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construct/include/ircd/openssl.h

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2018-02-04 03:22:01 +01:00
// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#pragma once
#define HAVE_IRCD_OPENSSL_H
// Forward declarations for OpenSSL because it is not included here. Note
// that these are declared in the extern namespace outside of ircd:: but
// match those in the OpenSSL headers and should not be too much trouble.
struct ssl_st;
struct ssl_ctx_st;
struct ssl_cipher_st;
struct rsa_st;
struct x509_st;
struct x509_store_ctx_st;
struct bignum_st;
struct bignum_ctx;
struct bio_st;
struct evp_pkey_st;
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struct ec_group_st;
struct ec_point_st;
struct ec_key_st;
struct dh_st;
/// OpenSSL library interface. Provides things we need to expose from OpenSSL
/// to the rest of the project.
namespace ircd::openssl
{
IRCD_EXCEPTION(ircd::error, error)
IRCD_EXCEPTION(error, buffer_error)
struct init;
struct bignum;
// typedef analogues
using SSL = ::ssl_st;
using SSL_CTX = ::ssl_ctx_st;
using SSL_CIPHER = ::ssl_cipher_st;
using RSA = ::rsa_st;
using X509 = ::x509_st;
using X509_STORE_CTX = ::x509_store_ctx_st;
using BIGNUM = ::bignum_st;
using BN_CTX = ::bignum_ctx;
using EVP_PKEY = ::evp_pkey_st;
using BIO = ::bio_st;
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using EC_GROUP = ::ec_group_st;
using EC_POINT = ::ec_point_st;
using EC_KEY = ::ec_key_st;
using DH = ::dh_st;
// Observers
string_view error_string(const mutable_buffer &buf, const ulong &);
ulong peek_error();
// Using these will clobber other libraries (like boost); so don't
ulong get_error();
void clear_error();
// Envelope suite
EVP_PKEY &read_pem_pub(EVP_PKEY &out, const string_view &pem);
EVP_PKEY &read_pem_priv(EVP_PKEY &out, const string_view &pem);
string_view write_pem_pub(const mutable_buffer &out, const EVP_PKEY &);
string_view write_pem_priv(const mutable_buffer &out, const EVP_PKEY &);
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void set(EVP_PKEY &out, RSA &in);
void set(EVP_PKEY &out, EC_KEY &in);
// RSA suite
void check(const RSA &);
bool check(const RSA &, std::nothrow_t);
size_t size(const RSA &); // RSA_size() / mod size in bytes
string_view print(const mutable_buffer &buf, const RSA &, const off_t &offset = 0);
RSA &genrsa(RSA &out, const uint &bits = 2048, const uint &e = 0x10001);
void genrsa(const string_view &skfile, const string_view &pkfile, const json::object &opts = {});
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// EC suite
extern const EC_GROUP *secp256k1;
void check(const EC_KEY &);
bool check(const EC_KEY &, const std::nothrow_t);
string_view print(const mutable_buffer &buf, const EC_KEY &, const off_t &offset = 0);
void genec(const string_view &skfile, const string_view &pkfile, const EC_GROUP *const & = secp256k1);
// DH suite
extern const size_t DH_DEFAULT_GEN;
extern const size_t DH_DEFAULT_BITS;
extern const string_view rfc3526_dh_params_pem;
DH &gendh(DH &, const uint &bits = DH_DEFAULT_BITS, const uint &gen = DH_DEFAULT_GEN);
string_view gendh(const mutable_buffer &, const uint &bits = DH_DEFAULT_BITS, const uint &gen = DH_DEFAULT_GEN);
void gendh(const string_view &dhfile, const uint &bits = DH_DEFAULT_BITS, const uint &gen = DH_DEFAULT_GEN);
// X.509 suite
const_buffer i2d(const mutable_buffer &out, const X509 &);
const_buffer cert2d(const mutable_buffer &out, const string_view &pem);
X509 &read_pem(X509 &out, const string_view &pem);
string_view write_pem(const mutable_buffer &out, const X509 &);
string_view print(const mutable_buffer &buf, const X509 &, ulong flags = -1);
string_view printX509(const mutable_buffer &buf, const string_view &pem, ulong flags = -1);
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string_view genX509(const mutable_buffer &out, EVP_PKEY &, const json::object &opts);
string_view genX509_rsa(const mutable_buffer &out, const json::object &opts);
string_view genX509_ec(const mutable_buffer &out, const json::object &opts);
string_view print_subject(const mutable_buffer &buf, const X509 &, ulong flags = -1);
string_view print_subject(const mutable_buffer &buf, const string_view &pem, ulong flags = -1);
string_view subject_common_name(const mutable_buffer &out, const X509 &);
time_t not_before(const X509 &);
time_t not_after(const X509 &);
std::string stringify(const X509 &);
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const X509 &peer_cert(const SSL &);
X509 &peer_cert(SSL &);
const X509 &cert(const SSL_CTX &);
X509 &cert(SSL_CTX &);
int get_error(const X509_STORE_CTX &);
const char *cert_error_string(const long &);
const char *get_error_string(const X509_STORE_CTX &);
uint get_error_depth(const X509_STORE_CTX &);
const X509 &current_cert(const X509_STORE_CTX &);
X509 &current_cert(X509_STORE_CTX &);
// Cipher suite
string_view name(const SSL_CIPHER &);
const SSL_CIPHER *current_cipher(const SSL &);
string_view shared_ciphers(const mutable_buffer &buf, const SSL &);
string_view cipher_list(const SSL &, const int &priority);
std::string cipher_list(const SSL_CTX &, const int &priority = 0);
void set_cipher_list(SSL &, const std::string &list);
void set_cipher_list(SSL_CTX &, const std::string &list);
void set_ecdh_auto(SSL_CTX &, const bool & = true);
void set_ecdh_auto(SSL &, const bool & = true);
void set_tmp_ecdh(SSL_CTX &, EC_KEY &);
void set_curves(SSL_CTX &, std::string list);
void set_curves(SSL &, std::string list);
void set_app_data(SSL &, void *const &);
void *get_app_data(SSL &) noexcept;
// SNI suite
string_view server_name(const SSL &); // provided by client
void server_name(SSL &, const string_view &); // set by client
// Header version; library version
extern const info::versions version_api, version_abi;
extern const info::versions libressl_version_api;
}
/// OpenSSL BIO convenience utils and wraps; also secure file IO closures
namespace ircd::openssl::bio
{
// Presents a memory BIO closure hiding boilerplate
using closure = std::function<void (BIO *const &)>;
string_view write(const mutable_buffer &, const closure &);
void read(const const_buffer &, const closure &);
// Presents a secure buffer file IO closure for writing to path
using mb_closure = std::function<string_view (const mutable_buffer &)>;
void write_file(const string_view &path, const mb_closure &closure, const size_t &bufsz = 64_KiB);
// Presents a secure buffer file IO closure with data read from path
using cb_closure = std::function<void (const string_view &)>;
void read_file(const string_view &path, const cb_closure &closure);
}
// OpenSSL BIGNUM convenience utils and wraps.
namespace ircd::openssl
{
size_t size(const BIGNUM *const &); // bytes binary
mutable_buffer data(const mutable_buffer &out, const BIGNUM *const &); // le
string_view u2a(const mutable_buffer &out, const BIGNUM *const &);
}
/// Light semantic-complete wrapper for BIGNUM.
class ircd::openssl::bignum
{
BIGNUM *a;
public:
const BIGNUM *get() const;
BIGNUM *get();
BIGNUM *release();
size_t bits() const;
size_t bytes() const;
explicit operator uint128_t() const;
operator const BIGNUM *() const;
operator const BIGNUM &() const;
operator BIGNUM *const &();
operator BIGNUM **();
operator BIGNUM &();
// default constructor does not BN_new()
bignum()
:a{nullptr}
{}
// acquisitional constructor for OpenSSL API return values
explicit bignum(BIGNUM *const &a)
:a{a}
{}
explicit bignum(const uint128_t &val);
bignum(const const_buffer &bin); // le
explicit bignum(const BIGNUM &a);
bignum(const bignum &);
bignum(bignum &&) noexcept;
bignum &operator=(const bignum &);
bignum &operator=(bignum &&) noexcept;
~bignum() noexcept;
};
struct ircd::openssl::init
{
init();
~init() noexcept;
};