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# -*- coding: utf-8 -*- """ oauthlib.oauth1.rfc5849.signature ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ This module represents a direct implementation of `section 3.4`_ of the spec. Terminology: * Client: software interfacing with an OAuth API * Server: the API provider * Resource Owner: the user who is granting authorization to the client Steps for signing a request: 1. Collect parameters from the uri query, auth header, & body 2. Normalize those parameters 3. Normalize the uri 4. Pass the normalized uri, normalized parameters, and http method to construct the base string 5. Pass the base string and any keys needed to a signing function .. _`section 3.4`: http://tools.ietf.org/html/rfc5849#section-3.4 """ from __future__ import absolute_import, unicode_literals import binascii import hashlib import hmac import logging from oauthlib.common import (bytes_type, extract_params, safe_string_equals, unicode_type, urldecode) from . import utils try: import urlparse except ImportError: import urllib.parse as urlparse log = logging.getLogger(__name__) def construct_base_string(http_method, base_string_uri, normalized_encoded_request_parameters): """**String Construction** Per `section 3.4.1.1`_ of the spec. For example, the HTTP request:: POST /request?b5=%3D%253D&a3=a&c%40=&a2=r%20b HTTP/1.1 Host: example.com Content-Type: application/x-www-form-urlencoded Authorization: OAuth realm="Example", oauth_consumer_key="9djdj82h48djs9d2", oauth_token="kkk9d7dh3k39sjv7", oauth_signature_method="HMAC-SHA1", oauth_timestamp="137131201", oauth_nonce="7d8f3e4a", oauth_signature="bYT5CMsGcbgUdFHObYMEfcx6bsw%3D" c2&a3=2+q is represented by the following signature base string (line breaks are for display purposes only):: POST&http%3A%2F%2Fexample.com%2Frequest&a2%3Dr%2520b%26a3%3D2%2520q %26a3%3Da%26b5%3D%253D%25253D%26c%2540%3D%26c2%3D%26oauth_consumer_ key%3D9djdj82h48djs9d2%26oauth_nonce%3D7d8f3e4a%26oauth_signature_m ethod%3DHMAC-SHA1%26oauth_timestamp%3D137131201%26oauth_token%3Dkkk 9d7dh3k39sjv7 .. _`section 3.4.1.1`: http://tools.ietf.org/html/rfc5849#section-3.4.1.1 """ # The signature base string is constructed by concatenating together, # in order, the following HTTP request elements: # 1. The HTTP request method in uppercase. For example: "HEAD", # "GET", "POST", etc. If the request uses a custom HTTP method, it # MUST be encoded (`Section 3.6`_). # # .. _`Section 3.6`: http://tools.ietf.org/html/rfc5849#section-3.6 base_string = utils.escape(http_method.upper()) # 2. An "&" character (ASCII code 38). base_string += '&' # 3. The base string URI from `Section 3.4.1.2`_, after being encoded # (`Section 3.6`_). # # .. _`Section 3.4.1.2`: http://tools.ietf.org/html/rfc5849#section-3.4.1.2 # .. _`Section 3.4.6`: http://tools.ietf.org/html/rfc5849#section-3.4.6 base_string += utils.escape(base_string_uri) # 4. An "&" character (ASCII code 38). base_string += '&' # 5. The request parameters as normalized in `Section 3.4.1.3.2`_, after # being encoded (`Section 3.6`). # # .. _`Section 3.4.1.3.2`: http://tools.ietf.org/html/rfc5849#section-3.4.1.3.2 # .. _`Section 3.4.6`: http://tools.ietf.org/html/rfc5849#section-3.4.6 base_string += utils.escape(normalized_encoded_request_parameters) return base_string def normalize_base_string_uri(uri, host=None): """**Base String URI** Per `section 3.4.1.2`_ of the spec. For example, the HTTP request:: GET /r%20v/X?id=123 HTTP/1.1 Host: EXAMPLE.COM:80 is represented by the base string URI: "http://example.com/r%20v/X". In another example, the HTTPS request:: GET /?q=1 HTTP/1.1 Host: www.example.net:8080 is represented by the base string URI: "https://www.example.net:8080/". .. _`section 3.4.1.2`: http://tools.ietf.org/html/rfc5849#section-3.4.1.2 The host argument overrides the netloc part of the uri argument. """ if not isinstance(uri, unicode_type): raise ValueError('uri must be a unicode object.') # FIXME: urlparse does not support unicode scheme, netloc, path, params, query, fragment = urlparse.urlparse(uri) # The scheme, authority, and path of the request resource URI `RFC3986` # are included by constructing an "http" or "https" URI representing # the request resource (without the query or fragment) as follows: # # .. _`RFC3986`: http://tools.ietf.org/html/rfc3986 if not scheme or not netloc: raise ValueError('uri must include a scheme and netloc') # Per `RFC 2616 section 5.1.2`_: # # Note that the absolute path cannot be empty; if none is present in # the original URI, it MUST be given as "/" (the server root). # # .. _`RFC 2616 section 5.1.2`: http://tools.ietf.org/html/rfc2616#section-5.1.2 if not path: path = '/' # 1. The scheme and host MUST be in lowercase. scheme = scheme.lower() netloc = netloc.lower() # 2. The host and port values MUST match the content of the HTTP # request "Host" header field. if host is not None: netloc = host.lower() # 3. The port MUST be included if it is not the default port for the # scheme, and MUST be excluded if it is the default. Specifically, # the port MUST be excluded when making an HTTP request `RFC2616`_ # to port 80 or when making an HTTPS request `RFC2818`_ to port 443. # All other non-default port numbers MUST be included. # # .. _`RFC2616`: http://tools.ietf.org/html/rfc2616 # .. _`RFC2818`: http://tools.ietf.org/html/rfc2818 default_ports = ( ('http', '80'), ('https', '443'), ) if ':' in netloc: host, port = netloc.split(':', 1) if (scheme, port) in default_ports: netloc = host return urlparse.urlunparse((scheme, netloc, path, params, '', '')) # ** Request Parameters ** # # Per `section 3.4.1.3`_ of the spec. # # In order to guarantee a consistent and reproducible representation of # the request parameters, the parameters are collected and decoded to # their original decoded form. They are then sorted and encoded in a # particular manner that is often different from their original # encoding scheme, and concatenated into a single string. # # .. _`section 3.4.1.3`: http://tools.ietf.org/html/rfc5849#section-3.4.1.3 def collect_parameters(uri_query='', body=[], headers=None, exclude_oauth_signature=True, with_realm=False): """**Parameter Sources** Parameters starting with `oauth_` will be unescaped. Body parameters must be supplied as a dict, a list of 2-tuples, or a formencoded query string. Headers must be supplied as a dict. Per `section 3.4.1.3.1`_ of the spec. For example, the HTTP request:: POST /request?b5=%3D%253D&a3=a&c%40=&a2=r%20b HTTP/1.1 Host: example.com Content-Type: application/x-www-form-urlencoded Authorization: OAuth realm="Example", oauth_consumer_key="9djdj82h48djs9d2", oauth_token="kkk9d7dh3k39sjv7", oauth_signature_method="HMAC-SHA1", oauth_timestamp="137131201", oauth_nonce="7d8f3e4a", oauth_signature="djosJKDKJSD8743243%2Fjdk33klY%3D" c2&a3=2+q contains the following (fully decoded) parameters used in the signature base sting:: +------------------------+------------------+ | Name | Value | +------------------------+------------------+ | b5 | =%3D | | a3 | a | | c@ | | | a2 | r b | | oauth_consumer_key | 9djdj82h48djs9d2 | | oauth_token | kkk9d7dh3k39sjv7 | | oauth_signature_method | HMAC-SHA1 | | oauth_timestamp | 137131201 | | oauth_nonce | 7d8f3e4a | | c2 | | | a3 | 2 q | +------------------------+------------------+ Note that the value of "b5" is "=%3D" and not "==". Both "c@" and "c2" have empty values. While the encoding rules specified in this specification for the purpose of constructing the signature base string exclude the use of a "+" character (ASCII code 43) to represent an encoded space character (ASCII code 32), this practice is widely used in "application/x-www-form-urlencoded" encoded values, and MUST be properly decoded, as demonstrated by one of the "a3" parameter instances (the "a3" parameter is used twice in this request). .. _`section 3.4.1.3.1`: http://tools.ietf.org/html/rfc5849#section-3.4.1.3.1 """ headers = headers or {} params = [] # The parameters from the following sources are collected into a single # list of name/value pairs: # * The query component of the HTTP request URI as defined by # `RFC3986, Section 3.4`_. The query component is parsed into a list # of name/value pairs by treating it as an # "application/x-www-form-urlencoded" string, separating the names # and values and decoding them as defined by # `W3C.REC-html40-19980424`_, Section 17.13.4. # # .. _`RFC3986, Section 3.4`: http://tools.ietf.org/html/rfc3986#section-3.4 # .. _`W3C.REC-html40-19980424`: http://tools.ietf.org/html/rfc5849#ref-W3C.REC-html40-19980424 if uri_query: params.extend(urldecode(uri_query)) # * The OAuth HTTP "Authorization" header field (`Section 3.5.1`_) if # present. The header's content is parsed into a list of name/value # pairs excluding the "realm" parameter if present. The parameter # values are decoded as defined by `Section 3.5.1`_. # # .. _`Section 3.5.1`: http://tools.ietf.org/html/rfc5849#section-3.5.1 if headers: headers_lower = dict((k.lower(), v) for k, v in headers.items()) authorization_header = headers_lower.get('authorization') if authorization_header is not None: params.extend([i for i in utils.parse_authorization_header( authorization_header) if with_realm or i[0] != 'realm']) # * The HTTP request entity-body, but only if all of the following # conditions are met: # * The entity-body is single-part. # # * The entity-body follows the encoding requirements of the # "application/x-www-form-urlencoded" content-type as defined by # `W3C.REC-html40-19980424`_. # * The HTTP request entity-header includes the "Content-Type" # header field set to "application/x-www-form-urlencoded". # # .._`W3C.REC-html40-19980424`: http://tools.ietf.org/html/rfc5849#ref-W3C.REC-html40-19980424 # TODO: enforce header param inclusion conditions bodyparams = extract_params(body) or [] params.extend(bodyparams) # ensure all oauth params are unescaped unescaped_params = [] for k, v in params: if k.startswith('oauth_'): v = utils.unescape(v) unescaped_params.append((k, v)) # The "oauth_signature" parameter MUST be excluded from the signature # base string if present. if exclude_oauth_signature: unescaped_params = list(filter(lambda i: i[0] != 'oauth_signature', unescaped_params)) return unescaped_params def normalize_parameters(params): """**Parameters Normalization** Per `section 3.4.1.3.2`_ of the spec. For example, the list of parameters from the previous section would be normalized as follows: Encoded:: +------------------------+------------------+ | Name | Value | +------------------------+------------------+ | b5 | %3D%253D | | a3 | a | | c%40 | | | a2 | r%20b | | oauth_consumer_key | 9djdj82h48djs9d2 | | oauth_token | kkk9d7dh3k39sjv7 | | oauth_signature_method | HMAC-SHA1 | | oauth_timestamp | 137131201 | | oauth_nonce | 7d8f3e4a | | c2 | | | a3 | 2%20q | +------------------------+------------------+ Sorted:: +------------------------+------------------+ | Name | Value | +------------------------+------------------+ | a2 | r%20b | | a3 | 2%20q | | a3 | a | | b5 | %3D%253D | | c%40 | | | c2 | | | oauth_consumer_key | 9djdj82h48djs9d2 | | oauth_nonce | 7d8f3e4a | | oauth_signature_method | HMAC-SHA1 | | oauth_timestamp | 137131201 | | oauth_token | kkk9d7dh3k39sjv7 | +------------------------+------------------+ Concatenated Pairs:: +-------------------------------------+ | Name=Value | +-------------------------------------+ | a2=r%20b | | a3=2%20q | | a3=a | | b5=%3D%253D | | c%40= | | c2= | | oauth_consumer_key=9djdj82h48djs9d2 | | oauth_nonce=7d8f3e4a | | oauth_signature_method=HMAC-SHA1 | | oauth_timestamp=137131201 | | oauth_token=kkk9d7dh3k39sjv7 | +-------------------------------------+ and concatenated together into a single string (line breaks are for display purposes only):: a2=r%20b&a3=2%20q&a3=a&b5=%3D%253D&c%40=&c2=&oauth_consumer_key=9dj dj82h48djs9d2&oauth_nonce=7d8f3e4a&oauth_signature_method=HMAC-SHA1 &oauth_timestamp=137131201&oauth_token=kkk9d7dh3k39sjv7 .. _`section 3.4.1.3.2`: http://tools.ietf.org/html/rfc5849#section-3.4.1.3.2 """ # The parameters collected in `Section 3.4.1.3`_ are normalized into a # single string as follows: # # .. _`Section 3.4.1.3`: http://tools.ietf.org/html/rfc5849#section-3.4.1.3 # 1. First, the name and value of each parameter are encoded # (`Section 3.6`_). # # .. _`Section 3.6`: http://tools.ietf.org/html/rfc5849#section-3.6 key_values = [(utils.escape(k), utils.escape(v)) for k, v in params] # 2. The parameters are sorted by name, using ascending byte value # ordering. If two or more parameters share the same name, they # are sorted by their value. key_values.sort() # 3. The name of each parameter is concatenated to its corresponding # value using an "=" character (ASCII code 61) as a separator, even # if the value is empty. parameter_parts = ['{0}={1}'.format(k, v) for k, v in key_values] # 4. The sorted name/value pairs are concatenated together into a # single string by using an "&" character (ASCII code 38) as # separator. return '&'.join(parameter_parts) def sign_hmac_sha1_with_client(base_string, client): return sign_hmac_sha1(base_string, client.client_secret, client.resource_owner_secret ) def sign_hmac_sha1(base_string, client_secret, resource_owner_secret): """**HMAC-SHA1** The "HMAC-SHA1" signature method uses the HMAC-SHA1 signature algorithm as defined in `RFC2104`_:: digest = HMAC-SHA1 (key, text) Per `section 3.4.2`_ of the spec. .. _`RFC2104`: http://tools.ietf.org/html/rfc2104 .. _`section 3.4.2`: http://tools.ietf.org/html/rfc5849#section-3.4.2 """ # The HMAC-SHA1 function variables are used in following way: # text is set to the value of the signature base string from # `Section 3.4.1.1`_. # # .. _`Section 3.4.1.1`: http://tools.ietf.org/html/rfc5849#section-3.4.1.1 text = base_string # key is set to the concatenated values of: # 1. The client shared-secret, after being encoded (`Section 3.6`_). # # .. _`Section 3.6`: http://tools.ietf.org/html/rfc5849#section-3.6 key = utils.escape(client_secret or '') # 2. An "&" character (ASCII code 38), which MUST be included # even when either secret is empty. key += '&' # 3. The token shared-secret, after being encoded (`Section 3.6`_). # # .. _`Section 3.6`: http://tools.ietf.org/html/rfc5849#section-3.6 key += utils.escape(resource_owner_secret or '') # FIXME: HMAC does not support unicode! key_utf8 = key.encode('utf-8') text_utf8 = text.encode('utf-8') signature = hmac.new(key_utf8, text_utf8, hashlib.sha1) # digest is used to set the value of the "oauth_signature" protocol # parameter, after the result octet string is base64-encoded # per `RFC2045, Section 6.8`. # # .. _`RFC2045, Section 6.8`: http://tools.ietf.org/html/rfc2045#section-6.8 return binascii.b2a_base64(signature.digest())[:-1].decode('utf-8') _jwtrs1 = None #jwt has some nice pycrypto/cryptography abstractions def _jwt_rs1_signing_algorithm(): global _jwtrs1 if _jwtrs1 is None: import jwt.algorithms as jwtalgo _jwtrs1 = jwtalgo.RSAAlgorithm(jwtalgo.hashes.SHA1) return _jwtrs1 def sign_rsa_sha1(base_string, rsa_private_key): """**RSA-SHA1** Per `section 3.4.3`_ of the spec. The "RSA-SHA1" signature method uses the RSASSA-PKCS1-v1_5 signature algorithm as defined in `RFC3447, Section 8.2`_ (also known as PKCS#1), using SHA-1 as the hash function for EMSA-PKCS1-v1_5. To use this method, the client MUST have established client credentials with the server that included its RSA public key (in a manner that is beyond the scope of this specification). .. _`section 3.4.3`: http://tools.ietf.org/html/rfc5849#section-3.4.3 .. _`RFC3447, Section 8.2`: http://tools.ietf.org/html/rfc3447#section-8.2 """ if isinstance(base_string, unicode_type): base_string = base_string.encode('utf-8') # TODO: finish RSA documentation alg = _jwt_rs1_signing_algorithm() key = _prepare_key_plus(alg, rsa_private_key) s=alg.sign(base_string, key) return binascii.b2a_base64(s)[:-1].decode('utf-8') def sign_rsa_sha1_with_client(base_string, client): if not client.rsa_key: raise ValueError('rsa_key is required when using RSA signature method.') return sign_rsa_sha1(base_string, client.rsa_key) def sign_plaintext(client_secret, resource_owner_secret): """Sign a request using plaintext. Per `section 3.4.4`_ of the spec. The "PLAINTEXT" method does not employ a signature algorithm. It MUST be used with a transport-layer mechanism such as TLS or SSL (or sent over a secure channel with equivalent protections). It does not utilize the signature base string or the "oauth_timestamp" and "oauth_nonce" parameters. .. _`section 3.4.4`: http://tools.ietf.org/html/rfc5849#section-3.4.4 """ # The "oauth_signature" protocol parameter is set to the concatenated # value of: # 1. The client shared-secret, after being encoded (`Section 3.6`_). # # .. _`Section 3.6`: http://tools.ietf.org/html/rfc5849#section-3.6 signature = utils.escape(client_secret or '') # 2. An "&" character (ASCII code 38), which MUST be included even # when either secret is empty. signature += '&' # 3. The token shared-secret, after being encoded (`Section 3.6`_). # # .. _`Section 3.6`: http://tools.ietf.org/html/rfc5849#section-3.6 signature += utils.escape(resource_owner_secret or '') return signature def sign_plaintext_with_client(base_string, client): return sign_plaintext(client.client_secret, client.resource_owner_secret) def verify_hmac_sha1(request, client_secret=None, resource_owner_secret=None): """Verify a HMAC-SHA1 signature. Per `section 3.4`_ of the spec. .. _`section 3.4`: http://tools.ietf.org/html/rfc5849#section-3.4 To satisfy `RFC2616 section 5.2`_ item 1, the request argument's uri attribute MUST be an absolute URI whose netloc part identifies the origin server or gateway on which the resource resides. Any Host item of the request argument's headers dict attribute will be ignored. .. _`RFC2616 section 5.2`: http://tools.ietf.org/html/rfc2616#section-5.2 """ norm_params = normalize_parameters(request.params) uri = normalize_base_string_uri(request.uri) base_string = construct_base_string(request.http_method, uri, norm_params) signature = sign_hmac_sha1(base_string, client_secret, resource_owner_secret) match = safe_string_equals(signature, request.signature) if not match: log.debug('Verify HMAC-SHA1 failed: sig base string: %s', base_string) return match def _prepare_key_plus(alg, keystr): if isinstance(keystr, bytes_type): keystr = keystr.decode('utf-8') return alg.prepare_key(keystr) def verify_rsa_sha1(request, rsa_public_key): """Verify a RSASSA-PKCS #1 v1.5 base64 encoded signature. Per `section 3.4.3`_ of the spec. Note this method requires the jwt and cryptography libraries. .. _`section 3.4.3`: http://tools.ietf.org/html/rfc5849#section-3.4.3 To satisfy `RFC2616 section 5.2`_ item 1, the request argument's uri attribute MUST be an absolute URI whose netloc part identifies the origin server or gateway on which the resource resides. Any Host item of the request argument's headers dict attribute will be ignored. .. _`RFC2616 section 5.2`: http://tools.ietf.org/html/rfc2616#section-5.2 """ norm_params = normalize_parameters(request.params) uri = normalize_base_string_uri(request.uri) message = construct_base_string(request.http_method, uri, norm_params).encode('utf-8') sig = binascii.a2b_base64(request.signature.encode('utf-8')) alg = _jwt_rs1_signing_algorithm() key = _prepare_key_plus(alg, rsa_public_key) verify_ok = alg.verify(message, key, sig) if not verify_ok: log.debug('Verify RSA-SHA1 failed: sig base string: %s', message) return verify_ok def verify_plaintext(request, client_secret=None, resource_owner_secret=None): """Verify a PLAINTEXT signature. Per `section 3.4`_ of the spec. .. _`section 3.4`: http://tools.ietf.org/html/rfc5849#section-3.4 """ signature = sign_plaintext(client_secret, resource_owner_secret) match = safe_string_equals(signature, request.signature) if not match: log.debug('Verify PLAINTEXT failed') return match
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