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crypto_common.cc
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crypto_common.cc
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#include "allocated_buffer-inl.h"
#include "base_object-inl.h"
#include "env-inl.h"
#include "node_buffer.h"
#include "node_crypto.h"
#include "crypto/crypto_common.h"
#include "node.h"
#include "node_internals.h"
#include "node_url.h"
#include "string_bytes.h"
#include "memory_tracker-inl.h"
#include "v8.h"
#include <openssl/ec.h>
#include <openssl/ecdh.h>
#include <openssl/evp.h>
#include <openssl/pem.h>
#include <openssl/x509v3.h>
#include <openssl/hmac.h>
#include <openssl/rand.h>
#include <openssl/pkcs12.h>
#include <string>
#include <unordered_map>
namespace node {
using v8::Array;
using v8::ArrayBuffer;
using v8::ArrayBufferView;
using v8::BackingStore;
using v8::Context;
using v8::EscapableHandleScope;
using v8::Integer;
using v8::Local;
using v8::MaybeLocal;
using v8::NewStringType;
using v8::Object;
using v8::String;
using v8::Undefined;
using v8::Value;
namespace crypto {
static constexpr int X509_NAME_FLAGS =
ASN1_STRFLGS_ESC_2253 |
ASN1_STRFLGS_ESC_CTRL |
ASN1_STRFLGS_UTF8_CONVERT |
XN_FLAG_SEP_MULTILINE |
XN_FLAG_FN_SN;
int SSL_CTX_get_issuer(SSL_CTX* ctx, X509* cert, X509** issuer) {
X509_STORE* store = SSL_CTX_get_cert_store(ctx);
DeleteFnPtr<X509_STORE_CTX, X509_STORE_CTX_free> store_ctx(
X509_STORE_CTX_new());
return store_ctx.get() != nullptr &&
X509_STORE_CTX_init(store_ctx.get(), store, nullptr, nullptr) == 1 &&
X509_STORE_CTX_get1_issuer(issuer, store_ctx.get(), cert) == 1;
}
void LogSecret(
const SSLPointer& ssl,
const char* name,
const unsigned char* secret,
size_t secretlen) {
auto keylog_cb = SSL_CTX_get_keylog_callback(SSL_get_SSL_CTX(ssl.get()));
unsigned char crandom[32];
if (keylog_cb == nullptr ||
SSL_get_client_random(ssl.get(), crandom, 32) != 32) {
return;
}
std::string line = name;
line += " " + StringBytes::hex_encode(
reinterpret_cast<const char*>(crandom), 32);
line += " " + StringBytes::hex_encode(
reinterpret_cast<const char*>(secret), secretlen);
keylog_cb(ssl.get(), line.c_str());
}
bool SetALPN(const SSLPointer& ssl, const std::string& alpn) {
return SSL_set_alpn_protos(
ssl.get(),
reinterpret_cast<const uint8_t*>(alpn.c_str()),
alpn.length()) == 0;
}
bool SetALPN(const SSLPointer& ssl, Local<Value> alpn) {
if (!alpn->IsArrayBufferView())
return false;
ArrayBufferViewContents<unsigned char> protos(alpn.As<ArrayBufferView>());
return SSL_set_alpn_protos(ssl.get(), protos.data(), protos.length()) == 0;
}
MaybeLocal<Value> GetSSLOCSPResponse(
Environment* env,
SSL* ssl,
Local<Value> default_value) {
const unsigned char* resp;
int len = SSL_get_tlsext_status_ocsp_resp(ssl, &resp);
if (resp == nullptr)
return default_value;
Local<Value> ret;
MaybeLocal<Object> maybe_buffer =
Buffer::Copy(env, reinterpret_cast<const char*>(resp), len);
if (!maybe_buffer.ToLocal(&ret))
return MaybeLocal<Value>();
return ret;
}
bool SetTLSSession(
const SSLPointer& ssl,
const unsigned char* buf,
size_t length) {
SSLSessionPointer s(d2i_SSL_SESSION(nullptr, &buf, length));
return s == nullptr ? false : SetTLSSession(ssl, s);
}
bool SetTLSSession(
const SSLPointer& ssl,
const SSLSessionPointer& session) {
return session != nullptr && SSL_set_session(ssl.get(), session.get()) == 1;
}
SSLSessionPointer GetTLSSession(Local<Value> val) {
if (!val->IsArrayBufferView())
return SSLSessionPointer();
ArrayBufferViewContents<unsigned char> sbuf(val.As<ArrayBufferView>());
return GetTLSSession(sbuf.data(), sbuf.length());
}
SSLSessionPointer GetTLSSession(const unsigned char* buf, size_t length) {
return SSLSessionPointer(d2i_SSL_SESSION(nullptr, &buf, length));
}
long VerifyPeerCertificate( // NOLINT(runtime/int)
const SSLPointer& ssl,
long def) { // NOLINT(runtime/int)
long err = def; // NOLINT(runtime/int)
if (X509* peer_cert = SSL_get_peer_certificate(ssl.get())) {
X509_free(peer_cert);
err = SSL_get_verify_result(ssl.get());
} else {
const SSL_CIPHER* curr_cipher = SSL_get_current_cipher(ssl.get());
const SSL_SESSION* sess = SSL_get_session(ssl.get());
// Allow no-cert for PSK authentication in TLS1.2 and lower.
// In TLS1.3 check that session was reused because TLS1.3 PSK
// looks like session resumption.
if (SSL_CIPHER_get_auth_nid(curr_cipher) == NID_auth_psk ||
(SSL_SESSION_get_protocol_version(sess) == TLS1_3_VERSION &&
SSL_session_reused(ssl.get()))) {
return X509_V_OK;
}
}
return err;
}
int UseSNIContext(const SSLPointer& ssl, BaseObjectPtr<SecureContext> context) {
SSL_CTX* ctx = context->ctx_.get();
X509* x509 = SSL_CTX_get0_certificate(ctx);
EVP_PKEY* pkey = SSL_CTX_get0_privatekey(ctx);
STACK_OF(X509)* chain;
int err = SSL_CTX_get0_chain_certs(ctx, &chain);
if (err == 1) err = SSL_use_certificate(ssl.get(), x509);
if (err == 1) err = SSL_use_PrivateKey(ssl.get(), pkey);
if (err == 1 && chain != nullptr) err = SSL_set1_chain(ssl.get(), chain);
return err;
}
const char* GetClientHelloALPN(const SSLPointer& ssl) {
const unsigned char* buf;
size_t len;
size_t rem;
if (!SSL_client_hello_get0_ext(
ssl.get(),
TLSEXT_TYPE_application_layer_protocol_negotiation,
&buf,
&rem) ||
rem < 2) {
return nullptr;
}
len = (buf[0] << 8) | buf[1];
if (len + 2 != rem) return nullptr;
return reinterpret_cast<const char*>(buf + 3);
}
const char* GetClientHelloServerName(const SSLPointer& ssl) {
const unsigned char* buf;
size_t len;
size_t rem;
if (!SSL_client_hello_get0_ext(
ssl.get(),
TLSEXT_TYPE_server_name,
&buf,
&rem) || rem <= 2) {
return nullptr;
}
len = (*buf << 8) | *(buf + 1);
if (len + 2 != rem)
return nullptr;
rem = len;
if (rem == 0 || *(buf + 2) != TLSEXT_NAMETYPE_host_name) return nullptr;
rem--;
if (rem <= 2)
return nullptr;
len = (*(buf + 3) << 8) | *(buf + 4);
if (len + 2 > rem)
return nullptr;
return reinterpret_cast<const char*>(buf + 5);
}
const char* GetServerName(SSL* ssl) {
return SSL_get_servername(ssl, TLSEXT_NAMETYPE_host_name);
}
bool SetGroups(SecureContext* sc, const char* groups) {
return SSL_CTX_set1_groups_list(**sc, groups) == 1;
}
const char* X509ErrorCode(long err) { // NOLINT(runtime/int)
const char* code = "UNSPECIFIED";
#define CASE_X509_ERR(CODE) case X509_V_ERR_##CODE: code = #CODE; break;
switch (err) {
// if you modify anything in here, *please* update the respective section in
// doc/api/tls.md as well
CASE_X509_ERR(UNABLE_TO_GET_ISSUER_CERT)
CASE_X509_ERR(UNABLE_TO_GET_CRL)
CASE_X509_ERR(UNABLE_TO_DECRYPT_CERT_SIGNATURE)
CASE_X509_ERR(UNABLE_TO_DECRYPT_CRL_SIGNATURE)
CASE_X509_ERR(UNABLE_TO_DECODE_ISSUER_PUBLIC_KEY)
CASE_X509_ERR(CERT_SIGNATURE_FAILURE)
CASE_X509_ERR(CRL_SIGNATURE_FAILURE)
CASE_X509_ERR(CERT_NOT_YET_VALID)
CASE_X509_ERR(CERT_HAS_EXPIRED)
CASE_X509_ERR(CRL_NOT_YET_VALID)
CASE_X509_ERR(CRL_HAS_EXPIRED)
CASE_X509_ERR(ERROR_IN_CERT_NOT_BEFORE_FIELD)
CASE_X509_ERR(ERROR_IN_CERT_NOT_AFTER_FIELD)
CASE_X509_ERR(ERROR_IN_CRL_LAST_UPDATE_FIELD)
CASE_X509_ERR(ERROR_IN_CRL_NEXT_UPDATE_FIELD)
CASE_X509_ERR(OUT_OF_MEM)
CASE_X509_ERR(DEPTH_ZERO_SELF_SIGNED_CERT)
CASE_X509_ERR(SELF_SIGNED_CERT_IN_CHAIN)
CASE_X509_ERR(UNABLE_TO_GET_ISSUER_CERT_LOCALLY)
CASE_X509_ERR(UNABLE_TO_VERIFY_LEAF_SIGNATURE)
CASE_X509_ERR(CERT_CHAIN_TOO_LONG)
CASE_X509_ERR(CERT_REVOKED)
CASE_X509_ERR(INVALID_CA)
CASE_X509_ERR(PATH_LENGTH_EXCEEDED)
CASE_X509_ERR(INVALID_PURPOSE)
CASE_X509_ERR(CERT_UNTRUSTED)
CASE_X509_ERR(CERT_REJECTED)
CASE_X509_ERR(HOSTNAME_MISMATCH)
}
#undef CASE_X509_ERR
return code;
}
MaybeLocal<Value> GetValidationErrorReason(Environment* env, int err) {
if (err == 0)
return Undefined(env->isolate());
const char* reason = X509_verify_cert_error_string(err);
return OneByteString(env->isolate(), reason);
}
MaybeLocal<Value> GetValidationErrorCode(Environment* env, int err) {
if (err == 0)
return Undefined(env->isolate());
return OneByteString(env->isolate(), X509ErrorCode(err));
}
MaybeLocal<Value> GetCert(Environment* env, const SSLPointer& ssl) {
ClearErrorOnReturn clear_error_on_return;
X509* cert = SSL_get_certificate(ssl.get());
if (cert == nullptr)
return Undefined(env->isolate());
MaybeLocal<Object> maybe_cert = X509ToObject(env, cert);
return maybe_cert.FromMaybe<Value>(Local<Value>());
}
Local<Value> ToV8Value(Environment* env, const BIOPointer& bio) {
BUF_MEM* mem;
BIO_get_mem_ptr(bio.get(), &mem);
MaybeLocal<String> ret =
String::NewFromUtf8(
env->isolate(),
mem->data,
NewStringType::kNormal,
mem->length);
USE(BIO_reset(bio.get()));
return ret.FromMaybe(Local<Value>());
}
namespace {
template <typename T>
bool Set(
Local<Context> context,
Local<Object> target,
Local<Value> name,
MaybeLocal<T> maybe_value) {
Local<Value> value;
if (!maybe_value.ToLocal(&value))
return false;
// Undefined is ignored, but still considered successful
if (value->IsUndefined())
return true;
return !target->Set(context, name, value).IsNothing();
}
MaybeLocal<Value> GetCipherValue(Environment* env,
const SSL_CIPHER* cipher,
const char* (*getstr)(const SSL_CIPHER* cipher)) {
if (cipher == nullptr)
return Undefined(env->isolate());
return OneByteString(env->isolate(), getstr(cipher));
}
MaybeLocal<Value> GetCipherName(Environment* env, const SSL_CIPHER* cipher) {
return GetCipherValue(env, cipher, SSL_CIPHER_get_name);
}
MaybeLocal<Value> GetCipherStandardName(
Environment* env,
const SSL_CIPHER* cipher) {
return GetCipherValue(env, cipher, SSL_CIPHER_standard_name);
}
MaybeLocal<Value> GetCipherVersion(Environment* env, const SSL_CIPHER* cipher) {
return GetCipherValue(env, cipher, SSL_CIPHER_get_version);
}
StackOfX509 CloneSSLCerts(X509Pointer&& cert,
const STACK_OF(X509)* const ssl_certs) {
StackOfX509 peer_certs(sk_X509_new(nullptr));
if (cert)
sk_X509_push(peer_certs.get(), cert.release());
for (int i = 0; i < sk_X509_num(ssl_certs); i++) {
X509Pointer cert(X509_dup(sk_X509_value(ssl_certs, i)));
if (!cert || !sk_X509_push(peer_certs.get(), cert.get()))
return StackOfX509();
// `cert` is now managed by the stack.
cert.release();
}
return peer_certs;
}
MaybeLocal<Object> AddIssuerChainToObject(
X509Pointer* cert,
Local<Object> object,
StackOfX509&& peer_certs,
Environment* const env) {
Local<Context> context = env->isolate()->GetCurrentContext();
cert->reset(sk_X509_delete(peer_certs.get(), 0));
for (;;) {
int i;
for (i = 0; i < sk_X509_num(peer_certs.get()); i++) {
X509* ca = sk_X509_value(peer_certs.get(), i);
if (X509_check_issued(ca, cert->get()) != X509_V_OK)
continue;
Local<Object> ca_info;
MaybeLocal<Object> maybe_ca_info = X509ToObject(env, ca);
if (!maybe_ca_info.ToLocal(&ca_info))
return MaybeLocal<Object>();
if (!Set<Object>(context, object, env->issuercert_string(), ca_info))
return MaybeLocal<Object>();
object = ca_info;
// NOTE: Intentionally freeing cert that is not used anymore.
// Delete cert and continue aggregating issuers.
cert->reset(sk_X509_delete(peer_certs.get(), i));
break;
}
// Issuer not found, break out of the loop.
if (i == sk_X509_num(peer_certs.get()))
break;
}
return MaybeLocal<Object>(object);
}
MaybeLocal<Object> GetLastIssuedCert(
X509Pointer* cert,
const SSLPointer& ssl,
Local<Object> issuer_chain,
Environment* const env) {
Local<Context> context = env->isolate()->GetCurrentContext();
while (X509_check_issued(cert->get(), cert->get()) != X509_V_OK) {
X509* ca;
if (SSL_CTX_get_issuer(SSL_get_SSL_CTX(ssl.get()), cert->get(), &ca) <= 0)
break;
Local<Object> ca_info;
MaybeLocal<Object> maybe_ca_info = X509ToObject(env, ca);
if (!maybe_ca_info.ToLocal(&ca_info))
return MaybeLocal<Object>();
if (!Set<Object>(context, issuer_chain, env->issuercert_string(), ca_info))
return MaybeLocal<Object>();
issuer_chain = ca_info;
// Take the value of cert->get() before the call to cert->reset()
// in order to compare it to ca after and provide a way to exit this loop
// in case it gets stuck.
X509* value_before_reset = cert->get();
// Delete previous cert and continue aggregating issuers.
cert->reset(ca);
if (value_before_reset == ca)
break;
}
return MaybeLocal<Object>(issuer_chain);
}
void AddFingerprintDigest(
const unsigned char* md,
unsigned int md_size,
char (*fingerprint)[3 * EVP_MAX_MD_SIZE + 1]) {
unsigned int i;
const char hex[] = "0123456789ABCDEF";
for (i = 0; i < md_size; i++) {
(*fingerprint)[3*i] = hex[(md[i] & 0xf0) >> 4];
(*fingerprint)[(3*i)+1] = hex[(md[i] & 0x0f)];
(*fingerprint)[(3*i)+2] = ':';
}
if (md_size > 0) {
(*fingerprint)[(3*(md_size-1))+2] = '\0';
} else {
(*fingerprint)[0] = '\0';
}
}
MaybeLocal<Value> GetCurveASN1Name(Environment* env, const int nid) {
const char* nist = OBJ_nid2sn(nid);
return nist != nullptr ?
MaybeLocal<Value>(OneByteString(env->isolate(), nist)) :
MaybeLocal<Value>(Undefined(env->isolate()));
}
MaybeLocal<Value> GetCurveNistName(Environment* env, const int nid) {
const char* nist = EC_curve_nid2nist(nid);
return nist != nullptr ?
MaybeLocal<Value>(OneByteString(env->isolate(), nist)) :
MaybeLocal<Value>(Undefined(env->isolate()));
}
MaybeLocal<Value> GetECPubKey(
Environment* env,
const EC_GROUP* group,
const ECPointer& ec) {
const EC_POINT* pubkey = EC_KEY_get0_public_key(ec.get());
if (pubkey == nullptr)
return Undefined(env->isolate());
return ECPointToBuffer(
env,
group,
pubkey,
EC_KEY_get_conv_form(ec.get()),
nullptr).FromMaybe(Local<Object>());
}
MaybeLocal<Value> GetECGroup(
Environment* env,
const EC_GROUP* group,
const ECPointer& ec) {
if (group == nullptr)
return Undefined(env->isolate());
int bits = EC_GROUP_order_bits(group);
if (bits <= 0)
return Undefined(env->isolate());
return Integer::New(env->isolate(), bits);
}
MaybeLocal<Object> GetPubKey(Environment* env, const RSAPointer& rsa) {
int size = i2d_RSA_PUBKEY(rsa.get(), nullptr);
CHECK_GE(size, 0);
std::unique_ptr<BackingStore> bs;
{
NoArrayBufferZeroFillScope no_zero_fill_scope(env->isolate_data());
bs = ArrayBuffer::NewBackingStore(env->isolate(), size);
}
unsigned char* serialized = reinterpret_cast<unsigned char*>(bs->Data());
CHECK_GE(i2d_RSA_PUBKEY(rsa.get(), &serialized), 0);
Local<ArrayBuffer> ab = ArrayBuffer::New(env->isolate(), std::move(bs));
return Buffer::New(env, ab, 0, ab->ByteLength()).FromMaybe(Local<Object>());
}
MaybeLocal<Value> GetExponentString(
Environment* env,
const BIOPointer& bio,
const BIGNUM* e) {
uint64_t exponent_word = static_cast<uint64_t>(BN_get_word(e));
uint32_t lo = static_cast<uint32_t>(exponent_word);
uint32_t hi = static_cast<uint32_t>(exponent_word >> 32);
if (hi == 0)
BIO_printf(bio.get(), "0x%x", lo);
else
BIO_printf(bio.get(), "0x%x%08x", hi, lo);
return ToV8Value(env, bio);
}
Local<Value> GetBits(Environment* env, const BIGNUM* n) {
return Integer::New(env->isolate(), BN_num_bits(n));
}
MaybeLocal<Value> GetModulusString(
Environment* env,
const BIOPointer& bio,
const BIGNUM* n) {
BN_print(bio.get(), n);
return ToV8Value(env, bio);
}
} // namespace
MaybeLocal<Object> GetRawDERCertificate(Environment* env, X509* cert) {
int size = i2d_X509(cert, nullptr);
std::unique_ptr<BackingStore> bs;
{
NoArrayBufferZeroFillScope no_zero_fill_scope(env->isolate_data());
bs = ArrayBuffer::NewBackingStore(env->isolate(), size);
}
unsigned char* serialized = reinterpret_cast<unsigned char*>(bs->Data());
CHECK_GE(i2d_X509(cert, &serialized), 0);
Local<ArrayBuffer> ab = ArrayBuffer::New(env->isolate(), std::move(bs));
return Buffer::New(env, ab, 0, ab->ByteLength()).FromMaybe(Local<Object>());
}
MaybeLocal<Value> GetSerialNumber(Environment* env, X509* cert) {
if (ASN1_INTEGER* serial_number = X509_get_serialNumber(cert)) {
BignumPointer bn(ASN1_INTEGER_to_BN(serial_number, nullptr));
if (bn) {
char* data = BN_bn2hex(bn.get());
ByteSource buf = ByteSource::Allocated(data, strlen(data));
if (buf)
return OneByteString(env->isolate(), buf.get());
}
}
return Undefined(env->isolate());
}
MaybeLocal<Value> GetKeyUsage(Environment* env, X509* cert) {
StackOfASN1 eku(static_cast<STACK_OF(ASN1_OBJECT)*>(
X509_get_ext_d2i(cert, NID_ext_key_usage, nullptr, nullptr)));
if (eku) {
const int count = sk_ASN1_OBJECT_num(eku.get());
MaybeStackBuffer<Local<Value>, 16> ext_key_usage(count);
char buf[256];
int j = 0;
for (int i = 0; i < count; i++) {
if (OBJ_obj2txt(buf,
sizeof(buf),
sk_ASN1_OBJECT_value(eku.get(), i), 1) >= 0) {
ext_key_usage[j++] = OneByteString(env->isolate(), buf);
}
}
return Array::New(env->isolate(), ext_key_usage.out(), count);
}
return Undefined(env->isolate());
}
MaybeLocal<Value> GetFingerprintDigest(
Environment* env,
const EVP_MD* method,
X509* cert) {
unsigned char md[EVP_MAX_MD_SIZE];
unsigned int md_size;
char fingerprint[EVP_MAX_MD_SIZE * 3 + 1];
if (X509_digest(cert, method, md, &md_size)) {
AddFingerprintDigest(md, md_size, &fingerprint);
return OneByteString(env->isolate(), fingerprint);
}
return Undefined(env->isolate());
}
MaybeLocal<Value> GetValidTo(
Environment* env,
X509* cert,
const BIOPointer& bio) {
ASN1_TIME_print(bio.get(), X509_get0_notAfter(cert));
return ToV8Value(env, bio);
}
MaybeLocal<Value> GetValidFrom(
Environment* env,
X509* cert,
const BIOPointer& bio) {
ASN1_TIME_print(bio.get(), X509_get0_notBefore(cert));
return ToV8Value(env, bio);
}
static inline bool IsSafeAltName(const char* name, size_t length, bool utf8) {
for (size_t i = 0; i < length; i++) {
char c = name[i];
switch (c) {
case '"':
case '\\':
// These mess with encoding rules.
// Fall through.
case ',':
// Commas make it impossible to split the list of subject alternative
// names unambiguously, which is why we have to escape.
// Fall through.
case '\'':
// Single quotes are unlikely to appear in any legitimate values, but they
// could be used to make a value look like it was escaped (i.e., enclosed
// in single/double quotes).
return false;
default:
if (utf8) {
// In UTF8 strings, we require escaping for any ASCII control character,
// but NOT for non-ASCII characters. Note that all bytes of any code
// point that consists of more than a single byte have their MSB set.
if (static_cast<unsigned char>(c) < ' ' || c == '\x7f') {
return false;
}
} else {
// Check if the char is a control character or non-ASCII character. Note
// that char may or may not be a signed type. Regardless, non-ASCII
// values will always be outside of this range.
if (c < ' ' || c > '~') {
return false;
}
}
}
}
return true;
}
static inline void PrintAltName(const BIOPointer& out, const char* name,
size_t length, bool utf8,
const char* safe_prefix) {
if (IsSafeAltName(name, length, utf8)) {
// For backward-compatibility, append "safe" names without any
// modifications.
if (safe_prefix != nullptr) {
BIO_printf(out.get(), "%s:", safe_prefix);
}
BIO_write(out.get(), name, length);
} else {
// If a name is not "safe", we cannot embed it without special
// encoding. This does not usually happen, but we don't want to hide
// it from the user either. We use JSON compatible escaping here.
BIO_write(out.get(), "\"", 1);
if (safe_prefix != nullptr) {
BIO_printf(out.get(), "%s:", safe_prefix);
}
for (size_t j = 0; j < length; j++) {
char c = static_cast<char>(name[j]);
if (c == '\\') {
BIO_write(out.get(), "\\\\", 2);
} else if (c == '"') {
BIO_write(out.get(), "\\\"", 2);
} else if ((c >= ' ' && c != ',' && c <= '~') || (utf8 && (c & 0x80))) {
// Note that the above condition explicitly excludes commas, which means
// that those are encoded as Unicode escape sequences in the "else"
// block. That is not strictly necessary, and Node.js itself would parse
// it correctly either way. We only do this to account for third-party
// code that might be splitting the string at commas (as Node.js itself
// used to do).
BIO_write(out.get(), &c, 1);
} else {
// Control character or non-ASCII character. We treat everything as
// Latin-1, which corresponds to the first 255 Unicode code points.
const char hex[] = "0123456789abcdef";
char u[] = { '\\', 'u', '0', '0', hex[(c & 0xf0) >> 4], hex[c & 0x0f] };
BIO_write(out.get(), u, sizeof(u));
}
}
BIO_write(out.get(), "\"", 1);
}
}
static inline void PrintLatin1AltName(const BIOPointer& out,
const ASN1_IA5STRING* name,
const char* safe_prefix = nullptr) {
PrintAltName(out, reinterpret_cast<const char*>(name->data), name->length,
false, safe_prefix);
}
static inline void PrintUtf8AltName(const BIOPointer& out,
const ASN1_UTF8STRING* name,
const char* safe_prefix = nullptr) {
PrintAltName(out, reinterpret_cast<const char*>(name->data), name->length,
true, safe_prefix);
}
// This function currently emulates the behavior of i2v_GENERAL_NAME in a safer
// and less ambiguous way.
// TODO(tniessen): gradually improve the format in the next major version(s)
static bool PrintGeneralName(const BIOPointer& out, const GENERAL_NAME* gen) {
if (gen->type == GEN_DNS) {
ASN1_IA5STRING* name = gen->d.dNSName;
BIO_write(out.get(), "DNS:", 4);
// Note that the preferred name syntax (see RFCs 5280 and 1034) with
// wildcards is a subset of what we consider "safe", so spec-compliant DNS
// names will never need to be escaped.
PrintLatin1AltName(out, name);
} else if (gen->type == GEN_EMAIL) {
ASN1_IA5STRING* name = gen->d.rfc822Name;
BIO_write(out.get(), "email:", 6);
PrintLatin1AltName(out, name);
} else if (gen->type == GEN_URI) {
ASN1_IA5STRING* name = gen->d.uniformResourceIdentifier;
BIO_write(out.get(), "URI:", 4);
// The set of "safe" names was designed to include just about any URI,
// with a few exceptions, most notably URIs that contains commas (see
// RFC 2396). In other words, most legitimate URIs will not require
// escaping.
PrintLatin1AltName(out, name);
} else if (gen->type == GEN_DIRNAME) {
// For backward compatibility, use X509_NAME_oneline to print the
// X509_NAME object. The format is non standard and should be avoided
// elsewhere, but conveniently, the function produces ASCII and the output
// is unlikely to contains commas or other characters that would require
// escaping. With that in mind, note that it SHOULD NOT produce ASCII
// output since an RFC5280 AttributeValue may be a UTF8String.
// TODO(tniessen): switch to RFC2253 rules in a major release
BIO_printf(out.get(), "DirName:");
char oline[256];
if (X509_NAME_oneline(gen->d.dirn, oline, sizeof(oline)) != nullptr) {
PrintAltName(out, oline, strlen(oline), false, nullptr);
} else {
return false;
}
} else if (gen->type == GEN_IPADD) {
BIO_printf(out.get(), "IP Address:");
const ASN1_OCTET_STRING* ip = gen->d.ip;
const unsigned char* b = ip->data;
if (ip->length == 4) {
BIO_printf(out.get(), "%d.%d.%d.%d", b[0], b[1], b[2], b[3]);
} else if (ip->length == 16) {
for (unsigned int j = 0; j < 8; j++) {
uint16_t pair = (b[2 * j] << 8) | b[2 * j + 1];
BIO_printf(out.get(), (j == 0) ? "%X" : ":%X", pair);
}
} else {
#if OPENSSL_VERSION_MAJOR >= 3
BIO_printf(out.get(), "<invalid length=%d>", ip->length);
#else
BIO_printf(out.get(), "<invalid>");
#endif
}
} else if (gen->type == GEN_RID) {
// Unlike OpenSSL's default implementation, never print the OID as text and
// instead always print its numeric representation.
char oline[256];
OBJ_obj2txt(oline, sizeof(oline), gen->d.rid, true);
BIO_printf(out.get(), "Registered ID:%s", oline);
} else if (gen->type == GEN_OTHERNAME) {
// TODO(tniessen): the format that is used here is based on OpenSSL's
// implementation of i2v_GENERAL_NAME (as of OpenSSL 3.0.1), mostly for
// backward compatibility. It is somewhat awkward, especially when passed to
// translatePeerCertificate, and should be changed in the future, probably
// to the format used by GENERAL_NAME_print (in a major release).
bool unicode = true;
const char* prefix = nullptr;
// OpenSSL 1.1.1 does not support othername in i2v_GENERAL_NAME and may not
// define these NIDs.
#if OPENSSL_VERSION_MAJOR >= 3
int nid = OBJ_obj2nid(gen->d.otherName->type_id);
switch (nid) {
case NID_id_on_SmtpUTF8Mailbox:
prefix = " SmtpUTF8Mailbox:";
break;
case NID_XmppAddr:
prefix = " XmppAddr:";
break;
case NID_SRVName:
prefix = " SRVName:";
unicode = false;
break;
case NID_ms_upn:
prefix = " UPN:";
break;
case NID_NAIRealm:
prefix = " NAIRealm:";
break;
}
#endif // OPENSSL_VERSION_MAJOR >= 3
int val_type = gen->d.otherName->value->type;
if (prefix == nullptr ||
(unicode && val_type != V_ASN1_UTF8STRING) ||
(!unicode && val_type != V_ASN1_IA5STRING)) {
BIO_printf(out.get(), "othername:<unsupported>");
} else {
BIO_printf(out.get(), "othername:");
if (unicode) {
PrintUtf8AltName(out, gen->d.otherName->value->value.utf8string,
prefix);
} else {
PrintLatin1AltName(out, gen->d.otherName->value->value.ia5string,
prefix);
}
}
} else if (gen->type == GEN_X400) {
// TODO(tniessen): this is what OpenSSL does, implement properly instead
BIO_printf(out.get(), "X400Name:<unsupported>");
} else if (gen->type == GEN_EDIPARTY) {
// TODO(tniessen): this is what OpenSSL does, implement properly instead
BIO_printf(out.get(), "EdiPartyName:<unsupported>");
} else {
// This is safe because X509V3_EXT_d2i would have returned nullptr in this
// case already.
UNREACHABLE();
}
return true;
}
bool SafeX509SubjectAltNamePrint(const BIOPointer& out, X509_EXTENSION* ext) {
const X509V3_EXT_METHOD* method = X509V3_EXT_get(ext);
CHECK(method == X509V3_EXT_get_nid(NID_subject_alt_name));
GENERAL_NAMES* names = static_cast<GENERAL_NAMES*>(X509V3_EXT_d2i(ext));
if (names == nullptr)
return false;
bool ok = true;
for (int i = 0; i < sk_GENERAL_NAME_num(names); i++) {
GENERAL_NAME* gen = sk_GENERAL_NAME_value(names, i);
if (i != 0)
BIO_write(out.get(), ", ", 2);
if (!(ok = PrintGeneralName(out, gen))) {
break;
}
}
sk_GENERAL_NAME_pop_free(names, GENERAL_NAME_free);
return ok;
}
bool SafeX509InfoAccessPrint(const BIOPointer& out, X509_EXTENSION* ext) {
const X509V3_EXT_METHOD* method = X509V3_EXT_get(ext);
CHECK(method == X509V3_EXT_get_nid(NID_info_access));
AUTHORITY_INFO_ACCESS* descs =
static_cast<AUTHORITY_INFO_ACCESS*>(X509V3_EXT_d2i(ext));
if (descs == nullptr)
return false;
bool ok = true;
for (int i = 0; i < sk_ACCESS_DESCRIPTION_num(descs); i++) {
ACCESS_DESCRIPTION* desc = sk_ACCESS_DESCRIPTION_value(descs, i);
if (i != 0)
BIO_write(out.get(), "\n", 1);
char objtmp[80];
i2t_ASN1_OBJECT(objtmp, sizeof(objtmp), desc->method);
BIO_printf(out.get(), "%s - ", objtmp);
if (!(ok = PrintGeneralName(out, desc->location))) {
break;
}
}
sk_ACCESS_DESCRIPTION_pop_free(descs, ACCESS_DESCRIPTION_free);
#if OPENSSL_VERSION_MAJOR < 3
BIO_write(out.get(), "\n", 1);
#endif
return ok;
}
v8::MaybeLocal<v8::Value> GetSubjectAltNameString(
Environment* env,
const BIOPointer& bio,
X509* cert) {
int index = X509_get_ext_by_NID(cert, NID_subject_alt_name, -1);
if (index < 0)
return Undefined(env->isolate());
X509_EXTENSION* ext = X509_get_ext(cert, index);
CHECK_NOT_NULL(ext);
if (!SafeX509SubjectAltNamePrint(bio, ext)) {
USE(BIO_reset(bio.get()));
return v8::Null(env->isolate());
}
return ToV8Value(env, bio);
}
v8::MaybeLocal<v8::Value> GetInfoAccessString(
Environment* env,
const BIOPointer& bio,
X509* cert) {
int index = X509_get_ext_by_NID(cert, NID_info_access, -1);
if (index < 0)
return Undefined(env->isolate());
X509_EXTENSION* ext = X509_get_ext(cert, index);
CHECK_NOT_NULL(ext);
if (!SafeX509InfoAccessPrint(bio, ext)) {
USE(BIO_reset(bio.get()));
return v8::Null(env->isolate());
}
return ToV8Value(env, bio);
}
MaybeLocal<Value> GetIssuerString(
Environment* env,
const BIOPointer& bio,
X509* cert) {
X509_NAME* issuer_name = X509_get_issuer_name(cert);
if (X509_NAME_print_ex(bio.get(), issuer_name, 0, X509_NAME_FLAGS) <= 0) {
USE(BIO_reset(bio.get()));
return Undefined(env->isolate());
}
return ToV8Value(env, bio);
}
MaybeLocal<Value> GetSubject(
Environment* env,
const BIOPointer& bio,
X509* cert) {
if (X509_NAME_print_ex(
bio.get(),
X509_get_subject_name(cert),
0,
X509_NAME_FLAGS) <= 0) {
USE(BIO_reset(bio.get()));
return Undefined(env->isolate());
}
return ToV8Value(env, bio);
}
template <X509_NAME* get_name(const X509*)>
static MaybeLocal<Value> GetX509NameObject(Environment* env, X509* cert) {
X509_NAME* name = get_name(cert);
CHECK_NOT_NULL(name);
int cnt = X509_NAME_entry_count(name);
CHECK_GE(cnt, 0);
Local<Object> result =
Object::New(env->isolate(), Null(env->isolate()), nullptr, nullptr, 0);
if (result.IsEmpty()) {
return MaybeLocal<Value>();
}
for (int i = 0; i < cnt; i++) {
X509_NAME_ENTRY* entry = X509_NAME_get_entry(name, i);
CHECK_NOT_NULL(entry);
// We intentionally ignore the value of X509_NAME_ENTRY_set because the
// representation as an object does not allow grouping entries into sets
// anyway, and multi-value RDNs are rare, i.e., the vast majority of
// Relative Distinguished Names contains a single type-value pair only.
const ASN1_OBJECT* type = X509_NAME_ENTRY_get_object(entry);
const ASN1_STRING* value = X509_NAME_ENTRY_get_data(entry);
// If OpenSSL knows the type, use the short name of the type as the key, and
// the numeric representation of the type's OID otherwise.
int type_nid = OBJ_obj2nid(type);
char type_buf[80];
const char* type_str;
if (type_nid != NID_undef) {
type_str = OBJ_nid2sn(type_nid);
CHECK_NOT_NULL(type_str);
} else {