A quick effort to get W5500 working with easy connect. I removed other dependencies to reduce confusion. It is generally not a fork you want to look at.
Dependents: coap-example coap-example
easy-connect.h@0:e8ce78953d20, 2017-07-06 (annotated)
- Committer:
- sgnezdov
- Date:
- Thu Jul 06 06:54:08 2017 +0000
- Revision:
- 0:e8ce78953d20
Initial commit
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
sgnezdov | 0:e8ce78953d20 | 1 | #ifndef __EASY_CONNECT_H__ |
sgnezdov | 0:e8ce78953d20 | 2 | #define __EASY_CONNECT_H__ |
sgnezdov | 0:e8ce78953d20 | 3 | |
sgnezdov | 0:e8ce78953d20 | 4 | #include "mbed.h" |
sgnezdov | 0:e8ce78953d20 | 5 | |
sgnezdov | 0:e8ce78953d20 | 6 | #define ETHERNET 1 |
sgnezdov | 0:e8ce78953d20 | 7 | #define WIFI_ESP8266 0 |
sgnezdov | 0:e8ce78953d20 | 8 | #define MESH_LOWPAN_ND 0 |
sgnezdov | 0:e8ce78953d20 | 9 | #define MESH_THREAD 0 |
sgnezdov | 0:e8ce78953d20 | 10 | #define WIFI_ODIN 0 |
sgnezdov | 0:e8ce78953d20 | 11 | #define WIFI_REALTEK 0 |
sgnezdov | 0:e8ce78953d20 | 12 | |
sgnezdov | 0:e8ce78953d20 | 13 | #if MBED_CONF_APP_NETWORK_INTERFACE == WIFI_ESP8266 |
sgnezdov | 0:e8ce78953d20 | 14 | #include "ESP8266Interface.h" |
sgnezdov | 0:e8ce78953d20 | 15 | |
sgnezdov | 0:e8ce78953d20 | 16 | #ifdef MBED_CONF_APP_ESP8266_DEBUG |
sgnezdov | 0:e8ce78953d20 | 17 | ESP8266Interface wifi(MBED_CONF_APP_ESP8266_TX, MBED_CONF_APP_ESP8266_RX, MBED_CONF_APP_ESP8266_DEBUG); |
sgnezdov | 0:e8ce78953d20 | 18 | #else |
sgnezdov | 0:e8ce78953d20 | 19 | ESP8266Interface wifi(MBED_CONF_APP_ESP8266_TX, MBED_CONF_APP_ESP8266_RX); |
sgnezdov | 0:e8ce78953d20 | 20 | #endif |
sgnezdov | 0:e8ce78953d20 | 21 | |
sgnezdov | 0:e8ce78953d20 | 22 | #elif MBED_CONF_APP_NETWORK_INTERFACE == WIFI_ODIN |
sgnezdov | 0:e8ce78953d20 | 23 | #include "OdinWiFiInterface.h" |
sgnezdov | 0:e8ce78953d20 | 24 | |
sgnezdov | 0:e8ce78953d20 | 25 | OdinWiFiInterface wifi; |
sgnezdov | 0:e8ce78953d20 | 26 | #elif MBED_CONF_APP_NETWORK_INTERFACE == WIFI_REALTEK |
sgnezdov | 0:e8ce78953d20 | 27 | #include "RTWInterface.h" |
sgnezdov | 0:e8ce78953d20 | 28 | RTWInterface wifi; |
sgnezdov | 0:e8ce78953d20 | 29 | #elif MBED_CONF_APP_NETWORK_INTERFACE == ETHERNET |
sgnezdov | 0:e8ce78953d20 | 30 | //#include "EthernetInterface.h" |
sgnezdov | 0:e8ce78953d20 | 31 | //EthernetInterface eth; |
sgnezdov | 0:e8ce78953d20 | 32 | |
sgnezdov | 0:e8ce78953d20 | 33 | SPI spi(PA_7,PA_6,PA_5); // mosi, miso, sclk |
sgnezdov | 0:e8ce78953d20 | 34 | #include "W5500Interface.h" |
sgnezdov | 0:e8ce78953d20 | 35 | W5500Interface eth(&spi, PB_6, NC); // mosi, miso, sclk, cs, reset |
sgnezdov | 0:e8ce78953d20 | 36 | |
sgnezdov | 0:e8ce78953d20 | 37 | #include "DHCPClient.h" |
sgnezdov | 0:e8ce78953d20 | 38 | DHCPClient dhcp; |
sgnezdov | 0:e8ce78953d20 | 39 | |
sgnezdov | 0:e8ce78953d20 | 40 | #include "DNSClient.h" |
sgnezdov | 0:e8ce78953d20 | 41 | DNSClient dns; |
sgnezdov | 0:e8ce78953d20 | 42 | |
sgnezdov | 0:e8ce78953d20 | 43 | #include "nsapi_dns.h" |
sgnezdov | 0:e8ce78953d20 | 44 | |
sgnezdov | 0:e8ce78953d20 | 45 | #elif MBED_CONF_APP_NETWORK_INTERFACE == MESH_LOWPAN_ND |
sgnezdov | 0:e8ce78953d20 | 46 | #define MESH |
sgnezdov | 0:e8ce78953d20 | 47 | #include "NanostackInterface.h" |
sgnezdov | 0:e8ce78953d20 | 48 | LoWPANNDInterface mesh; |
sgnezdov | 0:e8ce78953d20 | 49 | #elif MBED_CONF_APP_NETWORK_INTERFACE == MESH_THREAD |
sgnezdov | 0:e8ce78953d20 | 50 | #define MESH |
sgnezdov | 0:e8ce78953d20 | 51 | #include "NanostackInterface.h" |
sgnezdov | 0:e8ce78953d20 | 52 | ThreadInterface mesh; |
sgnezdov | 0:e8ce78953d20 | 53 | #else |
sgnezdov | 0:e8ce78953d20 | 54 | #error "No connectivity method chosen. Please add 'config.network-interfaces.value' to your mbed_app.json (see README.md for more information)." |
sgnezdov | 0:e8ce78953d20 | 55 | #endif |
sgnezdov | 0:e8ce78953d20 | 56 | |
sgnezdov | 0:e8ce78953d20 | 57 | #if defined(MESH) |
sgnezdov | 0:e8ce78953d20 | 58 | #if MBED_CONF_APP_MESH_RADIO_TYPE == ATMEL |
sgnezdov | 0:e8ce78953d20 | 59 | #include "NanostackRfPhyAtmel.h" |
sgnezdov | 0:e8ce78953d20 | 60 | NanostackRfPhyAtmel rf_phy(ATMEL_SPI_MOSI, ATMEL_SPI_MISO, ATMEL_SPI_SCLK, ATMEL_SPI_CS, |
sgnezdov | 0:e8ce78953d20 | 61 | ATMEL_SPI_RST, ATMEL_SPI_SLP, ATMEL_SPI_IRQ, ATMEL_I2C_SDA, ATMEL_I2C_SCL); |
sgnezdov | 0:e8ce78953d20 | 62 | #elif MBED_CONF_APP_MESH_RADIO_TYPE == MCR20 |
sgnezdov | 0:e8ce78953d20 | 63 | #include "NanostackRfPhyMcr20a.h" |
sgnezdov | 0:e8ce78953d20 | 64 | NanostackRfPhyMcr20a rf_phy(MCR20A_SPI_MOSI, MCR20A_SPI_MISO, MCR20A_SPI_SCLK, MCR20A_SPI_CS, MCR20A_SPI_RST, MCR20A_SPI_IRQ); |
sgnezdov | 0:e8ce78953d20 | 65 | #elif MBED_CONF_APP_MESH_RADIO_TYPE == SPIRIT1 |
sgnezdov | 0:e8ce78953d20 | 66 | #include "NanostackRfPhySpirit1.h" |
sgnezdov | 0:e8ce78953d20 | 67 | NanostackRfPhySpirit1 rf_phy(SPIRIT1_SPI_MOSI, SPIRIT1_SPI_MISO, SPIRIT1_SPI_SCLK, |
sgnezdov | 0:e8ce78953d20 | 68 | SPIRIT1_DEV_IRQ, SPIRIT1_DEV_CS, SPIRIT1_DEV_SDN, SPIRIT1_BRD_LED); |
sgnezdov | 0:e8ce78953d20 | 69 | #endif //MBED_CONF_APP_RADIO_TYPE |
sgnezdov | 0:e8ce78953d20 | 70 | #endif //MESH |
sgnezdov | 0:e8ce78953d20 | 71 | |
sgnezdov | 0:e8ce78953d20 | 72 | #ifndef MESH |
sgnezdov | 0:e8ce78953d20 | 73 | // This is address to mbed Device Connector |
sgnezdov | 0:e8ce78953d20 | 74 | #define MBED_SERVER_ADDRESS "coap://api.connector.mbed.com:5684" |
sgnezdov | 0:e8ce78953d20 | 75 | #else |
sgnezdov | 0:e8ce78953d20 | 76 | // This is address to mbed Device Connector |
sgnezdov | 0:e8ce78953d20 | 77 | #define MBED_SERVER_ADDRESS "coaps://[2607:f0d0:2601:52::20]:5684" |
sgnezdov | 0:e8ce78953d20 | 78 | #endif |
sgnezdov | 0:e8ce78953d20 | 79 | |
sgnezdov | 0:e8ce78953d20 | 80 | #ifdef MBED_CONF_APP_ESP8266_SSID |
sgnezdov | 0:e8ce78953d20 | 81 | #define MBED_CONF_APP_WIFI_SSID MBED_CONF_APP_ESP8266_SSID |
sgnezdov | 0:e8ce78953d20 | 82 | #endif |
sgnezdov | 0:e8ce78953d20 | 83 | |
sgnezdov | 0:e8ce78953d20 | 84 | #ifdef MBED_CONF_APP_ESP8266_PASSWORD |
sgnezdov | 0:e8ce78953d20 | 85 | #define MBED_CONF_APP_WIFI_PASSWORD MBED_CONF_APP_ESP8266_PASSWORD |
sgnezdov | 0:e8ce78953d20 | 86 | #endif |
sgnezdov | 0:e8ce78953d20 | 87 | |
sgnezdov | 0:e8ce78953d20 | 88 | /* \brief print_MAC - print_MAC - helper function to print out MAC address |
sgnezdov | 0:e8ce78953d20 | 89 | * in: network_interface - pointer to network i/f |
sgnezdov | 0:e8ce78953d20 | 90 | * bool log-messages print out logs or not |
sgnezdov | 0:e8ce78953d20 | 91 | * MAC address is print, if it can be acquired & log_messages is true. |
sgnezdov | 0:e8ce78953d20 | 92 | * |
sgnezdov | 0:e8ce78953d20 | 93 | */ |
sgnezdov | 0:e8ce78953d20 | 94 | void print_MAC(NetworkInterface* network_interface, bool log_messages) { |
sgnezdov | 0:e8ce78953d20 | 95 | const char *mac_addr = network_interface->get_mac_address(); |
sgnezdov | 0:e8ce78953d20 | 96 | if (mac_addr == NULL) { |
sgnezdov | 0:e8ce78953d20 | 97 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 98 | printf("[EasyConnect] ERROR - No MAC address\n"); |
sgnezdov | 0:e8ce78953d20 | 99 | } |
sgnezdov | 0:e8ce78953d20 | 100 | return; |
sgnezdov | 0:e8ce78953d20 | 101 | } |
sgnezdov | 0:e8ce78953d20 | 102 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 103 | printf("[EasyConnect] MAC address %s\n", mac_addr); |
sgnezdov | 0:e8ce78953d20 | 104 | } |
sgnezdov | 0:e8ce78953d20 | 105 | } |
sgnezdov | 0:e8ce78953d20 | 106 | |
sgnezdov | 0:e8ce78953d20 | 107 | |
sgnezdov | 0:e8ce78953d20 | 108 | /* \brief easy_connect - easy_connect function to connect the pre-defined network bearer, |
sgnezdov | 0:e8ce78953d20 | 109 | * config done via mbed_app.json (see README.md for details). |
sgnezdov | 0:e8ce78953d20 | 110 | * IN: bool log_messages print out diagnostics or not. |
sgnezdov | 0:e8ce78953d20 | 111 | * |
sgnezdov | 0:e8ce78953d20 | 112 | */ |
sgnezdov | 0:e8ce78953d20 | 113 | NetworkInterface* easy_connect(bool log_messages = false) { |
sgnezdov | 0:e8ce78953d20 | 114 | NetworkInterface* network_interface = 0; |
sgnezdov | 0:e8ce78953d20 | 115 | int connect_success = -1; |
sgnezdov | 0:e8ce78953d20 | 116 | /// This should be removed once mbedOS supports proper dual-stack |
sgnezdov | 0:e8ce78953d20 | 117 | #if defined (MESH) || (MBED_CONF_LWIP_IPV6_ENABLED==true) |
sgnezdov | 0:e8ce78953d20 | 118 | printf("[EasyConnect] IPv6 mode\n"); |
sgnezdov | 0:e8ce78953d20 | 119 | #else |
sgnezdov | 0:e8ce78953d20 | 120 | printf("[EasyConnect] IPv4 mode\n"); |
sgnezdov | 0:e8ce78953d20 | 121 | #endif |
sgnezdov | 0:e8ce78953d20 | 122 | |
sgnezdov | 0:e8ce78953d20 | 123 | #if MBED_CONF_APP_NETWORK_INTERFACE == WIFI_ESP8266 |
sgnezdov | 0:e8ce78953d20 | 124 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 125 | printf("[EasyConnect] Using WiFi (ESP8266) \n"); |
sgnezdov | 0:e8ce78953d20 | 126 | printf("[EasyConnect] Connecting to WiFi %s\n", MBED_CONF_APP_WIFI_SSID); |
sgnezdov | 0:e8ce78953d20 | 127 | } |
sgnezdov | 0:e8ce78953d20 | 128 | network_interface = &wifi; |
sgnezdov | 0:e8ce78953d20 | 129 | connect_success = wifi.connect(MBED_CONF_APP_WIFI_SSID, MBED_CONF_APP_WIFI_PASSWORD, NSAPI_SECURITY_WPA_WPA2); |
sgnezdov | 0:e8ce78953d20 | 130 | #elif MBED_CONF_APP_NETWORK_INTERFACE == WIFI_ODIN |
sgnezdov | 0:e8ce78953d20 | 131 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 132 | printf("[EasyConnect] Using WiFi (ODIN) \n"); |
sgnezdov | 0:e8ce78953d20 | 133 | printf("[EasyConnect] Connecting to WiFi %s\n", MBED_CONF_APP_WIFI_SSID); |
sgnezdov | 0:e8ce78953d20 | 134 | } |
sgnezdov | 0:e8ce78953d20 | 135 | network_interface = &wifi; |
sgnezdov | 0:e8ce78953d20 | 136 | connect_success = wifi.connect(MBED_CONF_APP_WIFI_SSID, MBED_CONF_APP_WIFI_PASSWORD, NSAPI_SECURITY_WPA_WPA2); |
sgnezdov | 0:e8ce78953d20 | 137 | #elif MBED_CONF_APP_NETWORK_INTERFACE == WIFI_REALTEK |
sgnezdov | 0:e8ce78953d20 | 138 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 139 | printf("[EasyConnect] Using WiFi (REALTEK)\n"); |
sgnezdov | 0:e8ce78953d20 | 140 | printf("[EasyConnect] Connecting to WiFi %s\n", MBED_CONF_APP_WIFI_SSID); |
sgnezdov | 0:e8ce78953d20 | 141 | } |
sgnezdov | 0:e8ce78953d20 | 142 | network_interface = &wifi; |
sgnezdov | 0:e8ce78953d20 | 143 | connect_success = wifi.connect(MBED_CONF_APP_WIFI_SSID, MBED_CONF_APP_WIFI_PASSWORD, NSAPI_SECURITY_WPA_WPA2); |
sgnezdov | 0:e8ce78953d20 | 144 | #elif MBED_CONF_APP_NETWORK_INTERFACE == ETHERNET |
sgnezdov | 0:e8ce78953d20 | 145 | |
sgnezdov | 0:e8ce78953d20 | 146 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 147 | printf("[EasyConnect] Ethernet...\n"); |
sgnezdov | 0:e8ce78953d20 | 148 | } |
sgnezdov | 0:e8ce78953d20 | 149 | |
sgnezdov | 0:e8ce78953d20 | 150 | spi.format(32, 0); |
sgnezdov | 0:e8ce78953d20 | 151 | spi.frequency(100000); |
sgnezdov | 0:e8ce78953d20 | 152 | |
sgnezdov | 0:e8ce78953d20 | 153 | printf("Wait for SPI...\r\n"); |
sgnezdov | 0:e8ce78953d20 | 154 | wait(1); |
sgnezdov | 0:e8ce78953d20 | 155 | |
sgnezdov | 0:e8ce78953d20 | 156 | printf("Network Setting DHCP\r\n"); |
sgnezdov | 0:e8ce78953d20 | 157 | uint8_t mac_addr[6] = {0x00, 0x08, 0xdc, 0x45, 0x56, 0x67}; |
sgnezdov | 0:e8ce78953d20 | 158 | |
sgnezdov | 0:e8ce78953d20 | 159 | printf("Init with MAC address\n"); |
sgnezdov | 0:e8ce78953d20 | 160 | eth.init(mac_addr); |
sgnezdov | 0:e8ce78953d20 | 161 | |
sgnezdov | 0:e8ce78953d20 | 162 | int timeout_ms = 15*1000; |
sgnezdov | 0:e8ce78953d20 | 163 | int err = dhcp.setup(ð, mac_addr, timeout_ms); |
sgnezdov | 0:e8ce78953d20 | 164 | if (err == (-1)) { |
sgnezdov | 0:e8ce78953d20 | 165 | printf("Timeout.\n"); |
sgnezdov | 0:e8ce78953d20 | 166 | return NULL; |
sgnezdov | 0:e8ce78953d20 | 167 | } |
sgnezdov | 0:e8ce78953d20 | 168 | printf("DHCP completed\n"); |
sgnezdov | 0:e8ce78953d20 | 169 | printf("Connected, IP: %d.%d.%d.%d\r\n", dhcp.yiaddr[0], dhcp.yiaddr[1], dhcp.yiaddr[2], dhcp.yiaddr[3]); |
sgnezdov | 0:e8ce78953d20 | 170 | char ip[24], gateway[24], netmask[24], dnsaddr[24]; |
sgnezdov | 0:e8ce78953d20 | 171 | sprintf(ip, "%d.%d.%d.%d", dhcp.yiaddr[0], dhcp.yiaddr[1], dhcp.yiaddr[2], dhcp.yiaddr[3]); |
sgnezdov | 0:e8ce78953d20 | 172 | sprintf(gateway, "%d.%d.%d.%d", dhcp.gateway[0], dhcp.gateway[1], dhcp.gateway[2], dhcp.gateway[3]); |
sgnezdov | 0:e8ce78953d20 | 173 | sprintf(netmask, "%d.%d.%d.%d", dhcp.netmask[0], dhcp.netmask[1], dhcp.netmask[2], dhcp.netmask[3]); |
sgnezdov | 0:e8ce78953d20 | 174 | sprintf(dnsaddr, "%d.%d.%d.%d", dhcp.dnsaddr[0], dhcp.dnsaddr[1], dhcp.dnsaddr[2], dhcp.dnsaddr[3]); |
sgnezdov | 0:e8ce78953d20 | 175 | eth.init(ip, netmask, gateway); |
sgnezdov | 0:e8ce78953d20 | 176 | |
sgnezdov | 0:e8ce78953d20 | 177 | dns.setup(ð); |
sgnezdov | 0:e8ce78953d20 | 178 | dns.set_server(dnsaddr); |
sgnezdov | 0:e8ce78953d20 | 179 | bool isOK = dns.lookup("coap.me"); |
sgnezdov | 0:e8ce78953d20 | 180 | if (isOK) { |
sgnezdov | 0:e8ce78953d20 | 181 | printf("is ok\n"); |
sgnezdov | 0:e8ce78953d20 | 182 | uint32_t hIP = dns.get_ip(); |
sgnezdov | 0:e8ce78953d20 | 183 | printf("coap.me IP: %u\n", hIP); |
sgnezdov | 0:e8ce78953d20 | 184 | } else { |
sgnezdov | 0:e8ce78953d20 | 185 | printf("coap.me IP is not ok\n"); |
sgnezdov | 0:e8ce78953d20 | 186 | } |
sgnezdov | 0:e8ce78953d20 | 187 | |
sgnezdov | 0:e8ce78953d20 | 188 | |
sgnezdov | 0:e8ce78953d20 | 189 | const SocketAddress dns_sa = SocketAddress((const void *)&dhcp.dnsaddr[0], NSAPI_IPv4, 53); |
sgnezdov | 0:e8ce78953d20 | 190 | nsapi_error_t nsErr = nsapi_dns_add_server(dns_sa); |
sgnezdov | 0:e8ce78953d20 | 191 | if (nsErr) { |
sgnezdov | 0:e8ce78953d20 | 192 | printf("[EasyConnect] error adding DNS entry: %d\n", nsErr); |
sgnezdov | 0:e8ce78953d20 | 193 | } |
sgnezdov | 0:e8ce78953d20 | 194 | printf("[EasyConnect] DNS IP: %s\n", dns_sa.get_ip_address()); |
sgnezdov | 0:e8ce78953d20 | 195 | |
sgnezdov | 0:e8ce78953d20 | 196 | SocketAddress coap_sa; |
sgnezdov | 0:e8ce78953d20 | 197 | nsErr = nsapi_dns_query(ð, "coap.me", &coap_sa, NSAPI_IPv4); |
sgnezdov | 0:e8ce78953d20 | 198 | if (nsErr) { |
sgnezdov | 0:e8ce78953d20 | 199 | printf("[EasyConnect] error resolving coap.me: %d\n", nsErr); |
sgnezdov | 0:e8ce78953d20 | 200 | } |
sgnezdov | 0:e8ce78953d20 | 201 | |
sgnezdov | 0:e8ce78953d20 | 202 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 203 | printf("[EasyConnect] Using Ethernet\n"); |
sgnezdov | 0:e8ce78953d20 | 204 | } |
sgnezdov | 0:e8ce78953d20 | 205 | network_interface = ð |
sgnezdov | 0:e8ce78953d20 | 206 | connect_success = eth.connect(); |
sgnezdov | 0:e8ce78953d20 | 207 | #endif |
sgnezdov | 0:e8ce78953d20 | 208 | |
sgnezdov | 0:e8ce78953d20 | 209 | #ifdef MESH |
sgnezdov | 0:e8ce78953d20 | 210 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 211 | printf("[EasyConnect] Using Mesh\n"); |
sgnezdov | 0:e8ce78953d20 | 212 | printf("[EasyConnect] Connecting to Mesh..\n"); |
sgnezdov | 0:e8ce78953d20 | 213 | } |
sgnezdov | 0:e8ce78953d20 | 214 | network_interface = &mesh; |
sgnezdov | 0:e8ce78953d20 | 215 | mesh.initialize(&rf_phy); |
sgnezdov | 0:e8ce78953d20 | 216 | connect_success = mesh.connect(); |
sgnezdov | 0:e8ce78953d20 | 217 | #endif |
sgnezdov | 0:e8ce78953d20 | 218 | if(connect_success == 0) { |
sgnezdov | 0:e8ce78953d20 | 219 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 220 | printf("[EasyConnect] Connected to Network successfully\n"); |
sgnezdov | 0:e8ce78953d20 | 221 | print_MAC(network_interface, log_messages); |
sgnezdov | 0:e8ce78953d20 | 222 | } |
sgnezdov | 0:e8ce78953d20 | 223 | } else { |
sgnezdov | 0:e8ce78953d20 | 224 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 225 | print_MAC(network_interface, log_messages); |
sgnezdov | 0:e8ce78953d20 | 226 | printf("[EasyConnect] Connection to Network Failed %d!\n", connect_success); |
sgnezdov | 0:e8ce78953d20 | 227 | } |
sgnezdov | 0:e8ce78953d20 | 228 | return NULL; |
sgnezdov | 0:e8ce78953d20 | 229 | } |
sgnezdov | 0:e8ce78953d20 | 230 | const char *ip_addr = network_interface->get_ip_address(); |
sgnezdov | 0:e8ce78953d20 | 231 | if (ip_addr == NULL) { |
sgnezdov | 0:e8ce78953d20 | 232 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 233 | printf("[EasyConnect] ERROR - No IP address\n"); |
sgnezdov | 0:e8ce78953d20 | 234 | } |
sgnezdov | 0:e8ce78953d20 | 235 | return NULL; |
sgnezdov | 0:e8ce78953d20 | 236 | } |
sgnezdov | 0:e8ce78953d20 | 237 | if (log_messages) { |
sgnezdov | 0:e8ce78953d20 | 238 | printf("[EasyConnect] IP address %s\n", ip_addr); |
sgnezdov | 0:e8ce78953d20 | 239 | } |
sgnezdov | 0:e8ce78953d20 | 240 | return network_interface; |
sgnezdov | 0:e8ce78953d20 | 241 | } |
sgnezdov | 0:e8ce78953d20 | 242 | |
sgnezdov | 0:e8ce78953d20 | 243 | #endif // __EASY_CONNECT_H__ |