3 * Copyright 2001, 2002 by Robert Olsson <robert.olsson@its.uu.se>
4 * Uppsala University and
5 * Swedish University of Agricultural Sciences
7 * Alexey Kuznetsov <kuznet@ms2.inr.ac.ru>
8 * Ben Greear <greearb@candelatech.com>
9 * Jens Låås <jens.laas@data.slu.se>
11 * This program is free software; you can redistribute it and/or
12 * modify it under the terms of the GNU General Public License
13 * as published by the Free Software Foundation; either version
14 * 2 of the License, or (at your option) any later version.
17 * A tool for loading the network with preconfigurated packets.
18 * The tool is implemented as a linux module. Parameters are output
19 * device, delay (to hard_xmit), number of packets, and whether
20 * to use multiple SKBs or just the same one.
21 * pktgen uses the installed interface's output routine.
23 * Additional hacking by:
25 * Jens.Laas@data.slu.se
26 * Improved by ANK. 010120.
27 * Improved by ANK even more. 010212.
28 * MAC address typo fixed. 010417 --ro
29 * Integrated. 020301 --DaveM
30 * Added multiskb option 020301 --DaveM
31 * Scaling of results. 020417--sigurdur@linpro.no
32 * Significant re-work of the module:
33 * * Convert to threaded model to more efficiently be able to transmit
34 * and receive on multiple interfaces at once.
35 * * Converted many counters to __u64 to allow longer runs.
36 * * Allow configuration of ranges, like min/max IP address, MACs,
37 * and UDP-ports, for both source and destination, and can
38 * set to use a random distribution or sequentially walk the range.
39 * * Can now change most values after starting.
40 * * Place 12-byte packet in UDP payload with magic number,
41 * sequence number, and timestamp.
42 * * Add receiver code that detects dropped pkts, re-ordered pkts, and
43 * latencies (with micro-second) precision.
44 * * Add IOCTL interface to easily get counters & configuration.
45 * --Ben Greear <greearb@candelatech.com>
47 * Renamed multiskb to clone_skb and cleaned up sending core for two distinct
48 * skb modes. A clone_skb=0 mode for Ben "ranges" work and a clone_skb != 0
49 * as a "fastpath" with a configurable number of clones after alloc's.
50 * clone_skb=0 means all packets are allocated this also means ranges time
51 * stamps etc can be used. clone_skb=100 means 1 malloc is followed by 100
54 * Also moved to /proc/net/pktgen/
57 * Sept 10: Fixed threading/locking. Lots of bone-headed and more clever
58 * mistakes. Also merged in DaveM's patch in the -pre6 patch.
59 * --Ben Greear <greearb@candelatech.com>
61 * Integrated to 2.5.x 021029 --Lucio Maciel (luciomaciel@zipmail.com.br)
64 * 021124 Finished major redesign and rewrite for new functionality.
65 * See Documentation/networking/pktgen.txt for how to use this.
68 * For each CPU one thread/process is created at start. This process checks
69 * for running devices in the if_list and sends packets until count is 0 it
70 * also the thread checks the thread->control which is used for inter-process
71 * communication. controlling process "posts" operations to the threads this
72 * way. The if_lock should be possible to remove when add/rem_device is merged
75 * By design there should only be *one* "controlling" process. In practice
76 * multiple write accesses gives unpredictable result. Understood by "write"
77 * to /proc gives result code thats should be read be the "writer".
78 * For practical use this should be no problem.
80 * Note when adding devices to a specific CPU there good idea to also assign
81 * /proc/irq/XX/smp_affinity so TX-interrupts gets bound to the same CPU.
84 * Fix refcount off by one if first packet fails, potential null deref,
87 * First "ranges" functionality for ipv6 030726 --ro
89 * Included flow support. 030802 ANK.
91 * Fixed unaligned access on IA-64 Grant Grundler <grundler@parisc-linux.org>
93 * Remove if fix from added Harald Welte <laforge@netfilter.org> 040419
94 * ia64 compilation fix from Aron Griffis <aron@hp.com> 040604
96 * New xmit() return, do_div and misc clean up by Stephen Hemminger
97 * <shemminger@osdl.org> 040923
99 * Randy Dunlap fixed u64 printk compiler waring
101 * Remove FCS from BW calculation. Lennert Buytenhek <buytenh@wantstofly.org>
102 * New time handling. Lennert Buytenhek <buytenh@wantstofly.org> 041213
104 * Corrections from Nikolai Malykh (nmalykh@bilim.com)
105 * Removed unused flags F_SET_SRCMAC & F_SET_SRCIP 041230
107 * interruptible_sleep_on_timeout() replaced Nishanth Aravamudan <nacc@us.ibm.com>
110 * MPLS support by Steven Whitehouse <steve@chygwyn.com>
112 * 802.1Q/Q-in-Q support by Francesco Fondelli (FF) <francesco.fondelli@gmail.com>
114 * Fixed src_mac command to set source mac of packet to value specified in
115 * command by Adit Ranadive <adit.262@gmail.com>
119 #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
121 #include <linux/sys.h>
122 #include <linux/types.h>
123 #include <linux/module.h>
124 #include <linux/moduleparam.h>
125 #include <linux/kernel.h>
126 #include <linux/mutex.h>
127 #include <linux/sched.h>
128 #include <linux/slab.h>
129 #include <linux/vmalloc.h>
130 #include <linux/unistd.h>
131 #include <linux/string.h>
132 #include <linux/ptrace.h>
133 #include <linux/errno.h>
134 #include <linux/ioport.h>
135 #include <linux/interrupt.h>
136 #include <linux/capability.h>
137 #include <linux/hrtimer.h>
138 #include <linux/freezer.h>
139 #include <linux/delay.h>
140 #include <linux/timer.h>
141 #include <linux/list.h>
142 #include <linux/init.h>
143 #include <linux/skbuff.h>
144 #include <linux/netdevice.h>
145 #include <linux/inet.h>
146 #include <linux/inetdevice.h>
147 #include <linux/rtnetlink.h>
148 #include <linux/if_arp.h>
149 #include <linux/if_vlan.h>
150 #include <linux/in.h>
151 #include <linux/ip.h>
152 #include <linux/ipv6.h>
153 #include <linux/udp.h>
154 #include <linux/proc_fs.h>
155 #include <linux/seq_file.h>
156 #include <linux/wait.h>
157 #include <linux/etherdevice.h>
158 #include <linux/kthread.h>
159 #include <linux/prefetch.h>
160 #include <net/net_namespace.h>
161 #include <net/checksum.h>
162 #include <net/ipv6.h>
164 #include <net/ip6_checksum.h>
165 #include <net/addrconf.h>
167 #include <net/xfrm.h>
169 #include <net/netns/generic.h>
170 #include <asm/byteorder.h>
171 #include <linux/rcupdate.h>
172 #include <linux/bitops.h>
173 #include <linux/io.h>
174 #include <linux/timex.h>
175 #include <linux/uaccess.h>
177 #include <asm/div64.h> /* do_div */
179 #define VERSION "2.74"
180 #define IP_NAME_SZ 32
181 #define MAX_MPLS_LABELS 16 /* This is the max label stack depth */
182 #define MPLS_STACK_BOTTOM htonl(0x00000100)
184 #define func_enter() pr_debug("entering %s\n", __func__);
186 /* Device flag bits */
187 #define F_IPSRC_RND (1<<0) /* IP-Src Random */
188 #define F_IPDST_RND (1<<1) /* IP-Dst Random */
189 #define F_UDPSRC_RND (1<<2) /* UDP-Src Random */
190 #define F_UDPDST_RND (1<<3) /* UDP-Dst Random */
191 #define F_MACSRC_RND (1<<4) /* MAC-Src Random */
192 #define F_MACDST_RND (1<<5) /* MAC-Dst Random */
193 #define F_TXSIZE_RND (1<<6) /* Transmit size is random */
194 #define F_IPV6 (1<<7) /* Interface in IPV6 Mode */
195 #define F_MPLS_RND (1<<8) /* Random MPLS labels */
196 #define F_VID_RND (1<<9) /* Random VLAN ID */
197 #define F_SVID_RND (1<<10) /* Random SVLAN ID */
198 #define F_FLOW_SEQ (1<<11) /* Sequential flows */
199 #define F_IPSEC_ON (1<<12) /* ipsec on for flows */
200 #define F_QUEUE_MAP_RND (1<<13) /* queue map Random */
201 #define F_QUEUE_MAP_CPU (1<<14) /* queue map mirrors smp_processor_id() */
202 #define F_NODE (1<<15) /* Node memory alloc*/
203 #define F_UDPCSUM (1<<16) /* Include UDP checksum */
205 /* Thread control flag bits */
206 #define T_STOP (1<<0) /* Stop run */
207 #define T_RUN (1<<1) /* Start run */
208 #define T_REMDEVALL (1<<2) /* Remove all devs */
209 #define T_REMDEV (1<<3) /* Remove one dev */
211 /* If lock -- can be removed after some work */
212 #define if_lock(t) spin_lock(&(t->if_lock));
213 #define if_unlock(t) spin_unlock(&(t->if_lock));
215 /* Used to help with determining the pkts on receive */
216 #define PKTGEN_MAGIC 0xbe9be955
217 #define PG_PROC_DIR "pktgen"
218 #define PGCTRL "pgctrl"
220 #define MAX_CFLOWS 65536
222 #define VLAN_TAG_SIZE(x) ((x)->vlan_id == 0xffff ? 0 : 4)
223 #define SVLAN_TAG_SIZE(x) ((x)->svlan_id == 0xffff ? 0 : 4)
229 struct xfrm_state
*x
;
235 #define F_INIT (1<<0) /* flow has been initialized */
239 * Try to keep frequent/infrequent used vars. separated.
241 struct proc_dir_entry
*entry
; /* proc file */
242 struct pktgen_thread
*pg_thread
;/* the owner */
243 struct list_head list
; /* chaining in the thread's run-queue */
245 int running
; /* if false, the test will stop */
247 /* If min != max, then we will either do a linear iteration, or
248 * we will do a random selection from within the range.
251 int removal_mark
; /* non-zero => the device is marked for
252 * removal by worker thread */
256 int pkt_overhead
; /* overhead for MPLS, VLANs, IPSEC etc */
259 u64 delay
; /* nano-seconds */
261 __u64 count
; /* Default No packets to send */
262 __u64 sofar
; /* How many pkts we've sent so far */
263 __u64 tx_bytes
; /* How many bytes we've transmitted */
264 __u64 errors
; /* Errors when trying to transmit, */
266 /* runtime counters relating to clone_skb */
268 __u64 allocated_skbs
;
270 int last_ok
; /* Was last skb sent?
271 * Or a failed transmit of some sort?
272 * This will keep sequence numbers in order
277 u64 idle_acc
; /* nano-seconds */
282 * Use multiple SKBs during packet gen.
283 * If this number is greater than 1, then
284 * that many copies of the same packet will be
285 * sent before a new packet is allocated.
286 * If you want to send 1024 identical packets
287 * before creating a new packet,
288 * set clone_skb to 1024.
291 char dst_min
[IP_NAME_SZ
]; /* IP, ie 1.2.3.4 */
292 char dst_max
[IP_NAME_SZ
]; /* IP, ie 1.2.3.4 */
293 char src_min
[IP_NAME_SZ
]; /* IP, ie 1.2.3.4 */
294 char src_max
[IP_NAME_SZ
]; /* IP, ie 1.2.3.4 */
296 struct in6_addr in6_saddr
;
297 struct in6_addr in6_daddr
;
298 struct in6_addr cur_in6_daddr
;
299 struct in6_addr cur_in6_saddr
;
301 struct in6_addr min_in6_daddr
;
302 struct in6_addr max_in6_daddr
;
303 struct in6_addr min_in6_saddr
;
304 struct in6_addr max_in6_saddr
;
306 /* If we're doing ranges, random or incremental, then this
307 * defines the min/max for those ranges.
309 __be32 saddr_min
; /* inclusive, source IP address */
310 __be32 saddr_max
; /* exclusive, source IP address */
311 __be32 daddr_min
; /* inclusive, dest IP address */
312 __be32 daddr_max
; /* exclusive, dest IP address */
314 __u16 udp_src_min
; /* inclusive, source UDP port */
315 __u16 udp_src_max
; /* exclusive, source UDP port */
316 __u16 udp_dst_min
; /* inclusive, dest UDP port */
317 __u16 udp_dst_max
; /* exclusive, dest UDP port */
320 __u8 tos
; /* six MSB of (former) IPv4 TOS
321 are for dscp codepoint */
322 __u8 traffic_class
; /* ditto for the (former) Traffic Class in IPv6
323 (see RFC 3260, sec. 4) */
326 unsigned int nr_labels
; /* Depth of stack, 0 = no MPLS */
327 __be32 labels
[MAX_MPLS_LABELS
];
329 /* VLAN/SVLAN (802.1Q/Q-in-Q) */
332 __u16 vlan_id
; /* 0xffff means no vlan tag */
336 __u16 svlan_id
; /* 0xffff means no svlan tag */
338 __u32 src_mac_count
; /* How many MACs to iterate through */
339 __u32 dst_mac_count
; /* How many MACs to iterate through */
341 unsigned char dst_mac
[ETH_ALEN
];
342 unsigned char src_mac
[ETH_ALEN
];
344 __u32 cur_dst_mac_offset
;
345 __u32 cur_src_mac_offset
;
357 0x00, 0x80, 0xC8, 0x79, 0xB3, 0xCB,
359 We fill in SRC address later
360 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
364 __u16 pad
; /* pad out the hh struct to an even 16 bytes */
366 struct sk_buff
*skb
; /* skb we are to transmit next, used for when we
367 * are transmitting the same one multiple times
369 struct net_device
*odev
; /* The out-going device.
370 * Note that the device should have it's
371 * pg_info pointer pointing back to this
373 * Set when the user specifies the out-going
374 * device name (not when the inject is
375 * started as it used to do.)
378 struct flow_state
*flows
;
379 unsigned int cflows
; /* Concurrent flows (config) */
380 unsigned int lflow
; /* Flow length (config) */
381 unsigned int nflows
; /* accumulated flows (stats) */
382 unsigned int curfl
; /* current sequenced flow (state)*/
386 __u32 skb_priority
; /* skb priority field */
387 int node
; /* Memory node */
390 __u8 ipsmode
; /* IPSEC mode (config) */
391 __u8 ipsproto
; /* IPSEC type (config) */
393 struct dst_entry dst
;
394 struct dst_ops dstops
;
407 static int pg_net_id __read_mostly
;
411 struct proc_dir_entry
*proc_dir
;
412 struct list_head pktgen_threads
;
416 struct pktgen_thread
{
417 spinlock_t if_lock
; /* for list of devices */
418 struct list_head if_list
; /* All device here */
419 struct list_head th_list
;
420 struct task_struct
*tsk
;
423 /* Field for thread to receive "posted" events terminate,
429 wait_queue_head_t queue
;
430 struct completion start_done
;
431 struct pktgen_net
*net
;
437 static const char version
[] =
438 "Packet Generator for packet performance testing. "
439 "Version: " VERSION
"\n";
441 static int pktgen_remove_device(struct pktgen_thread
*t
, struct pktgen_dev
*i
);
442 static int pktgen_add_device(struct pktgen_thread
*t
, const char *ifname
);
443 static struct pktgen_dev
*pktgen_find_dev(struct pktgen_thread
*t
,
444 const char *ifname
, bool exact
);
445 static int pktgen_device_event(struct notifier_block
*, unsigned long, void *);
446 static void pktgen_run_all_threads(struct pktgen_net
*pn
);
447 static void pktgen_reset_all_threads(struct pktgen_net
*pn
);
448 static void pktgen_stop_all_threads_ifs(struct pktgen_net
*pn
);
450 static void pktgen_stop(struct pktgen_thread
*t
);
451 static void pktgen_clear_counters(struct pktgen_dev
*pkt_dev
);
453 /* Module parameters, defaults. */
454 static int pg_count_d __read_mostly
= 1000;
455 static int pg_delay_d __read_mostly
;
456 static int pg_clone_skb_d __read_mostly
;
457 static int debug __read_mostly
;
459 static DEFINE_MUTEX(pktgen_thread_lock
);
461 static struct notifier_block pktgen_notifier_block
= {
462 .notifier_call
= pktgen_device_event
,
466 * /proc handling functions
470 static int pgctrl_show(struct seq_file
*seq
, void *v
)
472 seq_puts(seq
, version
);
476 static ssize_t
pgctrl_write(struct file
*file
, const char __user
*buf
,
477 size_t count
, loff_t
*ppos
)
480 struct pktgen_net
*pn
= net_generic(current
->nsproxy
->net_ns
, pg_net_id
);
482 if (!capable(CAP_NET_ADMIN
))
488 if (count
> sizeof(data
))
489 count
= sizeof(data
);
491 if (copy_from_user(data
, buf
, count
))
494 data
[count
- 1] = 0; /* Strip trailing '\n' and terminate string */
496 if (!strcmp(data
, "stop"))
497 pktgen_stop_all_threads_ifs(pn
);
499 else if (!strcmp(data
, "start"))
500 pktgen_run_all_threads(pn
);
502 else if (!strcmp(data
, "reset"))
503 pktgen_reset_all_threads(pn
);
506 pr_warning("Unknown command: %s\n", data
);
511 static int pgctrl_open(struct inode
*inode
, struct file
*file
)
513 return single_open(file
, pgctrl_show
, PDE_DATA(inode
));
516 static const struct file_operations pktgen_fops
= {
517 .owner
= THIS_MODULE
,
521 .write
= pgctrl_write
,
522 .release
= single_release
,
525 static int pktgen_if_show(struct seq_file
*seq
, void *v
)
527 const struct pktgen_dev
*pkt_dev
= seq
->private;
532 "Params: count %llu min_pkt_size: %u max_pkt_size: %u\n",
533 (unsigned long long)pkt_dev
->count
, pkt_dev
->min_pkt_size
,
534 pkt_dev
->max_pkt_size
);
537 " frags: %d delay: %llu clone_skb: %d ifname: %s\n",
538 pkt_dev
->nfrags
, (unsigned long long) pkt_dev
->delay
,
539 pkt_dev
->clone_skb
, pkt_dev
->odevname
);
541 seq_printf(seq
, " flows: %u flowlen: %u\n", pkt_dev
->cflows
,
545 " queue_map_min: %u queue_map_max: %u\n",
546 pkt_dev
->queue_map_min
,
547 pkt_dev
->queue_map_max
);
549 if (pkt_dev
->skb_priority
)
550 seq_printf(seq
, " skb_priority: %u\n",
551 pkt_dev
->skb_priority
);
553 if (pkt_dev
->flags
& F_IPV6
) {
555 " saddr: %pI6c min_saddr: %pI6c max_saddr: %pI6c\n"
556 " daddr: %pI6c min_daddr: %pI6c max_daddr: %pI6c\n",
558 &pkt_dev
->min_in6_saddr
, &pkt_dev
->max_in6_saddr
,
560 &pkt_dev
->min_in6_daddr
, &pkt_dev
->max_in6_daddr
);
563 " dst_min: %s dst_max: %s\n",
564 pkt_dev
->dst_min
, pkt_dev
->dst_max
);
566 " src_min: %s src_max: %s\n",
567 pkt_dev
->src_min
, pkt_dev
->src_max
);
570 seq_puts(seq
, " src_mac: ");
572 seq_printf(seq
, "%pM ",
573 is_zero_ether_addr(pkt_dev
->src_mac
) ?
574 pkt_dev
->odev
->dev_addr
: pkt_dev
->src_mac
);
576 seq_puts(seq
, "dst_mac: ");
577 seq_printf(seq
, "%pM\n", pkt_dev
->dst_mac
);
580 " udp_src_min: %d udp_src_max: %d"
581 " udp_dst_min: %d udp_dst_max: %d\n",
582 pkt_dev
->udp_src_min
, pkt_dev
->udp_src_max
,
583 pkt_dev
->udp_dst_min
, pkt_dev
->udp_dst_max
);
586 " src_mac_count: %d dst_mac_count: %d\n",
587 pkt_dev
->src_mac_count
, pkt_dev
->dst_mac_count
);
589 if (pkt_dev
->nr_labels
) {
591 seq_puts(seq
, " mpls: ");
592 for (i
= 0; i
< pkt_dev
->nr_labels
; i
++)
593 seq_printf(seq
, "%08x%s", ntohl(pkt_dev
->labels
[i
]),
594 i
== pkt_dev
->nr_labels
-1 ? "\n" : ", ");
597 if (pkt_dev
->vlan_id
!= 0xffff)
598 seq_printf(seq
, " vlan_id: %u vlan_p: %u vlan_cfi: %u\n",
599 pkt_dev
->vlan_id
, pkt_dev
->vlan_p
,
602 if (pkt_dev
->svlan_id
!= 0xffff)
603 seq_printf(seq
, " svlan_id: %u vlan_p: %u vlan_cfi: %u\n",
604 pkt_dev
->svlan_id
, pkt_dev
->svlan_p
,
608 seq_printf(seq
, " tos: 0x%02x\n", pkt_dev
->tos
);
610 if (pkt_dev
->traffic_class
)
611 seq_printf(seq
, " traffic_class: 0x%02x\n", pkt_dev
->traffic_class
);
613 if (pkt_dev
->node
>= 0)
614 seq_printf(seq
, " node: %d\n", pkt_dev
->node
);
616 seq_puts(seq
, " Flags: ");
618 if (pkt_dev
->flags
& F_IPV6
)
619 seq_puts(seq
, "IPV6 ");
621 if (pkt_dev
->flags
& F_IPSRC_RND
)
622 seq_puts(seq
, "IPSRC_RND ");
624 if (pkt_dev
->flags
& F_IPDST_RND
)
625 seq_puts(seq
, "IPDST_RND ");
627 if (pkt_dev
->flags
& F_TXSIZE_RND
)
628 seq_puts(seq
, "TXSIZE_RND ");
630 if (pkt_dev
->flags
& F_UDPSRC_RND
)
631 seq_puts(seq
, "UDPSRC_RND ");
633 if (pkt_dev
->flags
& F_UDPDST_RND
)
634 seq_puts(seq
, "UDPDST_RND ");
636 if (pkt_dev
->flags
& F_UDPCSUM
)
637 seq_puts(seq
, "UDPCSUM ");
639 if (pkt_dev
->flags
& F_MPLS_RND
)
640 seq_puts(seq
, "MPLS_RND ");
642 if (pkt_dev
->flags
& F_QUEUE_MAP_RND
)
643 seq_puts(seq
, "QUEUE_MAP_RND ");
645 if (pkt_dev
->flags
& F_QUEUE_MAP_CPU
)
646 seq_puts(seq
, "QUEUE_MAP_CPU ");
648 if (pkt_dev
->cflows
) {
649 if (pkt_dev
->flags
& F_FLOW_SEQ
)
650 seq_puts(seq
, "FLOW_SEQ "); /*in sequence flows*/
652 seq_puts(seq
, "FLOW_RND ");
656 if (pkt_dev
->flags
& F_IPSEC_ON
) {
657 seq_puts(seq
, "IPSEC ");
659 seq_printf(seq
, "spi:%u", pkt_dev
->spi
);
663 if (pkt_dev
->flags
& F_MACSRC_RND
)
664 seq_puts(seq
, "MACSRC_RND ");
666 if (pkt_dev
->flags
& F_MACDST_RND
)
667 seq_puts(seq
, "MACDST_RND ");
669 if (pkt_dev
->flags
& F_VID_RND
)
670 seq_puts(seq
, "VID_RND ");
672 if (pkt_dev
->flags
& F_SVID_RND
)
673 seq_puts(seq
, "SVID_RND ");
675 if (pkt_dev
->flags
& F_NODE
)
676 seq_puts(seq
, "NODE_ALLOC ");
680 /* not really stopped, more like last-running-at */
681 stopped
= pkt_dev
->running
? ktime_get() : pkt_dev
->stopped_at
;
682 idle
= pkt_dev
->idle_acc
;
683 do_div(idle
, NSEC_PER_USEC
);
686 "Current:\n pkts-sofar: %llu errors: %llu\n",
687 (unsigned long long)pkt_dev
->sofar
,
688 (unsigned long long)pkt_dev
->errors
);
691 " started: %lluus stopped: %lluus idle: %lluus\n",
692 (unsigned long long) ktime_to_us(pkt_dev
->started_at
),
693 (unsigned long long) ktime_to_us(stopped
),
694 (unsigned long long) idle
);
697 " seq_num: %d cur_dst_mac_offset: %d cur_src_mac_offset: %d\n",
698 pkt_dev
->seq_num
, pkt_dev
->cur_dst_mac_offset
,
699 pkt_dev
->cur_src_mac_offset
);
701 if (pkt_dev
->flags
& F_IPV6
) {
702 seq_printf(seq
, " cur_saddr: %pI6c cur_daddr: %pI6c\n",
703 &pkt_dev
->cur_in6_saddr
,
704 &pkt_dev
->cur_in6_daddr
);
706 seq_printf(seq
, " cur_saddr: %pI4 cur_daddr: %pI4\n",
707 &pkt_dev
->cur_saddr
, &pkt_dev
->cur_daddr
);
709 seq_printf(seq
, " cur_udp_dst: %d cur_udp_src: %d\n",
710 pkt_dev
->cur_udp_dst
, pkt_dev
->cur_udp_src
);
712 seq_printf(seq
, " cur_queue_map: %u\n", pkt_dev
->cur_queue_map
);
714 seq_printf(seq
, " flows: %u\n", pkt_dev
->nflows
);
716 if (pkt_dev
->result
[0])
717 seq_printf(seq
, "Result: %s\n", pkt_dev
->result
);
719 seq_puts(seq
, "Result: Idle\n");
725 static int hex32_arg(const char __user
*user_buffer
, unsigned long maxlen
,
731 for (; i
< maxlen
; i
++) {
735 if (get_user(c
, &user_buffer
[i
]))
737 value
= hex_to_bin(c
);
746 static int count_trail_chars(const char __user
* user_buffer
,
751 for (i
= 0; i
< maxlen
; i
++) {
753 if (get_user(c
, &user_buffer
[i
]))
771 static long num_arg(const char __user
*user_buffer
, unsigned long maxlen
,
777 for (i
= 0; i
< maxlen
; i
++) {
779 if (get_user(c
, &user_buffer
[i
]))
781 if ((c
>= '0') && (c
<= '9')) {
790 static int strn_len(const char __user
* user_buffer
, unsigned int maxlen
)
794 for (i
= 0; i
< maxlen
; i
++) {
796 if (get_user(c
, &user_buffer
[i
]))
814 static ssize_t
get_labels(const char __user
*buffer
, struct pktgen_dev
*pkt_dev
)
821 pkt_dev
->nr_labels
= 0;
824 len
= hex32_arg(&buffer
[i
], 8, &tmp
);
827 pkt_dev
->labels
[n
] = htonl(tmp
);
828 if (pkt_dev
->labels
[n
] & MPLS_STACK_BOTTOM
)
829 pkt_dev
->flags
|= F_MPLS_RND
;
831 if (get_user(c
, &buffer
[i
]))
835 if (n
>= MAX_MPLS_LABELS
)
839 pkt_dev
->nr_labels
= n
;
843 static ssize_t
pktgen_if_write(struct file
*file
,
844 const char __user
* user_buffer
, size_t count
,
847 struct seq_file
*seq
= file
->private_data
;
848 struct pktgen_dev
*pkt_dev
= seq
->private;
850 char name
[16], valstr
[32];
851 unsigned long value
= 0;
852 char *pg_result
= NULL
;
856 pg_result
= &(pkt_dev
->result
[0]);
859 pr_warning("wrong command format\n");
864 tmp
= count_trail_chars(user_buffer
, max
);
866 pr_warning("illegal format\n");
871 /* Read variable name */
873 len
= strn_len(&user_buffer
[i
], sizeof(name
) - 1);
877 memset(name
, 0, sizeof(name
));
878 if (copy_from_user(name
, &user_buffer
[i
], len
))
883 len
= count_trail_chars(&user_buffer
[i
], max
);
890 size_t copy
= min_t(size_t, count
, 1023);
892 if (copy_from_user(tb
, user_buffer
, copy
))
895 pr_debug("%s,%lu buffer -:%s:-\n",
896 name
, (unsigned long)count
, tb
);
899 if (!strcmp(name
, "min_pkt_size")) {
900 len
= num_arg(&user_buffer
[i
], 10, &value
);
905 if (value
< 14 + 20 + 8)
907 if (value
!= pkt_dev
->min_pkt_size
) {
908 pkt_dev
->min_pkt_size
= value
;
909 pkt_dev
->cur_pkt_size
= value
;
911 sprintf(pg_result
, "OK: min_pkt_size=%u",
912 pkt_dev
->min_pkt_size
);
916 if (!strcmp(name
, "max_pkt_size")) {
917 len
= num_arg(&user_buffer
[i
], 10, &value
);
922 if (value
< 14 + 20 + 8)
924 if (value
!= pkt_dev
->max_pkt_size
) {
925 pkt_dev
->max_pkt_size
= value
;
926 pkt_dev
->cur_pkt_size
= value
;
928 sprintf(pg_result
, "OK: max_pkt_size=%u",
929 pkt_dev
->max_pkt_size
);
933 /* Shortcut for min = max */
935 if (!strcmp(name
, "pkt_size")) {
936 len
= num_arg(&user_buffer
[i
], 10, &value
);
941 if (value
< 14 + 20 + 8)
943 if (value
!= pkt_dev
->min_pkt_size
) {
944 pkt_dev
->min_pkt_size
= value
;
945 pkt_dev
->max_pkt_size
= value
;
946 pkt_dev
->cur_pkt_size
= value
;
948 sprintf(pg_result
, "OK: pkt_size=%u", pkt_dev
->min_pkt_size
);
952 if (!strcmp(name
, "debug")) {
953 len
= num_arg(&user_buffer
[i
], 10, &value
);
959 sprintf(pg_result
, "OK: debug=%u", debug
);
963 if (!strcmp(name
, "frags")) {
964 len
= num_arg(&user_buffer
[i
], 10, &value
);
969 pkt_dev
->nfrags
= value
;
970 sprintf(pg_result
, "OK: frags=%u", pkt_dev
->nfrags
);
973 if (!strcmp(name
, "delay")) {
974 len
= num_arg(&user_buffer
[i
], 10, &value
);
979 if (value
== 0x7FFFFFFF)
980 pkt_dev
->delay
= ULLONG_MAX
;
982 pkt_dev
->delay
= (u64
)value
;
984 sprintf(pg_result
, "OK: delay=%llu",
985 (unsigned long long) pkt_dev
->delay
);
988 if (!strcmp(name
, "rate")) {
989 len
= num_arg(&user_buffer
[i
], 10, &value
);
996 pkt_dev
->delay
= pkt_dev
->min_pkt_size
*8*NSEC_PER_USEC
/value
;
998 pr_info("Delay set at: %llu ns\n", pkt_dev
->delay
);
1000 sprintf(pg_result
, "OK: rate=%lu", value
);
1003 if (!strcmp(name
, "ratep")) {
1004 len
= num_arg(&user_buffer
[i
], 10, &value
);
1011 pkt_dev
->delay
= NSEC_PER_SEC
/value
;
1013 pr_info("Delay set at: %llu ns\n", pkt_dev
->delay
);
1015 sprintf(pg_result
, "OK: rate=%lu", value
);
1018 if (!strcmp(name
, "udp_src_min")) {
1019 len
= num_arg(&user_buffer
[i
], 10, &value
);
1024 if (value
!= pkt_dev
->udp_src_min
) {
1025 pkt_dev
->udp_src_min
= value
;
1026 pkt_dev
->cur_udp_src
= value
;
1028 sprintf(pg_result
, "OK: udp_src_min=%u", pkt_dev
->udp_src_min
);
1031 if (!strcmp(name
, "udp_dst_min")) {
1032 len
= num_arg(&user_buffer
[i
], 10, &value
);
1037 if (value
!= pkt_dev
->udp_dst_min
) {
1038 pkt_dev
->udp_dst_min
= value
;
1039 pkt_dev
->cur_udp_dst
= value
;
1041 sprintf(pg_result
, "OK: udp_dst_min=%u", pkt_dev
->udp_dst_min
);
1044 if (!strcmp(name
, "udp_src_max")) {
1045 len
= num_arg(&user_buffer
[i
], 10, &value
);
1050 if (value
!= pkt_dev
->udp_src_max
) {
1051 pkt_dev
->udp_src_max
= value
;
1052 pkt_dev
->cur_udp_src
= value
;
1054 sprintf(pg_result
, "OK: udp_src_max=%u", pkt_dev
->udp_src_max
);
1057 if (!strcmp(name
, "udp_dst_max")) {
1058 len
= num_arg(&user_buffer
[i
], 10, &value
);
1063 if (value
!= pkt_dev
->udp_dst_max
) {
1064 pkt_dev
->udp_dst_max
= value
;
1065 pkt_dev
->cur_udp_dst
= value
;
1067 sprintf(pg_result
, "OK: udp_dst_max=%u", pkt_dev
->udp_dst_max
);
1070 if (!strcmp(name
, "clone_skb")) {
1071 len
= num_arg(&user_buffer
[i
], 10, &value
);
1075 (!(pkt_dev
->odev
->priv_flags
& IFF_TX_SKB_SHARING
)))
1078 pkt_dev
->clone_skb
= value
;
1080 sprintf(pg_result
, "OK: clone_skb=%d", pkt_dev
->clone_skb
);
1083 if (!strcmp(name
, "count")) {
1084 len
= num_arg(&user_buffer
[i
], 10, &value
);
1089 pkt_dev
->count
= value
;
1090 sprintf(pg_result
, "OK: count=%llu",
1091 (unsigned long long)pkt_dev
->count
);
1094 if (!strcmp(name
, "src_mac_count")) {
1095 len
= num_arg(&user_buffer
[i
], 10, &value
);
1100 if (pkt_dev
->src_mac_count
!= value
) {
1101 pkt_dev
->src_mac_count
= value
;
1102 pkt_dev
->cur_src_mac_offset
= 0;
1104 sprintf(pg_result
, "OK: src_mac_count=%d",
1105 pkt_dev
->src_mac_count
);
1108 if (!strcmp(name
, "dst_mac_count")) {
1109 len
= num_arg(&user_buffer
[i
], 10, &value
);
1114 if (pkt_dev
->dst_mac_count
!= value
) {
1115 pkt_dev
->dst_mac_count
= value
;
1116 pkt_dev
->cur_dst_mac_offset
= 0;
1118 sprintf(pg_result
, "OK: dst_mac_count=%d",
1119 pkt_dev
->dst_mac_count
);
1122 if (!strcmp(name
, "node")) {
1123 len
= num_arg(&user_buffer
[i
], 10, &value
);
1129 if (node_possible(value
)) {
1130 pkt_dev
->node
= value
;
1131 sprintf(pg_result
, "OK: node=%d", pkt_dev
->node
);
1132 if (pkt_dev
->page
) {
1133 put_page(pkt_dev
->page
);
1134 pkt_dev
->page
= NULL
;
1138 sprintf(pg_result
, "ERROR: node not possible");
1141 if (!strcmp(name
, "flag")) {
1144 len
= strn_len(&user_buffer
[i
], sizeof(f
) - 1);
1148 if (copy_from_user(f
, &user_buffer
[i
], len
))
1151 if (strcmp(f
, "IPSRC_RND") == 0)
1152 pkt_dev
->flags
|= F_IPSRC_RND
;
1154 else if (strcmp(f
, "!IPSRC_RND") == 0)
1155 pkt_dev
->flags
&= ~F_IPSRC_RND
;
1157 else if (strcmp(f
, "TXSIZE_RND") == 0)
1158 pkt_dev
->flags
|= F_TXSIZE_RND
;
1160 else if (strcmp(f
, "!TXSIZE_RND") == 0)
1161 pkt_dev
->flags
&= ~F_TXSIZE_RND
;
1163 else if (strcmp(f
, "IPDST_RND") == 0)
1164 pkt_dev
->flags
|= F_IPDST_RND
;
1166 else if (strcmp(f
, "!IPDST_RND") == 0)
1167 pkt_dev
->flags
&= ~F_IPDST_RND
;
1169 else if (strcmp(f
, "UDPSRC_RND") == 0)
1170 pkt_dev
->flags
|= F_UDPSRC_RND
;
1172 else if (strcmp(f
, "!UDPSRC_RND") == 0)
1173 pkt_dev
->flags
&= ~F_UDPSRC_RND
;
1175 else if (strcmp(f
, "UDPDST_RND") == 0)
1176 pkt_dev
->flags
|= F_UDPDST_RND
;
1178 else if (strcmp(f
, "!UDPDST_RND") == 0)
1179 pkt_dev
->flags
&= ~F_UDPDST_RND
;
1181 else if (strcmp(f
, "MACSRC_RND") == 0)
1182 pkt_dev
->flags
|= F_MACSRC_RND
;
1184 else if (strcmp(f
, "!MACSRC_RND") == 0)
1185 pkt_dev
->flags
&= ~F_MACSRC_RND
;
1187 else if (strcmp(f
, "MACDST_RND") == 0)
1188 pkt_dev
->flags
|= F_MACDST_RND
;
1190 else if (strcmp(f
, "!MACDST_RND") == 0)
1191 pkt_dev
->flags
&= ~F_MACDST_RND
;
1193 else if (strcmp(f
, "MPLS_RND") == 0)
1194 pkt_dev
->flags
|= F_MPLS_RND
;
1196 else if (strcmp(f
, "!MPLS_RND") == 0)
1197 pkt_dev
->flags
&= ~F_MPLS_RND
;
1199 else if (strcmp(f
, "VID_RND") == 0)
1200 pkt_dev
->flags
|= F_VID_RND
;
1202 else if (strcmp(f
, "!VID_RND") == 0)
1203 pkt_dev
->flags
&= ~F_VID_RND
;
1205 else if (strcmp(f
, "SVID_RND") == 0)
1206 pkt_dev
->flags
|= F_SVID_RND
;
1208 else if (strcmp(f
, "!SVID_RND") == 0)
1209 pkt_dev
->flags
&= ~F_SVID_RND
;
1211 else if (strcmp(f
, "FLOW_SEQ") == 0)
1212 pkt_dev
->flags
|= F_FLOW_SEQ
;
1214 else if (strcmp(f
, "QUEUE_MAP_RND") == 0)
1215 pkt_dev
->flags
|= F_QUEUE_MAP_RND
;
1217 else if (strcmp(f
, "!QUEUE_MAP_RND") == 0)
1218 pkt_dev
->flags
&= ~F_QUEUE_MAP_RND
;
1220 else if (strcmp(f
, "QUEUE_MAP_CPU") == 0)
1221 pkt_dev
->flags
|= F_QUEUE_MAP_CPU
;
1223 else if (strcmp(f
, "!QUEUE_MAP_CPU") == 0)
1224 pkt_dev
->flags
&= ~F_QUEUE_MAP_CPU
;
1226 else if (strcmp(f
, "IPSEC") == 0)
1227 pkt_dev
->flags
|= F_IPSEC_ON
;
1230 else if (strcmp(f
, "!IPV6") == 0)
1231 pkt_dev
->flags
&= ~F_IPV6
;
1233 else if (strcmp(f
, "NODE_ALLOC") == 0)
1234 pkt_dev
->flags
|= F_NODE
;
1236 else if (strcmp(f
, "!NODE_ALLOC") == 0)
1237 pkt_dev
->flags
&= ~F_NODE
;
1239 else if (strcmp(f
, "UDPCSUM") == 0)
1240 pkt_dev
->flags
|= F_UDPCSUM
;
1242 else if (strcmp(f
, "!UDPCSUM") == 0)
1243 pkt_dev
->flags
&= ~F_UDPCSUM
;
1247 "Flag -:%s:- unknown\nAvailable flags, (prepend ! to un-set flag):\n%s",
1249 "IPSRC_RND, IPDST_RND, UDPSRC_RND, UDPDST_RND, "
1250 "MACSRC_RND, MACDST_RND, TXSIZE_RND, IPV6, "
1251 "MPLS_RND, VID_RND, SVID_RND, FLOW_SEQ, "
1252 "QUEUE_MAP_RND, QUEUE_MAP_CPU, UDPCSUM, "
1259 sprintf(pg_result
, "OK: flags=0x%x", pkt_dev
->flags
);
1262 if (!strcmp(name
, "dst_min") || !strcmp(name
, "dst")) {
1263 len
= strn_len(&user_buffer
[i
], sizeof(pkt_dev
->dst_min
) - 1);
1267 if (copy_from_user(buf
, &user_buffer
[i
], len
))
1270 if (strcmp(buf
, pkt_dev
->dst_min
) != 0) {
1271 memset(pkt_dev
->dst_min
, 0, sizeof(pkt_dev
->dst_min
));
1272 strncpy(pkt_dev
->dst_min
, buf
, len
);
1273 pkt_dev
->daddr_min
= in_aton(pkt_dev
->dst_min
);
1274 pkt_dev
->cur_daddr
= pkt_dev
->daddr_min
;
1277 pr_debug("dst_min set to: %s\n", pkt_dev
->dst_min
);
1279 sprintf(pg_result
, "OK: dst_min=%s", pkt_dev
->dst_min
);
1282 if (!strcmp(name
, "dst_max")) {
1283 len
= strn_len(&user_buffer
[i
], sizeof(pkt_dev
->dst_max
) - 1);
1288 if (copy_from_user(buf
, &user_buffer
[i
], len
))
1292 if (strcmp(buf
, pkt_dev
->dst_max
) != 0) {
1293 memset(pkt_dev
->dst_max
, 0, sizeof(pkt_dev
->dst_max
));
1294 strncpy(pkt_dev
->dst_max
, buf
, len
);
1295 pkt_dev
->daddr_max
= in_aton(pkt_dev
->dst_max
);
1296 pkt_dev
->cur_daddr
= pkt_dev
->daddr_max
;
1299 pr_debug("dst_max set to: %s\n", pkt_dev
->dst_max
);
1301 sprintf(pg_result
, "OK: dst_max=%s", pkt_dev
->dst_max
);
1304 if (!strcmp(name
, "dst6")) {
1305 len
= strn_len(&user_buffer
[i
], sizeof(buf
) - 1);
1309 pkt_dev
->flags
|= F_IPV6
;
1311 if (copy_from_user(buf
, &user_buffer
[i
], len
))
1315 in6_pton(buf
, -1, pkt_dev
->in6_daddr
.s6_addr
, -1, NULL
);
1316 snprintf(buf
, sizeof(buf
), "%pI6c", &pkt_dev
->in6_daddr
);
1318 pkt_dev
->cur_in6_daddr
= pkt_dev
->in6_daddr
;
1321 pr_debug("dst6 set to: %s\n", buf
);
1324 sprintf(pg_result
, "OK: dst6=%s", buf
);
1327 if (!strcmp(name
, "dst6_min")) {
1328 len
= strn_len(&user_buffer
[i
], sizeof(buf
) - 1);
1332 pkt_dev
->flags
|= F_IPV6
;
1334 if (copy_from_user(buf
, &user_buffer
[i
], len
))
1338 in6_pton(buf
, -1, pkt_dev
->min_in6_daddr
.s6_addr
, -1, NULL
);
1339 snprintf(buf
, sizeof(buf
), "%pI6c", &pkt_dev
->min_in6_daddr
);
1341 pkt_dev
->cur_in6_daddr
= pkt_dev
->min_in6_daddr
;
1343 pr_debug("dst6_min set to: %s\n", buf
);
1346 sprintf(pg_result
, "OK: dst6_min=%s", buf
);
1349 if (!strcmp(name
, "dst6_max")) {
1350 len
= strn_len(&user_buffer
[i
], sizeof(buf
) - 1);
1354 pkt_dev
->flags
|= F_IPV6
;
1356 if (copy_from_user(buf
, &user_buffer
[i
], len
))
1360 in6_pton(buf
, -1, pkt_dev
->max_in6_daddr
.s6_addr
, -1, NULL
);
1361 snprintf(buf
, sizeof(buf
), "%pI6c", &pkt_dev
->max_in6_daddr
);
1364 pr_debug("dst6_max set to: %s\n", buf
);
1367 sprintf(pg_result
, "OK: dst6_max=%s", buf
);
1370 if (!strcmp(name
, "src6")) {
1371 len
= strn_len(&user_buffer
[i
], sizeof(buf
) - 1);
1375 pkt_dev
->flags
|= F_IPV6
;
1377 if (copy_from_user(buf
, &user_buffer
[i
], len
))
1381 in6_pton(buf
, -1, pkt_dev
->in6_saddr
.s6_addr
, -1, NULL
);
1382 snprintf(buf
, sizeof(buf
), "%pI6c", &pkt_dev
->in6_saddr
);
1384 pkt_dev
->cur_in6_saddr
= pkt_dev
->in6_saddr
;
1387 pr_debug("src6 set to: %s\n", buf
);
1390 sprintf(pg_result
, "OK: src6=%s", buf
);
1393 if (!strcmp(name
, "src_min")) {
1394 len
= strn_len(&user_buffer
[i
], sizeof(pkt_dev
->src_min
) - 1);
1398 if (copy_from_user(buf
, &user_buffer
[i
], len
))
1401 if (strcmp(buf
, pkt_dev
->src_min
) != 0) {
1402 memset(pkt_dev
->src_min
, 0, sizeof(pkt_dev
->src_min
));
1403 strncpy(pkt_dev
->src_min
, buf
, len
);
1404 pkt_dev
->saddr_min
= in_aton(pkt_dev
->src_min
);
1405 pkt_dev
->cur_saddr
= pkt_dev
->saddr_min
;
1408 pr_debug("src_min set to: %s\n", pkt_dev
->src_min
);
1410 sprintf(pg_result
, "OK: src_min=%s", pkt_dev
->src_min
);
1413 if (!strcmp(name
, "src_max")) {
1414 len
= strn_len(&user_buffer
[i
], sizeof(pkt_dev
->src_max
) - 1);
1418 if (copy_from_user(buf
, &user_buffer
[i
], len
))
1421 if (strcmp(buf
, pkt_dev
->src_max
) != 0) {
1422 memset(pkt_dev
->src_max
, 0, sizeof(pkt_dev
->src_max
));
1423 strncpy(pkt_dev
->src_max
, buf
, len
);
1424 pkt_dev
->saddr_max
= in_aton(pkt_dev
->src_max
);
1425 pkt_dev
->cur_saddr
= pkt_dev
->saddr_max
;
1428 pr_debug("src_max set to: %s\n", pkt_dev
->src_max
);
1430 sprintf(pg_result
, "OK: src_max=%s", pkt_dev
->src_max
);
1433 if (!strcmp(name
, "dst_mac")) {
1434 len
= strn_len(&user_buffer
[i
], sizeof(valstr
) - 1);
1438 memset(valstr
, 0, sizeof(valstr
));
1439 if (copy_from_user(valstr
, &user_buffer
[i
], len
))
1442 if (!mac_pton(valstr
, pkt_dev
->dst_mac
))
1444 /* Set up Dest MAC */
1445 ether_addr_copy(&pkt_dev
->hh
[0], pkt_dev
->dst_mac
);
1447 sprintf(pg_result
, "OK: dstmac %pM", pkt_dev
->dst_mac
);
1450 if (!strcmp(name
, "src_mac")) {
1451 len
= strn_len(&user_buffer
[i
], sizeof(valstr
) - 1);
1455 memset(valstr
, 0, sizeof(valstr
));
1456 if (copy_from_user(valstr
, &user_buffer
[i
], len
))
1459 if (!mac_pton(valstr
, pkt_dev
->src_mac
))
1461 /* Set up Src MAC */
1462 ether_addr_copy(&pkt_dev
->hh
[6], pkt_dev
->src_mac
);
1464 sprintf(pg_result
, "OK: srcmac %pM", pkt_dev
->src_mac
);
1468 if (!strcmp(name
, "clear_counters")) {
1469 pktgen_clear_counters(pkt_dev
);
1470 sprintf(pg_result
, "OK: Clearing counters.\n");
1474 if (!strcmp(name
, "flows")) {
1475 len
= num_arg(&user_buffer
[i
], 10, &value
);
1480 if (value
> MAX_CFLOWS
)
1483 pkt_dev
->cflows
= value
;
1484 sprintf(pg_result
, "OK: flows=%u", pkt_dev
->cflows
);
1488 if (!strcmp(name
, "spi")) {
1489 len
= num_arg(&user_buffer
[i
], 10, &value
);
1494 pkt_dev
->spi
= value
;
1495 sprintf(pg_result
, "OK: spi=%u", pkt_dev
->spi
);
1499 if (!strcmp(name
, "flowlen")) {
1500 len
= num_arg(&user_buffer
[i
], 10, &value
);
1505 pkt_dev
->lflow
= value
;
1506 sprintf(pg_result
, "OK: flowlen=%u", pkt_dev
->lflow
);
1510 if (!strcmp(name
, "queue_map_min")) {
1511 len
= num_arg(&user_buffer
[i
], 5, &value
);
1516 pkt_dev
->queue_map_min
= value
;
1517 sprintf(pg_result
, "OK: queue_map_min=%u", pkt_dev
->queue_map_min
);
1521 if (!strcmp(name
, "queue_map_max")) {
1522 len
= num_arg(&user_buffer
[i
], 5, &value
);
1527 pkt_dev
->queue_map_max
= value
;
1528 sprintf(pg_result
, "OK: queue_map_max=%u", pkt_dev
->queue_map_max
);
1532 if (!strcmp(name
, "mpls")) {
1533 unsigned int n
, cnt
;
1535 len
= get_labels(&user_buffer
[i
], pkt_dev
);
1539 cnt
= sprintf(pg_result
, "OK: mpls=");
1540 for (n
= 0; n
< pkt_dev
->nr_labels
; n
++)
1541 cnt
+= sprintf(pg_result
+ cnt
,
1542 "%08x%s", ntohl(pkt_dev
->labels
[n
]),
1543 n
== pkt_dev
->nr_labels
-1 ? "" : ",");
1545 if (pkt_dev
->nr_labels
&& pkt_dev
->vlan_id
!= 0xffff) {
1546 pkt_dev
->vlan_id
= 0xffff; /* turn off VLAN/SVLAN */
1547 pkt_dev
->svlan_id
= 0xffff;
1550 pr_debug("VLAN/SVLAN auto turned off\n");
1555 if (!strcmp(name
, "vlan_id")) {
1556 len
= num_arg(&user_buffer
[i
], 4, &value
);
1561 if (value
<= 4095) {
1562 pkt_dev
->vlan_id
= value
; /* turn on VLAN */
1565 pr_debug("VLAN turned on\n");
1567 if (debug
&& pkt_dev
->nr_labels
)
1568 pr_debug("MPLS auto turned off\n");
1570 pkt_dev
->nr_labels
= 0; /* turn off MPLS */
1571 sprintf(pg_result
, "OK: vlan_id=%u", pkt_dev
->vlan_id
);
1573 pkt_dev
->vlan_id
= 0xffff; /* turn off VLAN/SVLAN */
1574 pkt_dev
->svlan_id
= 0xffff;
1577 pr_debug("VLAN/SVLAN turned off\n");
1582 if (!strcmp(name
, "vlan_p")) {
1583 len
= num_arg(&user_buffer
[i
], 1, &value
);
1588 if ((value
<= 7) && (pkt_dev
->vlan_id
!= 0xffff)) {
1589 pkt_dev
->vlan_p
= value
;
1590 sprintf(pg_result
, "OK: vlan_p=%u", pkt_dev
->vlan_p
);
1592 sprintf(pg_result
, "ERROR: vlan_p must be 0-7");
1597 if (!strcmp(name
, "vlan_cfi")) {
1598 len
= num_arg(&user_buffer
[i
], 1, &value
);
1603 if ((value
<= 1) && (pkt_dev
->vlan_id
!= 0xffff)) {
1604 pkt_dev
->vlan_cfi
= value
;
1605 sprintf(pg_result
, "OK: vlan_cfi=%u", pkt_dev
->vlan_cfi
);
1607 sprintf(pg_result
, "ERROR: vlan_cfi must be 0-1");
1612 if (!strcmp(name
, "svlan_id")) {
1613 len
= num_arg(&user_buffer
[i
], 4, &value
);
1618 if ((value
<= 4095) && ((pkt_dev
->vlan_id
!= 0xffff))) {
1619 pkt_dev
->svlan_id
= value
; /* turn on SVLAN */
1622 pr_debug("SVLAN turned on\n");
1624 if (debug
&& pkt_dev
->nr_labels
)
1625 pr_debug("MPLS auto turned off\n");
1627 pkt_dev
->nr_labels
= 0; /* turn off MPLS */
1628 sprintf(pg_result
, "OK: svlan_id=%u", pkt_dev
->svlan_id
);
1630 pkt_dev
->vlan_id
= 0xffff; /* turn off VLAN/SVLAN */
1631 pkt_dev
->svlan_id
= 0xffff;
1634 pr_debug("VLAN/SVLAN turned off\n");
1639 if (!strcmp(name
, "svlan_p")) {
1640 len
= num_arg(&user_buffer
[i
], 1, &value
);
1645 if ((value
<= 7) && (pkt_dev
->svlan_id
!= 0xffff)) {
1646 pkt_dev
->svlan_p
= value
;
1647 sprintf(pg_result
, "OK: svlan_p=%u", pkt_dev
->svlan_p
);
1649 sprintf(pg_result
, "ERROR: svlan_p must be 0-7");
1654 if (!strcmp(name
, "svlan_cfi")) {
1655 len
= num_arg(&user_buffer
[i
], 1, &value
);
1660 if ((value
<= 1) && (pkt_dev
->svlan_id
!= 0xffff)) {
1661 pkt_dev
->svlan_cfi
= value
;
1662 sprintf(pg_result
, "OK: svlan_cfi=%u", pkt_dev
->svlan_cfi
);
1664 sprintf(pg_result
, "ERROR: svlan_cfi must be 0-1");
1669 if (!strcmp(name
, "tos")) {
1670 __u32 tmp_value
= 0;
1671 len
= hex32_arg(&user_buffer
[i
], 2, &tmp_value
);
1677 pkt_dev
->tos
= tmp_value
;
1678 sprintf(pg_result
, "OK: tos=0x%02x", pkt_dev
->tos
);
1680 sprintf(pg_result
, "ERROR: tos must be 00-ff");
1685 if (!strcmp(name
, "traffic_class")) {
1686 __u32 tmp_value
= 0;
1687 len
= hex32_arg(&user_buffer
[i
], 2, &tmp_value
);
1693 pkt_dev
->traffic_class
= tmp_value
;
1694 sprintf(pg_result
, "OK: traffic_class=0x%02x", pkt_dev
->traffic_class
);
1696 sprintf(pg_result
, "ERROR: traffic_class must be 00-ff");
1701 if (!strcmp(name
, "skb_priority")) {
1702 len
= num_arg(&user_buffer
[i
], 9, &value
);
1707 pkt_dev
->skb_priority
= value
;
1708 sprintf(pg_result
, "OK: skb_priority=%i",
1709 pkt_dev
->skb_priority
);
1713 sprintf(pkt_dev
->result
, "No such parameter \"%s\"", name
);
1717 static int pktgen_if_open(struct inode
*inode
, struct file
*file
)
1719 return single_open(file
, pktgen_if_show
, PDE_DATA(inode
));
1722 static const struct file_operations pktgen_if_fops
= {
1723 .owner
= THIS_MODULE
,
1724 .open
= pktgen_if_open
,
1726 .llseek
= seq_lseek
,
1727 .write
= pktgen_if_write
,
1728 .release
= single_release
,
1731 static int pktgen_thread_show(struct seq_file
*seq
, void *v
)
1733 struct pktgen_thread
*t
= seq
->private;
1734 const struct pktgen_dev
*pkt_dev
;
1738 seq_puts(seq
, "Running: ");
1741 list_for_each_entry(pkt_dev
, &t
->if_list
, list
)
1742 if (pkt_dev
->running
)
1743 seq_printf(seq
, "%s ", pkt_dev
->odevname
);
1745 seq_puts(seq
, "\nStopped: ");
1747 list_for_each_entry(pkt_dev
, &t
->if_list
, list
)
1748 if (!pkt_dev
->running
)
1749 seq_printf(seq
, "%s ", pkt_dev
->odevname
);
1752 seq_printf(seq
, "\nResult: %s\n", t
->result
);
1754 seq_puts(seq
, "\nResult: NA\n");
1761 static ssize_t
pktgen_thread_write(struct file
*file
,
1762 const char __user
* user_buffer
,
1763 size_t count
, loff_t
* offset
)
1765 struct seq_file
*seq
= file
->private_data
;
1766 struct pktgen_thread
*t
= seq
->private;
1767 int i
, max
, len
, ret
;
1772 // sprintf(pg_result, "Wrong command format");
1777 len
= count_trail_chars(user_buffer
, max
);
1783 /* Read variable name */
1785 len
= strn_len(&user_buffer
[i
], sizeof(name
) - 1);
1789 memset(name
, 0, sizeof(name
));
1790 if (copy_from_user(name
, &user_buffer
[i
], len
))
1795 len
= count_trail_chars(&user_buffer
[i
], max
);
1802 pr_debug("t=%s, count=%lu\n", name
, (unsigned long)count
);
1805 pr_err("ERROR: No thread\n");
1810 pg_result
= &(t
->result
[0]);
1812 if (!strcmp(name
, "add_device")) {
1815 len
= strn_len(&user_buffer
[i
], sizeof(f
) - 1);
1820 if (copy_from_user(f
, &user_buffer
[i
], len
))
1823 mutex_lock(&pktgen_thread_lock
);
1824 ret
= pktgen_add_device(t
, f
);
1825 mutex_unlock(&pktgen_thread_lock
);
1828 sprintf(pg_result
, "OK: add_device=%s", f
);
1830 sprintf(pg_result
, "ERROR: can not add device %s", f
);
1834 if (!strcmp(name
, "rem_device_all")) {
1835 mutex_lock(&pktgen_thread_lock
);
1836 t
->control
|= T_REMDEVALL
;
1837 mutex_unlock(&pktgen_thread_lock
);
1838 schedule_timeout_interruptible(msecs_to_jiffies(125)); /* Propagate thread->control */
1840 sprintf(pg_result
, "OK: rem_device_all");
1844 if (!strcmp(name
, "max_before_softirq")) {
1845 sprintf(pg_result
, "OK: Note! max_before_softirq is obsoleted -- Do not use");
1855 static int pktgen_thread_open(struct inode
*inode
, struct file
*file
)
1857 return single_open(file
, pktgen_thread_show
, PDE_DATA(inode
));
1860 static const struct file_operations pktgen_thread_fops
= {
1861 .owner
= THIS_MODULE
,
1862 .open
= pktgen_thread_open
,
1864 .llseek
= seq_lseek
,
1865 .write
= pktgen_thread_write
,
1866 .release
= single_release
,
1869 /* Think find or remove for NN */
1870 static struct pktgen_dev
*__pktgen_NN_threads(const struct pktgen_net
*pn
,
1871 const char *ifname
, int remove
)
1873 struct pktgen_thread
*t
;
1874 struct pktgen_dev
*pkt_dev
= NULL
;
1875 bool exact
= (remove
== FIND
);
1877 list_for_each_entry(t
, &pn
->pktgen_threads
, th_list
) {
1878 pkt_dev
= pktgen_find_dev(t
, ifname
, exact
);
1882 pkt_dev
->removal_mark
= 1;
1883 t
->control
|= T_REMDEV
;
1893 * mark a device for removal
1895 static void pktgen_mark_device(const struct pktgen_net
*pn
, const char *ifname
)
1897 struct pktgen_dev
*pkt_dev
= NULL
;
1898 const int max_tries
= 10, msec_per_try
= 125;
1901 mutex_lock(&pktgen_thread_lock
);
1902 pr_debug("%s: marking %s for removal\n", __func__
, ifname
);
1906 pkt_dev
= __pktgen_NN_threads(pn
, ifname
, REMOVE
);
1907 if (pkt_dev
== NULL
)
1908 break; /* success */
1910 mutex_unlock(&pktgen_thread_lock
);
1911 pr_debug("%s: waiting for %s to disappear....\n",
1913 schedule_timeout_interruptible(msecs_to_jiffies(msec_per_try
));
1914 mutex_lock(&pktgen_thread_lock
);
1916 if (++i
>= max_tries
) {
1917 pr_err("%s: timed out after waiting %d msec for device %s to be removed\n",
1918 __func__
, msec_per_try
* i
, ifname
);
1924 mutex_unlock(&pktgen_thread_lock
);
1927 static void pktgen_change_name(const struct pktgen_net
*pn
, struct net_device
*dev
)
1929 struct pktgen_thread
*t
;
1931 list_for_each_entry(t
, &pn
->pktgen_threads
, th_list
) {
1932 struct pktgen_dev
*pkt_dev
;
1934 list_for_each_entry(pkt_dev
, &t
->if_list
, list
) {
1935 if (pkt_dev
->odev
!= dev
)
1938 proc_remove(pkt_dev
->entry
);
1940 pkt_dev
->entry
= proc_create_data(dev
->name
, 0600,
1944 if (!pkt_dev
->entry
)
1945 pr_err("can't move proc entry for '%s'\n",
1952 static int pktgen_device_event(struct notifier_block
*unused
,
1953 unsigned long event
, void *ptr
)
1955 struct net_device
*dev
= netdev_notifier_info_to_dev(ptr
);
1956 struct pktgen_net
*pn
= net_generic(dev_net(dev
), pg_net_id
);
1958 if (pn
->pktgen_exiting
)
1961 /* It is OK that we do not hold the group lock right now,
1962 * as we run under the RTNL lock.
1966 case NETDEV_CHANGENAME
:
1967 pktgen_change_name(pn
, dev
);
1970 case NETDEV_UNREGISTER
:
1971 pktgen_mark_device(pn
, dev
->name
);
1978 static struct net_device
*pktgen_dev_get_by_name(const struct pktgen_net
*pn
,
1979 struct pktgen_dev
*pkt_dev
,
1985 for (i
= 0; ifname
[i
] != '@'; i
++) {
1993 return dev_get_by_name(pn
->net
, b
);
1997 /* Associate pktgen_dev with a device. */
1999 static int pktgen_setup_dev(const struct pktgen_net
*pn
,
2000 struct pktgen_dev
*pkt_dev
, const char *ifname
)
2002 struct net_device
*odev
;
2005 /* Clean old setups */
2006 if (pkt_dev
->odev
) {
2007 dev_put(pkt_dev
->odev
);
2008 pkt_dev
->odev
= NULL
;
2011 odev
= pktgen_dev_get_by_name(pn
, pkt_dev
, ifname
);
2013 pr_err("no such netdevice: \"%s\"\n", ifname
);
2017 if (odev
->type
!= ARPHRD_ETHER
) {
2018 pr_err("not an ethernet device: \"%s\"\n", ifname
);
2020 } else if (!netif_running(odev
)) {
2021 pr_err("device is down: \"%s\"\n", ifname
);
2024 pkt_dev
->odev
= odev
;
2032 /* Read pkt_dev from the interface and set up internal pktgen_dev
2033 * structure to have the right information to create/send packets
2035 static void pktgen_setup_inject(struct pktgen_dev
*pkt_dev
)
2039 if (!pkt_dev
->odev
) {
2040 pr_err("ERROR: pkt_dev->odev == NULL in setup_inject\n");
2041 sprintf(pkt_dev
->result
,
2042 "ERROR: pkt_dev->odev == NULL in setup_inject.\n");
2046 /* make sure that we don't pick a non-existing transmit queue */
2047 ntxq
= pkt_dev
->odev
->real_num_tx_queues
;
2049 if (ntxq
<= pkt_dev
->queue_map_min
) {
2050 pr_warning("WARNING: Requested queue_map_min (zero-based) (%d) exceeds valid range [0 - %d] for (%d) queues on %s, resetting\n",
2051 pkt_dev
->queue_map_min
, (ntxq
?: 1) - 1, ntxq
,
2053 pkt_dev
->queue_map_min
= (ntxq
?: 1) - 1;
2055 if (pkt_dev
->queue_map_max
>= ntxq
) {
2056 pr_warning("WARNING: Requested queue_map_max (zero-based) (%d) exceeds valid range [0 - %d] for (%d) queues on %s, resetting\n",
2057 pkt_dev
->queue_map_max
, (ntxq
?: 1) - 1, ntxq
,
2059 pkt_dev
->queue_map_max
= (ntxq
?: 1) - 1;
2062 /* Default to the interface's mac if not explicitly set. */
2064 if (is_zero_ether_addr(pkt_dev
->src_mac
))
2065 ether_addr_copy(&(pkt_dev
->hh
[6]), pkt_dev
->odev
->dev_addr
);
2067 /* Set up Dest MAC */
2068 ether_addr_copy(&(pkt_dev
->hh
[0]), pkt_dev
->dst_mac
);
2070 if (pkt_dev
->flags
& F_IPV6
) {
2071 int i
, set
= 0, err
= 1;
2072 struct inet6_dev
*idev
;
2074 if (pkt_dev
->min_pkt_size
== 0) {
2075 pkt_dev
->min_pkt_size
= 14 + sizeof(struct ipv6hdr
)
2076 + sizeof(struct udphdr
)
2077 + sizeof(struct pktgen_hdr
)
2078 + pkt_dev
->pkt_overhead
;
2081 for (i
= 0; i
< IN6_ADDR_HSIZE
; i
++)
2082 if (pkt_dev
->cur_in6_saddr
.s6_addr
[i
]) {
2090 * Use linklevel address if unconfigured.
2092 * use ipv6_get_lladdr if/when it's get exported
2096 idev
= __in6_dev_get(pkt_dev
->odev
);
2098 struct inet6_ifaddr
*ifp
;
2100 read_lock_bh(&idev
->lock
);
2101 list_for_each_entry(ifp
, &idev
->addr_list
, if_list
) {
2102 if ((ifp
->scope
& IFA_LINK
) &&
2103 !(ifp
->flags
& IFA_F_TENTATIVE
)) {
2104 pkt_dev
->cur_in6_saddr
= ifp
->addr
;
2109 read_unlock_bh(&idev
->lock
);
2113 pr_err("ERROR: IPv6 link address not available\n");
2116 if (pkt_dev
->min_pkt_size
== 0) {
2117 pkt_dev
->min_pkt_size
= 14 + sizeof(struct iphdr
)
2118 + sizeof(struct udphdr
)
2119 + sizeof(struct pktgen_hdr
)
2120 + pkt_dev
->pkt_overhead
;
2123 pkt_dev
->saddr_min
= 0;
2124 pkt_dev
->saddr_max
= 0;
2125 if (strlen(pkt_dev
->src_min
) == 0) {
2127 struct in_device
*in_dev
;
2130 in_dev
= __in_dev_get_rcu(pkt_dev
->odev
);
2132 if (in_dev
->ifa_list
) {
2133 pkt_dev
->saddr_min
=
2134 in_dev
->ifa_list
->ifa_address
;
2135 pkt_dev
->saddr_max
= pkt_dev
->saddr_min
;
2140 pkt_dev
->saddr_min
= in_aton(pkt_dev
->src_min
);
2141 pkt_dev
->saddr_max
= in_aton(pkt_dev
->src_max
);
2144 pkt_dev
->daddr_min
= in_aton(pkt_dev
->dst_min
);
2145 pkt_dev
->daddr_max
= in_aton(pkt_dev
->dst_max
);
2147 /* Initialize current values. */
2148 pkt_dev
->cur_pkt_size
= pkt_dev
->min_pkt_size
;
2149 if (pkt_dev
->min_pkt_size
> pkt_dev
->max_pkt_size
)
2150 pkt_dev
->max_pkt_size
= pkt_dev
->min_pkt_size
;
2152 pkt_dev
->cur_dst_mac_offset
= 0;
2153 pkt_dev
->cur_src_mac_offset
= 0;
2154 pkt_dev
->cur_saddr
= pkt_dev
->saddr_min
;
2155 pkt_dev
->cur_daddr
= pkt_dev
->daddr_min
;
2156 pkt_dev
->cur_udp_dst
= pkt_dev
->udp_dst_min
;
2157 pkt_dev
->cur_udp_src
= pkt_dev
->udp_src_min
;
2158 pkt_dev
->nflows
= 0;
2162 static void spin(struct pktgen_dev
*pkt_dev
, ktime_t spin_until
)
2164 ktime_t start_time
, end_time
;
2166 struct hrtimer_sleeper t
;
2168 hrtimer_init_on_stack(&t
.timer
, CLOCK_MONOTONIC
, HRTIMER_MODE_ABS
);
2169 hrtimer_set_expires(&t
.timer
, spin_until
);
2171 remaining
= ktime_to_ns(hrtimer_expires_remaining(&t
.timer
));
2172 if (remaining
<= 0) {
2173 pkt_dev
->next_tx
= ktime_add_ns(spin_until
, pkt_dev
->delay
);
2177 start_time
= ktime_get();
2178 if (remaining
< 100000) {
2179 /* for small delays (<100us), just loop until limit is reached */
2181 end_time
= ktime_get();
2182 } while (ktime_compare(end_time
, spin_until
) < 0);
2184 /* see do_nanosleep */
2185 hrtimer_init_sleeper(&t
, current
);
2187 set_current_state(TASK_INTERRUPTIBLE
);
2188 hrtimer_start_expires(&t
.timer
, HRTIMER_MODE_ABS
);
2189 if (!hrtimer_active(&t
.timer
))
2195 hrtimer_cancel(&t
.timer
);
2196 } while (t
.task
&& pkt_dev
->running
&& !signal_pending(current
));
2197 __set_current_state(TASK_RUNNING
);
2198 end_time
= ktime_get();
2201 pkt_dev
->idle_acc
+= ktime_to_ns(ktime_sub(end_time
, start_time
));
2202 pkt_dev
->next_tx
= ktime_add_ns(spin_until
, pkt_dev
->delay
);
2205 static inline void set_pkt_overhead(struct pktgen_dev
*pkt_dev
)
2207 pkt_dev
->pkt_overhead
= 0;
2208 pkt_dev
->pkt_overhead
+= pkt_dev
->nr_labels
*sizeof(u32
);
2209 pkt_dev
->pkt_overhead
+= VLAN_TAG_SIZE(pkt_dev
);
2210 pkt_dev
->pkt_overhead
+= SVLAN_TAG_SIZE(pkt_dev
);
2213 static inline int f_seen(const struct pktgen_dev
*pkt_dev
, int flow
)
2215 return !!(pkt_dev
->flows
[flow
].flags
& F_INIT
);
2218 static inline int f_pick(struct pktgen_dev
*pkt_dev
)
2220 int flow
= pkt_dev
->curfl
;
2222 if (pkt_dev
->flags
& F_FLOW_SEQ
) {
2223 if (pkt_dev
->flows
[flow
].count
>= pkt_dev
->lflow
) {
2225 pkt_dev
->flows
[flow
].count
= 0;
2226 pkt_dev
->flows
[flow
].flags
= 0;
2227 pkt_dev
->curfl
+= 1;
2228 if (pkt_dev
->curfl
>= pkt_dev
->cflows
)
2229 pkt_dev
->curfl
= 0; /*reset */
2232 flow
= prandom_u32() % pkt_dev
->cflows
;
2233 pkt_dev
->curfl
= flow
;
2235 if (pkt_dev
->flows
[flow
].count
> pkt_dev
->lflow
) {
2236 pkt_dev
->flows
[flow
].count
= 0;
2237 pkt_dev
->flows
[flow
].flags
= 0;
2241 return pkt_dev
->curfl
;
2246 /* If there was already an IPSEC SA, we keep it as is, else
2247 * we go look for it ...
2249 #define DUMMY_MARK 0
2250 static void get_ipsec_sa(struct pktgen_dev
*pkt_dev
, int flow
)
2252 struct xfrm_state
*x
= pkt_dev
->flows
[flow
].x
;
2253 struct pktgen_net
*pn
= net_generic(dev_net(pkt_dev
->odev
), pg_net_id
);
2257 /* We need as quick as possible to find the right SA
2258 * Searching with minimum criteria to archieve this.
2260 x
= xfrm_state_lookup_byspi(pn
->net
, htonl(pkt_dev
->spi
), AF_INET
);
2262 /* slow path: we dont already have xfrm_state */
2263 x
= xfrm_stateonly_find(pn
->net
, DUMMY_MARK
,
2264 (xfrm_address_t
*)&pkt_dev
->cur_daddr
,
2265 (xfrm_address_t
*)&pkt_dev
->cur_saddr
,
2268 pkt_dev
->ipsproto
, 0);
2271 pkt_dev
->flows
[flow
].x
= x
;
2272 set_pkt_overhead(pkt_dev
);
2273 pkt_dev
->pkt_overhead
+= x
->props
.header_len
;
2279 static void set_cur_queue_map(struct pktgen_dev
*pkt_dev
)
2282 if (pkt_dev
->flags
& F_QUEUE_MAP_CPU
)
2283 pkt_dev
->cur_queue_map
= smp_processor_id();
2285 else if (pkt_dev
->queue_map_min
<= pkt_dev
->queue_map_max
) {
2287 if (pkt_dev
->flags
& F_QUEUE_MAP_RND
) {
2289 (pkt_dev
->queue_map_max
-
2290 pkt_dev
->queue_map_min
+ 1)
2291 + pkt_dev
->queue_map_min
;
2293 t
= pkt_dev
->cur_queue_map
+ 1;
2294 if (t
> pkt_dev
->queue_map_max
)
2295 t
= pkt_dev
->queue_map_min
;
2297 pkt_dev
->cur_queue_map
= t
;
2299 pkt_dev
->cur_queue_map
= pkt_dev
->cur_queue_map
% pkt_dev
->odev
->real_num_tx_queues
;
2302 /* Increment/randomize headers according to flags and current values
2303 * for IP src/dest, UDP src/dst port, MAC-Addr src/dst
2305 static void mod_cur_headers(struct pktgen_dev
*pkt_dev
)
2311 if (pkt_dev
->cflows
)
2312 flow
= f_pick(pkt_dev
);
2314 /* Deal with source MAC */
2315 if (pkt_dev
->src_mac_count
> 1) {
2319 if (pkt_dev
->flags
& F_MACSRC_RND
)
2320 mc
= prandom_u32() % pkt_dev
->src_mac_count
;
2322 mc
= pkt_dev
->cur_src_mac_offset
++;
2323 if (pkt_dev
->cur_src_mac_offset
>=
2324 pkt_dev
->src_mac_count
)
2325 pkt_dev
->cur_src_mac_offset
= 0;
2328 tmp
= pkt_dev
->src_mac
[5] + (mc
& 0xFF);
2329 pkt_dev
->hh
[11] = tmp
;
2330 tmp
= (pkt_dev
->src_mac
[4] + ((mc
>> 8) & 0xFF) + (tmp
>> 8));
2331 pkt_dev
->hh
[10] = tmp
;
2332 tmp
= (pkt_dev
->src_mac
[3] + ((mc
>> 16) & 0xFF) + (tmp
>> 8));
2333 pkt_dev
->hh
[9] = tmp
;
2334 tmp
= (pkt_dev
->src_mac
[2] + ((mc
>> 24) & 0xFF) + (tmp
>> 8));
2335 pkt_dev
->hh
[8] = tmp
;
2336 tmp
= (pkt_dev
->src_mac
[1] + (tmp
>> 8));
2337 pkt_dev
->hh
[7] = tmp
;
2340 /* Deal with Destination MAC */
2341 if (pkt_dev
->dst_mac_count
> 1) {
2345 if (pkt_dev
->flags
& F_MACDST_RND
)
2346 mc
= prandom_u32() % pkt_dev
->dst_mac_count
;
2349 mc
= pkt_dev
->cur_dst_mac_offset
++;
2350 if (pkt_dev
->cur_dst_mac_offset
>=
2351 pkt_dev
->dst_mac_count
) {
2352 pkt_dev
->cur_dst_mac_offset
= 0;
2356 tmp
= pkt_dev
->dst_mac
[5] + (mc
& 0xFF);
2357 pkt_dev
->hh
[5] = tmp
;
2358 tmp
= (pkt_dev
->dst_mac
[4] + ((mc
>> 8) & 0xFF) + (tmp
>> 8));
2359 pkt_dev
->hh
[4] = tmp
;
2360 tmp
= (pkt_dev
->dst_mac
[3] + ((mc
>> 16) & 0xFF) + (tmp
>> 8));
2361 pkt_dev
->hh
[3] = tmp
;
2362 tmp
= (pkt_dev
->dst_mac
[2] + ((mc
>> 24) & 0xFF) + (tmp
>> 8));
2363 pkt_dev
->hh
[2] = tmp
;
2364 tmp
= (pkt_dev
->dst_mac
[1] + (tmp
>> 8));
2365 pkt_dev
->hh
[1] = tmp
;
2368 if (pkt_dev
->flags
& F_MPLS_RND
) {
2370 for (i
= 0; i
< pkt_dev
->nr_labels
; i
++)
2371 if (pkt_dev
->labels
[i
] & MPLS_STACK_BOTTOM
)
2372 pkt_dev
->labels
[i
] = MPLS_STACK_BOTTOM
|
2373 ((__force __be32
)prandom_u32() &
2377 if ((pkt_dev
->flags
& F_VID_RND
) && (pkt_dev
->vlan_id
!= 0xffff)) {
2378 pkt_dev
->vlan_id
= prandom_u32() & (4096 - 1);
2381 if ((pkt_dev
->flags
& F_SVID_RND
) && (pkt_dev
->svlan_id
!= 0xffff)) {
2382 pkt_dev
->svlan_id
= prandom_u32() & (4096 - 1);
2385 if (pkt_dev
->udp_src_min
< pkt_dev
->udp_src_max
) {
2386 if (pkt_dev
->flags
& F_UDPSRC_RND
)
2387 pkt_dev
->cur_udp_src
= prandom_u32() %
2388 (pkt_dev
->udp_src_max
- pkt_dev
->udp_src_min
)
2389 + pkt_dev
->udp_src_min
;
2392 pkt_dev
->cur_udp_src
++;
2393 if (pkt_dev
->cur_udp_src
>= pkt_dev
->udp_src_max
)
2394 pkt_dev
->cur_udp_src
= pkt_dev
->udp_src_min
;
2398 if (pkt_dev
->udp_dst_min
< pkt_dev
->udp_dst_max
) {
2399 if (pkt_dev
->flags
& F_UDPDST_RND
) {
2400 pkt_dev
->cur_udp_dst
= prandom_u32() %
2401 (pkt_dev
->udp_dst_max
- pkt_dev
->udp_dst_min
)
2402 + pkt_dev
->udp_dst_min
;
2404 pkt_dev
->cur_udp_dst
++;
2405 if (pkt_dev
->cur_udp_dst
>= pkt_dev
->udp_dst_max
)
2406 pkt_dev
->cur_udp_dst
= pkt_dev
->udp_dst_min
;
2410 if (!(pkt_dev
->flags
& F_IPV6
)) {
2412 imn
= ntohl(pkt_dev
->saddr_min
);
2413 imx
= ntohl(pkt_dev
->saddr_max
);
2416 if (pkt_dev
->flags
& F_IPSRC_RND
)
2417 t
= prandom_u32() % (imx
- imn
) + imn
;
2419 t
= ntohl(pkt_dev
->cur_saddr
);
2425 pkt_dev
->cur_saddr
= htonl(t
);
2428 if (pkt_dev
->cflows
&& f_seen(pkt_dev
, flow
)) {
2429 pkt_dev
->cur_daddr
= pkt_dev
->flows
[flow
].cur_daddr
;
2431 imn
= ntohl(pkt_dev
->daddr_min
);
2432 imx
= ntohl(pkt_dev
->daddr_max
);
2436 if (pkt_dev
->flags
& F_IPDST_RND
) {
2442 } while (ipv4_is_loopback(s
) ||
2443 ipv4_is_multicast(s
) ||
2444 ipv4_is_lbcast(s
) ||
2445 ipv4_is_zeronet(s
) ||
2446 ipv4_is_local_multicast(s
));
2447 pkt_dev
->cur_daddr
= s
;
2449 t
= ntohl(pkt_dev
->cur_daddr
);
2454 pkt_dev
->cur_daddr
= htonl(t
);
2457 if (pkt_dev
->cflows
) {
2458 pkt_dev
->flows
[flow
].flags
|= F_INIT
;
2459 pkt_dev
->flows
[flow
].cur_daddr
=
2462 if (pkt_dev
->flags
& F_IPSEC_ON
)
2463 get_ipsec_sa(pkt_dev
, flow
);
2468 } else { /* IPV6 * */
2470 if (!ipv6_addr_any(&pkt_dev
->min_in6_daddr
)) {
2473 /* Only random destinations yet */
2475 for (i
= 0; i
< 4; i
++) {
2476 pkt_dev
->cur_in6_daddr
.s6_addr32
[i
] =
2477 (((__force __be32
)prandom_u32() |
2478 pkt_dev
->min_in6_daddr
.s6_addr32
[i
]) &
2479 pkt_dev
->max_in6_daddr
.s6_addr32
[i
]);
2484 if (pkt_dev
->min_pkt_size
< pkt_dev
->max_pkt_size
) {
2486 if (pkt_dev
->flags
& F_TXSIZE_RND
) {
2488 (pkt_dev
->max_pkt_size
- pkt_dev
->min_pkt_size
)
2489 + pkt_dev
->min_pkt_size
;
2491 t
= pkt_dev
->cur_pkt_size
+ 1;
2492 if (t
> pkt_dev
->max_pkt_size
)
2493 t
= pkt_dev
->min_pkt_size
;
2495 pkt_dev
->cur_pkt_size
= t
;
2498 set_cur_queue_map(pkt_dev
);
2500 pkt_dev
->flows
[flow
].count
++;
2505 static u32 pktgen_dst_metrics
[RTAX_MAX
+ 1] __aligned(DST_METRICS_ALIGNMENT
) = {
2507 [RTAX_HOPLIMIT
] = 0x5, /* Set a static hoplimit */
2510 static int pktgen_output_ipsec(struct sk_buff
*skb
, struct pktgen_dev
*pkt_dev
)
2512 struct xfrm_state
*x
= pkt_dev
->flows
[pkt_dev
->curfl
].x
;
2514 struct net
*net
= dev_net(pkt_dev
->odev
);
2518 /* XXX: we dont support tunnel mode for now until
2519 * we resolve the dst issue */
2520 if ((x
->props
.mode
!= XFRM_MODE_TRANSPORT
) && (pkt_dev
->spi
== 0))
2523 /* But when user specify an valid SPI, transformation
2524 * supports both transport/tunnel mode + ESP/AH type.
2526 if ((x
->props
.mode
== XFRM_MODE_TUNNEL
) && (pkt_dev
->spi
!= 0))
2527 skb
->_skb_refdst
= (unsigned long)&pkt_dev
->dst
| SKB_DST_NOREF
;
2530 err
= x
->outer_mode
->output(x
, skb
);
2531 rcu_read_unlock_bh();
2533 XFRM_INC_STATS(net
, LINUX_MIB_XFRMOUTSTATEMODEERROR
);
2536 err
= x
->type
->output(x
, skb
);
2538 XFRM_INC_STATS(net
, LINUX_MIB_XFRMOUTSTATEPROTOERROR
);
2541 spin_lock_bh(&x
->lock
);
2542 x
->curlft
.bytes
+= skb
->len
;
2543 x
->curlft
.packets
++;
2544 spin_unlock_bh(&x
->lock
);
2549 static void free_SAs(struct pktgen_dev
*pkt_dev
)
2551 if (pkt_dev
->cflows
) {
2552 /* let go of the SAs if we have them */
2554 for (i
= 0; i
< pkt_dev
->cflows
; i
++) {
2555 struct xfrm_state
*x
= pkt_dev
->flows
[i
].x
;
2558 pkt_dev
->flows
[i
].x
= NULL
;
2564 static int process_ipsec(struct pktgen_dev
*pkt_dev
,
2565 struct sk_buff
*skb
, __be16 protocol
)
2567 if (pkt_dev
->flags
& F_IPSEC_ON
) {
2568 struct xfrm_state
*x
= pkt_dev
->flows
[pkt_dev
->curfl
].x
;
2575 nhead
= x
->props
.header_len
- skb_headroom(skb
);
2577 ret
= pskb_expand_head(skb
, nhead
, 0, GFP_ATOMIC
);
2579 pr_err("Error expanding ipsec packet %d\n",
2585 /* ipsec is not expecting ll header */
2586 skb_pull(skb
, ETH_HLEN
);
2587 ret
= pktgen_output_ipsec(skb
, pkt_dev
);
2589 pr_err("Error creating ipsec packet %d\n", ret
);
2593 eth
= (__u8
*) skb_push(skb
, ETH_HLEN
);
2594 memcpy(eth
, pkt_dev
->hh
, 12);
2595 *(u16
*) ð
[12] = protocol
;
2597 /* Update IPv4 header len as well as checksum value */
2599 iph
->tot_len
= htons(skb
->len
- ETH_HLEN
);
2610 static void mpls_push(__be32
*mpls
, struct pktgen_dev
*pkt_dev
)
2613 for (i
= 0; i
< pkt_dev
->nr_labels
; i
++)
2614 *mpls
++ = pkt_dev
->labels
[i
] & ~MPLS_STACK_BOTTOM
;
2617 *mpls
|= MPLS_STACK_BOTTOM
;
2620 static inline __be16
build_tci(unsigned int id
, unsigned int cfi
,
2623 return htons(id
| (cfi
<< 12) | (prio
<< 13));
2626 static void pktgen_finalize_skb(struct pktgen_dev
*pkt_dev
, struct sk_buff
*skb
,
2629 struct timeval timestamp
;
2630 struct pktgen_hdr
*pgh
;
2632 pgh
= (struct pktgen_hdr
*)skb_put(skb
, sizeof(*pgh
));
2633 datalen
-= sizeof(*pgh
);
2635 if (pkt_dev
->nfrags
<= 0) {
2636 memset(skb_put(skb
, datalen
), 0, datalen
);
2638 int frags
= pkt_dev
->nfrags
;
2643 if (frags
> MAX_SKB_FRAGS
)
2644 frags
= MAX_SKB_FRAGS
;
2645 len
= datalen
- frags
* PAGE_SIZE
;
2647 memset(skb_put(skb
, len
), 0, len
);
2648 datalen
= frags
* PAGE_SIZE
;
2652 frag_len
= (datalen
/frags
) < PAGE_SIZE
?
2653 (datalen
/frags
) : PAGE_SIZE
;
2654 while (datalen
> 0) {
2655 if (unlikely(!pkt_dev
->page
)) {
2656 int node
= numa_node_id();
2658 if (pkt_dev
->node
>= 0 && (pkt_dev
->flags
& F_NODE
))
2659 node
= pkt_dev
->node
;
2660 pkt_dev
->page
= alloc_pages_node(node
, GFP_KERNEL
| __GFP_ZERO
, 0);
2664 get_page(pkt_dev
->page
);
2665 skb_frag_set_page(skb
, i
, pkt_dev
->page
);
2666 skb_shinfo(skb
)->frags
[i
].page_offset
= 0;
2667 /*last fragment, fill rest of data*/
2668 if (i
== (frags
- 1))
2669 skb_frag_size_set(&skb_shinfo(skb
)->frags
[i
],
2670 (datalen
< PAGE_SIZE
? datalen
: PAGE_SIZE
));
2672 skb_frag_size_set(&skb_shinfo(skb
)->frags
[i
], frag_len
);
2673 datalen
-= skb_frag_size(&skb_shinfo(skb
)->frags
[i
]);
2674 skb
->len
+= skb_frag_size(&skb_shinfo(skb
)->frags
[i
]);
2675 skb
->data_len
+= skb_frag_size(&skb_shinfo(skb
)->frags
[i
]);
2677 skb_shinfo(skb
)->nr_frags
= i
;
2681 /* Stamp the time, and sequence number,
2682 * convert them to network byte order
2684 pgh
->pgh_magic
= htonl(PKTGEN_MAGIC
);
2685 pgh
->seq_num
= htonl(pkt_dev
->seq_num
);
2687 do_gettimeofday(×tamp
);
2688 pgh
->tv_sec
= htonl(timestamp
.tv_sec
);
2689 pgh
->tv_usec
= htonl(timestamp
.tv_usec
);
2692 static struct sk_buff
*pktgen_alloc_skb(struct net_device
*dev
,
2693 struct pktgen_dev
*pkt_dev
,
2694 unsigned int extralen
)
2696 struct sk_buff
*skb
= NULL
;
2697 unsigned int size
= pkt_dev
->cur_pkt_size
+ 64 + extralen
+
2698 pkt_dev
->pkt_overhead
;
2700 if (pkt_dev
->flags
& F_NODE
) {
2701 int node
= pkt_dev
->node
>= 0 ? pkt_dev
->node
: numa_node_id();
2703 skb
= __alloc_skb(NET_SKB_PAD
+ size
, GFP_NOWAIT
, 0, node
);
2705 skb_reserve(skb
, NET_SKB_PAD
);
2709 skb
= __netdev_alloc_skb(dev
, size
, GFP_NOWAIT
);
2715 static struct sk_buff
*fill_packet_ipv4(struct net_device
*odev
,
2716 struct pktgen_dev
*pkt_dev
)
2718 struct sk_buff
*skb
= NULL
;
2720 struct udphdr
*udph
;
2723 __be16 protocol
= htons(ETH_P_IP
);
2725 __be16
*vlan_tci
= NULL
; /* Encapsulates priority and VLAN ID */
2726 __be16
*vlan_encapsulated_proto
= NULL
; /* packet type ID field (or len) for VLAN tag */
2727 __be16
*svlan_tci
= NULL
; /* Encapsulates priority and SVLAN ID */
2728 __be16
*svlan_encapsulated_proto
= NULL
; /* packet type ID field (or len) for SVLAN tag */
2731 if (pkt_dev
->nr_labels
)
2732 protocol
= htons(ETH_P_MPLS_UC
);
2734 if (pkt_dev
->vlan_id
!= 0xffff)
2735 protocol
= htons(ETH_P_8021Q
);
2737 /* Update any of the values, used when we're incrementing various
2740 mod_cur_headers(pkt_dev
);
2741 queue_map
= pkt_dev
->cur_queue_map
;
2743 datalen
= (odev
->hard_header_len
+ 16) & ~0xf;
2745 skb
= pktgen_alloc_skb(odev
, pkt_dev
, datalen
);
2747 sprintf(pkt_dev
->result
, "No memory");
2751 prefetchw(skb
->data
);
2752 skb_reserve(skb
, datalen
);
2754 /* Reserve for ethernet and IP header */
2755 eth
= (__u8
*) skb_push(skb
, 14);
2756 mpls
= (__be32
*)skb_put(skb
, pkt_dev
->nr_labels
*sizeof(__u32
));
2757 if (pkt_dev
->nr_labels
)
2758 mpls_push(mpls
, pkt_dev
);
2760 if (pkt_dev
->vlan_id
!= 0xffff) {
2761 if (pkt_dev
->svlan_id
!= 0xffff) {
2762 svlan_tci
= (__be16
*)skb_put(skb
, sizeof(__be16
));
2763 *svlan_tci
= build_tci(pkt_dev
->svlan_id
,
2766 svlan_encapsulated_proto
= (__be16
*)skb_put(skb
, sizeof(__be16
));
2767 *svlan_encapsulated_proto
= htons(ETH_P_8021Q
);
2769 vlan_tci
= (__be16
*)skb_put(skb
, sizeof(__be16
));
2770 *vlan_tci
= build_tci(pkt_dev
->vlan_id
,
2773 vlan_encapsulated_proto
= (__be16
*)skb_put(skb
, sizeof(__be16
));
2774 *vlan_encapsulated_proto
= htons(ETH_P_IP
);
2777 skb_set_mac_header(skb
, 0);
2778 skb_set_network_header(skb
, skb
->len
);
2779 iph
= (struct iphdr
*) skb_put(skb
, sizeof(struct iphdr
));
2781 skb_set_transport_header(skb
, skb
->len
);
2782 udph
= (struct udphdr
*) skb_put(skb
, sizeof(struct udphdr
));
2783 skb_set_queue_mapping(skb
, queue_map
);
2784 skb
->priority
= pkt_dev
->skb_priority
;
2786 memcpy(eth
, pkt_dev
->hh
, 12);
2787 *(__be16
*) & eth
[12] = protocol
;
2789 /* Eth + IPh + UDPh + mpls */
2790 datalen
= pkt_dev
->cur_pkt_size
- 14 - 20 - 8 -
2791 pkt_dev
->pkt_overhead
;
2792 if (datalen
< 0 || datalen
< sizeof(struct pktgen_hdr
))
2793 datalen
= sizeof(struct pktgen_hdr
);
2795 udph
->source
= htons(pkt_dev
->cur_udp_src
);
2796 udph
->dest
= htons(pkt_dev
->cur_udp_dst
);
2797 udph
->len
= htons(datalen
+ 8); /* DATA + udphdr */
2803 iph
->tos
= pkt_dev
->tos
;
2804 iph
->protocol
= IPPROTO_UDP
; /* UDP */
2805 iph
->saddr
= pkt_dev
->cur_saddr
;
2806 iph
->daddr
= pkt_dev
->cur_daddr
;
2807 iph
->id
= htons(pkt_dev
->ip_id
);
2810 iplen
= 20 + 8 + datalen
;
2811 iph
->tot_len
= htons(iplen
);
2813 skb
->protocol
= protocol
;
2815 skb
->pkt_type
= PACKET_HOST
;
2817 pktgen_finalize_skb(pkt_dev
, skb
, datalen
);
2819 if (!(pkt_dev
->flags
& F_UDPCSUM
)) {
2820 skb
->ip_summed
= CHECKSUM_NONE
;
2821 } else if (odev
->features
& NETIF_F_V4_CSUM
) {
2822 skb
->ip_summed
= CHECKSUM_PARTIAL
;
2824 udp4_hwcsum(skb
, iph
->saddr
, iph
->daddr
);
2826 __wsum csum
= skb_checksum(skb
, skb_transport_offset(skb
), datalen
+ 8, 0);
2828 /* add protocol-dependent pseudo-header */
2829 udph
->check
= csum_tcpudp_magic(iph
->saddr
, iph
->daddr
,
2830 datalen
+ 8, IPPROTO_UDP
, csum
);
2832 if (udph
->check
== 0)
2833 udph
->check
= CSUM_MANGLED_0
;
2837 if (!process_ipsec(pkt_dev
, skb
, protocol
))
2844 static struct sk_buff
*fill_packet_ipv6(struct net_device
*odev
,
2845 struct pktgen_dev
*pkt_dev
)
2847 struct sk_buff
*skb
= NULL
;
2849 struct udphdr
*udph
;
2850 int datalen
, udplen
;
2851 struct ipv6hdr
*iph
;
2852 __be16 protocol
= htons(ETH_P_IPV6
);
2854 __be16
*vlan_tci
= NULL
; /* Encapsulates priority and VLAN ID */
2855 __be16
*vlan_encapsulated_proto
= NULL
; /* packet type ID field (or len) for VLAN tag */
2856 __be16
*svlan_tci
= NULL
; /* Encapsulates priority and SVLAN ID */
2857 __be16
*svlan_encapsulated_proto
= NULL
; /* packet type ID field (or len) for SVLAN tag */
2860 if (pkt_dev
->nr_labels
)
2861 protocol
= htons(ETH_P_MPLS_UC
);
2863 if (pkt_dev
->vlan_id
!= 0xffff)
2864 protocol
= htons(ETH_P_8021Q
);
2866 /* Update any of the values, used when we're incrementing various
2869 mod_cur_headers(pkt_dev
);
2870 queue_map
= pkt_dev
->cur_queue_map
;
2872 skb
= pktgen_alloc_skb(odev
, pkt_dev
, 16);
2874 sprintf(pkt_dev
->result
, "No memory");
2878 prefetchw(skb
->data
);
2879 skb_reserve(skb
, 16);
2881 /* Reserve for ethernet and IP header */
2882 eth
= (__u8
*) skb_push(skb
, 14);
2883 mpls
= (__be32
*)skb_put(skb
, pkt_dev
->nr_labels
*sizeof(__u32
));
2884 if (pkt_dev
->nr_labels
)
2885 mpls_push(mpls
, pkt_dev
);
2887 if (pkt_dev
->vlan_id
!= 0xffff) {
2888 if (pkt_dev
->svlan_id
!= 0xffff) {
2889 svlan_tci
= (__be16
*)skb_put(skb
, sizeof(__be16
));
2890 *svlan_tci
= build_tci(pkt_dev
->svlan_id
,
2893 svlan_encapsulated_proto
= (__be16
*)skb_put(skb
, sizeof(__be16
));
2894 *svlan_encapsulated_proto
= htons(ETH_P_8021Q
);
2896 vlan_tci
= (__be16
*)skb_put(skb
, sizeof(__be16
));
2897 *vlan_tci
= build_tci(pkt_dev
->vlan_id
,
2900 vlan_encapsulated_proto
= (__be16
*)skb_put(skb
, sizeof(__be16
));
2901 *vlan_encapsulated_proto
= htons(ETH_P_IPV6
);
2904 skb_set_mac_header(skb
, 0);
2905 skb_set_network_header(skb
, skb
->len
);
2906 iph
= (struct ipv6hdr
*) skb_put(skb
, sizeof(struct ipv6hdr
));
2908 skb_set_transport_header(skb
, skb
->len
);
2909 udph
= (struct udphdr
*) skb_put(skb
, sizeof(struct udphdr
));
2910 skb_set_queue_mapping(skb
, queue_map
);
2911 skb
->priority
= pkt_dev
->skb_priority
;
2913 memcpy(eth
, pkt_dev
->hh
, 12);
2914 *(__be16
*) ð
[12] = protocol
;
2916 /* Eth + IPh + UDPh + mpls */
2917 datalen
= pkt_dev
->cur_pkt_size
- 14 -
2918 sizeof(struct ipv6hdr
) - sizeof(struct udphdr
) -
2919 pkt_dev
->pkt_overhead
;
2921 if (datalen
< 0 || datalen
< sizeof(struct pktgen_hdr
)) {
2922 datalen
= sizeof(struct pktgen_hdr
);
2923 net_info_ratelimited("increased datalen to %d\n", datalen
);
2926 udplen
= datalen
+ sizeof(struct udphdr
);
2927 udph
->source
= htons(pkt_dev
->cur_udp_src
);
2928 udph
->dest
= htons(pkt_dev
->cur_udp_dst
);
2929 udph
->len
= htons(udplen
);
2932 *(__be32
*) iph
= htonl(0x60000000); /* Version + flow */
2934 if (pkt_dev
->traffic_class
) {
2935 /* Version + traffic class + flow (0) */
2936 *(__be32
*)iph
|= htonl(0x60000000 | (pkt_dev
->traffic_class
<< 20));
2939 iph
->hop_limit
= 32;
2941 iph
->payload_len
= htons(udplen
);
2942 iph
->nexthdr
= IPPROTO_UDP
;
2944 iph
->daddr
= pkt_dev
->cur_in6_daddr
;
2945 iph
->saddr
= pkt_dev
->cur_in6_saddr
;
2947 skb
->protocol
= protocol
;
2949 skb
->pkt_type
= PACKET_HOST
;
2951 pktgen_finalize_skb(pkt_dev
, skb
, datalen
);
2953 if (!(pkt_dev
->flags
& F_UDPCSUM
)) {
2954 skb
->ip_summed
= CHECKSUM_NONE
;
2955 } else if (odev
->features
& NETIF_F_V6_CSUM
) {
2956 skb
->ip_summed
= CHECKSUM_PARTIAL
;
2957 skb
->csum_start
= skb_transport_header(skb
) - skb
->head
;
2958 skb
->csum_offset
= offsetof(struct udphdr
, check
);
2959 udph
->check
= ~csum_ipv6_magic(&iph
->saddr
, &iph
->daddr
, udplen
, IPPROTO_UDP
, 0);
2961 __wsum csum
= skb_checksum(skb
, skb_transport_offset(skb
), udplen
, 0);
2963 /* add protocol-dependent pseudo-header */
2964 udph
->check
= csum_ipv6_magic(&iph
->saddr
, &iph
->daddr
, udplen
, IPPROTO_UDP
, csum
);
2966 if (udph
->check
== 0)
2967 udph
->check
= CSUM_MANGLED_0
;
2973 static struct sk_buff
*fill_packet(struct net_device
*odev
,
2974 struct pktgen_dev
*pkt_dev
)
2976 if (pkt_dev
->flags
& F_IPV6
)
2977 return fill_packet_ipv6(odev
, pkt_dev
);
2979 return fill_packet_ipv4(odev
, pkt_dev
);
2982 static void pktgen_clear_counters(struct pktgen_dev
*pkt_dev
)
2984 pkt_dev
->seq_num
= 1;
2985 pkt_dev
->idle_acc
= 0;
2987 pkt_dev
->tx_bytes
= 0;
2988 pkt_dev
->errors
= 0;
2991 /* Set up structure for sending pkts, clear counters */
2993 static void pktgen_run(struct pktgen_thread
*t
)
2995 struct pktgen_dev
*pkt_dev
;
3001 list_for_each_entry(pkt_dev
, &t
->if_list
, list
) {
3004 * setup odev and create initial packet.
3006 pktgen_setup_inject(pkt_dev
);
3008 if (pkt_dev
->odev
) {
3009 pktgen_clear_counters(pkt_dev
);
3010 pkt_dev
->running
= 1; /* Cranke yeself! */
3011 pkt_dev
->skb
= NULL
;
3012 pkt_dev
->started_at
= pkt_dev
->next_tx
= ktime_get();
3014 set_pkt_overhead(pkt_dev
);
3016 strcpy(pkt_dev
->result
, "Starting");
3019 strcpy(pkt_dev
->result
, "Error starting");
3023 t
->control
&= ~(T_STOP
);
3026 static void pktgen_stop_all_threads_ifs(struct pktgen_net
*pn
)
3028 struct pktgen_thread
*t
;
3032 mutex_lock(&pktgen_thread_lock
);
3034 list_for_each_entry(t
, &pn
->pktgen_threads
, th_list
)
3035 t
->control
|= T_STOP
;
3037 mutex_unlock(&pktgen_thread_lock
);
3040 static int thread_is_running(const struct pktgen_thread
*t
)
3042 const struct pktgen_dev
*pkt_dev
;
3044 list_for_each_entry(pkt_dev
, &t
->if_list
, list
)
3045 if (pkt_dev
->running
)
3050 static int pktgen_wait_thread_run(struct pktgen_thread
*t
)
3054 while (thread_is_running(t
)) {
3058 msleep_interruptible(100);
3060 if (signal_pending(current
))
3070 static int pktgen_wait_all_threads_run(struct pktgen_net
*pn
)
3072 struct pktgen_thread
*t
;
3075 mutex_lock(&pktgen_thread_lock
);
3077 list_for_each_entry(t
, &pn
->pktgen_threads
, th_list
) {
3078 sig
= pktgen_wait_thread_run(t
);
3084 list_for_each_entry(t
, &pn
->pktgen_threads
, th_list
)
3085 t
->control
|= (T_STOP
);
3087 mutex_unlock(&pktgen_thread_lock
);
3091 static void pktgen_run_all_threads(struct pktgen_net
*pn
)
3093 struct pktgen_thread
*t
;
3097 mutex_lock(&pktgen_thread_lock
);
3099 list_for_each_entry(t
, &pn
->pktgen_threads
, th_list
)
3100 t
->control
|= (T_RUN
);
3102 mutex_unlock(&pktgen_thread_lock
);
3104 /* Propagate thread->control */
3105 schedule_timeout_interruptible(msecs_to_jiffies(125));
3107 pktgen_wait_all_threads_run(pn
);
3110 static void pktgen_reset_all_threads(struct pktgen_net
*pn
)
3112 struct pktgen_thread
*t
;
3116 mutex_lock(&pktgen_thread_lock
);
3118 list_for_each_entry(t
, &pn
->pktgen_threads
, th_list
)
3119 t
->control
|= (T_REMDEVALL
);
3121 mutex_unlock(&pktgen_thread_lock
);
3123 /* Propagate thread->control */
3124 schedule_timeout_interruptible(msecs_to_jiffies(125));
3126 pktgen_wait_all_threads_run(pn
);
3129 static void show_results(struct pktgen_dev
*pkt_dev
, int nr_frags
)
3131 __u64 bps
, mbps
, pps
;
3132 char *p
= pkt_dev
->result
;
3133 ktime_t elapsed
= ktime_sub(pkt_dev
->stopped_at
,
3134 pkt_dev
->started_at
);
3135 ktime_t idle
= ns_to_ktime(pkt_dev
->idle_acc
);
3137 p
+= sprintf(p
, "OK: %llu(c%llu+d%llu) usec, %llu (%dbyte,%dfrags)\n",
3138 (unsigned long long)ktime_to_us(elapsed
),
3139 (unsigned long long)ktime_to_us(ktime_sub(elapsed
, idle
)),
3140 (unsigned long long)ktime_to_us(idle
),
3141 (unsigned long long)pkt_dev
->sofar
,
3142 pkt_dev
->cur_pkt_size
, nr_frags
);
3144 pps
= div64_u64(pkt_dev
->sofar
* NSEC_PER_SEC
,
3145 ktime_to_ns(elapsed
));
3147 bps
= pps
* 8 * pkt_dev
->cur_pkt_size
;
3150 do_div(mbps
, 1000000);
3151 p
+= sprintf(p
, " %llupps %lluMb/sec (%llubps) errors: %llu",
3152 (unsigned long long)pps
,
3153 (unsigned long long)mbps
,
3154 (unsigned long long)bps
,
3155 (unsigned long long)pkt_dev
->errors
);
3158 /* Set stopped-at timer, remove from running list, do counters & statistics */
3159 static int pktgen_stop_device(struct pktgen_dev
*pkt_dev
)
3161 int nr_frags
= pkt_dev
->skb
? skb_shinfo(pkt_dev
->skb
)->nr_frags
: -1;
3163 if (!pkt_dev
->running
) {
3164 pr_warning("interface: %s is already stopped\n",
3169 kfree_skb(pkt_dev
->skb
);
3170 pkt_dev
->skb
= NULL
;
3171 pkt_dev
->stopped_at
= ktime_get();
3172 pkt_dev
->running
= 0;
3174 show_results(pkt_dev
, nr_frags
);
3179 static struct pktgen_dev
*next_to_run(struct pktgen_thread
*t
)
3181 struct pktgen_dev
*pkt_dev
, *best
= NULL
;
3185 list_for_each_entry(pkt_dev
, &t
->if_list
, list
) {
3186 if (!pkt_dev
->running
)
3190 else if (ktime_compare(pkt_dev
->next_tx
, best
->next_tx
) < 0)
3197 static void pktgen_stop(struct pktgen_thread
*t
)
3199 struct pktgen_dev
*pkt_dev
;
3205 list_for_each_entry(pkt_dev
, &t
->if_list
, list
) {
3206 pktgen_stop_device(pkt_dev
);
3213 * one of our devices needs to be removed - find it
3216 static void pktgen_rem_one_if(struct pktgen_thread
*t
)
3218 struct list_head
*q
, *n
;
3219 struct pktgen_dev
*cur
;
3225 list_for_each_safe(q
, n
, &t
->if_list
) {
3226 cur
= list_entry(q
, struct pktgen_dev
, list
);
3228 if (!cur
->removal_mark
)
3231 kfree_skb(cur
->skb
);
3234 pktgen_remove_device(t
, cur
);
3242 static void pktgen_rem_all_ifs(struct pktgen_thread
*t
)
3244 struct list_head
*q
, *n
;
3245 struct pktgen_dev
*cur
;
3249 /* Remove all devices, free mem */
3253 list_for_each_safe(q
, n
, &t
->if_list
) {
3254 cur
= list_entry(q
, struct pktgen_dev
, list
);
3256 kfree_skb(cur
->skb
);
3259 pktgen_remove_device(t
, cur
);
3265 static void pktgen_rem_thread(struct pktgen_thread
*t
)
3267 /* Remove from the thread list */
3268 remove_proc_entry(t
->tsk
->comm
, t
->net
->proc_dir
);
3271 static void pktgen_resched(struct pktgen_dev
*pkt_dev
)
3273 ktime_t idle_start
= ktime_get();
3275 pkt_dev
->idle_acc
+= ktime_to_ns(ktime_sub(ktime_get(), idle_start
));
3278 static void pktgen_wait_for_skb(struct pktgen_dev
*pkt_dev
)
3280 ktime_t idle_start
= ktime_get();
3282 while (atomic_read(&(pkt_dev
->skb
->users
)) != 1) {
3283 if (signal_pending(current
))
3287 pktgen_resched(pkt_dev
);
3291 pkt_dev
->idle_acc
+= ktime_to_ns(ktime_sub(ktime_get(), idle_start
));
3294 static void pktgen_xmit(struct pktgen_dev
*pkt_dev
)
3296 struct net_device
*odev
= pkt_dev
->odev
;
3297 netdev_tx_t (*xmit
)(struct sk_buff
*, struct net_device
*)
3298 = odev
->netdev_ops
->ndo_start_xmit
;
3299 struct netdev_queue
*txq
;
3303 /* If device is offline, then don't send */
3304 if (unlikely(!netif_running(odev
) || !netif_carrier_ok(odev
))) {
3305 pktgen_stop_device(pkt_dev
);
3309 /* This is max DELAY, this has special meaning of
3312 if (unlikely(pkt_dev
->delay
== ULLONG_MAX
)) {
3313 pkt_dev
->next_tx
= ktime_add_ns(ktime_get(), ULONG_MAX
);
3317 /* If no skb or clone count exhausted then get new one */
3318 if (!pkt_dev
->skb
|| (pkt_dev
->last_ok
&&
3319 ++pkt_dev
->clone_count
>= pkt_dev
->clone_skb
)) {
3320 /* build a new pkt */
3321 kfree_skb(pkt_dev
->skb
);
3323 pkt_dev
->skb
= fill_packet(odev
, pkt_dev
);
3324 if (pkt_dev
->skb
== NULL
) {
3325 pr_err("ERROR: couldn't allocate skb in fill_packet\n");
3327 pkt_dev
->clone_count
--; /* back out increment, OOM */
3330 pkt_dev
->last_pkt_size
= pkt_dev
->skb
->len
;
3331 pkt_dev
->allocated_skbs
++;
3332 pkt_dev
->clone_count
= 0; /* reset counter */
3335 if (pkt_dev
->delay
&& pkt_dev
->last_ok
)
3336 spin(pkt_dev
, pkt_dev
->next_tx
);
3338 queue_map
= skb_get_queue_mapping(pkt_dev
->skb
);
3339 txq
= netdev_get_tx_queue(odev
, queue_map
);
3343 HARD_TX_LOCK(odev
, txq
, smp_processor_id());
3345 if (unlikely(netif_xmit_frozen_or_drv_stopped(txq
))) {
3346 ret
= NETDEV_TX_BUSY
;
3347 pkt_dev
->last_ok
= 0;
3350 atomic_inc(&(pkt_dev
->skb
->users
));
3351 ret
= (*xmit
)(pkt_dev
->skb
, odev
);
3355 txq_trans_update(txq
);
3356 pkt_dev
->last_ok
= 1;
3359 pkt_dev
->tx_bytes
+= pkt_dev
->last_pkt_size
;
3363 case NET_XMIT_POLICED
:
3364 /* skb has been consumed */
3367 default: /* Drivers are not supposed to return other values! */
3368 net_info_ratelimited("%s xmit error: %d\n",
3369 pkt_dev
->odevname
, ret
);
3372 case NETDEV_TX_LOCKED
:
3373 case NETDEV_TX_BUSY
:
3374 /* Retry it next time */
3375 atomic_dec(&(pkt_dev
->skb
->users
));
3376 pkt_dev
->last_ok
= 0;
3379 HARD_TX_UNLOCK(odev
, txq
);
3383 /* If pkt_dev->count is zero, then run forever */
3384 if ((pkt_dev
->count
!= 0) && (pkt_dev
->sofar
>= pkt_dev
->count
)) {
3385 pktgen_wait_for_skb(pkt_dev
);
3387 /* Done with this */
3388 pktgen_stop_device(pkt_dev
);
3393 * Main loop of the thread goes here
3396 static int pktgen_thread_worker(void *arg
)
3399 struct pktgen_thread
*t
= arg
;
3400 struct pktgen_dev
*pkt_dev
= NULL
;
3403 BUG_ON(smp_processor_id() != cpu
);
3405 init_waitqueue_head(&t
->queue
);
3406 complete(&t
->start_done
);
3408 pr_debug("starting pktgen/%d: pid=%d\n", cpu
, task_pid_nr(current
));
3410 set_current_state(TASK_INTERRUPTIBLE
);
3414 while (!kthread_should_stop()) {
3415 pkt_dev
= next_to_run(t
);
3417 if (unlikely(!pkt_dev
&& t
->control
== 0)) {
3418 if (t
->net
->pktgen_exiting
)
3420 wait_event_interruptible_timeout(t
->queue
,
3427 __set_current_state(TASK_RUNNING
);
3429 if (likely(pkt_dev
)) {
3430 pktgen_xmit(pkt_dev
);
3433 pktgen_resched(pkt_dev
);
3438 if (t
->control
& T_STOP
) {
3440 t
->control
&= ~(T_STOP
);
3443 if (t
->control
& T_RUN
) {
3445 t
->control
&= ~(T_RUN
);
3448 if (t
->control
& T_REMDEVALL
) {
3449 pktgen_rem_all_ifs(t
);
3450 t
->control
&= ~(T_REMDEVALL
);
3453 if (t
->control
& T_REMDEV
) {
3454 pktgen_rem_one_if(t
);
3455 t
->control
&= ~(T_REMDEV
);
3460 set_current_state(TASK_INTERRUPTIBLE
);
3463 pr_debug("%s stopping all device\n", t
->tsk
->comm
);
3466 pr_debug("%s removing all device\n", t
->tsk
->comm
);
3467 pktgen_rem_all_ifs(t
);
3469 pr_debug("%s removing thread\n", t
->tsk
->comm
);
3470 pktgen_rem_thread(t
);
3472 /* Wait for kthread_stop */
3474 set_current_state(TASK_INTERRUPTIBLE
);
3475 if (kthread_should_stop())
3479 __set_current_state(TASK_RUNNING
);
3484 static struct pktgen_dev
*pktgen_find_dev(struct pktgen_thread
*t
,
3485 const char *ifname
, bool exact
)
3487 struct pktgen_dev
*p
, *pkt_dev
= NULL
;
3488 size_t len
= strlen(ifname
);
3491 list_for_each_entry(p
, &t
->if_list
, list
)
3492 if (strncmp(p
->odevname
, ifname
, len
) == 0) {
3493 if (p
->odevname
[len
]) {
3494 if (exact
|| p
->odevname
[len
] != '@')
3502 pr_debug("find_dev(%s) returning %p\n", ifname
, pkt_dev
);
3507 * Adds a dev at front of if_list.
3510 static int add_dev_to_thread(struct pktgen_thread
*t
,
3511 struct pktgen_dev
*pkt_dev
)
3517 if (pkt_dev
->pg_thread
) {
3518 pr_err("ERROR: already assigned to a thread\n");
3523 list_add(&pkt_dev
->list
, &t
->if_list
);
3524 pkt_dev
->pg_thread
= t
;
3525 pkt_dev
->running
= 0;
3532 /* Called under thread lock */
3534 static int pktgen_add_device(struct pktgen_thread
*t
, const char *ifname
)
3536 struct pktgen_dev
*pkt_dev
;
3538 int node
= cpu_to_node(t
->cpu
);
3540 /* We don't allow a device to be on several threads */
3542 pkt_dev
= __pktgen_NN_threads(t
->net
, ifname
, FIND
);
3544 pr_err("ERROR: interface already used\n");
3548 pkt_dev
= kzalloc_node(sizeof(struct pktgen_dev
), GFP_KERNEL
, node
);
3552 strcpy(pkt_dev
->odevname
, ifname
);
3553 pkt_dev
->flows
= vzalloc_node(MAX_CFLOWS
* sizeof(struct flow_state
),
3555 if (pkt_dev
->flows
== NULL
) {
3560 pkt_dev
->removal_mark
= 0;
3561 pkt_dev
->nfrags
= 0;
3562 pkt_dev
->delay
= pg_delay_d
;
3563 pkt_dev
->count
= pg_count_d
;
3565 pkt_dev
->udp_src_min
= 9; /* sink port */
3566 pkt_dev
->udp_src_max
= 9;
3567 pkt_dev
->udp_dst_min
= 9;
3568 pkt_dev
->udp_dst_max
= 9;
3569 pkt_dev
->vlan_p
= 0;
3570 pkt_dev
->vlan_cfi
= 0;
3571 pkt_dev
->vlan_id
= 0xffff;
3572 pkt_dev
->svlan_p
= 0;
3573 pkt_dev
->svlan_cfi
= 0;
3574 pkt_dev
->svlan_id
= 0xffff;
3577 err
= pktgen_setup_dev(t
->net
, pkt_dev
, ifname
);
3580 if (pkt_dev
->odev
->priv_flags
& IFF_TX_SKB_SHARING
)
3581 pkt_dev
->clone_skb
= pg_clone_skb_d
;
3583 pkt_dev
->entry
= proc_create_data(ifname
, 0600, t
->net
->proc_dir
,
3584 &pktgen_if_fops
, pkt_dev
);
3585 if (!pkt_dev
->entry
) {
3586 pr_err("cannot create %s/%s procfs entry\n",
3587 PG_PROC_DIR
, ifname
);
3592 pkt_dev
->ipsmode
= XFRM_MODE_TRANSPORT
;
3593 pkt_dev
->ipsproto
= IPPROTO_ESP
;
3595 /* xfrm tunnel mode needs additional dst to extract outter
3596 * ip header protocol/ttl/id field, here creat a phony one.
3597 * instead of looking for a valid rt, which definitely hurting
3598 * performance under such circumstance.
3600 pkt_dev
->dstops
.family
= AF_INET
;
3601 pkt_dev
->dst
.dev
= pkt_dev
->odev
;
3602 dst_init_metrics(&pkt_dev
->dst
, pktgen_dst_metrics
, false);
3603 pkt_dev
->dst
.child
= &pkt_dev
->dst
;
3604 pkt_dev
->dst
.ops
= &pkt_dev
->dstops
;
3607 return add_dev_to_thread(t
, pkt_dev
);
3609 dev_put(pkt_dev
->odev
);
3614 vfree(pkt_dev
->flows
);
3619 static int __net_init
pktgen_create_thread(int cpu
, struct pktgen_net
*pn
)
3621 struct pktgen_thread
*t
;
3622 struct proc_dir_entry
*pe
;
3623 struct task_struct
*p
;
3625 t
= kzalloc_node(sizeof(struct pktgen_thread
), GFP_KERNEL
,
3628 pr_err("ERROR: out of memory, can't create new thread\n");
3632 spin_lock_init(&t
->if_lock
);
3635 INIT_LIST_HEAD(&t
->if_list
);
3637 list_add_tail(&t
->th_list
, &pn
->pktgen_threads
);
3638 init_completion(&t
->start_done
);
3640 p
= kthread_create_on_node(pktgen_thread_worker
,
3643 "kpktgend_%d", cpu
);
3645 pr_err("kernel_thread() failed for cpu %d\n", t
->cpu
);
3646 list_del(&t
->th_list
);
3650 kthread_bind(p
, cpu
);
3653 pe
= proc_create_data(t
->tsk
->comm
, 0600, pn
->proc_dir
,
3654 &pktgen_thread_fops
, t
);
3656 pr_err("cannot create %s/%s procfs entry\n",
3657 PG_PROC_DIR
, t
->tsk
->comm
);
3659 list_del(&t
->th_list
);
3666 wait_for_completion(&t
->start_done
);
3672 * Removes a device from the thread if_list.
3674 static void _rem_dev_from_if_list(struct pktgen_thread
*t
,
3675 struct pktgen_dev
*pkt_dev
)
3677 struct list_head
*q
, *n
;
3678 struct pktgen_dev
*p
;
3680 list_for_each_safe(q
, n
, &t
->if_list
) {
3681 p
= list_entry(q
, struct pktgen_dev
, list
);
3687 static int pktgen_remove_device(struct pktgen_thread
*t
,
3688 struct pktgen_dev
*pkt_dev
)
3690 pr_debug("remove_device pkt_dev=%p\n", pkt_dev
);
3692 if (pkt_dev
->running
) {
3693 pr_warning("WARNING: trying to remove a running interface, stopping it now\n");
3694 pktgen_stop_device(pkt_dev
);
3697 /* Dis-associate from the interface */
3699 if (pkt_dev
->odev
) {
3700 dev_put(pkt_dev
->odev
);
3701 pkt_dev
->odev
= NULL
;
3704 /* And update the thread if_list */
3706 _rem_dev_from_if_list(t
, pkt_dev
);
3709 proc_remove(pkt_dev
->entry
);
3714 vfree(pkt_dev
->flows
);
3716 put_page(pkt_dev
->page
);
3721 static int __net_init
pg_net_init(struct net
*net
)
3723 struct pktgen_net
*pn
= net_generic(net
, pg_net_id
);
3724 struct proc_dir_entry
*pe
;
3728 INIT_LIST_HEAD(&pn
->pktgen_threads
);
3729 pn
->pktgen_exiting
= false;
3730 pn
->proc_dir
= proc_mkdir(PG_PROC_DIR
, pn
->net
->proc_net
);
3731 if (!pn
->proc_dir
) {
3732 pr_warn("cannot create /proc/net/%s\n", PG_PROC_DIR
);
3735 pe
= proc_create(PGCTRL
, 0600, pn
->proc_dir
, &pktgen_fops
);
3737 pr_err("cannot create %s procfs entry\n", PGCTRL
);
3742 for_each_online_cpu(cpu
) {
3745 err
= pktgen_create_thread(cpu
, pn
);
3747 pr_warn("Cannot create thread for cpu %d (%d)\n",
3751 if (list_empty(&pn
->pktgen_threads
)) {
3752 pr_err("Initialization failed for all threads\n");
3760 remove_proc_entry(PGCTRL
, pn
->proc_dir
);
3762 remove_proc_entry(PG_PROC_DIR
, pn
->net
->proc_net
);
3766 static void __net_exit
pg_net_exit(struct net
*net
)
3768 struct pktgen_net
*pn
= net_generic(net
, pg_net_id
);
3769 struct pktgen_thread
*t
;
3770 struct list_head
*q
, *n
;
3773 /* Stop all interfaces & threads */
3774 pn
->pktgen_exiting
= true;
3776 mutex_lock(&pktgen_thread_lock
);
3777 list_splice_init(&pn
->pktgen_threads
, &list
);
3778 mutex_unlock(&pktgen_thread_lock
);
3780 list_for_each_safe(q
, n
, &list
) {
3781 t
= list_entry(q
, struct pktgen_thread
, th_list
);
3782 list_del(&t
->th_list
);
3783 kthread_stop(t
->tsk
);
3787 remove_proc_entry(PGCTRL
, pn
->proc_dir
);
3788 remove_proc_entry(PG_PROC_DIR
, pn
->net
->proc_net
);
3791 static struct pernet_operations pg_net_ops
= {
3792 .init
= pg_net_init
,
3793 .exit
= pg_net_exit
,
3795 .size
= sizeof(struct pktgen_net
),
3798 static int __init
pg_init(void)
3802 pr_info("%s", version
);
3803 ret
= register_pernet_subsys(&pg_net_ops
);
3806 ret
= register_netdevice_notifier(&pktgen_notifier_block
);
3808 unregister_pernet_subsys(&pg_net_ops
);
3813 static void __exit
pg_cleanup(void)
3815 unregister_netdevice_notifier(&pktgen_notifier_block
);
3816 unregister_pernet_subsys(&pg_net_ops
);
3819 module_init(pg_init
);
3820 module_exit(pg_cleanup
);
3822 MODULE_AUTHOR("Robert Olsson <robert.olsson@its.uu.se>");
3823 MODULE_DESCRIPTION("Packet Generator tool");
3824 MODULE_LICENSE("GPL");
3825 MODULE_VERSION(VERSION
);
3826 module_param(pg_count_d
, int, 0);
3827 MODULE_PARM_DESC(pg_count_d
, "Default number of packets to inject");
3828 module_param(pg_delay_d
, int, 0);
3829 MODULE_PARM_DESC(pg_delay_d
, "Default delay between packets (nanoseconds)");
3830 module_param(pg_clone_skb_d
, int, 0);
3831 MODULE_PARM_DESC(pg_clone_skb_d
, "Default number of copies of the same packet");
3832 module_param(debug
, int, 0);
3833 MODULE_PARM_DESC(debug
, "Enable debugging of pktgen module");