internal/wycheproof/ecdsa_test.go - crypto - Git at Google

 // Copyright 2019 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package wycheproof

 import (
 	"crypto/ecdsa"
 	"testing"
 )

 func TestECDSA(t *testing.T) {
 	type ASNSignatureTestVector struct {
 		// A brief description of the test case
 		Comment string `json:"comment"`
 		// A list of flags
 		Flags []string `json:"flags"`
 		// The message to sign
 		Msg string `json:"msg"`
 		// Test result
 		Result string `json:"result"`
 		// An ASN.1 encoded signature for msg
 		Sig string `json:"sig"`
 		// Identifier of the test case
 		TcID int `json:"tcId"`
 	}

 	type ECPublicKey struct {
 		// The EC group used by this public key
 		Curve interface{} `json:"curve"`
 	}

 	type ECDSATestGroup struct {
 		// Unencoded EC public key
 		Key *ECPublicKey `json:"key"`
 		// DER encoded public key
 		KeyDER string `json:"keyDer"`
 		// the hash function used for ECDSA
 		SHA   string                    `json:"sha"`
 		Tests []*ASNSignatureTestVector `json:"tests"`
 	}

 	type Root struct {
 		TestGroups []*ECDSATestGroup `json:"testGroups"`
 	}

 	flagsShouldPass := map[string]bool{
 		// An encoded ASN.1 integer missing a leading zero is invalid, but
 		// accepted by some implementations.
 		"MissingZero": false,
 		// A signature using a weaker hash than the EC params is not a security
 		// risk, as long as the hash is secure.
 		// https://www.imperialviolet.org/2014/05/25/strengthmatching.html
 		"WeakHash": true,
 	}

 	// supportedCurves is a map of all elliptic curves supported
 	// by crypto/elliptic, which can subsequently be parsed and tested.
 	supportedCurves := map[string]bool{
 		"secp224r1": true,
 		"secp256r1": true,
 		"secp384r1": true,
 		"secp521r1": true,
 	}

 	var root Root
 	readTestVector(t, "ecdsa_test.json", &root)
 	for _, tg := range root.TestGroups {
 		curve := tg.Key.Curve.(string)
 		if !supportedCurves[curve] {
 			continue
 		}
 		pub := decodePublicKey(tg.KeyDER).(*ecdsa.PublicKey)
 		h := parseHash(tg.SHA).New()
 		for _, sig := range tg.Tests {
 			h.Reset()
 			h.Write(decodeHex(sig.Msg))
 			hashed := h.Sum(nil)
 			got := ecdsa.VerifyASN1(pub, hashed, decodeHex(sig.Sig))
 			if want := shouldPass(sig.Result, sig.Flags, flagsShouldPass); got != want {
 				t.Errorf("tcid: %d, type: %s, comment: %q, wanted success: %t", sig.TcID, sig.Result, sig.Comment, want)
 			}
 		}
 	}
 }
	// Copyright 2019 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package wycheproof

	import (
	"crypto/ecdsa"
	"testing"
	)

	func TestECDSA(t *testing.T) {
	type ASNSignatureTestVector struct {
	// A brief description of the test case
	Comment string `json:"comment"`
	// A list of flags
	Flags []string `json:"flags"`
	// The message to sign
	Msg string `json:"msg"`
	// Test result
	Result string `json:"result"`
	// An ASN.1 encoded signature for msg
	Sig string `json:"sig"`
	// Identifier of the test case
	TcID int `json:"tcId"`
	}

	type ECPublicKey struct {
	// The EC group used by this public key
	Curve interface{} `json:"curve"`
	}

	type ECDSATestGroup struct {
	// Unencoded EC public key
	Key *ECPublicKey `json:"key"`
	// DER encoded public key
	KeyDER string `json:"keyDer"`
	// the hash function used for ECDSA
	SHA string `json:"sha"`
	Tests []*ASNSignatureTestVector `json:"tests"`
	}

	type Root struct {
	TestGroups []*ECDSATestGroup `json:"testGroups"`
	}

	flagsShouldPass := map[string]bool{
	// An encoded ASN.1 integer missing a leading zero is invalid, but
	// accepted by some implementations.
	"MissingZero": false,
	// A signature using a weaker hash than the EC params is not a security
	// risk, as long as the hash is secure.
	// https://www.imperialviolet.org/2014/05/25/strengthmatching.html
	"WeakHash": true,
	}

	// supportedCurves is a map of all elliptic curves supported
	// by crypto/elliptic, which can subsequently be parsed and tested.
	supportedCurves := map[string]bool{
	"secp224r1": true,
	"secp256r1": true,
	"secp384r1": true,
	"secp521r1": true,
	}

	var root Root
	readTestVector(t, "ecdsa_test.json", &root)
	for _, tg := range root.TestGroups {
	curve := tg.Key.Curve.(string)
	if !supportedCurves[curve] {
	continue
	}
	pub := decodePublicKey(tg.KeyDER).(*ecdsa.PublicKey)
	h := parseHash(tg.SHA).New()
	for _, sig := range tg.Tests {
	h.Reset()
	h.Write(decodeHex(sig.Msg))
	hashed := h.Sum(nil)
	got := ecdsa.VerifyASN1(pub, hashed, decodeHex(sig.Sig))
	if want := shouldPass(sig.Result, sig.Flags, flagsShouldPass); got != want {
	t.Errorf("tcid: %d, type: %s, comment: %q, wanted success: %t", sig.TcID, sig.Result, sig.Comment, want)
	}
	}
	}
	}