blob: 37187885fa05e3248e97ff296f6c5d1e675a60bd [file] [log] [blame]
Stefan Roese648391c2016-08-30 16:48:20 +02001/*
2 * Copyright (C) 2015-2016 Marvell International Ltd.
3 *
4 * SPDX-License-Identifier: GPL-2.0+
5 */
6
7#include <common.h>
8#include <fdtdec.h>
9#include <asm/io.h>
10#include <asm/arch/cpu.h>
11#include <asm/arch/soc.h>
12
13#include "comphy.h"
14#include "comphy_hpipe.h"
15#include "sata.h"
16#include "utmi_phy.h"
17
18DECLARE_GLOBAL_DATA_PTR;
19
20#define SD_ADDR(base, lane) (base + 0x1000 * lane)
21#define HPIPE_ADDR(base, lane) (SD_ADDR(base, lane) + 0x800)
22#define COMPHY_ADDR(base, lane) (base + 0x28 * lane)
23
24struct utmi_phy_data {
25 void __iomem *utmi_base_addr;
26 void __iomem *usb_cfg_addr;
27 void __iomem *utmi_cfg_addr;
28 u32 utmi_phy_port;
29};
30
31/*
32 * For CP-110 we have 2 Selector registers "PHY Selectors",
33 * and "PIPE Selectors".
34 * PIPE selector include USB and PCIe options.
35 * PHY selector include the Ethernet and SATA options, every Ethernet
36 * option has different options, for example: serdes lane2 had option
Stefan Roeseb8b7c672017-04-24 18:45:29 +030037 * Eth_port_0 that include (SGMII0, RXAUI0, SFI)
Stefan Roese648391c2016-08-30 16:48:20 +020038 */
39struct comphy_mux_data cp110_comphy_phy_mux_data[] = {
Stefan Roeseb15d61d2017-04-24 18:45:27 +030040 {4, {{PHY_TYPE_UNCONNECTED, 0x0}, {PHY_TYPE_SGMII1, 0x1}, /* Lane 0 */
41 {PHY_TYPE_SATA1, 0x4} } },
42 {4, {{PHY_TYPE_UNCONNECTED, 0x0}, {PHY_TYPE_SGMII2, 0x1}, /* Lane 1 */
43 {PHY_TYPE_SATA0, 0x4} } },
Stefan Roese648391c2016-08-30 16:48:20 +020044 {6, {{PHY_TYPE_UNCONNECTED, 0x0}, {PHY_TYPE_SGMII0, 0x1}, /* Lane 2 */
Stefan Roeseb15d61d2017-04-24 18:45:27 +030045 {PHY_TYPE_RXAUI0, 0x1}, {PHY_TYPE_SFI, 0x1},
46 {PHY_TYPE_SATA0, 0x4} } },
47 {8, {{PHY_TYPE_UNCONNECTED, 0x0}, {PHY_TYPE_RXAUI1, 0x1}, /* Lane 3 */
48 {PHY_TYPE_SGMII1, 0x2}, {PHY_TYPE_SATA1, 0x4} } },
Stefan Roeseb8b7c672017-04-24 18:45:29 +030049 {7, {{PHY_TYPE_UNCONNECTED, 0x0}, {PHY_TYPE_SGMII0, 0x2}, /* Lane 4 */
Stefan Roeseb15d61d2017-04-24 18:45:27 +030050 {PHY_TYPE_RXAUI0, 0x2}, {PHY_TYPE_SFI, 0x2},
Stefan Roeseb8b7c672017-04-24 18:45:29 +030051 {PHY_TYPE_SGMII1, 0x1} } },
Stefan Roeseb15d61d2017-04-24 18:45:27 +030052 {6, {{PHY_TYPE_UNCONNECTED, 0x0}, {PHY_TYPE_SGMII2, 0x1}, /* Lane 5 */
53 {PHY_TYPE_RXAUI1, 0x2}, {PHY_TYPE_SATA1, 0x4} } },
Stefan Roese648391c2016-08-30 16:48:20 +020054};
55
56struct comphy_mux_data cp110_comphy_pipe_mux_data[] = {
57 {2, {{PHY_TYPE_UNCONNECTED, 0x0}, {PHY_TYPE_PEX0, 0x4} } }, /* Lane 0 */
58 {4, {{PHY_TYPE_UNCONNECTED, 0x0}, /* Lane 1 */
59 {PHY_TYPE_USB3_HOST0, 0x1}, {PHY_TYPE_USB3_DEVICE, 0x2},
60 {PHY_TYPE_PEX0, 0x4} } },
61 {3, {{PHY_TYPE_UNCONNECTED, 0x0}, /* Lane 2 */
62 {PHY_TYPE_USB3_HOST0, 0x1}, {PHY_TYPE_PEX0, 0x4} } },
63 {3, {{PHY_TYPE_UNCONNECTED, 0x0}, /* Lane 3 */
64 {PHY_TYPE_USB3_HOST1, 0x1}, {PHY_TYPE_PEX0, 0x4} } },
65 {4, {{PHY_TYPE_UNCONNECTED, 0x0}, /* Lane 4 */
66 {PHY_TYPE_USB3_HOST1, 0x1},
67 {PHY_TYPE_USB3_DEVICE, 0x2}, {PHY_TYPE_PEX1, 0x4} } },
68 {2, {{PHY_TYPE_UNCONNECTED, 0x0}, {PHY_TYPE_PEX2, 0x4} } }, /* Lane 5 */
69};
70
71static u32 polling_with_timeout(void __iomem *addr, u32 val,
72 u32 mask, unsigned long usec_timout)
73{
74 u32 data;
75
76 do {
77 udelay(1);
78 data = readl(addr) & mask;
79 } while (data != val && --usec_timout > 0);
80
81 if (usec_timout == 0)
82 return data;
83
84 return 0;
85}
86
Stefan Roese2313efe2017-04-24 18:45:22 +030087static int comphy_pcie_power_up(u32 lane, u32 pcie_width, bool clk_src,
88 bool is_end_point, void __iomem *hpipe_base,
Stefan Roese648391c2016-08-30 16:48:20 +020089 void __iomem *comphy_base)
90{
91 u32 mask, data, ret = 1;
92 void __iomem *hpipe_addr = HPIPE_ADDR(hpipe_base, lane);
93 void __iomem *comphy_addr = COMPHY_ADDR(comphy_base, lane);
94 void __iomem *addr;
95 u32 pcie_clk = 0; /* set input by default */
96
97 debug_enter();
98
99 /*
100 * ToDo:
101 * Add SAR (Sample-At-Reset) configuration for the PCIe clock
102 * direction. SAR code is currently not ported from Marvell
103 * U-Boot to mainline version.
104 *
105 * SerDes Lane 4/5 got the PCIe ref-clock #1,
106 * and SerDes Lane 0 got PCIe ref-clock #0
107 */
108 debug("PCIe clock = %x\n", pcie_clk);
Stefan Roese2313efe2017-04-24 18:45:22 +0300109 debug("PCIe RC = %d\n", !is_end_point);
Stefan Roese648391c2016-08-30 16:48:20 +0200110 debug("PCIe width = %d\n", pcie_width);
111
112 /* enable PCIe by4 and by2 */
113 if (lane == 0) {
114 if (pcie_width == 4) {
115 reg_set(comphy_base + COMMON_PHY_SD_CTRL1,
116 0x1 << COMMON_PHY_SD_CTRL1_PCIE_X4_EN_OFFSET,
117 COMMON_PHY_SD_CTRL1_PCIE_X4_EN_MASK);
118 } else if (pcie_width == 2) {
119 reg_set(comphy_base + COMMON_PHY_SD_CTRL1,
120 0x1 << COMMON_PHY_SD_CTRL1_PCIE_X2_EN_OFFSET,
121 COMMON_PHY_SD_CTRL1_PCIE_X2_EN_MASK);
122 }
123 }
124
125 /*
126 * If PCIe clock is output and clock source from SerDes lane 5,
127 * we need to configure the clock-source MUX.
128 * By default, the clock source is from lane 4
129 */
130 if (pcie_clk && clk_src && (lane == 5)) {
131 reg_set((void __iomem *)DFX_DEV_GEN_CTRL12,
132 0x3 << DFX_DEV_GEN_PCIE_CLK_SRC_OFFSET,
133 DFX_DEV_GEN_PCIE_CLK_SRC_MASK);
134 }
135
136 debug("stage: RFU configurations - hard reset comphy\n");
137 /* RFU configurations - hard reset comphy */
138 mask = COMMON_PHY_CFG1_PWR_UP_MASK;
139 data = 0x1 << COMMON_PHY_CFG1_PWR_UP_OFFSET;
140 mask |= COMMON_PHY_CFG1_PIPE_SELECT_MASK;
141 data |= 0x1 << COMMON_PHY_CFG1_PIPE_SELECT_OFFSET;
142 mask |= COMMON_PHY_CFG1_PWR_ON_RESET_MASK;
143 data |= 0x0 << COMMON_PHY_CFG1_PWR_ON_RESET_OFFSET;
144 mask |= COMMON_PHY_CFG1_CORE_RSTN_MASK;
145 data |= 0x0 << COMMON_PHY_CFG1_CORE_RSTN_OFFSET;
146 mask |= COMMON_PHY_PHY_MODE_MASK;
147 data |= 0x0 << COMMON_PHY_PHY_MODE_OFFSET;
148 reg_set(comphy_addr + COMMON_PHY_CFG1_REG, data, mask);
149
150 /* release from hard reset */
151 mask = COMMON_PHY_CFG1_PWR_ON_RESET_MASK;
152 data = 0x1 << COMMON_PHY_CFG1_PWR_ON_RESET_OFFSET;
153 mask |= COMMON_PHY_CFG1_CORE_RSTN_MASK;
154 data |= 0x1 << COMMON_PHY_CFG1_CORE_RSTN_OFFSET;
155 reg_set(comphy_addr + COMMON_PHY_CFG1_REG, data, mask);
156
157 /* Wait 1ms - until band gap and ref clock ready */
158 mdelay(1);
159 /* Start comphy Configuration */
160 debug("stage: Comphy configuration\n");
161 /* Set PIPE soft reset */
162 mask = HPIPE_RST_CLK_CTRL_PIPE_RST_MASK;
163 data = 0x1 << HPIPE_RST_CLK_CTRL_PIPE_RST_OFFSET;
164 /* Set PHY datapath width mode for V0 */
165 mask |= HPIPE_RST_CLK_CTRL_FIXED_PCLK_MASK;
166 data |= 0x1 << HPIPE_RST_CLK_CTRL_FIXED_PCLK_OFFSET;
167 /* Set Data bus width USB mode for V0 */
168 mask |= HPIPE_RST_CLK_CTRL_PIPE_WIDTH_MASK;
169 data |= 0x0 << HPIPE_RST_CLK_CTRL_PIPE_WIDTH_OFFSET;
170 /* Set CORE_CLK output frequency for 250Mhz */
171 mask |= HPIPE_RST_CLK_CTRL_CORE_FREQ_SEL_MASK;
172 data |= 0x0 << HPIPE_RST_CLK_CTRL_CORE_FREQ_SEL_OFFSET;
173 reg_set(hpipe_addr + HPIPE_RST_CLK_CTRL_REG, data, mask);
174 /* Set PLL ready delay for 0x2 */
175 data = 0x2 << HPIPE_CLK_SRC_LO_PLL_RDY_DL_OFFSET;
176 mask = HPIPE_CLK_SRC_LO_PLL_RDY_DL_MASK;
177 if (pcie_width != 1) {
178 data |= 0x1 << HPIPE_CLK_SRC_LO_BUNDLE_PERIOD_SEL_OFFSET;
179 mask |= HPIPE_CLK_SRC_LO_BUNDLE_PERIOD_SEL_MASK;
180 data |= 0x1 << HPIPE_CLK_SRC_LO_BUNDLE_PERIOD_SCALE_OFFSET;
181 mask |= HPIPE_CLK_SRC_LO_BUNDLE_PERIOD_SCALE_MASK;
182 }
183 reg_set(hpipe_addr + HPIPE_CLK_SRC_LO_REG, data, mask);
184
185 /* Set PIPE mode interface to PCIe3 - 0x1 & set lane order */
186 data = 0x1 << HPIPE_CLK_SRC_HI_MODE_PIPE_OFFSET;
187 mask = HPIPE_CLK_SRC_HI_MODE_PIPE_MASK;
188 if (pcie_width != 1) {
189 mask |= HPIPE_CLK_SRC_HI_LANE_STRT_MASK;
190 mask |= HPIPE_CLK_SRC_HI_LANE_MASTER_MASK;
191 mask |= HPIPE_CLK_SRC_HI_LANE_BREAK_MASK;
192 if (lane == 0) {
193 data |= 0x1 << HPIPE_CLK_SRC_HI_LANE_STRT_OFFSET;
194 data |= 0x1 << HPIPE_CLK_SRC_HI_LANE_MASTER_OFFSET;
195 } else if (lane == (pcie_width - 1)) {
196 data |= 0x1 << HPIPE_CLK_SRC_HI_LANE_BREAK_OFFSET;
197 }
198 }
199 reg_set(hpipe_addr + HPIPE_CLK_SRC_HI_REG, data, mask);
200 /* Config update polarity equalization */
201 reg_set(hpipe_addr + HPIPE_LANE_EQ_CFG1_REG,
202 0x1 << HPIPE_CFG_UPDATE_POLARITY_OFFSET,
203 HPIPE_CFG_UPDATE_POLARITY_MASK);
204 /* Set PIPE version 4 to mode enable */
205 reg_set(hpipe_addr + HPIPE_DFE_CTRL_28_REG,
206 0x1 << HPIPE_DFE_CTRL_28_PIPE4_OFFSET,
207 HPIPE_DFE_CTRL_28_PIPE4_MASK);
208 /* TODO: check if pcie clock is output/input - for bringup use input*/
209 /* Enable PIN clock 100M_125M */
210 mask = 0;
211 data = 0;
212 /* Only if clock is output, configure the clock-source mux */
213 if (pcie_clk) {
214 mask |= HPIPE_MISC_CLK100M_125M_MASK;
215 data |= 0x1 << HPIPE_MISC_CLK100M_125M_OFFSET;
216 }
217 /*
218 * Set PIN_TXDCLK_2X Clock Frequency Selection for outputs 500MHz
219 * clock
220 */
221 mask |= HPIPE_MISC_TXDCLK_2X_MASK;
222 data |= 0x0 << HPIPE_MISC_TXDCLK_2X_OFFSET;
223 /* Enable 500MHz Clock */
224 mask |= HPIPE_MISC_CLK500_EN_MASK;
225 data |= 0x1 << HPIPE_MISC_CLK500_EN_OFFSET;
226 if (pcie_clk) { /* output */
227 /* Set reference clock comes from group 1 */
228 mask |= HPIPE_MISC_REFCLK_SEL_MASK;
229 data |= 0x0 << HPIPE_MISC_REFCLK_SEL_OFFSET;
230 } else {
231 /* Set reference clock comes from group 2 */
232 mask |= HPIPE_MISC_REFCLK_SEL_MASK;
233 data |= 0x1 << HPIPE_MISC_REFCLK_SEL_OFFSET;
234 }
Igal Liberman50dd09e2017-04-24 18:45:33 +0300235 mask |= HPIPE_MISC_ICP_FORCE_MASK;
236 data |= 0x1 << HPIPE_MISC_ICP_FORCE_OFFSET;
Stefan Roese648391c2016-08-30 16:48:20 +0200237 reg_set(hpipe_addr + HPIPE_MISC_REG, data, mask);
238 if (pcie_clk) { /* output */
239 /* Set reference frequcency select - 0x2 for 25MHz*/
240 mask = HPIPE_PWR_PLL_REF_FREQ_MASK;
241 data = 0x2 << HPIPE_PWR_PLL_REF_FREQ_OFFSET;
242 } else {
243 /* Set reference frequcency select - 0x0 for 100MHz*/
244 mask = HPIPE_PWR_PLL_REF_FREQ_MASK;
245 data = 0x0 << HPIPE_PWR_PLL_REF_FREQ_OFFSET;
246 }
247 /* Set PHY mode to PCIe */
248 mask |= HPIPE_PWR_PLL_PHY_MODE_MASK;
249 data |= 0x3 << HPIPE_PWR_PLL_PHY_MODE_OFFSET;
250 reg_set(hpipe_addr + HPIPE_PWR_PLL_REG, data, mask);
251
252 /* ref clock alignment */
253 if (pcie_width != 1) {
254 mask = HPIPE_LANE_ALIGN_OFF_MASK;
255 data = 0x0 << HPIPE_LANE_ALIGN_OFF_OFFSET;
256 reg_set(hpipe_addr + HPIPE_LANE_ALIGN_REG, data, mask);
257 }
258
259 /*
260 * Set the amount of time spent in the LoZ state - set for 0x7 only if
261 * the PCIe clock is output
262 */
263 if (pcie_clk) {
264 reg_set(hpipe_addr + HPIPE_GLOBAL_PM_CTRL,
265 0x7 << HPIPE_GLOBAL_PM_RXDLOZ_WAIT_OFFSET,
266 HPIPE_GLOBAL_PM_RXDLOZ_WAIT_MASK);
267 }
268
269 /* Set Maximal PHY Generation Setting(8Gbps) */
270 mask = HPIPE_INTERFACE_GEN_MAX_MASK;
271 data = 0x2 << HPIPE_INTERFACE_GEN_MAX_OFFSET;
Igal Liberman50dd09e2017-04-24 18:45:33 +0300272 /* Bypass frame detection and sync detection for RX DATA */
273 mask = HPIPE_INTERFACE_DET_BYPASS_MASK;
274 data = 0x1 << HPIPE_INTERFACE_DET_BYPASS_OFFSET;
Stefan Roese648391c2016-08-30 16:48:20 +0200275 /* Set Link Train Mode (Tx training control pins are used) */
276 mask |= HPIPE_INTERFACE_LINK_TRAIN_MASK;
277 data |= 0x1 << HPIPE_INTERFACE_LINK_TRAIN_OFFSET;
278 reg_set(hpipe_addr + HPIPE_INTERFACE_REG, data, mask);
279
280 /* Set Idle_sync enable */
281 mask = HPIPE_PCIE_IDLE_SYNC_MASK;
282 data = 0x1 << HPIPE_PCIE_IDLE_SYNC_OFFSET;
283 /* Select bits for PCIE Gen3(32bit) */
284 mask |= HPIPE_PCIE_SEL_BITS_MASK;
285 data |= 0x2 << HPIPE_PCIE_SEL_BITS_OFFSET;
286 reg_set(hpipe_addr + HPIPE_PCIE_REG0, data, mask);
287
288 /* Enable Tx_adapt_g1 */
289 mask = HPIPE_TX_TRAIN_CTRL_G1_MASK;
290 data = 0x1 << HPIPE_TX_TRAIN_CTRL_G1_OFFSET;
291 /* Enable Tx_adapt_gn1 */
292 mask |= HPIPE_TX_TRAIN_CTRL_GN1_MASK;
293 data |= 0x1 << HPIPE_TX_TRAIN_CTRL_GN1_OFFSET;
294 /* Disable Tx_adapt_g0 */
295 mask |= HPIPE_TX_TRAIN_CTRL_G0_MASK;
296 data |= 0x0 << HPIPE_TX_TRAIN_CTRL_G0_OFFSET;
297 reg_set(hpipe_addr + HPIPE_TX_TRAIN_CTRL_REG, data, mask);
298
299 /* Set reg_tx_train_chk_init */
300 mask = HPIPE_TX_TRAIN_CHK_INIT_MASK;
301 data = 0x0 << HPIPE_TX_TRAIN_CHK_INIT_OFFSET;
302 /* Enable TX_COE_FM_PIN_PCIE3_EN */
303 mask |= HPIPE_TX_TRAIN_COE_FM_PIN_PCIE3_MASK;
304 data |= 0x1 << HPIPE_TX_TRAIN_COE_FM_PIN_PCIE3_OFFSET;
305 reg_set(hpipe_addr + HPIPE_TX_TRAIN_REG, data, mask);
306
307 debug("stage: TRx training parameters\n");
308 /* Set Preset sweep configurations */
309 mask = HPIPE_TX_TX_STATUS_CHECK_MODE_MASK;
310 data = 0x1 << HPIPE_TX_STATUS_CHECK_MODE_OFFSET;
311
312 mask |= HPIPE_TX_NUM_OF_PRESET_MASK;
313 data |= 0x7 << HPIPE_TX_NUM_OF_PRESET_OFFSET;
314
315 mask |= HPIPE_TX_SWEEP_PRESET_EN_MASK;
316 data |= 0x1 << HPIPE_TX_SWEEP_PRESET_EN_OFFSET;
317 reg_set(hpipe_addr + HPIPE_TX_TRAIN_CTRL_11_REG, data, mask);
318
319 /* Tx train start configuration */
320 mask = HPIPE_TX_TRAIN_START_SQ_EN_MASK;
321 data = 0x1 << HPIPE_TX_TRAIN_START_SQ_EN_OFFSET;
322
323 mask |= HPIPE_TX_TRAIN_START_FRM_DET_EN_MASK;
324 data |= 0x0 << HPIPE_TX_TRAIN_START_FRM_DET_EN_OFFSET;
325
326 mask |= HPIPE_TX_TRAIN_START_FRM_LOCK_EN_MASK;
327 data |= 0x0 << HPIPE_TX_TRAIN_START_FRM_LOCK_EN_OFFSET;
328
329 mask |= HPIPE_TX_TRAIN_WAIT_TIME_EN_MASK;
330 data |= 0x1 << HPIPE_TX_TRAIN_WAIT_TIME_EN_OFFSET;
331 reg_set(hpipe_addr + HPIPE_TX_TRAIN_CTRL_5_REG, data, mask);
332
333 /* Enable Tx train P2P */
334 mask = HPIPE_TX_TRAIN_P2P_HOLD_MASK;
335 data = 0x1 << HPIPE_TX_TRAIN_P2P_HOLD_OFFSET;
336 reg_set(hpipe_addr + HPIPE_TX_TRAIN_CTRL_0_REG, data, mask);
337
338 /* Configure Tx train timeout */
339 mask = HPIPE_TRX_TRAIN_TIMER_MASK;
340 data = 0x17 << HPIPE_TRX_TRAIN_TIMER_OFFSET;
341 reg_set(hpipe_addr + HPIPE_TX_TRAIN_CTRL_4_REG, data, mask);
342
343 /* Disable G0/G1/GN1 adaptation */
344 mask = HPIPE_TX_TRAIN_CTRL_G1_MASK | HPIPE_TX_TRAIN_CTRL_GN1_MASK
345 | HPIPE_TX_TRAIN_CTRL_G0_OFFSET;
346 data = 0;
347 reg_set(hpipe_addr + HPIPE_TX_TRAIN_CTRL_REG, data, mask);
348
349 /* Disable DTL frequency loop */
350 mask = HPIPE_PWR_CTR_DTL_FLOOP_EN_MASK;
351 data = 0x0 << HPIPE_PWR_CTR_DTL_FLOOP_EN_OFFSET;
352 reg_set(hpipe_addr + HPIPE_PWR_CTR_DTL_REG, data, mask);
353
354 /* Configure G3 DFE */
355 mask = HPIPE_G3_DFE_RES_MASK;
356 data = 0x3 << HPIPE_G3_DFE_RES_OFFSET;
357 reg_set(hpipe_addr + HPIPE_G3_SETTING_4_REG, data, mask);
358
Igal Liberman50dd09e2017-04-24 18:45:33 +0300359 /* Use TX/RX training result for DFE */
Stefan Roese648391c2016-08-30 16:48:20 +0200360 mask = HPIPE_DFE_RES_FORCE_MASK;
Igal Liberman50dd09e2017-04-24 18:45:33 +0300361 data = 0x0 << HPIPE_DFE_RES_FORCE_OFFSET;
Stefan Roese648391c2016-08-30 16:48:20 +0200362 reg_set(hpipe_addr + HPIPE_DFE_REG0, data, mask);
363
364 /* Configure initial and final coefficient value for receiver */
Igal Liberman547a98f2017-04-24 18:45:26 +0300365 mask = HPIPE_G3_SET_1_G3_RX_SELMUPI_MASK;
366 data = 0x1 << HPIPE_G3_SET_1_G3_RX_SELMUPI_OFFSET;
Stefan Roese648391c2016-08-30 16:48:20 +0200367
Igal Liberman547a98f2017-04-24 18:45:26 +0300368 mask |= HPIPE_G3_SET_1_G3_RX_SELMUPF_MASK;
369 data |= 0x1 << HPIPE_G3_SET_1_G3_RX_SELMUPF_OFFSET;
Stefan Roese648391c2016-08-30 16:48:20 +0200370
Igal Liberman547a98f2017-04-24 18:45:26 +0300371 mask |= HPIPE_G3_SET_1_G3_SAMPLER_INPAIRX2_EN_MASK;
372 data |= 0x0 << HPIPE_G3_SET_1_G3_SAMPLER_INPAIRX2_EN_OFFSET;
373 reg_set(hpipe_addr + HPIPE_G3_SET_1_REG, data, mask);
Stefan Roese648391c2016-08-30 16:48:20 +0200374
375 /* Trigger sampler enable pulse */
376 mask = HPIPE_SMAPLER_MASK;
377 data = 0x1 << HPIPE_SMAPLER_OFFSET;
378 reg_set(hpipe_addr + HPIPE_SAMPLER_N_PROC_CALIB_CTRL_REG, data, mask);
379 udelay(5);
380 reg_set(hpipe_addr + HPIPE_SAMPLER_N_PROC_CALIB_CTRL_REG, 0, mask);
381
382 /* FFE resistor tuning for different bandwidth */
383 mask = HPIPE_G3_FFE_DEG_RES_LEVEL_MASK;
384 data = 0x1 << HPIPE_G3_FFE_DEG_RES_LEVEL_OFFSET;
385
386 mask |= HPIPE_G3_FFE_LOAD_RES_LEVEL_MASK;
Igal Liberman50dd09e2017-04-24 18:45:33 +0300387 data |= 0x3 << HPIPE_G3_FFE_LOAD_RES_LEVEL_OFFSET;
Stefan Roese648391c2016-08-30 16:48:20 +0200388 reg_set(hpipe_addr + HPIPE_G3_SETTING_3_REG, data, mask);
389
Igal Liberman50dd09e2017-04-24 18:45:33 +0300390 /* Pattern lock lost timeout disable */
391 mask = HPIPE_PATTERN_LOCK_LOST_TIMEOUT_EN_MASK;
392 data = 0x0 << HPIPE_PATTERN_LOCK_LOST_TIMEOUT_EN_OFFSET;
393 reg_set(hpipe_addr + HPIPE_FRAME_DETECT_CTRL_3_REG, data, mask);
394
395 /* Configure DFE adaptations */
396 mask = HPIPE_CDR_MAX_DFE_ADAPT_1_MASK;
397 data = 0x1 << HPIPE_CDR_MAX_DFE_ADAPT_1_OFFSET;
398 mask |= HPIPE_CDR_MAX_DFE_ADAPT_0_MASK;
399 data |= 0x0 << HPIPE_CDR_MAX_DFE_ADAPT_0_OFFSET;
400 mask |= HPIPE_CDR_RX_MAX_DFE_ADAPT_1_MASK;
401 data |= 0x0 << HPIPE_CDR_RX_MAX_DFE_ADAPT_1_OFFSET;
402 reg_set(hpipe_addr + HPIPE_CDR_CONTROL_REG, data, mask);
403 mask = HPIPE_DFE_TX_MAX_DFE_ADAPT_MASK;
404 data = 0x0 << HPIPE_DFE_TX_MAX_DFE_ADAPT_OFFSET;
405 reg_set(hpipe_addr + HPIPE_DFE_CONTROL_REG, data, mask);
406
407 /* Genration 2 setting 1*/
408 mask = HPIPE_G2_SET_1_G2_RX_SELMUPI_MASK;
409 data = 0x0 << HPIPE_G2_SET_1_G2_RX_SELMUPI_OFFSET;
410 mask |= HPIPE_G2_SET_1_G2_RX_SELMUPP_MASK;
411 data |= 0x1 << HPIPE_G2_SET_1_G2_RX_SELMUPP_OFFSET;
412 mask |= HPIPE_G2_SET_1_G2_RX_SELMUFI_MASK;
413 data |= 0x0 << HPIPE_G2_SET_1_G2_RX_SELMUFI_OFFSET;
414 reg_set(hpipe_addr + HPIPE_G2_SET_1_REG, data, mask);
415
416 /* DFE enable */
417 mask = HPIPE_G2_DFE_RES_MASK;
418 data = 0x3 << HPIPE_G2_DFE_RES_OFFSET;
419 reg_set(hpipe_addr + HPIPE_G2_SETTINGS_4_REG, data, mask);
420
421 /* Configure DFE Resolution */
422 mask = HPIPE_LANE_CFG4_DFE_EN_SEL_MASK;
423 data = 0x1 << HPIPE_LANE_CFG4_DFE_EN_SEL_OFFSET;
424 reg_set(hpipe_addr + HPIPE_LANE_CFG4_REG, data, mask);
425
426 /* VDD calibration control */
427 mask = HPIPE_EXT_SELLV_RXSAMPL_MASK;
428 data = 0x16 << HPIPE_EXT_SELLV_RXSAMPL_OFFSET;
429 reg_set(hpipe_addr + HPIPE_VDD_CAL_CTRL_REG, data, mask);
430
431 /* Set PLL Charge-pump Current Control */
432 mask = HPIPE_G3_SETTING_5_G3_ICP_MASK;
433 data = 0x4 << HPIPE_G3_SETTING_5_G3_ICP_OFFSET;
434 reg_set(hpipe_addr + HPIPE_G3_SETTING_5_REG, data, mask);
435
436 /* Set lane rqualization remote setting */
437 mask = HPIPE_LANE_CFG_FOM_DIRN_OVERRIDE_MASK;
438 data = 0x1 << HPIPE_LANE_CFG_FOM_DIRN_OVERRIDE_OFFSET;
439 mask |= HPIPE_LANE_CFG_FOM_ONLY_MODE_MASK;
440 data |= 0x1 << HPIPE_LANE_CFG_FOM_ONLY_MODE_OFFFSET;
441 mask |= HPIPE_LANE_CFG_FOM_PRESET_VECTOR_MASK;
442 data |= 0x2 << HPIPE_LANE_CFG_FOM_PRESET_VECTOR_OFFSET;
443 reg_set(hpipe_addr + HPIPE_LANE_EQ_REMOTE_SETTING_REG, data, mask);
444
Stefan Roese2313efe2017-04-24 18:45:22 +0300445 if (!is_end_point) {
446 /* Set phy in root complex mode */
447 mask = HPIPE_CFG_PHY_RC_EP_MASK;
448 data = 0x1 << HPIPE_CFG_PHY_RC_EP_OFFSET;
449 reg_set(hpipe_addr + HPIPE_LANE_EQU_CONFIG_0_REG, data, mask);
450 }
Stefan Roese648391c2016-08-30 16:48:20 +0200451
452 debug("stage: Comphy power up\n");
453
454 /*
455 * For PCIe by4 or by2 - release from reset only after finish to
456 * configure all lanes
457 */
458 if ((pcie_width == 1) || (lane == (pcie_width - 1))) {
459 u32 i, start_lane, end_lane;
460
461 if (pcie_width != 1) {
462 /* allows writing to all lanes in one write */
463 reg_set(comphy_base + COMMON_PHY_SD_CTRL1,
464 0x0 <<
465 COMMON_PHY_SD_CTRL1_COMPHY_0_4_PORT_OFFSET,
466 COMMON_PHY_SD_CTRL1_COMPHY_0_4_PORT_MASK);
467 start_lane = 0;
468 end_lane = pcie_width;
469
470 /*
471 * Release from PIPE soft reset
472 * for PCIe by4 or by2 - release from soft reset
473 * all lanes - can't use read modify write
474 */
475 reg_set(HPIPE_ADDR(hpipe_base, 0) +
476 HPIPE_RST_CLK_CTRL_REG, 0x24, 0xffffffff);
477 } else {
478 start_lane = lane;
479 end_lane = lane + 1;
480
481 /*
482 * Release from PIPE soft reset
483 * for PCIe by4 or by2 - release from soft reset
484 * all lanes
485 */
486 reg_set(hpipe_addr + HPIPE_RST_CLK_CTRL_REG,
487 0x0 << HPIPE_RST_CLK_CTRL_PIPE_RST_OFFSET,
488 HPIPE_RST_CLK_CTRL_PIPE_RST_MASK);
489 }
490
491
492 if (pcie_width != 1) {
493 /* disable writing to all lanes with one write */
494 reg_set(comphy_base + COMMON_PHY_SD_CTRL1,
495 0x3210 <<
496 COMMON_PHY_SD_CTRL1_COMPHY_0_4_PORT_OFFSET,
497 COMMON_PHY_SD_CTRL1_COMPHY_0_4_PORT_MASK);
498 }
499
500 debug("stage: Check PLL\n");
501 /* Read lane status */
502 for (i = start_lane; i < end_lane; i++) {
503 addr = HPIPE_ADDR(hpipe_base, i) +
504 HPIPE_LANE_STATUS1_REG;
505 data = HPIPE_LANE_STATUS1_PCLK_EN_MASK;
506 mask = data;
507 data = polling_with_timeout(addr, data, mask, 15000);
508 if (data != 0) {
509 debug("Read from reg = %p - value = 0x%x\n",
510 hpipe_addr + HPIPE_LANE_STATUS1_REG,
511 data);
Masahiro Yamada81e10422017-09-16 14:10:41 +0900512 pr_err("HPIPE_LANE_STATUS1_PCLK_EN_MASK is 0\n");
Stefan Roese648391c2016-08-30 16:48:20 +0200513 ret = 0;
514 }
515 }
516 }
517
518 debug_exit();
519 return ret;
520}
521
522static int comphy_usb3_power_up(u32 lane, void __iomem *hpipe_base,
523 void __iomem *comphy_base)
524{
525 u32 mask, data, ret = 1;
526 void __iomem *hpipe_addr = HPIPE_ADDR(hpipe_base, lane);
527 void __iomem *comphy_addr = COMPHY_ADDR(comphy_base, lane);
528 void __iomem *addr;
529
530 debug_enter();
531 debug("stage: RFU configurations - hard reset comphy\n");
532 /* RFU configurations - hard reset comphy */
533 mask = COMMON_PHY_CFG1_PWR_UP_MASK;
534 data = 0x1 << COMMON_PHY_CFG1_PWR_UP_OFFSET;
535 mask |= COMMON_PHY_CFG1_PIPE_SELECT_MASK;
536 data |= 0x1 << COMMON_PHY_CFG1_PIPE_SELECT_OFFSET;
537 mask |= COMMON_PHY_CFG1_PWR_ON_RESET_MASK;
538 data |= 0x0 << COMMON_PHY_CFG1_PWR_ON_RESET_OFFSET;
539 mask |= COMMON_PHY_CFG1_CORE_RSTN_MASK;
540 data |= 0x0 << COMMON_PHY_CFG1_CORE_RSTN_OFFSET;
541 mask |= COMMON_PHY_PHY_MODE_MASK;
542 data |= 0x1 << COMMON_PHY_PHY_MODE_OFFSET;
543 reg_set(comphy_addr + COMMON_PHY_CFG1_REG, data, mask);
544
545 /* release from hard reset */
546 mask = COMMON_PHY_CFG1_PWR_ON_RESET_MASK;
547 data = 0x1 << COMMON_PHY_CFG1_PWR_ON_RESET_OFFSET;
548 mask |= COMMON_PHY_CFG1_CORE_RSTN_MASK;
549 data |= 0x1 << COMMON_PHY_CFG1_CORE_RSTN_OFFSET;
550 reg_set(comphy_addr + COMMON_PHY_CFG1_REG, data, mask);
551
552 /* Wait 1ms - until band gap and ref clock ready */
553 mdelay(1);
554
555 /* Start comphy Configuration */
556 debug("stage: Comphy configuration\n");
557 /* Set PIPE soft reset */
558 mask = HPIPE_RST_CLK_CTRL_PIPE_RST_MASK;
559 data = 0x1 << HPIPE_RST_CLK_CTRL_PIPE_RST_OFFSET;
560 /* Set PHY datapath width mode for V0 */
561 mask |= HPIPE_RST_CLK_CTRL_FIXED_PCLK_MASK;
562 data |= 0x0 << HPIPE_RST_CLK_CTRL_FIXED_PCLK_OFFSET;
563 /* Set Data bus width USB mode for V0 */
564 mask |= HPIPE_RST_CLK_CTRL_PIPE_WIDTH_MASK;
565 data |= 0x0 << HPIPE_RST_CLK_CTRL_PIPE_WIDTH_OFFSET;
566 /* Set CORE_CLK output frequency for 250Mhz */
567 mask |= HPIPE_RST_CLK_CTRL_CORE_FREQ_SEL_MASK;
568 data |= 0x0 << HPIPE_RST_CLK_CTRL_CORE_FREQ_SEL_OFFSET;
569 reg_set(hpipe_addr + HPIPE_RST_CLK_CTRL_REG, data, mask);
570 /* Set PLL ready delay for 0x2 */
571 reg_set(hpipe_addr + HPIPE_CLK_SRC_LO_REG,
572 0x2 << HPIPE_CLK_SRC_LO_PLL_RDY_DL_OFFSET,
573 HPIPE_CLK_SRC_LO_PLL_RDY_DL_MASK);
574 /* Set reference clock to come from group 1 - 25Mhz */
575 reg_set(hpipe_addr + HPIPE_MISC_REG,
576 0x0 << HPIPE_MISC_REFCLK_SEL_OFFSET,
577 HPIPE_MISC_REFCLK_SEL_MASK);
578 /* Set reference frequcency select - 0x2 */
579 mask = HPIPE_PWR_PLL_REF_FREQ_MASK;
580 data = 0x2 << HPIPE_PWR_PLL_REF_FREQ_OFFSET;
581 /* Set PHY mode to USB - 0x5 */
582 mask |= HPIPE_PWR_PLL_PHY_MODE_MASK;
583 data |= 0x5 << HPIPE_PWR_PLL_PHY_MODE_OFFSET;
584 reg_set(hpipe_addr + HPIPE_PWR_PLL_REG, data, mask);
585 /* Set the amount of time spent in the LoZ state - set for 0x7 */
586 reg_set(hpipe_addr + HPIPE_GLOBAL_PM_CTRL,
587 0x7 << HPIPE_GLOBAL_PM_RXDLOZ_WAIT_OFFSET,
588 HPIPE_GLOBAL_PM_RXDLOZ_WAIT_MASK);
589 /* Set max PHY generation setting - 5Gbps */
590 reg_set(hpipe_addr + HPIPE_INTERFACE_REG,
591 0x1 << HPIPE_INTERFACE_GEN_MAX_OFFSET,
592 HPIPE_INTERFACE_GEN_MAX_MASK);
593 /* Set select data width 20Bit (SEL_BITS[2:0]) */
594 reg_set(hpipe_addr + HPIPE_LOOPBACK_REG,
595 0x1 << HPIPE_LOOPBACK_SEL_OFFSET,
596 HPIPE_LOOPBACK_SEL_MASK);
597 /* select de-emphasize 3.5db */
598 reg_set(hpipe_addr + HPIPE_LANE_CONFIG0_REG,
599 0x1 << HPIPE_LANE_CONFIG0_TXDEEMPH0_OFFSET,
600 HPIPE_LANE_CONFIG0_TXDEEMPH0_MASK);
601 /* override tx margining from the MAC */
602 reg_set(hpipe_addr + HPIPE_TST_MODE_CTRL_REG,
603 0x1 << HPIPE_TST_MODE_CTRL_MODE_MARGIN_OFFSET,
604 HPIPE_TST_MODE_CTRL_MODE_MARGIN_MASK);
605
606 /* Start analog paramters from ETP(HW) */
607 debug("stage: Analog paramters from ETP(HW)\n");
608 /* Set Pin DFE_PAT_DIS -> Bit[1]: PIN_DFE_PAT_DIS = 0x0 */
609 mask = HPIPE_LANE_CFG4_DFE_CTRL_MASK;
610 data = 0x1 << HPIPE_LANE_CFG4_DFE_CTRL_OFFSET;
611 /* Set Override PHY DFE control pins for 0x1 */
612 mask |= HPIPE_LANE_CFG4_DFE_OVER_MASK;
613 data |= 0x1 << HPIPE_LANE_CFG4_DFE_OVER_OFFSET;
614 /* Set Spread Spectrum Clock Enable fot 0x1 */
615 mask |= HPIPE_LANE_CFG4_SSC_CTRL_MASK;
616 data |= 0x1 << HPIPE_LANE_CFG4_SSC_CTRL_OFFSET;
617 reg_set(hpipe_addr + HPIPE_LANE_CFG4_REG, data, mask);
618 /* End of analog parameters */
619
620 debug("stage: Comphy power up\n");
621 /* Release from PIPE soft reset */
622 reg_set(hpipe_addr + HPIPE_RST_CLK_CTRL_REG,
623 0x0 << HPIPE_RST_CLK_CTRL_PIPE_RST_OFFSET,
624 HPIPE_RST_CLK_CTRL_PIPE_RST_MASK);
625
626 /* wait 15ms - for comphy calibration done */
627 debug("stage: Check PLL\n");
628 /* Read lane status */
629 addr = hpipe_addr + HPIPE_LANE_STATUS1_REG;
630 data = HPIPE_LANE_STATUS1_PCLK_EN_MASK;
631 mask = data;
632 data = polling_with_timeout(addr, data, mask, 15000);
633 if (data != 0) {
634 debug("Read from reg = %p - value = 0x%x\n",
635 hpipe_addr + HPIPE_LANE_STATUS1_REG, data);
Masahiro Yamada81e10422017-09-16 14:10:41 +0900636 pr_err("HPIPE_LANE_STATUS1_PCLK_EN_MASK is 0\n");
Stefan Roese648391c2016-08-30 16:48:20 +0200637 ret = 0;
638 }
639
640 debug_exit();
641 return ret;
642}
643
644static int comphy_sata_power_up(u32 lane, void __iomem *hpipe_base,
Igal Libermanc8855ce2017-04-24 18:45:32 +0300645 void __iomem *comphy_base, int cp_index)
Stefan Roese648391c2016-08-30 16:48:20 +0200646{
647 u32 mask, data, i, ret = 1;
648 void __iomem *hpipe_addr = HPIPE_ADDR(hpipe_base, lane);
649 void __iomem *sd_ip_addr = SD_ADDR(hpipe_base, lane);
650 void __iomem *comphy_addr = COMPHY_ADDR(comphy_base, lane);
651 void __iomem *addr;
652 void __iomem *sata_base = NULL;
653 int sata_node = -1; /* Set to -1 in order to read the first sata node */
654
655 debug_enter();
656
657 /*
658 * Assumption - each CP has only one SATA controller
659 * Calling fdt_node_offset_by_compatible first time (with sata_node = -1
660 * will return the first node always.
661 * In order to parse each CPs SATA node, fdt_node_offset_by_compatible
662 * must be called again (according to the CP id)
663 */
Igal Libermanc8855ce2017-04-24 18:45:32 +0300664 for (i = 0; i < (cp_index + 1); i++)
Stefan Roese648391c2016-08-30 16:48:20 +0200665 sata_node = fdt_node_offset_by_compatible(
666 gd->fdt_blob, sata_node, "marvell,armada-8k-ahci");
667
668 if (sata_node == 0) {
Masahiro Yamada81e10422017-09-16 14:10:41 +0900669 pr_err("SATA node not found in FDT\n");
Stefan Roese648391c2016-08-30 16:48:20 +0200670 return 0;
671 }
672
673 sata_base = (void __iomem *)fdtdec_get_addr_size_auto_noparent(
674 gd->fdt_blob, sata_node, "reg", 0, NULL, true);
675 if (sata_base == NULL) {
Masahiro Yamada81e10422017-09-16 14:10:41 +0900676 pr_err("SATA address not found in FDT\n");
Stefan Roese648391c2016-08-30 16:48:20 +0200677 return 0;
678 }
679
680 debug("SATA address found in FDT %p\n", sata_base);
681
682 debug("stage: MAC configuration - power down comphy\n");
683 /*
684 * MAC configuration powe down comphy use indirect address for
685 * vendor spesific SATA control register
686 */
687 reg_set(sata_base + SATA3_VENDOR_ADDRESS,
688 SATA_CONTROL_REG << SATA3_VENDOR_ADDR_OFSSET,
689 SATA3_VENDOR_ADDR_MASK);
690 /* SATA 0 power down */
691 mask = SATA3_CTRL_SATA0_PD_MASK;
692 data = 0x1 << SATA3_CTRL_SATA0_PD_OFFSET;
693 /* SATA 1 power down */
694 mask |= SATA3_CTRL_SATA1_PD_MASK;
695 data |= 0x1 << SATA3_CTRL_SATA1_PD_OFFSET;
696 /* SATA SSU disable */
697 mask |= SATA3_CTRL_SATA1_ENABLE_MASK;
698 data |= 0x0 << SATA3_CTRL_SATA1_ENABLE_OFFSET;
699 /* SATA port 1 disable */
700 mask |= SATA3_CTRL_SATA_SSU_MASK;
701 data |= 0x0 << SATA3_CTRL_SATA_SSU_OFFSET;
702 reg_set(sata_base + SATA3_VENDOR_DATA, data, mask);
703
704 debug("stage: RFU configurations - hard reset comphy\n");
705 /* RFU configurations - hard reset comphy */
706 mask = COMMON_PHY_CFG1_PWR_UP_MASK;
707 data = 0x1 << COMMON_PHY_CFG1_PWR_UP_OFFSET;
708 mask |= COMMON_PHY_CFG1_PIPE_SELECT_MASK;
709 data |= 0x0 << COMMON_PHY_CFG1_PIPE_SELECT_OFFSET;
710 mask |= COMMON_PHY_CFG1_PWR_ON_RESET_MASK;
711 data |= 0x0 << COMMON_PHY_CFG1_PWR_ON_RESET_OFFSET;
712 mask |= COMMON_PHY_CFG1_CORE_RSTN_MASK;
713 data |= 0x0 << COMMON_PHY_CFG1_CORE_RSTN_OFFSET;
714 reg_set(comphy_addr + COMMON_PHY_CFG1_REG, data, mask);
715
716 /* Set select data width 40Bit - SATA mode only */
717 reg_set(comphy_addr + COMMON_PHY_CFG6_REG,
718 0x1 << COMMON_PHY_CFG6_IF_40_SEL_OFFSET,
719 COMMON_PHY_CFG6_IF_40_SEL_MASK);
720
721 /* release from hard reset in SD external */
722 mask = SD_EXTERNAL_CONFIG1_RESET_IN_MASK;
723 data = 0x1 << SD_EXTERNAL_CONFIG1_RESET_IN_OFFSET;
724 mask |= SD_EXTERNAL_CONFIG1_RESET_CORE_MASK;
725 data |= 0x1 << SD_EXTERNAL_CONFIG1_RESET_CORE_OFFSET;
726 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
727
728 /* Wait 1ms - until band gap and ref clock ready */
729 mdelay(1);
730
731 debug("stage: Comphy configuration\n");
732 /* Start comphy Configuration */
733 /* Set reference clock to comes from group 1 - choose 25Mhz */
734 reg_set(hpipe_addr + HPIPE_MISC_REG,
735 0x0 << HPIPE_MISC_REFCLK_SEL_OFFSET,
736 HPIPE_MISC_REFCLK_SEL_MASK);
737 /* Reference frequency select set 1 (for SATA = 25Mhz) */
738 mask = HPIPE_PWR_PLL_REF_FREQ_MASK;
739 data = 0x1 << HPIPE_PWR_PLL_REF_FREQ_OFFSET;
740 /* PHY mode select (set SATA = 0x0 */
741 mask |= HPIPE_PWR_PLL_PHY_MODE_MASK;
742 data |= 0x0 << HPIPE_PWR_PLL_PHY_MODE_OFFSET;
743 reg_set(hpipe_addr + HPIPE_PWR_PLL_REG, data, mask);
744 /* Set max PHY generation setting - 6Gbps */
745 reg_set(hpipe_addr + HPIPE_INTERFACE_REG,
746 0x2 << HPIPE_INTERFACE_GEN_MAX_OFFSET,
747 HPIPE_INTERFACE_GEN_MAX_MASK);
748 /* Set select data width 40Bit (SEL_BITS[2:0]) */
749 reg_set(hpipe_addr + HPIPE_LOOPBACK_REG,
750 0x2 << HPIPE_LOOPBACK_SEL_OFFSET, HPIPE_LOOPBACK_SEL_MASK);
751
752 debug("stage: Analog paramters from ETP(HW)\n");
Igal Liberman547a98f2017-04-24 18:45:26 +0300753 /* Set analog parameters from ETP(HW) */
754 /* G1 settings */
755 mask = HPIPE_G1_SET_1_G1_RX_SELMUPI_MASK;
756 data = 0x0 << HPIPE_G1_SET_1_G1_RX_SELMUPI_OFFSET;
757 mask |= HPIPE_G1_SET_1_G1_RX_SELMUPP_MASK;
758 data |= 0x1 << HPIPE_G1_SET_1_G1_RX_SELMUPP_OFFSET;
759 mask |= HPIPE_G1_SET_1_G1_RX_SELMUFI_MASK;
760 data |= 0x0 << HPIPE_G1_SET_1_G1_RX_SELMUFI_OFFSET;
761 mask |= HPIPE_G1_SET_1_G1_RX_SELMUFF_MASK;
762 data |= 0x3 << HPIPE_G1_SET_1_G1_RX_SELMUFF_OFFSET;
763 mask |= HPIPE_G1_SET_1_G1_RX_DIGCK_DIV_MASK;
764 data |= 0x1 << HPIPE_G1_SET_1_G1_RX_DIGCK_DIV_OFFSET;
765 reg_set(hpipe_addr + HPIPE_G1_SET_1_REG, data, mask);
766
767 mask = HPIPE_G1_SETTINGS_3_G1_FFE_CAP_SEL_MASK;
768 data = 0xf << HPIPE_G1_SETTINGS_3_G1_FFE_CAP_SEL_OFFSET;
769 mask |= HPIPE_G1_SETTINGS_3_G1_FFE_RES_SEL_MASK;
770 data |= 0x2 << HPIPE_G1_SETTINGS_3_G1_FFE_RES_SEL_OFFSET;
771 mask |= HPIPE_G1_SETTINGS_3_G1_FFE_SETTING_FORCE_MASK;
772 data |= 0x1 << HPIPE_G1_SETTINGS_3_G1_FFE_SETTING_FORCE_OFFSET;
773 mask |= HPIPE_G1_SETTINGS_3_G1_FFE_DEG_RES_LEVEL_MASK;
774 data |= 0x1 << HPIPE_G1_SETTINGS_3_G1_FFE_DEG_RES_LEVEL_OFFSET;
775 mask |= HPIPE_G1_SETTINGS_3_G1_FFE_LOAD_RES_LEVEL_MASK;
776 data |= 0x1 << HPIPE_G1_SETTINGS_3_G1_FFE_LOAD_RES_LEVEL_OFFSET;
777 reg_set(hpipe_addr + HPIPE_G1_SETTINGS_3_REG, data, mask);
778
779 /* G2 settings */
780 mask = HPIPE_G2_SET_1_G2_RX_SELMUPI_MASK;
781 data = 0x0 << HPIPE_G2_SET_1_G2_RX_SELMUPI_OFFSET;
782 mask |= HPIPE_G2_SET_1_G2_RX_SELMUPP_MASK;
783 data |= 0x1 << HPIPE_G2_SET_1_G2_RX_SELMUPP_OFFSET;
784 mask |= HPIPE_G2_SET_1_G2_RX_SELMUFI_MASK;
785 data |= 0x0 << HPIPE_G2_SET_1_G2_RX_SELMUFI_OFFSET;
786 mask |= HPIPE_G2_SET_1_G2_RX_SELMUFF_MASK;
787 data |= 0x3 << HPIPE_G2_SET_1_G2_RX_SELMUFF_OFFSET;
788 mask |= HPIPE_G2_SET_1_G2_RX_DIGCK_DIV_MASK;
789 data |= 0x1 << HPIPE_G2_SET_1_G2_RX_DIGCK_DIV_OFFSET;
790 reg_set(hpipe_addr + HPIPE_G2_SET_1_REG, data, mask);
791
792 /* G3 settings */
793 mask = HPIPE_G3_SET_1_G3_RX_SELMUPI_MASK;
794 data = 0x2 << HPIPE_G3_SET_1_G3_RX_SELMUPI_OFFSET;
795 mask |= HPIPE_G3_SET_1_G3_RX_SELMUPF_MASK;
796 data |= 0x2 << HPIPE_G3_SET_1_G3_RX_SELMUPF_OFFSET;
797 mask |= HPIPE_G3_SET_1_G3_RX_SELMUFI_MASK;
798 data |= 0x3 << HPIPE_G3_SET_1_G3_RX_SELMUFI_OFFSET;
799 mask |= HPIPE_G3_SET_1_G3_RX_SELMUFF_MASK;
800 data |= 0x3 << HPIPE_G3_SET_1_G3_RX_SELMUFF_OFFSET;
801 mask |= HPIPE_G3_SET_1_G3_RX_DFE_EN_MASK;
802 data |= 0x1 << HPIPE_G3_SET_1_G3_RX_DFE_EN_OFFSET;
803 mask |= HPIPE_G3_SET_1_G3_RX_DIGCK_DIV_MASK;
804 data |= 0x2 << HPIPE_G3_SET_1_G3_RX_DIGCK_DIV_OFFSET;
805 mask |= HPIPE_G3_SET_1_G3_SAMPLER_INPAIRX2_EN_MASK;
806 data |= 0x0 << HPIPE_G3_SET_1_G3_SAMPLER_INPAIRX2_EN_OFFSET;
807 reg_set(hpipe_addr + HPIPE_G3_SET_1_REG, data, mask);
808
809 /* DTL Control */
810 mask = HPIPE_PWR_CTR_DTL_SQ_DET_EN_MASK;
811 data = 0x1 << HPIPE_PWR_CTR_DTL_SQ_DET_EN_OFFSET;
812 mask |= HPIPE_PWR_CTR_DTL_SQ_PLOOP_EN_MASK;
813 data |= 0x1 << HPIPE_PWR_CTR_DTL_SQ_PLOOP_EN_OFFSET;
814 mask |= HPIPE_PWR_CTR_DTL_FLOOP_EN_MASK;
815 data |= 0x1 << HPIPE_PWR_CTR_DTL_FLOOP_EN_OFFSET;
816 mask |= HPIPE_PWR_CTR_DTL_CLAMPING_SEL_MASK;
817 data |= 0x1 << HPIPE_PWR_CTR_DTL_CLAMPING_SEL_OFFSET;
818 mask |= HPIPE_PWR_CTR_DTL_INTPCLK_DIV_FORCE_MASK;
819 data |= 0x1 << HPIPE_PWR_CTR_DTL_INTPCLK_DIV_FORCE_OFFSET;
820 mask |= HPIPE_PWR_CTR_DTL_CLK_MODE_MASK;
821 data |= 0x1 << HPIPE_PWR_CTR_DTL_CLK_MODE_OFFSET;
822 mask |= HPIPE_PWR_CTR_DTL_CLK_MODE_FORCE_MASK;
823 data |= 0x1 << HPIPE_PWR_CTR_DTL_CLK_MODE_FORCE_OFFSET;
824 reg_set(hpipe_addr + HPIPE_PWR_CTR_DTL_REG, data, mask);
825
826 /* Trigger sampler enable pulse (by toggleing the bit) */
827 mask = HPIPE_SMAPLER_MASK;
828 data = 0x1 << HPIPE_SMAPLER_OFFSET;
829 reg_set(hpipe_addr + HPIPE_SAMPLER_N_PROC_CALIB_CTRL_REG, data, mask);
830 mask = HPIPE_SMAPLER_MASK;
831 data = 0x0 << HPIPE_SMAPLER_OFFSET;
832 reg_set(hpipe_addr + HPIPE_SAMPLER_N_PROC_CALIB_CTRL_REG, data, mask);
833
834 /* VDD Calibration Control 3 */
835 mask = HPIPE_EXT_SELLV_RXSAMPL_MASK;
836 data = 0x10 << HPIPE_EXT_SELLV_RXSAMPL_OFFSET;
837 reg_set(hpipe_addr + HPIPE_VDD_CAL_CTRL_REG, data, mask);
838
839 /* DFE Resolution Control */
840 mask = HPIPE_DFE_RES_FORCE_MASK;
841 data = 0x1 << HPIPE_DFE_RES_FORCE_OFFSET;
842 reg_set(hpipe_addr + HPIPE_DFE_REG0, data, mask);
843
844 /* DFE F3-F5 Coefficient Control */
845 mask = HPIPE_DFE_F3_F5_DFE_EN_MASK;
846 data = 0x0 << HPIPE_DFE_F3_F5_DFE_EN_OFFSET;
847 mask |= HPIPE_DFE_F3_F5_DFE_CTRL_MASK;
848 data = 0x0 << HPIPE_DFE_F3_F5_DFE_CTRL_OFFSET;
849 reg_set(hpipe_addr + HPIPE_DFE_F3_F5_REG, data, mask);
850
851 /* G3 Setting 3 */
852 mask = HPIPE_G3_FFE_CAP_SEL_MASK;
853 data = 0xf << HPIPE_G3_FFE_CAP_SEL_OFFSET;
854 mask |= HPIPE_G3_FFE_RES_SEL_MASK;
855 data |= 0x4 << HPIPE_G3_FFE_RES_SEL_OFFSET;
856 mask |= HPIPE_G3_FFE_SETTING_FORCE_MASK;
857 data |= 0x1 << HPIPE_G3_FFE_SETTING_FORCE_OFFSET;
858 mask |= HPIPE_G3_FFE_DEG_RES_LEVEL_MASK;
859 data |= 0x1 << HPIPE_G3_FFE_DEG_RES_LEVEL_OFFSET;
860 mask |= HPIPE_G3_FFE_LOAD_RES_LEVEL_MASK;
861 data |= 0x3 << HPIPE_G3_FFE_LOAD_RES_LEVEL_OFFSET;
862 reg_set(hpipe_addr + HPIPE_G3_SETTING_3_REG, data, mask);
863
864 /* G3 Setting 4 */
865 mask = HPIPE_G3_DFE_RES_MASK;
866 data = 0x2 << HPIPE_G3_DFE_RES_OFFSET;
867 reg_set(hpipe_addr + HPIPE_G3_SETTING_4_REG, data, mask);
868
869 /* Offset Phase Control */
870 mask = HPIPE_OS_PH_OFFSET_MASK;
871 data = 0x5c << HPIPE_OS_PH_OFFSET_OFFSET;
872 mask |= HPIPE_OS_PH_OFFSET_FORCE_MASK;
873 data |= 0x1 << HPIPE_OS_PH_OFFSET_FORCE_OFFSET;
874 reg_set(hpipe_addr + HPIPE_PHASE_CONTROL_REG, data, mask);
875 mask = HPIPE_OS_PH_VALID_MASK;
876 data = 0x1 << HPIPE_OS_PH_VALID_OFFSET;
877 reg_set(hpipe_addr + HPIPE_PHASE_CONTROL_REG, data, mask);
878 mask = HPIPE_OS_PH_VALID_MASK;
879 data = 0x0 << HPIPE_OS_PH_VALID_OFFSET;
880 reg_set(hpipe_addr + HPIPE_PHASE_CONTROL_REG, data, mask);
881
882 /* Set G1 TX amplitude and TX post emphasis value */
883 mask = HPIPE_G1_SET_0_G1_TX_AMP_MASK;
884 data = 0x8 << HPIPE_G1_SET_0_G1_TX_AMP_OFFSET;
885 mask |= HPIPE_G1_SET_0_G1_TX_AMP_ADJ_MASK;
886 data |= 0x1 << HPIPE_G1_SET_0_G1_TX_AMP_ADJ_OFFSET;
887 mask |= HPIPE_G1_SET_0_G1_TX_EMPH1_MASK;
888 data |= 0x1 << HPIPE_G1_SET_0_G1_TX_EMPH1_OFFSET;
889 mask |= HPIPE_G1_SET_0_G1_TX_EMPH1_EN_MASK;
890 data |= 0x1 << HPIPE_G1_SET_0_G1_TX_EMPH1_EN_OFFSET;
891 reg_set(hpipe_addr + HPIPE_G1_SET_0_REG, data, mask);
892
893 /* Set G2 TX amplitude and TX post emphasis value */
894 mask = HPIPE_G2_SET_0_G2_TX_AMP_MASK;
895 data = 0xa << HPIPE_G2_SET_0_G2_TX_AMP_OFFSET;
896 mask |= HPIPE_G2_SET_0_G2_TX_AMP_ADJ_MASK;
897 data |= 0x1 << HPIPE_G2_SET_0_G2_TX_AMP_ADJ_OFFSET;
898 mask |= HPIPE_G2_SET_0_G2_TX_EMPH1_MASK;
899 data |= 0x2 << HPIPE_G2_SET_0_G2_TX_EMPH1_OFFSET;
900 mask |= HPIPE_G2_SET_0_G2_TX_EMPH1_EN_MASK;
901 data |= 0x1 << HPIPE_G2_SET_0_G2_TX_EMPH1_EN_OFFSET;
902 reg_set(hpipe_addr + HPIPE_G2_SET_0_REG, data, mask);
903
904 /* Set G3 TX amplitude and TX post emphasis value */
905 mask = HPIPE_G3_SET_0_G3_TX_AMP_MASK;
906 data = 0xe << HPIPE_G3_SET_0_G3_TX_AMP_OFFSET;
907 mask |= HPIPE_G3_SET_0_G3_TX_AMP_ADJ_MASK;
908 data |= 0x1 << HPIPE_G3_SET_0_G3_TX_AMP_ADJ_OFFSET;
909 mask |= HPIPE_G3_SET_0_G3_TX_EMPH1_MASK;
910 data |= 0x6 << HPIPE_G3_SET_0_G3_TX_EMPH1_OFFSET;
911 mask |= HPIPE_G3_SET_0_G3_TX_EMPH1_EN_MASK;
912 data |= 0x1 << HPIPE_G3_SET_0_G3_TX_EMPH1_EN_OFFSET;
913 mask |= HPIPE_G3_SET_0_G3_TX_SLEW_RATE_SEL_MASK;
914 data |= 0x4 << HPIPE_G3_SET_0_G3_TX_SLEW_RATE_SEL_OFFSET;
915 mask |= HPIPE_G3_SET_0_G3_TX_SLEW_CTRL_EN_MASK;
916 data |= 0x0 << HPIPE_G3_SET_0_G3_TX_SLEW_CTRL_EN_OFFSET;
917 reg_set(hpipe_addr + HPIPE_G3_SET_0_REG, data, mask);
918
919 /* SERDES External Configuration 2 register */
920 mask = SD_EXTERNAL_CONFIG2_SSC_ENABLE_MASK;
921 data = 0x1 << SD_EXTERNAL_CONFIG2_SSC_ENABLE_OFFSET;
922 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG2_REG, data, mask);
Stefan Roese648391c2016-08-30 16:48:20 +0200923
924 /* DFE reset sequence */
925 reg_set(hpipe_addr + HPIPE_PWR_CTR_REG,
926 0x1 << HPIPE_PWR_CTR_RST_DFE_OFFSET,
927 HPIPE_PWR_CTR_RST_DFE_MASK);
928 reg_set(hpipe_addr + HPIPE_PWR_CTR_REG,
929 0x0 << HPIPE_PWR_CTR_RST_DFE_OFFSET,
930 HPIPE_PWR_CTR_RST_DFE_MASK);
931 /* SW reset for interupt logic */
932 reg_set(hpipe_addr + HPIPE_PWR_CTR_REG,
933 0x1 << HPIPE_PWR_CTR_SFT_RST_OFFSET,
934 HPIPE_PWR_CTR_SFT_RST_MASK);
935 reg_set(hpipe_addr + HPIPE_PWR_CTR_REG,
936 0x0 << HPIPE_PWR_CTR_SFT_RST_OFFSET,
937 HPIPE_PWR_CTR_SFT_RST_MASK);
938
939 debug("stage: Comphy power up\n");
940 /*
941 * MAC configuration power up comphy - power up PLL/TX/RX
942 * use indirect address for vendor spesific SATA control register
943 */
944 reg_set(sata_base + SATA3_VENDOR_ADDRESS,
945 SATA_CONTROL_REG << SATA3_VENDOR_ADDR_OFSSET,
946 SATA3_VENDOR_ADDR_MASK);
947 /* SATA 0 power up */
948 mask = SATA3_CTRL_SATA0_PD_MASK;
949 data = 0x0 << SATA3_CTRL_SATA0_PD_OFFSET;
950 /* SATA 1 power up */
951 mask |= SATA3_CTRL_SATA1_PD_MASK;
952 data |= 0x0 << SATA3_CTRL_SATA1_PD_OFFSET;
953 /* SATA SSU enable */
954 mask |= SATA3_CTRL_SATA1_ENABLE_MASK;
955 data |= 0x1 << SATA3_CTRL_SATA1_ENABLE_OFFSET;
956 /* SATA port 1 enable */
957 mask |= SATA3_CTRL_SATA_SSU_MASK;
958 data |= 0x1 << SATA3_CTRL_SATA_SSU_OFFSET;
959 reg_set(sata_base + SATA3_VENDOR_DATA, data, mask);
960
961 /* MBUS request size and interface select register */
962 reg_set(sata_base + SATA3_VENDOR_ADDRESS,
963 SATA_MBUS_SIZE_SELECT_REG << SATA3_VENDOR_ADDR_OFSSET,
964 SATA3_VENDOR_ADDR_MASK);
965 /* Mbus regret enable */
966 reg_set(sata_base + SATA3_VENDOR_DATA,
967 0x1 << SATA_MBUS_REGRET_EN_OFFSET, SATA_MBUS_REGRET_EN_MASK);
968
969 debug("stage: Check PLL\n");
970
971 addr = sd_ip_addr + SD_EXTERNAL_STATUS0_REG;
972 data = SD_EXTERNAL_STATUS0_PLL_TX_MASK &
973 SD_EXTERNAL_STATUS0_PLL_RX_MASK;
974 mask = data;
975 data = polling_with_timeout(addr, data, mask, 15000);
976 if (data != 0) {
977 debug("Read from reg = %p - value = 0x%x\n",
978 hpipe_addr + HPIPE_LANE_STATUS1_REG, data);
Masahiro Yamada81e10422017-09-16 14:10:41 +0900979 pr_err("SD_EXTERNAL_STATUS0_PLL_TX is %d, SD_EXTERNAL_STATUS0_PLL_RX is %d\n",
Stefan Roese648391c2016-08-30 16:48:20 +0200980 (data & SD_EXTERNAL_STATUS0_PLL_TX_MASK),
981 (data & SD_EXTERNAL_STATUS0_PLL_RX_MASK));
982 ret = 0;
983 }
984
985 debug_exit();
986 return ret;
987}
988
989static int comphy_sgmii_power_up(u32 lane, u32 sgmii_speed,
990 void __iomem *hpipe_base,
991 void __iomem *comphy_base)
992{
993 u32 mask, data, ret = 1;
994 void __iomem *hpipe_addr = HPIPE_ADDR(hpipe_base, lane);
995 void __iomem *sd_ip_addr = SD_ADDR(hpipe_base, lane);
996 void __iomem *comphy_addr = COMPHY_ADDR(comphy_base, lane);
997 void __iomem *addr;
998
999 debug_enter();
1000 debug("stage: RFU configurations - hard reset comphy\n");
1001 /* RFU configurations - hard reset comphy */
1002 mask = COMMON_PHY_CFG1_PWR_UP_MASK;
1003 data = 0x1 << COMMON_PHY_CFG1_PWR_UP_OFFSET;
1004 mask |= COMMON_PHY_CFG1_PIPE_SELECT_MASK;
1005 data |= 0x0 << COMMON_PHY_CFG1_PIPE_SELECT_OFFSET;
1006 reg_set(comphy_addr + COMMON_PHY_CFG1_REG, data, mask);
1007
1008 /* Select Baud Rate of Comphy And PD_PLL/Tx/Rx */
1009 mask = SD_EXTERNAL_CONFIG0_SD_PU_PLL_MASK;
1010 data = 0x0 << SD_EXTERNAL_CONFIG0_SD_PU_PLL_OFFSET;
1011 mask |= SD_EXTERNAL_CONFIG0_SD_PHY_GEN_RX_MASK;
1012 mask |= SD_EXTERNAL_CONFIG0_SD_PHY_GEN_TX_MASK;
1013 if (sgmii_speed == PHY_SPEED_1_25G) {
1014 data |= 0x6 << SD_EXTERNAL_CONFIG0_SD_PHY_GEN_RX_OFFSET;
1015 data |= 0x6 << SD_EXTERNAL_CONFIG0_SD_PHY_GEN_TX_OFFSET;
1016 } else {
1017 /* 3.125G */
1018 data |= 0x8 << SD_EXTERNAL_CONFIG0_SD_PHY_GEN_RX_OFFSET;
1019 data |= 0x8 << SD_EXTERNAL_CONFIG0_SD_PHY_GEN_TX_OFFSET;
1020 }
1021 mask |= SD_EXTERNAL_CONFIG0_SD_PU_RX_MASK;
1022 data |= 0 << SD_EXTERNAL_CONFIG0_SD_PU_RX_OFFSET;
1023 mask |= SD_EXTERNAL_CONFIG0_SD_PU_TX_MASK;
1024 data |= 0 << SD_EXTERNAL_CONFIG0_SD_PU_TX_OFFSET;
1025 mask |= SD_EXTERNAL_CONFIG0_HALF_BUS_MODE_MASK;
1026 data |= 1 << SD_EXTERNAL_CONFIG0_HALF_BUS_MODE_OFFSET;
1027 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG0_REG, data, mask);
1028
1029 /* release from hard reset */
1030 mask = SD_EXTERNAL_CONFIG1_RESET_IN_MASK;
1031 data = 0x0 << SD_EXTERNAL_CONFIG1_RESET_IN_OFFSET;
1032 mask |= SD_EXTERNAL_CONFIG1_RESET_CORE_MASK;
1033 data |= 0x0 << SD_EXTERNAL_CONFIG1_RESET_CORE_OFFSET;
1034 mask |= SD_EXTERNAL_CONFIG1_RF_RESET_IN_MASK;
1035 data |= 0x0 << SD_EXTERNAL_CONFIG1_RF_RESET_IN_OFFSET;
1036 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1037
1038 /* release from hard reset */
1039 mask = SD_EXTERNAL_CONFIG1_RESET_IN_MASK;
1040 data = 0x1 << SD_EXTERNAL_CONFIG1_RESET_IN_OFFSET;
1041 mask |= SD_EXTERNAL_CONFIG1_RESET_CORE_MASK;
1042 data |= 0x1 << SD_EXTERNAL_CONFIG1_RESET_CORE_OFFSET;
1043 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1044
1045
1046 /* Wait 1ms - until band gap and ref clock ready */
1047 mdelay(1);
1048
1049 /* Start comphy Configuration */
1050 debug("stage: Comphy configuration\n");
1051 /* set reference clock */
1052 mask = HPIPE_MISC_REFCLK_SEL_MASK;
1053 data = 0x0 << HPIPE_MISC_REFCLK_SEL_OFFSET;
1054 reg_set(hpipe_addr + HPIPE_MISC_REG, data, mask);
1055 /* Power and PLL Control */
1056 mask = HPIPE_PWR_PLL_REF_FREQ_MASK;
1057 data = 0x1 << HPIPE_PWR_PLL_REF_FREQ_OFFSET;
1058 mask |= HPIPE_PWR_PLL_PHY_MODE_MASK;
1059 data |= 0x4 << HPIPE_PWR_PLL_PHY_MODE_OFFSET;
1060 reg_set(hpipe_addr + HPIPE_PWR_PLL_REG, data, mask);
1061 /* Loopback register */
1062 mask = HPIPE_LOOPBACK_SEL_MASK;
1063 data = 0x1 << HPIPE_LOOPBACK_SEL_OFFSET;
1064 reg_set(hpipe_addr + HPIPE_LOOPBACK_REG, data, mask);
1065 /* rx control 1 */
1066 mask = HPIPE_RX_CONTROL_1_RXCLK2X_SEL_MASK;
1067 data = 0x1 << HPIPE_RX_CONTROL_1_RXCLK2X_SEL_OFFSET;
1068 mask |= HPIPE_RX_CONTROL_1_CLK8T_EN_MASK;
1069 data |= 0x0 << HPIPE_RX_CONTROL_1_CLK8T_EN_OFFSET;
1070 reg_set(hpipe_addr + HPIPE_RX_CONTROL_1_REG, data, mask);
1071 /* DTL Control */
1072 mask = HPIPE_PWR_CTR_DTL_FLOOP_EN_MASK;
1073 data = 0x0 << HPIPE_PWR_CTR_DTL_FLOOP_EN_OFFSET;
1074 reg_set(hpipe_addr + HPIPE_PWR_CTR_DTL_REG, data, mask);
1075
1076 /* Set analog paramters from ETP(HW) - for now use the default datas */
1077 debug("stage: Analog paramters from ETP(HW)\n");
1078
1079 reg_set(hpipe_addr + HPIPE_G1_SET_0_REG,
1080 0x1 << HPIPE_G1_SET_0_G1_TX_EMPH1_OFFSET,
1081 HPIPE_G1_SET_0_G1_TX_EMPH1_MASK);
1082
1083 debug("stage: RFU configurations- Power Up PLL,Tx,Rx\n");
1084 /* SERDES External Configuration */
1085 mask = SD_EXTERNAL_CONFIG0_SD_PU_PLL_MASK;
1086 data = 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_PLL_OFFSET;
1087 mask |= SD_EXTERNAL_CONFIG0_SD_PU_RX_MASK;
1088 data |= 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_RX_OFFSET;
1089 mask |= SD_EXTERNAL_CONFIG0_SD_PU_TX_MASK;
1090 data |= 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_TX_OFFSET;
1091 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG0_REG, data, mask);
1092
1093 /* check PLL rx & tx ready */
1094 addr = sd_ip_addr + SD_EXTERNAL_STATUS0_REG;
1095 data = SD_EXTERNAL_STATUS0_PLL_RX_MASK |
1096 SD_EXTERNAL_STATUS0_PLL_TX_MASK;
1097 mask = data;
1098 data = polling_with_timeout(addr, data, mask, 15000);
1099 if (data != 0) {
1100 debug("Read from reg = %p - value = 0x%x\n",
1101 sd_ip_addr + SD_EXTERNAL_STATUS0_REG, data);
Masahiro Yamada81e10422017-09-16 14:10:41 +09001102 pr_err("SD_EXTERNAL_STATUS0_PLL_RX is %d, SD_EXTERNAL_STATUS0_PLL_TX is %d\n",
Stefan Roese648391c2016-08-30 16:48:20 +02001103 (data & SD_EXTERNAL_STATUS0_PLL_RX_MASK),
1104 (data & SD_EXTERNAL_STATUS0_PLL_TX_MASK));
1105 ret = 0;
1106 }
1107
1108 /* RX init */
1109 mask = SD_EXTERNAL_CONFIG1_RX_INIT_MASK;
1110 data = 0x1 << SD_EXTERNAL_CONFIG1_RX_INIT_OFFSET;
1111 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1112
1113 /* check that RX init done */
1114 addr = sd_ip_addr + SD_EXTERNAL_STATUS0_REG;
1115 data = SD_EXTERNAL_STATUS0_RX_INIT_MASK;
1116 mask = data;
1117 data = polling_with_timeout(addr, data, mask, 100);
1118 if (data != 0) {
1119 debug("Read from reg = %p - value = 0x%x\n", sd_ip_addr + SD_EXTERNAL_STATUS0_REG, data);
Masahiro Yamada81e10422017-09-16 14:10:41 +09001120 pr_err("SD_EXTERNAL_STATUS0_RX_INIT is 0\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001121 ret = 0;
1122 }
1123
1124 debug("stage: RF Reset\n");
1125 /* RF Reset */
1126 mask = SD_EXTERNAL_CONFIG1_RX_INIT_MASK;
1127 data = 0x0 << SD_EXTERNAL_CONFIG1_RX_INIT_OFFSET;
1128 mask |= SD_EXTERNAL_CONFIG1_RF_RESET_IN_MASK;
1129 data |= 0x1 << SD_EXTERNAL_CONFIG1_RF_RESET_IN_OFFSET;
1130 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1131
1132 debug_exit();
1133 return ret;
1134}
1135
Stefan Roesedb720b72017-04-24 18:45:21 +03001136static int comphy_sfi_power_up(u32 lane, void __iomem *hpipe_base,
Igal Liberman989b96f2017-04-24 18:45:28 +03001137 void __iomem *comphy_base, u32 speed)
Stefan Roese648391c2016-08-30 16:48:20 +02001138{
1139 u32 mask, data, ret = 1;
1140 void __iomem *hpipe_addr = HPIPE_ADDR(hpipe_base, lane);
1141 void __iomem *sd_ip_addr = SD_ADDR(hpipe_base, lane);
1142 void __iomem *comphy_addr = COMPHY_ADDR(comphy_base, lane);
1143 void __iomem *addr;
1144
1145 debug_enter();
1146 debug("stage: RFU configurations - hard reset comphy\n");
1147 /* RFU configurations - hard reset comphy */
1148 mask = COMMON_PHY_CFG1_PWR_UP_MASK;
1149 data = 0x1 << COMMON_PHY_CFG1_PWR_UP_OFFSET;
1150 mask |= COMMON_PHY_CFG1_PIPE_SELECT_MASK;
1151 data |= 0x0 << COMMON_PHY_CFG1_PIPE_SELECT_OFFSET;
1152 reg_set(comphy_addr + COMMON_PHY_CFG1_REG, data, mask);
1153
1154 /* Select Baud Rate of Comphy And PD_PLL/Tx/Rx */
1155 mask = SD_EXTERNAL_CONFIG0_SD_PU_PLL_MASK;
1156 data = 0x0 << SD_EXTERNAL_CONFIG0_SD_PU_PLL_OFFSET;
1157 mask |= SD_EXTERNAL_CONFIG0_SD_PHY_GEN_RX_MASK;
1158 data |= 0xE << SD_EXTERNAL_CONFIG0_SD_PHY_GEN_RX_OFFSET;
1159 mask |= SD_EXTERNAL_CONFIG0_SD_PHY_GEN_TX_MASK;
1160 data |= 0xE << SD_EXTERNAL_CONFIG0_SD_PHY_GEN_TX_OFFSET;
1161 mask |= SD_EXTERNAL_CONFIG0_SD_PU_RX_MASK;
1162 data |= 0 << SD_EXTERNAL_CONFIG0_SD_PU_RX_OFFSET;
1163 mask |= SD_EXTERNAL_CONFIG0_SD_PU_TX_MASK;
1164 data |= 0 << SD_EXTERNAL_CONFIG0_SD_PU_TX_OFFSET;
1165 mask |= SD_EXTERNAL_CONFIG0_HALF_BUS_MODE_MASK;
1166 data |= 0 << SD_EXTERNAL_CONFIG0_HALF_BUS_MODE_OFFSET;
1167 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG0_REG, data, mask);
1168
1169 /* release from hard reset */
1170 mask = SD_EXTERNAL_CONFIG1_RESET_IN_MASK;
1171 data = 0x0 << SD_EXTERNAL_CONFIG1_RESET_IN_OFFSET;
1172 mask |= SD_EXTERNAL_CONFIG1_RESET_CORE_MASK;
1173 data |= 0x0 << SD_EXTERNAL_CONFIG1_RESET_CORE_OFFSET;
1174 mask |= SD_EXTERNAL_CONFIG1_RF_RESET_IN_MASK;
1175 data |= 0x0 << SD_EXTERNAL_CONFIG1_RF_RESET_IN_OFFSET;
1176 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1177
1178 mask = SD_EXTERNAL_CONFIG1_RESET_IN_MASK;
1179 data = 0x1 << SD_EXTERNAL_CONFIG1_RESET_IN_OFFSET;
1180 mask |= SD_EXTERNAL_CONFIG1_RESET_CORE_MASK;
1181 data |= 0x1 << SD_EXTERNAL_CONFIG1_RESET_CORE_OFFSET;
1182 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1183
1184
1185 /* Wait 1ms - until band gap and ref clock ready */
1186 mdelay(1);
1187
1188 /* Start comphy Configuration */
1189 debug("stage: Comphy configuration\n");
1190 /* set reference clock */
1191 mask = HPIPE_MISC_ICP_FORCE_MASK;
Igal Liberman989b96f2017-04-24 18:45:28 +03001192 data = (speed == PHY_SPEED_5_15625G) ?
1193 (0x0 << HPIPE_MISC_ICP_FORCE_OFFSET) :
1194 (0x1 << HPIPE_MISC_ICP_FORCE_OFFSET);
Stefan Roese648391c2016-08-30 16:48:20 +02001195 mask |= HPIPE_MISC_REFCLK_SEL_MASK;
1196 data |= 0x0 << HPIPE_MISC_REFCLK_SEL_OFFSET;
1197 reg_set(hpipe_addr + HPIPE_MISC_REG, data, mask);
1198 /* Power and PLL Control */
1199 mask = HPIPE_PWR_PLL_REF_FREQ_MASK;
1200 data = 0x1 << HPIPE_PWR_PLL_REF_FREQ_OFFSET;
1201 mask |= HPIPE_PWR_PLL_PHY_MODE_MASK;
1202 data |= 0x4 << HPIPE_PWR_PLL_PHY_MODE_OFFSET;
1203 reg_set(hpipe_addr + HPIPE_PWR_PLL_REG, data, mask);
1204 /* Loopback register */
1205 mask = HPIPE_LOOPBACK_SEL_MASK;
1206 data = 0x1 << HPIPE_LOOPBACK_SEL_OFFSET;
1207 reg_set(hpipe_addr + HPIPE_LOOPBACK_REG, data, mask);
1208 /* rx control 1 */
1209 mask = HPIPE_RX_CONTROL_1_RXCLK2X_SEL_MASK;
1210 data = 0x1 << HPIPE_RX_CONTROL_1_RXCLK2X_SEL_OFFSET;
1211 mask |= HPIPE_RX_CONTROL_1_CLK8T_EN_MASK;
1212 data |= 0x1 << HPIPE_RX_CONTROL_1_CLK8T_EN_OFFSET;
1213 reg_set(hpipe_addr + HPIPE_RX_CONTROL_1_REG, data, mask);
1214 /* DTL Control */
1215 mask = HPIPE_PWR_CTR_DTL_FLOOP_EN_MASK;
1216 data = 0x1 << HPIPE_PWR_CTR_DTL_FLOOP_EN_OFFSET;
1217 reg_set(hpipe_addr + HPIPE_PWR_CTR_DTL_REG, data, mask);
1218
Igal Liberman989b96f2017-04-24 18:45:28 +03001219 /* Transmitter/Receiver Speed Divider Force */
1220 if (speed == PHY_SPEED_5_15625G) {
1221 mask = HPIPE_SPD_DIV_FORCE_RX_SPD_DIV_MASK;
1222 data = 1 << HPIPE_SPD_DIV_FORCE_RX_SPD_DIV_OFFSET;
1223 mask |= HPIPE_SPD_DIV_FORCE_RX_SPD_DIV_FORCE_MASK;
1224 data |= 1 << HPIPE_SPD_DIV_FORCE_RX_SPD_DIV_FORCE_OFFSET;
1225 mask |= HPIPE_SPD_DIV_FORCE_TX_SPD_DIV_MASK;
1226 data |= 1 << HPIPE_SPD_DIV_FORCE_TX_SPD_DIV_OFFSET;
1227 mask |= HPIPE_SPD_DIV_FORCE_TX_SPD_DIV_FORCE_MASK;
1228 data |= 1 << HPIPE_SPD_DIV_FORCE_TX_SPD_DIV_FORCE_OFFSET;
Igal Liberman980d8092017-04-24 18:45:31 +03001229 } else {
1230 mask = HPIPE_TXDIGCK_DIV_FORCE_MASK;
1231 data = 0x1 << HPIPE_TXDIGCK_DIV_FORCE_OFFSET;
Igal Liberman989b96f2017-04-24 18:45:28 +03001232 }
Igal Liberman980d8092017-04-24 18:45:31 +03001233 reg_set(hpipe_addr + HPIPE_SPD_DIV_FORCE_REG, data, mask);
Igal Liberman989b96f2017-04-24 18:45:28 +03001234
Stefan Roese648391c2016-08-30 16:48:20 +02001235 /* Set analog paramters from ETP(HW) */
1236 debug("stage: Analog paramters from ETP(HW)\n");
1237 /* SERDES External Configuration 2 */
1238 mask = SD_EXTERNAL_CONFIG2_PIN_DFE_EN_MASK;
1239 data = 0x1 << SD_EXTERNAL_CONFIG2_PIN_DFE_EN_OFFSET;
1240 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG2_REG, data, mask);
1241 /* 0x7-DFE Resolution control */
1242 mask = HPIPE_DFE_RES_FORCE_MASK;
1243 data = 0x1 << HPIPE_DFE_RES_FORCE_OFFSET;
1244 reg_set(hpipe_addr + HPIPE_DFE_REG0, data, mask);
1245 /* 0xd-G1_Setting_0 */
Igal Liberman989b96f2017-04-24 18:45:28 +03001246 if (speed == PHY_SPEED_5_15625G) {
1247 mask = HPIPE_G1_SET_0_G1_TX_EMPH1_MASK;
1248 data = 0x6 << HPIPE_G1_SET_0_G1_TX_EMPH1_OFFSET;
1249 } else {
1250 mask = HPIPE_G1_SET_0_G1_TX_AMP_MASK;
1251 data = 0x1c << HPIPE_G1_SET_0_G1_TX_AMP_OFFSET;
1252 mask |= HPIPE_G1_SET_0_G1_TX_EMPH1_MASK;
1253 data |= 0xe << HPIPE_G1_SET_0_G1_TX_EMPH1_OFFSET;
1254 }
Stefan Roese648391c2016-08-30 16:48:20 +02001255 reg_set(hpipe_addr + HPIPE_G1_SET_0_REG, data, mask);
1256 /* Genration 1 setting 2 (G1_Setting_2) */
1257 mask = HPIPE_G1_SET_2_G1_TX_EMPH0_MASK;
1258 data = 0x0 << HPIPE_G1_SET_2_G1_TX_EMPH0_OFFSET;
1259 mask |= HPIPE_G1_SET_2_G1_TX_EMPH0_EN_MASK;
1260 data |= 0x1 << HPIPE_G1_SET_2_G1_TX_EMPH0_EN_OFFSET;
1261 reg_set(hpipe_addr + HPIPE_G1_SET_2_REG, data, mask);
1262 /* Transmitter Slew Rate Control register (tx_reg1) */
1263 mask = HPIPE_TX_REG1_TX_EMPH_RES_MASK;
1264 data = 0x3 << HPIPE_TX_REG1_TX_EMPH_RES_OFFSET;
1265 mask |= HPIPE_TX_REG1_SLC_EN_MASK;
1266 data |= 0x3f << HPIPE_TX_REG1_SLC_EN_OFFSET;
1267 reg_set(hpipe_addr + HPIPE_TX_REG1_REG, data, mask);
1268 /* Impedance Calibration Control register (cal_reg1) */
1269 mask = HPIPE_CAL_REG_1_EXT_TXIMP_MASK;
1270 data = 0xe << HPIPE_CAL_REG_1_EXT_TXIMP_OFFSET;
1271 mask |= HPIPE_CAL_REG_1_EXT_TXIMP_EN_MASK;
1272 data |= 0x1 << HPIPE_CAL_REG_1_EXT_TXIMP_EN_OFFSET;
1273 reg_set(hpipe_addr + HPIPE_CAL_REG1_REG, data, mask);
1274 /* Generation 1 Setting 5 (g1_setting_5) */
1275 mask = HPIPE_G1_SETTING_5_G1_ICP_MASK;
1276 data = 0 << HPIPE_CAL_REG_1_EXT_TXIMP_OFFSET;
1277 reg_set(hpipe_addr + HPIPE_G1_SETTING_5_REG, data, mask);
1278 /* 0xE-G1_Setting_1 */
Igal Liberman980d8092017-04-24 18:45:31 +03001279 mask = HPIPE_G1_SET_1_G1_RX_DFE_EN_MASK;
1280 data = 0x1 << HPIPE_G1_SET_1_G1_RX_DFE_EN_OFFSET;
1281 if (speed == PHY_SPEED_5_15625G) {
1282 mask |= HPIPE_G1_SET_1_G1_RX_SELMUPI_MASK;
1283 data |= 0x1 << HPIPE_G1_SET_1_G1_RX_SELMUPI_OFFSET;
1284 mask |= HPIPE_G1_SET_1_G1_RX_SELMUPP_MASK;
1285 data |= 0x1 << HPIPE_G1_SET_1_G1_RX_SELMUPP_OFFSET;
1286 } else {
1287 mask |= HPIPE_G1_SET_1_G1_RX_SELMUPI_MASK;
1288 data |= 0x2 << HPIPE_G1_SET_1_G1_RX_SELMUPI_OFFSET;
1289 mask |= HPIPE_G1_SET_1_G1_RX_SELMUPP_MASK;
1290 data |= 0x2 << HPIPE_G1_SET_1_G1_RX_SELMUPP_OFFSET;
1291 mask |= HPIPE_G1_SET_1_G1_RX_SELMUFI_MASK;
1292 data |= 0x0 << HPIPE_G1_SET_1_G1_RX_SELMUFI_OFFSET;
1293 mask |= HPIPE_G1_SET_1_G1_RX_SELMUFF_MASK;
1294 data |= 0x1 << HPIPE_G1_SET_1_G1_RX_SELMUFF_OFFSET;
1295 mask |= HPIPE_G1_SET_1_G1_RX_DIGCK_DIV_MASK;
1296 data |= 0x3 << HPIPE_G1_SET_1_G1_RX_DIGCK_DIV_OFFSET;
1297 }
Stefan Roese648391c2016-08-30 16:48:20 +02001298 reg_set(hpipe_addr + HPIPE_G1_SET_1_REG, data, mask);
Igal Liberman980d8092017-04-24 18:45:31 +03001299
Stefan Roese648391c2016-08-30 16:48:20 +02001300 /* 0xA-DFE_Reg3 */
1301 mask = HPIPE_DFE_F3_F5_DFE_EN_MASK;
1302 data = 0x0 << HPIPE_DFE_F3_F5_DFE_EN_OFFSET;
1303 mask |= HPIPE_DFE_F3_F5_DFE_CTRL_MASK;
1304 data |= 0x0 << HPIPE_DFE_F3_F5_DFE_CTRL_OFFSET;
1305 reg_set(hpipe_addr + HPIPE_DFE_F3_F5_REG, data, mask);
1306
1307 /* 0x111-G1_Setting_4 */
1308 mask = HPIPE_G1_SETTINGS_4_G1_DFE_RES_MASK;
1309 data = 0x1 << HPIPE_G1_SETTINGS_4_G1_DFE_RES_OFFSET;
1310 reg_set(hpipe_addr + HPIPE_G1_SETTINGS_4_REG, data, mask);
1311 /* Genration 1 setting 3 (G1_Setting_3) */
1312 mask = HPIPE_G1_SETTINGS_3_G1_FBCK_SEL_MASK;
1313 data = 0x1 << HPIPE_G1_SETTINGS_3_G1_FBCK_SEL_OFFSET;
Igal Liberman989b96f2017-04-24 18:45:28 +03001314 if (speed == PHY_SPEED_5_15625G) {
1315 /* Force FFE (Feed Forward Equalization) to 5G */
1316 mask |= HPIPE_G1_SETTINGS_3_G1_FFE_CAP_SEL_MASK;
1317 data |= 0xf << HPIPE_G1_SETTINGS_3_G1_FFE_CAP_SEL_OFFSET;
1318 mask |= HPIPE_G1_SETTINGS_3_G1_FFE_RES_SEL_MASK;
1319 data |= 0x4 << HPIPE_G1_SETTINGS_3_G1_FFE_RES_SEL_OFFSET;
1320 mask |= HPIPE_G1_SETTINGS_3_G1_FFE_SETTING_FORCE_MASK;
1321 data |= 0x1 << HPIPE_G1_SETTINGS_3_G1_FFE_SETTING_FORCE_OFFSET;
1322 }
Stefan Roese648391c2016-08-30 16:48:20 +02001323 reg_set(hpipe_addr + HPIPE_G1_SETTINGS_3_REG, data, mask);
1324
Igal Liberman980d8092017-04-24 18:45:31 +03001325 /* Connfigure RX training timer */
1326 mask = HPIPE_RX_TRAIN_TIMER_MASK;
1327 data = 0x13 << HPIPE_RX_TRAIN_TIMER_OFFSET;
1328 reg_set(hpipe_addr + HPIPE_TX_TRAIN_CTRL_5_REG, data, mask);
1329
1330 /* Enable TX train peak to peak hold */
1331 mask = HPIPE_TX_TRAIN_P2P_HOLD_MASK;
1332 data = 0x1 << HPIPE_TX_TRAIN_P2P_HOLD_OFFSET;
1333 reg_set(hpipe_addr + HPIPE_TX_TRAIN_CTRL_0_REG, data, mask);
1334
1335 /* Configure TX preset index */
1336 mask = HPIPE_TX_PRESET_INDEX_MASK;
1337 data = 0x2 << HPIPE_TX_PRESET_INDEX_OFFSET;
1338 reg_set(hpipe_addr + HPIPE_TX_PRESET_INDEX_REG, data, mask);
1339
1340 /* Disable pattern lock lost timeout */
1341 mask = HPIPE_PATTERN_LOCK_LOST_TIMEOUT_EN_MASK;
1342 data = 0x0 << HPIPE_PATTERN_LOCK_LOST_TIMEOUT_EN_OFFSET;
1343 reg_set(hpipe_addr + HPIPE_FRAME_DETECT_CTRL_3_REG, data, mask);
1344
1345 /* Configure TX training pattern and TX training 16bit auto */
1346 mask = HPIPE_TX_TRAIN_16BIT_AUTO_EN_MASK;
1347 data = 0x1 << HPIPE_TX_TRAIN_16BIT_AUTO_EN_OFFSET;
1348 mask |= HPIPE_TX_TRAIN_PAT_SEL_MASK;
1349 data |= 0x1 << HPIPE_TX_TRAIN_PAT_SEL_OFFSET;
1350 reg_set(hpipe_addr + HPIPE_TX_TRAIN_REG, data, mask);
1351
1352 /* Configure Training patten number */
1353 mask = HPIPE_TRAIN_PAT_NUM_MASK;
1354 data = 0x88 << HPIPE_TRAIN_PAT_NUM_OFFSET;
1355 reg_set(hpipe_addr + HPIPE_FRAME_DETECT_CTRL_0_REG, data, mask);
1356
1357 /* Configure differencial manchester encoter to ethernet mode */
1358 mask = HPIPE_DME_ETHERNET_MODE_MASK;
1359 data = 0x1 << HPIPE_DME_ETHERNET_MODE_OFFSET;
1360 reg_set(hpipe_addr + HPIPE_DME_REG, data, mask);
1361
1362 /* Configure VDD Continuous Calibration */
1363 mask = HPIPE_CAL_VDD_CONT_MODE_MASK;
1364 data = 0x1 << HPIPE_CAL_VDD_CONT_MODE_OFFSET;
1365 reg_set(hpipe_addr + HPIPE_VDD_CAL_0_REG, data, mask);
1366
1367 /* Trigger sampler enable pulse (by toggleing the bit) */
1368 mask = HPIPE_RX_SAMPLER_OS_GAIN_MASK;
1369 data = 0x3 << HPIPE_RX_SAMPLER_OS_GAIN_OFFSET;
1370 mask |= HPIPE_SMAPLER_MASK;
1371 data |= 0x1 << HPIPE_SMAPLER_OFFSET;
1372 reg_set(hpipe_addr + HPIPE_SAMPLER_N_PROC_CALIB_CTRL_REG, data, mask);
1373 mask = HPIPE_SMAPLER_MASK;
1374 data = 0x0 << HPIPE_SMAPLER_OFFSET;
1375 reg_set(hpipe_addr + HPIPE_SAMPLER_N_PROC_CALIB_CTRL_REG, data, mask);
1376
1377 /* Set External RX Regulator Control */
1378 mask = HPIPE_EXT_SELLV_RXSAMPL_MASK;
1379 data = 0x1A << HPIPE_EXT_SELLV_RXSAMPL_OFFSET;
1380 reg_set(hpipe_addr + HPIPE_VDD_CAL_CTRL_REG, data, mask);
1381
Stefan Roese648391c2016-08-30 16:48:20 +02001382 debug("stage: RFU configurations- Power Up PLL,Tx,Rx\n");
1383 /* SERDES External Configuration */
1384 mask = SD_EXTERNAL_CONFIG0_SD_PU_PLL_MASK;
1385 data = 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_PLL_OFFSET;
1386 mask |= SD_EXTERNAL_CONFIG0_SD_PU_RX_MASK;
1387 data |= 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_RX_OFFSET;
1388 mask |= SD_EXTERNAL_CONFIG0_SD_PU_TX_MASK;
1389 data |= 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_TX_OFFSET;
1390 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG0_REG, data, mask);
1391
1392
1393 /* check PLL rx & tx ready */
1394 addr = sd_ip_addr + SD_EXTERNAL_STATUS0_REG;
1395 data = SD_EXTERNAL_STATUS0_PLL_RX_MASK |
1396 SD_EXTERNAL_STATUS0_PLL_TX_MASK;
1397 mask = data;
1398 data = polling_with_timeout(addr, data, mask, 15000);
1399 if (data != 0) {
1400 debug("Read from reg = %p - value = 0x%x\n", sd_ip_addr + SD_EXTERNAL_STATUS0_REG, data);
Masahiro Yamada81e10422017-09-16 14:10:41 +09001401 pr_err("SD_EXTERNAL_STATUS0_PLL_RX is %d, SD_EXTERNAL_STATUS0_PLL_TX is %d\n",
Stefan Roese648391c2016-08-30 16:48:20 +02001402 (data & SD_EXTERNAL_STATUS0_PLL_RX_MASK),
1403 (data & SD_EXTERNAL_STATUS0_PLL_TX_MASK));
1404 ret = 0;
1405 }
1406
1407 /* RX init */
1408 mask = SD_EXTERNAL_CONFIG1_RX_INIT_MASK;
1409 data = 0x1 << SD_EXTERNAL_CONFIG1_RX_INIT_OFFSET;
1410 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1411
1412
1413 /* check that RX init done */
1414 addr = sd_ip_addr + SD_EXTERNAL_STATUS0_REG;
1415 data = SD_EXTERNAL_STATUS0_RX_INIT_MASK;
1416 mask = data;
1417 data = polling_with_timeout(addr, data, mask, 100);
1418 if (data != 0) {
1419 debug("Read from reg = %p - value = 0x%x\n",
1420 sd_ip_addr + SD_EXTERNAL_STATUS0_REG, data);
Masahiro Yamada81e10422017-09-16 14:10:41 +09001421 pr_err("SD_EXTERNAL_STATUS0_RX_INIT is 0\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001422 ret = 0;
1423 }
1424
1425 debug("stage: RF Reset\n");
1426 /* RF Reset */
1427 mask = SD_EXTERNAL_CONFIG1_RX_INIT_MASK;
1428 data = 0x0 << SD_EXTERNAL_CONFIG1_RX_INIT_OFFSET;
1429 mask |= SD_EXTERNAL_CONFIG1_RF_RESET_IN_MASK;
1430 data |= 0x1 << SD_EXTERNAL_CONFIG1_RF_RESET_IN_OFFSET;
1431 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1432
1433 debug_exit();
1434 return ret;
1435}
1436
1437static int comphy_rxauii_power_up(u32 lane, void __iomem *hpipe_base,
1438 void __iomem *comphy_base)
1439{
1440 u32 mask, data, ret = 1;
1441 void __iomem *hpipe_addr = HPIPE_ADDR(hpipe_base, lane);
1442 void __iomem *sd_ip_addr = SD_ADDR(hpipe_base, lane);
1443 void __iomem *comphy_addr = COMPHY_ADDR(comphy_base, lane);
1444 void __iomem *addr;
1445
1446 debug_enter();
1447 debug("stage: RFU configurations - hard reset comphy\n");
1448 /* RFU configurations - hard reset comphy */
1449 mask = COMMON_PHY_CFG1_PWR_UP_MASK;
1450 data = 0x1 << COMMON_PHY_CFG1_PWR_UP_OFFSET;
1451 mask |= COMMON_PHY_CFG1_PIPE_SELECT_MASK;
1452 data |= 0x0 << COMMON_PHY_CFG1_PIPE_SELECT_OFFSET;
1453 reg_set(comphy_addr + COMMON_PHY_CFG1_REG, data, mask);
1454
1455 if (lane == 2) {
1456 reg_set(comphy_base + COMMON_PHY_SD_CTRL1,
1457 0x1 << COMMON_PHY_SD_CTRL1_RXAUI0_OFFSET,
1458 COMMON_PHY_SD_CTRL1_RXAUI0_MASK);
1459 }
1460 if (lane == 4) {
1461 reg_set(comphy_base + COMMON_PHY_SD_CTRL1,
1462 0x1 << COMMON_PHY_SD_CTRL1_RXAUI1_OFFSET,
1463 COMMON_PHY_SD_CTRL1_RXAUI1_MASK);
1464 }
1465
1466 /* Select Baud Rate of Comphy And PD_PLL/Tx/Rx */
1467 mask = SD_EXTERNAL_CONFIG0_SD_PU_PLL_MASK;
1468 data = 0x0 << SD_EXTERNAL_CONFIG0_SD_PU_PLL_OFFSET;
1469 mask |= SD_EXTERNAL_CONFIG0_SD_PHY_GEN_RX_MASK;
1470 data |= 0xB << SD_EXTERNAL_CONFIG0_SD_PHY_GEN_RX_OFFSET;
1471 mask |= SD_EXTERNAL_CONFIG0_SD_PHY_GEN_TX_MASK;
1472 data |= 0xB << SD_EXTERNAL_CONFIG0_SD_PHY_GEN_TX_OFFSET;
1473 mask |= SD_EXTERNAL_CONFIG0_SD_PU_RX_MASK;
1474 data |= 0x0 << SD_EXTERNAL_CONFIG0_SD_PU_RX_OFFSET;
1475 mask |= SD_EXTERNAL_CONFIG0_SD_PU_TX_MASK;
1476 data |= 0x0 << SD_EXTERNAL_CONFIG0_SD_PU_TX_OFFSET;
1477 mask |= SD_EXTERNAL_CONFIG0_HALF_BUS_MODE_MASK;
1478 data |= 0x0 << SD_EXTERNAL_CONFIG0_HALF_BUS_MODE_OFFSET;
1479 mask |= SD_EXTERNAL_CONFIG0_MEDIA_MODE_MASK;
1480 data |= 0x1 << SD_EXTERNAL_CONFIG0_MEDIA_MODE_OFFSET;
1481 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG0_REG, data, mask);
1482
1483 /* release from hard reset */
1484 mask = SD_EXTERNAL_CONFIG1_RESET_IN_MASK;
1485 data = 0x0 << SD_EXTERNAL_CONFIG1_RESET_IN_OFFSET;
1486 mask |= SD_EXTERNAL_CONFIG1_RESET_CORE_MASK;
1487 data |= 0x0 << SD_EXTERNAL_CONFIG1_RESET_CORE_OFFSET;
1488 mask |= SD_EXTERNAL_CONFIG1_RF_RESET_IN_MASK;
1489 data |= 0x0 << SD_EXTERNAL_CONFIG1_RF_RESET_IN_OFFSET;
1490 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1491
1492 mask = SD_EXTERNAL_CONFIG1_RESET_IN_MASK;
1493 data = 0x1 << SD_EXTERNAL_CONFIG1_RESET_IN_OFFSET;
1494 mask |= SD_EXTERNAL_CONFIG1_RESET_CORE_MASK;
1495 data |= 0x1 << SD_EXTERNAL_CONFIG1_RESET_CORE_OFFSET;
1496 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1497
1498 /* Wait 1ms - until band gap and ref clock ready */
1499 mdelay(1);
1500
1501 /* Start comphy Configuration */
1502 debug("stage: Comphy configuration\n");
1503 /* set reference clock */
1504 reg_set(hpipe_addr + HPIPE_MISC_REG,
1505 0x0 << HPIPE_MISC_REFCLK_SEL_OFFSET,
1506 HPIPE_MISC_REFCLK_SEL_MASK);
1507 /* Power and PLL Control */
1508 mask = HPIPE_PWR_PLL_REF_FREQ_MASK;
1509 data = 0x1 << HPIPE_PWR_PLL_REF_FREQ_OFFSET;
1510 mask |= HPIPE_PWR_PLL_PHY_MODE_MASK;
1511 data |= 0x4 << HPIPE_PWR_PLL_PHY_MODE_OFFSET;
1512 reg_set(hpipe_addr + HPIPE_PWR_PLL_REG, data, mask);
1513 /* Loopback register */
1514 reg_set(hpipe_addr + HPIPE_LOOPBACK_REG,
1515 0x1 << HPIPE_LOOPBACK_SEL_OFFSET, HPIPE_LOOPBACK_SEL_MASK);
1516 /* rx control 1 */
1517 mask = HPIPE_RX_CONTROL_1_RXCLK2X_SEL_MASK;
1518 data = 0x1 << HPIPE_RX_CONTROL_1_RXCLK2X_SEL_OFFSET;
1519 mask |= HPIPE_RX_CONTROL_1_CLK8T_EN_MASK;
1520 data |= 0x1 << HPIPE_RX_CONTROL_1_CLK8T_EN_OFFSET;
1521 reg_set(hpipe_addr + HPIPE_RX_CONTROL_1_REG, data, mask);
1522 /* DTL Control */
1523 reg_set(hpipe_addr + HPIPE_PWR_CTR_DTL_REG,
1524 0x0 << HPIPE_PWR_CTR_DTL_FLOOP_EN_OFFSET,
1525 HPIPE_PWR_CTR_DTL_FLOOP_EN_MASK);
1526
1527 /* Set analog paramters from ETP(HW) */
1528 debug("stage: Analog paramters from ETP(HW)\n");
1529 /* SERDES External Configuration 2 */
1530 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG2_REG,
1531 0x1 << SD_EXTERNAL_CONFIG2_PIN_DFE_EN_OFFSET,
1532 SD_EXTERNAL_CONFIG2_PIN_DFE_EN_MASK);
1533 /* 0x7-DFE Resolution control */
1534 reg_set(hpipe_addr + HPIPE_DFE_REG0, 0x1 << HPIPE_DFE_RES_FORCE_OFFSET,
1535 HPIPE_DFE_RES_FORCE_MASK);
1536 /* 0xd-G1_Setting_0 */
1537 reg_set(hpipe_addr + HPIPE_G1_SET_0_REG,
1538 0xd << HPIPE_G1_SET_0_G1_TX_EMPH1_OFFSET,
1539 HPIPE_G1_SET_0_G1_TX_EMPH1_MASK);
1540 /* 0xE-G1_Setting_1 */
1541 mask = HPIPE_G1_SET_1_G1_RX_SELMUPI_MASK;
1542 data = 0x1 << HPIPE_G1_SET_1_G1_RX_SELMUPI_OFFSET;
1543 mask |= HPIPE_G1_SET_1_G1_RX_SELMUPP_MASK;
1544 data |= 0x1 << HPIPE_G1_SET_1_G1_RX_SELMUPP_OFFSET;
1545 mask |= HPIPE_G1_SET_1_G1_RX_DFE_EN_MASK;
1546 data |= 0x1 << HPIPE_G1_SET_1_G1_RX_DFE_EN_OFFSET;
1547 reg_set(hpipe_addr + HPIPE_G1_SET_1_REG, data, mask);
1548 /* 0xA-DFE_Reg3 */
1549 mask = HPIPE_DFE_F3_F5_DFE_EN_MASK;
1550 data = 0x0 << HPIPE_DFE_F3_F5_DFE_EN_OFFSET;
1551 mask |= HPIPE_DFE_F3_F5_DFE_CTRL_MASK;
1552 data |= 0x0 << HPIPE_DFE_F3_F5_DFE_CTRL_OFFSET;
1553 reg_set(hpipe_addr + HPIPE_DFE_F3_F5_REG, data, mask);
1554
1555 /* 0x111-G1_Setting_4 */
1556 mask = HPIPE_G1_SETTINGS_4_G1_DFE_RES_MASK;
1557 data = 0x1 << HPIPE_G1_SETTINGS_4_G1_DFE_RES_OFFSET;
1558 reg_set(hpipe_addr + HPIPE_G1_SETTINGS_4_REG, data, mask);
1559
1560 debug("stage: RFU configurations- Power Up PLL,Tx,Rx\n");
1561 /* SERDES External Configuration */
1562 mask = SD_EXTERNAL_CONFIG0_SD_PU_PLL_MASK;
1563 data = 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_PLL_OFFSET;
1564 mask |= SD_EXTERNAL_CONFIG0_SD_PU_RX_MASK;
1565 data |= 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_RX_OFFSET;
1566 mask |= SD_EXTERNAL_CONFIG0_SD_PU_TX_MASK;
1567 data |= 0x1 << SD_EXTERNAL_CONFIG0_SD_PU_TX_OFFSET;
1568 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG0_REG, data, mask);
1569
1570
1571 /* check PLL rx & tx ready */
1572 addr = sd_ip_addr + SD_EXTERNAL_STATUS0_REG;
1573 data = SD_EXTERNAL_STATUS0_PLL_RX_MASK |
1574 SD_EXTERNAL_STATUS0_PLL_TX_MASK;
1575 mask = data;
1576 data = polling_with_timeout(addr, data, mask, 15000);
1577 if (data != 0) {
1578 debug("Read from reg = %p - value = 0x%x\n",
1579 sd_ip_addr + SD_EXTERNAL_STATUS0_REG, data);
Masahiro Yamada81e10422017-09-16 14:10:41 +09001580 pr_err("SD_EXTERNAL_STATUS0_PLL_RX is %d, SD_EXTERNAL_STATUS0_PLL_TX is %d\n",
Stefan Roese648391c2016-08-30 16:48:20 +02001581 (data & SD_EXTERNAL_STATUS0_PLL_RX_MASK),
1582 (data & SD_EXTERNAL_STATUS0_PLL_TX_MASK));
1583 ret = 0;
1584 }
1585
1586 /* RX init */
1587 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG,
1588 0x1 << SD_EXTERNAL_CONFIG1_RX_INIT_OFFSET,
1589 SD_EXTERNAL_CONFIG1_RX_INIT_MASK);
1590
1591 /* check that RX init done */
1592 addr = sd_ip_addr + SD_EXTERNAL_STATUS0_REG;
1593 data = SD_EXTERNAL_STATUS0_RX_INIT_MASK;
1594 mask = data;
1595 data = polling_with_timeout(addr, data, mask, 100);
1596 if (data != 0) {
1597 debug("Read from reg = %p - value = 0x%x\n",
1598 sd_ip_addr + SD_EXTERNAL_STATUS0_REG, data);
Masahiro Yamada81e10422017-09-16 14:10:41 +09001599 pr_err("SD_EXTERNAL_STATUS0_RX_INIT is 0\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001600 ret = 0;
1601 }
1602
1603 debug("stage: RF Reset\n");
1604 /* RF Reset */
1605 mask = SD_EXTERNAL_CONFIG1_RX_INIT_MASK;
1606 data = 0x0 << SD_EXTERNAL_CONFIG1_RX_INIT_OFFSET;
1607 mask |= SD_EXTERNAL_CONFIG1_RF_RESET_IN_MASK;
1608 data |= 0x1 << SD_EXTERNAL_CONFIG1_RF_RESET_IN_OFFSET;
1609 reg_set(sd_ip_addr + SD_EXTERNAL_CONFIG1_REG, data, mask);
1610
1611 debug_exit();
1612 return ret;
1613}
1614
1615static void comphy_utmi_power_down(u32 utmi_index, void __iomem *utmi_base_addr,
1616 void __iomem *usb_cfg_addr,
1617 void __iomem *utmi_cfg_addr,
1618 u32 utmi_phy_port)
1619{
1620 u32 mask, data;
1621
1622 debug_enter();
1623 debug("stage: UTMI %d - Power down transceiver (power down Phy), Power down PLL, and SuspendDM\n",
1624 utmi_index);
1625 /* Power down UTMI PHY */
1626 reg_set(utmi_cfg_addr, 0x0 << UTMI_PHY_CFG_PU_OFFSET,
1627 UTMI_PHY_CFG_PU_MASK);
1628
1629 /*
1630 * If UTMI connected to USB Device, configure mux prior to PHY init
1631 * (Device can be connected to UTMI0 or to UTMI1)
1632 */
Stefan Roeseb781f572017-04-24 18:45:23 +03001633 if (utmi_phy_port == UTMI_PHY_TO_USB3_DEVICE0) {
Stefan Roese648391c2016-08-30 16:48:20 +02001634 debug("stage: UTMI %d - Enable Device mode and configure UTMI mux\n",
1635 utmi_index);
1636 /* USB3 Device UTMI enable */
1637 mask = UTMI_USB_CFG_DEVICE_EN_MASK;
1638 data = 0x1 << UTMI_USB_CFG_DEVICE_EN_OFFSET;
1639 /* USB3 Device UTMI MUX */
1640 mask |= UTMI_USB_CFG_DEVICE_MUX_MASK;
1641 data |= utmi_index << UTMI_USB_CFG_DEVICE_MUX_OFFSET;
1642 reg_set(usb_cfg_addr, data, mask);
1643 }
1644
1645 /* Set Test suspendm mode */
1646 mask = UTMI_CTRL_STATUS0_SUSPENDM_MASK;
1647 data = 0x1 << UTMI_CTRL_STATUS0_SUSPENDM_OFFSET;
1648 /* Enable Test UTMI select */
1649 mask |= UTMI_CTRL_STATUS0_TEST_SEL_MASK;
1650 data |= 0x1 << UTMI_CTRL_STATUS0_TEST_SEL_OFFSET;
1651 reg_set(utmi_base_addr + UTMI_CTRL_STATUS0_REG, data, mask);
1652
1653 /* Wait for UTMI power down */
1654 mdelay(1);
1655
1656 debug_exit();
1657 return;
1658}
1659
1660static void comphy_utmi_phy_config(u32 utmi_index, void __iomem *utmi_base_addr,
1661 void __iomem *usb_cfg_addr,
1662 void __iomem *utmi_cfg_addr,
1663 u32 utmi_phy_port)
1664{
1665 u32 mask, data;
1666
1667 debug_exit();
1668 debug("stage: Configure UTMI PHY %d registers\n", utmi_index);
1669 /* Reference Clock Divider Select */
1670 mask = UTMI_PLL_CTRL_REFDIV_MASK;
1671 data = 0x5 << UTMI_PLL_CTRL_REFDIV_OFFSET;
1672 /* Feedback Clock Divider Select - 90 for 25Mhz*/
1673 mask |= UTMI_PLL_CTRL_FBDIV_MASK;
1674 data |= 0x60 << UTMI_PLL_CTRL_FBDIV_OFFSET;
1675 /* Select LPFR - 0x0 for 25Mhz/5=5Mhz*/
1676 mask |= UTMI_PLL_CTRL_SEL_LPFR_MASK;
1677 data |= 0x0 << UTMI_PLL_CTRL_SEL_LPFR_OFFSET;
1678 reg_set(utmi_base_addr + UTMI_PLL_CTRL_REG, data, mask);
1679
1680 /* Impedance Calibration Threshold Setting */
1681 reg_set(utmi_base_addr + UTMI_CALIB_CTRL_REG,
1682 0x6 << UTMI_CALIB_CTRL_IMPCAL_VTH_OFFSET,
1683 UTMI_CALIB_CTRL_IMPCAL_VTH_MASK);
1684
1685 /* Set LS TX driver strength coarse control */
1686 mask = UTMI_TX_CH_CTRL_DRV_EN_LS_MASK;
1687 data = 0x3 << UTMI_TX_CH_CTRL_DRV_EN_LS_OFFSET;
1688 /* Set LS TX driver fine adjustment */
1689 mask |= UTMI_TX_CH_CTRL_IMP_SEL_LS_MASK;
1690 data |= 0x3 << UTMI_TX_CH_CTRL_IMP_SEL_LS_OFFSET;
1691 reg_set(utmi_base_addr + UTMI_TX_CH_CTRL_REG, data, mask);
1692
1693 /* Enable SQ */
1694 mask = UTMI_RX_CH_CTRL0_SQ_DET_MASK;
1695 data = 0x0 << UTMI_RX_CH_CTRL0_SQ_DET_OFFSET;
1696 /* Enable analog squelch detect */
1697 mask |= UTMI_RX_CH_CTRL0_SQ_ANA_DTC_MASK;
1698 data |= 0x1 << UTMI_RX_CH_CTRL0_SQ_ANA_DTC_OFFSET;
1699 reg_set(utmi_base_addr + UTMI_RX_CH_CTRL0_REG, data, mask);
1700
1701 /* Set External squelch calibration number */
1702 mask = UTMI_RX_CH_CTRL1_SQ_AMP_CAL_MASK;
1703 data = 0x1 << UTMI_RX_CH_CTRL1_SQ_AMP_CAL_OFFSET;
1704 /* Enable the External squelch calibration */
1705 mask |= UTMI_RX_CH_CTRL1_SQ_AMP_CAL_EN_MASK;
1706 data |= 0x1 << UTMI_RX_CH_CTRL1_SQ_AMP_CAL_EN_OFFSET;
1707 reg_set(utmi_base_addr + UTMI_RX_CH_CTRL1_REG, data, mask);
1708
1709 /* Set Control VDAT Reference Voltage - 0.325V */
1710 mask = UTMI_CHGDTC_CTRL_VDAT_MASK;
1711 data = 0x1 << UTMI_CHGDTC_CTRL_VDAT_OFFSET;
1712 /* Set Control VSRC Reference Voltage - 0.6V */
1713 mask |= UTMI_CHGDTC_CTRL_VSRC_MASK;
1714 data |= 0x1 << UTMI_CHGDTC_CTRL_VSRC_OFFSET;
1715 reg_set(utmi_base_addr + UTMI_CHGDTC_CTRL_REG, data, mask);
1716
1717 debug_exit();
1718 return;
1719}
1720
1721static int comphy_utmi_power_up(u32 utmi_index, void __iomem *utmi_base_addr,
1722 void __iomem *usb_cfg_addr,
1723 void __iomem *utmi_cfg_addr, u32 utmi_phy_port)
1724{
1725 u32 data, mask, ret = 1;
1726 void __iomem *addr;
1727
1728 debug_enter();
1729 debug("stage: UTMI %d - Power up transceiver(Power up Phy), and exit SuspendDM\n",
1730 utmi_index);
1731 /* Power UP UTMI PHY */
1732 reg_set(utmi_cfg_addr, 0x1 << UTMI_PHY_CFG_PU_OFFSET,
1733 UTMI_PHY_CFG_PU_MASK);
1734 /* Disable Test UTMI select */
1735 reg_set(utmi_base_addr + UTMI_CTRL_STATUS0_REG,
1736 0x0 << UTMI_CTRL_STATUS0_TEST_SEL_OFFSET,
1737 UTMI_CTRL_STATUS0_TEST_SEL_MASK);
1738
1739 debug("stage: Polling for PLL and impedance calibration done, and PLL ready done\n");
1740 addr = utmi_base_addr + UTMI_CALIB_CTRL_REG;
1741 data = UTMI_CALIB_CTRL_IMPCAL_DONE_MASK;
1742 mask = data;
1743 data = polling_with_timeout(addr, data, mask, 100);
1744 if (data != 0) {
Masahiro Yamada81e10422017-09-16 14:10:41 +09001745 pr_err("Impedance calibration is not done\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001746 debug("Read from reg = %p - value = 0x%x\n", addr, data);
1747 ret = 0;
1748 }
1749
1750 data = UTMI_CALIB_CTRL_PLLCAL_DONE_MASK;
1751 mask = data;
1752 data = polling_with_timeout(addr, data, mask, 100);
1753 if (data != 0) {
Masahiro Yamada81e10422017-09-16 14:10:41 +09001754 pr_err("PLL calibration is not done\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001755 debug("Read from reg = %p - value = 0x%x\n", addr, data);
1756 ret = 0;
1757 }
1758
1759 addr = utmi_base_addr + UTMI_PLL_CTRL_REG;
1760 data = UTMI_PLL_CTRL_PLL_RDY_MASK;
1761 mask = data;
1762 data = polling_with_timeout(addr, data, mask, 100);
1763 if (data != 0) {
Masahiro Yamada81e10422017-09-16 14:10:41 +09001764 pr_err("PLL is not ready\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001765 debug("Read from reg = %p - value = 0x%x\n", addr, data);
1766 ret = 0;
1767 }
1768
1769 if (ret)
1770 debug("Passed\n");
1771 else
1772 debug("\n");
1773
1774 debug_exit();
1775 return ret;
1776}
1777
1778/*
1779 * comphy_utmi_phy_init initialize the UTMI PHY
1780 * the init split in 3 parts:
1781 * 1. Power down transceiver and PLL
1782 * 2. UTMI PHY configure
1783 * 3. Powe up transceiver and PLL
1784 * Note: - Power down/up should be once for both UTMI PHYs
1785 * - comphy_dedicated_phys_init call this function if at least there is
1786 * one UTMI PHY exists in FDT blob. access to cp110_utmi_data[0] is
1787 * legal
1788 */
1789static void comphy_utmi_phy_init(u32 utmi_phy_count,
1790 struct utmi_phy_data *cp110_utmi_data)
1791{
1792 u32 i;
1793
1794 debug_enter();
1795 /* UTMI Power down */
1796 for (i = 0; i < utmi_phy_count; i++) {
1797 comphy_utmi_power_down(i, cp110_utmi_data[i].utmi_base_addr,
1798 cp110_utmi_data[i].usb_cfg_addr,
1799 cp110_utmi_data[i].utmi_cfg_addr,
1800 cp110_utmi_data[i].utmi_phy_port);
1801 }
1802 /* PLL Power down */
1803 debug("stage: UTMI PHY power down PLL\n");
1804 for (i = 0; i < utmi_phy_count; i++) {
1805 reg_set(cp110_utmi_data[i].usb_cfg_addr,
1806 0x0 << UTMI_USB_CFG_PLL_OFFSET, UTMI_USB_CFG_PLL_MASK);
1807 }
1808 /* UTMI configure */
1809 for (i = 0; i < utmi_phy_count; i++) {
1810 comphy_utmi_phy_config(i, cp110_utmi_data[i].utmi_base_addr,
1811 cp110_utmi_data[i].usb_cfg_addr,
1812 cp110_utmi_data[i].utmi_cfg_addr,
1813 cp110_utmi_data[i].utmi_phy_port);
1814 }
1815 /* UTMI Power up */
1816 for (i = 0; i < utmi_phy_count; i++) {
1817 if (!comphy_utmi_power_up(i, cp110_utmi_data[i].utmi_base_addr,
1818 cp110_utmi_data[i].usb_cfg_addr,
1819 cp110_utmi_data[i].utmi_cfg_addr,
1820 cp110_utmi_data[i].utmi_phy_port)) {
Masahiro Yamada81e10422017-09-16 14:10:41 +09001821 pr_err("Failed to initialize UTMI PHY %d\n", i);
Stefan Roese648391c2016-08-30 16:48:20 +02001822 continue;
1823 }
1824 printf("UTMI PHY %d initialized to ", i);
Stefan Roeseb781f572017-04-24 18:45:23 +03001825 if (cp110_utmi_data[i].utmi_phy_port ==
1826 UTMI_PHY_TO_USB3_DEVICE0)
Stefan Roese648391c2016-08-30 16:48:20 +02001827 printf("USB Device\n");
1828 else
1829 printf("USB Host%d\n",
1830 cp110_utmi_data[i].utmi_phy_port);
1831 }
1832 /* PLL Power up */
1833 debug("stage: UTMI PHY power up PLL\n");
1834 for (i = 0; i < utmi_phy_count; i++) {
1835 reg_set(cp110_utmi_data[i].usb_cfg_addr,
1836 0x1 << UTMI_USB_CFG_PLL_OFFSET, UTMI_USB_CFG_PLL_MASK);
1837 }
1838
1839 debug_exit();
1840 return;
1841}
1842
1843/*
1844 * comphy_dedicated_phys_init initialize the dedicated PHYs
1845 * - not muxed SerDes lanes e.g. UTMI PHY
1846 */
1847void comphy_dedicated_phys_init(void)
1848{
1849 struct utmi_phy_data cp110_utmi_data[MAX_UTMI_PHY_COUNT];
1850 int node;
1851 int i;
1852
1853 debug_enter();
1854 debug("Initialize USB UTMI PHYs\n");
1855
1856 /* Find the UTMI phy node in device tree and go over them */
1857 node = fdt_node_offset_by_compatible(gd->fdt_blob, -1,
1858 "marvell,mvebu-utmi-2.6.0");
1859
1860 i = 0;
1861 while (node > 0) {
1862 /* get base address of UTMI phy */
1863 cp110_utmi_data[i].utmi_base_addr =
1864 (void __iomem *)fdtdec_get_addr_size_auto_noparent(
1865 gd->fdt_blob, node, "reg", 0, NULL, true);
1866 if (cp110_utmi_data[i].utmi_base_addr == NULL) {
Masahiro Yamada81e10422017-09-16 14:10:41 +09001867 pr_err("UTMI PHY base address is invalid\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001868 i++;
1869 continue;
1870 }
1871
1872 /* get usb config address */
1873 cp110_utmi_data[i].usb_cfg_addr =
1874 (void __iomem *)fdtdec_get_addr_size_auto_noparent(
1875 gd->fdt_blob, node, "reg", 1, NULL, true);
1876 if (cp110_utmi_data[i].usb_cfg_addr == NULL) {
Masahiro Yamada81e10422017-09-16 14:10:41 +09001877 pr_err("UTMI PHY base address is invalid\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001878 i++;
1879 continue;
1880 }
1881
1882 /* get UTMI config address */
1883 cp110_utmi_data[i].utmi_cfg_addr =
1884 (void __iomem *)fdtdec_get_addr_size_auto_noparent(
1885 gd->fdt_blob, node, "reg", 2, NULL, true);
1886 if (cp110_utmi_data[i].utmi_cfg_addr == NULL) {
Masahiro Yamada81e10422017-09-16 14:10:41 +09001887 pr_err("UTMI PHY base address is invalid\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001888 i++;
1889 continue;
1890 }
1891
1892 /*
1893 * get the port number (to check if the utmi connected to
1894 * host/device)
1895 */
1896 cp110_utmi_data[i].utmi_phy_port = fdtdec_get_int(
1897 gd->fdt_blob, node, "utmi-port", UTMI_PHY_INVALID);
1898 if (cp110_utmi_data[i].utmi_phy_port == UTMI_PHY_INVALID) {
Masahiro Yamada81e10422017-09-16 14:10:41 +09001899 pr_err("UTMI PHY port type is invalid\n");
Stefan Roese648391c2016-08-30 16:48:20 +02001900 i++;
1901 continue;
1902 }
1903
1904 node = fdt_node_offset_by_compatible(
1905 gd->fdt_blob, node, "marvell,mvebu-utmi-2.6.0");
1906 i++;
1907 }
1908
1909 if (i > 0)
1910 comphy_utmi_phy_init(i, cp110_utmi_data);
1911
1912 debug_exit();
1913}
1914
1915static void comphy_mux_cp110_init(struct chip_serdes_phy_config *ptr_chip_cfg,
1916 struct comphy_map *serdes_map)
1917{
1918 void __iomem *comphy_base_addr;
1919 struct comphy_map comphy_map_pipe_data[MAX_LANE_OPTIONS];
1920 struct comphy_map comphy_map_phy_data[MAX_LANE_OPTIONS];
1921 u32 lane, comphy_max_count;
1922
1923 comphy_max_count = ptr_chip_cfg->comphy_lanes_count;
1924 comphy_base_addr = ptr_chip_cfg->comphy_base_addr;
1925
1926 /*
1927 * Copy the SerDes map configuration for PIPE map and PHY map
1928 * the comphy_mux_init modify the type of the lane if the type
1929 * is not valid because we have 2 selectores run the
1930 * comphy_mux_init twice and after that update the original
1931 * serdes_map
1932 */
1933 for (lane = 0; lane < comphy_max_count; lane++) {
1934 comphy_map_pipe_data[lane].type = serdes_map[lane].type;
1935 comphy_map_pipe_data[lane].speed = serdes_map[lane].speed;
1936 comphy_map_phy_data[lane].type = serdes_map[lane].type;
1937 comphy_map_phy_data[lane].speed = serdes_map[lane].speed;
1938 }
1939 ptr_chip_cfg->mux_data = cp110_comphy_phy_mux_data;
1940 comphy_mux_init(ptr_chip_cfg, comphy_map_phy_data,
1941 comphy_base_addr + COMMON_SELECTOR_PHY_OFFSET);
1942
1943 ptr_chip_cfg->mux_data = cp110_comphy_pipe_mux_data;
1944 comphy_mux_init(ptr_chip_cfg, comphy_map_pipe_data,
1945 comphy_base_addr + COMMON_SELECTOR_PIPE_OFFSET);
1946 /* Fix the type after check the PHY and PIPE configuration */
1947 for (lane = 0; lane < comphy_max_count; lane++) {
1948 if ((comphy_map_pipe_data[lane].type == PHY_TYPE_UNCONNECTED) &&
1949 (comphy_map_phy_data[lane].type == PHY_TYPE_UNCONNECTED))
1950 serdes_map[lane].type = PHY_TYPE_UNCONNECTED;
1951 }
1952}
1953
1954int comphy_cp110_init(struct chip_serdes_phy_config *ptr_chip_cfg,
1955 struct comphy_map *serdes_map)
1956{
1957 struct comphy_map *ptr_comphy_map;
1958 void __iomem *comphy_base_addr, *hpipe_base_addr;
1959 u32 comphy_max_count, lane, ret = 0;
1960 u32 pcie_width = 0;
1961
1962 debug_enter();
1963
1964 comphy_max_count = ptr_chip_cfg->comphy_lanes_count;
1965 comphy_base_addr = ptr_chip_cfg->comphy_base_addr;
1966 hpipe_base_addr = ptr_chip_cfg->hpipe3_base_addr;
1967
1968 /* Config Comphy mux configuration */
1969 comphy_mux_cp110_init(ptr_chip_cfg, serdes_map);
1970
1971 /* Check if the first 4 lanes configured as By-4 */
1972 for (lane = 0, ptr_comphy_map = serdes_map; lane < 4;
1973 lane++, ptr_comphy_map++) {
1974 if (ptr_comphy_map->type != PHY_TYPE_PEX0)
1975 break;
1976 pcie_width++;
1977 }
1978
1979 for (lane = 0, ptr_comphy_map = serdes_map; lane < comphy_max_count;
1980 lane++, ptr_comphy_map++) {
1981 debug("Initialize serdes number %d\n", lane);
1982 debug("Serdes type = 0x%x\n", ptr_comphy_map->type);
1983 if (lane == 4) {
1984 /*
1985 * PCIe lanes above the first 4 lanes, can be only
1986 * by1
1987 */
1988 pcie_width = 1;
1989 }
1990 switch (ptr_comphy_map->type) {
1991 case PHY_TYPE_UNCONNECTED:
Stefan Roesef4fed5c2017-04-24 18:45:24 +03001992 case PHY_TYPE_IGNORE:
Stefan Roese648391c2016-08-30 16:48:20 +02001993 continue;
1994 break;
1995 case PHY_TYPE_PEX0:
1996 case PHY_TYPE_PEX1:
1997 case PHY_TYPE_PEX2:
1998 case PHY_TYPE_PEX3:
1999 ret = comphy_pcie_power_up(
2000 lane, pcie_width, ptr_comphy_map->clk_src,
Stefan Roese2313efe2017-04-24 18:45:22 +03002001 serdes_map->end_point,
Stefan Roese648391c2016-08-30 16:48:20 +02002002 hpipe_base_addr, comphy_base_addr);
2003 break;
2004 case PHY_TYPE_SATA0:
2005 case PHY_TYPE_SATA1:
2006 case PHY_TYPE_SATA2:
2007 case PHY_TYPE_SATA3:
2008 ret = comphy_sata_power_up(
2009 lane, hpipe_base_addr, comphy_base_addr,
Igal Libermanc8855ce2017-04-24 18:45:32 +03002010 ptr_chip_cfg->cp_index);
Stefan Roese648391c2016-08-30 16:48:20 +02002011 break;
2012 case PHY_TYPE_USB3_HOST0:
2013 case PHY_TYPE_USB3_HOST1:
2014 case PHY_TYPE_USB3_DEVICE:
2015 ret = comphy_usb3_power_up(lane, hpipe_base_addr,
2016 comphy_base_addr);
2017 break;
2018 case PHY_TYPE_SGMII0:
2019 case PHY_TYPE_SGMII1:
2020 case PHY_TYPE_SGMII2:
2021 case PHY_TYPE_SGMII3:
2022 if (ptr_comphy_map->speed == PHY_SPEED_INVALID) {
2023 debug("Warning: SGMII PHY speed in lane %d is invalid, set PHY speed to 1.25G\n",
2024 lane);
2025 ptr_comphy_map->speed = PHY_SPEED_1_25G;
2026 }
2027 ret = comphy_sgmii_power_up(
2028 lane, ptr_comphy_map->speed, hpipe_base_addr,
2029 comphy_base_addr);
2030 break;
Stefan Roesedb720b72017-04-24 18:45:21 +03002031 case PHY_TYPE_SFI:
2032 ret = comphy_sfi_power_up(lane, hpipe_base_addr,
Igal Liberman989b96f2017-04-24 18:45:28 +03002033 comphy_base_addr,
2034 ptr_comphy_map->speed);
Stefan Roese648391c2016-08-30 16:48:20 +02002035 break;
2036 case PHY_TYPE_RXAUI0:
2037 case PHY_TYPE_RXAUI1:
2038 ret = comphy_rxauii_power_up(lane, hpipe_base_addr,
2039 comphy_base_addr);
2040 break;
2041 default:
2042 debug("Unknown SerDes type, skip initialize SerDes %d\n",
2043 lane);
2044 break;
2045 }
2046 if (ret == 0) {
2047 /*
Stefan Roese4fbca012017-04-24 18:45:25 +03002048 * If interface wans't initialized, set the lane to
Stefan Roese648391c2016-08-30 16:48:20 +02002049 * PHY_TYPE_UNCONNECTED state.
2050 */
2051 ptr_comphy_map->type = PHY_TYPE_UNCONNECTED;
Masahiro Yamada81e10422017-09-16 14:10:41 +09002052 pr_err("PLL is not locked - Failed to initialize lane %d\n",
Stefan Roese648391c2016-08-30 16:48:20 +02002053 lane);
2054 }
2055 }
2056
2057 debug_exit();
2058 return 0;
2059}