459 lines
12 KiB
Go
459 lines
12 KiB
Go
//go:build epics
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// Package epics provides an EPICS Channel Access data source for uopi.
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//
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// # Build requirements
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//
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// This file and all other files tagged "epics" require CGo and a working EPICS
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// Base installation. Set the following environment variables before building:
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//
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// export EPICS_BASE=/path/to/epics/base
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// export CGO_CFLAGS="-I${EPICS_BASE}/include -I${EPICS_BASE}/include/os/Linux"
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// export CGO_LDFLAGS="-L${EPICS_BASE}/lib/linux-x86_64 -lca -lCom"
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//
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// Then build with:
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//
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// CGO_ENABLED=1 go build -tags epics ./...
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package epics
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/*
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#cgo CFLAGS: -Wall
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#include "ca_wrapper.h"
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#include <stdlib.h>
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*/
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import "C"
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import (
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"context"
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"fmt"
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"sync"
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"sync/atomic"
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"time"
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"unsafe"
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"github.com/uopi/uopi/internal/datasource"
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)
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// connEntry holds the one-shot channel used during channel creation to wait for
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// the initial connection callback.
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type connEntry struct {
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connCh chan struct{}
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}
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// handleTable maps Go-side handle IDs to the subscriber's value channel.
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// Protected by handleMu.
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var (
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handleMu sync.Mutex
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handleTable = make(map[uintptr]chan<- datasource.Value)
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connTable = make(map[uintptr]*connEntry)
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)
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// handleSeq is an atomically-incremented counter used to generate unique handle
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// IDs that are passed through CA as void* user pointers.
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var handleSeq atomic.Uintptr
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func nextHandle() uintptr {
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return handleSeq.Add(1)
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}
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// caChannel holds the CA resources for a single PV.
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type caChannel struct {
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chid C.chid
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evid C.evid // monitor event ID; zero if no monitor installed
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handle uintptr
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}
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// EPICS is the Channel Access data source.
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type EPICS struct {
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caAddrList string
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archiveURL string
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mu sync.Mutex
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channels map[string]*caChannel // PV name → CA channel
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metadata map[string]datasource.Metadata
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}
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// New creates a new EPICS Channel Access data source.
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//
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// caAddrList is used to set EPICS_CA_ADDR_LIST at runtime (may be empty to
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// rely on the environment). archiveURL is the base URL of an EPICS Archive
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// Appliance instance for history queries (may be empty).
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func New(caAddrList, archiveURL string) datasource.DataSource {
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return &EPICS{
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caAddrList: caAddrList,
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archiveURL: archiveURL,
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channels: make(map[string]*caChannel),
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metadata: make(map[string]datasource.Metadata),
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}
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}
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// Available reports whether the EPICS data source is compiled in.
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// Always returns true when built with the "epics" build tag.
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func Available() bool { return true }
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// Name implements datasource.DataSource.
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func (e *EPICS) Name() string { return "epics" }
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// Connect initialises a CA context with preemptive callbacks so that monitor
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// callbacks are delivered on CA's background threads without needing a
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// ca_pend_event polling loop.
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func (e *EPICS) Connect(_ context.Context) error {
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// Optionally override EPICS_CA_ADDR_LIST at runtime.
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if e.caAddrList != "" {
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cs := C.CString(e.caAddrList)
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defer C.free(unsafe.Pointer(cs))
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// ca_setenv is not available in all EPICS versions; use putenv via C.
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envStr := C.CString("EPICS_CA_ADDR_LIST=" + e.caAddrList)
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defer C.free(unsafe.Pointer(envStr))
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C.putenv(envStr)
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}
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status := C.ca_context_create(C.ca_enable_preemptive_callback)
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if status != C.ECA_NORMAL {
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return fmt.Errorf("epics: ca_context_create failed: status %d", int(status))
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}
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return nil
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}
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// Subscribe connects to the named PV (if not already connected), installs a
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// monitor, and streams value updates into ch. The returned CancelFunc removes
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// the monitor and clears the channel.
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func (e *EPICS) Subscribe(ctx context.Context, signal string, ch chan<- datasource.Value) (datasource.CancelFunc, error) {
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handle := nextHandle()
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// Register the handle → channel mapping before creating the CA channel so
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// that any early callbacks are not lost.
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handleMu.Lock()
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handleTable[handle] = ch
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entry := &connEntry{connCh: make(chan struct{}, 1)}
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connTable[handle] = entry
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handleMu.Unlock()
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// Create the CA channel.
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pvName := C.CString(signal)
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defer C.free(unsafe.Pointer(pvName))
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var chid C.chid
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status := C.caCreateChannel(pvName, C.uintptr_t(handle), &chid)
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if status != C.ECA_NORMAL {
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handleMu.Lock()
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delete(handleTable, handle)
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delete(connTable, handle)
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handleMu.Unlock()
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return nil, fmt.Errorf("epics: ca_create_channel(%q) failed: status %d", signal, int(status))
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}
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// Flush the create request and wait for the connection callback.
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C.ca_flush_io()
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select {
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case <-entry.connCh:
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// Connected.
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case <-time.After(5 * time.Second):
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// Timeout; clean up and report error.
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C.ca_clear_channel(chid)
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handleMu.Lock()
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delete(handleTable, handle)
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delete(connTable, handle)
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handleMu.Unlock()
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return nil, fmt.Errorf("epics: timeout waiting for channel %q to connect", signal)
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case <-ctx.Done():
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C.ca_clear_channel(chid)
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handleMu.Lock()
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delete(handleTable, handle)
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delete(connTable, handle)
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handleMu.Unlock()
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return nil, ctx.Err()
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}
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// Determine the native DBR_TIME_* type for the channel.
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dbrType := nativeTimeType(chid)
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// Add the value monitor.
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var evid C.evid
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status = C.caAddMonitor(chid, C.short(dbrType), C.uintptr_t(handle), &evid)
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if status != C.ECA_NORMAL {
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C.ca_clear_channel(chid)
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handleMu.Lock()
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delete(handleTable, handle)
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delete(connTable, handle)
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handleMu.Unlock()
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return nil, fmt.Errorf("epics: ca_add_event(%q) failed: status %d", signal, int(status))
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}
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C.ca_flush_io()
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caCh := &caChannel{chid: chid, evid: evid, handle: handle}
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e.mu.Lock()
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e.channels[signal] = caCh
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e.mu.Unlock()
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cancel := datasource.CancelFunc(func() {
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if evid != nil {
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C.ca_clear_event(evid)
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}
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C.ca_clear_channel(chid)
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C.ca_flush_io()
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handleMu.Lock()
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delete(handleTable, handle)
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delete(connTable, handle)
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handleMu.Unlock()
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e.mu.Lock()
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delete(e.channels, signal)
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e.mu.Unlock()
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})
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return cancel, nil
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}
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// GetMetadata performs a synchronous ca_get for DBR_CTRL_DOUBLE (or the
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// appropriate control type) to retrieve units, display limits, enum strings,
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// and writability information for the named signal.
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func (e *EPICS) GetMetadata(ctx context.Context, signal string) (datasource.Metadata, error) {
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// Check cache first.
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e.mu.Lock()
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if m, ok := e.metadata[signal]; ok {
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e.mu.Unlock()
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return m, nil
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}
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e.mu.Unlock()
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// We need a connected channel to issue a ca_get. Reuse an existing one or
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// create a temporary channel.
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e.mu.Lock()
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existingCh, exists := e.channels[signal]
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e.mu.Unlock()
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var chid C.chid
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tempChannel := false
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if exists {
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chid = existingCh.chid
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} else {
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// Create a temporary channel for metadata retrieval.
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handle := nextHandle()
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entry := &connEntry{connCh: make(chan struct{}, 1)}
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handleMu.Lock()
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connTable[handle] = entry
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handleMu.Unlock()
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pvName := C.CString(signal)
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defer C.free(unsafe.Pointer(pvName))
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status := C.caCreateChannel(pvName, C.uintptr_t(handle), &chid)
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if status != C.ECA_NORMAL {
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handleMu.Lock()
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delete(connTable, handle)
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handleMu.Unlock()
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return datasource.Metadata{}, fmt.Errorf("epics: ca_create_channel(%q) failed: status %d", signal, int(status))
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}
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C.ca_flush_io()
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select {
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case <-entry.connCh:
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case <-time.After(5 * time.Second):
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C.ca_clear_channel(chid)
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handleMu.Lock()
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delete(connTable, handle)
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handleMu.Unlock()
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return datasource.Metadata{}, fmt.Errorf("epics: timeout connecting to %q for metadata", signal)
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case <-ctx.Done():
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C.ca_clear_channel(chid)
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handleMu.Lock()
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delete(connTable, handle)
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handleMu.Unlock()
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return datasource.Metadata{}, ctx.Err()
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}
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handleMu.Lock()
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delete(connTable, handle)
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handleMu.Unlock()
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tempChannel = true
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}
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meta := e.fetchMetadata(chid, signal)
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if tempChannel {
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C.ca_clear_channel(chid)
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C.ca_flush_io()
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}
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e.mu.Lock()
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e.metadata[signal] = meta
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e.mu.Unlock()
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return meta, nil
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}
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// fetchMetadata retrieves metadata from a connected chid using ca_get.
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func (e *EPICS) fetchMetadata(chid C.chid, name string) datasource.Metadata {
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meta := datasource.Metadata{Name: name}
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fieldType := C.ca_field_type(chid)
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count := C.ca_element_count(chid)
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// Determine the Go DataType and the DBR_CTRL type to request.
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var ctrlType C.chtype
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switch int(fieldType) {
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case int(C.DBF_DOUBLE), int(C.DBF_FLOAT):
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if count > 1 {
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meta.Type = datasource.TypeFloat64Array
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} else {
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meta.Type = datasource.TypeFloat64
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}
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ctrlType = C.DBR_CTRL_DOUBLE
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case int(C.DBF_LONG), int(C.DBF_SHORT), int(C.DBF_CHAR):
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meta.Type = datasource.TypeInt64
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ctrlType = C.DBR_CTRL_LONG
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case int(C.DBF_ENUM):
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meta.Type = datasource.TypeEnum
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ctrlType = C.DBR_CTRL_ENUM
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case int(C.DBF_STRING):
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meta.Type = datasource.TypeString
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ctrlType = C.DBR_CTRL_STRING
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default:
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meta.Type = datasource.TypeFloat64
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ctrlType = C.DBR_CTRL_DOUBLE
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}
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// Perform a synchronous ca_get with a 3-second timeout.
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switch ctrlType {
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case C.DBR_CTRL_DOUBLE:
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var buf C.struct_dbr_ctrl_double
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status := C.ca_get(C.DBR_CTRL_DOUBLE, chid, unsafe.Pointer(&buf))
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if status == C.ECA_NORMAL {
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C.ca_pend_io(3.0)
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meta.Unit = C.GoString((*C.char)(unsafe.Pointer(&buf.units[0])))
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meta.DisplayLow = float64(buf.lower_disp_limit)
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meta.DisplayHigh = float64(buf.upper_disp_limit)
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meta.DriveLow = float64(buf.lower_ctrl_limit)
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meta.DriveHigh = float64(buf.upper_ctrl_limit)
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// CA does not expose a writable flag directly; assume writable unless
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// it is a read-only field type. Conservatively mark as writable.
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meta.Writable = true
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}
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case C.DBR_CTRL_LONG:
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var buf C.struct_dbr_ctrl_long
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status := C.ca_get(C.DBR_CTRL_LONG, chid, unsafe.Pointer(&buf))
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if status == C.ECA_NORMAL {
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C.ca_pend_io(3.0)
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meta.Unit = C.GoString((*C.char)(unsafe.Pointer(&buf.units[0])))
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meta.DisplayLow = float64(buf.lower_disp_limit)
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meta.DisplayHigh = float64(buf.upper_disp_limit)
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meta.DriveLow = float64(buf.lower_ctrl_limit)
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meta.DriveHigh = float64(buf.upper_ctrl_limit)
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meta.Writable = true
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}
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case C.DBR_CTRL_ENUM:
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var buf C.struct_dbr_ctrl_enum
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status := C.ca_get(C.DBR_CTRL_ENUM, chid, unsafe.Pointer(&buf))
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if status == C.ECA_NORMAL {
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C.ca_pend_io(3.0)
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n := int(buf.no_str)
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strs := make([]string, n)
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for i := 0; i < n; i++ {
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strs[i] = C.GoString((*C.char)(unsafe.Pointer(&buf.strs[i][0])))
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}
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meta.EnumStrings = strs
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meta.Writable = true
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}
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}
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return meta
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}
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// ListSignals returns cached metadata for all currently connected channels.
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// Full enumeration of all available PVs is deferred to Phase 9.
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func (e *EPICS) ListSignals(_ context.Context) ([]datasource.Metadata, error) {
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e.mu.Lock()
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defer e.mu.Unlock()
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out := make([]datasource.Metadata, 0, len(e.metadata))
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for _, m := range e.metadata {
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out = append(out, m)
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}
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return out, nil
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}
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// Write puts a new value onto a CA channel.
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func (e *EPICS) Write(_ context.Context, signal string, value any) error {
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e.mu.Lock()
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caCh, ok := e.channels[signal]
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e.mu.Unlock()
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if !ok {
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return datasource.ErrNotFound
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}
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var status C.int
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switch v := value.(type) {
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case float64:
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cv := C.double(v)
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status = C.ca_put(C.DBR_DOUBLE, caCh.chid, unsafe.Pointer(&cv))
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case int64:
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cv := C.long(v)
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status = C.ca_put(C.DBR_LONG, caCh.chid, unsafe.Pointer(&cv))
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case string:
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cs := C.CString(v)
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defer C.free(unsafe.Pointer(cs))
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status = C.ca_put(C.DBR_STRING, caCh.chid, unsafe.Pointer(cs))
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case bool:
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var iv C.short
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if v {
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iv = 1
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}
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status = C.ca_put(C.DBR_SHORT, caCh.chid, unsafe.Pointer(&iv))
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default:
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return fmt.Errorf("epics: unsupported value type %T for Write", value)
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}
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if status != C.ECA_NORMAL {
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return fmt.Errorf("epics: ca_put(%q) failed: status %d", signal, int(status))
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}
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C.ca_flush_io()
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return nil
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}
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// History delegates to the Archive Appliance client, or returns
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// ErrHistoryUnavailable if no archive URL is configured.
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func (e *EPICS) History(ctx context.Context, signal string, start, end time.Time, maxPoints int) ([]datasource.Value, error) {
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if e.archiveURL == "" {
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return nil, datasource.ErrHistoryUnavailable
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}
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return fetchArchiveHistory(ctx, e.archiveURL, signal, start, end, maxPoints)
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}
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// nativeTimeType returns the DBR_TIME_* type corresponding to the native field
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// type of the channel.
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func nativeTimeType(chid C.chid) C.chtype {
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ft := C.ca_field_type(chid)
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count := C.ca_element_count(chid)
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switch int(ft) {
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case int(C.DBF_DOUBLE):
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if count > 1 {
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return C.DBR_TIME_DOUBLE // waveform; caller assembles []float64 separately
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}
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return C.DBR_TIME_DOUBLE
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case int(C.DBF_FLOAT):
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return C.DBR_TIME_FLOAT
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case int(C.DBF_LONG):
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return C.DBR_TIME_LONG
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case int(C.DBF_SHORT), int(C.DBF_CHAR):
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return C.DBR_TIME_SHORT
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case int(C.DBF_ENUM):
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return C.DBR_TIME_ENUM
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case int(C.DBF_STRING):
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return C.DBR_TIME_STRING
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default:
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return C.DBR_TIME_DOUBLE
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}
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}
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