V4 Design: dbdInterfaces

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EPICS: dbdInterfaces - IOC Database Description

September 14 2005


Overview

This document describes definitions for code that accessses IOC records, i.e. the records created from Database Definitions: menu, struct, record, link, device, and record instances.

The interfaces support introspection of everything created from Database Definitions. The interfaces can be used by tools such as VDCT or on a running IOC database.

The definitions can be used by code that use code automatically genereted from DBD files or by code that uses only introspection.

Code is automatically generated from the following definitions:

  • record - Used by record support.
  • struct - Used by code that understands the struct.
  • menu - Used by code that understands the menu.

Syntax

The syntax is defined so that it is easy to provide C++ and Java definitions.

NOTE: Most of the code fragments use Java syntax.

Primitive Types

  • boolean - a value that takes the values true or false
  • octet - 8 bit byte
  • int16 - 16 bit signed integer
  • int32 - 32 bit signed integer
  • int64 - 64 bit signed integer
  • float32 - 32 bit IEEE float
  • float64 - 64 bit IEEE float

In Java these types become:

  • boolean => boolean
  • octet => byte BUT no arithmetic is implied
  • int16 => short
  • int32 => int
  • int64 => long
  • float32 => float
  • float64 => double

In C++ these types become:

  • boolean => bool BUT no arithmetic or conversion to/from int is implied
  • octet => char BUT no arithmetic is implied
  • int16 => int16_t
  • int32 => int32_t
  • int64 => int64_t
  • float32 => float
  • float64 => double

NOTE:

  • The C++ integer types are from C99 stdint.h
  • Should exceptions be defined?

enum, struct, interface, class, string, array

In adition to the primitive types the syntax uses the terms enum, struct, interface, and array.

enum

An example of an enum is:

    enum LinkDir {
        LinkDirNone,
        LinkDirProcess,
        LinkDirIn,
        LinkDirOut,
        LinkDirInOut
    }

The C++ definition is identical. In Java 5 the definition would be:

    public enum LinkDir {
        LinkDirNone,
        LinkDirProcess,
        LinkDirIn,
        LinkDirOut,
        LinkDirInOut
    };

struct

An example of a struct definition is:

    struct DisplayLimitData {
        float64 low;
        float64 high;
    }

In C++ this would be:

   class DisplayLimitData {
   public:
        double low;
        double high;
    };

In Java this would be:

    class DisplayLimitData {
        public double low;
        public double high;
    }

interface

An example of an interface definition is:

    interface DbfBoolean extends Dbf {
        boolean get();
        void    put(boolean val);
    }

In C++ would be:

    class DbfBoolean : public Dbf {
    public:
        virtual bool get() = 0;
        virtual void put(bool val) = 0;
    };

In Java would be:

    interface DbfBoolean extends Dbf {
        boolean get();
        void    put(boolean val)
    }

class

Any class definitions are language specific.

string

For C++ a string will be a char * array containing UTF-8 compatible characters not necessarily terminated with a null character. Wherever a string argument appears, the C++ definition will have len and char * arguments.

For Java string will just be a String. It is assumed that Java Strings will be converted to/from UTF-8 byte streams when the data is transfered to/from the network.

An example of a definition that includes a string argument is

    void get(String name);

In C++ this will become

    void get(int lenName, char *name);

In Java this will become

    void get(String name);

array

An example of a definition that includes an array is:

    void get(float64[] data);

In C++ ,this would become:

    void get(int lenData, double data[]);

In Java this would be:

    void get(double[] data);

C++ support for strings and arrays

Note that the support described here is not needed for Java since Java already provides facilities

string support

The following interfaces are for allocating tempory storage for strings:

    class NonmutableString {
    public:
       void destroy(); // Call this when done with string
       int32_t getLength();
       char data[];
    }
   
    class NonmutableStringFactory {
    public:
        static NonmutableString *create(int32_t len,char data[]);
    }
    class MutableString : public NonmutableString {
    public:
       int32_t getCapacity();
       void setLength(int32_t len);
    }
   
    class MutableStringFactory {
        static MutableString *create(int32_t capacity);
    }

These will use free lists to manage the storage for the octet arrays.


array copy

ArrayCopy copies arrays an array performing conversions if necessary.

    interface ArrayCopy {
        void copy(DbfArray from,DbfArray to);
    }

This only supports primitive types, i.e. DbfBoolean,...,DbfFloat64. It does NOT convert between DbfBoolean and another type.


Arithmetic Conversions


    static class DbfConvertPrimitive {
    public:
         int16 get(Dbf from);
         int32 get(Dbf from);
         int64 get(Dbf from);
         float32 get(Dbf from);
         float64 get(Dbf from);
         get(Dbf from, String value);
         get(DbfBoolean from, String value);
         put(Dbf to, int16 value);
         put(Dbf to, int32 value);
         put(Dbf to, int64 value);
         put(Dbf to, float32 value);
         put(Dbf to, float64 value);
         put(Dbf to,int32 String value);
         put(DbfBoolean to, String value);
         get(DbfArray from, int16[] value);
         get(DbfArray from, int32[] value);
         get(DbfArray from, int64[] value);
         get(DbfArray from, float32[] value);
         get(DbfArray from, float64[] value);
         put(DbfArray to, int16[] value);
         put(DbfArray to, int32[] value);
         put(DbfArray to, int64[] value);
         put(DbfArray to, float32[] value);
         put(DbfArray to, float64[] value);
    }

NOTES:

  • For Dbf to and from must be one of DbfInt16, ..., DbfFloat64
  • The get to a string implements printf semantics
  • The put from a string value just scanf semantics.
  • The DbfBoolean method supports all the choices specified in the DBD Record Instance Specification
  • For DbfArray to and from must be an array of one of DbfInt16, ..., DbfFloat64

DbfTypes

The following naming conventions are used:

Dbf
any class starting with Dbf describes a field in a header file generated from a struct or record definition. For example DbfArray describes a field generated from field(name,array(float64[]).
Dbd
A class name starting with Dbd describes something related to dbd definitions. For example DbdMenu describes a dbd menu definition.

All Dbf and Dbd definitions are interfaces. Thus all access to data is via interfaces.

DbfTypes.h

The following enum definitions describe each field in the header files generated from DBD struct and record definitions.

    enum BasicType {
        basicTypeBoolean,  // DbfBoolean
        basicTypeOctet,    // DbfOctet
        basicTypeInt16,    // DbfInt16
        basicTypeInt32,    // DbfInt32
        basicTypeInt64,    // DbfInt64
        basicTypeFloat32,  // DbfFloat32
        basicTypeFloat64,  // DbfFloat64
        basicTypeString,   // DbfString
        basicTypeArray,    // DbfArray
        basicTypeStruct,   // DbfStruct
    }
    enum DbfType {
        dbfTypeBasic,       // DbfBoolean,...,DbfStruct
        dbfTypeMenu,        // DbfMenu
        dbfTypeEnum,        // DbfEnum
        dbfTypeLink,        // DbfLink
        dbfTypeDevice,      // DbfDevice
        dbfTypeMDArray,     // DbfMDArray
        dbfTypeTimeStamp    // DbfTimeStamp
    }


Discussion of DbfTypes

The following shows the Java code generated from DBD files:

structure definitions

Two files are generated from struct(name) definitions.

  1. name.java
  2. nameSupport.java

name.java implements:

    interface Struct {
        Dbf getField(int16 index);
    }


If a structure is defined as:

    struct(DisplayLimit) {
        field(low,double)
        field(high,double)
    }

A generated file DisplayLimit.java contains:

    public class DisplayLimit implements Struct{
        public DbfFloat64 low;
        public DbfFloat64 high;
        public static final short lowIndex = 1;
        public static final short highIndex = 2;
        public static final short lastIndex = indexHigh;
        Dbf getField(short index) {
            switch(index) {
                case lowIndex: return(low);
                case highIndex: return(high);
                default: throw java.lang.IllegalStateException;
            }
            return null;
        }
    }

A generated file DisplayLimitSupport.java contains:

    public class DisplayLimitData {
        public double low;
        public double high;
    }
    public final class DisplayLimitSupport implements StructFactory{
        public Struct create() { return new DisplayLimit; }
        public static final void get(DbfStruct from,DisplayLimitData data) {
            DbfFloat64 dbf = from.getInterface(1);
            data.low = dbf.get();
            DbfFloat64 dbf = from.getInterface(2);
            data.high = dbf.get();
        }
        public static final void put(DbfStruct to, DisplayLimitData data) {
            DbfFloat64 dbf = to.getInterface(1);
            dbf.put(data.low);
            DbfFloat64 dbf = to.getInterface(2);
            dbf.put(data.high);
        }
    }
    public final class DisplayLimitSupportRegister {
        static public createAndRegister() {
            DisplayLimitSupport support = new DisplayLimitSupport;
            RegisterSupport.structure(support,"DisplayLimit");
        }
    }

NOTE The V4 replacement for registerRecordDeviceDriver must call DisplayLimitSupportRegister.createAndRegister.

Similar files are generated for C++.

record definitions

If a record is defined as:

    record(Example) extends IocRecord {
        ...
        field(fboolean,boolean)
        field(octet,octet)
        field(fint,int16)
        ...
        field(ffloat,float64)
        field(string,string)
        field(array,array(double[])
        field(mdarray,array(double[,])
        field(menu,menu(name))
        field(fenum,enum)
        field(link,link(in))
        field(device,link(in,analogIO))
        field(displayLimit,struct(DisplayLimit))
    }


The generated Java file is

    public class ExampleRecord implements Struct {
        public DbfBoolean   fboolean;
        public DbfOctet     ctet;
        public DbfInt16     fint;
        ...
        public DbfFloat64   ffloat;
        public DbfString    string;
        public DbfArray     array;
        public DbfMDArray   mdarray;
        public DbfMenu      menu;
        public DbfEnum      fenum;
        public DbfLink      link;
        public DbfDevice    device;
        public DbfStruct    displayLimit;
        public static final int16 fbooleanIndex = 1;
        ...
        public static final int16 lastIndex = displayLimitIndex;
        Dbf getField(short index) {
            switch(index) {
                case fbooleanIndex : return(fboolean);
                ...
                case displayLimitIndex: return(displayLimit);
                default: throw java.lang.IllegalStateException;
            }
        }
    }
    public final class ExampleRecordFactory implements StructFactory{
        public static final Struct create() { return new ExampleRecord; }
    }
    public final class ExampleRecordFactoryRegister {
        static public createAndRegister() {
            ExampleRecordFactory  factory = new ExampleRecordFactory;
            RegisterSupport.record(factory,"ExampleRecord");
        }
    }

NOTE The V4 replacement for registerRecordDeviceDriver must call ExampleRecordFactoryRegister.createAndRegister


Similar code is generated for C++.


Database Fields

Each database field is accessed via an interface which all extend the following interface:

    interface Dbf{
        DbfType getType();
        boolean isPrimitive(); // BasicTypeBoolean,...,BasicTypeFloat64
        boolean isBasic();
        BasicType getBasicType();
        DbInstance getRecord();
        int16 getIndex();
    }

The interfaces are designed so that a field can be accessded without exposing the address of its data.

Primitive Types

DbfOctet, ..., DbfFloat64 are all interfaces with methods get and put.

    interface DbfBoolean extends Dbf {
        boolean get();
        void put(boolean val);
    }
   
    interface DbfOctet extends Dbf {
        octet get();
        void put(octet val);
    }
   
    interface DbfInt16 extends Dbf {
        int16 get();
        void put(int16 val);
    }
   
    interface DbfInt32 extends Dbf {
        int32 get();
        void put(int32 val);
    }
   
    interface DbfInt64 extends Dbf {
        int64 get();
        void put(int64 val);
    }
   
    interface DbfFloat32 extends Dbf {
        float32 get();
        void put(float32 val);
    }
   
    interface DbfFloat64 extends Dbf {
        float64 get();
        void put(float64 val);
    }


Record support code can access such fields via the generated header file. Some examples are:

    ExampleRecord record;
    short myint;
    ...
    precord.ffloat.put(10.0);
    ...
    myint = precord.fint.get();

Code that does not include the generated header file can access these fields via the introspection interfaces described later in this document. For example code that expects a float64 field can access it via

    Dbf dbf =  DbInstanceLocate.getField("recordname.value");
    if(dbf==null
    || !dbf.isPrimitive()
    || (dbf.getBasicType() != basicTypeFloat64) ) // do something
    DbfFloat64 dbfdouble = (DbfFloat64)dbf;
    dbfdouble.put(10.0);

or more concisely (but exception may be thrown)

    DbfConvertPrimitive(DbInstanceLocate.getField("recordname.value"),10.0);

String fields

The interface for a string field is:

    interface DbfString extends Dbf {
       int32 getLength();
       void get(string value);
       void setPutSize(int32 size);
       void put(string value);
    }

The following code prints a string.

    ExampleRecord record;
    String string;
    record.fstring.get(string);
    printf("%s\n",string);

Code that does not include the header file can use the introspection methods to locate the DbfString that provides access to the field.

Structure Fields

    interface DbfStruct extends Dbf {
        int16 getNfields();
        Dbf getInterface(int16 index);
        DbdField getDescription(int16 index);
    }

The following traverses the fields of a DbfStruct

    DbfStruct dbfStruct;
    
    for(i=0; i < dbfStruct.getNfields(); i++) {
        DbdField dbdField = dbfStruct.getDescription(i);
        String name;
        dbdField.getName(name);
        printf("field %s\n",name);
    }


Structure fields can only be accessed via introspection. However, for each structure, code is generated that does the introspection. For example DisplayLimitData can be obtained via the statements:

    ExampleRecord record;
    DisplayLimitData limit = new DisplayLimitData();
    
    ...
    DisplayLimitSupport.get(record.displayLimit,limit);
    printf("low %f high %f\n",limit.low,limit.high);

Array Fields

The generated header file will have a type that extends DbfArray

    interface DbfArray extends Dbf {
       DbfType getType();
       int32 getNelements();
       void setNelements(int32 len);
    }
    interface DbfOctetArray extends DbfArray {
       int32 get(int32 offset, int32 len, octet[] pto);
       int32 put(int32 offset, int32 len, octet[] pfrom);
    }
    interface DbfBooleanArray extends DbfArray {
       int32 get(int32 offset, int32 len, boolean[] pto);
       int32 put(int32 offset, int32 len, boolean[] pfrom);
    }
    interface DbfInt16Array extends DbfArray {
       int32 get(int32 offset, int32 len, int16[] pto);
       int32 put(int32 offset, int32 len, int16[] pfrom);
    }
    interface DbfInt32Array extends DbfArray {
       int32 get(int32 offset, int32 len, int32[] pto);
       int32 put(int32 offset, int32 len, int32[] pfrom);
    }
    interface DbfInt64Array extends DbfArray {
       int32 get(int32 offset, int32 len, int64[] pto);
       int32 put(int32 offset, int32 len, int64[] pfrom);
    }
    interface DbfFloat32Array extends DbfArray {
       int32 get(int32 offset, int32 len, float32[] pto);
       int32 put(int32 offset, int32 len, float32[] pfrom);
    }
    interface DbfFloat64Array extends DbfArray {
       int32 get(int32 offset, int32 len, float64[] pto);
       int32 put(int32 offset, int32 len, float64[] pfrom);
    }
    interface DbfStringArray extends DbfArray {
        DbfString getInterface(int32 index);
    }
    interface DbfArrayArray extends DbfArray {
        DbfArray getInterface(int32 index);
    }
    interface DbfStructArray extends DbfArray {
        DbfStruct getInterface(int32 index);
    }

The following puts data into a float64 field.

    ExampleRecord record;
    double[] data = new double[] {1.0,2.0,3.0};;
    if(!record.ffloat.isPrimitive()
    || record.ffloat.getBasicType()!=basicTypeFloat64)  // DO SOMTHING!!!!
    ...
    array.put(0,nelements,precord->data);

or more concisely

    ExampleRecord record;
    ...
    DbfConvertPrimitive.put(precord.array,new double[] {1.0,2.0,3.0});


DbfMDArray

NOT YET DEFINED


DbfMenu

DbfMenu is described as:

    interface DbfMenu extends Dbf {
        int16 getIndex();
        void putIndex(int16 val);
        DbdMenu getDbdMenu();
    }

DbfMenu allows the menu index to be set and retrieved and also provides access to the DbdMenu.

A DbfMenu field can be accessed via the generated header file or via the introspection methods.


DbfEnum

DbfEnum is described as:

    interface DbfEnum extends Dbf {
        int16 getIndex();
        void putIndex(int16 val);
        DbfStringArray getChoiceArray();
    }


DbfEnum allows the enum index to be set and retrieved and also provides access to the The DbfArray field that contains the choices.

DbfLink and DbfDevice

DbfLink is described as

    enum LinkDir {
        LinkDirNone,
        LinkDirProcess,
        LinkDirIn,
        LinkDirOut,
        LinkDirInOut
    }
   
    interface DbfLink extends Dbf {
        LinkDir getDir();
        DbdLink getDbdLink();
    }
   
    interface DbfDevice extends Dbf {
        LinkDir getDir();
        DbdDevice getDbdDevice();
    }

DbfTimeStamp

    struct TimeStamp {
        int64 secondsSinceEpoch;
        int32 nanoSeconds;
    }
    interface DbfTimeStamp extends Dbf {
        void get(TimeStamp timeStamp);
        void put(TimeStamp timeStamp);
    }

DbdStatements

These describe everything defined in database definition files.

DbdMenu

    interface DbdMenu {
        int32 getNameLength(
        void getName(String name);
        int16 getNchoices();
        int32 getChoiceNameLength(int16 index);
        void getChoice(int16 index,String choice);
    }


DbdLink and DbdDevice

    interface DbdSupport {
        LinkDir getDir();
        int32 getChoiceNameLength();
        void getChoiceName(string name);
        int32 getSupportNameLength();
        void getSupportName(string name);
        int32 getDataStructNameLength();
        void getDataStructName(string name);
    }
   
    interface DbdLink extends DbdSupport{
    }
   
    interface DbdDevice extends DbdSupport{
        int32 getInterfaceNameLength();
        void getInterfaceName(string name);
    }
   

DbdStruct and DbdRecord

    interface DbdAttribute {
        int32 getDefaultLength();
        void getDefault(string value);
        boolean isReadonly();
        boolean isDesign();
        boolean isSpecial();
        int16 getAsl();
    }
   
    interface DbdDefaults {}
   
    interface DbdArrayDefaults extends DbdDefaults{
        DbfType getType();
        int32 getLength();
    interface DbdStructDefaults extends DbdDefaults{
        DbdStruct getDescription();
    }
    interface DbdField {
        int32 getNameLength();
        void getName(string name);
        DbfType getType();
        DbdDefaults getDefaults();
        DbdAttribute getAttributes();
    }
    interface DbdStruct {
        int32 getNameLength();
        void getName(string name);
        int16 getNumberFields();
        DbdField getFieldDescription(int16 index);
    }
    interface DbdRecord {
        int32 getNameLength();
        void getName(string name);
        int16 getNumberFields();
        DbdField getFieldDescription(int16 index);
    }

Record Instance

    interface DbInstance {
        int32 getNameLength();
        void getName(string name);
        DbdRecord getDescription();
        Dbf getField(string fieldName);
    }

Locate Interfaces

Classes are available to find and traverse the various Dbd definitons and record instances. The implementation will be language specific. For Java they will be something like the following:

In addition the following is defined:

    public class DbdLocate {
        public DbdMenu getMenu(String name);
        public DbdLink getLink(String name);
        public DbdDevice getDevice(String name);
        public DbdStruct getStruct(String name);
        public DbdRecord getRecord(String name);
        public LinkedList<DbdMenu> menuList;
        public LinkedList<DbdLink> linkList;
        public LinkedList<DbdDevice> deviceList;
        public LinkedList<DbdStruct> structList;
        public LinkedList<DbdRecord> recordList;
    }
    public class DbInstanceLocate {
        public DbInstance getRecord(String name);
        public Dbf getField(string name);
        public Dbf getField(string recordName, string fieldName);
        public LinkedList<DbInstance> instanceList;
        public LinkedList<DbInstance> instanceList(String recordTypeName);
    }

Question Are the above methods static or should there be something like

    public class FindLocator {
        public static DbdLocate findDbdLocate();
        public static DbInstance findDbInstance();
    }
   

The following locates a specific menu.

    DbdMenu menu = DbdLocate.get("DisplayLimit");
    if(menu!=null) printf("found menu %s\n","DisplayLimit");

The following locates a field of a record instance.

    Dbf field = DbInstanceLocate.getField("example.value");
    if(addr!=null) printf("found %s\n","example.value");