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1 // SPDX-License-Identifier: GPL-2.0-only
2 /*
3  * Copyright (C) 1999 - 2010 Intel Corporation.
4  * Copyright (C) 2010 OKI SEMICONDUCTOR Co., LTD.
5  *
6  * This code was derived from the Intel e1000e Linux driver.
7  */
8 
9 #include "pch_gbe.h"
10 #include "pch_gbe_phy.h"
11 
12 #define PHY_MAX_REG_ADDRESS   0x1F	/* 5 bit address bus (0-0x1F) */
13 
14 /* PHY 1000 MII Register/Bit Definitions */
15 /* PHY Registers defined by IEEE */
16 #define PHY_CONTROL           0x00  /* Control Register */
17 #define PHY_STATUS            0x01  /* Status Regiser */
18 #define PHY_ID1               0x02  /* Phy Id Register (word 1) */
19 #define PHY_ID2               0x03  /* Phy Id Register (word 2) */
20 #define PHY_AUTONEG_ADV       0x04  /* Autoneg Advertisement */
21 #define PHY_LP_ABILITY        0x05  /* Link Partner Ability (Base Page) */
22 #define PHY_AUTONEG_EXP       0x06  /* Autoneg Expansion Register */
23 #define PHY_NEXT_PAGE_TX      0x07  /* Next Page TX */
24 #define PHY_LP_NEXT_PAGE      0x08  /* Link Partner Next Page */
25 #define PHY_1000T_CTRL        0x09  /* 1000Base-T Control Register */
26 #define PHY_1000T_STATUS      0x0A  /* 1000Base-T Status Register */
27 #define PHY_EXT_STATUS        0x0F  /* Extended Status Register */
28 #define PHY_PHYSP_CONTROL     0x10  /* PHY Specific Control Register */
29 #define PHY_EXT_PHYSP_CONTROL 0x14  /* Extended PHY Specific Control Register */
30 #define PHY_LED_CONTROL       0x18  /* LED Control Register */
31 #define PHY_EXT_PHYSP_STATUS  0x1B  /* Extended PHY Specific Status Register */
32 
33 /* PHY Control Register */
34 #define MII_CR_SPEED_SELECT_MSB 0x0040	/* bits 6,13: 10=1000, 01=100, 00=10 */
35 #define MII_CR_COLL_TEST_ENABLE 0x0080	/* Collision test enable */
36 #define MII_CR_FULL_DUPLEX      0x0100	/* FDX =1, half duplex =0 */
37 #define MII_CR_RESTART_AUTO_NEG 0x0200	/* Restart auto negotiation */
38 #define MII_CR_ISOLATE          0x0400	/* Isolate PHY from MII */
39 #define MII_CR_POWER_DOWN       0x0800	/* Power down */
40 #define MII_CR_AUTO_NEG_EN      0x1000	/* Auto Neg Enable */
41 #define MII_CR_SPEED_SELECT_LSB 0x2000	/* bits 6,13: 10=1000, 01=100, 00=10 */
42 #define MII_CR_LOOPBACK         0x4000	/* 0 = normal, 1 = loopback */
43 #define MII_CR_RESET            0x8000	/* 0 = normal, 1 = PHY reset */
44 #define MII_CR_SPEED_1000       0x0040
45 #define MII_CR_SPEED_100        0x2000
46 #define MII_CR_SPEED_10         0x0000
47 
48 /* PHY Status Register */
49 #define MII_SR_EXTENDED_CAPS     0x0001	/* Extended register capabilities */
50 #define MII_SR_JABBER_DETECT     0x0002	/* Jabber Detected */
51 #define MII_SR_LINK_STATUS       0x0004	/* Link Status 1 = link */
52 #define MII_SR_AUTONEG_CAPS      0x0008	/* Auto Neg Capable */
53 #define MII_SR_REMOTE_FAULT      0x0010	/* Remote Fault Detect */
54 #define MII_SR_AUTONEG_COMPLETE  0x0020	/* Auto Neg Complete */
55 #define MII_SR_PREAMBLE_SUPPRESS 0x0040	/* Preamble may be suppressed */
56 #define MII_SR_EXTENDED_STATUS   0x0100	/* Ext. status info in Reg 0x0F */
57 #define MII_SR_100T2_HD_CAPS     0x0200	/* 100T2 Half Duplex Capable */
58 #define MII_SR_100T2_FD_CAPS     0x0400	/* 100T2 Full Duplex Capable */
59 #define MII_SR_10T_HD_CAPS       0x0800	/* 10T   Half Duplex Capable */
60 #define MII_SR_10T_FD_CAPS       0x1000	/* 10T   Full Duplex Capable */
61 #define MII_SR_100X_HD_CAPS      0x2000	/* 100X  Half Duplex Capable */
62 #define MII_SR_100X_FD_CAPS      0x4000	/* 100X  Full Duplex Capable */
63 #define MII_SR_100T4_CAPS        0x8000	/* 100T4 Capable */
64 
65 /* AR8031 PHY Debug Registers */
66 #define PHY_AR803X_ID           0x00001374
67 #define PHY_AR8031_DBG_OFF      0x1D
68 #define PHY_AR8031_DBG_DAT      0x1E
69 #define PHY_AR8031_SERDES       0x05
70 #define PHY_AR8031_HIBERNATE    0x0B
71 #define PHY_AR8031_SERDES_TX_CLK_DLY   0x0100 /* TX clock delay of 2.0ns */
72 #define PHY_AR8031_PS_HIB_EN           0x8000 /* Hibernate enable */
73 
74 /* Phy Id Register (word 2) */
75 #define PHY_REVISION_MASK        0x000F
76 
77 /* PHY Specific Control Register */
78 #define PHYSP_CTRL_ASSERT_CRS_TX  0x0800
79 
80 
81 /* Default value of PHY register */
82 #define PHY_CONTROL_DEFAULT         0x1140 /* Control Register */
83 #define PHY_AUTONEG_ADV_DEFAULT     0x01e0 /* Autoneg Advertisement */
84 #define PHY_NEXT_PAGE_TX_DEFAULT    0x2001 /* Next Page TX */
85 #define PHY_1000T_CTRL_DEFAULT      0x0300 /* 1000Base-T Control Register */
86 #define PHY_PHYSP_CONTROL_DEFAULT   0x01EE /* PHY Specific Control Register */
87 
88 /**
89  * pch_gbe_phy_get_id - Retrieve the PHY ID and revision
90  * @hw:	       Pointer to the HW structure
91  * Returns
92  *	0:			Successful.
93  *	Negative value:		Failed.
94  */
pch_gbe_phy_get_id(struct pch_gbe_hw * hw)95 s32 pch_gbe_phy_get_id(struct pch_gbe_hw *hw)
96 {
97 	struct pch_gbe_adapter *adapter = pch_gbe_hw_to_adapter(hw);
98 	struct pch_gbe_phy_info *phy = &hw->phy;
99 	s32 ret;
100 	u16 phy_id1;
101 	u16 phy_id2;
102 
103 	ret = pch_gbe_phy_read_reg_miic(hw, PHY_ID1, &phy_id1);
104 	if (ret)
105 		return ret;
106 	ret = pch_gbe_phy_read_reg_miic(hw, PHY_ID2, &phy_id2);
107 	if (ret)
108 		return ret;
109 	/*
110 	 * PHY_ID1: [bit15-0:ID(21-6)]
111 	 * PHY_ID2: [bit15-10:ID(5-0)][bit9-4:Model][bit3-0:revision]
112 	 */
113 	phy->id = (u32)phy_id1;
114 	phy->id = ((phy->id << 6) | ((phy_id2 & 0xFC00) >> 10));
115 	phy->revision = (u32) (phy_id2 & 0x000F);
116 	netdev_dbg(adapter->netdev,
117 		   "phy->id : 0x%08x  phy->revision : 0x%08x\n",
118 		   phy->id, phy->revision);
119 	return 0;
120 }
121 
122 /**
123  * pch_gbe_phy_read_reg_miic - Read MII control register
124  * @hw:	     Pointer to the HW structure
125  * @offset:  Register offset to be read
126  * @data:    Pointer to the read data
127  * Returns
128  *	0:		Successful.
129  *	-EINVAL:	Invalid argument.
130  */
pch_gbe_phy_read_reg_miic(struct pch_gbe_hw * hw,u32 offset,u16 * data)131 s32 pch_gbe_phy_read_reg_miic(struct pch_gbe_hw *hw, u32 offset, u16 *data)
132 {
133 	struct pch_gbe_phy_info *phy = &hw->phy;
134 
135 	if (offset > PHY_MAX_REG_ADDRESS) {
136 		struct pch_gbe_adapter *adapter = pch_gbe_hw_to_adapter(hw);
137 
138 		netdev_err(adapter->netdev, "PHY Address %d is out of range\n",
139 			   offset);
140 		return -EINVAL;
141 	}
142 	*data = pch_gbe_mac_ctrl_miim(hw, phy->addr, PCH_GBE_HAL_MIIM_READ,
143 				      offset, (u16)0);
144 	return 0;
145 }
146 
147 /**
148  * pch_gbe_phy_write_reg_miic - Write MII control register
149  * @hw:	     Pointer to the HW structure
150  * @offset:  Register offset to be read
151  * @data:    data to write to register at offset
152  * Returns
153  *	0:		Successful.
154  *	-EINVAL:	Invalid argument.
155  */
pch_gbe_phy_write_reg_miic(struct pch_gbe_hw * hw,u32 offset,u16 data)156 s32 pch_gbe_phy_write_reg_miic(struct pch_gbe_hw *hw, u32 offset, u16 data)
157 {
158 	struct pch_gbe_phy_info *phy = &hw->phy;
159 
160 	if (offset > PHY_MAX_REG_ADDRESS) {
161 		struct pch_gbe_adapter *adapter = pch_gbe_hw_to_adapter(hw);
162 
163 		netdev_err(adapter->netdev, "PHY Address %d is out of range\n",
164 			   offset);
165 		return -EINVAL;
166 	}
167 	pch_gbe_mac_ctrl_miim(hw, phy->addr, PCH_GBE_HAL_MIIM_WRITE,
168 				 offset, data);
169 	return 0;
170 }
171 
172 /**
173  * pch_gbe_phy_sw_reset - PHY software reset
174  * @hw:	            Pointer to the HW structure
175  */
pch_gbe_phy_sw_reset(struct pch_gbe_hw * hw)176 static void pch_gbe_phy_sw_reset(struct pch_gbe_hw *hw)
177 {
178 	u16 phy_ctrl;
179 
180 	pch_gbe_phy_read_reg_miic(hw, PHY_CONTROL, &phy_ctrl);
181 	phy_ctrl |= MII_CR_RESET;
182 	pch_gbe_phy_write_reg_miic(hw, PHY_CONTROL, phy_ctrl);
183 	udelay(1);
184 }
185 
186 /**
187  * pch_gbe_phy_hw_reset - PHY hardware reset
188  * @hw:	   Pointer to the HW structure
189  */
pch_gbe_phy_hw_reset(struct pch_gbe_hw * hw)190 void pch_gbe_phy_hw_reset(struct pch_gbe_hw *hw)
191 {
192 	pch_gbe_phy_write_reg_miic(hw, PHY_CONTROL, PHY_CONTROL_DEFAULT);
193 	pch_gbe_phy_write_reg_miic(hw, PHY_AUTONEG_ADV,
194 					PHY_AUTONEG_ADV_DEFAULT);
195 	pch_gbe_phy_write_reg_miic(hw, PHY_NEXT_PAGE_TX,
196 					PHY_NEXT_PAGE_TX_DEFAULT);
197 	pch_gbe_phy_write_reg_miic(hw, PHY_1000T_CTRL, PHY_1000T_CTRL_DEFAULT);
198 	pch_gbe_phy_write_reg_miic(hw, PHY_PHYSP_CONTROL,
199 					PHY_PHYSP_CONTROL_DEFAULT);
200 }
201 
202 /**
203  * pch_gbe_phy_power_up - restore link in case the phy was powered down
204  * @hw:	   Pointer to the HW structure
205  */
pch_gbe_phy_power_up(struct pch_gbe_hw * hw)206 void pch_gbe_phy_power_up(struct pch_gbe_hw *hw)
207 {
208 	u16 mii_reg;
209 
210 	mii_reg = 0;
211 	/* Just clear the power down bit to wake the phy back up */
212 	/* according to the manual, the phy will retain its
213 	 * settings across a power-down/up cycle */
214 	pch_gbe_phy_read_reg_miic(hw, PHY_CONTROL, &mii_reg);
215 	mii_reg &= ~MII_CR_POWER_DOWN;
216 	pch_gbe_phy_write_reg_miic(hw, PHY_CONTROL, mii_reg);
217 }
218 
219 /**
220  * pch_gbe_phy_power_down - Power down PHY
221  * @hw:	   Pointer to the HW structure
222  */
pch_gbe_phy_power_down(struct pch_gbe_hw * hw)223 void pch_gbe_phy_power_down(struct pch_gbe_hw *hw)
224 {
225 	u16 mii_reg;
226 
227 	mii_reg = 0;
228 	/* Power down the PHY so no link is implied when interface is down *
229 	 * The PHY cannot be powered down if any of the following is TRUE *
230 	 * (a) WoL is enabled
231 	 * (b) AMT is active
232 	 */
233 	pch_gbe_phy_read_reg_miic(hw, PHY_CONTROL, &mii_reg);
234 	mii_reg |= MII_CR_POWER_DOWN;
235 	pch_gbe_phy_write_reg_miic(hw, PHY_CONTROL, mii_reg);
236 	mdelay(1);
237 }
238 
239 /**
240  * pch_gbe_phy_set_rgmii - RGMII interface setting
241  * @hw:	            Pointer to the HW structure
242  */
pch_gbe_phy_set_rgmii(struct pch_gbe_hw * hw)243 void pch_gbe_phy_set_rgmii(struct pch_gbe_hw *hw)
244 {
245 	pch_gbe_phy_sw_reset(hw);
246 }
247 
248 /**
249  * pch_gbe_phy_tx_clk_delay - Setup TX clock delay via the PHY
250  * @hw:	            Pointer to the HW structure
251  * Returns
252  *	0:		Successful.
253  *	-EINVAL:	Invalid argument.
254  */
pch_gbe_phy_tx_clk_delay(struct pch_gbe_hw * hw)255 static int pch_gbe_phy_tx_clk_delay(struct pch_gbe_hw *hw)
256 {
257 	/* The RGMII interface requires a ~2ns TX clock delay. This is typically
258 	 * done in layout with a longer trace or via PHY strapping, but can also
259 	 * be done via PHY configuration registers.
260 	 */
261 	struct pch_gbe_adapter *adapter = pch_gbe_hw_to_adapter(hw);
262 	u16 mii_reg;
263 	int ret = 0;
264 
265 	switch (hw->phy.id) {
266 	case PHY_AR803X_ID:
267 		netdev_dbg(adapter->netdev,
268 			   "Configuring AR803X PHY for 2ns TX clock delay\n");
269 		pch_gbe_phy_read_reg_miic(hw, PHY_AR8031_DBG_OFF, &mii_reg);
270 		ret = pch_gbe_phy_write_reg_miic(hw, PHY_AR8031_DBG_OFF,
271 						 PHY_AR8031_SERDES);
272 		if (ret)
273 			break;
274 
275 		pch_gbe_phy_read_reg_miic(hw, PHY_AR8031_DBG_DAT, &mii_reg);
276 		mii_reg |= PHY_AR8031_SERDES_TX_CLK_DLY;
277 		ret = pch_gbe_phy_write_reg_miic(hw, PHY_AR8031_DBG_DAT,
278 						 mii_reg);
279 		break;
280 	default:
281 		netdev_err(adapter->netdev,
282 			   "Unknown PHY (%x), could not set TX clock delay\n",
283 			   hw->phy.id);
284 		return -EINVAL;
285 	}
286 
287 	if (ret)
288 		netdev_err(adapter->netdev,
289 			   "Could not configure tx clock delay for PHY\n");
290 	return ret;
291 }
292 
293 /**
294  * pch_gbe_phy_init_setting - PHY initial setting
295  * @hw:	            Pointer to the HW structure
296  */
pch_gbe_phy_init_setting(struct pch_gbe_hw * hw)297 void pch_gbe_phy_init_setting(struct pch_gbe_hw *hw)
298 {
299 	struct pch_gbe_adapter *adapter = pch_gbe_hw_to_adapter(hw);
300 	struct ethtool_cmd     cmd = { .cmd = ETHTOOL_GSET };
301 	int ret;
302 	u16 mii_reg;
303 
304 	ret = mii_ethtool_gset(&adapter->mii, &cmd);
305 	if (ret)
306 		netdev_err(adapter->netdev, "Error: mii_ethtool_gset\n");
307 
308 	ethtool_cmd_speed_set(&cmd, hw->mac.link_speed);
309 	cmd.duplex = hw->mac.link_duplex;
310 	cmd.advertising = hw->phy.autoneg_advertised;
311 	cmd.autoneg = hw->mac.autoneg;
312 	pch_gbe_phy_write_reg_miic(hw, MII_BMCR, BMCR_RESET);
313 	ret = mii_ethtool_sset(&adapter->mii, &cmd);
314 	if (ret)
315 		netdev_err(adapter->netdev, "Error: mii_ethtool_sset\n");
316 
317 	pch_gbe_phy_sw_reset(hw);
318 
319 	pch_gbe_phy_read_reg_miic(hw, PHY_PHYSP_CONTROL, &mii_reg);
320 	mii_reg |= PHYSP_CTRL_ASSERT_CRS_TX;
321 	pch_gbe_phy_write_reg_miic(hw, PHY_PHYSP_CONTROL, mii_reg);
322 
323 	/* Setup a TX clock delay on certain platforms */
324 	if (adapter->pdata && adapter->pdata->phy_tx_clk_delay)
325 		pch_gbe_phy_tx_clk_delay(hw);
326 }
327 
328 /**
329  * pch_gbe_phy_disable_hibernate - Disable the PHY low power state
330  * @hw:	            Pointer to the HW structure
331  * Returns
332  *	0:		Successful.
333  *	-EINVAL:	Invalid argument.
334  */
pch_gbe_phy_disable_hibernate(struct pch_gbe_hw * hw)335 int pch_gbe_phy_disable_hibernate(struct pch_gbe_hw *hw)
336 {
337 	struct pch_gbe_adapter *adapter = pch_gbe_hw_to_adapter(hw);
338 	u16 mii_reg;
339 	int ret = 0;
340 
341 	switch (hw->phy.id) {
342 	case PHY_AR803X_ID:
343 		netdev_dbg(adapter->netdev,
344 			   "Disabling hibernation for AR803X PHY\n");
345 		ret = pch_gbe_phy_write_reg_miic(hw, PHY_AR8031_DBG_OFF,
346 						 PHY_AR8031_HIBERNATE);
347 		if (ret)
348 			break;
349 
350 		pch_gbe_phy_read_reg_miic(hw, PHY_AR8031_DBG_DAT, &mii_reg);
351 		mii_reg &= ~PHY_AR8031_PS_HIB_EN;
352 		ret = pch_gbe_phy_write_reg_miic(hw, PHY_AR8031_DBG_DAT,
353 						 mii_reg);
354 		break;
355 	default:
356 		netdev_err(adapter->netdev,
357 			   "Unknown PHY (%x), could not disable hibernation\n",
358 			   hw->phy.id);
359 		return -EINVAL;
360 	}
361 
362 	if (ret)
363 		netdev_err(adapter->netdev,
364 			   "Could not disable PHY hibernation\n");
365 	return ret;
366 }
367