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1 /*
2  * Copyright (c) 2017 - 2020, Broadcom
3  *
4  * SPDX-License-Identifier: BSD-3-Clause
5  */
6 
7 #include <string.h>
8 
9 #include <common/debug.h>
10 #include <drivers/delay_timer.h>
11 #include <endian.h>
12 #include <lib/mmio.h>
13 
14 #include <platform_def.h>
15 #include <spi.h>
16 
17 #include "iproc_qspi.h"
18 
19 struct bcmspi_priv spi_cfg;
20 
21 /* Redefined by platform to force appropriate information */
22 #pragma weak plat_spi_init
plat_spi_init(uint32_t * max_hz)23 int plat_spi_init(uint32_t *max_hz)
24 {
25 	return 0;
26 }
27 
28 /* Initialize & setup iproc qspi controller */
iproc_qspi_setup(uint32_t bus,uint32_t cs,uint32_t max_hz,uint32_t mode)29 int iproc_qspi_setup(uint32_t bus, uint32_t cs, uint32_t max_hz, uint32_t mode)
30 {
31 	struct bcmspi_priv *priv = NULL;
32 	uint32_t spbr;
33 
34 	priv = &spi_cfg;
35 	priv->spi_mode = mode;
36 	priv->state = QSPI_STATE_DISABLED;
37 	priv->bspi_hw = QSPI_BSPI_MODE_REG_BASE;
38 	priv->mspi_hw = QSPI_MSPI_MODE_REG_BASE;
39 
40 	/* Initialize clock and platform specific */
41 	if (plat_spi_init(&max_hz) != 0)
42 		return -1;
43 
44 	priv->max_hz = max_hz;
45 
46 	/* MSPI: Basic hardware initialization */
47 	mmio_write_32(priv->mspi_hw + MSPI_SPCR1_LSB_REG, 0);
48 	mmio_write_32(priv->mspi_hw + MSPI_SPCR1_MSB_REG, 0);
49 	mmio_write_32(priv->mspi_hw + MSPI_NEWQP_REG, 0);
50 	mmio_write_32(priv->mspi_hw + MSPI_ENDQP_REG, 0);
51 	mmio_write_32(priv->mspi_hw + MSPI_SPCR2_REG, 0);
52 
53 	/* MSPI: SCK configuration */
54 	spbr = (QSPI_AXI_CLK - 1) / (2 * priv->max_hz) + 1;
55 	spbr = MIN(spbr, SPBR_DIV_MAX);
56 	spbr = MAX(spbr, SPBR_DIV_MIN);
57 	mmio_write_32(priv->mspi_hw + MSPI_SPCR0_LSB_REG, spbr);
58 
59 	/* MSPI: Mode configuration (8 bits by default) */
60 	priv->mspi_16bit = 0;
61 	mmio_write_32(priv->mspi_hw + MSPI_SPCR0_MSB_REG,
62 		      BIT(MSPI_SPCR0_MSB_REG_MSTR_SHIFT) |		/* Master */
63 		      MSPI_SPCR0_MSB_REG_16_BITS_PER_WD_SHIFT |		/* 16 bits per word */
64 		      (priv->spi_mode & MSPI_SPCR0_MSB_REG_MODE_MASK));	/* mode: CPOL / CPHA */
65 
66 	/* Display bus info */
67 	VERBOSE("SPI: SPCR0_LSB: 0x%x\n",
68 		mmio_read_32(priv->mspi_hw + MSPI_SPCR0_LSB_REG));
69 	VERBOSE("SPI: SPCR0_MSB: 0x%x\n",
70 		mmio_read_32(priv->mspi_hw + MSPI_SPCR0_MSB_REG));
71 	VERBOSE("SPI: SPCR1_LSB: 0x%x\n",
72 		mmio_read_32(priv->mspi_hw + MSPI_SPCR1_LSB_REG));
73 	VERBOSE("SPI: SPCR1_MSB: 0x%x\n",
74 		mmio_read_32(priv->mspi_hw + MSPI_SPCR1_MSB_REG));
75 	VERBOSE("SPI: SPCR2: 0x%x\n",
76 		mmio_read_32(priv->mspi_hw + MSPI_SPCR2_REG));
77 	VERBOSE("SPI: CLK: %d\n", priv->max_hz);
78 
79 	return 0;
80 }
81 
bcmspi_enable_bspi(struct bcmspi_priv * priv)82 void bcmspi_enable_bspi(struct bcmspi_priv *priv)
83 {
84 	if (priv->state != QSPI_STATE_BSPI) {
85 		/* Switch to BSPI */
86 		mmio_write_32(priv->bspi_hw + BSPI_MAST_N_BOOT_CTRL_REG, 0);
87 
88 		priv->state = QSPI_STATE_BSPI;
89 	}
90 }
91 
bcmspi_disable_bspi(struct bcmspi_priv * priv)92 static int bcmspi_disable_bspi(struct bcmspi_priv *priv)
93 {
94 	uint32_t retry;
95 
96 	if (priv->state == QSPI_STATE_MSPI)
97 		return 0;
98 
99 	/* Switch to MSPI if not yet */
100 	if ((mmio_read_32(priv->bspi_hw + BSPI_MAST_N_BOOT_CTRL_REG) &
101 	     MSPI_CTRL_MASK) == 0) {
102 		retry = QSPI_RETRY_COUNT_US_MAX;
103 		do {
104 			if ((mmio_read_32(
105 				priv->bspi_hw + BSPI_BUSY_STATUS_REG) &
106 				BSPI_BUSY_MASK) == 0) {
107 				mmio_write_32(priv->bspi_hw +
108 				       BSPI_MAST_N_BOOT_CTRL_REG,
109 				       MSPI_CTRL_MASK);
110 				udelay(1);
111 				break;
112 			}
113 			udelay(1);
114 		} while (retry--);
115 
116 		if ((mmio_read_32(priv->bspi_hw + BSPI_MAST_N_BOOT_CTRL_REG) &
117 		     MSPI_CTRL_MASK) != MSPI_CTRL_MASK) {
118 			ERROR("QSPI: Switching to QSPI error.\n");
119 			return -1;
120 		}
121 	}
122 
123 	/* Update state */
124 	priv->state = QSPI_STATE_MSPI;
125 
126 	return 0;
127 }
128 
iproc_qspi_claim_bus(void)129 int iproc_qspi_claim_bus(void)
130 {
131 	struct bcmspi_priv *priv = &spi_cfg;
132 
133 	/* Switch to MSPI by default */
134 	if (bcmspi_disable_bspi(priv) != 0)
135 		return -1;
136 
137 	return 0;
138 }
139 
iproc_qspi_release_bus(void)140 void iproc_qspi_release_bus(void)
141 {
142 	struct bcmspi_priv *priv = &spi_cfg;
143 
144 	/* Switch to BSPI by default */
145 	bcmspi_enable_bspi(priv);
146 }
147 
mspi_xfer(struct bcmspi_priv * priv,uint32_t bytes,const uint8_t * tx,uint8_t * rx,uint32_t flag)148 static int mspi_xfer(struct bcmspi_priv *priv, uint32_t bytes,
149 		     const uint8_t *tx, uint8_t *rx, uint32_t flag)
150 {
151 	uint32_t retry;
152 	uint32_t mode = CDRAM_PCS0;
153 
154 	if (flag & SPI_XFER_QUAD) {
155 		mode |= CDRAM_QUAD_MODE;
156 		VERBOSE("SPI: QUAD mode\n");
157 
158 		if (!tx) {
159 			VERBOSE("SPI: 4 lane input\n");
160 			mode |= CDRAM_RBIT_INPUT;
161 		}
162 	}
163 
164 	/* Use 8-bit queue for odd-bytes transfer */
165 	if (bytes & 1)
166 		priv->mspi_16bit = 0;
167 	else {
168 		priv->mspi_16bit = 1;
169 		mode |= CDRAM_BITS_EN;
170 	}
171 
172 	while (bytes) {
173 		uint32_t chunk;
174 		uint32_t queues;
175 		uint32_t i;
176 
177 		/* Separate code for 16bit and 8bit transfers for performance */
178 		if (priv->mspi_16bit) {
179 			VERBOSE("SPI: 16 bits xfer\n");
180 			/* Determine how many bytes to process this time */
181 			chunk = MIN(bytes, NUM_CDRAM_BYTES * 2);
182 			queues = (chunk - 1) / 2 + 1;
183 			bytes -= chunk;
184 
185 			/* Fill CDRAMs */
186 			for (i = 0; i < queues; i++)
187 				mmio_write_32(priv->mspi_hw + MSPI_CDRAM_REG +
188 					      (i << 2), mode | CDRAM_CONT);
189 
190 			/* Fill TXRAMs */
191 			for (i = 0; i < chunk; i++)
192 				if (tx)
193 					mmio_write_32(priv->mspi_hw +
194 						MSPI_TXRAM_REG +
195 						(i << 2), tx[i]);
196 		} else {
197 			VERBOSE("SPI: 8 bits xfer\n");
198 			/* Determine how many bytes to process this time */
199 			chunk = MIN(bytes, NUM_CDRAM_BYTES);
200 			queues = chunk;
201 			bytes -= chunk;
202 
203 			/* Fill CDRAMs and TXRAMS */
204 			for (i = 0; i < chunk; i++) {
205 				mmio_write_32(priv->mspi_hw + MSPI_CDRAM_REG +
206 					      (i << 2), mode | CDRAM_CONT);
207 				if (tx)
208 					mmio_write_32(priv->mspi_hw +
209 						MSPI_TXRAM_REG +
210 						(i << 3), tx[i]);
211 			}
212 		}
213 
214 		/* Advance pointers */
215 		if (tx)
216 			tx += chunk;
217 
218 		/* Setup queue pointers */
219 		mmio_write_32(priv->mspi_hw + MSPI_NEWQP_REG, 0);
220 		mmio_write_32(priv->mspi_hw + MSPI_ENDQP_REG, queues - 1);
221 
222 		/* Remove CONT on the last byte command */
223 		if (bytes == 0 && (flag & SPI_XFER_END))
224 			mmio_write_32(priv->mspi_hw + MSPI_CDRAM_REG +
225 				      ((queues - 1) << 2), mode);
226 
227 		/* Kick off */
228 		mmio_write_32(priv->mspi_hw + MSPI_STATUS_REG, 0);
229 		if (bytes == 0 && (flag & SPI_XFER_END))
230 			mmio_write_32(priv->mspi_hw + MSPI_SPCR2_REG, MSPI_SPE);
231 		else
232 			mmio_write_32(priv->mspi_hw + MSPI_SPCR2_REG,
233 				      MSPI_SPE | MSPI_CONT_AFTER_CMD);
234 
235 		/* Wait for completion */
236 		retry = QSPI_RETRY_COUNT_US_MAX;
237 		do {
238 			if (mmio_read_32(priv->mspi_hw + MSPI_STATUS_REG) &
239 			    MSPI_CMD_COMPLETE_MASK)
240 				break;
241 			udelay(1);
242 		} while (retry--);
243 
244 		if ((mmio_read_32(priv->mspi_hw + MSPI_STATUS_REG) &
245 		     MSPI_CMD_COMPLETE_MASK) == 0) {
246 			ERROR("SPI: Completion timeout.\n");
247 			return -1;
248 		}
249 
250 		/* Read data out */
251 		if (rx) {
252 			if (priv->mspi_16bit) {
253 				for (i = 0; i < chunk; i++) {
254 					rx[i] = mmio_read_32(priv->mspi_hw +
255 							MSPI_RXRAM_REG +
256 						       (i << 2))
257 						& 0xff;
258 				}
259 			} else {
260 				for (i = 0; i < chunk; i++) {
261 					rx[i] = mmio_read_32(priv->mspi_hw +
262 						       MSPI_RXRAM_REG +
263 						       (((i << 1) + 1) << 2))
264 						& 0xff;
265 				}
266 			}
267 			rx += chunk;
268 		}
269 	}
270 
271 	return 0;
272 }
273 
iproc_qspi_xfer(uint32_t bitlen,const void * dout,void * din,unsigned long flags)274 int iproc_qspi_xfer(uint32_t bitlen,
275 		    const void *dout, void *din, unsigned long flags)
276 {
277 	struct bcmspi_priv *priv;
278 	const uint8_t *tx = dout;
279 	uint8_t *rx = din;
280 	uint32_t bytes = bitlen / 8;
281 	int ret = 0;
282 
283 	priv = &spi_cfg;
284 
285 	if (priv->state == QSPI_STATE_DISABLED) {
286 		ERROR("QSPI: state disabled\n");
287 		return -1;
288 	}
289 
290 	/* we can only do 8 bit transfers */
291 	if (bitlen % 8) {
292 		ERROR("QSPI: Only support 8 bit transfers (requested %d)\n",
293 			bitlen);
294 		return -1;
295 	}
296 
297 	/* MSPI: Enable write lock at the beginning */
298 	if (flags & SPI_XFER_BEGIN) {
299 		/* Switch to MSPI if not yet */
300 		if (bcmspi_disable_bspi(priv) != 0) {
301 			ERROR("QSPI: Switch to MSPI failed\n");
302 			return -1;
303 		}
304 
305 		mmio_write_32(priv->mspi_hw + MSPI_WRITE_LOCK_REG, 1);
306 	}
307 
308 	/* MSPI: Transfer it */
309 	if (bytes)
310 		ret = mspi_xfer(priv, bytes, tx, rx, flags);
311 
312 	/* MSPI: Disable write lock if it's done */
313 	if (flags & SPI_XFER_END)
314 		mmio_write_32(priv->mspi_hw + MSPI_WRITE_LOCK_REG, 0);
315 
316 	return ret;
317 }
318