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|
// SPDX-License-Identifier: (GPL-2.0 OR MIT)
/* Microsemi Ocelot Switch driver
* Copyright (c) 2019 Microsemi Corporation
*/
#include <linux/iopoll.h>
#include <linux/proc_fs.h>
#include <soc/mscc/ocelot_vcap.h>
#include "ocelot_police.h"
#include "ocelot_ace.h"
#include "ocelot_s2.h"
#define OCELOT_POLICER_DISCARD 0x17f
#define ENTRY_WIDTH 32
enum vcap_sel {
VCAP_SEL_ENTRY = 0x1,
VCAP_SEL_ACTION = 0x2,
VCAP_SEL_COUNTER = 0x4,
VCAP_SEL_ALL = 0x7,
};
enum vcap_cmd {
VCAP_CMD_WRITE = 0, /* Copy from Cache to TCAM */
VCAP_CMD_READ = 1, /* Copy from TCAM to Cache */
VCAP_CMD_MOVE_UP = 2, /* Move <count> up */
VCAP_CMD_MOVE_DOWN = 3, /* Move <count> down */
VCAP_CMD_INITIALIZE = 4, /* Write all (from cache) */
};
#define VCAP_ENTRY_WIDTH 12 /* Max entry width (32bit words) */
#define VCAP_COUNTER_WIDTH 4 /* Max counter width (32bit words) */
struct vcap_data {
u32 entry[VCAP_ENTRY_WIDTH]; /* ENTRY_DAT */
u32 mask[VCAP_ENTRY_WIDTH]; /* MASK_DAT */
u32 action[VCAP_ENTRY_WIDTH]; /* ACTION_DAT */
u32 counter[VCAP_COUNTER_WIDTH]; /* CNT_DAT */
u32 tg; /* TG_DAT */
u32 type; /* Action type */
u32 tg_sw; /* Current type-group */
u32 cnt; /* Current counter */
u32 key_offset; /* Current entry offset */
u32 action_offset; /* Current action offset */
u32 counter_offset; /* Current counter offset */
u32 tg_value; /* Current type-group value */
u32 tg_mask; /* Current type-group mask */
};
static u32 vcap_s2_read_update_ctrl(struct ocelot *ocelot)
{
return ocelot_read(ocelot, S2_CORE_UPDATE_CTRL);
}
static void vcap_cmd(struct ocelot *ocelot, u16 ix, int cmd, int sel)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
u32 value = (S2_CORE_UPDATE_CTRL_UPDATE_CMD(cmd) |
S2_CORE_UPDATE_CTRL_UPDATE_ADDR(ix) |
S2_CORE_UPDATE_CTRL_UPDATE_SHOT);
if ((sel & VCAP_SEL_ENTRY) && ix >= vcap_is2->entry_count)
return;
if (!(sel & VCAP_SEL_ENTRY))
value |= S2_CORE_UPDATE_CTRL_UPDATE_ENTRY_DIS;
if (!(sel & VCAP_SEL_ACTION))
value |= S2_CORE_UPDATE_CTRL_UPDATE_ACTION_DIS;
if (!(sel & VCAP_SEL_COUNTER))
value |= S2_CORE_UPDATE_CTRL_UPDATE_CNT_DIS;
ocelot_write(ocelot, value, S2_CORE_UPDATE_CTRL);
readx_poll_timeout(vcap_s2_read_update_ctrl, ocelot, value,
(value & S2_CORE_UPDATE_CTRL_UPDATE_SHOT) == 0,
10, 100000);
}
/* Convert from 0-based row to VCAP entry row and run command */
static void vcap_row_cmd(struct ocelot *ocelot, u32 row, int cmd, int sel)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
vcap_cmd(ocelot, vcap_is2->entry_count - row - 1, cmd, sel);
}
static void vcap_entry2cache(struct ocelot *ocelot, struct vcap_data *data)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
u32 entry_words, i;
entry_words = DIV_ROUND_UP(vcap_is2->entry_width, ENTRY_WIDTH);
for (i = 0; i < entry_words; i++) {
ocelot_write_rix(ocelot, data->entry[i], S2_CACHE_ENTRY_DAT, i);
ocelot_write_rix(ocelot, ~data->mask[i], S2_CACHE_MASK_DAT, i);
}
ocelot_write(ocelot, data->tg, S2_CACHE_TG_DAT);
}
static void vcap_cache2entry(struct ocelot *ocelot, struct vcap_data *data)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
u32 entry_words, i;
entry_words = DIV_ROUND_UP(vcap_is2->entry_width, ENTRY_WIDTH);
for (i = 0; i < entry_words; i++) {
data->entry[i] = ocelot_read_rix(ocelot, S2_CACHE_ENTRY_DAT, i);
// Invert mask
data->mask[i] = ~ocelot_read_rix(ocelot, S2_CACHE_MASK_DAT, i);
}
data->tg = ocelot_read(ocelot, S2_CACHE_TG_DAT);
}
static void vcap_action2cache(struct ocelot *ocelot, struct vcap_data *data)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
u32 action_words, i, width, mask;
/* Encode action type */
width = vcap_is2->action_type_width;
if (width) {
mask = GENMASK(width, 0);
data->action[0] = ((data->action[0] & ~mask) | data->type);
}
action_words = DIV_ROUND_UP(vcap_is2->action_width, ENTRY_WIDTH);
for (i = 0; i < action_words; i++)
ocelot_write_rix(ocelot, data->action[i], S2_CACHE_ACTION_DAT,
i);
for (i = 0; i < vcap_is2->counter_words; i++)
ocelot_write_rix(ocelot, data->counter[i], S2_CACHE_CNT_DAT, i);
}
static void vcap_cache2action(struct ocelot *ocelot, struct vcap_data *data)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
u32 action_words, i, width;
action_words = DIV_ROUND_UP(vcap_is2->action_width, ENTRY_WIDTH);
for (i = 0; i < action_words; i++)
data->action[i] = ocelot_read_rix(ocelot, S2_CACHE_ACTION_DAT,
i);
for (i = 0; i < vcap_is2->counter_words; i++)
data->counter[i] = ocelot_read_rix(ocelot, S2_CACHE_CNT_DAT, i);
/* Extract action type */
width = vcap_is2->action_type_width;
data->type = (width ? (data->action[0] & GENMASK(width, 0)) : 0);
}
/* Calculate offsets for entry */
static void is2_data_get(struct ocelot *ocelot, struct vcap_data *data, int ix)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
u32 i, col, offset, count, cnt, base;
u32 width = vcap_is2->tg_width;
count = (data->tg_sw == VCAP_TG_HALF ? 2 : 4);
col = (ix % 2);
cnt = (vcap_is2->sw_count / count);
base = (vcap_is2->sw_count - col * cnt - cnt);
data->tg_value = 0;
data->tg_mask = 0;
for (i = 0; i < cnt; i++) {
offset = ((base + i) * width);
data->tg_value |= (data->tg_sw << offset);
data->tg_mask |= GENMASK(offset + width - 1, offset);
}
/* Calculate key/action/counter offsets */
col = (count - col - 1);
data->key_offset = (base * vcap_is2->entry_width) / vcap_is2->sw_count;
data->counter_offset = (cnt * col * vcap_is2->counter_width);
i = data->type;
width = vcap_is2->action_table[i].width;
cnt = vcap_is2->action_table[i].count;
data->action_offset =
(((cnt * col * width) / count) + vcap_is2->action_type_width);
}
static void vcap_data_set(u32 *data, u32 offset, u32 len, u32 value)
{
u32 i, v, m;
for (i = 0; i < len; i++, offset++) {
v = data[offset / ENTRY_WIDTH];
m = (1 << (offset % ENTRY_WIDTH));
if (value & (1 << i))
v |= m;
else
v &= ~m;
data[offset / ENTRY_WIDTH] = v;
}
}
static u32 vcap_data_get(u32 *data, u32 offset, u32 len)
{
u32 i, v, m, value = 0;
for (i = 0; i < len; i++, offset++) {
v = data[offset / ENTRY_WIDTH];
m = (1 << (offset % ENTRY_WIDTH));
if (v & m)
value |= (1 << i);
}
return value;
}
static void vcap_key_field_set(struct vcap_data *data, u32 offset, u32 width,
u32 value, u32 mask)
{
vcap_data_set(data->entry, offset + data->key_offset, width, value);
vcap_data_set(data->mask, offset + data->key_offset, width, mask);
}
static void vcap_key_set(struct ocelot *ocelot, struct vcap_data *data,
enum vcap_is2_half_key_field field,
u32 value, u32 mask)
{
u32 offset = ocelot->vcap_is2_keys[field].offset;
u32 length = ocelot->vcap_is2_keys[field].length;
vcap_key_field_set(data, offset, length, value, mask);
}
static void vcap_key_bytes_set(struct ocelot *ocelot, struct vcap_data *data,
enum vcap_is2_half_key_field field,
u8 *val, u8 *msk)
{
u32 offset = ocelot->vcap_is2_keys[field].offset;
u32 count = ocelot->vcap_is2_keys[field].length;
u32 i, j, n = 0, value = 0, mask = 0;
WARN_ON(count % 8);
/* Data wider than 32 bits are split up in chunks of maximum 32 bits.
* The 32 LSB of the data are written to the 32 MSB of the TCAM.
*/
offset += count;
count /= 8;
for (i = 0; i < count; i++) {
j = (count - i - 1);
value += (val[j] << n);
mask += (msk[j] << n);
n += 8;
if (n == ENTRY_WIDTH || (i + 1) == count) {
offset -= n;
vcap_key_field_set(data, offset, n, value, mask);
n = 0;
value = 0;
mask = 0;
}
}
}
static void vcap_key_l4_port_set(struct ocelot *ocelot, struct vcap_data *data,
enum vcap_is2_half_key_field field,
struct ocelot_vcap_udp_tcp *port)
{
u32 offset = ocelot->vcap_is2_keys[field].offset;
u32 length = ocelot->vcap_is2_keys[field].length;
WARN_ON(length != 16);
vcap_key_field_set(data, offset, length, port->value, port->mask);
}
static void vcap_key_bit_set(struct ocelot *ocelot, struct vcap_data *data,
enum vcap_is2_half_key_field field,
enum ocelot_vcap_bit val)
{
u32 offset = ocelot->vcap_is2_keys[field].offset;
u32 length = ocelot->vcap_is2_keys[field].length;
u32 value = (val == OCELOT_VCAP_BIT_1 ? 1 : 0);
u32 msk = (val == OCELOT_VCAP_BIT_ANY ? 0 : 1);
WARN_ON(length != 1);
vcap_key_field_set(data, offset, length, value, msk);
}
static void vcap_action_set(struct ocelot *ocelot, struct vcap_data *data,
enum vcap_is2_action_field field, u32 value)
{
int offset = ocelot->vcap_is2_actions[field].offset;
int length = ocelot->vcap_is2_actions[field].length;
vcap_data_set(data->action, offset + data->action_offset, length,
value);
}
static void is2_action_set(struct ocelot *ocelot, struct vcap_data *data,
struct ocelot_ace_rule *ace)
{
switch (ace->action) {
case OCELOT_ACL_ACTION_DROP:
vcap_action_set(ocelot, data, VCAP_IS2_ACT_PORT_MASK, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_MASK_MODE, 1);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_POLICE_ENA, 1);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_POLICE_IDX,
OCELOT_POLICER_DISCARD);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_CPU_QU_NUM, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_CPU_COPY_ENA, 0);
break;
case OCELOT_ACL_ACTION_TRAP:
vcap_action_set(ocelot, data, VCAP_IS2_ACT_PORT_MASK, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_MASK_MODE, 1);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_POLICE_ENA, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_POLICE_IDX, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_CPU_QU_NUM, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_CPU_COPY_ENA, 1);
break;
case OCELOT_ACL_ACTION_POLICE:
vcap_action_set(ocelot, data, VCAP_IS2_ACT_PORT_MASK, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_MASK_MODE, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_POLICE_ENA, 1);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_POLICE_IDX,
ace->pol_ix);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_CPU_QU_NUM, 0);
vcap_action_set(ocelot, data, VCAP_IS2_ACT_CPU_COPY_ENA, 0);
break;
}
}
static void is2_entry_set(struct ocelot *ocelot, int ix,
struct ocelot_ace_rule *ace)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
u32 val, msk, type, type_mask = 0xf, i, count;
struct ocelot_ace_vlan *tag = &ace->vlan;
struct ocelot_vcap_u64 payload;
struct vcap_data data;
int row = (ix / 2);
memset(&payload, 0, sizeof(payload));
memset(&data, 0, sizeof(data));
/* Read row */
vcap_row_cmd(ocelot, row, VCAP_CMD_READ, VCAP_SEL_ALL);
vcap_cache2entry(ocelot, &data);
vcap_cache2action(ocelot, &data);
data.tg_sw = VCAP_TG_HALF;
is2_data_get(ocelot, &data, ix);
data.tg = (data.tg & ~data.tg_mask);
if (ace->prio != 0)
data.tg |= data.tg_value;
data.type = IS2_ACTION_TYPE_NORMAL;
vcap_key_set(ocelot, &data, VCAP_IS2_HK_PAG, 0, 0);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_IGR_PORT_MASK, 0,
~ace->ingress_port_mask);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_FIRST, OCELOT_VCAP_BIT_1);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_HOST_MATCH,
OCELOT_VCAP_BIT_ANY);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L2_MC, ace->dmac_mc);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L2_BC, ace->dmac_bc);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_VLAN_TAGGED, tag->tagged);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_VID,
tag->vid.value, tag->vid.mask);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_PCP,
tag->pcp.value[0], tag->pcp.mask[0]);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_DEI, tag->dei);
switch (ace->type) {
case OCELOT_ACE_TYPE_ETYPE: {
struct ocelot_ace_frame_etype *etype = &ace->frame.etype;
type = IS2_TYPE_ETYPE;
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L2_DMAC,
etype->dmac.value, etype->dmac.mask);
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L2_SMAC,
etype->smac.value, etype->smac.mask);
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_MAC_ETYPE_ETYPE,
etype->etype.value, etype->etype.mask);
/* Clear unused bits */
vcap_key_set(ocelot, &data, VCAP_IS2_HK_MAC_ETYPE_L2_PAYLOAD0,
0, 0);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_MAC_ETYPE_L2_PAYLOAD1,
0, 0);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_MAC_ETYPE_L2_PAYLOAD2,
0, 0);
vcap_key_bytes_set(ocelot, &data,
VCAP_IS2_HK_MAC_ETYPE_L2_PAYLOAD0,
etype->data.value, etype->data.mask);
break;
}
case OCELOT_ACE_TYPE_LLC: {
struct ocelot_ace_frame_llc *llc = &ace->frame.llc;
type = IS2_TYPE_LLC;
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L2_DMAC,
llc->dmac.value, llc->dmac.mask);
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L2_SMAC,
llc->smac.value, llc->smac.mask);
for (i = 0; i < 4; i++) {
payload.value[i] = llc->llc.value[i];
payload.mask[i] = llc->llc.mask[i];
}
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_MAC_LLC_L2_LLC,
payload.value, payload.mask);
break;
}
case OCELOT_ACE_TYPE_SNAP: {
struct ocelot_ace_frame_snap *snap = &ace->frame.snap;
type = IS2_TYPE_SNAP;
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L2_DMAC,
snap->dmac.value, snap->dmac.mask);
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L2_SMAC,
snap->smac.value, snap->smac.mask);
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_MAC_SNAP_L2_SNAP,
ace->frame.snap.snap.value,
ace->frame.snap.snap.mask);
break;
}
case OCELOT_ACE_TYPE_ARP: {
struct ocelot_ace_frame_arp *arp = &ace->frame.arp;
type = IS2_TYPE_ARP;
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_MAC_ARP_SMAC,
arp->smac.value, arp->smac.mask);
vcap_key_bit_set(ocelot, &data,
VCAP_IS2_HK_MAC_ARP_ADDR_SPACE_OK,
arp->ethernet);
vcap_key_bit_set(ocelot, &data,
VCAP_IS2_HK_MAC_ARP_PROTO_SPACE_OK,
arp->ip);
vcap_key_bit_set(ocelot, &data,
VCAP_IS2_HK_MAC_ARP_LEN_OK,
arp->length);
vcap_key_bit_set(ocelot, &data,
VCAP_IS2_HK_MAC_ARP_TARGET_MATCH,
arp->dmac_match);
vcap_key_bit_set(ocelot, &data,
VCAP_IS2_HK_MAC_ARP_SENDER_MATCH,
arp->smac_match);
vcap_key_bit_set(ocelot, &data,
VCAP_IS2_HK_MAC_ARP_OPCODE_UNKNOWN,
arp->unknown);
/* OPCODE is inverse, bit 0 is reply flag, bit 1 is RARP flag */
val = ((arp->req == OCELOT_VCAP_BIT_0 ? 1 : 0) |
(arp->arp == OCELOT_VCAP_BIT_0 ? 2 : 0));
msk = ((arp->req == OCELOT_VCAP_BIT_ANY ? 0 : 1) |
(arp->arp == OCELOT_VCAP_BIT_ANY ? 0 : 2));
vcap_key_set(ocelot, &data, VCAP_IS2_HK_MAC_ARP_OPCODE,
val, msk);
vcap_key_bytes_set(ocelot, &data,
VCAP_IS2_HK_MAC_ARP_L3_IP4_DIP,
arp->dip.value.addr, arp->dip.mask.addr);
vcap_key_bytes_set(ocelot, &data,
VCAP_IS2_HK_MAC_ARP_L3_IP4_SIP,
arp->sip.value.addr, arp->sip.mask.addr);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_MAC_ARP_DIP_EQ_SIP,
0, 0);
break;
}
case OCELOT_ACE_TYPE_IPV4:
case OCELOT_ACE_TYPE_IPV6: {
enum ocelot_vcap_bit sip_eq_dip, sport_eq_dport, seq_zero, tcp;
enum ocelot_vcap_bit ttl, fragment, options, tcp_ack, tcp_urg;
enum ocelot_vcap_bit tcp_fin, tcp_syn, tcp_rst, tcp_psh;
struct ocelot_ace_frame_ipv4 *ipv4 = NULL;
struct ocelot_ace_frame_ipv6 *ipv6 = NULL;
struct ocelot_vcap_udp_tcp *sport, *dport;
struct ocelot_vcap_ipv4 sip, dip;
struct ocelot_vcap_u8 proto, ds;
struct ocelot_vcap_u48 *ip_data;
if (ace->type == OCELOT_ACE_TYPE_IPV4) {
ipv4 = &ace->frame.ipv4;
ttl = ipv4->ttl;
fragment = ipv4->fragment;
options = ipv4->options;
proto = ipv4->proto;
ds = ipv4->ds;
ip_data = &ipv4->data;
sip = ipv4->sip;
dip = ipv4->dip;
sport = &ipv4->sport;
dport = &ipv4->dport;
tcp_fin = ipv4->tcp_fin;
tcp_syn = ipv4->tcp_syn;
tcp_rst = ipv4->tcp_rst;
tcp_psh = ipv4->tcp_psh;
tcp_ack = ipv4->tcp_ack;
tcp_urg = ipv4->tcp_urg;
sip_eq_dip = ipv4->sip_eq_dip;
sport_eq_dport = ipv4->sport_eq_dport;
seq_zero = ipv4->seq_zero;
} else {
ipv6 = &ace->frame.ipv6;
ttl = ipv6->ttl;
fragment = OCELOT_VCAP_BIT_ANY;
options = OCELOT_VCAP_BIT_ANY;
proto = ipv6->proto;
ds = ipv6->ds;
ip_data = &ipv6->data;
for (i = 0; i < 8; i++) {
val = ipv6->sip.value[i + 8];
msk = ipv6->sip.mask[i + 8];
if (i < 4) {
dip.value.addr[i] = val;
dip.mask.addr[i] = msk;
} else {
sip.value.addr[i - 4] = val;
sip.mask.addr[i - 4] = msk;
}
}
sport = &ipv6->sport;
dport = &ipv6->dport;
tcp_fin = ipv6->tcp_fin;
tcp_syn = ipv6->tcp_syn;
tcp_rst = ipv6->tcp_rst;
tcp_psh = ipv6->tcp_psh;
tcp_ack = ipv6->tcp_ack;
tcp_urg = ipv6->tcp_urg;
sip_eq_dip = ipv6->sip_eq_dip;
sport_eq_dport = ipv6->sport_eq_dport;
seq_zero = ipv6->seq_zero;
}
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_IP4,
ipv4 ? OCELOT_VCAP_BIT_1 : OCELOT_VCAP_BIT_0);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L3_FRAGMENT,
fragment);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_L3_FRAG_OFS_GT0, 0, 0);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L3_OPTIONS,
options);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_IP4_L3_TTL_GT0,
ttl);
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L3_TOS,
ds.value, ds.mask);
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L3_IP4_DIP,
dip.value.addr, dip.mask.addr);
vcap_key_bytes_set(ocelot, &data, VCAP_IS2_HK_L3_IP4_SIP,
sip.value.addr, sip.mask.addr);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_DIP_EQ_SIP,
sip_eq_dip);
val = proto.value[0];
msk = proto.mask[0];
type = IS2_TYPE_IP_UDP_TCP;
if (msk == 0xff && (val == 6 || val == 17)) {
/* UDP/TCP protocol match */
tcp = (val == 6 ?
OCELOT_VCAP_BIT_1 : OCELOT_VCAP_BIT_0);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_TCP, tcp);
vcap_key_l4_port_set(ocelot, &data,
VCAP_IS2_HK_L4_DPORT, dport);
vcap_key_l4_port_set(ocelot, &data,
VCAP_IS2_HK_L4_SPORT, sport);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_L4_RNG, 0, 0);
vcap_key_bit_set(ocelot, &data,
VCAP_IS2_HK_L4_SPORT_EQ_DPORT,
sport_eq_dport);
vcap_key_bit_set(ocelot, &data,
VCAP_IS2_HK_L4_SEQUENCE_EQ0,
seq_zero);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L4_FIN,
tcp_fin);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L4_SYN,
tcp_syn);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L4_RST,
tcp_rst);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L4_PSH,
tcp_psh);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L4_ACK,
tcp_ack);
vcap_key_bit_set(ocelot, &data, VCAP_IS2_HK_L4_URG,
tcp_urg);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_L4_1588_DOM,
0, 0);
vcap_key_set(ocelot, &data, VCAP_IS2_HK_L4_1588_VER,
0, 0);
} else {
if (msk == 0) {
/* Any IP protocol match */
type_mask = IS2_TYPE_MASK_IP_ANY;
} else {
/* Non-UDP/TCP protocol match */
type = IS2_TYPE_IP_OTHER;
for (i = 0; i < 6; i++) {
payload.value[i] = ip_data->value[i];
payload.mask[i] = ip_data->mask[i];
}
}
vcap_key_bytes_set(ocelot, &data,
VCAP_IS2_HK_IP4_L3_PROTO,
proto.value, proto.mask);
vcap_key_bytes_set(ocelot, &data,
VCAP_IS2_HK_L3_PAYLOAD,
payload.value, payload.mask);
}
break;
}
case OCELOT_ACE_TYPE_ANY:
default:
type = 0;
type_mask = 0;
count = vcap_is2->entry_width / 2;
/* Iterate over the non-common part of the key and
* clear entry data
*/
for (i = ocelot->vcap_is2_keys[VCAP_IS2_HK_L2_DMAC].offset;
i < count; i += ENTRY_WIDTH) {
vcap_key_field_set(&data, i, min(32u, count - i), 0, 0);
}
break;
}
vcap_key_set(ocelot, &data, VCAP_IS2_TYPE, type, type_mask);
is2_action_set(ocelot, &data, ace);
vcap_data_set(data.counter, data.counter_offset,
vcap_is2->counter_width, ace->stats.pkts);
/* Write row */
vcap_entry2cache(ocelot, &data);
vcap_action2cache(ocelot, &data);
vcap_row_cmd(ocelot, row, VCAP_CMD_WRITE, VCAP_SEL_ALL);
}
static void is2_entry_get(struct ocelot *ocelot, struct ocelot_ace_rule *rule,
int ix)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
struct vcap_data data;
int row = (ix / 2);
u32 cnt;
vcap_row_cmd(ocelot, row, VCAP_CMD_READ, VCAP_SEL_COUNTER);
vcap_cache2action(ocelot, &data);
data.tg_sw = VCAP_TG_HALF;
is2_data_get(ocelot, &data, ix);
cnt = vcap_data_get(data.counter, data.counter_offset,
vcap_is2->counter_width);
rule->stats.pkts = cnt;
}
static void ocelot_ace_rule_add(struct ocelot *ocelot,
struct ocelot_acl_block *block,
struct ocelot_ace_rule *rule)
{
struct ocelot_ace_rule *tmp;
struct list_head *pos, *n;
if (rule->action == OCELOT_ACL_ACTION_POLICE) {
block->pol_lpr--;
rule->pol_ix = block->pol_lpr;
ocelot_ace_policer_add(ocelot, rule->pol_ix, &rule->pol);
}
block->count++;
if (list_empty(&block->rules)) {
list_add(&rule->list, &block->rules);
return;
}
list_for_each_safe(pos, n, &block->rules) {
tmp = list_entry(pos, struct ocelot_ace_rule, list);
if (rule->prio < tmp->prio)
break;
}
list_add(&rule->list, pos->prev);
}
static int ocelot_ace_rule_get_index_id(struct ocelot_acl_block *block,
struct ocelot_ace_rule *rule)
{
struct ocelot_ace_rule *tmp;
int index = -1;
list_for_each_entry(tmp, &block->rules, list) {
++index;
if (rule->id == tmp->id)
break;
}
return index;
}
static struct ocelot_ace_rule*
ocelot_ace_rule_get_rule_index(struct ocelot_acl_block *block, int index)
{
struct ocelot_ace_rule *tmp;
int i = 0;
list_for_each_entry(tmp, &block->rules, list) {
if (i == index)
return tmp;
++i;
}
return NULL;
}
/* If @on=false, then SNAP, ARP, IP and OAM frames will not match on keys based
* on destination and source MAC addresses, but only on higher-level protocol
* information. The only frame types to match on keys containing MAC addresses
* in this case are non-SNAP, non-ARP, non-IP and non-OAM frames.
*
* If @on=true, then the above frame types (SNAP, ARP, IP and OAM) will match
* on MAC_ETYPE keys such as destination and source MAC on this ingress port.
* However the setting has the side effect of making these frames not matching
* on any _other_ keys than MAC_ETYPE ones.
*/
static void ocelot_match_all_as_mac_etype(struct ocelot *ocelot, int port,
bool on)
{
u32 val = 0;
if (on)
val = ANA_PORT_VCAP_S2_CFG_S2_SNAP_DIS(3) |
ANA_PORT_VCAP_S2_CFG_S2_ARP_DIS(3) |
ANA_PORT_VCAP_S2_CFG_S2_IP_TCPUDP_DIS(3) |
ANA_PORT_VCAP_S2_CFG_S2_IP_OTHER_DIS(3) |
ANA_PORT_VCAP_S2_CFG_S2_OAM_DIS(3);
ocelot_rmw_gix(ocelot, val,
ANA_PORT_VCAP_S2_CFG_S2_SNAP_DIS_M |
ANA_PORT_VCAP_S2_CFG_S2_ARP_DIS_M |
ANA_PORT_VCAP_S2_CFG_S2_IP_TCPUDP_DIS_M |
ANA_PORT_VCAP_S2_CFG_S2_IP_OTHER_DIS_M |
ANA_PORT_VCAP_S2_CFG_S2_OAM_DIS_M,
ANA_PORT_VCAP_S2_CFG, port);
}
static bool ocelot_ace_is_problematic_mac_etype(struct ocelot_ace_rule *ace)
{
u16 proto, mask;
if (ace->type != OCELOT_ACE_TYPE_ETYPE)
return false;
proto = ntohs(*(u16 *)ace->frame.etype.etype.value);
mask = ntohs(*(u16 *)ace->frame.etype.etype.mask);
/* ETH_P_ALL match, so all protocols below are included */
if (mask == 0)
return true;
if (proto == ETH_P_ARP)
return true;
if (proto == ETH_P_IP)
return true;
if (proto == ETH_P_IPV6)
return true;
return false;
}
static bool ocelot_ace_is_problematic_non_mac_etype(struct ocelot_ace_rule *ace)
{
if (ace->type == OCELOT_ACE_TYPE_SNAP)
return true;
if (ace->type == OCELOT_ACE_TYPE_ARP)
return true;
if (ace->type == OCELOT_ACE_TYPE_IPV4)
return true;
if (ace->type == OCELOT_ACE_TYPE_IPV6)
return true;
return false;
}
static bool ocelot_exclusive_mac_etype_ace_rules(struct ocelot *ocelot,
struct ocelot_ace_rule *ace)
{
struct ocelot_acl_block *block = &ocelot->acl_block;
struct ocelot_ace_rule *tmp;
unsigned long port;
int i;
if (ocelot_ace_is_problematic_mac_etype(ace)) {
/* Search for any non-MAC_ETYPE rules on the port */
for (i = 0; i < block->count; i++) {
tmp = ocelot_ace_rule_get_rule_index(block, i);
if (tmp->ingress_port_mask & ace->ingress_port_mask &&
ocelot_ace_is_problematic_non_mac_etype(tmp))
return false;
}
for_each_set_bit(port, &ace->ingress_port_mask,
ocelot->num_phys_ports)
ocelot_match_all_as_mac_etype(ocelot, port, true);
} else if (ocelot_ace_is_problematic_non_mac_etype(ace)) {
/* Search for any MAC_ETYPE rules on the port */
for (i = 0; i < block->count; i++) {
tmp = ocelot_ace_rule_get_rule_index(block, i);
if (tmp->ingress_port_mask & ace->ingress_port_mask &&
ocelot_ace_is_problematic_mac_etype(tmp))
return false;
}
for_each_set_bit(port, &ace->ingress_port_mask,
ocelot->num_phys_ports)
ocelot_match_all_as_mac_etype(ocelot, port, false);
}
return true;
}
int ocelot_ace_rule_offload_add(struct ocelot *ocelot,
struct ocelot_ace_rule *rule,
struct netlink_ext_ack *extack)
{
struct ocelot_acl_block *block = &ocelot->acl_block;
struct ocelot_ace_rule *ace;
int i, index;
if (!ocelot_exclusive_mac_etype_ace_rules(ocelot, rule)) {
NL_SET_ERR_MSG_MOD(extack,
"Cannot mix MAC_ETYPE with non-MAC_ETYPE rules");
return -EBUSY;
}
/* Add rule to the linked list */
ocelot_ace_rule_add(ocelot, block, rule);
/* Get the index of the inserted rule */
index = ocelot_ace_rule_get_index_id(block, rule);
/* Move down the rules to make place for the new rule */
for (i = block->count - 1; i > index; i--) {
ace = ocelot_ace_rule_get_rule_index(block, i);
is2_entry_set(ocelot, i, ace);
}
/* Now insert the new rule */
is2_entry_set(ocelot, index, rule);
return 0;
}
static void ocelot_ace_police_del(struct ocelot *ocelot,
struct ocelot_acl_block *block,
u32 ix)
{
struct ocelot_ace_rule *ace;
int index = -1;
if (ix < block->pol_lpr)
return;
list_for_each_entry(ace, &block->rules, list) {
index++;
if (ace->action == OCELOT_ACL_ACTION_POLICE &&
ace->pol_ix < ix) {
ace->pol_ix += 1;
ocelot_ace_policer_add(ocelot, ace->pol_ix,
&ace->pol);
is2_entry_set(ocelot, index, ace);
}
}
ocelot_ace_policer_del(ocelot, block->pol_lpr);
block->pol_lpr++;
}
static void ocelot_ace_rule_del(struct ocelot *ocelot,
struct ocelot_acl_block *block,
struct ocelot_ace_rule *rule)
{
struct ocelot_ace_rule *tmp;
struct list_head *pos, *q;
list_for_each_safe(pos, q, &block->rules) {
tmp = list_entry(pos, struct ocelot_ace_rule, list);
if (tmp->id == rule->id) {
if (tmp->action == OCELOT_ACL_ACTION_POLICE)
ocelot_ace_police_del(ocelot, block,
tmp->pol_ix);
list_del(pos);
kfree(tmp);
}
}
block->count--;
}
int ocelot_ace_rule_offload_del(struct ocelot *ocelot,
struct ocelot_ace_rule *rule)
{
struct ocelot_acl_block *block = &ocelot->acl_block;
struct ocelot_ace_rule del_ace;
struct ocelot_ace_rule *ace;
int i, index;
memset(&del_ace, 0, sizeof(del_ace));
/* Gets index of the rule */
index = ocelot_ace_rule_get_index_id(block, rule);
/* Delete rule */
ocelot_ace_rule_del(ocelot, block, rule);
/* Move up all the blocks over the deleted rule */
for (i = index; i < block->count; i++) {
ace = ocelot_ace_rule_get_rule_index(block, i);
is2_entry_set(ocelot, i, ace);
}
/* Now delete the last rule, because it is duplicated */
is2_entry_set(ocelot, block->count, &del_ace);
return 0;
}
int ocelot_ace_rule_stats_update(struct ocelot *ocelot,
struct ocelot_ace_rule *rule)
{
struct ocelot_acl_block *block = &ocelot->acl_block;
struct ocelot_ace_rule *tmp;
int index;
index = ocelot_ace_rule_get_index_id(block, rule);
is2_entry_get(ocelot, rule, index);
/* After we get the result we need to clear the counters */
tmp = ocelot_ace_rule_get_rule_index(block, index);
tmp->stats.pkts = 0;
is2_entry_set(ocelot, index, tmp);
return 0;
}
int ocelot_ace_init(struct ocelot *ocelot)
{
const struct vcap_props *vcap_is2 = &ocelot->vcap[VCAP_IS2];
struct ocelot_acl_block *block = &ocelot->acl_block;
struct vcap_data data;
memset(&data, 0, sizeof(data));
vcap_entry2cache(ocelot, &data);
ocelot_write(ocelot, vcap_is2->entry_count, S2_CORE_MV_CFG);
vcap_cmd(ocelot, 0, VCAP_CMD_INITIALIZE, VCAP_SEL_ENTRY);
vcap_action2cache(ocelot, &data);
ocelot_write(ocelot, vcap_is2->action_count, S2_CORE_MV_CFG);
vcap_cmd(ocelot, 0, VCAP_CMD_INITIALIZE,
VCAP_SEL_ACTION | VCAP_SEL_COUNTER);
/* Create a policer that will drop the frames for the cpu.
* This policer will be used as action in the acl rules to drop
* frames.
*/
ocelot_write_gix(ocelot, 0x299, ANA_POL_MODE_CFG,
OCELOT_POLICER_DISCARD);
ocelot_write_gix(ocelot, 0x1, ANA_POL_PIR_CFG,
OCELOT_POLICER_DISCARD);
ocelot_write_gix(ocelot, 0x3fffff, ANA_POL_PIR_STATE,
OCELOT_POLICER_DISCARD);
ocelot_write_gix(ocelot, 0x0, ANA_POL_CIR_CFG,
OCELOT_POLICER_DISCARD);
ocelot_write_gix(ocelot, 0x3fffff, ANA_POL_CIR_STATE,
OCELOT_POLICER_DISCARD);
block->pol_lpr = OCELOT_POLICER_DISCARD - 1;
INIT_LIST_HEAD(&ocelot->acl_block.rules);
return 0;
}
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