/* Node type: OPAL (AsyncApi).
*
* This file implements the opal subtype for nodes.
*
* Author: Steffen Vogel <post@steffenvogel.de>
* SPDX-FileCopyrightText: 2014-2023 Institute for Automation of Complex Power Systems, RWTH Aachen University
* SPDX-License-Identifier: Apache-2.0
*/
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <cmath>
#include <cstdlib>
#include <vector>
#include <villas/exceptions.hpp>
#include <villas/node_compat.hpp>
#include <villas/nodes/opal.hpp>
#include <villas/utils.hpp>
extern "C" {
/* Define RTLAB before including OpalPrint.h for messages to be sent
* to the OpalDisplay. Otherwise stdout will be used. */
#define RTLAB
#include <AsyncApi.h>
#include <OpalGenAsyncParamCtrl.h>
#include <OpalPrint.h>
}
// Private static storage
static std::string
asyncShmemName; // Shared Memory identifiers and size, provided via argv.
static std::string
printShmemName; // Shared Memory identifiers and size, provided via argv.
static size_t
asyncShmemSize; // Shared Memory identifiers and size, provided via argv.
static std::vector<unsigned> sendIDs,
recvIDs; // A dynamically allocated array of SendIDs.
static Opal_GenAsyncParam_Ctrl
params; // String and Float parameters, provided by the OPAL AsyncProcess block.
static pthread_mutex_t lock; // Big Global Lock for libOpalAsync API
using namespace villas;
using namespace villas::utils;
/* A bunch of symbols which are used by the libOpal libraries
* and undefined by GCC. We replace them by GCC variants here.
*/
extern "C" {
int __xstat(int ver, const char *path, struct stat *stat_buf) {
return stat(path, stat_buf);
}
int backtrace(void **buffer, int size) { return 0; }
char **backtrace_symbols(void *const *buffer, int size) { return nullptr; }
void backtrace_symbols_fd(void *const *buffer, int size, int fd) {}
void *_intel_fast_memset(void *b, int c, size_t len) {
return memset(b, c, len);
}
void *_intel_fast_memcpy(void *dst, const void *src, size_t n) {
return memcpy(dst, src, n);
}
int _intel_fast_memcmp(const void *s1, const void *s2, size_t n) {
return memcmp(s1, s2, n);
}
void *_intel_fast_memmove(void *s1, const void *s2, size_t n) {
return memmove(s1, s2, n);
}
}
static int opal_register_region(int argc, char *argv[]) {
if (argc != 4)
return -1;
asyncShmemName = argv[1];
asyncShmemSize = atoi(argv[2]);
printShmemName = argv[3];
return 0;
}
int villas::node::opal_type_start(villas::node::SuperNode *sn) {
int err, noRecvIcons, noSendIcons;
pthread_mutex_init(&lock, nullptr);
// Enable the OpalPrint function. This prints to the OpalDisplay.
err = OpalSystemCtrl_Register((char *)printShmemName.c_str());
if (err != EOK)
throw RuntimeError("OpalPrint() access not available ({})", err);
// Open Share Memory created by the model.
err = OpalOpenAsyncMem(asyncShmemSize, asyncShmemName.c_str());
if (err != EOK)
throw RuntimeError("Model shared memory not available ({})", err);
err = OpalGetAsyncCtrlParameters(¶ms, sizeof(Opal_GenAsyncParam_Ctrl));
if (err != EOK)
throw RuntimeError("Could not get OPAL controller parameters ({})", err);
// Get list of Send and RecvIDs
err = OpalGetNbAsyncSendIcon(&noSendIcons);
if (err != EOK)
throw RuntimeError("Failed to get number of send blocks ({})", err);
err = OpalGetNbAsyncRecvIcon(&noRecvIcons);
if (err != EOK)
throw RuntimeError("Failed to get number of recv blocks ({})", err);
sendIDs.resize(noSendIcons);
recvIDs.resize(noRecvIcons);
err = OpalGetAsyncSendIDList(sendIDs.data(), noSendIcons * sizeof(int));
if (err != EOK)
throw RuntimeError("Failed to get list of send ids ({})", err);
err = OpalGetAsyncRecvIDList(recvIDs.data(), noRecvIcons * sizeof(int));
if (err != EOK)
throw RuntimeError("Failed to get list of recv ids ({})", err);
auto logger = logging.get("node:opal");
logger->info("Started as OPAL Asynchronous process");
logger->info("This is VILLASnode %s (built on %s, %s)", PROJECT_BUILD_ID,
__DATE__, __TIME__);
opal_print_global();
return 0;
}
int villas::node::opal_type_stop() {
int err;
err = OpalCloseAsyncMem(asyncShmemSize, asyncShmemName.c_str());
if (err != EOK)
throw RuntimeError("Failed to close shared memory area ({})", err);
auto logger = logging.get("node:opal");
logger->debug("Closing OPAL shared memory mapping");
err = OpalSystemCtrl_UnRegister((char *)printShmemName.c_str());
if (err != EOK)
throw RuntimeError("Failed to close shared memory for system control ({})",
err);
pthread_mutex_destroy(&lock);
return 0;
}
static int opal_print_global() {
auto logger = logging.get("node:opal");
logger->debug("Controller ID: {}", params.controllerID);
std::stringstream sss, rss;
for (auto i : sendIDs)
sss << i << " ";
for (auto i : recvIDs)
rss << i << " ";
logger->debug("Send Blocks: {}", sss.str());
logger->debug("Receive Blocks: {}", rss.str());
logger->debug("Control Block Parameters:");
for (int i = 0; i < GENASYNC_NB_FLOAT_PARAM; i++)
logger->debug("FloatParam[{}] = {}", i, (double)params.FloatParam[i]);
for (int i = 0; i < GENASYNC_NB_STRING_PARAM; i++)
logger->debug("StringParam[{}] = {}", i, params.StringParam[i]);
return 0;
}
int villas::node::opal_parse(NodeCompat *n, json_t *json) {
auto *o = n->getData<struct opal>();
int ret;
json_error_t err;
ret = json_unpack_ex(json, &err, 0, "{ s: i, s: i, s: b }", "send_id",
&o->sendID, "recv_id", &o->sendID, "reply", &o->reply);
if (ret)
throw ConfigError(json, err, "node-config-node-opal");
return 0;
}
char *villas::node::opal_print(NodeCompat *n) {
auto *o = n->getData<struct opal>();
// TODO: Print send_params, recv_params
return strf("sendID=%u, recvID=%u, reply=%u", o->sendID, o->recvID, o->reply);
}
int villas::node::opal_start(NodeCompat *n) {
auto *o = n->getData<struct opal>();
// Search for valid send and recv ids
int sfound = 0, rfound = 0;
for (auto i : sendIDs)
sfound += i == o->sendID;
for (auto i : recvIDs)
rfound += i == o->sendID;
if (!sfound)
throw RuntimeError("Invalid send_id '{}'", o->sendID);
if (!rfound)
throw RuntimeError("Invalid recv_id '{}'", o->recvID);
// Get some more informations and paramters from OPAL-RT
OpalGetAsyncSendIconMode(&o->mode, o->sendID);
OpalGetAsyncSendParameters(&o->sendParams, sizeof(Opal_SendAsyncParam),
o->sendID);
OpalGetAsyncRecvParameters(&o->recvParams, sizeof(Opal_RecvAsyncParam),
o->recvID);
o->sequenceNo = 0;
return 0;
}
int villas::node::opal_read(NodeCompat *n, struct Sample *const smps[],
unsigned cnt) {
auto *o = n->getData<struct opal>();
int state, ret, len;
unsigned id;
struct Sample *s = smps[0];
double data[s->capacity];
if (cnt != 1)
throw RuntimeError("The OPAL-RT node type does not support combining!");
// This call unblocks when the 'Data Ready' line of a send icon is asserted.
do {
ret = OpalWaitForAsyncSendRequest(&id);
if (ret != EOK) {
state = OpalGetAsyncModelState();
if ((state == STATE_RESET) || (state == STATE_STOP))
throw RuntimeError(
"OpalGetAsyncModelState(): Model stopped or resetted!");
return -1; // TODO: correct return value
}
} while (id != o->sendID);
// No errors encountered yet
OpalSetAsyncSendIconError(0, o->sendID);
// Get the size of the data being sent by the unblocking SendID
OpalGetAsyncSendIconDataLength(&len, o->sendID);
if ((unsigned)len > s->capacity * sizeof(s->data[0])) {
n->logger->warn("Ignoring the last {} of {} values for OPAL (send_id={}).",
len / sizeof(double) - s->capacity, len / sizeof(double),
o->sendID);
len = sizeof(data);
}
// Read data from the model
OpalGetAsyncSendIconData(data, len, o->sendID);
s->sequence = htons(o->sequenceNo++);
s->length = (unsigned)len / sizeof(double);
for (unsigned i = 0; i < s->length; i++)
s->data[i].f = (float)data[i]; // OPAL provides double precission
/* This next call allows the execution of the "asynchronous" process
* to actually be synchronous with the model. To achieve this, you
* should set the "Sending Mode" in the Async_Send block to
* NEED_REPLY_BEFORE_NEXT_SEND or NEED_REPLY_NOW. This will force
* the model to wait for this process to call this
* OpalAsyncSendRequestDone function before continuing. */
if (o->reply)
OpalAsyncSendRequestDone(o->sendID);
/* Before continuing, we make sure that the real-time model
* has not been stopped. If it has, we quit. */
state = OpalGetAsyncModelState();
if ((state == STATE_RESET) || (state == STATE_STOP))
throw RuntimeError("OpalGetAsyncModelState(): Model stopped or resetted!");
return 1;
}
int villas::node::opal_write(NodeCompat *n, struct Sample *const smps[],
unsigned cnt) {
auto *o = n->getData<struct opal>();
struct Sample *s = smps[0];
int state;
int len;
double data[s->length];
if (cnt != 1)
throw RuntimeError("The OPAL-RT node type does not support combining!");
state = OpalGetAsyncModelState();
if ((state == STATE_RESET) || (state == STATE_STOP))
throw RuntimeError("OpalGetAsyncModelState(): Model stopped or resetted!");
OpalSetAsyncRecvIconStatus(s->sequence,
o->recvID); // Set the Status to the message ID
OpalSetAsyncRecvIconError(0, o->recvID); // Set the Error to 0
// Get the number of signals to send back to the model
OpalGetAsyncRecvIconDataLength(&len, o->recvID);
if (len > (int)sizeof(data))
n->logger->warn(
"Node expecting more signals ({}) than values in message ({})",
len / sizeof(double), s->length);
for (unsigned i = 0; i < s->length; i++)
data[i] = (double)s->data[i].f; // OPAL expects double precission
OpalSetAsyncRecvIconData(data, s->length * sizeof(double), o->recvID);
return 1;
}
static NodeCompatType p;
__attribute__((constructor(110))) static void register_plugin() {
p.name = "opal";
p.description = "run as OPAL Asynchronous Process (libOpalAsyncApi)";
p.vectorize = 1;
p.size = sizeof(struct opal);
p.type.start = opal_type_start;
p.type.stop = opal_type_stop;
p.parse = opal_parse;
p.print = opal_print;
p.start = opal_start;
p.read = opal_read;
p.write = opal_write;
static NodeCompatFactory ncp(&p);
}