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go-dhparam/validate.go

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package dhparam
import (
"math/big"
"github.com/pkg/errors"
)
const dhCheckPNotPrime = 0x01
const dhCheckPNotSafePrime = 0x02
const dhUnableToCheckGenerator = 0x04
const dhNotSuitableGenerator = 0x08
const dhCheckQNotPrime = 0x10
const dhCheckInvalidQValue = 0x20
const dhCheckInvalidJValue = 0x40
// ErrAllParametersOK is defined to check whether the returned error from Check is indeed no error
// For simplicity reasons it is defined as an error instead of an additional result parameter
var ErrAllParametersOK = errors.New("DH parameters appear to be ok")
// Check returns a number of errors and an "ok" bool. If the "ok" bool is set to true, still one
// error is returned: ErrAllParametersOK. If "ok" is false, the error list will contain at least
// one error not being equal to ErrAllParametersOK.
func (d DH) Check() ([]error, bool) {
var (
result = []error{}
ok = true
)
i := d.check()
if i&dhCheckPNotPrime > 0 {
result = append(result, errors.New("WARNING: p value is not prime"))
ok = false
}
if i&dhCheckPNotSafePrime > 0 {
result = append(result, errors.New("WARNING: p value is not a safe prime"))
ok = false
}
if i&dhCheckQNotPrime > 0 {
result = append(result, errors.New("WARNING: q value is not a prime"))
ok = false
}
if i&dhCheckInvalidQValue > 0 {
result = append(result, errors.New("WARNING: q value is invalid"))
ok = false
}
if i&dhCheckInvalidJValue > 0 {
result = append(result, errors.New("WARNING: j value is invalid"))
ok = false
}
if i&dhUnableToCheckGenerator > 0 {
result = append(result, errors.New("WARNING: unable to check the generator value"))
ok = false
}
if i&dhNotSuitableGenerator > 0 {
result = append(result, errors.New("WARNING: the g value is not a generator"))
ok = false
}
if i == 0 {
result = append(result, ErrAllParametersOK)
}
return result, ok
}
func (d DH) check() int {
var ret int
// Check generator
switch d.G {
case 2:
l := new(big.Int)
if l.Mod(d.P, big.NewInt(24)); l.Int64() != 11 {
ret |= dhNotSuitableGenerator
}
case 5:
l := new(big.Int)
if l.Mod(d.P, big.NewInt(10)); l.Int64() != 3 && l.Int64() != 7 {
ret |= dhNotSuitableGenerator
}
default:
ret |= dhUnableToCheckGenerator
}
if !d.P.ProbablyPrime(1) {
ret |= dhCheckPNotPrime
} else {
t1 := new(big.Int)
t1.Rsh(d.P, 1)
if !t1.ProbablyPrime(1) {
ret |= dhCheckPNotSafePrime
}
}
return ret
}