weatherstation/firmware/libraries/WiFi/extras/wifiHD/src/cmd_wl.c
Aaron Fischer f24858d162 Move all dependencies to the repository
This step seems bold, but is saves us so much hassle. Even better, we have a
reliable codebase, with all the dependencies (and their versions) we
need in order to build the project. If a library got an update, we can
replace it inplace if the code is still compatible.
2019-02-03 16:15:00 +01:00

731 lines
20 KiB
C

/* This source file is part of the ATMEL AVR-UC3-SoftwareFramework-1.7.0 Release */
/*! \page License
* Copyright (C) 2009, H&D Wireless AB 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. The name of H&D Wireless AB may not be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY H&D WIRELESS AB ``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 EXPRESSLY AND
* SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL 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.
*/
#include <top_defs.h>
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#include <cmd_wl.h>
#include <wl_cm.h>
#include <console.h>
#include <util.h>
#include <lwip_setup.h>
#include "lwip/netif.h"
#include "lwip/dns.h"
#include "debug.h"
#include "ard_spi.h"
#include "ard_tcp.h"
#include "ard_utils.h"
extern void showTTCPstatus();
#define _DNS_CMD_
/**
*
*/
cmd_state_t
cmd_scan(int argc, char* argv[], void* ctx)
{
/* Note that the scan results presented will
* be from the last scan, not this one.
*/
wl_scan();
print_network_list();
return CMD_DONE;
}
cmd_state_t
cmd_debug_toggle(int argc, char* argv[], void* ctx)
{
extern uint8_t tr_data_trace;
if ( argc != 2 ) {
printk("usage: dt <1|0>\n");
return CMD_DONE;
}
if ( '0' == argv[1][0] ) {
tr_data_trace = 0;
}
if ( '1' == argv[1][0] ) {
tr_data_trace = 1;
}
return CMD_DONE;
}
/**
*
*/
cmd_state_t
cmd_connect(int argc, char* argv[], void* ctx)
{
struct wl_ssid_t ssid;
char desired_ssid[WL_SSID_MAX_LENGTH];
int len = 0;
if (argc < 2) {
printk("usage: connect <ssid>\n");
return CMD_DONE;
}
len = join_argv(desired_ssid, sizeof desired_ssid, argc - 1, argv + 1);
if (0 == len) {
return CMD_DONE;
}
memcpy(ssid.ssid, desired_ssid, len);
ssid.len = len;
/* Start connection manager */
wl_cm_set_network(&ssid, NULL);
wl_cm_start();
return CMD_DONE;
}
#ifdef WFE_6_12
cmd_state_t
cmd_ibss(int argc, char* argv[], void* ctx)
{
struct wl_ssid_t ssid;
char desired_ssid[WL_SSID_MAX_LENGTH];
uint8_t channel;
enum wl_auth_mode amode;
int len = 0;
wl_err_t ret;
if ( 2 == argc && ! strncmp(argv[1], "none", 4) ) {
printk("Disconnecting\n");
wl_disconnect();
wl_cm_stop();
return CMD_DONE;
}
if (argc < 4) {
printk("usage: ibss <ssid> <channel (1-14)> <wep_enable (1|0)>\n");
printk(" ibss none\n");
return CMD_DONE;
}
channel = atoi(argv[argc - 2]);
if ( *argv[argc - 1] == '0' ) {
amode = AUTH_MODE_OPEN_SYSTEM;
} else {
amode = AUTH_MODE_SHARED_KEY;
}
len = join_argv(desired_ssid, sizeof desired_ssid, argc - 3, argv + 1);
if (0 == len) {
return CMD_DONE;
}
if ( channel > 14 ) {
printk("Invalid channel %d\n", (int)channel);
return CMD_DONE;
}
printk("%s : Start with ssid \"%s\", channel %d\n", __func__,
desired_ssid, channel);
memcpy(ssid.ssid, desired_ssid, len);
ssid.len = len;
/* Stop the connection manager */
wl_cm_stop();
ret = wl_start_adhoc_net(ssid, channel, amode);
switch (ret) {
case WL_BUSY:
printk("Driver is busy. Already connected?\n");
break;
case WL_RETRY:
printk("Driver is busy. Retry operation\n");
break;
case WL_OOM:
printk("Out of memory\n");
break;
case WL_INVALID_ARGS:
printk("Invalid argument\n");
break;
case WL_SUCCESS:
break;
default:
printk("Unknown error %d\n", ret);
break;
}
return CMD_DONE;
}
#endif
/**
*
*/
cmd_state_t
cmd_set_ip(int argc, char* argv[], void* ctx)
{
struct ctx_server *hs = ctx;
struct net_cfg *ncfg = &(hs->net_cfg);
struct ip_addr lwip_addr;
struct netif *nif = ncfg->netif;
if (argc == 2 &&
(strncmp(argv[1], "none", 4) == 0)) {
ncfg->dhcp_enabled = DYNAMIC_IP_CONFIG;
return CMD_DONE;
}
else if (argc != 4 ) {
printk("usage: ipconfig <ip> <netmask> <gateway-ip>\n");
printk(" or : ipconfig none (to enable DHCP)\n");
return CMD_DONE;
}
/* IP address */
lwip_addr = str2ip(argv[1]);
INFO_SPI("nif:%p lwip_addr=0x%x\n", nif, lwip_addr.addr);
netif_set_ipaddr(nif, &lwip_addr);
/* Netmask */
lwip_addr = str2ip(argv[2]);
netif_set_netmask(nif, &lwip_addr);
/* Default Gateway address */
lwip_addr = str2ip(argv[3]);
netif_set_gw(nif, &lwip_addr);
/* Disable DHCP */
ncfg->dhcp_enabled = STATIC_IP_CONFIG;
return CMD_DONE;
}
#ifdef WITH_WPA
/**
*
*/
cmd_state_t
cmd_delpass(int argc, char* argv[], void* ctx)
{
const char *usage = "usage: dpass <ssid>\n";
struct wl_network_t net;
char desired_ssid[WL_SSID_MAX_LENGTH];
int len = 0;
if (argc != 2) {
printk(usage);
return CMD_DONE;
}
memset(&net, 0, sizeof net);
memset(net.bssid.octet, 0xFF, sizeof net.bssid.octet);
len = join_argv(desired_ssid, sizeof desired_ssid, argc - 1, argv + 1);
if (0 == len) {
return CMD_DONE;
}
memcpy(net.ssid.ssid, desired_ssid, len);
net.ssid.len = len;
net.enc_type = ENC_TYPE_AUTO;
if (wl_clear_passphrase(&net) != WL_SUCCESS) {
printk("%s : Failed to delete passphrase\n", __func__);
}
return CMD_DONE;
}
/**
*
*/
cmd_state_t
cmd_setpass(int argc, char* argv[], void* ctx)
{
const char *usage = "usage: wpass <ssid> <passphrase>\n";
struct wl_network_t net;
char desired_ssid[WL_SSID_MAX_LENGTH];
int len = 0;
if (argc < 3) {
printk(usage);
return CMD_DONE;
}
/* Not really kosher, an ssid may legally contain 0-bytes but
* the console interface does not deal with that.
*/
memset(&net, 0, sizeof net);
memset(net.bssid.octet, 0xFF, sizeof net.bssid.octet);
len = join_argv(desired_ssid, sizeof desired_ssid, argc - 2, argv + 1);
if (0 == len) {
return CMD_DONE;
}
memcpy(net.ssid.ssid, desired_ssid, len);
net.ssid.len = len;
net.enc_type = ENC_TYPE_AUTO;
if (wl_set_passphrase(&net,
argv[argc - 1],
strlen(argv[argc - 1]),
ENC_TYPE_AUTO,
AUTH_MODE_AUTO)
!= WL_SUCCESS) {
printk("%s : Failed to add passphrase\n", __func__);
}
return CMD_DONE;
}
#endif
#ifdef _DNS_CMD_
void foundHost(const char *name, struct ip_addr *ipaddr, void *callback_arg)
{
printk("Found Host: name=%s ip=0x%x\n", name, ipaddr->addr);
}
/**
*
*/
cmd_state_t
cmd_gethostbyname(int argc, char* argv[], void* ctx)
{
const char *usage = "usage: getHost <hostname>\n";
char hostname[DNS_MAX_NAME_LENGTH];
struct ip_addr _addr;
int len = 0;
if (argc < 2) {
printk(usage);
return CMD_DONE;
}
len = join_argv(hostname, sizeof hostname, argc - 1, argv + 1);
if (0 == len) {
return CMD_DONE;
}
err_t err = dns_gethostbyname(hostname, &_addr, foundHost, NULL);
if (err == ERR_OK)
{
printk("Found Host: name=%s ip=0x%x\n", hostname, _addr.addr);
}
return CMD_DONE;
}
/**
*
*/
cmd_state_t
cmd_setDnsServer(int argc, char* argv[], void* ctx)
{
const char *usage = "usage: setdns [1-2] aaa.bbb.ccc.ddd\n";
struct ip_addr dnsIp;
int dnsIdx = 0;
if (argc < 3) {
printk(usage);
return CMD_DONE;
}
/* DNS IDX */
dnsIdx = atoi(argv[1])-1;
/* IP address */
dnsIp = str2ip(argv[2]);
printk("Set DNS server %d to %s\n", dnsIdx, ip2str(dnsIp));
dns_setserver(dnsIdx, &dnsIp);
struct ip_addr addr1 = dns_getserver(0);
struct ip_addr addr2 = dns_getserver(1);
printk("==> DNS1: %s\n", ip2str(addr1), addr1);
printk("==> DNS2: %s\n", ip2str(addr2), addr2);
return CMD_DONE;
}
/**
*
*/
cmd_state_t
cmd_startSrv(int argc, char* argv[], void* ctx)
{
const char *usage = "usage: startSrv <port> <sock> <tcp(0)/udp(1)>\n";
int port = 0;
int sock = 0;
int protMode = 0;
if (argc < 4) {
printk(usage);
return CMD_DONE;
}
/* TCP port */
port = atoi(argv[1]);
/* socket index */
sock = atoi(argv[2]);
/* Protocol Mode */
protMode = atoi(argv[3]);
printk("Start %s server on port %d sock %d\n", ProtMode2Str(protMode), port, sock);
if (start_server_tcp(port, sock, protMode) == -1)
{
WARN("Start %s server on port %d sock %d FAILED\n", ProtMode2Str(protMode), port, sock);
}
return CMD_DONE;
}
/**
*
*/
cmd_state_t
cmd_startCli(int argc, char* argv[], void* ctx)
{
const char *usage = "usage: startCli <ipaddr> <port> <sock> <tcp(0)/udp(1)>\n";
struct ip_addr addr = {0};
int port = 0;
int sock = 0;
int protMode = 0;
if (argc < 5) {
printk(usage);
return CMD_DONE;
}
/* IP address */
addr = str2ip(argv[1]);
/* TCP port */
port = atoi(argv[2]);
/* socket index */
sock = atoi(argv[3]);
/* Protocol Mode */
protMode = atoi(argv[4]);
printk("Start client on addr 0x%x, port %d sock %d mode %d\n", addr, port, sock, protMode);
if (start_client_tcp(addr.addr, port, sock, protMode) == -1)
{
WARN("Start client on port %d sock %d prot %d mode %d FAILED\n", port, sock, protMode);
}
return CMD_DONE;
}
#endif
/**
*
*/
cmd_state_t
cmd_status(int argc, char* argv[], void* ctx)
{
struct net_cfg *ncfg = ctx;
struct wl_network_t* net;
uint8_t mac[WL_MAC_ADDR_LENGTH];
printk("wl_api version " WL_API_RELEASE_NAME "\n");
/* print mac address */
if (wl_get_mac_addr(mac) != WL_SUCCESS) {
printk("failed to get mac address\n");
}else{
printk("hw addr: %s\n", mac2str(mac));
}
/* print network info */
net = wl_get_current_network();
printk("link status: ");
if (!net) {
printk("down\n");
}else{
print_network(net);
}
/* print ip address */
if (netif_is_up(netif_default))
{
printk("ip addr: %s - ", ip2str(netif_default->ip_addr));
printk("netmask: %s - ", ip2str(netif_default->netmask));
printk("gateway: %s\n", ip2str(netif_default->gw));
}
else
printk("ip interface is down\n");
printk("dhcp : ");
if (ncfg->dhcp_enabled == DYNAMIC_IP_CONFIG) {
printk("enabled\n");
}
else {
printk("disabled\n");
}
struct ip_addr addr1 = dns_getserver(0);
struct ip_addr addr2 = dns_getserver(1);
printk("DNS: %s - ", ip2str(addr1));
printk("%s\n", ip2str(addr2));
showTTCPstatus();
return CMD_DONE;
}
#ifdef ADD_CMDS
/**
*
*/
cmd_state_t
cmd_power(int argc, char* argv[], void* ctx)
{
const char *usage = "usage: powersave <on|off>\n";
if (argc < 2) {
printk(usage);
return CMD_DONE;
}
if (!strcmp(argv[1], "on")) {
if (wl_enable_ps() != WL_SUCCESS) {
printk("could not enable power save\n");
return CMD_DONE;
}
return CMD_DONE;
}
else if(!strcmp(argv[1], "off")) {
if (wl_disable_ps() != WL_SUCCESS) {
printk("could not disable power save\n");
return CMD_DONE;
}
return CMD_DONE;
}
printk(usage);
return CMD_DONE;
}
#endif
#ifdef ADD_CMDS
/**
*
*/
cmd_state_t
cmd_psconf(int argc, char* argv[], void* ctx)
{
const char *usage =
"usage: psconf <use_ps_poll> (0/1 default 0)\n" \
" <traffic_timeout> ([ms] default 10)\n" \
" <ps_delay> ([ms] default 5000)\n"\
" <rx_all_dtim> (0/1 default 1)\n"\
" <listen_interval> ([beacons] default 20)\n";
uint8_t use_ps_poll;
uint32_t traffic_timeout;
uint32_t ps_delay;
uint8_t rx_all_dtim;
uint16_t listen_interval;
if (argc < 6) {
printk(usage);
return CMD_DONE;
}
use_ps_poll = atoi(argv[1]);
traffic_timeout = atoi(argv[2]);
ps_delay = atoi(argv[3]);
rx_all_dtim = atoi(argv[4]);
listen_interval = atoi(argv[5]);
if (use_ps_poll > 1) {
printk(usage);
return CMD_DONE;
}
if (rx_all_dtim > 1) {
printk(usage);
return CMD_DONE;
}
if (wl_conf_ps(use_ps_poll, traffic_timeout, ps_delay,
rx_all_dtim, listen_interval) != WL_SUCCESS)
printk("configuration failed\n");
return CMD_DONE;
}
#endif
/**
*
*/
cmd_state_t
cmd_setkey(int argc, char* argv[], void* ctx)
{
int idx, len;
char key[13];
struct wl_mac_addr_t bssid;
const char *usage = "usage: setkey <key_idx (0-3)> <key in hex>\n\t "\
"or: setkey none\n";
memset(&bssid.octet, 0xff, sizeof bssid.octet);
if (argc == 2 && strcmp(argv[1], "none") == 0) {
printk("Deleting WEP keys\n");
wl_delete_wep_key(0, &bssid);
wl_delete_wep_key(1, &bssid);
wl_delete_wep_key(2, &bssid);
wl_delete_wep_key(3, &bssid);
return CMD_DONE;
}
if (argc < 3) {
printk(usage);
return CMD_DONE;
}
idx = atoi(argv[1]);
len = strlen(argv[2]);
/* Pass phrase? */
if ( 5 == len || 13 == len ) {
strncpy(key, argv[2], len);
}
/* Otherwise it's a hex string */
else {
len = ascii_to_key(key, argv[2]);
if (0 == len || idx > 3 || idx < 0 || (idx == 0 && *argv[1] != '0')) {
printk(usage);
return CMD_DONE;
}
if (len != 5 && len != 13) {
printk(" WEP key must be 10 (WEP-40) or 26 (WEP-104) digits\n");
return CMD_DONE;
}
}
wl_add_wep_key(idx, len, key, &bssid);
wl_set_default_wep_key(idx);
return CMD_DONE;
}
cmd_state_t
cmd_debug(int argc, char* argv[], void* ctx)
{
int level;
const char *usage = "usage: debug <section> <level>\n\t"\
"section: init, cm, spi, tcp , util, warn\n\t"
"level : 0 (off), 1 (on), 2 (verbose)\n\t"
"or: debug print/on/off\n";
if (argc == 2 && strcmp(argv[1], "off") == 0) {
printk("Debug OFF\n");
INIT_DEBUG_VARIABLES()
return CMD_DONE;
}else if (argc == 2 && strcmp(argv[1], "print") == 0) {
PRINT_DEBUG_VARIABLES()
return CMD_DONE;
}else if (argc == 2 && strcmp(argv[1], "on") == 0) {
printk("Debug ON\n");
TURNON_DEBUG_VARIABLES();
return CMD_DONE;
}
if (argc < 3) {
printk(usage);
return CMD_DONE;
}
level = atoi(argv[2]);
if (argc == 3 && strcmp(argv[1], "init") == 0) {
CHECK_DEBUG_LEVEL(level, INFO_INIT_FLAG);
}else if (argc == 3 && strcmp(argv[1], "spi") == 0) {
CHECK_DEBUG_LEVEL(level, INFO_SPI_FLAG);
}else if (argc == 3 && strcmp(argv[1], "tcp") == 0) {
CHECK_DEBUG_LEVEL(level, INFO_TCP_FLAG);
}else if (argc == 3 && strcmp(argv[1], "cm") == 0) {
CHECK_DEBUG_LEVEL(level, INFO_CM_FLAG);
}else if (argc == 3 && strcmp(argv[1], "util") == 0) {
CHECK_DEBUG_LEVEL(level, INFO_UTIL_FLAG);
}else if (argc == 3 && strcmp(argv[1], "warn") == 0) {
CHECK_DEBUG_LEVEL(level, INFO_WARN_FLAG);
}
return CMD_DONE;
}
extern void dumpPbuf(uint8_t sock);
/**
*
*/
cmd_state_t
cmd_dumpBuf(int argc, char* argv[], void* ctx)
{
const char *usage = "usage: dumpPbuf [sock]\n\t"\
"sock: socket Number\n";
if (argc == 2 && strcmp(argv[1], "all") == 0) {
printk("Dump All Buffers\n");
int i = 0;
for (; i<MAX_SOCK_NUM; ++i)
{
printk("Socket: %d\n", i);
dumpPbuf(i);
}
}else if (argc == 2) {
uint8_t sock = atoi(argv[1]);
printk("Socket: %d\n", sock);
dumpPbuf(sock);
}else {
printk(usage);
}
return CMD_DONE;
}
/**
*
*/
cmd_state_t
cmd_sendUdpData(int argc, char* argv[], void* ctx)
{
const char pattern[]={'M', 'I', 'M', 'L', 'F', 'D'};
const char* pattern2[]={"Prova", "1234567890","FineTest"};
const char *usage = "usage: sendUdp [sock]\n\t"\
"sock: socket Number\n";
if (argc < 2)
printk(usage);
if (argc >= 2) {
uint8_t sock = atoi(argv[1]);
printk("Socket: %d\n", sock);
if (argc >= 3) {
uint8_t patternType = atoi(argv[2]);
printk("PatternType: %d\n", patternType);
if (patternType == 1)
{
insertBuf(sock, (uint8_t*)pattern2[0], strlen(pattern2[0]));
insertBuf(sock, (uint8_t*)pattern2[1], strlen(pattern2[1]));
insertBuf(sock, (uint8_t*)pattern2[2], strlen(pattern2[2]));
}
if (patternType == 2)
{
mergeBuf(sock, NULL, NULL);
}
}else{
if (sock < MAX_SOCK_NUM)
{
sendUdpData(getTTCP(sock, TTCP_MODE_TRANSMIT), (uint8_t*)pattern, sizeof(pattern)/sizeof(char));
}
}
}
return CMD_DONE;
}