package crypto import ( "crypto/aes" "crypto/cipher" crand "crypto/rand" "crypto/sha256" "encoding/hex" "io" "sync" . "github.com/tendermint/tmlibs/common" ) var gRandInfo *randInfo func init() { gRandInfo = &randInfo{} gRandInfo.MixEntropy(randBytes(32)) // Init } // 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 { PanicCrisis(err) } return b } // This uses the OS and the Seed(s). func CRandBytes(numBytes int) []byte { b := make([]byte, numBytes) _, err := gRandInfo.Read(b) if err != nil { PanicCrisis(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 mixed with user-supplied entropy func CReader() io.Reader { return gRandInfo } //-------------------------------------------------------------------------------- type randInfo struct { mtx sync.Mutex seedBytes [32]byte cipherAES256 cipher.Block streamAES256 cipher.Stream reader io.Reader } // You can call this as many times as you'd like. // XXX TODO review 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) hashBytes32 := [32]byte{} copy(hashBytes32[:], hashBytes) ri.seedBytes = xorBytes32(ri.seedBytes, hashBytes32) // Create new cipher.Block var err error ri.cipherAES256, err = aes.NewCipher(ri.seedBytes[:]) if err != nil { PanicSanity("Error creating AES256 cipher: " + err.Error()) } // Create new stream ri.streamAES256 = cipher.NewCTR(ri.cipherAES256, randBytes(aes.BlockSize)) // Create new reader ri.reader = &cipher.StreamReader{S: ri.streamAES256, R: crand.Reader} } func (ri *randInfo) Read(b []byte) (n int, err error) { ri.mtx.Lock() defer ri.mtx.Unlock() return ri.reader.Read(b) } func xorBytes32(bytesA [32]byte, bytesB [32]byte) (res [32]byte) { for i, b := range bytesA { res[i] = b ^ bytesB[i] } return res }