freebsd-nq/sys/netinet/ipfw/ip_dn_io.c

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Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
/*-
* Copyright (c) 2010 Luigi Rizzo, Riccardo Panicucci, Universita` di Pisa
* All rights reserved
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
/*
* Dummynet portions related to packet handling.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include "opt_inet6.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/malloc.h>
#include <sys/mbuf.h>
#include <sys/kernel.h>
#include <sys/lock.h>
#include <sys/module.h>
#include <sys/priv.h>
#include <sys/proc.h>
#include <sys/rwlock.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <sys/sysctl.h>
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
#include <net/if.h> /* IFNAMSIZ, struct ifaddr, ifq head, lock.h mutex.h */
#include <net/netisr.h>
#include <net/vnet.h>
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
#include <netinet/in.h>
#include <netinet/ip.h> /* ip_len, ip_off */
#include <netinet/ip_var.h> /* ip_output(), IP_FORWARDING */
#include <netinet/ip_fw.h>
#include <netinet/ipfw/ip_fw_private.h>
#include <netinet/ipfw/dn_heap.h>
#include <netinet/ip_dummynet.h>
#include <netinet/ipfw/ip_dn_private.h>
#include <netinet/ipfw/dn_sched.h>
#include <netinet/if_ether.h> /* various ether_* routines */
#include <netinet/ip6.h> /* for ip6_input, ip6_output prototypes */
#include <netinet6/ip6_var.h>
/*
* We keep a private variable for the simulation time, but we could
* probably use an existing one ("softticks" in sys/kern/kern_timeout.c)
* instead of dn_cfg.curr_time
*/
struct dn_parms dn_cfg;
//VNET_DEFINE(struct dn_parms, _base_dn_cfg);
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
static long tick_last; /* Last tick duration (usec). */
static long tick_delta; /* Last vs standard tick diff (usec). */
static long tick_delta_sum; /* Accumulated tick difference (usec).*/
static long tick_adjustment; /* Tick adjustments done. */
static long tick_lost; /* Lost(coalesced) ticks number. */
/* Adjusted vs non-adjusted curr_time difference (ticks). */
static long tick_diff;
static unsigned long io_pkt;
static unsigned long io_pkt_fast;
static unsigned long io_pkt_drop;
/*
* We use a heap to store entities for which we have pending timer events.
* The heap is checked at every tick and all entities with expired events
* are extracted.
*/
MALLOC_DEFINE(M_DUMMYNET, "dummynet", "dummynet heap");
extern void (*bridge_dn_p)(struct mbuf *, struct ifnet *);
#ifdef SYSCTL_NODE
SYSBEGIN(f4)
SYSCTL_DECL(_net_inet);
SYSCTL_DECL(_net_inet_ip);
SYSCTL_NODE(_net_inet_ip, OID_AUTO, dummynet, CTLFLAG_RW, 0, "Dummynet");
/* wrapper to pass dn_cfg fields to SYSCTL_* */
//#define DC(x) (&(VNET_NAME(_base_dn_cfg).x))
#define DC(x) (&(dn_cfg.x))
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
/* parameters */
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, hash_size,
CTLFLAG_RW, DC(hash_size), 0, "Default hash table size");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSCTL_LONG(_net_inet_ip_dummynet, OID_AUTO, pipe_slot_limit,
CTLFLAG_RW, DC(slot_limit), 0,
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
"Upper limit in slots for pipe queue.");
SYSCTL_LONG(_net_inet_ip_dummynet, OID_AUTO, pipe_byte_limit,
CTLFLAG_RW, DC(byte_limit), 0,
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
"Upper limit in bytes for pipe queue.");
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, io_fast,
CTLFLAG_RW, DC(io_fast), 0, "Enable fast dummynet io.");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, debug,
CTLFLAG_RW, DC(debug), 0, "Dummynet debug level");
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, expire,
CTLFLAG_RW, DC(expire), 0, "Expire empty queues/pipes");
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, expire_cycle,
CTLFLAG_RD, DC(expire_cycle), 0, "Expire cycle for queues/pipes");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
/* RED parameters */
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, red_lookup_depth,
CTLFLAG_RD, DC(red_lookup_depth), 0, "Depth of RED lookup table");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, red_avg_pkt_size,
CTLFLAG_RD, DC(red_avg_pkt_size), 0, "RED Medium packet size");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, red_max_pkt_size,
CTLFLAG_RD, DC(red_max_pkt_size), 0, "RED Max packet size");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
/* time adjustment */
SYSCTL_LONG(_net_inet_ip_dummynet, OID_AUTO, tick_delta,
CTLFLAG_RD, &tick_delta, 0, "Last vs standard tick difference (usec).");
SYSCTL_LONG(_net_inet_ip_dummynet, OID_AUTO, tick_delta_sum,
CTLFLAG_RD, &tick_delta_sum, 0, "Accumulated tick difference (usec).");
SYSCTL_LONG(_net_inet_ip_dummynet, OID_AUTO, tick_adjustment,
CTLFLAG_RD, &tick_adjustment, 0, "Tick adjustments done.");
SYSCTL_LONG(_net_inet_ip_dummynet, OID_AUTO, tick_diff,
CTLFLAG_RD, &tick_diff, 0,
"Adjusted vs non-adjusted curr_time difference (ticks).");
SYSCTL_LONG(_net_inet_ip_dummynet, OID_AUTO, tick_lost,
CTLFLAG_RD, &tick_lost, 0,
"Number of ticks coalesced by dummynet taskqueue.");
/* statistics */
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, schk_count,
CTLFLAG_RD, DC(schk_count), 0, "Number of schedulers");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, si_count,
CTLFLAG_RD, DC(si_count), 0, "Number of scheduler instances");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, fsk_count,
CTLFLAG_RD, DC(fsk_count), 0, "Number of flowsets");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSCTL_INT(_net_inet_ip_dummynet, OID_AUTO, queue_count,
CTLFLAG_RD, DC(queue_count), 0, "Number of queues");
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSCTL_ULONG(_net_inet_ip_dummynet, OID_AUTO, io_pkt,
CTLFLAG_RD, &io_pkt, 0,
"Number of packets passed to dummynet.");
SYSCTL_ULONG(_net_inet_ip_dummynet, OID_AUTO, io_pkt_fast,
CTLFLAG_RD, &io_pkt_fast, 0,
"Number of packets bypassed dummynet scheduler.");
SYSCTL_ULONG(_net_inet_ip_dummynet, OID_AUTO, io_pkt_drop,
CTLFLAG_RD, &io_pkt_drop, 0,
"Number of packets dropped by dummynet.");
#undef DC
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
SYSEND
#endif
static void dummynet_send(struct mbuf *);
/*
* Packets processed by dummynet have an mbuf tag associated with
* them that carries their dummynet state.
* Outside dummynet, only the 'rule' field is relevant, and it must
* be at the beginning of the structure.
*/
struct dn_pkt_tag {
struct ipfw_rule_ref rule; /* matching rule */
/* second part, dummynet specific */
int dn_dir; /* action when packet comes out.*/
/* see ip_fw_private.h */
uint64_t output_time; /* when the pkt is due for delivery*/
struct ifnet *ifp; /* interface, for ip_output */
struct _ip6dn_args ip6opt; /* XXX ipv6 options */
};
/*
* Return the mbuf tag holding the dummynet state (it should
* be the first one on the list).
*/
static struct dn_pkt_tag *
dn_tag_get(struct mbuf *m)
{
struct m_tag *mtag = m_tag_first(m);
KASSERT(mtag != NULL &&
mtag->m_tag_cookie == MTAG_ABI_COMPAT &&
mtag->m_tag_id == PACKET_TAG_DUMMYNET,
("packet on dummynet queue w/o dummynet tag!"));
return (struct dn_pkt_tag *)(mtag+1);
}
static inline void
mq_append(struct mq *q, struct mbuf *m)
{
if (q->head == NULL)
q->head = m;
else
q->tail->m_nextpkt = m;
q->tail = m;
m->m_nextpkt = NULL;
}
/*
* Dispose a list of packet. Use a functions so if we need to do
* more work, this is a central point to do it.
*/
void dn_free_pkts(struct mbuf *mnext)
{
struct mbuf *m;
while ((m = mnext) != NULL) {
mnext = m->m_nextpkt;
FREE_PKT(m);
}
}
static int
red_drops (struct dn_queue *q, int len)
{
/*
* RED algorithm
*
* RED calculates the average queue size (avg) using a low-pass filter
* with an exponential weighted (w_q) moving average:
* avg <- (1-w_q) * avg + w_q * q_size
* where q_size is the queue length (measured in bytes or * packets).
*
* If q_size == 0, we compute the idle time for the link, and set
* avg = (1 - w_q)^(idle/s)
* where s is the time needed for transmitting a medium-sized packet.
*
* Now, if avg < min_th the packet is enqueued.
* If avg > max_th the packet is dropped. Otherwise, the packet is
* dropped with probability P function of avg.
*/
struct dn_fsk *fs = q->fs;
int64_t p_b = 0;
/* Queue in bytes or packets? */
uint32_t q_size = (fs->fs.flags & DN_QSIZE_BYTES) ?
q->ni.len_bytes : q->ni.length;
/* Average queue size estimation. */
if (q_size != 0) {
/* Queue is not empty, avg <- avg + (q_size - avg) * w_q */
int diff = SCALE(q_size) - q->avg;
int64_t v = SCALE_MUL((int64_t)diff, (int64_t)fs->w_q);
q->avg += (int)v;
} else {
/*
* Queue is empty, find for how long the queue has been
* empty and use a lookup table for computing
* (1 - * w_q)^(idle_time/s) where s is the time to send a
* (small) packet.
* XXX check wraps...
*/
if (q->avg) {
u_int t = div64((dn_cfg.curr_time - q->q_time), fs->lookup_step);
q->avg = (t < fs->lookup_depth) ?
SCALE_MUL(q->avg, fs->w_q_lookup[t]) : 0;
}
}
/* Should i drop? */
if (q->avg < fs->min_th) {
q->count = -1;
return (0); /* accept packet */
}
if (q->avg >= fs->max_th) { /* average queue >= max threshold */
if (fs->fs.flags & DN_IS_GENTLE_RED) {
/*
* According to Gentle-RED, if avg is greater than
* max_th the packet is dropped with a probability
* p_b = c_3 * avg - c_4
* where c_3 = (1 - max_p) / max_th
* c_4 = 1 - 2 * max_p
*/
p_b = SCALE_MUL((int64_t)fs->c_3, (int64_t)q->avg) -
fs->c_4;
} else {
q->count = -1;
return (1);
}
} else if (q->avg > fs->min_th) {
/*
* We compute p_b using the linear dropping function
* p_b = c_1 * avg - c_2
* where c_1 = max_p / (max_th - min_th)
* c_2 = max_p * min_th / (max_th - min_th)
*/
p_b = SCALE_MUL((int64_t)fs->c_1, (int64_t)q->avg) - fs->c_2;
}
if (fs->fs.flags & DN_QSIZE_BYTES)
p_b = div64((p_b * len) , fs->max_pkt_size);
if (++q->count == 0)
q->random = random() & 0xffff;
else {
/*
* q->count counts packets arrived since last drop, so a greater
* value of q->count means a greater packet drop probability.
*/
if (SCALE_MUL(p_b, SCALE((int64_t)q->count)) > q->random) {
q->count = 0;
/* After a drop we calculate a new random value. */
q->random = random() & 0xffff;
return (1); /* drop */
}
}
/* End of RED algorithm. */
return (0); /* accept */
}
/*
* Enqueue a packet in q, subject to space and queue management policy
* (whose parameters are in q->fs).
* Update stats for the queue and the scheduler.
* Return 0 on success, 1 on drop. The packet is consumed anyways.
*/
int
dn_enqueue(struct dn_queue *q, struct mbuf* m, int drop)
{
struct dn_fs *f;
struct dn_flow *ni; /* stats for scheduler instance */
uint64_t len;
if (q->fs == NULL || q->_si == NULL) {
printf("%s fs %p si %p, dropping\n",
__FUNCTION__, q->fs, q->_si);
FREE_PKT(m);
return 1;
}
f = &(q->fs->fs);
ni = &q->_si->ni;
len = m->m_pkthdr.len;
/* Update statistics, then check reasons to drop pkt. */
q->ni.tot_bytes += len;
q->ni.tot_pkts++;
ni->tot_bytes += len;
ni->tot_pkts++;
if (drop)
goto drop;
if (f->plr && random() < f->plr)
goto drop;
if (f->flags & DN_IS_RED && red_drops(q, m->m_pkthdr.len))
goto drop;
if (f->flags & DN_QSIZE_BYTES) {
if (q->ni.len_bytes > f->qsize)
goto drop;
} else if (q->ni.length >= f->qsize) {
goto drop;
}
mq_append(&q->mq, m);
q->ni.length++;
q->ni.len_bytes += len;
ni->length++;
ni->len_bytes += len;
return 0;
drop:
io_pkt_drop++;
q->ni.drops++;
ni->drops++;
FREE_PKT(m);
return 1;
}
/*
* Fetch packets from the delay line which are due now. If there are
* leftover packets, reinsert the delay line in the heap.
* Runs under scheduler lock.
*/
static void
transmit_event(struct mq *q, struct delay_line *dline, uint64_t now)
{
struct mbuf *m;
struct dn_pkt_tag *pkt = NULL;
dline->oid.subtype = 0; /* not in heap */
while ((m = dline->mq.head) != NULL) {
pkt = dn_tag_get(m);
if (!DN_KEY_LEQ(pkt->output_time, now))
break;
dline->mq.head = m->m_nextpkt;
mq_append(q, m);
}
if (m != NULL) {
dline->oid.subtype = 1; /* in heap */
heap_insert(&dn_cfg.evheap, pkt->output_time, dline);
}
}
/*
* Convert the additional MAC overheads/delays into an equivalent
* number of bits for the given data rate. The samples are
* in milliseconds so we need to divide by 1000.
*/
static uint64_t
extra_bits(struct mbuf *m, struct dn_schk *s)
{
int index;
uint64_t bits;
struct dn_profile *pf = s->profile;
if (!pf || pf->samples_no == 0)
return 0;
index = random() % pf->samples_no;
bits = div64((uint64_t)pf->samples[index] * s->link.bandwidth, 1000);
if (index >= pf->loss_level) {
struct dn_pkt_tag *dt = dn_tag_get(m);
if (dt)
dt->dn_dir = DIR_DROP;
}
return bits;
}
/*
* Send traffic from a scheduler instance due by 'now'.
* Return a pointer to the head of the queue.
*/
static struct mbuf *
serve_sched(struct mq *q, struct dn_sch_inst *si, uint64_t now)
{
struct mq def_q;
struct dn_schk *s = si->sched;
struct mbuf *m = NULL;
int delay_line_idle = (si->dline.mq.head == NULL);
int done, bw;
if (q == NULL) {
q = &def_q;
q->head = NULL;
}
bw = s->link.bandwidth;
si->kflags &= ~DN_ACTIVE;
if (bw > 0)
si->credit += (now - si->sched_time) * bw;
else
si->credit = 0;
si->sched_time = now;
done = 0;
while (si->credit >= 0 && (m = s->fp->dequeue(si)) != NULL) {
uint64_t len_scaled;
done++;
len_scaled = (bw == 0) ? 0 : hz *
(m->m_pkthdr.len * 8 + extra_bits(m, s));
si->credit -= len_scaled;
/* Move packet in the delay line */
dn_tag_get(m)->output_time += s->link.delay ;
mq_append(&si->dline.mq, m);
}
/*
* If credit >= 0 the instance is idle, mark time.
* Otherwise put back in the heap, and adjust the output
* time of the last inserted packet, m, which was too early.
*/
if (si->credit >= 0) {
si->idle_time = now;
} else {
uint64_t t;
KASSERT (bw > 0, ("bw=0 and credit<0 ?"));
t = div64(bw - 1 - si->credit, bw);
if (m)
dn_tag_get(m)->output_time += t;
si->kflags |= DN_ACTIVE;
heap_insert(&dn_cfg.evheap, now + t, si);
}
if (delay_line_idle && done)
transmit_event(q, &si->dline, now);
return q->head;
}
/*
* The timer handler for dummynet. Time is computed in ticks, but
* but the code is tolerant to the actual rate at which this is called.
* Once complete, the function reschedules itself for the next tick.
*/
void
dummynet_task(void *context, int pending)
{
struct timeval t;
struct mq q = { NULL, NULL }; /* queue to accumulate results */
CURVNET_SET((struct vnet *)context);
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
DN_BH_WLOCK();
/* Update number of lost(coalesced) ticks. */
tick_lost += pending - 1;
getmicrouptime(&t);
/* Last tick duration (usec). */
tick_last = (t.tv_sec - dn_cfg.prev_t.tv_sec) * 1000000 +
(t.tv_usec - dn_cfg.prev_t.tv_usec);
/* Last tick vs standard tick difference (usec). */
tick_delta = (tick_last * hz - 1000000) / hz;
/* Accumulated tick difference (usec). */
tick_delta_sum += tick_delta;
dn_cfg.prev_t = t;
/*
* Adjust curr_time if the accumulated tick difference is
* greater than the 'standard' tick. Since curr_time should
* be monotonically increasing, we do positive adjustments
* as required, and throttle curr_time in case of negative
* adjustment.
*/
dn_cfg.curr_time++;
if (tick_delta_sum - tick >= 0) {
int diff = tick_delta_sum / tick;
dn_cfg.curr_time += diff;
tick_diff += diff;
tick_delta_sum %= tick;
tick_adjustment++;
} else if (tick_delta_sum + tick <= 0) {
dn_cfg.curr_time--;
tick_diff--;
tick_delta_sum += tick;
tick_adjustment++;
}
/* serve pending events, accumulate in q */
for (;;) {
struct dn_id *p; /* generic parameter to handler */
if (dn_cfg.evheap.elements == 0 ||
DN_KEY_LT(dn_cfg.curr_time, HEAP_TOP(&dn_cfg.evheap)->key))
break;
p = HEAP_TOP(&dn_cfg.evheap)->object;
heap_extract(&dn_cfg.evheap, NULL);
if (p->type == DN_SCH_I) {
serve_sched(&q, (struct dn_sch_inst *)p, dn_cfg.curr_time);
} else { /* extracted a delay line */
transmit_event(&q, (struct delay_line *)p, dn_cfg.curr_time);
}
}
if (dn_cfg.expire && ++dn_cfg.expire_cycle >= dn_cfg.expire) {
dn_cfg.expire_cycle = 0;
dn_drain_scheduler();
dn_drain_queue();
}
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
DN_BH_WUNLOCK();
dn_reschedule();
if (q.head != NULL)
dummynet_send(q.head);
CURVNET_RESTORE();
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
}
/*
* forward a chain of packets to the proper destination.
* This runs outside the dummynet lock.
*/
static void
dummynet_send(struct mbuf *m)
{
struct mbuf *n;
for (; m != NULL; m = n) {
struct ifnet *ifp = NULL; /* gcc 3.4.6 complains */
struct m_tag *tag;
int dst;
n = m->m_nextpkt;
m->m_nextpkt = NULL;
tag = m_tag_first(m);
if (tag == NULL) { /* should not happen */
dst = DIR_DROP;
} else {
struct dn_pkt_tag *pkt = dn_tag_get(m);
/* extract the dummynet info, rename the tag
* to carry reinject info.
*/
dst = pkt->dn_dir;
ifp = pkt->ifp;
tag->m_tag_cookie = MTAG_IPFW_RULE;
tag->m_tag_id = 0;
}
switch (dst) {
case DIR_OUT:
SET_HOST_IPLEN(mtod(m, struct ip *));
ip_output(m, NULL, NULL, IP_FORWARDING, NULL, NULL);
break ;
case DIR_IN :
/* put header in network format for ip_input() */
//SET_NET_IPLEN(mtod(m, struct ip *));
netisr_dispatch(NETISR_IP, m);
break;
#ifdef INET6
case DIR_IN | PROTO_IPV6:
netisr_dispatch(NETISR_IPV6, m);
break;
case DIR_OUT | PROTO_IPV6:
SET_HOST_IPLEN(mtod(m, struct ip *));
ip6_output(m, NULL, NULL, IPV6_FORWARDING, NULL, NULL, NULL);
break;
#endif
case DIR_FWD | PROTO_IFB: /* DN_TO_IFB_FWD: */
if (bridge_dn_p != NULL)
((*bridge_dn_p)(m, ifp));
else
printf("dummynet: if_bridge not loaded\n");
break;
case DIR_IN | PROTO_LAYER2: /* DN_TO_ETH_DEMUX: */
/*
* The Ethernet code assumes the Ethernet header is
* contiguous in the first mbuf header.
* Insure this is true.
*/
if (m->m_len < ETHER_HDR_LEN &&
(m = m_pullup(m, ETHER_HDR_LEN)) == NULL) {
printf("dummynet/ether: pullup failed, "
"dropping packet\n");
break;
}
ether_demux(m->m_pkthdr.rcvif, m);
break;
case DIR_OUT | PROTO_LAYER2: /* N_TO_ETH_OUT: */
ether_output_frame(ifp, m);
break;
case DIR_DROP:
/* drop the packet after some time */
FREE_PKT(m);
break;
default:
printf("dummynet: bad switch %d!\n", dst);
FREE_PKT(m);
break;
}
}
}
static inline int
tag_mbuf(struct mbuf *m, int dir, struct ip_fw_args *fwa)
{
struct dn_pkt_tag *dt;
struct m_tag *mtag;
mtag = m_tag_get(PACKET_TAG_DUMMYNET,
sizeof(*dt), M_NOWAIT | M_ZERO);
if (mtag == NULL)
return 1; /* Cannot allocate packet header. */
m_tag_prepend(m, mtag); /* Attach to mbuf chain. */
dt = (struct dn_pkt_tag *)(mtag + 1);
dt->rule = fwa->rule;
dt->rule.info &= IPFW_ONEPASS; /* only keep this info */
dt->dn_dir = dir;
dt->ifp = fwa->oif;
/* dt->output tame is updated as we move through */
dt->output_time = dn_cfg.curr_time;
return 0;
}
/*
* dummynet hook for packets.
* We use the argument to locate the flowset fs and the sched_set sch
* associated to it. The we apply flow_mask and sched_mask to
* determine the queue and scheduler instances.
*
* dir where shall we send the packet after dummynet.
* *m0 the mbuf with the packet
* ifp the 'ifp' parameter from the caller.
* NULL in ip_input, destination interface in ip_output,
*/
int
dummynet_io(struct mbuf **m0, int dir, struct ip_fw_args *fwa)
{
struct mbuf *m = *m0;
struct dn_fsk *fs = NULL;
struct dn_sch_inst *si;
struct dn_queue *q = NULL; /* default */
int fs_id = (fwa->rule.info & IPFW_INFO_MASK) +
((fwa->rule.info & IPFW_IS_PIPE) ? 2*DN_MAX_ID : 0);
DN_BH_WLOCK();
io_pkt++;
/* we could actually tag outside the lock, but who cares... */
if (tag_mbuf(m, dir, fwa))
goto dropit;
if (dn_cfg.busy) {
/* if the upper half is busy doing something expensive,
* lets queue the packet and move forward
*/
mq_append(&dn_cfg.pending, m);
m = *m0 = NULL; /* consumed */
goto done; /* already active, nothing to do */
}
/* XXX locate_flowset could be optimised with a direct ref. */
fs = dn_ht_find(dn_cfg.fshash, fs_id, 0, NULL);
if (fs == NULL)
goto dropit; /* This queue/pipe does not exist! */
if (fs->sched == NULL) /* should not happen */
goto dropit;
/* find scheduler instance, possibly applying sched_mask */
si = ipdn_si_find(fs->sched, &(fwa->f_id));
if (si == NULL)
goto dropit;
/*
* If the scheduler supports multiple queues, find the right one
* (otherwise it will be ignored by enqueue).
*/
if (fs->sched->fp->flags & DN_MULTIQUEUE) {
q = ipdn_q_find(fs, si, &(fwa->f_id));
if (q == NULL)
goto dropit;
}
if (fs->sched->fp->enqueue(si, q, m)) {
/* packet was dropped by enqueue() */
m = *m0 = NULL;
goto dropit;
}
if (si->kflags & DN_ACTIVE) {
m = *m0 = NULL; /* consumed */
goto done; /* already active, nothing to do */
}
/* compute the initial allowance */
{
struct dn_link *p = &fs->sched->link;
si->credit = dn_cfg.io_fast ? p->bandwidth : 0;
if (p->burst) {
uint64_t burst = (dn_cfg.curr_time - si->idle_time) * p->bandwidth;
if (burst > p->burst)
burst = p->burst;
si->credit += burst;
}
}
/* pass through scheduler and delay line */
m = serve_sched(NULL, si, dn_cfg.curr_time);
/* optimization -- pass it back to ipfw for immediate send */
/* XXX Don't call dummynet_send() if scheduler return the packet
* just enqueued. This avoid a lock order reversal.
*
*/
if (/*dn_cfg.io_fast &&*/ m == *m0 && (dir & PROTO_LAYER2) == 0 ) {
/* fast io, rename the tag * to carry reinject info. */
struct m_tag *tag = m_tag_first(m);
tag->m_tag_cookie = MTAG_IPFW_RULE;
tag->m_tag_id = 0;
Bring in the most recent version of ipfw and dummynet, developed and tested over the past two months in the ipfw3-head branch. This also happens to be the same code available in the Linux and Windows ports of ipfw and dummynet. The major enhancement is a completely restructured version of dummynet, with support for different packet scheduling algorithms (loadable at runtime), faster queue/pipe lookup, and a much cleaner internal architecture and kernel/userland ABI which simplifies future extensions. In addition to the existing schedulers (FIFO and WF2Q+), we include a Deficit Round Robin (DRR or RR for brevity) scheduler, and a new, very fast version of WF2Q+ called QFQ. Some test code is also present (in sys/netinet/ipfw/test) that lets you build and test schedulers in userland. Also, we have added a compatibility layer that understands requests from the RELENG_7 and RELENG_8 versions of the /sbin/ipfw binaries, and replies correctly (at least, it does its best; sometimes you just cannot tell who sent the request and how to answer). The compatibility layer should make it possible to MFC this code in a relatively short time. Some minor glitches (e.g. handling of ipfw set enable/disable, and a workaround for a bug in RELENG_7's /sbin/ipfw) will be fixed with separate commits. CREDITS: This work has been partly supported by the ONELAB2 project, and mostly developed by Riccardo Panicucci and myself. The code for the qfq scheduler is mostly from Fabio Checconi, and Marta Carbone and Francesco Magno have helped with testing, debugging and some bug fixes.
2010-03-02 17:40:48 +00:00
io_pkt_fast++;
if (m->m_nextpkt != NULL) {
printf("dummynet: fast io: pkt chain detected!\n");
m->m_nextpkt = NULL;
}
m = NULL;
} else {
*m0 = NULL;
}
done:
DN_BH_WUNLOCK();
if (m)
dummynet_send(m);
return 0;
dropit:
io_pkt_drop++;
DN_BH_WUNLOCK();
if (m)
FREE_PKT(m);
*m0 = NULL;
return (fs && (fs->fs.flags & DN_NOERROR)) ? 0 : ENOBUFS;
}