epicyon/httpsig.py

472 lines
18 KiB
Python

__filename__ = "httpsig.py"
__author__ = "Bob Mottram"
__credits__ = ['lamia']
__license__ = "AGPL3+"
__version__ = "1.2.0"
__maintainer__ = "Bob Mottram"
__email__ = "bob@libreserver.org"
__status__ = "Production"
__module_group__ = "Security"
# see https://tools.ietf.org/html/draft-cavage-http-signatures-06
#
# This might change in future
# see https://tools.ietf.org/html/draft-ietf-httpbis-message-signatures-01
from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives.serialization import load_pem_private_key
from cryptography.hazmat.primitives.serialization import load_pem_public_key
from cryptography.hazmat.primitives.asymmetric import padding
from cryptography.hazmat.primitives import hashes
from cryptography.hazmat.primitives.asymmetric import utils as hazutils
import base64
from time import gmtime, strftime
import datetime
from utils import getFullDomain
from utils import getSHA256
from utils import getSHA512
from utils import localActorUrl
def messageContentDigest(messageBodyJsonStr: str) -> str:
msg = messageBodyJsonStr.encode('utf-8')
hashResult = getSHA256(msg)
return base64.b64encode(hashResult).decode('utf-8')
def signPostHeaders(dateStr: str, privateKeyPem: str,
nickname: str,
domain: str, port: int,
toDomain: str, toPort: int,
path: str,
httpPrefix: str,
messageBodyJsonStr: str,
contentType: str) -> str:
"""Returns a raw signature string that can be plugged into a header and
used to verify the authenticity of an HTTP transmission.
"""
domain = getFullDomain(domain, port)
toDomain = getFullDomain(toDomain, toPort)
if not dateStr:
dateStr = strftime("%a, %d %b %Y %H:%M:%S %Z", gmtime())
if nickname != domain and nickname.lower() != 'actor':
keyID = localActorUrl(httpPrefix, nickname, domain)
else:
# instance actor
keyID = httpPrefix + '://' + domain + '/actor'
keyID += '#main-key'
if not messageBodyJsonStr:
headers = {
'(request-target)': f'get {path}',
'host': toDomain,
'date': dateStr,
'accept': contentType
}
else:
bodyDigest = messageContentDigest(messageBodyJsonStr)
contentLength = len(messageBodyJsonStr)
headers = {
'(request-target)': f'post {path}',
'host': toDomain,
'date': dateStr,
'digest': f'SHA-256={bodyDigest}',
'content-type': 'application/activity+json',
'content-length': str(contentLength)
}
key = load_pem_private_key(privateKeyPem.encode('utf-8'),
None, backend=default_backend())
# headers.update({
# '(request-target)': f'post {path}',
# })
# build a digest for signing
signedHeaderKeys = headers.keys()
signedHeaderText = ''
for headerKey in signedHeaderKeys:
signedHeaderText += f'{headerKey}: {headers[headerKey]}\n'
# strip the trailing linefeed
signedHeaderText = signedHeaderText.rstrip('\n')
# signedHeaderText.encode('ascii') matches
headerDigest = getSHA256(signedHeaderText.encode('ascii'))
# print('headerDigest2: ' + str(headerDigest))
# Sign the digest
rawSignature = key.sign(headerDigest,
padding.PKCS1v15(),
hazutils.Prehashed(hashes.SHA256()))
signature = base64.b64encode(rawSignature).decode('ascii')
# Put it into a valid HTTP signature format
signatureDict = {
'keyId': keyID,
'algorithm': 'rsa-sha256',
'headers': ' '.join(signedHeaderKeys),
'signature': signature
}
signatureHeader = ','.join(
[f'{k}="{v}"' for k, v in signatureDict.items()])
return signatureHeader
def signPostHeadersNew(dateStr: str, privateKeyPem: str,
nickname: str,
domain: str, port: int,
toDomain: str, toPort: int,
path: str,
httpPrefix: str,
messageBodyJsonStr: str,
algorithm: str) -> (str, str):
"""Returns a raw signature strings that can be plugged into a header
as "Signature-Input" and "Signature"
used to verify the authenticity of an HTTP transmission.
See https://tools.ietf.org/html/draft-ietf-httpbis-message-signatures-01
"""
domain = getFullDomain(domain, port)
toDomain = getFullDomain(toDomain, toPort)
timeFormat = "%a, %d %b %Y %H:%M:%S %Z"
if not dateStr:
currTime = gmtime()
dateStr = strftime(timeFormat, currTime)
else:
currTime = datetime.datetime.strptime(dateStr, timeFormat)
secondsSinceEpoch = \
int((currTime - datetime.datetime(1970, 1, 1)).total_seconds())
keyID = localActorUrl(httpPrefix, nickname, domain) + '#main-key'
if not messageBodyJsonStr:
headers = {
'*request-target': f'post {path}',
'*created': str(secondsSinceEpoch),
'host': toDomain,
'date': dateStr,
'content-type': 'application/json'
}
else:
bodyDigest = messageContentDigest(messageBodyJsonStr)
contentLength = len(messageBodyJsonStr)
headers = {
'*request-target': f'post {path}',
'*created': str(secondsSinceEpoch),
'host': toDomain,
'date': dateStr,
'digest': f'SHA-256={bodyDigest}',
'content-type': 'application/activity+json',
'content-length': str(contentLength)
}
key = load_pem_private_key(privateKeyPem.encode('utf-8'),
None, backend=default_backend())
# build a digest for signing
signedHeaderKeys = headers.keys()
signedHeaderText = ''
for headerKey in signedHeaderKeys:
signedHeaderText += f'{headerKey}: {headers[headerKey]}\n'
signedHeaderText = signedHeaderText.strip()
# Sign the digest. Potentially other signing algorithms can be added here.
signature = ''
if algorithm == 'rsa-sha512':
headerDigest = getSHA512(signedHeaderText.encode('ascii'))
rawSignature = key.sign(headerDigest,
padding.PKCS1v15(),
hazutils.Prehashed(hashes.SHA512()))
signature = base64.b64encode(rawSignature).decode('ascii')
else:
# default sha256
headerDigest = getSHA256(signedHeaderText.encode('ascii'))
rawSignature = key.sign(headerDigest,
padding.PKCS1v15(),
hazutils.Prehashed(hashes.SHA256()))
signature = base64.b64encode(rawSignature).decode('ascii')
sigKey = 'sig1'
# Put it into a valid HTTP signature format
signatureInputDict = {
'keyId': keyID,
}
signatureIndexHeader = '; '.join(
[f'{k}="{v}"' for k, v in signatureInputDict.items()])
signatureIndexHeader += '; alg=hs2019'
signatureIndexHeader += '; created=' + str(secondsSinceEpoch)
signatureIndexHeader += \
'; ' + sigKey + '=(' + ', '.join(signedHeaderKeys) + ')'
signatureDict = {
sigKey: signature
}
signatureHeader = '; '.join(
[f'{k}=:{v}:' for k, v in signatureDict.items()])
return signatureIndexHeader, signatureHeader
def createSignedHeader(dateStr: str, privateKeyPem: str, nickname: str,
domain: str, port: int,
toDomain: str, toPort: int,
path: str, httpPrefix: str, withDigest: bool,
messageBodyJsonStr: str,
contentType: str) -> {}:
"""Note that the domain is the destination, not the sender
"""
headerDomain = getFullDomain(toDomain, toPort)
# if no date is given then create one
if not dateStr:
dateStr = strftime("%a, %d %b %Y %H:%M:%S %Z", gmtime())
# Content-Type or Accept header
if not contentType:
contentType = 'application/activity+json'
if not withDigest:
headers = {
'(request-target)': f'get {path}',
'host': headerDomain,
'date': dateStr,
'accept': contentType
}
signatureHeader = \
signPostHeaders(dateStr, privateKeyPem, nickname,
domain, port, toDomain, toPort,
path, httpPrefix, None, contentType)
else:
bodyDigest = messageContentDigest(messageBodyJsonStr)
contentLength = len(messageBodyJsonStr)
headers = {
'(request-target)': f'post {path}',
'host': headerDomain,
'date': dateStr,
'digest': f'SHA-256={bodyDigest}',
'content-length': str(contentLength),
'content-type': contentType
}
signatureHeader = \
signPostHeaders(dateStr, privateKeyPem, nickname,
domain, port,
toDomain, toPort,
path, httpPrefix, messageBodyJsonStr,
contentType)
headers['signature'] = signatureHeader
return headers
def _verifyRecentSignature(signedDateStr: str) -> bool:
"""Checks whether the given time taken from the header is within
12 hours of the current time
"""
currDate = datetime.datetime.utcnow()
dateFormat = "%a, %d %b %Y %H:%M:%S %Z"
signedDate = datetime.datetime.strptime(signedDateStr, dateFormat)
timeDiffSec = (currDate - signedDate).seconds
# 12 hours tollerance
if timeDiffSec > 43200:
print('WARN: Header signed too long ago: ' + signedDateStr)
print(str(timeDiffSec / (60 * 60)) + ' hours')
return False
if timeDiffSec < 0:
print('WARN: Header signed in the future! ' + signedDateStr)
print(str(timeDiffSec / (60 * 60)) + ' hours')
return False
return True
def verifyPostHeaders(httpPrefix: str, publicKeyPem: str, headers: dict,
path: str, GETmethod: bool,
messageBodyDigest: str,
messageBodyJsonStr: str, debug: bool,
noRecencyCheck: bool = False) -> bool:
"""Returns true or false depending on if the key that we plugged in here
validates against the headers, method, and path.
publicKeyPem - the public key from an rsa key pair
headers - should be a dictionary of request headers
path - the relative url that was requested from this site
GETmethod - GET or POST
messageBodyJsonStr - the received request body (used for digest)
"""
if GETmethod:
method = 'GET'
else:
method = 'POST'
if debug:
print('DEBUG: verifyPostHeaders ' + method)
print('verifyPostHeaders publicKeyPem: ' + str(publicKeyPem))
print('verifyPostHeaders headers: ' + str(headers))
print('verifyPostHeaders messageBodyJsonStr: ' +
str(messageBodyJsonStr))
pubkey = load_pem_public_key(publicKeyPem.encode('utf-8'),
backend=default_backend())
# Build a dictionary of the signature values
if headers.get('Signature-Input'):
signatureHeader = headers['Signature-Input']
fieldSep2 = ','
# split the signature input into separate fields
signatureDict = {
k.strip(): v.strip()
for k, v in [i.split('=', 1) for i in signatureHeader.split(';')]
}
requestTargetKey = None
requestTargetStr = None
for k, v in signatureDict.items():
if v.startswith('('):
requestTargetKey = k
requestTargetStr = v[1:-1]
break
if not requestTargetKey:
return False
signatureDict[requestTargetKey] = requestTargetStr
else:
requestTargetKey = 'headers'
signatureHeader = headers['signature']
fieldSep2 = ' '
# split the signature input into separate fields
signatureDict = {
k: v[1:-1]
for k, v in [i.split('=', 1) for i in signatureHeader.split(',')]
}
if debug:
print('signatureDict: ' + str(signatureDict))
# Unpack the signed headers and set values based on current headers and
# body (if a digest was included)
signedHeaderList = []
algorithm = 'rsa-sha256'
for signedHeader in signatureDict[requestTargetKey].split(fieldSep2):
signedHeader = signedHeader.strip()
if debug:
print('DEBUG: verifyPostHeaders signedHeader=' + signedHeader)
if signedHeader == '(request-target)':
# original Mastodon http signature
appendStr = f'(request-target): {method.lower()} {path}'
signedHeaderList.append(appendStr)
elif '*request-target' in signedHeader:
# https://tools.ietf.org/html/
# draft-ietf-httpbis-message-signatures-01
appendStr = f'*request-target: {method.lower()} {path}'
# remove ()
# if appendStr.startswith('('):
# appendStr = appendStr.split('(')[1]
# if ')' in appendStr:
# appendStr = appendStr.split(')')[0]
signedHeaderList.append(appendStr)
elif signedHeader == 'algorithm':
if headers.get(signedHeader):
algorithm = headers[signedHeader]
elif signedHeader == 'digest':
if messageBodyDigest:
bodyDigest = messageBodyDigest
else:
bodyDigest = messageContentDigest(messageBodyJsonStr)
signedHeaderList.append(f'digest: SHA-256={bodyDigest}')
elif signedHeader == 'content-length':
if headers.get(signedHeader):
appendStr = f'content-length: {headers[signedHeader]}'
signedHeaderList.append(appendStr)
elif headers.get('Content-Length'):
contentLength = headers['Content-Length']
signedHeaderList.append(f'content-length: {contentLength}')
elif headers.get('Content-length'):
contentLength = headers['Content-length']
appendStr = f'content-length: {contentLength}'
signedHeaderList.append(appendStr)
else:
if debug:
print('DEBUG: verifyPostHeaders ' + signedHeader +
' not found in ' + str(headers))
else:
if headers.get(signedHeader):
if signedHeader == 'date' and not noRecencyCheck:
if not _verifyRecentSignature(headers[signedHeader]):
if debug:
print('DEBUG: ' +
'verifyPostHeaders date is not recent ' +
headers[signedHeader])
return False
signedHeaderList.append(
f'{signedHeader}: {headers[signedHeader]}')
else:
if '-' in signedHeader:
# capitalise with dashes
# my-header becomes My-Header
headerParts = signedHeader.split('-')
signedHeaderCap = None
for part in headerParts:
if signedHeaderCap:
signedHeaderCap += '-' + part.capitalize()
else:
signedHeaderCap = part.capitalize()
else:
# header becomes Header
signedHeaderCap = signedHeader.capitalize()
if debug:
print('signedHeaderCap: ' + signedHeaderCap)
# if this is the date header then check it is recent
if signedHeaderCap == 'Date':
if not _verifyRecentSignature(headers[signedHeaderCap]):
if debug:
print('DEBUG: ' +
'verifyPostHeaders date is not recent ' +
headers[signedHeader])
return False
# add the capitalised header
if headers.get(signedHeaderCap):
signedHeaderList.append(
f'{signedHeader}: {headers[signedHeaderCap]}')
elif '-' in signedHeader:
# my-header becomes My-header
signedHeaderCap = signedHeader.capitalize()
if headers.get(signedHeaderCap):
signedHeaderList.append(
f'{signedHeader}: {headers[signedHeaderCap]}')
# Now we have our header data digest
signedHeaderText = '\n'.join(signedHeaderList)
if debug:
print('signedHeaderText:\n' + signedHeaderText + 'END')
# Get the signature, verify with public key, return result
signature = None
if headers.get('Signature-Input') and headers.get('Signature'):
# https://tools.ietf.org/html/
# draft-ietf-httpbis-message-signatures-01
headersSig = headers['Signature']
# remove sig1=:
if requestTargetKey + '=:' in headersSig:
headersSig = headersSig.split(requestTargetKey + '=:')[1]
headersSig = headersSig[:len(headersSig)-1]
signature = base64.b64decode(headersSig)
else:
# Original Mastodon signature
signature = base64.b64decode(signatureDict['signature'])
if debug:
print('signature: ' + algorithm + ' ' +
signatureDict['signature'])
# If extra signing algorithms need to be added then do it here
if algorithm == 'rsa-sha256':
headerDigest = getSHA256(signedHeaderText.encode('ascii'))
paddingStr = padding.PKCS1v15()
alg = hazutils.Prehashed(hashes.SHA256())
elif algorithm == 'rsa-sha512':
headerDigest = getSHA512(signedHeaderText.encode('ascii'))
paddingStr = padding.PKCS1v15()
alg = hazutils.Prehashed(hashes.SHA512())
else:
print('Unknown http signature algorithm: ' + algorithm)
paddingStr = padding.PKCS1v15()
alg = hazutils.Prehashed(hashes.SHA256())
headerDigest = ''
try:
pubkey.verify(signature, headerDigest, paddingStr, alg)
return True
except BaseException:
if debug:
print('EX: verifyPostHeaders pkcs1_15 verify failure')
return False