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@ -127,6 +127,11 @@ error_t UUSART_SetupDMAs(Unit *unit) |
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priv->tx_buffer = malloc_ck(UUSART_TXBUF_LEN); |
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priv->tx_buffer = malloc_ck(UUSART_TXBUF_LEN); |
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if (NULL == priv->tx_buffer) return E_OUT_OF_MEM; |
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if (NULL == priv->tx_buffer) return E_OUT_OF_MEM; |
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// Those must be aligned to a word boundary for the DMAs to work.
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// Any well-behaved malloc impl should do this correctly.
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assert_param(((uint32_t)priv->rx_buffer & 3) == 0); |
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assert_param(((uint32_t)priv->tx_buffer & 3) == 0); |
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priv->rx_buf_readpos = 0; |
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priv->rx_buf_readpos = 0; |
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LL_DMA_InitTypeDef init; |
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LL_DMA_InitTypeDef init; |
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@ -237,29 +242,31 @@ static void UUSART_DMA_TxStart(struct priv *priv) |
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uint16_t nr = priv->tx_buf_nr; |
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uint16_t nr = priv->tx_buf_nr; |
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uint16_t nw = priv->tx_buf_nw; |
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uint16_t nw = priv->tx_buf_nw; |
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// if (nr == nw-1 || nr==0&&nw==UUSART_TXBUF_LEN-1) {
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// dbg("FULL buf, cant start")
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// }
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if (nr == nw) { |
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if (nr == nw) { |
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dbg("remain=0,do nothing"); |
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dbg("remain=0,do nothing"); |
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return; |
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return; |
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} // do nothing if we're done
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} // do nothing if we're done
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uint16_t chunk = 0; |
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uint8_t chunk = priv->tx_buffer[nr]; |
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if (nr < nw) { |
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nr += (uint16_t) (4 - (nr & 0b11)); |
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// linear forward
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if (chunk == 0) { |
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chunk = nw - nr; |
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// wrap-around
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} else { |
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chunk = priv->tx_buffer[0]; |
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// wrapped
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nr = 4; |
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chunk = (uint16_t) (UUSART_TXBUF_LEN - nr); |
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assert_param(nr < nw); |
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} |
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} |
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dbg("chunk %d", (int)chunk); |
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priv->tx_buf_chunk = chunk; |
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// nr was advanced by the lpad preamble
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priv->tx_buf_nr = nr; |
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priv->tx_buf_chunk = chunk; // will be further moved by 'chunk' bytes when dma completes
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dbg("# TX: chunk start %d, len %d", (int)nr, (int)chunk); |
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PUTS(">"); PUTSN((char *) (priv->tx_buffer + nr), chunk); PUTS("<"); |
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PUTNL(); |
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LL_DMA_DisableChannel(priv->dma, priv->dma_tx_chnum); |
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LL_DMA_DisableChannel(priv->dma, priv->dma_tx_chnum); |
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{ |
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{ |
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LL_DMA_ClearFlags(priv->dma, priv->dma_tx_chnum); |
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LL_DMA_SetMemoryAddress(priv->dma, priv->dma_tx_chnum, (uint32_t) (priv->tx_buffer + nr)); |
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LL_DMA_SetMemoryAddress(priv->dma, priv->dma_tx_chnum, (uint32_t) (priv->tx_buffer + nr)); |
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LL_DMA_SetDataLength(priv->dma, priv->dma_tx_chnum, chunk); |
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LL_DMA_SetDataLength(priv->dma, priv->dma_tx_chnum, chunk); |
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LL_USART_ClearFlag_TC(priv->periph); |
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LL_USART_ClearFlag_TC(priv->periph); |
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@ -267,6 +274,8 @@ static void UUSART_DMA_TxStart(struct priv *priv) |
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LL_DMA_EnableChannel(priv->dma, priv->dma_tx_chnum); |
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LL_DMA_EnableChannel(priv->dma, priv->dma_tx_chnum); |
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} |
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} |
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COMPILER_ASSERT(UUSART_TXBUF_LEN <= 256); // more would break the "len tag" algorithm
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/**
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/**
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* Put data on the queue. Only a part may be sent due to a buffer size limit. |
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* Put data on the queue. Only a part may be sent due to a buffer size limit. |
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* |
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* |
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@ -280,6 +289,7 @@ uint16_t UUSART_DMA_TxQueue(struct priv *priv, const uint8_t *buffer, uint16_t l |
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const uint16_t nr = priv->tx_buf_nr; |
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const uint16_t nr = priv->tx_buf_nr; |
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uint16_t nw = priv->tx_buf_nw; |
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uint16_t nw = priv->tx_buf_nw; |
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// shortcut for checking a completely full buffer
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if (nw == nr-1 || (nr==0&&nw==UUSART_TXBUF_LEN-1)) { |
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if (nw == nr-1 || (nr==0&&nw==UUSART_TXBUF_LEN-1)) { |
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dbg("Buffer full, cant queue"); |
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dbg("Buffer full, cant queue"); |
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return 0; |
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return 0; |
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@ -304,28 +314,53 @@ uint16_t UUSART_DMA_TxQueue(struct priv *priv, const uint8_t *buffer, uint16_t l |
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uint16_t avail = (const uint16_t) (UUSART_TXBUF_LEN - 1 - used); |
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uint16_t avail = (const uint16_t) (UUSART_TXBUF_LEN - 1 - used); |
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dbg("nr %d, nw %d, used %d, avail %d", (int)nr, (int)nw, (int)used, (int)avail); |
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dbg("nr %d, nw %d, used %d, avail %d", (int)nr, (int)nw, (int)used, (int)avail); |
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uint16_t towrite = MIN(avail, len); |
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// hack to avoid too large chunks - XXX this is not ideal
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const uint16_t towrite_orig = towrite; |
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if (avail > 255) avail = 255; |
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uint32_t cnt = 0; |
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uint8_t written = 0; |
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while (towrite > 0) { |
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// this should run max 2x
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assert_param(cnt < 2); |
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cnt++; |
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uint16_t chunk = (uint16_t) MIN(towrite, UUSART_TXBUF_LEN - nw); |
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if (avail <= 10) { |
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memcpy((uint8_t *) (priv->tx_buffer + nw), buffer, chunk); |
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dbg("No space (only %d)", (int) avail); |
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dbg("- memcpy %d bytes at %d", (int)chunk, (int)nw); |
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return written; |
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nw += chunk; |
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} |
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towrite -= chunk; |
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while (avail > 0 && written < len) { |
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// DMA must start at a word boundary, for this reason we pad it and insert the chunk length (1 byte + padding)
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uint8_t lpad = (uint8_t) (4 - (nw & 0b11)); |
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// Chunk can go max to the end of the buffer
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uint8_t chunk = (uint8_t) MIN((len-written) + lpad, UUSART_TXBUF_LEN - nw); |
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if (chunk > avail) chunk = (uint8_t) avail; |
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if (nw == UUSART_TXBUF_LEN) { |
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dbg("nw %d, raw available chunk %d", (int) nw, (int)chunk); |
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if (chunk <= lpad + 1) { |
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// write 0 to indicate a wrap-around
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dbg("Wrap-around marker at offset %d", (int) nw); |
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priv->tx_buffer[nw] = 0; |
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nw = 0; |
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nw = 0; |
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} |
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} |
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else { |
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// enough space for a preamble + some data
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dbg("Preamble of %d bytes at offset %d", (int) lpad, (int) nw); |
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priv->tx_buffer[nw] = (uint8_t) (chunk - lpad); |
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nw += lpad; |
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uint8_t datachunk = (uint8_t) (chunk - lpad); |
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dbg("Datachunk len %d at offset %d", (int) datachunk, (int) nw); |
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PUTS("mcpy src >"); PUTSN((char *) (buffer), datachunk); PUTS("<\r\n"); |
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memcpy((uint8_t *) (priv->tx_buffer + nw), buffer, datachunk); |
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PUTS("mcpy dst >"); PUTSN((char *) (priv->tx_buffer + nw), datachunk); PUTS("<\r\n"); |
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buffer += datachunk; |
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nw += datachunk; |
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written += datachunk; |
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if (nw == UUSART_TXBUF_LEN) nw = 0; |
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} |
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} |
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avail -= chunk; |
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dbg(". end of loop, avail is %d", (int)avail); |
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} |
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priv->tx_buf_nw = nw; |
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priv->tx_buf_nw = nw; |
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dbg("Written. -> nr %d, nw %d, used %d, avail %d", (int)nr, (int)nw, (int)used, (int)avail); |
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dbg("Writte done -> nr %d, nw %d", (int)nr, (int)nw); |
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// start the DMA if it's idle
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// start the DMA if it's idle
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if (priv->dma_tx->CNDTR == 0) { |
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if (priv->dma_tx->CNDTR == 0) { |
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@ -335,7 +370,7 @@ uint16_t UUSART_DMA_TxQueue(struct priv *priv, const uint8_t *buffer, uint16_t l |
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dbg("DMA in progress, not requesting"); |
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dbg("DMA in progress, not requesting"); |
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} |
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} |
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return towrite_orig; |
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return written; |
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} |
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} |
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/**
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/**
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@ -352,7 +387,7 @@ static void UUSART_DMA_TxHandler(void *arg) |
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uint32_t isrsnapshot = priv->dma->ISR; |
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uint32_t isrsnapshot = priv->dma->ISR; |
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if (LL_DMA_IsActiveFlag_TC(isrsnapshot, priv->dma_tx_chnum)) { |
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if (LL_DMA_IsActiveFlag_TC(isrsnapshot, priv->dma_tx_chnum)) { |
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// chunk Tx is finished
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// chunk Tx is finished
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dbg("DMA_TxHandler, lr %d, nw %d, chunk %d", (int)priv->tx_buf_nr, (int)priv->tx_buf_nw, (int)priv->tx_buf_chunk); |
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dbg("~ DMA tx done, nr %d, nw %d, chunk %d", (int)priv->tx_buf_nr, (int)priv->tx_buf_nw, (int)priv->tx_buf_chunk); |
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// dbg("StartPos advance...");
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// dbg("StartPos advance...");
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priv->tx_buf_nr += priv->tx_buf_chunk; |
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priv->tx_buf_nr += priv->tx_buf_chunk; |
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@ -366,7 +401,7 @@ static void UUSART_DMA_TxHandler(void *arg) |
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// start the next chunk
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// start the next chunk
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if (priv->tx_buf_nr != priv->tx_buf_nw) { |
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if (priv->tx_buf_nr != priv->tx_buf_nw) { |
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dbg("Flag cleared ... asking for more. lr %d, nw %d", (int)priv->tx_buf_nr, (int)priv->tx_buf_nw); |
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dbg(" Asking for more, if any"); |
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UUSART_DMA_TxStart(priv); |
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UUSART_DMA_TxStart(priv); |
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} |
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} |
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} |
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} |
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