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1.2.4
pva2pva/pdbApp/pdbsingle.cpp
Michael Davidsaver 8e7a1ad295 checkDISP
2020-07-05 23:06:30 -07:00

477 lines
14 KiB
C++
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#include <sstream>
#include <string.h>
#include <dbAccess.h>
#include <dbChannel.h>
#include <dbStaticLib.h>
#include <errlog.h>
#include <dbNotify.h>
#include <osiSock.h>
#include <epicsAtomic.h>
#include <pv/epicsException.h>
#include <pv/pvAccess.h>
#include <pv/security.h>
#include <pv/configuration.h>
#include "helper.h"
#include "pdbsingle.h"
#include "pdb.h"
namespace pvd = epics::pvData;
namespace pva = epics::pvAccess;
size_t PDBSinglePV::num_instances;
size_t PDBSingleChannel::num_instances;
size_t PDBSinglePut::num_instances;
size_t PDBSingleMonitor::num_instances;
typedef epicsGuard<epicsMutex> Guard;
static
void pdb_single_event(void *user_arg, struct dbChannel *chan,
int eventsRemaining, struct db_field_log *pfl)
{
DBEvent *evt=(DBEvent*)user_arg;
try{
PDBSinglePV::shared_pointer self(std::tr1::static_pointer_cast<PDBSinglePV>(((PDBSinglePV*)evt->self)->shared_from_this()));
PDBSinglePV::interested_remove_t temp;
{
Guard G(self->lock);
// we have exclusive use of self->scratch
self->scratch.clear();
{
DBScanLocker L(dbChannelRecord(self->chan));
// dbGet() into self->complete
self->pvif->put(self->scratch, evt->dbe_mask, pfl);
}
if(evt->dbe_mask&DBE_PROPERTY)
self->hadevent_PROPERTY = true;
else
self->hadevent_VALUE = true;
if(self->hadevent_VALUE && self->hadevent_PROPERTY) {
self->interested_iterating = true;
FOREACH(PDBSinglePV::interested_t::const_iterator, it, end, self->interested) {
PDBSingleMonitor& mon = **it;
// from self->complete into monitor queue element
mon.post(G, self->scratch); // G unlocked during call
}
while(!self->interested_add.empty()) {
PDBSinglePV::interested_t::iterator first(self->interested_add.begin());
self->interested.insert(*first);
self->interested_add.erase(first);
}
temp.swap(self->interested_remove);
for(PDBSinglePV::interested_remove_t::iterator it(temp.begin()),
end(temp.end()); it != end; ++it)
{
self->interested.erase(static_cast<PDBSingleMonitor*>(it->get()));
}
self->interested_iterating = false;
self->finalizeMonitor();
}
}
}catch(std::tr1::bad_weak_ptr&){
/* We are racing destruction of the PDBSinglePV, but things are ok.
* The destructor is running, but has not completed db_cancel_event()
* so storage is still valid.
* Just do nothing
*/
}catch(std::exception& e){
std::cerr<<"Unhandled exception in pdb_single_event(): "<<e.what()<<"\n"
<<SHOW_EXCEPTION(e)<<"\n";
}
}
PDBSinglePV::PDBSinglePV(DBCH& chan,
const PDBProvider::shared_pointer& prov)
:provider(prov)
,builder(new ScalarBuilder)
,interested_iterating(false)
,evt_VALUE(this)
,evt_PROPERTY(this)
,hadevent_VALUE(false)
,hadevent_PROPERTY(false)
{
if(ellCount(&chan.chan->pre_chain) || ellCount(&chan.chan->post_chain)) {
DBCH temp(dbChannelName(chan.chan));
this->chan2.swap(temp);
}
this->chan.swap(chan);
fielddesc = std::tr1::static_pointer_cast<const pvd::Structure>(builder->dtype(this->chan));
complete = pvd::getPVDataCreate()->createPVStructure(fielddesc);
FieldName temp;
pvif.reset(builder->attach(this->chan, complete, temp));
epics::atomic::increment(num_instances);
}
PDBSinglePV::~PDBSinglePV()
{
epics::atomic::decrement(num_instances);
}
void PDBSinglePV::activate()
{
dbChannel *pchan = this->chan2.chan ? this->chan2.chan : this->chan.chan;
evt_VALUE.create(provider->event_context, this->chan, &pdb_single_event, DBE_VALUE|DBE_ALARM);
evt_PROPERTY.create(provider->event_context, pchan, &pdb_single_event, DBE_PROPERTY);
}
pva::Channel::shared_pointer
PDBSinglePV::connect(const std::tr1::shared_ptr<PDBProvider>& prov,
const pva::ChannelRequester::shared_pointer& req)
{
PDBSingleChannel::shared_pointer ret(new PDBSingleChannel(shared_from_this(), req));
ret->cred.update(req);
ret->aspvt.add(chan, ret->cred);
return ret;
}
void PDBSinglePV::addMonitor(PDBSingleMonitor* mon)
{
Guard G(lock);
if(interested.empty() && interested_add.empty()) {
// first monitor
// start subscription
hadevent_VALUE = false;
hadevent_PROPERTY = false;
db_event_enable(evt_VALUE.subscript);
db_event_enable(evt_PROPERTY.subscript);
db_post_single_event(evt_VALUE.subscript);
db_post_single_event(evt_PROPERTY.subscript);
} else if(hadevent_VALUE && hadevent_PROPERTY) {
// new subscriber and already had initial update
mon->post(G);
} // else new subscriber, but no initial update. so just wait
if(interested_iterating) {
interested_add.insert(mon);
} else {
interested.insert(mon);
}
}
void PDBSinglePV::removeMonitor(PDBSingleMonitor* mon)
{
Guard G(lock);
if(interested_add.erase(mon)) {
// and+remove while iterating. no-op
} else if(interested_iterating) {
// keep monitor alive while iterating
interested_remove.insert(mon->shared_from_this());
} else {
interested.erase(mon);
finalizeMonitor();
}
}
void PDBSinglePV::finalizeMonitor()
{
assert(!interested_iterating);
if(interested.empty()) {
db_event_disable(evt_VALUE.subscript);
db_event_disable(evt_PROPERTY.subscript);
}
}
PDBSingleChannel::PDBSingleChannel(const PDBSinglePV::shared_pointer& pv,
const pva::ChannelRequester::shared_pointer& req)
:BaseChannel(dbChannelName(pv->chan), pv->provider, req, pv->fielddesc)
,pv(pv)
{
assert(!!this->pv);
epics::atomic::increment(num_instances);
}
PDBSingleChannel::~PDBSingleChannel()
{
epics::atomic::decrement(num_instances);
}
void PDBSingleChannel::printInfo(std::ostream& out)
{
if(aspvt.canWrite())
out << "RW ";
else
out << "RO ";
out<<(&cred.user[0])<<'@'<<(&cred.host[0]);
for(size_t i=0, N=cred.groups.size(); i<N; i++) {
out<<", "<<(&cred.groups[i][0]);
}
out<<"\n";
}
pva::ChannelPut::shared_pointer
PDBSingleChannel::createChannelPut(
pva::ChannelPutRequester::shared_pointer const & requester,
pvd::PVStructure::shared_pointer const & pvRequest)
{
PDBSinglePut::shared_pointer ret(new PDBSinglePut(shared_from_this(), requester, pvRequest));
requester->channelPutConnect(pvd::Status(), ret, fielddesc);
return ret;
}
pva::Monitor::shared_pointer
PDBSingleChannel::createMonitor(
pva::MonitorRequester::shared_pointer const & requester,
pvd::PVStructure::shared_pointer const & pvRequest)
{
PDBSingleMonitor::shared_pointer ret(new PDBSingleMonitor(pv->shared_from_this(), requester, pvRequest));
ret->weakself = ret;
assert(!!pv->complete);
guard_t G(pv->lock);
ret->connect(G, pv->complete);
return ret;
}
static
int single_put_callback(struct processNotify *notify,notifyPutType type)
{
PDBSinglePut *self = (PDBSinglePut*)notify->usrPvt;
if(notify->status!=notifyOK) return 0;
// we've previously ensured that wait_changed&DBE_VALUE is true
switch(type) {
case putDisabledType:
return 0;
case putFieldType:
{
DBScanLocker L(notify->chan);
self->wait_pvif->get(*self->wait_changed);
}
break;
case putType:
self->wait_pvif->get(*self->wait_changed);
break;
}
return 1;
}
static
void single_done_callback(struct processNotify *notify)
{
PDBSinglePut *self = (PDBSinglePut*)notify->usrPvt;
pvd::Status sts;
// busy state should be 1 (normal completion) or 2 (if cancel in progress)
if(epics::atomic::compareAndSwap(self->notifyBusy, 1, 0)==0) {
std::cerr<<"PDBSinglePut dbNotify state error?\n";
}
switch(notify->status) {
case notifyOK:
break;
case notifyCanceled:
return; // skip notification
case notifyError:
sts = pvd::Status::error("Error in dbNotify");
break;
case notifyPutDisabled:
sts = pvd::Status::error("Put disabled");
break;
}
PDBSinglePut::requester_type::shared_pointer req(self->requester.lock());
if(req)
req->putDone(sts, self->shared_from_this());
}
PDBSinglePut::PDBSinglePut(const PDBSingleChannel::shared_pointer &channel,
const pva::ChannelPutRequester::shared_pointer &requester,
const pvd::PVStructure::shared_pointer &pvReq)
:channel(channel)
,requester(requester)
,changed(new pvd::BitSet(channel->fielddesc->getNumberFields()))
,pvf(pvd::getPVDataCreate()->createPVStructure(channel->fielddesc))
,pvif(channel->pv->builder->attach(channel->pv->chan, pvf, FieldName()))
,notifyBusy(0)
,doProc(PVIF::ProcPassive)
,doWait(false)
{
epics::atomic::increment(num_instances);
dbChannel *chan = channel->pv->chan;
try {
getS<pvd::boolean>(pvReq, "record._options.block", doWait);
} catch(std::runtime_error& e) {
requester->message(std::string("block= not understood : ")+e.what(), pva::warningMessage);
}
std::string proccmd;
if(getS<std::string>(pvReq, "record._options.process", proccmd)) {
if(proccmd=="true") {
doProc = PVIF::ProcForce;
} else if(proccmd=="false") {
doProc = PVIF::ProcInhibit;
doWait = false; // no point in waiting
} else if(proccmd=="passive") {
doProc = PVIF::ProcPassive;
} else {
requester->message("process= expects: true|false|passive", pva::warningMessage);
}
}
memset((void*)&notify, 0, sizeof(notify));
notify.usrPvt = (void*)this;
notify.chan = chan;
notify.putCallback = &single_put_callback;
notify.doneCallback = &single_done_callback;
}
PDBSinglePut::~PDBSinglePut()
{
cancel();
epics::atomic::decrement(num_instances);
}
void PDBSinglePut::put(pvd::PVStructure::shared_pointer const & value,
pvd::BitSet::shared_pointer const & changed)
{
dbChannel *chan = channel->pv->chan;
dbFldDes *fld = dbChannelFldDes(chan);
pvd::Status ret;
if(!channel->aspvt.canWrite()) {
ret = pvd::Status::error("Put not permitted");
} else if(dbChannelFieldType(chan)>=DBF_INLINK && dbChannelFieldType(chan)<=DBF_FWDLINK) {
try{
std::string lval(value->getSubFieldT<pvd::PVScalar>("value")->getAs<std::string>());
long status = dbChannelPutField(chan, DBF_STRING, lval.c_str(), 1);
if(status)
ret = pvd::Status(pvd::Status::error("dbPutField() error"));
}catch(std::exception& e) {
std::ostringstream strm;
strm<<"Failed to put link field "<<dbChannelName(chan)<<"."<<fld->name<<" : "<<e.what()<<"\n";
ret = pvd::Status(pvd::Status::error(strm.str()));
}
} else if(doWait) {
// TODO: dbNotify doesn't allow us for force processing
// assume value may be a different struct each time
p2p::auto_ptr<PVIF> putpvif(channel->pv->builder->attach(channel->pv->chan, value, FieldName()));
unsigned mask = putpvif->dbe(*changed);
if(mask!=DBE_VALUE) {
requester_type::shared_pointer req(requester.lock());
if(req)
req->message("block=true only supports .value (empty put mask)", pva::warningMessage);
}
if(epics::atomic::compareAndSwap(notifyBusy, 0, 1)!=0)
throw std::logic_error("Previous put() not complete");
notify.requestType = (mask&DBE_VALUE) ? putProcessRequest : processRequest;
wait_pvif = PTRMOVE(putpvif);
wait_changed = changed;
dbProcessNotify(&notify);
return; // skip notification
} else {
// assume value may be a different struct each time
p2p::auto_ptr<PVIF> putpvif(channel->pv->builder->attach(channel->pv->chan, value, FieldName()));
try{
DBScanLocker L(chan);
ret = putpvif->get(*changed, doProc);
}catch(std::runtime_error& e){
ret = pvd::Status::error(e.what());
}
}
requester_type::shared_pointer req(requester.lock());
if(req)
req->putDone(ret, shared_from_this());
}
void PDBSinglePut::cancel()
{
if(epics::atomic::compareAndSwap(notifyBusy, 1, 2)==1) {
dbNotifyCancel(&notify);
wait_changed.reset();
wait_pvif.reset();
epics::atomic::set(notifyBusy, 0);
}
}
void PDBSinglePut::get()
{
changed->clear();
{
DBScanLocker L(pvif->chan);
pvif->put(*changed, DBE_VALUE|DBE_ALARM|DBE_PROPERTY, NULL);
}
//TODO: report unused fields as changed?
changed->clear();
changed->set(0);
requester_type::shared_pointer req(requester.lock());
if(req)
req->getDone(pvd::Status(), shared_from_this(), pvf, changed);
}
PDBSingleMonitor::PDBSingleMonitor(const PDBSinglePV::shared_pointer& pv,
const requester_t::shared_pointer& requester,
const pvd::PVStructure::shared_pointer& pvReq)
:BaseMonitor(pv->lock, requester, pvReq)
,pv(pv)
{
epics::atomic::increment(num_instances);
}
PDBSingleMonitor::~PDBSingleMonitor()
{
destroy();
epics::atomic::decrement(num_instances);
}
void PDBSingleMonitor::destroy()
{
BaseMonitor::destroy();
}
void PDBSingleMonitor::onStart()
{
pv->addMonitor(this);
}
void PDBSingleMonitor::onStop()
{
guard_t G(pv->lock);
pv->removeMonitor(this);
}
void PDBSingleMonitor::requestUpdate()
{
guard_t G(pv->lock);
post(G);
}
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