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ProtonMail/proton-python-client

Proton API Python Client

Copyright (c) 2021 Proton Technologies AG

This repository holds the Proton Python Client. For licensing information see COPYING. For contribution policy see CONTRIBUTING.

Description

The Python Proton Client is intended for every Proton service user.

You can download the latest stable release, either from our official repositories or directly on the official GitHub repository.

Dependencies

Python Debian Fedora Arch
requests >= 2.16.0 * python3-requests python3-requests python-requests
bcrypt python3-bcrypt python3-bcrypt python-bcrypt
python-gnupg python3-gnupg python3-gnupg python-gnupg
pyopenssl python3-openssl python3-pyOpenSSL python-pyopenssl

* versions lower than 2.16 of the Python Requests library are not officially supported due to the missing support for TLS pinning, which is required in order to properly verify and trust the connection to the Proton API. It is possible disable TLS pinning (ie: to run with lower requests versions), but be aware of the risk.

Table of Contents

Install

The recommended way to install the client is via OS-respective packages (.deb/.rpm/.zst), by either compiling it yourself or downloading the binaries from our repositories. If for some reason that is not possible, then a normal python installation can be accomplished.

Usage

Import

from proton.api import Session, ProtonError

Setup

By default, TLS pinning is enabled. If you would like to disable it, you can additionally pass TLSPinning=False.

proton_session = Session(
    api_url="https://example.api.com",
    appversion="GithubExample_0.0.1",
    user_agent="Ubuntu_20.04",
)

api_url: The base API url

appversion: Usually this is the version of the application that is implementing the client. Leave it empty for non-official Proton clients.

user_agent: This helps us to understand on what type of platforms the client is being used. This usually can be fed with the output of a python package called distro. Leave empty in case of doubt.

Now that we've setup our Proton session, we're ready for authentication.

Authenticate

To authenticate against the Proton API, two types of information would need to be provided first, the Proton username and password.

proton_session.authenticate(username, password)

username: Proton username, ie: protonvpn@protonmail.ch

password: Proton password

After successfully authenticating against the API, we can now start using our proton_session object to make API calls. More on that in API calls.

Store session

To store the session locally on disk (for later re-use), we need to first extract its contents. To accomplish that we will need to use a method called dump(). This method returns a dict.

proton_session.dump()

The output of a dump will usually look something like this:

session_dump = proton_session.dump()
print(session_dump)
---
{"api_url": "https://example.api.com", "appversion": "GithubExample_0.0.1", "User-Agent": "Ubuntu_20.04", "cookies": {}, "session_data": {}}

If cookies and session_data contain no data, then it means that we've attempted to make an API call and it failed or we haven't made one yet.

If authenticated, session_data will contain some data that will be necessary for the Refresh Session chapter, in particular the keys AccessToken and RefreshToken.

Note: It is recommended to store the contents as JSON.

Load session

To re-use a session that we've previously stored we need to do as following:

  1. Get session contents
  2. Instantiate our session

If for example we've previously stored the session on a JSON file, then we would need to extract the session contents from file first (step 1):

with open(PATH_TO_JSON_SESSION_FILE, "r") as f:
    session_in_json_format = json.loads(f.read())

Now we can proceed with session instantiation (step 2):

proton_session = Session.load(
    dump=session_in_json_format
)

Now we're able to start using our proton_session object to make API calls. More on that in API calls.

Refresh Session

As previously introduced in the Store session chapter, AccessToken and RefreshToken are two tokens that identify us against the API. As their names imply, AccessToken is used to give us access to the API while RefreshToken is used to refresh the AccessToken whenever this one is invalidated by the servers. An AccessToken can be invalidated for the following reasons:

  • When the session is removed via the webclient
  • When a logout() is executed
  • When the session has expired

If for any reason the API responds with error 401, then it means that the AccessToken is invalid and it needs to be refreshed (assuming that the RefreshToken is valid). To refresh the tokens * we can use the following method:

proton_session.refresh()

Our tokens * have now been updated. To make sure that we can re-use this session with the refreshed tokens *, we can store them into file (or keyring). Consult the Store session chapter on how to accomplish that.

* when we use the refresh() method, both AccessToken and RefreshToken are refreshed.

API calls

Once we're authenticated and our tokens are valid, we can make api calls to various endpoints. By default a post request is made, unless another type of request is passed: method=get|post|put|delete|patch|None. Also additional custom headers can be sent with additional_headers="{'header': 'custom_header'}". Then to make the request we can use the following:

proton_session.api_request(endpoint="custom_api_endpoint")

Error handling

For all of commands presented in the previous chapters, it is recommended to use them within try/except blocks. Some common errors that might come up:

  • 401: Invalid AccessToken, client should refresh tokens (Refresh Session)
  • 403: Missing scopes, client should re-authenticate (logout and login)
  • 429: Too many requests. Retry after time provided by ProtonError.headers["Retry-After"]
  • 503: Unable to reach API (most probably API is down)
  • 8002: Provided password is wrong
  • 10002: Account is deleted
  • 10003: Account is disabled
  • 10013: RefreshToken is invalid. Client should re-authenticate (logout and login)

Below are some use cases:

  • Authentication
error_message = {
    8002: "Provided password is incorrect",
    10002: "Account is deleted",
    10003: "Account is disabled",
}
try:
    proton_session.authenticate("proton_user@protonmail.ch", "Su!erS€cretPa§§word")
except ProtonError as e:
    print(error_message.get(e.code, "Unknown error")
  • API requests
error_message = {
    401: "Invalid access token, client should refresh tokens",
    403: "Missing scopes, client should re-authenticate",
    429: "Too many requests, client needs to retry after specified in headers",
    503: "API is unreacheable",
    10013: "Refresh token is invalid. Client should re-authenticate (logout and login)",
}

try:
    proton_session.api_request(endpoint="custom_api_endpoint")
except ProtonError as e:
    print(error_message.get(e.code, "Unknown error")
  • Refresh token
try:
    proton_session.api_request(endpoint="custom_api_endpoint")
except ProtonError as e:
    e.code == 401:
        proton_session.refresh()
        print("Now we can retry making another API call since tokens have been refreshed")