/*
- Copyright (C) 2013-2016 Carl Hetherington <cth@carlh.net>
+ Copyright (C) 2013-2021 Carl Hetherington <cth@carlh.net>
This file is part of libdcp.
files in the program, then also delete it here.
*/
-/** @file src/signer_chain.cc
- * @brief Functions to make signer chains.
+
+/** @file src/certificate_chain.cc
+ * @brief CertificateChain class
*/
+
#include "certificate_chain.h"
#include "exceptions.h"
#include "util.h"
#include <openssl/rsa.h>
#include <boost/filesystem.hpp>
#include <boost/algorithm/string.hpp>
-#include <boost/foreach.hpp>
#include <fstream>
#include <iostream>
+
using std::string;
using std::ofstream;
using std::ifstream;
using std::runtime_error;
using namespace dcp;
+
/** Run a shell command.
* @param cmd Command to run (UTF8-encoded).
*/
is handled correctly.
*/
int const wn = MultiByteToWideChar (CP_UTF8, 0, cmd.c_str(), -1, 0, 0);
- wchar_t* buffer = new wchar_t[wn];
+ auto buffer = new wchar_t[wn];
if (MultiByteToWideChar (CP_UTF8, 0, cmd.c_str(), -1, buffer, wn) == 0) {
delete[] buffer;
return;
}
}
+
/** Extract a public key from a private key and create a SHA1 digest of it.
* @param private_key Private key
* @param openssl openssl binary name (or full path if openssl is not on the system path).
boost::filesystem::path public_name = private_key.string() + ".public";
/* Create the public key from the private key */
- command (String::compose("\"%1\" rsa -outform PEM -pubout -in %2 -out %3", openssl.string(), private_key.string(), public_name.string ()));
+ command (String::compose("\"%1\" rsa -outform PEM -pubout -in %2 -out %3", openssl.string(), private_key.string(), public_name.string()));
/* Read in the public key from the file */
string pub;
- ifstream f (public_name.string().c_str ());
+ ifstream f (public_name.string().c_str());
if (!f.good ()) {
throw dcp::MiscError ("public key not found");
}
return dig;
}
+
CertificateChain::CertificateChain (
boost::filesystem::path openssl,
string organisation,
string leaf_common_name
)
{
- boost::filesystem::path directory = boost::filesystem::temp_directory_path() / boost::filesystem::unique_path ();
+ /* Valid for 40 years */
+ int const days = 365 * 40;
+
+ auto directory = boost::filesystem::temp_directory_path() / boost::filesystem::unique_path ();
boost::filesystem::create_directories (directory);
- boost::filesystem::path const cwd = boost::filesystem::current_path ();
+ auto const cwd = boost::filesystem::current_path ();
boost::filesystem::current_path (directory);
string quoted_openssl = "\"" + openssl.string() + "\"";
f << "[ req ]\n"
<< "distinguished_name = req_distinguished_name\n"
<< "x509_extensions = v3_ca\n"
+ << "string_mask = nombstr\n"
<< "[ v3_ca ]\n"
<< "basicConstraints = critical,CA:true,pathlen:3\n"
<< "keyUsage = keyCertSign,cRLSign\n"
{
command (
String::compose (
- "%1 req -new -x509 -sha256 -config ca.cnf -days 3650 -set_serial 5"
- " -subj \"%2\" -key ca.key -outform PEM -out ca.self-signed.pem",
- quoted_openssl, ca_subject
+ "%1 req -new -x509 -sha256 -config ca.cnf -days %2 -set_serial 5"
+ " -subj \"%3\" -key ca.key -outform PEM -out ca.self-signed.pem",
+ quoted_openssl, days, ca_subject
)
);
}
f << "[ default ]\n"
<< "distinguished_name = req_distinguished_name\n"
<< "x509_extensions = v3_ca\n"
+ << "string_mask = nombstr\n"
<< "[ v3_ca ]\n"
<< "basicConstraints = critical,CA:true,pathlen:2\n"
<< "keyUsage = keyCertSign,cRLSign\n"
{
command (
String::compose (
- "%1 req -new -config intermediate.cnf -days 3649 -subj \"%2\" -key intermediate.key -out intermediate.csr",
- quoted_openssl, inter_subject
+ "%1 req -new -config intermediate.cnf -days %2 -subj \"%3\" -key intermediate.key -out intermediate.csr",
+ quoted_openssl, days - 1, inter_subject
)
);
}
command (
- quoted_openssl +
- " x509 -req -sha256 -days 3649 -CA ca.self-signed.pem -CAkey ca.key -set_serial 6"
- " -in intermediate.csr -extfile intermediate.cnf -extensions v3_ca -out intermediate.signed.pem"
+ String::compose (
+ "%1 x509 -req -sha256 -days %2 -CA ca.self-signed.pem -CAkey ca.key -set_serial 6"
+ " -in intermediate.csr -extfile intermediate.cnf -extensions v3_ca -out intermediate.signed.pem",
+ quoted_openssl, days - 1
+ )
);
command (quoted_openssl + " genrsa -out leaf.key 2048");
f << "[ default ]\n"
<< "distinguished_name = req_distinguished_name\n"
<< "x509_extensions = v3_ca\n"
+ << "string_mask = nombstr\n"
<< "[ v3_ca ]\n"
<< "basicConstraints = critical,CA:false\n"
<< "keyUsage = digitalSignature,keyEncipherment\n"
{
command (
String::compose (
- "%1 req -new -config leaf.cnf -days 3648 -subj \"%2\" -key leaf.key -outform PEM -out leaf.csr",
- quoted_openssl, leaf_subject
+ "%1 req -new -config leaf.cnf -days %2 -subj \"%3\" -key leaf.key -outform PEM -out leaf.csr",
+ quoted_openssl, days - 2, leaf_subject
)
);
}
command (
- quoted_openssl +
- " x509 -req -sha256 -days 3648 -CA intermediate.signed.pem -CAkey intermediate.key"
- " -set_serial 7 -in leaf.csr -extfile leaf.cnf -extensions v3_ca -out leaf.signed.pem"
+ String::compose (
+ "%1 x509 -req -sha256 -days %2 -CA intermediate.signed.pem -CAkey intermediate.key"
+ " -set_serial 7 -in leaf.csr -extfile leaf.cnf -extensions v3_ca -out leaf.signed.pem",
+ quoted_openssl, days - 2
+ )
);
boost::filesystem::current_path (cwd);
- _certificates.push_back (dcp::Certificate (dcp::file_to_string (directory / "ca.self-signed.pem")));
- _certificates.push_back (dcp::Certificate (dcp::file_to_string (directory / "intermediate.signed.pem")));
- _certificates.push_back (dcp::Certificate (dcp::file_to_string (directory / "leaf.signed.pem")));
+ _certificates.push_back (dcp::Certificate(dcp::file_to_string(directory / "ca.self-signed.pem")));
+ _certificates.push_back (dcp::Certificate(dcp::file_to_string(directory / "intermediate.signed.pem")));
+ _certificates.push_back (dcp::Certificate(dcp::file_to_string(directory / "leaf.signed.pem")));
_key = dcp::file_to_string (directory / "leaf.key");
boost::filesystem::remove_all (directory);
}
+
CertificateChain::CertificateChain (string s)
{
while (true) {
}
}
- if (!attempt_reorder ()) {
- throw MiscError ("could not find certificate chain order");
- }
+ /* This will throw an exception if the chain cannot be ordered */
+ leaf_to_root ();
}
-/** @return Root certificate */
+
Certificate
CertificateChain::root () const
{
DCP_ASSERT (!_certificates.empty());
- return _certificates.front ();
+ return root_to_leaf().front();
}
-/** @return Leaf certificate */
+
Certificate
CertificateChain::leaf () const
{
DCP_ASSERT (!_certificates.empty());
- return _certificates.back ();
+ return root_to_leaf().back();
}
-/** @return Certificates in order from root to leaf */
+
CertificateChain::List
-CertificateChain::root_to_leaf () const
+CertificateChain::leaf_to_root () const
{
- return _certificates;
+ auto l = root_to_leaf ();
+ std::reverse (l.begin(), l.end());
+ return l;
}
-/** @return Certificates in order from leaf to root */
+
CertificateChain::List
-CertificateChain::leaf_to_root () const
+CertificateChain::unordered () const
{
- List c = _certificates;
- c.reverse ();
- return c;
+ return _certificates;
}
-/** Add a certificate to the end of the chain.
- * @param c Certificate to add.
- */
+
void
CertificateChain::add (Certificate c)
{
_certificates.push_back (c);
}
-/** Remove a certificate from the chain.
- * @param c Certificate to remove.
- */
+
void
CertificateChain::remove (Certificate c)
{
- _certificates.remove (c);
+ auto i = std::find(_certificates.begin(), _certificates.end(), c);
+ if (i != _certificates.end()) {
+ _certificates.erase (i);
+ }
}
-/** Remove the i'th certificate in the list, as listed
- * from root to leaf.
- */
+
void
CertificateChain::remove (int i)
{
- List::iterator j = _certificates.begin ();
+ auto j = _certificates.begin ();
while (j != _certificates.end () && i > 0) {
--i;
++j;
}
}
-/** Check to see if the chain is valid (i.e. root signs the intermediate, intermediate
- * signs the leaf and so on) and that the private key (if there is one) matches the
- * leaf certificate.
- * @param valid if non-0 and the CertificateChain is not valid, this is filled in with
- * an explanation.
- * @return true if it's ok, false if not.
- */
+
bool
-CertificateChain::valid (string* reason) const
+CertificateChain::chain_valid () const
+{
+ return chain_valid (_certificates);
+}
+
+
+bool
+CertificateChain::chain_valid (List const & chain) const
{
- /* Check the certificate chain */
+ /* Here I am taking a chain of certificates A/B/C/D and checking validity of B wrt A,
+ C wrt B and D wrt C. It also appears necessary to check the issuer of B/C/D matches
+ the subject of A/B/C; I don't understand why. I'm sure there's a better way of doing
+ this with OpenSSL but the documentation does not appear not likely to reveal it
+ any time soon.
+ */
- X509_STORE* store = X509_STORE_new ();
+ auto store = X509_STORE_new ();
if (!store) {
throw MiscError ("could not create X509 store");
}
- int n = 1;
- for (List::const_iterator i = _certificates.begin(); i != _certificates.end(); ++i) {
+ /* Put all the certificates into the store */
+ for (auto const& i: chain) {
+ if (!X509_STORE_add_cert(store, i.x509())) {
+ X509_STORE_free(store);
+ return false;
+ }
+ }
+
+ /* Verify each one */
+ for (auto i = chain.begin(); i != chain.end(); ++i) {
- List::const_iterator j = i;
+ auto j = i;
++j;
- if (j == _certificates.end ()) {
+ if (j == chain.end ()) {
break;
}
- if (!X509_STORE_add_cert (store, i->x509 ())) {
- X509_STORE_free (store);
- if (reason) {
- *reason = "X509_STORE_add_cert failed";
- }
- return false;
- }
-
- X509_STORE_CTX* ctx = X509_STORE_CTX_new ();
+ auto ctx = X509_STORE_CTX_new ();
if (!ctx) {
X509_STORE_free (store);
throw MiscError ("could not create X509 store context");
if (!X509_STORE_CTX_init (ctx, store, j->x509(), 0)) {
X509_STORE_CTX_free (ctx);
X509_STORE_free (store);
- if (reason) {
- *reason = "X509_STORE_CTX_init failed";
- }
- return false;
+ throw MiscError ("could not initialise X509 store context");
}
- int v = X509_verify_cert (ctx);
+ int const v = X509_verify_cert (ctx);
X509_STORE_CTX_free (ctx);
- if (v == 0) {
+ if (v != 1) {
+ X509_STORE_free (store);
+ return false;
+ }
+
+ /* I don't know why OpenSSL doesn't check this stuff
+ in verify_cert, but without these checks the
+ certificates_validation8 test fails.
+ */
+ if (j->issuer() != i->subject() || j->subject() == i->subject()) {
X509_STORE_free (store);
- if (reason) {
- *reason = String::compose ("X509_verify_cert failed for certificate number %1", n);
- }
return false;
}
- ++n;
}
X509_STORE_free (store);
- /* Check that the leaf certificate matches the private key, if there is one */
+ return true;
+}
- if (!_key) {
+
+bool
+CertificateChain::private_key_valid () const
+{
+ if (_certificates.empty ()) {
return true;
}
- BIO* bio = BIO_new_mem_buf (const_cast<char *> (_key->c_str ()), -1);
+ if (!_key) {
+ return false;
+ }
+
+ auto bio = BIO_new_mem_buf (const_cast<char *> (_key->c_str ()), -1);
if (!bio) {
throw MiscError ("could not create memory BIO");
}
- RSA* private_key = PEM_read_bio_RSAPrivateKey (bio, 0, 0, 0);
- RSA* public_key = leaf().public_key ();
+ auto private_key = PEM_read_bio_RSAPrivateKey (bio, 0, 0, 0);
+ if (!private_key) {
+ return false;
+ }
+
+ auto public_key = leaf().public_key ();
#if OPENSSL_VERSION_NUMBER > 0x10100000L
-#warning "Using new OpenSSL API"
BIGNUM const * private_key_n;
RSA_get0_key(private_key, &private_key_n, 0, 0);
BIGNUM const * public_key_n;
RSA_get0_key(public_key, &public_key_n, 0, 0);
+ if (!private_key_n || !public_key_n) {
+ return false;
+ }
bool const valid = !BN_cmp (private_key_n, public_key_n);
#else
bool const valid = !BN_cmp (private_key->n, public_key->n);
#endif
BIO_free (bio);
- if (!valid && reason) {
- *reason = "leaf certificate does not match private key";
- }
-
return valid;
}
-/** @return true if the chain is now in order from root to leaf,
- * false if no correct order was found.
- */
+
bool
-CertificateChain::attempt_reorder ()
+CertificateChain::valid (string* reason) const
+{
+ try {
+ root_to_leaf ();
+ } catch (CertificateChainError& e) {
+ if (reason) {
+ *reason = "certificates do not form a chain";
+ }
+ return false;
+ }
+
+ if (!private_key_valid ()) {
+ if (reason) {
+ *reason = "private key does not exist, or does not match leaf certificate";
+ }
+ return false;
+ }
+
+ return true;
+}
+
+
+CertificateChain::List
+CertificateChain::root_to_leaf () const
{
- List original = _certificates;
- _certificates.sort ();
+ auto rtl = _certificates;
+ std::sort (rtl.begin(), rtl.end());
do {
- if (valid ()) {
- return true;
+ if (chain_valid (rtl)) {
+ return rtl;
}
- } while (std::next_permutation (_certificates.begin(), _certificates.end ()));
+ } while (std::next_permutation (rtl.begin(), rtl.end()));
- _certificates = original;
- return false;
+ throw CertificateChainError ("certificate chain is not consistent");
}
-/** Add a <Signer> and <ds:Signature> nodes to an XML node.
- * @param parent XML node to add to.
- * @param standard INTEROP or SMPTE.
- */
+
void
CertificateChain::sign (xmlpp::Element* parent, Standard standard) const
{
/* <Signer> */
- xmlpp::Element* signer = parent->add_child("Signer");
- xmlpp::Element* data = signer->add_child("X509Data", "dsig");
- xmlpp::Element* serial_element = data->add_child("X509IssuerSerial", "dsig");
+ parent->add_child_text(" ");
+ auto signer = parent->add_child("Signer");
+ signer->set_namespace_declaration ("http://www.w3.org/2000/09/xmldsig#", "dsig");
+ auto data = signer->add_child("X509Data", "dsig");
+ auto serial_element = data->add_child("X509IssuerSerial", "dsig");
serial_element->add_child("X509IssuerName", "dsig")->add_child_text (leaf().issuer());
serial_element->add_child("X509SerialNumber", "dsig")->add_child_text (leaf().serial());
data->add_child("X509SubjectName", "dsig")->add_child_text (leaf().subject());
+ indent (signer, 2);
+
/* <Signature> */
- xmlpp::Element* signature = parent->add_child("Signature", "dsig");
+ parent->add_child_text("\n ");
+ auto signature = parent->add_child("Signature");
+ signature->set_namespace_declaration ("http://www.w3.org/2000/09/xmldsig#", "dsig");
+ signature->set_namespace ("dsig");
+ parent->add_child_text("\n");
- xmlpp::Element* signed_info = signature->add_child ("SignedInfo", "dsig");
+ auto signed_info = signature->add_child ("SignedInfo", "dsig");
signed_info->add_child("CanonicalizationMethod", "dsig")->set_attribute ("Algorithm", "http://www.w3.org/TR/2001/REC-xml-c14n-20010315");
- if (standard == INTEROP) {
+ if (standard == Standard::INTEROP) {
signed_info->add_child("SignatureMethod", "dsig")->set_attribute("Algorithm", "http://www.w3.org/2000/09/xmldsig#rsa-sha1");
} else {
signed_info->add_child("SignatureMethod", "dsig")->set_attribute("Algorithm", "http://www.w3.org/2001/04/xmldsig-more#rsa-sha256");
}
- xmlpp::Element* reference = signed_info->add_child("Reference", "dsig");
+ auto reference = signed_info->add_child("Reference", "dsig");
reference->set_attribute ("URI", "");
- xmlpp::Element* transforms = reference->add_child("Transforms", "dsig");
+ auto transforms = reference->add_child("Transforms", "dsig");
transforms->add_child("Transform", "dsig")->set_attribute (
"Algorithm", "http://www.w3.org/2000/09/xmldsig#enveloped-signature"
);
signature->add_child("SignatureValue", "dsig");
signature->add_child("KeyInfo", "dsig");
- add_signature_value (signature, "dsig");
+ add_signature_value (signature, "dsig", true);
}
-/** Sign an XML node.
- *
- * @param parent Node to sign.
- * @param ns Namespace to use for the signature XML nodes.
- */
void
-CertificateChain::add_signature_value (xmlpp::Node* parent, string ns) const
+CertificateChain::add_signature_value (xmlpp::Element* parent, string ns, bool add_indentation) const
{
cxml::Node cp (parent);
- xmlpp::Node* key_info = cp.node_child("KeyInfo")->node ();
+ auto key_info = cp.node_child("KeyInfo")->node();
/* Add the certificate chain to the KeyInfo child node of parent */
- BOOST_FOREACH (Certificate const & i, leaf_to_root ()) {
- xmlpp::Element* data = key_info->add_child("X509Data", ns);
+ for (auto const& i: leaf_to_root()) {
+ auto data = key_info->add_child("X509Data", ns);
{
- xmlpp::Element* serial = data->add_child("X509IssuerSerial", ns);
+ auto serial = data->add_child("X509IssuerSerial", ns);
serial->add_child("X509IssuerName", ns)->add_child_text (i.issuer ());
serial->add_child("X509SerialNumber", ns)->add_child_text (i.serial ());
}
data->add_child("X509Certificate", ns)->add_child_text (i.certificate());
}
- xmlSecDSigCtxPtr signature_context = xmlSecDSigCtxCreate (0);
+ auto signature_context = xmlSecDSigCtxCreate (0);
if (signature_context == 0) {
throw MiscError ("could not create signature context");
}
throw runtime_error ("could not read private key");
}
- /* XXX: set key name to the PEM string: this can't be right! */
- if (xmlSecKeySetName (signature_context->signKey, reinterpret_cast<const xmlChar *> (_key->c_str())) < 0) {
- throw MiscError ("could not set key name");
+ if (add_indentation) {
+ indent (parent, 2);
}
-
int const r = xmlSecDSigCtxSign (signature_context, parent->cobj ());
if (r < 0) {
throw MiscError (String::compose ("could not sign (%1)", r));
xmlSecDSigCtxDestroy (signature_context);
}
+
string
CertificateChain::chain () const
{
string o;
- BOOST_FOREACH (Certificate const &i, root_to_leaf ()) {
+ for (auto const& i: root_to_leaf()) {
o += i.certificate(true);
}