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gex-core/units/usart/unit_usart.c

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//
// Created by MightyPork on 2018/01/02.
//
#include "unit_base.h"
#include "unit_usart.h"
#define UUSART_INTERNAL
#include "_internal.h"
static void UUSART_SendReceivedDataToMaster(Job *job)
{
Unit *unit = job->unit;
struct priv *priv = unit->data;
uint16_t readpos = (uint16_t) job->data1;
uint16_t count = (uint16_t) job->data2;
EventReport event = {
.unit = job->unit,
.timestamp = job->timestamp,
.data = (uint8_t *) (priv->rx_buffer + readpos),
.length = count,
};
EventReport_Send(&event);
}
/**
* Handle received data (we're inside the IRQ)
*
* @param unit - handled unit
* @param endpos - end position in the buffer
*/
void UUSART_DMA_HandleRxFromIRQ(Unit *unit, uint16_t endpos)
{
const uint64_t ts = PTIM_GetMicrotime();
assert_param(unit);
struct priv *priv = unit->data;
assert_param(priv);
uint16_t readpos = priv->rx_buf_readpos;
assert_param(endpos > readpos);
uint16_t count = (endpos - readpos);
// We defer it to the job queue
Job j = {
.unit = unit,
.timestamp = ts,
.data1 = priv->rx_buf_readpos,
.data2 = count,
.cb = UUSART_SendReceivedDataToMaster
};
scheduleJob(&j);
// Move the read cursor, wrap around if needed
if (endpos == UUSART_RXBUF_LEN) endpos = 0;
priv->rx_buf_readpos = endpos;
}
/**
* Timed tick (ISR) - check timeout
*/
void UUSART_Tick(Unit *unit)
{
assert_param(unit);
struct priv *priv = unit->data;
assert_param(priv);
if (priv->rx_last_dmapos == priv->dma_rx->CNDTR) {
uint16_t endpos = (uint16_t) (UUSART_RXBUF_LEN - priv->rx_last_dmapos);
if (endpos != priv->rx_buf_readpos) {
UUSART_DMA_HandleRxFromIRQ(unit, endpos);
}
} else {
priv->rx_last_dmapos = (uint16_t) priv->dma_rx->CNDTR;
}
}
error_t UU_USART_Write(Unit *unit, const uint8_t *buffer, uint32_t len)
{
CHECK_TYPE(unit, &UNIT_USART);
struct priv *priv = unit->data;
uint32_t t_start = HAL_GetTick();
while (len > 0) {
// this should be long enough even for the slowest bitrates and 512 bytes
if (HAL_GetTick() - t_start > 5000) {
return E_HW_TIMEOUT;
}
uint16_t chunk = UUSART_DMA_TxQueue(priv, buffer, (uint16_t) len);
buffer += chunk;
len -= chunk;
// We give up control if there's another thread waiting and this isn't the last cycle
if (len > 0) {
osThreadYield();
}
}
return E_SUCCESS;
}
error_t UU_USART_WriteSync(Unit *unit, const uint8_t *buffer, uint32_t len)
{
CHECK_TYPE(unit, &UNIT_USART);
struct priv *priv = unit->data;
TRY(UU_USART_Write(unit, buffer, len));
// Now wait for the last DMA to complete
uint32_t t_start = HAL_GetTick();
while (priv->tx_dma_busy) {
if (HAL_GetTick() - t_start > 1000) {
return E_HW_TIMEOUT;
}
}
return E_SUCCESS;
}
enum PinCmd_ {
CMD_WRITE = 0,
CMD_WRITE_SYNC = 1,
};
/** Handle a request message */
static error_t UUSART_handleRequest(Unit *unit, TF_ID frame_id, uint8_t command, PayloadParser *pp)
{
uint32_t len;
const uint8_t *pld;
switch (command) {
case CMD_WRITE:
pld = pp_tail(pp, &len);
TRY(UU_USART_Write(unit, pld, len));
return E_SUCCESS;
case CMD_WRITE_SYNC:
pld = pp_tail(pp, &len);
TRY(UU_USART_WriteSync(unit, pld, len));
return E_SUCCESS;
default:
return E_UNKNOWN_COMMAND;
}
}
// ------------------------------------------------------------------------
/** Unit template */
const UnitDriver UNIT_USART = {
.name = "USART",
.description = "Serial port",
// Settings
.preInit = UUSART_preInit,
.cfgLoadBinary = UUSART_loadBinary,
.cfgWriteBinary = UUSART_writeBinary,
.cfgLoadIni = UUSART_loadIni,
.cfgWriteIni = UUSART_writeIni,
// Init
.init = UUSART_init,
.deInit = UUSART_deInit,
// Function
.updateTick = UUSART_Tick,
.handleRequest = UUSART_handleRequest,
};