int main(void) { parse_config_file(".config"); setup_pci(card_id); pci.sendVetoClear(); close_pci(); return 0; }
int main(void) { unsigned long int total_number_of_quarter_events_to_read_per_fiber_channel = 0; parse_config_file(".config"); setup_pci(card_id); readout_all_pending_data(); close_pci(); return 0; }
int main(void) { unsigned long int total_number_of_quarter_events_to_read_per_fiber_channel = 0; parse_config_file(".config"); setup_pci(card_id); usleep(10000); send_soft_trigger_request_command_packet(); usleep(10000); close_pci(); return 0; }
int main(void) { parse_config_file(".config"); setup_pci(card_id); should_soft_trigger = true; readout_all_pending_data(); set_some_DACs_to(0, 0xe); //set_all_DACs_to(0); //set_all_DACs_to_built_in_nominal_values(); close_pci(); return 0; }
int main(void) { // setup: parse_config_file(".config"); open_status_file_for_reading_and_writing(); read_status_file(); create_directory_if_necessary(location_of_raw_datafiles); generate_new_base_filename(); setup_pci(card_id); readout_all_pending_data(); setup_filenames_for_fiber(); if (init_camac("CAMAC_config.txt")) { cerr << "ERROR: could not connect to CAMAC crate" << endl; // exit(7); } // if (CAMAC_initialized) { // CAMAC_initialize_3377s(); open_CAMAC_file(); // } setup_to_catch_ctrl_c(close_all_files); open_logfile(); open_files_for_all_enabled_fiber_channels(); unsigned short int beginning_window = 0; unsigned short int ending_window = 63; set_start_and_end_windows(beginning_window, ending_window); usleep(50000); // testing: should_soft_trigger = true; // actual running: while (1) { wait_for_start_of_spill(); while (spill_is_active()) { readout_an_event(true); read_data_from_CAMAC_and_write_to_CAMAC_file(); // CAMAC_read_3377s(); printf("\n"); } // increment_spill_number(); // write_status_file(); // generate_new_base_filename(); // split_fiber_file_to_prepare_for_next_spill(); // split_CAMAC_file_to_prepare_for_next_spill(); // usleep(250000); // sync(); } // cleanup: close_all_files(); return 0; }
int main(void) { unsigned long int total_number_of_quarter_events_to_read_per_fiber_channel = 0; parse_config_file(".config"); setup_pci(card_id); should_soft_trigger = true; readout_all_pending_data(); setup_feedback_enables_and_goals(1); close_pci(); return 0; }
int main(void) { unsigned long int total_number_of_quarter_events_to_read_per_fiber_channel = 0; parse_config_file(".config"); setup_pci(card_id); should_soft_trigger = true; readout_all_pending_data(); //set_all_DACs_to(0); set_all_DACs_to_built_in_nominal_values(); //setup_filenames_for_fiber(); //open_files_for_output_and_read_N_events(total_number_of_quarter_events_to_read_per_fiber_channel); close_pci(); return 0; }
int main(void) { unsigned long int total_number_of_quarter_events_to_read_per_fiber_channel = 0; parse_config_file(".config"); setup_pci(card_id); should_soft_trigger = true; readout_all_pending_data(); setup_filenames_for_fiber(); // setup_to_catch_ctrl_c(close_all_files); // open_logfile(); // open_files_for_all_enabled_fiber_channels(); send_command_packet_to_all_enabled_channels(0xeeeee01a, 0x0000077b); // set trigger thresholds for all channels // close_all_fiber_files(); close_pci(); return 0; }
static void extract_e820(void) { int id = fw_cfg_file_id("etc/e820"); uint32_t size; int nr_map; int i; if (id == -1) panic(); size = fw_cfg_file_size(id); nr_map = size / sizeof(e820->map[0]) + 4; fw_cfg_file_select(id); e820 = malloc(offsetof(struct e820map, map[nr_map])); e820->nr_map = nr_map; e820->map[0] = (struct e820entry) { .addr = 0, .size = 639 * 1024, .type = E820_RAM }; /* low RAM */ e820->map[1] = (struct e820entry) { .addr = 639 * 1024, .size = 1024, .type = E820_RESERVED }; /* EBDA */ e820->map[2] = (struct e820entry) { .addr = 0xd0000, .size = 128 * 1024, .type = E820_NVS }; /* ACPI tables */ e820->map[3] = (struct e820entry) { .addr = 0xf0000, .size = 64 * 1024, .type = E820_RESERVED }; /* firmware */ fw_cfg_read(&e820->map[4], size); for (i = 4; i < e820->nr_map; i++) if (e820->map[i].addr == 0) { lowmem = e820->map[i].size; e820->map[i].addr = 1024 * 1024; e820->map[i].size -= 1024 * 1024; break; } e820_seg = ((uintptr_t) e820) >> 4; } static bool detect_cbfs_and_boot(void) { size_t sz; void *base = pflash_base(1, &sz); if (!base) return false; return boot_from_cbfs(base, sz); } int main(void) { setup_hw(); // Now go to the F-segment: we need to move away from flash area // in order to probe CBFS! asm("ljmp $0x8, $1f; 1:"); setup_pci(); setup_idt(); fw_cfg_setup(); extract_acpi(); extract_e820(); // extract_smbios(); if (!detect_cbfs_and_boot()) boot_from_fwcfg(); panic(); }
void main(void) { setup_serial(); setup_acpi(); setup_pci(); }