osd-contiki/platform/minimal-net/contiki-conf.h
Robert Quattlebaum b8c0f2de6c cpu/native: Add file-backed simulated EEPROM to native cpu.
This patch removes a defunct EEPROM implementation from the native
platform and provides a new EEPROM implementation for the native cpu.
The previous implementation appears to be vestigal.

This is useful for testing code which uses the EEPROM without running
the code on the actual hardware.

By default the code will create a new temporary file as the EEPROM
backing, reinitializing each time. If you would like to preserve the
EEPROM contents or specify a specific EEPROM file to use, you can set the
`CONTIKI_EEPROM` environment variable to the name of the EEPROM file you
wish to use instead. If it already exists, its contents will be used.
If it does not already exist, it will be created and initialized by
filling it with `0xFF`---just like a real EEPROM.

A new example is also included, which was used to verify the correctness
of the implementation. It can easily be used to verify the EEPROM
implementations of other targets.
2013-05-18 10:29:41 -07:00

183 lines
8.3 KiB
C

/*
* Copyright (c) 2005, Swedish Institute of Computer Science
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the Institute nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* This file is part of the Contiki operating system.
*
*/
#ifndef __CONTIKI_CONF_H__
#define __CONTIKI_CONF_H__
#include <inttypes.h>
#include <limits.h>
#define CC_CONF_REGISTER_ARGS 1
#define CC_CONF_FUNCTION_POINTER_ARGS 1
#define CC_CONF_FASTCALL
#define CC_CONF_VA_ARGS 1
#define CCIF
#define CLIF
#ifndef EEPROM_CONF_SIZE
#define EEPROM_CONF_SIZE 1024
#endif
/* These names are deprecated, use C99 names. */
typedef uint8_t u8_t;
typedef uint16_t u16_t;
typedef uint32_t u32_t;
typedef int32_t s32_t;
typedef unsigned short uip_stats_t;
#if UIP_CONF_IPV6
/* The Windows build uses wpcap to connect to a host interface. It finds the interface by scanning for
* an address, which can be specified here and overridden with the command line.
* An ip4 or ip6 address can be used; this allows turning off the ip4 protocol on the interface.
* The existing turorials use an ipv4 address, so we leave that as the default.
* Non-windows builds don't use this define.
*/
//#define WPCAP_INTERFACE_ADDRESS "fdfd::1" //10.10.10.10 is the default (even for ipv6)
/* Minimal-net gets a 6 byte ethernet MAC assigned in uip.c, currently {0x00,0x06,0x98,0x00,0x02,0x32}
* This gets converted to a link layer address of [fe80::206:98ff:fe00:232]
* You could change the uip.c address when running multiple instances, however HARD_CODED_ADDRESS
* can also specify a different MAC address if any of the last three bytes are non-zero. It can also
* specify a prefix if any of the first four longs are nonzero. RPL builds use this to pass a prefix
* to the border router and also to ensure it has a different link-layer address from the RPL end node.
* HARD_CODED_ADDRESS can also be changed in /platform/minimal-net/contiki-main.c so as not to force complete
* rebuilds when making multiple instances of a minimal-net client.
*/
//#define HARD_CODED_ADDRESS "::10" //assign link-layer address fe80::ff:fe00:10, wait for RA or RPL prefix
//#define HARD_CODED_ADDRESS "fdfd::" //assign prefix; address becomes fdfd::206:98ff:fe00:232
//#define HARD_CODED_ADDRESS "fdfd::10" //assign prefix and ipv6 address fdfd::ff:fe00:10
/* The status.shtml page shows addresses, neighbors, and routes on ipv6 builds. Use this define to enable
* the needed routines in httpd-cgi.c on the webserver6 build. The status page is present in
* /apps/webserver/httpd-fs/ but not in the default /apps/webserver/httpd-fsdata.c file.
* To include it run the PERL script /../../tools/makefsdata from the /apps/webserver/ directory.
* NB: Webserver builds on all platforms will use the current httpd-fsdata.c file. The added 160 bytes
* could overflow memory on the smaller platforms.
*/
#define WEBSERVER_CONF_STATUSPAGE 1
/* RPL currently works only on Windows. *nix would require converting the tun interface to two pcap tees. */
//#define UIP_CONF_IPV6_RPL 0
//#define RPL_BORDER_ROUTER 0
#endif
#if UIP_CONF_IPV6_RPL
/* RPL motes use the uip.c link layer address or optionally the harded coded address (but without the prefix!)
* Different instances can be made by changing the link layer portion of HARD_CODED_ADDRESS in contiki-main.c
* Rename them to e.g. webserver6.10, webserver6.11, ...
* They should all attach to a minimal-net rpl border that uses the same primary interface.
* For multihop testing, configure intermediate notes as routers.
*/
#define HARD_CODED_ADDRESS "bbbb::10" //the prefix is ignored for a rpl node
#define UIP_CONF_ROUTER 0
#define UIP_CONF_ND6_SEND_RA 0
#define UIP_CONF_ND6_REACHABLE_TIME 600000
#define UIP_CONF_ND6_RETRANS_TIMER 10000
#if RPL_BORDER_ROUTER
/* RPL border router accepts packets from the host through the fallback and directs them to
* the primary interface. Thus the fallback and rpl dag prefix must be the same. The prefix of
* the primary interface does not matter!
* Rename this build to e.g. webrouter. Then on Windows create two loopback interfaces, bbbb:: and fdfd::
* Attach the RPL end nodes to fdfd:: and the webrouter to fdfd:: with bbbb:: as the fallback.
* Direct browser to bbbb::ff:fe00:1/status.html, bbbb::ff:fe00:10/status.html, bbbb::ff:fe00:20/status.html.
* The traffic will go through the bbbb:: interface to the router, then out the fdfd:: interface to the end
* nodes. The end nodes must be explicitly added as neighbors to avoid a blocking NS
* netsh interface ipv6 add neighbor bbbb::ff:fe00:10 33-33-ff-33-44-10 interface=16 (# of the bbbb interface)
* netsh interface ipv6 add neighbor bbbb::ff:fe00:20 33-33-ff-33-44-20 interface=16 (# of the bbbb interface)
*
* Instead of using the fdfd:: loopback it is also possible to attach the border router to another interface,
* e.g. the jackdaw RNDIS <-> repeater. Then RPL will configure on the radio network and the RF motes will
* be reached through bbbb::<mote link layer address>.
* Possibly minimal-net RPL motes could also be added to this interface?
*
*/
#undef UIP_CONF_ROUTER
#define UIP_CONF_ROUTER 1
//#define RPL_CONF_STATS 0
//#define UIP_CONF_BUFFER_SIZE 1300
#undef UIP_FALLBACK_INTERFACE
#define UIP_FALLBACK_INTERFACE rpl_interface
//#define WPCAP_FALLBACK_ADDRESS "bbbb::1" //bbbb::1 is the default fallback prefix
#undef HARD_CODED_ADDRESS
#define HARD_CODED_ADDRESS "bbbb::1" //bbbb::ff:fe00:1 is the RPL border router default
//#define UIP_CONF_ND6_SEND_RA 0
//#define UIP_CONF_ND6_REACHABLE_TIME 600000
//#define UIP_CONF_ND6_RETRANS_TIMER 10000
#endif
#endif
#define UIP_CONF_MAX_LISTENPORTS 40
#define UIP_CONF_MAX_CONNECTIONS 40
#define UIP_CONF_BYTE_ORDER UIP_LITTLE_ENDIAN
#define UIP_CONF_TCP_SPLIT 0
#define UIP_CONF_IP_FORWARD 0
#define UIP_CONF_LOGGING 0
#define UIP_CONF_UDP_CHECKSUMS 1
/* Not used but avoids compile errors while sicslowpan.c is being developed */
#define SICSLOWPAN_CONF_COMPRESSION SICSLOWPAN_COMPRESSION_HC06
#define UIP_CONF_UDP 1
#define UIP_CONF_TCP 1
#if UIP_CONF_IPV6
#define UIP_CONF_IPV6_QUEUE_PKT 1
#define UIP_CONF_IPV6_CHECKS 1
#define UIP_CONF_IPV6_REASSEMBLY 1
//#define UIP_CONF_NETIF_MAX_ADDRESSES 5
//#define UIP_CONF_ND6_MAX_PREFIXES 3
//#define UIP_CONF_ND6_MAX_NEIGHBORS 40
//#define UIP_CONF_ND6_MAX_DEFROUTERS 2
#define UIP_CONF_DS6_NBR_NBU 100
#define UIP_CONF_DS6_DEFRT_NBU 2
#define UIP_CONF_DS6_PREFIX_NBU 5
#define UIP_CONF_MAX_ROUTES 100
#define UIP_CONF_DS6_ADDR_NBU 10
#define UIP_CONF_DS6_MADDR_NBU 0
#define UIP_CONF_DS6_AADDR_NBU 0
#endif /* UIP_CONF_IPV6 */
typedef unsigned long clock_time_t;
#define CLOCK_CONF_SECOND 1000
#define INFINITE_TIME ULONG_MAX
#define LOG_CONF_ENABLED 1
/* Not part of C99 but actually present */
int strcasecmp(const char*, const char*);
#endif /* __CONTIKI_CONF_H__ */