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Konstantin Porotchkin01c84d42018-02-26 16:01:57 +02001/*
2 * Copyright (C) 2018 Marvell International Ltd.
3 *
4 * SPDX-License-Identifier: BSD-3-Clause
5 * https://spdx.org/licenses
6 */
7
8/* CP110 Marvell SoC driver */
9
Antonio Nino Diaze0f90632018-12-14 00:18:21 +000010#include <common/debug.h>
11#include <drivers/delay_timer.h>
12#include <drivers/marvell/amb_adec.h>
13#include <drivers/marvell/iob.h>
14#include <drivers/marvell/mochi/cp110_setup.h>
15
Konstantin Porotchkin01c84d42018-02-26 16:01:57 +020016#include <plat_marvell.h>
17
18/*
19 * AXI Configuration.
20 */
21
22 /* Used for Units of CP-110 (e.g. USB device, USB Host, and etc) */
23#define MVEBU_AXI_ATTR_OFFSET (0x441300)
24#define MVEBU_AXI_ATTR_REG(index) (MVEBU_AXI_ATTR_OFFSET + \
25 0x4 * index)
26
27/* AXI Protection bits */
28#define MVEBU_AXI_PROT_OFFSET (0x441200)
29
30/* AXI Protection regs */
31#define MVEBU_AXI_PROT_REG(index) ((index <= 4) ? \
32 (MVEBU_AXI_PROT_OFFSET + \
33 0x4 * index) : \
34 (MVEBU_AXI_PROT_OFFSET + 0x18))
35#define MVEBU_AXI_PROT_REGS_NUM (6)
36
37#define MVEBU_SOC_CFGS_OFFSET (0x441900)
38#define MVEBU_SOC_CFG_REG(index) (MVEBU_SOC_CFGS_OFFSET + \
39 0x4 * index)
40#define MVEBU_SOC_CFG_REG_NUM (0)
41#define MVEBU_SOC_CFG_GLOG_SECURE_EN_MASK (0xE)
42
43/* SATA3 MBUS to AXI regs */
44#define MVEBU_BRIDGE_WIN_DIS_REG (MVEBU_SOC_CFGS_OFFSET + 0x10)
45#define MVEBU_BRIDGE_WIN_DIS_OFF (0x0)
46
47/* SATA3 MBUS to AXI regs */
48#define MVEBU_SATA_M2A_AXI_PORT_CTRL_REG (0x54ff04)
49
50/* AXI to MBUS bridge registers */
51#define MVEBU_AMB_IP_OFFSET (0x13ff00)
52#define MVEBU_AMB_IP_BRIDGE_WIN_REG(win) (MVEBU_AMB_IP_OFFSET + \
53 (win * 0x8))
54#define MVEBU_AMB_IP_BRIDGE_WIN_EN_OFFSET 0
55#define MVEBU_AMB_IP_BRIDGE_WIN_EN_MASK \
56 (0x1 << MVEBU_AMB_IP_BRIDGE_WIN_EN_OFFSET)
57#define MVEBU_AMB_IP_BRIDGE_WIN_SIZE_OFFSET 16
58#define MVEBU_AMB_IP_BRIDGE_WIN_SIZE_MASK \
Justin Chadwellfed41a12019-07-03 14:04:33 +010059 (0xffffu << MVEBU_AMB_IP_BRIDGE_WIN_SIZE_OFFSET)
Konstantin Porotchkin01c84d42018-02-26 16:01:57 +020060
61#define MVEBU_SAMPLE_AT_RESET_REG (0x440600)
62#define SAR_PCIE1_CLK_CFG_OFFSET 31
Justin Chadwellfed41a12019-07-03 14:04:33 +010063#define SAR_PCIE1_CLK_CFG_MASK (0x1u << SAR_PCIE1_CLK_CFG_OFFSET)
Konstantin Porotchkin01c84d42018-02-26 16:01:57 +020064#define SAR_PCIE0_CLK_CFG_OFFSET 30
65#define SAR_PCIE0_CLK_CFG_MASK (0x1 << SAR_PCIE0_CLK_CFG_OFFSET)
66#define SAR_I2C_INIT_EN_OFFSET 24
67#define SAR_I2C_INIT_EN_MASK (1 << SAR_I2C_INIT_EN_OFFSET)
68
69/*******************************************************************************
70 * PCIE clock buffer control
71 ******************************************************************************/
72#define MVEBU_PCIE_REF_CLK_BUF_CTRL (0x4404F0)
73#define PCIE1_REFCLK_BUFF_SOURCE 0x800
74#define PCIE0_REFCLK_BUFF_SOURCE 0x400
75
76/*******************************************************************************
77 * MSS Device Push Set Register
78 ******************************************************************************/
79#define MVEBU_CP_MSS_DPSHSR_REG (0x280040)
80#define MSS_DPSHSR_REG_PCIE_CLK_SEL 0x8
81
82/*******************************************************************************
83 * RTC Configuration
84 ******************************************************************************/
85#define MVEBU_RTC_BASE (0x284000)
86#define MVEBU_RTC_STATUS_REG (MVEBU_RTC_BASE + 0x0)
87#define MVEBU_RTC_STATUS_ALARM1_MASK 0x1
88#define MVEBU_RTC_STATUS_ALARM2_MASK 0x2
89#define MVEBU_RTC_IRQ_1_CONFIG_REG (MVEBU_RTC_BASE + 0x4)
90#define MVEBU_RTC_IRQ_2_CONFIG_REG (MVEBU_RTC_BASE + 0x8)
91#define MVEBU_RTC_TIME_REG (MVEBU_RTC_BASE + 0xC)
92#define MVEBU_RTC_ALARM_1_REG (MVEBU_RTC_BASE + 0x10)
93#define MVEBU_RTC_ALARM_2_REG (MVEBU_RTC_BASE + 0x14)
94#define MVEBU_RTC_CCR_REG (MVEBU_RTC_BASE + 0x18)
95#define MVEBU_RTC_NOMINAL_TIMING 0x2000
96#define MVEBU_RTC_NOMINAL_TIMING_MASK 0x7FFF
97#define MVEBU_RTC_TEST_CONFIG_REG (MVEBU_RTC_BASE + 0x1C)
98#define MVEBU_RTC_BRIDGE_TIMING_CTRL0_REG (MVEBU_RTC_BASE + 0x80)
99#define MVEBU_RTC_WRCLK_PERIOD_MASK 0xFFFF
100#define MVEBU_RTC_WRCLK_PERIOD_DEFAULT 0x3FF
101#define MVEBU_RTC_WRCLK_SETUP_OFFS 16
102#define MVEBU_RTC_WRCLK_SETUP_MASK 0xFFFF0000
103#define MVEBU_RTC_WRCLK_SETUP_DEFAULT 0x29
104#define MVEBU_RTC_BRIDGE_TIMING_CTRL1_REG (MVEBU_RTC_BASE + 0x84)
105#define MVEBU_RTC_READ_OUTPUT_DELAY_MASK 0xFFFF
106#define MVEBU_RTC_READ_OUTPUT_DELAY_DEFAULT 0x1F
107
108enum axi_attr {
109 AXI_ADUNIT_ATTR = 0,
110 AXI_COMUNIT_ATTR,
111 AXI_EIP197_ATTR,
112 AXI_USB3D_ATTR,
113 AXI_USB3H0_ATTR,
114 AXI_USB3H1_ATTR,
115 AXI_SATA0_ATTR,
116 AXI_SATA1_ATTR,
117 AXI_DAP_ATTR,
118 AXI_DFX_ATTR,
119 AXI_DBG_TRC_ATTR = 12,
120 AXI_SDIO_ATTR,
121 AXI_MSS_ATTR,
122 AXI_MAX_ATTR,
123};
124
125/* Most stream IDS are configured centrally in the CP-110 RFU
126 * but some are configured inside the unit registers
127 */
128#define RFU_STREAM_ID_BASE (0x450000)
129#define USB3H_0_STREAM_ID_REG (RFU_STREAM_ID_BASE + 0xC)
130#define USB3H_1_STREAM_ID_REG (RFU_STREAM_ID_BASE + 0x10)
131#define SATA_0_STREAM_ID_REG (RFU_STREAM_ID_BASE + 0x14)
132#define SATA_1_STREAM_ID_REG (RFU_STREAM_ID_BASE + 0x18)
133
134#define CP_DMA_0_STREAM_ID_REG (0x6B0010)
135#define CP_DMA_1_STREAM_ID_REG (0x6D0010)
136
137/* We allocate IDs 128-255 for PCIe */
138#define MAX_STREAM_ID (0x80)
139
140uintptr_t stream_id_reg[] = {
141 USB3H_0_STREAM_ID_REG,
142 USB3H_1_STREAM_ID_REG,
143 CP_DMA_0_STREAM_ID_REG,
144 CP_DMA_1_STREAM_ID_REG,
145 SATA_0_STREAM_ID_REG,
146 SATA_1_STREAM_ID_REG,
147 0
148};
149
150static void cp110_errata_wa_init(uintptr_t base)
151{
152 uint32_t data;
153
154 /* ERRATA GL-4076863:
155 * Reset value for global_secure_enable inputs must be changed
156 * from '1' to '0'.
157 * When asserted, only "secured" transactions can enter IHB
158 * configuration space.
159 * However, blocking AXI transactions is performed by IOB.
160 * Performing it also at IHB/HB complicates programming model.
161 *
162 * Enable non-secure access in SOC configuration register
163 */
164 data = mmio_read_32(base + MVEBU_SOC_CFG_REG(MVEBU_SOC_CFG_REG_NUM));
165 data &= ~MVEBU_SOC_CFG_GLOG_SECURE_EN_MASK;
166 mmio_write_32(base + MVEBU_SOC_CFG_REG(MVEBU_SOC_CFG_REG_NUM), data);
167}
168
169static void cp110_pcie_clk_cfg(uintptr_t base)
170{
171 uint32_t pcie0_clk, pcie1_clk, reg;
172
173 /*
174 * Determine the pcie0/1 clock direction (input/output) from the
175 * sample at reset.
176 */
177 reg = mmio_read_32(base + MVEBU_SAMPLE_AT_RESET_REG);
178 pcie0_clk = (reg & SAR_PCIE0_CLK_CFG_MASK) >> SAR_PCIE0_CLK_CFG_OFFSET;
179 pcie1_clk = (reg & SAR_PCIE1_CLK_CFG_MASK) >> SAR_PCIE1_CLK_CFG_OFFSET;
180
181 /* CP110 revision A2 */
182 if (cp110_rev_id_get(base) == MVEBU_CP110_REF_ID_A2) {
183 /*
184 * PCIe Reference Clock Buffer Control register must be
185 * set according to the clock direction (input/output)
186 */
187 reg = mmio_read_32(base + MVEBU_PCIE_REF_CLK_BUF_CTRL);
188 reg &= ~(PCIE0_REFCLK_BUFF_SOURCE | PCIE1_REFCLK_BUFF_SOURCE);
189 if (!pcie0_clk)
190 reg |= PCIE0_REFCLK_BUFF_SOURCE;
191 if (!pcie1_clk)
192 reg |= PCIE1_REFCLK_BUFF_SOURCE;
193
194 mmio_write_32(base + MVEBU_PCIE_REF_CLK_BUF_CTRL, reg);
195 }
196
197 /* CP110 revision A1 */
198 if (cp110_rev_id_get(base) == MVEBU_CP110_REF_ID_A1) {
199 if (!pcie0_clk || !pcie1_clk) {
200 /*
201 * if one of the pcie clocks is set to input,
202 * we need to set mss_push[131] field, otherwise,
203 * the pcie clock might not work.
204 */
205 reg = mmio_read_32(base + MVEBU_CP_MSS_DPSHSR_REG);
206 reg |= MSS_DPSHSR_REG_PCIE_CLK_SEL;
207 mmio_write_32(base + MVEBU_CP_MSS_DPSHSR_REG, reg);
208 }
209 }
210}
211
212/* Set a unique stream id for all DMA capable devices */
213static void cp110_stream_id_init(uintptr_t base, uint32_t stream_id)
214{
215 int i = 0;
216
217 while (stream_id_reg[i]) {
218 if (i > MAX_STREAM_ID_PER_CP) {
219 NOTICE("Only first %d (maximum) Stream IDs allocated\n",
220 MAX_STREAM_ID_PER_CP);
221 return;
222 }
223
224 if ((stream_id_reg[i] == CP_DMA_0_STREAM_ID_REG) ||
225 (stream_id_reg[i] == CP_DMA_1_STREAM_ID_REG))
226 mmio_write_32(base + stream_id_reg[i],
227 stream_id << 16 | stream_id);
228 else
229 mmio_write_32(base + stream_id_reg[i], stream_id);
230
231 /* SATA port 0/1 are in the same SATA unit, and they should use
232 * the same STREAM ID number
233 */
234 if (stream_id_reg[i] != SATA_0_STREAM_ID_REG)
235 stream_id++;
236
237 i++;
238 }
239}
240
241static void cp110_axi_attr_init(uintptr_t base)
242{
243 uint32_t index, data;
244
245 /* Initialize AXI attributes for Armada-7K/8K SoC */
246
247 /* Go over the AXI attributes and set Ax-Cache and Ax-Domain */
248 for (index = 0; index < AXI_MAX_ATTR; index++) {
249 switch (index) {
250 /* DFX and MSS unit works with no coherent only -
251 * there's no option to configure the Ax-Cache and Ax-Domain
252 */
253 case AXI_DFX_ATTR:
254 case AXI_MSS_ATTR:
255 continue;
256 default:
257 /* Set Ax-Cache as cacheable, no allocate, modifiable,
258 * bufferable
259 * The values are different because Read & Write
260 * definition is different in Ax-Cache
261 */
262 data = mmio_read_32(base + MVEBU_AXI_ATTR_REG(index));
263 data &= ~MVEBU_AXI_ATTR_ARCACHE_MASK;
264 data |= (CACHE_ATTR_WRITE_ALLOC |
265 CACHE_ATTR_CACHEABLE |
266 CACHE_ATTR_BUFFERABLE) <<
267 MVEBU_AXI_ATTR_ARCACHE_OFFSET;
268 data &= ~MVEBU_AXI_ATTR_AWCACHE_MASK;
269 data |= (CACHE_ATTR_READ_ALLOC |
270 CACHE_ATTR_CACHEABLE |
271 CACHE_ATTR_BUFFERABLE) <<
272 MVEBU_AXI_ATTR_AWCACHE_OFFSET;
273 /* Set Ax-Domain as Outer domain */
274 data &= ~MVEBU_AXI_ATTR_ARDOMAIN_MASK;
275 data |= DOMAIN_OUTER_SHAREABLE <<
276 MVEBU_AXI_ATTR_ARDOMAIN_OFFSET;
277 data &= ~MVEBU_AXI_ATTR_AWDOMAIN_MASK;
278 data |= DOMAIN_OUTER_SHAREABLE <<
279 MVEBU_AXI_ATTR_AWDOMAIN_OFFSET;
280 mmio_write_32(base + MVEBU_AXI_ATTR_REG(index), data);
281 }
282 }
283
284 /* SATA IOCC supported, cache attributes
285 * for SATA MBUS to AXI configuration.
286 */
287 data = mmio_read_32(base + MVEBU_SATA_M2A_AXI_PORT_CTRL_REG);
288 data &= ~MVEBU_SATA_M2A_AXI_AWCACHE_MASK;
289 data |= (CACHE_ATTR_WRITE_ALLOC |
290 CACHE_ATTR_CACHEABLE |
291 CACHE_ATTR_BUFFERABLE) <<
292 MVEBU_SATA_M2A_AXI_AWCACHE_OFFSET;
293 data &= ~MVEBU_SATA_M2A_AXI_ARCACHE_MASK;
294 data |= (CACHE_ATTR_READ_ALLOC |
295 CACHE_ATTR_CACHEABLE |
296 CACHE_ATTR_BUFFERABLE) <<
297 MVEBU_SATA_M2A_AXI_ARCACHE_OFFSET;
298 mmio_write_32(base + MVEBU_SATA_M2A_AXI_PORT_CTRL_REG, data);
299
300 /* Set all IO's AXI attribute to non-secure access. */
301 for (index = 0; index < MVEBU_AXI_PROT_REGS_NUM; index++)
302 mmio_write_32(base + MVEBU_AXI_PROT_REG(index),
303 DOMAIN_SYSTEM_SHAREABLE);
304}
305
306static void amb_bridge_init(uintptr_t base)
307{
308 uint32_t reg;
309
310 /* Open AMB bridge Window to Access COMPHY/MDIO registers */
311 reg = mmio_read_32(base + MVEBU_AMB_IP_BRIDGE_WIN_REG(0));
312 reg &= ~(MVEBU_AMB_IP_BRIDGE_WIN_SIZE_MASK |
313 MVEBU_AMB_IP_BRIDGE_WIN_EN_MASK);
314 reg |= (0x7ff << MVEBU_AMB_IP_BRIDGE_WIN_SIZE_OFFSET) |
315 (0x1 << MVEBU_AMB_IP_BRIDGE_WIN_EN_OFFSET);
316 mmio_write_32(base + MVEBU_AMB_IP_BRIDGE_WIN_REG(0), reg);
317}
318
319static void cp110_rtc_init(uintptr_t base)
320{
321 /* Update MBus timing parameters before accessing RTC registers */
322 mmio_clrsetbits_32(base + MVEBU_RTC_BRIDGE_TIMING_CTRL0_REG,
323 MVEBU_RTC_WRCLK_PERIOD_MASK,
324 MVEBU_RTC_WRCLK_PERIOD_DEFAULT);
325
326 mmio_clrsetbits_32(base + MVEBU_RTC_BRIDGE_TIMING_CTRL0_REG,
327 MVEBU_RTC_WRCLK_SETUP_MASK,
328 MVEBU_RTC_WRCLK_SETUP_DEFAULT <<
329 MVEBU_RTC_WRCLK_SETUP_OFFS);
330
331 mmio_clrsetbits_32(base + MVEBU_RTC_BRIDGE_TIMING_CTRL1_REG,
332 MVEBU_RTC_READ_OUTPUT_DELAY_MASK,
333 MVEBU_RTC_READ_OUTPUT_DELAY_DEFAULT);
334
335 /*
336 * Issue reset to the RTC if Clock Correction register
337 * contents did not sustain the reboot/power-on.
338 */
339 if ((mmio_read_32(base + MVEBU_RTC_CCR_REG) &
340 MVEBU_RTC_NOMINAL_TIMING_MASK) != MVEBU_RTC_NOMINAL_TIMING) {
341 /* Reset Test register */
342 mmio_write_32(base + MVEBU_RTC_TEST_CONFIG_REG, 0);
343 mdelay(500);
344
Konstantin Porotchkin01c84d42018-02-26 16:01:57 +0200345 /* Reset Status register */
346 mmio_write_32(base + MVEBU_RTC_STATUS_REG,
347 (MVEBU_RTC_STATUS_ALARM1_MASK |
348 MVEBU_RTC_STATUS_ALARM2_MASK));
349 udelay(62);
350
351 /* Turn off Int1 and Int2 sources & clear the Alarm count */
352 mmio_write_32(base + MVEBU_RTC_IRQ_1_CONFIG_REG, 0);
353 mmio_write_32(base + MVEBU_RTC_IRQ_2_CONFIG_REG, 0);
354 mmio_write_32(base + MVEBU_RTC_ALARM_1_REG, 0);
355 mmio_write_32(base + MVEBU_RTC_ALARM_2_REG, 0);
356
357 /* Setup nominal register access timing */
358 mmio_write_32(base + MVEBU_RTC_CCR_REG,
359 MVEBU_RTC_NOMINAL_TIMING);
360
Konstantin Porotchkin01c84d42018-02-26 16:01:57 +0200361 /* Reset Status register */
362 mmio_write_32(base + MVEBU_RTC_STATUS_REG,
363 (MVEBU_RTC_STATUS_ALARM1_MASK |
364 MVEBU_RTC_STATUS_ALARM2_MASK));
365 udelay(50);
366 }
367}
368
369static void cp110_amb_adec_init(uintptr_t base)
370{
371 /* enable AXI-MBUS by clearing "Bridge Windows Disable" */
372 mmio_clrbits_32(base + MVEBU_BRIDGE_WIN_DIS_REG,
373 (1 << MVEBU_BRIDGE_WIN_DIS_OFF));
374
375 /* configure AXI-MBUS windows for CP */
376 init_amb_adec(base);
377}
378
379void cp110_init(uintptr_t cp110_base, uint32_t stream_id)
380{
381 INFO("%s: Initialize CPx - base = %lx\n", __func__, cp110_base);
382
383 /* configure IOB windows for CP0*/
384 init_iob(cp110_base);
385
386 /* configure AXI-MBUS windows for CP0*/
387 cp110_amb_adec_init(cp110_base);
388
389 /* configure axi for CP0*/
390 cp110_axi_attr_init(cp110_base);
391
392 /* Execute SW WA for erratas */
393 cp110_errata_wa_init(cp110_base);
394
395 /* Confiure pcie clock according to clock direction */
396 cp110_pcie_clk_cfg(cp110_base);
397
398 /* configure stream id for CP0 */
399 cp110_stream_id_init(cp110_base, stream_id);
400
401 /* Open AMB bridge for comphy for CP0 & CP1*/
402 amb_bridge_init(cp110_base);
403
404 /* Reset RTC if needed */
405 cp110_rtc_init(cp110_base);
406}
407
408/* Do the minimal setup required to configure the CP in BLE */
409void cp110_ble_init(uintptr_t cp110_base)
410{
411#if PCI_EP_SUPPORT
412 INFO("%s: Initialize CPx - base = %lx\n", __func__, cp110_base);
413
414 amb_bridge_init(cp110_base);
415
416 /* Configure PCIe clock */
417 cp110_pcie_clk_cfg(cp110_base);
418
419 /* Configure PCIe endpoint */
420 ble_plat_pcie_ep_setup();
421#endif
422}