-from ctypes import c_void_p
+"""
+Implements interface to openssl X509 and X509Store structures,
+I.e allows to load, analyze and verify certificates.
+
+X509Store objects are also used to verify other signed documets,
+such as CMS, OCSP and timestamps.
+"""
+
+
+
+from ctypes import c_void_p,create_string_buffer,c_long,c_int,POINTER,c_char_p,Structure,cast
from ctypescrypto.bio import Membio
from ctypescrypto.pkey import PKey
from ctypescrypto.oid import Oid
from ctypescrypto.exception import LibCryptoError
from ctypescrypto import libcrypto
+from datetime import datetime
+try:
+ from pytz import utc
+except ImportError:
+ from datetime import timedelta,tzinfo
+ ZERO=timedelta(0)
+ class UTC(tzinfo):
+ """tzinfo object for UTC.
+ If no pytz is available, we would use it.
+ """
+
+ def utcoffset(self, dt):
+ return ZERO
+
+ def tzname(self, dt):
+ return "UTC"
+
+ def dst(self, dt):
+ return ZERO
+
+ utc=UTC()
+
+__all__ = ['X509','X509Error','X509Name','X509Store','StackOfX509']
+
+class _validity(Structure):
+ """ ctypes representation of X509_VAL structure
+ needed to access certificate validity period, because openssl
+ doesn't provide fuctions for it - only macros
+ """
+ _fields_ = [('notBefore',c_void_p),('notAfter',c_void_p)]
+
+class _cinf(Structure):
+ """ ctypes representtion of X509_CINF structure
+ neede to access certificate data, which are accessable only
+ via macros
+ """
+ _fields_ = [('version',c_void_p),
+ ('serialNumber',c_void_p),
+ ('sign_alg',c_void_p),
+ ('issuer',c_void_p),
+ ('validity',POINTER(_validity)),
+ ('subject',c_void_p),
+ ('pubkey',c_void_p),
+ ('issuerUID',c_void_p),
+ ('subjectUID',c_void_p),
+ ('extensions',c_void_p),
+ ]
+
+class _x509(Structure):
+ """
+ ctypes represntation of X509 structure needed
+ to access certificate data which are accesable only via
+ macros, not functions
+ """
+ _fields_ = [('cert_info',POINTER(_cinf)),
+ ('sig_alg',c_void_p),
+ ('signature',c_void_p),
+ # There are a lot of parsed extension fields there
+ ]
+_px509 = POINTER(_x509)
class X509Error(LibCryptoError):
+ """
+ Exception, generated when some openssl function fail
+ during X509 operation
+ """
pass
-class X509Name:
- def __init__(self,ptr):
- self.ptr=ptr
+class X509Name(object):
+ """
+ Class which represents X.509 distinguished name - typically
+ a certificate subject name or an issuer name.
+
+ Now used only to represent information, extracted from the
+ certificate. Potentially can be also used to build DN when creating
+ certificate signing request
+ """
+ # XN_FLAG_SEP_COMMA_PLUS & ASN1_STRFLG_UTF8_CONVERT
+ PRINT_FLAG=0x10010
+ ESC_MSB=4
+ def __init__(self,ptr=None,copy=False):
+ """
+ Creates a X509Name object
+ @param ptr - pointer to X509_NAME C structure (as returned by some OpenSSL functions
+ @param copy - indicates that this structure have to be freed upon object destruction
+ """
+ if ptr is not None:
+ self.ptr=ptr
+ self.need_free=copy
+ self.writable=False
+ else:
+ self.ptr=libcrypto.X509_NAME_new()
+ self.need_free=True
+ self.writable=True
def __del__(self):
- libcrypto.X509_NAME_free(self.ptr)
+ """
+ Frees if neccessary
+ """
+ if self.need_free:
+ libcrypto.X509_NAME_free(self.ptr)
def __str__(self):
+ """
+ Produces an ascii representation of the name, escaping all symbols > 0x80
+ Probably it is not what you want, unless your native language is English
+ """
b=Membio()
- libcrypto.X509_NAME_print_ex(b.bio,self.ptr,0,PRING_FLAG)
- return str(b).decode("utf-8")
-
+ libcrypto.X509_NAME_print_ex(b.bio,self.ptr,0,self.PRINT_FLAG | self.ESC_MSB)
+ return str(b)
+ def __unicode__(self):
+ """
+ Produces unicode representation of the name.
+ """
+ b=Membio()
+ libcrypto.X509_NAME_print_ex(b.bio,self.ptr,0,self.PRINT_FLAG)
+ return unicode(b)
def __len__(self):
+ """
+ return number of components in the name
+ """
return libcrypto.X509_NAME_entry_count(self.ptr)
+ def __cmp__(self,other):
+ """
+ Compares X509 names
+ """
+ return libcrypto.X509_NAME_cmp(self.ptr,other.ptr)
+ def __eq__(self,other):
+ return libcrypto.X509_NAME_cmp(self.ptr,other.ptr)==0
- def __getattr__(self,key):
+ def __getitem__(self,key):
if isinstance(key,Oid):
- # Return list of strings
- raise NotImpemented
- elif isinstance(key,int):
- # Return OID, sting tuple
- raise NotImplemented
+ # Return first matching field
+ idx=libcrypto.X509_NAME_get_index_by_NID(self.ptr,key.nid,-1)
+ if idx<0:
+ raise KeyError("Key not found "+str(Oid))
+ entry=libcrypto.X509_NAME_get_entry(self.ptr,idx)
+ s=libcrypto.X509_NAME_ENTRY_get_data(entry)
+ b=Membio()
+ libcrypto.ASN1_STRING_print_ex(b.bio,s,self.PRINT_FLAG)
+ return unicode(b)
+ elif isinstance(key,(int,long)):
+ # Return OID, string tuple
+ entry=libcrypto.X509_NAME_get_entry(self.ptr,key)
+ if entry is None:
+ raise IndexError("name entry index out of range")
+ oid=Oid.fromobj(libcrypto.X509_NAME_ENTRY_get_object(entry))
+ s=libcrypto.X509_NAME_ENTRY_get_data(entry)
+ b=Membio()
+ libcrypto.ASN1_STRING_print_ex(b.bio,s,self.PRINT_FLAG)
+ return (oid,unicode(b))
else:
- raise TypeError("X509 name can be indexed with oids and numbers only")
+ raise TypeError("X509 NAME can be indexed by Oids or integers only")
- def __setattr__(self,key,val):
- pass
-class X509_extlist:
- def __init__(self,ptr):
- self.ptr=ptr
+ def __setitem__(self,key,val):
+ if not self.writable:
+ raise ValueError("Attempt to modify constant X509 object")
+ else:
+ raise NotImplementedError
+ def __delitem__(self,key):
+ if not self.writable:
+ raise ValueError("Attempt to modify constant X509 object")
+ else:
+ raise NotImplementedError
+ def __hash__(self):
+ return libcrypto.X509_NAME_hash(self.ptr)
+
+class _x509_ext(Structure):
+ """ Represens C structure X509_EXTENSION """
+ _fields_=[("object",c_void_p),
+ ("critical",c_int),
+ ("value",c_void_p)]
+
+class X509_EXT(object):
+ """ Python object which represents a certificate extension """
+ def __init__(self,ptr,copy=False):
+ """ Initializes from the pointer to X509_EXTENSION.
+ If copy is True, creates a copy, otherwise just
+ stores pointer.
+ """
+ if copy:
+ self.ptr=libcrypto.X509_EXTENSION_dup(ptr)
+ else:
+ self.ptr=cast(ptr,POINTER(_x509_ext))
def __del__(self):
- libcrypto.X509_NAME_free(self.ptr)
+ libcrypto.X509_EXTENSION_free(self.ptr)
def __str__(self):
- raise NotImplemented
+ b=Membio()
+ libcrypto.X509V3_EXT_print(b.bio,self.ptr,0x20010,0)
+ return str(b)
+ def __unicode__(self):
+ b=Membio()
+ libcrypto.X509V3_EXT_print(b.bio,self.ptr,0x20010,0)
+ return unicode(b)
+ @property
+ def oid(self):
+ return Oid.fromobj(self.ptr[0].object)
+ @property
+ def critical(self):
+ return self.ptr[0].critical >0
+class _X509extlist(object):
+ """
+ Represents list of certificate extensions
+ """
+ def __init__(self,cert):
+ self.cert=cert
def __len__(self):
- return libcrypto.X509_NAME_entry_count(self.ptr)
-
- def __getattr__(self,key):
- raise NotImplemented
- def __setattr__(self,key,val):
- raise NotImplemented
-
-
-
+ return libcrypto.X509_get_ext_count(self.cert.cert)
+ def __getitem__(self,item):
+ p=libcrypto.X509_get_ext(self.cert.cert,item)
+ if p is None:
+ raise IndexError
+ return X509_EXT(p,True)
+ def find(self,oid):
+ """
+ Return list of extensions with given Oid
+ """
+ if not isinstance(oid,Oid):
+ raise TypeError("Need crytypescrypto.oid.Oid as argument")
+ found=[]
+ l=-1
+ end=len(self)
+ while True:
+ l=libcrypto.X509_get_ext_by_NID(self.cert.cert,oid.nid,l)
+ if l>=end or l<0:
+ break
+ found.append(self[l])
+ return found
+ def find_critical(self,crit=True):
+ """
+ Return list of critical extensions (or list of non-cricital, if
+ optional second argument is False
+ """
+ if crit:
+ flag=1
+ else:
+ flag=0
+ found=[]
+ end=len(self)
+ l=-1
+ while True:
+ l=libcrypto.X509_get_ext_by_critical(self.cert.cert,flag,l)
+ if l>=end or l<0:
+ break
+ found.append(self[l])
+ return found
-class X509:
+class X509(object):
+ """
+ Represents X.509 certificate.
+ """
def __init__(self,data=None,ptr=None,format="PEM"):
+ """
+ Initializes certificate
+ @param data - serialized certificate in PEM or DER format.
+ @param ptr - pointer to X509, returned by some openssl function.
+ mutually exclusive with data
+ @param format - specifies data format. "PEM" or "DER", default PEM
+ """
if ptr is not None:
if data is not None:
raise TypeError("Cannot use data and ptr simultaneously")
self.cert = ptr
elif data is None:
raise TypeError("data argument is required")
+ else:
b=Membio(data)
if format == "PEM":
self.cert=libcrypto.PEM_read_bio_X509(b.bio,None,None,None)
self.cert=libcrypto.d2i_X509_bio(b.bio,None)
if self.cert is None:
raise X509Error("error reading certificate")
+ self.extensions=_X509extlist(self)
def __del__(self):
+ """
+ Frees certificate object
+ """
libcrypto.X509_free(self.cert)
def __str__(self):
""" Returns der string of the certificate """
b=Membio()
if libcrypto.i2d_X509_bio(b.bio,self.cert)==0:
raise X509Error("error serializing certificate")
+ return str(b)
+ def __repr__(self):
+ """ Returns valid call to the constructor """
+ return "X509(data="+repr(str(self))+",format='DER')"
@property
def pubkey(self):
"""EVP PKEy object of certificate public key"""
return PKey(ptr=libcrypto.X509_get_pubkey(self.cert,False))
- def verify(self,key):
- """ Verify self on given issuer key """
+ def pem(self):
+ """ Returns PEM represntation of the certificate """
+ b=Membio()
+ if libcrypto.PEM_write_bio_X509(b.bio,self.cert)==0:
+ raise X509Error("error serializing certificate")
+ return str(b)
+ def verify(self,store=None,chain=[],key=None):
+ """
+ Verify self. Supports verification on both X509 store object
+ or just public issuer key
+ @param store X509Store object.
+ @param chain - list of X509 objects to add into verification
+ context.These objects are untrusted, but can be used to
+ build certificate chain up to trusted object in the store
+ @param key - PKey object with open key to validate signature
+
+ parameters store and key are mutually exclusive. If neither
+ is specified, attempts to verify self as self-signed certificate
+ """
+ if store is not None and key is not None:
+ raise X509Error("key and store cannot be specified simultaneously")
+ if store is not None:
+ ctx=libcrypto.X509_STORE_CTX_new()
+ if ctx is None:
+ raise X509Error("Error allocating X509_STORE_CTX")
+ if chain is not None and len(chain)>0:
+ ch=StackOfX509(chain)
+ else:
+ ch=None
+ if libcrypto.X509_STORE_CTX_init(ctx,store.store,self.cert,ch) < 0:
+ raise X509Error("Error allocating X509_STORE_CTX")
+ res= libcrypto.X509_verify_cert(ctx)
+ libcrypto.X509_STORE_CTX_free(ctx)
+ return res>0
+ else:
+ if key is None:
+ if self.issuer != self.subject:
+ # Not a self-signed certificate
+ return False
+ key = self.pubkey
+ res = libcrypto.X509_verify(self.cert,key.key)
+ if res < 0:
+ raise X509Error("X509_verify failed")
+ return res>0
+
@property
def subject(self):
""" X509Name for certificate subject name """
@property
def serial(self):
""" Serial number of certificate as integer """
- return
+ asnint=libcrypto.X509_get_serialNumber(self.cert)
+ b=Membio()
+ libcrypto.i2a_ASN1_INTEGER(b.bio,asnint)
+ return int(str(b),16)
+ @property
+ def version(self):
+ """ certificate version as integer. Really certificate stores 0 for
+ version 1 and 2 for version 3, but we return 1 and 3 """
+ asn1int=cast(self.cert,_px509)[0].cert_info[0].version
+ return libcrypto.ASN1_INTEGER_get(asn1int)+1
@property
def startDate(self):
""" Certificate validity period start date """
- raise NotImplemented
+ # Need deep poke into certificate structure (x)->cert_info->validity->notBefore
+ global utc
+ asn1date=cast(self.cert,_px509)[0].cert_info[0].validity[0].notBefore
+ b=Membio()
+ libcrypto.ASN1_TIME_print(b.bio,asn1date)
+ return datetime.strptime(str(b),"%b %d %H:%M:%S %Y %Z").replace(tzinfo=utc)
@property
def endDate(self):
""" Certificate validity period end date """
- raise NotImplemented
- def extensions(self):
- raise NotImplemented
+ # Need deep poke into certificate structure (x)->cert_info->validity->notAfter
+ global utc
+ asn1date=cast(self.cert,_px509)[0].cert_info[0].validity[0].notAfter
+ b=Membio()
+ libcrypto.ASN1_TIME_print(b.bio,asn1date)
+ return datetime.strptime(str(b),"%b %d %H:%M:%S %Y %Z").replace(tzinfo=utc)
+ def check_ca(self):
+ """ Returns True if certificate is CA certificate """
+ return libcrypto.X509_check_ca(self.cert)>0
+class X509Store(object):
+ """
+ Represents trusted certificate store. Can be used to lookup CA
+ certificates to verify
+
+ @param file - file with several certificates and crls
+ to load into store
+ @param dir - hashed directory with certificates and crls
+ @param default - if true, default verify location (directory)
+ is installed
+
+ """
+ def __init__(self,file=None,dir=None,default=False):
+ """
+ Creates X509 store and installs lookup method. Optionally initializes
+ by certificates from given file or directory.
+ """
+ #
+ # Todo - set verification flags
+ #
+ self.store=libcrypto.X509_STORE_new()
+ if self.store is None:
+ raise X509Error("allocating store")
+ lookup=libcrypto.X509_STORE_add_lookup(self.store,libcrypto.X509_LOOKUP_file())
+ if lookup is None:
+ raise X509Error("error installing file lookup method")
+ if (file is not None):
+ if not libcrypto.X509_LOOKUP_ctrl(lookup,1,file,1,None)>0:
+ raise X509Error("error loading trusted certs from file "+file)
+ lookup=libcrypto.X509_STORE_add_lookup(self.store,libcrypto.X509_LOOKUP_hash_dir())
+ if lookup is None:
+ raise X509Error("error installing hashed lookup method")
+ if dir is not None:
+ if not libcrypto.X509_LOOKUP_ctrl(lookup,2,dir,1,None)>0:
+ raise X509Error("error adding hashed trusted certs dir "+dir)
+ if default:
+ if not libcrypto.X509_LOOKUP_ctrl(lookup,2,None,3,None)>0:
+ raise X509Error("error adding default trusted certs dir ")
+ def add_cert(self,cert):
+ """
+ Explicitely adds certificate to set of trusted in the store
+ @param cert - X509 object to add
+ """
+ if not isinstance(cert,X509):
+ raise TypeError("cert should be X509")
+ libcrypto.X509_STORE_add_cert(self.store,cert.cert)
+ def add_callback(self,callback):
+ """
+ Installs callback function, which would receive detailed information
+ about verified ceritificates
+ """
+ raise NotImplementedError
+ def setflags(self,flags):
+ """
+ Set certificate verification flags.
+ @param flags - integer bit mask. See OpenSSL X509_V_FLAG_* constants
+ """
+ libcrypto.X509_STORE_set_flags(self.store,flags)
+ def setpurpose(self,purpose):
+ """
+ Sets certificate purpose which verified certificate should match
+ @param purpose - number from 1 to 9 or standard strind defined in Openssl
+ possible strings - sslcient,sslserver, nssslserver, smimesign,smimeencrypt, crlsign, any,ocsphelper
+ """
+ if isinstance(purpose,str):
+ purp_no=X509_PURPOSE_get_by_sname(purpose)
+ if purp_no <=0:
+ raise X509Error("Invalid certificate purpose '"+purpose+"'")
+ elif isinstance(purpose,int):
+ purp_no = purpose
+ if libcrypto.X509_STORE_set_purpose(self.store,purp_no)<=0:
+ raise X509Error("cannot set purpose")
+ def setdepth(self,depth):
+ """
+ Sets the verification depth i.e. max length of certificate chain
+ which is acceptable
+ """
+ libcrypto.X509_STORE_set_depth(self.store,depth)
+ def settime(self, time):
+ """
+ Set point in time used to check validity of certificates for
+ Time can be either python datetime object or number of seconds
+ sinse epoch
+ """
+ if isinstance(time,datetime.datetime) or isinstance(time,datetime.date):
+ d=int(time.strftime("%s"))
+ elif isinstance(time,int):
+ pass
+ else:
+ raise TypeError("datetime.date, datetime.datetime or integer is required as time argument")
+ raise NotImplementedError
+class StackOfX509(object):
+ """
+ Implements OpenSSL STACK_OF(X509) object.
+ It looks much like python container types
+ """
+ def __init__(self,certs=None,ptr=None,disposable=True):
+ """
+ Create stack
+ @param certs - list of X509 objects. If specified, read-write
+ stack is created and populated by these certificates
+ @param ptr - pointer to OpenSSL STACK_OF(X509) as returned by
+ some functions
+ @param disposable - if True, stack created from object, returned
+ by function is copy, and can be modified and need to be
+ freeid. If false, it is just pointer into another
+ structure i.e. CMS_ContentInfo
+ """
+ if ptr is None:
+ self.need_free = True
+ self.ptr=libcrypto.sk_new_null()
+ if certs is not None:
+ for crt in certs:
+ self.append(crt)
+ elif certs is not None:
+ raise ValueError("cannot handle certs an ptr simultaneously")
+ else:
+ self.need_free = disposable
+ self.ptr=ptr
+ def __len__(self):
+ return libcrypto.sk_num(self.ptr)
+ def __getitem__(self,index):
+ if index <0 or index>=len(self):
+ raise IndexError
+ p=libcrypto.sk_value(self.ptr,index)
+ return X509(ptr=libcrypto.X509_dup(p))
+ def __setitem__(self,index,value):
+ if not self.need_free:
+ raise ValueError("Stack is read-only")
+ if index <0 or index>=len(self):
+ raise IndexError
+ if not isinstance(value,X509):
+ raise TypeError('StackOfX508 can contain only X509 objects')
+ p=libcrypto.sk_value(self.ptr,index)
+ libcrypto.sk_set(self.ptr,index,libcrypto.X509_dup(value.cert))
+ libcrypto.X509_free(p)
+ def __delitem__(self,index):
+ if not self.need_free:
+ raise ValueError("Stack is read-only")
+ if index <0 or index>=len(self):
+ raise IndexError
+ p=libcrypto.sk_delete(self.ptr,index)
+ libcrypto.X509_free(p)
+ def __del__(self):
+ if self.need_free:
+ libcrypto.sk_pop_free(self.ptr,libcrypto.X509_free)
+ def append(self,value):
+ if not self.need_free:
+ raise ValueError("Stack is read-only")
+ if not isinstance(value,X509):
+ raise TypeError('StackOfX508 can contain only X509 objects')
+ libcrypto.sk_push(self.ptr,libcrypto.X509_dup(value.cert))
+libcrypto.i2a_ASN1_INTEGER.argtypes=(c_void_p,c_void_p)
+libcrypto.ASN1_STRING_print_ex.argtypes=(c_void_p,c_void_p,c_long)
+libcrypto.PEM_read_bio_X509.restype=c_void_p
+libcrypto.PEM_read_bio_X509.argtypes=(c_void_p,POINTER(c_void_p),c_void_p,c_void_p)
+libcrypto.PEM_write_bio_X509.restype=c_int
+libcrypto.PEM_write_bio_X509.argtypes=(c_void_p,c_void_p)
+libcrypto.ASN1_TIME_print.argtypes=(c_void_p,c_void_p)
+libcrypto.ASN1_INTEGER_get.argtypes=(c_void_p,)
+libcrypto.ASN1_INTEGER_get.restype=c_long
+libcrypto.X509_get_serialNumber.argtypes=(c_void_p,)
+libcrypto.X509_get_serialNumber.restype=c_void_p
+libcrypto.X509_NAME_ENTRY_get_object.restype=c_void_p
+libcrypto.X509_NAME_ENTRY_get_object.argtypes=(c_void_p,)
+libcrypto.OBJ_obj2nid.argtypes=(c_void_p,)
+libcrypto.X509_NAME_get_entry.restype=c_void_p
+libcrypto.X509_NAME_get_entry.argtypes=(c_void_p,c_int)
+libcrypto.X509_STORE_new.restype=c_void_p
+libcrypto.X509_STORE_add_lookup.restype=c_void_p
+libcrypto.X509_STORE_add_lookup.argtypes=(c_void_p,c_void_p)
+libcrypto.X509_LOOKUP_file.restype=c_void_p
+libcrypto.X509_LOOKUP_hash_dir.restype=c_void_p
+libcrypto.X509_LOOKUP_ctrl.restype=c_int
+libcrypto.X509_LOOKUP_ctrl.argtypes=(c_void_p,c_int,c_char_p,c_long,POINTER(c_char_p))
+libcrypto.X509_EXTENSION_dup.argtypes=(c_void_p,)
+libcrypto.X509_EXTENSION_dup.restype=POINTER(_x509_ext)
+libcrypto.X509V3_EXT_print.argtypes=(c_void_p,POINTER(_x509_ext),c_long,c_int)
+libcrypto.X509_get_ext.restype=c_void_p
+libcrypto.X509_get_ext.argtypes=(c_void_p,c_int)
+libcrypto.X509V3_EXT_print.argtypes=(c_void_p,POINTER(_x509_ext),c_long,c_int)
+libcrypto.sk_set.argtypes=(c_void_p,c_int,c_void_p)
+libcrypto.sk_set.restype=c_void_p
+libcrypto.sk_value.argtypes=(c_void_p,c_int)
+libcrypto.sk_value.restype=c_void_p
+libcrypto.X509_dup.restype=c_void_p
+libcrypto.sk_new_null.restype=c_void_p
+libcrypto.X509_dup.argtypes=(c_void_p,)
+libcrypto.X509_NAME_hash.restype=c_long
+libcrypto.X509_NAME_hash.argtypes=(c_void_p,)