USE_DHCP_CLIENT // Dynamic Host Configuration Protocol client for obtaining IP address and other parameters
%STACK_USE_DHCP_SERVER%#define STACK_USE_DHCP_SERVER // Single host DHCP server
%STACK_USE_FTP_SERVER%#define STACK_USE_FTP_SERVER // File Transfer Protocol (old)
%STACK_USE_SMTP_CLIENT%#define STACK_USE_SMTP_CLIENT // Simple Mail Transfer Protocol for sending email
%STACK_USE_SNMP_SERVER%#define STACK_USE_SNMP_SERVER // Simple Network Management Protocol v2C Community Agent
%STACK_USE_TFTP_CLIENT%#define STACK_USE_TFTP_CLIENT // Trivial File Transfer Protocol client
%STACK_USE_GENERIC_TCP_CLIENT_EXAMPLE%#define STACK_USE_GENERIC_TCP_CLIENT_EXAMPLE // HTTP Client example in GenericTCPClient.c
%STACK_USE_GENERIC_TCP_SERVER_EXAMPLE%#define STACK_USE_GENERIC_TCP_SERVER_EXAMPLE // ToUpper server example in GenericTCPServer.c
%STACK_USE_TELNET_SERVER%#define STACK_USE_TELNET_SERVER // Telnet server
%STACK_USE_ANNOUNCE%#define STACK_USE_ANNOUNCE // Microchip Embedded Ethernet Device Discoverer server/client
%STACK_USE_DNS%#define STACK_USE_DNS // Domain Name Service Client for resolving hostname strings to IP addresses
%STACK_USE_DNS_SERVER%#define STACK_USE_DNS_SERVER // Domain Name Service Server for redirection to the local device
%STACK_USE_NBNS%#define STACK_USE_NBNS // NetBIOS Name Service Server for repsonding to NBNS hostname broadcast queries
%STACK_USE_REBOOT_SERVER%#define STACK_USE_REBOOT_SERVER // Module for resetting this PIC remotely. Primarily useful for a Bootloader.
%STACK_USE_SNTP_CLIENT%#define STACK_USE_SNTP_CLIENT // Simple Network Time Protocol for obtaining current date/time from Internet
%STACK_USE_UDP_PERFORMANCE_TEST%#define STACK_USE_UDP_PERFORMANCE_TEST // Module for testing UDP TX performance characteristics. NOTE: Enabling this will cause a huge amount of UDP broadcast packets to flood your network on the discard port. Use care when enabling this on production networks, especially with VPNs (could tunnel broadcast traffic across a limited bandwidth connection).
%STACK_USE_TCP_PERFORMANCE_TEST%#define STACK_USE_TCP_PERFORMANCE_TEST // Module for testing TCP TX performance characteristics
%STACK_USE_DYNAMICDNS_CLIENT%#define STACK_USE_DYNAMICDNS_CLIENT // Dynamic DNS client updater module
%STACK_USE_BERKELEY_API%#define STACK_USE_BERKELEY_API // Berekely Sockets APIs are available
%STACK_USE_ZEROCONF_LINK_LOCAL%#define STACK_USE_ZEROCONF_LINK_LOCAL // Zeroconf IPv4 Link-Local Addressing
%STACK_USE_ZEROCONF_MDNS_SD%#define STACK_USE_ZEROCONF_MDNS_SD // Zeroconf mDNS and mDNS service discovery
// =======================================================================
// Data Storage Options
// =======================================================================
/* MPFS Configuration
* MPFS is automatically included when required for other
* applications. If your custom application requires it
* otherwise, uncomment the appropriate selection.
*/
//#define STACK_USE_MPFS
//#define STACK_USE_MPFS2
/* MPFS Storage Location
* If html pages are stored in internal program memory,
* comment both MPFS_USE_EEPROM and MPFS_USE_SPI_FLASH, then
* include an MPFS image (.c or .s file) in the project.
* If html pages are stored in external memory, uncomment the
* appropriate definition.
*
* Supported serial flash parts include the SST25VFxxxB series.
*/
%MPFS_USE_EEPROM%#define MPFS_USE_EEPROM
%MPFS_USE_SPI_FLASH%#define MPFS_USE_SPI_FLASH
/* EEPROM Addressing Selection
* If using the 1Mbit EEPROM, uncomment this line
*/
//#define USE_EEPROM_25LC1024
/* EEPROM Reserved Area
* Number of EEPROM bytes to be reserved before MPFS storage starts.
* These bytes host application configurations such as IP Address,
* MAC Address, and any other required variables.
*
* For MPFS Classic, this setting must match the Reserved setting
* on the Advanced Settings page of the MPFS2 Utility.
*/
#define MPFS_RESERVE_BLOCK (%MPFS_RESERVE_BLOCK%)
/* MPFS File Handles
* Maximum number of simultaneously open MPFS2 files.
* For MPFS Classic, this has no effect.
*/
#define MAX_MPFS_HANDLES (7ul)
// =======================================================================
// Network Addressing Options
// =======================================================================
/* Default Network Configuration
* These settings are only used if data is not found in EEPROM.
* To clear EEPROM, hold BUTTON0, reset the board, and continue
* holding until the LEDs flash. Release, and reset again.
*/
#define MY_DEFAULT_HOST_NAME %MY_DEFAULT_HOST_NAME%
#define MY_DEFAULT_MAC_BYTE1 (0x00) // Use the default of
#define MY_DEFAULT_MAC_BYTE2 (0x04) // 00-04-A3-00-00-00 if using
#define MY_DEFAULT_MAC_BYTE3 (0xA3) // an ENCX24J600 or MRF24WB0M
#define MY_DEFAULT_MAC_BYTE4 (0x00) // and wish to use the internal
#define MY_DEFAULT_MAC_BYTE5 (0x00) // factory programmed MAC
#define MY_DEFAULT_MAC_BYTE6 (0x00) // address instead.
#define MY_DEFAULT_IP_ADDR_BYTE1 (169ul)
#define MY_DEFAULT_IP_ADDR_BYTE2 (254ul)
#define MY_DEFAULT_IP_ADDR_BYTE3 (1ul)
#define MY_DEFAULT_IP_ADDR_BYTE4 (1ul)
#define MY_DEFAULT_MASK_BYTE1 (255ul)
#define MY_DEFAULT_MASK_BYTE2 (255ul)
#define MY_DEFAULT_MASK_BYTE3 (0ul)
#define MY_DEFAULT_MASK_BYTE4 (0ul)
#define MY_DEFAULT_GATE_BYTE1 (169ul)
#define MY_DEFAULT_GATE_BYTE2 (254ul)
#define MY_DEFAULT_GATE_BYTE3 (1ul)
#define MY_DEFAULT_GATE_BYTE4 (1ul)
#define MY_DEFAULT_PRIMARY_DNS_BYTE1 (169ul)
#define MY_DEFAULT_PRIMARY_DNS_BYTE2 (254ul)
#define MY_DEFAULT_PRIMARY_DNS_BYTE3 (1ul)
#define MY_DEFAULT_PRIMARY_DNS_BYTE4 (1ul)
#define MY_DEFAULT_SECONDARY_DNS_BYTE1 (0ul)
#define MY_DEFAULT_SECONDARY_DNS_BYTE2 (0ul)
#define MY_DEFAULT_SECONDARY_DNS_BYTE3 (0ul)
#define MY_DEFAULT_SECONDARY_DNS_BYTE4 (0ul)
// =======================================================================
// PIC32MX7XX/6XX MAC Layer Options
// If not using a PIC32MX7XX/6XX device, ignore this section.
// =======================================================================
#define ETH_CFG_LINK 0 // set to 1 if you need to config the link to specific following parameters
// otherwise the default connection will be attempted
// depending on the selected PHY
#define ETH_CFG_AUTO 1 // use auto negotiation
#define ETH_CFG_10 1 // use/advertise 10 Mbps capability
#define ETH_CFG_100 1 // use/advertise 100 Mbps capability
#define ETH_CFG_HDUPLEX 1 // use/advertise half duplex capability
#define ETH_CFG_FDUPLEX 1 // use/advertise full duplex capability
#define ETH_CFG_AUTO_MDIX 1 // use/advertise auto MDIX capability
#define ETH_CFG_SWAP_MDIX 1 // use swapped MDIX. else normal MDIX
#define EMAC_TX_DESCRIPTORS 2 // number of the TX descriptors to be created
#define EMAC_RX_DESCRIPTORS 8 // number of the RX descriptors and RX buffers to be created
#define EMAC_RX_BUFF_SIZE 1536 // size of a RX buffer. should be multiple of 16
// this is the size of all receive buffers processed by the ETHC
// The size should be enough to accomodate any network received packet
// If the packets are larger, they will have to take multiple RX buffers
// The current implementation does not handle this situation right now and the packet is discarded.
// =======================================================================
// Transport Layer Options
// =======================================================================
/* Transport Layer Configuration
* The following low level modules are automatically enabled
* based on module selections above. If your custom module
* requires them otherwise, enable them here.
*/
%STACK_USE_TCP%#define STACK_USE_TCP
%STACK_USE_UDP%#define STACK_USE_UDP
/* Client Mode Configuration
* Uncomment following line if this stack will be used in CLIENT
* mode. In CLIENT mode, some functions specific to client operation
* are enabled.
*/
%STACK_CLIENT_MODE%#define STACK_CLIENT_MODE
/* TCP Socket Memory Allocation
* TCP needs memory to buffer incoming and outgoing data. The
* amount and medium of storage can be allocated on a per-socket
* basis using the example below as a guide.
*/
// Allocate how much total RAM (in bytes) you want to allocate
// for use by your TCP TCBs, RX FIFOs, and TX FIFOs.
#define TCP_ETH_RAM_SIZE (%TCP_ETH_RAM_SIZE%)
#define TCP_PIC_RAM_SIZE (%TCP_PIC_RAM_SIZE%)
#define TCP_SPI_RAM_SIZE (%TCP_SPI_RAM_SIZE%)
#define TCP_SPI_RAM_BASE_ADDRESS (0x00)
// Define names of socket types
#define TCP_SOCKET_TYPES
#define TCP_PURPOSE_GENERIC_TCP_CLIENT 0
#define TCP_PURPOSE_GENERIC_TCP_SERVER 1
#define TCP_PURPOSE_TELNET 2
#define TCP_PURPOSE_FTP_COMMAND 3
#define TCP_PURPOSE_FTP_DATA 4
#define TCP_PURPOSE_TCP_PERFORMANCE_TX 5
#define TCP_PURPOSE_TCP_PERFORMANCE_RX 6
#define TCP_PURPOSE_UART_2_TCP_BRIDGE 7
#define TCP_PURPOSE_HTTP_SERVER 8
#define TCP_PURPOSE_DEFAULT 9
#define TCP_PURPOSE_BERKELEY_SERVER 10
#define TCP_PURPOSE_BERKELEY_CLIENT 11%EXTRA_TCP_SOCKET_TYPES%
#define END_OF_TCP_SOCKET_TYPES
#if defined(__TCP_C)
// Define what types of sockets are needed, how many of
// each to include, where their TCB, TX FIFO, and RX FIFO
// should be stored, and how big the RX and TX FIFOs should
// be. Making this initializer bigger or smaller defines
// how many total TCP sockets are available.
//
// Each socket requires up to 56 bytes of PIC RAM and
// 48+(TX FIFO size)+(RX FIFO size) bytes of TCP_*_RAM each.
//
// Note: The RX FIFO must be at least 1 byte in order to
// receive SYN and FIN messages required by TCP. The TX
// FIFO can be zero if desired.
#define TCP_CONFIGURATION
ROM struct
{
BYTE vSocketPurpose;
BYTE vMemoryMedium;
WORD wTXBufferSize;
WORD wRXBufferSize;
} TCPSocketInitializer[] =
{
%TCPSOCKET_INITIALIZER_TABLE%
};
#define END_OF_TCP_CONFIGURATION
#endif
/* UDP Socket Configuration
* Define the maximum number of available UDP Sockets, and whether
* or not to include a checksum on packets being transmitted.
*/
#define MAX_UDP_SOCKETS (%MAX_UDP_SOCKETS%)
%UDP_USE_TX_CHECKSUM%#define UDP_USE_TX_CHECKSUM // This slows UDP TX performance by nearly 50%, except when using the ENCX24J600, which has a super fast DMA and incurs virtually no speed pentalty.
/* Berkeley API Sockets Configuration
* Note that each Berkeley socket internally uses one TCP or UDP socket
* defined by MAX_UDP_SOCKETS and the TCPSocketInitializer[] array.
* Therefore, this number MUST be less than or equal to MAX_UDP_SOCKETS + the
* number of TCP sockets defined by the TCPSocketInitializer[] array
* (i.e. sizeof(TCPSocketInitializer)/sizeof(TCPSocketInitializer[0])).
* This define has no effect if STACK_USE_BERKELEY_API is not defined and
* Berkeley Sockets are disabled. Set this value as low as your application
* requires to avoid waisting RAM.
*/
#define BSD_SOCKET_COUNT (5u)
// =======================================================================
// Application-Specific Options
// =======================================================================
// -- HTTP2 Server options -----------------------------------------------
// Maximum numbers of simultaneous HTTP connections allowed.
// Each connection consumes 2 bytes of RAM and a TCP socket
#define MAX_HTTP_CONNECTIONS (2u)
// Indicate what file to serve when no specific one is requested
#define HTTP_DEFAULT_FILE "index.htm"
#define HTTPS_DEFAULT_FILE "index.htm"
#define HTTP_DEFAULT_LEN (10u) // For buffer overrun protection.
// Set to longest length of above two strings.
// Configure MPFS over HTTP updating
// Comment this line to disable updating via HTTP
#define HTTP_MPFS_UPLOAD "mpfsupload"
//#define HTTP_MPFS_UPLOAD_REQUIRES_AUTH // Require password for MPFS uploads
// Certain firewall and router combinations cause the MPFS2 Utility to fail
// when uploading. If this happens, comment out this definition.
// Define which HTTP modules to use
// If not using a specific module, comment it to save resources
#define HTTP_USE_POST // Enable POST support
%HTTP_USE_COOKIES%#define HTTP_USE_COOKIES // Enable cookie support
%HTTP_USE_AUTHENTICATION%#define HTTP_USE_AUTHENTICATION // Enable basic authentication support
//#define HTTP_NO_AUTH_WITHOUT_SSL // Uncomment to require SSL before requesting a password
#define HTTP_SSL_ONLY_CHAR (0xFF) // Files beginning with this character will only be served over HTTPS
// Set to 0x00 to require for all files
// Set to 0xff to require for no files
// Define the listening port for the HTTP server
#define HTTP_PORT (80u)
// Define the listening port for the HTTPS server (if STACK_USE_SSL_SERVER is enabled)
#define HTTPS_PORT (443u)
// Define the maximum data length for reading cookie and GET/POST arguments (bytes)
#define HTTP_MAX_DATA_LEN (%HTTP_MAX_DATA_LEN%)
// Define the minimum number of bytes free in the TX FIFO before executing callbacks
#define HTTP_MIN_CALLBACK_FREE (16u)
%STACK_USE_HTTP_APP_RECONFIG%#define STACK_USE_HTTP_APP_RECONFIG // Use the AppConfig web page in the Demo App (~2.5kb ROM, ~0b RAM)
%STACK_USE_HTTP_MD5_DEMO%#define STACK_USE_HTTP_MD5_DEMO // Use the MD5 Demo web page (~5kb ROM, ~160b RAM)
%STACK_USE_HTTP_EMAIL_DEMO%#define STACK_USE_HTTP_EMAIL_DEMO // Use the e-mail demo web page
// -- SSL Options --------------------------------------------------------
#define MAX_SSL_CONNECTIONS (2ul) // Maximum connections via SSL
#define MAX_SSL_SESSIONS (2ul) // Max # of cached SSL sessions
#define MAX_SSL_BUFFERS (4ul) // Max # of SSL buffers (2 per socket)
#define MAX_SSL_HASHES (5ul) // Max # of SSL hashes (2 per, plus 1 to avoid deadlock)
// Bits in SSL RSA key. This parameter is used for SSL sever
// connections only. The only valid value is 512 bits (768 and 1024
// bits do not work at this time). Note, however, that SSL client
// operations do currently work up to 1024 bit RSA key length.
#define SSL_RSA_KEY_SIZE (512ul)
// -- Telnet Options -----------------------------------------------------
// Number of simultaneously allowed Telnet sessions. Note that you
// must have an equal number of TCP_PURPOSE_TELNET type TCP sockets
// declared in the TCPSocketInitializer[] array above for multiple
// connections to work. If fewer sockets are available than this
// definition, then the the lesser of the two quantities will be the
// actual limit.
#define MAX_TELNET_CONNECTIONS (1u)
// Default local listening port for the Telnet server. Port 23 is the
// protocol default.
#define TELNET_PORT 23
// Default local listening port for the Telnet server when SSL secured.
// Port 992 is the telnets protocol default.
#define TELNETS_PORT 992
// Force all connecting clients to be SSL secured and connected via
// TELNETS_PORT. Connections on port TELNET_PORT will be ignored. If
// STACK_USE_SSL_SERVER is undefined, this entire setting is ignored
// (server will accept unsecured connections on TELNET_PORT and won't even
// listen on TELNETS_PORT).
//#define TELNET_REJECT_UNSECURED
// Default username and password required to login to the Telnet server.
#define TELNET_USERNAME "admin"
#define TELNET_PASSWORD "microchip"
// -- SNMP Options -------------------------------------------------------
// Comment following line if SNMP TRAP support is needed
//#define SNMP_TRAP_DISABLED
// This is the maximum length for community string.
// Application must ensure that this length is observed.
// SNMP module adds one byte extra after SNMP_COMMUNITY_MAX_LEN
// for adding '\0' NULL character.
#define SNMP_COMMUNITY_MAX_LEN (8u)
#define SNMP_MAX_COMMUNITY_SUPPORT (3u)
#define NOTIFY_COMMUNITY_LEN (SNMP_COMMUNITY_MAX_LEN)
// Default SNMPv2C community names. These can be overridden at run time if
// alternate strings are present in external EEPROM or Flash (actual
// strings are stored in AppConfig.readCommunity[] and
// AppConfig.writeCommunity[] arrays). These strings are case sensitive.
// An empty string means disabled (not matchable).
// For application security, these default community names should not be
// used, but should all be disabled to force the end user to select unique
// community names. These defaults are provided only to make it easier to
// start development. Specifying more strings than
// SNMP_MAX_COMMUNITY_SUPPORT will result in the later strings being
// ignored (but still wasting program memory). Specifying fewer strings is
// legal, as long as at least one is present. A string larger than
// SNMP_COMMUNITY_MAX_LEN bytes will be ignored.
#define SNMP_READ_COMMUNITIES {"public", "read", ""}
#define END_OF_SNMP_READ_COMMUNITIES
#define SNMP_WRITE_COMMUNITIES {"private", "write", "public"}
#define END_OF_SNMP_WRITE_COMMUNITIES
#define SNMP_STACK_USE_V2_TRAP
#endif
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