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/*
* (C) 2010,2014,2015 Jack Lloyd
* (C) 2015 René Korthaus
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include "cli.h"
#if defined(BOTAN_HAS_PUBLIC_KEY_CRYPTO)
#include <botan/base64.h>
#include <botan/hex.h>
#include <botan/pk_keys.h>
#include <botan/x509_key.h>
#include <botan/pk_algs.h>
#include <botan/pkcs8.h>
#include <botan/pubkey.h>
#include <botan/workfactor.h>
#include <botan/data_src.h>
#if defined(BOTAN_HAS_DL_GROUP)
#include <botan/dl_group.h>
#endif
#if defined(BOTAN_HAS_ECC_GROUP)
#include <botan/ec_group.h>
#endif
namespace Botan_CLI {
class PK_Keygen final : public Command
{
public:
PK_Keygen() : Command("keygen --algo=RSA --params= --passphrase= --pbe= --pbe-millis=300 --provider= --der-out") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Generate a PKCS #8 private key";
}
void go() override
{
const std::string algo = get_arg("algo");
const std::string params = get_arg("params");
const std::string provider = get_arg("provider");
std::unique_ptr<Botan::Private_Key> key =
Botan::create_private_key(algo, rng(), params, provider);
if(!key)
{
throw CLI_Error_Unsupported("keygen", algo);
}
const std::string pass = get_arg("passphrase");
const bool der_out = flag_set("der-out");
const std::chrono::milliseconds pbe_millis(get_arg_sz("pbe-millis"));
const std::string pbe = get_arg("pbe");
if(der_out)
{
if(pass.empty())
{
write_output(Botan::PKCS8::BER_encode(*key));
}
else
{
write_output(Botan::PKCS8::BER_encode(*key, rng(), pass, pbe_millis, pbe));
}
}
else
{
if(pass.empty())
{
output() << Botan::PKCS8::PEM_encode(*key);
}
else
{
output() << Botan::PKCS8::PEM_encode(*key, rng(), pass, pbe_millis, pbe);
}
}
}
};
BOTAN_REGISTER_COMMAND("keygen", PK_Keygen);
#if defined(BOTAN_TARGET_OS_HAS_FILESYSTEM)
namespace {
std::string algo_default_emsa(const std::string& key)
{
if(key == "RSA")
{
return "EMSA4";
} // PSS
else if(key == "ECDSA" || key == "DSA")
{
return "EMSA1";
}
else
{
return "EMSA1";
}
}
}
class PK_Fingerprint final : public Command
{
public:
PK_Fingerprint() : Command("fingerprint --no-fsname --algo=SHA-256 *keys") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Calculate a public key fingerprint";
}
void go() override
{
const std::string hash_algo = get_arg("algo");
const bool no_fsname = flag_set("no-fsname");
for(std::string key_file : get_arg_list("keys"))
{
std::unique_ptr<Botan::Public_Key> key(Botan::X509::load_key(key_file));
const std::string fprint = key->fingerprint_public(hash_algo);
if(no_fsname)
output() << fprint << "\n";
else
output() << key_file << ": " << fprint << "\n";
}
}
};
BOTAN_REGISTER_COMMAND("fingerprint", PK_Fingerprint);
class PK_Sign final : public Command
{
public:
PK_Sign() : Command("sign --der-format --passphrase= --hash=SHA-256 --emsa= --provider= key file") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Sign arbitrary data";
}
void go() override
{
std::unique_ptr<Botan::Private_Key> key(
Botan::PKCS8::load_key(
get_arg("key"),
rng(),
get_arg("passphrase")));
if(!key)
{
throw CLI_Error("Unable to load private key");
}
const std::string sig_padding =
get_arg_or("emsa", algo_default_emsa(key->algo_name())) + "(" + get_arg("hash") + ")";
const Botan::Signature_Format format =
flag_set("der-format") ? Botan::DER_SEQUENCE : Botan::IEEE_1363;
const std::string provider = get_arg("provider");
Botan::PK_Signer signer(*key, rng(), sig_padding, format, provider);
auto onData = [&signer](const uint8_t b[], size_t l)
{
signer.update(b, l);
};
this->read_file(get_arg("file"), onData);
output() << Botan::base64_encode(signer.signature(rng())) << "\n";
}
};
BOTAN_REGISTER_COMMAND("sign", PK_Sign);
class PK_Verify final : public Command
{
public:
PK_Verify() : Command("verify --der-format --hash=SHA-256 --emsa= pubkey file signature") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Verify the authenticity of the given file with the provided signature";
}
void go() override
{
std::unique_ptr<Botan::Public_Key> key(Botan::X509::load_key(get_arg("pubkey")));
if(!key)
{
throw CLI_Error("Unable to load public key");
}
const std::string sig_padding =
get_arg_or("emsa", algo_default_emsa(key->algo_name())) + "(" + get_arg("hash") + ")";
const Botan::Signature_Format format =
flag_set("der-format") ? Botan::DER_SEQUENCE : Botan::IEEE_1363;
Botan::PK_Verifier verifier(*key, sig_padding, format);
auto onData = [&verifier](const uint8_t b[], size_t l)
{
verifier.update(b, l);
};
this->read_file(get_arg("file"), onData);
const Botan::secure_vector<uint8_t> signature =
Botan::base64_decode(this->slurp_file_as_str(get_arg("signature")));
const bool valid = verifier.check_signature(signature);
output() << "Signature is " << (valid ? "valid" : "invalid") << "\n";
}
};
BOTAN_REGISTER_COMMAND("verify", PK_Verify);
class PKCS8_Tool final : public Command
{
public:
PKCS8_Tool() : Command("pkcs8 --pass-in= --pub-out --der-out --pass-out= --pbe= --pbe-millis=300 key") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Open a PKCS #8 formatted key";
}
void go() override
{
const std::string pass_in = get_arg("pass-in");
Botan::DataSource_Memory key_src(slurp_file(get_arg("key")));
std::unique_ptr<Botan::Private_Key> key;
if(pass_in.empty())
{
key.reset(Botan::PKCS8::load_key(key_src, rng()));
}
else
{
key.reset(Botan::PKCS8::load_key(key_src, rng(), pass_in));
}
const std::chrono::milliseconds pbe_millis(get_arg_sz("pbe-millis"));
const std::string pbe = get_arg("pbe");
const bool der_out = flag_set("der-out");
if(flag_set("pub-out"))
{
if(der_out)
{
write_output(Botan::X509::BER_encode(*key));
}
else
{
output() << Botan::X509::PEM_encode(*key);
}
}
else
{
const std::string pass_out = get_arg("pass-out");
if(der_out)
{
if(pass_out.empty())
{
write_output(Botan::PKCS8::BER_encode(*key));
}
else
{
write_output(Botan::PKCS8::BER_encode(*key, rng(), pass_out, pbe_millis, pbe));
}
}
else
{
if(pass_out.empty())
{
output() << Botan::PKCS8::PEM_encode(*key);
}
else
{
output() << Botan::PKCS8::PEM_encode(*key, rng(), pass_out, pbe_millis, pbe);
}
}
}
}
};
BOTAN_REGISTER_COMMAND("pkcs8", PKCS8_Tool);
#endif
#if defined(BOTAN_HAS_ECC_GROUP)
class EC_Group_Info final : public Command
{
public:
EC_Group_Info() : Command("ec_group_info --pem name") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Print raw elliptic curve domain parameters of the standarized curve name";
}
void go() override
{
Botan::EC_Group group(get_arg("name"));
if(flag_set("pem"))
{
output() << group.PEM_encode();
}
else
{
output() << "P = " << std::hex << group.get_p() << "\n"
<< "A = " << std::hex << group.get_a() << "\n"
<< "B = " << std::hex << group.get_b() << "\n"
<< "N = " << std::hex << group.get_order() << "\n"
<< "G = " << group.get_g_x() << "," << group.get_g_y() << "\n";
}
}
};
BOTAN_REGISTER_COMMAND("ec_group_info", EC_Group_Info);
#endif
#if defined(BOTAN_HAS_DL_GROUP)
class DL_Group_Info final : public Command
{
public:
DL_Group_Info() : Command("dl_group_info --pem name") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Print raw Diffie-Hellman parameters (p,g) of the standarized DH group name";
}
void go() override
{
Botan::DL_Group group(get_arg("name"));
if(flag_set("pem"))
{
output() << group.PEM_encode(Botan::DL_Group::ANSI_X9_42_DH_PARAMETERS);
}
else
{
output() << "P = " << std::hex << group.get_p() << "\n"
<< "G = " << group.get_g() << "\n";
}
}
};
BOTAN_REGISTER_COMMAND("dl_group_info", DL_Group_Info);
class PK_Workfactor final : public Command
{
public:
PK_Workfactor() : Command("pk_workfactor --type=rsa bits") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Provide estimate of strength of public key based on size";
}
void go() override
{
const size_t bits = get_arg_sz("bits");
const std::string type = get_arg("type");
if(type == "rsa")
output() << Botan::if_work_factor(bits) << "\n";
else if(type == "dl")
output() << Botan::dl_work_factor(bits) << "\n";
else if(type == "dl_exp")
output() << Botan::dl_exponent_size(bits) << "\n";
else
throw CLI_Usage_Error("Unknown type for pk_workfactor");
}
};
BOTAN_REGISTER_COMMAND("pk_workfactor", PK_Workfactor);
class Gen_DL_Group final : public Command
{
public:
Gen_DL_Group() : Command("gen_dl_group --pbits=1024 --qbits=0 --seed= --type=subgroup") {}
std::string group() const override
{
return "pubkey";
}
std::string description() const override
{
return "Generate ANSI X9.42 encoded Diffie-Hellman group parameters";
}
void go() override
{
const size_t pbits = get_arg_sz("pbits");
const size_t qbits = get_arg_sz("qbits");
const std::string type = get_arg("type");
const std::string seed_str = get_arg("seed");
if(type == "strong")
{
if(seed_str.size() > 0)
throw CLI_Usage_Error("Seed only supported for DSA param gen");
Botan::DL_Group grp(rng(), Botan::DL_Group::Strong, pbits);
output() << grp.PEM_encode(Botan::DL_Group::ANSI_X9_42);
}
else if(type == "subgroup")
{
if(seed_str.size() > 0)
throw CLI_Usage_Error("Seed only supported for DSA param gen");
Botan::DL_Group grp(rng(), Botan::DL_Group::Prime_Subgroup, pbits, qbits);
output() << grp.PEM_encode(Botan::DL_Group::ANSI_X9_42);
}
else if(type == "dsa")
{
size_t dsa_qbits = qbits;
if(dsa_qbits == 0)
{
if(pbits == 1024)
dsa_qbits = 160;
else if(pbits == 2048 || pbits == 3072)
dsa_qbits = 256;
else
throw CLI_Usage_Error("Invalid DSA p/q sizes");
}
if(seed_str.empty())
{
Botan::DL_Group grp(rng(), Botan::DL_Group::DSA_Kosherizer, pbits, dsa_qbits);
output() << grp.PEM_encode(Botan::DL_Group::ANSI_X9_42);
}
else
{
const std::vector<uint8_t> seed = Botan::hex_decode(seed_str);
Botan::DL_Group grp(rng(), seed, pbits, dsa_qbits);
output() << grp.PEM_encode(Botan::DL_Group::ANSI_X9_42);
}
}
else
{
throw CLI_Usage_Error("Invalid DL type '" + type + "'");
}
}
};
BOTAN_REGISTER_COMMAND("gen_dl_group", Gen_DL_Group);
#endif
}
#endif
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