2018-10-18 17:10:29 +09:00
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// sign_test.go -- Test harness for sign
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//
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// (c) 2016 Sudhi Herle <sudhi@herle.net>
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//
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// Licensing Terms: GPLv2
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//
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// If you need a commercial license for this work, please contact
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// the author.
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//
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// This software does not come with any express or implied
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// warranty; it is provided "as is". No claim is made to its
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// suitability for any purpose.
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package sign
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import (
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"crypto/subtle"
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"fmt"
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"io/ioutil"
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"os"
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"path"
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"runtime"
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"testing"
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// module under test
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//"github.com/sign"
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)
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func newAsserter(t *testing.T) func(cond bool, msg string, args ...interface{}) {
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return func(cond bool, msg string, args ...interface{}) {
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if cond {
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return
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}
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_, file, line, ok := runtime.Caller(1)
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if !ok {
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file = "???"
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line = 0
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}
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s := fmt.Sprintf(msg, args...)
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t.Fatalf("%s: %d: Assertion failed: %s\n", file, line, s)
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}
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}
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// Return true if two byte arrays are equal
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func byteEq(x, y []byte) bool {
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return subtle.ConstantTimeCompare(x, y) == 1
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}
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// Return a temp dir in a temp-dir
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func tempdir(t *testing.T) string {
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assert := newAsserter(t)
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var b [10]byte
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dn := os.TempDir()
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randread(b[:])
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2018-10-18 17:10:29 +09:00
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tmp := path.Join(dn, fmt.Sprintf("%x", b[:]))
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err := os.MkdirAll(tmp, 0755)
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assert(err == nil, fmt.Sprintf("mkdir -p %s: %s", tmp, err))
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//t.Logf("Tempdir is %s", tmp)
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return tmp
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}
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// Return true if file exists, false otherwise
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func fileExists(fn string) bool {
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st, err := os.Stat(fn)
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if err != nil {
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if os.IsNotExist(err) {
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return false
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}
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return false
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}
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if st.Mode().IsRegular() {
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return true
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}
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return false
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}
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const badsk string = `
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esk: q8AP3/6C5F0zB8CLiuJsidx2gJYmrnyOmuoazEbKL5Uh+Jn/Zgw85fTbYfhjcbt48CJejBzsgPYRYR7wWECFRA==
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salt: uIdTQZotfnkaLkth9jsHvoQKMWdNZuE7dgVNADrRoeY=
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algo: scrypt-sha256
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verify: AOFLLC6h29+mvstWtMU1/zZFwHLBMMiI4mlW9DHpYdM=
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Z: 65536
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r: 8
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p: 1
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`
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2019-10-19 14:42:19 -07:00
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2018-10-18 17:10:29 +09:00
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// #1. Create new key pair, and read them back.
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func Test0(t *testing.T) {
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assert := newAsserter(t)
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kp, err := NewKeypair()
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assert(err == nil, "NewKeyPair() fail")
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dn := tempdir(t)
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bn := fmt.Sprintf("%s/t0", dn)
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err = kp.Serialize(bn, "", "abc")
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assert(err == nil, "keyPair.Serialize() fail")
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pkf := fmt.Sprintf("%s.pub", bn)
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skf := fmt.Sprintf("%s.key", bn)
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// We must find these two files
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assert(fileExists(pkf), "missing pkf")
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assert(fileExists(skf), "missing skf")
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// send wrong file and see what happens
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pk, err := ReadPublicKey(skf)
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assert(err != nil, "bad PK ReadPK fail")
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pk, err = ReadPublicKey(pkf)
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assert(err == nil, "ReadPK() fail")
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// -ditto- for Sk
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sk, err := ReadPrivateKey(pkf, "")
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assert(err != nil, "bad SK ReadSK fail")
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sk, err = ReadPrivateKey(skf, "")
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assert(err != nil, "ReadSK() empty pw fail")
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sk, err = ReadPrivateKey(skf, "abcdef")
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assert(err != nil, "ReadSK() wrong pw fail")
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badf := fmt.Sprintf("%s/badf.key", dn)
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err = ioutil.WriteFile(badf, []byte(badsk), 0600)
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assert(err == nil, "write badsk")
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sk, err = ReadPrivateKey(badf, "abc")
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assert(err != nil, "badsk read fail")
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// Finally, with correct password it should work.
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sk, err = ReadPrivateKey(skf, "abc")
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assert(err == nil, "ReadSK() correct pw fail")
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// And, deserialized keys should be identical
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assert(byteEq(pk.Pk, kp.Pub.Pk), "pkbytes unequal")
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assert(byteEq(sk.Sk, kp.Sec.Sk), "skbytes unequal")
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os.RemoveAll(dn)
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}
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// #2. Create new key pair, sign a rand buffer and verify
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func Test1(t *testing.T) {
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assert := newAsserter(t)
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kp, err := NewKeypair()
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assert(err == nil, "NewKeyPair() fail")
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var ck [64]byte // simulates sha512 sum
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randread(ck[:])
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pk := &kp.Pub
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sk := &kp.Sec
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ss, err := sk.SignMessage(ck[:], "")
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assert(err == nil, "sk.sign fail")
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assert(ss != nil, "sig is null")
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// verify sig
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assert(ss.IsPKMatch(pk), "pk match fail")
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// Corrupt the pkhash and see
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randread(ss.pkhash)
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assert(!ss.IsPKMatch(pk), "corrupt pk match fail")
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// Incorrect checksum == should fail verification
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ok, err := pk.VerifyMessage(ck[:16], ss)
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assert(err == nil, "bad ck verify err fail")
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assert(!ok, "bad ck verify fail")
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// proper checksum == should work
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ok, err = pk.VerifyMessage(ck[:], ss)
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assert(err == nil, "verify err")
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assert(ok, "verify fail")
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// Now sign a file
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dn := tempdir(t)
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bn := fmt.Sprintf("%s/k", dn)
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pkf := fmt.Sprintf("%s.pub", bn)
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skf := fmt.Sprintf("%s.key", bn)
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err = kp.Serialize(bn, "", "")
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assert(err == nil, "keyPair.Serialize() fail")
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// Now read the private key and sign
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sk, err = ReadPrivateKey(skf, "")
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assert(err == nil, "readSK fail")
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pk, err = ReadPublicKey(pkf)
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assert(err == nil, "ReadPK fail")
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var buf [8192]byte
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zf := fmt.Sprintf("%s/file.dat", dn)
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fd, err := os.OpenFile(zf, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0600)
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assert(err == nil, "file.dat creat file")
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for i := 0; i < 8; i++ {
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randread(buf[:])
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n, err := fd.Write(buf[:])
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assert(err == nil, fmt.Sprintf("file.dat write fail: %s", err))
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assert(n == 8192, fmt.Sprintf("file.dat i/o fail: exp 8192 saw %v", n))
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}
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fd.Sync()
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fd.Close()
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sig, err := sk.SignFile(zf)
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assert(err == nil, "file.dat sign fail")
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assert(sig != nil, "file.dat sign nil")
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ok, err = pk.VerifyFile(zf, sig)
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assert(err == nil, "file.dat verify fail")
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assert(ok, "file.dat verify false")
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// Now, serialize the signature and read it back
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sf := fmt.Sprintf("%s/file.sig", dn)
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err = sig.SerializeFile(sf, "")
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assert(err == nil, "sig serialize fail")
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s2, err := ReadSignature(sf)
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assert(err == nil, "file.sig read fail")
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assert(s2 != nil, "file.sig sig nil")
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assert(byteEq(s2.Sig, sig.Sig), "sig compare fail")
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// If we give a wrong file, verify must fail
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st, err := os.Stat(zf)
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assert(err == nil, "file.dat stat fail")
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n := st.Size()
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assert(n == 8192*8, "file.dat size fail")
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os.Truncate(zf, n-1)
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st, err = os.Stat(zf)
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assert(err == nil, "file.dat stat2 fail")
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assert(st.Size() == (n-1), "truncate fail")
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// Now verify this corrupt file
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ok, err = pk.VerifyFile(zf, sig)
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assert(err == nil, "file.dat corrupt i/o fail")
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assert(!ok, "file.dat corrupt verify false")
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os.RemoveAll(dn)
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}
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func Benchmark_Keygen(b *testing.B) {
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for i := 0; i < b.N; i++ {
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_, _ = NewKeypair()
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}
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}
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func Benchmark_Sig(b *testing.B) {
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var sizes = [...]uint{
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16,
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32,
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64,
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}
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b.StopTimer()
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kp, _ := NewKeypair()
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var sig *Signature
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for _, sz := range sizes {
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buf := randbuf(sz)
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s0 := fmt.Sprintf("%d byte sign", sz)
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s1 := fmt.Sprintf("%d byte verify", sz)
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b.ResetTimer()
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b.Run(s0, func(b *testing.B) {
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sig = benchSign(b, buf, &kp.Sec)
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})
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2019-10-09 14:52:34 -07:00
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b.Run(s1, func(b *testing.B) {
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2018-10-18 17:10:29 +09:00
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benchVerify(b, buf, sig, &kp.Pub)
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})
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}
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}
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func benchSign(b *testing.B, buf []byte, sk *PrivateKey) (sig *Signature) {
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for i := 0; i < b.N; i++ {
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sig, _ = sk.SignMessage(buf, "")
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}
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return sig
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}
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func benchVerify(b *testing.B, buf []byte, sig *Signature, pk *PublicKey) {
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for i := 0; i < b.N; i++ {
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pk.VerifyMessage(buf, sig)
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}
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}
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func randbuf(sz uint) []byte {
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b := make([]byte, sz)
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randread(b)
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return b
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}
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// vim: noexpandtab:ts=8:sw=8:tw=92:
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