1 /* $FreeBSD: src/sys/dev/mii/e1000phy.c,v 1.18 2006/12/11 11:09:48 yongari Exp $ */
2 /* $OpenBSD: eephy.c,v 1.26 2006/06/08 00:27:12 brad Exp $ */
4 * Principal Author: Parag Patel
8 * Redistribution and use in source and binary forms, with or without
9 * modification, are permitted provided that the following conditions
11 * 1. Redistributions of source code must retain the above copyright
12 * notice unmodified, this list of conditions, and the following
14 * 2. Redistributions in binary form must reproduce the above copyright
15 * notice, this list of conditions and the following disclaimer in the
16 * documentation and/or other materials provided with the distribution.
18 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
19 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
20 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
21 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
22 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
23 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
24 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
25 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
26 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
27 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
30 * Additonal Copyright (c) 2001 by Traakan Software under same licence.
31 * Secondary Author: Matthew Jacob
35 * driver for the Marvell 88E1000 series external 1000/100/10-BT PHY.
39 * Support added for the Marvell 88E1011 (Alaska) 1000/100/10baseT and
41 * Nathan Binkert <nate@openbsd.org>
42 * Jung-uk Kim <jkim@niksun.com>
45 #include <sys/param.h>
46 #include <sys/systm.h>
47 #include <sys/kernel.h>
48 #include <sys/socket.h>
52 #include <net/if_media.h>
58 #include "e1000phyreg.h"
60 #include "miibus_if.h"
62 static int e1000phy_probe(device_t);
63 static int e1000phy_attach(device_t);
64 static int e1000phy_service(struct mii_softc *, struct mii_data *, int);
65 static void e1000phy_status(struct mii_softc *);
66 static void e1000phy_mii_phy_auto(struct mii_softc *);
67 static void e1000phy_reset(struct mii_softc *);
69 static device_method_t e1000phy_methods[] = {
70 /* device interface */
71 DEVMETHOD(device_probe, e1000phy_probe),
72 DEVMETHOD(device_attach, e1000phy_attach),
73 DEVMETHOD(device_detach, ukphy_detach),
74 DEVMETHOD(device_shutdown, bus_generic_shutdown),
78 static const struct mii_phydesc e1000phys[] = {
79 MII_PHYDESC(xxMARVELL, E1011),
80 MII_PHYDESC(xxMARVELL, E1000_3),
81 MII_PHYDESC(xxMARVELL, E1000_5),
82 MII_PHYDESC(xxMARVELL, E1111),
83 MII_PHYDESC(MARVELL, E1000),
84 MII_PHYDESC(MARVELL, E1011),
85 MII_PHYDESC(MARVELL, E1000_3),
86 MII_PHYDESC(MARVELL, E1000S),
87 MII_PHYDESC(MARVELL, E1000_5),
88 MII_PHYDESC(MARVELL, E1101),
89 MII_PHYDESC(MARVELL, E3082),
90 MII_PHYDESC(MARVELL, E1112),
91 MII_PHYDESC(MARVELL, E1149),
92 MII_PHYDESC(MARVELL, E1111),
93 MII_PHYDESC(MARVELL, E1116),
94 MII_PHYDESC(MARVELL, E1116R),
95 MII_PHYDESC(MARVELL, E1118),
96 MII_PHYDESC(MARVELL, E3016),
97 MII_PHYDESC(MARVELL, PHYG65G),
98 MII_PHYDESC(MARVELL, E1149R),
102 static devclass_t e1000phy_devclass;
104 static driver_t e1000phy_driver = {
107 sizeof(struct mii_softc)
109 DRIVER_MODULE(e1000phy, miibus, e1000phy_driver, e1000phy_devclass, NULL, NULL);
112 e1000phy_probe(device_t dev)
114 struct mii_attach_args *ma = device_get_ivars(dev);
115 const struct mii_phydesc *mpd;
117 mpd = mii_phy_match(ma, e1000phys);
119 device_set_desc(dev, mpd->mpd_name);
126 e1000phy_attach(device_t dev)
128 struct mii_softc *sc;
129 struct mii_attach_args *ma;
130 struct mii_data *mii;
132 sc = device_get_softc(dev);
133 ma = device_get_ivars(dev);
134 mii_softc_init(sc, ma);
135 sc->mii_dev = device_get_parent(dev);
136 mii = device_get_softc(sc->mii_dev);
137 LIST_INSERT_HEAD(&mii->mii_phys, sc, mii_list);
139 sc->mii_inst = mii->mii_instance;
140 sc->mii_service = e1000phy_service;
141 sc->mii_reset = e1000phy_reset;
142 sc->mii_anegticks = MII_ANEGTICKS_GIGE;
145 sc->mii_flags |= MIIF_NOISOLATE;
147 switch (sc->mii_model) {
148 case MII_MODEL_MARVELL_E1011:
149 case MII_MODEL_MARVELL_E1112:
150 if (PHY_READ(sc, E1000_ESSR) & E1000_ESSR_FIBER_LINK)
151 sc->mii_flags |= MIIF_HAVEFIBER;
153 case MII_MODEL_MARVELL_E1149:
154 case MII_MODEL_MARVELL_E1149R:
156 * Some 88E1149 PHY's page select is initialized to
157 * point to other bank instead of copper/fiber bank
158 * which in turn resulted in wrong registers were
159 * accessed during PHY operation. It is believed that
160 * page 0 should be used for copper PHY so reinitialize
161 * E1000_EADR to select default copper PHY. If parent
162 * device know the type of PHY(either copper or fiber),
163 * that information should be used to select default
166 PHY_WRITE(sc, E1000_EADR, 0);
174 sc->mii_capabilities = PHY_READ(sc, MII_BMSR) & ma->mii_capmask;
175 if (sc->mii_capabilities & BMSR_EXTSTAT)
176 sc->mii_extcapabilities = PHY_READ(sc, MII_EXTSR);
178 if ((sc->mii_extcapabilities & (EXTSR_1000TFDX | EXTSR_1000THDX)) == 0)
179 sc->mii_anegticks = MII_ANEGTICKS;
181 device_printf(dev, " ");
182 if ((sc->mii_capabilities & BMSR_MEDIAMASK) == 0 &&
183 (sc->mii_extcapabilities & EXTSR_MEDIAMASK) == 0)
184 kprintf("no media present");
186 mii_phy_add_media(sc);
189 MIIBUS_MEDIAINIT(sc->mii_dev);
194 e1000phy_reset(struct mii_softc *sc)
198 reg = PHY_READ(sc, E1000_SCR);
199 if ((sc->mii_flags & MIIF_HAVEFIBER) != 0) {
200 reg &= ~E1000_SCR_AUTO_X_MODE;
201 PHY_WRITE(sc, E1000_SCR, reg);
202 if (sc->mii_model == MII_MODEL_MARVELL_E1112) {
203 /* Select 1000BASE-X only mode. */
204 page = PHY_READ(sc, E1000_EADR);
205 PHY_WRITE(sc, E1000_EADR, 2);
206 reg = PHY_READ(sc, E1000_SCR);
207 reg &= ~E1000_SCR_MODE_MASK;
208 reg |= E1000_SCR_MODE_1000BX;
209 PHY_WRITE(sc, E1000_SCR, reg);
211 PHY_WRITE(sc, E1000_EADR, page);
214 switch (sc->mii_model) {
215 case MII_MODEL_MARVELL_E1111:
216 case MII_MODEL_MARVELL_E1112:
217 case MII_MODEL_MARVELL_E1116:
218 case MII_MODEL_MARVELL_E1118:
219 case MII_MODEL_MARVELL_E1149:
220 case MII_MODEL_MARVELL_E1149R:
221 case MII_MODEL_MARVELL_PHYG65G:
222 /* Disable energy detect mode. */
223 reg &= ~E1000_SCR_EN_DETECT_MASK;
224 reg |= E1000_SCR_AUTO_X_MODE;
225 if (sc->mii_model == MII_MODEL_MARVELL_E1116)
226 reg &= ~E1000_SCR_POWER_DOWN;
227 reg |= E1000_SCR_ASSERT_CRS_ON_TX;
229 case MII_MODEL_MARVELL_E3082:
230 reg |= (E1000_SCR_AUTO_X_MODE >> 1);
231 reg |= E1000_SCR_ASSERT_CRS_ON_TX;
233 case MII_MODEL_MARVELL_E3016:
234 reg |= E1000_SCR_AUTO_MDIX;
235 reg &= ~(E1000_SCR_EN_DETECT |
236 E1000_SCR_SCRAMBLER_DISABLE);
237 reg |= E1000_SCR_LPNP;
238 /* XXX Enable class A driver for Yukon FE+ A0. */
239 PHY_WRITE(sc, 0x1C, PHY_READ(sc, 0x1C) | 0x0001);
242 reg &= ~E1000_SCR_AUTO_X_MODE;
243 reg |= E1000_SCR_ASSERT_CRS_ON_TX;
246 if (sc->mii_model != MII_MODEL_MARVELL_E3016) {
247 /* Auto correction for reversed cable polarity. */
248 reg &= ~E1000_SCR_POLARITY_REVERSAL;
250 PHY_WRITE(sc, E1000_SCR, reg);
252 if (sc->mii_model == MII_MODEL_MARVELL_E1116 ||
253 sc->mii_model == MII_MODEL_MARVELL_E1149 ||
254 sc->mii_model == MII_MODEL_MARVELL_E1149R) {
255 PHY_WRITE(sc, E1000_EADR, 2);
256 reg = PHY_READ(sc, E1000_SCR);
257 reg |= E1000_SCR_RGMII_POWER_UP;
258 PHY_WRITE(sc, E1000_SCR, reg);
259 PHY_WRITE(sc, E1000_EADR, 0);
263 switch (MII_MODEL(sc->mii_model)) {
264 case MII_MODEL_MARVELL_E3082:
265 case MII_MODEL_MARVELL_E1112:
266 case MII_MODEL_MARVELL_E1118:
268 case MII_MODEL_MARVELL_E1116:
269 page = PHY_READ(sc, E1000_EADR);
270 /* Select page 3, LED control register. */
271 PHY_WRITE(sc, E1000_EADR, 3);
272 PHY_WRITE(sc, E1000_SCR,
273 E1000_SCR_LED_LOS(1) | /* Link/Act */
274 E1000_SCR_LED_INIT(8) | /* 10Mbps */
275 E1000_SCR_LED_STAT1(7) | /* 100Mbps */
276 E1000_SCR_LED_STAT0(7)); /* 1000Mbps */
277 /* Set blink rate. */
278 PHY_WRITE(sc, E1000_IER, E1000_PULSE_DUR(E1000_PULSE_170MS) |
279 E1000_BLINK_RATE(E1000_BLINK_84MS));
280 PHY_WRITE(sc, E1000_EADR, page);
282 case MII_MODEL_MARVELL_E3016:
283 /* LED2 -> ACT, LED1 -> LINK, LED0 -> SPEED. */
284 PHY_WRITE(sc, 0x16, 0x0B << 8 | 0x05 << 4 | 0x04);
285 /* Integrated register calibration workaround. */
286 PHY_WRITE(sc, 0x1D, 17);
287 PHY_WRITE(sc, 0x1E, 0x3F60);
290 /* Force TX_CLK to 25MHz clock. */
291 reg = PHY_READ(sc, E1000_ESCR);
292 reg |= E1000_ESCR_TX_CLK_25;
293 PHY_WRITE(sc, E1000_ESCR, reg);
297 /* Reset the PHY so all changes take effect. */
298 reg = PHY_READ(sc, E1000_CR);
299 reg |= E1000_CR_RESET;
300 PHY_WRITE(sc, E1000_CR, reg);
304 e1000phy_service(struct mii_softc *sc, struct mii_data *mii, int cmd)
306 struct ifmedia_entry *ife = mii->mii_media.ifm_cur;
313 * If we're not polling our PHY instance, just return.
315 if (IFM_INST(ife->ifm_media) != sc->mii_inst)
321 * If the media indicates a different PHY instance,
324 if (IFM_INST(ife->ifm_media) != sc->mii_inst) {
325 reg = PHY_READ(sc, E1000_CR);
326 PHY_WRITE(sc, E1000_CR, reg | E1000_CR_ISOLATE);
331 * If the interface is not up, don't do anything.
333 if ((mii->mii_ifp->if_flags & IFF_UP) == 0)
336 if (IFM_SUBTYPE(ife->ifm_media) == IFM_AUTO) {
337 e1000phy_mii_phy_auto(sc);
342 switch (IFM_SUBTYPE(ife->ifm_media)) {
344 if ((sc->mii_extcapabilities &
345 (EXTSR_1000TFDX | EXTSR_1000THDX)) == 0)
347 speed = E1000_CR_SPEED_1000;
350 if ((sc->mii_extcapabilities &
351 (EXTSR_1000XFDX | EXTSR_1000XHDX)) == 0)
353 speed = E1000_CR_SPEED_1000;
356 speed = E1000_CR_SPEED_100;
359 speed = E1000_CR_SPEED_10;
362 reg = PHY_READ(sc, E1000_CR);
363 PHY_WRITE(sc, E1000_CR,
364 reg | E1000_CR_ISOLATE | E1000_CR_POWER_DOWN);
370 if (((ife->ifm_media & IFM_GMASK) & IFM_FDX) != 0) {
371 speed |= E1000_CR_FULL_DUPLEX;
372 gig = E1000_1GCR_1000T_FD;
374 gig = E1000_1GCR_1000T;
377 reg = PHY_READ(sc, E1000_CR);
378 reg &= ~E1000_CR_AUTO_NEG_ENABLE;
379 PHY_WRITE(sc, E1000_CR, reg | E1000_CR_RESET);
382 * When setting the link manually, one side must
383 * be the master and the other the slave. However
384 * ifmedia doesn't give us a good way to specify
385 * this, so we fake it by using one of the LINK
386 * flags. If LINK0 is set, we program the PHY to
387 * be a master, otherwise it's a slave.
389 if (IFM_SUBTYPE(ife->ifm_media) == IFM_1000_T ||
390 IFM_SUBTYPE(ife->ifm_media) == IFM_1000_SX) {
391 if (mii->mii_ifp->if_flags & IFF_LINK0) {
392 PHY_WRITE(sc, E1000_1GCR, gig |
393 E1000_1GCR_MS_ENABLE | E1000_1GCR_MS_VALUE);
395 PHY_WRITE(sc, E1000_1GCR, gig |
396 E1000_1GCR_MS_ENABLE);
399 if ((sc->mii_extcapabilities &
400 (EXTSR_1000TFDX | EXTSR_1000THDX)) != 0)
401 PHY_WRITE(sc, E1000_1GCR, 0);
403 PHY_WRITE(sc, E1000_AR, E1000_AR_SELECTOR_FIELD);
404 PHY_WRITE(sc, E1000_CR, speed | E1000_CR_RESET);
410 * If we're not currently selected, just return.
412 if (IFM_INST(ife->ifm_media) != sc->mii_inst)
416 * Is the interface even up?
418 if ((mii->mii_ifp->if_flags & IFF_UP) == 0)
422 * Only used for autonegotiation.
424 if (IFM_SUBTYPE(ife->ifm_media) != IFM_AUTO)
428 * Check to see if we have link. If we do, we don't
429 * need to restart the autonegotiation process. Read
430 * the BMSR twice in case it's latched.
432 reg = PHY_READ(sc, MII_BMSR) | PHY_READ(sc, MII_BMSR);
433 if (reg & BMSR_LINK) {
439 * Only retry autonegotiation every mii_anegticks seconds.
441 if (++sc->mii_ticks <= sc->mii_anegticks)
446 e1000phy_mii_phy_auto(sc);
450 /* Update the media status. */
453 /* Callback if something changed. */
454 mii_phy_update(sc, cmd);
459 e1000phy_status(struct mii_softc *sc)
461 struct mii_data *mii = sc->mii_pdata;
462 int bmsr, bmcr, gsr, ssr, ar, lpar;
464 mii->mii_media_status = IFM_AVALID;
465 mii->mii_media_active = IFM_ETHER;
467 bmsr = PHY_READ(sc, E1000_SR) | PHY_READ(sc, E1000_SR);
468 bmcr = PHY_READ(sc, E1000_CR);
469 ssr = PHY_READ(sc, E1000_SSR);
471 if (bmsr & E1000_SR_LINK_STATUS)
472 mii->mii_media_status |= IFM_ACTIVE;
474 if (bmcr & E1000_CR_LOOPBACK)
475 mii->mii_media_active |= IFM_LOOP;
477 if ((bmcr & E1000_CR_AUTO_NEG_ENABLE) != 0 &&
478 (ssr & E1000_SSR_SPD_DPLX_RESOLVED) == 0) {
479 /* Erg, still trying, I guess... */
480 mii->mii_media_active |= IFM_NONE;
484 if ((sc->mii_flags & MIIF_HAVEFIBER) == 0) {
485 switch (ssr & E1000_SSR_SPEED) {
486 case E1000_SSR_1000MBS:
487 mii->mii_media_active |= IFM_1000_T;
489 case E1000_SSR_100MBS:
490 mii->mii_media_active |= IFM_100_TX;
492 case E1000_SSR_10MBS:
493 mii->mii_media_active |= IFM_10_T;
496 mii->mii_media_active |= IFM_NONE;
501 * Some fiber PHY(88E1112) does not seem to set resolved
502 * speed so always assume we've got IFM_1000_SX.
504 mii->mii_media_active |= IFM_1000_SX;
507 if (ssr & E1000_SSR_DUPLEX)
508 mii->mii_media_active |= IFM_FDX;
510 mii->mii_media_active |= IFM_HDX;
512 if ((sc->mii_flags & MIIF_HAVEFIBER) == 0) {
513 ar = PHY_READ(sc, E1000_AR);
514 lpar = PHY_READ(sc, E1000_LPAR);
515 /* FLAG0==rx-flow-control FLAG1==tx-flow-control */
516 if ((ar & E1000_AR_PAUSE) && (lpar & E1000_LPAR_PAUSE)) {
517 mii->mii_media_active |= IFM_FLAG0 | IFM_FLAG1;
518 } else if (!(ar & E1000_AR_PAUSE) && (ar & E1000_AR_ASM_DIR) &&
519 (lpar & E1000_LPAR_PAUSE) && (lpar & E1000_LPAR_ASM_DIR)) {
520 mii->mii_media_active |= IFM_FLAG1;
521 } else if ((ar & E1000_AR_PAUSE) && (ar & E1000_AR_ASM_DIR) &&
522 !(lpar & E1000_LPAR_PAUSE) && (lpar & E1000_LPAR_ASM_DIR)) {
523 mii->mii_media_active |= IFM_FLAG0;
527 /* FLAG2 : local PHY resolved to MASTER */
528 if (IFM_SUBTYPE(mii->mii_media_active) == IFM_1000_T ||
529 IFM_SUBTYPE(mii->mii_media_active) == IFM_1000_SX) {
530 PHY_READ(sc, E1000_1GSR);
531 gsr = PHY_READ(sc, E1000_1GSR);
532 if ((gsr & E1000_1GSR_MS_CONFIG_RES) != 0)
533 mii->mii_media_active |= IFM_FLAG2;
538 e1000phy_mii_phy_auto(struct mii_softc *sc)
540 if ((sc->mii_flags & MIIF_HAVEFIBER) == 0) {
543 reg = PHY_READ(sc, E1000_AR);
544 reg |= E1000_AR_10T | E1000_AR_10T_FD |
545 E1000_AR_100TX | E1000_AR_100TX_FD |
546 E1000_AR_PAUSE | E1000_AR_ASM_DIR;
547 PHY_WRITE(sc, E1000_AR, reg | E1000_AR_SELECTOR_FIELD);
549 PHY_WRITE(sc, E1000_AR, E1000_FA_1000X_FD | E1000_FA_1000X |
550 E1000_FA_SYM_PAUSE | E1000_FA_ASYM_PAUSE);
552 if ((sc->mii_extcapabilities &
553 (EXTSR_1000TFDX | EXTSR_1000THDX)) != 0) {
554 PHY_WRITE(sc, E1000_1GCR,
555 E1000_1GCR_1000T_FD | E1000_1GCR_1000T);
557 PHY_WRITE(sc, E1000_CR,
558 E1000_CR_AUTO_NEG_ENABLE | E1000_CR_RESTART_AUTO_NEG);
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