#!/usr/bin/env python # # A library that provides a Python interface to the Telegram Bot API # Copyright (C) 2015-2024 # Leandro Toledo de Souza # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser Public License for more details. # # You should have received a copy of the GNU Lesser Public License # along with this program. If not, see [http://www.gnu.org/licenses/]. import os from pathlib import Path from tempfile import TemporaryFile, mkstemp import pytest from telegram import File, FileCredentials, Voice from telegram.error import TelegramError from tests.auxil.files import data_file from tests.auxil.slots import mro_slots @pytest.fixture(scope="module") def file(bot): file = File( FileTestBase.file_id, FileTestBase.file_unique_id, file_path=FileTestBase.file_path, file_size=FileTestBase.file_size, ) file.set_bot(bot) file._unfreeze() return file @pytest.fixture(scope="module") def encrypted_file(bot): # check https://github.com/python-telegram-bot/python-telegram-bot/wiki/\ # PTB-test-writing-knowledge-base#how-to-generate-encrypted-passport-files # if you want to know the source of these values fc = FileCredentials( "Oq3G4sX+bKZthoyms1YlPqvWou9esb+z0Bi/KqQUG8s=", "Pt7fKPgYWKA/7a8E64Ea1X8C+Wf7Ky1tF4ANBl63vl4=", ) ef = File( FileTestBase.file_id, FileTestBase.file_unique_id, FileTestBase.file_size, FileTestBase.file_path, ) ef.set_bot(bot) ef.set_credentials(fc) return ef @pytest.fixture(scope="module") def encrypted_local_file(bot): # check encrypted_file() for the source of the fc values fc = FileCredentials( "Oq3G4sX+bKZthoyms1YlPqvWou9esb+z0Bi/KqQUG8s=", "Pt7fKPgYWKA/7a8E64Ea1X8C+Wf7Ky1tF4ANBl63vl4=", ) ef = File( FileTestBase.file_id, FileTestBase.file_unique_id, FileTestBase.file_size, file_path=str(data_file("image_encrypted.jpg")), ) ef.set_bot(bot) ef.set_credentials(fc) return ef @pytest.fixture(scope="module") def local_file(bot): file = File( FileTestBase.file_id, FileTestBase.file_unique_id, file_path=str(data_file("local_file.txt")), file_size=FileTestBase.file_size, ) file.set_bot(bot) return file class FileTestBase: file_id = "NOTVALIDDOESNOTMATTER" file_unique_id = "adc3145fd2e84d95b64d68eaa22aa33e" file_path = ( "https://api.org/file/bot133505823:AAHZFMHno3mzVLErU5b5jJvaeG--qUyLyG0/document/file_3" ) file_size = 28232 file_content = "Saint-Saƫns".encode() # Intentionally contains unicode chars. class TestFileWithoutRequest(FileTestBase): def test_slot_behaviour(self, file): for attr in file.__slots__: assert getattr(file, attr, "err") != "err", f"got extra slot '{attr}'" assert len(mro_slots(file)) == len(set(mro_slots(file))), "duplicate slot" def test_de_json(self, offline_bot): json_dict = { "file_id": self.file_id, "file_unique_id": self.file_unique_id, "file_path": self.file_path, "file_size": self.file_size, } new_file = File.de_json(json_dict, offline_bot) assert new_file.api_kwargs == {} assert new_file.file_id == self.file_id assert new_file.file_unique_id == self.file_unique_id assert new_file.file_path == self.file_path assert new_file.file_size == self.file_size def test_to_dict(self, file): file_dict = file.to_dict() assert isinstance(file_dict, dict) assert file_dict["file_id"] == file.file_id assert file_dict["file_unique_id"] == file.file_unique_id assert file_dict["file_path"] == file.file_path assert file_dict["file_size"] == file.file_size def test_equality(self, offline_bot): a = File(self.file_id, self.file_unique_id, offline_bot) b = File("", self.file_unique_id, offline_bot) c = File(self.file_id, self.file_unique_id, None) d = File("", "", offline_bot) e = Voice(self.file_id, self.file_unique_id, 0) assert a == b assert hash(a) == hash(b) assert a is not b assert a == c assert hash(a) == hash(c) assert a != d assert hash(a) != hash(d) assert a != e assert hash(a) != hash(e) async def test_download(self, monkeypatch, file): async def test(*args, **kwargs): return self.file_content monkeypatch.setattr(file.get_bot().request, "retrieve", test) out_file = await file.download_to_drive() try: assert out_file.read_bytes() == self.file_content finally: out_file.unlink(missing_ok=True) @pytest.mark.parametrize( "custom_path_type", [str, Path], ids=["str custom_path", "pathlib.Path custom_path"] ) async def test_download_custom_path(self, monkeypatch, file, custom_path_type): async def test(*args, **kwargs): return self.file_content monkeypatch.setattr(file.get_bot().request, "retrieve", test) file_handle, custom_path = mkstemp() custom_path = Path(custom_path) try: out_file = await file.download_to_drive(custom_path_type(custom_path)) assert out_file == custom_path assert out_file.read_bytes() == self.file_content finally: os.close(file_handle) custom_path.unlink(missing_ok=True) async def test_download_no_filename(self, monkeypatch, file): async def test(*args, **kwargs): return self.file_content file.file_path = None monkeypatch.setattr(file.get_bot().request, "retrieve", test) out_file = await file.download_to_drive() assert str(out_file)[-len(file.file_id) :] == file.file_id try: assert out_file.read_bytes() == self.file_content finally: out_file.unlink(missing_ok=True) async def test_download_file_obj(self, monkeypatch, file): async def test(*args, **kwargs): return self.file_content monkeypatch.setattr(file.get_bot().request, "retrieve", test) with TemporaryFile() as custom_fobj: await file.download_to_memory(out=custom_fobj) custom_fobj.seek(0) assert custom_fobj.read() == self.file_content async def test_download_bytearray(self, monkeypatch, file): async def test(*args, **kwargs): return self.file_content monkeypatch.setattr(file.get_bot().request, "retrieve", test) # Check that a download to a newly allocated bytearray works. buf = await file.download_as_bytearray() assert buf == bytearray(self.file_content) # Check that a download to a given bytearray works (extends the bytearray). buf2 = buf[:] buf3 = await file.download_as_bytearray(buf=buf2) assert buf3 is buf2 assert buf2[len(buf) :] == buf assert buf2[: len(buf)] == buf async def test_download_encrypted(self, monkeypatch, offline_bot, encrypted_file): async def test(*args, **kwargs): return data_file("image_encrypted.jpg").read_bytes() monkeypatch.setattr(encrypted_file.get_bot().request, "retrieve", test) out_file = await encrypted_file.download_to_drive() try: assert out_file.read_bytes() == data_file("image_decrypted.jpg").read_bytes() finally: out_file.unlink(missing_ok=True) async def test_download_file_obj_encrypted(self, monkeypatch, encrypted_file): async def test(*args, **kwargs): return data_file("image_encrypted.jpg").read_bytes() monkeypatch.setattr(encrypted_file.get_bot().request, "retrieve", test) with TemporaryFile() as custom_fobj: await encrypted_file.download_to_memory(out=custom_fobj) custom_fobj.seek(0) assert custom_fobj.read() == data_file("image_decrypted.jpg").read_bytes() async def test_download_file_obj_local_file_encrypted(self, monkeypatch, encrypted_local_file): async def test(*args, **kwargs): return data_file("image_encrypted.jpg").read_bytes() monkeypatch.setattr(encrypted_local_file.get_bot().request, "retrieve", test) with TemporaryFile() as custom_fobj: await encrypted_local_file.download_to_memory(out=custom_fobj) custom_fobj.seek(0) assert custom_fobj.read() == data_file("image_decrypted.jpg").read_bytes() async def test_download_bytearray_encrypted(self, monkeypatch, encrypted_file): async def test(*args, **kwargs): return data_file("image_encrypted.jpg").read_bytes() monkeypatch.setattr(encrypted_file.get_bot().request, "retrieve", test) # Check that a download to a newly allocated bytearray works. buf = await encrypted_file.download_as_bytearray() assert buf == bytearray(data_file("image_decrypted.jpg").read_bytes()) # Check that a download to a given bytearray works (extends the bytearray). buf2 = buf[:] buf3 = await encrypted_file.download_as_bytearray(buf=buf2) assert buf3 is buf2 assert buf2[len(buf) :] == buf assert buf2[: len(buf)] == buf class TestFileWithRequest(FileTestBase): async def test_error_get_empty_file_id(self, bot): with pytest.raises(TelegramError): await bot.get_file(file_id="") async def test_download_local_file(self, local_file): assert await local_file.download_to_drive() == Path(local_file.file_path) # Ensure that the file contents didn't change assert Path(local_file.file_path).read_bytes() == self.file_content @pytest.mark.parametrize( "custom_path_type", [str, Path], ids=["str custom_path", "pathlib.Path custom_path"] ) async def test_download_custom_path_local_file(self, local_file, custom_path_type): file_handle, custom_path = mkstemp() custom_path = Path(custom_path) try: out_file = await local_file.download_to_drive(custom_path_type(custom_path)) assert out_file == custom_path assert out_file.read_bytes() == self.file_content finally: os.close(file_handle) custom_path.unlink(missing_ok=True) async def test_download_file_obj_local_file(self, local_file): with TemporaryFile() as custom_fobj: await local_file.download_to_memory(out=custom_fobj) custom_fobj.seek(0) assert custom_fobj.read() == self.file_content @pytest.mark.parametrize( "custom_path_type", [str, Path], ids=["str custom_path", "pathlib.Path custom_path"] ) async def test_download_custom_path_local_file_encrypted( self, encrypted_local_file, custom_path_type ): file_handle, custom_path = mkstemp() custom_path = Path(custom_path) try: out_file = await encrypted_local_file.download_to_drive(custom_path_type(custom_path)) assert out_file == custom_path assert out_file.read_bytes() == data_file("image_decrypted.jpg").read_bytes() finally: os.close(file_handle) custom_path.unlink(missing_ok=True) async def test_download_local_file_encrypted(self, encrypted_local_file): out_file = await encrypted_local_file.download_to_drive() try: assert out_file.read_bytes() == data_file("image_decrypted.jpg").read_bytes() finally: out_file.unlink(missing_ok=True) async def test_download_bytearray_local_file(self, local_file): # Check that a download to a newly allocated bytearray works. buf = await local_file.download_as_bytearray() assert buf == bytearray(self.file_content) # Check that a download to a given bytearray works (extends the bytearray). buf2 = buf[:] buf3 = await local_file.download_as_bytearray(buf=buf2) assert buf3 is buf2 assert buf2[len(buf) :] == buf assert buf2[: len(buf)] == buf async def test_download_bytearray_local_file_encrypted(self, encrypted_local_file): # Check that a download to a newly allocated bytearray works. buf = await encrypted_local_file.download_as_bytearray() assert buf == bytearray(data_file("image_decrypted.jpg").read_bytes()) # Check that a download to a given bytearray works (extends the bytearray). buf2 = buf[:] buf3 = await encrypted_local_file.download_as_bytearray(buf=buf2) assert buf3 is buf2 assert buf2[len(buf) :] == buf assert buf2[: len(buf)] == buf