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/*
* (C) 2014,2015 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#ifndef BOTAN_ALGO_REGISTRY_H__
#define BOTAN_ALGO_REGISTRY_H__
#include <botan/types.h>
#include <functional>
#include <stdexcept>
#include <mutex>
#include <vector>
#include <map>
#include <string>
#include <unordered_map>
#if defined(_MSC_VER) && (_MSC_VER <= 1800)
#define BOTAN_WORKAROUND_GH_321
#define NOMINMAX 1
#define WIN32_LEAN_AND_MEAN 1
#include <Windows.h>
#endif
namespace Botan {
#if defined(BOTAN_WORKAROUND_GH_321)
class WinCS_Mutex
{
public:
WinCS_Mutex()
{
InitializeCriticalSection(&m_cs);
}
~WinCS_Mutex()
{
DeleteCriticalSection(&m_cs);
}
void lock()
{
EnterCriticalSection(&m_cs);
}
void unlock()
{
LeaveCriticalSection(&m_cs);
}
private:
CRITICAL_SECTION m_cs;
};
#endif
template<typename T>
class Algo_Registry
{
public:
typedef typename T::Spec Spec;
typedef std::function<T* (const Spec&)> maker_fn;
static Algo_Registry<T>& global_registry()
{
static Algo_Registry<T> g_registry;
return g_registry;
}
void add(const std::string& name, const std::string& provider, maker_fn fn, byte pref)
{
std::lock_guard<mutex> lock(m_mutex);
if(!m_algo_info[name].add_provider(provider, fn, pref))
throw std::runtime_error("Duplicated registration of " + name + "/" + provider);
}
std::vector<std::string> providers_of(const Spec& spec)
{
std::lock_guard<mutex> lock(m_mutex);
auto i = m_algo_info.find(spec.algo_name());
if(i != m_algo_info.end())
return i->second.providers();
return std::vector<std::string>();
}
void set_provider_preference(const Spec& spec, const std::string& provider, byte pref)
{
std::lock_guard<mutex> lock(m_mutex);
auto i = m_algo_info.find(spec.algo_name());
if(i != m_algo_info.end())
i->second.set_pref(provider, pref);
}
T* make(const Spec& spec, const std::string& provider = "")
{
const std::vector<maker_fn> makers = get_makers(spec, provider);
try
{
for(auto&& maker : makers)
{
if(T* t = maker(spec))
return t;
}
}
catch(std::exception& e)
{
throw std::runtime_error("Creating '" + spec.as_string() + "' failed: " + e.what());
}
return nullptr;
}
class Add
{
public:
Add(const std::string& basename, maker_fn fn, const std::string& provider, byte pref)
{
Algo_Registry<T>::global_registry().add(basename, provider, fn, pref);
}
Add(bool cond, const std::string& basename, maker_fn fn, const std::string& provider, byte pref)
{
if(cond)
Algo_Registry<T>::global_registry().add(basename, provider, fn, pref);
}
};
private:
#if defined(BOTAN_WORKAROUND_GH_321)
using mutex = WinCS_Mutex;
#else
using mutex = std::mutex;
#endif
Algo_Registry() { }
std::vector<maker_fn> get_makers(const Spec& spec, const std::string& provider)
{
std::lock_guard<mutex> lock(m_mutex);
return m_algo_info[spec.algo_name()].get_makers(provider);
}
struct Algo_Info
{
public:
bool add_provider(const std::string& provider, maker_fn fn, byte pref)
{
if(m_maker_fns.count(provider) > 0)
return false;
m_maker_fns[provider] = fn;
m_prefs.insert(std::make_pair(pref, provider));
return true;
}
std::vector<std::string> providers() const
{
std::vector<std::string> v;
for(auto&& k : m_prefs)
v.push_back(k.second);
return v;
}
void set_pref(const std::string& provider, byte pref)
{
auto i = m_prefs.begin();
while(i != m_prefs.end())
{
if(i->second == provider)
i = m_prefs.erase(i);
else
++i;
}
m_prefs.insert(std::make_pair(pref, provider));
}
std::vector<maker_fn> get_makers(const std::string& req_provider)
{
std::vector<maker_fn> r;
if(req_provider != "")
{
// find one explicit provider requested by user or fail
auto i = m_maker_fns.find(req_provider);
if(i != m_maker_fns.end())
r.push_back(i->second);
}
else
{
for(auto&& pref : m_prefs)
r.push_back(m_maker_fns[pref.second]);
}
return r;
}
private:
std::multimap<byte, std::string, std::greater<byte>> m_prefs;
std::unordered_map<std::string, maker_fn> m_maker_fns;
};
mutex m_mutex;
std::unordered_map<std::string, Algo_Info> m_algo_info;
};
template<typename T> T*
make_a(const typename T::Spec& spec, const std::string provider = "")
{
return Algo_Registry<T>::global_registry().make(spec, provider);
}
template<typename T> std::vector<std::string> providers_of(const typename T::Spec& spec)
{
return Algo_Registry<T>::global_registry().providers_of(spec);
}
template<typename T> T*
make_new_T(const typename Algo_Registry<T>::Spec& spec)
{
if(spec.arg_count() == 0)
return new T;
return nullptr;
}
template<typename T, size_t DEF_VAL> T*
make_new_T_1len(const typename Algo_Registry<T>::Spec& spec)
{
return new T(spec.arg_as_integer(0, DEF_VAL));
}
template<typename T, size_t DEF1, size_t DEF2> T*
make_new_T_2len(const typename Algo_Registry<T>::Spec& spec)
{
return new T(spec.arg_as_integer(0, DEF1), spec.arg_as_integer(1, DEF2));
}
template<typename T> T*
make_new_T_1str(const typename Algo_Registry<T>::Spec& spec, const std::string& def)
{
return new T(spec.arg(0, def));
}
template<typename T> T*
make_new_T_1str_req(const typename Algo_Registry<T>::Spec& spec)
{
return new T(spec.arg(0));
}
template<typename T, typename X> T*
make_new_T_1X(const typename Algo_Registry<T>::Spec& spec)
{
std::unique_ptr<X> x(Algo_Registry<X>::global_registry().make(spec.arg(0)));
if(!x)
throw std::runtime_error(spec.arg(0));
return new T(x.release());
}
// Append to macros living outside of functions, so that invocations must end with a semicolon.
// The struct is only declared to force the semicolon, it is never defined.
#define BOTAN_FORCE_SEMICOLON struct BOTAN_DUMMY_STRUCT
#define BOTAN_REGISTER_TYPE(T, type, name, maker, provider, pref) \
namespace { Algo_Registry<T>::Add g_ ## type ## _reg(name, maker, provider, pref); } \
BOTAN_FORCE_SEMICOLON
#define BOTAN_REGISTER_TYPE_COND(cond, T, type, name, maker, provider, pref) \
namespace { Algo_Registry<T>::Add g_ ## type ## _reg(cond, name, maker, provider, pref); } \
BOTAN_FORCE_SEMICOLON
#define BOTAN_DEFAULT_ALGORITHM_PRIO 100
#define BOTAN_SIMD_ALGORITHM_PRIO 110
#define BOTAN_REGISTER_NAMED_T(T, name, type, maker) \
BOTAN_REGISTER_TYPE(T, type, name, maker, "base", BOTAN_DEFAULT_ALGORITHM_PRIO)
#define BOTAN_REGISTER_T(T, type, maker) \
BOTAN_REGISTER_TYPE(T, type, #type, maker, "base", BOTAN_DEFAULT_ALGORITHM_PRIO)
#define BOTAN_REGISTER_T_NOARGS(T, type) \
BOTAN_REGISTER_TYPE(T, type, #type, make_new_T<type>, "base", BOTAN_DEFAULT_ALGORITHM_PRIO)
#define BOTAN_REGISTER_T_1LEN(T, type, def) \
BOTAN_REGISTER_TYPE(T, type, #type, (make_new_T_1len<type,def>), "base", BOTAN_DEFAULT_ALGORITHM_PRIO)
#define BOTAN_REGISTER_NAMED_T_NOARGS(T, type, name, provider) \
BOTAN_REGISTER_TYPE(T, type, name, make_new_T<type>, provider, BOTAN_DEFAULT_ALGORITHM_PRIO)
#define BOTAN_COND_REGISTER_NAMED_T_NOARGS(cond, T, type, name, provider, pref) \
BOTAN_REGISTER_TYPE_COND(cond, T, type, name, make_new_T<type>, provider, pref)
#define BOTAN_REGISTER_NAMED_T_2LEN(T, type, name, provider, len1, len2) \
BOTAN_REGISTER_TYPE(T, type, name, (make_new_T_2len<type,len1,len2>), provider, BOTAN_DEFAULT_ALGORITHM_PRIO)
// TODO move elsewhere:
#define BOTAN_REGISTER_TRANSFORM(name, maker) BOTAN_REGISTER_T(Transform, name, maker)
#define BOTAN_REGISTER_TRANSFORM_NOARGS(name) BOTAN_REGISTER_T_NOARGS(Transform, name)
}
#endif
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