mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-11-23 21:13:16 +00:00
274c12fc56
* Streams: string stream * String stream: updated insert/delete api * Streams: generic stream interface and string stream implementation * Streams: helpers for insert and delete_and_insert * FFF: now compatible with streams * MinUnit: introduced tests with arguments * FFF: stream access violation * Streams: copy data between streams * Streams: file stream * FFF: documentation * FFStream: documentation * FFF: alloc as file * MinUnit: support for nested tests * Streams: changed delete_and_insert, now it returns success flag. Added ability dump stream inner parameters and data to cout. * FFF: simplified file open function * Streams: unit tests * FFF: tests * Streams: declare cache_size constant as define, to allow variable modified arrays * FFF: lib moved to a separate folder * iButton: new FFF * RFID: new FFF * Animations: new FFF * IR: new FFF * NFC: new FFF * Flipper file format: delete lib * U2F: new FFF * Subghz: new FFF and streams * Streams: read line * Streams: split * FuriCore: implement memset with extra asserts * FuriCore: implement extra heap asserts without inventing memset * Scene manager: protected access to the scene id stack with a size check * NFC worker: dirty fix for issue where hal_nfc was busy on app start * Furi: update allocator to erase memory on allocation. Replace furi_alloc with malloc. * FuriCore: cleanup memmgr code. * Furi HAL: furi_hal_init is split into critical and non-critical parts. The critical part is currently clock and console. * Memmgr: added ability to track allocations and deallocations through console. * FFStream: some speedup * Streams, FF: minor fixes * Tests: restore * File stream: a slightly more thread-safe version of file_stream_delete_and_insert Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
354 lines
13 KiB
C
354 lines
13 KiB
C
#include "usb_uart_bridge.h"
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#include "furi_hal.h"
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#include <stream_buffer.h>
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#include <furi_hal_usb_cdc_i.h>
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#include "usb_cdc.h"
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#define USB_CDC_PKT_LEN CDC_DATA_SZ
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#define USB_UART_RX_BUF_SIZE (USB_CDC_PKT_LEN * 5)
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#define USB_CDC_BIT_DTR (1 << 0)
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#define USB_CDC_BIT_RTS (1 << 1)
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static const GpioPin* flow_pins[][2] = {
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{&gpio_ext_pa7, &gpio_ext_pa6}, // 2, 3
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{&gpio_ext_pb2, &gpio_ext_pc3}, // 6, 7
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};
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typedef enum {
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WorkerEvtReserved = (1 << 0), // Reserved for StreamBuffer internal event
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WorkerEvtStop = (1 << 1),
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WorkerEvtRxDone = (1 << 2),
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WorkerEvtTxStop = (1 << 3),
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WorkerEvtCdcRx = (1 << 4),
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WorkerEvtCfgChange = (1 << 5),
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WorkerEvtLineCfgSet = (1 << 6),
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WorkerEvtCtrlLineSet = (1 << 7),
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} WorkerEvtFlags;
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#define WORKER_ALL_RX_EVENTS \
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(WorkerEvtStop | WorkerEvtRxDone | WorkerEvtCfgChange | WorkerEvtLineCfgSet | \
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WorkerEvtCtrlLineSet)
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#define WORKER_ALL_TX_EVENTS (WorkerEvtTxStop | WorkerEvtCdcRx)
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struct UsbUartBridge {
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UsbUartConfig cfg;
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UsbUartConfig cfg_new;
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FuriThread* thread;
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FuriThread* tx_thread;
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StreamBufferHandle_t rx_stream;
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osMutexId_t usb_mutex;
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osSemaphoreId_t tx_sem;
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UsbUartState st;
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uint8_t rx_buf[USB_CDC_PKT_LEN];
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};
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static void vcp_on_cdc_tx_complete(void* context);
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static void vcp_on_cdc_rx(void* context);
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static void vcp_state_callback(void* context, uint8_t state);
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static void vcp_on_cdc_control_line(void* context, uint8_t state);
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static void vcp_on_line_config(void* context, struct usb_cdc_line_coding* config);
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static const CdcCallbacks cdc_cb = {
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vcp_on_cdc_tx_complete,
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vcp_on_cdc_rx,
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vcp_state_callback,
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vcp_on_cdc_control_line,
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vcp_on_line_config,
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};
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/* USB UART worker */
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static int32_t usb_uart_tx_thread(void* context);
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static void usb_uart_on_irq_cb(UartIrqEvent ev, uint8_t data, void* context) {
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UsbUartBridge* usb_uart = (UsbUartBridge*)context;
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BaseType_t xHigherPriorityTaskWoken = pdFALSE;
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if(ev == UartIrqEventRXNE) {
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xStreamBufferSendFromISR(usb_uart->rx_stream, &data, 1, &xHigherPriorityTaskWoken);
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->thread), WorkerEvtRxDone);
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portYIELD_FROM_ISR(xHigherPriorityTaskWoken);
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}
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}
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static void usb_uart_vcp_init(UsbUartBridge* usb_uart, uint8_t vcp_ch) {
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if(vcp_ch == 0) {
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furi_hal_usb_set_config(&usb_cdc_single);
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furi_hal_vcp_disable();
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} else {
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furi_hal_usb_set_config(&usb_cdc_dual);
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}
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furi_hal_cdc_set_callbacks(vcp_ch, (CdcCallbacks*)&cdc_cb, usb_uart);
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}
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static void usb_uart_vcp_deinit(UsbUartBridge* usb_uart, uint8_t vcp_ch) {
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furi_hal_cdc_set_callbacks(vcp_ch, NULL, NULL);
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if(vcp_ch == 0) furi_hal_vcp_enable();
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}
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static void usb_uart_serial_init(UsbUartBridge* usb_uart, uint8_t uart_ch) {
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if(uart_ch == FuriHalUartIdUSART1) {
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furi_hal_console_disable();
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} else if(uart_ch == FuriHalUartIdLPUART1) {
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furi_hal_uart_init(uart_ch, 115200);
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}
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furi_hal_uart_set_irq_cb(uart_ch, usb_uart_on_irq_cb, usb_uart);
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}
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static void usb_uart_serial_deinit(UsbUartBridge* usb_uart, uint8_t uart_ch) {
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furi_hal_uart_set_irq_cb(uart_ch, NULL, NULL);
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if(uart_ch == FuriHalUartIdUSART1)
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furi_hal_console_enable();
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else if(uart_ch == FuriHalUartIdLPUART1)
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furi_hal_uart_deinit(uart_ch);
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}
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static void usb_uart_set_baudrate(UsbUartBridge* usb_uart, uint32_t baudrate) {
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if(baudrate != 0) {
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furi_hal_uart_set_br(usb_uart->cfg.uart_ch, baudrate);
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usb_uart->st.baudrate_cur = baudrate;
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} else {
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struct usb_cdc_line_coding* line_cfg =
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furi_hal_cdc_get_port_settings(usb_uart->cfg.vcp_ch);
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if(line_cfg->dwDTERate > 0) {
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furi_hal_uart_set_br(usb_uart->cfg.uart_ch, line_cfg->dwDTERate);
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usb_uart->st.baudrate_cur = line_cfg->dwDTERate;
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}
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}
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}
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static void usb_uart_update_ctrl_lines(UsbUartBridge* usb_uart) {
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if(usb_uart->cfg.flow_pins != 0) {
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furi_assert((usb_uart->cfg.flow_pins - 1) < (sizeof(flow_pins) / sizeof(flow_pins[0])));
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uint8_t state = furi_hal_cdc_get_ctrl_line_state(usb_uart->cfg.vcp_ch);
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hal_gpio_write(flow_pins[usb_uart->cfg.flow_pins - 1][0], !(state & USB_CDC_BIT_RTS));
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hal_gpio_write(flow_pins[usb_uart->cfg.flow_pins - 1][1], !(state & USB_CDC_BIT_DTR));
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}
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}
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static int32_t usb_uart_worker(void* context) {
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UsbUartBridge* usb_uart = (UsbUartBridge*)context;
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memcpy(&usb_uart->cfg, &usb_uart->cfg_new, sizeof(UsbUartConfig));
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usb_uart->rx_stream = xStreamBufferCreate(USB_UART_RX_BUF_SIZE, 1);
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usb_uart->tx_sem = osSemaphoreNew(1, 1, NULL);
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usb_uart->usb_mutex = osMutexNew(NULL);
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usb_uart->tx_thread = furi_thread_alloc();
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furi_thread_set_name(usb_uart->tx_thread, "UsbUartTxWorker");
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furi_thread_set_stack_size(usb_uart->tx_thread, 512);
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furi_thread_set_context(usb_uart->tx_thread, usb_uart);
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furi_thread_set_callback(usb_uart->tx_thread, usb_uart_tx_thread);
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FuriHalUsbInterface* usb_mode_prev = furi_hal_usb_get_config();
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usb_uart_vcp_init(usb_uart, usb_uart->cfg.vcp_ch);
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usb_uart_serial_init(usb_uart, usb_uart->cfg.uart_ch);
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usb_uart_set_baudrate(usb_uart, usb_uart->cfg.baudrate);
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if(usb_uart->cfg.flow_pins != 0) {
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furi_assert((usb_uart->cfg.flow_pins - 1) < (sizeof(flow_pins) / sizeof(flow_pins[0])));
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hal_gpio_init_simple(flow_pins[usb_uart->cfg.flow_pins - 1][0], GpioModeOutputPushPull);
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hal_gpio_init_simple(flow_pins[usb_uart->cfg.flow_pins - 1][1], GpioModeOutputPushPull);
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usb_uart_update_ctrl_lines(usb_uart);
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}
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->tx_thread), WorkerEvtCdcRx);
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furi_thread_start(usb_uart->tx_thread);
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while(1) {
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uint32_t events = osThreadFlagsWait(WORKER_ALL_RX_EVENTS, osFlagsWaitAny, osWaitForever);
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furi_check((events & osFlagsError) == 0);
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if(events & WorkerEvtStop) break;
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if(events & WorkerEvtRxDone) {
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size_t len =
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xStreamBufferReceive(usb_uart->rx_stream, usb_uart->rx_buf, USB_CDC_PKT_LEN, 0);
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if(len > 0) {
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if(osSemaphoreAcquire(usb_uart->tx_sem, 100) == osOK) {
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usb_uart->st.rx_cnt += len;
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furi_check(osMutexAcquire(usb_uart->usb_mutex, osWaitForever) == osOK);
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furi_hal_cdc_send(usb_uart->cfg.vcp_ch, usb_uart->rx_buf, len);
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furi_check(osMutexRelease(usb_uart->usb_mutex) == osOK);
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} else {
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xStreamBufferReset(usb_uart->rx_stream);
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}
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}
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}
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if(events & WorkerEvtCfgChange) {
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if(usb_uart->cfg.vcp_ch != usb_uart->cfg_new.vcp_ch) {
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->tx_thread), WorkerEvtTxStop);
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furi_thread_join(usb_uart->tx_thread);
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usb_uart_vcp_deinit(usb_uart, usb_uart->cfg.vcp_ch);
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usb_uart_vcp_init(usb_uart, usb_uart->cfg_new.vcp_ch);
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usb_uart->cfg.vcp_ch = usb_uart->cfg_new.vcp_ch;
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furi_thread_start(usb_uart->tx_thread);
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events |= WorkerEvtCtrlLineSet;
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events |= WorkerEvtLineCfgSet;
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}
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if(usb_uart->cfg.uart_ch != usb_uart->cfg_new.uart_ch) {
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->tx_thread), WorkerEvtTxStop);
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furi_thread_join(usb_uart->tx_thread);
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usb_uart_serial_deinit(usb_uart, usb_uart->cfg.uart_ch);
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usb_uart_serial_init(usb_uart, usb_uart->cfg_new.uart_ch);
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usb_uart->cfg.uart_ch = usb_uart->cfg_new.uart_ch;
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usb_uart_set_baudrate(usb_uart, usb_uart->cfg.baudrate);
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furi_thread_start(usb_uart->tx_thread);
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}
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if(usb_uart->cfg.baudrate != usb_uart->cfg_new.baudrate) {
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usb_uart_set_baudrate(usb_uart, usb_uart->cfg_new.baudrate);
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usb_uart->cfg.baudrate = usb_uart->cfg_new.baudrate;
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}
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if(usb_uart->cfg.flow_pins != usb_uart->cfg_new.flow_pins) {
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if(usb_uart->cfg.flow_pins != 0) {
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hal_gpio_init_simple(
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flow_pins[usb_uart->cfg.flow_pins - 1][0], GpioModeAnalog);
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hal_gpio_init_simple(
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flow_pins[usb_uart->cfg.flow_pins - 1][1], GpioModeAnalog);
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}
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if(usb_uart->cfg_new.flow_pins != 0) {
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furi_assert(
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(usb_uart->cfg_new.flow_pins - 1) <
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(sizeof(flow_pins) / sizeof(flow_pins[0])));
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hal_gpio_init_simple(
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flow_pins[usb_uart->cfg_new.flow_pins - 1][0], GpioModeOutputPushPull);
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hal_gpio_init_simple(
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flow_pins[usb_uart->cfg_new.flow_pins - 1][1], GpioModeOutputPushPull);
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}
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usb_uart->cfg.flow_pins = usb_uart->cfg_new.flow_pins;
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events |= WorkerEvtCtrlLineSet;
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}
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}
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if(events & WorkerEvtLineCfgSet) {
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if(usb_uart->cfg.baudrate == 0)
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usb_uart_set_baudrate(usb_uart, usb_uart->cfg.baudrate);
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}
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if(events & WorkerEvtCtrlLineSet) {
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usb_uart_update_ctrl_lines(usb_uart);
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}
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}
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usb_uart_vcp_deinit(usb_uart, usb_uart->cfg.vcp_ch);
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usb_uart_serial_deinit(usb_uart, usb_uart->cfg.uart_ch);
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furi_hal_usb_set_config(usb_mode_prev);
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if(usb_uart->cfg.flow_pins != 0) {
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hal_gpio_init_simple(flow_pins[usb_uart->cfg.flow_pins - 1][0], GpioModeAnalog);
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hal_gpio_init_simple(flow_pins[usb_uart->cfg.flow_pins - 1][1], GpioModeAnalog);
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}
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->tx_thread), WorkerEvtTxStop);
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furi_thread_join(usb_uart->tx_thread);
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furi_thread_free(usb_uart->tx_thread);
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vStreamBufferDelete(usb_uart->rx_stream);
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osMutexDelete(usb_uart->usb_mutex);
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osSemaphoreDelete(usb_uart->tx_sem);
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return 0;
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}
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static int32_t usb_uart_tx_thread(void* context) {
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UsbUartBridge* usb_uart = (UsbUartBridge*)context;
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uint8_t data[USB_CDC_PKT_LEN];
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while(1) {
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uint32_t events = osThreadFlagsWait(WORKER_ALL_TX_EVENTS, osFlagsWaitAny, osWaitForever);
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furi_check((events & osFlagsError) == 0);
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if(events & WorkerEvtTxStop) break;
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if(events & WorkerEvtCdcRx) {
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furi_check(osMutexAcquire(usb_uart->usb_mutex, osWaitForever) == osOK);
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size_t len = furi_hal_cdc_receive(usb_uart->cfg.vcp_ch, data, USB_CDC_PKT_LEN);
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furi_check(osMutexRelease(usb_uart->usb_mutex) == osOK);
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if(len > 0) {
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usb_uart->st.tx_cnt += len;
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furi_hal_uart_tx(usb_uart->cfg.uart_ch, data, len);
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}
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}
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}
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return 0;
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}
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/* VCP callbacks */
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static void vcp_on_cdc_tx_complete(void* context) {
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UsbUartBridge* usb_uart = (UsbUartBridge*)context;
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osSemaphoreRelease(usb_uart->tx_sem);
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}
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static void vcp_on_cdc_rx(void* context) {
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UsbUartBridge* usb_uart = (UsbUartBridge*)context;
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->tx_thread), WorkerEvtCdcRx);
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}
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static void vcp_state_callback(void* context, uint8_t state) {
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}
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static void vcp_on_cdc_control_line(void* context, uint8_t state) {
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UsbUartBridge* usb_uart = (UsbUartBridge*)context;
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->thread), WorkerEvtCtrlLineSet);
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}
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static void vcp_on_line_config(void* context, struct usb_cdc_line_coding* config) {
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UsbUartBridge* usb_uart = (UsbUartBridge*)context;
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->thread), WorkerEvtLineCfgSet);
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}
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UsbUartBridge* usb_uart_enable(UsbUartConfig* cfg) {
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UsbUartBridge* usb_uart = malloc(sizeof(UsbUartBridge));
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memcpy(&(usb_uart->cfg_new), cfg, sizeof(UsbUartConfig));
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usb_uart->thread = furi_thread_alloc();
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furi_thread_set_name(usb_uart->thread, "UsbUartWorker");
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furi_thread_set_stack_size(usb_uart->thread, 1024);
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furi_thread_set_context(usb_uart->thread, usb_uart);
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furi_thread_set_callback(usb_uart->thread, usb_uart_worker);
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furi_thread_start(usb_uart->thread);
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return usb_uart;
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}
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void usb_uart_disable(UsbUartBridge* usb_uart) {
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furi_assert(usb_uart);
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->thread), WorkerEvtStop);
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furi_thread_join(usb_uart->thread);
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furi_thread_free(usb_uart->thread);
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free(usb_uart);
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}
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void usb_uart_set_config(UsbUartBridge* usb_uart, UsbUartConfig* cfg) {
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furi_assert(usb_uart);
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furi_assert(cfg);
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memcpy(&(usb_uart->cfg_new), cfg, sizeof(UsbUartConfig));
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osThreadFlagsSet(furi_thread_get_thread_id(usb_uart->thread), WorkerEvtCfgChange);
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}
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void usb_uart_get_config(UsbUartBridge* usb_uart, UsbUartConfig* cfg) {
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furi_assert(usb_uart);
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furi_assert(cfg);
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memcpy(cfg, &(usb_uart->cfg_new), sizeof(UsbUartConfig));
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}
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void usb_uart_get_state(UsbUartBridge* usb_uart, UsbUartState* st) {
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furi_assert(usb_uart);
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furi_assert(st);
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memcpy(st, &(usb_uart->st), sizeof(UsbUartState));
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}
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