zolfa
/
tendermint


								package crypto


								import (

									"crypto/cipher"

									crand "crypto/rand"

									"crypto/sha256"

									"encoding/hex"

									"io"

									"sync"


									"golang.org/x/crypto/chacha20poly1305"

								)


								// NOTE: This is ignored for now until we have time

								// to properly review the MixEntropy function - https://github.com/tendermint/tendermint/issues/2099.

								//

								// The randomness here is derived from xoring a chacha20 keystream with

								// output from crypto/rand's OS Entropy Reader. (Due to fears of the OS'

								// entropy being backdoored)

								//

								// For forward secrecy of produced randomness, the internal chacha key is hashed

								// and thereby rotated after each call.

								var gRandInfo *randInfo


								func init() {

									gRandInfo = &randInfo{}


									// TODO: uncomment after reviewing MixEntropy -

									// https://github.com/tendermint/tendermint/issues/2099

									// gRandInfo.MixEntropy(randBytes(32)) // Init

								}


								// WARNING: This function needs review - https://github.com/tendermint/tendermint/issues/2099.

								// Mix additional bytes of randomness, e.g. from hardware, user-input, etc.

								// It is OK to call it multiple times.  It does not diminish security.

								func MixEntropy(seedBytes []byte) {

									gRandInfo.MixEntropy(seedBytes)

								}


								// This only uses the OS's randomness

								func randBytes(numBytes int) []byte {

									b := make([]byte, numBytes)

									_, err := crand.Read(b)

									if err != nil {

										panic(err)

									}

									return b

								}


								// This only uses the OS's randomness

								func CRandBytes(numBytes int) []byte {

									return randBytes(numBytes)

								}


								/* TODO: uncomment after reviewing MixEntropy - https://github.com/tendermint/tendermint/issues/2099

								// This uses the OS and the Seed(s).

								func CRandBytes(numBytes int) []byte {

									return randBytes(numBytes)

										b := make([]byte, numBytes)

										_, err := gRandInfo.Read(b)

										if err != nil {

											panic(err)

										}

										return b

								}

								*/


								// CRandHex returns a hex encoded string that's floor(numDigits/2) * 2 long.

								//

								// Note: CRandHex(24) gives 96 bits of randomness that

								// are usually strong enough for most purposes.

								func CRandHex(numDigits int) string {

									return hex.EncodeToString(CRandBytes(numDigits / 2))

								}


								// Returns a crand.Reader.

								func CReader() io.Reader {

									return crand.Reader

								}


								/* TODO: uncomment after reviewing MixEntropy - https://github.com/tendermint/tendermint/issues/2099

								// Returns a crand.Reader mixed with user-supplied entropy

								func CReader() io.Reader {

									return gRandInfo

								}

								*/


								//--------------------------------------------------------------------------------


								type randInfo struct {

									mtx       sync.Mutex

									seedBytes [chacha20poly1305.KeySize]byte

									chacha    cipher.AEAD

									reader    io.Reader

								}


								// You can call this as many times as you'd like.

								// XXX/TODO: review - https://github.com/tendermint/tendermint/issues/2099

								func (ri *randInfo) MixEntropy(seedBytes []byte) {

									ri.mtx.Lock()

									defer ri.mtx.Unlock()

									// Make new ri.seedBytes using passed seedBytes and current ri.seedBytes:

									// ri.seedBytes = sha256( seedBytes || ri.seedBytes )

									h := sha256.New()

									h.Write(seedBytes)

									h.Write(ri.seedBytes[:])

									hashBytes := h.Sum(nil)

									copy(ri.seedBytes[:], hashBytes)

									chacha, err := chacha20poly1305.New(ri.seedBytes[:])

									if err != nil {

										panic("Initializing chacha20 failed")

									}

									ri.chacha = chacha

									// Create new reader

									ri.reader = &cipher.StreamReader{S: ri, R: crand.Reader}

								}


								func (ri *randInfo) XORKeyStream(dst, src []byte) {

									// nonce being 0 is safe due to never re-using a key.

									emptyNonce := make([]byte, 12)

									tmpDst := ri.chacha.Seal([]byte{}, emptyNonce, src, []byte{0})

									// this removes the poly1305 tag as well, since chacha is a stream cipher

									// and we truncate at input length.

									copy(dst, tmpDst[:len(src)])

									// hash seedBytes for forward secrecy, and initialize new chacha instance

									newSeed := sha256.Sum256(ri.seedBytes[:])

									chacha, err := chacha20poly1305.New(newSeed[:])

									if err != nil {

										panic("Initializing chacha20 failed")

									}

									ri.chacha = chacha

								}


								func (ri *randInfo) Read(b []byte) (n int, err error) {

									ri.mtx.Lock()

									n, err = ri.reader.Read(b)

									ri.mtx.Unlock()

									return

								}