#!/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 io import BytesIO 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_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 async def test_download_no_file_path(self): with pytest.raises(RuntimeError, match="No `file_path` available"): await File(self.file_id, self.file_unique_id).download_to_drive() with pytest.raises(RuntimeError, match="No `file_path` available"): await File(self.file_id, self.file_unique_id).download_to_memory(BytesIO()) with pytest.raises(RuntimeError, match="No `file_path` available"): await File(self.file_id, self.file_unique_id).download_as_bytearray() 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