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nobs/drbg/ctr_drbg.go

155 lines
3.0 KiB
Go

// This is initial implementation of CTR_DRBG with AES-256. Code is tested
// and functionaly correct. Nevertheless it will be changed
//
// TODO: Following things still need to be done
// * Add other AES key lengts
// * Validate sizes from table 3 of SP800-90A
// * Improve reseeding so that code returns an error when reseed is needed
// * Add case with derivation function (maybe)
// * Code cleanup
// * Implement benchmark
// * Add rest of the test vectors from CAVP
package drbg
import (
"crypto/aes"
)
// Constants below correspond to AES-256, which is currently
// the only block cipher supported.
const (
BlockLen = 16
KeyLen = 32
SeedLen = BlockLen + KeyLen
)
type CtrDrbg struct {
v []byte
key []byte
counter uint
strength uint
resistance bool
}
func NewCtrDrbg() *CtrDrbg {
var c = new(CtrDrbg)
return c
}
func (c *CtrDrbg) inc() {
for i := BlockLen - 1; i >= 0; i-- {
if c.v[i] == 0xff {
c.v[i] = 0x00
} else {
c.v[i]++
break
}
}
}
func (c *CtrDrbg) Init(entropy, personalization []byte) bool {
var lsz int
var seedBuf [SeedLen]byte
// Minimum entropy input (SP800-90A, 10.2.1)
if len(entropy) < int(c.strength/8) {
return false
}
// Security strength for AES-256 as per SP800-57, 5.6.1
c.strength = 256
lsz = len(entropy)
if lsz > SeedLen {
lsz = SeedLen
}
copy(seedBuf[:], entropy[:lsz])
lsz = len(personalization)
if lsz > SeedLen {
lsz = SeedLen
}
for i := 0; i < lsz; i++ {
seedBuf[i] ^= personalization[i]
}
c.key = make([]byte, KeyLen)
c.v = make([]byte, BlockLen)
c.update(seedBuf[:])
c.counter = 1
return true
}
func (c *CtrDrbg) update(data []byte) {
var buf [3 * BlockLen]byte
if len(data) != SeedLen {
// OZAPTF: panic?
panic("Provided data is not equal to strength/8")
}
for i := 0; i < 3*BlockLen; i += BlockLen {
c.inc()
// Ignore error => NewCipher returns error when c.key has unexpected size
encBlock, _ := aes.NewCipher(c.key)
encBlock.Encrypt(buf[i:], c.v)
}
for i := 0; i < len(buf); i++ {
buf[i] ^= data[i]
}
copy(c.key, buf[:KeyLen])
copy(c.v, buf[KeyLen:])
}
func (c *CtrDrbg) Reseed(entropy, data []byte) {
var seedBuf [SeedLen]byte
var lsz int
lsz = len(entropy)
if lsz > SeedLen {
lsz = SeedLen
}
copy(seedBuf[:], entropy[:lsz])
lsz = len(data)
if lsz > SeedLen {
lsz = SeedLen
}
for i := 0; i < lsz; i++ {
seedBuf[i] ^= data[i]
}
c.update(seedBuf[:])
c.counter = 1
}
func (c *CtrDrbg) Read(b, ad []byte) (n int, err error) {
var seedBuf [SeedLen]byte
// TODO: check reseed_counter > reseed_interval
if len(ad) > 0 {
// pad additional data with zeros if needed
copy(seedBuf[:], ad)
c.update(seedBuf[:])
}
// OZAPTF: would be better not need to allocate that
buf := make([]byte, ((len(b)+BlockLen)/BlockLen)*BlockLen)
for i := 0; i < len(b); i += BlockLen {
c.inc()
// Ignore error => NewCipher returns error when c.key has unexpected size
encBlock, _ := aes.NewCipher(c.key)
encBlock.Encrypt(buf[i:], c.v)
}
copy(b, buf[:len(b)])
c.update(seedBuf[:])
c.counter += 1
return len(b), nil
}