diff --git a/formats/protobuf/api/kotlinx-serialization-protobuf.api b/formats/protobuf/api/kotlinx-serialization-protobuf.api index 65093b2c85..fc87d75e93 100644 --- a/formats/protobuf/api/kotlinx-serialization-protobuf.api +++ b/formats/protobuf/api/kotlinx-serialization-protobuf.api @@ -21,6 +21,10 @@ public final class kotlinx/serialization/protobuf/ProtoBufKt { public static synthetic fun ProtoBuf$default (Lkotlinx/serialization/protobuf/ProtoBuf;Lkotlin/jvm/functions/Function1;ILjava/lang/Object;)Lkotlinx/serialization/protobuf/ProtoBuf; } +public final class kotlinx/serialization/protobuf/ProtoBufSerializedSizeCalculatorKt { + public static final fun getOrComputeSerializedSize (Lkotlinx/serialization/protobuf/ProtoBuf;Lkotlinx/serialization/SerializationStrategy;Ljava/lang/Object;)I +} + public final class kotlinx/serialization/protobuf/ProtoIntegerType : java/lang/Enum { public static final field DEFAULT Lkotlinx/serialization/protobuf/ProtoIntegerType; public static final field FIXED Lkotlinx/serialization/protobuf/ProtoIntegerType; diff --git a/formats/protobuf/commonMain/src/kotlinx/serialization/protobuf/ProtoBufSerializedSize.kt b/formats/protobuf/commonMain/src/kotlinx/serialization/protobuf/ProtoBufSerializedSize.kt new file mode 100644 index 0000000000..d963e37618 --- /dev/null +++ b/formats/protobuf/commonMain/src/kotlinx/serialization/protobuf/ProtoBufSerializedSize.kt @@ -0,0 +1,648 @@ +package kotlinx.serialization.protobuf + +import kotlinx.serialization.ExperimentalSerializationApi +import kotlinx.serialization.SerializationException +import kotlinx.serialization.SerializationStrategy +import kotlinx.serialization.builtins.ByteArraySerializer +import kotlinx.serialization.builtins.MapEntrySerializer +import kotlinx.serialization.descriptors.PolymorphicKind +import kotlinx.serialization.descriptors.PrimitiveKind +import kotlinx.serialization.descriptors.SerialDescriptor +import kotlinx.serialization.descriptors.StructureKind +import kotlinx.serialization.encoding.CompositeEncoder +import kotlinx.serialization.internal.MapLikeSerializer +import kotlinx.serialization.modules.SerializersModule +import kotlinx.serialization.protobuf.internal.* +import kotlin.jvm.JvmField + +/** + * Returns the number of bytes required to encode this [message][value]. The size is computed on the first call + * and memoized. + */ +@ExperimentalSerializationApi +public fun ProtoBuf.getOrComputeSerializedSize(serializer: SerializationStrategy, value: T): Int { + val key = value.serializedSizeCacheKey + return memoizedSerializedSizes.getOrPut(serializer.descriptor, key) { + val calculator = ProtoBufSerializedSizeCalculator(this, serializer.descriptor) + calculator.encodeSerializableValue(serializer, value) + calculator.serializedSize + } +} + +/* + * This cache probably is better placed in `Protobuf` class, to associate each instance with different cache. Though, + * this change needs some discussion first. + */ +//TODO: needs @ThreadLocal? +private val memoizedSerializedSizes = createSerializedSizeCache() + +internal expect fun createSerializedSizeCache(): SerializedSizeCache + +/** + * A key for associating an instance of class with a given [SerialDescriptor]. + */ +internal typealias SerializedSizeCacheKey = Int + +// Returns the object's hashcode, which acts as a key for `SerializedSizeCache`. +private val Any.serializedSizeCacheKey: SerializedSizeCacheKey get() = this.hashCode() + +internal typealias SerializedData = Map + +/** + * A storage to memoize a computed `serializedSize`. + */ +// Note: js-impl & native-impl are not based on concurrent-safe structures. +internal interface SerializedSizeCache { + /** + * Returns the `serializedSize` associated with the given [key] and [descriptor], if found else null. + */ + operator fun get(descriptor: SerialDescriptor, key: SerializedSizeCacheKey): Int? + + /** + * Sets the `serializedSize` and associates it with the given [key] and [descriptor]. + */ + operator fun set(descriptor: SerialDescriptor, key: SerializedSizeCacheKey, serializedSize: Int) +} + +internal fun SerializedSizeCache.getOrPut( + descriptor: SerialDescriptor, + key: SerializedSizeCacheKey, + defaultValue: () -> Int +): Int { + get(descriptor, key)?.let { return it } + val value = defaultValue() + set(descriptor, key, value) + return value +} + +/** + * Internal helper to pass around serialized size. + * Should not be leaked to the outside world. + */ +internal data class SerializedSizePointer(var value: Int) + +/** + * A calculator to compute the required bytes a protobuf message needs to be encoded. The core idea is to compute + * the required bytes for each field separately, and accumulate them in the end by storing the resulted bytes in + * [serializedSize]. + * + * For more details see [Protobuf-encoding](https://protobuf.dev/programming-guides/encoding/). + */ +@ExperimentalSerializationApi +private open class ProtoBufSerializedSizeCalculator( + private val proto: ProtoBuf, + val descriptor: SerialDescriptor, + /** + * A pointer for [serializedSize], to allow updating size in nested calls. + */ + private val serializedSizePointer: SerializedSizePointer = SerializedSizePointer(-1) +) : ProtobufTaggedEncoder() { + /* + * Accumulates the bytes, which are required to encode a "value". Each calculator stores the result in this var. + */ + var serializedSize + get() = serializedSizePointer.value + set(value) { + serializedSizePointer.value = value + } + + override val serializersModule: SerializersModule get() = proto.serializersModule + + override fun shouldEncodeElementDefault(descriptor: SerialDescriptor, index: Int): Boolean = proto.encodeDefaults + + override fun beginCollection(descriptor: SerialDescriptor, collectionSize: Int): CompositeEncoder { + return when (descriptor.kind) { + StructureKind.LIST -> { + val tag = currentTagOrDefault + if (tag.isPacked && descriptor.getElementDescriptor(0).isPackable) { + PackedArrayCalculator(proto, currentTagOrDefault, descriptor, serializedSizePointer) + } else { + if (serializedSize == -1) serializedSize = 0 + if (this is RepeatedCalculator) { + this + } else { + RepeatedCalculator(proto, tag, descriptor, serializedSizePointer) + } + } + } + + StructureKind.MAP -> MapRepeatedCalculator(proto, currentTagOrDefault, descriptor, serializedSizePointer) + else -> throw SerializationException("This serial kind is not supported as collection: $descriptor") + } + } + + override fun beginStructure(descriptor: SerialDescriptor): CompositeEncoder { + if (serializedSize == -1) serializedSize = 0 + // delegate to proper calculator, e.g. class, map, list, etc. + return when (descriptor.kind) { + StructureKind.LIST -> { + if (descriptor.getElementDescriptor(0).isPackable && currentTagOrDefault.isPacked) { + PackedArrayCalculator(proto, currentTagOrDefault, descriptor, serializedSizePointer) + } else { + RepeatedCalculator(proto, currentTagOrDefault, descriptor, serializedSizePointer) + } + } + + StructureKind.CLASS, StructureKind.OBJECT, is PolymorphicKind -> this + StructureKind.MAP -> MapRepeatedCalculator(proto, currentTagOrDefault, descriptor, serializedSizePointer) + else -> throw SerializationException("This serial kind is not supported as structure: $descriptor") + } + } + + override fun endEncode(descriptor: SerialDescriptor) {} + + override fun SerialDescriptor.getTag(index: Int): ProtoDesc = extractParameters(index) + + /* + * Note: This API is meant to be used once for every instance of `this` class. This is because, every calculator + * stores its resulted size in "serializedSize" and it does not reset in the end. + */ + override fun encodeSerializableValue(serializer: SerializationStrategy, value: T) { + return when { + serializer is MapLikeSerializer<*, *, *, *> -> + computeMapSize(serializer as SerializationStrategy, value) + + serializer.descriptor == ByteArraySerializer().descriptor -> computeByteArraySize(value as ByteArray) + + // This path is specifically only for computing size of "Messages" (objects). + (serializer.descriptor.kind is StructureKind.CLASS || + serializer.descriptor.kind is PolymorphicKind || + serializer.descriptor.kind is StructureKind.OBJECT) && + serializer.descriptor.kind !is PrimitiveKind && + serializer.descriptor != this.descriptor -> computeMessageSize(serializer, value) + + serializer.descriptor != this.descriptor && + serializer.descriptor.kind is StructureKind.LIST && + serializer.descriptor.isChildDescriptorPrimitive() && + serializer.descriptor.isNotPacked() // packed fields are computed through different path. + -> computeRepeatedPrimitive(serializer, value) + + serializer.descriptor != this.descriptor && + serializer.descriptor.kind is StructureKind.LIST && + // ensure child is not primitive, since repeated primitives are computed through different path. + serializer.descriptor.isNotChildDescriptorPrimitive() + -> computeRepeatedMessageSize(serializer, value) + + + else -> serializer.serialize(this, value) + } + } + + private fun SerialDescriptor.isNotPacked(): Boolean = + !(getElementDescriptor(0).isPackable && currentTagOrDefault.isPacked) + + override fun encodeTaggedInt(tag: ProtoDesc, value: Int) { + serializedSize += if (tag == MISSING_TAG) { + computeIntSizeNoTag(value, tag.integerType) + } else { + computeIntSize(value, tag.protoId, tag.integerType) + } + } + + override fun encodeTaggedLong(tag: ProtoDesc, value: Long) { + serializedSize += if (tag == MISSING_TAG) { + computeLongSizeNoTag(value, tag.integerType) + } else { + computeLongSize(value, tag.protoId, tag.integerType) + } + } + + override fun encodeTaggedByte(tag: ProtoDesc, value: Byte) { + serializedSize += if (tag == MISSING_TAG) { + computeIntSizeNoTag(value.toInt(), tag.integerType) + } else { + computeIntSize(value.toInt(), tag.protoId, tag.integerType) + } + + } + + override fun encodeTaggedShort(tag: ProtoDesc, value: Short) { + serializedSize += if (tag == MISSING_TAG) { + computeIntSizeNoTag(value.toInt(), tag.integerType) + } else { + computeIntSize(value.toInt(), tag.protoId, tag.integerType) + } + } + + override fun encodeTaggedFloat(tag: ProtoDesc, value: Float) { + serializedSize += if (tag == MISSING_TAG) { + getFixed32SizeNoTag() + } else { + computeFloatSize(tag.protoId) + } + } + + override fun encodeTaggedDouble(tag: ProtoDesc, value: Double) { + serializedSize += if (tag == MISSING_TAG) { + getFixed64SizeNoTag() + } else { + computeDoubleSize(tag.protoId) + } + } + + override fun encodeTaggedBoolean(tag: ProtoDesc, value: Boolean) { + serializedSize += if (tag == MISSING_TAG) { + 1 + } else { + computeBooleanSize(tag.protoId) + } + } + + override fun encodeTaggedChar(tag: ProtoDesc, value: Char) { + serializedSize += if (tag == MISSING_TAG) { + computeIntSizeNoTag(value.code, tag.integerType) + } else { + computeIntSize(value.code, tag.protoId, tag.integerType) + } + } + + override fun encodeTaggedString(tag: ProtoDesc, value: String) { + serializedSize += if (tag == MISSING_TAG) { + computeStringSizeNoTag(value) + } else { + computeStringSize(value, tag.protoId) + } + } + + override fun encodeTaggedEnum(tag: ProtoDesc, enumDescriptor: SerialDescriptor, ordinal: Int) { + serializedSize += if (tag == MISSING_TAG) { + computeEnumSizeNoTag(extractProtoId(enumDescriptor, ordinal, zeroBasedDefault = true)) + } else { + computeEnumSize( + extractProtoId(enumDescriptor, ordinal, zeroBasedDefault = true), + tag.protoId, + ProtoIntegerType.DEFAULT + ) + } + } + + private fun computeByteArraySize(value: ByteArray) { + val tag = popTagOrDefault() + serializedSize += if (tag == MISSING_TAG) { + computeByteArraySizeNoTag(value) + } else { + computeByteArraySize(value, tag.protoId) + } + } + + private fun computeMessageSize(serializer: SerializationStrategy, value: T) { + val tag = currentTagOrDefault + val size = proto.computeMessageSize(serializer, value, tag.protoId) + serializedSize += size + } + + private fun computeRepeatedMessageSize(serializer: SerializationStrategy, value: T) { + val tag = popTag() // tag is required for calculating repeated objects + // each object in collection should be calculated with the same tag. + val calculator = RepeatedCalculator(proto, tag, serializer.descriptor) + calculator.encodeSerializableValue(serializer, value) + serializedSize += calculator.serializedSize + } + + private fun computeRepeatedPrimitive(serializer: SerializationStrategy, value: T) { + val calculator = PrimitiveRepeatedCalculator(proto, currentTagOrDefault, serializer.descriptor) + calculator.encodeSerializableValue(serializer, value) + serializedSize += calculator.serializedSize + } + + @Suppress("UNCHECKED_CAST") + private fun computeMapSize(serializer: SerializationStrategy, value: T) { + // maps are encoded as collection of map entries, not merged collection of key-values + val casted = (serializer as MapLikeSerializer) + val mapEntrySerial = MapEntrySerializer(casted.keySerializer, casted.valueSerializer) + val entries = (value as Map<*, *>).entries + // calculate each entry separately through computeMessageSize(). We do not need to use computeRepeatedMessageSize(), + // as we already have our message (entry) and there is no need to unwrap the collection. + for (entry in entries) computeMessageSize(mapEntrySerial, entry) + } +} + +@ExperimentalSerializationApi +private open class ObjectSizeCalculator( + proto: ProtoBuf, + @JvmField protected val parentTag: ProtoDesc, + descriptor: SerialDescriptor, + serializedSizePointer: SerializedSizePointer = SerializedSizePointer(-1) +) : ProtoBufSerializedSizeCalculator(proto, descriptor, serializedSizePointer) + +@ExperimentalSerializationApi +private open class RepeatedCalculator( + proto: ProtoBuf, + @JvmField val curTag: ProtoDesc, + descriptor: SerialDescriptor, + serializedWrapper: SerializedSizePointer = SerializedSizePointer(-1) +) : ObjectSizeCalculator(proto, curTag, descriptor, serializedWrapper) { + init { + if (serializedSize == -1) serializedSize = 0 + } + + override fun SerialDescriptor.getTag(index: Int) = curTag +} + +/* + * Helper class to compute repeated primitives. The mental model is similar to this: + * tagSize = computeTagSize(tag) + * size = tagSize + computeElementSizeNoTag(type, value) + * + * To compute size we need 2 things; + * 1) compute elements without their tag. + * 2) compute tags for every element separately. + */ +@ExperimentalSerializationApi +private class PrimitiveRepeatedCalculator( + proto: ProtoBuf, + // The actual tag of field. + curTag: ProtoDesc, + descriptor: SerialDescriptor, + serializedSizePointer: SerializedSizePointer = SerializedSizePointer(-1) +) : RepeatedCalculator(proto, curTag, descriptor, serializedSizePointer) { + + // Triggers computers to choose `MISSING_TAG` path + override fun SerialDescriptor.getTag(index: Int): ProtoDesc = MISSING_TAG + + /* + * Compute tagSize for every primitive and then delegate computing. + */ + + override fun encodeTaggedBoolean(tag: ProtoDesc, value: Boolean) { + if (curTag != MISSING_TAG) serializedSize += computeTagSize(curTag.protoId) + super.encodeTaggedBoolean(tag, value) + } + + override fun encodeTaggedByte(tag: ProtoDesc, value: Byte) { + if (curTag != MISSING_TAG) serializedSize += computeTagSize(curTag.protoId) + super.encodeTaggedByte(tag, value) + } + + override fun encodeTaggedInt(tag: ProtoDesc, value: Int) { + if (curTag != MISSING_TAG) serializedSize += computeTagSize(curTag.protoId) + super.encodeTaggedInt(tag, value) + } + + override fun encodeTaggedLong(tag: ProtoDesc, value: Long) { + if (curTag != MISSING_TAG) serializedSize += computeTagSize(curTag.protoId) + super.encodeTaggedLong(tag, value) + } + + override fun encodeTaggedShort(tag: ProtoDesc, value: Short) { + if (curTag != MISSING_TAG) serializedSize += computeTagSize(curTag.protoId) + super.encodeTaggedShort(tag, value) + } +} + +@ExperimentalSerializationApi +private class MapRepeatedCalculator( + proto: ProtoBuf, + parentTag: ProtoDesc, + descriptor: SerialDescriptor, + serializedSizePointer: SerializedSizePointer +) : ObjectSizeCalculator(proto, parentTag, descriptor, serializedSizePointer) { + init { + if (serializedSize == -1) serializedSize = 0 + } + + override fun SerialDescriptor.getTag(index: Int): ProtoDesc = + if (index % 2 == 0) ProtoDesc(1, (parentTag.integerType)) + else ProtoDesc(2, (parentTag.integerType)) +} + +@OptIn(ExperimentalSerializationApi::class) +private open class NestedRepeatedCalculator( + proto: ProtoBuf, + @JvmField val curTag: ProtoDesc, + descriptor: SerialDescriptor, + serializedSizePointer: SerializedSizePointer +) : ObjectSizeCalculator(proto, curTag, descriptor, serializedSizePointer) { + init { + if (serializedSize == -1) serializedSize = 0 + } + + // all elements always have id = 1 + override fun SerialDescriptor.getTag(index: Int) = ProtoDesc(1, ProtoIntegerType.DEFAULT) + +} + +@OptIn(ExperimentalSerializationApi::class) +private class PackedArrayCalculator( + proto: ProtoBuf, + curTag: ProtoDesc, + descriptor: SerialDescriptor, + // Parent size to be updated after computing the size. + private val parentSerializedSize: SerializedSizePointer +) : NestedRepeatedCalculator( + proto, + curTag, + descriptor, + /* SerializedSize to be used as result container. The final tag is computed through this result. */ + SerializedSizePointer(-1) +) { + // Triggers computers to choose `MISSING_TAG` path + override fun SerialDescriptor.getTag(index: Int): ProtoDesc = MISSING_TAG + + override fun endEncode(descriptor: SerialDescriptor) { + if (serializedSize == 0) return // empty collection + serializedSize += computeUInt32SizeNoTag(serializedSize) // compute varint based on result of "serializedSize". + // Since repeated fields are encoded as single LEN record that contains each element concatenated, then tag + // should be computed once for whole message. + val tag = computeTagSize(curTag.protoId) + parentSerializedSize.value += tag + serializedSize // update parentSize + } + + override fun beginCollection(descriptor: SerialDescriptor, collectionSize: Int): CompositeEncoder { + throw SerializationException("Packing only supports primitive number types") + } + + override fun beginStructure(descriptor: SerialDescriptor): CompositeEncoder { + throw SerializationException("Packing only supports primitive number types") + } + + override fun encodeTaggedString(tag: ProtoDesc, value: String) { + throw SerializationException("Packing only supports primitive number types") + } +} + +// computers + +@OptIn(ExperimentalSerializationApi::class) +private fun computeLongSize(value: Long, tag: Int, format: ProtoIntegerType): Int { + val tagSize = computeTagSize(tag) + return tagSize + computeLongSizeNoTag(value, format) +} + +@OptIn(ExperimentalSerializationApi::class) +private fun computeLongSizeNoTag(value: Long, format: ProtoIntegerType): Int { + return when (format) { + ProtoIntegerType.DEFAULT -> computeInt64SizeNoTag(value) + ProtoIntegerType.SIGNED -> computeSInt64SizeNoTag(value) + ProtoIntegerType.FIXED -> getFixed64SizeNoTag() + } +} + +@OptIn(ExperimentalSerializationApi::class) +private fun computeIntSize(value: Int, tag: Int, format: ProtoIntegerType): Int { + val tagSize = computeTagSize(tag) + return tagSize + computeIntSizeNoTag(value, format) +} + +@OptIn(ExperimentalSerializationApi::class) +private fun computeIntSizeNoTag(value: Int, format: ProtoIntegerType): Int { + return when (format) { + //TODO: ProtobufWriter actually serializes default as varint64, should we align? + ProtoIntegerType.DEFAULT -> computeInt32SizeNoTag(value) + ProtoIntegerType.SIGNED -> computeSInt32SizeNoTag(value) + ProtoIntegerType.FIXED -> getFixed32SizeNoTag() + } +} + +private fun computeFloatSize(tag: Int): Int { + val tagSize = computeTagSize(tag) + // floats have wire type of `I32` which means the size is fixed + return tagSize + getFixed32SizeNoTag() +} + +private fun computeDoubleSize(tag: Int): Int { + val tagSize = computeTagSize(tag) + // doubles have wire type of `I64` which means the size is fixed + return tagSize + getFixed64SizeNoTag() +} + +/* + * Booleans encode as either `00` or `01`, per proto-spec. + */ +private fun computeBooleanSize(tag: Int): Int { + val tagSize = computeTagSize(tag) + return tagSize + 1 +} + +private fun computeStringSize(value: String, tag: Int): Int { + val tagSize = computeTagSize(tag) + return tagSize + computeStringSizeNoTag(value) +} + +/* + * Enums are encoded as `int32` per proto-spec. + */ +@OptIn(ExperimentalSerializationApi::class) +private fun computeEnumSize(value: Int, tag: Int, format: ProtoIntegerType): Int = computeIntSize(value, tag, format) + +private fun computeByteArraySize(value: ByteArray, tag: Int): Int { + val tagSize = computeTagSize(tag) + return tagSize + computeByteArraySizeNoTag(value) +} + +@OptIn(ExperimentalSerializationApi::class) +private fun ProtoBuf.computeMessageSize( + serializer: SerializationStrategy, + value: T, + tag: Int +): Int { + val tagSize = computeTagSize(tag) + return tagSize + computeMessageSizeNoTag(serializer, value) +} + +@OptIn(ExperimentalSerializationApi::class) +private fun ProtoBuf.computeMessageSizeNoTag(serializer: SerializationStrategy, value: T): Int = + computeLengthDelimitedFieldSize(computeSerializedMessageSize(serializer, value)) + +@OptIn(ExperimentalSerializationApi::class) +private fun ProtoBuf.computeSerializedMessageSize(serializer: SerializationStrategy, value: T): Int { + val calculator = ProtoBufSerializedSizeCalculator(this, serializer.descriptor) + calculator.encodeSerializableValue(serializer, value) + return calculator.serializedSize +} + +// computers without tag + +private fun computeEnumSizeNoTag(value: Int): Int = computeInt32SizeNoTag(value) + +private fun computeByteArraySizeNoTag(value: ByteArray): Int = computeLengthDelimitedFieldSize(value.size) + +private fun computeStringSizeNoTag(value: String): Int { + // java's implementation uses a custom method for some optimizations. + return computeLengthDelimitedFieldSize(value.length) +} + +private fun computeLengthDelimitedFieldSize(length: Int): Int = computeUInt32SizeNoTag(length) + length + +//TODO: should this also be named "compute" for consistency? It does not involve computing though. +private fun getFixed64SizeNoTag(): Int = FIXED64_SIZE +private fun computeSInt64SizeNoTag(value: Long): Int = computeUInt64SizeNoTag(encodeZigZag64(value)) +private fun computeInt64SizeNoTag(value: Long): Int = computeUInt64SizeNoTag(value) + +//TODO: should this also be named "compute" for consistency? It does not involve computing though. +private fun getFixed32SizeNoTag() = FIXED32_SIZE +private fun computeSInt32SizeNoTag(value: Int) = computeUInt32SizeNoTag((encodeZigZag32(value))) +private fun computeInt32SizeNoTag(value: Int) = + if (value >= 0) computeUInt32SizeNoTag(value) else MAX_VARINT_SIZE + +/** Compute the number of bytes that would be needed to encode an uint32 field. */ +private fun computeUInt32SizeNoTag(value: Int): Int = when { + value and (0.inv() shl 7) == 0 -> 1 + value and (0.inv() shl 14) == 0 -> 2 + value and (0.inv() shl 21) == 0 -> 3 + value and (0.inv() shl 28) == 0 -> 4 + else -> 5 // max varint32 size +} + +/** Compute the number of bytes that would be needed to encode an uint64 field. */ +private fun computeUInt64SizeNoTag(value: Long): Int { + var _value = value + // handle first two most common cases + if ((_value and (0L.inv() shl 7)) == 0L) { + return 1 + } + if (_value < 0L) { + // To encode a negative number all ten bytes must be used. + return 10 + } + // rest cases + var size = 2 + if ((_value and (0L.inv() shl 35)) != 0L) { + size += 4 + _value = value ushr 28 + } + if ((_value and (0L.inv() shl 21)) != 0L) { + size += 2 + _value = value ushr 14 + } + if ((_value and (0L.inv() shl 14)) != 0L) { + size += 1 + } + return size +} + +// helpers + +@OptIn(ExperimentalSerializationApi::class) +private fun SerialDescriptor.isChildDescriptorPrimitive(): Boolean { + val child = runCatching { this.getElementDescriptor(0) }.getOrElse { return false } + return child.kind is PrimitiveKind +} + +private fun SerialDescriptor.isNotChildDescriptorPrimitive(): Boolean = !isChildDescriptorPrimitive() + +// per protobuf spec 1-10 bytes +private const val MAX_VARINT_SIZE = 10 + +// after decoding the varint representing a field, the low 3 bits tell us the wire type, +// and the rest of the integer tells us the field number. +private const val TAG_TYPE_BITS = 3 + +/** + * See [Scalar type values](https://developers.google.com/protocol-buffers/docs/proto#scalar). + */ + +private const val FIXED32_SIZE = 4 +private const val FIXED64_SIZE = 8 + +// tag utils + +// proto-spec: The “tag” of a record is encoded as a varint formed from the field number and the wire type (0). +private fun computeTagSize(protoId: Int): Int = computeUInt32SizeNoTag(makeTag(protoId, 0)) +private fun makeTag(protoId: Int, wireType: Int): Int = protoId shl TAG_TYPE_BITS or wireType + +// stream utils + +private fun encodeZigZag64(value: Long): Long = (value shl 1) xor (value shr 63) + +private fun encodeZigZag32(value: Int): Int = ((value shl 1) xor (value shr 31)) \ No newline at end of file diff --git a/formats/protobuf/jsMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt b/formats/protobuf/jsMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt new file mode 100644 index 0000000000..c191361e26 --- /dev/null +++ b/formats/protobuf/jsMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt @@ -0,0 +1,15 @@ +package kotlinx.serialization.protobuf + +import kotlinx.serialization.descriptors.SerialDescriptor + +internal actual fun createSerializedSizeCache(): SerializedSizeCache = JsHashMap() + +private class JsHashMap : SerializedSizeCache { + private val cache = mutableMapOf() + + override fun get(descriptor: SerialDescriptor, key: SerializedSizeCacheKey): Int? = cache[descriptor]?.get(key) + + override fun set(descriptor: SerialDescriptor, key: SerializedSizeCacheKey, serializedSize: Int) { + cache[descriptor] = mapOf(key to serializedSize) + } +} \ No newline at end of file diff --git a/formats/protobuf/jvmMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt b/formats/protobuf/jvmMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt new file mode 100644 index 0000000000..ce66f5b0b4 --- /dev/null +++ b/formats/protobuf/jvmMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt @@ -0,0 +1,18 @@ +package kotlinx.serialization.protobuf + +import kotlinx.serialization.descriptors.SerialDescriptor +import java.util.concurrent.ConcurrentHashMap + +internal actual fun createSerializedSizeCache(): SerializedSizeCache { + return ConcurrentHashMapSerializedCache() +} + +private class ConcurrentHashMapSerializedCache : SerializedSizeCache { + private val cache = ConcurrentHashMap() + + override fun get(descriptor: SerialDescriptor, key: SerializedSizeCacheKey): Int? = cache[descriptor]?.get(key) + + override fun set(descriptor: SerialDescriptor, key: SerializedSizeCacheKey, serializedSize: Int) { + cache[descriptor] = mapOf(key to serializedSize) + } +} diff --git a/formats/protobuf/jvmTest/src/kotlinx/serialization/protobuf/ProtoBufSerializedSizeTest.kt b/formats/protobuf/jvmTest/src/kotlinx/serialization/protobuf/ProtoBufSerializedSizeTest.kt new file mode 100644 index 0000000000..2cfb23594c --- /dev/null +++ b/formats/protobuf/jvmTest/src/kotlinx/serialization/protobuf/ProtoBufSerializedSizeTest.kt @@ -0,0 +1,445 @@ +package kotlinx.serialization.protobuf + +import kotlinx.serialization.Serializable +import kotlinx.serialization.protobuf.TestData.* +import org.junit.Test +import kotlin.test.assertEquals + +class ProtoBufSerializedSizeTest { + + private val protoBuf = ProtoBuf + + @Serializable + data class DataInt32(val valueInt: Int) + + @Test + fun shouldCalculateInt32Size() { + val dataInt32 = DataInt32(1) + val size = protoBuf.getOrComputeSerializedSize(DataInt32.serializer(), dataInt32) + val javaType = TestInt32.newBuilder().apply { a = 1 }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataSignedInt(@ProtoType(ProtoIntegerType.SIGNED) val value: Int) + + @Test + fun shouldCalculateSingedIntSize() { + val data = DataSignedInt(10) + val size = protoBuf.getOrComputeSerializedSize(DataSignedInt.serializer(), data) + val javaType = TestSignedInt.newBuilder().apply { a = 10 }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataSignedLong(@ProtoType(ProtoIntegerType.SIGNED) val value: Long) + + @Test + fun shouldCalculateSignedLongSize() { + val data = DataSignedLong(10) + val size = protoBuf.getOrComputeSerializedSize(DataSignedLong.serializer(), data) + val javaType = TestSignedLong.newBuilder().apply { a = 10 }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataFixedInt(@ProtoType(ProtoIntegerType.FIXED) val value: Int) + + @Test + fun shouldCalculateFixedInt() { + val data = DataFixedInt(10) + val size = protoBuf.getOrComputeSerializedSize(DataFixedInt.serializer(), data) + val javaType = TestFixedInt.newBuilder().apply { a = 10 }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataDouble(val value: Double) + + @Test + fun shouldCalculateDouble() { + val data = DataDouble(10.0) + val size = protoBuf.getOrComputeSerializedSize(DataDouble.serializer(), data) + val javaType = TestDouble.newBuilder().apply { a = 10.0 }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataBoolean(val value: Boolean) + + @Test + fun shouldCalculateBoolean() { + val data = DataBoolean(true) + val size = protoBuf.getOrComputeSerializedSize(DataBoolean.serializer(), data) + val javaType = TestBoolean.newBuilder().apply { a = true }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataAllTypes( + val int32: Int, + @ProtoType(ProtoIntegerType.SIGNED) + val sint32: Int, + @ProtoType(ProtoIntegerType.FIXED) + val fixed32: Int, + @ProtoNumber(10) + val int64: Long, + @ProtoType(ProtoIntegerType.SIGNED) + @ProtoNumber(11) + val sint64: Long, + @ProtoType(ProtoIntegerType.FIXED) + @ProtoNumber(12) + val fixed64: Long, + @ProtoNumber(21) + val float: Float, + @ProtoNumber(22) + val double: Double, + @ProtoNumber(41) + val bool: Boolean, + @ProtoNumber(51) + val string: String + ) + + @Test + fun shouldCalculateAllTypes() { + val data = DataAllTypes( + 1, + 2, + 3, + 4, + 5, + 6, + 7.0F, + 8.0, + true, + "hi" + ) + val size = protoBuf.getOrComputeSerializedSize(DataAllTypes.serializer(), data) + val javaType = TestAllTypes.newBuilder().apply { + i32 = 1 + si32 = 2 + f32 = 3 + i64 = 4 + si64 = 5 + f64 = 6 + f = 7.0F + d = 8.0 + b = true + s = "hi" + }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataOuterMessage( + val a: Int, + val d: Double, + @ProtoNumber(10) + val inner: DataAllTypes, + @ProtoNumber(20) + val s: String + ) + + @Test + fun shouldCalculateOuterMessage() { + val dataInner = DataAllTypes( + 1, + 2, + 3, + 4, + 5, + 6, + 7.0F, + 8.0, + true, + "hi" + ) + val data = DataOuterMessage(10, 20.0, dataInner, "hi") + val size = protoBuf.getOrComputeSerializedSize(DataOuterMessage.serializer(), data) + val javaInner = TestAllTypes.newBuilder().apply { + i32 = 1 + si32 = 2 + f32 = 3 + i64 = 4 + si64 = 5 + f64 = 6 + f = 7.0F + d = 8.0 + b = true + s = "hi" + }.build() + val javaOuter = TestOuterMessage.newBuilder().apply { + a = 10 + b = 20.0 + inner = javaInner + s = "hi" + }.build() + assertEquals(javaOuter.serializedSize, size) + } + + @Serializable + data class DataRepeatedIntMessage( + val s: Int, + @ProtoNumber(10) + val b: List + ) + + @Test + fun shouldCalculateRepeatedIntMessage() { + val data = DataRepeatedIntMessage(1, listOf(10, 20, 10, 10, 10, 10)) + val size = protoBuf.getOrComputeSerializedSize(DataRepeatedIntMessage.serializer(), data) + val javaType = TestRepeatedIntMessage.newBuilder().apply { + s = 1 + addAllB(listOf(10, 20, 10, 10, 10, 10)) + }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataRepeatedIntMessageWithRandomTags( + @ProtoNumber(5) + val s: Int, + @ProtoNumber(20) + val b: List + ) + + @Test + fun shouldCalculateRepeatedIntMessageWithRandomTags() { + val data = DataRepeatedIntMessageWithRandomTags(1, listOf(10, 20, 10, 10, 10, 10)) + val size = protoBuf.getOrComputeSerializedSize(DataRepeatedIntMessageWithRandomTags.serializer(), data) + val javaType = TestRepeatedIntMessageWithRandomTags.newBuilder().apply { + s = 1 + addAllB(listOf(10, 20, 10, 10, 10, 10)) + }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataRepeatedObjectMessage(val inner: List) + + @Test + fun shouldCalculateRepeatedObjectMessage() { + val dataInner = DataAllTypes( + 1, + 2, + 3, + 4, + 5, + 6, + 7.0F, + 8.0, + true, + "hi" + ) + val data = DataRepeatedObjectMessage(listOf(dataInner, dataInner, dataInner)) + val size = protoBuf.getOrComputeSerializedSize(DataRepeatedObjectMessage.serializer(), data) + val javaInner = TestAllTypes.newBuilder().apply { + i32 = 1 + si32 = 2 + f32 = 3 + i64 = 4 + si64 = 5 + f64 = 6 + f = 7.0F + d = 8.0 + b = true + s = "hi" + }.build() + val javaType = TestRepeatedObjectMessage.newBuilder().apply { + addAllInner(listOf(javaInner, javaInner, javaInner)) + }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataRepeatedObjectMessageWithRandomTag(@ProtoNumber(20) val inner: List) + + @Test + fun shouldCalculateRepeatedObjectMessageWithRandomTags() { + val dataInner = DataAllTypes( + 1, + 2, + 3, + 4, + 5, + 6, + 7.0F, + 8.0, + true, + "hi" + ) + val data = DataRepeatedObjectMessageWithRandomTag(listOf(dataInner, dataInner, dataInner)) + val size = protoBuf.getOrComputeSerializedSize(DataRepeatedObjectMessageWithRandomTag.serializer(), data) + val javaInner = TestAllTypes.newBuilder().apply { + i32 = 1 + si32 = 2 + f32 = 3 + i64 = 4 + si64 = 5 + f64 = 6 + f = 7.0F + d = 8.0 + b = true + s = "hi" + }.build() + val javaType = TestRepeatedObjectMessageWithRandomTags.newBuilder().apply { + addAllInner(listOf(javaInner, javaInner, javaInner)) + }.build() + assertEquals(javaType.serializedSize, size) + } + + @Serializable + data class DataEnumMessage(val a: Coffee) { + enum class Coffee { + Americano, + Latte, + Capuccino + } + } + + @Test + fun shouldCalculateEnumMessage() { + val data = DataEnumMessage(DataEnumMessage.Coffee.Americano) + val size = protoBuf.getOrComputeSerializedSize(DataEnumMessage.serializer(), data) + val java = TestEnum.newBuilder().apply { + a = TestEnum.Coffee.Americano + }.build() + assertEquals(java.serializedSize, size) + } + + @Serializable + enum class DataEnumWithIds { + @ProtoNumber(10) + First, + + @ProtoNumber(20) + Second + } + + @Serializable + data class DataEnumHolderMessage(@ProtoNumber(5) val s: DataEnumWithIds) + + @Test + fun shouldCalculateEnumHolderMessage() { + val data = DataEnumHolderMessage(DataEnumWithIds.Second) + val size = protoBuf.getOrComputeSerializedSize(DataEnumHolderMessage.serializer(), data) + val java = EnumHolder.newBuilder().apply { a = TestEnumWithIds.Second }.build() + assertEquals(java.serializedSize, size) + } + + @Serializable + data class DataMap(val stringMap: Map, val intObjectMap: Map) + + @Test + fun shouldCalculateMapMessage() { + val dataInner = DataAllTypes( + 1, + 2, + 3, + 4, + 5, + 6, + 7.0F, + 8.0, + true, + "hi" + ) + val data = DataMap( + mapOf("1" to "hello", "2" to "world"), + mapOf(1 to dataInner) + ) + val size = protoBuf.getOrComputeSerializedSize(DataMap.serializer(), data) + + val java = TestMap.newBuilder().apply { + val javaInner = TestAllTypes.newBuilder().apply { + i32 = 1 + si32 = 2 + f32 = 3 + i64 = 4 + si64 = 5 + f64 = 6 + f = 7.0F + d = 8.0 + b = true + s = "hi" + }.build() + putAllStringMap(mapOf("1" to "hello", "2" to "world")) + putAllIntObjectMap(mapOf(1 to javaInner)) + }.build() + assertEquals(java.serializedSize, size) + } + + @Serializable + data class DataWithOptionals( + val a: Int? = null, + val b: String? = null, + val c: Position? = null, + val d: Int = 99, + val e: List + ) { + enum class Position { + FIRST, + SECOND + } + } + + @Test + fun shouldCalculateWithOptionalsMessage() { + val data = DataWithOptionals( + c = DataWithOptionals.Position.SECOND, + e = listOf(10, 10, 10) + ) + val size = protoBuf.getOrComputeSerializedSize(DataWithOptionals.serializer(), data) + val java = MessageWithOptionals.newBuilder().apply { + c = MessageWithOptionals.Position.SECOND + addAllE(listOf(10, 10, 10)) + }.build() + assertEquals(java.serializedSize, size) + } + + @Serializable + data class DataWithPackedFields( + @ProtoPacked + val a: List, + ) + + @Test + fun shouldCalculateMessageWithPackedFields() { + val data = DataWithPackedFields(listOf(1, 2, 3)) + val size = protoBuf.getOrComputeSerializedSize(DataWithPackedFields.serializer(), data) + val java = MessageWithPackedFields.newBuilder().apply { addAllA(listOf(1, 2, 3)) }.build() + println(size) + assertEquals(java.serializedSize, size) + } + + @Test + fun shouldCalculateEmptyMessageWithPackedFields() { + val data = DataWithPackedFields(listOf()) + val size = protoBuf.getOrComputeSerializedSize(DataWithPackedFields.serializer(), data) + val java = MessageWithPackedFields.newBuilder().apply { addAllA(listOf()) }.build() + println(size) + assertEquals(java.serializedSize, size) + } + + @Serializable + data class DataWithPackedFieldsAndRandomTags( + @ProtoNumber(5) + @ProtoPacked + val a: List, + @ProtoNumber(20) + @ProtoPacked + val b: List, + ) + + @Test + fun shouldCalculateMessageWithPackedFieldsAndRandomTags() { + val data = DataWithPackedFieldsAndRandomTags(listOf(1, 2, 3), listOf(4, 5)) + val size = protoBuf.getOrComputeSerializedSize(DataWithPackedFieldsAndRandomTags.serializer(), data) + val java = MessageWithPackedFieldsAndRandomTags.newBuilder().apply { + addAllA(listOf(1, 2, 3)) + addAllB(listOf(4, 5)) + }.build() + println(size) + assertEquals(java.serializedSize, size) + } +} \ No newline at end of file diff --git a/formats/protobuf/jvmTest/src/kotlinx/serialization/protobuf/SerializedSizeCacheTest.kt b/formats/protobuf/jvmTest/src/kotlinx/serialization/protobuf/SerializedSizeCacheTest.kt new file mode 100644 index 0000000000..0a2b0c5ac7 --- /dev/null +++ b/formats/protobuf/jvmTest/src/kotlinx/serialization/protobuf/SerializedSizeCacheTest.kt @@ -0,0 +1,42 @@ +package kotlinx.serialization.protobuf + +import kotlinx.serialization.Serializable +import org.junit.Test +import kotlin.test.assertEquals + +/* + * Not entirely sure if this test cases bring any value, as the "cache" is considered an implementation detail. + * Also, there is no straight-forward way to assert that cache indeed works. + */ +class SerializedSizeCacheTest { + + private val protoBuf = ProtoBuf + + @Serializable + data class ProtoBufData(val value: String? = null) + + /* + * Proof that it works can be found in logs. + */ + @Test + fun shouldMemoizeResultAfterFirstCall() { + val data = ProtoBufData("data") + val serializedSize = protoBuf.getOrComputeSerializedSize(ProtoBufData.serializer(), data) + val serializedSize2 = protoBuf.getOrComputeSerializedSize(ProtoBufData.serializer(), data) + assertEquals( // paranoid assertion, and does not actual tests the goal of this test. + serializedSize, + serializedSize2 + ) + } + + /* + * Proof that it works can be found in logs. + */ + @Test + fun shouldMemoizeResultOnlyDataWithSameContent() { + val data = ProtoBufData("data") + val data2 = ProtoBufData() + protoBuf.getOrComputeSerializedSize(ProtoBufData.serializer(), data) + protoBuf.getOrComputeSerializedSize(ProtoBufData.serializer(), data2) + } +} \ No newline at end of file diff --git a/formats/protobuf/nativeMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt b/formats/protobuf/nativeMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt new file mode 100644 index 0000000000..c191361e26 --- /dev/null +++ b/formats/protobuf/nativeMain/src/kotlinx/serialization/protobuf/SerializedSizeCache.kt @@ -0,0 +1,15 @@ +package kotlinx.serialization.protobuf + +import kotlinx.serialization.descriptors.SerialDescriptor + +internal actual fun createSerializedSizeCache(): SerializedSizeCache = JsHashMap() + +private class JsHashMap : SerializedSizeCache { + private val cache = mutableMapOf() + + override fun get(descriptor: SerialDescriptor, key: SerializedSizeCacheKey): Int? = cache[descriptor]?.get(key) + + override fun set(descriptor: SerialDescriptor, key: SerializedSizeCacheKey, serializedSize: Int) { + cache[descriptor] = mapOf(key to serializedSize) + } +} \ No newline at end of file diff --git a/formats/protobuf/testProto/test_data.proto b/formats/protobuf/testProto/test_data.proto index f4b1f5f043..2c3f2b26d0 100644 --- a/formats/protobuf/testProto/test_data.proto +++ b/formats/protobuf/testProto/test_data.proto @@ -50,10 +50,19 @@ message TestRepeatedIntMessage { repeated int32 b = 10; } +message TestRepeatedIntMessageWithRandomTags { + required int32 s = 5; + repeated int32 b = 20; +} + message TestRepeatedObjectMessage { repeated TestAllTypes inner = 1; } +message TestRepeatedObjectMessageWithRandomTags { + repeated TestAllTypes inner = 20; +} + message TestEnum { enum Coffee { Americano = 0; @@ -89,3 +98,12 @@ message MessageWithOptionals { SECOND = 1; } } + +message MessageWithPackedFields { + repeated int32 a = 1 [packed = true]; +} + +message MessageWithPackedFieldsAndRandomTags { + repeated int32 a = 5 [packed = true]; + repeated int32 b = 20 [packed = true]; +}