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|
// SPDX-License-Identifier: GPL-2.0-only
/* Copyright (C) 2020 Felix Fietkau <nbd@nbd.name> */
#include <linux/kernel.h>
#include <linux/io.h>
#include <linux/iopoll.h>
#include <linux/etherdevice.h>
#include <linux/platform_device.h>
#include <linux/if_ether.h>
#include <linux/if_vlan.h>
#include <net/dst_metadata.h>
#include <net/dsa.h>
#include "mtk_eth_soc.h"
#include "mtk_ppe.h"
#include "mtk_ppe_regs.h"
static DEFINE_SPINLOCK(ppe_lock);
static const struct rhashtable_params mtk_flow_l2_ht_params = {
.head_offset = offsetof(struct mtk_flow_entry, l2_node),
.key_offset = offsetof(struct mtk_flow_entry, data.bridge),
.key_len = offsetof(struct mtk_foe_bridge, key_end),
.automatic_shrinking = true,
};
static void ppe_w32(struct mtk_ppe *ppe, u32 reg, u32 val)
{
writel(val, ppe->base + reg);
}
static u32 ppe_r32(struct mtk_ppe *ppe, u32 reg)
{
return readl(ppe->base + reg);
}
static u32 ppe_m32(struct mtk_ppe *ppe, u32 reg, u32 mask, u32 set)
{
u32 val;
val = ppe_r32(ppe, reg);
val &= ~mask;
val |= set;
ppe_w32(ppe, reg, val);
return val;
}
static u32 ppe_set(struct mtk_ppe *ppe, u32 reg, u32 val)
{
return ppe_m32(ppe, reg, 0, val);
}
static u32 ppe_clear(struct mtk_ppe *ppe, u32 reg, u32 val)
{
return ppe_m32(ppe, reg, val, 0);
}
static u32 mtk_eth_timestamp(struct mtk_eth *eth)
{
return mtk_r32(eth, 0x0010) & mtk_get_ib1_ts_mask(eth);
}
static int mtk_ppe_wait_busy(struct mtk_ppe *ppe)
{
int ret;
u32 val;
ret = readl_poll_timeout(ppe->base + MTK_PPE_GLO_CFG, val,
!(val & MTK_PPE_GLO_CFG_BUSY),
20, MTK_PPE_WAIT_TIMEOUT_US);
if (ret)
dev_err(ppe->dev, "PPE table busy");
return ret;
}
static int mtk_ppe_mib_wait_busy(struct mtk_ppe *ppe)
{
int ret;
u32 val;
ret = readl_poll_timeout(ppe->base + MTK_PPE_MIB_SER_CR, val,
!(val & MTK_PPE_MIB_SER_CR_ST),
20, MTK_PPE_WAIT_TIMEOUT_US);
if (ret)
dev_err(ppe->dev, "MIB table busy");
return ret;
}
static int mtk_mib_entry_read(struct mtk_ppe *ppe, u16 index, u64 *bytes, u64 *packets)
{
u32 byte_cnt_low, byte_cnt_high, pkt_cnt_low, pkt_cnt_high;
u32 val, cnt_r0, cnt_r1, cnt_r2;
int ret;
val = FIELD_PREP(MTK_PPE_MIB_SER_CR_ADDR, index) | MTK_PPE_MIB_SER_CR_ST;
ppe_w32(ppe, MTK_PPE_MIB_SER_CR, val);
ret = mtk_ppe_mib_wait_busy(ppe);
if (ret)
return ret;
cnt_r0 = readl(ppe->base + MTK_PPE_MIB_SER_R0);
cnt_r1 = readl(ppe->base + MTK_PPE_MIB_SER_R1);
cnt_r2 = readl(ppe->base + MTK_PPE_MIB_SER_R2);
byte_cnt_low = FIELD_GET(MTK_PPE_MIB_SER_R0_BYTE_CNT_LOW, cnt_r0);
byte_cnt_high = FIELD_GET(MTK_PPE_MIB_SER_R1_BYTE_CNT_HIGH, cnt_r1);
pkt_cnt_low = FIELD_GET(MTK_PPE_MIB_SER_R1_PKT_CNT_LOW, cnt_r1);
pkt_cnt_high = FIELD_GET(MTK_PPE_MIB_SER_R2_PKT_CNT_HIGH, cnt_r2);
*bytes = ((u64)byte_cnt_high << 32) | byte_cnt_low;
*packets = (pkt_cnt_high << 16) | pkt_cnt_low;
return 0;
}
static void mtk_ppe_cache_clear(struct mtk_ppe *ppe)
{
ppe_set(ppe, MTK_PPE_CACHE_CTL, MTK_PPE_CACHE_CTL_CLEAR);
ppe_clear(ppe, MTK_PPE_CACHE_CTL, MTK_PPE_CACHE_CTL_CLEAR);
}
static void mtk_ppe_cache_enable(struct mtk_ppe *ppe, bool enable)
{
mtk_ppe_cache_clear(ppe);
ppe_m32(ppe, MTK_PPE_CACHE_CTL, MTK_PPE_CACHE_CTL_EN,
enable * MTK_PPE_CACHE_CTL_EN);
}
static u32 mtk_ppe_hash_entry(struct mtk_eth *eth, struct mtk_foe_entry *e)
{
u32 hv1, hv2, hv3;
u32 hash;
switch (mtk_get_ib1_pkt_type(eth, e->ib1)) {
case MTK_PPE_PKT_TYPE_IPV4_ROUTE:
case MTK_PPE_PKT_TYPE_IPV4_HNAPT:
hv1 = e->ipv4.orig.ports;
hv2 = e->ipv4.orig.dest_ip;
hv3 = e->ipv4.orig.src_ip;
break;
case MTK_PPE_PKT_TYPE_IPV6_ROUTE_3T:
case MTK_PPE_PKT_TYPE_IPV6_ROUTE_5T:
hv1 = e->ipv6.src_ip[3] ^ e->ipv6.dest_ip[3];
hv1 ^= e->ipv6.ports;
hv2 = e->ipv6.src_ip[2] ^ e->ipv6.dest_ip[2];
hv2 ^= e->ipv6.dest_ip[0];
hv3 = e->ipv6.src_ip[1] ^ e->ipv6.dest_ip[1];
hv3 ^= e->ipv6.src_ip[0];
break;
case MTK_PPE_PKT_TYPE_IPV4_DSLITE:
case MTK_PPE_PKT_TYPE_IPV6_6RD:
default:
WARN_ON_ONCE(1);
return MTK_PPE_HASH_MASK;
}
hash = (hv1 & hv2) | ((~hv1) & hv3);
hash = (hash >> 24) | ((hash & 0xffffff) << 8);
hash ^= hv1 ^ hv2 ^ hv3;
hash ^= hash >> 16;
hash <<= (ffs(eth->soc->hash_offset) - 1);
hash &= MTK_PPE_ENTRIES - 1;
return hash;
}
static inline struct mtk_foe_mac_info *
mtk_foe_entry_l2(struct mtk_eth *eth, struct mtk_foe_entry *entry)
{
int type = mtk_get_ib1_pkt_type(eth, entry->ib1);
if (type == MTK_PPE_PKT_TYPE_BRIDGE)
return &entry->bridge.l2;
if (type >= MTK_PPE_PKT_TYPE_IPV4_DSLITE)
return &entry->ipv6.l2;
return &entry->ipv4.l2;
}
static inline u32 *
mtk_foe_entry_ib2(struct mtk_eth *eth, struct mtk_foe_entry *entry)
{
int type = mtk_get_ib1_pkt_type(eth, entry->ib1);
if (type == MTK_PPE_PKT_TYPE_BRIDGE)
return &entry->bridge.ib2;
if (type >= MTK_PPE_PKT_TYPE_IPV4_DSLITE)
return &entry->ipv6.ib2;
return &entry->ipv4.ib2;
}
int mtk_foe_entry_prepare(struct mtk_eth *eth, struct mtk_foe_entry *entry,
int type, int l4proto, u8 pse_port, u8 *src_mac,
u8 *dest_mac)
{
struct mtk_foe_mac_info *l2;
u32 ports_pad, val;
memset(entry, 0, sizeof(*entry));
if (MTK_HAS_CAPS(eth->soc->caps, MTK_NETSYS_V2)) {
val = FIELD_PREP(MTK_FOE_IB1_STATE, MTK_FOE_STATE_BIND) |
FIELD_PREP(MTK_FOE_IB1_PACKET_TYPE_V2, type) |
FIELD_PREP(MTK_FOE_IB1_UDP, l4proto == IPPROTO_UDP) |
MTK_FOE_IB1_BIND_CACHE_V2 | MTK_FOE_IB1_BIND_TTL_V2;
entry->ib1 = val;
val = FIELD_PREP(MTK_FOE_IB2_DEST_PORT_V2, pse_port) |
FIELD_PREP(MTK_FOE_IB2_PORT_AG_V2, 0xf);
} else {
int port_mg = eth->soc->offload_version > 1 ? 0 : 0x3f;
val = FIELD_PREP(MTK_FOE_IB1_STATE, MTK_FOE_STATE_BIND) |
FIELD_PREP(MTK_FOE_IB1_PACKET_TYPE, type) |
FIELD_PREP(MTK_FOE_IB1_UDP, l4proto == IPPROTO_UDP) |
MTK_FOE_IB1_BIND_CACHE | MTK_FOE_IB1_BIND_TTL;
entry->ib1 = val;
val = FIELD_PREP(MTK_FOE_IB2_DEST_PORT, pse_port) |
FIELD_PREP(MTK_FOE_IB2_PORT_MG, port_mg) |
FIELD_PREP(MTK_FOE_IB2_PORT_AG, 0x1f);
}
if (is_multicast_ether_addr(dest_mac))
val |= mtk_get_ib2_multicast_mask(eth);
ports_pad = 0xa5a5a500 | (l4proto & 0xff);
if (type == MTK_PPE_PKT_TYPE_IPV4_ROUTE)
entry->ipv4.orig.ports = ports_pad;
if (type == MTK_PPE_PKT_TYPE_IPV6_ROUTE_3T)
entry->ipv6.ports = ports_pad;
if (type == MTK_PPE_PKT_TYPE_BRIDGE) {
ether_addr_copy(entry->bridge.src_mac, src_mac);
ether_addr_copy(entry->bridge.dest_mac, dest_mac);
entry->bridge.ib2 = val;
l2 = &entry->bridge.l2;
} else if (type >= MTK_PPE_PKT_TYPE_IPV4_DSLITE) {
entry->ipv6.ib2 = val;
l2 = &entry->ipv6.l2;
} else {
entry->ipv4.ib2 = val;
l2 = &entry->ipv4.l2;
}
l2->dest_mac_hi = get_unaligned_be32(dest_mac);
l2->dest_mac_lo = get_unaligned_be16(dest_mac + 4);
l2->src_mac_hi = get_unaligned_be32(src_mac);
l2->src_mac_lo = get_unaligned_be16(src_mac + 4);
if (type >= MTK_PPE_PKT_TYPE_IPV6_ROUTE_3T)
l2->etype = ETH_P_IPV6;
else
l2->etype = ETH_P_IP;
return 0;
}
int mtk_foe_entry_set_pse_port(struct mtk_eth *eth,
struct mtk_foe_entry *entry, u8 port)
{
u32 *ib2 = mtk_foe_entry_ib2(eth, entry);
u32 val = *ib2;
if (MTK_HAS_CAPS(eth->soc->caps, MTK_NETSYS_V2)) {
val &= ~MTK_FOE_IB2_DEST_PORT_V2;
val |= FIELD_PREP(MTK_FOE_IB2_DEST_PORT_V2, port);
} else {
val &= ~MTK_FOE_IB2_DEST_PORT;
val |= FIELD_PREP(MTK_FOE_IB2_DEST_PORT, port);
}
*ib2 = val;
return 0;
}
int mtk_foe_entry_set_ipv4_tuple(struct mtk_eth *eth,
struct mtk_foe_entry *entry, bool egress,
__be32 src_addr, __be16 src_port,
__be32 dest_addr, __be16 dest_port)
{
int type = mtk_get_ib1_pkt_type(eth, entry->ib1);
struct mtk_ipv4_tuple *t;
switch (type) {
case MTK_PPE_PKT_TYPE_IPV4_HNAPT:
if (egress) {
t = &entry->ipv4.new;
break;
}
fallthrough;
case MTK_PPE_PKT_TYPE_IPV4_DSLITE:
case MTK_PPE_PKT_TYPE_IPV4_ROUTE:
t = &entry->ipv4.orig;
break;
case MTK_PPE_PKT_TYPE_IPV6_6RD:
entry->ipv6_6rd.tunnel_src_ip = be32_to_cpu(src_addr);
entry->ipv6_6rd.tunnel_dest_ip = be32_to_cpu(dest_addr);
return 0;
default:
WARN_ON_ONCE(1);
return -EINVAL;
}
t->src_ip = be32_to_cpu(src_addr);
t->dest_ip = be32_to_cpu(dest_addr);
if (type == MTK_PPE_PKT_TYPE_IPV4_ROUTE)
return 0;
t->src_port = be16_to_cpu(src_port);
t->dest_port = be16_to_cpu(dest_port);
return 0;
}
int mtk_foe_entry_set_ipv6_tuple(struct mtk_eth *eth,
struct mtk_foe_entry *entry,
__be32 *src_addr, __be16 src_port,
__be32 *dest_addr, __be16 dest_port)
{
int type = mtk_get_ib1_pkt_type(eth, entry->ib1);
u32 *src, *dest;
int i;
switch (type) {
case MTK_PPE_PKT_TYPE_IPV4_DSLITE:
src = entry->dslite.tunnel_src_ip;
dest = entry->dslite.tunnel_dest_ip;
break;
case MTK_PPE_PKT_TYPE_IPV6_ROUTE_5T:
case MTK_PPE_PKT_TYPE_IPV6_6RD:
entry->ipv6.src_port = be16_to_cpu(src_port);
entry->ipv6.dest_port = be16_to_cpu(dest_port);
fallthrough;
case MTK_PPE_PKT_TYPE_IPV6_ROUTE_3T:
src = entry->ipv6.src_ip;
dest = entry->ipv6.dest_ip;
break;
default:
WARN_ON_ONCE(1);
return -EINVAL;
}
for (i = 0; i < 4; i++)
src[i] = be32_to_cpu(src_addr[i]);
for (i = 0; i < 4; i++)
dest[i] = be32_to_cpu(dest_addr[i]);
return 0;
}
int mtk_foe_entry_set_dsa(struct mtk_eth *eth, struct mtk_foe_entry *entry,
int port)
{
struct mtk_foe_mac_info *l2 = mtk_foe_entry_l2(eth, entry);
l2->etype = BIT(port);
if (!(entry->ib1 & mtk_get_ib1_vlan_layer_mask(eth)))
entry->ib1 |= mtk_prep_ib1_vlan_layer(eth, 1);
else
l2->etype |= BIT(8);
entry->ib1 &= ~mtk_get_ib1_vlan_tag_mask(eth);
return 0;
}
int mtk_foe_entry_set_vlan(struct mtk_eth *eth, struct mtk_foe_entry *entry,
int vid)
{
struct mtk_foe_mac_info *l2 = mtk_foe_entry_l2(eth, entry);
switch (mtk_get_ib1_vlan_layer(eth, entry->ib1)) {
case 0:
entry->ib1 |= mtk_get_ib1_vlan_tag_mask(eth) |
mtk_prep_ib1_vlan_layer(eth, 1);
l2->vlan1 = vid;
return 0;
case 1:
if (!(entry->ib1 & mtk_get_ib1_vlan_tag_mask(eth))) {
l2->vlan1 = vid;
l2->etype |= BIT(8);
} else {
l2->vlan2 = vid;
entry->ib1 += mtk_prep_ib1_vlan_layer(eth, 1);
}
return 0;
default:
return -ENOSPC;
}
}
int mtk_foe_entry_set_pppoe(struct mtk_eth *eth, struct mtk_foe_entry *entry,
int sid)
{
struct mtk_foe_mac_info *l2 = mtk_foe_entry_l2(eth, entry);
if (!(entry->ib1 & mtk_get_ib1_vlan_layer_mask(eth)) ||
(entry->ib1 & mtk_get_ib1_vlan_tag_mask(eth)))
l2->etype = ETH_P_PPP_SES;
entry->ib1 |= mtk_get_ib1_ppoe_mask(eth);
l2->pppoe_id = sid;
return 0;
}
int mtk_foe_entry_set_wdma(struct mtk_eth *eth, struct mtk_foe_entry *entry,
int wdma_idx, int txq, int bss, int wcid)
{
struct mtk_foe_mac_info *l2 = mtk_foe_entry_l2(eth, entry);
u32 *ib2 = mtk_foe_entry_ib2(eth, entry);
if (MTK_HAS_CAPS(eth->soc->caps, MTK_NETSYS_V2)) {
*ib2 &= ~MTK_FOE_IB2_PORT_MG_V2;
*ib2 |= FIELD_PREP(MTK_FOE_IB2_RX_IDX, txq) |
MTK_FOE_IB2_WDMA_WINFO_V2;
l2->winfo = FIELD_PREP(MTK_FOE_WINFO_WCID, wcid) |
FIELD_PREP(MTK_FOE_WINFO_BSS, bss);
} else {
*ib2 &= ~MTK_FOE_IB2_PORT_MG;
*ib2 |= MTK_FOE_IB2_WDMA_WINFO;
if (wdma_idx)
*ib2 |= MTK_FOE_IB2_WDMA_DEVIDX;
l2->vlan2 = FIELD_PREP(MTK_FOE_VLAN2_WINFO_BSS, bss) |
FIELD_PREP(MTK_FOE_VLAN2_WINFO_WCID, wcid) |
FIELD_PREP(MTK_FOE_VLAN2_WINFO_RING, txq);
}
return 0;
}
int mtk_foe_entry_set_queue(struct mtk_eth *eth, struct mtk_foe_entry *entry,
unsigned int queue)
{
u32 *ib2 = mtk_foe_entry_ib2(eth, entry);
if (MTK_HAS_CAPS(eth->soc->caps, MTK_NETSYS_V2)) {
*ib2 &= ~MTK_FOE_IB2_QID_V2;
*ib2 |= FIELD_PREP(MTK_FOE_IB2_QID_V2, queue);
*ib2 |= MTK_FOE_IB2_PSE_QOS_V2;
} else {
*ib2 &= ~MTK_FOE_IB2_QID;
*ib2 |= FIELD_PREP(MTK_FOE_IB2_QID, queue);
*ib2 |= MTK_FOE_IB2_PSE_QOS;
}
return 0;
}
static bool
mtk_flow_entry_match(struct mtk_eth *eth, struct mtk_flow_entry *entry,
struct mtk_foe_entry *data)
{
int type, len;
if ((data->ib1 ^ entry->data.ib1) & MTK_FOE_IB1_UDP)
return false;
type = mtk_get_ib1_pkt_type(eth, entry->data.ib1);
if (type > MTK_PPE_PKT_TYPE_IPV4_DSLITE)
len = offsetof(struct mtk_foe_entry, ipv6._rsv);
else
len = offsetof(struct mtk_foe_entry, ipv4.ib2);
return !memcmp(&entry->data.data, &data->data, len - 4);
}
static void
__mtk_foe_entry_clear(struct mtk_ppe *ppe, struct mtk_flow_entry *entry)
{
struct hlist_head *head;
struct hlist_node *tmp;
if (entry->type == MTK_FLOW_TYPE_L2) {
rhashtable_remove_fast(&ppe->l2_flows, &entry->l2_node,
mtk_flow_l2_ht_params);
head = &entry->l2_flows;
hlist_for_each_entry_safe(entry, tmp, head, l2_data.list)
__mtk_foe_entry_clear(ppe, entry);
return;
}
hlist_del_init(&entry->list);
if (entry->hash != 0xffff) {
struct mtk_foe_entry *hwe = mtk_foe_get_entry(ppe, entry->hash);
hwe->ib1 &= ~MTK_FOE_IB1_STATE;
hwe->ib1 |= FIELD_PREP(MTK_FOE_IB1_STATE, MTK_FOE_STATE_INVALID);
dma_wmb();
mtk_ppe_cache_clear(ppe);
if (ppe->accounting) {
struct mtk_foe_accounting *acct;
acct = ppe->acct_table + entry->hash * sizeof(*acct);
acct->packets = 0;
acct->bytes = 0;
}
}
entry->hash = 0xffff;
if (entry->type != MTK_FLOW_TYPE_L2_SUBFLOW)
return;
hlist_del_init(&entry->l2_data.list);
kfree(entry);
}
static int __mtk_foe_entry_idle_time(struct mtk_ppe *ppe, u32 ib1)
{
u32 ib1_ts_mask = mtk_get_ib1_ts_mask(ppe->eth);
u16 now = mtk_eth_timestamp(ppe->eth);
u16 timestamp = ib1 & ib1_ts_mask;
if (timestamp > now)
return ib1_ts_mask + 1 - timestamp + now;
else
return now - timestamp;
}
static void
mtk_flow_entry_update_l2(struct mtk_ppe *ppe, struct mtk_flow_entry *entry)
{
u32 ib1_ts_mask = mtk_get_ib1_ts_mask(ppe->eth);
struct mtk_flow_entry *cur;
struct mtk_foe_entry *hwe;
struct hlist_node *tmp;
int idle;
idle = __mtk_foe_entry_idle_time(ppe, entry->data.ib1);
hlist_for_each_entry_safe(cur, tmp, &entry->l2_flows, l2_data.list) {
int cur_idle;
u32 ib1;
hwe = mtk_foe_get_entry(ppe, cur->hash);
ib1 = READ_ONCE(hwe->ib1);
if (FIELD_GET(MTK_FOE_IB1_STATE, ib1) != MTK_FOE_STATE_BIND) {
cur->hash = 0xffff;
__mtk_foe_entry_clear(ppe, cur);
continue;
}
cur_idle = __mtk_foe_entry_idle_time(ppe, ib1);
if (cur_idle >= idle)
continue;
idle = cur_idle;
entry->data.ib1 &= ~ib1_ts_mask;
entry->data.ib1 |= hwe->ib1 & ib1_ts_mask;
}
}
static void
mtk_flow_entry_update(struct mtk_ppe *ppe, struct mtk_flow_entry *entry)
{
struct mtk_foe_entry foe = {};
struct mtk_foe_entry *hwe;
spin_lock_bh(&ppe_lock);
if (entry->type == MTK_FLOW_TYPE_L2) {
mtk_flow_entry_update_l2(ppe, entry);
goto out;
}
if (entry->hash == 0xffff)
goto out;
hwe = mtk_foe_get_entry(ppe, entry->hash);
memcpy(&foe, hwe, ppe->eth->soc->foe_entry_size);
if (!mtk_flow_entry_match(ppe->eth, entry, &foe)) {
entry->hash = 0xffff;
goto out;
}
entry->data.ib1 = foe.ib1;
out:
spin_unlock_bh(&ppe_lock);
}
static void
__mtk_foe_entry_commit(struct mtk_ppe *ppe, struct mtk_foe_entry *entry,
u16 hash)
{
struct mtk_eth *eth = ppe->eth;
u16 timestamp = mtk_eth_timestamp(eth);
struct mtk_foe_entry *hwe;
u32 val;
if (MTK_HAS_CAPS(eth->soc->caps, MTK_NETSYS_V2)) {
entry->ib1 &= ~MTK_FOE_IB1_BIND_TIMESTAMP_V2;
entry->ib1 |= FIELD_PREP(MTK_FOE_IB1_BIND_TIMESTAMP_V2,
timestamp);
} else {
entry->ib1 &= ~MTK_FOE_IB1_BIND_TIMESTAMP;
entry->ib1 |= FIELD_PREP(MTK_FOE_IB1_BIND_TIMESTAMP,
timestamp);
}
hwe = mtk_foe_get_entry(ppe, hash);
memcpy(&hwe->data, &entry->data, eth->soc->foe_entry_size - sizeof(hwe->ib1));
wmb();
hwe->ib1 = entry->ib1;
if (ppe->accounting) {
if (MTK_HAS_CAPS(eth->soc->caps, MTK_NETSYS_V2))
val = MTK_FOE_IB2_MIB_CNT_V2;
else
val = MTK_FOE_IB2_MIB_CNT;
*mtk_foe_entry_ib2(eth, hwe) |= val;
}
dma_wmb();
mtk_ppe_cache_clear(ppe);
}
void mtk_foe_entry_clear(struct mtk_ppe *ppe, struct mtk_flow_entry *entry)
{
spin_lock_bh(&ppe_lock);
__mtk_foe_entry_clear(ppe, entry);
spin_unlock_bh(&ppe_lock);
}
static int
mtk_foe_entry_commit_l2(struct mtk_ppe *ppe, struct mtk_flow_entry *entry)
{
struct mtk_flow_entry *prev;
entry->type = MTK_FLOW_TYPE_L2;
prev = rhashtable_lookup_get_insert_fast(&ppe->l2_flows, &entry->l2_node,
mtk_flow_l2_ht_params);
if (likely(!prev))
return 0;
if (IS_ERR(prev))
return PTR_ERR(prev);
return rhashtable_replace_fast(&ppe->l2_flows, &prev->l2_node,
&entry->l2_node, mtk_flow_l2_ht_params);
}
int mtk_foe_entry_commit(struct mtk_ppe *ppe, struct mtk_flow_entry *entry)
{
const struct mtk_soc_data *soc = ppe->eth->soc;
int type = mtk_get_ib1_pkt_type(ppe->eth, entry->data.ib1);
u32 hash;
if (type == MTK_PPE_PKT_TYPE_BRIDGE)
return mtk_foe_entry_commit_l2(ppe, entry);
hash = mtk_ppe_hash_entry(ppe->eth, &entry->data);
entry->hash = 0xffff;
spin_lock_bh(&ppe_lock);
hlist_add_head(&entry->list, &ppe->foe_flow[hash / soc->hash_offset]);
spin_unlock_bh(&ppe_lock);
return 0;
}
static void
mtk_foe_entry_commit_subflow(struct mtk_ppe *ppe, struct mtk_flow_entry *entry,
u16 hash)
{
const struct mtk_soc_data *soc = ppe->eth->soc;
struct mtk_flow_entry *flow_info;
struct mtk_foe_entry foe = {}, *hwe;
struct mtk_foe_mac_info *l2;
u32 ib1_mask = mtk_get_ib1_pkt_type_mask(ppe->eth) | MTK_FOE_IB1_UDP;
int type;
flow_info = kzalloc(sizeof(*flow_info), GFP_ATOMIC);
if (!flow_info)
return;
flow_info->l2_data.base_flow = entry;
flow_info->type = MTK_FLOW_TYPE_L2_SUBFLOW;
flow_info->hash = hash;
hlist_add_head(&flow_info->list,
&ppe->foe_flow[hash / soc->hash_offset]);
hlist_add_head(&flow_info->l2_data.list, &entry->l2_flows);
hwe = mtk_foe_get_entry(ppe, hash);
memcpy(&foe, hwe, soc->foe_entry_size);
foe.ib1 &= ib1_mask;
foe.ib1 |= entry->data.ib1 & ~ib1_mask;
l2 = mtk_foe_entry_l2(ppe->eth, &foe);
memcpy(l2, &entry->data.bridge.l2, sizeof(*l2));
type = mtk_get_ib1_pkt_type(ppe->eth, foe.ib1);
if (type == MTK_PPE_PKT_TYPE_IPV4_HNAPT)
memcpy(&foe.ipv4.new, &foe.ipv4.orig, sizeof(foe.ipv4.new));
else if (type >= MTK_PPE_PKT_TYPE_IPV6_ROUTE_3T && l2->etype == ETH_P_IP)
l2->etype = ETH_P_IPV6;
*mtk_foe_entry_ib2(ppe->eth, &foe) = entry->data.bridge.ib2;
__mtk_foe_entry_commit(ppe, &foe, hash);
}
void __mtk_ppe_check_skb(struct mtk_ppe *ppe, struct sk_buff *skb, u16 hash)
{
const struct mtk_soc_data *soc = ppe->eth->soc;
struct hlist_head *head = &ppe->foe_flow[hash / soc->hash_offset];
struct mtk_foe_entry *hwe = mtk_foe_get_entry(ppe, hash);
struct mtk_flow_entry *entry;
struct mtk_foe_bridge key = {};
struct hlist_node *n;
struct ethhdr *eh;
bool found = false;
u8 *tag;
spin_lock_bh(&ppe_lock);
if (FIELD_GET(MTK_FOE_IB1_STATE, hwe->ib1) == MTK_FOE_STATE_BIND)
goto out;
hlist_for_each_entry_safe(entry, n, head, list) {
if (entry->type == MTK_FLOW_TYPE_L2_SUBFLOW) {
if (unlikely(FIELD_GET(MTK_FOE_IB1_STATE, hwe->ib1) ==
MTK_FOE_STATE_BIND))
continue;
entry->hash = 0xffff;
__mtk_foe_entry_clear(ppe, entry);
continue;
}
if (found || !mtk_flow_entry_match(ppe->eth, entry, hwe)) {
if (entry->hash != 0xffff)
entry->hash = 0xffff;
continue;
}
entry->hash = hash;
__mtk_foe_entry_commit(ppe, &entry->data, hash);
found = true;
}
if (found)
goto out;
eh = eth_hdr(skb);
ether_addr_copy(key.dest_mac, eh->h_dest);
ether_addr_copy(key.src_mac, eh->h_source);
tag = skb->data - 2;
key.vlan = 0;
switch (skb->protocol) {
#if IS_ENABLED(CONFIG_NET_DSA)
case htons(ETH_P_XDSA):
if (!netdev_uses_dsa(skb->dev) ||
skb->dev->dsa_ptr->tag_ops->proto != DSA_TAG_PROTO_MTK)
goto out;
if (!skb_metadata_dst(skb))
tag += 4;
if (get_unaligned_be16(tag) != ETH_P_8021Q)
break;
fallthrough;
#endif
case htons(ETH_P_8021Q):
key.vlan = get_unaligned_be16(tag + 2) & VLAN_VID_MASK;
break;
default:
break;
}
entry = rhashtable_lookup_fast(&ppe->l2_flows, &key, mtk_flow_l2_ht_params);
if (!entry)
goto out;
mtk_foe_entry_commit_subflow(ppe, entry, hash);
out:
spin_unlock_bh(&ppe_lock);
}
int mtk_foe_entry_idle_time(struct mtk_ppe *ppe, struct mtk_flow_entry *entry)
{
mtk_flow_entry_update(ppe, entry);
return __mtk_foe_entry_idle_time(ppe, entry->data.ib1);
}
int mtk_ppe_prepare_reset(struct mtk_ppe *ppe)
{
if (!ppe)
return -EINVAL;
/* disable KA */
ppe_clear(ppe, MTK_PPE_TB_CFG, MTK_PPE_TB_CFG_KEEPALIVE);
ppe_clear(ppe, MTK_PPE_BIND_LMT1, MTK_PPE_NTU_KEEPALIVE);
ppe_w32(ppe, MTK_PPE_KEEPALIVE, 0);
usleep_range(10000, 11000);
/* set KA timer to maximum */
ppe_set(ppe, MTK_PPE_BIND_LMT1, MTK_PPE_NTU_KEEPALIVE);
ppe_w32(ppe, MTK_PPE_KEEPALIVE, 0xffffffff);
/* set KA tick select */
ppe_set(ppe, MTK_PPE_TB_CFG, MTK_PPE_TB_TICK_SEL);
ppe_set(ppe, MTK_PPE_TB_CFG, MTK_PPE_TB_CFG_KEEPALIVE);
usleep_range(10000, 11000);
/* disable scan mode */
ppe_clear(ppe, MTK_PPE_TB_CFG, MTK_PPE_TB_CFG_SCAN_MODE);
usleep_range(10000, 11000);
return mtk_ppe_wait_busy(ppe);
}
struct mtk_foe_accounting *mtk_foe_entry_get_mib(struct mtk_ppe *ppe, u32 index,
struct mtk_foe_accounting *diff)
{
struct mtk_foe_accounting *acct;
int size = sizeof(struct mtk_foe_accounting);
u64 bytes, packets;
if (!ppe->accounting)
return NULL;
if (mtk_mib_entry_read(ppe, index, &bytes, &packets))
return NULL;
acct = ppe->acct_table + index * size;
acct->bytes += bytes;
acct->packets += packets;
if (diff) {
diff->bytes = bytes;
diff->packets = packets;
}
return acct;
}
struct mtk_ppe *mtk_ppe_init(struct mtk_eth *eth, void __iomem *base, int index)
{
bool accounting = eth->soc->has_accounting;
const struct mtk_soc_data *soc = eth->soc;
struct mtk_foe_accounting *acct;
struct device *dev = eth->dev;
struct mtk_mib_entry *mib;
struct mtk_ppe *ppe;
u32 foe_flow_size;
void *foe;
ppe = devm_kzalloc(dev, sizeof(*ppe), GFP_KERNEL);
if (!ppe)
return NULL;
rhashtable_init(&ppe->l2_flows, &mtk_flow_l2_ht_params);
/* need to allocate a separate device, since it PPE DMA access is
* not coherent.
*/
ppe->base = base;
ppe->eth = eth;
ppe->dev = dev;
ppe->version = eth->soc->offload_version;
ppe->accounting = accounting;
foe = dmam_alloc_coherent(ppe->dev,
MTK_PPE_ENTRIES * soc->foe_entry_size,
&ppe->foe_phys, GFP_KERNEL);
if (!foe)
goto err_free_l2_flows;
ppe->foe_table = foe;
foe_flow_size = (MTK_PPE_ENTRIES / soc->hash_offset) *
sizeof(*ppe->foe_flow);
ppe->foe_flow = devm_kzalloc(dev, foe_flow_size, GFP_KERNEL);
if (!ppe->foe_flow)
goto err_free_l2_flows;
if (accounting) {
mib = dmam_alloc_coherent(ppe->dev, MTK_PPE_ENTRIES * sizeof(*mib),
&ppe->mib_phys, GFP_KERNEL);
if (!mib)
return NULL;
ppe->mib_table = mib;
acct = devm_kzalloc(dev, MTK_PPE_ENTRIES * sizeof(*acct),
GFP_KERNEL);
if (!acct)
return NULL;
ppe->acct_table = acct;
}
mtk_ppe_debugfs_init(ppe, index);
return ppe;
err_free_l2_flows:
rhashtable_destroy(&ppe->l2_flows);
return NULL;
}
void mtk_ppe_deinit(struct mtk_eth *eth)
{
int i;
for (i = 0; i < ARRAY_SIZE(eth->ppe); i++) {
if (!eth->ppe[i])
return;
rhashtable_destroy(ð->ppe[i]->l2_flows);
}
}
static void mtk_ppe_init_foe_table(struct mtk_ppe *ppe)
{
static const u8 skip[] = { 12, 25, 38, 51, 76, 89, 102 };
int i, k;
memset(ppe->foe_table, 0,
MTK_PPE_ENTRIES * ppe->eth->soc->foe_entry_size);
if (!IS_ENABLED(CONFIG_SOC_MT7621))
return;
/* skip all entries that cross the 1024 byte boundary */
for (i = 0; i < MTK_PPE_ENTRIES; i += 128) {
for (k = 0; k < ARRAY_SIZE(skip); k++) {
struct mtk_foe_entry *hwe;
hwe = mtk_foe_get_entry(ppe, i + skip[k]);
hwe->ib1 |= MTK_FOE_IB1_STATIC;
}
}
}
void mtk_ppe_start(struct mtk_ppe *ppe)
{
u32 val;
if (!ppe)
return;
mtk_ppe_init_foe_table(ppe);
ppe_w32(ppe, MTK_PPE_TB_BASE, ppe->foe_phys);
val = MTK_PPE_TB_CFG_ENTRY_80B |
MTK_PPE_TB_CFG_AGE_NON_L4 |
MTK_PPE_TB_CFG_AGE_UNBIND |
MTK_PPE_TB_CFG_AGE_TCP |
MTK_PPE_TB_CFG_AGE_UDP |
MTK_PPE_TB_CFG_AGE_TCP_FIN |
FIELD_PREP(MTK_PPE_TB_CFG_SEARCH_MISS,
MTK_PPE_SEARCH_MISS_ACTION_FORWARD_BUILD) |
FIELD_PREP(MTK_PPE_TB_CFG_KEEPALIVE,
MTK_PPE_KEEPALIVE_DISABLE) |
FIELD_PREP(MTK_PPE_TB_CFG_HASH_MODE, 1) |
FIELD_PREP(MTK_PPE_TB_CFG_SCAN_MODE,
MTK_PPE_SCAN_MODE_KEEPALIVE_AGE) |
FIELD_PREP(MTK_PPE_TB_CFG_ENTRY_NUM,
MTK_PPE_ENTRIES_SHIFT);
if (MTK_HAS_CAPS(ppe->eth->soc->caps, MTK_NETSYS_V2))
val |= MTK_PPE_TB_CFG_INFO_SEL;
ppe_w32(ppe, MTK_PPE_TB_CFG, val);
ppe_w32(ppe, MTK_PPE_IP_PROTO_CHK,
MTK_PPE_IP_PROTO_CHK_IPV4 | MTK_PPE_IP_PROTO_CHK_IPV6);
mtk_ppe_cache_enable(ppe, true);
val = MTK_PPE_FLOW_CFG_IP6_3T_ROUTE |
MTK_PPE_FLOW_CFG_IP6_5T_ROUTE |
MTK_PPE_FLOW_CFG_IP6_6RD |
MTK_PPE_FLOW_CFG_IP4_NAT |
MTK_PPE_FLOW_CFG_IP4_NAPT |
MTK_PPE_FLOW_CFG_IP4_DSLITE |
MTK_PPE_FLOW_CFG_IP4_NAT_FRAG;
if (MTK_HAS_CAPS(ppe->eth->soc->caps, MTK_NETSYS_V2))
val |= MTK_PPE_MD_TOAP_BYP_CRSN0 |
MTK_PPE_MD_TOAP_BYP_CRSN1 |
MTK_PPE_MD_TOAP_BYP_CRSN2 |
MTK_PPE_FLOW_CFG_IP4_HASH_GRE_KEY;
else
val |= MTK_PPE_FLOW_CFG_IP4_TCP_FRAG |
MTK_PPE_FLOW_CFG_IP4_UDP_FRAG;
ppe_w32(ppe, MTK_PPE_FLOW_CFG, val);
val = FIELD_PREP(MTK_PPE_UNBIND_AGE_MIN_PACKETS, 1000) |
FIELD_PREP(MTK_PPE_UNBIND_AGE_DELTA, 3);
ppe_w32(ppe, MTK_PPE_UNBIND_AGE, val);
val = FIELD_PREP(MTK_PPE_BIND_AGE0_DELTA_UDP, 12) |
FIELD_PREP(MTK_PPE_BIND_AGE0_DELTA_NON_L4, 1);
ppe_w32(ppe, MTK_PPE_BIND_AGE0, val);
val = FIELD_PREP(MTK_PPE_BIND_AGE1_DELTA_TCP_FIN, 1) |
FIELD_PREP(MTK_PPE_BIND_AGE1_DELTA_TCP, 7);
ppe_w32(ppe, MTK_PPE_BIND_AGE1, val);
val = MTK_PPE_BIND_LIMIT0_QUARTER | MTK_PPE_BIND_LIMIT0_HALF;
ppe_w32(ppe, MTK_PPE_BIND_LIMIT0, val);
val = MTK_PPE_BIND_LIMIT1_FULL |
FIELD_PREP(MTK_PPE_BIND_LIMIT1_NON_L4, 1);
ppe_w32(ppe, MTK_PPE_BIND_LIMIT1, val);
val = FIELD_PREP(MTK_PPE_BIND_RATE_BIND, 30) |
FIELD_PREP(MTK_PPE_BIND_RATE_PREBIND, 1);
ppe_w32(ppe, MTK_PPE_BIND_RATE, val);
/* enable PPE */
val = MTK_PPE_GLO_CFG_EN |
MTK_PPE_GLO_CFG_IP4_L4_CS_DROP |
MTK_PPE_GLO_CFG_IP4_CS_DROP |
MTK_PPE_GLO_CFG_FLOW_DROP_UPDATE;
ppe_w32(ppe, MTK_PPE_GLO_CFG, val);
ppe_w32(ppe, MTK_PPE_DEFAULT_CPU_PORT, 0);
if (MTK_HAS_CAPS(ppe->eth->soc->caps, MTK_NETSYS_V2)) {
ppe_w32(ppe, MTK_PPE_DEFAULT_CPU_PORT1, 0xcb777);
ppe_w32(ppe, MTK_PPE_SBW_CTRL, 0x7f);
}
if (ppe->accounting && ppe->mib_phys) {
ppe_w32(ppe, MTK_PPE_MIB_TB_BASE, ppe->mib_phys);
ppe_m32(ppe, MTK_PPE_MIB_CFG, MTK_PPE_MIB_CFG_EN,
MTK_PPE_MIB_CFG_EN);
ppe_m32(ppe, MTK_PPE_MIB_CFG, MTK_PPE_MIB_CFG_RD_CLR,
MTK_PPE_MIB_CFG_RD_CLR);
ppe_m32(ppe, MTK_PPE_MIB_CACHE_CTL, MTK_PPE_MIB_CACHE_CTL_EN,
MTK_PPE_MIB_CFG_RD_CLR);
}
}
int mtk_ppe_stop(struct mtk_ppe *ppe)
{
u32 val;
int i;
if (!ppe)
return 0;
for (i = 0; i < MTK_PPE_ENTRIES; i++) {
struct mtk_foe_entry *hwe = mtk_foe_get_entry(ppe, i);
hwe->ib1 = FIELD_PREP(MTK_FOE_IB1_STATE,
MTK_FOE_STATE_INVALID);
}
mtk_ppe_cache_enable(ppe, false);
/* disable offload engine */
ppe_clear(ppe, MTK_PPE_GLO_CFG, MTK_PPE_GLO_CFG_EN);
ppe_w32(ppe, MTK_PPE_FLOW_CFG, 0);
/* disable aging */
val = MTK_PPE_TB_CFG_AGE_NON_L4 |
MTK_PPE_TB_CFG_AGE_UNBIND |
MTK_PPE_TB_CFG_AGE_TCP |
MTK_PPE_TB_CFG_AGE_UDP |
MTK_PPE_TB_CFG_AGE_TCP_FIN;
ppe_clear(ppe, MTK_PPE_TB_CFG, val);
return mtk_ppe_wait_busy(ppe);
}
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