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|
/*
* Copyright (c) 2012-2015 Qualcomm Atheros, Inc.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <linux/etherdevice.h>
#include <net/ieee80211_radiotap.h>
#include <linux/if_arp.h>
#include <linux/moduleparam.h>
#include <linux/ip.h>
#include <linux/ipv6.h>
#include <net/ipv6.h>
#include <linux/prefetch.h>
#include "wil6210.h"
#include "wmi.h"
#include "txrx.h"
#include "trace.h"
static bool rtap_include_phy_info;
module_param(rtap_include_phy_info, bool, S_IRUGO);
MODULE_PARM_DESC(rtap_include_phy_info,
" Include PHY info in the radiotap header, default - no");
bool rx_align_2;
module_param(rx_align_2, bool, S_IRUGO);
MODULE_PARM_DESC(rx_align_2, " align Rx buffers on 4*n+2, default - no");
static inline uint wil_rx_snaplen(void)
{
return rx_align_2 ? 6 : 0;
}
static inline int wil_vring_is_empty(struct vring *vring)
{
return vring->swhead == vring->swtail;
}
static inline u32 wil_vring_next_tail(struct vring *vring)
{
return (vring->swtail + 1) % vring->size;
}
static inline void wil_vring_advance_head(struct vring *vring, int n)
{
vring->swhead = (vring->swhead + n) % vring->size;
}
static inline int wil_vring_is_full(struct vring *vring)
{
return wil_vring_next_tail(vring) == vring->swhead;
}
/* Used space in Tx Vring */
static inline int wil_vring_used_tx(struct vring *vring)
{
u32 swhead = vring->swhead;
u32 swtail = vring->swtail;
return (vring->size + swhead - swtail) % vring->size;
}
/* Available space in Tx Vring */
static inline int wil_vring_avail_tx(struct vring *vring)
{
return vring->size - wil_vring_used_tx(vring) - 1;
}
/* wil_vring_wmark_low - low watermark for available descriptor space */
static inline int wil_vring_wmark_low(struct vring *vring)
{
return vring->size/8;
}
/* wil_vring_wmark_high - high watermark for available descriptor space */
static inline int wil_vring_wmark_high(struct vring *vring)
{
return vring->size/4;
}
/* wil_val_in_range - check if value in [min,max) */
static inline bool wil_val_in_range(int val, int min, int max)
{
return val >= min && val < max;
}
static int wil_vring_alloc(struct wil6210_priv *wil, struct vring *vring)
{
struct device *dev = wil_to_dev(wil);
size_t sz = vring->size * sizeof(vring->va[0]);
uint i;
wil_dbg_misc(wil, "%s()\n", __func__);
BUILD_BUG_ON(sizeof(vring->va[0]) != 32);
vring->swhead = 0;
vring->swtail = 0;
vring->ctx = kcalloc(vring->size, sizeof(vring->ctx[0]), GFP_KERNEL);
if (!vring->ctx) {
vring->va = NULL;
return -ENOMEM;
}
/* vring->va should be aligned on its size rounded up to power of 2
* This is granted by the dma_alloc_coherent
*/
vring->va = dma_alloc_coherent(dev, sz, &vring->pa, GFP_KERNEL);
if (!vring->va) {
kfree(vring->ctx);
vring->ctx = NULL;
return -ENOMEM;
}
/* initially, all descriptors are SW owned
* For Tx and Rx, ownership bit is at the same location, thus
* we can use any
*/
for (i = 0; i < vring->size; i++) {
volatile struct vring_tx_desc *_d = &vring->va[i].tx;
_d->dma.status = TX_DMA_STATUS_DU;
}
wil_dbg_misc(wil, "vring[%d] 0x%p:%pad 0x%p\n", vring->size,
vring->va, &vring->pa, vring->ctx);
return 0;
}
static void wil_txdesc_unmap(struct device *dev, struct vring_tx_desc *d,
struct wil_ctx *ctx)
{
dma_addr_t pa = wil_desc_addr(&d->dma.addr);
u16 dmalen = le16_to_cpu(d->dma.length);
switch (ctx->mapped_as) {
case wil_mapped_as_single:
dma_unmap_single(dev, pa, dmalen, DMA_TO_DEVICE);
break;
case wil_mapped_as_page:
dma_unmap_page(dev, pa, dmalen, DMA_TO_DEVICE);
break;
default:
break;
}
}
static void wil_vring_free(struct wil6210_priv *wil, struct vring *vring,
int tx)
{
struct device *dev = wil_to_dev(wil);
size_t sz = vring->size * sizeof(vring->va[0]);
if (tx) {
int vring_index = vring - wil->vring_tx;
wil_dbg_misc(wil, "free Tx vring %d [%d] 0x%p:%pad 0x%p\n",
vring_index, vring->size, vring->va,
&vring->pa, vring->ctx);
} else {
wil_dbg_misc(wil, "free Rx vring [%d] 0x%p:%pad 0x%p\n",
vring->size, vring->va,
&vring->pa, vring->ctx);
}
while (!wil_vring_is_empty(vring)) {
dma_addr_t pa;
u16 dmalen;
struct wil_ctx *ctx;
if (tx) {
struct vring_tx_desc dd, *d = ⅆ
volatile struct vring_tx_desc *_d =
&vring->va[vring->swtail].tx;
ctx = &vring->ctx[vring->swtail];
*d = *_d;
wil_txdesc_unmap(dev, d, ctx);
if (ctx->skb)
dev_kfree_skb_any(ctx->skb);
vring->swtail = wil_vring_next_tail(vring);
} else { /* rx */
struct vring_rx_desc dd, *d = ⅆ
volatile struct vring_rx_desc *_d =
&vring->va[vring->swhead].rx;
ctx = &vring->ctx[vring->swhead];
*d = *_d;
pa = wil_desc_addr(&d->dma.addr);
dmalen = le16_to_cpu(d->dma.length);
dma_unmap_single(dev, pa, dmalen, DMA_FROM_DEVICE);
kfree_skb(ctx->skb);
wil_vring_advance_head(vring, 1);
}
}
dma_free_coherent(dev, sz, (void *)vring->va, vring->pa);
kfree(vring->ctx);
vring->pa = 0;
vring->va = NULL;
vring->ctx = NULL;
}
/**
* Allocate one skb for Rx VRING
*
* Safe to call from IRQ
*/
static int wil_vring_alloc_skb(struct wil6210_priv *wil, struct vring *vring,
u32 i, int headroom)
{
struct device *dev = wil_to_dev(wil);
unsigned int sz = mtu_max + ETH_HLEN + wil_rx_snaplen();
struct vring_rx_desc dd, *d = ⅆ
volatile struct vring_rx_desc *_d = &vring->va[i].rx;
dma_addr_t pa;
struct sk_buff *skb = dev_alloc_skb(sz + headroom);
if (unlikely(!skb))
return -ENOMEM;
skb_reserve(skb, headroom);
skb_put(skb, sz);
pa = dma_map_single(dev, skb->data, skb->len, DMA_FROM_DEVICE);
if (unlikely(dma_mapping_error(dev, pa))) {
kfree_skb(skb);
return -ENOMEM;
}
d->dma.d0 = RX_DMA_D0_CMD_DMA_RT | RX_DMA_D0_CMD_DMA_IT;
wil_desc_addr_set(&d->dma.addr, pa);
/* ip_length don't care */
/* b11 don't care */
/* error don't care */
d->dma.status = 0; /* BIT(0) should be 0 for HW_OWNED */
d->dma.length = cpu_to_le16(sz);
*_d = *d;
vring->ctx[i].skb = skb;
return 0;
}
/**
* Adds radiotap header
*
* Any error indicated as "Bad FCS"
*
* Vendor data for 04:ce:14-1 (Wilocity-1) consists of:
* - Rx descriptor: 32 bytes
* - Phy info
*/
static void wil_rx_add_radiotap_header(struct wil6210_priv *wil,
struct sk_buff *skb)
{
struct wireless_dev *wdev = wil->wdev;
struct wil6210_rtap {
struct ieee80211_radiotap_header rthdr;
/* fields should be in the order of bits in rthdr.it_present */
/* flags */
u8 flags;
/* channel */
__le16 chnl_freq __aligned(2);
__le16 chnl_flags;
/* MCS */
u8 mcs_present;
u8 mcs_flags;
u8 mcs_index;
} __packed;
struct wil6210_rtap_vendor {
struct wil6210_rtap rtap;
/* vendor */
u8 vendor_oui[3] __aligned(2);
u8 vendor_ns;
__le16 vendor_skip;
u8 vendor_data[0];
} __packed;
struct vring_rx_desc *d = wil_skb_rxdesc(skb);
struct wil6210_rtap_vendor *rtap_vendor;
int rtap_len = sizeof(struct wil6210_rtap);
int phy_length = 0; /* phy info header size, bytes */
static char phy_data[128];
struct ieee80211_channel *ch = wdev->preset_chandef.chan;
if (rtap_include_phy_info) {
rtap_len = sizeof(*rtap_vendor) + sizeof(*d);
/* calculate additional length */
if (d->dma.status & RX_DMA_STATUS_PHY_INFO) {
/**
* PHY info starts from 8-byte boundary
* there are 8-byte lines, last line may be partially
* written (HW bug), thus FW configures for last line
* to be excessive. Driver skips this last line.
*/
int len = min_t(int, 8 + sizeof(phy_data),
wil_rxdesc_phy_length(d));
if (len > 8) {
void *p = skb_tail_pointer(skb);
void *pa = PTR_ALIGN(p, 8);
if (skb_tailroom(skb) >= len + (pa - p)) {
phy_length = len - 8;
memcpy(phy_data, pa, phy_length);
}
}
}
rtap_len += phy_length;
}
if (skb_headroom(skb) < rtap_len &&
pskb_expand_head(skb, rtap_len, 0, GFP_ATOMIC)) {
wil_err(wil, "Unable to expand headrom to %d\n", rtap_len);
return;
}
rtap_vendor = (void *)skb_push(skb, rtap_len);
memset(rtap_vendor, 0, rtap_len);
rtap_vendor->rtap.rthdr.it_version = PKTHDR_RADIOTAP_VERSION;
rtap_vendor->rtap.rthdr.it_len = cpu_to_le16(rtap_len);
rtap_vendor->rtap.rthdr.it_present = cpu_to_le32(
(1 << IEEE80211_RADIOTAP_FLAGS) |
(1 << IEEE80211_RADIOTAP_CHANNEL) |
(1 << IEEE80211_RADIOTAP_MCS));
if (d->dma.status & RX_DMA_STATUS_ERROR)
rtap_vendor->rtap.flags |= IEEE80211_RADIOTAP_F_BADFCS;
rtap_vendor->rtap.chnl_freq = cpu_to_le16(ch ? ch->center_freq : 58320);
rtap_vendor->rtap.chnl_flags = cpu_to_le16(0);
rtap_vendor->rtap.mcs_present = IEEE80211_RADIOTAP_MCS_HAVE_MCS;
rtap_vendor->rtap.mcs_flags = 0;
rtap_vendor->rtap.mcs_index = wil_rxdesc_mcs(d);
if (rtap_include_phy_info) {
rtap_vendor->rtap.rthdr.it_present |= cpu_to_le32(1 <<
IEEE80211_RADIOTAP_VENDOR_NAMESPACE);
/* OUI for Wilocity 04:ce:14 */
rtap_vendor->vendor_oui[0] = 0x04;
rtap_vendor->vendor_oui[1] = 0xce;
rtap_vendor->vendor_oui[2] = 0x14;
rtap_vendor->vendor_ns = 1;
/* Rx descriptor + PHY data */
rtap_vendor->vendor_skip = cpu_to_le16(sizeof(*d) +
phy_length);
memcpy(rtap_vendor->vendor_data, (void *)d, sizeof(*d));
memcpy(rtap_vendor->vendor_data + sizeof(*d), phy_data,
phy_length);
}
}
/* similar to ieee80211_ version, but FC contain only 1-st byte */
static inline int wil_is_back_req(u8 fc)
{
return (fc & (IEEE80211_FCTL_FTYPE | IEEE80211_FCTL_STYPE)) ==
(IEEE80211_FTYPE_CTL | IEEE80211_STYPE_BACK_REQ);
}
/**
* reap 1 frame from @swhead
*
* Rx descriptor copied to skb->cb
*
* Safe to call from IRQ
*/
static struct sk_buff *wil_vring_reap_rx(struct wil6210_priv *wil,
struct vring *vring)
{
struct device *dev = wil_to_dev(wil);
struct net_device *ndev = wil_to_ndev(wil);
volatile struct vring_rx_desc *_d;
struct vring_rx_desc *d;
struct sk_buff *skb;
dma_addr_t pa;
unsigned int snaplen = wil_rx_snaplen();
unsigned int sz = mtu_max + ETH_HLEN + snaplen;
u16 dmalen;
u8 ftype;
int cid;
int i;
struct wil_net_stats *stats;
BUILD_BUG_ON(sizeof(struct vring_rx_desc) > sizeof(skb->cb));
again:
if (unlikely(wil_vring_is_empty(vring)))
return NULL;
i = (int)vring->swhead;
_d = &vring->va[i].rx;
if (unlikely(!(_d->dma.status & RX_DMA_STATUS_DU))) {
/* it is not error, we just reached end of Rx done area */
return NULL;
}
skb = vring->ctx[i].skb;
vring->ctx[i].skb = NULL;
wil_vring_advance_head(vring, 1);
if (!skb) {
wil_err(wil, "No Rx skb at [%d]\n", i);
goto again;
}
d = wil_skb_rxdesc(skb);
*d = *_d;
pa = wil_desc_addr(&d->dma.addr);
dma_unmap_single(dev, pa, sz, DMA_FROM_DEVICE);
dmalen = le16_to_cpu(d->dma.length);
trace_wil6210_rx(i, d);
wil_dbg_txrx(wil, "Rx[%3d] : %d bytes\n", i, dmalen);
wil_hex_dump_txrx("RxD ", DUMP_PREFIX_NONE, 32, 4,
(const void *)d, sizeof(*d), false);
cid = wil_rxdesc_cid(d);
stats = &wil->sta[cid].stats;
if (unlikely(dmalen > sz)) {
wil_err(wil, "Rx size too large: %d bytes!\n", dmalen);
stats->rx_large_frame++;
kfree_skb(skb);
goto again;
}
skb_trim(skb, dmalen);
prefetch(skb->data);
wil_hex_dump_txrx("Rx ", DUMP_PREFIX_OFFSET, 16, 1,
skb->data, skb_headlen(skb), false);
stats->last_mcs_rx = wil_rxdesc_mcs(d);
if (stats->last_mcs_rx < ARRAY_SIZE(stats->rx_per_mcs))
stats->rx_per_mcs[stats->last_mcs_rx]++;
/* use radiotap header only if required */
if (ndev->type == ARPHRD_IEEE80211_RADIOTAP)
wil_rx_add_radiotap_header(wil, skb);
/* no extra checks if in sniffer mode */
if (ndev->type != ARPHRD_ETHER)
return skb;
/* Non-data frames may be delivered through Rx DMA channel (ex: BAR)
* Driver should recognize it by frame type, that is found
* in Rx descriptor. If type is not data, it is 802.11 frame as is
*/
ftype = wil_rxdesc_ftype(d) << 2;
if (unlikely(ftype != IEEE80211_FTYPE_DATA)) {
u8 fc1 = wil_rxdesc_fc1(d);
int mid = wil_rxdesc_mid(d);
int tid = wil_rxdesc_tid(d);
u16 seq = wil_rxdesc_seq(d);
wil_dbg_txrx(wil,
"Non-data frame FC[7:0] 0x%02x MID %d CID %d TID %d Seq 0x%03x\n",
fc1, mid, cid, tid, seq);
stats->rx_non_data_frame++;
if (wil_is_back_req(fc1)) {
wil_dbg_txrx(wil,
"BAR: MID %d CID %d TID %d Seq 0x%03x\n",
mid, cid, tid, seq);
wil_rx_bar(wil, cid, tid, seq);
} else {
/* print again all info. One can enable only this
* without overhead for printing every Rx frame
*/
wil_dbg_txrx(wil,
"Unhandled non-data frame FC[7:0] 0x%02x MID %d CID %d TID %d Seq 0x%03x\n",
fc1, mid, cid, tid, seq);
wil_hex_dump_txrx("RxD ", DUMP_PREFIX_NONE, 32, 4,
(const void *)d, sizeof(*d), false);
wil_hex_dump_txrx("Rx ", DUMP_PREFIX_OFFSET, 16, 1,
skb->data, skb_headlen(skb), false);
}
kfree_skb(skb);
goto again;
}
if (unlikely(skb->len < ETH_HLEN + snaplen)) {
wil_err(wil, "Short frame, len = %d\n", skb->len);
stats->rx_short_frame++;
kfree_skb(skb);
goto again;
}
/* L4 IDENT is on when HW calculated checksum, check status
* and in case of error drop the packet
* higher stack layers will handle retransmission (if required)
*/
if (likely(d->dma.status & RX_DMA_STATUS_L4I)) {
/* L4 protocol identified, csum calculated */
if (likely((d->dma.error & RX_DMA_ERROR_L4_ERR) == 0))
skb->ip_summed = CHECKSUM_UNNECESSARY;
/* If HW reports bad checksum, let IP stack re-check it
* For example, HW don't understand Microsoft IP stack that
* mis-calculates TCP checksum - if it should be 0x0,
* it writes 0xffff in violation of RFC 1624
*/
}
if (snaplen) {
/* Packet layout
* +-------+-------+---------+------------+------+
* | SA(6) | DA(6) | SNAP(6) | ETHTYPE(2) | DATA |
* +-------+-------+---------+------------+------+
* Need to remove SNAP, shifting SA and DA forward
*/
memmove(skb->data + snaplen, skb->data, 2 * ETH_ALEN);
skb_pull(skb, snaplen);
}
return skb;
}
/**
* allocate and fill up to @count buffers in rx ring
* buffers posted at @swtail
*/
static int wil_rx_refill(struct wil6210_priv *wil, int count)
{
struct net_device *ndev = wil_to_ndev(wil);
struct vring *v = &wil->vring_rx;
u32 next_tail;
int rc = 0;
int headroom = ndev->type == ARPHRD_IEEE80211_RADIOTAP ?
WIL6210_RTAP_SIZE : 0;
for (; next_tail = wil_vring_next_tail(v),
(next_tail != v->swhead) && (count-- > 0);
v->swtail = next_tail) {
rc = wil_vring_alloc_skb(wil, v, v->swtail, headroom);
if (unlikely(rc)) {
wil_err(wil, "Error %d in wil_rx_refill[%d]\n",
rc, v->swtail);
break;
}
}
wil_w(wil, v->hwtail, v->swtail);
return rc;
}
/*
* Pass Rx packet to the netif. Update statistics.
* Called in softirq context (NAPI poll).
*/
void wil_netif_rx_any(struct sk_buff *skb, struct net_device *ndev)
{
gro_result_t rc = GRO_NORMAL;
struct wil6210_priv *wil = ndev_to_wil(ndev);
struct wireless_dev *wdev = wil_to_wdev(wil);
unsigned int len = skb->len;
struct vring_rx_desc *d = wil_skb_rxdesc(skb);
int cid = wil_rxdesc_cid(d); /* always 0..7, no need to check */
struct ethhdr *eth = (void *)skb->data;
/* here looking for DA, not A1, thus Rxdesc's 'mcast' indication
* is not suitable, need to look at data
*/
int mcast = is_multicast_ether_addr(eth->h_dest);
struct wil_net_stats *stats = &wil->sta[cid].stats;
struct sk_buff *xmit_skb = NULL;
static const char * const gro_res_str[] = {
[GRO_MERGED] = "GRO_MERGED",
[GRO_MERGED_FREE] = "GRO_MERGED_FREE",
[GRO_HELD] = "GRO_HELD",
[GRO_NORMAL] = "GRO_NORMAL",
[GRO_DROP] = "GRO_DROP",
};
if (ndev->features & NETIF_F_RXHASH)
/* fake L4 to ensure it won't be re-calculated later
* set hash to any non-zero value to activate rps
* mechanism, core will be chosen according
* to user-level rps configuration.
*/
skb_set_hash(skb, 1, PKT_HASH_TYPE_L4);
skb_orphan(skb);
if (wdev->iftype == NL80211_IFTYPE_AP && !wil->ap_isolate) {
if (mcast) {
/* send multicast frames both to higher layers in
* local net stack and back to the wireless medium
*/
xmit_skb = skb_copy(skb, GFP_ATOMIC);
} else {
int xmit_cid = wil_find_cid(wil, eth->h_dest);
if (xmit_cid >= 0) {
/* The destination station is associated to
* this AP (in this VLAN), so send the frame
* directly to it and do not pass it to local
* net stack.
*/
xmit_skb = skb;
skb = NULL;
}
}
}
if (xmit_skb) {
/* Send to wireless media and increase priority by 256 to
* keep the received priority instead of reclassifying
* the frame (see cfg80211_classify8021d).
*/
xmit_skb->dev = ndev;
xmit_skb->priority += 256;
xmit_skb->protocol = htons(ETH_P_802_3);
skb_reset_network_header(xmit_skb);
skb_reset_mac_header(xmit_skb);
wil_dbg_txrx(wil, "Rx -> Tx %d bytes\n", len);
dev_queue_xmit(xmit_skb);
}
if (skb) { /* deliver to local stack */
skb->protocol = eth_type_trans(skb, ndev);
rc = napi_gro_receive(&wil->napi_rx, skb);
wil_dbg_txrx(wil, "Rx complete %d bytes => %s\n",
len, gro_res_str[rc]);
}
/* statistics. rc set to GRO_NORMAL for AP bridging */
if (unlikely(rc == GRO_DROP)) {
ndev->stats.rx_dropped++;
stats->rx_dropped++;
wil_dbg_txrx(wil, "Rx drop %d bytes\n", len);
} else {
ndev->stats.rx_packets++;
stats->rx_packets++;
ndev->stats.rx_bytes += len;
stats->rx_bytes += len;
if (mcast)
ndev->stats.multicast++;
}
}
/**
* Proceed all completed skb's from Rx VRING
*
* Safe to call from NAPI poll, i.e. softirq with interrupts enabled
*/
void wil_rx_handle(struct wil6210_priv *wil, int *quota)
{
struct net_device *ndev = wil_to_ndev(wil);
struct vring *v = &wil->vring_rx;
struct sk_buff *skb;
if (unlikely(!v->va)) {
wil_err(wil, "Rx IRQ while Rx not yet initialized\n");
return;
}
wil_dbg_txrx(wil, "%s()\n", __func__);
while ((*quota > 0) && (NULL != (skb = wil_vring_reap_rx(wil, v)))) {
(*quota)--;
if (wil->wdev->iftype == NL80211_IFTYPE_MONITOR) {
skb->dev = ndev;
skb_reset_mac_header(skb);
skb->ip_summed = CHECKSUM_UNNECESSARY;
skb->pkt_type = PACKET_OTHERHOST;
skb->protocol = htons(ETH_P_802_2);
wil_netif_rx_any(skb, ndev);
} else {
wil_rx_reorder(wil, skb);
}
}
wil_rx_refill(wil, v->size);
}
int wil_rx_init(struct wil6210_priv *wil, u16 size)
{
struct vring *vring = &wil->vring_rx;
int rc;
wil_dbg_misc(wil, "%s()\n", __func__);
if (vring->va) {
wil_err(wil, "Rx ring already allocated\n");
return -EINVAL;
}
vring->size = size;
rc = wil_vring_alloc(wil, vring);
if (rc)
return rc;
rc = wmi_rx_chain_add(wil, vring);
if (rc)
goto err_free;
rc = wil_rx_refill(wil, vring->size);
if (rc)
goto err_free;
return 0;
err_free:
wil_vring_free(wil, vring, 0);
return rc;
}
void wil_rx_fini(struct wil6210_priv *wil)
{
struct vring *vring = &wil->vring_rx;
wil_dbg_misc(wil, "%s()\n", __func__);
if (vring->va)
wil_vring_free(wil, vring, 0);
}
int wil_vring_init_tx(struct wil6210_priv *wil, int id, int size,
int cid, int tid)
{
int rc;
struct wmi_vring_cfg_cmd cmd = {
.action = cpu_to_le32(WMI_VRING_CMD_ADD),
.vring_cfg = {
.tx_sw_ring = {
.max_mpdu_size =
cpu_to_le16(wil_mtu2macbuf(mtu_max)),
.ring_size = cpu_to_le16(size),
},
.ringid = id,
.cidxtid = mk_cidxtid(cid, tid),
.encap_trans_type = WMI_VRING_ENC_TYPE_802_3,
.mac_ctrl = 0,
.to_resolution = 0,
.agg_max_wsize = 0,
.schd_params = {
.priority = cpu_to_le16(0),
.timeslot_us = cpu_to_le16(0xfff),
},
},
};
struct {
struct wil6210_mbox_hdr_wmi wmi;
struct wmi_vring_cfg_done_event cmd;
} __packed reply;
struct vring *vring = &wil->vring_tx[id];
struct vring_tx_data *txdata = &wil->vring_tx_data[id];
wil_dbg_misc(wil, "%s() max_mpdu_size %d\n", __func__,
cmd.vring_cfg.tx_sw_ring.max_mpdu_size);
if (vring->va) {
wil_err(wil, "Tx ring [%d] already allocated\n", id);
rc = -EINVAL;
goto out;
}
memset(txdata, 0, sizeof(*txdata));
spin_lock_init(&txdata->lock);
vring->size = size;
rc = wil_vring_alloc(wil, vring);
if (rc)
goto out;
wil->vring2cid_tid[id][0] = cid;
wil->vring2cid_tid[id][1] = tid;
cmd.vring_cfg.tx_sw_ring.ring_mem_base = cpu_to_le64(vring->pa);
if (!wil->privacy)
txdata->dot1x_open = true;
rc = wmi_call(wil, WMI_VRING_CFG_CMDID, &cmd, sizeof(cmd),
WMI_VRING_CFG_DONE_EVENTID, &reply, sizeof(reply), 100);
if (rc)
goto out_free;
if (reply.cmd.status != WMI_FW_STATUS_SUCCESS) {
wil_err(wil, "Tx config failed, status 0x%02x\n",
reply.cmd.status);
rc = -EINVAL;
goto out_free;
}
vring->hwtail = le32_to_cpu(reply.cmd.tx_vring_tail_ptr);
txdata->enabled = 1;
if (txdata->dot1x_open && (agg_wsize >= 0))
wil_addba_tx_request(wil, id, agg_wsize);
return 0;
out_free:
txdata->dot1x_open = false;
txdata->enabled = 0;
wil_vring_free(wil, vring, 1);
out:
return rc;
}
int wil_vring_init_bcast(struct wil6210_priv *wil, int id, int size)
{
int rc;
struct wmi_bcast_vring_cfg_cmd cmd = {
.action = cpu_to_le32(WMI_VRING_CMD_ADD),
.vring_cfg = {
.tx_sw_ring = {
.max_mpdu_size =
cpu_to_le16(wil_mtu2macbuf(mtu_max)),
.ring_size = cpu_to_le16(size),
},
.ringid = id,
.encap_trans_type = WMI_VRING_ENC_TYPE_802_3,
},
};
struct {
struct wil6210_mbox_hdr_wmi wmi;
struct wmi_vring_cfg_done_event cmd;
} __packed reply;
struct vring *vring = &wil->vring_tx[id];
struct vring_tx_data *txdata = &wil->vring_tx_data[id];
wil_dbg_misc(wil, "%s() max_mpdu_size %d\n", __func__,
cmd.vring_cfg.tx_sw_ring.max_mpdu_size);
if (vring->va) {
wil_err(wil, "Tx ring [%d] already allocated\n", id);
rc = -EINVAL;
goto out;
}
memset(txdata, 0, sizeof(*txdata));
spin_lock_init(&txdata->lock);
vring->size = size;
rc = wil_vring_alloc(wil, vring);
if (rc)
goto out;
wil->vring2cid_tid[id][0] = WIL6210_MAX_CID; /* CID */
wil->vring2cid_tid[id][1] = 0; /* TID */
cmd.vring_cfg.tx_sw_ring.ring_mem_base = cpu_to_le64(vring->pa);
if (!wil->privacy)
txdata->dot1x_open = true;
rc = wmi_call(wil, WMI_BCAST_VRING_CFG_CMDID, &cmd, sizeof(cmd),
WMI_VRING_CFG_DONE_EVENTID, &reply, sizeof(reply), 100);
if (rc)
goto out_free;
if (reply.cmd.status != WMI_FW_STATUS_SUCCESS) {
wil_err(wil, "Tx config failed, status 0x%02x\n",
reply.cmd.status);
rc = -EINVAL;
goto out_free;
}
vring->hwtail = le32_to_cpu(reply.cmd.tx_vring_tail_ptr);
txdata->enabled = 1;
return 0;
out_free:
txdata->enabled = 0;
txdata->dot1x_open = false;
wil_vring_free(wil, vring, 1);
out:
return rc;
}
void wil_vring_fini_tx(struct wil6210_priv *wil, int id)
{
struct vring *vring = &wil->vring_tx[id];
struct vring_tx_data *txdata = &wil->vring_tx_data[id];
WARN_ON(!mutex_is_locked(&wil->mutex));
if (!vring->va)
return;
wil_dbg_misc(wil, "%s() id=%d\n", __func__, id);
spin_lock_bh(&txdata->lock);
txdata->dot1x_open = false;
txdata->enabled = 0; /* no Tx can be in progress or start anew */
spin_unlock_bh(&txdata->lock);
/* make sure NAPI won't touch this vring */
if (test_bit(wil_status_napi_en, wil->status))
napi_synchronize(&wil->napi_tx);
wil_vring_free(wil, vring, 1);
memset(txdata, 0, sizeof(*txdata));
}
static struct vring *wil_find_tx_ucast(struct wil6210_priv *wil,
struct sk_buff *skb)
{
int i;
struct ethhdr *eth = (void *)skb->data;
int cid = wil_find_cid(wil, eth->h_dest);
if (cid < 0)
return NULL;
/* TODO: fix for multiple TID */
for (i = 0; i < ARRAY_SIZE(wil->vring2cid_tid); i++) {
if (!wil->vring_tx_data[i].dot1x_open &&
(skb->protocol != cpu_to_be16(ETH_P_PAE)))
continue;
if (wil->vring2cid_tid[i][0] == cid) {
struct vring *v = &wil->vring_tx[i];
wil_dbg_txrx(wil, "%s(%pM) -> [%d]\n",
__func__, eth->h_dest, i);
if (v->va) {
return v;
} else {
wil_dbg_txrx(wil, "vring[%d] not valid\n", i);
return NULL;
}
}
}
return NULL;
}
static int wil_tx_vring(struct wil6210_priv *wil, struct vring *vring,
struct sk_buff *skb);
static struct vring *wil_find_tx_vring_sta(struct wil6210_priv *wil,
struct sk_buff *skb)
{
struct vring *v;
int i;
u8 cid;
/* In the STA mode, it is expected to have only 1 VRING
* for the AP we connected to.
* find 1-st vring eligible for this skb and use it.
*/
for (i = 0; i < WIL6210_MAX_TX_RINGS; i++) {
v = &wil->vring_tx[i];
if (!v->va)
continue;
cid = wil->vring2cid_tid[i][0];
if (cid >= WIL6210_MAX_CID) /* skip BCAST */
continue;
if (!wil->vring_tx_data[i].dot1x_open &&
(skb->protocol != cpu_to_be16(ETH_P_PAE)))
continue;
wil_dbg_txrx(wil, "Tx -> ring %d\n", i);
return v;
}
wil_dbg_txrx(wil, "Tx while no vrings active?\n");
return NULL;
}
/* Use one of 2 strategies:
*
* 1. New (real broadcast):
* use dedicated broadcast vring
* 2. Old (pseudo-DMS):
* Find 1-st vring and return it;
* duplicate skb and send it to other active vrings;
* in all cases override dest address to unicast peer's address
* Use old strategy when new is not supported yet:
* - for PBSS
*/
static struct vring *wil_find_tx_bcast_1(struct wil6210_priv *wil,
struct sk_buff *skb)
{
struct vring *v;
int i = wil->bcast_vring;
if (i < 0)
return NULL;
v = &wil->vring_tx[i];
if (!v->va)
return NULL;
if (!wil->vring_tx_data[i].dot1x_open &&
(skb->protocol != cpu_to_be16(ETH_P_PAE)))
return NULL;
return v;
}
static void wil_set_da_for_vring(struct wil6210_priv *wil,
struct sk_buff *skb, int vring_index)
{
struct ethhdr *eth = (void *)skb->data;
int cid = wil->vring2cid_tid[vring_index][0];
ether_addr_copy(eth->h_dest, wil->sta[cid].addr);
}
static struct vring *wil_find_tx_bcast_2(struct wil6210_priv *wil,
struct sk_buff *skb)
{
struct vring *v, *v2;
struct sk_buff *skb2;
int i;
u8 cid;
struct ethhdr *eth = (void *)skb->data;
char *src = eth->h_source;
/* find 1-st vring eligible for data */
for (i = 0; i < WIL6210_MAX_TX_RINGS; i++) {
v = &wil->vring_tx[i];
if (!v->va)
continue;
cid = wil->vring2cid_tid[i][0];
if (cid >= WIL6210_MAX_CID) /* skip BCAST */
continue;
if (!wil->vring_tx_data[i].dot1x_open &&
(skb->protocol != cpu_to_be16(ETH_P_PAE)))
continue;
/* don't Tx back to source when re-routing Rx->Tx at the AP */
if (0 == memcmp(wil->sta[cid].addr, src, ETH_ALEN))
continue;
goto found;
}
wil_dbg_txrx(wil, "Tx while no vrings active?\n");
return NULL;
found:
wil_dbg_txrx(wil, "BCAST -> ring %d\n", i);
wil_set_da_for_vring(wil, skb, i);
/* find other active vrings and duplicate skb for each */
for (i++; i < WIL6210_MAX_TX_RINGS; i++) {
v2 = &wil->vring_tx[i];
if (!v2->va)
continue;
cid = wil->vring2cid_tid[i][0];
if (cid >= WIL6210_MAX_CID) /* skip BCAST */
continue;
if (!wil->vring_tx_data[i].dot1x_open &&
(skb->protocol != cpu_to_be16(ETH_P_PAE)))
continue;
if (0 == memcmp(wil->sta[cid].addr, src, ETH_ALEN))
continue;
skb2 = skb_copy(skb, GFP_ATOMIC);
if (skb2) {
wil_dbg_txrx(wil, "BCAST DUP -> ring %d\n", i);
wil_set_da_for_vring(wil, skb2, i);
wil_tx_vring(wil, v2, skb2);
} else {
wil_err(wil, "skb_copy failed\n");
}
}
return v;
}
static struct vring *wil_find_tx_bcast(struct wil6210_priv *wil,
struct sk_buff *skb)
{
struct wireless_dev *wdev = wil->wdev;
if (wdev->iftype != NL80211_IFTYPE_AP)
return wil_find_tx_bcast_2(wil, skb);
return wil_find_tx_bcast_1(wil, skb);
}
static int wil_tx_desc_map(struct vring_tx_desc *d, dma_addr_t pa, u32 len,
int vring_index)
{
wil_desc_addr_set(&d->dma.addr, pa);
d->dma.ip_length = 0;
/* 0..6: mac_length; 7:ip_version 0-IP6 1-IP4*/
d->dma.b11 = 0/*14 | BIT(7)*/;
d->dma.error = 0;
d->dma.status = 0; /* BIT(0) should be 0 for HW_OWNED */
d->dma.length = cpu_to_le16((u16)len);
d->dma.d0 = (vring_index << DMA_CFG_DESC_TX_0_QID_POS);
d->mac.d[0] = 0;
d->mac.d[1] = 0;
d->mac.d[2] = 0;
d->mac.ucode_cmd = 0;
/* translation type: 0 - bypass; 1 - 802.3; 2 - native wifi */
d->mac.d[2] = BIT(MAC_CFG_DESC_TX_2_SNAP_HDR_INSERTION_EN_POS) |
(1 << MAC_CFG_DESC_TX_2_L2_TRANSLATION_TYPE_POS);
return 0;
}
static inline
void wil_tx_desc_set_nr_frags(struct vring_tx_desc *d, int nr_frags)
{
d->mac.d[2] |= (nr_frags << MAC_CFG_DESC_TX_2_NUM_OF_DESCRIPTORS_POS);
}
/**
* Sets the descriptor @d up for csum and/or TSO offloading. The corresponding
* @skb is used to obtain the protocol and headers length.
* @tso_desc_type is a descriptor type for TSO: 0 - a header, 1 - first data,
* 2 - middle, 3 - last descriptor.
*/
static void wil_tx_desc_offload_setup_tso(struct vring_tx_desc *d,
struct sk_buff *skb,
int tso_desc_type, bool is_ipv4,
int tcp_hdr_len, int skb_net_hdr_len)
{
d->dma.b11 = ETH_HLEN; /* MAC header length */
d->dma.b11 |= is_ipv4 << DMA_CFG_DESC_TX_OFFLOAD_CFG_L3T_IPV4_POS;
d->dma.d0 |= (2 << DMA_CFG_DESC_TX_0_L4_TYPE_POS);
/* L4 header len: TCP header length */
d->dma.d0 |= (tcp_hdr_len & DMA_CFG_DESC_TX_0_L4_LENGTH_MSK);
/* Setup TSO: bit and desc type */
d->dma.d0 |= (BIT(DMA_CFG_DESC_TX_0_TCP_SEG_EN_POS)) |
(tso_desc_type << DMA_CFG_DESC_TX_0_SEGMENT_BUF_DETAILS_POS);
d->dma.d0 |= (is_ipv4 << DMA_CFG_DESC_TX_0_IPV4_CHECKSUM_EN_POS);
d->dma.ip_length = skb_net_hdr_len;
/* Enable TCP/UDP checksum */
d->dma.d0 |= BIT(DMA_CFG_DESC_TX_0_TCP_UDP_CHECKSUM_EN_POS);
/* Calculate pseudo-header */
d->dma.d0 |= BIT(DMA_CFG_DESC_TX_0_PSEUDO_HEADER_CALC_EN_POS);
}
/**
* Sets the descriptor @d up for csum. The corresponding
* @skb is used to obtain the protocol and headers length.
* Returns the protocol: 0 - not TCP, 1 - TCPv4, 2 - TCPv6.
* Note, if d==NULL, the function only returns the protocol result.
*
* It is very similar to previous wil_tx_desc_offload_setup_tso. This
* is "if unrolling" to optimize the critical path.
*/
static int wil_tx_desc_offload_setup(struct vring_tx_desc *d,
struct sk_buff *skb){
int protocol;
if (skb->ip_summed != CHECKSUM_PARTIAL)
return 0;
d->dma.b11 = ETH_HLEN; /* MAC header length */
switch (skb->protocol) {
case cpu_to_be16(ETH_P_IP):
protocol = ip_hdr(skb)->protocol;
d->dma.b11 |= BIT(DMA_CFG_DESC_TX_OFFLOAD_CFG_L3T_IPV4_POS);
break;
case cpu_to_be16(ETH_P_IPV6):
protocol = ipv6_hdr(skb)->nexthdr;
break;
default:
return -EINVAL;
}
switch (protocol) {
case IPPROTO_TCP:
d->dma.d0 |= (2 << DMA_CFG_DESC_TX_0_L4_TYPE_POS);
/* L4 header len: TCP header length */
d->dma.d0 |=
(tcp_hdrlen(skb) & DMA_CFG_DESC_TX_0_L4_LENGTH_MSK);
break;
case IPPROTO_UDP:
/* L4 header len: UDP header length */
d->dma.d0 |=
(sizeof(struct udphdr) & DMA_CFG_DESC_TX_0_L4_LENGTH_MSK);
break;
default:
return -EINVAL;
}
d->dma.ip_length = skb_network_header_len(skb);
/* Enable TCP/UDP checksum */
d->dma.d0 |= BIT(DMA_CFG_DESC_TX_0_TCP_UDP_CHECKSUM_EN_POS);
/* Calculate pseudo-header */
d->dma.d0 |= BIT(DMA_CFG_DESC_TX_0_PSEUDO_HEADER_CALC_EN_POS);
return 0;
}
static inline void wil_tx_last_desc(struct vring_tx_desc *d)
{
d->dma.d0 |= BIT(DMA_CFG_DESC_TX_0_CMD_EOP_POS) |
BIT(DMA_CFG_DESC_TX_0_CMD_MARK_WB_POS) |
BIT(DMA_CFG_DESC_TX_0_CMD_DMA_IT_POS);
}
static inline void wil_set_tx_desc_last_tso(volatile struct vring_tx_desc *d)
{
d->dma.d0 |= wil_tso_type_lst <<
DMA_CFG_DESC_TX_0_SEGMENT_BUF_DETAILS_POS;
}
static int __wil_tx_vring_tso(struct wil6210_priv *wil, struct vring *vring,
struct sk_buff *skb)
{
struct device *dev = wil_to_dev(wil);
/* point to descriptors in shared memory */
volatile struct vring_tx_desc *_desc = NULL, *_hdr_desc,
*_first_desc = NULL;
/* pointers to shadow descriptors */
struct vring_tx_desc desc_mem, hdr_desc_mem, first_desc_mem,
*d = &hdr_desc_mem, *hdr_desc = &hdr_desc_mem,
*first_desc = &first_desc_mem;
/* pointer to shadow descriptors' context */
struct wil_ctx *hdr_ctx, *first_ctx = NULL;
int descs_used = 0; /* total number of used descriptors */
int sg_desc_cnt = 0; /* number of descriptors for current mss*/
u32 swhead = vring->swhead;
int used, avail = wil_vring_avail_tx(vring);
int nr_frags = skb_shinfo(skb)->nr_frags;
int min_desc_required = nr_frags + 1;
int mss = skb_shinfo(skb)->gso_size; /* payload size w/o headers */
int f, len, hdrlen, headlen;
int vring_index = vring - wil->vring_tx;
struct vring_tx_data *txdata = &wil->vring_tx_data[vring_index];
uint i = swhead;
dma_addr_t pa;
const skb_frag_t *frag = NULL;
int rem_data = mss;
int lenmss;
int hdr_compensation_need = true;
int desc_tso_type = wil_tso_type_first;
bool is_ipv4;
int tcp_hdr_len;
int skb_net_hdr_len;
int gso_type;
int rc = -EINVAL;
wil_dbg_txrx(wil, "%s() %d bytes to vring %d\n",
__func__, skb->len, vring_index);
if (unlikely(!txdata->enabled))
return -EINVAL;
/* A typical page 4K is 3-4 payloads, we assume each fragment
* is a full payload, that's how min_desc_required has been
* calculated. In real we might need more or less descriptors,
* this is the initial check only.
*/
if (unlikely(avail < min_desc_required)) {
wil_err_ratelimited(wil,
"TSO: Tx ring[%2d] full. No space for %d fragments\n",
vring_index, min_desc_required);
return -ENOMEM;
}
/* Header Length = MAC header len + IP header len + TCP header len*/
hdrlen = ETH_HLEN +
(int)skb_network_header_len(skb) +
tcp_hdrlen(skb);
gso_type = skb_shinfo(skb)->gso_type & (SKB_GSO_TCPV6 | SKB_GSO_TCPV4);
switch (gso_type) {
case SKB_GSO_TCPV4:
/* TCP v4, zero out the IP length and IPv4 checksum fields
* as required by the offloading doc
*/
ip_hdr(skb)->tot_len = 0;
ip_hdr(skb)->check = 0;
is_ipv4 = true;
break;
case SKB_GSO_TCPV6:
/* TCP v6, zero out the payload length */
ipv6_hdr(skb)->payload_len = 0;
is_ipv4 = false;
break;
default:
/* other than TCPv4 or TCPv6 types are not supported for TSO.
* It is also illegal for both to be set simultaneously
*/
return -EINVAL;
}
if (skb->ip_summed != CHECKSUM_PARTIAL)
return -EINVAL;
/* tcp header length and skb network header length are fixed for all
* packet's descriptors - read then once here
*/
tcp_hdr_len = tcp_hdrlen(skb);
skb_net_hdr_len = skb_network_header_len(skb);
_hdr_desc = &vring->va[i].tx;
pa = dma_map_single(dev, skb->data, hdrlen, DMA_TO_DEVICE);
if (unlikely(dma_mapping_error(dev, pa))) {
wil_err(wil, "TSO: Skb head DMA map error\n");
goto err_exit;
}
wil_tx_desc_map(hdr_desc, pa, hdrlen, vring_index);
wil_tx_desc_offload_setup_tso(hdr_desc, skb, wil_tso_type_hdr, is_ipv4,
tcp_hdr_len, skb_net_hdr_len);
wil_tx_last_desc(hdr_desc);
vring->ctx[i].mapped_as = wil_mapped_as_single;
hdr_ctx = &vring->ctx[i];
descs_used++;
headlen = skb_headlen(skb) - hdrlen;
for (f = headlen ? -1 : 0; f < nr_frags; f++) {
if (headlen) {
len = headlen;
wil_dbg_txrx(wil, "TSO: process skb head, len %u\n",
len);
} else {
frag = &skb_shinfo(skb)->frags[f];
len = frag->size;
wil_dbg_txrx(wil, "TSO: frag[%d]: len %u\n", f, len);
}
while (len) {
wil_dbg_txrx(wil,
"TSO: len %d, rem_data %d, descs_used %d\n",
len, rem_data, descs_used);
if (descs_used == avail) {
wil_err_ratelimited(wil, "TSO: ring overflow\n");
rc = -ENOMEM;
goto mem_error;
}
lenmss = min_t(int, rem_data, len);
i = (swhead + descs_used) % vring->size;
wil_dbg_txrx(wil, "TSO: lenmss %d, i %d\n", lenmss, i);
if (!headlen) {
pa = skb_frag_dma_map(dev, frag,
frag->size - len, lenmss,
DMA_TO_DEVICE);
vring->ctx[i].mapped_as = wil_mapped_as_page;
} else {
pa = dma_map_single(dev,
skb->data +
skb_headlen(skb) - headlen,
lenmss,
DMA_TO_DEVICE);
vring->ctx[i].mapped_as = wil_mapped_as_single;
headlen -= lenmss;
}
if (unlikely(dma_mapping_error(dev, pa))) {
wil_err(wil, "TSO: DMA map page error\n");
goto mem_error;
}
_desc = &vring->va[i].tx;
if (!_first_desc) {
_first_desc = _desc;
first_ctx = &vring->ctx[i];
d = first_desc;
} else {
d = &desc_mem;
}
wil_tx_desc_map(d, pa, lenmss, vring_index);
wil_tx_desc_offload_setup_tso(d, skb, desc_tso_type,
is_ipv4, tcp_hdr_len,
skb_net_hdr_len);
/* use tso_type_first only once */
desc_tso_type = wil_tso_type_mid;
descs_used++; /* desc used so far */
sg_desc_cnt++; /* desc used for this segment */
len -= lenmss;
rem_data -= lenmss;
wil_dbg_txrx(wil,
"TSO: len %d, rem_data %d, descs_used %d, sg_desc_cnt %d,\n",
len, rem_data, descs_used, sg_desc_cnt);
/* Close the segment if reached mss size or last frag*/
if (rem_data == 0 || (f == nr_frags - 1 && len == 0)) {
if (hdr_compensation_need) {
/* first segment include hdr desc for
* release
*/
hdr_ctx->nr_frags = sg_desc_cnt;
wil_tx_desc_set_nr_frags(first_desc,
sg_desc_cnt +
1);
hdr_compensation_need = false;
} else {
wil_tx_desc_set_nr_frags(first_desc,
sg_desc_cnt);
}
first_ctx->nr_frags = sg_desc_cnt - 1;
wil_tx_last_desc(d);
/* first descriptor may also be the last
* for this mss - make sure not to copy
* it twice
*/
if (first_desc != d)
*_first_desc = *first_desc;
/*last descriptor will be copied at the end
* of this TS processing
*/
if (f < nr_frags - 1 || len > 0)
*_desc = *d;
rem_data = mss;
_first_desc = NULL;
sg_desc_cnt = 0;
} else if (first_desc != d) /* update mid descriptor */
*_desc = *d;
}
}
/* first descriptor may also be the last.
* in this case d pointer is invalid
*/
if (_first_desc == _desc)
d = first_desc;
/* Last data descriptor */
wil_set_tx_desc_last_tso(d);
*_desc = *d;
/* Fill the total number of descriptors in first desc (hdr)*/
wil_tx_desc_set_nr_frags(hdr_desc, descs_used);
*_hdr_desc = *hdr_desc;
/* hold reference to skb
* to prevent skb release before accounting
* in case of immediate "tx done"
*/
vring->ctx[i].skb = skb_get(skb);
/* performance monitoring */
used = wil_vring_used_tx(vring);
if (wil_val_in_range(vring_idle_trsh,
used, used + descs_used)) {
txdata->idle += get_cycles() - txdata->last_idle;
wil_dbg_txrx(wil, "Ring[%2d] not idle %d -> %d\n",
vring_index, used, used + descs_used);
}
/* advance swhead */
wil_vring_advance_head(vring, descs_used);
wil_dbg_txrx(wil, "TSO: Tx swhead %d -> %d\n", swhead, vring->swhead);
/* make sure all writes to descriptors (shared memory) are done before
* committing them to HW
*/
wmb();
wil_w(wil, vring->hwtail, vring->swhead);
return 0;
mem_error:
while (descs_used > 0) {
struct wil_ctx *ctx;
i = (swhead + descs_used) % vring->size;
d = (struct vring_tx_desc *)&vring->va[i].tx;
_desc = &vring->va[i].tx;
*d = *_desc;
_desc->dma.status = TX_DMA_STATUS_DU;
ctx = &vring->ctx[i];
wil_txdesc_unmap(dev, d, ctx);
memset(ctx, 0, sizeof(*ctx));
descs_used--;
}
err_exit:
return rc;
}
static int __wil_tx_vring(struct wil6210_priv *wil, struct vring *vring,
struct sk_buff *skb)
{
struct device *dev = wil_to_dev(wil);
struct vring_tx_desc dd, *d = ⅆ
volatile struct vring_tx_desc *_d;
u32 swhead = vring->swhead;
int avail = wil_vring_avail_tx(vring);
int nr_frags = skb_shinfo(skb)->nr_frags;
uint f = 0;
int vring_index = vring - wil->vring_tx;
struct vring_tx_data *txdata = &wil->vring_tx_data[vring_index];
uint i = swhead;
dma_addr_t pa;
int used;
bool mcast = (vring_index == wil->bcast_vring);
uint len = skb_headlen(skb);
wil_dbg_txrx(wil, "%s() %d bytes to vring %d\n",
__func__, skb->len, vring_index);
if (unlikely(!txdata->enabled))
return -EINVAL;
if (unlikely(avail < 1 + nr_frags)) {
wil_err_ratelimited(wil,
"Tx ring[%2d] full. No space for %d fragments\n",
vring_index, 1 + nr_frags);
return -ENOMEM;
}
_d = &vring->va[i].tx;
pa = dma_map_single(dev, skb->data, skb_headlen(skb), DMA_TO_DEVICE);
wil_dbg_txrx(wil, "Tx[%2d] skb %d bytes 0x%p -> %pad\n", vring_index,
skb_headlen(skb), skb->data, &pa);
wil_hex_dump_txrx("Tx ", DUMP_PREFIX_OFFSET, 16, 1,
skb->data, skb_headlen(skb), false);
if (unlikely(dma_mapping_error(dev, pa)))
return -EINVAL;
vring->ctx[i].mapped_as = wil_mapped_as_single;
/* 1-st segment */
wil_tx_desc_map(d, pa, len, vring_index);
if (unlikely(mcast)) {
d->mac.d[0] |= BIT(MAC_CFG_DESC_TX_0_MCS_EN_POS); /* MCS 0 */
if (unlikely(len > WIL_BCAST_MCS0_LIMIT)) /* set MCS 1 */
d->mac.d[0] |= (1 << MAC_CFG_DESC_TX_0_MCS_INDEX_POS);
}
/* Process TCP/UDP checksum offloading */
if (unlikely(wil_tx_desc_offload_setup(d, skb))) {
wil_err(wil, "Tx[%2d] Failed to set cksum, drop packet\n",
vring_index);
goto dma_error;
}
vring->ctx[i].nr_frags = nr_frags;
wil_tx_desc_set_nr_frags(d, nr_frags + 1);
/* middle segments */
for (; f < nr_frags; f++) {
const struct skb_frag_struct *frag =
&skb_shinfo(skb)->frags[f];
int len = skb_frag_size(frag);
*_d = *d;
wil_dbg_txrx(wil, "Tx[%2d] desc[%4d]\n", vring_index, i);
wil_hex_dump_txrx("TxD ", DUMP_PREFIX_NONE, 32, 4,
(const void *)d, sizeof(*d), false);
i = (swhead + f + 1) % vring->size;
_d = &vring->va[i].tx;
pa = skb_frag_dma_map(dev, frag, 0, skb_frag_size(frag),
DMA_TO_DEVICE);
if (unlikely(dma_mapping_error(dev, pa))) {
wil_err(wil, "Tx[%2d] failed to map fragment\n",
vring_index);
goto dma_error;
}
vring->ctx[i].mapped_as = wil_mapped_as_page;
wil_tx_desc_map(d, pa, len, vring_index);
/* no need to check return code -
* if it succeeded for 1-st descriptor,
* it will succeed here too
*/
wil_tx_desc_offload_setup(d, skb);
}
/* for the last seg only */
d->dma.d0 |= BIT(DMA_CFG_DESC_TX_0_CMD_EOP_POS);
d->dma.d0 |= BIT(DMA_CFG_DESC_TX_0_CMD_MARK_WB_POS);
d->dma.d0 |= BIT(DMA_CFG_DESC_TX_0_CMD_DMA_IT_POS);
*_d = *d;
wil_dbg_txrx(wil, "Tx[%2d] desc[%4d]\n", vring_index, i);
wil_hex_dump_txrx("TxD ", DUMP_PREFIX_NONE, 32, 4,
(const void *)d, sizeof(*d), false);
/* hold reference to skb
* to prevent skb release before accounting
* in case of immediate "tx done"
*/
vring->ctx[i].skb = skb_get(skb);
/* performance monitoring */
used = wil_vring_used_tx(vring);
if (wil_val_in_range(vring_idle_trsh,
used, used + nr_frags + 1)) {
txdata->idle += get_cycles() - txdata->last_idle;
wil_dbg_txrx(wil, "Ring[%2d] not idle %d -> %d\n",
vring_index, used, used + nr_frags + 1);
}
/* advance swhead */
wil_vring_advance_head(vring, nr_frags + 1);
wil_dbg_txrx(wil, "Tx[%2d] swhead %d -> %d\n", vring_index, swhead,
vring->swhead);
trace_wil6210_tx(vring_index, swhead, skb->len, nr_frags);
/* make sure all writes to descriptors (shared memory) are done before
* committing them to HW
*/
wmb();
wil_w(wil, vring->hwtail, vring->swhead);
return 0;
dma_error:
/* unmap what we have mapped */
nr_frags = f + 1; /* frags mapped + one for skb head */
for (f = 0; f < nr_frags; f++) {
struct wil_ctx *ctx;
i = (swhead + f) % vring->size;
ctx = &vring->ctx[i];
_d = &vring->va[i].tx;
*d = *_d;
_d->dma.status = TX_DMA_STATUS_DU;
wil_txdesc_unmap(dev, d, ctx);
memset(ctx, 0, sizeof(*ctx));
}
return -EINVAL;
}
static int wil_tx_vring(struct wil6210_priv *wil, struct vring *vring,
struct sk_buff *skb)
{
int vring_index = vring - wil->vring_tx;
struct vring_tx_data *txdata = &wil->vring_tx_data[vring_index];
int rc;
spin_lock(&txdata->lock);
rc = (skb_is_gso(skb) ? __wil_tx_vring_tso : __wil_tx_vring)
(wil, vring, skb);
spin_unlock(&txdata->lock);
return rc;
}
netdev_tx_t wil_start_xmit(struct sk_buff *skb, struct net_device *ndev)
{
struct wil6210_priv *wil = ndev_to_wil(ndev);
struct ethhdr *eth = (void *)skb->data;
bool bcast = is_multicast_ether_addr(eth->h_dest);
struct vring *vring;
static bool pr_once_fw;
int rc;
wil_dbg_txrx(wil, "%s()\n", __func__);
if (unlikely(!test_bit(wil_status_fwready, wil->status))) {
if (!pr_once_fw) {
wil_err(wil, "FW not ready\n");
pr_once_fw = true;
}
goto drop;
}
if (unlikely(!test_bit(wil_status_fwconnected, wil->status))) {
wil_err_ratelimited(wil, "FW not connected\n");
goto drop;
}
if (unlikely(wil->wdev->iftype == NL80211_IFTYPE_MONITOR)) {
wil_err(wil, "Xmit in monitor mode not supported\n");
goto drop;
}
pr_once_fw = false;
/* find vring */
if (wil->wdev->iftype == NL80211_IFTYPE_STATION) {
/* in STA mode (ESS), all to same VRING */
vring = wil_find_tx_vring_sta(wil, skb);
} else { /* direct communication, find matching VRING */
vring = bcast ? wil_find_tx_bcast(wil, skb) :
wil_find_tx_ucast(wil, skb);
}
if (unlikely(!vring)) {
wil_dbg_txrx(wil, "No Tx VRING found for %pM\n", eth->h_dest);
goto drop;
}
/* set up vring entry */
rc = wil_tx_vring(wil, vring, skb);
/* do we still have enough room in the vring? */
if (unlikely(wil_vring_avail_tx(vring) < wil_vring_wmark_low(vring))) {
netif_tx_stop_all_queues(wil_to_ndev(wil));
wil_dbg_txrx(wil, "netif_tx_stop : ring full\n");
}
switch (rc) {
case 0:
/* statistics will be updated on the tx_complete */
dev_kfree_skb_any(skb);
return NETDEV_TX_OK;
case -ENOMEM:
return NETDEV_TX_BUSY;
default:
break; /* goto drop; */
}
drop:
ndev->stats.tx_dropped++;
dev_kfree_skb_any(skb);
return NET_XMIT_DROP;
}
static inline bool wil_need_txstat(struct sk_buff *skb)
{
struct ethhdr *eth = (void *)skb->data;
return is_unicast_ether_addr(eth->h_dest) && skb->sk &&
(skb_shinfo(skb)->tx_flags & SKBTX_WIFI_STATUS);
}
static inline void wil_consume_skb(struct sk_buff *skb, bool acked)
{
if (unlikely(wil_need_txstat(skb)))
skb_complete_wifi_ack(skb, acked);
else
acked ? dev_consume_skb_any(skb) : dev_kfree_skb_any(skb);
}
/**
* Clean up transmitted skb's from the Tx VRING
*
* Return number of descriptors cleared
*
* Safe to call from IRQ
*/
int wil_tx_complete(struct wil6210_priv *wil, int ringid)
{
struct net_device *ndev = wil_to_ndev(wil);
struct device *dev = wil_to_dev(wil);
struct vring *vring = &wil->vring_tx[ringid];
struct vring_tx_data *txdata = &wil->vring_tx_data[ringid];
int done = 0;
int cid = wil->vring2cid_tid[ringid][0];
struct wil_net_stats *stats = NULL;
volatile struct vring_tx_desc *_d;
int used_before_complete;
int used_new;
if (unlikely(!vring->va)) {
wil_err(wil, "Tx irq[%d]: vring not initialized\n", ringid);
return 0;
}
if (unlikely(!txdata->enabled)) {
wil_info(wil, "Tx irq[%d]: vring disabled\n", ringid);
return 0;
}
wil_dbg_txrx(wil, "%s(%d)\n", __func__, ringid);
used_before_complete = wil_vring_used_tx(vring);
if (cid < WIL6210_MAX_CID)
stats = &wil->sta[cid].stats;
while (!wil_vring_is_empty(vring)) {
int new_swtail;
struct wil_ctx *ctx = &vring->ctx[vring->swtail];
/**
* For the fragmented skb, HW will set DU bit only for the
* last fragment. look for it.
* In TSO the first DU will include hdr desc
*/
int lf = (vring->swtail + ctx->nr_frags) % vring->size;
/* TODO: check we are not past head */
_d = &vring->va[lf].tx;
if (unlikely(!(_d->dma.status & TX_DMA_STATUS_DU)))
break;
new_swtail = (lf + 1) % vring->size;
while (vring->swtail != new_swtail) {
struct vring_tx_desc dd, *d = ⅆ
u16 dmalen;
struct sk_buff *skb;
ctx = &vring->ctx[vring->swtail];
skb = ctx->skb;
_d = &vring->va[vring->swtail].tx;
*d = *_d;
dmalen = le16_to_cpu(d->dma.length);
trace_wil6210_tx_done(ringid, vring->swtail, dmalen,
d->dma.error);
wil_dbg_txrx(wil,
"TxC[%2d][%3d] : %d bytes, status 0x%02x err 0x%02x\n",
ringid, vring->swtail, dmalen,
d->dma.status, d->dma.error);
wil_hex_dump_txrx("TxCD ", DUMP_PREFIX_NONE, 32, 4,
(const void *)d, sizeof(*d), false);
wil_txdesc_unmap(dev, d, ctx);
if (skb) {
if (likely(d->dma.error == 0)) {
ndev->stats.tx_packets++;
ndev->stats.tx_bytes += skb->len;
if (stats) {
stats->tx_packets++;
stats->tx_bytes += skb->len;
}
} else {
ndev->stats.tx_errors++;
if (stats)
stats->tx_errors++;
}
wil_consume_skb(skb, d->dma.error == 0);
}
memset(ctx, 0, sizeof(*ctx));
/* There is no need to touch HW descriptor:
* - ststus bit TX_DMA_STATUS_DU is set by design,
* so hardware will not try to process this desc.,
* - rest of descriptor will be initialized on Tx.
*/
vring->swtail = wil_vring_next_tail(vring);
done++;
}
}
/* performance monitoring */
used_new = wil_vring_used_tx(vring);
if (wil_val_in_range(vring_idle_trsh,
used_new, used_before_complete)) {
wil_dbg_txrx(wil, "Ring[%2d] idle %d -> %d\n",
ringid, used_before_complete, used_new);
txdata->last_idle = get_cycles();
}
if (wil_vring_avail_tx(vring) > wil_vring_wmark_high(vring)) {
wil_dbg_txrx(wil, "netif_tx_wake : ring not full\n");
netif_tx_wake_all_queues(wil_to_ndev(wil));
}
return done;
}
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