// SPDX-License-Identifier: GPL-2.0+ /* * comedi/drivers/ni_routing/ni_device_routes/pxi-6030e.c * List of valid routes for specific NI boards. * * COMEDI - Linux Control and Measurement Device Interface * Copyright (C) 2016 Spencer E. Olson * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ /* * The contents of this file are generated using the tools in * comedi/drivers/ni_routing/tools * * Please use those tools to help maintain the contents of this file. */ #include "../ni_device_routes.h" #include "all.h" struct ni_device_routes ni_pxi_6030e_device_routes = { .device = "pxi-6030e", .routes = (struct ni_route_set[]){ { .dest = NI_PFI(0), .src = (int[]){ NI_AI_StartTrigger, 0, /* Termination */ } }, { .dest = NI_PFI(1), .src = (int[]){ NI_AI_ReferenceTrigger, 0, /* Termination */ } }, { .dest = NI_PFI(2), .src = (int[]){ NI_AI_ConvertClock, 0, /* Termination */ } }, { .dest = NI_PFI(3), .src = (int[]){ NI_CtrSource(1), 0, /* Termination */ } }, { .dest = NI_PFI(4), .src = (int[]){ NI_CtrGate(1), 0, /* Termination */ } }, { .dest = NI_PFI(5), .src = (int[]){ NI_AO_SampleClock, 0, /* Termination */ } }, { .dest = NI_PFI(6), .src = (int[]){ NI_AO_StartTrigger, 0, /* Termination */ } }, { .dest = NI_PFI(7), .src = (int[]){ NI_AI_SampleClock, 0, /* Termination */ } }, { .dest = NI_PFI(8), .src = (int[]){ NI_CtrSource(0), 0, /* Termination */ } }, { .dest = NI_PFI(9), .src = (int[]){ NI_CtrGate(0), 0, /* Termination */ } }, { .dest = TRIGGER_LINE(0), .src = (int[]){ NI_CtrSource(0), NI_CtrGate(0), NI_CtrInternalOutput(0), NI_CtrOut(0), NI_AI_SampleClock, NI_AI_StartTrigger, NI_AI_ReferenceTrigger, NI_AI_ConvertClock, NI_AO_SampleClock, NI_AO_StartTrigger, 0, /* Termination */ } }, { .dest = TRIGGER_LINE(1), .src = (int[]){ NI_CtrSource(0), NI_CtrGate(0), NI_CtrInternalOutput(0), NI_CtrOut(0), NI_AI_SampleClock, NI_AI_StartTrigger, NI_AI_ReferenceTrigger, NI_AI_ConvertClock, NI_AO_SampleClock, NI_AO_StartTrigger, 0, /* Termination */ } }, { .dest = TRIGGER_LINE(2), .src = (int[]){ NI_CtrSource(0), NI_CtrGate(0), NI_CtrInternalOutput(0), NI_CtrOut(0), NI_AI_SampleClock, NI_AI_StartTrigger, NI_AI_ReferenceTrigger, NI_AI_ConvertClock, NI_AO_SampleClock, NI_AO_StartTrigger, 0, /* Termination */ } }, { .dest = TRIGGER_LINE(3), .src = (int[]){ NI_CtrSource(0), NI_CtrGate(0), NI_CtrInternalOutput(0), NI_CtrOut(0), NI_AI_SampleClock, NI_AI_StartTrigger, NI_AI_ReferenceTrigger, NI_AI_ConvertClock, NI_AO_SampleClock, NI_AO_StartTrigger, 0, /* Termination */ } }, { .dest = TRIGGER_LINE(4), .src = (int[]){ NI_CtrSource(0), NI_CtrGate(0), NI_CtrInternalOutput(0), NI_CtrOut(0), NI_AI_SampleClock, NI_AI_StartTrigger, NI_AI_ReferenceTrigger, NI_AI_ConvertClock, NI_AO_SampleClock, NI_AO_StartTrigger, 0, /* Termination */ } }, { .dest = TRIGGER_LINE(5), .src = (int[]){ NI_CtrSource(0), NI_CtrGate(0), NI_CtrInternalOutput(0), NI_CtrOut(0), NI_AI_SampleClock, NI_AI_StartTrigger, NI_AI_ReferenceTrigger, NI_AI_ConvertClock, NI_AO_SampleClock, NI_AO_StartTrigger, 0, /* Termination */ } }, { .dest = TRIGGER_LINE(7), .src = (int[]){ NI_20MHzTimebase, 0, /* Termination */ } }, { .dest = NI_CtrSource(0), .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), TRIGGER_LINE(7), NI_MasterTimebase, NI_20MHzTimebase, NI_100kHzTimebase, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_CtrSource(1), .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), TRIGGER_LINE(7), NI_MasterTimebase, NI_20MHzTimebase, NI_100kHzTimebase, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_CtrGate(0), .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_CtrInternalOutput(1), NI_AI_StartTrigger, NI_AI_ReferenceTrigger, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_CtrGate(1), .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_CtrInternalOutput(0), NI_AI_StartTrigger, NI_AI_ReferenceTrigger, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_CtrOut(0), .src = (int[]){ TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_CtrInternalOutput(0), 0, /* Termination */ } }, { .dest = NI_CtrOut(1), .src = (int[]){ NI_CtrInternalOutput(1), 0, /* Termination */ } }, { .dest = NI_AI_SampleClock, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_CtrInternalOutput(0), NI_AI_SampleClockTimebase, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AI_SampleClockTimebase, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), TRIGGER_LINE(7), NI_MasterTimebase, NI_20MHzTimebase, NI_100kHzTimebase, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AI_StartTrigger, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_CtrInternalOutput(0), NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AI_ReferenceTrigger, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AI_ConvertClock, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_CtrInternalOutput(0), NI_AI_ConvertClockTimebase, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AI_ConvertClockTimebase, .src = (int[]){ TRIGGER_LINE(7), NI_AI_SampleClockTimebase, NI_MasterTimebase, NI_20MHzTimebase, 0, /* Termination */ } }, { .dest = NI_AI_PauseTrigger, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AI_HoldComplete, .src = (int[]){ NI_AI_HoldCompleteEvent, 0, /* Termination */ } }, { .dest = NI_AO_SampleClock, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_CtrInternalOutput(1), NI_AO_SampleClockTimebase, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AO_SampleClockTimebase, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), TRIGGER_LINE(7), NI_MasterTimebase, NI_20MHzTimebase, NI_100kHzTimebase, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AO_StartTrigger, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_AI_StartTrigger, NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_AO_PauseTrigger, .src = (int[]){ NI_PFI(0), NI_PFI(1), NI_PFI(2), NI_PFI(3), NI_PFI(4), NI_PFI(5), NI_PFI(6), NI_PFI(7), NI_PFI(8), NI_PFI(9), TRIGGER_LINE(0), TRIGGER_LINE(1), TRIGGER_LINE(2), TRIGGER_LINE(3), TRIGGER_LINE(4), TRIGGER_LINE(5), NI_AnalogComparisonEvent, 0, /* Termination */ } }, { .dest = NI_MasterTimebase, .src = (int[]){ TRIGGER_LINE(7), NI_20MHzTimebase, 0, /* Termination */ } }, { /* Termination of list */ .dest = 0, }, }, };