src/internal/saferio/io.go - go - Git at Google

 // Copyright 2022 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 // Package saferio provides I/O functions that avoid allocating large
 // amounts of memory unnecessarily. This is intended for packages that
 // read data from an [io.Reader] where the size is part of the input
 // data but the input may be corrupt, or may be provided by an
 // untrustworthy attacker.
 package saferio

 import (
 	"io"
 	"unsafe"
 )

 // chunk is an arbitrary limit on how much memory we are willing
 // to allocate without concern.
 const chunk = 10 << 20 // 10M

 // ReadData reads n bytes from the input stream, but avoids allocating
 // all n bytes if n is large. This avoids crashing the program by
 // allocating all n bytes in cases where n is incorrect.
 //
 // The error is io.EOF only if no bytes were read.
 // If an io.EOF happens after reading some but not all the bytes,
 // ReadData returns io.ErrUnexpectedEOF.
 func ReadData(r io.Reader, n uint64) ([]byte, error) {
 	if int64(n) < 0 || n != uint64(int(n)) {
 		// n is too large to fit in int, so we can't allocate
 		// a buffer large enough. Treat this as a read failure.
 		return nil, io.ErrUnexpectedEOF
 	}

 	if n < chunk {
 		buf := make([]byte, n)
 		_, err := io.ReadFull(r, buf)
 		if err != nil {
 			return nil, err
 		}
 		return buf, nil
 	}

 	var buf []byte
 	buf1 := make([]byte, chunk)
 	for n > 0 {
 		next := n
 		if next > chunk {
 			next = chunk
 		}
 		_, err := io.ReadFull(r, buf1[:next])
 		if err != nil {
 			if len(buf) > 0 && err == io.EOF {
 				err = io.ErrUnexpectedEOF
 			}
 			return nil, err
 		}
 		buf = append(buf, buf1[:next]...)
 		n -= next
 	}
 	return buf, nil
 }

 // ReadDataAt reads n bytes from the input stream at off, but avoids
 // allocating all n bytes if n is large. This avoids crashing the program
 // by allocating all n bytes in cases where n is incorrect.
 func ReadDataAt(r io.ReaderAt, n uint64, off int64) ([]byte, error) {
 	if int64(n) < 0 || n != uint64(int(n)) {
 		// n is too large to fit in int, so we can't allocate
 		// a buffer large enough. Treat this as a read failure.
 		return nil, io.ErrUnexpectedEOF
 	}

 	if n < chunk {
 		buf := make([]byte, n)
 		_, err := r.ReadAt(buf, off)
 		if err != nil {
 			// io.SectionReader can return EOF for n == 0,
 			// but for our purposes that is a success.
 			if err != io.EOF || n > 0 {
 				return nil, err
 			}
 		}
 		return buf, nil
 	}

 	var buf []byte
 	buf1 := make([]byte, chunk)
 	for n > 0 {
 		next := n
 		if next > chunk {
 			next = chunk
 		}
 		_, err := r.ReadAt(buf1[:next], off)
 		if err != nil {
 			return nil, err
 		}
 		buf = append(buf, buf1[:next]...)
 		n -= next
 		off += int64(next)
 	}
 	return buf, nil
 }

 // SliceCapWithSize returns the capacity to use when allocating a slice.
 // After the slice is allocated with the capacity, it should be
 // built using append. This will avoid allocating too much memory
 // if the capacity is large and incorrect.
 //
 // A negative result means that the value is always too big.
 func SliceCapWithSize(size, c uint64) int {
 	if int64(c) < 0 || c != uint64(int(c)) {
 		return -1
 	}
 	if size > 0 && c > (1<<64-1)/size {
 		return -1
 	}
 	if c*size > chunk {
 		c = chunk / size
 		if c == 0 {
 			c = 1
 		}
 	}
 	return int(c)
 }

 // SliceCap is like SliceCapWithSize but using generics.
 func SliceCap[E any](c uint64) int {
 	var v E
 	size := uint64(unsafe.Sizeof(v))
 	return SliceCapWithSize(size, c)
 }
	// Copyright 2022 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	// Package saferio provides I/O functions that avoid allocating large
	// amounts of memory unnecessarily. This is intended for packages that
	// read data from an [io.Reader] where the size is part of the input
	// data but the input may be corrupt, or may be provided by an
	// untrustworthy attacker.
	package saferio

	import (
	"io"
	"unsafe"
	)

	// chunk is an arbitrary limit on how much memory we are willing
	// to allocate without concern.
	const chunk = 10 << 20 // 10M

	// ReadData reads n bytes from the input stream, but avoids allocating
	// all n bytes if n is large. This avoids crashing the program by
	// allocating all n bytes in cases where n is incorrect.
	//
	// The error is io.EOF only if no bytes were read.
	// If an io.EOF happens after reading some but not all the bytes,
	// ReadData returns io.ErrUnexpectedEOF.
	func ReadData(r io.Reader, n uint64) ([]byte, error) {
	if int64(n) < 0 \|\| n != uint64(int(n)) {
	// n is too large to fit in int, so we can't allocate
	// a buffer large enough. Treat this as a read failure.
	return nil, io.ErrUnexpectedEOF
	}

	if n < chunk {
	buf := make([]byte, n)
	_, err := io.ReadFull(r, buf)
	if err != nil {
	return nil, err
	}
	return buf, nil
	}

	var buf []byte
	buf1 := make([]byte, chunk)
	for n > 0 {
	next := n
	if next > chunk {
	next = chunk
	}
	_, err := io.ReadFull(r, buf1[:next])
	if err != nil {
	if len(buf) > 0 && err == io.EOF {
	err = io.ErrUnexpectedEOF
	}
	return nil, err
	}
	buf = append(buf, buf1[:next]...)
	n -= next
	}
	return buf, nil
	}

	// ReadDataAt reads n bytes from the input stream at off, but avoids
	// allocating all n bytes if n is large. This avoids crashing the program
	// by allocating all n bytes in cases where n is incorrect.
	func ReadDataAt(r io.ReaderAt, n uint64, off int64) ([]byte, error) {
	if int64(n) < 0 \|\| n != uint64(int(n)) {
	// n is too large to fit in int, so we can't allocate
	// a buffer large enough. Treat this as a read failure.
	return nil, io.ErrUnexpectedEOF
	}

	if n < chunk {
	buf := make([]byte, n)
	_, err := r.ReadAt(buf, off)
	if err != nil {
	// io.SectionReader can return EOF for n == 0,
	// but for our purposes that is a success.
	if err != io.EOF \|\| n > 0 {
	return nil, err
	}
	}
	return buf, nil
	}

	var buf []byte
	buf1 := make([]byte, chunk)
	for n > 0 {
	next := n
	if next > chunk {
	next = chunk
	}
	_, err := r.ReadAt(buf1[:next], off)
	if err != nil {
	return nil, err
	}
	buf = append(buf, buf1[:next]...)
	n -= next
	off += int64(next)
	}
	return buf, nil
	}

	// SliceCapWithSize returns the capacity to use when allocating a slice.
	// After the slice is allocated with the capacity, it should be
	// built using append. This will avoid allocating too much memory
	// if the capacity is large and incorrect.
	//
	// A negative result means that the value is always too big.
	func SliceCapWithSize(size, c uint64) int {
	if int64(c) < 0 \|\| c != uint64(int(c)) {
	return -1
	}
	if size > 0 && c > (1<<64-1)/size {
	return -1
	}
	if c*size > chunk {
	c = chunk / size
	if c == 0 {
	c = 1
	}
	}
	return int(c)
	}

	// SliceCap is like SliceCapWithSize but using generics.
	func SliceCap[E any](c uint64) int {
	var v E
	size := uint64(unsafe.Sizeof(v))
	return SliceCapWithSize(size, c)
	}