mirror of
https://git.rwth-aachen.de/acs/public/villas/node/
synced 2025-03-09 00:00:00 +01:00
309 lines
8.2 KiB
C++
309 lines
8.2 KiB
C++
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/* Node-type for SMU data acquisition.
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*
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* Author: Manuel Pitz <manuel.pitz@eonerc.rwth-aachen.de>
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* SPDX-FileCopyrightText: 2014-2023 Institute for Automation of Complex Power Systems, RWTH Aachen University
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <list>
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#include <cmath>
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#include <cstring>
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#include <byteswap.h>
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#include <atomic>
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#include <villas/exceptions.hpp>
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#include <villas/nodes/smu.hpp>
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#include <villas/utils.hpp>
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using namespace villas;
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using namespace villas::node;
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using namespace villas::utils;
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SMUNode::SMUNode(const uuid_t &id, const std::string &name) :
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Node(id, name),
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mode(MODE_FREERUN),
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sample_rate(FS_10kSPS),
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fps(FB_10FPS),
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sync(SYNC_PPS),
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daq_cfg({sample_rate, fps, mode, sync}),
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shared_mem(nullptr), // initalization
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shared_mem_pos(0), // initalization
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shared_mem_inc(0), // initalization
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shared_mem_dim(0), // initalization
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buffer_size(0)
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{
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return;
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}
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int SMUNode::prepare()
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{
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assert(state == State::CHECKED);
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return Node::prepare();
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}
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int SMUNode::parse(json_t *json)
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{
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int ret = Node::parse(json);
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if (ret)
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return ret;
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json_error_t err;
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json_t *jsonDumpers = nullptr;
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char *modeIn = nullptr;
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char *syncIn = nullptr;
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char *fpsIn = nullptr;
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char *sample_rateIn = nullptr;
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json_t *in_json = nullptr;
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ret = json_unpack_ex(json, &err, 0, "{ s?: s, s?: s, s?: s, s?: s, s?: o, s?: o }",
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"mode", &modeIn,
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"sync", &syncIn,
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"fps", &fpsIn,
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"sample_rate", &sample_rateIn,
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"dumper", &jsonDumpers,
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"in", &in_json
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);
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if (ret)
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throw ConfigError(json, err, "node-config-node-smu");
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if (jsonDumpers) {
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auto signals = getInputSignals();
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size_t i;
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json_t *jsonDumper;
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ret = json_unpack_ex(jsonDumpers, &err, 0, "{ o }",
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&jsonDumper
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);
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json_array_foreach(jsonDumpers, i, jsonDumper) {
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char *nameIn = nullptr;
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char *pathIn = nullptr;
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ret = json_unpack_ex(jsonDumper, &err, 0, "{ s: s, s: s }",
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"name", &nameIn,
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"path", &pathIn
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);
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if (ret)
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throw ConfigError(json, err, "node-config-node-smu", "Failed to parse dumper configuration");
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int idx = signals->getIndexByName(nameIn);
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if (idx == -1)
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throw ConfigError(json, err, "node-config-node-smu", "Could not find signal {} for dumper", nameIn);
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dumpers[idx].setPath(pathIn);
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dumpers[idx].openSocket();
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dumpers[idx].setActive();
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}
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}
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if(!modeIn || strcmp(modeIn, "MODE_FREERUN")==0)
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mode = MODE_FREERUN;
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else if (strcmp(modeIn, "MODE_ONESHOT")==0)
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mode = MODE_ONESHOT;
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else if (strcmp(modeIn, "MODE_VIRTUAL")==0)
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mode = MODE_VIRTUAL;
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else if (strcmp(modeIn, "MODE_MAX")==0)
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mode = MODE_MAX;
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if(!syncIn || strcmp(syncIn, "SYNC_PPS")==0)
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sync = SYNC_PPS;
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else if (strcmp(syncIn, "SYNC_NONE")==0)
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sync = SYNC_NONE;
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else if (strcmp(syncIn, "SYNC_NTP")==0)
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sync = SYNC_NTP;
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else if (strcmp(syncIn, "SYNC_MAX")==0)
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sync = SYNC_MAX;
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if(!fpsIn || strcmp(fpsIn, "FB_10FPS")==0)
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fps = FB_10FPS;
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else if (strcmp(fpsIn, "FB_20FPS")==0)
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fps = FB_20FPS;
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else if (strcmp(fpsIn, "FB_50FPS")==0)
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fps = FB_50FPS;
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else if (strcmp(fpsIn, "FB_100FPS")==0)
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fps = FB_100FPS;
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else if (strcmp(fpsIn, "FB_200FPS")==0)
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fps = FB_200FPS;
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if (!sample_rateIn || strcmp(sample_rateIn, "FS_10kSPS")==0)
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sample_rate = FS_10kSPS;
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else if (strcmp(sample_rateIn, "FS_1kSPS")==0)
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sample_rate = FS_1kSPS;
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else if (strcmp(sample_rateIn, "FS_2kSPS")==0)
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sample_rate = FS_2kSPS;
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else if (strcmp(sample_rateIn, "FS_5kSPS")==0)
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sample_rate = FS_5kSPS;
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else if (strcmp(sample_rateIn, "FS_20kSPS")==0)
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sample_rate = FS_20kSPS;
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else if (strcmp(sample_rateIn, "FS_25kSPS")==0)
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sample_rate = FS_25kSPS;
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else if (strcmp(sample_rateIn, "FS_50kSPS")==0)
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sample_rate = FS_50kSPS;
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else if (strcmp(sample_rateIn, "FS_100kSPS")==0)
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sample_rate = FS_100kSPS;
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else if (strcmp(sample_rateIn, "FS_200kSPS")==0) {
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sample_rate = FS_200kSPS;
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}
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if (json_is_object(in_json) && json_object_get(in_json, "vectorize")) {
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throw ConfigError(json, "node-config-node-smu", "Vectorize cannot be overwritten for this node type!");
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}
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in.vectorize = sample_rate * 1000 / fps;
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return 0;
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}
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int SMUNode::start()
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{
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assert(state == State::PREPARED ||
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state == State::PAUSED);
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int ret = Node::start();
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daq_cfg.rate = sample_rate;
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daq_cfg.buff = fps;
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daq_cfg.mode = mode;
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daq_cfg.sync = sync;
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fd = ::open(SMU_DEV, O_RDWR);
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if (fd < 0)
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logger->warn("Fail to open the device driver");
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// Associate kernel-to-user Task ID
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if (ioctl(fd, SMU_IOC_REG_TASK, 0)){
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logger->warn("Fail to register the driver");
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::close(fd);
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// return;
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}
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// Map kernel-to-user shared memory
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void *sh_mem = mmap(nullptr, MMAP_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
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shared_mem = (uint8_t*)sh_mem;
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if (shared_mem == MAP_FAILED)
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logger->warn("Fail to map driver memory");
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// Install PPS signal handler
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sigemptyset(&act.sa_mask);
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act.sa_flags = (SA_SIGINFO | SA_RESTART);
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act.sa_sigaction = sync_signal;
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if (sigaction(SMU_SIG_SYNC, &act, nullptr))
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logger->warn("Fail to install PPS handler");
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// Install ADC signal handler
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sigemptyset(&act.sa_mask);
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act.sa_flags = (SA_SIGINFO | SA_RESTART);
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act.sa_sigaction = data_available_signal;
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if (sigaction(SMU_SIG_DATA, &act, nullptr))
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logger->warn("Fail to install ADC handler");
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// Update DAQ memory configuration
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shared_mem_pos = 0;
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shared_mem_inc = sizeof(smu_mcsc_t);
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shared_mem_dim = daq_cfg.rate;
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// Stop DAQ driver
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if (ioctl(fd, SMU_IOC_STOP, 0))
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logger->warn("Fail to stop the driver");
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// Configure DAQ driver
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if (::write(fd, &daq_cfg, sizeof(daq_cfg.rate)))
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logger->warn("Fail to configure the driver");
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// Start DAQ driver
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if (ioctl(fd, SMU_IOC_START, 0)) {
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logger->warn("Fail to start the driver");
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}
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if (!ret)
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state = State::STARTED;
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return ret;
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}
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int SMUNode::stop()
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{
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// Stop DAQ driver
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if(!ioctl(fd, SMU_IOC_STOP, 0)) {
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// Unmap kernel-to-user shared memory
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munmap(shared_mem, MMAP_SIZE);
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while(close(fd) != 0){}
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}
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return 1;
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}
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void SMUNode::sync_signal(int, siginfo_t *info, void*)
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{
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ioctl(fd, SMU_IOC_GET_TIME,&sync_signal_mem_pos);
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sample_time.tv_nsec = sync_signal_mem_pos.tv_nsec; //macht nix
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sample_time.tv_sec = sync_signal_mem_pos.tv_sec;
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if (sample_time.tv_nsec > 500000000)
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sample_time.tv_sec += 1;
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//std::cout << "\n\npps event\n\n";
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}
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void SMUNode::data_available_signal(int, siginfo_t *info, void*)
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{
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mem_pos = (info->si_value.sival_int);
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/* Signal uldaq_read() about new data */
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pthread_cond_signal(&cv);
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}
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int SMUNode::_read(struct Sample *smps[], unsigned cnt)
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{
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struct timespec ts;
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ts.tv_sec = sample_time.tv_sec;
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pthread_mutex_lock(&mutex);
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pthread_cond_wait(&cv, &mutex);
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size_t mem_pos_local = mem_pos;
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smu_mcsc_t* p = (smu_mcsc_t*)shared_mem;
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for (unsigned j = 0; j < cnt; j++) {
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struct Sample *t = smps[j];
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ts.tv_nsec = mem_pos_local * 1e6 / (sample_rate);//current_sample*1e9* 1/(sample_rate * 1000)
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for (unsigned i = 0; i < 8; i++) { //auslagern, Steffen fragen
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int16_t data = p[mem_pos_local].ch[i];
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t->data[i].f = ((double)data);
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if (dumpers[i].isActive())
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dumpers[i].writeDataBinary(1, &(t->data[i].f));
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}
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mem_pos_local++;
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t->flags = (int) SampleFlags::HAS_TS_ORIGIN | (int) SampleFlags::HAS_DATA | (int) SampleFlags::HAS_SEQUENCE;
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t->ts.origin = ts;
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t->sequence = sequence++;
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t->length = 8;
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t->signals = in.signals;
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}
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pthread_mutex_unlock(&mutex);
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return cnt;
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}
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static char n[] = "smu";
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static char d[] = "SMU data acquisition";
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static NodePlugin<SMUNode, n , d, (int) NodeFactory::Flags::SUPPORTS_READ | (int) NodeFactory::Flags::SUPPORTS_POLL> p;
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