// Package random holds a few functions for working with random numbers package random import ( cryptorand "crypto/rand" "encoding/base64" "fmt" "io" ) // StringFn create a random string for test purposes using the random // number generator function passed in. // // Do not use these for passwords. func StringFn(n int, randReader io.Reader) string { const ( vowel = "aeiou" consonant = "bcdfghjklmnpqrstvwxyz" digit = "0123456789" ) var ( pattern = []string{consonant, vowel, consonant, vowel, consonant, vowel, consonant, digit} out = make([]byte, n) p = 0 ) _, err := io.ReadFull(randReader, out) if err != nil { panic(fmt.Sprintf("internal error: failed to read from random reader: %v", err)) } for i := range out { source := pattern[p] p = (p + 1) % len(pattern) // this generation method means the distribution is slightly biased. However these // strings are not for passwords so this is deemed OK. out[i] = source[out[i]%byte(len(source))] } return string(out) } // String create a random string for test purposes. // // Do not use these for passwords. func String(n int) string { return StringFn(n, cryptorand.Reader) } // Password creates a crypto strong password which is just about // memorable. The password is composed of printable ASCII characters // from the URL encoding base64 alphabet (A-Za-z0-9_-). // // Requires password strength in bits. // 64 is just about memorable // 128 is secure func Password(bits int) (password string, err error) { bytes := bits / 8 if bits%8 != 0 { bytes++ } var pw = make([]byte, bytes) n, err := cryptorand.Read(pw) if err != nil { return "", fmt.Errorf("password read failed: %w", err) } if n != bytes { return "", fmt.Errorf("password short read: %d", n) } password = base64.RawURLEncoding.EncodeToString(pw) return password, nil }