/* 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 #include #include #include #include #include #include #include #include #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 \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 \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

\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 \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 \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 \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 \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 \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 \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 (0/1 default 0)\n" \ " ([ms] default 10)\n" \ " ([ms] default 5000)\n"\ " (0/1 default 1)\n"\ " ([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 \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

\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= 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; }