Пример #1
0
        def new_user_and_device(self, is_admin, certifier_id, certifier_key):
            device_id = self.next_device_id()

            local_device = local_device_factory(device_id, org=coolorg)
            self.local_devices[device_id] = local_device

            user = UserCertificateContent(
                author=certifier_id,
                timestamp=pendulum_now(),
                user_id=local_device.user_id,
                human_handle=local_device.human_handle,
                public_key=local_device.public_key,
                profile=UserProfile.ADMIN if is_admin else UserProfile.STANDARD,
            )
            self.users_content[device_id.user_id] = user
            self.users_certifs[device_id.user_id] = user.dump_and_sign(certifier_key)

            device = DeviceCertificateContent(
                author=certifier_id,
                timestamp=pendulum_now(),
                device_id=local_device.device_id,
                device_label=local_device.device_label,
                verify_key=local_device.verify_key,
            )
            self.devices_content[local_device.device_id] = device
            self.devices_certifs[local_device.device_id] = device.dump_and_sign(certifier_key)

            return device_id
Пример #2
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async def bootstrap_organization(
    cmds: APIV1_BackendAnonymousCmds,
    human_handle: Optional[HumanHandle],
    device_label: Optional[str],
) -> LocalDevice:
    root_signing_key = SigningKey.generate()
    root_verify_key = root_signing_key.verify_key

    organization_addr = BackendOrganizationAddr.build(
        backend_addr=cmds.addr,
        organization_id=cmds.addr.organization_id,
        root_verify_key=root_verify_key,
    )

    device = generate_new_device(
        organization_addr=organization_addr,
        profile=UserProfile.ADMIN,
        human_handle=human_handle,
        device_label=device_label,
    )

    now = pendulum_now()
    user_certificate = UserCertificateContent(
        author=None,
        timestamp=now,
        user_id=device.user_id,
        human_handle=device.human_handle,
        public_key=device.public_key,
        profile=device.profile,
    )
    redacted_user_certificate = user_certificate.evolve(human_handle=None)
    device_certificate = DeviceCertificateContent(
        author=None,
        timestamp=now,
        device_id=device.device_id,
        device_label=device.device_label,
        verify_key=device.verify_key,
    )
    redacted_device_certificate = device_certificate.evolve(device_label=None)

    user_certificate = user_certificate.dump_and_sign(root_signing_key)
    redacted_user_certificate = redacted_user_certificate.dump_and_sign(
        root_signing_key)
    device_certificate = device_certificate.dump_and_sign(root_signing_key)
    redacted_device_certificate = redacted_device_certificate.dump_and_sign(
        root_signing_key)

    rep = await cmds.organization_bootstrap(
        organization_id=cmds.addr.organization_id,
        bootstrap_token=cmds.addr.token,
        root_verify_key=root_verify_key,
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=redacted_user_certificate,
        redacted_device_certificate=redacted_device_certificate,
    )
    _check_rep(rep, step_name="organization bootstrap")

    return device
Пример #3
0
async def test_redacted_certificates_cannot_contain_sensitive_data(
        alice_backend_sock, alice, mallory):
    now = pendulum.now()
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=mallory.user_id,
        human_handle=mallory.human_handle,
        public_key=mallory.public_key,
        profile=UserProfile.STANDARD,
    )
    redacted_user_certificate = user_certificate.evolve(human_handle=None)
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=now,
        device_id=mallory.device_id,
        device_label=mallory.device_label,
        verify_key=mallory.verify_key,
    )
    redacted_device_certificate = device_certificate.evolve(device_label=None)

    user_certificate = user_certificate.dump_and_sign(alice.signing_key)
    device_certificate = device_certificate.dump_and_sign(alice.signing_key)
    redacted_user_certificate = redacted_user_certificate.dump_and_sign(
        alice.signing_key)
    redacted_device_certificate = redacted_device_certificate.dump_and_sign(
        alice.signing_key)

    with freeze_time(now):
        rep = await user_create(
            alice_backend_sock,
            user_certificate=user_certificate,
            device_certificate=device_certificate,
            redacted_user_certificate=user_certificate,
            redacted_device_certificate=redacted_device_certificate,
        )
        assert rep == {
            "status":
            "invalid_data",
            "reason":
            "Redacted User certificate must not contain a human_handle field.",
        }

        rep = await user_create(
            alice_backend_sock,
            user_certificate=user_certificate,
            device_certificate=device_certificate,
            redacted_user_certificate=redacted_user_certificate,
            redacted_device_certificate=device_certificate,
        )
        assert rep == {
            "status":
            "invalid_data",
            "reason":
            "Redacted Device certificate must not contain a device_label field.",
        }
Пример #4
0
def local_device_to_backend_user(
    device: LocalDevice, certifier: Union[LocalDevice, OrganizationFullData]
) -> Tuple[BackendUser, BackendDevice]:
    if isinstance(certifier, OrganizationFullData):
        certifier_id = None
        certifier_signing_key = certifier.root_signing_key
    else:
        certifier_id = certifier.device_id
        certifier_signing_key = certifier.signing_key

    now = pendulum.now()

    user_certificate = UserCertificateContent(
        author=certifier_id,
        timestamp=now,
        user_id=device.user_id,
        public_key=device.public_key,
        profile=device.profile,
        human_handle=device.human_handle,
    )
    device_certificate = DeviceCertificateContent(
        author=certifier_id,
        timestamp=now,
        device_id=device.device_id,
        device_label=device.device_label,
        verify_key=device.verify_key,
    )
    redacted_user_certificate = user_certificate.evolve(human_handle=None)
    redacted_device_certificate = device_certificate.evolve(device_label=None)

    user = BackendUser(
        user_id=device.user_id,
        human_handle=device.human_handle,
        profile=device.profile,
        user_certificate=user_certificate.dump_and_sign(certifier_signing_key),
        redacted_user_certificate=redacted_user_certificate.dump_and_sign(
            certifier_signing_key),
        user_certifier=certifier_id,
        created_on=now,
    )

    first_device = BackendDevice(
        device_id=device.device_id,
        device_label=device.device_label,
        device_certificate=device_certificate.dump_and_sign(
            certifier_signing_key),
        redacted_device_certificate=redacted_device_certificate.dump_and_sign(
            certifier_signing_key),
        device_certifier=certifier_id,
        created_on=now,
    )

    return user, first_device
Пример #5
0
async def _register_new_user(
    cmds: BackendAuthenticatedCmds,
    author: LocalDevice,
    device_label: Optional[str],
    human_handle: Optional[HumanHandle],
    profile: UserProfile,
) -> LocalDevice:
    new_device = generate_new_device(
        organization_addr=cmds.addr,
        device_label=device_label,
        human_handle=human_handle,
        profile=profile,
    )
    now = pendulum_now()

    user_certificate = UserCertificateContent(
        author=author.device_id,
        timestamp=now,
        user_id=new_device.device_id.user_id,
        human_handle=new_device.human_handle,
        public_key=new_device.public_key,
        profile=new_device.profile,
    )
    redacted_user_certificate = user_certificate.evolve(human_handle=None)

    device_certificate = DeviceCertificateContent(
        author=author.device_id,
        timestamp=now,
        device_id=new_device.device_id,
        device_label=new_device.device_label,
        verify_key=new_device.verify_key,
    )
    redacted_device_certificate = device_certificate.evolve(device_label=None)

    user_certificate = user_certificate.dump_and_sign(author.signing_key)
    redacted_user_certificate = redacted_user_certificate.dump_and_sign(
        author.signing_key)
    device_certificate = device_certificate.dump_and_sign(author.signing_key)
    redacted_device_certificate = redacted_device_certificate.dump_and_sign(
        author.signing_key)

    rep = await cmds.user_create(
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=redacted_user_certificate,
        redacted_device_certificate=redacted_device_certificate,
    )
    if rep["status"] != "ok":
        raise RuntimeError(f"Cannot create user: {rep}")

    return new_device
Пример #6
0
async def test_user_create_not_matching_user_device(alice_backend_sock, alice,
                                                    bob, mallory):
    now = pendulum.now()
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=mallory.user_id,
        human_handle=mallory.human_handle,
        public_key=mallory.public_key,
        profile=UserProfile.STANDARD,
    ).dump_and_sign(alice.signing_key)
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=now,
        device_id=bob.device_id,
        device_label=mallory.device_label,
        verify_key=mallory.verify_key,
    ).dump_and_sign(alice.signing_key)

    rep = await user_create(
        alice_backend_sock,
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=user_certificate,
        redacted_device_certificate=device_certificate,
    )
    assert rep == {
        "status": "invalid_data",
        "reason": "Device and User must have the same user ID.",
    }
Пример #7
0
async def test_user_create_certificate_too_old(alice_backend_sock, alice,
                                               mallory):
    too_old = pendulum.datetime(2000, 1, 1)
    now = too_old.add(seconds=INVITATION_VALIDITY + 1)
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=too_old,
        user_id=mallory.user_id,
        human_handle=mallory.human_handle,
        public_key=mallory.public_key,
        profile=UserProfile.STANDARD,
    ).dump_and_sign(alice.signing_key)
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=too_old,
        device_id=mallory.device_id,
        device_label=mallory.device_label,
        verify_key=mallory.verify_key,
    ).dump_and_sign(alice.signing_key)

    with freeze_time(now):
        rep = await user_create(
            alice_backend_sock,
            user_certificate=user_certificate,
            device_certificate=device_certificate,
            redacted_user_certificate=user_certificate,
            redacted_device_certificate=device_certificate,
        )
        assert rep == {
            "status": "invalid_certification",
            "reason": "Invalid timestamp in certificate.",
        }
Пример #8
0
async def test_user_create_already_exists(alice_backend_sock, alice, bob):
    now = pendulum.now()
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=bob.user_id,
        human_handle=None,
        public_key=bob.public_key,
        profile=UserProfile.STANDARD,
    ).dump_and_sign(alice.signing_key)
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=now,
        device_id=bob.device_id,
        device_label=None,
        verify_key=bob.verify_key,
    ).dump_and_sign(alice.signing_key)

    rep = await user_create(
        alice_backend_sock,
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=user_certificate,
        redacted_device_certificate=device_certificate,
    )
    assert rep == {
        "status": "already_exists",
        "reason": f"User `{bob.user_id}` already exists"
    }
Пример #9
0
async def test_user_create_not_matching_certified_on(alice_backend_sock, alice,
                                                     mallory):
    date1 = pendulum.datetime(2000, 1, 1)
    date2 = date1.add(seconds=1)
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=date1,
        user_id=mallory.user_id,
        human_handle=mallory.human_handle,
        public_key=mallory.public_key,
        profile=UserProfile.STANDARD,
    ).dump_and_sign(alice.signing_key)
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=date2,
        device_id=mallory.device_id,
        device_label=mallory.device_label,
        verify_key=mallory.verify_key,
    ).dump_and_sign(alice.signing_key)
    with freeze_time(date1):
        rep = await user_create(
            alice_backend_sock,
            user_certificate=user_certificate,
            device_certificate=device_certificate,
            redacted_user_certificate=user_certificate,
            redacted_device_certificate=device_certificate,
        )
        assert rep == {
            "status": "invalid_data",
            "reason":
            "Device and User certificates must have the same timestamp.",
        }
Пример #10
0
async def test_user_create_human_handle_with_revoked_previous_one(
        alice_backend_sock, alice, bob, backend_data_binder):
    # First revoke bob
    await backend_data_binder.bind_revocation(user_id=bob.user_id,
                                              certifier=alice)

    # Now recreate another user with bob's human handle
    now = pendulum.now()
    bob2_device_id = DeviceID("bob2@dev1")
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=bob2_device_id.user_id,
        human_handle=bob.human_handle,
        public_key=bob.public_key,
        profile=UserProfile.STANDARD,
    )
    redacted_user_certificate = user_certificate.evolve(human_handle=None)
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=now,
        device_id=bob2_device_id,
        device_label=bob.
        device_label,  # Device label doesn't have to be unique
        verify_key=bob.verify_key,
    )
    redacted_device_certificate = device_certificate.evolve(device_label=None)

    user_certificate = user_certificate.dump_and_sign(alice.signing_key)
    redacted_user_certificate = redacted_user_certificate.dump_and_sign(
        alice.signing_key)
    device_certificate = device_certificate.dump_and_sign(alice.signing_key)
    redacted_device_certificate = redacted_device_certificate.dump_and_sign(
        alice.signing_key)

    rep = await user_create(
        alice_backend_sock,
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=redacted_user_certificate,
        redacted_device_certificate=redacted_device_certificate,
    )
    assert rep == {"status": "ok"}
Пример #11
0
async def test_user_create_human_handle_already_exists(alice_backend_sock,
                                                       alice, bob):
    now = pendulum.now()
    bob2_device_id = DeviceID("bob2@dev1")
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=bob2_device_id.user_id,
        human_handle=bob.human_handle,
        public_key=bob.public_key,
        profile=UserProfile.STANDARD,
    )
    redacted_user_certificate = user_certificate.evolve(human_handle=None)
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=now,
        device_id=bob2_device_id,
        device_label="dev2",
        verify_key=bob.verify_key,
    )
    redacted_device_certificate = device_certificate.evolve(device_label=None)

    user_certificate = user_certificate.dump_and_sign(alice.signing_key)
    redacted_user_certificate = redacted_user_certificate.dump_and_sign(
        alice.signing_key)
    device_certificate = device_certificate.dump_and_sign(alice.signing_key)
    redacted_device_certificate = redacted_device_certificate.dump_and_sign(
        alice.signing_key)

    rep = await user_create(
        alice_backend_sock,
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=redacted_user_certificate,
        redacted_device_certificate=redacted_device_certificate,
    )
    assert rep == {
        "status":
        "already_exists",
        "reason":
        f"Human handle `{bob.human_handle}` already corresponds to a non-revoked user",
    }
Пример #12
0
def test_build_user_certificate(alice, bob, mallory):
    now = pendulum_now()
    certif = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=bob.user_id,
        human_handle=bob.human_handle,
        public_key=bob.public_key,
        profile=UserProfile.ADMIN,
    ).dump_and_sign(alice.signing_key)
    assert isinstance(certif, bytes)

    unsecure = UserCertificateContent.unsecure_load(certif)
    assert isinstance(unsecure, UserCertificateContent)
    assert unsecure.user_id == bob.user_id
    assert unsecure.public_key == bob.public_key
    assert unsecure.timestamp == now
    assert unsecure.author == alice.device_id
    assert unsecure.profile == UserProfile.ADMIN

    verified = UserCertificateContent.verify_and_load(
        certif, author_verify_key=alice.verify_key, expected_author=alice.device_id
    )
    assert verified == unsecure

    with pytest.raises(DataError) as exc:
        UserCertificateContent.verify_and_load(
            certif, author_verify_key=alice.verify_key, expected_author=mallory.device_id
        )
    assert str(exc.value) == "Invalid author: expected `mallory@dev1`, got `alice@dev1`"

    with pytest.raises(DataError) as exc:
        UserCertificateContent.verify_and_load(
            certif, author_verify_key=mallory.verify_key, expected_author=alice.device_id
        )
    assert str(exc.value) == "Signature was forged or corrupt"

    with pytest.raises(DataError) as exc:
        UserCertificateContent.verify_and_load(
            certif,
            author_verify_key=alice.verify_key,
            expected_author=alice.device_id,
            expected_user=mallory.user_id,
        )
    assert str(exc.value) == "Invalid user ID: expected `mallory`, got `bob`"
Пример #13
0
def test_user_certificate_supports_legacy_is_admin_field(alice, bob):
    now = pendulum_now()
    certif = UserCertificateContent(
        author=bob.device_id,
        timestamp=now,
        user_id=alice.user_id,
        human_handle=None,
        public_key=alice.public_key,
        profile=alice.profile,
    )

    # Manually craft a certificate in legacy format
    raw_legacy_certif = {
        "type": "user_certificate",
        "author": bob.device_id,
        "timestamp": now,
        "user_id": alice.user_id,
        "public_key": alice.public_key.encode(),
        "is_admin": True,
    }
    dumped_legacy_certif = bob.signing_key.sign(zlib.compress(packb(raw_legacy_certif)))

    # Make sure the legacy format can be loaded
    legacy_certif = UserCertificateContent.verify_and_load(
        dumped_legacy_certif,
        author_verify_key=bob.verify_key,
        expected_author=bob.device_id,
        expected_user=alice.user_id,
        expected_human_handle=None,
    )
    assert legacy_certif == certif

    # Manually decode new format to check it is compatible with legacy
    dumped_certif = certif.dump_and_sign(bob.signing_key)
    raw_certif = unpackb(zlib.decompress(bob.verify_key.verify(dumped_certif)))
    assert raw_certif == {**raw_legacy_certif, "profile": alice.profile.value, "human_handle": None}
Пример #14
0
async def test_user_create_invalid_certificate(alice_backend_sock, alice, bob,
                                               mallory):
    now = pendulum.now()
    good_user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=mallory.user_id,
        human_handle=mallory.human_handle,
        public_key=mallory.public_key,
        profile=UserProfile.STANDARD,
    ).dump_and_sign(alice.signing_key)
    good_device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=now,
        device_id=mallory.device_id,
        device_label=mallory.device_label,
        verify_key=mallory.verify_key,
    ).dump_and_sign(alice.signing_key)
    bad_user_certificate = UserCertificateContent(
        author=bob.device_id,
        timestamp=now,
        user_id=mallory.user_id,
        human_handle=mallory.human_handle,
        public_key=mallory.public_key,
        profile=UserProfile.STANDARD,
    ).dump_and_sign(bob.signing_key)
    bad_device_certificate = DeviceCertificateContent(
        author=bob.device_id,
        timestamp=now,
        device_id=mallory.device_id,
        device_label=mallory.device_label,
        verify_key=mallory.verify_key,
    ).dump_and_sign(bob.signing_key)

    for cu, cd in [
        (good_user_certificate, bad_device_certificate),
        (bad_user_certificate, good_device_certificate),
        (bad_user_certificate, bad_device_certificate),
    ]:
        rep = await user_create(
            alice_backend_sock,
            user_certificate=cu,
            device_certificate=cd,
            redacted_user_certificate=good_user_certificate,
            redacted_device_certificate=good_device_certificate,
        )
        assert rep == {
            "status":
            "invalid_certification",
            "reason":
            "Invalid certification data (Signature was forged or corrupt).",
        }

    # Same thing for the redacted part
    for cu, cd in [
        (good_user_certificate, bad_device_certificate),
        (bad_user_certificate, good_device_certificate),
        (bad_user_certificate, bad_device_certificate),
    ]:
        rep = await user_create(
            alice_backend_sock,
            user_certificate=good_user_certificate,
            device_certificate=good_device_certificate,
            redacted_user_certificate=cu,
            redacted_device_certificate=cd,
        )
        assert rep == {
            "status":
            "invalid_certification",
            "reason":
            "Invalid certification data (Signature was forged or corrupt).",
        }
Пример #15
0
    async def do_create_new_user(
        self,
        author: LocalDevice,
        device_label: Optional[str],
        human_handle: Optional[HumanHandle],
        profile: UserProfile,
    ) -> None:
        device_id = DeviceID.new()
        try:
            now = pendulum_now()

            user_certificate = UserCertificateContent(
                author=author.device_id,
                timestamp=now,
                user_id=device_id.user_id,
                human_handle=human_handle,
                public_key=self._public_key,
                profile=profile,
            )
            redacted_user_certificate = user_certificate.evolve(
                human_handle=None)

            device_certificate = DeviceCertificateContent(
                author=author.device_id,
                timestamp=now,
                device_id=device_id,
                device_label=device_label,
                verify_key=self._verify_key,
            )
            redacted_device_certificate = device_certificate.evolve(
                device_label=None)

            user_certificate = user_certificate.dump_and_sign(
                author.signing_key)
            redacted_user_certificate = redacted_user_certificate.dump_and_sign(
                author.signing_key)
            device_certificate = device_certificate.dump_and_sign(
                author.signing_key)
            redacted_device_certificate = redacted_device_certificate.dump_and_sign(
                author.signing_key)

        except DataError as exc:
            raise InviteError(
                f"Cannot generate device certificate: {exc}") from exc

        rep = await self._cmds.user_create(
            user_certificate=user_certificate,
            device_certificate=device_certificate,
            redacted_user_certificate=redacted_user_certificate,
            redacted_device_certificate=redacted_device_certificate,
        )
        if rep["status"] != "ok":
            raise InviteError(f"Cannot create device: {rep}")

        try:
            payload = InviteUserConfirmation(
                device_id=device_id,
                device_label=device_label,
                human_handle=human_handle,
                profile=profile,
                root_verify_key=author.root_verify_key,
            ).dump_and_encrypt(key=self._shared_secret_key)
        except DataError as exc:
            raise InviteError(
                "Cannot generate InviteUserConfirmation payload") from exc

        rep = await self._cmds.invite_4_greeter_communicate(token=self.token,
                                                            payload=payload)
        _check_rep(rep, step_name="step 4 (confirmation exchange)")

        await self._cmds.invite_delete(token=self.token,
                                       reason=InvitationDeletedReason.FINISHED)
Пример #16
0
async def test_user_create_bad_redacted_user_certificate(
        alice_backend_sock, alice, mallory):
    now = pendulum.now()
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=now,
        device_id=mallory.device_id,
        device_label=None,  # Can be used as regular and redacted certificate
        verify_key=mallory.verify_key,
    ).dump_and_sign(alice.signing_key)
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=mallory.user_id,
        human_handle=mallory.human_handle,
        public_key=mallory.public_key,
        profile=UserProfile.STANDARD,
    )
    good_redacted_user_certificate = user_certificate.evolve(human_handle=None)
    user_certificate = user_certificate.dump_and_sign(alice.signing_key)
    for bad_redacted_user_certificate in (
            good_redacted_user_certificate.evolve(timestamp=now.add(
                seconds=1)),
            good_redacted_user_certificate.evolve(user_id=alice.user_id),
            good_redacted_user_certificate.evolve(public_key=alice.public_key),
            good_redacted_user_certificate.evolve(
                profile=UserProfile.OUTSIDER),
    ):
        rep = await user_create(
            alice_backend_sock,
            user_certificate=user_certificate,
            device_certificate=device_certificate,
            redacted_user_certificate=bad_redacted_user_certificate.
            dump_and_sign(alice.signing_key),
            redacted_device_certificate=device_certificate,
        )
        assert rep == {
            "status": "invalid_data",
            "reason":
            "Redacted User certificate differs from User certificate.",
        }

    # Missing redacted certificate is not allowed as well
    rep = await user_create(
        alice_backend_sock,
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=None,
        redacted_device_certificate=device_certificate,
    )
    assert rep == {
        "status": "bad_message",
        "reason": "Invalid message.",
        "errors": {
            "redacted_user_certificate": ["Missing data for required field."]
        },
    }

    # Finally just make sure good was really good
    rep = await user_create(
        alice_backend_sock,
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=good_redacted_user_certificate.dump_and_sign(
            alice.signing_key),
        redacted_device_certificate=device_certificate,
    )
    assert rep == {"status": "ok"}
Пример #17
0
async def test_user_create_ok(backend, backend_sock_factory,
                              alice_backend_sock, alice, mallory, profile,
                              with_labels):
    now = pendulum.now()
    user_certificate = UserCertificateContent(
        author=alice.device_id,
        timestamp=now,
        user_id=mallory.user_id,
        human_handle=mallory.human_handle,
        public_key=mallory.public_key,
        profile=profile,
    )
    redacted_user_certificate = user_certificate.evolve(human_handle=None)
    device_certificate = DeviceCertificateContent(
        author=alice.device_id,
        timestamp=now,
        device_id=mallory.device_id,
        device_label=mallory.device_label,
        verify_key=mallory.verify_key,
    )
    redacted_device_certificate = device_certificate.evolve(device_label=None)
    if not with_labels:
        user_certificate = redacted_user_certificate
        device_certificate = redacted_device_certificate

    user_certificate = user_certificate.dump_and_sign(alice.signing_key)
    device_certificate = device_certificate.dump_and_sign(alice.signing_key)
    redacted_user_certificate = redacted_user_certificate.dump_and_sign(
        alice.signing_key)
    redacted_device_certificate = redacted_device_certificate.dump_and_sign(
        alice.signing_key)

    rep = await user_create(
        alice_backend_sock,
        user_certificate=user_certificate,
        device_certificate=device_certificate,
        redacted_user_certificate=redacted_user_certificate,
        redacted_device_certificate=redacted_device_certificate,
    )
    assert rep == {"status": "ok"}

    # Make sure mallory can connect now
    async with backend_sock_factory(backend, mallory) as sock:
        rep = await user_get(sock, user_id=mallory.user_id)
        assert rep["status"] == "ok"

    # Check the resulting data in the backend
    backend_user, backend_device = await backend.user.get_user_with_device(
        mallory.organization_id, mallory.device_id)
    assert backend_user == User(
        user_id=mallory.user_id,
        human_handle=mallory.human_handle if with_labels else None,
        profile=profile,
        user_certificate=user_certificate,
        redacted_user_certificate=redacted_user_certificate,
        user_certifier=alice.device_id,
        created_on=now,
    )
    assert backend_device == Device(
        device_id=mallory.device_id,
        device_label=mallory.device_label if with_labels else None,
        device_certificate=device_certificate,
        redacted_device_certificate=redacted_device_certificate,
        device_certifier=alice.device_id,
        created_on=now,
    )
Пример #18
0
def test_unsecure_read_user_certificate_bad_data():
    with pytest.raises(DataError):
        UserCertificateContent.unsecure_load(b"dummy")
Пример #19
0
    def _trustchain_data_factory(todo_devices, todo_users):
        data = TrustchainData(coolorg.organization_id, coolorg.root_verify_key)

        def _get_certifier_id_and_key(certifier):
            if not certifier:
                # Certified by root
                certifier_id = None
                certifier_key = coolorg.root_signing_key
            else:
                certifier_ld = data.get_local_device(certifier)
                if not certifier_ld:
                    raise RuntimeError(f"Missing `{certifier}` to sign creation of `{todo_device}`")
                certifier_id = certifier_ld.device_id
                certifier_key = certifier_ld.signing_key
            return certifier_id, certifier_key

        # First create all the devices
        for todo_device in todo_devices:
            local_device = local_device_factory(todo_device["id"], org=coolorg)
            data.add_local_device(local_device)
            # Generate device certificate
            certifier_id, certifier_key = _get_certifier_id_and_key(todo_device.get("certifier"))
            created_on = todo_device.get("created_on", now)
            device_certificate = DeviceCertificateContent(
                author=certifier_id,
                timestamp=created_on,
                device_id=local_device.device_id,
                device_label=local_device.device_label,
                verify_key=local_device.verify_key,
            )
            data.add_device_certif(
                device_certificate, device_certificate.dump_and_sign(certifier_key)
            )

        # Now deal with the users
        for todo_user in todo_users:
            local_user = next(
                (u for u in data.local_devices.values() if str(u.user_id) == todo_user["id"]), None
            )
            if not local_user:
                raise RuntimeError(f"Missing device for user `{todo_user['id']}`")
            # Generate user certificate
            certifier_id, certifier_key = _get_certifier_id_and_key(todo_user.get("certifier"))
            created_on = todo_user.get("created_on", now)
            user_certif = UserCertificateContent(
                author=certifier_id,
                timestamp=created_on,
                user_id=local_user.user_id,
                human_handle=local_device.human_handle,
                public_key=local_user.public_key,
                profile=todo_user.get("profile", UserProfile.STANDARD),
            )
            data.add_user_certif(user_certif, user_certif.dump_and_sign(certifier_key))
            # Generate user revocation certificate if needed
            revoker = todo_user.get("revoker", None)
            if revoker:
                revoked_on = todo_user.get("revoked_on", now)
                revoker_ld = data.get_local_device(revoker)
                if not revoker_ld:
                    raise RuntimeError(
                        f"Missing `{revoker}` to sign revocation of `{todo_user['id']}`"
                    )
                revoked_user_certificate = RevokedUserCertificateContent(
                    author=revoker_ld.device_id, timestamp=revoked_on, user_id=local_user.user_id
                )
                data.add_revoked_user_certif(
                    revoked_user_certificate,
                    revoked_user_certificate.dump_and_sign(revoker_ld.signing_key),
                )

        return data
Пример #20
0
    async def api_organization_bootstrap(self, client_ctx, msg):
        msg = apiv1_organization_bootstrap_serializer.req_load(msg)
        bootstrap_token = msg["bootstrap_token"]
        root_verify_key = msg["root_verify_key"]

        try:
            u_data = UserCertificateContent.verify_and_load(
                msg["user_certificate"],
                author_verify_key=root_verify_key,
                expected_author=None)
            d_data = DeviceCertificateContent.verify_and_load(
                msg["device_certificate"],
                author_verify_key=root_verify_key,
                expected_author=None)

            ru_data = rd_data = None
            if "redacted_user_certificate" in msg:
                ru_data = UserCertificateContent.verify_and_load(
                    msg["redacted_user_certificate"],
                    author_verify_key=root_verify_key,
                    expected_author=None,
                )
            if "redacted_device_certificate" in msg:
                rd_data = DeviceCertificateContent.verify_and_load(
                    msg["redacted_device_certificate"],
                    author_verify_key=root_verify_key,
                    expected_author=None,
                )

        except DataError as exc:
            return {
                "status": "invalid_certification",
                "reason": f"Invalid certification data ({exc}).",
            }
        if u_data.profile != UserProfile.ADMIN:
            return {
                "status": "invalid_data",
                "reason": "Bootstrapping user must have admin profile.",
            }

        if u_data.timestamp != d_data.timestamp:
            return {
                "status":
                "invalid_data",
                "reason":
                "Device and user certificates must have the same timestamp.",
            }

        if u_data.user_id != d_data.device_id.user_id:
            return {
                "status": "invalid_data",
                "reason": "Device and user must have the same user ID.",
            }

        now = pendulum.now()
        if not timestamps_in_the_ballpark(u_data.timestamp, now):
            return {
                "status": "invalid_certification",
                "reason": "Invalid timestamp in certification.",
            }

        if ru_data:
            if ru_data.evolve(human_handle=u_data.human_handle) != u_data:
                return {
                    "status":
                    "invalid_data",
                    "reason":
                    "Redacted User certificate differs from User certificate.",
                }
            if ru_data.human_handle:
                return {
                    "status":
                    "invalid_data",
                    "reason":
                    "Redacted User certificate must not contain a human_handle field.",
                }

        if rd_data:
            if rd_data.evolve(device_label=d_data.device_label) != d_data:
                return {
                    "status":
                    "invalid_data",
                    "reason":
                    "Redacted Device certificate differs from Device certificate.",
                }
            if rd_data.device_label:
                return {
                    "status":
                    "invalid_data",
                    "reason":
                    "Redacted Device certificate must not contain a device_label field.",
                }

        if (rd_data and not ru_data) or (ru_data and not rd_data):
            return {
                "status":
                "invalid_data",
                "reason":
                "Redacted user&device certificate muste be provided together",
            }

        user = User(
            user_id=u_data.user_id,
            human_handle=u_data.human_handle,
            profile=u_data.profile,
            user_certificate=msg["user_certificate"],
            redacted_user_certificate=msg.get("redacted_user_certificate",
                                              msg["user_certificate"]),
            user_certifier=u_data.author,
            created_on=u_data.timestamp,
        )
        first_device = Device(
            device_id=d_data.device_id,
            device_label=d_data.device_label,
            device_certificate=msg["device_certificate"],
            redacted_device_certificate=msg.get("redacted_device_certificate",
                                                msg["device_certificate"]),
            device_certifier=d_data.author,
            created_on=d_data.timestamp,
        )
        try:
            await self.bootstrap(client_ctx.organization_id, user,
                                 first_device, bootstrap_token,
                                 root_verify_key)

        except OrganizationAlreadyBootstrappedError:
            return {"status": "already_bootstrapped"}

        except (OrganizationNotFoundError,
                OrganizationInvalidBootstrapTokenError):
            return {"status": "not_found"}

        # Note: we let OrganizationFirstUserCreationError bobbles up given
        # it should not occurs under normal circumstances

        # Finally notify webhook
        await self.webhooks.on_organization_bootstrap(
            organization_id=client_ctx.organization_id,
            device_id=first_device.device_id,
            device_label=first_device.device_label,
            human_email=user.human_handle.email if user.human_handle else None,
            human_label=user.human_handle.label if user.human_handle else None,
        )

        return apiv1_organization_bootstrap_serializer.rep_dump(
            {"status": "ok"})
Пример #21
0
 def public_key(self) -> PublicKey:
     return UserCertificateContent.unsecure_load(
         self.user_certificate).public_key
Пример #22
0
    async def _api_user_create(self, client_ctx, msg):
        try:
            d_data = DeviceCertificateContent.verify_and_load(
                msg["device_certificate"],
                author_verify_key=client_ctx.verify_key,
                expected_author=client_ctx.device_id,
            )
            u_data = UserCertificateContent.verify_and_load(
                msg["user_certificate"],
                author_verify_key=client_ctx.verify_key,
                expected_author=client_ctx.device_id,
            )
            ru_data = UserCertificateContent.verify_and_load(
                msg["redacted_user_certificate"],
                author_verify_key=client_ctx.verify_key,
                expected_author=client_ctx.device_id,
            )
            rd_data = DeviceCertificateContent.verify_and_load(
                msg["redacted_device_certificate"],
                author_verify_key=client_ctx.verify_key,
                expected_author=client_ctx.device_id,
            )

        except DataError as exc:
            return {
                "status": "invalid_certification",
                "reason": f"Invalid certification data ({exc}).",
            }

        if u_data.timestamp != d_data.timestamp:
            return {
                "status":
                "invalid_data",
                "reason":
                "Device and User certificates must have the same timestamp.",
            }

        now = pendulum.now()
        if not timestamps_in_the_ballpark(u_data.timestamp, now):
            return {
                "status": "invalid_certification",
                "reason": "Invalid timestamp in certificate.",
            }

        if u_data.user_id != d_data.device_id.user_id:
            return {
                "status": "invalid_data",
                "reason": "Device and User must have the same user ID.",
            }

        if ru_data.evolve(human_handle=u_data.human_handle) != u_data:
            return {
                "status":
                "invalid_data",
                "reason":
                "Redacted User certificate differs from User certificate.",
            }
        if ru_data.human_handle:
            return {
                "status":
                "invalid_data",
                "reason":
                "Redacted User certificate must not contain a human_handle field.",
            }

        if rd_data.evolve(device_label=d_data.device_label) != d_data:
            return {
                "status":
                "invalid_data",
                "reason":
                "Redacted Device certificate differs from Device certificate.",
            }
        if rd_data.device_label:
            return {
                "status":
                "invalid_data",
                "reason":
                "Redacted Device certificate must not contain a device_label field.",
            }

        try:
            user = User(
                user_id=u_data.user_id,
                human_handle=u_data.human_handle,
                profile=u_data.profile,
                user_certificate=msg["user_certificate"],
                redacted_user_certificate=msg["redacted_user_certificate"]
                or msg["user_certificate"],
                user_certifier=u_data.author,
                created_on=u_data.timestamp,
            )
            first_device = Device(
                device_id=d_data.device_id,
                device_label=d_data.device_label,
                device_certificate=msg["device_certificate"],
                redacted_device_certificate=msg["redacted_device_certificate"]
                or msg["device_certificate"],
                device_certifier=d_data.author,
                created_on=d_data.timestamp,
            )
            await self.create_user(client_ctx.organization_id, user,
                                   first_device)

        except UserAlreadyExistsError as exc:
            return {"status": "already_exists", "reason": str(exc)}

        return {"status": "ok"}
Пример #23
0
    def load_trustchain(
        self,
        users: Sequence[bytes] = (),
        revoked_users: Sequence[bytes] = (),
        devices: Sequence[bytes] = (),
        now: DateTime = None,
    ) -> Tuple[List[UserCertificateContent],
               List[RevokedUserCertificateContent],
               List[DeviceCertificateContent], ]:
        now = now or pendulum_now()

        users_states = {}
        devices_states = {}
        revoked_users_states = {}

        # Deserialize the certificates and filter the ones we already have in cache
        try:
            for certif in devices:
                unverified_device = DeviceCertificateContent.unsecure_load(
                    certif)
                verified_device = self.get_device(unverified_device.device_id,
                                                  now)
                if verified_device:
                    devices_states[verified_device.device_id] = CertifState(
                        certif, verified_device, True)
                else:
                    devices_states[unverified_device.device_id] = CertifState(
                        certif, unverified_device, False)

            for certif in users:
                unverified_user = UserCertificateContent.unsecure_load(certif)
                verified_user = self.get_user(unverified_user.user_id, now)
                if verified_user:
                    users_states[verified_user.user_id] = CertifState(
                        certif, verified_user, True)
                else:
                    users_states[unverified_user.user_id] = CertifState(
                        certif, unverified_user, False)

            for certif in revoked_users:
                unverified_revoked_user = RevokedUserCertificateContent.unsecure_load(
                    certif)
                verified_revoked_user = self.get_revoked_user(
                    unverified_revoked_user.user_id, now)
                if verified_revoked_user:
                    revoked_users_states[
                        verified_revoked_user.user_id] = CertifState(
                            certif, verified_revoked_user, True)
                else:
                    revoked_users_states[
                        unverified_revoked_user.user_id] = CertifState(
                            certif, unverified_revoked_user, False)

        except DataError as exc:
            raise TrustchainError(f"Invalid certificate: {exc}") from exc

        def _get_eventually_verified_user(user_id):
            try:
                return users_states[user_id].content
            except KeyError:
                return None

        def _get_eventually_verified_revoked_user(user_id):
            try:
                return revoked_users_states[user_id].content
            except KeyError:
                return None

        def _verify_created_by_root(certif, certif_cls, sign_chain):
            try:
                return certif_cls.verify_and_load(
                    certif,
                    author_verify_key=self.root_verify_key,
                    expected_author=None)

            except DataError as exc:
                path = _build_signature_path(*sign_chain, "<Root Key>")
                raise TrustchainError(
                    f"{path}: Invalid certificate: {exc}") from exc

        def _verify_created_by_device(certif, certif_cls, author_id,
                                      sign_chain):
            author_device = _recursive_verify_device(author_id, sign_chain)
            try:
                verified = certif_cls.verify_and_load(
                    certif,
                    author_verify_key=author_device.verify_key,
                    expected_author=author_device.device_id,
                )

            except DataError as exc:
                path = _build_signature_path(*sign_chain, author_id)
                raise TrustchainError(
                    f"{path}: Invalid certificate: {exc}") from exc

            # Author is either admin or signing one of it own devices
            verified_user_id = (verified.device_id.user_id if isinstance(
                verified, DeviceCertificateContent) else verified.user_id)
            if author_device.device_id.user_id != verified_user_id:
                author_user = _get_eventually_verified_user(author_id.user_id)
                if not author_user:
                    path = _build_signature_path(*sign_chain, author_id)
                    raise TrustchainError(
                        f"{path}: Missing user certificate for {author_id.user_id}"
                    )
                elif author_user.profile != UserProfile.ADMIN:
                    path = _build_signature_path(*sign_chain, author_id)
                    raise TrustchainError(
                        f"{path}:  Invalid signature given {author_user.user_id} is not admin"
                    )
            # Also make sure author wasn't revoked at creation time
            author_revoked_user = _get_eventually_verified_revoked_user(
                author_id.user_id)
            if author_revoked_user and verified.timestamp > author_revoked_user.timestamp:
                path = _build_signature_path(*sign_chain, author_id)
                raise TrustchainError(
                    f"{path}: Signature ({verified.timestamp}) is posterior "
                    f"to user revocation ({author_revoked_user.timestamp})")

            return verified

        def _recursive_verify_device(device_id, signed_children=()):
            if device_id in signed_children:
                path = _build_signature_path(*signed_children, device_id)
                raise TrustchainError(
                    f"{path}: Invalid signature loop detected")

            try:
                state = devices_states[device_id]
            except KeyError:
                path = _build_signature_path(*signed_children, device_id)
                raise TrustchainError(
                    f"{path}: Missing device certificate for {device_id}")

            author = state.content.author
            if author is None:
                verified_device = _verify_created_by_root(
                    state.certif,
                    DeviceCertificateContent,
                    sign_chain=(*signed_children, device_id))
            else:
                verified_device = _verify_created_by_device(
                    state.certif,
                    DeviceCertificateContent,
                    author,
                    sign_chain=(*signed_children, device_id),
                )
            return verified_device

        def _verify_user(unverified_content, certif):
            author = unverified_content.author
            user_id = unverified_content.user_id
            if author is None:
                verified_user = _verify_created_by_root(
                    certif,
                    UserCertificateContent,
                    sign_chain=(f"{user_id}'s creation", ))
            elif author.user_id == user_id:
                raise TrustchainError(
                    f"{user_id}: Invalid self-signed user certificate")
            else:
                verified_user = _verify_created_by_device(
                    certif,
                    UserCertificateContent,
                    author,
                    sign_chain=(f"{user_id}'s creation", ))
            return verified_user

        def _verify_revoked_user(unverified_content, certif):
            author = unverified_content.author
            user_id = unverified_content.user_id
            if author is None:
                verified_revoked_user = _verify_created_by_root(
                    certif,
                    RevokedUserCertificateContent,
                    sign_chain=(f"{user_id}'s revocation", ))
            elif author.user_id == user_id:
                raise TrustchainError(
                    f"{user_id}: Invalid self-signed user revocation certificate"
                )
            else:
                verified_revoked_user = _verify_created_by_device(
                    certif,
                    RevokedUserCertificateContent,
                    author,
                    sign_chain=(f"{user_id}'s revocation", ),
                )
            return verified_revoked_user

        # Verified what need to be and populate the cache with them

        for certif_state in devices_states.values():
            if not certif_state.verified:
                certif_state.content = _recursive_verify_device(
                    certif_state.content.device_id)
        for certif_state in users_states.values():
            if not certif_state.verified:
                certif_state.content = _verify_user(certif_state.content,
                                                    certif_state.certif)
        for certif_state in revoked_users_states.values():
            if not certif_state.verified:
                certif_state.content = _verify_revoked_user(
                    certif_state.content, certif_state.certif)

        # Finally populate the cache
        for certif_state in devices_states.values():
            if not certif_state.verified:
                self._devices_cache[certif_state.content.device_id] = (
                    now, certif_state.content)
        for certif_state in users_states.values():
            if not certif_state.verified:
                self._users_cache[certif_state.content.user_id] = (
                    now, certif_state.content)
        for certif_state in revoked_users_states.values():
            if not certif_state.verified:
                self._revoked_users_cache[certif_state.content.user_id] = (
                    now,
                    certif_state.content,
                )

        return (
            [state.content for state in users_states.values()],
            [state.content for state in revoked_users_states.values()],
            [state.content for state in devices_states.values()],
        )
Пример #24
0
async def test_organization_bootstrap_bad_data(
    backend_data_binder,
    apiv1_backend_sock_factory,
    organization_factory,
    local_device_factory,
    backend,
    coolorg,
):
    neworg = organization_factory("NewOrg")
    newalice = local_device_factory("alice@dev1", neworg)
    await backend_data_binder.bind_organization(neworg)

    bad_organization_id = coolorg.organization_id
    good_organization_id = neworg.organization_id

    root_signing_key = neworg.root_signing_key
    bad_root_signing_key = coolorg.root_signing_key

    good_bootstrap_token = neworg.bootstrap_token
    bad_bootstrap_token = coolorg.bootstrap_token

    good_rvk = neworg.root_verify_key
    bad_rvk = coolorg.root_verify_key

    good_device_id = newalice.device_id

    good_user_id = newalice.user_id
    bad_user_id = UserID("dummy")

    public_key = newalice.public_key
    verify_key = newalice.verify_key

    now = pendulum.now()
    bad_now = now.subtract(seconds=1)

    good_cu = UserCertificateContent(
        author=None,
        timestamp=now,
        user_id=good_user_id,
        public_key=public_key,
        profile=UserProfile.ADMIN,
        human_handle=newalice.human_handle,
    )
    good_redacted_cu = good_cu.evolve(human_handle=None)
    good_cd = DeviceCertificateContent(
        author=None,
        timestamp=now,
        device_id=good_device_id,
        device_label=newalice.device_label,
        verify_key=verify_key,
    )
    good_redacted_cd = good_cd.evolve(device_label=None)
    bad_now_cu = good_cu.evolve(timestamp=bad_now)
    bad_now_cd = good_cd.evolve(timestamp=bad_now)
    bad_now_redacted_cu = good_redacted_cu.evolve(timestamp=bad_now)
    bad_now_redacted_cd = good_redacted_cd.evolve(timestamp=bad_now)
    bad_id_cu = good_cu.evolve(user_id=bad_user_id)
    bad_not_admin_cu = good_cu.evolve(profile=UserProfile.STANDARD)

    bad_key_cu = good_cu.dump_and_sign(bad_root_signing_key)
    bad_key_cd = good_cd.dump_and_sign(bad_root_signing_key)

    good_cu = good_cu.dump_and_sign(root_signing_key)
    good_redacted_cu = good_redacted_cu.dump_and_sign(root_signing_key)
    good_cd = good_cd.dump_and_sign(root_signing_key)
    good_redacted_cd = good_redacted_cd.dump_and_sign(root_signing_key)
    bad_now_cu = bad_now_cu.dump_and_sign(root_signing_key)
    bad_now_cd = bad_now_cd.dump_and_sign(root_signing_key)
    bad_now_redacted_cu = bad_now_redacted_cu.dump_and_sign(root_signing_key)
    bad_now_redacted_cd = bad_now_redacted_cd.dump_and_sign(root_signing_key)
    bad_id_cu = bad_id_cu.dump_and_sign(root_signing_key)
    bad_not_admin_cu = bad_not_admin_cu.dump_and_sign(root_signing_key)

    for i, (status, organization_id, *params) in enumerate([
        ("not_found", good_organization_id, bad_bootstrap_token, good_cu,
         good_cd, good_rvk),
        (
            "already_bootstrapped",
            bad_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
        ),
        (
            "invalid_certification",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            bad_rvk,
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            bad_now_cu,
            good_cd,
            good_rvk,
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            bad_id_cu,
            good_cd,
            good_rvk,
        ),
        (
            "invalid_certification",
            good_organization_id,
            good_bootstrap_token,
            bad_key_cu,
            good_cd,
            good_rvk,
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            bad_now_cd,
            good_rvk,
        ),
        (
            "invalid_certification",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            bad_key_cd,
            good_rvk,
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            bad_not_admin_cu,
            good_cd,
            good_rvk,
        ),
            # Tests with redacted certificates
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            good_cu,  # Not redacted !
            good_redacted_cd,
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            good_redacted_cu,
            good_cd,  # Not redacted !
        ),
        (
            "bad_message",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            None,  # None not allowed
            good_redacted_cd,
        ),
        (
            "bad_message",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            good_redacted_cu,
            None,  # None not allowed
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            bad_now_redacted_cu,
            good_redacted_cd,
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            good_redacted_cu,
            bad_now_redacted_cd,
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            good_redacted_cu,
            _missing,  # Must proved redacted_device if redacted user is present
        ),
        (
            "invalid_data",
            good_organization_id,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            _missing,  # Must proved redacted_device if redacted user is present
            good_redacted_cd,
        ),
    ]):
        print(f"sub test {i}")
        async with apiv1_backend_sock_factory(backend,
                                              organization_id) as sock:
            rep = await organization_bootstrap(sock, *params)
        assert rep["status"] == status

    # Finally cheap test to make sure our "good" data were really good
    async with apiv1_backend_sock_factory(backend,
                                          good_organization_id) as sock:
        rep = await organization_bootstrap(
            sock,
            good_bootstrap_token,
            good_cu,
            good_cd,
            good_rvk,
            good_redacted_cu,
            good_redacted_cd,
        )
    assert rep["status"] == "ok"