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// file : openssl/agent/pkcs11/url.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <openssl/agent/pkcs11/url.hxx>
#include <cerrno>
#include <cstdlib> // strtoull()
#include <iterator> // back_inserter()
namespace openssl
{
namespace agent
{
namespace pkcs11
{
using namespace std;
// Convenience functions.
//
static uint64_t
parse_uint64 (const string& s,
uint64_t min,
uint64_t max,
const char* what)
{
if (s[0] != '-' && s[0] != '+') // strtoull() allows these.
{
const char* b (s.c_str ());
char* e (nullptr);
uint64_t v (strtoull (b, &e, 10)); // Can't throw.
if (errno != ERANGE && e == b + s.size () && v >= min && v <= max)
return v;
}
throw invalid_argument (string ("invalid ") + what + " '" + s + "'");
}
// url_traits
//
optional<url_traits::scheme_type> url_traits::
translate_scheme (const string_type& /* url */,
string_type&& scheme,
optional<authority_type>& authority,
optional<path_type>& path,
optional<string_type>& /* query */,
optional<string_type>& fragment,
bool& rootless)
{
// If something is wrong with the URL leave the basic_url constructor
// to throw.
//
if (scheme.empty ())
return nullopt;
if (icasecmp (scheme, "pkcs11") != 0)
throw invalid_argument ("invalid scheme");
if (authority)
throw invalid_argument ("unexpected authority");
if (path && (!rootless || path->find ('/') != string::npos))
throw invalid_argument ("one-level path expected");
if (fragment)
throw invalid_argument ("unexpected fragment");
return move (scheme);
}
url_traits::string_type url_traits::
translate_scheme (string_type& /* url */,
const scheme_type& scheme,
const optional<authority_type>& /* authority */,
const optional<path_type>& /* path */,
const optional<string_type>& /* query */,
const optional<string_type>& /* fragment */,
bool /* rootless */)
{
return scheme;
}
url_traits::path_type url_traits::
translate_path (string_type&& path)
{
return move (path);
}
url_traits::string_type url_traits::
translate_path (const path_type& path)
{
return path;
}
// library_version
//
library_version::
library_version (const string& s)
{
auto num = [] (const string& s, const char* what)
{
return static_cast<unsigned char> (parse_uint64 (s, 0, 255, what));
};
size_t p (s.find ('.'));
if (p != string::npos)
{
major = num (string (s, 0, p), "library major version");
minor = num (string (s, p + 1), "library minor version");
}
else
{
major = num (s, "library major version");
minor = 0;
}
}
// Parse the attribute name=value representation. The value can contain
// binary data.
//
// It would probably be cleaner to return pair<string, vector<char>>,
// but this would uglify a client code quite a bit and make it less
// efficient.
//
static pair<string, string>
attribute (const string& s, size_t b, size_t n)
{
size_t i (b);
size_t e (b + n);
for (; i != e && s[i] != '='; ++i) ;
if (i == e)
throw invalid_argument (
"no value for attribute '" + string (s, b, n) + "'");
string a;
url::decode (s.begin () + b, s.begin () + i, back_inserter (a));
string v;
url::decode (s.begin () + i + 1, s.begin () + e, back_inserter (v));
return make_pair (move (a), move (v));
}
// identity
//
identity::
identity (const url& u)
{
const optional<string>& path (u.path);
// If URL path component is absent then create the identity that
// matches all PKCS#11 entities in the system.
//
if (!path)
return;
for (size_t b (0), e (0), n; (n = next_word (*path, b, e, ';')); )
{
pair<string, string> a (attribute (*path, b, n));
const string& an (a.first);
string& av (a.second);
auto set = [&an] (auto& attr, auto&& val)
{
if (attr)
throw invalid_argument ("duplicate attribute '" + an + "'");
attr = move (val);
};
// Module.
//
if (an == "library-manufacturer")
set (library_manufacturer, move (av));
else if (an == "library-version")
set (library_version, library_version_type (av));
else if (an == "library-description")
set (library_description, move (av));
// Slot.
//
else if (an == "slot-id")
set (slot_id,
static_cast<unsigned long> (
parse_uint64 (av, 0, ~0UL, "slot-id attribute value")));
else if (an == "slot-manufacturer")
set (slot_manufacturer, move (av));
else if (an == "slot-description")
set (slot_description, move (av));
// Token.
//
else if (an == "serial")
set (serial, move (av));
else if (an == "token")
set (token, move (av));
else if (an == "model")
set (model, move (av));
else if (an == "manufacturer")
set (manufacturer, move (av));
// Storage object.
//
else if (an == "id")
set (id, vector<unsigned char> (av.begin (), av.end ()));
else if (an == "object")
set (object, move (av));
else if (an == "type")
set (type, move (av));
else
throw invalid_argument ("unknown attribute '" + an + "'");
}
}
// access
//
access::
access (const url& u)
{
const optional<string>& query (u.query);
// If URL query component is absent then create an object that
// provides no access attributes.
//
if (!query)
return;
for (size_t b (0), e (0), n; (n = next_word (*query, b, e, ';')); )
{
pair<string, string> a (attribute (*query, b, n));
const string& an (a.first);
string& av (a.second);
auto set = [&an] (auto& attr, auto&& val)
{
if (attr)
throw invalid_argument ("duplicate attribute '" + an + "'");
attr = move (val);
};
// Note that unrecognized attributes are ignored (see the traits
// class notes for details).
//
if (an == "pin-source")
set (pin_source, move (av));
else if (an == "pin-value")
set (pin_value, move (av));
else if (an == "module-name")
{
try
{
path p (av);
if (!p.empty () && p.simple ())
{
set (module_name, move (p));
continue;
}
// Fall through.
}
catch (const invalid_path& e)
{
// Fall through.
}
throw invalid_argument (
"invalid value '" + av + "' for module-name attribute");
}
else if (an == "module-path")
{
try
{
path p (move (av));
if (p.relative ())
throw invalid_argument ("relative path '" + p.string () +
"' for module-path attribute");
set (module_path, move (p));
}
catch (const invalid_path& e)
{
throw invalid_argument (
"invalid path '" + e.path + "' for module-path attribute");
}
}
}
if (pin_source && pin_value)
throw invalid_argument (
"both pin-source and pin-value attributes specified");
}
}
}
}
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