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[FL-1800] IRDA: enc/decoder refactoring, Add NEC42 (#705)

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* WIP: IRDA: multilen protocol refactoring, NEC42
* IRDA: Refactoring encoder/decoder

Co-authored-by: あく <alleteam@gmail.com>
This commit is contained in:
Albert Kharisov 2021-09-15 20:22:58 +03:00 committed by GitHub
parent 4768177cf5
commit 4f233ff0a3
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
21 changed files with 551 additions and 437 deletions
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17
applications/tests/irda_decoder_encoder/irda_decoder_encoder_test.c
View File

@ -129,10 +129,7 @@ static void run_encoder_decoder(const IrdaMessage input_messages[], uint32_t inp
for(int i = 0; i < timings_len; ++i) {
message_decoded = irda_decode(decoder_handler, level, timings[i]);
if((i == timings_len - 2) && level && message_decoded) {
/* In case we end with space timing - message can be decoded at last mark.
* Exception - SIRC protocol, which has variable message length (12/15/20),
* and decoder recognizes protocol by silence time before next message
* or by timeout (irda_check_decoder_ready()). */
/* In case we end with space timing - message can be decoded at last mark */
break;
} else if(i < timings_len - 1) {
mu_check(!message_decoded);
@ -225,17 +222,16 @@ MU_TEST(test_mix) {
RUN_DECODER(test_decoder_rc6_input1, test_decoder_rc6_expected1);
RUN_DECODER(test_decoder_necext_input1, test_decoder_necext_expected1);
RUN_DECODER(test_decoder_sirc_input5, test_decoder_sirc_expected5);
RUN_DECODER(test_decoder_nec_input3, test_decoder_nec_expected3);
RUN_DECODER(test_decoder_rc5_input5, test_decoder_rc5_expected5);
RUN_DECODER(test_decoder_samsung32_input1, test_decoder_samsung32_expected1);
RUN_DECODER(test_decoder_sirc_input3, test_decoder_sirc_expected3);
}
MU_TEST(test_decoder_nec1) {
MU_TEST(test_decoder_nec) {
RUN_DECODER(test_decoder_nec_input1, test_decoder_nec_expected1);
}
MU_TEST(test_decoder_nec2) {
RUN_DECODER(test_decoder_nec_input2, test_decoder_nec_expected2);
RUN_DECODER(test_decoder_nec_input3, test_decoder_nec_expected3);
}
MU_TEST(test_decoder_unexpected_end_in_sequence) {
@ -295,6 +291,8 @@ MU_TEST(test_encoder_rc6) {
MU_TEST(test_encoder_decoder_all) {
RUN_ENCODER_DECODER(test_nec);
RUN_ENCODER_DECODER(test_necext);
RUN_ENCODER_DECODER(test_nec42);
RUN_ENCODER_DECODER(test_nec42ext);
RUN_ENCODER_DECODER(test_samsung32);
RUN_ENCODER_DECODER(test_rc6);
RUN_ENCODER_DECODER(test_rc5);
@ -312,8 +310,7 @@ MU_TEST_SUITE(test_irda_decoder_encoder) {
MU_RUN_TEST(test_decoder_rc6);
MU_RUN_TEST(test_encoder_rc6);
MU_RUN_TEST(test_decoder_unexpected_end_in_sequence);
MU_RUN_TEST(test_decoder_nec1);
MU_RUN_TEST(test_decoder_nec2);
MU_RUN_TEST(test_decoder_nec);
MU_RUN_TEST(test_decoder_samsung32);
MU_RUN_TEST(test_decoder_necext1);
MU_RUN_TEST(test_mix);

96
applications/tests/irda_decoder_encoder/test_data/irda_nec_test_data.srcdata
View File

@ -178,6 +178,45 @@ const IrdaMessage test_decoder_nec_expected2[] = {
{IrdaProtocolNEC, 0x00, 0x0A, true},
};
const uint32_t test_decoder_nec_input3[] = {
200000, 8862, 4452, 562, 563, 559, 1681, 563, 1646, 567, 586, 556, 569, 563, 583, 559, 571, 561, 1675, 559, 565, 567, 1673, 561, 561, 561, 592, 561, 565, 567, 579, 563, 567, 565, 584, 558, 1652, 561, 592, 561, 561, 561, 1679, 565, 560, 562, 584, 558, 1659, 564, 585, 557, 566, 566, 1675, 559, 1649, 564, 589, 564, 1649, 564, 1668, 566, 565, 567, 1669, 565,
43470, 8896, 4432, 561, 561, 561, 1679, 565, 1648, 565, 581, 561, 568, 564, 586, 567, 558, 564, 1676, 558, 564, 558, 1681, 563, 563, 559, 587, 566, 565, 567, 582, 561, 564, 558, 595, 558, 1650, 563, 590, 563, 563, 559, 1674, 560, 570, 562, 587, 566, 1645, 568, 586, 556, 565, 567, 1672, 562, 1651, 562, 584, 558, 1658, 566, 1671, 563, 561, 561, 1679, 565,
200000, 8881, 4383, 569, 549, 573, 548, 574, 541, 571, 550, 572, 547, 575, 539, 573, 551, 571, 1651, 573, 545, 567, 554, 568, 548, 574, 1652, 572, 547, 575, 1645, 568, 1661, 573, 545, 567, 1657, 567, 554, 568, 547, 575, 1652, 572, 547, 575, 539, 573, 1657, 567, 550, 572, 545, 577, 1651, 573, 1648, 576, 545, 567, 1659, 575, 1645, 568, 555, 567, 1657, 567,
38995, 8883, 4369, 573, 543, 569, 552, 570, 549, 573, 541, 571, 553, 569, 548, 574, 543, 569, 1658, 566, 550, 572, 548, 574, 546, 566, 1653, 571, 553, 569, 1654, 570, 1654, 570, 551, 571, 1651, 573, 547, 575, 545, 567, 1653, 571, 552, 570, 547, 575, 1649, 564, 556, 566, 550, 572, 1655, 569, 1656, 568, 546, 566, 1664, 570, 1653, 571, 547, 565, 1663, 571,
200000, 8987, 4504, 561, 593, 539, 589, 533, 596, 515, 586, 536, 592, 540, 588, 534, 595, 517, 1713, 541, 1664, 570, 1686, 558, 596, 515, 587, 535, 593, 539, 1691, 543, 1689, 565, 588, 513, 1691, 563, 1668, 617, 1613, 641, 1615, 567, 587, 535, 593, 519, 610, 512, 590, 542, 1714, 510, 593, 539, 1691, 563, 591, 510, 1720, 535, 594, 518, 584, 538, 591, 541,
39546, 8990, 4501, 565, 590, 542, 586, 536, 593, 508, 593, 539, 589, 543, 585, 537, 592, 509, 1720, 545, 1660, 615, 1642, 561, 567, 534, 594, 538, 590, 542, 1688, 535, 1696, 558, 595, 517, 1687, 567, 1664, 621, 1635, 619, 1611, 561, 594, 538, 590, 511, 617, 515, 586, 536, 1721, 513, 589, 543, 1687, 568, 587, 514, 1691, 563, 590, 511, 591, 541, 587, 535,
200000, 8986, 4505, 560, 594, 538, 590, 542, 586, 515, 586, 536, 593, 539, 589, 533, 595, 517, 1714, 540, 587, 535, 594, 518, 1713, 542, 586, 515, 587, 535, 1722, 543, 1662, 562, 592, 540, 1664, 570, 585, 537, 591, 541, 1689, 545, 584, 538, 590, 542, 1688, 536, 593, 539, 589, 512, 590, 542, 586, 536, 1720, 514, 588, 544, 585, 537, 591, 541, 587, 514,
40671, 8986, 4505, 560, 594, 538, 590, 542, 586, 515, 587, 535, 593, 539, 589, 533, 595, 516, 1714, 541, 587, 535, 594, 518, 1712, 542, 586, 515, 587, 535, 1722, 543, 1662, 561, 592, 540, 1664, 570, 585, 537, 591, 541, 1689, 545, 584, 538, 590, 542, 1688, 536, 593, 539, 589, 512, 590, 542, 586, 536, 1720, 514, 588, 544, 585, 537, 591, 541, 587, 514,
200000, 8990, 4500, 566, 1692, 562, 1668, 566, 588, 534, 594, 518, 584, 538, 591, 541, 587, 535, 1669, 565, 589, 543, 1688, 536, 592, 540, 1691, 563, 1667, 567, 1664, 621, 1635, 568, 586, 515, 587, 535, 593, 539, 589, 543, 1662, 562, 592, 540, 588, 534, 594, 518, 585, 537, 591, 541, 587, 514, 587, 535, 594, 538, 590, 542, 586, 515, 586, 536, 593, 539,
39544, 8993, 4498, 567, 1690, 564, 1666, 568, 586, 536, 593, 508, 593, 539, 589, 543, 585, 537, 1668, 566, 588, 544, 1687, 537, 591, 541, 1690, 564, 1666, 568, 1663, 561, 1696, 569, 585, 516, 586, 536, 593, 539, 589, 543, 1661, 562, 592, 540, 588, 534, 594, 517, 584, 538, 591, 541, 587, 514, 587, 535, 593, 539, 589, 543, 585, 516, 586, 536, 592, 540,
200000, 8894, 4456, 589, 1676, 589, 571, 582, 574, 589, 571, 582, 1683, 582, 1677, 588, 1682, 583, 574, 589, 568, 585, 1682, 583, 1678, 587, 1680, 585, 574, 589, 565, 588, 575, 588, 1675, 590, 567, 586, 1681, 584, 571, 582, 1685, 590, 568, 585, 569, 584, 1685, 590, 567, 586, 1678, 587, 574, 589, 1672, 582, 578, 585, 1679, 586, 1674, 591, 572, 591, 1672, 582,
39632, 8912, 4464, 560, 1703, 562, 598, 565, 594, 559, 594, 559, 1711, 564, 1698, 567, 1697, 568, 593, 560, 595, 568, 1698, 567, 1698, 567, 1693, 561, 602, 561, 596, 567, 590, 563, 1704, 561, 594, 559, 1707, 568, 591, 562, 1697, 568, 596, 567, 590, 563, 1700, 565, 596, 567, 1693, 561, 599, 564, 1701, 564, 589, 564, 1706, 559, 1704, 561, 597, 566, 1700, 565,
200000, 9018, 4500, 565, 1666, 568, 1689, 565, 588, 513, 1691, 615, 1616, 618, 1639, 564, 1667, 567, 587, 535, 594, 538, 563, 538, 590, 542, 586, 536, 593, 508, 593, 539, 589, 543, 1688, 535, 592, 540, 588, 544, 585, 537, 591, 510, 1694, 560, 1670, 564, 1693, 562, 1669, 565, 1692, 542, 1689, 565, 588, 534, 595, 517, 585, 537, 591, 541, 587, 535, 568, 544, 584, 538, 591, 541, 1663, 560, 1696, 569, 1662, 562, 1695, 539, 1692, 614, 1616, 566, 1691, 563, 1667, 567,
23184, 9012, 4505, 560, 1697, 537, 1693, 561, 593, 508, 1696, 569, 1662, 562, 1695, 560, 1671, 563, 591, 541, 587, 535, 594, 518, 584, 538, 590, 542, 586, 515, 613, 509, 593, 539, 1692, 542, 585, 537, 592, 540, 588, 534, 594, 518, 1687, 567, 1663, 560, 1697, 568, 1662, 562, 1695, 539, 1692, 563, 591, 541, 587, 514, 588, 544, 584, 538, 590, 542, 586, 515, 587, 535, 593, 539, 1666, 568, 1689, 565, 1665, 569, 1688, 536, 1695, 570, 1661, 562, 1694, 561, 1670, 564,
200000, 8835, 4446, 537, 562, 539, 562, 539, 1663, 540, 1667, 536, 1669, 534, 560, 531, 573, 539, 559, 532, 1672, 531, 570, 531, 564, 537, 563, 538, 561, 540, 1660, 533, 1677, 536, 561, 540, 557, 534, 567, 534, 1668, 535, 1672, 531, 1675, 538, 555, 536, 1674, 539, 1665, 538, 1666, 537, 1671, 532, 563, 538, 1669, 534, 566, 535, 558, 533, 1677, 536, 562, 539, 558, 533, 568, 533, 1668, 535, 566, 535, 1670, 533, 1667, 536, 568, 533, 1671, 532, 1672, 531, 1676, 537,
22779, 8870, 4437, 535,
92592, 8861, 4414, 538,
};
const IrdaMessage test_decoder_nec_expected3[] = {
{IrdaProtocolNECext, 0x286, 0xB649, false},
{IrdaProtocolNECext, 0x286, 0xB649, false},
{IrdaProtocolNECext, 0x6880, 0xB649, false},
{IrdaProtocolNECext, 0x6880, 0xB649, false},
{IrdaProtocolNECext, 0x6380, 0x150F, false},
{IrdaProtocolNECext, 0x6380, 0x150F, false},
{IrdaProtocolNECext, 0x6480, 0x849, false},
{IrdaProtocolNECext, 0x6480, 0x849, false},
{IrdaProtocolNECext, 0x7A83, 0x8, false},
{IrdaProtocolNECext, 0x7A83, 0x8, false},
{IrdaProtocolNEC, 0x71, 0x4A, false},
{IrdaProtocolNEC, 0x71, 0x4A, false},
{IrdaProtocolNEC42, 0x7B, 0x0, false},
{IrdaProtocolNEC42, 0x7B, 0x0, false},
{IrdaProtocolNEC42, 0x11C, 0x12, false},
};
const IrdaMessage test_nec[] = {
{IrdaProtocolNEC, 0x00, 0x00, false},
{IrdaProtocolNEC, 0x01, 0x00, false},
@ -209,4 +248,61 @@ const IrdaMessage test_nec[] = {
{IrdaProtocolNEC, 0x55, 0x55, true},
};
const IrdaMessage test_nec42[] = {
{IrdaProtocolNEC42, 0x0000, 0x00, false},
{IrdaProtocolNEC42, 0x0001, 0x00, false},
{IrdaProtocolNEC42, 0x0001, 0x80, false},
{IrdaProtocolNEC42, 0x0000, 0x80, false},
{IrdaProtocolNEC42, 0x0000, 0x00, false},
{IrdaProtocolNEC42, 0x0000, 0x00, true},
{IrdaProtocolNEC42, 0x0000, 0x00, false},
{IrdaProtocolNEC42, 0x0000, 0x00, true},
{IrdaProtocolNEC42, 0x1FFF, 0xFF, false},
{IrdaProtocolNEC42, 0x1FFE, 0xFF, false},
{IrdaProtocolNEC42, 0x1FFE, 0x7F, false},
{IrdaProtocolNEC42, 0x1FFF, 0x7F, false},
{IrdaProtocolNEC42, 0x1FFF, 0xFF, false},
{IrdaProtocolNEC42, 0x1FFF, 0xFF, true},
{IrdaProtocolNEC42, 0x0AAA, 0x55, false},
{IrdaProtocolNEC42, 0x1555, 0xAA, false},
{IrdaProtocolNEC42, 0x1555, 0x55, false},
{IrdaProtocolNEC42, 0x0AAA, 0xAA, false},
{IrdaProtocolNEC42, 0x0AAA, 0xAA, true},
{IrdaProtocolNEC42, 0x0AAA, 0xAA, false},
{IrdaProtocolNEC42, 0x0AAA, 0xAA, true},
{IrdaProtocolNEC42, 0x0AAA, 0xAA, true},
{IrdaProtocolNEC42, 0x1555, 0x55, false},
{IrdaProtocolNEC42, 0x1555, 0x55, true},
{IrdaProtocolNEC42, 0x1555, 0x55, true},
{IrdaProtocolNEC42, 0x1555, 0x55, true},
};
const IrdaMessage test_nec42ext[] = {
{IrdaProtocolNEC42ext, 0x0000000, 0x0000, false},
{IrdaProtocolNEC42ext, 0x0000001, 0x0000, false},
{IrdaProtocolNEC42ext, 0x0000001, 0x8000, false},
{IrdaProtocolNEC42ext, 0x0000000, 0x8000, false},
{IrdaProtocolNEC42ext, 0x0000000, 0x0000, false},
{IrdaProtocolNEC42ext, 0x0000000, 0x0000, true},
{IrdaProtocolNEC42ext, 0x0000000, 0x0000, false},
{IrdaProtocolNEC42ext, 0x0000000, 0x0000, true},
{IrdaProtocolNEC42ext, 0x3F000FF, 0xF00F, false},
{IrdaProtocolNEC42ext, 0x3F000FE, 0xF00F, false},
{IrdaProtocolNEC42ext, 0x3F000FE, 0x700F, false},
{IrdaProtocolNEC42ext, 0x3F000FF, 0x700F, false},
{IrdaProtocolNEC42ext, 0x3F000FF, 0xF00F, false},
{IrdaProtocolNEC42ext, 0x3F000FF, 0xF00F, true},
{IrdaProtocolNEC42ext, 0x2AAAAAA, 0x5555, false},
{IrdaProtocolNEC42ext, 0x1555555, 0xAAAA, false},
{IrdaProtocolNEC42ext, 0x1555555, 0x5555, false},
{IrdaProtocolNEC42ext, 0x2AAAAAA, 0xAAAA, false},
{IrdaProtocolNEC42ext, 0x2AAAAAA, 0xAAAA, true},
{IrdaProtocolNEC42ext, 0x2AAAAAA, 0xAAAA, false},
{IrdaProtocolNEC42ext, 0x2AAAAAA, 0xAAAA, true},
{IrdaProtocolNEC42ext, 0x2AAAAAA, 0xAAAA, true},
{IrdaProtocolNEC42ext, 0x1555555, 0x5555, false},
{IrdaProtocolNEC42ext, 0x1555555, 0x5555, true},
{IrdaProtocolNEC42ext, 0x1555555, 0x5555, true},
{IrdaProtocolNEC42ext, 0x1555555, 0x5555, true},
};

270
applications/tests/irda_decoder_encoder/test_data/irda_necext_test_data.srcdata
View File

@ -111,147 +111,145 @@ const uint32_t test_decoder_necext_input1[] = {
};
const IrdaMessage test_decoder_necext_expected1[] = {
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, false},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0x12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, false},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
{IrdaProtocolNECext, 0x7984, 0xed12, true},
};
const IrdaMessage test_necext[] = {
{IrdaProtocolNECext, 0x0000, 0x00, false},
{IrdaProtocolNECext, 0x0001, 0x00, false},
{IrdaProtocolNECext, 0x0001, 0x80, false},
{IrdaProtocolNECext, 0x0000, 0x80, false},
{IrdaProtocolNECext, 0x0000, 0x00, false},
{IrdaProtocolNECext, 0x0000, 0x00, true},
{IrdaProtocolNECext, 0x0000, 0x00, false},
{IrdaProtocolNECext, 0x0000, 0x00, true},
{IrdaProtocolNECext, 0xFFFF, 0xFF, false},
{IrdaProtocolNECext, 0xFFFE, 0xFF, false},
{IrdaProtocolNECext, 0xFFFE, 0x7F, false},
{IrdaProtocolNECext, 0xFFFF, 0x7F, false},
{IrdaProtocolNECext, 0xFFFF, 0xFF, false},
{IrdaProtocolNECext, 0xFFFF, 0xFF, true},
{IrdaProtocolNECext, 0xAAAA, 0x55, false},
{IrdaProtocolNECext, 0x5555, 0xAA, false},
{IrdaProtocolNECext, 0x5555, 0x55, false},
{IrdaProtocolNECext, 0xAAAA, 0xAA, false},
{IrdaProtocolNECext, 0xAAAA, 0xAA, true},
{IrdaProtocolNECext, 0x0000, 0x0000, false},
{IrdaProtocolNECext, 0x0001, 0x0000, false},
{IrdaProtocolNECext, 0x0001, 0x8000, false},
{IrdaProtocolNECext, 0x0000, 0x8000, false},
{IrdaProtocolNECext, 0x0000, 0x0000, false},
{IrdaProtocolNECext, 0x0000, 0x0000, true},
{IrdaProtocolNECext, 0x0000, 0x0000, false},
{IrdaProtocolNECext, 0x0000, 0x0000, true},
{IrdaProtocolNECext, 0xFFFF, 0xFFFF, false},
{IrdaProtocolNECext, 0xFFFE, 0xFFFF, false},
{IrdaProtocolNECext, 0xFFFE, 0x7FFF, false},
{IrdaProtocolNECext, 0xFFFF, 0x7FFF, false},
{IrdaProtocolNECext, 0xFFFF, 0xFFFF, false},
{IrdaProtocolNECext, 0xFFFF, 0xFFFF, true},
{IrdaProtocolNECext, 0xAAAA, 0x5555, false},
{IrdaProtocolNECext, 0x5555, 0xAAAA, false},
{IrdaProtocolNECext, 0x5555, 0x5555, false},
{IrdaProtocolNECext, 0xAAAA, 0xAAAA, false},
{IrdaProtocolNECext, 0xAAAA, 0xAAAA, true},
{IrdaProtocolNECext, 0xAAAA, 0xAA, false},
{IrdaProtocolNECext, 0xAAAA, 0xAA, true},
{IrdaProtocolNECext, 0xAAAA, 0xAA, true},
{IrdaProtocolNECext, 0xAAAA, 0xAAAA, false},
{IrdaProtocolNECext, 0xAAAA, 0xAAAA, true},
{IrdaProtocolNECext, 0xAAAA, 0xAAAA, true},
{IrdaProtocolNECext, 0x5555, 0x55, false},
{IrdaProtocolNECext, 0x5555, 0x55, true},
{IrdaProtocolNECext, 0x5555, 0x55, true},
{IrdaProtocolNECext, 0x5555, 0x55, true},
{IrdaProtocolNECext, 0x5555, 0x5555, false},
{IrdaProtocolNECext, 0x5555, 0x5555, true},
{IrdaProtocolNECext, 0x5555, 0x5555, true},
{IrdaProtocolNECext, 0x5555, 0x5555, true},
};

14
applications/tests/irda_decoder_encoder/test_data/irda_sirc_test_data.srcdata
View File

@ -426,20 +426,14 @@ const IrdaMessage test_decoder_sirc_expected5[] = {
{IrdaProtocolSIRC20, 0xFB5, 0x53, false},
};
const IrdaMessage test_encoder_sirc_input1[] = {
{IrdaProtocolSIRC, 0xA, 0x55, false},
};
const uint32_t test_encoder_sirc_expected1[] = {
10000, 2400, 600, 1200, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 600, 600,
10000, 2400, 600, 1200, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 600,
};
const IrdaMessage test_encoder_sirc_input2[] = {
{IrdaProtocolSIRC15, 0x7D, 0x53, false},
{IrdaProtocolSIRC15, 0x7D, 0x53, true},
@ -447,9 +441,9 @@ const IrdaMessage test_encoder_sirc_input2[] = {
};
const uint32_t test_encoder_sirc_expected2[] = {
10000, 2400, 600, 1200, 600, 1200, 600, 600, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 600, 600, /* 2 low levels in row */
18000, 2400, 600, 1200, 600, 1200, 600, 600, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 600, 600, /* 2 low levels in row */
18000, 2400, 600, 1200, 600, 1200, 600, 600, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 600, 600,
10000, 2400, 600, 1200, 600, 1200, 600, 600, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 600,
18600, 2400, 600, 1200, 600, 1200, 600, 600, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 600,
18600, 2400, 600, 1200, 600, 1200, 600, 600, 600, 600, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 600, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 1200, 600, 600,
};
const IrdaMessage test_sirc[] = {

248
lib/irda/encoder_decoder/common/irda_common_decoder.c
View File

@ -1,4 +1,5 @@
#include "furi/check.h"
#include "furi/common_defines.h"
#include "irda.h"
#include "irda_common_i.h"
#include <stdbool.h>
@ -39,11 +40,12 @@ static bool irda_check_preamble(IrdaCommonDecoder* decoder) {
bool result = false;
bool start_level = (decoder->level + decoder->timings_cnt + 1) % 2;
if (decoder->timings_cnt == 0)
return false;
// align to start at Mark timing
if (!start_level) {
if (decoder->timings_cnt > 0) {
decoder->timings_cnt = consume_samples(decoder->timings, decoder->timings_cnt, 1);
}
decoder->timings_cnt = consume_samples(decoder->timings, decoder->timings_cnt, 1);
}
if (decoder->protocol->timings.preamble_mark == 0) {
@ -66,45 +68,75 @@ static bool irda_check_preamble(IrdaCommonDecoder* decoder) {
return result;
}
/* Pulse Distance Modulation */
IrdaStatus irda_common_decode_pdm(IrdaCommonDecoder* decoder) {
/**
* decoder->protocol->databit_len[0] contains biggest amount of bits, for this protocol.
* decoder->protocol->databit_len[1...] contains lesser values, but which can be decoded
* for some protocol modifications.
*/
static IrdaStatus irda_common_decode_bits(IrdaCommonDecoder* decoder) {
furi_assert(decoder);
uint32_t* timings = decoder->timings;
IrdaStatus status = IrdaStatusError;
IrdaStatus status = IrdaStatusOk;
const IrdaTimings* timings = &decoder->protocol->timings;
while (decoder->timings_cnt && (status == IrdaStatusOk)) {
bool level = (decoder->level + decoder->timings_cnt + 1) % 2;
uint32_t timing = decoder->timings[0];
/* check if short protocol version can be decoded */
if (timings->min_split_time && !level && (timing > timings->min_split_time)) {
for (int i = 1; decoder->protocol->databit_len[i] && (i < COUNT_OF(decoder->protocol->databit_len)); ++i) {
if (decoder->protocol->databit_len[i] == decoder->databit_cnt) {
return IrdaStatusReady;
}
}
}
status = decoder->protocol->decode(decoder, level, timing);
furi_assert(status == IrdaStatusError || status == IrdaStatusOk);
if (status == IrdaStatusError) {
break;
}
decoder->timings_cnt = consume_samples(decoder->timings, decoder->timings_cnt, 1);
/* check if largest protocol version can be decoded */
if (level && (decoder->protocol->databit_len[0] == decoder->databit_cnt)) {
status = IrdaStatusReady;
break;
}
}
return status;
}
/* Pulse Distance-Width Modulation */
IrdaStatus irda_common_decode_pdwm(IrdaCommonDecoder* decoder, bool level, uint32_t timing) {
furi_assert(decoder);
IrdaStatus status = IrdaStatusOk;
uint32_t bit_tolerance = decoder->protocol->timings.bit_tolerance;
uint16_t bit1_mark = decoder->protocol->timings.bit1_mark;
uint16_t bit1_space = decoder->protocol->timings.bit1_space;
uint16_t bit0_mark = decoder->protocol->timings.bit0_mark;
uint16_t bit0_space = decoder->protocol->timings.bit0_space;
while (1) {
// Stop bit
if ((decoder->databit_cnt == decoder->protocol->databit_len) && (decoder->timings_cnt == 1)) {
if (MATCH_TIMING(timings[0], bit1_mark, bit_tolerance)) {
decoder->timings_cnt = 0;
status = IrdaStatusReady;
} else {
status = IrdaStatusError;
}
break;
}
bool analyze_timing = level ^ (bit1_mark == bit0_mark);
uint16_t bit1 = level ? bit1_mark : bit1_space;
uint16_t bit0 = level ? bit0_mark : bit0_space;
uint16_t no_info_timing = (bit1_mark == bit0_mark) ? bit1_mark : bit1_space;
if (decoder->timings_cnt >= 2) {
if (MATCH_TIMING(timings[0], bit1_mark, bit_tolerance)
&& MATCH_TIMING(timings[1], bit1_space, bit_tolerance)) {
accumulate_lsb(decoder, 1);
} else if (MATCH_TIMING(timings[0], bit0_mark, bit_tolerance)
&& MATCH_TIMING(timings[1], bit0_space, bit_tolerance)) {
accumulate_lsb(decoder, 0);
} else {
status = IrdaStatusError;
break;
}
decoder->timings_cnt = consume_samples(decoder->timings, decoder->timings_cnt, 2);
if (analyze_timing) {
if (MATCH_TIMING(timing, bit1, bit_tolerance)) {
accumulate_lsb(decoder, 1);
} else if (MATCH_TIMING(timing, bit0, bit_tolerance)) {
accumulate_lsb(decoder, 0);
} else {
status = IrdaStatusOk;
break;
status = IrdaStatusError;
}
} else {
if (!MATCH_TIMING(timing, no_info_timing, bit_tolerance)) {
status = IrdaStatusError;
}
}
@ -112,111 +144,59 @@ IrdaStatus irda_common_decode_pdm(IrdaCommonDecoder* decoder) {
}
/* level switch detection goes in middle of time-quant */
IrdaStatus irda_common_decode_manchester(IrdaCommonDecoder* decoder) {
IrdaStatus irda_common_decode_manchester(IrdaCommonDecoder* decoder, bool level, uint32_t timing) {
furi_assert(decoder);
IrdaStatus status = IrdaStatusOk;
uint16_t bit = decoder->protocol->timings.bit1_mark;
uint16_t tolerance = decoder->protocol->timings.bit_tolerance;
while (decoder->timings_cnt) {
uint32_t timing = decoder->timings[0];
bool* switch_detect = &decoder->switch_detect;
furi_assert((*switch_detect == true) || (*switch_detect == false));
bool* switch_detect = &decoder->switch_detect;
furi_assert((*switch_detect == true) || (*switch_detect == false));
bool single_timing = MATCH_TIMING(timing, bit, tolerance);
bool double_timing = MATCH_TIMING(timing, 2*bit, tolerance);
bool single_timing = MATCH_TIMING(timing, bit, tolerance);
bool double_timing = MATCH_TIMING(timing, 2*bit, tolerance);
if(!single_timing && !double_timing) {
status = IrdaStatusError;
break;
}
if ((decoder->protocol->manchester_start_from_space) && (decoder->databit_cnt == 0)) {
*switch_detect = 1; /* fake as we were previously in the middle of time-quant */
decoder->data[0] = 0; /* first captured timing should be Mark */
++decoder->databit_cnt;
}
if (*switch_detect == 0) {
if (double_timing) {
status = IrdaStatusError;
break;
}
/* only single timing - level switch required in the middle of time-quant */
*switch_detect = 1;
} else {
/* double timing means we in the middle of time-quant again */
if (single_timing)
*switch_detect = 0;
}
decoder->timings_cnt = consume_samples(decoder->timings, decoder->timings_cnt, 1);
status = IrdaStatusOk;
bool level = (decoder->level + decoder->timings_cnt) % 2;
if (decoder->databit_cnt < decoder->protocol->databit_len) {
if (*switch_detect) {
accumulate_lsb(decoder, level);
}
if (decoder->databit_cnt == decoder->protocol->databit_len) {
if (level) {
status = IrdaStatusReady;
break;
}
}
} else {
furi_assert(level);
/* cover case: sequence should be stopped after last bit was received */
if (single_timing) {
status = IrdaStatusReady;
break;
} else {
status = IrdaStatusError;
}
}
if(!single_timing && !double_timing) {
return IrdaStatusError;
}
return status;
if (decoder->protocol->manchester_start_from_space && (decoder->databit_cnt == 0)) {
*switch_detect = 1; /* fake as we were previously in the middle of time-quant */
accumulate_lsb(decoder, 0);
}
if (*switch_detect == 0) {
if (double_timing) {
return IrdaStatusError;
}
/* only single timing - level switch required in the middle of time-quant */
*switch_detect = 1;
} else {
/* double timing means we're in the middle of time-quant again */
if (single_timing)
*switch_detect = 0;
}
if (*switch_detect) {
accumulate_lsb(decoder, level);
}
return IrdaStatusOk;
}
/* Pulse Width Modulation */
IrdaStatus irda_common_decode_pwm(IrdaCommonDecoder* decoder) {
furi_assert(decoder);
IrdaMessage* irda_common_decoder_check_ready(IrdaCommonDecoder* decoder) {
IrdaMessage* message = NULL;
uint32_t* timings = decoder->timings;
IrdaStatus status = IrdaStatusOk;
uint32_t bit_tolerance = decoder->protocol->timings.bit_tolerance;
uint16_t bit1_mark = decoder->protocol->timings.bit1_mark;
uint16_t bit1_space = decoder->protocol->timings.bit1_space;
uint16_t bit0_mark = decoder->protocol->timings.bit0_mark;
while (decoder->timings_cnt) {
bool level = (decoder->level + decoder->timings_cnt + 1) % 2;
if (level) {
if (MATCH_TIMING(timings[0], bit1_mark, bit_tolerance)) {
accumulate_lsb(decoder, 1);
} else if (MATCH_TIMING(timings[0], bit0_mark, bit_tolerance)) {
accumulate_lsb(decoder, 0);
} else {
status = IrdaStatusError;
break;
}
if (decoder->protocol->interpret(decoder)) {
decoder->databit_cnt = 0;
message = &decoder->message;
if (decoder->protocol->decode_repeat) {
decoder->state = IrdaCommonDecoderStateProcessRepeat;
} else {
if (!MATCH_TIMING(timings[0], bit1_space, bit_tolerance)) {
status = IrdaStatusError;
break;
}
}
decoder->timings_cnt = consume_samples(decoder->timings, decoder->timings_cnt, 1);
if (decoder->databit_cnt == decoder->protocol->databit_len) {
status = IrdaStatusReady;
break;
decoder->state = IrdaCommonDecoderStateWaitPreamble;
}
}
return status;
return message;
}
IrdaMessage* irda_common_decode(IrdaCommonDecoder* decoder, bool level, uint32_t duration) {
@ -245,12 +225,13 @@ IrdaMessage* irda_common_decode(IrdaCommonDecoder* decoder, bool level, uint32_t
}
break;
case IrdaCommonDecoderStateDecode:
status = decoder->protocol->decode(decoder);
status = irda_common_decode_bits(decoder);
if (status == IrdaStatusReady) {
if (decoder->protocol->interpret(decoder)) {
message = &decoder->message;
decoder->state = IrdaCommonDecoderStateProcessRepeat;
} else {
message = irda_common_decoder_check_ready(decoder);
if (message) {
continue;
} else if (decoder->protocol->databit_len[0] == decoder->databit_cnt) {
/* error: can't decode largest protocol - begin decoding from start */
decoder->state = IrdaCommonDecoderStateWaitPreamble;
}
} else if (status == IrdaStatusError) {
@ -259,10 +240,6 @@ IrdaMessage* irda_common_decode(IrdaCommonDecoder* decoder, bool level, uint32_t
}
break;
case IrdaCommonDecoderStateProcessRepeat:
if (!decoder->protocol->decode_repeat) {
decoder->state = IrdaCommonDecoderStateWaitPreamble;
continue;
}
status = decoder->protocol->decode_repeat(decoder);
if (status == IrdaStatusError) {
irda_common_decoder_reset_state(decoder);
@ -282,9 +259,14 @@ IrdaMessage* irda_common_decode(IrdaCommonDecoder* decoder, bool level, uint32_t
void* irda_common_decoder_alloc(const IrdaCommonProtocolSpec* protocol) {
furi_assert(protocol);
/* protocol->databit_len[0] has to contain biggest value of bits that can be decoded */
for (int i = 1; i < COUNT_OF(protocol->databit_len); ++i) {
furi_assert(protocol->databit_len[i] <= protocol->databit_len[0]);
}
uint32_t alloc_size = sizeof(IrdaCommonDecoder)
+ protocol->databit_len / 8
+ !!(protocol->databit_len % 8);
+ protocol->databit_len[0] / 8
+ !!(protocol->databit_len[0] % 8);
IrdaCommonDecoder* decoder = furi_alloc(alloc_size);
memset(decoder, 0, alloc_size);
decoder->protocol = protocol;

75
lib/irda/encoder_decoder/common/irda_common_encoder.c
View File

@ -4,6 +4,19 @@
#include <stdbool.h>
#include <furi.h>
#include "irda_i.h"
#include <stdint.h>
static IrdaStatus irda_common_encode_bits(IrdaCommonEncoder* encoder, uint32_t* duration, bool* level) {
IrdaStatus status = encoder->protocol->encode(encoder, duration, level);
furi_assert(status == IrdaStatusOk);
++encoder->timings_encoded;
encoder->timings_sum += *duration;
if ((encoder->bits_encoded == encoder->bits_to_encode) && *level) {
status = IrdaStatusDone;
}
return status;
}
/*
*
@ -32,14 +45,12 @@ IrdaStatus irda_common_encode_manchester(IrdaCommonEncoder* encoder, uint32_t* d
*level = even_timing ^ logic_value;
*duration = timings->bit1_mark;
if (even_timing) /* start encoding from space */
if (even_timing)
++encoder->bits_encoded;
++encoder->timings_encoded;
encoder->timings_sum += *duration;
else if (*level && (encoder->bits_encoded + 1 == encoder->bits_to_encode))
++encoder->bits_encoded; /* don't encode last space */
bool finish = (encoder->bits_encoded == encoder->protocol->databit_len);
finish |= (encoder->bits_encoded == (encoder->protocol->databit_len-1)) && *level && !even_timing;
return finish ? IrdaStatusDone : IrdaStatusOk;
return IrdaStatusOk;
}
IrdaStatus irda_common_encode_pdwm(IrdaCommonEncoder* encoder, uint32_t* duration, bool* level) {
@ -47,39 +58,25 @@ IrdaStatus irda_common_encode_pdwm(IrdaCommonEncoder* encoder, uint32_t* duratio
furi_assert(duration);
furi_assert(level);
bool done = false;
const IrdaTimings* timings = &encoder->protocol->timings;
uint8_t index = encoder->bits_encoded / 8;
uint8_t shift = encoder->bits_encoded % 8; // LSB first
bool logic_value = !!(encoder->data[index] & (0x01 << shift));
// stop bit
if (encoder->bits_encoded == encoder->protocol->databit_len) {
furi_assert(!encoder->protocol->no_stop_bit);
*duration = timings->bit1_mark;
*level = true;
++encoder->timings_encoded;
encoder->timings_sum += *duration;
return IrdaStatusDone;
}
bool pwm = timings->bit1_space == timings->bit0_space;
if (encoder->timings_encoded % 2) { /* start encoding from space */
*duration = logic_value ? timings->bit1_mark : timings->bit0_mark;
*level = true;
if (pwm)
++encoder->bits_encoded;
} else {
*duration = logic_value ? timings->bit1_space : timings->bit0_space;
*level = false;
++encoder->bits_encoded;
if (!pwm)
++encoder->bits_encoded;
}
if ((encoder->bits_encoded == encoder->protocol->databit_len)
&& encoder->protocol->no_stop_bit) {
done = true;
}
++encoder->timings_encoded;
encoder->timings_sum += *duration;
return done ? IrdaStatusDone : IrdaStatusOk;
return IrdaStatusOk;
}
IrdaStatus irda_common_encode(IrdaCommonEncoder* encoder, uint32_t* duration, bool* level) {
@ -116,7 +113,7 @@ IrdaStatus irda_common_encode(IrdaCommonEncoder* encoder, uint32_t* duration, bo
}
/* FALLTHROUGH */
case IrdaCommonEncoderStateEncode:
status = encoder->protocol->encode(encoder, duration, level);
status = irda_common_encode_bits(encoder, duration, level);
if (status == IrdaStatusDone) {
if (encoder->protocol->encode_repeat) {
encoder->state = IrdaCommonEncoderStateEncodeRepeat;
@ -138,10 +135,18 @@ IrdaStatus irda_common_encode(IrdaCommonEncoder* encoder, uint32_t* duration, bo
void* irda_common_encoder_alloc(const IrdaCommonProtocolSpec* protocol) {
furi_assert(protocol);
if (protocol->decode == irda_common_decode_pdwm) {
furi_assert((protocol->timings.bit1_mark == protocol->timings.bit0_mark) ^ (protocol->timings.bit1_space == protocol->timings.bit0_space));
}
uint32_t alloc_size = sizeof(IrdaCommonEncoder)
+ protocol->databit_len / 8
+ !!(protocol->databit_len % 8);
/* protocol->databit_len[0] has to contain biggest value of bits that can be decoded */
for (int i = 1; i < COUNT_OF(protocol->databit_len); ++i) {
furi_assert(protocol->databit_len[i] <= protocol->databit_len[0]);
}
uint32_t alloc_size = sizeof(IrdaCommonDecoder)
+ protocol->databit_len[0] / 8
+ !!(protocol->databit_len[0] % 8);
IrdaCommonEncoder* encoder = furi_alloc(alloc_size);
memset(encoder, 0, alloc_size);
encoder->protocol = protocol;
@ -162,8 +167,14 @@ void irda_common_encoder_reset(IrdaCommonEncoder* encoder) {
encoder->state = IrdaCommonEncoderStateSilence;
encoder->switch_detect = 0;
uint8_t bytes_to_clear = encoder->protocol->databit_len / 8
+ !!(encoder->protocol->databit_len % 8);
uint8_t max_databit_len = 0;
for (int i = 0; i < COUNT_OF(encoder->protocol->databit_len); ++i) {
max_databit_len = MAX(max_databit_len, encoder->protocol->databit_len[i]);
}
uint8_t bytes_to_clear = max_databit_len / 8
+ !!(max_databit_len % 8);
memset(encoder->data, 0, bytes_to_clear);
}

16
lib/irda/encoder_decoder/common/irda_common_i.h
View File

@ -11,7 +11,8 @@
typedef struct IrdaCommonDecoder IrdaCommonDecoder;
typedef struct IrdaCommonEncoder IrdaCommonEncoder;
typedef IrdaStatus (*IrdaCommonDecode)(IrdaCommonDecoder*);
typedef IrdaStatus (*IrdaCommonDecode)(IrdaCommonDecoder*, bool, uint32_t);
typedef IrdaStatus (*IrdaCommonDecodeRepeat)(IrdaCommonDecoder*);
typedef bool (*IrdaCommonInterpret)(IrdaCommonDecoder*);
typedef IrdaStatus (*IrdaCommonEncode)(IrdaCommonEncoder* encoder, uint32_t* out, bool* polarity);
@ -19,9 +20,9 @@ typedef struct {
IrdaTimings timings;
bool manchester_start_from_space;
bool no_stop_bit;
uint32_t databit_len;
uint8_t databit_len[4];
IrdaCommonDecode decode;
IrdaCommonDecode decode_repeat;
IrdaCommonDecodeRepeat decode_repeat;
IrdaCommonInterpret interpret;
IrdaCommonEncode encode;
IrdaCommonEncode encode_repeat;
@ -57,7 +58,8 @@ struct IrdaCommonEncoder {
const IrdaCommonProtocolSpec* protocol;
IrdaCommonStateEncoder state;
bool switch_detect;
uint32_t bits_encoded;
uint8_t bits_to_encode;
uint8_t bits_encoded;
uint32_t timings_sum;
uint32_t timings_encoded;
void* context;
@ -65,12 +67,12 @@ struct IrdaCommonEncoder {
};
IrdaMessage* irda_common_decode(IrdaCommonDecoder *decoder, bool level, uint32_t duration);
IrdaStatus irda_common_decode_pdm(IrdaCommonDecoder* decoder);
IrdaStatus irda_common_decode_pwm(IrdaCommonDecoder* decoder);
IrdaStatus irda_common_decode_manchester(IrdaCommonDecoder* decoder);
IrdaStatus irda_common_decode_pdwm(IrdaCommonDecoder* decoder, bool level, uint32_t timing);
IrdaStatus irda_common_decode_manchester(IrdaCommonDecoder* decoder, bool level, uint32_t timing);
void* irda_common_decoder_alloc(const IrdaCommonProtocolSpec *protocol);
void irda_common_decoder_free(IrdaCommonDecoder* decoder);
void irda_common_decoder_reset(IrdaCommonDecoder* decoder);
IrdaMessage* irda_common_decoder_check_ready(IrdaCommonDecoder* decoder);
IrdaStatus irda_common_encode(IrdaCommonEncoder* encoder, uint32_t* duration, bool* polarity);
IrdaStatus irda_common_encode_pdwm(IrdaCommonEncoder* encoder, uint32_t* duration, bool* polarity);

21
lib/irda/encoder_decoder/common/irda_common_protocol_defs.c
View File

@ -12,10 +12,12 @@ const IrdaCommonProtocolSpec protocol_nec = {
.preamble_tolerance = IRDA_NEC_PREAMBLE_TOLERANCE,
.bit_tolerance = IRDA_NEC_BIT_TOLERANCE,
.silence_time = IRDA_NEC_SILENCE,
.min_split_time = IRDA_NEC_MIN_SPLIT_TIME,
},
.databit_len = 32,
.databit_len[0] = 42,
.databit_len[1] = 32,
.no_stop_bit = false,
.decode = irda_common_decode_pdm,
.decode = irda_common_decode_pdwm,
.encode = irda_common_encode_pdwm,
.interpret = irda_decoder_nec_interpret,
.decode_repeat = irda_decoder_nec_decode_repeat,
@ -34,9 +36,9 @@ const IrdaCommonProtocolSpec protocol_samsung32 = {
.bit_tolerance = IRDA_SAMSUNG_BIT_TOLERANCE,
.silence_time = IRDA_SAMSUNG_SILENCE,
},
.databit_len = 32,
.databit_len[0] = 32,
.no_stop_bit = false,
.decode = irda_common_decode_pdm,
.decode = irda_common_decode_pdwm,
.encode = irda_common_encode_pdwm,
.interpret = irda_decoder_samsung32_interpret,
.decode_repeat = irda_decoder_samsung32_decode_repeat,
@ -52,7 +54,7 @@ const IrdaCommonProtocolSpec protocol_rc6 = {
.bit_tolerance = IRDA_RC6_BIT_TOLERANCE,
.silence_time = IRDA_RC6_SILENCE,
},
.databit_len = 1 + 3 + 1 + 8 + 8, // start_bit + 3 mode bits, + 1 toggle bit (x2 timing) + 8 address + 8 command
.databit_len[0] = 1 + 3 + 1 + 8 + 8, // start_bit + 3 mode bits, + 1 toggle bit (x2 timing) + 8 address + 8 command
.manchester_start_from_space = false,
.decode = irda_decoder_rc6_decode_manchester,
.encode = irda_encoder_rc6_encode_manchester,
@ -70,7 +72,7 @@ const IrdaCommonProtocolSpec protocol_rc5 = {
.bit_tolerance = IRDA_RC5_BIT_TOLERANCE,
.silence_time = IRDA_RC5_SILENCE,
},
.databit_len = 1 + 1 + 1 + 5 + 6, // start_bit + start_bit/command_bit + toggle_bit + 5 address + 6 command
.databit_len[0] = 1 + 1 + 1 + 5 + 6, // start_bit + start_bit/command_bit + toggle_bit + 5 address + 6 command
.manchester_start_from_space = true,
.decode = irda_common_decode_manchester,
.encode = irda_common_encode_manchester,
@ -90,10 +92,13 @@ const IrdaCommonProtocolSpec protocol_sirc = {
.preamble_tolerance = IRDA_SIRC_PREAMBLE_TOLERANCE,
.bit_tolerance = IRDA_SIRC_BIT_TOLERANCE,
.silence_time = IRDA_SIRC_SILENCE,
.min_split_time = IRDA_SIRC_MIN_SPLIT_TIME,
},
.databit_len = 20, /* 12/15/20 */
.databit_len[0] = 20,
.databit_len[1] = 15,
.databit_len[2] = 12,
.no_stop_bit = true,
.decode = irda_common_decode_pwm,
.decode = irda_common_decode_pdwm,
.encode = irda_common_encode_pdwm,
.interpret = irda_decoder_sirc_interpret,
.decode_repeat = NULL,

1
lib/irda/encoder_decoder/irda.c
View File

@ -45,6 +45,7 @@ static const IrdaEncoderDecoder irda_encoder_decoder[] = {
.alloc = irda_decoder_nec_alloc,
.decode = irda_decoder_nec_decode,
.reset = irda_decoder_nec_reset,
.check_ready = irda_decoder_nec_check_ready,
.free = irda_decoder_nec_free},
.encoder = {
.alloc = irda_encoder_nec_alloc,

18
lib/irda/encoder_decoder/irda.h
View File

@ -21,14 +21,16 @@ typedef struct IrdaEncoderHandler IrdaEncoderHandler;
typedef enum {
IrdaProtocolUnknown = -1,
IrdaProtocolNEC = 0,
IrdaProtocolNECext = 1,
IrdaProtocolSamsung32 = 2,
IrdaProtocolRC6 = 3,
IrdaProtocolRC5 = 4,
IrdaProtocolRC5X = 5,
IrdaProtocolSIRC = 6,
IrdaProtocolSIRC15 = 7,
IrdaProtocolSIRC20 = 8,
IrdaProtocolNECext,
IrdaProtocolNEC42,
IrdaProtocolNEC42ext,
IrdaProtocolSamsung32,
IrdaProtocolRC6,
IrdaProtocolRC5,
IrdaProtocolRC5X,
IrdaProtocolSIRC,
IrdaProtocolSIRC15,
IrdaProtocolSIRC20,
IrdaProtocolMAX,
} IrdaProtocol;

1
lib/irda/encoder_decoder/irda_i.h
View File

@ -4,6 +4,7 @@
#include <stdint.h>
typedef struct {
uint32_t min_split_time;
uint32_t silence_time;
uint16_t preamble_mark;
uint16_t preamble_space;

10
lib/irda/encoder_decoder/irda_protocol_defs_i.h
View File

@ -23,12 +23,13 @@
#define IRDA_NEC_PREAMBLE_MARK 9000
#define IRDA_NEC_PREAMBLE_SPACE 4500
#define IRDA_NEC_BIT1_MARK 560
#define IRDA_NEC_BIT1_SPACE 1600
#define IRDA_NEC_BIT1_SPACE 1690
#define IRDA_NEC_BIT0_MARK 560
#define IRDA_NEC_BIT0_SPACE 560
#define IRDA_NEC_REPEAT_PERIOD 110000
#define IRDA_NEC_SILENCE IRDA_NEC_REPEAT_PERIOD
#define IRDA_NEC_REPEAT_PAUSE_MIN 30000
#define IRDA_NEC_MIN_SPLIT_TIME IRDA_NEC_REPEAT_PAUSE_MIN
#define IRDA_NEC_REPEAT_PAUSE_MIN 4000
#define IRDA_NEC_REPEAT_PAUSE_MAX 150000
#define IRDA_NEC_REPEAT_MARK 9000
#define IRDA_NEC_REPEAT_SPACE 2250
@ -38,6 +39,7 @@
void* irda_decoder_nec_alloc(void);
void irda_decoder_nec_reset(void* decoder);
void irda_decoder_nec_free(void* decoder);
IrdaMessage* irda_decoder_nec_check_ready(void* decoder);
IrdaMessage* irda_decoder_nec_decode(void* decoder, bool level, uint32_t duration);
void* irda_encoder_nec_alloc(void);
IrdaStatus irda_encoder_nec_encode(void* encoder_ptr, uint32_t* duration, bool* level);
@ -143,7 +145,7 @@ void irda_encoder_rc6_reset(void* encoder_ptr, const IrdaMessage* message);
void irda_encoder_rc6_free(void* decoder);
IrdaStatus irda_encoder_rc6_encode(void* encoder_ptr, uint32_t* duration, bool* polarity);
bool irda_decoder_rc6_interpret(IrdaCommonDecoder* decoder);
IrdaStatus irda_decoder_rc6_decode_manchester(IrdaCommonDecoder* decoder);
IrdaStatus irda_decoder_rc6_decode_manchester(IrdaCommonDecoder* decoder, bool level, uint32_t timing);
IrdaStatus irda_encoder_rc6_encode_manchester(IrdaCommonEncoder* encoder_ptr, uint32_t* duration, bool* polarity);
const IrdaProtocolSpecification* irda_rc6_get_spec(IrdaProtocol protocol);
@ -229,7 +231,7 @@ extern const IrdaCommonProtocolSpec protocol_rc5;
#define IRDA_SIRC_PREAMBLE_TOLERANCE 200 // us
#define IRDA_SIRC_BIT_TOLERANCE 120 // us
#define IRDA_SIRC_SILENCE 10000
#define IRDA_SIRC_MIN_SILENCE (IRDA_SIRC_SILENCE - 1000)
#define IRDA_SIRC_MIN_SPLIT_TIME (IRDA_SIRC_SILENCE - 1000)
#define IRDA_SIRC_REPEAT_PERIOD 45000

48
lib/irda/encoder_decoder/nec/irda_decoder_nec.c
View File

@ -1,3 +1,4 @@
#include "common/irda_common_i.h"
#include "irda.h"
#include "irda_protocol_defs_i.h"
#include <stdbool.h>
@ -6,26 +7,55 @@
#include "../irda_i.h"
IrdaMessage* irda_decoder_nec_check_ready(void* ctx) {
return irda_common_decoder_check_ready(ctx);
}
bool irda_decoder_nec_interpret(IrdaCommonDecoder* decoder) {
furi_assert(decoder);
bool result = false;
uint8_t address = decoder->data[0];
uint8_t address_inverse = decoder->data[1];
uint8_t command = decoder->data[2];
uint8_t command_inverse = decoder->data[3];
if (command == (uint8_t) ~command_inverse) {
if (address == (uint8_t) ~address_inverse) {
if (decoder->databit_cnt == 32) {
uint8_t address = decoder->data[0];
uint8_t address_inverse = decoder->data[1];
uint8_t command = decoder->data[2];
uint8_t command_inverse = decoder->data[3];
if ((command == (uint8_t) ~command_inverse) && (address == (uint8_t) ~address_inverse)) {
decoder->message.protocol = IrdaProtocolNEC;
decoder->message.address = address;
decoder->message.command = command;
decoder->message.repeat = false;
result = true;
} else {
decoder->message.protocol = IrdaProtocolNECext;
decoder->message.address = decoder->data[0] | (decoder->data[1] << 8);
decoder->message.command = decoder->data[2] | (decoder->data[3] << 8);
decoder->message.repeat = false;
result = true;
}
} else if (decoder->databit_cnt == 42) {
uint32_t* data1 = (void*) decoder->data;
uint16_t* data2 = (void*) (data1 + 1);
uint16_t address = *data1 & 0x1FFF;
uint16_t address_inverse = (*data1 >> 13) & 0x1FFF;
uint16_t command = ((*data1 >> 26) & 0x3F) | ((*data2 & 0x3) << 6);
uint16_t command_inverse = (*data2 >> 2) & 0xFF;
if ((address == (~address_inverse & 0x1FFF))
&& (command == (~command_inverse & 0xFF))) {
decoder->message.protocol = IrdaProtocolNEC42;
decoder->message.address = address;
decoder->message.command = command;
decoder->message.repeat = false;
result = true;
} else {
decoder->message.protocol = IrdaProtocolNEC42ext;
decoder->message.address = address | (address_inverse << 13);
decoder->message.command = command | (command_inverse << 8);
decoder->message.repeat = false;
result = true;
}
decoder->message.command = command;
decoder->message.repeat = false;
result = true;
}
return result;

41
lib/irda/encoder_decoder/nec/irda_encoder_nec.c
View File

@ -20,26 +20,45 @@ void irda_encoder_nec_reset(void* encoder_ptr, const IrdaMessage* message) {
IrdaCommonEncoder* encoder = encoder_ptr;
irda_common_encoder_reset(encoder);
uint8_t address = message->address;
uint8_t address_inverse = ~address;
uint8_t command = message->command;
uint8_t command_inverse = ~command;
uint32_t* data = (void*) encoder->data;
uint32_t* data1 = (void*) encoder->data;
uint32_t* data2 = data1 + 1;
if (message->protocol == IrdaProtocolNEC) {
*data = (address | (address_inverse << 8));
uint8_t address = message->address;
uint8_t address_inverse = ~address;
uint8_t command = message->command;
uint8_t command_inverse = ~command;
*data1 = address;
*data1 |= address_inverse << 8;
*data1 |= command << 16;
*data1 |= command_inverse << 24;
encoder->bits_to_encode = 32;
} else if (message->protocol == IrdaProtocolNECext) {
*data = (uint16_t) message->address;
*data1 = (uint16_t) message->address;
*data1 |= (message->command & 0xFFFF) << 16;
encoder->bits_to_encode = 32;
} else if (message->protocol == IrdaProtocolNEC42) {
/* 13 address + 13 inverse address + 8 command + 8 inv command */
*data1 = message->address & 0x1FFFUL;
*data1 |= (~message->address & 0x1FFFUL) << 13;
*data1 |= ((message->command & 0x3FUL) << 26);
*data2 = (message->command & 0xC0UL) >> 6;
*data2 |= (~message->command & 0xFFUL) << 2;
encoder->bits_to_encode = 42;
} else if (message->protocol == IrdaProtocolNEC42ext) {
*data1 = message->address & 0x3FFFFFF;
*data1 |= ((message->command & 0x3F) << 26);
*data2 = (message->command & 0xFFC0) >> 6;
encoder->bits_to_encode = 42;
} else {
furi_assert(0);
}
*data |= command << 16;
*data |= command_inverse << 24;
}
IrdaStatus irda_encoder_nec_encode_repeat(IrdaCommonEncoder* encoder, uint32_t* duration, bool* level) {
furi_assert(encoder);
/* space + 2 timings preambule + payload + stop bit */
uint32_t timings_encoded_up_to_repeat = 1 + 2 + encoder->protocol->databit_len * 2 + 1;
uint32_t timings_encoded_up_to_repeat = 1 + 2 + encoder->bits_to_encode * 2 + 1;
uint32_t repeat_cnt = encoder->timings_encoded - timings_encoded_up_to_repeat;
furi_assert(encoder->timings_encoded >= timings_encoded_up_to_repeat);

20
lib/irda/encoder_decoder/nec/irda_nec_spec.c
View File

@ -12,16 +12,36 @@ static const IrdaProtocolSpecification irda_nec_protocol_specification = {
static const IrdaProtocolSpecification irda_necext_protocol_specification = {
.name = "NECext",
.address_length = 16,
.command_length = 16,
.frequency = IRDA_COMMON_CARRIER_FREQUENCY,
.duty_cycle = IRDA_COMMON_DUTY_CYCLE,
};
static const IrdaProtocolSpecification irda_nec42_protocol_specification = {
.name = "NEC42",
.address_length = 13,
.command_length = 8,
.frequency = IRDA_COMMON_CARRIER_FREQUENCY,
.duty_cycle = IRDA_COMMON_DUTY_CYCLE,
};
static const IrdaProtocolSpecification irda_nec42ext_protocol_specification = {
.name = "NEC42ext",
.address_length = 26,
.command_length = 16,
.frequency = IRDA_COMMON_CARRIER_FREQUENCY,
.duty_cycle = IRDA_COMMON_DUTY_CYCLE,
};
const IrdaProtocolSpecification* irda_nec_get_spec(IrdaProtocol protocol) {
if (protocol == IrdaProtocolNEC)
return &irda_nec_protocol_specification;
else if (protocol == IrdaProtocolNECext)
return &irda_necext_protocol_specification;
else if (protocol == IrdaProtocolNEC42)
return &irda_nec42_protocol_specification;
else if (protocol == IrdaProtocolNEC42ext)
return &irda_nec42ext_protocol_specification;
else
return NULL;
}

1
lib/irda/encoder_decoder/rc5/irda_encoder_rc5.c
View File

@ -30,6 +30,7 @@ void irda_encoder_rc5_reset(void* encoder_ptr, const IrdaMessage* message) {
common_encoder->data[0] = ~common_encoder->data[0];
common_encoder->data[1] = ~common_encoder->data[1];
common_encoder->bits_to_encode = common_encoder->protocol->databit_len[0];
encoder->toggle_bit ^= 1;
}

14
lib/irda/encoder_decoder/rc6/irda_decoder_rc6.c
View File

@ -50,39 +50,35 @@ bool irda_decoder_rc6_interpret(IrdaCommonDecoder* decoder) {
* it separately and than pass decoding for other bits to
* common manchester decode function.
*/
IrdaStatus irda_decoder_rc6_decode_manchester(IrdaCommonDecoder* decoder) {
IrdaStatus irda_decoder_rc6_decode_manchester(IrdaCommonDecoder* decoder, bool level, uint32_t timing) {
// 4th bit lasts 2x times more
IrdaStatus status = IrdaStatusError;
uint16_t bit = decoder->protocol->timings.bit1_mark;
uint16_t tolerance = decoder->protocol->timings.bit_tolerance;
uint16_t timing = decoder->timings[0];
bool single_timing = MATCH_TIMING(timing, bit, tolerance);
bool double_timing = MATCH_TIMING(timing, 2*bit, tolerance);
bool triple_timing = MATCH_TIMING(timing, 3*bit, tolerance);
if (decoder->databit_cnt == 4) {
furi_assert(decoder->timings_cnt == 1);
furi_assert(decoder->switch_detect == true);
if (single_timing ^ triple_timing) {
--decoder->timings_cnt;
++decoder->databit_cnt;
decoder->data[0] |= (single_timing ? !decoder->level : decoder->level) << 4;
decoder->data[0] |= (single_timing ? !level : level) << 4;
status = IrdaStatusOk;
}
} else if (decoder->databit_cnt == 5) {
if (single_timing || triple_timing) {
if (triple_timing)
decoder->timings[0] = bit;
timing = bit;
decoder->switch_detect = false;
status = irda_common_decode_manchester(decoder);
status = irda_common_decode_manchester(decoder, level, timing);
} else if (double_timing) {
--decoder->timings_cnt;
status = IrdaStatusOk;
}
} else {
status = irda_common_decode_manchester(decoder);
status = irda_common_decode_manchester(decoder, level, timing);
}
return status;

1
lib/irda/encoder_decoder/rc6/irda_encoder_rc6.c
View File

@ -24,6 +24,7 @@ void irda_encoder_rc6_reset(void* encoder_ptr, const IrdaMessage* message) {
*data |= reverse(message->address) << 5;
*data |= reverse(message->command) << 13;
common_encoder->bits_to_encode = common_encoder->protocol->databit_len[0];
encoder->toggle_bit ^= 1;
}

4
lib/irda/encoder_decoder/samsung/irda_encoder_samsung.c
View File

@ -29,13 +29,15 @@ void irda_encoder_samsung32_reset(void* encoder_ptr, const IrdaMessage* message)
*data |= address << 8;
*data |= command << 16;
*data |= command_inverse << 24;
encoder->bits_to_encode = encoder->protocol->databit_len[0];
}
IrdaStatus irda_encoder_samsung32_encode_repeat(IrdaCommonEncoder* encoder, uint32_t* duration, bool* level) {
furi_assert(encoder);
/* space + 2 timings preambule + payload + stop bit */
uint32_t timings_encoded_up_to_repeat = 1 + 2 + encoder->protocol->databit_len * 2 + 1;
uint32_t timings_encoded_up_to_repeat = 1 + 2 + encoder->bits_encoded * 2 + 1;
uint32_t repeat_cnt = encoder->timings_encoded - timings_encoded_up_to_repeat;
furi_assert(encoder->timings_encoded >= timings_encoded_up_to_repeat);

36
lib/irda/encoder_decoder/sirc/irda_decoder_sirc.c
View File

@ -8,16 +8,7 @@
IrdaMessage* irda_decoder_sirc_check_ready(void* ctx) {
IrdaMessage* message = NULL;
IrdaCommonDecoder* decoder = ctx;
if (irda_decoder_sirc_interpret(decoder)) {
message = &decoder->message;
decoder->timings_cnt = 0;
decoder->databit_cnt = 0;
}
return message;
return irda_common_decoder_check_ready(ctx);
}
bool irda_decoder_sirc_interpret(IrdaCommonDecoder* decoder) {
@ -57,29 +48,8 @@ void* irda_decoder_sirc_alloc(void) {
return irda_common_decoder_alloc(&protocol_sirc);
}
IrdaMessage* irda_decoder_sirc_decode(void* context, bool level, uint32_t duration) {
IrdaCommonDecoder* decoder = context;
IrdaMessage* message = NULL;
if ((decoder->databit_cnt == 12) || (decoder->databit_cnt == 15)) {
if (!level && (duration >= IRDA_SIRC_MIN_SILENCE)) {
if (irda_decoder_sirc_interpret(decoder)) {
message = &decoder->message;
decoder->timings_cnt = 0;
decoder->databit_cnt = 0;
}
}
}
if (!message) {
message = irda_common_decode(decoder, level, duration);
if (message) { /* 20 bit */
decoder->timings_cnt = 0;
decoder->databit_cnt = 0;
}
}
return message;
IrdaMessage* irda_decoder_sirc_decode(void* decoder, bool level, uint32_t duration) {
return irda_common_decode(decoder, level, duration);
}
void irda_decoder_sirc_free(void* decoder) {

36
lib/irda/encoder_decoder/sirc/irda_encoder_sirc.c
View File

@ -7,34 +7,27 @@
#include <furi.h>
typedef struct {
IrdaCommonEncoder* common_encoder;
uint8_t databits;
} IrdaSircEncoder;
void irda_encoder_sirc_reset(void* encoder_ptr, const IrdaMessage* message) {
furi_assert(encoder_ptr);
furi_assert(message);
IrdaCommonEncoder* encoder = encoder_ptr;
IrdaSircEncoder* encoder_sirc = encoder->context;
irda_common_encoder_reset(encoder);
uint32_t* data = (void*) encoder->data;
if (message->protocol == IrdaProtocolSIRC) {
encoder_sirc->databits = 12;
*data = (message->command & 0x7F);
*data |= (message->address & 0x1F) << 7;
encoder->bits_to_encode = 12;
} else if (message->protocol == IrdaProtocolSIRC15) {
encoder_sirc->databits = 15;
*data = (message->command & 0x7F);
*data |= (message->address & 0xFF) << 7;
encoder->bits_to_encode = 15;
} else if (message->protocol == IrdaProtocolSIRC20) {
encoder_sirc->databits = 20;
*data = (message->command & 0x7F);
*data |= (message->address & 0x1FFF) << 7;
encoder->bits_to_encode = 20;
} else {
furi_assert(0);
}
@ -43,9 +36,7 @@ void irda_encoder_sirc_reset(void* encoder_ptr, const IrdaMessage* message) {
IrdaStatus irda_encoder_sirc_encode_repeat(IrdaCommonEncoder* encoder, uint32_t* duration, bool* level) {
furi_assert(encoder);
IrdaSircEncoder* encoder_sirc = encoder->context;
uint32_t timings_in_message = 1 + 2 + encoder_sirc->databits * 2;
uint32_t timings_in_message = 1 + 2 + encoder->bits_to_encode * 2 - 1;
furi_assert(encoder->timings_encoded == timings_in_message);
furi_assert(encoder->timings_sum < IRDA_SIRC_REPEAT_PERIOD);
@ -61,28 +52,21 @@ IrdaStatus irda_encoder_sirc_encode_repeat(IrdaCommonEncoder* encoder, uint32_t*
}
void* irda_encoder_sirc_alloc(void) {
IrdaCommonEncoder* encoder_common = irda_common_encoder_alloc(&protocol_sirc);
IrdaSircEncoder* encoder_sirc = furi_alloc(sizeof(IrdaSircEncoder));
encoder_sirc->common_encoder = encoder_common;
encoder_common->context = encoder_sirc;
return encoder_common;
return irda_common_encoder_alloc(&protocol_sirc);
}
void irda_encoder_sirc_free(void* encoder_ptr) {
IrdaCommonEncoder* encoder = encoder_ptr;
free(encoder->context);
irda_common_encoder_free(encoder);
irda_common_encoder_free(encoder_ptr);
}
IrdaStatus irda_encoder_sirc_encode(void* encoder_ptr, uint32_t* duration, bool* level) {
IrdaCommonEncoder* encoder_common = encoder_ptr;
IrdaSircEncoder* encoder_sirc = encoder_common->context;
IrdaCommonEncoder* encoder = encoder_ptr;
IrdaStatus status = irda_common_encode(encoder_ptr, duration, level);
if ((status == IrdaStatusOk) && (encoder_common->bits_encoded == encoder_sirc->databits)) {
IrdaStatus status = irda_common_encode(encoder, duration, level);
if ((status == IrdaStatusOk) && (encoder->bits_encoded == encoder->bits_to_encode)) {
furi_assert(!*level);
status = IrdaStatusDone;
encoder_common->state = IrdaCommonEncoderStateEncodeRepeat;
encoder->state = IrdaCommonEncoderStateEncodeRepeat;
}
return status;
}