u-boot/drivers/net/vsc9953.c
Radu Bulie 98017a1fb5 drivers/net/vsc9953: Initialize action RAM in VCAP complex
VCAP tables must be initialized even if no advanced classification
is used. If no initialization is performed, then ECC error will
be observed by the user when the first packet enters the l2switch.
The error is marked in MPIC_EISR0 -bit 29 which means - Internal RAM
multi-bit ECC error.
This patch fixes the aforementioned ECC error by performing the
initialization of VCAP tables.

Signed-off-by: Radu Bulie <radu-andrei.bulie@nxp.com>
Acked-by: Joe Hershberger <joe.hershberger@ni.com>
2018-06-13 13:54:16 -05:00

2751 lines
76 KiB
C

// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright 2014 - 2015 Freescale Semiconductor, Inc.
*
* Driver for the Vitesse VSC9953 L2 Switch
*/
#include <asm/io.h>
#include <asm/fsl_serdes.h>
#include <fm_eth.h>
#include <fsl_memac.h>
#include <bitfield.h>
#include <errno.h>
#include <malloc.h>
#include <vsc9953.h>
#include <ethsw.h>
static struct vsc9953_info vsc9953_l2sw = {
.port[0] = VSC9953_PORT_INFO_INITIALIZER(0),
.port[1] = VSC9953_PORT_INFO_INITIALIZER(1),
.port[2] = VSC9953_PORT_INFO_INITIALIZER(2),
.port[3] = VSC9953_PORT_INFO_INITIALIZER(3),
.port[4] = VSC9953_PORT_INFO_INITIALIZER(4),
.port[5] = VSC9953_PORT_INFO_INITIALIZER(5),
.port[6] = VSC9953_PORT_INFO_INITIALIZER(6),
.port[7] = VSC9953_PORT_INFO_INITIALIZER(7),
.port[8] = VSC9953_PORT_INFO_INITIALIZER(8),
.port[9] = VSC9953_PORT_INFO_INITIALIZER(9),
};
void vsc9953_port_info_set_mdio(int port_no, struct mii_dev *bus)
{
if (!VSC9953_PORT_CHECK(port_no))
return;
vsc9953_l2sw.port[port_no].bus = bus;
}
void vsc9953_port_info_set_phy_address(int port_no, int address)
{
if (!VSC9953_PORT_CHECK(port_no))
return;
vsc9953_l2sw.port[port_no].phyaddr = address;
}
void vsc9953_port_info_set_phy_int(int port_no, phy_interface_t phy_int)
{
if (!VSC9953_PORT_CHECK(port_no))
return;
vsc9953_l2sw.port[port_no].enet_if = phy_int;
}
void vsc9953_port_enable(int port_no)
{
if (!VSC9953_PORT_CHECK(port_no))
return;
vsc9953_l2sw.port[port_no].enabled = 1;
}
void vsc9953_port_disable(int port_no)
{
if (!VSC9953_PORT_CHECK(port_no))
return;
vsc9953_l2sw.port[port_no].enabled = 0;
}
static void vsc9953_mdio_write(struct vsc9953_mii_mng *phyregs, int port_addr,
int regnum, int value)
{
int timeout = 50000;
out_le32(&phyregs->miimcmd, (0x1 << 31) | ((port_addr & 0x1f) << 25) |
((regnum & 0x1f) << 20) | ((value & 0xffff) << 4) |
(0x1 << 1));
asm("sync");
while ((in_le32(&phyregs->miimstatus) & 0x8) && --timeout)
udelay(1);
if (timeout == 0)
debug("Timeout waiting for MDIO write\n");
}
static int vsc9953_mdio_read(struct vsc9953_mii_mng *phyregs, int port_addr,
int regnum)
{
int value = 0xFFFF;
int timeout = 50000;
while ((in_le32(&phyregs->miimstatus) & MIIMIND_OPR_PEND) && --timeout)
udelay(1);
if (timeout == 0) {
debug("Timeout waiting for MDIO operation to finish\n");
return value;
}
/* Put the address of the phy, and the register
* number into MIICMD
*/
out_le32(&phyregs->miimcmd, (0x1 << 31) | ((port_addr & 0x1f) << 25) |
((regnum & 0x1f) << 20) | ((value & 0xffff) << 4) |
(0x2 << 1));
timeout = 50000;
/* Wait for the the indication that the read is done */
while ((in_le32(&phyregs->miimstatus) & 0x8) && --timeout)
udelay(1);
if (timeout == 0)
debug("Timeout waiting for MDIO read\n");
/* Grab the value read from the PHY */
value = in_le32(&phyregs->miimdata);
if ((value & 0x00030000) == 0)
return value & 0x0000ffff;
return value;
}
static int init_phy(struct eth_device *dev)
{
struct vsc9953_port_info *l2sw_port = dev->priv;
struct phy_device *phydev = NULL;
#ifdef CONFIG_PHYLIB
if (!l2sw_port->bus)
return 0;
phydev = phy_connect(l2sw_port->bus, l2sw_port->phyaddr, dev,
l2sw_port->enet_if);
if (!phydev) {
printf("Failed to connect\n");
return -1;
}
phydev->supported &= SUPPORTED_10baseT_Half |
SUPPORTED_10baseT_Full |
SUPPORTED_100baseT_Half |
SUPPORTED_100baseT_Full |
SUPPORTED_1000baseT_Full;
phydev->advertising = phydev->supported;
l2sw_port->phydev = phydev;
phy_config(phydev);
#endif
return 0;
}
static int vsc9953_port_init(int port_no)
{
struct eth_device *dev;
/* Internal ports never have a PHY */
if (VSC9953_INTERNAL_PORT_CHECK(port_no))
return 0;
/* alloc eth device */
dev = (struct eth_device *)calloc(1, sizeof(struct eth_device));
if (!dev)
return -ENOMEM;
sprintf(dev->name, "SW@PORT%d", port_no);
dev->priv = &vsc9953_l2sw.port[port_no];
dev->init = NULL;
dev->halt = NULL;
dev->send = NULL;
dev->recv = NULL;
if (init_phy(dev)) {
free(dev);
return -ENODEV;
}
return 0;
}
static int vsc9953_vlan_table_poll_idle(void)
{
struct vsc9953_analyzer *l2ana_reg;
int timeout;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
timeout = 50000;
while (((in_le32(&l2ana_reg->ana_tables.vlan_access) &
VSC9953_VLAN_CMD_MASK) != VSC9953_VLAN_CMD_IDLE) && --timeout)
udelay(1);
return timeout ? 0 : -EBUSY;
}
#ifdef CONFIG_CMD_ETHSW
/* Add/remove a port to/from a VLAN */
static void vsc9953_vlan_table_membership_set(int vid, u32 port_no, u8 add)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
if (vsc9953_vlan_table_poll_idle() < 0) {
debug("VLAN table timeout\n");
return;
}
val = in_le32(&l2ana_reg->ana_tables.vlan_tidx);
val = bitfield_replace_by_mask(val, VSC9953_ANA_TBL_VID_MASK, vid);
out_le32(&l2ana_reg->ana_tables.vlan_tidx, val);
clrsetbits_le32(&l2ana_reg->ana_tables.vlan_access,
VSC9953_VLAN_CMD_MASK, VSC9953_VLAN_CMD_READ);
if (vsc9953_vlan_table_poll_idle() < 0) {
debug("VLAN table timeout\n");
return;
}
val = in_le32(&l2ana_reg->ana_tables.vlan_tidx);
val = bitfield_replace_by_mask(val, VSC9953_ANA_TBL_VID_MASK, vid);
out_le32(&l2ana_reg->ana_tables.vlan_tidx, val);
val = in_le32(&l2ana_reg->ana_tables.vlan_access);
if (!add) {
val = bitfield_replace_by_mask(val, VSC9953_VLAN_CMD_MASK,
VSC9953_VLAN_CMD_WRITE) &
~(bitfield_replace_by_mask(0, VSC9953_VLAN_PORT_MASK,
(1 << port_no)));
;
} else {
val = bitfield_replace_by_mask(val, VSC9953_VLAN_CMD_MASK,
VSC9953_VLAN_CMD_WRITE) |
bitfield_replace_by_mask(0, VSC9953_VLAN_PORT_MASK,
(1 << port_no));
}
out_le32(&l2ana_reg->ana_tables.vlan_access, val);
/* wait for VLAN table command to flush */
if (vsc9953_vlan_table_poll_idle() < 0) {
debug("VLAN table timeout\n");
return;
}
}
/* show VLAN membership for a port */
static void vsc9953_vlan_membership_show(int port_no)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
u32 vid;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
printf("Port %d VLAN membership: ", port_no);
for (vid = 0; vid < VSC9953_MAX_VLAN; vid++) {
if (vsc9953_vlan_table_poll_idle() < 0) {
debug("VLAN table timeout\n");
return;
}
val = in_le32(&l2ana_reg->ana_tables.vlan_tidx);
val = bitfield_replace_by_mask(val, VSC9953_ANA_TBL_VID_MASK,
vid);
out_le32(&l2ana_reg->ana_tables.vlan_tidx, val);
clrsetbits_le32(&l2ana_reg->ana_tables.vlan_access,
VSC9953_VLAN_CMD_MASK, VSC9953_VLAN_CMD_READ);
if (vsc9953_vlan_table_poll_idle() < 0) {
debug("VLAN table timeout\n");
return;
}
val = in_le32(&l2ana_reg->ana_tables.vlan_access);
if (bitfield_extract_by_mask(val, VSC9953_VLAN_PORT_MASK) &
(1 << port_no))
printf("%d ", vid);
}
printf("\n");
}
#endif
/* vlan table set/clear all membership of vid */
static void vsc9953_vlan_table_membership_all_set(int vid, int set_member)
{
uint val;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
if (vsc9953_vlan_table_poll_idle() < 0) {
debug("VLAN table timeout\n");
return;
}
/* read current vlan configuration */
val = in_le32(&l2ana_reg->ana_tables.vlan_tidx);
out_le32(&l2ana_reg->ana_tables.vlan_tidx,
bitfield_replace_by_mask(val, VSC9953_ANA_TBL_VID_MASK, vid));
clrsetbits_le32(&l2ana_reg->ana_tables.vlan_access,
VSC9953_VLAN_CMD_MASK, VSC9953_VLAN_CMD_READ);
if (vsc9953_vlan_table_poll_idle() < 0) {
debug("VLAN table timeout\n");
return;
}
val = in_le32(&l2ana_reg->ana_tables.vlan_tidx);
out_le32(&l2ana_reg->ana_tables.vlan_tidx,
bitfield_replace_by_mask(val, VSC9953_ANA_TBL_VID_MASK, vid));
clrsetbits_le32(&l2ana_reg->ana_tables.vlan_access,
VSC9953_VLAN_PORT_MASK | VSC9953_VLAN_CMD_MASK,
VSC9953_VLAN_CMD_WRITE |
(set_member ? VSC9953_VLAN_PORT_MASK : 0));
}
#ifdef CONFIG_CMD_ETHSW
/* Get PVID of a VSC9953 port */
static int vsc9953_port_vlan_pvid_get(int port_nr, int *pvid)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_nr].enabled) {
printf("Port %d is administrative down\n", port_nr);
return -1;
}
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
/* Get ingress PVID */
val = in_le32(&l2ana_reg->port[port_nr].vlan_cfg);
*pvid = bitfield_extract_by_mask(val, VSC9953_VLAN_CFG_VID_MASK);
return 0;
}
#endif
/* Set PVID for a VSC9953 port */
static void vsc9953_port_vlan_pvid_set(int port_no, int pvid)
{
uint val;
struct vsc9953_analyzer *l2ana_reg;
struct vsc9953_rew_reg *l2rew_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return;
}
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
l2rew_reg = (struct vsc9953_rew_reg *)(VSC9953_OFFSET +
VSC9953_REW_OFFSET);
/* Set PVID on ingress */
val = in_le32(&l2ana_reg->port[port_no].vlan_cfg);
val = bitfield_replace_by_mask(val, VSC9953_VLAN_CFG_VID_MASK, pvid);
out_le32(&l2ana_reg->port[port_no].vlan_cfg, val);
/* Set PVID on egress */
val = in_le32(&l2rew_reg->port[port_no].port_vlan_cfg);
val = bitfield_replace_by_mask(val, VSC9953_PORT_VLAN_CFG_VID_MASK,
pvid);
out_le32(&l2rew_reg->port[port_no].port_vlan_cfg, val);
}
static void vsc9953_port_all_vlan_pvid_set(int pvid)
{
int i;
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_vlan_pvid_set(i, pvid);
}
/* Enable/disable vlan aware of a VSC9953 port */
static void vsc9953_port_vlan_aware_set(int port_no, int enabled)
{
struct vsc9953_analyzer *l2ana_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return;
}
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
if (enabled)
setbits_le32(&l2ana_reg->port[port_no].vlan_cfg,
VSC9953_VLAN_CFG_AWARE_ENA);
else
clrbits_le32(&l2ana_reg->port[port_no].vlan_cfg,
VSC9953_VLAN_CFG_AWARE_ENA);
}
/* Set all VSC9953 ports' vlan aware */
static void vsc9953_port_all_vlan_aware_set(int enabled)
{
int i;
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_vlan_aware_set(i, enabled);
}
/* Enable/disable vlan pop count of a VSC9953 port */
static void vsc9953_port_vlan_popcnt_set(int port_no, int popcnt)
{
uint val;
struct vsc9953_analyzer *l2ana_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return;
}
if (popcnt > 3 || popcnt < 0) {
printf("Invalid pop count value: %d\n", port_no);
return;
}
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
val = in_le32(&l2ana_reg->port[port_no].vlan_cfg);
val = bitfield_replace_by_mask(val, VSC9953_VLAN_CFG_POP_CNT_MASK,
popcnt);
out_le32(&l2ana_reg->port[port_no].vlan_cfg, val);
}
/* Set all VSC9953 ports' pop count */
static void vsc9953_port_all_vlan_poncnt_set(int popcnt)
{
int i;
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_vlan_popcnt_set(i, popcnt);
}
/* Enable/disable learning for frames dropped due to ingress filtering */
static void vsc9953_vlan_ingr_fltr_learn_drop(int enable)
{
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
if (enable)
setbits_le32(&l2ana_reg->ana.adv_learn, VSC9953_VLAN_CHK);
else
clrbits_le32(&l2ana_reg->ana.adv_learn, VSC9953_VLAN_CHK);
}
enum aggr_code_mode {
AGGR_CODE_RAND = 0,
AGGR_CODE_ALL, /* S/D MAC, IPv4 S/D IP, IPv6 Flow Label, S/D PORT */
};
/* Set aggregation code generation mode */
static int vsc9953_aggr_code_set(enum aggr_code_mode ac)
{
int rc;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
switch (ac) {
case AGGR_CODE_RAND:
clrsetbits_le32(&l2ana_reg->common.aggr_cfg,
VSC9953_AC_DMAC_ENA | VSC9953_AC_SMAC_ENA |
VSC9953_AC_IP6_LBL_ENA |
VSC9953_AC_IP6_TCPUDP_ENA |
VSC9953_AC_IP4_SIPDIP_ENA |
VSC9953_AC_IP4_TCPUDP_ENA, VSC9953_AC_RND_ENA);
rc = 0;
break;
case AGGR_CODE_ALL:
clrsetbits_le32(&l2ana_reg->common.aggr_cfg, VSC9953_AC_RND_ENA,
VSC9953_AC_DMAC_ENA | VSC9953_AC_SMAC_ENA |
VSC9953_AC_IP6_LBL_ENA |
VSC9953_AC_IP6_TCPUDP_ENA |
VSC9953_AC_IP4_SIPDIP_ENA |
VSC9953_AC_IP4_TCPUDP_ENA);
rc = 0;
break;
default:
/* unknown mode for aggregation code */
rc = -EINVAL;
}
return rc;
}
/* Egress untag modes of a VSC9953 port */
enum egress_untag_mode {
EGRESS_UNTAG_ALL = 0,
EGRESS_UNTAG_PVID_AND_ZERO,
EGRESS_UNTAG_ZERO,
EGRESS_UNTAG_NONE,
};
#ifdef CONFIG_CMD_ETHSW
/* Get egress tagging configuration for a VSC9953 port */
static int vsc9953_port_vlan_egr_untag_get(int port_no,
enum egress_untag_mode *mode)
{
u32 val;
struct vsc9953_rew_reg *l2rew_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return -1;
}
l2rew_reg = (struct vsc9953_rew_reg *)(VSC9953_OFFSET +
VSC9953_REW_OFFSET);
val = in_le32(&l2rew_reg->port[port_no].port_tag_cfg);
switch (val & VSC9953_TAG_CFG_MASK) {
case VSC9953_TAG_CFG_NONE:
*mode = EGRESS_UNTAG_ALL;
return 0;
case VSC9953_TAG_CFG_ALL_BUT_PVID_ZERO:
*mode = EGRESS_UNTAG_PVID_AND_ZERO;
return 0;
case VSC9953_TAG_CFG_ALL_BUT_ZERO:
*mode = EGRESS_UNTAG_ZERO;
return 0;
case VSC9953_TAG_CFG_ALL:
*mode = EGRESS_UNTAG_NONE;
return 0;
default:
printf("Unknown egress tagging configuration for port %d\n",
port_no);
return -1;
}
}
/* Show egress tagging configuration for a VSC9953 port */
static void vsc9953_port_vlan_egr_untag_show(int port_no)
{
enum egress_untag_mode mode;
if (vsc9953_port_vlan_egr_untag_get(port_no, &mode)) {
printf("%7d\t%17s\n", port_no, "-");
return;
}
printf("%7d\t", port_no);
switch (mode) {
case EGRESS_UNTAG_ALL:
printf("%17s\n", "all");
break;
case EGRESS_UNTAG_NONE:
printf("%17s\n", "none");
break;
case EGRESS_UNTAG_PVID_AND_ZERO:
printf("%17s\n", "PVID and 0");
break;
case EGRESS_UNTAG_ZERO:
printf("%17s\n", "0");
break;
default:
printf("%17s\n", "-");
}
}
#endif
static void vsc9953_port_vlan_egr_untag_set(int port_no,
enum egress_untag_mode mode)
{
struct vsc9953_rew_reg *l2rew_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return;
}
l2rew_reg = (struct vsc9953_rew_reg *)(VSC9953_OFFSET +
VSC9953_REW_OFFSET);
switch (mode) {
case EGRESS_UNTAG_ALL:
clrsetbits_le32(&l2rew_reg->port[port_no].port_tag_cfg,
VSC9953_TAG_CFG_MASK, VSC9953_TAG_CFG_NONE);
break;
case EGRESS_UNTAG_PVID_AND_ZERO:
clrsetbits_le32(&l2rew_reg->port[port_no].port_tag_cfg,
VSC9953_TAG_CFG_MASK,
VSC9953_TAG_CFG_ALL_BUT_PVID_ZERO);
break;
case EGRESS_UNTAG_ZERO:
clrsetbits_le32(&l2rew_reg->port[port_no].port_tag_cfg,
VSC9953_TAG_CFG_MASK,
VSC9953_TAG_CFG_ALL_BUT_ZERO);
break;
case EGRESS_UNTAG_NONE:
clrsetbits_le32(&l2rew_reg->port[port_no].port_tag_cfg,
VSC9953_TAG_CFG_MASK, VSC9953_TAG_CFG_ALL);
break;
default:
printf("Unknown untag mode for port %d\n", port_no);
}
}
static void vsc9953_port_all_vlan_egress_untagged_set(
enum egress_untag_mode mode)
{
int i;
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_vlan_egr_untag_set(i, mode);
}
static int vsc9953_autoage_time_set(int age_period)
{
u32 autoage;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
if (age_period < 0 || age_period > VSC9953_AUTOAGE_PERIOD_MASK)
return -EINVAL;
autoage = bitfield_replace_by_mask(in_le32(&l2ana_reg->ana.auto_age),
VSC9953_AUTOAGE_PERIOD_MASK,
age_period);
out_le32(&l2ana_reg->ana.auto_age, autoage);
return 0;
}
#ifdef CONFIG_CMD_ETHSW
/* Enable/disable status of a VSC9953 port */
static void vsc9953_port_status_set(int port_no, u8 enabled)
{
struct vsc9953_qsys_reg *l2qsys_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled)
return;
l2qsys_reg = (struct vsc9953_qsys_reg *)(VSC9953_OFFSET +
VSC9953_QSYS_OFFSET);
if (enabled)
setbits_le32(&l2qsys_reg->sys.switch_port_mode[port_no],
VSC9953_PORT_ENA);
else
clrbits_le32(&l2qsys_reg->sys.switch_port_mode[port_no],
VSC9953_PORT_ENA);
}
/* Start autonegotiation for a VSC9953 PHY */
static void vsc9953_phy_autoneg(int port_no)
{
if (!vsc9953_l2sw.port[port_no].phydev)
return;
if (vsc9953_l2sw.port[port_no].phydev->drv->startup(
vsc9953_l2sw.port[port_no].phydev))
printf("Failed to start PHY for port %d\n", port_no);
}
/* Print a VSC9953 port's configuration */
static void vsc9953_port_config_show(int port_no)
{
int speed;
int duplex;
int link;
u8 enabled;
u32 val;
struct vsc9953_qsys_reg *l2qsys_reg;
l2qsys_reg = (struct vsc9953_qsys_reg *)(VSC9953_OFFSET +
VSC9953_QSYS_OFFSET);
val = in_le32(&l2qsys_reg->sys.switch_port_mode[port_no]);
enabled = vsc9953_l2sw.port[port_no].enabled &&
(val & VSC9953_PORT_ENA);
/* internal ports (8 and 9) are fixed */
if (VSC9953_INTERNAL_PORT_CHECK(port_no)) {
link = 1;
speed = SPEED_2500;
duplex = DUPLEX_FULL;
} else {
if (vsc9953_l2sw.port[port_no].phydev) {
link = vsc9953_l2sw.port[port_no].phydev->link;
speed = vsc9953_l2sw.port[port_no].phydev->speed;
duplex = vsc9953_l2sw.port[port_no].phydev->duplex;
} else {
link = -1;
speed = -1;
duplex = -1;
}
}
printf("%8d ", port_no);
printf("%8s ", enabled == 1 ? "enabled" : "disabled");
printf("%8s ", link == 1 ? "up" : "down");
switch (speed) {
case SPEED_10:
printf("%8d ", 10);
break;
case SPEED_100:
printf("%8d ", 100);
break;
case SPEED_1000:
printf("%8d ", 1000);
break;
case SPEED_2500:
printf("%8d ", 2500);
break;
case SPEED_10000:
printf("%8d ", 10000);
break;
default:
printf("%8s ", "-");
}
printf("%8s\n", duplex == DUPLEX_FULL ? "full" : "half");
}
/* Show VSC9953 ports' statistics */
static void vsc9953_port_statistics_show(int port_no)
{
u32 rx_val;
u32 tx_val;
struct vsc9953_system_reg *l2sys_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return;
}
l2sys_reg = (struct vsc9953_system_reg *)(VSC9953_OFFSET +
VSC9953_SYS_OFFSET);
printf("Statistics for L2 Switch port %d:\n", port_no);
/* Set counter view for our port */
out_le32(&l2sys_reg->sys.stat_cfg, port_no);
#define VSC9953_STATS_PRINTF "%-15s %10u"
/* Get number of Rx and Tx frames */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_short) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_frag) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_jabber) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_long) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_64) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_65_127) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_128_255) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_256_511) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_512_1023) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_1024_1526) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_jumbo);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_64) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_65_127) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_128_255) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_256_511) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_512_1023) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_1024_1526) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_jumbo);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx frames:", rx_val, "Tx frames:", tx_val);
/* Get number of Rx and Tx bytes */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_oct);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_oct);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx bytes:", rx_val, "Tx bytes:", tx_val);
/* Get number of Rx frames received ok and Tx frames sent ok */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_yellow_prio_0) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_yellow_prio_1) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_yellow_prio_2) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_yellow_prio_3) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_yellow_prio_4) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_yellow_prio_5) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_yellow_prio_6) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_yellow_prio_7) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_green_prio_0) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_green_prio_1) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_green_prio_2) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_green_prio_3) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_green_prio_4) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_green_prio_5) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_green_prio_6) +
in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_green_prio_7);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_64) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_65_127) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_128_255) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_256_511) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_512_1023) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_1024_1526) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_jumbo);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx frames ok:", rx_val, "Tx frames ok:", tx_val);
/* Get number of Rx and Tx unicast frames */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_uc);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_uc);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx unicast:", rx_val, "Tx unicast:", tx_val);
/* Get number of Rx and Tx broadcast frames */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_bc);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_bc);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx broadcast:", rx_val, "Tx broadcast:", tx_val);
/* Get number of Rx and Tx frames of 64B */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_64);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_64);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx 64B:", rx_val, "Tx 64B:", tx_val);
/* Get number of Rx and Tx frames with sizes between 65B and 127B */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_65_127);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_65_127);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx 65B-127B:", rx_val, "Tx 65B-127B:", tx_val);
/* Get number of Rx and Tx frames with sizes between 128B and 255B */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_128_255);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_128_255);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx 128B-255B:", rx_val, "Tx 128B-255B:", tx_val);
/* Get number of Rx and Tx frames with sizes between 256B and 511B */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_256_511);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_256_511);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx 256B-511B:", rx_val, "Tx 256B-511B:", tx_val);
/* Get number of Rx and Tx frames with sizes between 512B and 1023B */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_512_1023);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_512_1023);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx 512B-1023B:", rx_val, "Tx 512B-1023B:", tx_val);
/* Get number of Rx and Tx frames with sizes between 1024B and 1526B */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_1024_1526);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_1024_1526);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx 1024B-1526B:", rx_val, "Tx 1024B-1526B:", tx_val);
/* Get number of Rx and Tx jumbo frames */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_sz_jumbo);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_sz_jumbo);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx jumbo:", rx_val, "Tx jumbo:", tx_val);
/* Get number of Rx and Tx dropped frames */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_cat_drop) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_tail) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_yellow_prio_0) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_yellow_prio_1) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_yellow_prio_2) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_yellow_prio_3) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_yellow_prio_4) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_yellow_prio_5) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_yellow_prio_6) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_yellow_prio_7) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_green_prio_0) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_green_prio_1) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_green_prio_2) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_green_prio_3) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_green_prio_4) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_green_prio_5) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_green_prio_6) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_green_prio_7);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_drop) +
in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_aged);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx drops:", rx_val, "Tx drops:", tx_val);
/*
* Get number of Rx frames with CRC or alignment errors
* and number of detected Tx collisions
*/
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_crc);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_col);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx CRC&align:", rx_val, "Tx coll:", tx_val);
/*
* Get number of Rx undersized frames and
* number of Tx aged frames
*/
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_short);
tx_val = in_le32(&l2sys_reg->stat.tx_cntrs.c_tx_aged);
printf(VSC9953_STATS_PRINTF"\t\t"VSC9953_STATS_PRINTF"\n",
"Rx undersize:", rx_val, "Tx aged:", tx_val);
/* Get number of Rx oversized frames */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_long);
printf(VSC9953_STATS_PRINTF"\n", "Rx oversized:", rx_val);
/* Get number of Rx fragmented frames */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_frag);
printf(VSC9953_STATS_PRINTF"\n", "Rx fragments:", rx_val);
/* Get number of Rx jabber errors */
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_jabber);
printf(VSC9953_STATS_PRINTF"\n", "Rx jabbers:", rx_val);
/*
* Get number of Rx frames filtered due to classification rules or
* no destination ports
*/
rx_val = in_le32(&l2sys_reg->stat.rx_cntrs.c_rx_cat_drop) +
in_le32(&l2sys_reg->stat.drop_cntrs.c_dr_local);
printf(VSC9953_STATS_PRINTF"\n", "Rx filtered:", rx_val);
printf("\n");
}
/* Clear statistics for a VSC9953 port */
static void vsc9953_port_statistics_clear(int port_no)
{
struct vsc9953_system_reg *l2sys_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return;
}
l2sys_reg = (struct vsc9953_system_reg *)(VSC9953_OFFSET +
VSC9953_SYS_OFFSET);
/* Clear all counter groups for our ports */
out_le32(&l2sys_reg->sys.stat_cfg, port_no |
VSC9953_STAT_CLEAR_RX | VSC9953_STAT_CLEAR_TX |
VSC9953_STAT_CLEAR_DR);
}
enum port_learn_mode {
PORT_LEARN_NONE,
PORT_LEARN_AUTO
};
/* Set learning configuration for a VSC9953 port */
static void vsc9953_port_learn_mode_set(int port_no, enum port_learn_mode mode)
{
struct vsc9953_analyzer *l2ana_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return;
}
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
switch (mode) {
case PORT_LEARN_NONE:
clrbits_le32(&l2ana_reg->port[port_no].port_cfg,
VSC9953_PORT_CFG_LEARN_DROP |
VSC9953_PORT_CFG_LEARN_CPU |
VSC9953_PORT_CFG_LEARN_AUTO |
VSC9953_PORT_CFG_LEARN_ENA);
break;
case PORT_LEARN_AUTO:
clrsetbits_le32(&l2ana_reg->port[port_no].port_cfg,
VSC9953_PORT_CFG_LEARN_DROP |
VSC9953_PORT_CFG_LEARN_CPU,
VSC9953_PORT_CFG_LEARN_ENA |
VSC9953_PORT_CFG_LEARN_AUTO);
break;
default:
printf("Unknown learn mode for port %d\n", port_no);
}
}
/* Get learning configuration for a VSC9953 port */
static int vsc9953_port_learn_mode_get(int port_no, enum port_learn_mode *mode)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
/* Administrative down */
if (!vsc9953_l2sw.port[port_no].enabled) {
printf("Port %d is administrative down\n", port_no);
return -1;
}
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
/* For now we only support HW learning (auto) and no learning */
val = in_le32(&l2ana_reg->port[port_no].port_cfg);
if ((val & (VSC9953_PORT_CFG_LEARN_ENA |
VSC9953_PORT_CFG_LEARN_AUTO)) ==
(VSC9953_PORT_CFG_LEARN_ENA | VSC9953_PORT_CFG_LEARN_AUTO))
*mode = PORT_LEARN_AUTO;
else
*mode = PORT_LEARN_NONE;
return 0;
}
/* wait for FDB to become available */
static int vsc9953_mac_table_poll_idle(void)
{
struct vsc9953_analyzer *l2ana_reg;
u32 timeout;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
timeout = 50000;
while (((in_le32(&l2ana_reg->ana_tables.mac_access) &
VSC9953_MAC_CMD_MASK) !=
VSC9953_MAC_CMD_IDLE) && --timeout)
udelay(1);
return timeout ? 0 : -EBUSY;
}
/* enum describing available commands for the MAC table */
enum mac_table_cmd {
MAC_TABLE_READ,
MAC_TABLE_LOOKUP,
MAC_TABLE_WRITE,
MAC_TABLE_LEARN,
MAC_TABLE_FORGET,
MAC_TABLE_GET_NEXT,
MAC_TABLE_AGE,
};
/* Issues a command to the FDB table */
static int vsc9953_mac_table_cmd(enum mac_table_cmd cmd)
{
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
switch (cmd) {
case MAC_TABLE_READ:
clrsetbits_le32(&l2ana_reg->ana_tables.mac_access,
VSC9953_MAC_CMD_MASK | VSC9953_MAC_CMD_VALID,
VSC9953_MAC_CMD_READ);
break;
case MAC_TABLE_LOOKUP:
clrsetbits_le32(&l2ana_reg->ana_tables.mac_access,
VSC9953_MAC_CMD_MASK, VSC9953_MAC_CMD_READ |
VSC9953_MAC_CMD_VALID);
break;
case MAC_TABLE_WRITE:
clrsetbits_le32(&l2ana_reg->ana_tables.mac_access,
VSC9953_MAC_CMD_MASK |
VSC9953_MAC_ENTRYTYPE_MASK,
VSC9953_MAC_CMD_WRITE |
VSC9953_MAC_ENTRYTYPE_LOCKED);
break;
case MAC_TABLE_LEARN:
clrsetbits_le32(&l2ana_reg->ana_tables.mac_access,
VSC9953_MAC_CMD_MASK |
VSC9953_MAC_ENTRYTYPE_MASK,
VSC9953_MAC_CMD_LEARN |
VSC9953_MAC_ENTRYTYPE_LOCKED |
VSC9953_MAC_CMD_VALID);
break;
case MAC_TABLE_FORGET:
clrsetbits_le32(&l2ana_reg->ana_tables.mac_access,
VSC9953_MAC_CMD_MASK |
VSC9953_MAC_ENTRYTYPE_MASK,
VSC9953_MAC_CMD_FORGET);
break;
case MAC_TABLE_GET_NEXT:
clrsetbits_le32(&l2ana_reg->ana_tables.mac_access,
VSC9953_MAC_CMD_MASK |
VSC9953_MAC_ENTRYTYPE_MASK,
VSC9953_MAC_CMD_NEXT);
break;
case MAC_TABLE_AGE:
clrsetbits_le32(&l2ana_reg->ana_tables.mac_access,
VSC9953_MAC_CMD_MASK |
VSC9953_MAC_ENTRYTYPE_MASK,
VSC9953_MAC_CMD_AGE);
break;
default:
printf("Unknown MAC table command\n");
}
if (vsc9953_mac_table_poll_idle() < 0) {
debug("MAC table timeout\n");
return -1;
}
return 0;
}
/* show the FDB entries that correspond to a port and a VLAN */
static void vsc9953_mac_table_show(int port_no, int vid)
{
int rc[VSC9953_MAX_PORTS];
enum port_learn_mode mode[VSC9953_MAX_PORTS];
int i;
u32 val;
u32 vlan;
u32 mach;
u32 macl;
u32 dest_indx;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
/* disable auto learning */
if (port_no == ETHSW_CMD_PORT_ALL) {
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
rc[i] = vsc9953_port_learn_mode_get(i, &mode[i]);
if (!rc[i] && mode[i] != PORT_LEARN_NONE)
vsc9953_port_learn_mode_set(i, PORT_LEARN_NONE);
}
} else {
rc[port_no] = vsc9953_port_learn_mode_get(port_no,
&mode[port_no]);
if (!rc[port_no] && mode[port_no] != PORT_LEARN_NONE)
vsc9953_port_learn_mode_set(port_no, PORT_LEARN_NONE);
}
/* write port and vid to get selected FDB entries */
val = in_le32(&l2ana_reg->ana.anag_efil);
if (port_no != ETHSW_CMD_PORT_ALL) {
val = bitfield_replace_by_mask(val, VSC9953_AGE_PORT_MASK,
port_no) | VSC9953_AGE_PORT_EN;
}
if (vid != ETHSW_CMD_VLAN_ALL) {
val = bitfield_replace_by_mask(val, VSC9953_AGE_VID_MASK,
vid) | VSC9953_AGE_VID_EN;
}
out_le32(&l2ana_reg->ana.anag_efil, val);
/* set MAC and VLAN to 0 to look from beginning */
clrbits_le32(&l2ana_reg->ana_tables.mach_data,
VSC9953_MAC_VID_MASK | VSC9953_MAC_MACH_MASK);
out_le32(&l2ana_reg->ana_tables.macl_data, 0);
/* get entries */
printf("%10s %17s %5s %4s\n", "EntryType", "MAC", "PORT", "VID");
do {
if (vsc9953_mac_table_cmd(MAC_TABLE_GET_NEXT) < 0) {
debug("GET NEXT MAC table command failed\n");
break;
}
val = in_le32(&l2ana_reg->ana_tables.mac_access);
/* get out when an invalid entry is found */
if (!(val & VSC9953_MAC_CMD_VALID))
break;
switch (val & VSC9953_MAC_ENTRYTYPE_MASK) {
case VSC9953_MAC_ENTRYTYPE_NORMAL:
printf("%10s ", "Dynamic");
break;
case VSC9953_MAC_ENTRYTYPE_LOCKED:
printf("%10s ", "Static");
break;
case VSC9953_MAC_ENTRYTYPE_IPV4MCAST:
printf("%10s ", "IPv4 Mcast");
break;
case VSC9953_MAC_ENTRYTYPE_IPV6MCAST:
printf("%10s ", "IPv6 Mcast");
break;
default:
printf("%10s ", "Unknown");
}
dest_indx = bitfield_extract_by_mask(val,
VSC9953_MAC_DESTIDX_MASK);
val = in_le32(&l2ana_reg->ana_tables.mach_data);
vlan = bitfield_extract_by_mask(val, VSC9953_MAC_VID_MASK);
mach = bitfield_extract_by_mask(val, VSC9953_MAC_MACH_MASK);
macl = in_le32(&l2ana_reg->ana_tables.macl_data);
printf("%02x:%02x:%02x:%02x:%02x:%02x ", (mach >> 8) & 0xff,
mach & 0xff, (macl >> 24) & 0xff, (macl >> 16) & 0xff,
(macl >> 8) & 0xff, macl & 0xff);
printf("%5d ", dest_indx);
printf("%4d\n", vlan);
} while (1);
/* set learning mode to previous value */
if (port_no == ETHSW_CMD_PORT_ALL) {
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (!rc[i] && mode[i] != PORT_LEARN_NONE)
vsc9953_port_learn_mode_set(i, mode[i]);
}
} else {
/* If administrative down, skip */
if (!rc[port_no] && mode[port_no] != PORT_LEARN_NONE)
vsc9953_port_learn_mode_set(port_no, mode[port_no]);
}
/* reset FDB port and VLAN FDB selection */
clrbits_le32(&l2ana_reg->ana.anag_efil, VSC9953_AGE_PORT_EN |
VSC9953_AGE_PORT_MASK | VSC9953_AGE_VID_EN |
VSC9953_AGE_VID_MASK);
}
/* Add a static FDB entry */
static int vsc9953_mac_table_add(u8 port_no, uchar mac[6], int vid)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
val = in_le32(&l2ana_reg->ana_tables.mach_data);
val = bitfield_replace_by_mask(val, VSC9953_MACHDATA_VID_MASK, vid) |
(mac[0] << 8) | (mac[1] << 0);
out_le32(&l2ana_reg->ana_tables.mach_data, val);
out_le32(&l2ana_reg->ana_tables.macl_data,
(mac[2] << 24) | (mac[3] << 16) | (mac[4] << 8) |
(mac[5] << 0));
/* set on which port is the MAC address added */
val = in_le32(&l2ana_reg->ana_tables.mac_access);
val = bitfield_replace_by_mask(val, VSC9953_MAC_DESTIDX_MASK, port_no);
out_le32(&l2ana_reg->ana_tables.mac_access, val);
if (vsc9953_mac_table_cmd(MAC_TABLE_LEARN) < 0)
return -1;
/* check if the MAC address was indeed added */
val = in_le32(&l2ana_reg->ana_tables.mach_data);
val = bitfield_replace_by_mask(val, VSC9953_MACHDATA_VID_MASK, vid) |
(mac[0] << 8) | (mac[1] << 0);
out_le32(&l2ana_reg->ana_tables.mach_data, val);
out_le32(&l2ana_reg->ana_tables.macl_data,
(mac[2] << 24) | (mac[3] << 16) | (mac[4] << 8) |
(mac[5] << 0));
if (vsc9953_mac_table_cmd(MAC_TABLE_READ) < 0)
return -1;
val = in_le32(&l2ana_reg->ana_tables.mac_access);
if ((port_no != bitfield_extract_by_mask(val,
VSC9953_MAC_DESTIDX_MASK))) {
printf("Failed to add MAC address\n");
return -1;
}
return 0;
}
/* Delete a FDB entry */
static int vsc9953_mac_table_del(uchar mac[6], u16 vid)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
/* check first if MAC entry is present */
val = in_le32(&l2ana_reg->ana_tables.mach_data);
val = bitfield_replace_by_mask(val, VSC9953_MACHDATA_VID_MASK, vid) |
(mac[0] << 8) | (mac[1] << 0);
out_le32(&l2ana_reg->ana_tables.mach_data, val);
out_le32(&l2ana_reg->ana_tables.macl_data,
(mac[2] << 24) | (mac[3] << 16) | (mac[4] << 8) |
(mac[5] << 0));
if (vsc9953_mac_table_cmd(MAC_TABLE_LOOKUP) < 0) {
debug("Lookup in the MAC table failed\n");
return -1;
}
if (!(in_le32(&l2ana_reg->ana_tables.mac_access) &
VSC9953_MAC_CMD_VALID)) {
printf("The MAC address: %02x:%02x:%02x:%02x:%02x:%02x ",
mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
printf("VLAN: %d does not exist.\n", vid);
return -1;
}
/* FDB entry found, proceed to delete */
val = in_le32(&l2ana_reg->ana_tables.mach_data);
val = bitfield_replace_by_mask(val, VSC9953_MACHDATA_VID_MASK, vid) |
(mac[0] << 8) | (mac[1] << 0);
out_le32(&l2ana_reg->ana_tables.mach_data, val);
out_le32(&l2ana_reg->ana_tables.macl_data, (mac[2] << 24) |
(mac[3] << 16) | (mac[4] << 8) | (mac[5] << 0));
if (vsc9953_mac_table_cmd(MAC_TABLE_FORGET) < 0)
return -1;
/* check if the MAC entry is still in FDB */
val = in_le32(&l2ana_reg->ana_tables.mach_data);
val = bitfield_replace_by_mask(val, VSC9953_MACHDATA_VID_MASK, vid) |
(mac[0] << 8) | (mac[1] << 0);
out_le32(&l2ana_reg->ana_tables.mach_data, val);
out_le32(&l2ana_reg->ana_tables.macl_data, (mac[2] << 24) |
(mac[3] << 16) | (mac[4] << 8) | (mac[5] << 0));
if (vsc9953_mac_table_cmd(MAC_TABLE_LOOKUP) < 0) {
debug("Lookup in the MAC table failed\n");
return -1;
}
if (in_le32(&l2ana_reg->ana_tables.mac_access) &
VSC9953_MAC_CMD_VALID) {
printf("Failed to delete MAC address\n");
return -1;
}
return 0;
}
/* age the unlocked entries in FDB */
static void vsc9953_mac_table_age(int port_no, int vid)
{
int rc[VSC9953_MAX_PORTS];
enum port_learn_mode mode[VSC9953_MAX_PORTS];
u32 val;
int i;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
/* set port and VID for selective aging */
val = in_le32(&l2ana_reg->ana.anag_efil);
if (port_no != ETHSW_CMD_PORT_ALL) {
/* disable auto learning */
rc[port_no] = vsc9953_port_learn_mode_get(port_no,
&mode[port_no]);
if (!rc[port_no] && mode[port_no] != PORT_LEARN_NONE)
vsc9953_port_learn_mode_set(port_no, PORT_LEARN_NONE);
val = bitfield_replace_by_mask(val, VSC9953_AGE_PORT_MASK,
port_no) | VSC9953_AGE_PORT_EN;
} else {
/* disable auto learning on all ports */
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
rc[i] = vsc9953_port_learn_mode_get(i, &mode[i]);
if (!rc[i] && mode[i] != PORT_LEARN_NONE)
vsc9953_port_learn_mode_set(i, PORT_LEARN_NONE);
}
}
if (vid != ETHSW_CMD_VLAN_ALL) {
val = bitfield_replace_by_mask(val, VSC9953_AGE_VID_MASK, vid) |
VSC9953_AGE_VID_EN;
}
out_le32(&l2ana_reg->ana.anag_efil, val);
/* age the dynamic FDB entries */
vsc9953_mac_table_cmd(MAC_TABLE_AGE);
/* clear previously set port and VID */
clrbits_le32(&l2ana_reg->ana.anag_efil, VSC9953_AGE_PORT_EN |
VSC9953_AGE_PORT_MASK | VSC9953_AGE_VID_EN |
VSC9953_AGE_VID_MASK);
if (port_no != ETHSW_CMD_PORT_ALL) {
if (!rc[port_no] && mode[port_no] != PORT_LEARN_NONE)
vsc9953_port_learn_mode_set(port_no, mode[port_no]);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (!rc[i] && mode[i] != PORT_LEARN_NONE)
vsc9953_port_learn_mode_set(i, mode[i]);
}
}
}
/* Delete all the dynamic FDB entries */
static void vsc9953_mac_table_flush(int port, int vid)
{
vsc9953_mac_table_age(port, vid);
vsc9953_mac_table_age(port, vid);
}
enum egress_vlan_tag {
EGR_TAG_CLASS = 0,
EGR_TAG_PVID,
};
/* Set egress tag mode for a VSC9953 port */
static void vsc9953_port_vlan_egress_tag_set(int port_no,
enum egress_vlan_tag mode)
{
struct vsc9953_rew_reg *l2rew_reg;
l2rew_reg = (struct vsc9953_rew_reg *)(VSC9953_OFFSET +
VSC9953_REW_OFFSET);
switch (mode) {
case EGR_TAG_CLASS:
clrbits_le32(&l2rew_reg->port[port_no].port_tag_cfg,
VSC9953_TAG_VID_PVID);
break;
case EGR_TAG_PVID:
setbits_le32(&l2rew_reg->port[port_no].port_tag_cfg,
VSC9953_TAG_VID_PVID);
break;
default:
printf("Unknown egress VLAN tag mode for port %d\n", port_no);
}
}
/* Get egress tag mode for a VSC9953 port */
static void vsc9953_port_vlan_egress_tag_get(int port_no,
enum egress_vlan_tag *mode)
{
u32 val;
struct vsc9953_rew_reg *l2rew_reg;
l2rew_reg = (struct vsc9953_rew_reg *)(VSC9953_OFFSET +
VSC9953_REW_OFFSET);
val = in_le32(&l2rew_reg->port[port_no].port_tag_cfg);
if (val & VSC9953_TAG_VID_PVID)
*mode = EGR_TAG_PVID;
else
*mode = EGR_TAG_CLASS;
}
/* VSC9953 VLAN learning modes */
enum vlan_learning_mode {
SHARED_VLAN_LEARNING,
PRIVATE_VLAN_LEARNING,
};
/* Set VLAN learning mode for VSC9953 */
static void vsc9953_vlan_learning_set(enum vlan_learning_mode lrn_mode)
{
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
switch (lrn_mode) {
case SHARED_VLAN_LEARNING:
setbits_le32(&l2ana_reg->ana.agen_ctrl, VSC9953_FID_MASK_ALL);
break;
case PRIVATE_VLAN_LEARNING:
clrbits_le32(&l2ana_reg->ana.agen_ctrl, VSC9953_FID_MASK_ALL);
break;
default:
printf("Unknown VLAN learn mode\n");
}
}
/* Get VLAN learning mode for VSC9953 */
static int vsc9953_vlan_learning_get(enum vlan_learning_mode *lrn_mode)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
val = in_le32(&l2ana_reg->ana.agen_ctrl);
if (!(val & VSC9953_FID_MASK_ALL)) {
*lrn_mode = PRIVATE_VLAN_LEARNING;
} else if ((val & VSC9953_FID_MASK_ALL) == VSC9953_FID_MASK_ALL) {
*lrn_mode = SHARED_VLAN_LEARNING;
} else {
printf("Unknown VLAN learning mode\n");
return -EINVAL;
}
return 0;
}
/* Enable/disable VLAN ingress filtering on a VSC9953 port */
static void vsc9953_port_ingress_filtering_set(int port_no, int enabled)
{
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
if (enabled)
setbits_le32(&l2ana_reg->ana.vlan_mask, 1 << port_no);
else
clrbits_le32(&l2ana_reg->ana.vlan_mask, 1 << port_no);
}
/* Return VLAN ingress filtering on a VSC9953 port */
static int vsc9953_port_ingress_filtering_get(int port_no)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
val = in_le32(&l2ana_reg->ana.vlan_mask);
return !!(val & (1 << port_no));
}
/* Get the aggregation group of a port */
static int vsc9953_port_aggr_grp_get(int port_no, int *aggr_grp)
{
u32 val;
struct vsc9953_analyzer *l2ana_reg;
if (!VSC9953_PORT_CHECK(port_no))
return -EINVAL;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
val = in_le32(&l2ana_reg->port[port_no].port_cfg);
*aggr_grp = bitfield_extract_by_mask(val,
VSC9953_PORT_CFG_PORTID_MASK);
return 0;
}
static void vsc9953_aggr_grp_members_get(int aggr_grp,
u8 aggr_membr[VSC9953_MAX_PORTS])
{
int port_no;
int aggr_membr_grp;
for (port_no = 0; port_no < VSC9953_MAX_PORTS; port_no++) {
aggr_membr[port_no] = 0;
if (vsc9953_port_aggr_grp_get(port_no, &aggr_membr_grp))
continue;
if (aggr_grp == aggr_membr_grp)
aggr_membr[port_no] = 1;
}
}
static void vsc9953_update_dest_members_masks(int port_no, u32 membr_bitfld_old,
u32 membr_bitfld_new)
{
int i;
u32 pgid;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
/*
* NOTE: Only the unicast destination masks are updated, since
* we do not support for now Layer-2 multicast entries
*/
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (i == port_no) {
clrsetbits_le32(&l2ana_reg->port_id_tbl.port_grp_id[i],
VSC9953_PGID_PORT_MASK,
membr_bitfld_new);
continue;
}
pgid = in_le32(&l2ana_reg->port_id_tbl.port_grp_id[i]);
if ((u32)(1 << i) & membr_bitfld_old & VSC9953_PGID_PORT_MASK)
pgid &= ~((u32)(1 << port_no));
if ((u32)(1 << i) & membr_bitfld_new & VSC9953_PGID_PORT_MASK)
pgid |= ((u32)(1 << port_no));
out_le32(&l2ana_reg->port_id_tbl.port_grp_id[i], pgid);
}
}
static void vsc9953_update_source_members_masks(int port_no,
u32 membr_bitfld_old,
u32 membr_bitfld_new)
{
int i;
int index;
u32 pgid;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
for (i = 0; i < VSC9953_MAX_PORTS + 1; i++) {
index = PGID_SRC_START + i;
pgid = in_le32(&l2ana_reg->port_id_tbl.port_grp_id[index]);
if (i == port_no) {
pgid = (pgid | VSC9953_PGID_PORT_MASK) &
~membr_bitfld_new;
out_le32(&l2ana_reg->port_id_tbl.port_grp_id[index],
pgid);
continue;
}
if ((u32)(1 << i) & membr_bitfld_old & VSC9953_PGID_PORT_MASK)
pgid |= (u32)(1 << port_no);
if ((u32)(1 << i) & membr_bitfld_new & VSC9953_PGID_PORT_MASK)
pgid &= ~(u32)(1 << port_no);
out_le32(&l2ana_reg->port_id_tbl.port_grp_id[index], pgid);
}
}
static u32 vsc9953_aggr_mask_get_next(u32 aggr_mask, u32 member_bitfield)
{
if (!member_bitfield)
return 0;
if (!(aggr_mask & VSC9953_PGID_PORT_MASK))
aggr_mask = 1;
else
aggr_mask <<= 1;
while (!(aggr_mask & member_bitfield)) {
aggr_mask <<= 1;
if (!(aggr_mask & VSC9953_PGID_PORT_MASK))
aggr_mask = 1;
}
return aggr_mask;
}
static void vsc9953_update_aggr_members_masks(int port_no, u32 membr_bitfld_old,
u32 membr_bitfld_new)
{
int i;
u32 pgid;
u32 aggr_mask_old = 0;
u32 aggr_mask_new = 0;
struct vsc9953_analyzer *l2ana_reg;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
/* Update all the PGID aggregation masks */
for (i = PGID_AGGR_START; i < PGID_SRC_START; i++) {
pgid = in_le32(&l2ana_reg->port_id_tbl.port_grp_id[i]);
aggr_mask_old = vsc9953_aggr_mask_get_next(aggr_mask_old,
membr_bitfld_old);
pgid = (pgid & ~membr_bitfld_old) | aggr_mask_old;
aggr_mask_new = vsc9953_aggr_mask_get_next(aggr_mask_new,
membr_bitfld_new);
pgid = (pgid & ~membr_bitfld_new) | aggr_mask_new;
out_le32(&l2ana_reg->port_id_tbl.port_grp_id[i], pgid);
}
}
static u32 vsc9953_aggr_membr_bitfield_get(u8 member[VSC9953_MAX_PORTS])
{
int i;
u32 member_bitfield = 0;
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (member[i])
member_bitfield |= 1 << i;
}
member_bitfield &= VSC9953_PGID_PORT_MASK;
return member_bitfield;
}
static void vsc9953_update_members_masks(int port_no,
u8 member_old[VSC9953_MAX_PORTS],
u8 member_new[VSC9953_MAX_PORTS])
{
u32 membr_bitfld_old = vsc9953_aggr_membr_bitfield_get(member_old);
u32 membr_bitfld_new = vsc9953_aggr_membr_bitfield_get(member_new);
vsc9953_update_dest_members_masks(port_no, membr_bitfld_old,
membr_bitfld_new);
vsc9953_update_source_members_masks(port_no, membr_bitfld_old,
membr_bitfld_new);
vsc9953_update_aggr_members_masks(port_no, membr_bitfld_old,
membr_bitfld_new);
}
/* Set the aggregation group of a port */
static int vsc9953_port_aggr_grp_set(int port_no, int aggr_grp)
{
u8 aggr_membr_old[VSC9953_MAX_PORTS];
u8 aggr_membr_new[VSC9953_MAX_PORTS];
int rc;
int aggr_grp_old;
u32 val;
struct vsc9953_analyzer *l2ana_reg;
if (!VSC9953_PORT_CHECK(port_no) || !VSC9953_PORT_CHECK(aggr_grp))
return -EINVAL;
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
rc = vsc9953_port_aggr_grp_get(port_no, &aggr_grp_old);
if (rc)
return rc;
/* get all the members of the old aggregation group */
vsc9953_aggr_grp_members_get(aggr_grp_old, aggr_membr_old);
/* get all the members of the same aggregation group */
vsc9953_aggr_grp_members_get(aggr_grp, aggr_membr_new);
/* add current port as member to the new aggregation group */
aggr_membr_old[port_no] = 0;
aggr_membr_new[port_no] = 1;
/* update masks */
vsc9953_update_members_masks(port_no, aggr_membr_old, aggr_membr_new);
/* Change logical port number */
val = in_le32(&l2ana_reg->port[port_no].port_cfg);
val = bitfield_replace_by_mask(val,
VSC9953_PORT_CFG_PORTID_MASK, aggr_grp);
out_le32(&l2ana_reg->port[port_no].port_cfg, val);
return 0;
}
static int vsc9953_port_status_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
u8 enabled;
/* Last keyword should tell us if we should enable/disable the port */
if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_enable)
enabled = 1;
else if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_disable)
enabled = 0;
else
return CMD_RET_USAGE;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_status_set(parsed_cmd->port, enabled);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_status_set(i, enabled);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_port_config_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_phy_autoneg(parsed_cmd->port);
printf("%8s %8s %8s %8s %8s\n",
"Port", "Status", "Link", "Speed",
"Duplex");
vsc9953_port_config_show(parsed_cmd->port);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_phy_autoneg(i);
printf("%8s %8s %8s %8s %8s\n",
"Port", "Status", "Link", "Speed", "Duplex");
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_config_show(i);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_port_stats_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_statistics_show(parsed_cmd->port);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_statistics_show(i);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_port_stats_clear_key_func(struct ethsw_command_def
*parsed_cmd)
{
int i;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_statistics_clear(parsed_cmd->port);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_statistics_clear(i);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_learn_show_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
enum port_learn_mode mode;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
if (vsc9953_port_learn_mode_get(parsed_cmd->port, &mode))
return CMD_RET_FAILURE;
printf("%7s %11s\n", "Port", "Learn mode");
switch (mode) {
case PORT_LEARN_NONE:
printf("%7d %11s\n", parsed_cmd->port, "disable");
break;
case PORT_LEARN_AUTO:
printf("%7d %11s\n", parsed_cmd->port, "auto");
break;
default:
printf("%7d %11s\n", parsed_cmd->port, "-");
}
} else {
printf("%7s %11s\n", "Port", "Learn mode");
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (vsc9953_port_learn_mode_get(i, &mode))
continue;
switch (mode) {
case PORT_LEARN_NONE:
printf("%7d %11s\n", i, "disable");
break;
case PORT_LEARN_AUTO:
printf("%7d %11s\n", i, "auto");
break;
default:
printf("%7d %11s\n", i, "-");
}
}
}
return CMD_RET_SUCCESS;
}
static int vsc9953_learn_set_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
enum port_learn_mode mode;
/* Last keyword should tell us the learn mode */
if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_auto)
mode = PORT_LEARN_AUTO;
else if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_disable)
mode = PORT_LEARN_NONE;
else
return CMD_RET_USAGE;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_learn_mode_set(parsed_cmd->port, mode);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_learn_mode_set(i, mode);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_fdb_show_key_func(struct ethsw_command_def *parsed_cmd)
{
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL &&
!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
if (parsed_cmd->vid != ETHSW_CMD_VLAN_ALL &&
!VSC9953_VLAN_CHECK(parsed_cmd->vid)) {
printf("Invalid VID number: %d\n", parsed_cmd->vid);
return CMD_RET_FAILURE;
}
vsc9953_mac_table_show(parsed_cmd->port, parsed_cmd->vid);
return CMD_RET_SUCCESS;
}
static int vsc9953_fdb_flush_key_func(struct ethsw_command_def *parsed_cmd)
{
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL &&
!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
if (parsed_cmd->vid != ETHSW_CMD_VLAN_ALL &&
!VSC9953_VLAN_CHECK(parsed_cmd->vid)) {
printf("Invalid VID number: %d\n", parsed_cmd->vid);
return CMD_RET_FAILURE;
}
vsc9953_mac_table_flush(parsed_cmd->port, parsed_cmd->vid);
return CMD_RET_SUCCESS;
}
static int vsc9953_fdb_entry_add_key_func(struct ethsw_command_def *parsed_cmd)
{
int vid;
/* a port number must be present */
if (parsed_cmd->port == ETHSW_CMD_PORT_ALL) {
printf("Please specify a port\n");
return CMD_RET_FAILURE;
}
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
/* Use VLAN 1 if VID is not set */
vid = (parsed_cmd->vid == ETHSW_CMD_VLAN_ALL ? 1 : parsed_cmd->vid);
if (!VSC9953_VLAN_CHECK(vid)) {
printf("Invalid VID number: %d\n", vid);
return CMD_RET_FAILURE;
}
if (vsc9953_mac_table_add(parsed_cmd->port, parsed_cmd->ethaddr, vid))
return CMD_RET_FAILURE;
return CMD_RET_SUCCESS;
}
static int vsc9953_fdb_entry_del_key_func(struct ethsw_command_def *parsed_cmd)
{
int vid;
/* Use VLAN 1 if VID is not set */
vid = (parsed_cmd->vid == ETHSW_CMD_VLAN_ALL ? 1 : parsed_cmd->vid);
if (!VSC9953_VLAN_CHECK(vid)) {
printf("Invalid VID number: %d\n", vid);
return CMD_RET_FAILURE;
}
if (vsc9953_mac_table_del(parsed_cmd->ethaddr, vid))
return CMD_RET_FAILURE;
return CMD_RET_SUCCESS;
}
static int vsc9953_pvid_show_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
int pvid;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
if (vsc9953_port_vlan_pvid_get(parsed_cmd->port, &pvid))
return CMD_RET_FAILURE;
printf("%7s %7s\n", "Port", "PVID");
printf("%7d %7d\n", parsed_cmd->port, pvid);
} else {
printf("%7s %7s\n", "Port", "PVID");
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (vsc9953_port_vlan_pvid_get(i, &pvid))
continue;
printf("%7d %7d\n", i, pvid);
}
}
return CMD_RET_SUCCESS;
}
static int vsc9953_pvid_set_key_func(struct ethsw_command_def *parsed_cmd)
{
/* PVID number should be set in parsed_cmd->vid */
if (parsed_cmd->vid == ETHSW_CMD_VLAN_ALL) {
printf("Please set a pvid value\n");
return CMD_RET_FAILURE;
}
if (!VSC9953_VLAN_CHECK(parsed_cmd->vid)) {
printf("Invalid VID number: %d\n", parsed_cmd->vid);
return CMD_RET_FAILURE;
}
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_vlan_pvid_set(parsed_cmd->port, parsed_cmd->vid);
} else {
vsc9953_port_all_vlan_pvid_set(parsed_cmd->vid);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_vlan_show_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_vlan_membership_show(parsed_cmd->port);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_vlan_membership_show(i);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_vlan_set_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
int add;
/* VLAN should be set in parsed_cmd->vid */
if (parsed_cmd->vid == ETHSW_CMD_VLAN_ALL) {
printf("Please set a vlan value\n");
return CMD_RET_FAILURE;
}
if (!VSC9953_VLAN_CHECK(parsed_cmd->vid)) {
printf("Invalid VID number: %d\n", parsed_cmd->vid);
return CMD_RET_FAILURE;
}
/* keywords add/delete should be the last but one in array */
if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 2] ==
ethsw_id_add)
add = 1;
else if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 2] ==
ethsw_id_del)
add = 0;
else
return CMD_RET_USAGE;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_vlan_table_membership_set(parsed_cmd->vid,
parsed_cmd->port, add);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_vlan_table_membership_set(parsed_cmd->vid, i,
add);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_port_untag_show_key_func(
struct ethsw_command_def *parsed_cmd)
{
int i;
printf("%7s\t%17s\n", "Port", "Untag");
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_vlan_egr_untag_show(parsed_cmd->port);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_vlan_egr_untag_show(i);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_port_untag_set_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
enum egress_untag_mode mode;
/* keywords for the untagged mode are the last in the array */
if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_all)
mode = EGRESS_UNTAG_ALL;
else if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_none)
mode = EGRESS_UNTAG_NONE;
else if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_pvid)
mode = EGRESS_UNTAG_PVID_AND_ZERO;
else
return CMD_RET_USAGE;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_vlan_egr_untag_set(parsed_cmd->port, mode);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_vlan_egr_untag_set(i, mode);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_egr_vlan_tag_show_key_func(
struct ethsw_command_def *parsed_cmd)
{
int i;
enum egress_vlan_tag mode;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_vlan_egress_tag_get(parsed_cmd->port, &mode);
printf("%7s\t%12s\n", "Port", "Egress VID");
printf("%7d\t", parsed_cmd->port);
switch (mode) {
case EGR_TAG_CLASS:
printf("%12s\n", "classified");
break;
case EGR_TAG_PVID:
printf("%12s\n", "pvid");
break;
default:
printf("%12s\n", "-");
}
} else {
printf("%7s\t%12s\n", "Port", "Egress VID");
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
vsc9953_port_vlan_egress_tag_get(i, &mode);
switch (mode) {
case EGR_TAG_CLASS:
printf("%7d\t%12s\n", i, "classified");
break;
case EGR_TAG_PVID:
printf("%7d\t%12s\n", i, "pvid");
break;
default:
printf("%7d\t%12s\n", i, "-");
}
}
}
return CMD_RET_SUCCESS;
}
static int vsc9953_egr_vlan_tag_set_key_func(
struct ethsw_command_def *parsed_cmd)
{
int i;
enum egress_vlan_tag mode;
/* keywords for the egress vlan tag mode are the last in the array */
if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_pvid)
mode = EGR_TAG_PVID;
else if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_classified)
mode = EGR_TAG_CLASS;
else
return CMD_RET_USAGE;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_vlan_egress_tag_set(parsed_cmd->port, mode);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_vlan_egress_tag_set(i, mode);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_vlan_learn_show_key_func(
struct ethsw_command_def *parsed_cmd)
{
int rc;
enum vlan_learning_mode mode;
rc = vsc9953_vlan_learning_get(&mode);
if (rc)
return CMD_RET_FAILURE;
switch (mode) {
case SHARED_VLAN_LEARNING:
printf("VLAN learning mode: shared\n");
break;
case PRIVATE_VLAN_LEARNING:
printf("VLAN learning mode: private\n");
break;
default:
printf("Unknown VLAN learning mode\n");
rc = CMD_RET_FAILURE;
}
return CMD_RET_SUCCESS;
}
static int vsc9953_vlan_learn_set_key_func(struct ethsw_command_def *parsed_cmd)
{
enum vlan_learning_mode mode;
/* keywords for shared/private are the last in the array */
if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_shared)
mode = SHARED_VLAN_LEARNING;
else if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_private)
mode = PRIVATE_VLAN_LEARNING;
else
return CMD_RET_USAGE;
vsc9953_vlan_learning_set(mode);
return CMD_RET_SUCCESS;
}
static int vsc9953_ingr_fltr_show_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
int enabled;
printf("%7s\t%18s\n", "Port", "Ingress filtering");
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
enabled = vsc9953_port_ingress_filtering_get(parsed_cmd->port);
printf("%7d\t%18s\n", parsed_cmd->port, enabled ? "enable" :
"disable");
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
enabled = vsc9953_port_ingress_filtering_get(i);
printf("%7d\t%18s\n", parsed_cmd->port, enabled ?
"enable" :
"disable");
}
}
return CMD_RET_SUCCESS;
}
static int vsc9953_ingr_fltr_set_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
int enable;
/* keywords for enabling/disabling ingress filtering
* are the last in the array
*/
if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_enable)
enable = 1;
else if (parsed_cmd->cmd_to_keywords[parsed_cmd->cmd_keywords_nr - 1] ==
ethsw_id_disable)
enable = 0;
else
return CMD_RET_USAGE;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
vsc9953_port_ingress_filtering_set(parsed_cmd->port, enable);
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++)
vsc9953_port_ingress_filtering_set(i, enable);
}
return CMD_RET_SUCCESS;
}
static int vsc9953_port_aggr_show_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
int aggr_grp;
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
if (vsc9953_port_aggr_grp_get(parsed_cmd->port, &aggr_grp))
return CMD_RET_FAILURE;
printf("%7s %10s\n", "Port", "Aggr grp");
printf("%7d %10d\n", parsed_cmd->port, aggr_grp);
} else {
printf("%7s %10s\n", "Port", "Aggr grp");
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (vsc9953_port_aggr_grp_get(i, &aggr_grp))
continue;
printf("%7d %10d\n", i, aggr_grp);
}
}
return CMD_RET_SUCCESS;
}
static int vsc9953_port_aggr_set_key_func(struct ethsw_command_def *parsed_cmd)
{
int i;
/* Aggregation group number should be set in parsed_cmd->aggr_grp */
if (parsed_cmd->aggr_grp == ETHSW_CMD_AGGR_GRP_NONE) {
printf("Please set an aggregation group value\n");
return CMD_RET_FAILURE;
}
if (!VSC9953_PORT_CHECK(parsed_cmd->aggr_grp)) {
printf("Invalid aggregation group number: %d\n",
parsed_cmd->aggr_grp);
return CMD_RET_FAILURE;
}
if (parsed_cmd->port != ETHSW_CMD_PORT_ALL) {
if (!VSC9953_PORT_CHECK(parsed_cmd->port)) {
printf("Invalid port number: %d\n", parsed_cmd->port);
return CMD_RET_FAILURE;
}
if (vsc9953_port_aggr_grp_set(parsed_cmd->port,
parsed_cmd->aggr_grp)) {
printf("Port %d: failed to set aggr group %d\n",
parsed_cmd->port, parsed_cmd->aggr_grp);
}
} else {
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (vsc9953_port_aggr_grp_set(i,
parsed_cmd->aggr_grp)) {
printf("Port %d: failed to set aggr group %d\n",
i, parsed_cmd->aggr_grp);
}
}
}
return CMD_RET_SUCCESS;
}
static struct ethsw_command_func vsc9953_cmd_func = {
.ethsw_name = "L2 Switch VSC9953",
.port_enable = &vsc9953_port_status_key_func,
.port_disable = &vsc9953_port_status_key_func,
.port_show = &vsc9953_port_config_key_func,
.port_stats = &vsc9953_port_stats_key_func,
.port_stats_clear = &vsc9953_port_stats_clear_key_func,
.port_learn = &vsc9953_learn_set_key_func,
.port_learn_show = &vsc9953_learn_show_key_func,
.fdb_show = &vsc9953_fdb_show_key_func,
.fdb_flush = &vsc9953_fdb_flush_key_func,
.fdb_entry_add = &vsc9953_fdb_entry_add_key_func,
.fdb_entry_del = &vsc9953_fdb_entry_del_key_func,
.pvid_show = &vsc9953_pvid_show_key_func,
.pvid_set = &vsc9953_pvid_set_key_func,
.vlan_show = &vsc9953_vlan_show_key_func,
.vlan_set = &vsc9953_vlan_set_key_func,
.port_untag_show = &vsc9953_port_untag_show_key_func,
.port_untag_set = &vsc9953_port_untag_set_key_func,
.port_egr_vlan_show = &vsc9953_egr_vlan_tag_show_key_func,
.port_egr_vlan_set = &vsc9953_egr_vlan_tag_set_key_func,
.vlan_learn_show = &vsc9953_vlan_learn_show_key_func,
.vlan_learn_set = &vsc9953_vlan_learn_set_key_func,
.port_ingr_filt_show = &vsc9953_ingr_fltr_show_key_func,
.port_ingr_filt_set = &vsc9953_ingr_fltr_set_key_func,
.port_aggr_show = &vsc9953_port_aggr_show_key_func,
.port_aggr_set = &vsc9953_port_aggr_set_key_func,
};
#endif /* CONFIG_CMD_ETHSW */
/*****************************************************************************
At startup, the default configuration would be:
- HW learning enabled on all ports; (HW default)
- All ports are in VLAN 1;
- All ports are VLAN aware;
- All ports have POP_COUNT 1;
- All ports have PVID 1;
- All ports have TPID 0x8100; (HW default)
- All ports tag frames classified to all VLANs that are not PVID;
*****************************************************************************/
void vsc9953_default_configuration(void)
{
int i;
if (vsc9953_autoage_time_set(VSC9953_DEFAULT_AGE_TIME))
debug("VSC9953: failed to set AGE time to %d\n",
VSC9953_DEFAULT_AGE_TIME);
for (i = 0; i < VSC9953_MAX_VLAN; i++)
vsc9953_vlan_table_membership_all_set(i, 0);
vsc9953_port_all_vlan_aware_set(1);
vsc9953_port_all_vlan_pvid_set(1);
vsc9953_port_all_vlan_poncnt_set(1);
vsc9953_vlan_table_membership_all_set(1, 1);
vsc9953_vlan_ingr_fltr_learn_drop(1);
vsc9953_port_all_vlan_egress_untagged_set(EGRESS_UNTAG_PVID_AND_ZERO);
if (vsc9953_aggr_code_set(AGGR_CODE_ALL))
debug("VSC9953: failed to set default aggregation code mode\n");
}
static void vcap_entry2cache_init(u32 target, u32 entry_words)
{
int i;
for (i = 0; i < entry_words; i++) {
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CACHE_ENTRY_DAT(target, i)), 0x00);
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CACHE_MASK_DAT(target, i)), 0xFF);
}
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CACHE_TG_DAT(target)), 0x00);
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CFG_MV_CFG(target)),
VSC9953_VCAP_CFG_MV_CFG_SIZE(entry_words));
}
static void vcap_action2cache_init(u32 target, u32 action_words,
u32 counter_words)
{
int i;
for (i = 0; i < action_words; i++)
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CACHE_ACTION_DAT(target, i)), 0x00);
for (i = 0; i < counter_words; i++)
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CACHE_CNT_DAT(target, i)), 0x00);
}
static int vcap_cmd(u32 target, u16 ix, int cmd, int sel, int entry_count)
{
u32 tgt = target;
u32 value = (VSC9953_VCAP_UPDATE_CTRL_UPDATE_CMD(cmd) |
VSC9953_VCAP_UPDATE_CTRL_UPDATE_ADDR(ix) |
VSC9953_VCAP_UPDATE_CTRL_UPDATE_SHOT);
if ((sel & TCAM_SEL_ENTRY) && ix >= entry_count)
return CMD_RET_FAILURE;
if (!(sel & TCAM_SEL_ENTRY))
value |= VSC9953_VCAP_UPDATE_CTRL_UPDATE_ENTRY_DIS;
if (!(sel & TCAM_SEL_ACTION))
value |= VSC9953_VCAP_UPDATE_CTRL_UPDATE_ACTION_DIS;
if (!(sel & TCAM_SEL_COUNTER))
value |= VSC9953_VCAP_UPDATE_CTRL_UPDATE_CNT_DIS;
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CFG_UPDATE_CTRL(tgt)), value);
do {
value = in_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CFG_UPDATE_CTRL(tgt)));
} while (value & VSC9953_VCAP_UPDATE_CTRL_UPDATE_SHOT);
return CMD_RET_SUCCESS;
}
static void vsc9953_vcap_init(void)
{
u32 tgt = VSC9953_ES0;
int cmd_ret;
/* write entries */
vcap_entry2cache_init(tgt, ENTRY_WORDS_ES0);
cmd_ret = vcap_cmd(tgt, 0, TCAM_CMD_INITIALIZE, TCAM_SEL_ENTRY,
ENTRY_WORDS_ES0);
if (cmd_ret != CMD_RET_SUCCESS)
debug("VSC9953:%d invalid TCAM_SEL_ENTRY\n",
__LINE__);
/* write actions and counters */
vcap_action2cache_init(tgt, BITS_TO_DWORD(ES0_ACT_WIDTH),
BITS_TO_DWORD(ES0_CNT_WIDTH));
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CFG_MV_CFG(tgt)),
VSC9953_VCAP_CFG_MV_CFG_SIZE(ES0_ACT_COUNT));
cmd_ret = vcap_cmd(tgt, 0, TCAM_CMD_INITIALIZE,
TCAM_SEL_ACTION | TCAM_SEL_COUNTER, ENTRY_WORDS_ES0);
if (cmd_ret != CMD_RET_SUCCESS)
debug("VSC9953:%d invalid TCAM_SEL_ACTION | TCAM_SEL_COUNTER\n",
__LINE__);
tgt = VSC9953_IS1;
/* write entries */
vcap_entry2cache_init(tgt, ENTRY_WORDS_IS1);
cmd_ret = vcap_cmd(tgt, 0, TCAM_CMD_INITIALIZE, TCAM_SEL_ENTRY,
ENTRY_WORDS_IS1);
if (cmd_ret != CMD_RET_SUCCESS)
debug("VSC9953:%d invalid TCAM_SEL_ENTRY\n",
__LINE__);
/* write actions and counters */
vcap_action2cache_init(tgt, BITS_TO_DWORD(IS1_ACT_WIDTH),
BITS_TO_DWORD(IS1_CNT_WIDTH));
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CFG_MV_CFG(tgt)),
VSC9953_VCAP_CFG_MV_CFG_SIZE(IS1_ACT_COUNT));
cmd_ret = vcap_cmd(tgt, 0, TCAM_CMD_INITIALIZE,
TCAM_SEL_ACTION | TCAM_SEL_COUNTER, ENTRY_WORDS_IS1);
if (cmd_ret != CMD_RET_SUCCESS)
debug("VSC9953:%d invalid TCAM_SEL_ACTION | TCAM_SEL_COUNTER\n",
__LINE__);
tgt = VSC9953_IS2;
/* write entries */
vcap_entry2cache_init(tgt, ENTRY_WORDS_IS2);
cmd_ret = vcap_cmd(tgt, 0, TCAM_CMD_INITIALIZE, TCAM_SEL_ENTRY,
ENTRY_WORDS_IS2);
if (cmd_ret != CMD_RET_SUCCESS)
debug("VSC9953:%d invalid selection: TCAM_SEL_ENTRY\n",
__LINE__);
/* write actions and counters */
vcap_action2cache_init(tgt, BITS_TO_DWORD(IS2_ACT_WIDTH),
BITS_TO_DWORD(IS2_CNT_WIDTH));
out_le32((unsigned int *)(VSC9953_OFFSET +
VSC9953_VCAP_CFG_MV_CFG(tgt)),
VSC9953_VCAP_CFG_MV_CFG_SIZE(IS2_ACT_COUNT));
cmd_ret = vcap_cmd(tgt, 0, TCAM_CMD_INITIALIZE,
TCAM_SEL_ACTION | TCAM_SEL_COUNTER, ENTRY_WORDS_IS2);
if (cmd_ret != CMD_RET_SUCCESS)
debug("VSC9953:%d invalid TCAM_SEL_ACTION | TCAM_SEL_COUNTER\n",
__LINE__);
}
void vsc9953_init(bd_t *bis)
{
u32 i;
u32 hdx_cfg = 0;
u32 phy_addr = 0;
int timeout;
struct vsc9953_system_reg *l2sys_reg;
struct vsc9953_qsys_reg *l2qsys_reg;
struct vsc9953_dev_gmii *l2dev_gmii_reg;
struct vsc9953_analyzer *l2ana_reg;
struct vsc9953_devcpu_gcb *l2dev_gcb;
l2dev_gmii_reg = (struct vsc9953_dev_gmii *)(VSC9953_OFFSET +
VSC9953_DEV_GMII_OFFSET);
l2ana_reg = (struct vsc9953_analyzer *)(VSC9953_OFFSET +
VSC9953_ANA_OFFSET);
l2sys_reg = (struct vsc9953_system_reg *)(VSC9953_OFFSET +
VSC9953_SYS_OFFSET);
l2qsys_reg = (struct vsc9953_qsys_reg *)(VSC9953_OFFSET +
VSC9953_QSYS_OFFSET);
l2dev_gcb = (struct vsc9953_devcpu_gcb *)(VSC9953_OFFSET +
VSC9953_DEVCPU_GCB);
out_le32(&l2dev_gcb->chip_regs.soft_rst,
VSC9953_SOFT_SWC_RST_ENA);
timeout = 50000;
while ((in_le32(&l2dev_gcb->chip_regs.soft_rst) &
VSC9953_SOFT_SWC_RST_ENA) && --timeout)
udelay(1); /* busy wait for vsc9953 soft reset */
if (timeout == 0)
debug("Timeout waiting for VSC9953 to reset\n");
out_le32(&l2sys_reg->sys.reset_cfg, VSC9953_MEM_ENABLE |
VSC9953_MEM_INIT);
timeout = 50000;
while ((in_le32(&l2sys_reg->sys.reset_cfg) &
VSC9953_MEM_INIT) && --timeout)
udelay(1); /* busy wait for vsc9953 memory init */
if (timeout == 0)
debug("Timeout waiting for VSC9953 memory to initialize\n");
out_le32(&l2sys_reg->sys.reset_cfg, (in_le32(&l2sys_reg->sys.reset_cfg)
| VSC9953_CORE_ENABLE));
/* VSC9953 Setting to be done once only */
out_le32(&l2qsys_reg->sys.ext_cpu_cfg, 0x00000b00);
for (i = 0; i < VSC9953_MAX_PORTS; i++) {
if (vsc9953_port_init(i))
printf("Failed to initialize l2switch port %d\n", i);
if (!vsc9953_l2sw.port[i].enabled)
continue;
/* Enable VSC9953 GMII Ports Port ID 0 - 7 */
if (VSC9953_INTERNAL_PORT_CHECK(i)) {
out_le32(&l2ana_reg->pfc[i].pfc_cfg,
VSC9953_PFC_FC_QSGMII);
out_le32(&l2sys_reg->pause_cfg.mac_fc_cfg[i],
VSC9953_MAC_FC_CFG_QSGMII);
} else {
out_le32(&l2ana_reg->pfc[i].pfc_cfg,
VSC9953_PFC_FC);
out_le32(&l2sys_reg->pause_cfg.mac_fc_cfg[i],
VSC9953_MAC_FC_CFG);
}
l2dev_gmii_reg = (struct vsc9953_dev_gmii *)
(VSC9953_OFFSET + VSC9953_DEV_GMII_OFFSET +
T1040_SWITCH_GMII_DEV_OFFSET * i);
out_le32(&l2dev_gmii_reg->port_mode.clock_cfg,
VSC9953_CLOCK_CFG);
out_le32(&l2dev_gmii_reg->mac_cfg_status.mac_ena_cfg,
VSC9953_MAC_ENA_CFG);
out_le32(&l2dev_gmii_reg->mac_cfg_status.mac_mode_cfg,
VSC9953_MAC_MODE_CFG);
out_le32(&l2dev_gmii_reg->mac_cfg_status.mac_ifg_cfg,
VSC9953_MAC_IFG_CFG);
/* mac_hdx_cfg varies with port id*/
hdx_cfg = VSC9953_MAC_HDX_CFG | (i << 16);
out_le32(&l2dev_gmii_reg->mac_cfg_status.mac_hdx_cfg, hdx_cfg);
out_le32(&l2sys_reg->sys.front_port_mode[i],
VSC9953_FRONT_PORT_MODE);
setbits_le32(&l2qsys_reg->sys.switch_port_mode[i],
VSC9953_PORT_ENA);
out_le32(&l2dev_gmii_reg->mac_cfg_status.mac_maxlen_cfg,
VSC9953_MAC_MAX_LEN);
out_le32(&l2sys_reg->pause_cfg.pause_cfg[i],
VSC9953_PAUSE_CFG);
/* WAIT FOR 2 us*/
udelay(2);
/* Initialize Lynx PHY Wrappers */
phy_addr = 0;
if (vsc9953_l2sw.port[i].enet_if ==
PHY_INTERFACE_MODE_QSGMII)
phy_addr = (i + 0x4) & 0x1F;
else if (vsc9953_l2sw.port[i].enet_if ==
PHY_INTERFACE_MODE_SGMII)
phy_addr = (i + 1) & 0x1F;
if (phy_addr) {
/* SGMII IF mode + AN enable */
vsc9953_mdio_write(&l2dev_gcb->mii_mng[0], phy_addr,
0x14, PHY_SGMII_IF_MODE_AN |
PHY_SGMII_IF_MODE_SGMII);
/* Dev ability according to SGMII specification */
vsc9953_mdio_write(&l2dev_gcb->mii_mng[0], phy_addr,
0x4, PHY_SGMII_DEV_ABILITY_SGMII);
/* Adjust link timer for SGMII
* 1.6 ms in units of 8 ns = 2 * 10^5 = 0x30d40
*/
vsc9953_mdio_write(&l2dev_gcb->mii_mng[0], phy_addr,
0x13, 0x0003);
vsc9953_mdio_write(&l2dev_gcb->mii_mng[0], phy_addr,
0x12, 0x0d40);
/* Restart AN */
vsc9953_mdio_write(&l2dev_gcb->mii_mng[0], phy_addr,
0x0, PHY_SGMII_CR_DEF_VAL |
PHY_SGMII_CR_RESET_AN);
timeout = 50000;
while ((vsc9953_mdio_read(&l2dev_gcb->mii_mng[0],
phy_addr, 0x01) & 0x0020) && --timeout)
udelay(1); /* wait for AN to complete */
if (timeout == 0)
debug("Timeout waiting for AN to complete\n");
}
}
vsc9953_vcap_init();
vsc9953_default_configuration();
#ifdef CONFIG_CMD_ETHSW
if (ethsw_define_functions(&vsc9953_cmd_func) < 0)
debug("Unable to use \"ethsw\" commands\n");
#endif
printf("VSC9953 L2 switch initialized\n");
return;
}