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- # python-cc1101 - Python Library to Transmit RF Signals via C1101 Transceivers
- #
- # Copyright (C) 2020 Fabian Peter Hammerle <fabian@hammerle.me>
- #
- # This program is free software: you can redistribute it and/or modify
- # it under the terms of the GNU General Public License as published by
- # the Free Software Foundation, either version 3 of the License, or
- # 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 General Public License for more details.
- #
- # You should have received a copy of the GNU General Public License
- # along with this program. If not, see <https://www.gnu.org/licenses/>.
- import unittest.mock
- import warnings
- import pytest
- import cc1101
- # pylint: disable=protected-access
- @pytest.mark.parametrize(
- ("xfer_return_value", "sync_word"),
- [([64, 211, 145], b"\xd3\x91"), ([64, 0, 0], b"\0\0")],
- )
- def test_get_sync_word(transceiver, xfer_return_value, sync_word):
- transceiver._spi.xfer.return_value = xfer_return_value
- assert transceiver.get_sync_word() == sync_word
- transceiver._spi.xfer.assert_called_once_with([0x04 | 0xC0, 0, 0])
- def test_set_sync_word(transceiver):
- transceiver._spi.xfer.return_value = [15, 15, 15]
- transceiver.set_sync_word(b"\x12\x34")
- transceiver._spi.xfer.assert_called_once_with([0x04 | 0x40, 0x12, 0x34])
- @pytest.mark.parametrize("sync_word", [b"", b"\0", "\x12\x34\x56"])
- def test_set_sync_word_invalid_length(transceiver, sync_word):
- with pytest.raises(ValueError, match=r"\bexpected two bytes\b"):
- transceiver.set_sync_word(sync_word)
- _FREQUENCY_CONTROL_WORD_HERTZ_PARAMS = [
- ([0x10, 0xA7, 0x62], 433000000),
- ([0x10, 0xAB, 0x85], 433420000),
- ([0x10, 0xB1, 0x3B], 434000000),
- ([0x21, 0x62, 0x76], 868000000),
- ]
- @pytest.mark.parametrize(
- ("control_word", "hertz"), _FREQUENCY_CONTROL_WORD_HERTZ_PARAMS
- )
- def test__frequency_control_word_to_hertz(control_word, hertz):
- assert cc1101.CC1101._frequency_control_word_to_hertz(
- control_word
- ) == pytest.approx(hertz, abs=200)
- @pytest.mark.parametrize(
- ("control_word", "hertz"), _FREQUENCY_CONTROL_WORD_HERTZ_PARAMS
- )
- def test__hertz_to_frequency_control_word(control_word, hertz):
- assert cc1101.CC1101._hertz_to_frequency_control_word(hertz) == control_word
- _FILTER_BANDWIDTH_MANTISSA_EXPONENT_REAL_PARAMS = [
- # > The default values give 203 kHz channel filter bandwidth,
- # > assuming a 26.0 MHz crystal.
- (0, 2, 203e3),
- # "Table 26: Channel Filter Bandwidths [kHz] (assuming a 26 MHz crystal)"
- (0, 0, 812e3),
- (0, 1, 406e3),
- (0, 2, 203e3),
- (1, 0, 650e3),
- (1, 1, 325e3),
- (3, 0, 464e3),
- (3, 1, 232e3),
- (3, 2, 116e3),
- (3, 3, 58e3),
- ]
- @pytest.mark.parametrize(
- ("mantissa", "exponent", "real"), _FILTER_BANDWIDTH_MANTISSA_EXPONENT_REAL_PARAMS
- )
- def test__filter_bandwidth_floating_point_to_real(mantissa, exponent, real):
- assert cc1101.CC1101._filter_bandwidth_floating_point_to_real(
- mantissa=mantissa, exponent=exponent
- ) == pytest.approx(real, rel=1e-3)
- @pytest.mark.parametrize(
- ("mdmcfg4", "real"),
- [
- (0b10001100, 203e3),
- (0b10001010, 203e3),
- (0b10001110, 203e3),
- (0b11111100, 58e3),
- (0b01011100, 325e3),
- ],
- )
- def test__get_filter_bandwidth_hertz(transceiver, mdmcfg4, real):
- transceiver._spi.xfer.return_value = [15, mdmcfg4]
- assert transceiver._get_filter_bandwidth_hertz() == pytest.approx(real, rel=1e-3)
- transceiver._spi.xfer.assert_called_once_with([0x10 | 0x80, 0])
- @pytest.mark.parametrize(
- ("mdmcfg4_before", "mdmcfg4_after", "exponent", "mantissa"),
- [
- (0b00001010, 0b10111010, 0b10, 0b11),
- (0b00001100, 0b01001100, 0b01, 0b00),
- (0b00001100, 0b10111100, 0b10, 0b11),
- (0b00001100, 0b11011100, 0b11, 0b01),
- (0b01011100, 0b11011100, 0b11, 0b01),
- (0b11111100, 0b11011100, 0b11, 0b01),
- ],
- )
- def test__set_filter_bandwidth(
- transceiver, mdmcfg4_before, mdmcfg4_after, exponent, mantissa
- ):
- transceiver._spi.xfer.return_value = [15, 15]
- with unittest.mock.patch.object(
- transceiver, "_read_single_byte", return_value=mdmcfg4_before
- ):
- transceiver._set_filter_bandwidth(mantissa=mantissa, exponent=exponent)
- transceiver._spi.xfer.assert_called_once_with([0x10 | 0x40, mdmcfg4_after])
- @pytest.mark.parametrize(
- ("mdmcfg4", "symbol_rate_exponent"), [(0b1001100, 12), (0b10011001, 9)]
- )
- def test__get_symbol_rate_exponent(transceiver, mdmcfg4, symbol_rate_exponent):
- transceiver._spi.xfer.return_value = [15, mdmcfg4]
- assert transceiver._get_symbol_rate_exponent() == symbol_rate_exponent
- transceiver._spi.xfer.assert_called_once_with([0x10 | 0x80, 0])
- @pytest.mark.parametrize(
- ("mdmcfg3", "symbol_rate_mantissa"), [(0b00100010, 34), (0b10101010, 170)]
- )
- def test__get_symbol_rate_mantissa(transceiver, mdmcfg3, symbol_rate_mantissa):
- transceiver._spi.xfer.return_value = [15, mdmcfg3]
- assert transceiver._get_symbol_rate_mantissa() == symbol_rate_mantissa
- transceiver._spi.xfer.assert_called_once_with([0x11 | 0x80, 0])
- _SYMBOL_RATE_MANTISSA_EXPONENT_REAL_PARAMS = [
- # > The default values give a data rate of 115.051 kBaud
- # > (closest setting to 115.2 kBaud), assuming a 26.0 MHz crystal.
- (34, 12, 115051),
- (34, 12 + 1, 115051 * 2),
- (34, 12 - 1, 115051 / 2),
- ]
- @pytest.mark.parametrize(
- ("mantissa", "exponent", "real"), _SYMBOL_RATE_MANTISSA_EXPONENT_REAL_PARAMS
- )
- def test__symbol_rate_floating_point_to_real(mantissa, exponent, real):
- assert cc1101.CC1101._symbol_rate_floating_point_to_real(
- mantissa=mantissa, exponent=exponent
- ) == pytest.approx(real, rel=1e-5)
- @pytest.mark.parametrize(
- ("mantissa", "exponent", "real"), _SYMBOL_RATE_MANTISSA_EXPONENT_REAL_PARAMS
- )
- def test__symbol_rate_real_to_floating_point(mantissa, exponent, real):
- assert cc1101.CC1101._symbol_rate_real_to_floating_point(real) == (
- mantissa,
- exponent,
- )
- @pytest.mark.parametrize(
- ("mdmcfg1", "length"),
- [
- (0b00000010, 2),
- (0b00010010, 3),
- (0b00100010, 4),
- (0b00110010, 6),
- (0b01000010, 8),
- (0b01010010, 12),
- (0b01100010, 16),
- (0b01110010, 24),
- ],
- )
- def test_get_preamble_length_bytes(transceiver, mdmcfg1, length):
- transceiver._spi.xfer.return_value = [0, mdmcfg1]
- assert transceiver.get_preamble_length_bytes() == length
- transceiver._spi.xfer.assert_called_once_with([0x13 | 0x80, 0])
- @pytest.mark.parametrize(
- ("mdmcfg1_before", "mdmcfg1_after", "length"),
- [
- (0b00000010, 0b00000010, 2),
- (0b00000010, 0b00010010, 3),
- (0b00000010, 0b00100010, 4),
- (0b00000010, 0b00110010, 6),
- (0b00000010, 0b01000010, 8),
- (0b00000010, 0b01010010, 12),
- (0b00000010, 0b01100010, 16),
- (0b00000010, 0b01110010, 24),
- (0b01010010, 0b01100010, 16),
- (0b01110010, 0b00000010, 2),
- (0b01110010, 0b01000010, 8),
- (0b11011010, 0b11101010, 16),
- (0b11110111, 0b11000111, 8),
- (0b11111110, 0b10001110, 2),
- ],
- )
- def test_set_preamble_length_bytes(transceiver, mdmcfg1_before, mdmcfg1_after, length):
- transceiver._spi.xfer.return_value = [15, 15]
- with unittest.mock.patch.object(
- transceiver, "_read_single_byte", return_value=mdmcfg1_before
- ):
- transceiver.set_preamble_length_bytes(length)
- transceiver._spi.xfer.assert_called_once_with([0x13 | 0x40, mdmcfg1_after])
- @pytest.mark.parametrize(
- "length", [-21, 0, 1, 5, 7, 9, 10, 11, 13, 14, 15, 17, 20, 23, 25, 32, 42]
- )
- def test_set_preamble_length_bytes_invalid(transceiver, length):
- with pytest.raises(ValueError, match=r"\bpreamble length\b"):
- transceiver.set_preamble_length_bytes(length)
- @pytest.mark.parametrize(
- ("freq_hz", "warn"),
- (
- (100e6, True),
- (281.6e6, True),
- (281.65e6, False), # within tolerance
- (281.7e6, False),
- (433.92e6, False),
- ),
- )
- def test_set_base_frequency_hertz_low_warning(transceiver, freq_hz, warn):
- with unittest.mock.patch.object(
- transceiver, "_set_base_frequency_control_word"
- ) as set_control_word_mock:
- with warnings.catch_warnings(record=True) as caught_warnings:
- transceiver.set_base_frequency_hertz(freq_hz)
- assert set_control_word_mock.call_count == 1
- if warn:
- assert len(caught_warnings) == 1
- assert (
- str(caught_warnings[0].message)
- == "CC1101 is unable to transmit at frequencies below 281.7 MHz"
- )
- else:
- assert not caught_warnings
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