package org.jruby.ext.ffi;

import java.nio.ByteOrder;
import java.util.concurrent.atomic.AtomicReferenceFieldUpdater;

import org.jruby.*;
import org.jruby.anno.JRubyClass;
import org.jruby.anno.JRubyMethod;
import org.jruby.exceptions.RaiseException;
import org.jruby.runtime.ObjectAllocator;
import org.jruby.runtime.ThreadContext;
import org.jruby.runtime.builtin.IRubyObject;
import org.jruby.util.cli.Options;

import static org.jruby.runtime.Visibility.*;

@JRubyClass(name="FFI::Struct", parent="Object")
public class Struct extends MemoryObject implements StructLayout.Storage {
    private StructLayout layout;
    private AbstractMemory memory;
    private volatile Object[] referenceCache;
    private volatile IRubyObject[] valueCache;
    
    private static final class Allocator implements ObjectAllocator {
        public final IRubyObject allocate(Ruby runtime, RubyClass klass) {
            return new Struct(runtime, klass);
        }
        private static final ObjectAllocator INSTANCE = new Allocator();
    }

    
Registers the StructLayout class in the JRuby runtime.
Params:
  • runtime – The JRuby runtime to register the new class in.
Returns:The new class
/** * Registers the StructLayout class in the JRuby runtime. * @param runtime The JRuby runtime to register the new class in. * @return The new class */
public static RubyClass createStructClass(Ruby runtime, RubyModule module) { RubyClass structClass = runtime.defineClassUnder("Struct", runtime.getObject(), Options.REIFY_FFI.load() ? new ReifyingAllocator(Struct.class): Allocator.INSTANCE, module); structClass.defineAnnotatedMethods(Struct.class); structClass.defineAnnotatedConstants(Struct.class); structClass.setReifiedClass(Struct.class); structClass.kindOf = new RubyModule.KindOf() { @Override public boolean isKindOf(IRubyObject obj, RubyModule type) { return obj instanceof Struct && super.isKindOf(obj, type); } }; return structClass; }
Creates a new StructLayout instance using defaults.
Params:
  • runtime – The runtime for the StructLayout
/** * Creates a new <tt>StructLayout</tt> instance using defaults. * * @param runtime The runtime for the <tt>StructLayout</tt> */
Struct(Ruby runtime) { this(runtime, runtime.getFFI().structClass); }
Creates a new StructLayout instance.
Params:
  • runtime – The runtime for the StructLayout
  • klass – the ruby class to use for the StructLayout
/** * Creates a new <tt>StructLayout</tt> instance. * * @param runtime The runtime for the <tt>StructLayout</tt> * @param klass the ruby class to use for the <tt>StructLayout</tt> */
public Struct(Ruby runtime, RubyClass klass) { this(runtime, klass, getStructLayout(runtime, klass), null); }
Creates a new StructLayout instance.
Params:
  • runtime – The runtime for the StructLayout
  • klass – the ruby class to use for the StructLayout
/** * Creates a new <tt>StructLayout</tt> instance. * * @param runtime The runtime for the <tt>StructLayout</tt> * @param klass the ruby class to use for the <tt>StructLayout</tt> */
Struct(Ruby runtime, RubyClass klass, StructLayout layout, IRubyObject memory) { super(runtime, klass); this.layout = layout; if (!(memory == null || memory instanceof AbstractMemory)) { throw runtime.newTypeError("wrong argument type " + memory.getMetaClass().getName() + " (expected Pointer or Buffer)"); } this.memory = (AbstractMemory) memory; } static final boolean isStruct(Ruby runtime, RubyClass klass) { return klass.isKindOfModule(runtime.getFFI().structClass); } static final int getStructSize(Ruby runtime, IRubyObject structClass) { return getStructLayout(runtime, structClass).getSize(); } static final StructLayout getStructLayout(Ruby runtime, IRubyObject structClass) { try { Object layout = ((RubyClass) structClass).getFFIHandle(); if (layout instanceof StructLayout) { return (StructLayout) layout; } RubyClass klass = (RubyClass) structClass; while (klass != runtime.getObject() && !((layout = klass.getInstanceVariable("@layout")) instanceof StructLayout)) { klass = klass.getSuperClass(); } if (!(layout instanceof StructLayout)) { throw runtime.newRuntimeError("no valid struct layout for " + ((RubyClass) structClass).getName()); } // Cache the layout on the Struct metaclass for faster retrieval next time ((RubyClass) structClass).setFFIHandle(layout); return (StructLayout) layout; } catch (ClassCastException ex) { if (!(structClass instanceof RubyClass)) { throw runtime.newTypeError("wrong argument type " + structClass.getMetaClass().getName() + " (expected subclass of Struct)"); } throw runtime.newRuntimeError("invalid layout set for struct " + ((RubyClass) structClass).getName()); } } @Override @JRubyMethod(name = "initialize", visibility = PRIVATE) public IRubyObject initialize(ThreadContext context) { memory = MemoryPointer.allocate(context.runtime, layout.getSize(), 1, true); return this; } @JRubyMethod(name = "initialize", visibility = PRIVATE) public IRubyObject initialize(ThreadContext context, IRubyObject ptr) { if (!(ptr instanceof AbstractMemory)) { if (ptr.isNil()) { return initialize(context); } throw context.runtime.newTypeError("wrong argument type " + ptr.getMetaClass().getName() + " (expected Pointer or Buffer)"); } if (((AbstractMemory) ptr).getSize() < layout.getSize()) { throw context.runtime.newArgumentError("memory object has insufficient space for " + getMetaClass().getName()); } memory = (AbstractMemory) ptr; setMemoryIO(memory.getMemoryIO()); return this; } @JRubyMethod(name = "initialize", visibility = PRIVATE, rest = true) public IRubyObject initialize(ThreadContext context, IRubyObject[] args) { switch (args.length) { default: // > 1 IRubyObject result = getMetaClass().callMethod(context, "layout", args[1] instanceof RubyArray ? ((RubyArray) args[1]).toJavaArrayUnsafe() : java.util.Arrays.copyOfRange(args, 1, args.length)); if (!(result instanceof StructLayout)) { throw context.runtime.newTypeError("Struct.layout did not return a FFI::StructLayout instance"); } layout = (StructLayout) result; case 1: return initialize(context, args[0]); case 0: return initialize(context); } } @JRubyMethod(name = "initialize_copy", visibility = PRIVATE) public IRubyObject initialize_copy(ThreadContext context, IRubyObject other) { if (other == this) { return this; } if (!(other instanceof Struct)) { throw context.runtime.newTypeError("not an instance of Struct"); } Struct orig = (Struct) other; memory = (AbstractMemory) orig.getMemory().slice(context.runtime, 0, layout.getSize()).dup(); if (orig.referenceCache != null) { referenceCache = new Object[layout.getReferenceFieldCount()]; System.arraycopy(orig.referenceCache, 0, referenceCache, 0, referenceCache.length); } setMemoryIO(memory.getMemoryIO()); return this; } private static final Struct allocateStruct(ThreadContext context, IRubyObject klass, int flags) { Ruby runtime = context.runtime; StructLayout layout = getStructLayout(runtime, klass); return new Struct(runtime, (RubyClass) klass, layout, new Buffer(runtime, layout.getSize(), flags)); } @JRubyMethod(name = { "new_in", "alloc_in" }, meta = true) public static IRubyObject allocateIn(ThreadContext context, IRubyObject klass) { return allocateStruct(context, klass, Buffer.IN); } @JRubyMethod(name = { "new_in", "alloc_in" }, meta = true) public static IRubyObject allocateIn(ThreadContext context, IRubyObject klass, IRubyObject clearArg) { return allocateStruct(context, klass, Buffer.IN); } @JRubyMethod(name = { "new_out", "alloc_out" }, meta = true) public static IRubyObject allocateOut(ThreadContext context, IRubyObject klass) { return allocateStruct(context, klass, Buffer.OUT); } @JRubyMethod(name = { "new_out", "alloc_out" }, meta = true) public static IRubyObject allocateOut(ThreadContext context, IRubyObject klass, IRubyObject clearArg) { return allocateStruct(context, klass, Buffer.OUT); } @JRubyMethod(name = { "new_inout", "alloc_inout" }, meta = true) public static IRubyObject allocateInOut(ThreadContext context, IRubyObject klass) { return allocateStruct(context, klass, Buffer.IN | Buffer.OUT); } @JRubyMethod(name = { "new_inout", "alloc_inout" }, meta = true) public static IRubyObject allocateInOut(ThreadContext context, IRubyObject klass, IRubyObject clearArg) { return allocateStruct(context, klass, Buffer.IN | Buffer.OUT); } @JRubyMethod(name = { "size" }, meta = true) public static IRubyObject size(ThreadContext context, IRubyObject structClass) { if (!(structClass instanceof RubyClass)) { throw context.runtime.newTypeError(structClass, context.runtime.getClassClass()); } RubyClass klass = (RubyClass) structClass; Object obj = klass.getFFIHandle(); if (obj instanceof StructLayout) { return ((StructLayout) obj).size(context); } if ((obj = ((RubyClass) structClass).getInstanceVariable("@layout")) instanceof StructLayout) { return ((StructLayout) obj).size(context); } else { obj = ((RubyClass) structClass).getInstanceVariable("@size"); } return obj instanceof RubyFixnum ? (RubyFixnum) obj : RubyFixnum.zero(context.runtime); } @JRubyMethod(name = { "alignment", "align" }, meta = true) public static IRubyObject alignment(ThreadContext context, IRubyObject structClass) { return getStructLayout(context.runtime, structClass).alignment(context); } @JRubyMethod(name = { "layout=" }, meta = true) public static IRubyObject set_layout(ThreadContext context, IRubyObject structClass, IRubyObject layout) { if (!(structClass instanceof RubyClass)) { throw context.runtime.newTypeError(structClass, context.runtime.getClassClass()); } if (!(layout instanceof StructLayout)) { throw context.runtime.newTypeError(layout, context.runtime.getModule("FFI").getClass("StructLayout")); } RubyClass klass = (RubyClass) structClass; klass.setFFIHandle(layout); klass.setInstanceVariable("@layout", layout); return structClass; } @JRubyMethod(name = "members", meta = true) public static IRubyObject members(ThreadContext context, IRubyObject structClass) { return getStructLayout(context.runtime, structClass).members(context); } @JRubyMethod(name = "offsets", meta = true) public static IRubyObject offsets(ThreadContext context, IRubyObject structClass) { return getStructLayout(context.runtime, structClass).offsets(context); } @JRubyMethod(name = "offset_of", meta = true) public static IRubyObject offset_of(ThreadContext context, IRubyObject structClass, IRubyObject fieldName) { return getStructLayout(context.runtime, structClass).offset_of(context, fieldName); } /* ------------- instance methods ------------- */ @JRubyMethod(name = "[]") public IRubyObject getFieldValue(ThreadContext context, IRubyObject fieldName) { return layout.getMember(context.runtime, fieldName).get(context, this, getMemory()); } @JRubyMethod(name = "[]=") public IRubyObject setFieldValue(ThreadContext context, IRubyObject fieldName, IRubyObject fieldValue) { layout.getMember(context.runtime, fieldName).put(context, this, getMemory(), fieldValue); return fieldValue; } @JRubyMethod(name = { "cspec", "layout" }) public IRubyObject getLayout(ThreadContext context) { return layout; } @JRubyMethod(name = { "pointer", "to_ptr" }) public IRubyObject pointer(ThreadContext context) { return getMemory(); } @JRubyMethod(name = "members") public IRubyObject members(ThreadContext context) { return layout.members(context); } @JRubyMethod(name = "values") public IRubyObject values(ThreadContext context) { IRubyObject[] values = new IRubyObject[layout.getFieldCount()]; int i = 0; for (StructLayout.Member m : layout.getMembers()) { values[i++] = m.get(context, this, getMemory()); } return RubyArray.newArrayMayCopy(context.runtime, values); } @JRubyMethod(name = "offsets") public IRubyObject offsets(ThreadContext context) { return layout.offsets(context); } @JRubyMethod(name = "offset_of") public IRubyObject offset_of(ThreadContext context, IRubyObject fieldName) { return layout.offset_of(context, fieldName); } @JRubyMethod(name = "size") public IRubyObject size(ThreadContext context) { return layout.size(context); } @JRubyMethod(name = { "alignment" }) public IRubyObject alignment(ThreadContext context) { return layout.alignment(context); } @JRubyMethod(name="null?") public IRubyObject null_p(ThreadContext context) { return context.runtime.newBoolean(getMemory().getMemoryIO().isNull()); } @JRubyMethod(name = "order", required = 0) public final IRubyObject order(ThreadContext context) { return context.runtime.newSymbol(getMemoryIO().order().equals(ByteOrder.LITTLE_ENDIAN) ? "little" : "big"); } @JRubyMethod(name = "order", required = 1) public final IRubyObject order(ThreadContext context, IRubyObject byte_order) { ByteOrder order = Util.parseByteOrder(context.runtime, byte_order); return new Struct(context.runtime, getMetaClass(), layout, getMemory().order(context.runtime, order)); } @JRubyMethod(name = "clear") public IRubyObject clear(ThreadContext context) { getMemoryIO().setMemory(0, layout.size, (byte) 0); return this; } public final AbstractMemory getMemory() { return memory != null ? memory : (memory = MemoryPointer.allocate(getRuntime(), layout.getSize(), 1, true)); } protected final MemoryIO allocateMemoryIO() { return getMemory().getMemoryIO(); } public final IRubyObject getCachedValue(StructLayout.Member member) { return valueCache != null ? valueCache[layout.getCacheableFieldIndex(member)] : null; } public final void putCachedValue(StructLayout.Member member, IRubyObject value) { getValueCacheForWrite()[layout.getCacheableFieldIndex(member)] = value; } private IRubyObject[] getValueCacheForWrite() { return valueCache != null ? valueCache : initValueCache(); } private static final AtomicReferenceFieldUpdater<Struct, IRubyObject[]> valueCacheUpdater = AtomicReferenceFieldUpdater.newUpdater(Struct.class, IRubyObject[].class, "valueCache"); private IRubyObject[] initValueCache() { valueCacheUpdater.compareAndSet(this, null, new IRubyObject[layout.getCacheableFieldCount()]); return valueCache; } private Object[] getReferenceCache() { return referenceCache != null ? referenceCache : initReferenceCache(); } private static final AtomicReferenceFieldUpdater<Struct, Object[]> referenceCacheUpdater = AtomicReferenceFieldUpdater.newUpdater(Struct.class, Object[].class, "referenceCache"); private Object[] initReferenceCache() { referenceCacheUpdater.compareAndSet(this, null, new Object[layout.getReferenceFieldCount()]); return referenceCache; } public void putReference(StructLayout.Member member, Object value) { getReferenceCache()[layout.getReferenceFieldIndex(member)] = value; } }