16c710c0cSSerge Semin // SPDX-License-Identifier: GPL-2.0-only
26c710c0cSSerge Semin /*
36c710c0cSSerge Semin * Special handling for DW DMA core
46c710c0cSSerge Semin *
56c710c0cSSerge Semin * Copyright (c) 2009, 2014 Intel Corporation.
66c710c0cSSerge Semin */
76c710c0cSSerge Semin
86c710c0cSSerge Semin #include <linux/completion.h>
96c710c0cSSerge Semin #include <linux/dma-mapping.h>
106c710c0cSSerge Semin #include <linux/dmaengine.h>
116c710c0cSSerge Semin #include <linux/irqreturn.h>
126c710c0cSSerge Semin #include <linux/jiffies.h>
13a62bacbaSSerge Semin #include <linux/module.h>
146c710c0cSSerge Semin #include <linux/pci.h>
156c710c0cSSerge Semin #include <linux/platform_data/dma-dw.h>
166c710c0cSSerge Semin #include <linux/spi/spi.h>
176c710c0cSSerge Semin #include <linux/types.h>
186c710c0cSSerge Semin
196c710c0cSSerge Semin #include "spi-dw.h"
206c710c0cSSerge Semin
21725b0e3eSSerge Semin #define DW_SPI_RX_BUSY 0
22725b0e3eSSerge Semin #define DW_SPI_RX_BURST_LEVEL 16
23725b0e3eSSerge Semin #define DW_SPI_TX_BUSY 1
24725b0e3eSSerge Semin #define DW_SPI_TX_BURST_LEVEL 16
256c710c0cSSerge Semin
dw_spi_dma_chan_filter(struct dma_chan * chan,void * param)2657784411SSerge Semin static bool dw_spi_dma_chan_filter(struct dma_chan *chan, void *param)
276c710c0cSSerge Semin {
286c710c0cSSerge Semin struct dw_dma_slave *s = param;
296c710c0cSSerge Semin
306c710c0cSSerge Semin if (s->dma_dev != chan->device->dev)
316c710c0cSSerge Semin return false;
326c710c0cSSerge Semin
336c710c0cSSerge Semin chan->private = s;
346c710c0cSSerge Semin return true;
356c710c0cSSerge Semin }
366c710c0cSSerge Semin
dw_spi_dma_maxburst_init(struct dw_spi * dws)3757784411SSerge Semin static void dw_spi_dma_maxburst_init(struct dw_spi *dws)
386c710c0cSSerge Semin {
396c710c0cSSerge Semin struct dma_slave_caps caps;
406c710c0cSSerge Semin u32 max_burst, def_burst;
416c710c0cSSerge Semin int ret;
426c710c0cSSerge Semin
436c710c0cSSerge Semin def_burst = dws->fifo_len / 2;
446c710c0cSSerge Semin
456c710c0cSSerge Semin ret = dma_get_slave_caps(dws->rxchan, &caps);
466c710c0cSSerge Semin if (!ret && caps.max_burst)
476c710c0cSSerge Semin max_burst = caps.max_burst;
486c710c0cSSerge Semin else
49725b0e3eSSerge Semin max_burst = DW_SPI_RX_BURST_LEVEL;
506c710c0cSSerge Semin
516c710c0cSSerge Semin dws->rxburst = min(max_burst, def_burst);
5201ddbbb0SSerge Semin dw_writel(dws, DW_SPI_DMARDLR, dws->rxburst - 1);
536c710c0cSSerge Semin
546c710c0cSSerge Semin ret = dma_get_slave_caps(dws->txchan, &caps);
556c710c0cSSerge Semin if (!ret && caps.max_burst)
566c710c0cSSerge Semin max_burst = caps.max_burst;
576c710c0cSSerge Semin else
58725b0e3eSSerge Semin max_burst = DW_SPI_TX_BURST_LEVEL;
596c710c0cSSerge Semin
6001ddbbb0SSerge Semin /*
6101ddbbb0SSerge Semin * Having a Rx DMA channel serviced with higher priority than a Tx DMA
6201ddbbb0SSerge Semin * channel might not be enough to provide a well balanced DMA-based
6301ddbbb0SSerge Semin * SPI transfer interface. There might still be moments when the Tx DMA
6401ddbbb0SSerge Semin * channel is occasionally handled faster than the Rx DMA channel.
6501ddbbb0SSerge Semin * That in its turn will eventually cause the SPI Rx FIFO overflow if
6601ddbbb0SSerge Semin * SPI bus speed is high enough to fill the SPI Rx FIFO in before it's
6701ddbbb0SSerge Semin * cleared by the Rx DMA channel. In order to fix the problem the Tx
6801ddbbb0SSerge Semin * DMA activity is intentionally slowed down by limiting the SPI Tx
6901ddbbb0SSerge Semin * FIFO depth with a value twice bigger than the Tx burst length.
7001ddbbb0SSerge Semin */
716c710c0cSSerge Semin dws->txburst = min(max_burst, def_burst);
7201ddbbb0SSerge Semin dw_writel(dws, DW_SPI_DMATDLR, dws->txburst);
736c710c0cSSerge Semin }
746c710c0cSSerge Semin
dw_spi_dma_caps_init(struct dw_spi * dws)75d1ca1c52SJoy Chakraborty static int dw_spi_dma_caps_init(struct dw_spi *dws)
76ad4fe126SSerge Semin {
77d1ca1c52SJoy Chakraborty struct dma_slave_caps tx, rx;
78d1ca1c52SJoy Chakraborty int ret;
79ad4fe126SSerge Semin
80d1ca1c52SJoy Chakraborty ret = dma_get_slave_caps(dws->txchan, &tx);
81d1ca1c52SJoy Chakraborty if (ret)
82d1ca1c52SJoy Chakraborty return ret;
83d1ca1c52SJoy Chakraborty
84d1ca1c52SJoy Chakraborty ret = dma_get_slave_caps(dws->rxchan, &rx);
85d1ca1c52SJoy Chakraborty if (ret)
86d1ca1c52SJoy Chakraborty return ret;
87d1ca1c52SJoy Chakraborty
88d1ca1c52SJoy Chakraborty if (!(tx.directions & BIT(DMA_MEM_TO_DEV) &&
89d1ca1c52SJoy Chakraborty rx.directions & BIT(DMA_DEV_TO_MEM)))
90d1ca1c52SJoy Chakraborty return -ENXIO;
91ad4fe126SSerge Semin
92ad4fe126SSerge Semin if (tx.max_sg_burst > 0 && rx.max_sg_burst > 0)
93ad4fe126SSerge Semin dws->dma_sg_burst = min(tx.max_sg_burst, rx.max_sg_burst);
94ad4fe126SSerge Semin else if (tx.max_sg_burst > 0)
95ad4fe126SSerge Semin dws->dma_sg_burst = tx.max_sg_burst;
96ad4fe126SSerge Semin else if (rx.max_sg_burst > 0)
97ad4fe126SSerge Semin dws->dma_sg_burst = rx.max_sg_burst;
98ad4fe126SSerge Semin else
99ad4fe126SSerge Semin dws->dma_sg_burst = 0;
100d1ca1c52SJoy Chakraborty
101020a3947SJoy Chakraborty /*
102020a3947SJoy Chakraborty * Assuming both channels belong to the same DMA controller hence the
103020a3947SJoy Chakraborty * peripheral side address width capabilities most likely would be
104020a3947SJoy Chakraborty * the same.
105020a3947SJoy Chakraborty */
106020a3947SJoy Chakraborty dws->dma_addr_widths = tx.dst_addr_widths & rx.src_addr_widths;
107020a3947SJoy Chakraborty
108d1ca1c52SJoy Chakraborty return 0;
109ad4fe126SSerge Semin }
110ad4fe126SSerge Semin
dw_spi_dma_init_mfld(struct device * dev,struct dw_spi * dws)11157784411SSerge Semin static int dw_spi_dma_init_mfld(struct device *dev, struct dw_spi *dws)
1126c710c0cSSerge Semin {
113b3f82dc2SAndy Shevchenko struct dw_dma_slave dma_tx = { .dst_id = 1 }, *tx = &dma_tx;
114b3f82dc2SAndy Shevchenko struct dw_dma_slave dma_rx = { .src_id = 0 }, *rx = &dma_rx;
1156c710c0cSSerge Semin struct pci_dev *dma_dev;
1166c710c0cSSerge Semin dma_cap_mask_t mask;
117d1ca1c52SJoy Chakraborty int ret = -EBUSY;
1186c710c0cSSerge Semin
1196c710c0cSSerge Semin /*
1206c710c0cSSerge Semin * Get pci device for DMA controller, currently it could only
1216c710c0cSSerge Semin * be the DMA controller of Medfield
1226c710c0cSSerge Semin */
1236c710c0cSSerge Semin dma_dev = pci_get_device(PCI_VENDOR_ID_INTEL, 0x0827, NULL);
1246c710c0cSSerge Semin if (!dma_dev)
1256c710c0cSSerge Semin return -ENODEV;
1266c710c0cSSerge Semin
1276c710c0cSSerge Semin dma_cap_zero(mask);
1286c710c0cSSerge Semin dma_cap_set(DMA_SLAVE, mask);
1296c710c0cSSerge Semin
1306c710c0cSSerge Semin /* 1. Init rx channel */
131b3f82dc2SAndy Shevchenko rx->dma_dev = &dma_dev->dev;
132b3f82dc2SAndy Shevchenko dws->rxchan = dma_request_channel(mask, dw_spi_dma_chan_filter, rx);
1336c710c0cSSerge Semin if (!dws->rxchan)
1346c710c0cSSerge Semin goto err_exit;
1356c710c0cSSerge Semin
1366c710c0cSSerge Semin /* 2. Init tx channel */
137b3f82dc2SAndy Shevchenko tx->dma_dev = &dma_dev->dev;
138b3f82dc2SAndy Shevchenko dws->txchan = dma_request_channel(mask, dw_spi_dma_chan_filter, tx);
1396c710c0cSSerge Semin if (!dws->txchan)
1406c710c0cSSerge Semin goto free_rxchan;
1416c710c0cSSerge Semin
142*eefc6c5cSYang Yingliang dws->host->dma_rx = dws->rxchan;
143*eefc6c5cSYang Yingliang dws->host->dma_tx = dws->txchan;
1446c710c0cSSerge Semin
1456c710c0cSSerge Semin init_completion(&dws->dma_completion);
1466c710c0cSSerge Semin
147d1ca1c52SJoy Chakraborty ret = dw_spi_dma_caps_init(dws);
148d1ca1c52SJoy Chakraborty if (ret)
149d1ca1c52SJoy Chakraborty goto free_txchan;
1506c710c0cSSerge Semin
151d1ca1c52SJoy Chakraborty dw_spi_dma_maxburst_init(dws);
152ad4fe126SSerge Semin
153804313b6SXiongfeng Wang pci_dev_put(dma_dev);
154804313b6SXiongfeng Wang
1556c710c0cSSerge Semin return 0;
1566c710c0cSSerge Semin
157d1ca1c52SJoy Chakraborty free_txchan:
158d1ca1c52SJoy Chakraborty dma_release_channel(dws->txchan);
159d1ca1c52SJoy Chakraborty dws->txchan = NULL;
1606c710c0cSSerge Semin free_rxchan:
1616c710c0cSSerge Semin dma_release_channel(dws->rxchan);
1626c710c0cSSerge Semin dws->rxchan = NULL;
1636c710c0cSSerge Semin err_exit:
164804313b6SXiongfeng Wang pci_dev_put(dma_dev);
165d1ca1c52SJoy Chakraborty return ret;
1666c710c0cSSerge Semin }
1676c710c0cSSerge Semin
dw_spi_dma_init_generic(struct device * dev,struct dw_spi * dws)16857784411SSerge Semin static int dw_spi_dma_init_generic(struct device *dev, struct dw_spi *dws)
1696c710c0cSSerge Semin {
170e95a1cd2SSerge Semin int ret;
1716c710c0cSSerge Semin
172e95a1cd2SSerge Semin dws->rxchan = dma_request_chan(dev, "rx");
173e95a1cd2SSerge Semin if (IS_ERR(dws->rxchan)) {
174e95a1cd2SSerge Semin ret = PTR_ERR(dws->rxchan);
1756c710c0cSSerge Semin dws->rxchan = NULL;
176e95a1cd2SSerge Semin goto err_exit;
177e95a1cd2SSerge Semin }
178e95a1cd2SSerge Semin
179e95a1cd2SSerge Semin dws->txchan = dma_request_chan(dev, "tx");
180e95a1cd2SSerge Semin if (IS_ERR(dws->txchan)) {
181e95a1cd2SSerge Semin ret = PTR_ERR(dws->txchan);
182e95a1cd2SSerge Semin dws->txchan = NULL;
183e95a1cd2SSerge Semin goto free_rxchan;
1846c710c0cSSerge Semin }
1856c710c0cSSerge Semin
186*eefc6c5cSYang Yingliang dws->host->dma_rx = dws->rxchan;
187*eefc6c5cSYang Yingliang dws->host->dma_tx = dws->txchan;
1886c710c0cSSerge Semin
1896c710c0cSSerge Semin init_completion(&dws->dma_completion);
1906c710c0cSSerge Semin
191d1ca1c52SJoy Chakraborty ret = dw_spi_dma_caps_init(dws);
192d1ca1c52SJoy Chakraborty if (ret)
193d1ca1c52SJoy Chakraborty goto free_txchan;
1946c710c0cSSerge Semin
195d1ca1c52SJoy Chakraborty dw_spi_dma_maxburst_init(dws);
196ad4fe126SSerge Semin
1976c710c0cSSerge Semin return 0;
198e95a1cd2SSerge Semin
199d1ca1c52SJoy Chakraborty free_txchan:
200d1ca1c52SJoy Chakraborty dma_release_channel(dws->txchan);
201d1ca1c52SJoy Chakraborty dws->txchan = NULL;
202e95a1cd2SSerge Semin free_rxchan:
203e95a1cd2SSerge Semin dma_release_channel(dws->rxchan);
204e95a1cd2SSerge Semin dws->rxchan = NULL;
205e95a1cd2SSerge Semin err_exit:
206e95a1cd2SSerge Semin return ret;
2076c710c0cSSerge Semin }
2086c710c0cSSerge Semin
dw_spi_dma_exit(struct dw_spi * dws)20957784411SSerge Semin static void dw_spi_dma_exit(struct dw_spi *dws)
2106c710c0cSSerge Semin {
2116c710c0cSSerge Semin if (dws->txchan) {
2126c710c0cSSerge Semin dmaengine_terminate_sync(dws->txchan);
2136c710c0cSSerge Semin dma_release_channel(dws->txchan);
2146c710c0cSSerge Semin }
2156c710c0cSSerge Semin
2166c710c0cSSerge Semin if (dws->rxchan) {
2176c710c0cSSerge Semin dmaengine_terminate_sync(dws->rxchan);
2186c710c0cSSerge Semin dma_release_channel(dws->rxchan);
2196c710c0cSSerge Semin }
2206c710c0cSSerge Semin }
2216c710c0cSSerge Semin
dw_spi_dma_transfer_handler(struct dw_spi * dws)22257784411SSerge Semin static irqreturn_t dw_spi_dma_transfer_handler(struct dw_spi *dws)
2236c710c0cSSerge Semin {
224bf64b660SSerge Semin dw_spi_check_status(dws, false);
2256c710c0cSSerge Semin
2266c710c0cSSerge Semin complete(&dws->dma_completion);
227bf64b660SSerge Semin
2286c710c0cSSerge Semin return IRQ_HANDLED;
2296c710c0cSSerge Semin }
2306c710c0cSSerge Semin
dw_spi_dma_convert_width(u8 n_bytes)23157784411SSerge Semin static enum dma_slave_buswidth dw_spi_dma_convert_width(u8 n_bytes)
23257784411SSerge Semin {
2335147d5bfSJoy Chakraborty switch (n_bytes) {
2345147d5bfSJoy Chakraborty case 1:
2356c710c0cSSerge Semin return DMA_SLAVE_BUSWIDTH_1_BYTE;
2365147d5bfSJoy Chakraborty case 2:
2376c710c0cSSerge Semin return DMA_SLAVE_BUSWIDTH_2_BYTES;
2385147d5bfSJoy Chakraborty case 4:
2395147d5bfSJoy Chakraborty return DMA_SLAVE_BUSWIDTH_4_BYTES;
2405147d5bfSJoy Chakraborty default:
2416c710c0cSSerge Semin return DMA_SLAVE_BUSWIDTH_UNDEFINED;
2426c710c0cSSerge Semin }
2435147d5bfSJoy Chakraborty }
2446c710c0cSSerge Semin
dw_spi_can_dma(struct spi_controller * host,struct spi_device * spi,struct spi_transfer * xfer)245*eefc6c5cSYang Yingliang static bool dw_spi_can_dma(struct spi_controller *host,
246d2ae5d42SJoy Chakraborty struct spi_device *spi, struct spi_transfer *xfer)
247d2ae5d42SJoy Chakraborty {
248*eefc6c5cSYang Yingliang struct dw_spi *dws = spi_controller_get_devdata(host);
249020a3947SJoy Chakraborty enum dma_slave_buswidth dma_bus_width;
250d2ae5d42SJoy Chakraborty
251020a3947SJoy Chakraborty if (xfer->len <= dws->fifo_len)
252020a3947SJoy Chakraborty return false;
253020a3947SJoy Chakraborty
254020a3947SJoy Chakraborty dma_bus_width = dw_spi_dma_convert_width(dws->n_bytes);
255020a3947SJoy Chakraborty
256020a3947SJoy Chakraborty return dws->dma_addr_widths & BIT(dma_bus_width);
257d2ae5d42SJoy Chakraborty }
258d2ae5d42SJoy Chakraborty
dw_spi_dma_wait(struct dw_spi * dws,unsigned int len,u32 speed)259917ce29eSSerge Semin static int dw_spi_dma_wait(struct dw_spi *dws, unsigned int len, u32 speed)
2606c710c0cSSerge Semin {
2616c710c0cSSerge Semin unsigned long long ms;
2626c710c0cSSerge Semin
263917ce29eSSerge Semin ms = len * MSEC_PER_SEC * BITS_PER_BYTE;
264917ce29eSSerge Semin do_div(ms, speed);
2656c710c0cSSerge Semin ms += ms + 200;
2666c710c0cSSerge Semin
2676c710c0cSSerge Semin if (ms > UINT_MAX)
2686c710c0cSSerge Semin ms = UINT_MAX;
2696c710c0cSSerge Semin
2706c710c0cSSerge Semin ms = wait_for_completion_timeout(&dws->dma_completion,
2716c710c0cSSerge Semin msecs_to_jiffies(ms));
2726c710c0cSSerge Semin
2736c710c0cSSerge Semin if (ms == 0) {
274*eefc6c5cSYang Yingliang dev_err(&dws->host->cur_msg->spi->dev,
2756c710c0cSSerge Semin "DMA transaction timed out\n");
2766c710c0cSSerge Semin return -ETIMEDOUT;
2776c710c0cSSerge Semin }
2786c710c0cSSerge Semin
2796c710c0cSSerge Semin return 0;
2806c710c0cSSerge Semin }
2816c710c0cSSerge Semin
dw_spi_dma_tx_busy(struct dw_spi * dws)2826c710c0cSSerge Semin static inline bool dw_spi_dma_tx_busy(struct dw_spi *dws)
2836c710c0cSSerge Semin {
284725b0e3eSSerge Semin return !(dw_readl(dws, DW_SPI_SR) & DW_SPI_SR_TF_EMPT);
2856c710c0cSSerge Semin }
2866c710c0cSSerge Semin
dw_spi_dma_wait_tx_done(struct dw_spi * dws,struct spi_transfer * xfer)2876c710c0cSSerge Semin static int dw_spi_dma_wait_tx_done(struct dw_spi *dws,
2886c710c0cSSerge Semin struct spi_transfer *xfer)
2896c710c0cSSerge Semin {
290725b0e3eSSerge Semin int retry = DW_SPI_WAIT_RETRIES;
2916c710c0cSSerge Semin struct spi_delay delay;
2926c710c0cSSerge Semin u32 nents;
2936c710c0cSSerge Semin
2946c710c0cSSerge Semin nents = dw_readl(dws, DW_SPI_TXFLR);
2956c710c0cSSerge Semin delay.unit = SPI_DELAY_UNIT_SCK;
2966c710c0cSSerge Semin delay.value = nents * dws->n_bytes * BITS_PER_BYTE;
2976c710c0cSSerge Semin
2986c710c0cSSerge Semin while (dw_spi_dma_tx_busy(dws) && retry--)
2996c710c0cSSerge Semin spi_delay_exec(&delay, xfer);
3006c710c0cSSerge Semin
3016c710c0cSSerge Semin if (retry < 0) {
302*eefc6c5cSYang Yingliang dev_err(&dws->host->dev, "Tx hanged up\n");
3036c710c0cSSerge Semin return -EIO;
3046c710c0cSSerge Semin }
3056c710c0cSSerge Semin
3066c710c0cSSerge Semin return 0;
3076c710c0cSSerge Semin }
3086c710c0cSSerge Semin
3096c710c0cSSerge Semin /*
3106c710c0cSSerge Semin * dws->dma_chan_busy is set before the dma transfer starts, callback for tx
3116c710c0cSSerge Semin * channel will clear a corresponding bit.
3126c710c0cSSerge Semin */
dw_spi_dma_tx_done(void * arg)3136c710c0cSSerge Semin static void dw_spi_dma_tx_done(void *arg)
3146c710c0cSSerge Semin {
3156c710c0cSSerge Semin struct dw_spi *dws = arg;
3166c710c0cSSerge Semin
317725b0e3eSSerge Semin clear_bit(DW_SPI_TX_BUSY, &dws->dma_chan_busy);
318725b0e3eSSerge Semin if (test_bit(DW_SPI_RX_BUSY, &dws->dma_chan_busy))
3196c710c0cSSerge Semin return;
3206c710c0cSSerge Semin
3216c710c0cSSerge Semin complete(&dws->dma_completion);
3226c710c0cSSerge Semin }
3236c710c0cSSerge Semin
dw_spi_dma_config_tx(struct dw_spi * dws)324a874d811SSerge Semin static int dw_spi_dma_config_tx(struct dw_spi *dws)
3256c710c0cSSerge Semin {
3266c710c0cSSerge Semin struct dma_slave_config txconf;
3276c710c0cSSerge Semin
3286c710c0cSSerge Semin memset(&txconf, 0, sizeof(txconf));
3296c710c0cSSerge Semin txconf.direction = DMA_MEM_TO_DEV;
3306c710c0cSSerge Semin txconf.dst_addr = dws->dma_addr;
3316c710c0cSSerge Semin txconf.dst_maxburst = dws->txburst;
3326c710c0cSSerge Semin txconf.src_addr_width = DMA_SLAVE_BUSWIDTH_4_BYTES;
33357784411SSerge Semin txconf.dst_addr_width = dw_spi_dma_convert_width(dws->n_bytes);
3346c710c0cSSerge Semin txconf.device_fc = false;
3356c710c0cSSerge Semin
336a874d811SSerge Semin return dmaengine_slave_config(dws->txchan, &txconf);
337a874d811SSerge Semin }
338a874d811SSerge Semin
dw_spi_dma_submit_tx(struct dw_spi * dws,struct scatterlist * sgl,unsigned int nents)339917ce29eSSerge Semin static int dw_spi_dma_submit_tx(struct dw_spi *dws, struct scatterlist *sgl,
340917ce29eSSerge Semin unsigned int nents)
341a874d811SSerge Semin {
342a874d811SSerge Semin struct dma_async_tx_descriptor *txdesc;
3439a6471a1SSerge Semin dma_cookie_t cookie;
3449a6471a1SSerge Semin int ret;
3456c710c0cSSerge Semin
346917ce29eSSerge Semin txdesc = dmaengine_prep_slave_sg(dws->txchan, sgl, nents,
3476c710c0cSSerge Semin DMA_MEM_TO_DEV,
3486c710c0cSSerge Semin DMA_PREP_INTERRUPT | DMA_CTRL_ACK);
3496c710c0cSSerge Semin if (!txdesc)
3507a4d61f1SSerge Semin return -ENOMEM;
3516c710c0cSSerge Semin
3526c710c0cSSerge Semin txdesc->callback = dw_spi_dma_tx_done;
3536c710c0cSSerge Semin txdesc->callback_param = dws;
3546c710c0cSSerge Semin
3559a6471a1SSerge Semin cookie = dmaengine_submit(txdesc);
3569a6471a1SSerge Semin ret = dma_submit_error(cookie);
3579a6471a1SSerge Semin if (ret) {
3589a6471a1SSerge Semin dmaengine_terminate_sync(dws->txchan);
3597a4d61f1SSerge Semin return ret;
3609a6471a1SSerge Semin }
3619a6471a1SSerge Semin
362725b0e3eSSerge Semin set_bit(DW_SPI_TX_BUSY, &dws->dma_chan_busy);
363ab7a4d75SSerge Semin
3647a4d61f1SSerge Semin return 0;
3656c710c0cSSerge Semin }
3666c710c0cSSerge Semin
dw_spi_dma_rx_busy(struct dw_spi * dws)3676c710c0cSSerge Semin static inline bool dw_spi_dma_rx_busy(struct dw_spi *dws)
3686c710c0cSSerge Semin {
369725b0e3eSSerge Semin return !!(dw_readl(dws, DW_SPI_SR) & DW_SPI_SR_RF_NOT_EMPT);
3706c710c0cSSerge Semin }
3716c710c0cSSerge Semin
dw_spi_dma_wait_rx_done(struct dw_spi * dws)3726c710c0cSSerge Semin static int dw_spi_dma_wait_rx_done(struct dw_spi *dws)
3736c710c0cSSerge Semin {
374725b0e3eSSerge Semin int retry = DW_SPI_WAIT_RETRIES;
3756c710c0cSSerge Semin struct spi_delay delay;
3766c710c0cSSerge Semin unsigned long ns, us;
3776c710c0cSSerge Semin u32 nents;
3786c710c0cSSerge Semin
3796c710c0cSSerge Semin /*
3806c710c0cSSerge Semin * It's unlikely that DMA engine is still doing the data fetching, but
3816c710c0cSSerge Semin * if it's let's give it some reasonable time. The timeout calculation
3826c710c0cSSerge Semin * is based on the synchronous APB/SSI reference clock rate, on a
3836c710c0cSSerge Semin * number of data entries left in the Rx FIFO, times a number of clock
3846c710c0cSSerge Semin * periods normally needed for a single APB read/write transaction
3856c710c0cSSerge Semin * without PREADY signal utilized (which is true for the DW APB SSI
3866c710c0cSSerge Semin * controller).
3876c710c0cSSerge Semin */
3886c710c0cSSerge Semin nents = dw_readl(dws, DW_SPI_RXFLR);
3896c710c0cSSerge Semin ns = 4U * NSEC_PER_SEC / dws->max_freq * nents;
3906c710c0cSSerge Semin if (ns <= NSEC_PER_USEC) {
3916c710c0cSSerge Semin delay.unit = SPI_DELAY_UNIT_NSECS;
3926c710c0cSSerge Semin delay.value = ns;
3936c710c0cSSerge Semin } else {
3946c710c0cSSerge Semin us = DIV_ROUND_UP(ns, NSEC_PER_USEC);
3956c710c0cSSerge Semin delay.unit = SPI_DELAY_UNIT_USECS;
3966c710c0cSSerge Semin delay.value = clamp_val(us, 0, USHRT_MAX);
3976c710c0cSSerge Semin }
3986c710c0cSSerge Semin
3996c710c0cSSerge Semin while (dw_spi_dma_rx_busy(dws) && retry--)
4006c710c0cSSerge Semin spi_delay_exec(&delay, NULL);
4016c710c0cSSerge Semin
4026c710c0cSSerge Semin if (retry < 0) {
403*eefc6c5cSYang Yingliang dev_err(&dws->host->dev, "Rx hanged up\n");
4046c710c0cSSerge Semin return -EIO;
4056c710c0cSSerge Semin }
4066c710c0cSSerge Semin
4076c710c0cSSerge Semin return 0;
4086c710c0cSSerge Semin }
4096c710c0cSSerge Semin
4106c710c0cSSerge Semin /*
4116c710c0cSSerge Semin * dws->dma_chan_busy is set before the dma transfer starts, callback for rx
4126c710c0cSSerge Semin * channel will clear a corresponding bit.
4136c710c0cSSerge Semin */
dw_spi_dma_rx_done(void * arg)4146c710c0cSSerge Semin static void dw_spi_dma_rx_done(void *arg)
4156c710c0cSSerge Semin {
4166c710c0cSSerge Semin struct dw_spi *dws = arg;
4176c710c0cSSerge Semin
418725b0e3eSSerge Semin clear_bit(DW_SPI_RX_BUSY, &dws->dma_chan_busy);
419725b0e3eSSerge Semin if (test_bit(DW_SPI_TX_BUSY, &dws->dma_chan_busy))
4206c710c0cSSerge Semin return;
4216c710c0cSSerge Semin
4226c710c0cSSerge Semin complete(&dws->dma_completion);
4236c710c0cSSerge Semin }
4246c710c0cSSerge Semin
dw_spi_dma_config_rx(struct dw_spi * dws)425a874d811SSerge Semin static int dw_spi_dma_config_rx(struct dw_spi *dws)
4266c710c0cSSerge Semin {
4276c710c0cSSerge Semin struct dma_slave_config rxconf;
4286c710c0cSSerge Semin
4296c710c0cSSerge Semin memset(&rxconf, 0, sizeof(rxconf));
4306c710c0cSSerge Semin rxconf.direction = DMA_DEV_TO_MEM;
4316c710c0cSSerge Semin rxconf.src_addr = dws->dma_addr;
4326c710c0cSSerge Semin rxconf.src_maxburst = dws->rxburst;
4336c710c0cSSerge Semin rxconf.dst_addr_width = DMA_SLAVE_BUSWIDTH_4_BYTES;
43457784411SSerge Semin rxconf.src_addr_width = dw_spi_dma_convert_width(dws->n_bytes);
4356c710c0cSSerge Semin rxconf.device_fc = false;
4366c710c0cSSerge Semin
437a874d811SSerge Semin return dmaengine_slave_config(dws->rxchan, &rxconf);
438a874d811SSerge Semin }
439a874d811SSerge Semin
dw_spi_dma_submit_rx(struct dw_spi * dws,struct scatterlist * sgl,unsigned int nents)440917ce29eSSerge Semin static int dw_spi_dma_submit_rx(struct dw_spi *dws, struct scatterlist *sgl,
441917ce29eSSerge Semin unsigned int nents)
442a874d811SSerge Semin {
443a874d811SSerge Semin struct dma_async_tx_descriptor *rxdesc;
4449a6471a1SSerge Semin dma_cookie_t cookie;
4459a6471a1SSerge Semin int ret;
446a874d811SSerge Semin
447917ce29eSSerge Semin rxdesc = dmaengine_prep_slave_sg(dws->rxchan, sgl, nents,
4486c710c0cSSerge Semin DMA_DEV_TO_MEM,
4496c710c0cSSerge Semin DMA_PREP_INTERRUPT | DMA_CTRL_ACK);
4506c710c0cSSerge Semin if (!rxdesc)
4517a4d61f1SSerge Semin return -ENOMEM;
4526c710c0cSSerge Semin
4536c710c0cSSerge Semin rxdesc->callback = dw_spi_dma_rx_done;
4546c710c0cSSerge Semin rxdesc->callback_param = dws;
4556c710c0cSSerge Semin
4569a6471a1SSerge Semin cookie = dmaengine_submit(rxdesc);
4579a6471a1SSerge Semin ret = dma_submit_error(cookie);
4589a6471a1SSerge Semin if (ret) {
4599a6471a1SSerge Semin dmaengine_terminate_sync(dws->rxchan);
4607a4d61f1SSerge Semin return ret;
4619a6471a1SSerge Semin }
4629a6471a1SSerge Semin
463725b0e3eSSerge Semin set_bit(DW_SPI_RX_BUSY, &dws->dma_chan_busy);
464ab7a4d75SSerge Semin
4657a4d61f1SSerge Semin return 0;
4666c710c0cSSerge Semin }
4676c710c0cSSerge Semin
dw_spi_dma_setup(struct dw_spi * dws,struct spi_transfer * xfer)46857784411SSerge Semin static int dw_spi_dma_setup(struct dw_spi *dws, struct spi_transfer *xfer)
4696c710c0cSSerge Semin {
4707ef30385SSerge Semin u16 imr, dma_ctrl;
471a874d811SSerge Semin int ret;
4726c710c0cSSerge Semin
4737ef30385SSerge Semin if (!xfer->tx_buf)
4747ef30385SSerge Semin return -EINVAL;
4757ef30385SSerge Semin
476a874d811SSerge Semin /* Setup DMA channels */
477a874d811SSerge Semin ret = dw_spi_dma_config_tx(dws);
478a874d811SSerge Semin if (ret)
479a874d811SSerge Semin return ret;
480a874d811SSerge Semin
481a874d811SSerge Semin if (xfer->rx_buf) {
482a874d811SSerge Semin ret = dw_spi_dma_config_rx(dws);
483a874d811SSerge Semin if (ret)
484a874d811SSerge Semin return ret;
485a874d811SSerge Semin }
486a874d811SSerge Semin
4877ef30385SSerge Semin /* Set the DMA handshaking interface */
488725b0e3eSSerge Semin dma_ctrl = DW_SPI_DMACR_TDMAE;
4893d7db0f1SAndy Shevchenko if (xfer->rx_buf)
490725b0e3eSSerge Semin dma_ctrl |= DW_SPI_DMACR_RDMAE;
4916c710c0cSSerge Semin dw_writel(dws, DW_SPI_DMACR, dma_ctrl);
4926c710c0cSSerge Semin
4936c710c0cSSerge Semin /* Set the interrupt mask */
494725b0e3eSSerge Semin imr = DW_SPI_INT_TXOI;
4953d7db0f1SAndy Shevchenko if (xfer->rx_buf)
496725b0e3eSSerge Semin imr |= DW_SPI_INT_RXUI | DW_SPI_INT_RXOI;
497725b0e3eSSerge Semin dw_spi_umask_intr(dws, imr);
4986c710c0cSSerge Semin
4996c710c0cSSerge Semin reinit_completion(&dws->dma_completion);
5006c710c0cSSerge Semin
50157784411SSerge Semin dws->transfer_handler = dw_spi_dma_transfer_handler;
5026c710c0cSSerge Semin
5036c710c0cSSerge Semin return 0;
5046c710c0cSSerge Semin }
5056c710c0cSSerge Semin
dw_spi_dma_transfer_all(struct dw_spi * dws,struct spi_transfer * xfer)506b86fed12SSerge Semin static int dw_spi_dma_transfer_all(struct dw_spi *dws,
507b86fed12SSerge Semin struct spi_transfer *xfer)
5086c710c0cSSerge Semin {
5096c710c0cSSerge Semin int ret;
5106c710c0cSSerge Semin
511ab7a4d75SSerge Semin /* Submit the DMA Tx transfer */
512917ce29eSSerge Semin ret = dw_spi_dma_submit_tx(dws, xfer->tx_sg.sgl, xfer->tx_sg.nents);
5137a4d61f1SSerge Semin if (ret)
514945b5b60SSerge Semin goto err_clear_dmac;
5156c710c0cSSerge Semin
516ab7a4d75SSerge Semin /* Submit the DMA Rx transfer if required */
517be3034d9SSerge Semin if (xfer->rx_buf) {
518917ce29eSSerge Semin ret = dw_spi_dma_submit_rx(dws, xfer->rx_sg.sgl,
519917ce29eSSerge Semin xfer->rx_sg.nents);
5207a4d61f1SSerge Semin if (ret)
521945b5b60SSerge Semin goto err_clear_dmac;
5226c710c0cSSerge Semin
5236c710c0cSSerge Semin /* rx must be started before tx due to spi instinct */
5246c710c0cSSerge Semin dma_async_issue_pending(dws->rxchan);
5256c710c0cSSerge Semin }
5266c710c0cSSerge Semin
5276c710c0cSSerge Semin dma_async_issue_pending(dws->txchan);
5286c710c0cSSerge Semin
529917ce29eSSerge Semin ret = dw_spi_dma_wait(dws, xfer->len, xfer->effective_speed_hz);
530945b5b60SSerge Semin
531945b5b60SSerge Semin err_clear_dmac:
532945b5b60SSerge Semin dw_writel(dws, DW_SPI_DMACR, 0);
533945b5b60SSerge Semin
534945b5b60SSerge Semin return ret;
535b86fed12SSerge Semin }
536b86fed12SSerge Semin
537ad4fe126SSerge Semin /*
538ad4fe126SSerge Semin * In case if at least one of the requested DMA channels doesn't support the
539ad4fe126SSerge Semin * hardware accelerated SG list entries traverse, the DMA driver will most
540ad4fe126SSerge Semin * likely work that around by performing the IRQ-based SG list entries
541ad4fe126SSerge Semin * resubmission. That might and will cause a problem if the DMA Tx channel is
542ad4fe126SSerge Semin * recharged and re-executed before the Rx DMA channel. Due to
543ad4fe126SSerge Semin * non-deterministic IRQ-handler execution latency the DMA Tx channel will
544ad4fe126SSerge Semin * start pushing data to the SPI bus before the Rx DMA channel is even
545ad4fe126SSerge Semin * reinitialized with the next inbound SG list entry. By doing so the DMA Tx
546ad4fe126SSerge Semin * channel will implicitly start filling the DW APB SSI Rx FIFO up, which while
547ad4fe126SSerge Semin * the DMA Rx channel being recharged and re-executed will eventually be
548ad4fe126SSerge Semin * overflown.
549ad4fe126SSerge Semin *
550ad4fe126SSerge Semin * In order to solve the problem we have to feed the DMA engine with SG list
551ad4fe126SSerge Semin * entries one-by-one. It shall keep the DW APB SSI Tx and Rx FIFOs
552ad4fe126SSerge Semin * synchronized and prevent the Rx FIFO overflow. Since in general the tx_sg
553ad4fe126SSerge Semin * and rx_sg lists may have different number of entries of different lengths
554ad4fe126SSerge Semin * (though total length should match) let's virtually split the SG-lists to the
555ad4fe126SSerge Semin * set of DMA transfers, which length is a minimum of the ordered SG-entries
556ad4fe126SSerge Semin * lengths. An ASCII-sketch of the implemented algo is following:
557ad4fe126SSerge Semin * xfer->len
558ad4fe126SSerge Semin * |___________|
559ad4fe126SSerge Semin * tx_sg list: |___|____|__|
560ad4fe126SSerge Semin * rx_sg list: |_|____|____|
561ad4fe126SSerge Semin * DMA transfers: |_|_|__|_|__|
562ad4fe126SSerge Semin *
563ad4fe126SSerge Semin * Note in order to have this workaround solving the denoted problem the DMA
564ad4fe126SSerge Semin * engine driver should properly initialize the max_sg_burst capability and set
565ad4fe126SSerge Semin * the DMA device max segment size parameter with maximum data block size the
566ad4fe126SSerge Semin * DMA engine supports.
567ad4fe126SSerge Semin */
568ad4fe126SSerge Semin
dw_spi_dma_transfer_one(struct dw_spi * dws,struct spi_transfer * xfer)569ad4fe126SSerge Semin static int dw_spi_dma_transfer_one(struct dw_spi *dws,
570ad4fe126SSerge Semin struct spi_transfer *xfer)
571b86fed12SSerge Semin {
572ad4fe126SSerge Semin struct scatterlist *tx_sg = NULL, *rx_sg = NULL, tx_tmp, rx_tmp;
573ad4fe126SSerge Semin unsigned int tx_len = 0, rx_len = 0;
574ad4fe126SSerge Semin unsigned int base, len;
575b86fed12SSerge Semin int ret;
576b86fed12SSerge Semin
577ad4fe126SSerge Semin sg_init_table(&tx_tmp, 1);
578ad4fe126SSerge Semin sg_init_table(&rx_tmp, 1);
579ad4fe126SSerge Semin
580ad4fe126SSerge Semin for (base = 0, len = 0; base < xfer->len; base += len) {
581ad4fe126SSerge Semin /* Fetch next Tx DMA data chunk */
582ad4fe126SSerge Semin if (!tx_len) {
583ad4fe126SSerge Semin tx_sg = !tx_sg ? &xfer->tx_sg.sgl[0] : sg_next(tx_sg);
584ad4fe126SSerge Semin sg_dma_address(&tx_tmp) = sg_dma_address(tx_sg);
585ad4fe126SSerge Semin tx_len = sg_dma_len(tx_sg);
586ad4fe126SSerge Semin }
587ad4fe126SSerge Semin
588ad4fe126SSerge Semin /* Fetch next Rx DMA data chunk */
589ad4fe126SSerge Semin if (!rx_len) {
590ad4fe126SSerge Semin rx_sg = !rx_sg ? &xfer->rx_sg.sgl[0] : sg_next(rx_sg);
591ad4fe126SSerge Semin sg_dma_address(&rx_tmp) = sg_dma_address(rx_sg);
592ad4fe126SSerge Semin rx_len = sg_dma_len(rx_sg);
593ad4fe126SSerge Semin }
594ad4fe126SSerge Semin
595ad4fe126SSerge Semin len = min(tx_len, rx_len);
596ad4fe126SSerge Semin
597ad4fe126SSerge Semin sg_dma_len(&tx_tmp) = len;
598ad4fe126SSerge Semin sg_dma_len(&rx_tmp) = len;
599ad4fe126SSerge Semin
600ad4fe126SSerge Semin /* Submit DMA Tx transfer */
601ad4fe126SSerge Semin ret = dw_spi_dma_submit_tx(dws, &tx_tmp, 1);
602ad4fe126SSerge Semin if (ret)
603ad4fe126SSerge Semin break;
604ad4fe126SSerge Semin
605ad4fe126SSerge Semin /* Submit DMA Rx transfer */
606ad4fe126SSerge Semin ret = dw_spi_dma_submit_rx(dws, &rx_tmp, 1);
607ad4fe126SSerge Semin if (ret)
608ad4fe126SSerge Semin break;
609ad4fe126SSerge Semin
610ad4fe126SSerge Semin /* Rx must be started before Tx due to SPI instinct */
611ad4fe126SSerge Semin dma_async_issue_pending(dws->rxchan);
612ad4fe126SSerge Semin
613ad4fe126SSerge Semin dma_async_issue_pending(dws->txchan);
614ad4fe126SSerge Semin
615ad4fe126SSerge Semin /*
616ad4fe126SSerge Semin * Here we only need to wait for the DMA transfer to be
617ad4fe126SSerge Semin * finished since SPI controller is kept enabled during the
618ad4fe126SSerge Semin * procedure this loop implements and there is no risk to lose
619ad4fe126SSerge Semin * data left in the Tx/Rx FIFOs.
620ad4fe126SSerge Semin */
621ad4fe126SSerge Semin ret = dw_spi_dma_wait(dws, len, xfer->effective_speed_hz);
622ad4fe126SSerge Semin if (ret)
623ad4fe126SSerge Semin break;
624ad4fe126SSerge Semin
625ad4fe126SSerge Semin reinit_completion(&dws->dma_completion);
626ad4fe126SSerge Semin
627ad4fe126SSerge Semin sg_dma_address(&tx_tmp) += len;
628ad4fe126SSerge Semin sg_dma_address(&rx_tmp) += len;
629ad4fe126SSerge Semin tx_len -= len;
630ad4fe126SSerge Semin rx_len -= len;
631ad4fe126SSerge Semin }
632ad4fe126SSerge Semin
633ad4fe126SSerge Semin dw_writel(dws, DW_SPI_DMACR, 0);
634ad4fe126SSerge Semin
635ad4fe126SSerge Semin return ret;
636ad4fe126SSerge Semin }
637ad4fe126SSerge Semin
dw_spi_dma_transfer(struct dw_spi * dws,struct spi_transfer * xfer)638ad4fe126SSerge Semin static int dw_spi_dma_transfer(struct dw_spi *dws, struct spi_transfer *xfer)
639ad4fe126SSerge Semin {
640ad4fe126SSerge Semin unsigned int nents;
641ad4fe126SSerge Semin int ret;
642ad4fe126SSerge Semin
643ad4fe126SSerge Semin nents = max(xfer->tx_sg.nents, xfer->rx_sg.nents);
644ad4fe126SSerge Semin
645ad4fe126SSerge Semin /*
646ad4fe126SSerge Semin * Execute normal DMA-based transfer (which submits the Rx and Tx SG
647ad4fe126SSerge Semin * lists directly to the DMA engine at once) if either full hardware
648ad4fe126SSerge Semin * accelerated SG list traverse is supported by both channels, or the
649ad4fe126SSerge Semin * Tx-only SPI transfer is requested, or the DMA engine is capable to
650ad4fe126SSerge Semin * handle both SG lists on hardware accelerated basis.
651ad4fe126SSerge Semin */
652ad4fe126SSerge Semin if (!dws->dma_sg_burst || !xfer->rx_buf || nents <= dws->dma_sg_burst)
653b86fed12SSerge Semin ret = dw_spi_dma_transfer_all(dws, xfer);
654ad4fe126SSerge Semin else
655ad4fe126SSerge Semin ret = dw_spi_dma_transfer_one(dws, xfer);
6566c710c0cSSerge Semin if (ret)
6576c710c0cSSerge Semin return ret;
6586c710c0cSSerge Semin
659*eefc6c5cSYang Yingliang if (dws->host->cur_msg->status == -EINPROGRESS) {
6606c710c0cSSerge Semin ret = dw_spi_dma_wait_tx_done(dws, xfer);
6616c710c0cSSerge Semin if (ret)
6626c710c0cSSerge Semin return ret;
6636c710c0cSSerge Semin }
6646c710c0cSSerge Semin
665*eefc6c5cSYang Yingliang if (xfer->rx_buf && dws->host->cur_msg->status == -EINPROGRESS)
6666c710c0cSSerge Semin ret = dw_spi_dma_wait_rx_done(dws);
6676c710c0cSSerge Semin
6686c710c0cSSerge Semin return ret;
6696c710c0cSSerge Semin }
6706c710c0cSSerge Semin
dw_spi_dma_stop(struct dw_spi * dws)67157784411SSerge Semin static void dw_spi_dma_stop(struct dw_spi *dws)
6726c710c0cSSerge Semin {
673725b0e3eSSerge Semin if (test_bit(DW_SPI_TX_BUSY, &dws->dma_chan_busy)) {
6746c710c0cSSerge Semin dmaengine_terminate_sync(dws->txchan);
675725b0e3eSSerge Semin clear_bit(DW_SPI_TX_BUSY, &dws->dma_chan_busy);
6766c710c0cSSerge Semin }
677725b0e3eSSerge Semin if (test_bit(DW_SPI_RX_BUSY, &dws->dma_chan_busy)) {
6786c710c0cSSerge Semin dmaengine_terminate_sync(dws->rxchan);
679725b0e3eSSerge Semin clear_bit(DW_SPI_RX_BUSY, &dws->dma_chan_busy);
6806c710c0cSSerge Semin }
6816c710c0cSSerge Semin }
6826c710c0cSSerge Semin
68357784411SSerge Semin static const struct dw_spi_dma_ops dw_spi_dma_mfld_ops = {
68457784411SSerge Semin .dma_init = dw_spi_dma_init_mfld,
68557784411SSerge Semin .dma_exit = dw_spi_dma_exit,
68657784411SSerge Semin .dma_setup = dw_spi_dma_setup,
68757784411SSerge Semin .can_dma = dw_spi_can_dma,
68857784411SSerge Semin .dma_transfer = dw_spi_dma_transfer,
68957784411SSerge Semin .dma_stop = dw_spi_dma_stop,
6906c710c0cSSerge Semin };
6916c710c0cSSerge Semin
dw_spi_dma_setup_mfld(struct dw_spi * dws)69257784411SSerge Semin void dw_spi_dma_setup_mfld(struct dw_spi *dws)
6936c710c0cSSerge Semin {
69457784411SSerge Semin dws->dma_ops = &dw_spi_dma_mfld_ops;
6956c710c0cSSerge Semin }
696a62bacbaSSerge Semin EXPORT_SYMBOL_NS_GPL(dw_spi_dma_setup_mfld, SPI_DW_CORE);
6976c710c0cSSerge Semin
69857784411SSerge Semin static const struct dw_spi_dma_ops dw_spi_dma_generic_ops = {
69957784411SSerge Semin .dma_init = dw_spi_dma_init_generic,
70057784411SSerge Semin .dma_exit = dw_spi_dma_exit,
70157784411SSerge Semin .dma_setup = dw_spi_dma_setup,
70257784411SSerge Semin .can_dma = dw_spi_can_dma,
70357784411SSerge Semin .dma_transfer = dw_spi_dma_transfer,
70457784411SSerge Semin .dma_stop = dw_spi_dma_stop,
7056c710c0cSSerge Semin };
7066c710c0cSSerge Semin
dw_spi_dma_setup_generic(struct dw_spi * dws)70757784411SSerge Semin void dw_spi_dma_setup_generic(struct dw_spi *dws)
7086c710c0cSSerge Semin {
70957784411SSerge Semin dws->dma_ops = &dw_spi_dma_generic_ops;
7106c710c0cSSerge Semin }
711a62bacbaSSerge Semin EXPORT_SYMBOL_NS_GPL(dw_spi_dma_setup_generic, SPI_DW_CORE);
712