# # Copyright (C) 2014 FreeIPA Contributors see COPYING for license # import random import ctypes.util import binascii import six from cryptography.hazmat.backends import default_backend from cryptography.hazmat.primitives import serialization from cryptography.hazmat.primitives.asymmetric import dsa, ec, rsa from cffi import FFI if six.PY3: unicode = str _ffi = FFI() _ffi.cdef(''' /* p11-kit/pkcs11.h */ typedef unsigned long CK_FLAGS; struct _CK_VERSION { unsigned char major; unsigned char minor; }; typedef unsigned long CK_SLOT_ID; typedef unsigned long CK_SESSION_HANDLE; typedef unsigned long CK_USER_TYPE; typedef unsigned long CK_OBJECT_HANDLE; typedef unsigned long CK_OBJECT_CLASS; typedef unsigned long CK_KEY_TYPE; typedef unsigned long CK_ATTRIBUTE_TYPE; struct _CK_ATTRIBUTE { CK_ATTRIBUTE_TYPE type; void *pValue; unsigned long ulValueLen; }; typedef unsigned long CK_MECHANISM_TYPE; struct _CK_MECHANISM { CK_MECHANISM_TYPE mechanism; void *pParameter; unsigned long ulParameterLen; }; typedef unsigned long CK_RV; typedef ... *CK_NOTIFY; struct _CK_FUNCTION_LIST; typedef CK_RV (*CK_C_Initialize) (void *init_args); typedef CK_RV (*CK_C_Finalize) (void *pReserved); typedef ... *CK_C_GetInfo; typedef ... *CK_C_GetFunctionList; CK_RV C_GetFunctionList (struct _CK_FUNCTION_LIST **function_list); typedef ... *CK_C_GetSlotList; typedef ... *CK_C_GetSlotInfo; typedef ... *CK_C_GetTokenInfo; typedef ... *CK_C_WaitForSlotEvent; typedef ... *CK_C_GetMechanismList; typedef ... *CK_C_GetMechanismInfo; typedef ... *CK_C_InitToken; typedef ... *CK_C_InitPIN; typedef ... *CK_C_SetPIN; typedef CK_RV (*CK_C_OpenSession) (CK_SLOT_ID slotID, CK_FLAGS flags, void *application, CK_NOTIFY notify, CK_SESSION_HANDLE *session); typedef CK_RV (*CK_C_CloseSession) (CK_SESSION_HANDLE session); typedef ... *CK_C_CloseAllSessions; typedef ... *CK_C_GetSessionInfo; typedef ... *CK_C_GetOperationState; typedef ... *CK_C_SetOperationState; typedef CK_RV (*CK_C_Login) (CK_SESSION_HANDLE session, CK_USER_TYPE user_type, unsigned char *pin, unsigned long pin_len); typedef CK_RV (*CK_C_Logout) (CK_SESSION_HANDLE session); typedef CK_RV (*CK_C_CreateObject) (CK_SESSION_HANDLE session, struct _CK_ATTRIBUTE *templ, unsigned long count, CK_OBJECT_HANDLE *object); typedef ... *CK_C_CopyObject; typedef CK_RV (*CK_C_DestroyObject) (CK_SESSION_HANDLE session, CK_OBJECT_HANDLE object); typedef ... *CK_C_GetObjectSize; typedef CK_RV (*CK_C_GetAttributeValue) (CK_SESSION_HANDLE session, CK_OBJECT_HANDLE object, struct _CK_ATTRIBUTE *templ, unsigned long count); typedef CK_RV (*CK_C_SetAttributeValue) (CK_SESSION_HANDLE session, CK_OBJECT_HANDLE object, struct _CK_ATTRIBUTE *templ, unsigned long count); typedef CK_RV (*CK_C_FindObjectsInit) (CK_SESSION_HANDLE session, struct _CK_ATTRIBUTE *templ, unsigned long count); typedef CK_RV (*CK_C_FindObjects) (CK_SESSION_HANDLE session, CK_OBJECT_HANDLE *object, unsigned long max_object_count, unsigned long *object_count); typedef CK_RV (*CK_C_FindObjectsFinal) (CK_SESSION_HANDLE session); typedef ... *CK_C_EncryptInit; typedef ... *CK_C_Encrypt; typedef ... *CK_C_EncryptUpdate; typedef ... *CK_C_EncryptFinal; typedef ... *CK_C_DecryptInit; typedef ... *CK_C_Decrypt; typedef ... *CK_C_DecryptUpdate; typedef ... *CK_C_DecryptFinal; typedef ... *CK_C_DigestInit; typedef ... *CK_C_Digest; typedef ... *CK_C_DigestUpdate; typedef ... *CK_C_DigestKey; typedef ... *CK_C_DigestFinal; typedef ... *CK_C_SignInit; typedef ... *CK_C_Sign; typedef ... *CK_C_SignUpdate; typedef ... *CK_C_SignFinal; typedef ... *CK_C_SignRecoverInit; typedef ... *CK_C_SignRecover; typedef ... *CK_C_VerifyInit; typedef ... *CK_C_Verify; typedef ... *CK_C_VerifyUpdate; typedef ... *CK_C_VerifyFinal; typedef ... *CK_C_VerifyRecoverInit; typedef ... *CK_C_VerifyRecover; typedef ... *CK_C_DigestEncryptUpdate; typedef ... *CK_C_DecryptDigestUpdate; typedef ... *CK_C_SignEncryptUpdate; typedef ... *CK_C_DecryptVerifyUpdate; typedef CK_RV (*CK_C_GenerateKey) (CK_SESSION_HANDLE session, struct _CK_MECHANISM *mechanism, struct _CK_ATTRIBUTE *templ, unsigned long count, CK_OBJECT_HANDLE *key); typedef CK_RV (*CK_C_GenerateKeyPair) (CK_SESSION_HANDLE session, struct _CK_MECHANISM *mechanism, struct _CK_ATTRIBUTE * public_key_template, unsigned long public_key_attribute_count, struct _CK_ATTRIBUTE * private_key_template, unsigned long private_key_attribute_count, CK_OBJECT_HANDLE *public_key, CK_OBJECT_HANDLE *private_key); typedef CK_RV (*CK_C_WrapKey) (CK_SESSION_HANDLE session, struct _CK_MECHANISM *mechanism, CK_OBJECT_HANDLE wrapping_key, CK_OBJECT_HANDLE key, unsigned char *wrapped_key, unsigned long *wrapped_key_len); typedef CK_RV (*CK_C_UnwrapKey) (CK_SESSION_HANDLE session, struct _CK_MECHANISM *mechanism, CK_OBJECT_HANDLE unwrapping_key, unsigned char *wrapped_key, unsigned long wrapped_key_len, struct _CK_ATTRIBUTE *templ, unsigned long attribute_count, CK_OBJECT_HANDLE *key); typedef ... *CK_C_DeriveKey; typedef ... *CK_C_SeedRandom; typedef ... *CK_C_GenerateRandom; typedef ... *CK_C_GetFunctionStatus; typedef ... *CK_C_CancelFunction; struct _CK_FUNCTION_LIST { struct _CK_VERSION version; CK_C_Initialize C_Initialize; CK_C_Finalize C_Finalize; CK_C_GetInfo C_GetInfo; CK_C_GetFunctionList C_GetFunctionList; CK_C_GetSlotList C_GetSlotList; CK_C_GetSlotInfo C_GetSlotInfo; CK_C_GetTokenInfo C_GetTokenInfo; CK_C_GetMechanismList C_GetMechanismList; CK_C_GetMechanismInfo C_GetMechanismInfo; CK_C_InitToken C_InitToken; CK_C_InitPIN C_InitPIN; CK_C_SetPIN C_SetPIN; CK_C_OpenSession C_OpenSession; CK_C_CloseSession C_CloseSession; CK_C_CloseAllSessions C_CloseAllSessions; CK_C_GetSessionInfo C_GetSessionInfo; CK_C_GetOperationState C_GetOperationState; CK_C_SetOperationState C_SetOperationState; CK_C_Login C_Login; CK_C_Logout C_Logout; CK_C_CreateObject C_CreateObject; CK_C_CopyObject C_CopyObject; CK_C_DestroyObject C_DestroyObject; CK_C_GetObjectSize C_GetObjectSize; CK_C_GetAttributeValue C_GetAttributeValue; CK_C_SetAttributeValue C_SetAttributeValue; CK_C_FindObjectsInit C_FindObjectsInit; CK_C_FindObjects C_FindObjects; CK_C_FindObjectsFinal C_FindObjectsFinal; CK_C_EncryptInit C_EncryptInit; CK_C_Encrypt C_Encrypt; CK_C_EncryptUpdate C_EncryptUpdate; CK_C_EncryptFinal C_EncryptFinal; CK_C_DecryptInit C_DecryptInit; CK_C_Decrypt C_Decrypt; CK_C_DecryptUpdate C_DecryptUpdate; CK_C_DecryptFinal C_DecryptFinal; CK_C_DigestInit C_DigestInit; CK_C_Digest C_Digest; CK_C_DigestUpdate C_DigestUpdate; CK_C_DigestKey C_DigestKey; CK_C_DigestFinal C_DigestFinal; CK_C_SignInit C_SignInit; CK_C_Sign C_Sign; CK_C_SignUpdate C_SignUpdate; CK_C_SignFinal C_SignFinal; CK_C_SignRecoverInit C_SignRecoverInit; CK_C_SignRecover C_SignRecover; CK_C_VerifyInit C_VerifyInit; CK_C_Verify C_Verify; CK_C_VerifyUpdate C_VerifyUpdate; CK_C_VerifyFinal C_VerifyFinal; CK_C_VerifyRecoverInit C_VerifyRecoverInit; CK_C_VerifyRecover C_VerifyRecover; CK_C_DigestEncryptUpdate C_DigestEncryptUpdate; CK_C_DecryptDigestUpdate C_DecryptDigestUpdate; CK_C_SignEncryptUpdate C_SignEncryptUpdate; CK_C_DecryptVerifyUpdate C_DecryptVerifyUpdate; CK_C_GenerateKey C_GenerateKey; CK_C_GenerateKeyPair C_GenerateKeyPair; CK_C_WrapKey C_WrapKey; CK_C_UnwrapKey C_UnwrapKey; CK_C_DeriveKey C_DeriveKey; CK_C_SeedRandom C_SeedRandom; CK_C_GenerateRandom C_GenerateRandom; CK_C_GetFunctionStatus C_GetFunctionStatus; CK_C_CancelFunction C_CancelFunction; CK_C_WaitForSlotEvent C_WaitForSlotEvent; }; typedef unsigned char CK_BYTE; typedef unsigned char CK_UTF8CHAR; typedef unsigned char CK_BBOOL; typedef unsigned long int CK_ULONG; typedef CK_BYTE *CK_BYTE_PTR; typedef CK_ULONG *CK_ULONG_PTR; typedef CK_OBJECT_HANDLE *CK_OBJECT_HANDLE_PTR; typedef struct _CK_ATTRIBUTE CK_ATTRIBUTE; typedef struct _CK_ATTRIBUTE *CK_ATTRIBUTE_PTR; typedef struct _CK_MECHANISM CK_MECHANISM; typedef struct _CK_FUNCTION_LIST *CK_FUNCTION_LIST_PTR; /* p11-kit/uri.h */ typedef enum { DUMMY /* ..., */ } P11KitUriType; typedef ... P11KitUri; CK_ATTRIBUTE_PTR p11_kit_uri_get_attributes (P11KitUri *uri, CK_ULONG *n_attrs); int p11_kit_uri_any_unrecognized (P11KitUri *uri); P11KitUri* p11_kit_uri_new (void); int p11_kit_uri_parse (const char *string, P11KitUriType uri_type, P11KitUri *uri); void p11_kit_uri_free (P11KitUri *uri); /* p11helper.c */ struct ck_rsa_pkcs_oaep_params { CK_MECHANISM_TYPE hash_alg; unsigned long mgf; unsigned long source; void *source_data; unsigned long source_data_len; }; typedef struct ck_rsa_pkcs_oaep_params CK_RSA_PKCS_OAEP_PARAMS; ''') _libp11_kit = _ffi.dlopen(ctypes.util.find_library('p11-kit')) # utility NULL = _ffi.NULL unsigned_char = _ffi.typeof('unsigned char') unsigned_long = _ffi.typeof('unsigned long') sizeof = _ffi.sizeof def new_ptr(ctype, *args): return _ffi.new(_ffi.getctype(ctype, '*'), *args) def new_array(ctype, *args): return _ffi.new(_ffi.getctype(ctype, '[]'), *args) # p11-kit/pkcs11.h CK_SESSION_HANDLE = _ffi.typeof('CK_SESSION_HANDLE') CK_OBJECT_HANDLE = _ffi.typeof('CK_OBJECT_HANDLE') CKU_USER = 1 CKF_RW_SESSION = 0x2 CKF_SERIAL_SESSION = 0x4 CK_OBJECT_CLASS = _ffi.typeof('CK_OBJECT_CLASS') CKO_PUBLIC_KEY = 2 CKO_PRIVATE_KEY = 3 CKO_SECRET_KEY = 4 CKO_VENDOR_DEFINED = 0x80000000 CK_KEY_TYPE = _ffi.typeof('CK_KEY_TYPE') CKK_RSA = 0 CKK_AES = 0x1f CKA_CLASS = 0 CKA_TOKEN = 1 CKA_PRIVATE = 2 CKA_LABEL = 3 CKA_TRUSTED = 0x86 CKA_KEY_TYPE = 0x100 CKA_ID = 0x102 CKA_SENSITIVE = 0x103 CKA_ENCRYPT = 0x104 CKA_DECRYPT = 0x105 CKA_WRAP = 0x106 CKA_UNWRAP = 0x107 CKA_SIGN = 0x108 CKA_SIGN_RECOVER = 0x109 CKA_VERIFY = 0x10a CKA_VERIFY_RECOVER = 0x10b CKA_DERIVE = 0x10c CKA_MODULUS = 0x120 CKA_MODULUS_BITS = 0x121 CKA_PUBLIC_EXPONENT = 0x122 CKA_VALUE_LEN = 0x161 CKA_EXTRACTABLE = 0x162 CKA_LOCAL = 0x163 CKA_NEVER_EXTRACTABLE = 0x164 CKA_ALWAYS_SENSITIVE = 0x165 CKA_MODIFIABLE = 0x170 CKA_ALWAYS_AUTHENTICATE = 0x202 CKA_WRAP_WITH_TRUSTED = 0x210 CKM_RSA_PKCS_KEY_PAIR_GEN = 0 CKM_RSA_PKCS = 1 CKM_RSA_PKCS_OAEP = 9 CKM_SHA_1 = 0x220 CKM_AES_KEY_GEN = 0x1080 CKR_OK = 0 CKR_ATTRIBUTE_TYPE_INVALID = 0x12 CKR_USER_NOT_LOGGED_IN = 0x101 CK_BYTE = _ffi.typeof('CK_BYTE') CK_BBOOL = _ffi.typeof('CK_BBOOL') CK_ULONG = _ffi.typeof('CK_ULONG') CK_BYTE_PTR = _ffi.typeof('CK_BYTE_PTR') CK_FALSE = 0 CK_TRUE = 1 CK_OBJECT_HANDLE_PTR = _ffi.typeof('CK_OBJECT_HANDLE_PTR') CK_ATTRIBUTE = _ffi.typeof('CK_ATTRIBUTE') CK_MECHANISM = _ffi.typeof('CK_MECHANISM') CK_FUNCTION_LIST_PTR = _ffi.typeof('CK_FUNCTION_LIST_PTR') NULL_PTR = NULL # p11-kit/uri.h P11_KIT_URI_OK = 0 P11_KIT_URI_FOR_OBJECT = 2 p11_kit_uri_get_attributes = _libp11_kit.p11_kit_uri_get_attributes p11_kit_uri_any_unrecognized = _libp11_kit.p11_kit_uri_any_unrecognized p11_kit_uri_new = _libp11_kit.p11_kit_uri_new p11_kit_uri_parse = _libp11_kit.p11_kit_uri_parse p11_kit_uri_free = _libp11_kit.p11_kit_uri_free # library.c def loadLibrary(module): """Load the PKCS#11 library""" # Load PKCS #11 library try: if module: # pylint: disable=no-member pDynLib = _ffi.dlopen(module, _ffi.RTLD_NOW | _ffi.RTLD_LOCAL) else: raise Exception() except Exception: # Failed to load the PKCS #11 library raise # Retrieve the entry point for C_GetFunctionList pGetFunctionList = pDynLib.C_GetFunctionList if pGetFunctionList == NULL: raise Exception() # Store the handle so we can dlclose it later return pGetFunctionList, pDynLib # p11helper.c # compat TODO CKM_AES_KEY_WRAP = 0x2109 CKM_AES_KEY_WRAP_PAD = 0x210a # TODO CKA_COPYABLE = 0x0017 CKG_MGF1_SHA1 = 0x00000001 CKZ_DATA_SPECIFIED = 0x00000001 CK_RSA_PKCS_OAEP_PARAMS = _ffi.typeof('CK_RSA_PKCS_OAEP_PARAMS') true_ptr = new_ptr(CK_BBOOL, CK_TRUE) false_ptr = new_ptr(CK_BBOOL, CK_FALSE) MAX_TEMPLATE_LEN = 32 # # Constants # CONST_RSA_PKCS_OAEP_PARAMS_ptr = new_ptr(CK_RSA_PKCS_OAEP_PARAMS, dict( hash_alg=CKM_SHA_1, mgf=CKG_MGF1_SHA1, source=CKZ_DATA_SPECIFIED, source_data=NULL, source_data_len=0, )) # # ipap11helper Exceptions # class P11HelperException(Exception): """parent class for all exceptions""" pass P11HelperException.__name__ = 'Exception' class Error(P11HelperException): """general error""" pass class NotFound(P11HelperException): """key not found""" pass class DuplicationError(P11HelperException): """key already exists""" pass ######################################################################## # Support functions # def pyobj_to_bool(pyobj): if pyobj: return true_ptr return false_ptr def convert_py2bool(mapping): return tuple(pyobj_to_bool(py_obj) for py_obj in mapping) def string_to_pybytes_or_none(str, len): if str == NULL: return None return _ffi.buffer(str, len)[:] def unicode_to_char_array(unicode): """ Convert a unicode string to the utf8 encoded char array :param unicode: input python unicode object """ try: utf8_str = unicode.encode('utf-8') except Exception: raise Error("Unable to encode UTF-8") try: result = new_array(unsigned_char, utf8_str) except Exception: raise Error("Unable to get bytes from string") l = len(utf8_str) return result, l def char_array_to_unicode(array, l): """ Convert utf-8 encoded char array to unicode object """ return _ffi.buffer(array, l)[:].decode('utf-8') def int_to_bytes(value): try: return binascii.unhexlify('{0:x}'.format(value)) except (TypeError, binascii.Error): return binascii.unhexlify('0{0:x}'.format(value)) def bytes_to_int(value): return int(binascii.hexlify(value), 16) def check_return_value(rv, message): """ Tests result value of pkc11 operations """ if rv != CKR_OK: try: errmsg = "Error at %s: 0x%x\n" % (message, rv) except Exception: raise Error("An error occured during error message generation. " "Please report this problem. Developers will use " "a crystal ball to find out the root cause.") else: raise Error(errmsg) def _fill_template_from_parts(attr, template_len, id, id_len, label, label_len, class_, cka_wrap, cka_unwrap): """ Fill template structure with pointers to attributes passed as independent variables. Variables with NULL values will be omitted from template. @warning input variables should not be modified when template is in use """ cnt = 0 if label != NULL: attr[0].type = CKA_LABEL attr[0].pValue = label attr[0].ulValueLen = label_len attr += 1 cnt += 1 assert cnt < template_len[0] if id != NULL: attr[0].type = CKA_ID attr[0].pValue = id attr[0].ulValueLen = id_len attr += 1 cnt += 1 assert cnt < template_len[0] if cka_wrap != NULL: attr[0].type = CKA_WRAP attr[0].pValue = cka_wrap attr[0].ulValueLen = sizeof(CK_BBOOL) attr += 1 cnt += 1 assert cnt < template_len[0] if cka_unwrap != NULL: attr[0].type = CKA_UNWRAP attr[0].pValue = cka_unwrap attr[0].ulValueLen = sizeof(CK_BBOOL) attr += 1 cnt += 1 assert cnt < template_len[0] if class_ != NULL: attr[0].type = CKA_CLASS attr[0].pValue = class_ attr[0].ulValueLen = sizeof(CK_OBJECT_CLASS) attr += 1 cnt += 1 assert cnt < template_len[0] template_len[0] = cnt def _parse_uri(uri_str): """ Parse string to P11-kit representation of PKCS#11 URI. """ uri = p11_kit_uri_new() if not uri: raise Error("Cannot initialize URI parser") try: result = p11_kit_uri_parse(uri_str, P11_KIT_URI_FOR_OBJECT, uri) if result != P11_KIT_URI_OK: raise Error("Cannot parse URI") if p11_kit_uri_any_unrecognized(uri): raise Error("PKCS#11 URI contains unsupported attributes") except Error: p11_kit_uri_free(uri) raise return uri def _set_wrapping_mech_parameters(mech_type, mech): """ Function set default param values for wrapping mechanism :param mech_type: mechanism type :param mech: filled structure with params based on mech type Warning: do not dealloc param values, it is static variables """ if mech_type in (CKM_RSA_PKCS, CKM_AES_KEY_WRAP, CKM_AES_KEY_WRAP_PAD): mech.pParameter = NULL mech.ulParameterLen = 0 elif mech_type == CKM_RSA_PKCS_OAEP: # Use the same configuration as openSSL # https://www.openssl.org/docs/crypto/RSA_public_encrypt.html mech.pParameter = CONST_RSA_PKCS_OAEP_PARAMS_ptr mech.ulParameterLen = sizeof(CK_RSA_PKCS_OAEP_PARAMS) else: raise Error("Unsupported wrapping mechanism") mech.mechanism = mech_type ######################################################################## # P11_Helper object # class P11_Helper(object): @property def p11(self): return self.p11_ptr[0] @property def session(self): return self.session_ptr[0] def _find_key(self, template, template_len): """ Find keys matching specified template. Function returns list of key handles via objects parameter. :param template: PKCS#11 template for attribute matching """ result_objects = [] result_object_ptr = new_ptr(CK_OBJECT_HANDLE) objectCount_ptr = new_ptr(CK_ULONG) rv = self.p11.C_FindObjectsInit(self.session, template, template_len) check_return_value(rv, "Find key init") rv = self.p11.C_FindObjects(self.session, result_object_ptr, 1, objectCount_ptr) check_return_value(rv, "Find key") while objectCount_ptr[0] > 0: result_objects.append(result_object_ptr[0]) rv = self.p11.C_FindObjects(self.session, result_object_ptr, 1, objectCount_ptr) check_return_value(rv, "Check for duplicated key") rv = self.p11.C_FindObjectsFinal(self.session) check_return_value(rv, "Find objects final") return result_objects def _id_exists(self, id, id_len, class_): """ Test if object with specified label, id and class exists :param id: key ID, (if value is NULL, will not be used to find key) :param id_len: key ID length :param class_ key: class :return: True if object was found, False if object doesnt exists """ object_count_ptr = new_ptr(CK_ULONG) result_object_ptr = new_ptr(CK_OBJECT_HANDLE) class_ptr = new_ptr(CK_OBJECT_CLASS, class_) class_sec_ptr = new_ptr(CK_OBJECT_CLASS, CKO_SECRET_KEY) template_pub_priv = new_array(CK_ATTRIBUTE, ( (CKA_ID, id, id_len), (CKA_CLASS, class_ptr, sizeof(CK_OBJECT_CLASS)), )) template_sec = new_array(CK_ATTRIBUTE, ( (CKA_ID, id, id_len), (CKA_CLASS, class_sec_ptr, sizeof(CK_OBJECT_CLASS)), )) template_id = new_array(CK_ATTRIBUTE, ( (CKA_ID, id, id_len), )) # # Only one secret key with same ID is allowed # if class_ == CKO_SECRET_KEY: rv = self.p11.C_FindObjectsInit(self.session, template_id, 1) check_return_value(rv, "id, label exists init") rv = self.p11.C_FindObjects(self.session, result_object_ptr, 1, object_count_ptr) check_return_value(rv, "id, label exists") rv = self.p11.C_FindObjectsFinal(self.session) check_return_value(rv, "id, label exists final") if object_count_ptr[0] > 0: return True return False # # Public and private keys can share one ID, but # # test if secret key with same ID exists rv = self.p11.C_FindObjectsInit(self.session, template_sec, 2) check_return_value(rv, "id, label exists init") rv = self.p11.C_FindObjects(self.session, result_object_ptr, 1, object_count_ptr) check_return_value(rv, "id, label exists") rv = self.p11.C_FindObjectsFinal(self.session) check_return_value(rv, "id, label exists final") if object_count_ptr[0] > 0: # object found return True # test if pub/private key with same id exists object_count_ptr[0] = 0 rv = self.p11.C_FindObjectsInit(self.session, template_pub_priv, 2) check_return_value(rv, "id, label exists init") rv = self.p11.C_FindObjects(self.session, result_object_ptr, 1, object_count_ptr) check_return_value(rv, "id, label exists") rv = self.p11.C_FindObjectsFinal(self.session) check_return_value(rv, "id, label exists final") if object_count_ptr[0] > 0: # Object found return True # Object not found return False def __init__(self, slot, user_pin, library_path): self.p11_ptr = new_ptr(CK_FUNCTION_LIST_PTR) self.session_ptr = new_ptr(CK_SESSION_HANDLE) self.slot = 0 self.session_ptr[0] = 0 self.p11_ptr[0] = NULL self.module_handle = None # Parse method args if isinstance(user_pin, unicode): user_pin = user_pin.encode() self.slot = slot try: pGetFunctionList, module_handle = loadLibrary(library_path) except Exception: raise Error("Could not load the library.") self.module_handle = module_handle # # Load the function list # pGetFunctionList(self.p11_ptr) # # Initialize # rv = self.p11.C_Initialize(NULL) check_return_value(rv, "initialize") # # Start session # rv = self.p11.C_OpenSession(self.slot, CKF_SERIAL_SESSION | CKF_RW_SESSION, NULL, NULL, self.session_ptr) check_return_value(rv, "open session") # # Login # rv = self.p11.C_Login(self.session, CKU_USER, user_pin, len(user_pin)) check_return_value(rv, "log in") def finalize(self): """ Finalize operations with pkcs11 library """ if self.p11 == NULL: return # # Logout # rv = self.p11.C_Logout(self.session) check_return_value(rv, "log out") # # End session # rv = self.p11.C_CloseSession(self.session) check_return_value(rv, "close session") # # Finalize # self.p11.C_Finalize(NULL) self.p11_ptr[0] = NULL self.session_ptr[0] = 0 self.slot = 0 self.module_handle = None ################################################################# # Methods working with keys # def generate_master_key(self, label, id, key_length=16, cka_copyable=True, cka_decrypt=False, cka_derive=False, cka_encrypt=False, cka_extractable=True, cka_modifiable=True, cka_private=True, cka_sensitive=True, cka_sign=False, cka_unwrap=True, cka_verify=False, cka_wrap=True, cka_wrap_with_trusted=False): """ Generate master key :return: master key handle """ if isinstance(id, unicode): id = id.encode() attrs = ( cka_copyable, cka_decrypt, cka_derive, cka_encrypt, cka_extractable, cka_modifiable, cka_private, cka_sensitive, cka_sign, cka_unwrap, cka_verify, cka_wrap, cka_wrap_with_trusted, ) key_length_ptr = new_ptr(CK_ULONG, key_length) master_key_ptr = new_ptr(CK_OBJECT_HANDLE) label_unicode = label id_length = len(id) id_ = new_array(CK_BYTE, id) # TODO check long overflow label, label_length = unicode_to_char_array(label_unicode) # TODO param? mechanism_ptr = new_ptr(CK_MECHANISM, ( CKM_AES_KEY_GEN, NULL_PTR, 0 )) if key_length not in (16, 24, 32): raise Error("generate_master_key: key length allowed values are: " "16, 24 and 32") if self._id_exists(id_, id_length, CKO_SECRET_KEY): raise DuplicationError("Master key with same ID already exists") # Process keyword boolean arguments (cka_copyable_ptr, cka_decrypt_ptr, cka_derive_ptr, cka_encrypt_ptr, cka_extractable_ptr, cka_modifiable_ptr, cka_private_ptr, cka_sensitive_ptr, cka_sign_ptr, cka_unwrap_ptr, cka_verify_ptr, cka_wrap_ptr, cka_wrap_with_trusted_ptr,) = convert_py2bool(attrs) symKeyTemplate = new_array(CK_ATTRIBUTE, ( (CKA_ID, id_, id_length), (CKA_LABEL, label, label_length), (CKA_TOKEN, true_ptr, sizeof(CK_BBOOL)), (CKA_VALUE_LEN, key_length_ptr, sizeof(CK_ULONG)), # TODO Softhsm doesn't support it # (CKA_COPYABLE, cka_copyable_ptr, sizeof(CK_BBOOL)), (CKA_DECRYPT, cka_decrypt_ptr, sizeof(CK_BBOOL)), (CKA_DERIVE, cka_derive_ptr, sizeof(CK_BBOOL)), (CKA_ENCRYPT, cka_encrypt_ptr, sizeof(CK_BBOOL)), (CKA_EXTRACTABLE, cka_extractable_ptr, sizeof(CK_BBOOL)), (CKA_MODIFIABLE, cka_modifiable_ptr, sizeof(CK_BBOOL)), (CKA_PRIVATE, cka_private_ptr, sizeof(CK_BBOOL)), (CKA_SENSITIVE, cka_sensitive_ptr, sizeof(CK_BBOOL)), (CKA_SIGN, cka_sign_ptr, sizeof(CK_BBOOL)), (CKA_UNWRAP, cka_unwrap_ptr, sizeof(CK_BBOOL)), (CKA_VERIFY, cka_verify_ptr, sizeof(CK_BBOOL)), (CKA_WRAP, cka_wrap_ptr, sizeof(CK_BBOOL)), (CKA_WRAP_WITH_TRUSTED, cka_wrap_with_trusted_ptr, sizeof(CK_BBOOL)), )) rv = self.p11.C_GenerateKey(self.session, mechanism_ptr, symKeyTemplate, (sizeof(symKeyTemplate) // sizeof(CK_ATTRIBUTE)), master_key_ptr) check_return_value(rv, "generate master key") return master_key_ptr[0] def generate_replica_key_pair(self, label, id, modulus_bits=2048, pub_cka_copyable=True, pub_cka_derive=False, pub_cka_encrypt=False, pub_cka_modifiable=True, pub_cka_private=True, pub_cka_trusted=False, pub_cka_verify=False, pub_cka_verify_recover=False, pub_cka_wrap=True, priv_cka_always_authenticate=False, priv_cka_copyable=True, priv_cka_decrypt=False, priv_cka_derive=False, priv_cka_extractable=False, priv_cka_modifiable=True, priv_cka_private=True, priv_cka_sensitive=True, priv_cka_sign=False, priv_cka_sign_recover=False, priv_cka_unwrap=True, priv_cka_wrap_with_trusted=False): """ Generate replica keys :returns: tuple (public_key_handle, private_key_handle) """ if isinstance(id, unicode): id = id.encode() attrs_pub = ( pub_cka_copyable, pub_cka_derive, pub_cka_encrypt, pub_cka_modifiable, pub_cka_private, pub_cka_trusted, pub_cka_verify, pub_cka_verify_recover, pub_cka_wrap, ) attrs_priv = ( priv_cka_always_authenticate, priv_cka_copyable, priv_cka_decrypt, priv_cka_derive, priv_cka_extractable, priv_cka_modifiable, priv_cka_private, priv_cka_sensitive, priv_cka_sign, priv_cka_sign_recover, priv_cka_unwrap, priv_cka_wrap_with_trusted, ) label_unicode = label id_ = new_array(CK_BYTE, id) id_length = len(id) label, label_length = unicode_to_char_array(label_unicode) public_key_ptr = new_ptr(CK_OBJECT_HANDLE) private_key_ptr = new_ptr(CK_OBJECT_HANDLE) mechanism_ptr = new_ptr(CK_MECHANISM, (CKM_RSA_PKCS_KEY_PAIR_GEN, NULL_PTR, 0)) if self._id_exists(id_, id_length, CKO_PRIVATE_KEY): raise DuplicationError("Private key with same ID already exists") if self._id_exists(id_, id_length, CKO_PUBLIC_KEY): raise DuplicationError("Public key with same ID already exists") modulus_bits_ptr = new_ptr(CK_ULONG, modulus_bits) # Process keyword boolean arguments (pub_cka_copyable_ptr, pub_cka_derive_ptr, pub_cka_encrypt_ptr, pub_cka_modifiable_ptr, pub_cka_private_ptr, pub_cka_trusted_ptr, pub_cka_verify_ptr, pub_cka_verify_recover_ptr, pub_cka_wrap_ptr, ) = convert_py2bool(attrs_pub) (priv_cka_always_authenticate_ptr, priv_cka_copyable_ptr, priv_cka_decrypt_ptr, priv_cka_derive_ptr, priv_cka_extractable_ptr, priv_cka_modifiable_ptr, priv_cka_private_ptr, priv_cka_sensitive_ptr, priv_cka_sign_ptr, priv_cka_sign_recover_ptr, priv_cka_unwrap_ptr, priv_cka_wrap_with_trusted_ptr,) = convert_py2bool(attrs_priv) # 65537 (RFC 6376 section 3.3.1) public_exponent = new_array(CK_BYTE, (1, 0, 1)) publicKeyTemplate = new_array(CK_ATTRIBUTE, ( (CKA_ID, id_, id_length), (CKA_LABEL, label, label_length), (CKA_TOKEN, true_ptr, sizeof(CK_BBOOL)), (CKA_MODULUS_BITS, modulus_bits_ptr, sizeof(CK_ULONG)), (CKA_PUBLIC_EXPONENT, public_exponent, 3), # TODO Softhsm doesn't support it # (CKA_COPYABLE, pub_cka_copyable_p, sizeof(CK_BBOOL)), (CKA_DERIVE, pub_cka_derive_ptr, sizeof(CK_BBOOL)), (CKA_ENCRYPT, pub_cka_encrypt_ptr, sizeof(CK_BBOOL)), (CKA_MODIFIABLE, pub_cka_modifiable_ptr, sizeof(CK_BBOOL)), (CKA_PRIVATE, pub_cka_private_ptr, sizeof(CK_BBOOL)), (CKA_TRUSTED, pub_cka_trusted_ptr, sizeof(CK_BBOOL)), (CKA_VERIFY, pub_cka_verify_ptr, sizeof(CK_BBOOL)), (CKA_VERIFY_RECOVER, pub_cka_verify_recover_ptr, sizeof(CK_BBOOL)), (CKA_WRAP, pub_cka_wrap_ptr, sizeof(CK_BBOOL)), )) privateKeyTemplate = new_array(CK_ATTRIBUTE, ( (CKA_ID, id_, id_length), (CKA_LABEL, label, label_length), (CKA_TOKEN, true_ptr, sizeof(CK_BBOOL)), (CKA_ALWAYS_AUTHENTICATE, priv_cka_always_authenticate_ptr, sizeof(CK_BBOOL)), # TODO Softhsm doesn't support it # (CKA_COPYABLE, priv_cka_copyable_ptr, sizeof(CK_BBOOL)), (CKA_DECRYPT, priv_cka_decrypt_ptr, sizeof(CK_BBOOL)), (CKA_DERIVE, priv_cka_derive_ptr, sizeof(CK_BBOOL)), (CKA_EXTRACTABLE, priv_cka_extractable_ptr, sizeof(CK_BBOOL)), (CKA_MODIFIABLE, priv_cka_modifiable_ptr, sizeof(CK_BBOOL)), (CKA_PRIVATE, priv_cka_private_ptr, sizeof(CK_BBOOL)), (CKA_SENSITIVE, priv_cka_sensitive_ptr, sizeof(CK_BBOOL)), (CKA_SIGN, priv_cka_sign_ptr, sizeof(CK_BBOOL)), (CKA_SIGN_RECOVER, priv_cka_sign_ptr, sizeof(CK_BBOOL)), (CKA_UNWRAP, priv_cka_unwrap_ptr, sizeof(CK_BBOOL)), (CKA_WRAP_WITH_TRUSTED, priv_cka_wrap_with_trusted_ptr, sizeof(CK_BBOOL)), )) rv = self.p11.C_GenerateKeyPair(self.session, mechanism_ptr, publicKeyTemplate, (sizeof(publicKeyTemplate) // sizeof(CK_ATTRIBUTE)), privateKeyTemplate, (sizeof(privateKeyTemplate) // sizeof(CK_ATTRIBUTE)), public_key_ptr, private_key_ptr) check_return_value(rv, "generate key pair") return public_key_ptr[0], private_key_ptr[0] def find_keys(self, objclass=CKO_VENDOR_DEFINED, label=None, id=None, cka_wrap=None, cka_unwrap=None, uri=None): """ Find key """ if isinstance(id, unicode): id = id.encode() if isinstance(uri, unicode): uri = uri.encode() class_ = objclass class_ptr = new_ptr(CK_OBJECT_CLASS, class_) ckawrap = NULL ckaunwrap = NULL if id is not None: id_ = new_array(CK_BYTE, id) id_length = len(id) else: id_ = NULL id_length = 0 label_unicode, label = label, NULL cka_wrap_bool = cka_wrap cka_unwrap_bool = cka_unwrap label_length = 0 uri_str = uri uri = NULL template = new_array(CK_ATTRIBUTE, MAX_TEMPLATE_LEN) template_len_ptr = new_ptr(CK_ULONG, MAX_TEMPLATE_LEN) # TODO check long overflow if label_unicode is not None: label, label_length = unicode_to_char_array(label_unicode) if cka_wrap_bool is not None: if cka_wrap_bool: ckawrap = true_ptr else: ckawrap = false_ptr if cka_unwrap_bool is not None: if cka_unwrap_bool: ckaunwrap = true_ptr else: ckaunwrap = false_ptr if class_ == CKO_VENDOR_DEFINED: class_ptr = NULL try: if uri_str is None: _fill_template_from_parts(template, template_len_ptr, id_, id_length, label, label_length, class_ptr, ckawrap, ckaunwrap) else: uri = _parse_uri(uri_str) template = (p11_kit_uri_get_attributes(uri, template_len_ptr)) # Do not deallocate URI while you are using the template. # Template contains pointers to values inside URI! result_list = self._find_key(template, template_len_ptr[0]) return result_list finally: if uri != NULL: p11_kit_uri_free(uri) def delete_key(self, key_handle): """ delete key """ # TODO check long overflow rv = self.p11.C_DestroyObject(self.session, key_handle) check_return_value(rv, "object deletion") def _export_RSA_public_key(self, object): """ export RSA public key """ class_ptr = new_ptr(CK_OBJECT_CLASS, CKO_PUBLIC_KEY) key_type_ptr = new_ptr(CK_KEY_TYPE, CKK_RSA) obj_template = new_array(CK_ATTRIBUTE, ( (CKA_MODULUS, NULL_PTR, 0), (CKA_PUBLIC_EXPONENT, NULL_PTR, 0), (CKA_CLASS, class_ptr, sizeof(CK_OBJECT_CLASS)), (CKA_KEY_TYPE, key_type_ptr, sizeof(CK_KEY_TYPE)), )) rv = self.p11.C_GetAttributeValue(self.session, object, obj_template, (sizeof(obj_template) // sizeof(CK_ATTRIBUTE))) check_return_value(rv, "get RSA public key values - prepare") # Set proper size for attributes modulus = new_array(CK_BYTE, obj_template[0].ulValueLen * sizeof(CK_BYTE)) obj_template[0].pValue = modulus exponent = new_array(CK_BYTE, obj_template[1].ulValueLen * sizeof(CK_BYTE)) obj_template[1].pValue = exponent rv = self.p11.C_GetAttributeValue(self.session, object, obj_template, (sizeof(obj_template) // sizeof(CK_ATTRIBUTE))) check_return_value(rv, "get RSA public key values") # Check if the key is RSA public key if class_ptr[0] != CKO_PUBLIC_KEY: raise Error("export_RSA_public_key: required public key class") if key_type_ptr[0] != CKK_RSA: raise Error("export_RSA_public_key: required RSA key type") try: n = bytes_to_int(string_to_pybytes_or_none( modulus, obj_template[0].ulValueLen)) except Exception: raise Error("export_RSA_public_key: internal error: unable to " "convert modulus") try: e = bytes_to_int(string_to_pybytes_or_none( exponent, obj_template[1].ulValueLen)) except Exception: raise Error("export_RSA_public_key: internal error: unable to " "convert exponent") # set modulus and exponent rsa_ = rsa.RSAPublicNumbers(e, n) try: pkey = rsa_.public_key(default_backend()) except Exception: raise Error("export_RSA_public_key: internal error: " "EVP_PKEY_set1_RSA failed") try: ret = pkey.public_bytes( format=serialization.PublicFormat.SubjectPublicKeyInfo, encoding=serialization.Encoding.DER, ) except Exception: ret = None return ret def export_public_key(self, key_handle): """ Export public key Export public key in SubjectPublicKeyInfo (RFC5280) DER encoded format """ object = key_handle class_ptr = new_ptr(CK_OBJECT_CLASS, CKO_PUBLIC_KEY) key_type_ptr = new_ptr(CK_KEY_TYPE, CKK_RSA) # TODO check long overflow obj_template = new_array(CK_ATTRIBUTE, ( (CKA_CLASS, class_ptr, sizeof(CK_OBJECT_CLASS)), (CKA_KEY_TYPE, key_type_ptr, sizeof(CK_KEY_TYPE)), )) rv = self.p11.C_GetAttributeValue(self.session, object, obj_template, (sizeof(obj_template) // sizeof(CK_ATTRIBUTE))) check_return_value(rv, "export_public_key: get RSA public key values") if class_ptr[0] != CKO_PUBLIC_KEY: raise Error("export_public_key: required public key class") if key_type_ptr[0] == CKK_RSA: return self._export_RSA_public_key(object) else: raise Error("export_public_key: unsupported key type") def _import_RSA_public_key(self, label, label_length, id, id_length, pkey, cka_copyable, cka_derive, cka_encrypt, cka_modifiable, cka_private, cka_trusted, cka_verify, cka_verify_recover, cka_wrap): """ Import RSA public key """ class_ptr = new_ptr(CK_OBJECT_CLASS, CKO_PUBLIC_KEY) keyType_ptr = new_ptr(CK_KEY_TYPE, CKK_RSA) cka_token = true_ptr if not isinstance(pkey, rsa.RSAPublicKey): raise Error("Required RSA public key") rsa_ = pkey.public_numbers() # convert BIGNUM to binary array modulus = new_array(CK_BYTE, int_to_bytes(rsa_.n)) modulus_len = sizeof(modulus) - 1 if modulus_len == 0: raise Error("import_RSA_public_key: BN_bn2bin modulus error") exponent = new_array(CK_BYTE, int_to_bytes(rsa_.e)) exponent_len = sizeof(exponent) - 1 if exponent_len == 0: raise Error("import_RSA_public_key: BN_bn2bin exponent error") template = new_array(CK_ATTRIBUTE, ( (CKA_ID, id, id_length), (CKA_CLASS, class_ptr, sizeof(CK_OBJECT_CLASS)), (CKA_KEY_TYPE, keyType_ptr, sizeof(CK_KEY_TYPE)), (CKA_TOKEN, cka_token, sizeof(CK_BBOOL)), (CKA_LABEL, label, label_length), (CKA_MODULUS, modulus, modulus_len), (CKA_PUBLIC_EXPONENT, exponent, exponent_len), # TODO Softhsm doesn't support it # (CKA_COPYABLE, cka_copyable, sizeof(CK_BBOOL)), (CKA_DERIVE, cka_derive, sizeof(CK_BBOOL)), (CKA_ENCRYPT, cka_encrypt, sizeof(CK_BBOOL)), (CKA_MODIFIABLE, cka_modifiable, sizeof(CK_BBOOL)), (CKA_PRIVATE, cka_private, sizeof(CK_BBOOL)), (CKA_TRUSTED, cka_trusted, sizeof(CK_BBOOL)), (CKA_VERIFY, cka_verify, sizeof(CK_BBOOL)), (CKA_VERIFY_RECOVER, cka_verify_recover, sizeof(CK_BBOOL)), (CKA_WRAP, cka_wrap, sizeof(CK_BBOOL)), )) object_ptr = new_ptr(CK_OBJECT_HANDLE) rv = self.p11.C_CreateObject(self.session, template, (sizeof(template) // sizeof(CK_ATTRIBUTE)), object_ptr) check_return_value(rv, "create public key object") return object_ptr[0] def import_public_key(self, label, id, data, cka_copyable=True, cka_derive=False, cka_encrypt=False, cka_modifiable=True, cka_private=True, cka_trusted=False, cka_verify=True, cka_verify_recover=True, cka_wrap=False): """ Import RSA public key """ if isinstance(id, unicode): id = id.encode() if isinstance(data, unicode): data = data.encode() label_unicode = label id_ = new_array(CK_BYTE, id) id_length = len(id) attrs_pub = ( cka_copyable, cka_derive, cka_encrypt, cka_modifiable, cka_private, cka_trusted, cka_verify, cka_verify_recover, cka_wrap, ) label, label_length = unicode_to_char_array(label_unicode) if self._id_exists(id_, id_length, CKO_PUBLIC_KEY): raise DuplicationError("Public key with same ID already exists") # Process keyword boolean arguments (cka_copyable_ptr, cka_derive_ptr, cka_encrypt_ptr, cka_modifiable_ptr, cka_private_ptr, cka_trusted_ptr, cka_verify_ptr, cka_verify_recover_ptr, cka_wrap_ptr,) = convert_py2bool(attrs_pub) # decode from ASN1 DER try: pkey = serialization.load_der_public_key(data, default_backend()) except Exception: raise Error("import_public_key: d2i_PUBKEY error") if isinstance(pkey, rsa.RSAPublicKey): ret = self._import_RSA_public_key(label, label_length, id_, id_length, pkey, cka_copyable_ptr, cka_derive_ptr, cka_encrypt_ptr, cka_modifiable_ptr, cka_private_ptr, cka_trusted_ptr, cka_verify_ptr, cka_verify_recover_ptr, cka_wrap_ptr) elif isinstance(pkey, dsa.DSAPublicKey): raise Error("DSA is not supported") elif isinstance(pkey, ec.EllipticCurvePublicKey): raise Error("EC is not supported") else: raise Error("Unsupported key type") return ret def export_wrapped_key(self, key, wrapping_key, wrapping_mech): """ Export wrapped key """ object_key = key object_wrapping_key = wrapping_key wrapped_key_len_ptr = new_ptr(CK_ULONG, 0) wrapping_mech_ptr = new_ptr(CK_MECHANISM, (wrapping_mech, NULL, 0)) # currently we don't support parameter in mechanism # TODO check long overflow # TODO export method # fill mech parameters _set_wrapping_mech_parameters(wrapping_mech_ptr.mechanism, wrapping_mech_ptr) rv = self.p11.C_WrapKey(self.session, wrapping_mech_ptr, object_wrapping_key, object_key, NULL, wrapped_key_len_ptr) check_return_value(rv, "key wrapping: get buffer length") wrapped_key = new_array(CK_BYTE, wrapped_key_len_ptr[0]) rv = self.p11.C_WrapKey(self.session, wrapping_mech_ptr, object_wrapping_key, object_key, wrapped_key, wrapped_key_len_ptr) check_return_value(rv, "key wrapping: wrapping") result = string_to_pybytes_or_none(wrapped_key, wrapped_key_len_ptr[0]) return result def import_wrapped_secret_key(self, label, id, data, unwrapping_key, wrapping_mech, key_type, cka_copyable=True, cka_decrypt=False, cka_derive=False, cka_encrypt=False, cka_extractable=True, cka_modifiable=True, cka_private=True, cka_sensitive=True, cka_sign=False, cka_unwrap=True, cka_verify=False, cka_wrap=True, cka_wrap_with_trusted=False): """ Import wrapped secret key """ if isinstance(id, unicode): id = id.encode() if isinstance(data, unicode): data = data.encode() wrapped_key = new_array(CK_BYTE, data) wrapped_key_len = len(data) unwrapping_key_object = unwrapping_key unwrapped_key_object_ptr = new_ptr(CK_OBJECT_HANDLE, 0) label_unicode = label id_ = new_array(CK_BYTE, id) id_length = len(id) wrapping_mech_ptr = new_ptr(CK_MECHANISM, (wrapping_mech, NULL, 0)) key_class_ptr = new_ptr(CK_OBJECT_CLASS, CKO_SECRET_KEY) key_type_ptr = new_ptr(CK_KEY_TYPE, key_type) attrs = ( cka_copyable, cka_decrypt, cka_derive, cka_encrypt, cka_extractable, cka_modifiable, cka_private, cka_sensitive, cka_sign, cka_unwrap, cka_verify, cka_wrap, cka_wrap_with_trusted, ) _set_wrapping_mech_parameters(wrapping_mech_ptr.mechanism, wrapping_mech_ptr) label, label_length = unicode_to_char_array(label_unicode) if self._id_exists(id_, id_length, key_class_ptr[0]): raise DuplicationError("Secret key with same ID already exists") # Process keyword boolean arguments (cka_copyable_ptr, cka_decrypt_ptr, cka_derive_ptr, cka_encrypt_ptr, cka_extractable_ptr, cka_modifiable_ptr, cka_private_ptr, cka_sensitive_ptr, cka_sign_ptr, cka_unwrap_ptr, cka_verify_ptr, cka_wrap_ptr, cka_wrap_with_trusted_ptr,) = convert_py2bool(attrs) template = new_array(CK_ATTRIBUTE, ( (CKA_CLASS, key_class_ptr, sizeof(CK_OBJECT_CLASS)), (CKA_KEY_TYPE, key_type_ptr, sizeof(CK_KEY_TYPE)), (CKA_ID, id_, id_length), (CKA_LABEL, label, label_length), (CKA_TOKEN, true_ptr, sizeof(CK_BBOOL)), # TODO Softhsm doesn't support it # (CKA_COPYABLE, cka_copyable_ptr, sizeof(CK_BBOOL)), (CKA_DECRYPT, cka_decrypt_ptr, sizeof(CK_BBOOL)), (CKA_DERIVE, cka_derive_ptr, sizeof(CK_BBOOL)), (CKA_ENCRYPT, cka_encrypt_ptr, sizeof(CK_BBOOL)), (CKA_EXTRACTABLE, cka_extractable_ptr, sizeof(CK_BBOOL)), (CKA_MODIFIABLE, cka_modifiable_ptr, sizeof(CK_BBOOL)), (CKA_PRIVATE, cka_private_ptr, sizeof(CK_BBOOL)), (CKA_SENSITIVE, cka_sensitive_ptr, sizeof(CK_BBOOL)), (CKA_SIGN, cka_sign_ptr, sizeof(CK_BBOOL)), (CKA_UNWRAP, cka_unwrap_ptr, sizeof(CK_BBOOL)), (CKA_VERIFY, cka_verify_ptr, sizeof(CK_BBOOL)), (CKA_WRAP, cka_wrap_ptr, sizeof(CK_BBOOL)), (CKA_WRAP_WITH_TRUSTED, cka_wrap_with_trusted_ptr, sizeof(CK_BBOOL)), )) rv = self.p11.C_UnwrapKey(self.session, wrapping_mech_ptr, unwrapping_key_object, wrapped_key, wrapped_key_len, template, sizeof(template) // sizeof(CK_ATTRIBUTE), unwrapped_key_object_ptr) check_return_value(rv, "import_wrapped_key: key unwrapping") return unwrapped_key_object_ptr[0] def import_wrapped_private_key(self, label, id, data, unwrapping_key, wrapping_mech, key_type, cka_always_authenticate=False, cka_copyable=True, cka_decrypt=False, cka_derive=False, cka_extractable=True, cka_modifiable=True, cka_private=True, cka_sensitive=True, cka_sign=True, cka_sign_recover=True, cka_unwrap=False, cka_wrap_with_trusted=False): """ Import wrapped private key """ if isinstance(id, unicode): id = id.encode() if isinstance(data, unicode): data = data.encode() wrapped_key = new_array(CK_BYTE, data) wrapped_key_len = len(data) unwrapping_key_object = unwrapping_key unwrapped_key_object_ptr = new_ptr(CK_OBJECT_HANDLE, 0) label_unicode = label id_ = new_array(CK_BYTE, id) id_length = len(id) wrapping_mech_ptr = new_ptr(CK_MECHANISM, (wrapping_mech, NULL, 0)) key_class_ptr = new_ptr(CK_OBJECT_CLASS, CKO_PRIVATE_KEY) key_type_ptr = new_ptr(CK_KEY_TYPE, key_type) attrs_priv = ( cka_always_authenticate, cka_copyable, cka_decrypt, cka_derive, cka_extractable, cka_modifiable, cka_private, cka_sensitive, cka_sign, cka_sign_recover, cka_unwrap, cka_wrap_with_trusted, ) label, label_length = unicode_to_char_array(label_unicode) if self._id_exists(id_, id_length, CKO_SECRET_KEY): raise DuplicationError("Secret key with same ID already exists") # Process keyword boolean arguments (cka_always_authenticate_ptr, cka_copyable_ptr, cka_decrypt_ptr, cka_derive_ptr, cka_extractable_ptr, cka_modifiable_ptr, cka_private_ptr, cka_sensitive_ptr, cka_sign_ptr, cka_sign_recover_ptr, cka_unwrap_ptr, cka_wrap_with_trusted_ptr, ) = convert_py2bool(attrs_priv) template = new_array(CK_ATTRIBUTE, ( (CKA_CLASS, key_class_ptr, sizeof(CK_OBJECT_CLASS)), (CKA_KEY_TYPE, key_type_ptr, sizeof(CK_KEY_TYPE)), (CKA_ID, id_, id_length), (CKA_LABEL, label, label_length), (CKA_TOKEN, true_ptr, sizeof(CK_BBOOL)), (CKA_ALWAYS_AUTHENTICATE, cka_always_authenticate_ptr, sizeof(CK_BBOOL)), # TODO Softhsm doesn't support it # (CKA_COPYABLE, cka_copyable_ptr, sizeof(CK_BBOOL)), (CKA_DECRYPT, cka_decrypt_ptr, sizeof(CK_BBOOL)), (CKA_DERIVE, cka_derive_ptr, sizeof(CK_BBOOL)), (CKA_EXTRACTABLE, cka_extractable_ptr, sizeof(CK_BBOOL)), (CKA_MODIFIABLE, cka_modifiable_ptr, sizeof(CK_BBOOL)), (CKA_PRIVATE, cka_private_ptr, sizeof(CK_BBOOL)), (CKA_SENSITIVE, cka_sensitive_ptr, sizeof(CK_BBOOL)), (CKA_SIGN, cka_sign_ptr, sizeof(CK_BBOOL)), (CKA_SIGN_RECOVER, cka_sign_ptr, sizeof(CK_BBOOL)), (CKA_UNWRAP, cka_unwrap_ptr, sizeof(CK_BBOOL)), (CKA_WRAP_WITH_TRUSTED, cka_wrap_with_trusted_ptr, sizeof(CK_BBOOL)), )) rv = self.p11.C_UnwrapKey(self.session, wrapping_mech_ptr, unwrapping_key_object, wrapped_key, wrapped_key_len, template, sizeof(template) // sizeof(CK_ATTRIBUTE), unwrapped_key_object_ptr) check_return_value(rv, "import_wrapped_key: key unwrapping") return unwrapped_key_object_ptr[0] def set_attribute(self, key_object, attr, value): """ Set object attributes """ object = key_object attribute_ptr = new_ptr(CK_ATTRIBUTE) attribute_ptr.type = attr if attr in (CKA_ALWAYS_AUTHENTICATE, CKA_ALWAYS_SENSITIVE, CKA_COPYABLE, CKA_ENCRYPT, CKA_EXTRACTABLE, CKA_DECRYPT, CKA_DERIVE, CKA_LOCAL, CKA_MODIFIABLE, CKA_NEVER_EXTRACTABLE, CKA_PRIVATE, CKA_SENSITIVE, CKA_SIGN, CKA_SIGN_RECOVER, CKA_TOKEN, CKA_TRUSTED, CKA_UNWRAP, CKA_VERIFY, CKA_VERIFY_RECOVER, CKA_WRAP, CKA_WRAP_WITH_TRUSTED): attribute_ptr.pValue = true_ptr if value else false_ptr attribute_ptr.ulValueLen = sizeof(CK_BBOOL) elif attr == CKA_ID: if not isinstance(value, bytes): raise Error("Bytestring value expected") attribute_ptr.pValue = new_array(CK_BYTE, value) attribute_ptr.ulValueLen = len(value) elif attr == CKA_LABEL: if not isinstance(value, unicode): raise Error("Unicode value expected") label, label_length = unicode_to_char_array(value) attribute_ptr.pValue = label attribute_ptr.ulValueLen = label_length elif attr == CKA_KEY_TYPE: if not isinstance(value, int): raise Error("Integer value expected") attribute_ptr.pValue = new_ptr(unsigned_long, value) attribute_ptr.ulValueLen = sizeof(unsigned_long) else: raise Error("Unknown attribute") template = new_array(CK_ATTRIBUTE, (attribute_ptr[0],)) rv = self.p11.C_SetAttributeValue(self.session, object, template, (sizeof(template) // sizeof(CK_ATTRIBUTE))) check_return_value(rv, "set_attribute") def get_attribute(self, key_object, attr): object = key_object attribute_ptr = new_ptr(CK_ATTRIBUTE) attribute_ptr.type = attr attribute_ptr.pValue = NULL_PTR attribute_ptr.ulValueLen = 0 template = new_array(CK_ATTRIBUTE, (attribute_ptr[0],)) rv = self.p11.C_GetAttributeValue(self.session, object, template, (sizeof(template) // sizeof(CK_ATTRIBUTE))) if rv == CKR_ATTRIBUTE_TYPE_INVALID or template[0].ulValueLen == -1: raise NotFound("attribute does not exist") check_return_value(rv, "get_attribute init") value = new_array(unsigned_char, template[0].ulValueLen) template[0].pValue = value rv = self.p11.C_GetAttributeValue(self.session, object, template, (sizeof(template) // sizeof(CK_ATTRIBUTE))) check_return_value(rv, "get_attribute") if attr in (CKA_ALWAYS_AUTHENTICATE, CKA_ALWAYS_SENSITIVE, CKA_COPYABLE, CKA_ENCRYPT, CKA_EXTRACTABLE, CKA_DECRYPT, CKA_DERIVE, CKA_LOCAL, CKA_MODIFIABLE, CKA_NEVER_EXTRACTABLE, CKA_PRIVATE, CKA_SENSITIVE, CKA_SIGN, CKA_SIGN_RECOVER, CKA_TOKEN, CKA_TRUSTED, CKA_UNWRAP, CKA_VERIFY, CKA_VERIFY_RECOVER, CKA_WRAP, CKA_WRAP_WITH_TRUSTED): ret = bool(_ffi.cast(_ffi.getctype(CK_BBOOL, '*'), value)[0]) elif attr == CKA_LABEL: ret = char_array_to_unicode(value, template[0].ulValueLen) elif attr in (CKA_MODULUS, CKA_PUBLIC_EXPONENT, CKA_ID): ret = string_to_pybytes_or_none(value, template[0].ulValueLen) elif attr == CKA_KEY_TYPE: ret = _ffi.cast(_ffi.getctype(unsigned_long, '*'), value)[0] else: raise Error("Unknown attribute") return ret # Key Classes KEY_CLASS_PUBLIC_KEY = CKO_PUBLIC_KEY KEY_CLASS_PRIVATE_KEY = CKO_PRIVATE_KEY KEY_CLASS_SECRET_KEY = CKO_SECRET_KEY # Key types KEY_TYPE_RSA = CKK_RSA KEY_TYPE_AES = CKK_AES # Wrapping mech type MECH_RSA_PKCS = CKM_RSA_PKCS MECH_RSA_PKCS_OAEP = CKM_RSA_PKCS_OAEP MECH_AES_KEY_WRAP = CKM_AES_KEY_WRAP MECH_AES_KEY_WRAP_PAD = CKM_AES_KEY_WRAP_PAD def generate_master_key(p11, keylabel=u"dnssec-master", key_length=16, disable_old_keys=True): assert isinstance(p11, P11_Helper) key_id = None while True: # check if key with this ID exist in LDAP or softHSM # id is 16 Bytes long key_id = "".join(chr(random.randint(0, 255)) for _ in range(0, 16)) keys = p11.find_keys(KEY_CLASS_SECRET_KEY, label=keylabel, id=key_id) if not keys: break # we found unique id p11.generate_master_key(keylabel, key_id, key_length=key_length, cka_wrap=True, cka_unwrap=True) if disable_old_keys: # set CKA_WRAP=False for old master keys master_keys = p11.find_keys(KEY_CLASS_SECRET_KEY, label=keylabel, cka_wrap=True) for handle in master_keys: # don't disable wrapping for new key # compare IDs not handle if key_id != p11.get_attribute(handle, CKA_ID): p11.set_attribute(handle, CKA_WRAP, False)