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af_packet.c
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af_packet.c
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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* INET An implementation of the TCP/IP protocol suite for the LINUX
* operating system. INET is implemented using the BSD Socket
* interface as the means of communication with the user level.
*
* PACKET - implements raw packet sockets.
*
* Authors: Ross Biro
* Fred N. van Kempen, <[email protected]>
* Alan Cox, <[email protected]>
*
* Fixes:
* Alan Cox : verify_area() now used correctly
* Alan Cox : new skbuff lists, look ma no backlogs!
* Alan Cox : tidied skbuff lists.
* Alan Cox : Now uses generic datagram routines I
* added. Also fixed the peek/read crash
* from all old Linux datagram code.
* Alan Cox : Uses the improved datagram code.
* Alan Cox : Added NULL's for socket options.
* Alan Cox : Re-commented the code.
* Alan Cox : Use new kernel side addressing
* Rob Janssen : Correct MTU usage.
* Dave Platt : Counter leaks caused by incorrect
* interrupt locking and some slightly
* dubious gcc output. Can you read
* compiler: it said _VOLATILE_
* Richard Kooijman : Timestamp fixes.
* Alan Cox : New buffers. Use sk->mac.raw.
* Alan Cox : sendmsg/recvmsg support.
* Alan Cox : Protocol setting support
* Alexey Kuznetsov : Untied from IPv4 stack.
* Cyrus Durgin : Fixed kerneld for kmod.
* Michal Ostrowski : Module initialization cleanup.
* Ulises Alonso : Frame number limit removal and
* packet_set_ring memory leak.
* Eric Biederman : Allow for > 8 byte hardware addresses.
* The convention is that longer addresses
* will simply extend the hardware address
* byte arrays at the end of sockaddr_ll
* and packet_mreq.
* Johann Baudy : Added TX RING.
* Chetan Loke : Implemented TPACKET_V3 block abstraction
* layer.
* Copyright (C) 2011, <[email protected]>
*/
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/ethtool.h>
#include <linux/filter.h>
#include <linux/types.h>
#include <linux/mm.h>
#include <linux/capability.h>
#include <linux/fcntl.h>
#include <linux/socket.h>
#include <linux/in.h>
#include <linux/inet.h>
#include <linux/netdevice.h>
#include <linux/if_packet.h>
#include <linux/wireless.h>
#include <linux/kernel.h>
#include <linux/kmod.h>
#include <linux/slab.h>
#include <linux/vmalloc.h>
#include <net/net_namespace.h>
#include <net/ip.h>
#include <net/protocol.h>
#include <linux/skbuff.h>
#include <net/sock.h>
#include <linux/errno.h>
#include <linux/timer.h>
#include <linux/uaccess.h>
#include <asm/ioctls.h>
#include <asm/page.h>
#include <asm/cacheflush.h>
#include <asm/io.h>
#include <linux/proc_fs.h>
#include <linux/seq_file.h>
#include <linux/poll.h>
#include <linux/module.h>
#include <linux/init.h>
#include <linux/mutex.h>
#include <linux/if_vlan.h>
#include <linux/virtio_net.h>
#include <linux/errqueue.h>
#include <linux/net_tstamp.h>
#include <linux/percpu.h>
#ifdef CONFIG_INET
#include <net/inet_common.h>
#endif
#include <linux/bpf.h>
#include <net/compat.h>
#include <linux/netfilter_netdev.h>
#include "internal.h"
/*
Assumptions:
- If the device has no dev->header_ops->create, there is no LL header
visible above the device. In this case, its hard_header_len should be 0.
The device may prepend its own header internally. In this case, its
needed_headroom should be set to the space needed for it to add its
internal header.
For example, a WiFi driver pretending to be an Ethernet driver should
set its hard_header_len to be the Ethernet header length, and set its
needed_headroom to be (the real WiFi header length - the fake Ethernet
header length).
- packet socket receives packets with pulled ll header,
so that SOCK_RAW should push it back.
On receive:
-----------
Incoming, dev_has_header(dev) == true
mac_header -> ll header
data -> data
Outgoing, dev_has_header(dev) == true
mac_header -> ll header
data -> ll header
Incoming, dev_has_header(dev) == false
mac_header -> data
However drivers often make it point to the ll header.
This is incorrect because the ll header should be invisible to us.
data -> data
Outgoing, dev_has_header(dev) == false
mac_header -> data. ll header is invisible to us.
data -> data
Resume
If dev_has_header(dev) == false we are unable to restore the ll header,
because it is invisible to us.
On transmit:
------------
dev_has_header(dev) == true
mac_header -> ll header
data -> ll header
dev_has_header(dev) == false (ll header is invisible to us)
mac_header -> data
data -> data
We should set network_header on output to the correct position,
packet classifier depends on it.
*/
/* Private packet socket structures. */
/* identical to struct packet_mreq except it has
* a longer address field.
*/
struct packet_mreq_max {
int mr_ifindex;
unsigned short mr_type;
unsigned short mr_alen;
unsigned char mr_address[MAX_ADDR_LEN];
};
union tpacket_uhdr {
struct tpacket_hdr *h1;
struct tpacket2_hdr *h2;
struct tpacket3_hdr *h3;
void *raw;
};
static int packet_set_ring(struct sock *sk, union tpacket_req_u *req_u,
int closing, int tx_ring);
#define V3_ALIGNMENT (8)
#define BLK_HDR_LEN (ALIGN(sizeof(struct tpacket_block_desc), V3_ALIGNMENT))
#define BLK_PLUS_PRIV(sz_of_priv) \
(BLK_HDR_LEN + ALIGN((sz_of_priv), V3_ALIGNMENT))
#define BLOCK_STATUS(x) ((x)->hdr.bh1.block_status)
#define BLOCK_NUM_PKTS(x) ((x)->hdr.bh1.num_pkts)
#define BLOCK_O2FP(x) ((x)->hdr.bh1.offset_to_first_pkt)
#define BLOCK_LEN(x) ((x)->hdr.bh1.blk_len)
#define BLOCK_SNUM(x) ((x)->hdr.bh1.seq_num)
#define BLOCK_O2PRIV(x) ((x)->offset_to_priv)
struct packet_sock;
static int tpacket_rcv(struct sk_buff *skb, struct net_device *dev,
struct packet_type *pt, struct net_device *orig_dev);
static void *packet_previous_frame(struct packet_sock *po,
struct packet_ring_buffer *rb,
int status);
static void packet_increment_head(struct packet_ring_buffer *buff);
static int prb_curr_blk_in_use(struct tpacket_block_desc *);
static void *prb_dispatch_next_block(struct tpacket_kbdq_core *,
struct packet_sock *);
static void prb_retire_current_block(struct tpacket_kbdq_core *,
struct packet_sock *, unsigned int status);
static int prb_queue_frozen(struct tpacket_kbdq_core *);
static void prb_open_block(struct tpacket_kbdq_core *,
struct tpacket_block_desc *);
static void prb_retire_rx_blk_timer_expired(struct timer_list *);
static void _prb_refresh_rx_retire_blk_timer(struct tpacket_kbdq_core *);
static void prb_fill_rxhash(struct tpacket_kbdq_core *, struct tpacket3_hdr *);
static void prb_clear_rxhash(struct tpacket_kbdq_core *,
struct tpacket3_hdr *);
static void prb_fill_vlan_info(struct tpacket_kbdq_core *,
struct tpacket3_hdr *);
static void packet_flush_mclist(struct sock *sk);
static u16 packet_pick_tx_queue(struct sk_buff *skb);
struct packet_skb_cb {
union {
struct sockaddr_pkt pkt;
union {
/* Trick: alias skb original length with
* ll.sll_family and ll.protocol in order
* to save room.
*/
unsigned int origlen;
struct sockaddr_ll ll;
};
} sa;
};
#define vio_le() virtio_legacy_is_little_endian()
#define PACKET_SKB_CB(__skb) ((struct packet_skb_cb *)((__skb)->cb))
#define GET_PBDQC_FROM_RB(x) ((struct tpacket_kbdq_core *)(&(x)->prb_bdqc))
#define GET_PBLOCK_DESC(x, bid) \
((struct tpacket_block_desc *)((x)->pkbdq[(bid)].buffer))
#define GET_CURR_PBLOCK_DESC_FROM_CORE(x) \
((struct tpacket_block_desc *)((x)->pkbdq[(x)->kactive_blk_num].buffer))
#define GET_NEXT_PRB_BLK_NUM(x) \
(((x)->kactive_blk_num < ((x)->knum_blocks-1)) ? \
((x)->kactive_blk_num+1) : 0)
static void __fanout_unlink(struct sock *sk, struct packet_sock *po);
static void __fanout_link(struct sock *sk, struct packet_sock *po);
#ifdef CONFIG_NETFILTER_EGRESS
static noinline struct sk_buff *nf_hook_direct_egress(struct sk_buff *skb)
{
struct sk_buff *next, *head = NULL, *tail;
int rc;
rcu_read_lock();
for (; skb != NULL; skb = next) {
next = skb->next;
skb_mark_not_on_list(skb);
if (!nf_hook_egress(skb, &rc, skb->dev))
continue;
if (!head)
head = skb;
else
tail->next = skb;
tail = skb;
}
rcu_read_unlock();
return head;
}
#endif
static int packet_xmit(const struct packet_sock *po, struct sk_buff *skb)
{
if (!packet_sock_flag(po, PACKET_SOCK_QDISC_BYPASS))
return dev_queue_xmit(skb);
#ifdef CONFIG_NETFILTER_EGRESS
if (nf_hook_egress_active()) {
skb = nf_hook_direct_egress(skb);
if (!skb)
return NET_XMIT_DROP;
}
#endif
return dev_direct_xmit(skb, packet_pick_tx_queue(skb));
}
static struct net_device *packet_cached_dev_get(struct packet_sock *po)
{
struct net_device *dev;
rcu_read_lock();
dev = rcu_dereference(po->cached_dev);
dev_hold(dev);
rcu_read_unlock();
return dev;
}
static void packet_cached_dev_assign(struct packet_sock *po,
struct net_device *dev)
{
rcu_assign_pointer(po->cached_dev, dev);
}
static void packet_cached_dev_reset(struct packet_sock *po)
{
RCU_INIT_POINTER(po->cached_dev, NULL);
}
static u16 packet_pick_tx_queue(struct sk_buff *skb)
{
struct net_device *dev = skb->dev;
const struct net_device_ops *ops = dev->netdev_ops;
int cpu = raw_smp_processor_id();
u16 queue_index;
#ifdef CONFIG_XPS
skb->sender_cpu = cpu + 1;
#endif
skb_record_rx_queue(skb, cpu % dev->real_num_tx_queues);
if (ops->ndo_select_queue) {
queue_index = ops->ndo_select_queue(dev, skb, NULL);
queue_index = netdev_cap_txqueue(dev, queue_index);
} else {
queue_index = netdev_pick_tx(dev, skb, NULL);
}
return queue_index;
}
/* __register_prot_hook must be invoked through register_prot_hook
* or from a context in which asynchronous accesses to the packet
* socket is not possible (packet_create()).
*/
static void __register_prot_hook(struct sock *sk)
{
struct packet_sock *po = pkt_sk(sk);
if (!packet_sock_flag(po, PACKET_SOCK_RUNNING)) {
if (po->fanout)
__fanout_link(sk, po);
else
dev_add_pack(&po->prot_hook);
sock_hold(sk);
packet_sock_flag_set(po, PACKET_SOCK_RUNNING, 1);
}
}
static void register_prot_hook(struct sock *sk)
{
lockdep_assert_held_once(&pkt_sk(sk)->bind_lock);
__register_prot_hook(sk);
}
/* If the sync parameter is true, we will temporarily drop
* the po->bind_lock and do a synchronize_net to make sure no
* asynchronous packet processing paths still refer to the elements
* of po->prot_hook. If the sync parameter is false, it is the
* callers responsibility to take care of this.
*/
static void __unregister_prot_hook(struct sock *sk, bool sync)
{
struct packet_sock *po = pkt_sk(sk);
lockdep_assert_held_once(&po->bind_lock);
packet_sock_flag_set(po, PACKET_SOCK_RUNNING, 0);
if (po->fanout)
__fanout_unlink(sk, po);
else
__dev_remove_pack(&po->prot_hook);
__sock_put(sk);
if (sync) {
spin_unlock(&po->bind_lock);
synchronize_net();
spin_lock(&po->bind_lock);
}
}
static void unregister_prot_hook(struct sock *sk, bool sync)
{
struct packet_sock *po = pkt_sk(sk);
if (packet_sock_flag(po, PACKET_SOCK_RUNNING))
__unregister_prot_hook(sk, sync);
}
static inline struct page * __pure pgv_to_page(void *addr)
{
if (is_vmalloc_addr(addr))
return vmalloc_to_page(addr);
return virt_to_page(addr);
}
static void __packet_set_status(struct packet_sock *po, void *frame, int status)
{
union tpacket_uhdr h;
/* WRITE_ONCE() are paired with READ_ONCE() in __packet_get_status */
h.raw = frame;
switch (po->tp_version) {
case TPACKET_V1:
WRITE_ONCE(h.h1->tp_status, status);
flush_dcache_page(pgv_to_page(&h.h1->tp_status));
break;
case TPACKET_V2:
WRITE_ONCE(h.h2->tp_status, status);
flush_dcache_page(pgv_to_page(&h.h2->tp_status));
break;
case TPACKET_V3:
WRITE_ONCE(h.h3->tp_status, status);
flush_dcache_page(pgv_to_page(&h.h3->tp_status));
break;
default:
WARN(1, "TPACKET version not supported.\n");
BUG();
}
smp_wmb();
}
static int __packet_get_status(const struct packet_sock *po, void *frame)
{
union tpacket_uhdr h;
smp_rmb();
/* READ_ONCE() are paired with WRITE_ONCE() in __packet_set_status */
h.raw = frame;
switch (po->tp_version) {
case TPACKET_V1:
flush_dcache_page(pgv_to_page(&h.h1->tp_status));
return READ_ONCE(h.h1->tp_status);
case TPACKET_V2:
flush_dcache_page(pgv_to_page(&h.h2->tp_status));
return READ_ONCE(h.h2->tp_status);
case TPACKET_V3:
flush_dcache_page(pgv_to_page(&h.h3->tp_status));
return READ_ONCE(h.h3->tp_status);
default:
WARN(1, "TPACKET version not supported.\n");
BUG();
return 0;
}
}
static __u32 tpacket_get_timestamp(struct sk_buff *skb, struct timespec64 *ts,
unsigned int flags)
{
struct skb_shared_hwtstamps *shhwtstamps = skb_hwtstamps(skb);
if (shhwtstamps &&
(flags & SOF_TIMESTAMPING_RAW_HARDWARE) &&
ktime_to_timespec64_cond(shhwtstamps->hwtstamp, ts))
return TP_STATUS_TS_RAW_HARDWARE;
if ((flags & SOF_TIMESTAMPING_SOFTWARE) &&
ktime_to_timespec64_cond(skb_tstamp(skb), ts))
return TP_STATUS_TS_SOFTWARE;
return 0;
}
static __u32 __packet_set_timestamp(struct packet_sock *po, void *frame,
struct sk_buff *skb)
{
union tpacket_uhdr h;
struct timespec64 ts;
__u32 ts_status;
if (!(ts_status = tpacket_get_timestamp(skb, &ts, READ_ONCE(po->tp_tstamp))))
return 0;
h.raw = frame;
/*
* versions 1 through 3 overflow the timestamps in y2106, since they
* all store the seconds in a 32-bit unsigned integer.
* If we create a version 4, that should have a 64-bit timestamp,
* either 64-bit seconds + 32-bit nanoseconds, or just 64-bit
* nanoseconds.
*/
switch (po->tp_version) {
case TPACKET_V1:
h.h1->tp_sec = ts.tv_sec;
h.h1->tp_usec = ts.tv_nsec / NSEC_PER_USEC;
break;
case TPACKET_V2:
h.h2->tp_sec = ts.tv_sec;
h.h2->tp_nsec = ts.tv_nsec;
break;
case TPACKET_V3:
h.h3->tp_sec = ts.tv_sec;
h.h3->tp_nsec = ts.tv_nsec;
break;
default:
WARN(1, "TPACKET version not supported.\n");
BUG();
}
/* one flush is safe, as both fields always lie on the same cacheline */
flush_dcache_page(pgv_to_page(&h.h1->tp_sec));
smp_wmb();
return ts_status;
}
static void *packet_lookup_frame(const struct packet_sock *po,
const struct packet_ring_buffer *rb,
unsigned int position,
int status)
{
unsigned int pg_vec_pos, frame_offset;
union tpacket_uhdr h;
pg_vec_pos = position / rb->frames_per_block;
frame_offset = position % rb->frames_per_block;
h.raw = rb->pg_vec[pg_vec_pos].buffer +
(frame_offset * rb->frame_size);
if (status != __packet_get_status(po, h.raw))
return NULL;
return h.raw;
}
static void *packet_current_frame(struct packet_sock *po,
struct packet_ring_buffer *rb,
int status)
{
return packet_lookup_frame(po, rb, rb->head, status);
}
static u16 vlan_get_tci(struct sk_buff *skb, struct net_device *dev)
{
u8 *skb_orig_data = skb->data;
int skb_orig_len = skb->len;
struct vlan_hdr vhdr, *vh;
unsigned int header_len;
if (!dev)
return 0;
/* In the SOCK_DGRAM scenario, skb data starts at the network
* protocol, which is after the VLAN headers. The outer VLAN
* header is at the hard_header_len offset in non-variable
* length link layer headers. If it's a VLAN device, the
* min_header_len should be used to exclude the VLAN header
* size.
*/
if (dev->min_header_len == dev->hard_header_len)
header_len = dev->hard_header_len;
else if (is_vlan_dev(dev))
header_len = dev->min_header_len;
else
return 0;
skb_push(skb, skb->data - skb_mac_header(skb));
vh = skb_header_pointer(skb, header_len, sizeof(vhdr), &vhdr);
if (skb_orig_data != skb->data) {
skb->data = skb_orig_data;
skb->len = skb_orig_len;
}
if (unlikely(!vh))
return 0;
return ntohs(vh->h_vlan_TCI);
}
static __be16 vlan_get_protocol_dgram(struct sk_buff *skb)
{
__be16 proto = skb->protocol;
if (unlikely(eth_type_vlan(proto))) {
u8 *skb_orig_data = skb->data;
int skb_orig_len = skb->len;
skb_push(skb, skb->data - skb_mac_header(skb));
proto = __vlan_get_protocol(skb, proto, NULL);
if (skb_orig_data != skb->data) {
skb->data = skb_orig_data;
skb->len = skb_orig_len;
}
}
return proto;
}
static void prb_del_retire_blk_timer(struct tpacket_kbdq_core *pkc)
{
del_timer_sync(&pkc->retire_blk_timer);
}
static void prb_shutdown_retire_blk_timer(struct packet_sock *po,
struct sk_buff_head *rb_queue)
{
struct tpacket_kbdq_core *pkc;
pkc = GET_PBDQC_FROM_RB(&po->rx_ring);
spin_lock_bh(&rb_queue->lock);
pkc->delete_blk_timer = 1;
spin_unlock_bh(&rb_queue->lock);
prb_del_retire_blk_timer(pkc);
}
static void prb_setup_retire_blk_timer(struct packet_sock *po)
{
struct tpacket_kbdq_core *pkc;
pkc = GET_PBDQC_FROM_RB(&po->rx_ring);
timer_setup(&pkc->retire_blk_timer, prb_retire_rx_blk_timer_expired,
0);
pkc->retire_blk_timer.expires = jiffies;
}
static int prb_calc_retire_blk_tmo(struct packet_sock *po,
int blk_size_in_bytes)
{
struct net_device *dev;
unsigned int mbits, div;
struct ethtool_link_ksettings ecmd;
int err;
rtnl_lock();
dev = __dev_get_by_index(sock_net(&po->sk), po->ifindex);
if (unlikely(!dev)) {
rtnl_unlock();
return DEFAULT_PRB_RETIRE_TOV;
}
err = __ethtool_get_link_ksettings(dev, &ecmd);
rtnl_unlock();
if (err)
return DEFAULT_PRB_RETIRE_TOV;
/* If the link speed is so slow you don't really
* need to worry about perf anyways
*/
if (ecmd.base.speed < SPEED_1000 ||
ecmd.base.speed == SPEED_UNKNOWN)
return DEFAULT_PRB_RETIRE_TOV;
div = ecmd.base.speed / 1000;
mbits = (blk_size_in_bytes * 8) / (1024 * 1024);
if (div)
mbits /= div;
if (div)
return mbits + 1;
return mbits;
}
static void prb_init_ft_ops(struct tpacket_kbdq_core *p1,
union tpacket_req_u *req_u)
{
p1->feature_req_word = req_u->req3.tp_feature_req_word;
}
static void init_prb_bdqc(struct packet_sock *po,
struct packet_ring_buffer *rb,
struct pgv *pg_vec,
union tpacket_req_u *req_u)
{
struct tpacket_kbdq_core *p1 = GET_PBDQC_FROM_RB(rb);
struct tpacket_block_desc *pbd;
memset(p1, 0x0, sizeof(*p1));
p1->knxt_seq_num = 1;
p1->pkbdq = pg_vec;
pbd = (struct tpacket_block_desc *)pg_vec[0].buffer;
p1->pkblk_start = pg_vec[0].buffer;
p1->kblk_size = req_u->req3.tp_block_size;
p1->knum_blocks = req_u->req3.tp_block_nr;
p1->hdrlen = po->tp_hdrlen;
p1->version = po->tp_version;
p1->last_kactive_blk_num = 0;
po->stats.stats3.tp_freeze_q_cnt = 0;
if (req_u->req3.tp_retire_blk_tov)
p1->retire_blk_tov = req_u->req3.tp_retire_blk_tov;
else
p1->retire_blk_tov = prb_calc_retire_blk_tmo(po,
req_u->req3.tp_block_size);
p1->tov_in_jiffies = msecs_to_jiffies(p1->retire_blk_tov);
p1->blk_sizeof_priv = req_u->req3.tp_sizeof_priv;
rwlock_init(&p1->blk_fill_in_prog_lock);
p1->max_frame_len = p1->kblk_size - BLK_PLUS_PRIV(p1->blk_sizeof_priv);
prb_init_ft_ops(p1, req_u);
prb_setup_retire_blk_timer(po);
prb_open_block(p1, pbd);
}
/* Do NOT update the last_blk_num first.
* Assumes sk_buff_head lock is held.
*/
static void _prb_refresh_rx_retire_blk_timer(struct tpacket_kbdq_core *pkc)
{
mod_timer(&pkc->retire_blk_timer,
jiffies + pkc->tov_in_jiffies);
pkc->last_kactive_blk_num = pkc->kactive_blk_num;
}
/*
* Timer logic:
* 1) We refresh the timer only when we open a block.
* By doing this we don't waste cycles refreshing the timer
* on packet-by-packet basis.
*
* With a 1MB block-size, on a 1Gbps line, it will take
* i) ~8 ms to fill a block + ii) memcpy etc.
* In this cut we are not accounting for the memcpy time.
*
* So, if the user sets the 'tmo' to 10ms then the timer
* will never fire while the block is still getting filled
* (which is what we want). However, the user could choose
* to close a block early and that's fine.
*
* But when the timer does fire, we check whether or not to refresh it.
* Since the tmo granularity is in msecs, it is not too expensive
* to refresh the timer, lets say every '8' msecs.
* Either the user can set the 'tmo' or we can derive it based on
* a) line-speed and b) block-size.
* prb_calc_retire_blk_tmo() calculates the tmo.
*
*/
static void prb_retire_rx_blk_timer_expired(struct timer_list *t)
{
struct packet_sock *po =
from_timer(po, t, rx_ring.prb_bdqc.retire_blk_timer);
struct tpacket_kbdq_core *pkc = GET_PBDQC_FROM_RB(&po->rx_ring);
unsigned int frozen;
struct tpacket_block_desc *pbd;
spin_lock(&po->sk.sk_receive_queue.lock);
frozen = prb_queue_frozen(pkc);
pbd = GET_CURR_PBLOCK_DESC_FROM_CORE(pkc);
if (unlikely(pkc->delete_blk_timer))
goto out;
/* We only need to plug the race when the block is partially filled.
* tpacket_rcv:
* lock(); increment BLOCK_NUM_PKTS; unlock()
* copy_bits() is in progress ...
* timer fires on other cpu:
* we can't retire the current block because copy_bits
* is in progress.
*
*/
if (BLOCK_NUM_PKTS(pbd)) {
/* Waiting for skb_copy_bits to finish... */
write_lock(&pkc->blk_fill_in_prog_lock);
write_unlock(&pkc->blk_fill_in_prog_lock);
}
if (pkc->last_kactive_blk_num == pkc->kactive_blk_num) {
if (!frozen) {
if (!BLOCK_NUM_PKTS(pbd)) {
/* An empty block. Just refresh the timer. */
goto refresh_timer;
}
prb_retire_current_block(pkc, po, TP_STATUS_BLK_TMO);
if (!prb_dispatch_next_block(pkc, po))
goto refresh_timer;
else
goto out;
} else {
/* Case 1. Queue was frozen because user-space was
* lagging behind.
*/
if (prb_curr_blk_in_use(pbd)) {
/*
* Ok, user-space is still behind.
* So just refresh the timer.
*/
goto refresh_timer;
} else {
/* Case 2. queue was frozen,user-space caught up,
* now the link went idle && the timer fired.
* We don't have a block to close.So we open this
* block and restart the timer.
* opening a block thaws the queue,restarts timer
* Thawing/timer-refresh is a side effect.
*/
prb_open_block(pkc, pbd);
goto out;
}
}
}
refresh_timer:
_prb_refresh_rx_retire_blk_timer(pkc);
out:
spin_unlock(&po->sk.sk_receive_queue.lock);
}
static void prb_flush_block(struct tpacket_kbdq_core *pkc1,
struct tpacket_block_desc *pbd1, __u32 status)
{
/* Flush everything minus the block header */
#if ARCH_IMPLEMENTS_FLUSH_DCACHE_PAGE == 1
u8 *start, *end;
start = (u8 *)pbd1;
/* Skip the block header(we know header WILL fit in 4K) */
start += PAGE_SIZE;
end = (u8 *)PAGE_ALIGN((unsigned long)pkc1->pkblk_end);
for (; start < end; start += PAGE_SIZE)
flush_dcache_page(pgv_to_page(start));
smp_wmb();
#endif
/* Now update the block status. */
BLOCK_STATUS(pbd1) = status;
/* Flush the block header */
#if ARCH_IMPLEMENTS_FLUSH_DCACHE_PAGE == 1
start = (u8 *)pbd1;
flush_dcache_page(pgv_to_page(start));
smp_wmb();
#endif
}
/*
* Side effect:
*
* 1) flush the block
* 2) Increment active_blk_num
*
* Note:We DONT refresh the timer on purpose.
* Because almost always the next block will be opened.
*/
static void prb_close_block(struct tpacket_kbdq_core *pkc1,
struct tpacket_block_desc *pbd1,
struct packet_sock *po, unsigned int stat)
{
__u32 status = TP_STATUS_USER | stat;
struct tpacket3_hdr *last_pkt;
struct tpacket_hdr_v1 *h1 = &pbd1->hdr.bh1;
struct sock *sk = &po->sk;
if (atomic_read(&po->tp_drops))
status |= TP_STATUS_LOSING;
last_pkt = (struct tpacket3_hdr *)pkc1->prev;
last_pkt->tp_next_offset = 0;
/* Get the ts of the last pkt */
if (BLOCK_NUM_PKTS(pbd1)) {
h1->ts_last_pkt.ts_sec = last_pkt->tp_sec;
h1->ts_last_pkt.ts_nsec = last_pkt->tp_nsec;
} else {
/* Ok, we tmo'd - so get the current time.
*
* It shouldn't really happen as we don't close empty
* blocks. See prb_retire_rx_blk_timer_expired().
*/
struct timespec64 ts;
ktime_get_real_ts64(&ts);
h1->ts_last_pkt.ts_sec = ts.tv_sec;
h1->ts_last_pkt.ts_nsec = ts.tv_nsec;
}
smp_wmb();
/* Flush the block */
prb_flush_block(pkc1, pbd1, status);
sk->sk_data_ready(sk);
pkc1->kactive_blk_num = GET_NEXT_PRB_BLK_NUM(pkc1);
}
static void prb_thaw_queue(struct tpacket_kbdq_core *pkc)
{
pkc->reset_pending_on_curr_blk = 0;
}
/*
* Side effect of opening a block:
*
* 1) prb_queue is thawed.
* 2) retire_blk_timer is refreshed.
*
*/
static void prb_open_block(struct tpacket_kbdq_core *pkc1,
struct tpacket_block_desc *pbd1)
{
struct timespec64 ts;
struct tpacket_hdr_v1 *h1 = &pbd1->hdr.bh1;
smp_rmb();
/* We could have just memset this but we will lose the
* flexibility of making the priv area sticky
*/
BLOCK_SNUM(pbd1) = pkc1->knxt_seq_num++;
BLOCK_NUM_PKTS(pbd1) = 0;
BLOCK_LEN(pbd1) = BLK_PLUS_PRIV(pkc1->blk_sizeof_priv);
ktime_get_real_ts64(&ts);
h1->ts_first_pkt.ts_sec = ts.tv_sec;
h1->ts_first_pkt.ts_nsec = ts.tv_nsec;
pkc1->pkblk_start = (char *)pbd1;
pkc1->nxt_offset = pkc1->pkblk_start + BLK_PLUS_PRIV(pkc1->blk_sizeof_priv);
BLOCK_O2FP(pbd1) = (__u32)BLK_PLUS_PRIV(pkc1->blk_sizeof_priv);
BLOCK_O2PRIV(pbd1) = BLK_HDR_LEN;
pbd1->version = pkc1->version;
pkc1->prev = pkc1->nxt_offset;
pkc1->pkblk_end = pkc1->pkblk_start + pkc1->kblk_size;
prb_thaw_queue(pkc1);
_prb_refresh_rx_retire_blk_timer(pkc1);
smp_wmb();
}
/*
* Queue freeze logic:
* 1) Assume tp_block_nr = 8 blocks.
* 2) At time 't0', user opens Rx ring.
* 3) Some time past 't0', kernel starts filling blocks starting from 0 .. 7
* 4) user-space is either sleeping or processing block '0'.
* 5) tpacket_rcv is currently filling block '7', since there is no space left,
* it will close block-7,loop around and try to fill block '0'.
* call-flow:
* __packet_lookup_frame_in_block
* prb_retire_current_block()
* prb_dispatch_next_block()
* |->(BLOCK_STATUS == USER) evaluates to true
* 5.1) Since block-0 is currently in-use, we just freeze the queue.
* 6) Now there are two cases:
* 6.1) Link goes idle right after the queue is frozen.
* But remember, the last open_block() refreshed the timer.
* When this timer expires,it will refresh itself so that we can
* re-open block-0 in near future.
* 6.2) Link is busy and keeps on receiving packets. This is a simple
* case and __packet_lookup_frame_in_block will check if block-0
* is free and can now be re-used.
*/
static void prb_freeze_queue(struct tpacket_kbdq_core *pkc,
struct packet_sock *po)
{
pkc->reset_pending_on_curr_blk = 1;
po->stats.stats3.tp_freeze_q_cnt++;
}
#define TOTAL_PKT_LEN_INCL_ALIGN(length) (ALIGN((length), V3_ALIGNMENT))
/*
* If the next block is free then we will dispatch it
* and return a good offset.
* Else, we will freeze the queue.
* So, caller must check the return value.
*/
static void *prb_dispatch_next_block(struct tpacket_kbdq_core *pkc,
struct packet_sock *po)
{
struct tpacket_block_desc *pbd;
smp_rmb();
/* 1. Get current block num */
pbd = GET_CURR_PBLOCK_DESC_FROM_CORE(pkc);
/* 2. If this block is currently in_use then freeze the queue */
if (TP_STATUS_USER & BLOCK_STATUS(pbd)) {
prb_freeze_queue(pkc, po);
return NULL;
}
/*
* 3.
* open this block and return the offset where the first packet
* needs to get stored.