/** * \brief Initialize the lwIP TCP/IP stack with the network interface driver. */ void init_ethernet(void) { /* Initialize lwIP. */ lwip_init(); /* Set hw and IP parameters, initialize MAC too. */ ethernet_configure_interface(); /* Initialize timer. */ sys_init_timing(); }
static LONGLONG sys_get_ms_longlong() { LONGLONG ret; LARGE_INTEGER now; #if NO_SYS if (freq.QuadPart == 0) { sys_init_timing(); } #endif /* NO_SYS */ QueryPerformanceCounter(&now); ret = now.QuadPart-sys_start_time.QuadPart; return (u32_t)(((ret)*1000)/freq.QuadPart); }
/** * \brief Create ethernet task, for ethernet management. */ void init_ethernet(void) { /** Initialize lwIP */ lwip_init(); /** Init timer service */ sys_init_timing(); /** Set hw and IP parameters, initialize MAC too */ ethernet_configure_interface(); #if defined(HTTP_RAW_USED) /** Bring up the web server */ http_init(); #endif }
/** \brief Create ethernet task, for ethernet management. * */ void init_ethernet(const unsigned char ipAddress[], const unsigned char netMask[], const unsigned char gateWay[]) { /* Initialize lwIP */ lwip_init(); /* Set hw and IP parameters, initialize MAC too */ ethernet_configure_interface(ipAddress, netMask, gateWay); /* Init timer service */ sys_init_timing(); #if defined(HTTP_RAW_USED) /* Bring up the web server */ httpd_init(); #endif }
/* * Main program loop * */ int main (void) { char cCommand[64]; char cCommand_last[64]; memset(&cCommand, 0, sizeof(cCommand)); memset(&cCommand_last, 0, sizeof(cCommand_last)); cCommand[0] = '\0'; charcount = 0; struct ip_addr x_ip_addr, x_net_mask, x_gateway; sysclk_init(); board_init(); // Set up the GPIO pin for the Mater Select jumper ioport_init(); ioport_set_pin_dir(MASTER_SEL, IOPORT_DIR_INPUT); masterselect = ioport_get_pin_level(MASTER_SEL); // true = slave stacking_init(masterselect); // Initialise the stacking connector as either master or slave // Set the IRQ line as either master or slave if(masterselect) { ioport_set_pin_dir(SPI_IRQ1, IOPORT_DIR_OUTPUT); } else { ioport_set_pin_dir(SPI_IRQ1, IOPORT_DIR_INPUT); } irq_initialize_vectors(); // Initialize interrupt vector table support. cpu_irq_enable(); // Enable interrupts stdio_usb_init(); spi_init(); eeprom_init(); temp_init(); membag_init(); loadConfig(); // Load Config IP4_ADDR(&x_ip_addr, Zodiac_Config.IP_address[0], Zodiac_Config.IP_address[1],Zodiac_Config.IP_address[2], Zodiac_Config.IP_address[3]); IP4_ADDR(&x_net_mask, Zodiac_Config.netmask[0], Zodiac_Config.netmask[1],Zodiac_Config.netmask[2], Zodiac_Config.netmask[3]); IP4_ADDR(&x_gateway, Zodiac_Config.gateway_address[0], Zodiac_Config.gateway_address[1],Zodiac_Config.gateway_address[2], Zodiac_Config.gateway_address[3]); switch_init(); /* Initialize lwIP. */ lwip_init(); /* Add data to netif */ netif_add(&gs_net_if, &x_ip_addr, &x_net_mask, &x_gateway, NULL, ethernetif_init, ethernet_input); /* Make it the default interface */ netif_set_default(&gs_net_if); netif_set_up(&gs_net_if); // Telnet to be included in v0.63 //telnet_init(); /* Initialize timer. */ sys_init_timing(); int v,p; // Create port map for (v = 0;v < MAX_VLANS;v++) { if (Zodiac_Config.vlan_list[v].uActive == 1 && Zodiac_Config.vlan_list[v].uVlanType == 1) { for(p=0;p<4;p++) { if (Zodiac_Config.vlan_list[v].portmap[p] == 1) Zodiac_Config.of_port[p] = 1; // Port is assigned to an OpenFlow VLAN } } if (Zodiac_Config.vlan_list[v].uActive == 1 && Zodiac_Config.vlan_list[v].uVlanType == 2) { for(p=0;p<4;p++) { if (Zodiac_Config.vlan_list[v].portmap[p] == 1) { Zodiac_Config.of_port[p] = 0; // Port is assigned to a Native VLAN NativePortMatrix += 1<<p; } } } } while(1) { task_switch(&gs_net_if); task_command(cCommand, cCommand_last); // Only run the following tasks if set to Master if(masterselect == false) { sys_check_timeouts(); task_openflow(); } } }
void sys_init(void) { sys_init_timing(); InitSysArchProtect(); }
void msvc_sys_init() { srand(time(0)); sys_init_timing(); InitSysArchProtect(); }