package org.capnproto; final class WireHelpers { public static int roundBytesUpToWords(int bytes) { return (bytes + 7) / 8; } public static int allocate(int refOffset, SegmentBuilder segment, int amount, byte kind) { // TODO check for nullness, amount == 0 case. int allocation = segment.allocate(amount); if (allocation == SegmentBuilder.FAILED_ALLOCATION) { //# Need to allocate in a new segment. We'll need to //# allocate an extra pointer worth of space to act as //# the landing pad for a far pointer. throw new Error("unimplemented"); } else { WirePointer.setKindAndTarget(segment.buffer, refOffset, kind, allocation); return allocation; } } public static ListBuilder initListPointer(int refOffset, SegmentBuilder segment, int elementCount, byte elementSize) { throw new Error("unimplemented"); } public static ListBuilder initStructListPointer(int refOffset, SegmentBuilder segment, int elementCount, StructSize elementSize) { if (elementSize.preferredListEncoding != FieldSize.INLINE_COMPOSITE) { //# Small data-only struct. Allocate a list of primitives instead. return initListPointer(refOffset, segment, elementCount, elementSize.preferredListEncoding); } int wordsPerElement = elementSize.total(); //# Allocate the list, prefixed by a single WirePointer. int wordCount = elementCount * wordsPerElement; int ptrOffset = allocate(refOffset, segment, 1 + wordCount, WirePointer.LIST); //# Initialize the pointer. ListPointer.setInlineComposite(segment.buffer, refOffset, wordCount); WirePointer.setKindAndInlineCompositeListElementCount(segment.buffer, ptrOffset, WirePointer.STRUCT, elementCount); StructPointer.setFromStructSize(segment.buffer, ptrOffset, elementSize); ptrOffset += 1; return new ListBuilder(segment, ptrOffset, elementCount, wordsPerElement * 64, elementSize.data * 64, elementSize.pointers); } // size is in bytes public static void initTextPointer(int refOffset, SegmentBuilder segment, int size) { //# The byte list must include a NUL terminator. int byteSize = size + 1; //# Allocate the space. int ptrOffset = allocate(refOffset, segment, roundBytesUpToWords(byteSize), WirePointer.LIST); //# Initialize the pointer. ListPointer.set(segment.buffer, refOffset, FieldSize.BYTE, byteSize); throw new Error("unimplemented"); } public static void setTextPointer(int refOffset, SegmentBuilder segment, Text.Reader value) { throw new Error("unimplemented"); } public static StructReader readStructPointer(SegmentReader segment, int refOffset, int nestingLimit) { // TODO error handling if (nestingLimit < 0) { throw new DecodeException("Message is too deeply nested or contains cycles."); } long ref = WirePointer.get(segment.buffer, refOffset); int ptrOffset = WirePointer.target(refOffset, ref); int structPtr = WirePointer.structPointer(ref); int dataSizeWords = StructPointer.dataSize(structPtr); return new StructReader(segment, ptrOffset * 8, (ptrOffset + dataSizeWords), dataSizeWords * 64, StructPointer.ptrCount(structPtr), (byte)0, nestingLimit - 1); } public static ListReader readListPointer(SegmentReader segment, int refOffset, byte expectedElementSize, int nestingLimit) { long ref = WirePointer.get(segment.buffer, refOffset); // TODO check for null, follow fars, nestingLimit if (WirePointer.isNull(ref)) { return new ListReader(); } int listPtr = WirePointer.listPointer(ref); int ptrOffset = WirePointer.target(refOffset, ref); long ptr = WirePointer.get(segment.buffer, ptrOffset); switch (ListPointer.elementSize(listPtr)) { case FieldSize.INLINE_COMPOSITE : { int wordCount = ListPointer.inlineCompositeWordCount(listPtr); long tag = ptr; ptrOffset += 1; // TODO bounds check int size = WirePointer.inlineCompositeListElementCount(tag); int structPtr = WirePointer.structPointer(tag); int wordsPerElement = StructPointer.wordSize(structPtr); // TODO check that elemements do not overrun word count // TODO check whether the size is compatible return new ListReader(segment, // TODO follow fars ptrOffset * 8, // size, wordsPerElement * 64, StructPointer.dataSize(structPtr) * 64, StructPointer.ptrCount(structPtr), nestingLimit - 1); } case FieldSize.VOID : break; default : throw new Error("unrecognized element size"); } throw new Error(); } public static Text.Reader readTextPointer(SegmentReader segment, int refOffset) { long ref = WirePointer.get(segment.buffer, refOffset); if (WirePointer.isNull(ref)) { // XXX should use the default value return new Text.Reader(java.nio.ByteBuffer.wrap(new byte[0]), 0, 0); } int ptrOffset = WirePointer.target(refOffset, ref); int listPtr = WirePointer.listPointer(ref); int size = ListPointer.elementCount(listPtr); if (WirePointer.kind(ref) != WirePointer.LIST) { throw new DecodeException("Message contains non-list pointer where text was expected."); } if (ListPointer.elementSize(listPtr) != FieldSize.BYTE) { throw new DecodeException("Message contains list pointer of non-bytes where text was expected."); } // TODO bounds check? if (size == 0 || segment.buffer.get(8 * ptrOffset + size - 1) != 0) { throw new DecodeException("Message contains text that is not NUL-terminated."); } return new Text.Reader(segment.buffer, ptrOffset, size - 1); } }