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decoder.go
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decoder.go
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// ssz: Go Simple Serialize (SSZ) codec library
// Copyright 2024 ssz Authors
// SPDX-License-Identifier: BSD-3-Clause
package ssz
import (
"encoding/binary"
"fmt"
"io"
"math/big"
"math/bits"
"unsafe"
"github.com/holiman/uint256"
"github.com/prysmaticlabs/go-bitfield"
)
// Decoder is a wrapper around an io.Reader or a []byte buffer to implement SSZ
// decoding in a streaming or buffered way. It has the following behaviors:
//
// 1. The decoder does not buffer, simply reads from the wrapped input stream
// directly. If you need buffering, that is up to you.
//
// 2. The decoder does not return errors that were hit during reading from the
// underlying input stream from individual encoding methods. Since there
// is no expectation (in general) for failure, user code can be denser if
// error checking is done at the end. Internally, of course, an error will
// halt all future input operations.
//
// Internally there are a few implementation details that maintainers need to be
// aware of when modifying the code:
//
// 1. The decoder supports two modes of operation: streaming and buffered. Any
// high level Go code would achieve that with two decoder types implementing
// a common interface. Unfortunately, the DecodeXYZ methods are using Go's
// generic system, which is not supported on struct/interface *methods*. As
// such, `Decoder.DecodeUint64s[T ~uint64](ns []T)` style methods cannot be
// used, only `DecodeUint64s[T ~uint64](end *Decoder, ns []T)`. The latter
// form then requires each method internally to do some soft of type cast to
// handle different decoder implementations. To avoid runtime type asserts,
// we've opted for a combo decoder with 2 possible outputs and switching on
// which one is set. Elegant? No. Fast? Yes.
//
// 2. A lot of code snippets are repeated (e.g. encoding the offset, which is
// the exact same for all the different types, yet the code below has them
// copied verbatim). Unfortunately the Go compiler doesn't inline functions
// aggressively enough (neither does it allow explicitly directing it to),
// and in such tight loops, extra calls matter on performance.
type Decoder struct {
inReader io.Reader // Underlying input stream to read from (streaming mode)
inRead uint32 // Bytes already consumed from the reader (streaming mode)
inReads []uint32 // Stack of consumed bytes from outer calls (streaming mode)
inBuffer []byte // Underlying input buffer to read from (buffered mode)
inBufPtr uintptr // Starting pointer in the input buffer (buffered mode)
inBufPtrs []uintptr // Stack of starting pointers from outer calls (buffered mode)
inBufEnd uintptr // Ending pointer in the input buffer (buffered mode)
err error // Any write error to halt future encoding calls
codec *Codec // Self-referencing to pass DefineSSZ calls through (API trick)
sizer *Sizer // Self-referencing to pass SizeSSZ call through (API trick)
buf [32]byte // Integer conversion buffer
bufInt uint256.Int // Big.Int conversion buffer (not pointer, alloc free)
length uint32 // Message length being decoded
lengths []uint32 // Stack of lengths from outer calls
offset uint32 // Starting offset we expect, or last offset seen after
offsets []uint32 // Queue of offsets for dynamic size calculations
sizes []uint32 // Computed sizes for the dynamic objects
sizess [][]uint32 // Stack of computed sizes from outer calls
}
// DecodeBool parses a boolean.
func DecodeBool[T ~bool](dec *Decoder, v *T) {
if dec.err != nil {
return
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:1])
if dec.err != nil {
return
}
switch dec.buf[0] {
case 0:
*v = false
case 1:
*v = true
default:
dec.err = fmt.Errorf("%w: found %#x", ErrInvalidBoolean, dec.buf[0])
}
dec.inRead += 1
} else {
if len(dec.inBuffer) < 1 {
dec.err = io.ErrUnexpectedEOF
return
}
switch dec.inBuffer[0] {
case 0:
*v = false
case 1:
*v = true
default:
dec.err = fmt.Errorf("%w: found %#x", ErrInvalidBoolean, dec.inBuffer[0])
}
dec.inBuffer = dec.inBuffer[1:]
}
}
// DecodeBoolPointerOnFork parses a boolean if present in a fork. If not, the
// boolean pointer is set to nil.
//
// This method is similar to DecodeBool, but will also initialize the pointer
// if it is not allocated yet.
func DecodeBoolPointerOnFork[T ~bool](dec *Decoder, v **T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*v = nil
return
}
// Otherwise fall back to the standard decoder
if *v == nil {
*v = new(T)
}
DecodeBool(dec, *v)
}
// DecodeUint8 parses a uint8.
func DecodeUint8[T ~uint8](dec *Decoder, n *T) {
if dec.err != nil {
return
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:1])
*n = T(dec.buf[0])
dec.inRead += 1
} else {
if len(dec.inBuffer) < 1 {
dec.err = io.ErrUnexpectedEOF
return
}
*n = T(dec.inBuffer[0])
dec.inBuffer = dec.inBuffer[1:]
}
}
// DecodeUint8PointerOnFork parses a uint8 if present in a fork. If not, the
// uint8 pointer is set to nil.
//
// This method is similar to DecodeUint8, but will also initialize the pointer
// if it is not allocated yet.
func DecodeUint8PointerOnFork[T ~uint8](dec *Decoder, n **T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*n = nil
return
}
// Otherwise fall back to the standard decoder
if *n == nil {
*n = new(T)
}
DecodeUint8(dec, *n)
}
// DecodeUint16 parses a uint16.
func DecodeUint16[T ~uint16](dec *Decoder, n *T) {
if dec.err != nil {
return
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:2])
*n = T(binary.LittleEndian.Uint16(dec.buf[:2]))
dec.inRead += 2
} else {
if len(dec.inBuffer) < 2 {
dec.err = io.ErrUnexpectedEOF
return
}
*n = T(binary.LittleEndian.Uint16(dec.inBuffer))
dec.inBuffer = dec.inBuffer[2:]
}
}
// DecodeUint16PointerOnFork parses a uint16 if present in a fork. If not, the
// uint16 pointer is set to nil.
//
// This method is similar to DecodeUint16, but will also initialize the pointer
// if it is not allocated yet.
func DecodeUint16PointerOnFork[T ~uint16](dec *Decoder, n **T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*n = nil
return
}
// Otherwise fall back to the standard decoder
if *n == nil {
*n = new(T)
}
DecodeUint16(dec, *n)
}
// DecodeUint32 parses a uint32.
func DecodeUint32[T ~uint32](dec *Decoder, n *T) {
if dec.err != nil {
return
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:4])
*n = T(binary.LittleEndian.Uint32(dec.buf[:4]))
dec.inRead += 4
} else {
if len(dec.inBuffer) < 4 {
dec.err = io.ErrUnexpectedEOF
return
}
*n = T(binary.LittleEndian.Uint32(dec.inBuffer))
dec.inBuffer = dec.inBuffer[4:]
}
}
// DecodeUint32PointerOnFork parses a uint32 if present in a fork. If not, the
// uint32 pointer is set to nil.
//
// This method is similar to DecodeUint32, but will also initialize the pointer
// if it is not allocated yet.
func DecodeUint32PointerOnFork[T ~uint32](dec *Decoder, n **T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*n = nil
return
}
// Otherwise fall back to the standard decoder
if *n == nil {
*n = new(T)
}
DecodeUint32(dec, *n)
}
// DecodeUint64 parses a uint64.
func DecodeUint64[T ~uint64](dec *Decoder, n *T) {
if dec.err != nil {
return
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:8])
*n = T(binary.LittleEndian.Uint64(dec.buf[:8]))
dec.inRead += 8
} else {
if len(dec.inBuffer) < 8 {
dec.err = io.ErrUnexpectedEOF
return
}
*n = T(binary.LittleEndian.Uint64(dec.inBuffer))
dec.inBuffer = dec.inBuffer[8:]
}
}
// DecodeUint64PointerOnFork parses a uint64 if present in a fork. If not, the
// uint64 pointer is set to nil.
//
// This method is similar to DecodeUint64, but will also initialize the pointer
// if it is not allocated yet.
func DecodeUint64PointerOnFork[T ~uint64](dec *Decoder, n **T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*n = nil
return
}
// Otherwise fall back to the standard decoder
if *n == nil {
*n = new(T)
}
DecodeUint64(dec, *n)
}
// DecodeUint256 parses a uint256.
func DecodeUint256(dec *Decoder, n **uint256.Int) {
if dec.err != nil {
return
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:32])
if dec.err != nil {
return
}
dec.inRead += 32
if *n == nil {
*n = new(uint256.Int)
}
(*n).UnmarshalSSZ(dec.buf[:32])
} else {
if len(dec.inBuffer) < 32 {
dec.err = io.ErrUnexpectedEOF
return
}
if *n == nil {
*n = new(uint256.Int)
}
(*n).UnmarshalSSZ(dec.inBuffer[:32])
dec.inBuffer = dec.inBuffer[32:]
}
}
// DecodeUint256OnFork parses a uint256 if present in a fork.
func DecodeUint256OnFork(dec *Decoder, n **uint256.Int, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*n = nil
return
}
// Otherwise fall back to the standard decoder
DecodeUint256(dec, n)
}
// DecodeUint256BigInt parses a uint256 into a big.Int.
func DecodeUint256BigInt(dec *Decoder, n **big.Int) {
if dec.err != nil {
return
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:32])
if dec.err != nil {
return
}
dec.inRead += 32
dec.bufInt.UnmarshalSSZ(dec.buf[:32])
dec.bufInt.IntoBig(n)
} else {
if len(dec.inBuffer) < 32 {
dec.err = io.ErrUnexpectedEOF
return
}
dec.bufInt.UnmarshalSSZ(dec.inBuffer[:32])
dec.bufInt.IntoBig(n)
dec.inBuffer = dec.inBuffer[32:]
}
}
// DecodeUint256BigIntOnFork parses a uint256 into a big.Int if present in a fork.
func DecodeUint256BigIntOnFork(dec *Decoder, n **big.Int, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*n = nil
return
}
// Otherwise fall back to the standard decoder
DecodeUint256BigInt(dec, n)
}
// DecodeStaticBytes parses a static binary blob.
func DecodeStaticBytes[T commonBytesLengths](dec *Decoder, blob *T) {
if dec.err != nil {
return
}
if dec.inReader != nil {
// The code below should have used `*blob[:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
_, dec.err = io.ReadFull(dec.inReader, unsafe.Slice(&(*blob)[0], len(*blob)))
dec.inRead += uint32(len(*blob))
} else {
if len(dec.inBuffer) < len(*blob) {
dec.err = io.ErrUnexpectedEOF
return
}
// The code below should have used `*blob[:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
copy(unsafe.Slice(&(*blob)[0], len(*blob)), dec.inBuffer)
dec.inBuffer = dec.inBuffer[len(*blob):]
}
}
// DecodeStaticBytesPointerOnFork parses a static binary blob if present in a fork.
// If not, the bytes are set to nil.
func DecodeStaticBytesPointerOnFork[T commonBytesLengths](dec *Decoder, blob **T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*blob = nil
return
}
// Otherwise fall back to the standard decoder
if *blob == nil {
*blob = new(T)
}
DecodeStaticBytes(dec, *blob)
}
// DecodeCheckedStaticBytes parses a static binary blob.
func DecodeCheckedStaticBytes(dec *Decoder, blob *[]byte, size uint64) {
if dec.err != nil {
return
}
// Expand the byte slice if needed and fill it with the data
if uint64(cap(*blob)) < size {
*blob = make([]byte, size)
} else {
*blob = (*blob)[:size]
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, *blob)
dec.inRead += uint32(size)
} else {
if uint64(len(dec.inBuffer)) < size {
dec.err = io.ErrUnexpectedEOF
return
}
copy(*blob, dec.inBuffer)
dec.inBuffer = dec.inBuffer[size:]
}
}
// DecodeDynamicBytesOffset parses the offset of a dynamic binary blob.
func DecodeDynamicBytesOffset(dec *Decoder, blob *[]byte) {
dec.decodeOffset(false)
}
// DecodeDynamicBytesOffsetOnFork parses the offset of dynamic binary blob if
// present in a fork.
func DecodeDynamicBytesOffsetOnFork(dec *Decoder, blob *[]byte, filter ForkFilter) {
// If the field is not active in the current fork, skip parsing the offset
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
return
}
// Otherwise fall back to the standard decoder
DecodeDynamicBytesOffset(dec, blob)
}
// DecodeDynamicBytesContent is the lazy data reader of DecodeDynamicBytesOffset.
func DecodeDynamicBytesContent(dec *Decoder, blob *[]byte, maxSize uint64) {
if dec.err != nil {
return
}
// Compute the length of the blob based on the seen offsets
size := dec.retrieveSize()
if uint64(size) > maxSize {
dec.err = fmt.Errorf("%w: decoded %d, max %d", ErrMaxLengthExceeded, size, maxSize)
return
}
// Expand the byte slice if needed and fill it with the data
if uint32(cap(*blob)) < size {
*blob = make([]byte, size)
} else {
*blob = (*blob)[:size]
}
// Inline:
//
// DecodeStaticBytes(dec, *(blob))
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, *blob)
dec.inRead += size
} else {
if uint32(len(dec.inBuffer)) < size {
dec.err = io.ErrUnexpectedEOF
return
}
copy(*blob, dec.inBuffer)
dec.inBuffer = dec.inBuffer[size:]
}
}
// DecodeDynamicBytesContentOnFork is the lazy data reader of DecodeDynamicBytesOffsetOnFork.
func DecodeDynamicBytesContentOnFork(dec *Decoder, blob *[]byte, maxSize uint64, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*blob = nil
return
}
// Otherwise fall back to the standard decoder
DecodeDynamicBytesContent(dec, blob, maxSize)
}
// DecodeStaticObject parses a static ssz object.
func DecodeStaticObject[T newableStaticObject[U], U any](dec *Decoder, obj *T) {
if dec.err != nil {
return
}
if *obj == nil {
*obj = T(new(U))
}
(*obj).DefineSSZ(dec.codec)
}
// DecodeStaticObjectOnFork parses a static ssz object if present in a fork.
func DecodeStaticObjectOnFork[T newableStaticObject[U], U any](dec *Decoder, obj *T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*obj = nil
return
}
// Otherwise fall back to the standard decoder
DecodeStaticObject(dec, obj)
}
// DecodeDynamicObjectOffset parses a dynamic ssz object.
func DecodeDynamicObjectOffset[T newableDynamicObject[U], U any](dec *Decoder, obj *T) {
dec.decodeOffset(false)
}
// DecodeDynamicObjectOffsetOnFork parses a dynamic ssz object if present in a fork.
func DecodeDynamicObjectOffsetOnFork[T newableDynamicObject[U], U any](dec *Decoder, obj *T, filter ForkFilter) {
// If the field is not active in the current fork, skip parsing the offset
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
return
}
// Otherwise fall back to the standard decoder
DecodeDynamicObjectOffset(dec, obj)
}
// DecodeDynamicObjectContent is the lazy data reader of DecodeDynamicObjectOffset.
func DecodeDynamicObjectContent[T newableDynamicObject[U], U any](dec *Decoder, obj *T) {
if dec.err != nil {
return
}
// Compute the length of the object based on the seen offsets
size := dec.retrieveSize()
// Descend into a new data slot to track/verify a new sub-length
dec.descendIntoSlot(size)
defer dec.ascendFromSlot()
if *obj == nil {
*obj = T(new(U))
}
dec.startDynamics((*obj).SizeSSZ(dec.sizer, true))
(*obj).DefineSSZ(dec.codec)
dec.flushDynamics()
}
// DecodeDynamicObjectContentOnFork is the lazy data reader of DecodeDynamicObjectOffsetOnFork.
func DecodeDynamicObjectContentOnFork[T newableDynamicObject[U], U any](dec *Decoder, obj *T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*obj = nil
return
}
// Otherwise fall back to the standard decoder
DecodeDynamicObjectContent(dec, obj)
}
// DecodeArrayOfBits parses a static array of (packed) bits.
func DecodeArrayOfBits[T commonBitsLengths](dec *Decoder, bits *T, size uint64) {
if dec.err != nil {
return
}
// The code below should have used `*bits[:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
bitvector := unsafe.Slice(&(*bits)[0], len(*bits))
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, bitvector)
if dec.err != nil {
return
}
dec.inRead += uint32(len(bitvector))
} else {
if len(dec.inBuffer) < len(bitvector) {
dec.err = io.ErrUnexpectedEOF
return
}
copy(bitvector, dec.inBuffer)
dec.inBuffer = dec.inBuffer[len(bitvector):]
}
// TODO(karalabe): This can probably be done more optimally...
for i := size; i < uint64(len(bitvector)<<3); i++ {
if bitvector[i>>3]&(1<<(i&0x7)) > 0 {
dec.err = fmt.Errorf("%w: bit %d set, size %d bits", ErrJunkInBitvector, i+1, size)
return
}
}
}
// DecodeArrayOfBitsPointerOnFork parses a static array of (packed) bits if present
// in a fork. If not, the bit array pointer is set to nil.
func DecodeArrayOfBitsPointerOnFork[T commonBitsLengths](dec *Decoder, bits **T, size uint64, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*bits = nil
return
}
// Otherwise fall back to the standard decoder
if *bits == nil {
*bits = new(T)
}
DecodeArrayOfBits(dec, *bits, size)
}
// DecodeSliceOfBitsOffset parses a dynamic slice of (packed) bits.
func DecodeSliceOfBitsOffset(dec *Decoder, bitlist *bitfield.Bitlist) {
dec.decodeOffset(false)
}
// DecodeSliceOfBitsOffsetOnFork parses a dynamic slice of (packed) bits if present
// in a fork.
func DecodeSliceOfBitsOffsetOnFork(dec *Decoder, bitlist *bitfield.Bitlist, filter ForkFilter) {
// If the field is not active in the current fork, skip parsing the offset
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
return
}
// Otherwise fall back to the standard decoder
DecodeSliceOfBitsOffset(dec, bitlist)
}
// DecodeSliceOfBitsContent is the lazy data reader of DecodeSliceOfBitsOffset.
func DecodeSliceOfBitsContent(dec *Decoder, bitlist *bitfield.Bitlist, maxBits uint64) {
if dec.err != nil {
return
}
// Compute the length of the encoded bits based on the seen offsets
size := dec.retrieveSize()
if size == 0 {
dec.err = fmt.Errorf("%w: length bit missing", ErrJunkInBitlist)
return
}
// Verify that the byte size is reasonable, bits will need an extra step after decoding
if maxBytes := maxBits>>3 + 1; maxBytes < uint64(size) {
dec.err = fmt.Errorf("%w: decoded %d bytes, max %d bytes", ErrMaxItemsExceeded, size, maxBytes)
return
}
// Expand the slice if needed and read the bits
if uint32(cap(*bitlist)) < size {
*bitlist = make([]byte, size)
} else {
*bitlist = (*bitlist)[:size]
}
if dec.inReader != nil {
_, dec.err = io.ReadFull(dec.inReader, *bitlist)
if dec.err != nil {
return
}
dec.inRead += uint32(len(*bitlist))
} else {
if len(dec.inBuffer) < len(*bitlist) {
dec.err = io.ErrUnexpectedEOF
return
}
copy(*bitlist, dec.inBuffer)
dec.inBuffer = dec.inBuffer[len(*bitlist):]
}
// Verify that the length bit is at the correct position
high := (*bitlist)[len(*bitlist)-1]
if high == 0 {
dec.err = fmt.Errorf("%w: high byte unset", ErrJunkInBitlist)
return
}
if len := ((len(*bitlist) - 1) >> 3) + bits.Len8(high) - 1; uint64(len) > maxBits {
dec.err = fmt.Errorf("%w: decoded %d bits, max %d bits", ErrMaxItemsExceeded, len, maxBits)
return
}
}
// DecodeSliceOfBitsContentOnFork is the lazy data reader of DecodeSliceOfBitsOffsetOnFork.
func DecodeSliceOfBitsContentOnFork(dec *Decoder, bitlist *bitfield.Bitlist, maxBits uint64, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*bitlist = nil
return
}
// Otherwise fall back to the standard decoder
DecodeSliceOfBitsContent(dec, bitlist, maxBits)
}
// DecodeArrayOfUint64s parses a static array of uint64s.
func DecodeArrayOfUint64s[T commonUint64sLengths](dec *Decoder, ns *T) {
if dec.err != nil {
return
}
// The code below should have used `*blob[:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
nums := unsafe.Slice(&(*ns)[0], len(*ns))
if dec.inReader != nil {
for i := 0; i < len(nums); i++ {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:8])
if dec.err != nil {
return
}
nums[i] = binary.LittleEndian.Uint64(dec.buf[:8])
dec.inRead += 8
}
} else {
for i := 0; i < len(nums); i++ {
if len(dec.inBuffer) < 8 {
dec.err = io.ErrUnexpectedEOF
return
}
nums[i] = binary.LittleEndian.Uint64(dec.inBuffer)
dec.inBuffer = dec.inBuffer[8:]
}
}
}
// DecodeArrayOfUint64sPointerOnFork parses a static array of uint64s if present
// in a fork. If not, the bit array pointer is set to nil.
func DecodeArrayOfUint64sPointerOnFork[T commonUint64sLengths](dec *Decoder, ns **T, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*ns = nil
return
}
// Otherwise fall back to the standard decoder
if *ns == nil {
*ns = new(T)
}
DecodeArrayOfUint64s(dec, *ns)
}
// DecodeSliceOfUint64sOffset parses a dynamic slice of uint64s.
func DecodeSliceOfUint64sOffset[T ~uint64](dec *Decoder, ns *[]T) {
dec.decodeOffset(false)
}
// DecodeSliceOfUint64sOffsetOnFork parses a dynamic slice of uint64s if present
// in a fork.
func DecodeSliceOfUint64sOffsetOnFork[T ~uint64](dec *Decoder, ns *[]T, filter ForkFilter) {
// If the field is not active in the current fork, skip parsing the offset
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
return
}
// Otherwise fall back to the standard decoder
DecodeSliceOfUint64sOffset(dec, ns)
}
// DecodeSliceOfUint64sContent is the lazy data reader of DecodeSliceOfUint64sOffset.
func DecodeSliceOfUint64sContent[T ~uint64](dec *Decoder, ns *[]T, maxItems uint64) {
if dec.err != nil {
return
}
// Compute the length of the encoded binaries based on the seen offsets
size := dec.retrieveSize()
if size == 0 {
// Empty slice, remove anything extra
if *ns == nil {
*ns = make([]T, 0) // Don't leave nil, init to empty
} else {
*ns = (*ns)[:0]
}
return
}
// Compute the number of items based on the item size of the type
if size&7 != 0 {
dec.err = fmt.Errorf("%w: length %d, item size %d", ErrDynamicStaticsIndivisible, size, 8)
return
}
itemCount := size >> 3
if uint64(itemCount) > maxItems {
dec.err = fmt.Errorf("%w: decoded %d, max %d", ErrMaxItemsExceeded, itemCount, maxItems)
return
}
// Expand the slice if needed and decode the objects
if uint32(cap(*ns)) < itemCount {
*ns = make([]T, itemCount)
} else {
*ns = (*ns)[:itemCount]
}
if dec.inReader != nil {
for i := uint32(0); i < itemCount; i++ {
_, dec.err = io.ReadFull(dec.inReader, dec.buf[:8])
if dec.err != nil {
return
}
(*ns)[i] = T(binary.LittleEndian.Uint64(dec.buf[:8]))
}
dec.inRead += 8 * itemCount
} else {
for i := uint32(0); i < itemCount; i++ {
if len(dec.inBuffer) < 8 {
dec.err = io.ErrUnexpectedEOF
return
}
(*ns)[i] = T(binary.LittleEndian.Uint64(dec.inBuffer))
dec.inBuffer = dec.inBuffer[8:]
}
}
}
// DecodeSliceOfUint64sContentOnFork is the lazy data reader of DecodeSliceOfUint64sOffsetOnFork.
func DecodeSliceOfUint64sContentOnFork[T ~uint64](dec *Decoder, ns *[]T, maxItems uint64, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*ns = nil
return
}
// Otherwise fall back to the standard decoder
DecodeSliceOfUint64sContent(dec, ns, maxItems)
}
// DecodeArrayOfStaticBytes parses a static array of static binary blobs.
func DecodeArrayOfStaticBytes[T commonBytesArrayLengths[U], U commonBytesLengths](dec *Decoder, blobs *T) {
// The code below should have used `(*blobs)[:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
DecodeUnsafeArrayOfStaticBytes(dec, unsafe.Slice(&(*blobs)[0], len(*blobs)))
}
// DecodeUnsafeArrayOfStaticBytes parses a static array of static binary blobs.
func DecodeUnsafeArrayOfStaticBytes[T commonBytesLengths](dec *Decoder, blobs []T) {
if dec.err != nil {
return
}
if dec.inReader != nil {
for i := 0; i < len(blobs); i++ {
// The code below should have used `(*blobs)[i][:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
_, dec.err = io.ReadFull(dec.inReader, unsafe.Slice(&(blobs)[i][0], len((blobs)[i])))
if dec.err != nil {
return
}
dec.inRead += uint32(len((blobs)[i]))
}
} else {
for i := 0; i < len(blobs); i++ {
if len(dec.inBuffer) < len((blobs)[i]) {
dec.err = io.ErrUnexpectedEOF
return
}
// The code below should have used `blobs[i][:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
copy(unsafe.Slice(&(blobs)[i][0], len((blobs)[i])), dec.inBuffer)
dec.inBuffer = dec.inBuffer[len((blobs)[i]):]
}
}
}
// DecodeCheckedArrayOfStaticBytes parses a static array of static binary blobs.
func DecodeCheckedArrayOfStaticBytes[T commonBytesLengths](dec *Decoder, blobs *[]T, size uint64) {
if dec.err != nil {
return
}
// Expand the byte-array slice if needed and fill it with the data
if uint64(cap(*blobs)) < size {
*blobs = make([]T, size)
} else {
*blobs = (*blobs)[:size]
}
if dec.inReader != nil {
for i := 0; i < len(*blobs); i++ {
// The code below should have used `(*blobs)[i][:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
_, dec.err = io.ReadFull(dec.inReader, unsafe.Slice(&(*blobs)[i][0], len((*blobs)[i])))
if dec.err != nil {
return
}
dec.inRead += uint32(len((*blobs)[i]))
}
} else {
for i := 0; i < len(*blobs); i++ {
if len(dec.inBuffer) < len((*blobs)[i]) {
dec.err = io.ErrUnexpectedEOF
return
}
// The code below should have used `blobs[i][:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
copy(unsafe.Slice(&(*blobs)[i][0], len((*blobs)[i])), dec.inBuffer)
dec.inBuffer = dec.inBuffer[len((*blobs)[i]):]
}
}
}
// DecodeSliceOfStaticBytesOffset parses a dynamic slice of static binary blobs.
func DecodeSliceOfStaticBytesOffset[T commonBytesLengths](dec *Decoder, blobs *[]T) {
dec.decodeOffset(false)
}
// DecodeSliceOfStaticBytesOffsetOnFork parses a dynamic slice of static binary
// blobs if present in a fork.
func DecodeSliceOfStaticBytesOffsetOnFork[T commonBytesLengths](dec *Decoder, blobs *[]T, filter ForkFilter) {
// If the field is not active in the current fork, skip parsing the offset
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
return
}
// Otherwise fall back to the standard decoder
DecodeSliceOfStaticBytesOffset(dec, blobs)
}
// DecodeSliceOfStaticBytesContent is the lazy data reader of DecodeSliceOfStaticBytesOffset.
func DecodeSliceOfStaticBytesContent[T commonBytesLengths](dec *Decoder, blobs *[]T, maxItems uint64) {
if dec.err != nil {
return
}
// Compute the length of the encoded binaries based on the seen offsets
size := dec.retrieveSize()
if size == 0 {
// Empty slice, remove anything extra
if *blobs == nil {
*blobs = make([]T, 0) // Don't leave nil, init to empty
} else {
*blobs = (*blobs)[:0]
}
return
}
// Compute the number of items based on the item size of the type
var sizer T // SizeSSZ is on *U, objects is static, so nil T is fine
itemSize := uint32(len(sizer))
if size%itemSize != 0 {
dec.err = fmt.Errorf("%w: length %d, item size %d", ErrDynamicStaticsIndivisible, size, itemSize)
return
}
itemCount := size / itemSize
if uint64(itemCount) > maxItems {
dec.err = fmt.Errorf("%w: decoded %d, max %d", ErrMaxItemsExceeded, itemCount, maxItems)
return
}
// Expand the slice if needed and decode the objects
if uint32(cap(*blobs)) < itemCount {
*blobs = make([]T, itemCount)
} else {
*blobs = (*blobs)[:itemCount]
}
// Descend into a new data slot to track/verify a new sub-length
dec.descendIntoSlot(size)
defer dec.ascendFromSlot()
if dec.inReader != nil {
for i := uint32(0); i < itemCount; i++ {
// The code below should have used `blobs[i][:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
_, dec.err = io.ReadFull(dec.inReader, unsafe.Slice(&(*blobs)[i][0], len((*blobs)[i])))
if dec.err != nil {
return
}
dec.inRead += uint32(len((*blobs)[i]))
}
} else {
for i := uint32(0); i < itemCount; i++ {
if len(dec.inBuffer) < len((*blobs)[i]) {
dec.err = io.ErrUnexpectedEOF
return
}
// The code below should have used `blobs[i][:]`, alas Go's generics compiler
// is missing that (i.e. a bug): https://github.com/golang/go/issues/51740
copy(unsafe.Slice(&(*blobs)[i][0], len((*blobs)[i])), dec.inBuffer)
dec.inBuffer = dec.inBuffer[len((*blobs)[i]):]
}
}
}
// DecodeSliceOfStaticBytesContentOnFork is the lazy data reader of DecodeSliceOfStaticBytesOffsetOnFork.
func DecodeSliceOfStaticBytesContentOnFork[T commonBytesLengths](dec *Decoder, blobs *[]T, maxItems uint64, filter ForkFilter) {
// If the field is not active in the current fork, clear out the output
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
*blobs = nil
return
}
// Otherwise fall back to the standard decoder
DecodeSliceOfStaticBytesContent(dec, blobs, maxItems)
}
// DecodeSliceOfDynamicBytesOffset parses a dynamic slice of dynamic binary blobs.
func DecodeSliceOfDynamicBytesOffset(dec *Decoder, blobs *[][]byte) {
dec.decodeOffset(false)
}
// DecodeSliceOfDynamicBytesOffsetOnFork parses a dynamic slice of dynamic binary
// blobs if present in a fork.
func DecodeSliceOfDynamicBytesOffsetOnFork(dec *Decoder, blobs *[][]byte, filter ForkFilter) {
// If the field is not active in the current fork, skip parsing the offset
if dec.codec.fork < filter.Added || (filter.Removed > ForkUnknown && dec.codec.fork >= filter.Removed) {
return
}
// Otherwise fall back to the standard decoder
DecodeSliceOfDynamicBytesOffset(dec, blobs)
}
// DecodeSliceOfDynamicBytesContent is the lazy data reader of DecodeSliceOfDynamicBytesOffset.
func DecodeSliceOfDynamicBytesContent(dec *Decoder, blobs *[][]byte, maxItems uint64, maxSize uint64) {
if dec.err != nil {
return
}
// Compute the length of the blob slice based on the seen offsets and sanity
// check for empty slice or possibly bad data (too short to encode anything)
size := dec.retrieveSize()
if size == 0 {
// Empty slice, remove anything extra
if *blobs == nil {
*blobs = make([][]byte, 0) // Don't leave nil, init to empty
} else {
*blobs = (*blobs)[:0]
}
return
}
if size < 4 {
dec.err = fmt.Errorf("%w: %d bytes available", ErrShortCounterOffset, size)
return
}
// Descend into a new data slot to track/verify a new sub-length
dec.descendIntoSlot(size)
defer dec.ascendFromSlot()
// Since we're decoding a dynamic slice of dynamic objects (blobs here), the
// first offset will also act as a counter at to how many items there are in
// the list (x4 bytes for offsets being uint32).
dec.decodeOffset(true)
if dec.err != nil {
return
}
if dec.offset == 0 {