minio/internal/hash/checksum.go

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// Copyright (c) 2015-2022 MinIO, Inc.
//
// This file is part of MinIO Object Storage stack
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package hash
import (
"bytes"
"context"
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"crypto/sha1"
"encoding/base64"
"encoding/binary"
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"fmt"
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"hash"
"hash/crc32"
"net/http"
"strings"
"github.com/minio/minio/internal/hash/sha256"
xhttp "github.com/minio/minio/internal/http"
"github.com/minio/minio/internal/logger"
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)
// MinIOMultipartChecksum is as metadata on multipart uploads to indicate checksum type.
const MinIOMultipartChecksum = "x-minio-multipart-checksum"
// ChecksumType contains information about the checksum type.
type ChecksumType uint32
const (
// ChecksumTrailing indicates the checksum will be sent in the trailing header.
// Another checksum type will be set.
ChecksumTrailing ChecksumType = 1 << iota
// ChecksumSHA256 indicates a SHA256 checksum.
ChecksumSHA256
// ChecksumSHA1 indicates a SHA-1 checksum.
ChecksumSHA1
// ChecksumCRC32 indicates a CRC32 checksum with IEEE table.
ChecksumCRC32
// ChecksumCRC32C indicates a CRC32 checksum with Castagnoli table.
ChecksumCRC32C
// ChecksumInvalid indicates an invalid checksum.
ChecksumInvalid
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// ChecksumMultipart indicates the checksum is from a multipart upload.
ChecksumMultipart
// ChecksumIncludesMultipart indicates the checksum also contains part checksums.
ChecksumIncludesMultipart
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// ChecksumNone indicates no checksum.
ChecksumNone ChecksumType = 0
)
// Checksum is a type and base 64 encoded value.
type Checksum struct {
Type ChecksumType
Encoded string
Raw []byte
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}
// Is returns if c is all of t.
func (c ChecksumType) Is(t ChecksumType) bool {
if t == ChecksumNone {
return c == ChecksumNone
}
return c&t == t
}
// Key returns the header key.
// returns empty string if invalid or none.
func (c ChecksumType) Key() string {
switch {
case c.Is(ChecksumCRC32):
return xhttp.AmzChecksumCRC32
case c.Is(ChecksumCRC32C):
return xhttp.AmzChecksumCRC32C
case c.Is(ChecksumSHA1):
return xhttp.AmzChecksumSHA1
case c.Is(ChecksumSHA256):
return xhttp.AmzChecksumSHA256
}
return ""
}
// RawByteLen returns the size of the un-encoded checksum.
func (c ChecksumType) RawByteLen() int {
switch {
case c.Is(ChecksumCRC32):
return 4
case c.Is(ChecksumCRC32C):
return 4
case c.Is(ChecksumSHA1):
return sha1.Size
case c.Is(ChecksumSHA256):
return sha256.Size
}
return 0
}
// IsSet returns whether the type is valid and known.
func (c ChecksumType) IsSet() bool {
return !c.Is(ChecksumInvalid) && !c.Is(ChecksumNone)
}
// NewChecksumType returns a checksum type based on the algorithm string.
func NewChecksumType(alg string) ChecksumType {
switch strings.ToUpper(alg) {
case "CRC32":
return ChecksumCRC32
case "CRC32C":
return ChecksumCRC32C
case "SHA1":
return ChecksumSHA1
case "SHA256":
return ChecksumSHA256
case "":
return ChecksumNone
}
return ChecksumInvalid
}
// String returns the type as a string.
func (c ChecksumType) String() string {
switch {
case c.Is(ChecksumCRC32):
return "CRC32"
case c.Is(ChecksumCRC32C):
return "CRC32C"
case c.Is(ChecksumSHA1):
return "SHA1"
case c.Is(ChecksumSHA256):
return "SHA256"
case c.Is(ChecksumNone):
return ""
}
return "invalid"
}
// Hasher returns a hasher corresponding to the checksum type.
// Returns nil if no checksum.
func (c ChecksumType) Hasher() hash.Hash {
switch {
case c.Is(ChecksumCRC32):
return crc32.NewIEEE()
case c.Is(ChecksumCRC32C):
return crc32.New(crc32.MakeTable(crc32.Castagnoli))
case c.Is(ChecksumSHA1):
return sha1.New()
case c.Is(ChecksumSHA256):
return sha256.New()
}
return nil
}
// Trailing return whether the checksum is traling.
func (c ChecksumType) Trailing() bool {
return c.Is(ChecksumTrailing)
}
// NewChecksumFromData returns a new checksum from specified algorithm and base64 encoded value.
func NewChecksumFromData(t ChecksumType, data []byte) *Checksum {
if !t.IsSet() {
return nil
}
h := t.Hasher()
h.Write(data)
raw := h.Sum(nil)
c := Checksum{Type: t, Encoded: base64.StdEncoding.EncodeToString(raw), Raw: raw}
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if !c.Valid() {
return nil
}
return &c
}
// ReadCheckSums will read checksums from b and return them.
func ReadCheckSums(b []byte, part int) map[string]string {
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res := make(map[string]string, 1)
for len(b) > 0 {
t, n := binary.Uvarint(b)
if n < 0 {
break
}
b = b[n:]
typ := ChecksumType(t)
length := typ.RawByteLen()
if length == 0 || len(b) < length {
break
}
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cs := base64.StdEncoding.EncodeToString(b[:length])
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b = b[length:]
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if typ.Is(ChecksumMultipart) {
t, n := binary.Uvarint(b)
if n < 0 {
break
}
cs = fmt.Sprintf("%s-%d", cs, t)
b = b[n:]
if part > 0 {
cs = ""
}
if typ.Is(ChecksumIncludesMultipart) {
wantLen := int(t) * length
if len(b) < wantLen {
break
}
// Read part checksum
if part > 0 && uint64(part) <= t {
offset := (part - 1) * length
partCs := b[offset:]
cs = base64.StdEncoding.EncodeToString(partCs[:length])
}
b = b[wantLen:]
}
} else if part > 1 {
// For non-multipart, checksum is part 1.
cs = ""
}
if cs != "" {
res[typ.String()] = cs
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}
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}
if len(res) == 0 {
res = nil
}
return res
}
// ReadPartCheckSums will read all part checksums from b and return them.
func ReadPartCheckSums(b []byte) (res []map[string]string) {
for len(b) > 0 {
t, n := binary.Uvarint(b)
if n <= 0 {
break
}
b = b[n:]
typ := ChecksumType(t)
length := typ.RawByteLen()
if length == 0 || len(b) < length {
break
}
// Skip main checksum
b = b[length:]
if !typ.Is(ChecksumIncludesMultipart) {
continue
}
parts, n := binary.Uvarint(b)
if n <= 0 {
break
}
if len(res) == 0 {
res = make([]map[string]string, parts)
}
b = b[n:]
for part := 0; part < int(parts); part++ {
if len(b) < length {
break
}
// Read part checksum
cs := base64.StdEncoding.EncodeToString(b[:length])
b = b[length:]
if res[part] == nil {
res[part] = make(map[string]string, 1)
}
res[part][typ.String()] = cs
}
}
return res
}
// NewChecksumWithType is similar to NewChecksumString but expects input algo of ChecksumType.
func NewChecksumWithType(alg ChecksumType, value string) *Checksum {
if !alg.IsSet() {
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return nil
}
bvalue, err := base64.StdEncoding.DecodeString(value)
if err != nil {
return nil
}
c := Checksum{Type: alg, Encoded: value, Raw: bvalue}
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if !c.Valid() {
return nil
}
return &c
}
// NewChecksumString returns a new checksum from specified algorithm and base64 encoded value.
func NewChecksumString(alg, value string) *Checksum {
return NewChecksumWithType(NewChecksumType(alg), value)
}
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// AppendTo will append the checksum to b.
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// 'parts' is used when checksum has ChecksumMultipart set.
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// ReadCheckSums reads the values back.
func (c *Checksum) AppendTo(b []byte, parts []byte) []byte {
if c == nil {
return nil
}
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var tmp [binary.MaxVarintLen32]byte
n := binary.PutUvarint(tmp[:], uint64(c.Type))
crc := c.Raw
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if len(crc) != c.Type.RawByteLen() {
return b
}
b = append(b, tmp[:n]...)
b = append(b, crc...)
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if c.Type.Is(ChecksumMultipart) {
var checksums int
// Ensure we don't divide by 0:
if c.Type.RawByteLen() == 0 || len(parts)%c.Type.RawByteLen() != 0 {
logger.LogIf(context.Background(), fmt.Errorf("internal error: Unexpected checksum length: %d, each checksum %d", len(parts), c.Type.RawByteLen()))
checksums = 0
parts = nil
} else {
checksums = len(parts) / c.Type.RawByteLen()
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}
if !c.Type.Is(ChecksumIncludesMultipart) {
parts = nil
}
n := binary.PutUvarint(tmp[:], uint64(checksums))
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b = append(b, tmp[:n]...)
if len(parts) > 0 {
b = append(b, parts...)
}
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}
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return b
}
// Valid returns whether checksum is valid.
func (c Checksum) Valid() bool {
if c.Type == ChecksumInvalid {
return false
}
if len(c.Encoded) == 0 || c.Type.Trailing() {
return c.Type.Is(ChecksumNone) || c.Type.Trailing()
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}
raw := c.Raw
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return c.Type.RawByteLen() == len(raw)
}
// Matches returns whether given content matches c.
func (c Checksum) Matches(content []byte) error {
if len(c.Encoded) == 0 {
return nil
}
hasher := c.Type.Hasher()
_, err := hasher.Write(content)
if err != nil {
return err
}
sum := hasher.Sum(nil)
if !bytes.Equal(sum, c.Raw) {
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return ChecksumMismatch{
Want: c.Encoded,
Got: base64.StdEncoding.EncodeToString(sum),
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}
}
return nil
}
// AsMap returns the
func (c *Checksum) AsMap() map[string]string {
if c == nil || !c.Valid() {
return nil
}
return map[string]string{c.Type.String(): c.Encoded}
}
// TransferChecksumHeader will transfer any checksum value that has been checked.
// If checksum was trailing, they must have been added to r.Trailer.
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func TransferChecksumHeader(w http.ResponseWriter, r *http.Request) {
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c, err := GetContentChecksum(r.Header)
if err != nil || c == nil {
return
}
t, s := c.Type, c.Encoded
if !c.Type.IsSet() {
return
}
if c.Type.Is(ChecksumTrailing) {
val := r.Trailer.Get(t.Key())
if val != "" {
w.Header().Set(t.Key(), val)
}
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return
}
w.Header().Set(t.Key(), s)
}
// AddChecksumHeader will transfer any checksum value that has been checked.
func AddChecksumHeader(w http.ResponseWriter, c map[string]string) {
for k, v := range c {
cksum := NewChecksumString(k, v)
if cksum == nil {
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continue
}
if cksum.Valid() {
w.Header().Set(cksum.Type.Key(), v)
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}
}
}
// GetContentChecksum returns content checksum.
// Returns ErrInvalidChecksum if so.
// Returns nil, nil if no checksum.
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func GetContentChecksum(h http.Header) (*Checksum, error) {
if trailing := h.Values(xhttp.AmzTrailer); len(trailing) > 0 {
var res *Checksum
for _, header := range trailing {
var duplicates bool
switch {
case strings.EqualFold(header, ChecksumCRC32C.Key()):
duplicates = res != nil
res = NewChecksumWithType(ChecksumCRC32C|ChecksumTrailing, "")
case strings.EqualFold(header, ChecksumCRC32.Key()):
duplicates = res != nil
res = NewChecksumWithType(ChecksumCRC32|ChecksumTrailing, "")
case strings.EqualFold(header, ChecksumSHA256.Key()):
duplicates = res != nil
res = NewChecksumWithType(ChecksumSHA256|ChecksumTrailing, "")
case strings.EqualFold(header, ChecksumSHA1.Key()):
duplicates = res != nil
res = NewChecksumWithType(ChecksumSHA1|ChecksumTrailing, "")
}
if duplicates {
return nil, ErrInvalidChecksum
}
}
if res != nil {
return res, nil
}
}
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t, s := getContentChecksum(h)
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if t == ChecksumNone {
if s == "" {
return nil, nil
}
return nil, ErrInvalidChecksum
}
cksum := NewChecksumWithType(t, s)
if cksum == nil {
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return nil, ErrInvalidChecksum
}
return cksum, nil
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}
// getContentChecksum returns content checksum type and value.
// Returns ChecksumInvalid if so.
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func getContentChecksum(h http.Header) (t ChecksumType, s string) {
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t = ChecksumNone
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alg := h.Get(xhttp.AmzChecksumAlgo)
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if alg != "" {
t |= NewChecksumType(alg)
if t.IsSet() {
hdr := t.Key()
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if s = h.Get(hdr); s == "" {
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return ChecksumNone, ""
}
}
return t, s
}
checkType := func(c ChecksumType) {
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if got := h.Get(c.Key()); got != "" {
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// If already set, invalid
if t != ChecksumNone {
t = ChecksumInvalid
s = ""
} else {
t = c
s = got
}
return
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}
}
checkType(ChecksumCRC32)
checkType(ChecksumCRC32C)
checkType(ChecksumSHA1)
checkType(ChecksumSHA256)
return t, s
}