s3crypto

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Published: Dec 21, 2017 License: Apache-2.0, Apache-2.0 Imports: 25 Imported by: 0

Documentation

Overview

Package s3crypto provides encryption to S3 using KMS and AES GCM.

Keyproviders are interfaces that handle masterkeys. Masterkeys are used to encrypt and decrypt the randomly generated cipher keys. The SDK currently uses KMS to do this. A user does not need to provide a master key since all that information is hidden in KMS.

Modes are interfaces that handle content encryption and decryption. It is an abstraction layer that instantiates the ciphers. If content is being encrypted we generate the key and iv of the cipher. For decryption, we use the metadata stored either on the object or an instruction file object to decrypt the contents.

Ciphers are interfaces that handle encryption and decryption of data. This may be key wrap ciphers or content ciphers.

Creating an S3 cryptography client

cmkID := "<some key ID>"
sess := session.New()
// Create the KeyProvider
handler := s3crypto.NewKMSKeyGenerator(kms.New(sess), cmkID)

// Create an encryption and decryption client
// We need to pass the session here so S3 can use it. In addition, any decryption that
// occurs will use the KMS client.
svc := s3crypto.NewEncryptionClient(sess, s3crypto.AESGCMContentCipherBuilder(handler))
svc := s3crypto.NewDecryptionClient(sess)

Configuration of the S3 cryptography client

cfg := s3crypto.EncryptionConfig{
	// Save instruction files to separate objects
	SaveStrategy: NewS3SaveStrategy(session.New(), ""),
	// Change instruction file suffix to .example
	InstructionFileSuffix: ".example",
	// Set temp folder path
	TempFolderPath: "/path/to/tmp/folder/",
	// Any content less than the minimum file size will use memory
	// instead of writing the contents to a temp file.
	MinFileSize: int64(1024 * 1024 * 1024),
}

The default SaveStrategy is to the object's header.

The InstructionFileSuffix defaults to .instruction. Careful here though, if you do this, be sure you know what that suffix is in grabbing data. All requests will look for fooKey.example instead of fooKey.instruction. This suffix only affects gets and not puts. Put uses the keyprovider's suffix.

Registration of new wrap or cek algorithms are also supported by the SDK. Let's say we want to support `AES Wrap` and `AES CTR`. Let's assume we have already defined the functionality.

svc := s3crypto.NewDecryptionClient(sess)
svc.WrapRegistry["AESWrap"] = NewAESWrap
svc.CEKRegistry["AES/CTR/NoPadding"] = NewAESCTR

We have now registered these new algorithms to the decryption client. When the client calls `GetObject` and sees the wrap as `AESWrap` then it'll use that wrap algorithm. This is also true for `AES/CTR/NoPadding`.

For encryption adding a custom content cipher builder and key handler will allow for encryption of custom defined ciphers.

// Our wrap algorithm, AESWrap
handler := NewAESWrap(key, iv)
// Our content cipher builder, AESCTRContentCipherBuilder
svc := s3crypto.NewEncryptionClient(sess, NewAESCTRContentCipherBuilder(handler))

Index

Constants

View Source
const AESCBC = "AES/CBC"

AESCBC is the string constant that signifies the AES CBC algorithm cipher.

View Source
const AESGCMNoPadding = "AES/GCM/NoPadding"

AESGCMNoPadding is the constant value that is used to specify the CEK algorithm consiting of AES GCM with no padding.

View Source
const DefaultInstructionKeySuffix = ".instruction"

DefaultInstructionKeySuffix is appended to the end of the instruction file key when grabbing or saving to S3

View Source
const DefaultMinFileSize = 1024 * 512 * 5

DefaultMinFileSize is used to check whether we want to write to a temp file or store the data in memory.

View Source
const (
	// KMSWrap is a constant used during decryption to build a KMS key handler.
	KMSWrap = "kms"
)

Variables

View Source
var AESCBCPadder = Padder(aescbcPadding)

AESCBCPadder is used to pad AES encrypted and decrypted data. Altough it uses the pkcs5Padder, it isn't following the RFC for PKCS5. The only reason why it is called pkcs5Padder is due to the Name returning PKCS5Padding.

View Source
var NoPadder = Padder(noPadder{})

NoPadder does not pad anything

Functions

This section is empty.

Types

type CEKEntry

type CEKEntry func(CipherData) (ContentCipher, error)

CEKEntry is a builder thatn returns a proper content decrypter and error

type Cipher

type Cipher interface {
	Encrypter
	Decrypter
}

Cipher interface allows for either encryption and decryption of an object

type CipherData

type CipherData struct {
	Key                 []byte
	IV                  []byte
	WrapAlgorithm       string
	CEKAlgorithm        string
	TagLength           string
	MaterialDescription MaterialDescription
	// EncryptedKey should be populated when calling GenerateCipherData
	EncryptedKey []byte

	Padder Padder
}

CipherData is used for content encryption. It is used for storing the metadata of the encrypted content.

type CipherDataDecrypter

type CipherDataDecrypter interface {
	DecryptKey([]byte) ([]byte, error)
}

CipherDataDecrypter is a handler to decrypt keys from the envelope.

type CipherDataGenerator

type CipherDataGenerator interface {
	GenerateCipherData(int, int) (CipherData, error)
}

CipherDataGenerator handles generating proper key and IVs of proper size for the content cipher. CipherDataGenerator will also encrypt the key and store it in the CipherData.

func NewKMSKeyGenerator

func NewKMSKeyGenerator(kmsClient kmsiface.KMSAPI, cmkID string) CipherDataGenerator

NewKMSKeyGenerator builds a new KMS key provider using the customer key ID and material description.

Example:

sess := session.New(&aws.Config{})
cmkID := "arn to key"
matdesc := s3crypto.MaterialDescription{}
handler := s3crypto.NewKMSKeyGenerator(kms.New(sess), cmkID)

func NewKMSKeyGeneratorWithMatDesc

func NewKMSKeyGeneratorWithMatDesc(kmsClient kmsiface.KMSAPI, cmkID string, matdesc MaterialDescription) CipherDataGenerator

NewKMSKeyGeneratorWithMatDesc builds a new KMS key provider using the customer key ID and material description.

Example:

sess := session.New(&aws.Config{})
cmkID := "arn to key"
matdesc := s3crypto.MaterialDescription{}
handler, err := s3crypto.NewKMSKeyGeneratorWithMatDesc(kms.New(sess), cmkID, matdesc)

type ContentCipher

type ContentCipher interface {
	EncryptContents(io.Reader) (io.Reader, error)
	DecryptContents(io.ReadCloser) (io.ReadCloser, error)
	GetCipherData() CipherData
}

ContentCipher deals with encrypting and decrypting content

type ContentCipherBuilder

type ContentCipherBuilder interface {
	ContentCipher() (ContentCipher, error)
}

ContentCipherBuilder is a builder interface that builds ciphers for each request.

func AESCBCContentCipherBuilder

func AESCBCContentCipherBuilder(generator CipherDataGenerator, padder Padder) ContentCipherBuilder

AESCBCContentCipherBuilder returns a new encryption only mode structure with a specific cipher for the master key

func AESGCMContentCipherBuilder

func AESGCMContentCipherBuilder(generator CipherDataGenerator) ContentCipherBuilder

AESGCMContentCipherBuilder returns a new encryption only mode structure with a specific cipher for the master key

type CryptoReadCloser

type CryptoReadCloser struct {
	Body      io.ReadCloser
	Decrypter io.Reader
	// contains filtered or unexported fields
}

CryptoReadCloser handles closing of the body and allowing reads from the decrypted content.

func (*CryptoReadCloser) Close

func (rc *CryptoReadCloser) Close() error

Close lets the CryptoReadCloser satisfy io.ReadCloser interface

func (*CryptoReadCloser) Read

func (rc *CryptoReadCloser) Read(b []byte) (int, error)

Read lets the CryptoReadCloser satisfy io.ReadCloser interface

type Decrypter

type Decrypter interface {
	Decrypt(io.Reader) io.Reader
}

Decrypter interface with only the decrypt method

type DecryptionClient

type DecryptionClient struct {
	S3Client s3iface.S3API
	// LoadStrategy is used to load the metadata either from the metadata of the object
	// or from a separate file in s3.
	//
	// Defaults to our default load strategy.
	LoadStrategy LoadStrategy

	WrapRegistry   map[string]WrapEntry
	CEKRegistry    map[string]CEKEntry
	PadderRegistry map[string]Padder
}

DecryptionClient is an S3 crypto client. The decryption client will handle all get object requests from Amazon S3. Supported key wrapping algorithms:

*AWS KMS

Supported content ciphers:

  • AES/GCM
  • AES/CBC

func NewDecryptionClient

func NewDecryptionClient(cfg aws.Config, options ...func(*DecryptionClient)) *DecryptionClient

NewDecryptionClient instantiates a new S3 crypto client

Example:

sess := session.New()
svc := s3crypto.NewDecryptionClient(sess, func(svc *s3crypto.DecryptionClient{
	// Custom client options here
}))

func (*DecryptionClient) GetObject

func (c *DecryptionClient) GetObject(input *s3.GetObjectInput) (*s3.GetObjectOutput, error)

GetObject is a wrapper for GetObjectRequest

func (*DecryptionClient) GetObjectRequest

func (c *DecryptionClient) GetObjectRequest(input *s3.GetObjectInput) s3.GetObjectRequest

GetObjectRequest will make a request to s3 and retrieve the object. In this process decryption will be done. The SDK only supports V2 reads of KMS and GCM.

Example:

sess := session.New()
svc := s3crypto.NewDecryptionClient(sess)
req, out := svc.GetObjectRequest(&s3.GetObjectInput {
  Key: aws.String("testKey"),
  Bucket: aws.String("testBucket"),
})
err := req.Send()

func (*DecryptionClient) GetObjectWithContext

func (c *DecryptionClient) GetObjectWithContext(ctx aws.Context, input *s3.GetObjectInput, opts ...request.Option) (*s3.GetObjectOutput, error)

GetObjectWithContext is a wrapper for GetObjectRequest with the additional context, and request options support.

GetObjectWithContext is the same as GetObject with the additional support for Context input parameters. The Context must not be nil. A nil Context will cause a panic. Use the Context to add deadlining, timeouts, ect. In the future this may create sub-contexts for individual underlying requests.

type Encrypter

type Encrypter interface {
	Encrypt(io.Reader) io.Reader
}

Encrypter interface with only the encrypt method

type EncryptionClient

type EncryptionClient struct {
	S3Client             s3iface.S3API
	ContentCipherBuilder ContentCipherBuilder
	// SaveStrategy will dictate where the envelope is saved.
	//
	// Defaults to the object's metadata
	SaveStrategy SaveStrategy
	// TempFolderPath is used to store temp files when calling PutObject.
	// Temporary files are needed to compute the X-Amz-Content-Sha256 header.
	TempFolderPath string
	// MinFileSize is the minimum size for the content to write to a
	// temporary file instead of using memory.
	MinFileSize int64
}

EncryptionClient is an S3 crypto client. By default the SDK will use Authentication mode which will use KMS for key wrapping and AES GCM for content encryption. AES GCM will load all data into memory. However, the rest of the content algorithms do not load the entire contents into memory.

func NewEncryptionClient

func NewEncryptionClient(cfg aws.Config, builder ContentCipherBuilder, options ...func(*EncryptionClient)) *EncryptionClient

NewEncryptionClient instantiates a new S3 crypto client

Example:

cmkID := "arn:aws:kms:region:000000000000:key/00000000-0000-0000-0000-000000000000"
sess := session.New()
handler := s3crypto.NewKMSKeyGenerator(kms.New(sess), cmkID)
svc := s3crypto.New(sess, s3crypto.AESGCMContentCipherBuilder(handler))

func (*EncryptionClient) PutObject

func (c *EncryptionClient) PutObject(input *s3.PutObjectInput) (*s3.PutObjectOutput, error)

PutObject is a wrapper for PutObjectRequest

func (*EncryptionClient) PutObjectRequest

func (c *EncryptionClient) PutObjectRequest(input *s3.PutObjectInput) s3.PutObjectRequest

PutObjectRequest creates a temp file to encrypt the contents into. It then streams that data to S3.

Example:

svc := s3crypto.New(session.New(), s3crypto.AESGCMContentCipherBuilder(handler))
req, out := svc.PutObjectRequest(&s3.PutObjectInput {
  Key: aws.String("testKey"),
  Bucket: aws.String("testBucket"),
  Body: strings.NewReader("test data"),
})
err := req.Send()

func (*EncryptionClient) PutObjectWithContext

func (c *EncryptionClient) PutObjectWithContext(ctx aws.Context, input *s3.PutObjectInput, opts ...request.Option) (*s3.PutObjectOutput, error)

PutObjectWithContext is a wrapper for PutObjectRequest with the additional context, and request options support.

PutObjectWithContext is the same as PutObject with the additional support for Context input parameters. The Context must not be nil. A nil Context will cause a panic. Use the Context to add deadlining, timeouts, ect. In the future this may create sub-contexts for individual underlying requests.

type Envelope

type Envelope struct {
	// IV is the randomly generated IV base64 encoded.
	IV string `json:"x-amz-iv"`
	// CipherKey is the randomly generated cipher key.
	CipherKey string `json:"x-amz-key-v2"`
	// MaterialDesc is a description to distinguish from other envelopes.
	MatDesc               string `json:"x-amz-matdesc"`
	WrapAlg               string `json:"x-amz-wrap-alg"`
	CEKAlg                string `json:"x-amz-cek-alg"`
	TagLen                string `json:"x-amz-tag-len"`
	UnencryptedMD5        string `json:"x-amz-unencrypted-content-md5"`
	UnencryptedContentLen string `json:"x-amz-unencrypted-content-length"`
}

Envelope encryption starts off by generating a random symmetric key using AES GCM. The SDK generates a random IV based off the encryption cipher chosen. The master key that was provided, whether by the user or KMS, will be used to encrypt the randomly generated symmetric key and base64 encode the iv. This will allow for decryption of that same data later.

type HeaderV2LoadStrategy

type HeaderV2LoadStrategy struct{}

HeaderV2LoadStrategy will load the envelope from the metadata

func (HeaderV2LoadStrategy) Load

func (load HeaderV2LoadStrategy) Load(req *request.Request) (Envelope, error)

Load from a given object's header

type HeaderV2SaveStrategy

type HeaderV2SaveStrategy struct{}

HeaderV2SaveStrategy will save the metadata of the crypto contents to the header of the object.

func (HeaderV2SaveStrategy) Save

func (strat HeaderV2SaveStrategy) Save(env Envelope, req *request.Request) error

Save will save the envelope to the request's header.

type LoadStrategy

type LoadStrategy interface {
	Load(*request.Request) (Envelope, error)
}

LoadStrategy ...

type MaterialDescription

type MaterialDescription map[string]string

MaterialDescription is used to identify how and what master key has been used.

type Padder

type Padder interface {
	// Pad will pad the byte array.
	// The second parameter is NOT how many
	// bytes to pad by, but how many bytes
	// have been read prior to the padding.
	// This allows for streamable padding.
	Pad([]byte, int) ([]byte, error)
	// Unpad will unpad the byte bytes. Unpad
	// methods must be constant time.
	Unpad([]byte) ([]byte, error)
	// Name returns the name of the padder.
	// This is used when decrypting on
	// instantiating new padders.
	Name() string
}

Padder handles padding of crypto data

func NewPKCS7Padder

func NewPKCS7Padder(blockSize int) Padder

NewPKCS7Padder follows the RFC 2315: https://www.ietf.org/rfc/rfc2315.txt PKCS7 padding is subject to side-channel attacks and timing attacks. For the most secure data, use an authenticated crypto algorithm.

type S3LoadStrategy

type S3LoadStrategy struct {
	Client                *s3.S3
	InstructionFileSuffix string
}

S3LoadStrategy will load the instruction file from s3

func (S3LoadStrategy) Load

func (load S3LoadStrategy) Load(req *request.Request) (Envelope, error)

Load from a given instruction file suffix

type S3SaveStrategy

type S3SaveStrategy struct {
	Client                *s3.S3
	InstructionFileSuffix string
}

S3SaveStrategy will save the metadata to a separate instruction file in S3

func (S3SaveStrategy) Save

func (strat S3SaveStrategy) Save(env Envelope, req *request.Request) error

Save will save the envelope contents to s3.

type SaveStrategy

type SaveStrategy interface {
	Save(Envelope, *request.Request) error
}

SaveStrategy is how the data's metadata wants to be saved

type WrapEntry

type WrapEntry func(Envelope) (CipherDataDecrypter, error)

WrapEntry is builder that return a proper key decrypter and error

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