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vault-openvpn/vendor/github.com/Luzifer/go-dhparam/generator.go
Knut Ahlers 6889a770a3
Deps: Add new dependencies
Signed-off-by: Knut Ahlers <knut@ahlers.me>
2018-10-08 13:23:57 +02:00

163 lines
3.3 KiB
Go

package dhparam
import (
"crypto/rand"
"math/big"
"github.com/pkg/errors"
)
const pemHeader = "DH PARAMETERS"
// GeneratorResult is a type of results sent to the GeneratorCallback function
type GeneratorResult uint
const (
// GeneratorFoundPossiblePrime signals a possible (non-verified) prime number was found (OpenSSL: ".")
GeneratorFoundPossiblePrime GeneratorResult = iota
// GeneratorFirstConfirmation signals the prime number itself was verified but is not yet considered "safe" (OpenSSL: "+")
GeneratorFirstConfirmation
// GeneratorSafePrimeFound signals the prime number now is considered "safe" (OpenSSL: "*")
GeneratorSafePrimeFound
)
// Generator is the generator number to use when determining the prime number
type Generator int
const (
// GeneratorTwo uses a generator 2
GeneratorTwo Generator = 2
// GeneratorFive uses a generator 5
GeneratorFive = 5
)
// GeneratorCallback is a type of function to receive GeneratorResults while the prime number is determined
type GeneratorCallback func(r GeneratorResult)
func nullCallback(r GeneratorResult) {}
// Generate determines a prime number according to the generator having the specified number of bits
//
// In OpenSSL defined generators are 2 and 5. Others are supported but the verification is not supported in an extend as with generators 2 and 5.
// The bit size should be adjusted to be high enough for the current requirements. Also you should keep
// in mind the higher the bitsize, the longer the generation might take.
func Generate(bits int, generator Generator, cb GeneratorCallback) (*DH, error) {
var (
err error
padd, rem int64
prime *big.Int
)
if cb == nil {
cb = nullCallback
}
switch generator {
case 2:
padd, rem = 24, 11
case 5:
padd, rem = 10, 3
default:
padd, rem = 2, 1
}
for {
if prime, err = genPrime(bits, big.NewInt(padd), big.NewInt(rem)); err != nil {
return nil, err
}
if prime.BitLen() > bits {
continue
}
t := new(big.Int)
t.Rsh(prime, 1)
cb(GeneratorFoundPossiblePrime)
if prime.ProbablyPrime(0) {
cb(GeneratorFirstConfirmation)
} else {
continue
}
if t.ProbablyPrime(0) {
cb(GeneratorSafePrimeFound)
break
}
}
return &DH{
P: prime,
G: int(generator),
}, nil
}
func genPrime(bits int, padd, rem *big.Int) (*big.Int, error) {
var (
err error
p = new(big.Int)
qadd = new(big.Int)
q = new(big.Int)
t1 = new(big.Int)
)
bits--
qadd.Rsh(padd, 1)
if q, err = genRand(bits); err != nil {
return nil, err
}
t1.Mod(q, qadd)
q.Sub(q, t1)
t1.Rsh(rem, 1)
q.Add(q, t1)
p.Lsh(q, 1)
p.Add(p, big.NewInt(1))
for !mightBePrime(p) || !mightBePrime(q) {
p.Add(p, padd)
q.Add(q, qadd)
}
return p, nil
}
func mightBePrime(i *big.Int) bool {
m := new(big.Int)
for _, p := range quickTestPrimes {
if m.Mod(i, big.NewInt(p)).Int64() == 0 {
return false
}
}
return true
}
func genRand(bits int) (*big.Int, error) {
bytes := (bits + 7) / 8
bit := (bits - 1) % 8
mask := 0xff << uint(bit+1)
buf := make([]byte, bytes)
if _, err := rand.Read(buf); err != nil {
return nil, errors.Wrap(err, "Unable to read random")
}
if bit == 0 {
buf[0] = 1
buf[1] |= 0x80
} else {
buf[0] |= (3 << uint(bit-1))
}
buf[0] &= byte(^mask)
buf[bytes-1] |= 1
r := new(big.Int)
return r.SetBytes(buf), nil
}