2 * ar8216.c: AR8216 switch driver
4 * Copyright (C) 2009 Felix Fietkau <nbd@openwrt.org>
5 * Copyright (C) 2011-2012 Gabor Juhos <juhosg@openwrt.org>
7 * This program is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU General Public License
9 * as published by the Free Software Foundation; either version 2
10 * of the License, or (at your option) any later version.
12 * This program is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
19 #include <linux/module.h>
20 #include <linux/init.h>
21 #include <linux/list.h>
22 #include <linux/if_ether.h>
23 #include <linux/skbuff.h>
24 #include <linux/netdevice.h>
25 #include <linux/netlink.h>
26 #include <linux/bitops.h>
27 #include <net/genetlink.h>
28 #include <linux/switch.h>
29 #include <linux/delay.h>
30 #include <linux/phy.h>
31 #include <linux/netdevice.h>
32 #include <linux/etherdevice.h>
33 #include <linux/lockdep.h>
34 #include <linux/ar8216_platform.h>
35 #include <linux/workqueue.h>
36 #include <linux/version.h>
40 extern const struct ar8xxx_chip ar8327_chip
;
41 extern const struct ar8xxx_chip ar8337_chip
;
43 #define AR8XXX_MIB_WORK_DELAY 2000 /* msecs */
45 #define MIB_DESC(_s , _o, _n) \
52 static const struct ar8xxx_mib_desc ar8216_mibs
[] = {
53 MIB_DESC(1, AR8216_STATS_RXBROAD
, "RxBroad"),
54 MIB_DESC(1, AR8216_STATS_RXPAUSE
, "RxPause"),
55 MIB_DESC(1, AR8216_STATS_RXMULTI
, "RxMulti"),
56 MIB_DESC(1, AR8216_STATS_RXFCSERR
, "RxFcsErr"),
57 MIB_DESC(1, AR8216_STATS_RXALIGNERR
, "RxAlignErr"),
58 MIB_DESC(1, AR8216_STATS_RXRUNT
, "RxRunt"),
59 MIB_DESC(1, AR8216_STATS_RXFRAGMENT
, "RxFragment"),
60 MIB_DESC(1, AR8216_STATS_RX64BYTE
, "Rx64Byte"),
61 MIB_DESC(1, AR8216_STATS_RX128BYTE
, "Rx128Byte"),
62 MIB_DESC(1, AR8216_STATS_RX256BYTE
, "Rx256Byte"),
63 MIB_DESC(1, AR8216_STATS_RX512BYTE
, "Rx512Byte"),
64 MIB_DESC(1, AR8216_STATS_RX1024BYTE
, "Rx1024Byte"),
65 MIB_DESC(1, AR8216_STATS_RXMAXBYTE
, "RxMaxByte"),
66 MIB_DESC(1, AR8216_STATS_RXTOOLONG
, "RxTooLong"),
67 MIB_DESC(2, AR8216_STATS_RXGOODBYTE
, "RxGoodByte"),
68 MIB_DESC(2, AR8216_STATS_RXBADBYTE
, "RxBadByte"),
69 MIB_DESC(1, AR8216_STATS_RXOVERFLOW
, "RxOverFlow"),
70 MIB_DESC(1, AR8216_STATS_FILTERED
, "Filtered"),
71 MIB_DESC(1, AR8216_STATS_TXBROAD
, "TxBroad"),
72 MIB_DESC(1, AR8216_STATS_TXPAUSE
, "TxPause"),
73 MIB_DESC(1, AR8216_STATS_TXMULTI
, "TxMulti"),
74 MIB_DESC(1, AR8216_STATS_TXUNDERRUN
, "TxUnderRun"),
75 MIB_DESC(1, AR8216_STATS_TX64BYTE
, "Tx64Byte"),
76 MIB_DESC(1, AR8216_STATS_TX128BYTE
, "Tx128Byte"),
77 MIB_DESC(1, AR8216_STATS_TX256BYTE
, "Tx256Byte"),
78 MIB_DESC(1, AR8216_STATS_TX512BYTE
, "Tx512Byte"),
79 MIB_DESC(1, AR8216_STATS_TX1024BYTE
, "Tx1024Byte"),
80 MIB_DESC(1, AR8216_STATS_TXMAXBYTE
, "TxMaxByte"),
81 MIB_DESC(1, AR8216_STATS_TXOVERSIZE
, "TxOverSize"),
82 MIB_DESC(2, AR8216_STATS_TXBYTE
, "TxByte"),
83 MIB_DESC(1, AR8216_STATS_TXCOLLISION
, "TxCollision"),
84 MIB_DESC(1, AR8216_STATS_TXABORTCOL
, "TxAbortCol"),
85 MIB_DESC(1, AR8216_STATS_TXMULTICOL
, "TxMultiCol"),
86 MIB_DESC(1, AR8216_STATS_TXSINGLECOL
, "TxSingleCol"),
87 MIB_DESC(1, AR8216_STATS_TXEXCDEFER
, "TxExcDefer"),
88 MIB_DESC(1, AR8216_STATS_TXDEFER
, "TxDefer"),
89 MIB_DESC(1, AR8216_STATS_TXLATECOL
, "TxLateCol"),
92 const struct ar8xxx_mib_desc ar8236_mibs
[39] = {
93 MIB_DESC(1, AR8236_STATS_RXBROAD
, "RxBroad"),
94 MIB_DESC(1, AR8236_STATS_RXPAUSE
, "RxPause"),
95 MIB_DESC(1, AR8236_STATS_RXMULTI
, "RxMulti"),
96 MIB_DESC(1, AR8236_STATS_RXFCSERR
, "RxFcsErr"),
97 MIB_DESC(1, AR8236_STATS_RXALIGNERR
, "RxAlignErr"),
98 MIB_DESC(1, AR8236_STATS_RXRUNT
, "RxRunt"),
99 MIB_DESC(1, AR8236_STATS_RXFRAGMENT
, "RxFragment"),
100 MIB_DESC(1, AR8236_STATS_RX64BYTE
, "Rx64Byte"),
101 MIB_DESC(1, AR8236_STATS_RX128BYTE
, "Rx128Byte"),
102 MIB_DESC(1, AR8236_STATS_RX256BYTE
, "Rx256Byte"),
103 MIB_DESC(1, AR8236_STATS_RX512BYTE
, "Rx512Byte"),
104 MIB_DESC(1, AR8236_STATS_RX1024BYTE
, "Rx1024Byte"),
105 MIB_DESC(1, AR8236_STATS_RX1518BYTE
, "Rx1518Byte"),
106 MIB_DESC(1, AR8236_STATS_RXMAXBYTE
, "RxMaxByte"),
107 MIB_DESC(1, AR8236_STATS_RXTOOLONG
, "RxTooLong"),
108 MIB_DESC(2, AR8236_STATS_RXGOODBYTE
, "RxGoodByte"),
109 MIB_DESC(2, AR8236_STATS_RXBADBYTE
, "RxBadByte"),
110 MIB_DESC(1, AR8236_STATS_RXOVERFLOW
, "RxOverFlow"),
111 MIB_DESC(1, AR8236_STATS_FILTERED
, "Filtered"),
112 MIB_DESC(1, AR8236_STATS_TXBROAD
, "TxBroad"),
113 MIB_DESC(1, AR8236_STATS_TXPAUSE
, "TxPause"),
114 MIB_DESC(1, AR8236_STATS_TXMULTI
, "TxMulti"),
115 MIB_DESC(1, AR8236_STATS_TXUNDERRUN
, "TxUnderRun"),
116 MIB_DESC(1, AR8236_STATS_TX64BYTE
, "Tx64Byte"),
117 MIB_DESC(1, AR8236_STATS_TX128BYTE
, "Tx128Byte"),
118 MIB_DESC(1, AR8236_STATS_TX256BYTE
, "Tx256Byte"),
119 MIB_DESC(1, AR8236_STATS_TX512BYTE
, "Tx512Byte"),
120 MIB_DESC(1, AR8236_STATS_TX1024BYTE
, "Tx1024Byte"),
121 MIB_DESC(1, AR8236_STATS_TX1518BYTE
, "Tx1518Byte"),
122 MIB_DESC(1, AR8236_STATS_TXMAXBYTE
, "TxMaxByte"),
123 MIB_DESC(1, AR8236_STATS_TXOVERSIZE
, "TxOverSize"),
124 MIB_DESC(2, AR8236_STATS_TXBYTE
, "TxByte"),
125 MIB_DESC(1, AR8236_STATS_TXCOLLISION
, "TxCollision"),
126 MIB_DESC(1, AR8236_STATS_TXABORTCOL
, "TxAbortCol"),
127 MIB_DESC(1, AR8236_STATS_TXMULTICOL
, "TxMultiCol"),
128 MIB_DESC(1, AR8236_STATS_TXSINGLECOL
, "TxSingleCol"),
129 MIB_DESC(1, AR8236_STATS_TXEXCDEFER
, "TxExcDefer"),
130 MIB_DESC(1, AR8236_STATS_TXDEFER
, "TxDefer"),
131 MIB_DESC(1, AR8236_STATS_TXLATECOL
, "TxLateCol"),
134 static DEFINE_MUTEX(ar8xxx_dev_list_lock
);
135 static LIST_HEAD(ar8xxx_dev_list
);
138 split_addr(u32 regaddr
, u16
*r1
, u16
*r2
, u16
*page
)
141 *r1
= regaddr
& 0x1e;
147 *page
= regaddr
& 0x1ff;
150 /* inspired by phy_poll_reset in drivers/net/phy/phy_device.c */
152 ar8xxx_phy_poll_reset(struct mii_bus
*bus
)
154 unsigned int sleep_msecs
= 20;
157 for (elapsed
= sleep_msecs
; elapsed
<= 600;
158 elapsed
+= sleep_msecs
) {
160 for (i
= 0; i
< AR8XXX_NUM_PHYS
; i
++) {
161 ret
= mdiobus_read(bus
, i
, MII_BMCR
);
164 if (ret
& BMCR_RESET
)
166 if (i
== AR8XXX_NUM_PHYS
- 1) {
167 usleep_range(1000, 2000);
176 ar8xxx_phy_check_aneg(struct phy_device
*phydev
)
180 if (phydev
->autoneg
!= AUTONEG_ENABLE
)
183 * BMCR_ANENABLE might have been cleared
184 * by phy_init_hw in certain kernel versions
185 * therefore check for it
187 ret
= phy_read(phydev
, MII_BMCR
);
190 if (ret
& BMCR_ANENABLE
)
193 dev_info(&phydev
->dev
, "ANEG disabled, re-enabling ...\n");
194 ret
|= BMCR_ANENABLE
| BMCR_ANRESTART
;
195 return phy_write(phydev
, MII_BMCR
, ret
);
199 ar8xxx_phy_init(struct ar8xxx_priv
*priv
)
205 for (i
= 0; i
< AR8XXX_NUM_PHYS
; i
++) {
206 if (priv
->chip
->phy_fixup
)
207 priv
->chip
->phy_fixup(priv
, i
);
209 /* initialize the port itself */
210 mdiobus_write(bus
, i
, MII_ADVERTISE
,
211 ADVERTISE_ALL
| ADVERTISE_PAUSE_CAP
| ADVERTISE_PAUSE_ASYM
);
212 if (ar8xxx_has_gige(priv
))
213 mdiobus_write(bus
, i
, MII_CTRL1000
, ADVERTISE_1000FULL
);
214 mdiobus_write(bus
, i
, MII_BMCR
, BMCR_RESET
| BMCR_ANENABLE
);
217 ar8xxx_phy_poll_reset(bus
);
221 mii_read32(struct ar8xxx_priv
*priv
, int phy_id
, int regnum
)
223 struct mii_bus
*bus
= priv
->mii_bus
;
226 lo
= bus
->read(bus
, phy_id
, regnum
);
227 hi
= bus
->read(bus
, phy_id
, regnum
+ 1);
229 return (hi
<< 16) | lo
;
233 mii_write32(struct ar8xxx_priv
*priv
, int phy_id
, int regnum
, u32 val
)
235 struct mii_bus
*bus
= priv
->mii_bus
;
239 hi
= (u16
) (val
>> 16);
241 if (priv
->chip
->mii_lo_first
)
243 bus
->write(bus
, phy_id
, regnum
, lo
);
244 bus
->write(bus
, phy_id
, regnum
+ 1, hi
);
246 bus
->write(bus
, phy_id
, regnum
+ 1, hi
);
247 bus
->write(bus
, phy_id
, regnum
, lo
);
252 ar8xxx_read(struct ar8xxx_priv
*priv
, int reg
)
254 struct mii_bus
*bus
= priv
->mii_bus
;
258 split_addr((u32
) reg
, &r1
, &r2
, &page
);
260 mutex_lock(&bus
->mdio_lock
);
262 bus
->write(bus
, 0x18, 0, page
);
263 usleep_range(1000, 2000); /* wait for the page switch to propagate */
264 val
= mii_read32(priv
, 0x10 | r2
, r1
);
266 mutex_unlock(&bus
->mdio_lock
);
272 ar8xxx_write(struct ar8xxx_priv
*priv
, int reg
, u32 val
)
274 struct mii_bus
*bus
= priv
->mii_bus
;
277 split_addr((u32
) reg
, &r1
, &r2
, &page
);
279 mutex_lock(&bus
->mdio_lock
);
281 bus
->write(bus
, 0x18, 0, page
);
282 usleep_range(1000, 2000); /* wait for the page switch to propagate */
283 mii_write32(priv
, 0x10 | r2
, r1
, val
);
285 mutex_unlock(&bus
->mdio_lock
);
289 ar8xxx_rmw(struct ar8xxx_priv
*priv
, int reg
, u32 mask
, u32 val
)
291 struct mii_bus
*bus
= priv
->mii_bus
;
295 split_addr((u32
) reg
, &r1
, &r2
, &page
);
297 mutex_lock(&bus
->mdio_lock
);
299 bus
->write(bus
, 0x18, 0, page
);
300 usleep_range(1000, 2000); /* wait for the page switch to propagate */
302 ret
= mii_read32(priv
, 0x10 | r2
, r1
);
305 mii_write32(priv
, 0x10 | r2
, r1
, ret
);
307 mutex_unlock(&bus
->mdio_lock
);
313 ar8xxx_phy_dbg_write(struct ar8xxx_priv
*priv
, int phy_addr
,
314 u16 dbg_addr
, u16 dbg_data
)
316 struct mii_bus
*bus
= priv
->mii_bus
;
318 mutex_lock(&bus
->mdio_lock
);
319 bus
->write(bus
, phy_addr
, MII_ATH_DBG_ADDR
, dbg_addr
);
320 bus
->write(bus
, phy_addr
, MII_ATH_DBG_DATA
, dbg_data
);
321 mutex_unlock(&bus
->mdio_lock
);
325 ar8xxx_phy_mmd_write(struct ar8xxx_priv
*priv
, int phy_addr
, u16 addr
, u16 data
)
327 struct mii_bus
*bus
= priv
->mii_bus
;
329 mutex_lock(&bus
->mdio_lock
);
330 bus
->write(bus
, phy_addr
, MII_ATH_MMD_ADDR
, addr
);
331 bus
->write(bus
, phy_addr
, MII_ATH_MMD_DATA
, data
);
332 mutex_unlock(&bus
->mdio_lock
);
336 ar8xxx_reg_wait(struct ar8xxx_priv
*priv
, u32 reg
, u32 mask
, u32 val
,
341 for (i
= 0; i
< timeout
; i
++) {
344 t
= ar8xxx_read(priv
, reg
);
345 if ((t
& mask
) == val
)
348 usleep_range(1000, 2000);
355 ar8xxx_mib_op(struct ar8xxx_priv
*priv
, u32 op
)
357 unsigned mib_func
= priv
->chip
->mib_func
;
360 lockdep_assert_held(&priv
->mib_lock
);
362 /* Capture the hardware statistics for all ports */
363 ar8xxx_rmw(priv
, mib_func
, AR8216_MIB_FUNC
, (op
<< AR8216_MIB_FUNC_S
));
365 /* Wait for the capturing to complete. */
366 ret
= ar8xxx_reg_wait(priv
, mib_func
, AR8216_MIB_BUSY
, 0, 10);
377 ar8xxx_mib_capture(struct ar8xxx_priv
*priv
)
379 return ar8xxx_mib_op(priv
, AR8216_MIB_FUNC_CAPTURE
);
383 ar8xxx_mib_flush(struct ar8xxx_priv
*priv
)
385 return ar8xxx_mib_op(priv
, AR8216_MIB_FUNC_FLUSH
);
389 ar8xxx_mib_fetch_port_stat(struct ar8xxx_priv
*priv
, int port
, bool flush
)
395 WARN_ON(port
>= priv
->dev
.ports
);
397 lockdep_assert_held(&priv
->mib_lock
);
399 base
= priv
->chip
->reg_port_stats_start
+
400 priv
->chip
->reg_port_stats_length
* port
;
402 mib_stats
= &priv
->mib_stats
[port
* priv
->chip
->num_mibs
];
403 for (i
= 0; i
< priv
->chip
->num_mibs
; i
++) {
404 const struct ar8xxx_mib_desc
*mib
;
407 mib
= &priv
->chip
->mib_decs
[i
];
408 t
= ar8xxx_read(priv
, base
+ mib
->offset
);
409 if (mib
->size
== 2) {
412 hi
= ar8xxx_read(priv
, base
+ mib
->offset
+ 4);
424 ar8216_read_port_link(struct ar8xxx_priv
*priv
, int port
,
425 struct switch_port_link
*link
)
430 memset(link
, '\0', sizeof(*link
));
432 status
= priv
->chip
->read_port_status(priv
, port
);
434 link
->aneg
= !!(status
& AR8216_PORT_STATUS_LINK_AUTO
);
436 link
->link
= !!(status
& AR8216_PORT_STATUS_LINK_UP
);
440 if (priv
->get_port_link
) {
443 err
= priv
->get_port_link(port
);
452 link
->duplex
= !!(status
& AR8216_PORT_STATUS_DUPLEX
);
453 link
->tx_flow
= !!(status
& AR8216_PORT_STATUS_TXFLOW
);
454 link
->rx_flow
= !!(status
& AR8216_PORT_STATUS_RXFLOW
);
456 speed
= (status
& AR8216_PORT_STATUS_SPEED
) >>
457 AR8216_PORT_STATUS_SPEED_S
;
460 case AR8216_PORT_SPEED_10M
:
461 link
->speed
= SWITCH_PORT_SPEED_10
;
463 case AR8216_PORT_SPEED_100M
:
464 link
->speed
= SWITCH_PORT_SPEED_100
;
466 case AR8216_PORT_SPEED_1000M
:
467 link
->speed
= SWITCH_PORT_SPEED_1000
;
470 link
->speed
= SWITCH_PORT_SPEED_UNKNOWN
;
475 static struct sk_buff
*
476 ar8216_mangle_tx(struct net_device
*dev
, struct sk_buff
*skb
)
478 struct ar8xxx_priv
*priv
= dev
->phy_ptr
;
487 if (unlikely(skb_headroom(skb
) < 2)) {
488 if (pskb_expand_head(skb
, 2, 0, GFP_ATOMIC
) < 0)
492 buf
= skb_push(skb
, 2);
500 dev_kfree_skb_any(skb
);
505 ar8216_mangle_rx(struct net_device
*dev
, struct sk_buff
*skb
)
507 struct ar8xxx_priv
*priv
;
515 /* don't strip the header if vlan mode is disabled */
519 /* strip header, get vlan id */
523 /* check for vlan header presence */
524 if ((buf
[12 + 2] != 0x81) || (buf
[13 + 2] != 0x00))
529 /* no need to fix up packets coming from a tagged source */
530 if (priv
->vlan_tagged
& (1 << port
))
533 /* lookup port vid from local table, the switch passes an invalid vlan id */
534 vlan
= priv
->vlan_id
[priv
->pvid
[port
]];
537 buf
[14 + 2] |= vlan
>> 8;
538 buf
[15 + 2] = vlan
& 0xff;
542 ar8216_wait_bit(struct ar8xxx_priv
*priv
, int reg
, u32 mask
, u32 val
)
548 t
= ar8xxx_read(priv
, reg
);
549 if ((t
& mask
) == val
)
558 pr_err("ar8216: timeout on reg %08x: %08x & %08x != %08x\n",
559 (unsigned int) reg
, t
, mask
, val
);
564 ar8216_vtu_op(struct ar8xxx_priv
*priv
, u32 op
, u32 val
)
566 if (ar8216_wait_bit(priv
, AR8216_REG_VTU
, AR8216_VTU_ACTIVE
, 0))
568 if ((op
& AR8216_VTU_OP
) == AR8216_VTU_OP_LOAD
) {
569 val
&= AR8216_VTUDATA_MEMBER
;
570 val
|= AR8216_VTUDATA_VALID
;
571 ar8xxx_write(priv
, AR8216_REG_VTU_DATA
, val
);
573 op
|= AR8216_VTU_ACTIVE
;
574 ar8xxx_write(priv
, AR8216_REG_VTU
, op
);
578 ar8216_vtu_flush(struct ar8xxx_priv
*priv
)
580 ar8216_vtu_op(priv
, AR8216_VTU_OP_FLUSH
, 0);
584 ar8216_vtu_load_vlan(struct ar8xxx_priv
*priv
, u32 vid
, u32 port_mask
)
588 op
= AR8216_VTU_OP_LOAD
| (vid
<< AR8216_VTU_VID_S
);
589 ar8216_vtu_op(priv
, op
, port_mask
);
593 ar8216_atu_flush(struct ar8xxx_priv
*priv
)
597 ret
= ar8216_wait_bit(priv
, AR8216_REG_ATU
, AR8216_ATU_ACTIVE
, 0);
599 ar8xxx_write(priv
, AR8216_REG_ATU
, AR8216_ATU_OP_FLUSH
);
605 ar8216_read_port_status(struct ar8xxx_priv
*priv
, int port
)
607 return ar8xxx_read(priv
, AR8216_REG_PORT_STATUS(port
));
611 ar8216_setup_port(struct ar8xxx_priv
*priv
, int port
, u32 members
)
618 pvid
= priv
->vlan_id
[priv
->pvid
[port
]];
619 if (priv
->vlan_tagged
& (1 << port
))
620 egress
= AR8216_OUT_ADD_VLAN
;
622 egress
= AR8216_OUT_STRIP_VLAN
;
623 ingress
= AR8216_IN_SECURE
;
626 egress
= AR8216_OUT_KEEP
;
627 ingress
= AR8216_IN_PORT_ONLY
;
630 if (chip_is_ar8216(priv
) && priv
->vlan
&& port
== AR8216_PORT_CPU
)
631 header
= AR8216_PORT_CTRL_HEADER
;
635 ar8xxx_rmw(priv
, AR8216_REG_PORT_CTRL(port
),
636 AR8216_PORT_CTRL_LEARN
| AR8216_PORT_CTRL_VLAN_MODE
|
637 AR8216_PORT_CTRL_SINGLE_VLAN
| AR8216_PORT_CTRL_STATE
|
638 AR8216_PORT_CTRL_HEADER
| AR8216_PORT_CTRL_LEARN_LOCK
,
639 AR8216_PORT_CTRL_LEARN
| header
|
640 (egress
<< AR8216_PORT_CTRL_VLAN_MODE_S
) |
641 (AR8216_PORT_STATE_FORWARD
<< AR8216_PORT_CTRL_STATE_S
));
643 ar8xxx_rmw(priv
, AR8216_REG_PORT_VLAN(port
),
644 AR8216_PORT_VLAN_DEST_PORTS
| AR8216_PORT_VLAN_MODE
|
645 AR8216_PORT_VLAN_DEFAULT_ID
,
646 (members
<< AR8216_PORT_VLAN_DEST_PORTS_S
) |
647 (ingress
<< AR8216_PORT_VLAN_MODE_S
) |
648 (pvid
<< AR8216_PORT_VLAN_DEFAULT_ID_S
));
652 ar8216_hw_init(struct ar8xxx_priv
*priv
)
654 if (priv
->initialized
)
657 ar8xxx_phy_init(priv
);
659 priv
->initialized
= true;
664 ar8216_init_globals(struct ar8xxx_priv
*priv
)
666 /* standard atheros magic */
667 ar8xxx_write(priv
, 0x38, 0xc000050e);
669 ar8xxx_rmw(priv
, AR8216_REG_GLOBAL_CTRL
,
670 AR8216_GCTRL_MTU
, 1518 + 8 + 2);
674 ar8216_init_port(struct ar8xxx_priv
*priv
, int port
)
676 /* Enable port learning and tx */
677 ar8xxx_write(priv
, AR8216_REG_PORT_CTRL(port
),
678 AR8216_PORT_CTRL_LEARN
|
679 (4 << AR8216_PORT_CTRL_STATE_S
));
681 ar8xxx_write(priv
, AR8216_REG_PORT_VLAN(port
), 0);
683 if (port
== AR8216_PORT_CPU
) {
684 ar8xxx_write(priv
, AR8216_REG_PORT_STATUS(port
),
685 AR8216_PORT_STATUS_LINK_UP
|
686 (ar8xxx_has_gige(priv
) ?
687 AR8216_PORT_SPEED_1000M
: AR8216_PORT_SPEED_100M
) |
688 AR8216_PORT_STATUS_TXMAC
|
689 AR8216_PORT_STATUS_RXMAC
|
690 (chip_is_ar8316(priv
) ? AR8216_PORT_STATUS_RXFLOW
: 0) |
691 (chip_is_ar8316(priv
) ? AR8216_PORT_STATUS_TXFLOW
: 0) |
692 AR8216_PORT_STATUS_DUPLEX
);
694 ar8xxx_write(priv
, AR8216_REG_PORT_STATUS(port
),
695 AR8216_PORT_STATUS_LINK_AUTO
);
700 ar8236_setup_port(struct ar8xxx_priv
*priv
, int port
, u32 members
)
706 pvid
= priv
->vlan_id
[priv
->pvid
[port
]];
707 if (priv
->vlan_tagged
& (1 << port
))
708 egress
= AR8216_OUT_ADD_VLAN
;
710 egress
= AR8216_OUT_STRIP_VLAN
;
711 ingress
= AR8216_IN_SECURE
;
714 egress
= AR8216_OUT_KEEP
;
715 ingress
= AR8216_IN_PORT_ONLY
;
718 ar8xxx_rmw(priv
, AR8216_REG_PORT_CTRL(port
),
719 AR8216_PORT_CTRL_LEARN
| AR8216_PORT_CTRL_VLAN_MODE
|
720 AR8216_PORT_CTRL_SINGLE_VLAN
| AR8216_PORT_CTRL_STATE
|
721 AR8216_PORT_CTRL_HEADER
| AR8216_PORT_CTRL_LEARN_LOCK
,
722 AR8216_PORT_CTRL_LEARN
|
723 (egress
<< AR8216_PORT_CTRL_VLAN_MODE_S
) |
724 (AR8216_PORT_STATE_FORWARD
<< AR8216_PORT_CTRL_STATE_S
));
726 ar8xxx_rmw(priv
, AR8236_REG_PORT_VLAN(port
),
727 AR8236_PORT_VLAN_DEFAULT_ID
,
728 (pvid
<< AR8236_PORT_VLAN_DEFAULT_ID_S
));
730 ar8xxx_rmw(priv
, AR8236_REG_PORT_VLAN2(port
),
731 AR8236_PORT_VLAN2_VLAN_MODE
|
732 AR8236_PORT_VLAN2_MEMBER
,
733 (ingress
<< AR8236_PORT_VLAN2_VLAN_MODE_S
) |
734 (members
<< AR8236_PORT_VLAN2_MEMBER_S
));
738 ar8236_init_globals(struct ar8xxx_priv
*priv
)
740 /* enable jumbo frames */
741 ar8xxx_rmw(priv
, AR8216_REG_GLOBAL_CTRL
,
742 AR8316_GCTRL_MTU
, 9018 + 8 + 2);
744 /* enable cpu port to receive arp frames */
745 ar8xxx_reg_set(priv
, AR8216_REG_ATU_CTRL
,
746 AR8236_ATU_CTRL_RES
);
748 /* enable cpu port to receive multicast and broadcast frames */
749 ar8xxx_reg_set(priv
, AR8216_REG_FLOOD_MASK
,
750 AR8236_FM_CPU_BROADCAST_EN
| AR8236_FM_CPU_BCAST_FWD_EN
);
752 /* Enable MIB counters */
753 ar8xxx_rmw(priv
, AR8216_REG_MIB_FUNC
, AR8216_MIB_FUNC
| AR8236_MIB_EN
,
754 (AR8216_MIB_FUNC_NO_OP
<< AR8216_MIB_FUNC_S
) |
759 ar8316_hw_init(struct ar8xxx_priv
*priv
)
763 val
= ar8xxx_read(priv
, AR8316_REG_POSTRIP
);
765 if (priv
->phy
->interface
== PHY_INTERFACE_MODE_RGMII
) {
766 if (priv
->port4_phy
) {
767 /* value taken from Ubiquiti RouterStation Pro */
769 pr_info("ar8316: Using port 4 as PHY\n");
772 pr_info("ar8316: Using port 4 as switch port\n");
774 } else if (priv
->phy
->interface
== PHY_INTERFACE_MODE_GMII
) {
775 /* value taken from AVM Fritz!Box 7390 sources */
778 /* no known value for phy interface */
779 pr_err("ar8316: unsupported mii mode: %d.\n",
780 priv
->phy
->interface
);
787 ar8xxx_write(priv
, AR8316_REG_POSTRIP
, newval
);
789 if (priv
->port4_phy
&&
790 priv
->phy
->interface
== PHY_INTERFACE_MODE_RGMII
) {
791 /* work around for phy4 rgmii mode */
792 ar8xxx_phy_dbg_write(priv
, 4, 0x12, 0x480c);
794 ar8xxx_phy_dbg_write(priv
, 4, 0x0, 0x824e);
796 ar8xxx_phy_dbg_write(priv
, 4, 0x5, 0x3d47);
800 ar8xxx_phy_init(priv
);
803 priv
->initialized
= true;
808 ar8316_init_globals(struct ar8xxx_priv
*priv
)
810 /* standard atheros magic */
811 ar8xxx_write(priv
, 0x38, 0xc000050e);
813 /* enable cpu port to receive multicast and broadcast frames */
814 ar8xxx_write(priv
, AR8216_REG_FLOOD_MASK
, 0x003f003f);
816 /* enable jumbo frames */
817 ar8xxx_rmw(priv
, AR8216_REG_GLOBAL_CTRL
,
818 AR8316_GCTRL_MTU
, 9018 + 8 + 2);
820 /* Enable MIB counters */
821 ar8xxx_rmw(priv
, AR8216_REG_MIB_FUNC
, AR8216_MIB_FUNC
| AR8236_MIB_EN
,
822 (AR8216_MIB_FUNC_NO_OP
<< AR8216_MIB_FUNC_S
) |
827 ar8xxx_sw_set_vlan(struct switch_dev
*dev
, const struct switch_attr
*attr
,
828 struct switch_val
*val
)
830 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
831 priv
->vlan
= !!val
->value
.i
;
836 ar8xxx_sw_get_vlan(struct switch_dev
*dev
, const struct switch_attr
*attr
,
837 struct switch_val
*val
)
839 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
840 val
->value
.i
= priv
->vlan
;
846 ar8xxx_sw_set_pvid(struct switch_dev
*dev
, int port
, int vlan
)
848 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
850 /* make sure no invalid PVIDs get set */
852 if (vlan
>= dev
->vlans
)
855 priv
->pvid
[port
] = vlan
;
860 ar8xxx_sw_get_pvid(struct switch_dev
*dev
, int port
, int *vlan
)
862 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
863 *vlan
= priv
->pvid
[port
];
868 ar8xxx_sw_set_vid(struct switch_dev
*dev
, const struct switch_attr
*attr
,
869 struct switch_val
*val
)
871 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
872 priv
->vlan_id
[val
->port_vlan
] = val
->value
.i
;
877 ar8xxx_sw_get_vid(struct switch_dev
*dev
, const struct switch_attr
*attr
,
878 struct switch_val
*val
)
880 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
881 val
->value
.i
= priv
->vlan_id
[val
->port_vlan
];
886 ar8xxx_sw_get_port_link(struct switch_dev
*dev
, int port
,
887 struct switch_port_link
*link
)
889 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
891 ar8216_read_port_link(priv
, port
, link
);
896 ar8xxx_sw_get_ports(struct switch_dev
*dev
, struct switch_val
*val
)
898 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
899 u8 ports
= priv
->vlan_table
[val
->port_vlan
];
903 for (i
= 0; i
< dev
->ports
; i
++) {
904 struct switch_port
*p
;
906 if (!(ports
& (1 << i
)))
909 p
= &val
->value
.ports
[val
->len
++];
911 if (priv
->vlan_tagged
& (1 << i
))
912 p
->flags
= (1 << SWITCH_PORT_FLAG_TAGGED
);
920 ar8xxx_sw_set_ports(struct switch_dev
*dev
, struct switch_val
*val
)
922 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
923 u8
*vt
= &priv
->vlan_table
[val
->port_vlan
];
927 for (i
= 0; i
< val
->len
; i
++) {
928 struct switch_port
*p
= &val
->value
.ports
[i
];
930 if (p
->flags
& (1 << SWITCH_PORT_FLAG_TAGGED
)) {
931 priv
->vlan_tagged
|= (1 << p
->id
);
933 priv
->vlan_tagged
&= ~(1 << p
->id
);
934 priv
->pvid
[p
->id
] = val
->port_vlan
;
936 /* make sure that an untagged port does not
937 * appear in other vlans */
938 for (j
= 0; j
< AR8X16_MAX_VLANS
; j
++) {
939 if (j
== val
->port_vlan
)
941 priv
->vlan_table
[j
] &= ~(1 << p
->id
);
951 ar8216_set_mirror_regs(struct ar8xxx_priv
*priv
)
955 /* reset all mirror registers */
956 ar8xxx_rmw(priv
, AR8216_REG_GLOBAL_CPUPORT
,
957 AR8216_GLOBAL_CPUPORT_MIRROR_PORT
,
958 (0xF << AR8216_GLOBAL_CPUPORT_MIRROR_PORT_S
));
959 for (port
= 0; port
< AR8216_NUM_PORTS
; port
++) {
960 ar8xxx_reg_clear(priv
, AR8216_REG_PORT_CTRL(port
),
961 AR8216_PORT_CTRL_MIRROR_RX
);
963 ar8xxx_reg_clear(priv
, AR8216_REG_PORT_CTRL(port
),
964 AR8216_PORT_CTRL_MIRROR_TX
);
967 /* now enable mirroring if necessary */
968 if (priv
->source_port
>= AR8216_NUM_PORTS
||
969 priv
->monitor_port
>= AR8216_NUM_PORTS
||
970 priv
->source_port
== priv
->monitor_port
) {
974 ar8xxx_rmw(priv
, AR8216_REG_GLOBAL_CPUPORT
,
975 AR8216_GLOBAL_CPUPORT_MIRROR_PORT
,
976 (priv
->monitor_port
<< AR8216_GLOBAL_CPUPORT_MIRROR_PORT_S
));
979 ar8xxx_reg_set(priv
, AR8216_REG_PORT_CTRL(priv
->source_port
),
980 AR8216_PORT_CTRL_MIRROR_RX
);
983 ar8xxx_reg_set(priv
, AR8216_REG_PORT_CTRL(priv
->source_port
),
984 AR8216_PORT_CTRL_MIRROR_TX
);
988 ar8xxx_sw_hw_apply(struct switch_dev
*dev
)
990 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
991 u8 portmask
[AR8X16_MAX_PORTS
];
994 mutex_lock(&priv
->reg_mutex
);
995 /* flush all vlan translation unit entries */
996 priv
->chip
->vtu_flush(priv
);
998 memset(portmask
, 0, sizeof(portmask
));
1000 /* calculate the port destination masks and load vlans
1001 * into the vlan translation unit */
1002 for (j
= 0; j
< AR8X16_MAX_VLANS
; j
++) {
1003 u8 vp
= priv
->vlan_table
[j
];
1008 for (i
= 0; i
< dev
->ports
; i
++) {
1011 portmask
[i
] |= vp
& ~mask
;
1014 priv
->chip
->vtu_load_vlan(priv
, priv
->vlan_id
[j
],
1015 priv
->vlan_table
[j
]);
1019 * isolate all ports, but connect them to the cpu port */
1020 for (i
= 0; i
< dev
->ports
; i
++) {
1021 if (i
== AR8216_PORT_CPU
)
1024 portmask
[i
] = 1 << AR8216_PORT_CPU
;
1025 portmask
[AR8216_PORT_CPU
] |= (1 << i
);
1029 /* update the port destination mask registers and tag settings */
1030 for (i
= 0; i
< dev
->ports
; i
++) {
1031 priv
->chip
->setup_port(priv
, i
, portmask
[i
]);
1034 priv
->chip
->set_mirror_regs(priv
);
1036 mutex_unlock(&priv
->reg_mutex
);
1041 ar8xxx_sw_reset_switch(struct switch_dev
*dev
)
1043 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1044 const struct ar8xxx_chip
*chip
= priv
->chip
;
1047 mutex_lock(&priv
->reg_mutex
);
1048 memset(&priv
->vlan
, 0, sizeof(struct ar8xxx_priv
) -
1049 offsetof(struct ar8xxx_priv
, vlan
));
1051 for (i
= 0; i
< AR8X16_MAX_VLANS
; i
++)
1052 priv
->vlan_id
[i
] = i
;
1054 /* Configure all ports */
1055 for (i
= 0; i
< dev
->ports
; i
++)
1056 chip
->init_port(priv
, i
);
1058 priv
->mirror_rx
= false;
1059 priv
->mirror_tx
= false;
1060 priv
->source_port
= 0;
1061 priv
->monitor_port
= 0;
1063 chip
->init_globals(priv
);
1065 mutex_unlock(&priv
->reg_mutex
);
1067 return chip
->sw_hw_apply(dev
);
1071 ar8xxx_sw_set_reset_mibs(struct switch_dev
*dev
,
1072 const struct switch_attr
*attr
,
1073 struct switch_val
*val
)
1075 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1079 if (!ar8xxx_has_mib_counters(priv
))
1082 mutex_lock(&priv
->mib_lock
);
1084 len
= priv
->dev
.ports
* priv
->chip
->num_mibs
*
1085 sizeof(*priv
->mib_stats
);
1086 memset(priv
->mib_stats
, '\0', len
);
1087 ret
= ar8xxx_mib_flush(priv
);
1094 mutex_unlock(&priv
->mib_lock
);
1099 ar8xxx_sw_set_mirror_rx_enable(struct switch_dev
*dev
,
1100 const struct switch_attr
*attr
,
1101 struct switch_val
*val
)
1103 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1105 mutex_lock(&priv
->reg_mutex
);
1106 priv
->mirror_rx
= !!val
->value
.i
;
1107 priv
->chip
->set_mirror_regs(priv
);
1108 mutex_unlock(&priv
->reg_mutex
);
1114 ar8xxx_sw_get_mirror_rx_enable(struct switch_dev
*dev
,
1115 const struct switch_attr
*attr
,
1116 struct switch_val
*val
)
1118 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1119 val
->value
.i
= priv
->mirror_rx
;
1124 ar8xxx_sw_set_mirror_tx_enable(struct switch_dev
*dev
,
1125 const struct switch_attr
*attr
,
1126 struct switch_val
*val
)
1128 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1130 mutex_lock(&priv
->reg_mutex
);
1131 priv
->mirror_tx
= !!val
->value
.i
;
1132 priv
->chip
->set_mirror_regs(priv
);
1133 mutex_unlock(&priv
->reg_mutex
);
1139 ar8xxx_sw_get_mirror_tx_enable(struct switch_dev
*dev
,
1140 const struct switch_attr
*attr
,
1141 struct switch_val
*val
)
1143 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1144 val
->value
.i
= priv
->mirror_tx
;
1149 ar8xxx_sw_set_mirror_monitor_port(struct switch_dev
*dev
,
1150 const struct switch_attr
*attr
,
1151 struct switch_val
*val
)
1153 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1155 mutex_lock(&priv
->reg_mutex
);
1156 priv
->monitor_port
= val
->value
.i
;
1157 priv
->chip
->set_mirror_regs(priv
);
1158 mutex_unlock(&priv
->reg_mutex
);
1164 ar8xxx_sw_get_mirror_monitor_port(struct switch_dev
*dev
,
1165 const struct switch_attr
*attr
,
1166 struct switch_val
*val
)
1168 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1169 val
->value
.i
= priv
->monitor_port
;
1174 ar8xxx_sw_set_mirror_source_port(struct switch_dev
*dev
,
1175 const struct switch_attr
*attr
,
1176 struct switch_val
*val
)
1178 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1180 mutex_lock(&priv
->reg_mutex
);
1181 priv
->source_port
= val
->value
.i
;
1182 priv
->chip
->set_mirror_regs(priv
);
1183 mutex_unlock(&priv
->reg_mutex
);
1189 ar8xxx_sw_get_mirror_source_port(struct switch_dev
*dev
,
1190 const struct switch_attr
*attr
,
1191 struct switch_val
*val
)
1193 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1194 val
->value
.i
= priv
->source_port
;
1199 ar8xxx_sw_set_port_reset_mib(struct switch_dev
*dev
,
1200 const struct switch_attr
*attr
,
1201 struct switch_val
*val
)
1203 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1207 if (!ar8xxx_has_mib_counters(priv
))
1210 port
= val
->port_vlan
;
1211 if (port
>= dev
->ports
)
1214 mutex_lock(&priv
->mib_lock
);
1215 ret
= ar8xxx_mib_capture(priv
);
1219 ar8xxx_mib_fetch_port_stat(priv
, port
, true);
1224 mutex_unlock(&priv
->mib_lock
);
1229 ar8xxx_sw_get_port_mib(struct switch_dev
*dev
,
1230 const struct switch_attr
*attr
,
1231 struct switch_val
*val
)
1233 struct ar8xxx_priv
*priv
= swdev_to_ar8xxx(dev
);
1234 const struct ar8xxx_chip
*chip
= priv
->chip
;
1238 char *buf
= priv
->buf
;
1241 if (!ar8xxx_has_mib_counters(priv
))
1244 port
= val
->port_vlan
;
1245 if (port
>= dev
->ports
)
1248 mutex_lock(&priv
->mib_lock
);
1249 ret
= ar8xxx_mib_capture(priv
);
1253 ar8xxx_mib_fetch_port_stat(priv
, port
, false);
1255 len
+= snprintf(buf
+ len
, sizeof(priv
->buf
) - len
,
1256 "Port %d MIB counters\n",
1259 mib_stats
= &priv
->mib_stats
[port
* chip
->num_mibs
];
1260 for (i
= 0; i
< chip
->num_mibs
; i
++)
1261 len
+= snprintf(buf
+ len
, sizeof(priv
->buf
) - len
,
1263 chip
->mib_decs
[i
].name
,
1272 mutex_unlock(&priv
->mib_lock
);
1276 static const struct switch_attr ar8xxx_sw_attr_globals
[] = {
1278 .type
= SWITCH_TYPE_INT
,
1279 .name
= "enable_vlan",
1280 .description
= "Enable VLAN mode",
1281 .set
= ar8xxx_sw_set_vlan
,
1282 .get
= ar8xxx_sw_get_vlan
,
1286 .type
= SWITCH_TYPE_NOVAL
,
1287 .name
= "reset_mibs",
1288 .description
= "Reset all MIB counters",
1289 .set
= ar8xxx_sw_set_reset_mibs
,
1292 .type
= SWITCH_TYPE_INT
,
1293 .name
= "enable_mirror_rx",
1294 .description
= "Enable mirroring of RX packets",
1295 .set
= ar8xxx_sw_set_mirror_rx_enable
,
1296 .get
= ar8xxx_sw_get_mirror_rx_enable
,
1300 .type
= SWITCH_TYPE_INT
,
1301 .name
= "enable_mirror_tx",
1302 .description
= "Enable mirroring of TX packets",
1303 .set
= ar8xxx_sw_set_mirror_tx_enable
,
1304 .get
= ar8xxx_sw_get_mirror_tx_enable
,
1308 .type
= SWITCH_TYPE_INT
,
1309 .name
= "mirror_monitor_port",
1310 .description
= "Mirror monitor port",
1311 .set
= ar8xxx_sw_set_mirror_monitor_port
,
1312 .get
= ar8xxx_sw_get_mirror_monitor_port
,
1313 .max
= AR8216_NUM_PORTS
- 1
1316 .type
= SWITCH_TYPE_INT
,
1317 .name
= "mirror_source_port",
1318 .description
= "Mirror source port",
1319 .set
= ar8xxx_sw_set_mirror_source_port
,
1320 .get
= ar8xxx_sw_get_mirror_source_port
,
1321 .max
= AR8216_NUM_PORTS
- 1
1325 const struct switch_attr ar8xxx_sw_attr_port
[2] = {
1327 .type
= SWITCH_TYPE_NOVAL
,
1328 .name
= "reset_mib",
1329 .description
= "Reset single port MIB counters",
1330 .set
= ar8xxx_sw_set_port_reset_mib
,
1333 .type
= SWITCH_TYPE_STRING
,
1335 .description
= "Get port's MIB counters",
1337 .get
= ar8xxx_sw_get_port_mib
,
1341 const struct switch_attr ar8xxx_sw_attr_vlan
[1] = {
1343 .type
= SWITCH_TYPE_INT
,
1345 .description
= "VLAN ID (0-4094)",
1346 .set
= ar8xxx_sw_set_vid
,
1347 .get
= ar8xxx_sw_get_vid
,
1352 static const struct switch_dev_ops ar8xxx_sw_ops
= {
1354 .attr
= ar8xxx_sw_attr_globals
,
1355 .n_attr
= ARRAY_SIZE(ar8xxx_sw_attr_globals
),
1358 .attr
= ar8xxx_sw_attr_port
,
1359 .n_attr
= ARRAY_SIZE(ar8xxx_sw_attr_port
),
1362 .attr
= ar8xxx_sw_attr_vlan
,
1363 .n_attr
= ARRAY_SIZE(ar8xxx_sw_attr_vlan
),
1365 .get_port_pvid
= ar8xxx_sw_get_pvid
,
1366 .set_port_pvid
= ar8xxx_sw_set_pvid
,
1367 .get_vlan_ports
= ar8xxx_sw_get_ports
,
1368 .set_vlan_ports
= ar8xxx_sw_set_ports
,
1369 .apply_config
= ar8xxx_sw_hw_apply
,
1370 .reset_switch
= ar8xxx_sw_reset_switch
,
1371 .get_port_link
= ar8xxx_sw_get_port_link
,
1374 static const struct ar8xxx_chip ar8216_chip
= {
1375 .caps
= AR8XXX_CAP_MIB_COUNTERS
,
1377 .reg_port_stats_start
= 0x19000,
1378 .reg_port_stats_length
= 0xa0,
1380 .name
= "Atheros AR8216",
1381 .ports
= AR8216_NUM_PORTS
,
1382 .vlans
= AR8216_NUM_VLANS
,
1383 .swops
= &ar8xxx_sw_ops
,
1385 .hw_init
= ar8216_hw_init
,
1386 .init_globals
= ar8216_init_globals
,
1387 .init_port
= ar8216_init_port
,
1388 .setup_port
= ar8216_setup_port
,
1389 .read_port_status
= ar8216_read_port_status
,
1390 .atu_flush
= ar8216_atu_flush
,
1391 .vtu_flush
= ar8216_vtu_flush
,
1392 .vtu_load_vlan
= ar8216_vtu_load_vlan
,
1393 .set_mirror_regs
= ar8216_set_mirror_regs
,
1394 .sw_hw_apply
= ar8xxx_sw_hw_apply
,
1396 .num_mibs
= ARRAY_SIZE(ar8216_mibs
),
1397 .mib_decs
= ar8216_mibs
,
1398 .mib_func
= AR8216_REG_MIB_FUNC
1401 static const struct ar8xxx_chip ar8236_chip
= {
1402 .caps
= AR8XXX_CAP_MIB_COUNTERS
,
1404 .reg_port_stats_start
= 0x20000,
1405 .reg_port_stats_length
= 0x100,
1407 .name
= "Atheros AR8236",
1408 .ports
= AR8216_NUM_PORTS
,
1409 .vlans
= AR8216_NUM_VLANS
,
1410 .swops
= &ar8xxx_sw_ops
,
1412 .hw_init
= ar8216_hw_init
,
1413 .init_globals
= ar8236_init_globals
,
1414 .init_port
= ar8216_init_port
,
1415 .setup_port
= ar8236_setup_port
,
1416 .read_port_status
= ar8216_read_port_status
,
1417 .atu_flush
= ar8216_atu_flush
,
1418 .vtu_flush
= ar8216_vtu_flush
,
1419 .vtu_load_vlan
= ar8216_vtu_load_vlan
,
1420 .set_mirror_regs
= ar8216_set_mirror_regs
,
1421 .sw_hw_apply
= ar8xxx_sw_hw_apply
,
1423 .num_mibs
= ARRAY_SIZE(ar8236_mibs
),
1424 .mib_decs
= ar8236_mibs
,
1425 .mib_func
= AR8216_REG_MIB_FUNC
1428 static const struct ar8xxx_chip ar8316_chip
= {
1429 .caps
= AR8XXX_CAP_GIGE
| AR8XXX_CAP_MIB_COUNTERS
,
1431 .reg_port_stats_start
= 0x20000,
1432 .reg_port_stats_length
= 0x100,
1434 .name
= "Atheros AR8316",
1435 .ports
= AR8216_NUM_PORTS
,
1436 .vlans
= AR8X16_MAX_VLANS
,
1437 .swops
= &ar8xxx_sw_ops
,
1439 .hw_init
= ar8316_hw_init
,
1440 .init_globals
= ar8316_init_globals
,
1441 .init_port
= ar8216_init_port
,
1442 .setup_port
= ar8216_setup_port
,
1443 .read_port_status
= ar8216_read_port_status
,
1444 .atu_flush
= ar8216_atu_flush
,
1445 .vtu_flush
= ar8216_vtu_flush
,
1446 .vtu_load_vlan
= ar8216_vtu_load_vlan
,
1447 .set_mirror_regs
= ar8216_set_mirror_regs
,
1448 .sw_hw_apply
= ar8xxx_sw_hw_apply
,
1450 .num_mibs
= ARRAY_SIZE(ar8236_mibs
),
1451 .mib_decs
= ar8236_mibs
,
1452 .mib_func
= AR8216_REG_MIB_FUNC
1456 ar8xxx_id_chip(struct ar8xxx_priv
*priv
)
1462 val
= ar8xxx_read(priv
, AR8216_REG_CTRL
);
1466 id
= val
& (AR8216_CTRL_REVISION
| AR8216_CTRL_VERSION
);
1467 for (i
= 0; i
< AR8X16_PROBE_RETRIES
; i
++) {
1470 val
= ar8xxx_read(priv
, AR8216_REG_CTRL
);
1474 t
= val
& (AR8216_CTRL_REVISION
| AR8216_CTRL_VERSION
);
1479 priv
->chip_ver
= (id
& AR8216_CTRL_VERSION
) >> AR8216_CTRL_VERSION_S
;
1480 priv
->chip_rev
= (id
& AR8216_CTRL_REVISION
);
1482 switch (priv
->chip_ver
) {
1483 case AR8XXX_VER_AR8216
:
1484 priv
->chip
= &ar8216_chip
;
1486 case AR8XXX_VER_AR8236
:
1487 priv
->chip
= &ar8236_chip
;
1489 case AR8XXX_VER_AR8316
:
1490 priv
->chip
= &ar8316_chip
;
1492 case AR8XXX_VER_AR8327
:
1493 priv
->chip
= &ar8327_chip
;
1495 case AR8XXX_VER_AR8337
:
1496 priv
->chip
= &ar8337_chip
;
1499 pr_err("ar8216: Unknown Atheros device [ver=%d, rev=%d]\n",
1500 priv
->chip_ver
, priv
->chip_rev
);
1509 ar8xxx_mib_work_func(struct work_struct
*work
)
1511 struct ar8xxx_priv
*priv
;
1514 priv
= container_of(work
, struct ar8xxx_priv
, mib_work
.work
);
1516 mutex_lock(&priv
->mib_lock
);
1518 err
= ar8xxx_mib_capture(priv
);
1522 ar8xxx_mib_fetch_port_stat(priv
, priv
->mib_next_port
, false);
1525 priv
->mib_next_port
++;
1526 if (priv
->mib_next_port
>= priv
->dev
.ports
)
1527 priv
->mib_next_port
= 0;
1529 mutex_unlock(&priv
->mib_lock
);
1530 schedule_delayed_work(&priv
->mib_work
,
1531 msecs_to_jiffies(AR8XXX_MIB_WORK_DELAY
));
1535 ar8xxx_mib_init(struct ar8xxx_priv
*priv
)
1539 if (!ar8xxx_has_mib_counters(priv
))
1542 BUG_ON(!priv
->chip
->mib_decs
|| !priv
->chip
->num_mibs
);
1544 len
= priv
->dev
.ports
* priv
->chip
->num_mibs
*
1545 sizeof(*priv
->mib_stats
);
1546 priv
->mib_stats
= kzalloc(len
, GFP_KERNEL
);
1548 if (!priv
->mib_stats
)
1555 ar8xxx_mib_start(struct ar8xxx_priv
*priv
)
1557 if (!ar8xxx_has_mib_counters(priv
))
1560 schedule_delayed_work(&priv
->mib_work
,
1561 msecs_to_jiffies(AR8XXX_MIB_WORK_DELAY
));
1565 ar8xxx_mib_stop(struct ar8xxx_priv
*priv
)
1567 if (!ar8xxx_has_mib_counters(priv
))
1570 cancel_delayed_work(&priv
->mib_work
);
1573 static struct ar8xxx_priv
*
1576 struct ar8xxx_priv
*priv
;
1578 priv
= kzalloc(sizeof(struct ar8xxx_priv
), GFP_KERNEL
);
1582 mutex_init(&priv
->reg_mutex
);
1583 mutex_init(&priv
->mib_lock
);
1584 INIT_DELAYED_WORK(&priv
->mib_work
, ar8xxx_mib_work_func
);
1590 ar8xxx_free(struct ar8xxx_priv
*priv
)
1592 if (priv
->chip
&& priv
->chip
->cleanup
)
1593 priv
->chip
->cleanup(priv
);
1595 kfree(priv
->chip_data
);
1596 kfree(priv
->mib_stats
);
1601 ar8xxx_probe_switch(struct ar8xxx_priv
*priv
)
1603 const struct ar8xxx_chip
*chip
;
1604 struct switch_dev
*swdev
;
1607 ret
= ar8xxx_id_chip(priv
);
1614 swdev
->cpu_port
= AR8216_PORT_CPU
;
1615 swdev
->name
= chip
->name
;
1616 swdev
->vlans
= chip
->vlans
;
1617 swdev
->ports
= chip
->ports
;
1618 swdev
->ops
= chip
->swops
;
1620 ret
= ar8xxx_mib_init(priv
);
1628 ar8xxx_start(struct ar8xxx_priv
*priv
)
1634 ret
= priv
->chip
->hw_init(priv
);
1638 ret
= ar8xxx_sw_reset_switch(&priv
->dev
);
1644 ar8xxx_mib_start(priv
);
1650 ar8xxx_phy_config_init(struct phy_device
*phydev
)
1652 struct ar8xxx_priv
*priv
= phydev
->priv
;
1653 struct net_device
*dev
= phydev
->attached_dev
;
1659 if (priv
->chip
->config_at_probe
)
1660 return ar8xxx_phy_check_aneg(phydev
);
1664 if (phydev
->addr
!= 0) {
1665 if (chip_is_ar8316(priv
)) {
1666 /* switch device has been initialized, reinit */
1667 priv
->dev
.ports
= (AR8216_NUM_PORTS
- 1);
1668 priv
->initialized
= false;
1669 priv
->port4_phy
= true;
1670 ar8316_hw_init(priv
);
1677 ret
= ar8xxx_start(priv
);
1681 /* VID fixup only needed on ar8216 */
1682 if (chip_is_ar8216(priv
)) {
1683 dev
->phy_ptr
= priv
;
1684 dev
->priv_flags
|= IFF_NO_IP_ALIGN
;
1685 dev
->eth_mangle_rx
= ar8216_mangle_rx
;
1686 dev
->eth_mangle_tx
= ar8216_mangle_tx
;
1693 ar8xxx_phy_read_status(struct phy_device
*phydev
)
1695 struct ar8xxx_priv
*priv
= phydev
->priv
;
1696 struct switch_port_link link
;
1699 if (phydev
->addr
!= 0)
1700 return genphy_read_status(phydev
);
1702 ar8216_read_port_link(priv
, phydev
->addr
, &link
);
1703 phydev
->link
= !!link
.link
;
1707 switch (link
.speed
) {
1708 case SWITCH_PORT_SPEED_10
:
1709 phydev
->speed
= SPEED_10
;
1711 case SWITCH_PORT_SPEED_100
:
1712 phydev
->speed
= SPEED_100
;
1714 case SWITCH_PORT_SPEED_1000
:
1715 phydev
->speed
= SPEED_1000
;
1720 phydev
->duplex
= link
.duplex
? DUPLEX_FULL
: DUPLEX_HALF
;
1722 /* flush the address translation unit */
1723 mutex_lock(&priv
->reg_mutex
);
1724 ret
= priv
->chip
->atu_flush(priv
);
1725 mutex_unlock(&priv
->reg_mutex
);
1727 phydev
->state
= PHY_RUNNING
;
1728 netif_carrier_on(phydev
->attached_dev
);
1729 phydev
->adjust_link(phydev
->attached_dev
);
1735 ar8xxx_phy_config_aneg(struct phy_device
*phydev
)
1737 if (phydev
->addr
== 0)
1740 return genphy_config_aneg(phydev
);
1743 static const u32 ar8xxx_phy_ids
[] = {
1745 0x004dd034, /* AR8327 */
1746 0x004dd036, /* AR8337 */
1749 0x004dd043, /* AR8236 */
1753 ar8xxx_phy_match(u32 phy_id
)
1757 for (i
= 0; i
< ARRAY_SIZE(ar8xxx_phy_ids
); i
++)
1758 if (phy_id
== ar8xxx_phy_ids
[i
])
1765 ar8xxx_is_possible(struct mii_bus
*bus
)
1769 for (i
= 0; i
< 4; i
++) {
1772 phy_id
= mdiobus_read(bus
, i
, MII_PHYSID1
) << 16;
1773 phy_id
|= mdiobus_read(bus
, i
, MII_PHYSID2
);
1774 if (!ar8xxx_phy_match(phy_id
)) {
1775 pr_debug("ar8xxx: unknown PHY at %s:%02x id:%08x\n",
1776 dev_name(&bus
->dev
), i
, phy_id
);
1785 ar8xxx_phy_probe(struct phy_device
*phydev
)
1787 struct ar8xxx_priv
*priv
;
1788 struct switch_dev
*swdev
;
1791 /* skip PHYs at unused adresses */
1792 if (phydev
->addr
!= 0 && phydev
->addr
!= 4)
1795 if (!ar8xxx_is_possible(phydev
->bus
))
1798 mutex_lock(&ar8xxx_dev_list_lock
);
1799 list_for_each_entry(priv
, &ar8xxx_dev_list
, list
)
1800 if (priv
->mii_bus
== phydev
->bus
)
1803 priv
= ar8xxx_create();
1809 priv
->mii_bus
= phydev
->bus
;
1811 ret
= ar8xxx_probe_switch(priv
);
1816 swdev
->alias
= dev_name(&priv
->mii_bus
->dev
);
1817 ret
= register_switch(swdev
, NULL
);
1821 pr_info("%s: %s rev. %u switch registered on %s\n",
1822 swdev
->devname
, swdev
->name
, priv
->chip_rev
,
1823 dev_name(&priv
->mii_bus
->dev
));
1828 if (phydev
->addr
== 0) {
1829 if (ar8xxx_has_gige(priv
)) {
1830 phydev
->supported
= SUPPORTED_1000baseT_Full
;
1831 phydev
->advertising
= ADVERTISED_1000baseT_Full
;
1833 phydev
->supported
= SUPPORTED_100baseT_Full
;
1834 phydev
->advertising
= ADVERTISED_100baseT_Full
;
1837 if (priv
->chip
->config_at_probe
) {
1840 ret
= ar8xxx_start(priv
);
1842 goto err_unregister_switch
;
1845 if (ar8xxx_has_gige(priv
)) {
1846 phydev
->supported
|= SUPPORTED_1000baseT_Full
;
1847 phydev
->advertising
|= ADVERTISED_1000baseT_Full
;
1851 phydev
->priv
= priv
;
1853 list_add(&priv
->list
, &ar8xxx_dev_list
);
1855 mutex_unlock(&ar8xxx_dev_list_lock
);
1859 err_unregister_switch
:
1860 if (--priv
->use_count
)
1863 unregister_switch(&priv
->dev
);
1868 mutex_unlock(&ar8xxx_dev_list_lock
);
1873 ar8xxx_phy_detach(struct phy_device
*phydev
)
1875 struct net_device
*dev
= phydev
->attached_dev
;
1880 dev
->phy_ptr
= NULL
;
1881 dev
->priv_flags
&= ~IFF_NO_IP_ALIGN
;
1882 dev
->eth_mangle_rx
= NULL
;
1883 dev
->eth_mangle_tx
= NULL
;
1887 ar8xxx_phy_remove(struct phy_device
*phydev
)
1889 struct ar8xxx_priv
*priv
= phydev
->priv
;
1894 phydev
->priv
= NULL
;
1895 if (--priv
->use_count
> 0)
1898 mutex_lock(&ar8xxx_dev_list_lock
);
1899 list_del(&priv
->list
);
1900 mutex_unlock(&ar8xxx_dev_list_lock
);
1902 unregister_switch(&priv
->dev
);
1903 ar8xxx_mib_stop(priv
);
1907 #if LINUX_VERSION_CODE >= KERNEL_VERSION(3,14,0)
1909 ar8xxx_phy_soft_reset(struct phy_device
*phydev
)
1911 /* we don't need an extra reset */
1916 static struct phy_driver ar8xxx_phy_driver
= {
1917 .phy_id
= 0x004d0000,
1918 .name
= "Atheros AR8216/AR8236/AR8316",
1919 .phy_id_mask
= 0xffff0000,
1920 .features
= PHY_BASIC_FEATURES
,
1921 .probe
= ar8xxx_phy_probe
,
1922 .remove
= ar8xxx_phy_remove
,
1923 .detach
= ar8xxx_phy_detach
,
1924 .config_init
= ar8xxx_phy_config_init
,
1925 .config_aneg
= ar8xxx_phy_config_aneg
,
1926 .read_status
= ar8xxx_phy_read_status
,
1927 #if LINUX_VERSION_CODE >= KERNEL_VERSION(3,14,0)
1928 .soft_reset
= ar8xxx_phy_soft_reset
,
1930 .driver
= { .owner
= THIS_MODULE
},
1936 return phy_driver_register(&ar8xxx_phy_driver
);
1942 phy_driver_unregister(&ar8xxx_phy_driver
);
1945 module_init(ar8xxx_init
);
1946 module_exit(ar8xxx_exit
);
1947 MODULE_LICENSE("GPL");