static MACHINE_START( juicebox ) { juicebox_state *juicebox = machine.driver_data<juicebox_state>(); juicebox->s3c44b0 = machine.device( "s3c44b0"); smc_init( machine); juicebox->dac = machine.device<dac_device>( "dac"); }
static int lubbock_coredevice_init(void) { barebox_set_model("Lubbock PXA25x"); barebox_set_hostname("lubbock"); pxa2xx_mfp_config(ARRAY_AND_SIZE(lubbock_pin_config)); smc_init(); return 0; }
/*! \brief This example shows how to access an external RAM connected to the SMC module. */ int main(void) { // Get base address of SRAM module volatile uint32_t *sram = SRAM; // Switch to external oscillator 0. pm_switch_to_osc0(&AVR32_PM, FOSC0, OSC0_STARTUP); // Initialize debug serial line init_dbg_rs232(FOSC0); // Display a header to user print_dbg("\x1B[2J\x1B[H\r\nSMC Example\r\n"); print_dbg("Board running at "); print_dbg_ulong(FOSC0 / 1000000); print_dbg(" MHz\r\n"); print_dbg("Initializing SRAM..."); // Initialize the external SRAM chip. smc_init(FOSC0); print_dbg("done\r\n\r\n"); print_dbg("Testing SRAM...\r\n"); // Test each address location inside the chip with a write/readback uint32_t total_tests = 0; uint32_t total_errors = 0; for (uint32_t total_tests = 0; total_tests < SRAM_SIZE; total_tests++) { sram[total_tests] = total_tests; if (total_tests != sram[total_tests]) { total_errors++; print_dbg("Error at 0x"); print_dbg_hex((uint32_t)&sram[total_tests]); print_dbg("\r\n"); } } if (total_errors == 0) { print_dbg("SRAM test successfully completed\r\n"); } else { print_dbg("SRAM test completed with "); print_dbg_ulong(total_errors); print_dbg(" errors out of "); print_dbg_ulong(total_tests); print_dbg(" tests\r\n"); } while (true); return 0; }
//! \brief Initializes the Nand Flash Controller and low level driver. //! //! \param hsb_f_hz HSB frequency in Hertz //! void nf_init( U32 hsb_f_hz /*U8 nb_dev, U16 lpb*/ ) { static const gpio_map_t SMC_NF_EBI_GPIO_MAP = { {ATPASTE2(EBI_NANDOE,_PIN),ATPASTE2(EBI_NANDOE,_FUNCTION)}, {ATPASTE2(EBI_NANDWE,_PIN),ATPASTE2(EBI_NANDWE,_FUNCTION)}, }; gpio_enable_module(SMC_NF_EBI_GPIO_MAP, sizeof(SMC_NF_EBI_GPIO_MAP) / sizeof(SMC_NF_EBI_GPIO_MAP[0])); smc_init(hsb_f_hz); // Enable Nand Flash Chip Select AVR32_HMATRIX.sfr[AVR32_EBI_HMATRIX_NR] |= (1 << AVR32_EBI_NAND_CS); /* Nfc_disable(); // Reset the macro Nfc_enable(); Nfc_ecc_disable(); Nfc_spzone_disable(); #if (defined NF_TIMING_READ) Nfc_set_read_timing( NF_TIMING_READ ); #endif */ }
static int ethif_probe(struct device *dev) { u_long base_addr = dev->base_addr; if ((base_addr == 0xffe0) || (base_addr == 1)) return 1; /* ENXIO */ if (1 /* All PCI probes are safe, and thus should be first. */ #ifdef CONFIG_DE4X5 /* DEC DE425, DE434, DE435 adapters */ && de4x5_probe(dev) #endif #ifdef CONFIG_DGRS && dgrs_probe(dev) #endif #ifdef CONFIG_EEXPRESS_PRO100B /* Intel EtherExpress Pro100B */ && eepro100_probe(dev) #endif #ifdef CONFIG_EPIC && epic100_probe(dev) #endif #if defined(CONFIG_HP100) && hp100_probe(dev) #endif #if defined(CONFIG_NE2K_PCI) && ne2k_pci_probe(dev) #endif #ifdef CONFIG_PCNET32 && pcnet32_probe(dev) #endif #ifdef CONFIG_RTL8139 && rtl8139_probe(dev) #endif #if defined(CONFIG_VIA_RHINE) && via_rhine_probe(dev) #endif #if defined(CONFIG_VORTEX) && tc59x_probe(dev) #endif #if defined(CONFIG_DEC_ELCP) && tulip_probe(dev) #endif #ifdef CONFIG_YELLOWFIN && yellowfin_probe(dev) #endif /* Next mostly-safe EISA-only drivers. */ #ifdef CONFIG_AC3200 /* Ansel Communications EISA 3200. */ && ac3200_probe(dev) #endif #if defined(CONFIG_ULTRA32) && ultra32_probe(dev) #endif /* Third, sensitive ISA boards. */ #ifdef CONFIG_AT1700 && at1700_probe(dev) #endif #if defined(CONFIG_ULTRA) && ultra_probe(dev) #endif #if defined(CONFIG_SMC9194) && smc_init(dev) #endif #if defined(CONFIG_WD80x3) && wd_probe(dev) #endif #if defined(CONFIG_EL2) /* 3c503 */ && el2_probe(dev) #endif #if defined(CONFIG_HPLAN) && hp_probe(dev) #endif #if defined(CONFIG_HPLAN_PLUS) && hp_plus_probe(dev) #endif #if defined(CONFIG_SEEQ8005) && seeq8005_probe(dev) #endif #ifdef CONFIG_E2100 /* Cabletron E21xx series. */ && e2100_probe(dev) #endif #if defined(CONFIG_NE2000) && ne_probe(dev) #endif #ifdef CONFIG_AT1500 && at1500_probe(dev) #endif #ifdef CONFIG_FMV18X /* Fujitsu FMV-181/182 */ && fmv18x_probe(dev) #endif #ifdef CONFIG_ETH16I && eth16i_probe(dev) /* ICL EtherTeam 16i/32 */ #endif #ifdef CONFIG_EL3 /* 3c509 */ && el3_probe(dev) #endif #ifdef CONFIG_3C515 /* 3c515 */ && tc515_probe(dev) #endif #ifdef CONFIG_ZNET /* Zenith Z-Note and some IBM Thinkpads. */ && znet_probe(dev) #endif #ifdef CONFIG_EEXPRESS /* Intel EtherExpress */ && express_probe(dev) #endif #ifdef CONFIG_EEXPRESS_PRO /* Intel EtherExpress Pro/10 */ && eepro_probe(dev) #endif #ifdef CONFIG_DEPCA /* DEC DEPCA */ && depca_probe(dev) #endif #ifdef CONFIG_EWRK3 /* DEC EtherWORKS 3 */ && ewrk3_probe(dev) #endif #ifdef CONFIG_APRICOT /* Apricot I82596 */ && apricot_probe(dev) #endif #ifdef CONFIG_EL1 /* 3c501 */ && el1_probe(dev) #endif #if defined(CONFIG_WAVELAN) /* WaveLAN */ && wavelan_probe(dev) #endif /* defined(CONFIG_WAVELAN) */ #ifdef CONFIG_EL16 /* 3c507 */ && el16_probe(dev) #endif #ifdef CONFIG_ELPLUS /* 3c505 */ && elplus_probe(dev) #endif #ifdef CONFIG_DE600 /* D-Link DE-600 adapter */ && de600_probe(dev) #endif #ifdef CONFIG_DE620 /* D-Link DE-620 adapter */ && de620_probe(dev) #endif #if defined(CONFIG_SK_G16) && SK_init(dev) #endif #ifdef CONFIG_NI52 && ni52_probe(dev) #endif #ifdef CONFIG_NI65 && ni65_probe(dev) #endif #ifdef CONFIG_LANCE /* ISA LANCE boards */ && lance_probe(dev) #endif #ifdef CONFIG_ATARILANCE /* Lance-based Atari ethernet boards */ && atarilance_probe(dev) #endif #ifdef CONFIG_A2065 /* Commodore/Ameristar A2065 Ethernet Board */ && a2065_probe(dev) #endif #ifdef CONFIG_APNE /* Amiga 1200 PCMCIA NEx000 Ethernet Board */ && apne_probe(dev) #endif #ifdef CONFIG_ARIADNE /* Village Tronic Ariadne Ethernet Board */ && ariadne_probe(dev) #endif #ifdef CONFIG_ARIADNE2 /* Village Tronic Ariadne II Ethernet Board */ && ariadne2_probe(dev) #endif #ifdef CONFIG_HYDRA /* Hydra Systems Amiganet Ethernet board */ && hydra_probe(dev) #endif #ifdef CONFIG_ATARI_BIONET /* Atari Bionet Ethernet board */ && bionet_probe(dev) #endif #ifdef CONFIG_ATARI_PAMSNET /* Atari PAMsNet Ethernet board */ && pamsnet_probe(dev) #endif #ifdef CONFIG_SUNLANCE && sparc_lance_probe(dev) #endif #ifdef CONFIG_TLAN && tlan_probe(dev) #endif #ifdef CONFIG_LANCE && lance_probe(dev) #endif && 1 ) { return 1; /* -ENODEV or -EAGAIN would be more accurate. */ } return 0; }
static void neponset_init(void) { smc_init(); }
// top-level peripheral init static void init_avr32(void) { volatile avr32_tc_t *tc = APP_TC; // clocks // setup clocks sysclk_init(); // not sure why but when need to explictly enable clock for static mem ctlr sysclk_enable_pbb_module(SYSCLK_SMC_REGS); flashc_set_bus_freq(FCPU_HZ); // need this for high-speed operation flashc_set_wait_state(1); /// interrupts // print_dbg("\r\n irq_initialize_vectors() "); irq_initialize_vectors(); // disable all interrupts for now // print_dbg("\r\n cpu_irq_disable() "); cpu_irq_disable(); // serial usb print_dbg("\r\n init_ftdi_usart() "); init_ftdi_usart(); // external sram print_dbg("\r\n smc_init(FHSB_HZ) "); smc_init(FHSB_HZ); // initialize spi1: OLED, ADC, SD/MMC print_dbg("\r\n init_spi1() "); init_spi1(); // initialize PDCA controller print_dbg("\r\n init_local_pdca() "); init_local_pdca(); // initialize blackfin resources print_dbg("\r\n init_bfin_resources() "); init_bfin_resources(); // initialize application timer print_dbg("\r\n init_tc(tc) "); init_tc(tc); // initialize other GPIO print_dbg("\r\n init_gpio() "); init_gpio(); // register interrupts print_dbg("\r\n register_interrupts() "); register_interrupts(); // initialize the OLED screen print_dbg("\r\n init_oled() "); init_oled(); // enable interrupts print_dbg("\r\n cpu_irq_enable() "); cpu_irq_enable(); // usb host controller init_usb_host(); // initialize usb classes print_dbg("\r\n init_monome "); init_monome(); // init_midi(); // init_hid(); }
static int ethif_probe(struct device *dev) { u_long base_addr = dev->base_addr; if ((base_addr == 0xffe0) || (base_addr == 1)) return 1; /* ENXIO */ if (1 #if defined(CONFIG_OSFMACH3) && osfmach3_ethif_probe(dev) #endif #ifdef CONFIG_DGRS && dgrs_probe(dev) #endif #if defined(CONFIG_VORTEX) && tc59x_probe(dev) #endif #if defined(CONFIG_SEEQ8005) && seeq8005_probe(dev) #endif #if defined(CONFIG_DEC_ELCP) && tulip_probe(dev) #endif #if defined(CONFIG_HP100) && hp100_probe(dev) #endif #if defined(CONFIG_ULTRA) && ultra_probe(dev) #endif #if defined(CONFIG_ULTRA32) && ultra32_probe(dev) #endif #if defined(CONFIG_SMC9194) && smc_init(dev) #endif #if defined(CONFIG_WD80x3) || defined(WD80x3) && wd_probe(dev) #endif #if defined(CONFIG_EL2) || defined(EL2) /* 3c503 */ && el2_probe(dev) #endif #if defined(CONFIG_HPLAN) || defined(HPLAN) && hp_probe(dev) #endif #if defined(CONFIG_HPLAN_PLUS) && hp_plus_probe(dev) #endif #ifdef CONFIG_AC3200 /* Ansel Communications EISA 3200. */ && ac3200_probe(dev) #endif #ifdef CONFIG_E2100 /* Cabletron E21xx series. */ && e2100_probe(dev) #endif #if defined(CONFIG_NE2000) || defined(NE2000) && ne_probe(dev) #endif #ifdef CONFIG_AT1500 && at1500_probe(dev) #endif #ifdef CONFIG_AT1700 && at1700_probe(dev) #endif #ifdef CONFIG_FMV18X /* Fujitsu FMV-181/182 */ && fmv18x_probe(dev) #endif #ifdef CONFIG_ETH16I && eth16i_probe(dev) /* ICL EtherTeam 16i/32 */ #endif #ifdef CONFIG_EL3 /* 3c509 */ && el3_probe(dev) #endif #ifdef CONFIG_ZNET /* Zenith Z-Note and some IBM Thinkpads. */ && znet_probe(dev) #endif #ifdef CONFIG_EEXPRESS /* Intel EtherExpress */ && express_probe(dev) #endif #ifdef CONFIG_EEXPRESS_PRO /* Intel EtherExpress Pro/10 */ && eepro_probe(dev) #endif #ifdef CONFIG_EEXPRESS_PRO100B /* Intel EtherExpress Pro100B */ && eepro100_probe(dev) #endif #ifdef CONFIG_DEPCA /* DEC DEPCA */ && depca_probe(dev) #endif #ifdef CONFIG_EWRK3 /* DEC EtherWORKS 3 */ && ewrk3_probe(dev) #endif #ifdef CONFIG_DE4X5 /* DEC DE425, DE434, DE435 adapters */ && de4x5_probe(dev) #endif #ifdef CONFIG_APRICOT /* Apricot I82596 */ && apricot_probe(dev) #endif #ifdef CONFIG_EL1 /* 3c501 */ && el1_probe(dev) #endif #if defined(CONFIG_WAVELAN) /* WaveLAN */ && wavelan_probe(dev) #endif /* defined(CONFIG_WAVELAN) */ #ifdef CONFIG_EL16 /* 3c507 */ && el16_probe(dev) #endif #ifdef CONFIG_ELPLUS /* 3c505 */ && elplus_probe(dev) #endif #ifdef CONFIG_DE600 /* D-Link DE-600 adapter */ && de600_probe(dev) #endif #ifdef CONFIG_DE620 /* D-Link DE-620 adapter */ && de620_probe(dev) #endif #if defined(CONFIG_SK_G16) && SK_init(dev) #endif #ifdef CONFIG_NI52 && ni52_probe(dev) #endif #ifdef CONFIG_NI65 && ni65_probe(dev) #endif #ifdef CONFIG_ATARILANCE /* Lance-based Atari ethernet boards */ && atarilance_probe(dev) #endif #ifdef CONFIG_A2065 /* Commodore/Ameristar A2065 Ethernet Board */ && a2065_probe(dev) #endif #ifdef CONFIG_ARIADNE /* Village Tronic Ariadne Ethernet Board */ && ariadne_probe(dev) #endif #ifdef CONFIG_HYDRA /* Hydra Systems Amiganet Ethernet board */ && hydra_probe(dev) #endif #ifdef CONFIG_SUNLANCE && sparc_lance_probe(dev) #endif && 1 ) { return 1; /* -ENODEV or -EAGAIN would be more accurate. */ } return 0; }
/* 考虑到升级是个非常重要但又较少依赖其他模块的功能,因此即使大部分模块初始化失败,也一样要继续运行,只要组播功能正常即可。 */ void *main_thread() { DEBUG("main thread start...\n"); compile_timeprint(); _wLBM_zyzdmb(13578642); smarthome_gw_sn_init(); if(-1==setting_init()){ DEBUG("setting init failed\n"); //return NULL; } if(-1==push_decoder_buf_init()){ DEBUG("push decoder buf init failed\n"); //return NULL; } chanFilterInit(); smc_init(); if(-1==sqlite_init()){ DEBUG("sqlite init failed\n"); //return NULL; } setting_init_with_database(); maintenance_thread_init(); if(-1==xmlparser_init()){ DEBUG("xmlparser init failed\n"); //return NULL; } // return parse_xml("pushroot/pushinfo/1/ProductDesc.xml", PRODUCTDESC_XML, NULL); if(0!=drm_init()){ DEBUG("drm init failed\n"); //return NULL; } upgrade_info_init(); // 根据首次开机标记"/data/data/com.dbstar/files/flag"决定是否要重置国电网关序列号 smarthome_sn_init_when_network_init(); #if 0 /* 慎用:只有在需要清理已有授权、重新接收授权时使用,正式版本不能调用。 */ DEBUG("\n\nWarning: you call function CDCASTB_FormatBuffer, it is an unnormal action\n\n\n"); CDCASTB_FormatBuffer(); #endif if(-1==mid_push_init(PUSH_CONF)){ DEBUG("push model init with \"%s\" failed\n", PUSH_CONF); //return NULL; } if(-1==igmp_init()){ DEBUG("igmp init failed\n"); //return NULL; } if(-1==softdvb_init()){ DEBUG("dvb init with failed\n"); //return NULL; } smartlife_connect_init(); DEBUG("OK ================================ OK\n"); msg_send2_UI(STATUS_DVBPUSH_INIT_SUCCESS, NULL, 0); int main_running = 1; while(1==main_running) { pthread_mutex_lock(&mtx_main); /* 需要本线程先运行到这里,再在其他非父线程中执行pthread_cond_signal(&cond_push_monitor)才能生效。 */ pthread_cond_wait(&cond_main,&mtx_main); DEBUG("main thread is closed by external call\n"); main_running = 0; pthread_mutex_unlock(&mtx_main); } DEBUG("exit from main thread\n"); return NULL; }
void juicebox_state::machine_start() { s3c44b0 = machine().device( "s3c44b0"); smc_init( machine()); dac = machine().device<dac_device>( "dac"); }