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unleashed-firmware/targets/f7/furi_hal/furi_hal_nfc_iso15693.c

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NFC refactoring (#3050) "A long time ago in a galaxy far, far away...." we started NFC subsystem refactoring. Starring: - @gornekich - NFC refactoring project lead, architect, senior developer - @gsurkov - architect, senior developer - @RebornedBrain - senior developer Supporting roles: - @skotopes, @DrZlo13, @hedger - general architecture advisors, code review - @Astrrra, @doomwastaken, @Hellitron, @ImagineVagon333 - quality assurance Special thanks: @bettse, @pcunning, @nxv, @noproto, @AloneLiberty and everyone else who has been helping us all this time and contributing valuable knowledges, ideas and source code.
2023-10-24 03:08:09 +00:00
#include "furi_hal_nfc_i.h"
#include "furi_hal_nfc_tech_i.h"
#include <digital_signal/presets/nfc/iso15693_signal.h>
#include <signal_reader/parsers/iso15693/iso15693_parser.h>
#include <furi_hal_resources.h>
#define FURI_HAL_NFC_ISO15693_MAX_FRAME_SIZE (1024U)
#define FURI_HAL_NFC_ISO15693_POLLER_MAX_BUFFER_SIZE (64)
#define FURI_HAL_NFC_ISO15693_RESP_SOF_SIZE (5)
#define FURI_HAL_NFC_ISO15693_RESP_EOF_SIZE (5)
#define FURI_HAL_NFC_ISO15693_RESP_SOF_MASK (0x1FU)
#define FURI_HAL_NFC_ISO15693_RESP_SOF_PATTERN (0x17U)
#define FURI_HAL_NFC_ISO15693_RESP_EOF_PATTERN (0x1DU)
#define FURI_HAL_NFC_ISO15693_RESP_PATTERN_MASK (0x03U)
#define FURI_HAL_NFC_ISO15693_RESP_PATTERN_0 (0x01U)
#define FURI_HAL_NFC_ISO15693_RESP_PATTERN_1 (0x02U)
// Derived experimentally
#define FURI_HAL_NFC_ISO15693_POLLER_FWT_COMP_FC (-1300)
#define FURI_HAL_NFC_ISO15693_LISTENER_FDT_COMP_FC (2850)
#define BITS_IN_BYTE (8U)
#define TAG "FuriHalIso15693"
typedef struct {
Iso15693Signal* signal;
Iso15693Parser* parser;
} FuriHalNfcIso15693Listener;
typedef struct {
// 4 bits per data bit on transmit
uint8_t fifo_buf[FURI_HAL_NFC_ISO15693_POLLER_MAX_BUFFER_SIZE * 4];
size_t fifo_buf_bits;
uint8_t frame_buf[FURI_HAL_NFC_ISO15693_POLLER_MAX_BUFFER_SIZE * 2];
size_t frame_buf_bits;
} FuriHalNfcIso15693Poller;
static FuriHalNfcIso15693Listener* furi_hal_nfc_iso15693_listener = NULL;
static FuriHalNfcIso15693Poller* furi_hal_nfc_iso15693_poller = NULL;
static FuriHalNfcIso15693Listener* furi_hal_nfc_iso15693_listener_alloc() {
FuriHalNfcIso15693Listener* instance = malloc(sizeof(FuriHalNfcIso15693Listener));
instance->signal = iso15693_signal_alloc(&gpio_spi_r_mosi);
instance->parser =
[FL-3637] NFC RC fixes (#3165) * firmware: remove nfc lib build settings section * furi hal nfc: fix nfc irq gpio deinit * lib nfc: remove deprecated exception from sources * nfc: use ASK demodulator in transparent mode * mf ultralight: add upper page bound for NTAGI2C1K * furi hal nfc: set event if nfc event was started * nfc: fix PVS warnings * lib signal reader: remove gpio pull setting in alloc * furi: added math.h include for compatibility with existing apps * nfc: remove resolved TODO in mf desfire poller * bump api symbol version Co-authored-by: hedger <hedger@nanode.su> Co-authored-by: あく <alleteam@gmail.com>
2023-10-28 14:22:07 +00:00
iso15693_parser_alloc(&gpio_nfc_irq_rfid_pull, FURI_HAL_NFC_ISO15693_MAX_FRAME_SIZE);
NFC refactoring (#3050) "A long time ago in a galaxy far, far away...." we started NFC subsystem refactoring. Starring: - @gornekich - NFC refactoring project lead, architect, senior developer - @gsurkov - architect, senior developer - @RebornedBrain - senior developer Supporting roles: - @skotopes, @DrZlo13, @hedger - general architecture advisors, code review - @Astrrra, @doomwastaken, @Hellitron, @ImagineVagon333 - quality assurance Special thanks: @bettse, @pcunning, @nxv, @noproto, @AloneLiberty and everyone else who has been helping us all this time and contributing valuable knowledges, ideas and source code.
2023-10-24 03:08:09 +00:00
return instance;
}
static void furi_hal_nfc_iso15693_listener_free(FuriHalNfcIso15693Listener* instance) {
furi_assert(instance);
iso15693_signal_free(instance->signal);
iso15693_parser_free(instance->parser);
free(instance);
}
static FuriHalNfcIso15693Poller* furi_hal_nfc_iso15693_poller_alloc() {
FuriHalNfcIso15693Poller* instance = malloc(sizeof(FuriHalNfcIso15693Poller));
return instance;
}
static void furi_hal_nfc_iso15693_poller_free(FuriHalNfcIso15693Poller* instance) {
furi_assert(instance);
free(instance);
}
static FuriHalNfcError furi_hal_nfc_iso15693_common_init(FuriHalSpiBusHandle* handle) {
// Common NFC-V settings, 26.48 kbps
// 1st stage zero = 12 kHz, 3rd stage zero = 80 kHz, low-pass = 600 kHz
st25r3916_write_reg(
handle,
ST25R3916_REG_RX_CONF1,
ST25R3916_REG_RX_CONF1_z12k | ST25R3916_REG_RX_CONF1_h80 |
ST25R3916_REG_RX_CONF1_lp_600khz);
// Enable AGC
// AGC Ratio 6
// AGC algorithm with RESET (recommended for ISO15693)
// AGC operation during complete receive period
// Squelch automatic activation on TX end
st25r3916_write_reg(
handle,
ST25R3916_REG_RX_CONF2,
ST25R3916_REG_RX_CONF2_agc6_3 | ST25R3916_REG_RX_CONF2_agc_m |
ST25R3916_REG_RX_CONF2_agc_en | ST25R3916_REG_RX_CONF2_sqm_dyn);
// HF operation, full gain on AM and PM channels
st25r3916_write_reg(handle, ST25R3916_REG_RX_CONF3, 0x00);
// No gain reduction on AM and PM channels
st25r3916_write_reg(handle, ST25R3916_REG_RX_CONF4, 0x00);
// Collision detection level 53%
// AM & PM summation before digitizing on
st25r3916_write_reg(
handle,
ST25R3916_REG_CORR_CONF1,
ST25R3916_REG_CORR_CONF1_corr_s0 | ST25R3916_REG_CORR_CONF1_corr_s1 |
ST25R3916_REG_CORR_CONF1_corr_s4);
// 424 kHz subcarrier stream mode on
st25r3916_write_reg(handle, ST25R3916_REG_CORR_CONF2, ST25R3916_REG_CORR_CONF2_corr_s8);
return FuriHalNfcErrorNone;
}
static FuriHalNfcError furi_hal_nfc_iso15693_poller_init(FuriHalSpiBusHandle* handle) {
furi_assert(furi_hal_nfc_iso15693_poller == NULL);
furi_hal_nfc_iso15693_poller = furi_hal_nfc_iso15693_poller_alloc();
// Enable Subcarrier Stream mode, OOK modulation
st25r3916_change_reg_bits(
handle,
ST25R3916_REG_MODE,
ST25R3916_REG_MODE_om_mask | ST25R3916_REG_MODE_tr_am,
ST25R3916_REG_MODE_om_subcarrier_stream | ST25R3916_REG_MODE_tr_am_ook);
// Subcarrier 424 kHz mode
// 8 sub-carrier pulses in report period
st25r3916_write_reg(
handle,
ST25R3916_REG_STREAM_MODE,
ST25R3916_REG_STREAM_MODE_scf_sc424 | ST25R3916_REG_STREAM_MODE_stx_106 |
ST25R3916_REG_STREAM_MODE_scp_8pulses);
// Use regulator AM, resistive AM disabled
st25r3916_clear_reg_bits(
handle,
ST25R3916_REG_AUX_MOD,
ST25R3916_REG_AUX_MOD_dis_reg_am | ST25R3916_REG_AUX_MOD_res_am);
return furi_hal_nfc_iso15693_common_init(handle);
}
static FuriHalNfcError furi_hal_nfc_iso15693_poller_deinit(FuriHalSpiBusHandle* handle) {
UNUSED(handle);
furi_assert(furi_hal_nfc_iso15693_poller);
furi_hal_nfc_iso15693_poller_free(furi_hal_nfc_iso15693_poller);
furi_hal_nfc_iso15693_poller = NULL;
return FuriHalNfcErrorNone;
}
static void iso15693_3_poller_encode_frame(
const uint8_t* tx_data,
size_t tx_bits,
uint8_t* frame_buf,
size_t frame_buf_size,
size_t* frame_buf_bits) {
static const uint8_t bit_patterns_1_out_of_4[] = {0x02, 0x08, 0x20, 0x80};
size_t frame_buf_size_calc = (tx_bits / 2) + 2;
furi_assert(frame_buf_size >= frame_buf_size_calc);
// Add SOF 1 out of 4
frame_buf[0] = 0x21;
size_t byte_pos = 1;
for(size_t i = 0; i < tx_bits / BITS_IN_BYTE; ++i) {
for(size_t j = 0; j < BITS_IN_BYTE; j += (BITS_IN_BYTE) / 4) {
const uint8_t bit_pair = (tx_data[i] >> j) & 0x03;
frame_buf[byte_pos++] = bit_patterns_1_out_of_4[bit_pair];
}
}
// Add EOF
frame_buf[byte_pos++] = 0x04;
*frame_buf_bits = byte_pos * BITS_IN_BYTE;
}
static FuriHalNfcError iso15693_3_poller_decode_frame(
const uint8_t* buf,
size_t buf_bits,
uint8_t* buf_decoded,
size_t buf_decoded_size,
size_t* buf_decoded_bits) {
FuriHalNfcError ret = FuriHalNfcErrorDataFormat;
size_t bit_pos = 0;
memset(buf_decoded, 0, buf_decoded_size);
do {
if(buf_bits == 0) break;
// Check SOF
if((buf[0] & FURI_HAL_NFC_ISO15693_RESP_SOF_MASK) !=
FURI_HAL_NFC_ISO15693_RESP_SOF_PATTERN)
break;
if(buf_bits == BITS_IN_BYTE) {
ret = FuriHalNfcErrorIncompleteFrame;
break;
}
// 2 response bits = 1 data bit
for(uint32_t i = FURI_HAL_NFC_ISO15693_RESP_SOF_SIZE;
i < buf_bits - FURI_HAL_NFC_ISO15693_RESP_SOF_SIZE;
i += BITS_IN_BYTE / 4) {
const size_t byte_index = i / BITS_IN_BYTE;
const size_t bit_offset = i % BITS_IN_BYTE;
const uint8_t resp_byte = (buf[byte_index] >> bit_offset) |
(buf[byte_index + 1] << (BITS_IN_BYTE - bit_offset));
// Check EOF
if(resp_byte == FURI_HAL_NFC_ISO15693_RESP_EOF_PATTERN) {
ret = FuriHalNfcErrorNone;
break;
}
const uint8_t bit_pattern = resp_byte & FURI_HAL_NFC_ISO15693_RESP_PATTERN_MASK;
if(bit_pattern == FURI_HAL_NFC_ISO15693_RESP_PATTERN_0) {
bit_pos++;
} else if(bit_pattern == FURI_HAL_NFC_ISO15693_RESP_PATTERN_1) {
buf_decoded[bit_pos / BITS_IN_BYTE] |= 1 << (bit_pos % BITS_IN_BYTE);
bit_pos++;
} else {
break;
}
if(bit_pos / BITS_IN_BYTE > buf_decoded_size) {
break;
}
}
} while(false);
if(ret == FuriHalNfcErrorNone) {
*buf_decoded_bits = bit_pos;
}
return ret;
}
static FuriHalNfcError furi_hal_nfc_iso15693_poller_tx(
FuriHalSpiBusHandle* handle,
const uint8_t* tx_data,
size_t tx_bits) {
FuriHalNfcIso15693Poller* instance = furi_hal_nfc_iso15693_poller;
iso15693_3_poller_encode_frame(
tx_data,
tx_bits,
instance->frame_buf,
sizeof(instance->frame_buf),
&instance->frame_buf_bits);
return furi_hal_nfc_poller_tx_common(handle, instance->frame_buf, instance->frame_buf_bits);
}
static FuriHalNfcError furi_hal_nfc_iso15693_poller_rx(
FuriHalSpiBusHandle* handle,
uint8_t* rx_data,
size_t rx_data_size,
size_t* rx_bits) {
FuriHalNfcError error = FuriHalNfcErrorNone;
FuriHalNfcIso15693Poller* instance = furi_hal_nfc_iso15693_poller;
do {
error = furi_hal_nfc_common_fifo_rx(
handle, instance->fifo_buf, sizeof(instance->fifo_buf), &instance->fifo_buf_bits);
if(error != FuriHalNfcErrorNone) break;
error = iso15693_3_poller_decode_frame(
instance->fifo_buf,
instance->fifo_buf_bits,
instance->frame_buf,
sizeof(instance->frame_buf),
&instance->frame_buf_bits);
if(error != FuriHalNfcErrorNone) break;
if(rx_data_size < instance->frame_buf_bits / BITS_IN_BYTE) {
error = FuriHalNfcErrorBufferOverflow;
break;
}
memcpy(rx_data, instance->frame_buf, instance->frame_buf_bits / BITS_IN_BYTE);
*rx_bits = instance->frame_buf_bits;
} while(false);
return error;
}
static void furi_hal_nfc_iso15693_listener_transparent_mode_enter(FuriHalSpiBusHandle* handle) {
st25r3916_direct_cmd(handle, ST25R3916_CMD_TRANSPARENT_MODE);
furi_hal_spi_bus_handle_deinit(handle);
furi_hal_nfc_deinit_gpio_isr();
}
static void furi_hal_nfc_iso15693_listener_transparent_mode_exit(FuriHalSpiBusHandle* handle) {
// Configure gpio back to SPI and exit transparent mode
furi_hal_nfc_init_gpio_isr();
furi_hal_spi_bus_handle_init(handle);
st25r3916_direct_cmd(handle, ST25R3916_CMD_UNMASK_RECEIVE_DATA);
}
static FuriHalNfcError furi_hal_nfc_iso15693_listener_init(FuriHalSpiBusHandle* handle) {
furi_assert(furi_hal_nfc_iso15693_listener == NULL);
furi_hal_nfc_iso15693_listener = furi_hal_nfc_iso15693_listener_alloc();
// Set default operation mode
st25r3916_change_reg_bits(
handle,
ST25R3916_REG_MODE,
ST25R3916_REG_MODE_om_mask | ST25R3916_REG_MODE_tr_am,
ST25R3916_REG_MODE_om_targ_nfca | ST25R3916_REG_MODE_tr_am_ook);
st25r3916_change_reg_bits(
handle,
ST25R3916_REG_OP_CONTROL,
ST25R3916_REG_OP_CONTROL_rx_en,
ST25R3916_REG_OP_CONTROL_rx_en);
// Enable passive target mode
st25r3916_change_reg_bits(
handle, ST25R3916_REG_MODE, ST25R3916_REG_MODE_targ, ST25R3916_REG_MODE_targ_targ);
FuriHalNfcError error = furi_hal_nfc_iso15693_common_init(handle);
furi_hal_nfc_iso15693_listener_transparent_mode_enter(handle);
return error;
}
static FuriHalNfcError furi_hal_nfc_iso15693_listener_deinit(FuriHalSpiBusHandle* handle) {
furi_assert(furi_hal_nfc_iso15693_listener);
furi_hal_nfc_iso15693_listener_transparent_mode_exit(handle);
furi_hal_nfc_iso15693_listener_free(furi_hal_nfc_iso15693_listener);
furi_hal_nfc_iso15693_listener = NULL;
return FuriHalNfcErrorNone;
}
static FuriHalNfcError
furi_hal_nfc_iso15693_listener_tx_transparent(const uint8_t* data, size_t data_size) {
iso15693_signal_tx(
furi_hal_nfc_iso15693_listener->signal, Iso15693SignalDataRateHi, data, data_size);
return FuriHalNfcErrorNone;
}
static void furi_hal_nfc_iso15693_parser_callback(Iso15693ParserEvent event, void* context) {
furi_assert(context);
if(event == Iso15693ParserEventDataReceived) {
FuriThreadId thread_id = context;
furi_thread_flags_set(thread_id, FuriHalNfcEventInternalTypeTransparentDataReceived);
}
}
static FuriHalNfcEvent furi_hal_nfc_iso15693_wait_event(uint32_t timeout_ms) {
FuriHalNfcEvent event = 0;
FuriThreadId thread_id = furi_thread_get_current_id();
iso15693_parser_start(
furi_hal_nfc_iso15693_listener->parser, furi_hal_nfc_iso15693_parser_callback, thread_id);
while(true) {
uint32_t flag = furi_thread_flags_wait(
FuriHalNfcEventInternalTypeAbort | FuriHalNfcEventInternalTypeTransparentDataReceived,
FuriFlagWaitAny,
timeout_ms);
furi_thread_flags_clear(flag);
if(flag & FuriHalNfcEventInternalTypeAbort) {
event = FuriHalNfcEventAbortRequest;
break;
}
if(flag & FuriHalNfcEventInternalTypeTransparentDataReceived) {
if(iso15693_parser_run(furi_hal_nfc_iso15693_listener->parser)) {
event = FuriHalNfcEventRxEnd;
break;
}
}
}
iso15693_parser_stop(furi_hal_nfc_iso15693_listener->parser);
return event;
}
static FuriHalNfcError furi_hal_nfc_iso15693_listener_tx(
FuriHalSpiBusHandle* handle,
const uint8_t* tx_data,
size_t tx_bits) {
UNUSED(handle);
furi_assert(furi_hal_nfc_iso15693_listener);
FuriHalNfcError error = FuriHalNfcErrorNone;
error = furi_hal_nfc_iso15693_listener_tx_transparent(tx_data, tx_bits / BITS_IN_BYTE);
return error;
}
FuriHalNfcError furi_hal_nfc_iso15693_listener_tx_sof() {
iso15693_signal_tx_sof(furi_hal_nfc_iso15693_listener->signal, Iso15693SignalDataRateHi);
return FuriHalNfcErrorNone;
}
static FuriHalNfcError furi_hal_nfc_iso15693_listener_rx(
FuriHalSpiBusHandle* handle,
uint8_t* rx_data,
size_t rx_data_size,
size_t* rx_bits) {
furi_assert(furi_hal_nfc_iso15693_listener);
UNUSED(handle);
if(rx_data_size <
iso15693_parser_get_data_size_bytes(furi_hal_nfc_iso15693_listener->parser)) {
return FuriHalNfcErrorBufferOverflow;
}
iso15693_parser_get_data(
furi_hal_nfc_iso15693_listener->parser, rx_data, rx_data_size, rx_bits);
return FuriHalNfcErrorNone;
}
FuriHalNfcError furi_hal_nfc_iso15693_listener_sleep(FuriHalSpiBusHandle* handle) {
UNUSED(handle);
return FuriHalNfcErrorNone;
}
const FuriHalNfcTechBase furi_hal_nfc_iso15693 = {
.poller =
{
.compensation =
{
.fdt = FURI_HAL_NFC_POLLER_FDT_COMP_FC,
.fwt = FURI_HAL_NFC_ISO15693_POLLER_FWT_COMP_FC,
},
.init = furi_hal_nfc_iso15693_poller_init,
.deinit = furi_hal_nfc_iso15693_poller_deinit,
.wait_event = furi_hal_nfc_wait_event_common,
.tx = furi_hal_nfc_iso15693_poller_tx,
.rx = furi_hal_nfc_iso15693_poller_rx,
},
.listener =
{
.compensation =
{
.fdt = FURI_HAL_NFC_ISO15693_LISTENER_FDT_COMP_FC,
},
.init = furi_hal_nfc_iso15693_listener_init,
.deinit = furi_hal_nfc_iso15693_listener_deinit,
.wait_event = furi_hal_nfc_iso15693_wait_event,
.tx = furi_hal_nfc_iso15693_listener_tx,
.rx = furi_hal_nfc_iso15693_listener_rx,
.sleep = furi_hal_nfc_iso15693_listener_sleep,
.idle = furi_hal_nfc_iso15693_listener_sleep,
},
};
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