fp@1244: /****************************************************************************** fp@1266: * fp@1326: * $Id$ fp@1326: * fp@1326: * Copyright (C) 2006-2009 Florian Pose, Ingenieurgemeinschaft IgH fp@1326: * fp@1326: * This file is part of the IgH EtherCAT master userspace library. fp@1326: * fp@1326: * The IgH EtherCAT master userspace library is free software; you can fp@1326: * redistribute it and/or modify it under the terms of the GNU Lesser General fp@1326: * Public License as published by the Free Software Foundation; version 2.1 fp@1326: * of the License. fp@1287: * fp@1326: * The IgH EtherCAT master userspace library is distributed in the hope that fp@1326: * it will be useful, but WITHOUT ANY WARRANTY; without even the implied fp@1326: * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the fp@1326: * GNU Lesser General Public License for more details. fp@1287: * fp@1326: * You should have received a copy of the GNU Lesser General Public License fp@1326: * along with the IgH EtherCAT master userspace library. If not, see fp@1326: * . fp@1326: * fp@1363: * --- fp@1363: * fp@1363: * The license mentioned above concerns the source code only. Using the fp@1363: * EtherCAT technology and brand is only permitted in compliance with the fp@1363: * industrial property and similar rights of Beckhoff Automation GmbH. fp@1244: * fp@1244: *****************************************************************************/ fp@1244: fp@1244: #include fp@1244: #include fp@1244: #include fp@1244: #include fp@1244: #include fp@1258: #include fp@1244: fp@1244: #include "master.h" fp@1244: #include "domain.h" fp@1246: #include "slave_config.h" fp@1244: #include "master/ioctl.h" fp@1244: fp@1244: /*****************************************************************************/ fp@1244: fp@1497: int ecrt_master_reserve(ec_master_t *master) fp@1497: { fp@1497: if (ioctl(master->fd, EC_IOCTL_REQUEST, NULL) == -1) { fp@1497: fprintf(stderr, "Failed to reserve master: %s\n", fp@1497: strerror(errno)); fp@1497: return -1; fp@1497: } fp@1497: } fp@1497: fp@1497: /*****************************************************************************/ fp@1497: fp@1244: ec_domain_t *ecrt_master_create_domain(ec_master_t *master) fp@1244: { fp@1244: ec_domain_t *domain; fp@1244: int index; fp@1244: fp@1244: domain = malloc(sizeof(ec_domain_t)); fp@1244: if (!domain) { fp@1244: fprintf(stderr, "Failed to allocate memory.\n"); fp@1244: return 0; fp@1244: } fp@1244: fp@1244: index = ioctl(master->fd, EC_IOCTL_CREATE_DOMAIN, NULL); fp@1244: if (index == -1) { fp@1244: fprintf(stderr, "Failed to create domain: %s\n", strerror(errno)); fp@1244: free(domain); fp@1244: return 0; fp@1244: } fp@1244: fp@1244: domain->index = (unsigned int) index; fp@1255: domain->master = master; fp@1258: domain->process_data = NULL; fp@1244: return domain; fp@1244: } fp@1244: fp@1244: /*****************************************************************************/ fp@1244: fp@1244: ec_slave_config_t *ecrt_master_slave_config(ec_master_t *master, fp@1244: uint16_t alias, uint16_t position, uint32_t vendor_id, fp@1244: uint32_t product_code) fp@1244: { fp@1246: ec_ioctl_config_t data; fp@1246: ec_slave_config_t *sc; fp@1246: int index; fp@1246: fp@1246: sc = malloc(sizeof(ec_slave_config_t)); fp@1246: if (!sc) { fp@1246: fprintf(stderr, "Failed to allocate memory.\n"); fp@1246: return 0; fp@1246: } fp@1246: fp@1246: data.alias = alias; fp@1246: data.position = position; fp@1246: data.vendor_id = vendor_id; fp@1246: data.product_code = product_code; fp@1246: fp@1246: if (ioctl(master->fd, EC_IOCTL_CREATE_SLAVE_CONFIG, &data) == -1) { fp@1246: fprintf(stderr, "Failed to create slave config: %s\n", fp@1246: strerror(errno)); fp@1246: free(sc); fp@1246: return 0; fp@1246: } fp@1246: fp@1255: sc->master = master; fp@1246: sc->index = data.config_index; fp@1255: sc->alias = alias; fp@1255: sc->position = position; fp@1246: return sc; fp@1244: } fp@1244: fp@1244: /*****************************************************************************/ fp@1244: fp@1497: int ecrt_master(ec_master_t* master, ec_master_info_t *master_info) fp@1497: { fp@1508: ec_ioctl_master_t data; fp@1508: fp@1508: if (ioctl(master->fd, EC_IOCTL_MASTER, &data) < 0) { fp@1497: fprintf(stderr, "Failed to get master info: %s\n", strerror(errno)); fp@1508: return -1; fp@1508: } fp@1508: fp@1508: master_info->slave_count = data.slave_count; fp@1508: master_info->link_up = data.devices[0].link_state; martin@1579: master_info->scan_busy = data.scan_busy; fp@1508: master_info->app_time = data.app_time; fp@1508: return 0; fp@1497: } fp@1497: fp@1497: /*****************************************************************************/ fp@1497: fp@1510: int ecrt_master_get_slave(ec_master_t *master, uint16_t slave_position, fp@1341: ec_slave_info_t *slave_info) fp@1341: { fp@1341: ec_ioctl_slave_t data; fp@1341: int index; fp@1341: fp@1510: data.position = slave_position; fp@1341: fp@1341: if (ioctl(master->fd, EC_IOCTL_SLAVE, &data) == -1) { fp@1497: fprintf(stderr, "Failed to get slave info: %s\n", strerror(errno)); fp@1341: return -1; fp@1341: } fp@1341: fp@1341: slave_info->position = data.position; fp@1341: slave_info->vendor_id = data.vendor_id; fp@1341: slave_info->product_code = data.product_code; fp@1341: slave_info->revision_number = data.revision_number; fp@1341: slave_info->serial_number = data.serial_number; fp@1341: slave_info->alias = data.alias; fp@1341: slave_info->current_on_ebus = data.current_on_ebus; fp@1341: slave_info->al_state = data.al_state; fp@1341: slave_info->error_flag = data.error_flag; fp@1341: slave_info->sync_count = data.sync_count; fp@1341: slave_info->sdo_count = data.sdo_count; fp@1593: strncpy(slave_info->name, data.name, EC_MAX_STRING_LENGTH); fp@1341: return 0; fp@1341: } fp@1341: fp@1341: /*****************************************************************************/ fp@1341: fp@1510: int ecrt_master_get_sync_manager(ec_master_t *master, uint16_t slave_position, fp@1510: uint8_t sync_index, ec_sync_info_t *sync) fp@1510: { fp@1510: ec_ioctl_slave_sync_t data; fp@1510: fp@1510: if (sync_index >= EC_MAX_SYNC_MANAGERS) fp@1510: return -ENOENT; fp@1510: fp@1510: memset(&data, 0x00, sizeof(ec_ioctl_slave_sync_t)); fp@1510: data.slave_position = slave_position; fp@1510: data.sync_index = sync_index; fp@1510: fp@1510: if (ioctl(master->fd, EC_IOCTL_SLAVE_SYNC, &data) == -1) { fp@1510: fprintf(stderr, "Failed to get sync manager information: %s\n", fp@1510: strerror(errno)); fp@1510: return -1; // FIXME fp@1510: } fp@1510: fp@1510: sync->index = sync_index; fp@1510: sync->dir = EC_READ_BIT(&data.control_register, 2) ? fp@1510: EC_DIR_OUTPUT : EC_DIR_INPUT; fp@1510: sync->n_pdos = data.pdo_count; fp@1510: sync->pdos = NULL; fp@1510: sync->watchdog_mode = EC_READ_BIT(&data.control_register, 6) ? fp@1510: EC_WD_ENABLE : EC_WD_DISABLE; fp@1510: fp@1510: return 0; fp@1510: } fp@1510: fp@1510: /*****************************************************************************/ fp@1510: fp@1510: int ecrt_master_get_pdo(ec_master_t *master, uint16_t slave_position, fp@1510: uint8_t sync_index, uint16_t pos, ec_pdo_info_t *pdo) fp@1510: { fp@1510: ec_ioctl_slave_sync_pdo_t data; fp@1510: fp@1510: if (sync_index >= EC_MAX_SYNC_MANAGERS) fp@1510: return -ENOENT; fp@1510: fp@1510: memset(&data, 0x00, sizeof(ec_ioctl_slave_sync_pdo_t)); fp@1510: data.slave_position = slave_position; fp@1510: data.sync_index = sync_index; fp@1510: data.pdo_pos = pos; fp@1510: fp@1510: if (ioctl(master->fd, EC_IOCTL_SLAVE_SYNC_PDO, &data) == -1) { fp@1510: fprintf(stderr, "Failed to get pdo information: %s\n", fp@1510: strerror(errno)); fp@1510: return -1; // FIXME fp@1510: } fp@1510: fp@1510: pdo->index = data.index; fp@1510: pdo->n_entries = data.entry_count; fp@1510: pdo->entries = NULL; fp@1510: fp@1510: return 0; fp@1510: } fp@1510: fp@1510: /*****************************************************************************/ fp@1510: fp@1510: int ecrt_master_get_pdo_entry(ec_master_t *master, uint16_t slave_position, fp@1510: uint8_t sync_index, uint16_t pdo_pos, uint16_t entry_pos, fp@1510: ec_pdo_entry_info_t *entry) fp@1510: { fp@1510: ec_ioctl_slave_sync_pdo_entry_t data; fp@1510: fp@1510: if (sync_index >= EC_MAX_SYNC_MANAGERS) fp@1510: return -ENOENT; fp@1510: fp@1510: memset(&data, 0x00, sizeof(ec_ioctl_slave_sync_pdo_entry_t)); fp@1510: data.slave_position = slave_position; fp@1510: data.sync_index = sync_index; fp@1510: data.pdo_pos = pdo_pos; fp@1510: data.entry_pos = entry_pos; fp@1510: fp@1510: if (ioctl(master->fd, EC_IOCTL_SLAVE_SYNC_PDO_ENTRY, &data) == -1) { fp@1510: fprintf(stderr, "Failed to get pdo entry information: %s\n", fp@1510: strerror(errno)); fp@1510: return -1; // FIXME fp@1510: } fp@1510: fp@1510: entry->index = data.index; fp@1510: entry->subindex = data.subindex; fp@1510: entry->bit_length = data.bit_length; fp@1510: fp@1510: return 0; fp@1510: } fp@1510: fp@1510: /*****************************************************************************/ fp@1510: fp@1510: int ecrt_master_sdo_download(ec_master_t *master, uint16_t slave_position, fp@1510: uint16_t index, uint8_t subindex, uint8_t *data, fp@1510: size_t data_size, uint32_t *abort_code) fp@1510: { fp@1510: ec_ioctl_slave_sdo_download_t download; fp@1510: fp@1510: download.slave_position = slave_position; fp@1510: download.sdo_index = index; fp@1510: download.sdo_entry_subindex = subindex; fp@1510: download.data_size = data_size; fp@1510: download.data = data; fp@1510: fp@1510: if (ioctl(master->fd, EC_IOCTL_SLAVE_SDO_DOWNLOAD, &download) == -1) { fp@1510: if (errno == -EIO) { fp@1510: if (abort_code) { fp@1510: *abort_code = download.abort_code; fp@1510: } fp@1510: } fp@1510: fprintf(stderr, "Failed to execute SDO download: %s\n", fp@1510: strerror(errno)); fp@1510: return -1; fp@1510: } fp@1510: fp@1510: return 0; fp@1510: } fp@1510: fp@1510: /*****************************************************************************/ fp@1510: fp@1510: int ecrt_master_sdo_upload(ec_master_t *master, uint16_t slave_position, fp@1510: uint16_t index, uint8_t subindex, uint8_t *target, fp@1510: size_t target_size, size_t *result_size, uint32_t *abort_code) fp@1510: { fp@1510: ec_ioctl_slave_sdo_upload_t upload; fp@1510: fp@1510: upload.slave_position = slave_position; fp@1510: upload.sdo_index = index; fp@1510: upload.sdo_entry_subindex = subindex; fp@1510: upload.target_size = target_size; fp@1510: upload.target = target; fp@1510: fp@1510: if (ioctl(master->fd, EC_IOCTL_SLAVE_SDO_UPLOAD, &upload) == -1) { fp@1510: if (errno == -EIO) { fp@1510: if (abort_code) { fp@1510: *abort_code = upload.abort_code; fp@1510: } fp@1510: } fp@1510: fprintf(stderr, "Failed to execute SDO upload: %s\n", fp@1510: strerror(errno)); fp@1510: return -1; fp@1510: } fp@1510: fp@1510: *result_size = upload.data_size; fp@1510: return 0; fp@1510: } fp@1510: fp@1510: /*****************************************************************************/ fp@1510: fp@1244: int ecrt_master_activate(ec_master_t *master) fp@1244: { fp@1258: if (ioctl(master->fd, EC_IOCTL_ACTIVATE, fp@1258: &master->process_data_size) == -1) { fp@1247: fprintf(stderr, "Failed to activate master: %s\n", fp@1247: strerror(errno)); fp@1313: return -1; // FIXME fp@1247: } fp@1247: fp@1258: if (master->process_data_size) { fp@1258: master->process_data = mmap(0, master->process_data_size, fp@1259: PROT_READ | PROT_WRITE, MAP_SHARED, master->fd, 0); fp@1258: if (master->process_data == MAP_FAILED) { fp@1258: fprintf(stderr, "Failed to map process data: %s", strerror(errno)); fp@1258: master->process_data = NULL; fp@1258: master->process_data_size = 0; fp@1313: return -1; // FIXME fp@1258: } fp@1258: fp@1258: // Access the mapped region to cause the initial page fault fp@1258: printf("pd: %x\n", master->process_data[0]); fp@1258: } fp@1258: fp@1244: return 0; fp@1244: } fp@1244: fp@1244: /*****************************************************************************/ fp@1244: fp@1531: void ecrt_master_deactivate(ec_master_t *master) fp@1531: { fp@1531: if (ioctl(master->fd, EC_IOCTL_DEACTIVATE, NULL) == -1) { fp@1531: fprintf(stderr, "Failed to deactivate master: %s\n", strerror(errno)); fp@1531: return; fp@1531: } fp@1531: } fp@1531: martin@1585: martin@1585: /*****************************************************************************/ martin@1585: martin@1585: int ecrt_master_set_max_cycle_size(ec_master_t *master,size_t max_cycle_data_size) martin@1585: { martin@1585: if (ioctl(master->fd, EC_IOCTL_SET_MAX_CYCLE_SIZE, martin@1585: &max_cycle_data_size) == -1) { martin@1585: fprintf(stderr, "Failed to activate master: %s\n", martin@1585: strerror(errno)); martin@1585: return -1; // FIXME martin@1585: } martin@1585: return 0; martin@1585: } martin@1585: martin@1585: fp@1531: /*****************************************************************************/ fp@1531: fp@1244: void ecrt_master_send(ec_master_t *master) fp@1244: { fp@1247: if (ioctl(master->fd, EC_IOCTL_SEND, NULL) == -1) { fp@1247: fprintf(stderr, "Failed to send: %s\n", strerror(errno)); fp@1247: } fp@1244: } fp@1244: fp@1244: /*****************************************************************************/ fp@1244: fp@1244: void ecrt_master_receive(ec_master_t *master) fp@1244: { fp@1247: if (ioctl(master->fd, EC_IOCTL_RECEIVE, NULL) == -1) { fp@1247: fprintf(stderr, "Failed to receive: %s\n", strerror(errno)); fp@1247: } fp@1244: } fp@1244: fp@1244: /*****************************************************************************/ fp@1244: fp@1244: void ecrt_master_state(const ec_master_t *master, ec_master_state_t *state) fp@1244: { fp@1259: if (ioctl(master->fd, EC_IOCTL_MASTER_STATE, state) == -1) { fp@1259: fprintf(stderr, "Failed to get master state: %s\n", strerror(errno)); fp@1259: } fp@1244: } fp@1244: fp@1244: /*****************************************************************************/ fp@1413: fp@1434: void ecrt_master_application_time(ec_master_t *master, uint64_t app_time) fp@1434: { fp@1434: ec_ioctl_app_time_t data; fp@1413: fp@1417: data.app_time = app_time; fp@1413: fp@1434: if (ioctl(master->fd, EC_IOCTL_APP_TIME, &data) == -1) { fp@1434: fprintf(stderr, "Failed to set application time: %s\n", fp@1434: strerror(errno)); fp@1434: } fp@1434: } fp@1434: fp@1434: /*****************************************************************************/ fp@1434: fp@1434: void ecrt_master_sync_reference_clock(ec_master_t *master) fp@1434: { fp@1434: if (ioctl(master->fd, EC_IOCTL_SYNC_REF, NULL) == -1) { fp@1413: fprintf(stderr, "Failed to sync reference clock: %s\n", fp@1413: strerror(errno)); fp@1413: } fp@1413: } fp@1413: fp@1413: /*****************************************************************************/ fp@1413: fp@1413: void ecrt_master_sync_slave_clocks(ec_master_t *master) fp@1413: { fp@1413: if (ioctl(master->fd, EC_IOCTL_SYNC_SLAVES, NULL) == -1) { fp@1413: fprintf(stderr, "Failed to sync slave clocks: %s\n", strerror(errno)); fp@1413: } fp@1413: } fp@1413: fp@1413: /*****************************************************************************/ fp@1535: fp@1535: void ecrt_master_sync_monitor_queue(ec_master_t *master) fp@1535: { fp@1535: if (ioctl(master->fd, EC_IOCTL_SYNC_MON_QUEUE, NULL) == -1) { fp@1535: fprintf(stderr, "Failed to queue sync monitor datagram: %s\n", fp@1535: strerror(errno)); fp@1535: } fp@1535: } fp@1535: fp@1535: /*****************************************************************************/ fp@1535: fp@1535: uint32_t ecrt_master_sync_monitor_process(ec_master_t *master) fp@1535: { fp@1535: uint32_t time_diff; fp@1535: fp@1535: if (ioctl(master->fd, EC_IOCTL_SYNC_MON_PROCESS, &time_diff) == -1) { fp@1535: time_diff = 0xffffffff; fp@1535: fprintf(stderr, "Failed to process sync monitor datagram: %s\n", fp@1535: strerror(errno)); fp@1535: } fp@1535: fp@1535: return time_diff; fp@1535: } fp@1535: fp@1535: /*****************************************************************************/