Mirrors/pico-uart-bridge
1
0
Fork 0
mirror of https://github.com/Noltari/pico-uart-bridge.git synced 2025-05-14 08:12:20 +00:00
Code Issues Projects Releases Packages Wiki Activity Actions

Merge 552e61fd50 into 9d0df3277d

Browse source
This commit is contained in:
Menci 2024-08-01 08:59:41 +00:00 committed by GitHub
commit de4af343ad
No known key found for this signature in database
GPG key ID: B5690EEEBB952194
2 changed files with 117 additions and 50 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

140
uart-bridge.c
View file

@ -1,6 +1,8 @@
// SPDX-License-Identifier: MIT // SPDX-License-Identifier: MIT
/* /*
* Copyright 2021 Álvaro Fernández Rojas <noltari@gmail.com> * Copyright 2021 Álvaro Fernández Rojas <noltari@gmail.com>
* Cleanup/modifications Copyright 2023 Andrew J. Kroll <xxxajk at gmail>
*
*/ */
#include <hardware/irq.h> #include <hardware/irq.h>
@ -19,6 +21,12 @@
#define BUFFER_SIZE 2560 #define BUFFER_SIZE 2560
#define UART0_TX 16
#define UART0_RX 17
#define UART1_TX 4
#define UART1_RX 5
#define DEF_BIT_RATE 115200 #define DEF_BIT_RATE 115200
#define DEF_STOP_BITS 1 #define DEF_STOP_BITS 1
#define DEF_PARITY 0 #define DEF_PARITY 0
@ -52,18 +60,19 @@ const uart_id_t UART_ID[CFG_TUD_CDC] = {
.inst = uart0, .inst = uart0,
.irq = UART0_IRQ, .irq = UART0_IRQ,
.irq_fn = &uart0_irq_fn, .irq_fn = &uart0_irq_fn,
.tx_pin = 16, .tx_pin = UART0_TX,
.rx_pin = 17, .rx_pin = UART0_RX,
}, { }, {
.inst = uart1, .inst = uart1,
.irq = UART1_IRQ, .irq = UART1_IRQ,
.irq_fn = &uart1_irq_fn, .irq_fn = &uart1_irq_fn,
.tx_pin = 4, .tx_pin = UART1_TX,
.rx_pin = 5, .rx_pin = UART1_RX,
} }
}; };
uart_data_t UART_DATA[CFG_TUD_CDC]; uart_data_t UART_DATA[CFG_TUD_CDC];
volatile bool ready = false;
static inline uint databits_usb2uart(uint8_t data_bits) static inline uint databits_usb2uart(uint8_t data_bits)
{ {
@ -151,23 +160,43 @@ void usb_write_bytes(uint8_t itf)
{ {
uart_data_t *ud = &UART_DATA[itf]; uart_data_t *ud = &UART_DATA[itf];
if (ud->uart_pos && if (ud->uart_pos) {
mutex_try_enter(&ud->uart_mtx, NULL)) { if (mutex_try_enter(&ud->uart_mtx, NULL)) {
uint32_t count; uint32_t count = tud_cdc_n_write(itf, ud->uart_buffer, ud->uart_pos);
// horrible! should use ring buffers!!
if (count < ud->uart_pos) {
memmove(ud->uart_buffer, &ud->uart_buffer[count], ud->uart_pos - count);
}
ud->uart_pos -= count;
mutex_exit(&ud->uart_mtx);
count = tud_cdc_n_write(itf, ud->uart_buffer, ud->uart_pos); if (count)
if (count < ud->uart_pos) tud_cdc_n_write_flush(itf);
memmove(ud->uart_buffer, &ud->uart_buffer[count], }
ud->uart_pos - count);
ud->uart_pos -= count;
mutex_exit(&ud->uart_mtx);
if (count)
tud_cdc_n_write_flush(itf);
} }
} }
void tud_cdc_send_break_cb(uint8_t itf, uint16_t duration_ms)
{
const uart_id_t *ui = &UART_ID[itf];
uart_data_t *ud = &UART_DATA[itf];
// is mutex for tx even needed??
//mutex_enter_blocking(&ud->lc_mtx);
if (duration_ms == 0xffff) {
uart_set_break(ui->inst, true);
} else if (duration_ms == 0x0000) {
uart_set_break(ui->inst, false);
} else {
// should be correct for non-compliant stacks?
uart_set_break(ui->inst, true);
sleep_ms(duration_ms);
uart_set_break(ui->inst, false);
}
//mutex_exit(&ud->lc_mtx);
}
void usb_cdc_process(uint8_t itf) void usb_cdc_process(uint8_t itf)
{ {
uart_data_t *ud = &UART_DATA[itf]; uart_data_t *ud = &UART_DATA[itf];
@ -183,17 +212,19 @@ void usb_cdc_process(uint8_t itf)
void core1_entry(void) void core1_entry(void)
{ {
tusb_init(); tusb_init();
ready = true;
while (1) { while (1) {
int itf; int itf;
int con = 0; int con = 0;
tud_task(); tud_task();
for (itf = 0; itf < CFG_TUD_CDC; itf++) { if (tud_ready()) { // we need to ignore DTR on the CDC side
if (tud_cdc_n_connected(itf)) { for (itf = 0; itf < CFG_TUD_CDC; itf++) {
con = 1; if (tud_cdc_n_connected(itf)) {
usb_cdc_process(itf); con = 1;
usb_cdc_process(itf);
}
} }
} }
@ -209,12 +240,12 @@ static inline void uart_read_bytes(uint8_t itf)
if (uart_is_readable(ui->inst)) { if (uart_is_readable(ui->inst)) {
mutex_enter_blocking(&ud->uart_mtx); mutex_enter_blocking(&ud->uart_mtx);
while (uart_is_readable(ui->inst) && if (ud->uart_pos < BUFFER_SIZE) {
(ud->uart_pos < BUFFER_SIZE)) {
ud->uart_buffer[ud->uart_pos] = uart_getc(ui->inst); ud->uart_buffer[ud->uart_pos] = uart_getc(ui->inst);
ud->uart_pos++; ud->uart_pos++;
} else {
uart_getc(ui->inst); // drop it on the floor
} }
mutex_exit(&ud->uart_mtx); mutex_exit(&ud->uart_mtx);
} }
} }
@ -233,22 +264,17 @@ void uart_write_bytes(uint8_t itf)
{ {
uart_data_t *ud = &UART_DATA[itf]; uart_data_t *ud = &UART_DATA[itf];
if (ud->usb_pos && if (ud->usb_pos && mutex_try_enter(&ud->usb_mtx, NULL)) {
mutex_try_enter(&ud->usb_mtx, NULL)) {
const uart_id_t *ui = &UART_ID[itf]; const uart_id_t *ui = &UART_ID[itf];
uint32_t count = 0;
while (uart_is_writable(ui->inst) && // horrible! should use ring buffers!!
count < ud->usb_pos) { if (uart_is_writable(ui->inst)) { // && count < ud->usb_pos) {
uart_putc_raw(ui->inst, ud->usb_buffer[count]); uart_putc_raw(ui->inst, ud->usb_buffer[0]);
count++; if (ud->usb_pos > 1) {
memmove(ud->usb_buffer, &ud->usb_buffer[1], ud->usb_pos - 1);
}
ud->usb_pos--;
} }
if (count < ud->usb_pos)
memmove(ud->usb_buffer, &ud->usb_buffer[count],
ud->usb_pos - count);
ud->usb_pos -= count;
mutex_exit(&ud->usb_mtx); mutex_exit(&ud->usb_mtx);
} }
} }
@ -261,6 +287,7 @@ void init_uart_data(uint8_t itf)
/* Pinmux */ /* Pinmux */
gpio_set_function(ui->tx_pin, GPIO_FUNC_UART); gpio_set_function(ui->tx_pin, GPIO_FUNC_UART);
gpio_set_function(ui->rx_pin, GPIO_FUNC_UART); gpio_set_function(ui->rx_pin, GPIO_FUNC_UART);
gpio_pull_up(ui->rx_pin); // important missed detail, prevents connection glitches
/* USB CDC LC */ /* USB CDC LC */
ud->usb_lc.bit_rate = DEF_BIT_RATE; ud->usb_lc.bit_rate = DEF_BIT_RATE;
@ -290,31 +317,48 @@ void init_uart_data(uint8_t itf)
stopbits_usb2uart(ud->usb_lc.stop_bits), stopbits_usb2uart(ud->usb_lc.stop_bits),
parity_usb2uart(ud->usb_lc.parity)); parity_usb2uart(ud->usb_lc.parity));
uart_set_fifo_enabled(ui->inst, false); uart_set_fifo_enabled(ui->inst, false);
uart_set_translate_crlf(ui->inst, false);
/* UART RX Interrupt */ /* UART RX Interrupt */
irq_set_exclusive_handler(ui->irq, ui->irq_fn); irq_set_exclusive_handler(ui->irq, ui->irq_fn);
irq_set_enabled(ui->irq, true);
uart_set_irq_enables(ui->inst, true, false);
} }
int main(void) void start_uarts() {
{ uint8_t itf;
for (itf = 0; itf < CFG_TUD_CDC; itf++) {
init_uart_data(itf);
}
// enable ISRs
for (itf = 0; itf < CFG_TUD_CDC; itf++) {
const uart_id_t *ui = &UART_ID[itf];
irq_set_enabled(ui->irq, true);
uart_set_irq_enables(ui->inst, true, false);
}
}
int main(void) {
int itf; int itf;
multicore_reset_core1();
usbd_serial_init(); usbd_serial_init();
for (itf = 0; itf < CFG_TUD_CDC; itf++) start_uarts();
init_uart_data(itf);
gpio_init(LED_PIN); gpio_init(LED_PIN);
gpio_set_dir(LED_PIN, GPIO_OUT); gpio_set_dir(LED_PIN, GPIO_OUT);
multicore_launch_core1(core1_entry); multicore_launch_core1(core1_entry);
do {
sleep_us(1);
} while (!ready);
while (1) { while (1) {
for (itf = 0; itf < CFG_TUD_CDC; itf++) { if (tud_ready()) {
update_uart_cfg(itf); for (itf = 0; itf < CFG_TUD_CDC; itf++) {
uart_write_bytes(itf); update_uart_cfg(itf);
uart_write_bytes(itf);
}
} }
} }

27
usb-descriptors.c
View file

@ -12,6 +12,29 @@
#include <hardware/flash.h> #include <hardware/flash.h>
#include <tusb.h> #include <tusb.h>
#define TUD_CDC_BRK_DESCRIPTOR(_itfnum, _stridx, _ep_notif, _ep_notif_size, _epout, _epin, _epsize) \
/* Interface Associate */\
8, TUSB_DESC_INTERFACE_ASSOCIATION, _itfnum, 2, TUSB_CLASS_CDC, CDC_COMM_SUBCLASS_ABSTRACT_CONTROL_MODEL, CDC_COMM_PROTOCOL_NONE, 0,\
/* CDC Control Interface */\
9, TUSB_DESC_INTERFACE, _itfnum, 0, 1, TUSB_CLASS_CDC, CDC_COMM_SUBCLASS_ABSTRACT_CONTROL_MODEL, CDC_COMM_PROTOCOL_NONE, _stridx,\
/* CDC Header */\
5, TUSB_DESC_CS_INTERFACE, CDC_FUNC_DESC_HEADER, U16_TO_U8S_LE(0x0120),\
/* CDC Call */\
5, TUSB_DESC_CS_INTERFACE, CDC_FUNC_DESC_CALL_MANAGEMENT, 0, (uint8_t)((_itfnum) + 1),\
/* CDC ACM: support line request */\
4, TUSB_DESC_CS_INTERFACE, CDC_FUNC_DESC_ABSTRACT_CONTROL_MANAGEMENT, 6,\
/* CDC Union */\
5, TUSB_DESC_CS_INTERFACE, CDC_FUNC_DESC_UNION, _itfnum, (uint8_t)((_itfnum) + 1),\
/* Endpoint Notification */\
7, TUSB_DESC_ENDPOINT, _ep_notif, TUSB_XFER_INTERRUPT, U16_TO_U8S_LE(_ep_notif_size), 16,\
/* CDC Data Interface */\
9, TUSB_DESC_INTERFACE, (uint8_t)((_itfnum)+1), 0, 2, TUSB_CLASS_CDC_DATA, 0, 0, 0,\
/* Endpoint Out */\
7, TUSB_DESC_ENDPOINT, _epout, TUSB_XFER_BULK, U16_TO_U8S_LE(_epsize), 0,\
/* Endpoint In */\
7, TUSB_DESC_ENDPOINT, _epin, TUSB_XFER_BULK, U16_TO_U8S_LE(_epsize), 0
#define DESC_STR_MAX 20 #define DESC_STR_MAX 20
#define USBD_VID 0x2E8A /* Raspberry Pi */ #define USBD_VID 0x2E8A /* Raspberry Pi */
@ -64,11 +87,11 @@ static const uint8_t usbd_desc_cfg[USBD_DESC_LEN] = {
TUD_CONFIG_DESCRIPTOR(1, USBD_ITF_MAX, USBD_STR_0, USBD_DESC_LEN, TUD_CONFIG_DESCRIPTOR(1, USBD_ITF_MAX, USBD_STR_0, USBD_DESC_LEN,
TUSB_DESC_CONFIG_ATT_REMOTE_WAKEUP, USBD_MAX_POWER_MA), TUSB_DESC_CONFIG_ATT_REMOTE_WAKEUP, USBD_MAX_POWER_MA),
TUD_CDC_DESCRIPTOR(USBD_ITF_CDC_0, USBD_STR_CDC, USBD_CDC_0_EP_CMD, TUD_CDC_BRK_DESCRIPTOR(USBD_ITF_CDC_0, USBD_STR_CDC, USBD_CDC_0_EP_CMD,
USBD_CDC_CMD_MAX_SIZE, USBD_CDC_0_EP_OUT, USBD_CDC_0_EP_IN, USBD_CDC_CMD_MAX_SIZE, USBD_CDC_0_EP_OUT, USBD_CDC_0_EP_IN,
USBD_CDC_IN_OUT_MAX_SIZE), USBD_CDC_IN_OUT_MAX_SIZE),
TUD_CDC_DESCRIPTOR(USBD_ITF_CDC_1, USBD_STR_CDC, USBD_CDC_1_EP_CMD, TUD_CDC_BRK_DESCRIPTOR(USBD_ITF_CDC_1, USBD_STR_CDC, USBD_CDC_1_EP_CMD,
USBD_CDC_CMD_MAX_SIZE, USBD_CDC_1_EP_OUT, USBD_CDC_1_EP_IN, USBD_CDC_CMD_MAX_SIZE, USBD_CDC_1_EP_OUT, USBD_CDC_1_EP_IN,
USBD_CDC_IN_OUT_MAX_SIZE), USBD_CDC_IN_OUT_MAX_SIZE),
}; };