// 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 . package hash import ( "bytes" "context" "crypto/sha1" "encoding/base64" "encoding/binary" "fmt" "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" ) // 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 // ChecksumMultipart indicates the checksum is from a multipart upload. ChecksumMultipart // ChecksumIncludesMultipart indicates the checksum also contains part checksums. ChecksumIncludesMultipart // 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 } // 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} 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 { 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 } cs := base64.StdEncoding.EncodeToString(b[:length]) b = b[length:] 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 } } if len(res) == 0 { res = nil } return res } // NewChecksumWithType is similar to NewChecksumString but expects input algo of ChecksumType. func NewChecksumWithType(alg ChecksumType, value string) *Checksum { if !alg.IsSet() { return nil } bvalue, err := base64.StdEncoding.DecodeString(value) if err != nil { return nil } c := Checksum{Type: alg, Encoded: value, Raw: bvalue} 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) } // AppendTo will append the checksum to b. // 'parts' is used when checksum has ChecksumMultipart set. // ReadCheckSums reads the values back. func (c *Checksum) AppendTo(b []byte, parts []byte) []byte { if c == nil { return nil } var tmp [binary.MaxVarintLen32]byte n := binary.PutUvarint(tmp[:], uint64(c.Type)) crc := c.Raw if len(crc) != c.Type.RawByteLen() { return b } b = append(b, tmp[:n]...) b = append(b, crc...) 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() } if !c.Type.Is(ChecksumIncludesMultipart) { parts = nil } n := binary.PutUvarint(tmp[:], uint64(checksums)) b = append(b, tmp[:n]...) if len(parts) > 0 { b = append(b, parts...) } } 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() } raw := c.Raw 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) { return ChecksumMismatch{ Want: c.Encoded, Got: base64.StdEncoding.EncodeToString(sum), } } 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. func TransferChecksumHeader(w http.ResponseWriter, r *http.Request) { c, err := GetContentChecksum(r) 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) } 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 { continue } if cksum.Valid() { w.Header().Set(cksum.Type.Key(), v) } } } // GetContentChecksum returns content checksum. // Returns ErrInvalidChecksum if so. // Returns nil, nil if no checksum. func GetContentChecksum(r *http.Request) (*Checksum, error) { if trailing := r.Header.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 } } t, s := getContentChecksum(r) if t == ChecksumNone { if s == "" { return nil, nil } return nil, ErrInvalidChecksum } cksum := NewChecksumWithType(t, s) if cksum == nil { return nil, ErrInvalidChecksum } return cksum, nil } // getContentChecksum returns content checksum type and value. // Returns ChecksumInvalid if so. func getContentChecksum(r *http.Request) (t ChecksumType, s string) { t = ChecksumNone alg := r.Header.Get(xhttp.AmzChecksumAlgo) if alg != "" { t |= NewChecksumType(alg) if t.IsSet() { hdr := t.Key() if s = r.Header.Get(hdr); s == "" { return ChecksumNone, "" } } return t, s } checkType := func(c ChecksumType) { if got := r.Header.Get(c.Key()); got != "" { // If already set, invalid if t != ChecksumNone { t = ChecksumInvalid s = "" } else { t = c s = got } return } } checkType(ChecksumCRC32) checkType(ChecksumCRC32C) checkType(ChecksumSHA1) checkType(ChecksumSHA256) return t, s }