V4 signing process with your own program

This page describes an algorithm for implementing the V4 signing process so that you can create Cloud Storage RSA key signed URLs in your own workflow, using a programming language of your choice. Signed URLs give time-limited read or write access to a specific Cloud Storage resource. Anyone in possession of the signed URL can use it while it's active, regardless of whether they have a Google account.

To learn how to use Cloud Storage tools to more easily create Cloud Storage RSA key signed URLs, see V4 Signing Process with Cloud Storage Tools. To learn more about signed URLs, see the Overview of Signed URLs.


Before creating a program that implements the V4 signing process, you should:

  1. Generate a new private key, or have an existing private key for a service account. The key can be in either JSON or PKCS12 format.

    For more information on private keys and service accounts, see Service Accounts.

  2. Give the service account sufficient permission such that it could perform the request that the signed URL will make.

    For example, if your signed URL will allow a user to download an object, the service account should have storage.objects.get permission on the object.

Algorithm for signing URLs

Your program should include the following steps:

  1. Construct the canonical request as a string. The canonical request defines elements that users must include in their request when they use your signed URL.

    See Canonical Requests for details about the parts and format required.

  2. Use a SHA-256 hashing function to create a hex-encoded hash value of the canonical request.

    Your programming language should have a library for creating SHA-256 hashes. An example hash value looks like:

  3. Construct the string-to-sign.

    The string-to-sign should have the following structure, including the use of newlines between each element:


    The string-to-sign has the following components:

    • SIGNING_ALGORITHM: This should be GOOG4-RSA-SHA256.

    • CURRENT_DATETIME: The current date and time, in the ISO 8601 basic format YYYYMMDD'T'HHMMSS'Z'.

    • CREDENTIAL SCOPE: The credential scope of the request for signing the string-to-sign.

    • HASHED_CANONICAL_REQUEST: The hex-encoded, SHA-256 hash of the canonical request, which you created in the previous step.

  4. Sign the string-to-sign using an RSA signature with SHA-256. The result of this signing is your request signature.

    Your programming language should have a library for performing RSA signatures. Within a Google App Engine application, you can use the App Engine App Identity service to sign your string.

  5. Construct the signed URL by using the following concatenation:


    The signed URL has the following components:

    • HOSTNAME: This should be https://storage.googleapis.com.

    • PATH_TO_RESOURCE: This should match the value you used in constructing the canonical request.

    • CANONICAL_QUERY_STRING: This should match the values you used in constructing the canonical request.

    • REQUEST_SIGNATURE: This is the output from using an RSA signature in the previous step.

    Here is a sample completed URL:


Python sample program

The following sample shows an implementation of the algorithm for signing URLs. The sample uses the Python programming language:

import binascii
import collections
import datetime
import hashlib
import sys

# pip install six
import six
from six.moves.urllib.parse import quote

# pip install google-auth
from google.oauth2 import service_account

def generate_signed_url(service_account_file, bucket_name, object_name,
                        expiration, http_method='GET', query_parameters=None,

    if expiration > 604800:
        print('Expiration Time can\'t be longer than 604800 seconds (7 days).')

    escaped_object_name = quote(six.ensure_binary(object_name), safe=b'/~')
    canonical_uri = '/{}/{}'.format(bucket_name, escaped_object_name)

    datetime_now = datetime.datetime.utcnow()
    request_timestamp = datetime_now.strftime('%Y%m%dT%H%M%SZ')
    datestamp = datetime_now.strftime('%Y%m%d')

    google_credentials = service_account.Credentials.from_service_account_file(
    client_email = google_credentials.service_account_email
    credential_scope = '{}/auto/storage/goog4_request'.format(datestamp)
    credential = '{}/{}'.format(client_email, credential_scope)

    if headers is None:
        headers = dict()
    headers['host'] = 'storage.googleapis.com'

    canonical_headers = ''
    ordered_headers = collections.OrderedDict(sorted(headers.items()))
    for k, v in ordered_headers.items():
        lower_k = str(k).lower()
        strip_v = str(v).lower()
        canonical_headers += '{}:{}\n'.format(lower_k, strip_v)

    signed_headers = ''
    for k, _ in ordered_headers.items():
        lower_k = str(k).lower()
        signed_headers += '{};'.format(lower_k)
    signed_headers = signed_headers[:-1]  # remove trailing ';'

    if query_parameters is None:
        query_parameters = dict()
    query_parameters['X-Goog-Algorithm'] = 'GOOG4-RSA-SHA256'
    query_parameters['X-Goog-Credential'] = credential
    query_parameters['X-Goog-Date'] = request_timestamp
    query_parameters['X-Goog-Expires'] = expiration
    query_parameters['X-Goog-SignedHeaders'] = signed_headers

    canonical_query_string = ''
    ordered_query_parameters = collections.OrderedDict(
    for k, v in ordered_query_parameters.items():
        encoded_k = quote(str(k), safe='')
        encoded_v = quote(str(v), safe='')
        canonical_query_string += '{}={}&'.format(encoded_k, encoded_v)
    canonical_query_string = canonical_query_string[:-1]  # remove trailing ';'

    canonical_request = '\n'.join([http_method,

    canonical_request_hash = hashlib.sha256(

    string_to_sign = '\n'.join(['GOOG4-RSA-SHA256',

    signature = binascii.hexlify(

    host_name = 'https://storage.googleapis.com'
    signed_url = '{}{}?{}&X-Goog-Signature={}'.format(host_name, canonical_uri,
    return signed_url

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