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Add an example of using using DMA with PIO #468

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1 change: 1 addition & 0 deletions README.md
Original file line number Diff line number Diff line change
Expand Up @@ -293,6 +293,7 @@ App|Description
[uart_tx](pio/uart_tx) | Implement the transmit component of a UART serial port, and print hello world.
[ws2812](pio/ws2812) | Examples of driving WS2812 addressable RGB LEDs.
[addition](pio/addition) | Add two integers together using PIO. Only around 8 billion times slower than Cortex-M0+.
[uart_pio_dma](pio/uart_pio_dma) | Send and receive data from a UART implemented using the PIO and DMA

### PWM

Expand Down
3 changes: 2 additions & 1 deletion pio/CMakeLists.txt
Original file line number Diff line number Diff line change
Expand Up @@ -17,9 +17,10 @@ if (TARGET hardware_pio)
add_subdirectory_exclude_platforms(spi)
add_subdirectory_exclude_platforms(squarewave)
add_subdirectory_exclude_platforms(st7789_lcd)
add_subdirectory_exclude_platforms(uart_pio_dma)
add_subdirectory_exclude_platforms(uart_rx)
add_subdirectory_exclude_platforms(uart_tx)
add_subdirectory_exclude_platforms(ws2812)
else()
message("Skipping PIO examples as hardware_pio is unavailable on this platform")
endif()
endif()
11 changes: 11 additions & 0 deletions pio/uart_pio_dma/CMakeLists.txt
Original file line number Diff line number Diff line change
@@ -0,0 +1,11 @@
add_executable(uart_pio_dma)
pico_generate_pio_header(uart_pio_dma ${CMAKE_CURRENT_LIST_DIR}/../uart_rx/uart_rx.pio)
pico_generate_pio_header(uart_pio_dma ${CMAKE_CURRENT_LIST_DIR}/../uart_tx/uart_tx.pio)
target_sources(uart_pio_dma PRIVATE uart_pio_dma.c)
target_link_libraries(uart_pio_dma PRIVATE
pico_stdlib
hardware_pio
hardware_dma
)
pico_add_extra_outputs(uart_pio_dma)
example_auto_set_url(uart_pio_dma)
312 changes: 312 additions & 0 deletions pio/uart_pio_dma/uart_pio_dma.c
Original file line number Diff line number Diff line change
@@ -0,0 +1,312 @@
/**
* Copyright (c) 2024 Raspberry Pi (Trading) Ltd.
*
* SPDX-License-Identifier: BSD-3-Clause
*/

#include <stdio.h>
#include <string.h>

#include "pico/stdlib.h"
#include "hardware/pio.h"
#include "hardware/uart.h"
#include "hardware/dma.h"
#include "uart_rx.pio.h"
#include "uart_tx.pio.h"

// Sends data via GPIO 4 and receives it on GPIO 5
// Connect these pins with a wire
#define GPIO_TX 4
#define GPIO_RX 5

#define SERIAL_BAUD 921600
#define HARD_UART_INST uart1

#define USE_PIO_FOR_RX 1
#define USE_DMA_FOR_RX 1
#define USE_PIO_FOR_TX 1
#define USE_DMA_FOR_TX 1

#ifndef DMA_IRQ_PRIORITY
#define DMA_IRQ_PRIORITY PICO_SHARED_IRQ_HANDLER_DEFAULT_ORDER_PRIORITY
#endif

#ifndef PIO_IRQ_PRIORITY
#define PIO_IRQ_PRIORITY PICO_SHARED_IRQ_HANDLER_DEFAULT_ORDER_PRIORITY
#endif

#define PIO_IRQ_NUM 0
#define DMA_IRQ_NUM 0

#define DMA_IRQX(N) DMA_IRQ_ ## N
#define DMA_IRQN(N) DMA_IRQX(N)

// dma channels
static uint dma_channel_rx;
static uint dma_channel_tx;

// pio hardware
#if USE_PIO_FOR_RX
static PIO pio_hw_rx;
static uint pio_sm_rx;
static uint offset_rx;
#endif

#if USE_PIO_FOR_TX
static PIO pio_hw_tx;
static uint pio_sm_tx;
static uint offset_tx;
#endif

// read request size for progress
static uint32_t read_size;

// PIO interrupt handler, called when the state machine fifo is not empty
// note: shouldn't printf in an irq normally!
static void pio_irq_handler() {
dma_channel_hw_t *dma_chan = dma_channel_hw_addr(dma_channel_rx);
printf("pio_rx dma_rx=%u/%u\n", read_size - dma_chan->transfer_count, read_size);
}

// DMA interrupt handler, called when a DMA channel has transmitted its data
static void dma_irq_handler() {
if (dma_channel_tx >= 0 && dma_irqn_get_channel_status(DMA_IRQ_NUM, dma_channel_tx)) {
dma_irqn_acknowledge_channel(DMA_IRQ_NUM, dma_channel_tx);
printf("dma_tx done\n");
}
if (dma_channel_rx >= 0 && dma_irqn_get_channel_status(DMA_IRQ_NUM, dma_channel_rx)) {
dma_irqn_acknowledge_channel(DMA_IRQ_NUM, dma_channel_rx);
printf("dma_rx done\n");
}
}

// Return a pointer to pio hardware
static PIO pio_hardware(int n) {
static_assert(NUM_PIOS == 2, "");
const PIO pios[] = {pio0, pio1};
return pios[n];
}

// Return irqn for the pio
static int pio_irqn(PIO pio_hw, int irqn) {
assert(irqn < (PIO1_IRQ_0 - PIO0_IRQ_0));
return PIO0_IRQ_0 + (PIO1_IRQ_0 - PIO0_IRQ_0) * pio_get_index(pio_hw) + irqn;
}

// Allocates a pio and statemachine and loads the pio program into memory
// Return true on success
static bool pio_claim_free_sm_add_program(const pio_program_t *program, PIO *pio_hw, uint *sm, uint *offset) {
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seems like this can use the new PIO functions

// Find a free pio
int count = NUM_PIOS;
while(count--) {
*pio_hw = pio_hardware(count);
if (!pio_can_add_program(*pio_hw, program)) {
continue;
}
// Find a state machine
*sm = (int8_t)pio_claim_unused_sm(*pio_hw, false);
if (*sm < 0) {
continue;
}
*offset = pio_add_program(*pio_hw, program);
return true;
}
return false;
}

// free up pio resources
static void pio_remove_program_unclaim_sm(const pio_program_t *program, PIO pio_hw, uint sm, uint offset) {
pio_remove_program(pio_hw, program, offset);
pio_sm_unclaim(pio_hw, sm);
}

static void dump_bytes(const char *bptr, uint32_t len) {
unsigned int i = 0;
for (i = 0; i < len;) {
if ((i & 0x0f) == 0) {
printf("\n");
} else if ((i & 0x07) == 0) {
printf(" ");
}
printf("%02x ", bptr[i++]);
}
printf("\n");
}

int main()
{
setup_default_uart();

// setup text we are going to send and what we expect to get back
const char buffer_tx[] = "the quick brown fox jumps over the lazy dog";

// Buffer for receiving data
char buffer_rx[sizeof(buffer_tx) - 1] = {0};

#if !USE_PIO_FOR_RX || !USE_PIO_FOR_TX
uart_init(HARD_UART_INST, SERIAL_BAUD);
#endif

// setup pio for rx
#if USE_PIO_FOR_RX
if (!pio_claim_free_sm_add_program(&uart_rx_mini_program, &pio_hw_rx, &pio_sm_rx, &offset_rx)) {
panic("failed to allocate pio for rx");
}
uart_rx_mini_program_init(pio_hw_rx, pio_sm_rx, offset_rx, GPIO_RX, SERIAL_BAUD);
#else
gpio_set_function(GPIO_RX, GPIO_FUNC_UART);
#endif

// setup pio for tx
#if USE_PIO_FOR_TX
if (!pio_claim_free_sm_add_program(&uart_tx_program, &pio_hw_tx, &pio_sm_tx, &offset_tx)) {
panic("failed to allocate pio for tx");
}
uart_tx_program_init(pio_hw_tx, pio_sm_tx, offset_tx, GPIO_TX, SERIAL_BAUD);
#else
gpio_set_function(GPIO_TX, GPIO_FUNC_UART);
#endif

// setup pio interrupt
#if USE_PIO_FOR_RX
if (irq_get_exclusive_handler(pio_irqn(pio_hw_rx, PIO_IRQ_NUM))) {
panic("PIO IRQ in use");
}
#if USE_DMA_FOR_RX
irq_add_shared_handler(pio_irqn(pio_hw_rx, PIO_IRQ_NUM), pio_irq_handler, PIO_IRQ_PRIORITY);
pio_set_irqn_source_enabled(pio_hw_rx, PIO_IRQ_NUM, pis_sm0_rx_fifo_not_empty + pio_sm_rx, true);
irq_set_enabled(pio_irqn(pio_hw_rx, PIO_IRQ_NUM), true);
#endif
#endif

// add dma handler
#if USE_DMA_FOR_RX || USE_DMA_FOR_TX
if (irq_get_exclusive_handler(DMA_IRQN(DMA_IRQ_NUM))) {
panic("DMA IRQ in use");
}
irq_add_shared_handler(DMA_IRQN(DMA_IRQ_NUM), dma_irq_handler, DMA_IRQ_PRIORITY);
irq_set_enabled(DMA_IRQN(DMA_IRQ_NUM), true);
#endif

// Setup dma for read
#if USE_DMA_FOR_RX
dma_channel_rx = dma_claim_unused_channel(false);
if (dma_channel_rx < 0) {
panic("No free dma channels");
}
dma_channel_config config_rx = dma_channel_get_default_config(dma_channel_rx);
channel_config_set_transfer_data_size(&config_rx, DMA_SIZE_8);
channel_config_set_read_increment(&config_rx, false);
channel_config_set_write_increment(&config_rx, true);
read_size = sizeof(buffer_tx) - 1;
// enable irq for rx
dma_irqn_set_channel_enabled(DMA_IRQ_NUM, dma_channel_rx, true);
#if USE_PIO_FOR_RX
// read from pio fifo
channel_config_set_dreq(&config_rx, pio_get_dreq(pio_hw_rx, pio_sm_rx, false));
// 8-bit read from the uppermost byte of the FIFO, as data is left-justified so need to add 3. Don't forget the cast!
dma_channel_configure(dma_channel_rx, &config_rx, buffer_rx, (io_rw_8*)&pio_hw_rx->rxf[pio_sm_rx] + 3, read_size, true); // dma started
#else
// read from uart hardware
channel_config_set_dreq(&config_rx, uart_get_dreq(HARD_UART_INST, false));
dma_channel_configure(dma_channel_rx, &config_rx, buffer_rx, &uart_get_hw(HARD_UART_INST)->dr, read_size, true); // dma started
#endif
#endif

// setup dma for write
#if USE_DMA_FOR_TX
dma_channel_tx = dma_claim_unused_channel(false);
if (dma_channel_tx < 0) {
panic("No free dma channels");
}
dma_channel_config config_tx = dma_channel_get_default_config(dma_channel_tx);
channel_config_set_transfer_data_size(&config_tx, DMA_SIZE_8);
channel_config_set_read_increment(&config_tx, true);
channel_config_set_write_increment(&config_tx, false);
// enable irq for tx
dma_irqn_set_channel_enabled(DMA_IRQ_NUM, dma_channel_tx, true);
#if USE_PIO_FOR_RX
// write to pio fifo
channel_config_set_dreq(&config_tx, pio_get_dreq(pio_hw_tx, pio_sm_tx, true));
dma_channel_configure(dma_channel_tx, &config_tx, &pio_hw_rx->txf[pio_sm_tx], buffer_tx, sizeof(buffer_tx) - 1, true); // dma started
#else
// write to uart hardware
channel_config_set_dreq(&config_tx, uart_get_dreq(HARD_UART_INST, true));
dma_channel_configure(dma_channel_tx, &config_tx, &uart_get_hw(HARD_UART_INST)->dr, buffer_tx, sizeof(buffer_tx) - 1, true); // dma started
#endif
#endif

// send data
#if USE_DMA_FOR_TX
dma_channel_wait_for_finish_blocking(dma_channel_tx); // wait for tx
#elif USE_PIO_FOR_TX
// write to the pio fifo
int count_pio_tx = 0;
while(count_pio_tx < sizeof(buffer_tx) - 1) {
uart_tx_program_putc(pio_hw_tx, pio_sm_tx, buffer_tx[count_pio_tx++]);
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This and the following uart_puts will overflow the fifo if dma is not enabled, need to read and write one character at a time?

}
#else
uart_puts(HARD_UART_INST, buffer_tx);
#endif

// Receive the data
#if USE_DMA_FOR_RX
// wait for dma rx
dma_channel_wait_for_finish_blocking(dma_channel_rx);
#elif USE_PIO_FOR_RX
// read from the pio fifo
int count_pio_rx = 0;
while(count_pio_rx < sizeof(buffer_tx) - 1) {
buffer_rx[count_pio_rx++] = uart_rx_program_getc(pio_hw_rx, pio_sm_rx);
}
#else
// use the uart hardware
int count_uart_rx = 0;
while(count_uart_rx < sizeof(buffer_tx) - 1) {
buffer_rx[count_uart_rx++] = uart_getc(HARD_UART_INST);
}
#endif

// check
if (memcmp(buffer_rx, buffer_tx, sizeof(buffer_tx) - 1) == 0) {
printf("Test passed\n");
} else {
printf("buffer_tx: >%s<\n", buffer_tx);
dump_bytes(buffer_tx, sizeof(buffer_tx));
printf("result: >%s<\n", buffer_rx);
dump_bytes(buffer_rx, sizeof(buffer_rx));
printf("Test failed\n");
assert(0);
}

// cleanup
#if USE_DMA_FOR_TX
dma_irqn_set_channel_enabled(DMA_IRQ_NUM, dma_channel_tx, false);
dma_channel_unclaim(dma_channel_tx);
#endif
#if USE_DMA_FOR_RX
dma_irqn_set_channel_enabled(DMA_IRQ_NUM, dma_channel_rx, false);
dma_channel_unclaim(dma_channel_rx);
#endif
#if USE_DMA_FOR_RX || USE_DMA_FOR_TX
irq_remove_handler(DMA_IRQN(DMA_IRQ_NUM), dma_irq_handler);
if (!irq_has_shared_handler(DMA_IRQN(DMA_IRQ_NUM))) {
irq_set_enabled(DMA_IRQN(DMA_IRQ_NUM), false);
}
#endif
#if USE_PIO_FOR_RX
pio_set_irqn_source_enabled(pio_hw_rx, PIO_IRQ_NUM, pis_sm0_rx_fifo_not_empty + pio_sm_rx, false);
irq_remove_handler(pio_irqn(pio_hw_rx, PIO_IRQ_NUM), pio_irq_handler);
if (!irq_has_shared_handler(pio_irqn(pio_hw_rx, PIO_IRQ_NUM))) {
irq_set_enabled(pio_irqn(pio_hw_rx, PIO_IRQ_NUM), false);
}
pio_remove_program_unclaim_sm(&uart_rx_mini_program, pio_hw_rx, pio_sm_rx, offset_rx);
#endif
#if USE_PIO_FOR_TX
pio_remove_program_unclaim_sm(&uart_tx_program, pio_hw_tx, pio_sm_tx, offset_tx);
#endif
#if !USE_PIO_FOR_RX || !USE_PIO_FOR_TX
uart_deinit(HARD_UART_INST);
#endif
return 0;
}
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