1a5548bf6SLawrence Stewart /*- 24d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause 3fe267a55SPedro F. Giffuni * 4619ad9ebSLawrence Stewart * Copyright (c) 2007-2009 567f285a2SLawrence Stewart * Swinburne University of Technology, Melbourne, Australia. 6a5548bf6SLawrence Stewart * Copyright (c) 2009-2010, The FreeBSD Foundation 7a5548bf6SLawrence Stewart * All rights reserved. 8a5548bf6SLawrence Stewart * 9a5548bf6SLawrence Stewart * Portions of this software were developed at the Centre for Advanced 10a5548bf6SLawrence Stewart * Internet Architectures, Swinburne University of Technology, Melbourne, 11a5548bf6SLawrence Stewart * Australia by Lawrence Stewart under sponsorship from the FreeBSD Foundation. 12a5548bf6SLawrence Stewart * 13a5548bf6SLawrence Stewart * Redistribution and use in source and binary forms, with or without 14a5548bf6SLawrence Stewart * modification, are permitted provided that the following conditions 15a5548bf6SLawrence Stewart * are met: 16a5548bf6SLawrence Stewart * 1. Redistributions of source code must retain the above copyright 17a5548bf6SLawrence Stewart * notice, this list of conditions and the following disclaimer. 18a5548bf6SLawrence Stewart * 2. Redistributions in binary form must reproduce the above copyright 19a5548bf6SLawrence Stewart * notice, this list of conditions and the following disclaimer in the 20a5548bf6SLawrence Stewart * documentation and/or other materials provided with the distribution. 21a5548bf6SLawrence Stewart * 22a5548bf6SLawrence Stewart * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND 23a5548bf6SLawrence Stewart * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 24a5548bf6SLawrence Stewart * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 25a5548bf6SLawrence Stewart * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE 26a5548bf6SLawrence Stewart * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 27a5548bf6SLawrence Stewart * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 28a5548bf6SLawrence Stewart * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 29a5548bf6SLawrence Stewart * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 30a5548bf6SLawrence Stewart * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 31a5548bf6SLawrence Stewart * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32a5548bf6SLawrence Stewart * SUCH DAMAGE. 33a5548bf6SLawrence Stewart */ 34a5548bf6SLawrence Stewart 35a5548bf6SLawrence Stewart /****************************************************** 36a5548bf6SLawrence Stewart * Statistical Information For TCP Research (SIFTR) 37a5548bf6SLawrence Stewart * 38a5548bf6SLawrence Stewart * A FreeBSD kernel module that adds very basic intrumentation to the 39a5548bf6SLawrence Stewart * TCP stack, allowing internal stats to be recorded to a log file 40a5548bf6SLawrence Stewart * for experimental, debugging and performance analysis purposes. 41a5548bf6SLawrence Stewart * 42a5548bf6SLawrence Stewart * SIFTR was first released in 2007 by James Healy and Lawrence Stewart whilst 43891b8ed4SLawrence Stewart * working on the NewTCP research project at Swinburne University of 44891b8ed4SLawrence Stewart * Technology's Centre for Advanced Internet Architectures, Melbourne, 45891b8ed4SLawrence Stewart * Australia, which was made possible in part by a grant from the Cisco 46891b8ed4SLawrence Stewart * University Research Program Fund at Community Foundation Silicon Valley. 47891b8ed4SLawrence Stewart * More details are available at: 48a5548bf6SLawrence Stewart * http://caia.swin.edu.au/urp/newtcp/ 49a5548bf6SLawrence Stewart * 50a5548bf6SLawrence Stewart * Work on SIFTR v1.2.x was sponsored by the FreeBSD Foundation as part of 51a5548bf6SLawrence Stewart * the "Enhancing the FreeBSD TCP Implementation" project 2008-2009. 52a5548bf6SLawrence Stewart * More details are available at: 53a5548bf6SLawrence Stewart * http://www.freebsdfoundation.org/ 54a5548bf6SLawrence Stewart * http://caia.swin.edu.au/freebsd/etcp09/ 55a5548bf6SLawrence Stewart * 56a5548bf6SLawrence Stewart * Lawrence Stewart is the current maintainer, and all contact regarding 57a5548bf6SLawrence Stewart * SIFTR should be directed to him via email: lastewart@swin.edu.au 58a5548bf6SLawrence Stewart * 59a5548bf6SLawrence Stewart * Initial release date: June 2007 60d4d3e218SLawrence Stewart * Most recent update: September 2010 61a5548bf6SLawrence Stewart ******************************************************/ 62a5548bf6SLawrence Stewart 63a5548bf6SLawrence Stewart #include <sys/param.h> 64a5548bf6SLawrence Stewart #include <sys/alq.h> 65a5548bf6SLawrence Stewart #include <sys/errno.h> 66c3322cb9SGleb Smirnoff #include <sys/eventhandler.h> 67a5548bf6SLawrence Stewart #include <sys/hash.h> 68a5548bf6SLawrence Stewart #include <sys/kernel.h> 69a5548bf6SLawrence Stewart #include <sys/kthread.h> 70a5548bf6SLawrence Stewart #include <sys/lock.h> 71a5548bf6SLawrence Stewart #include <sys/mbuf.h> 72a5548bf6SLawrence Stewart #include <sys/module.h> 73a5548bf6SLawrence Stewart #include <sys/mutex.h> 74a5548bf6SLawrence Stewart #include <sys/pcpu.h> 75a5548bf6SLawrence Stewart #include <sys/proc.h> 76d79a9edbSMitchell Horne #include <sys/reboot.h> 77a5548bf6SLawrence Stewart #include <sys/sbuf.h> 78981ad3ecSGeorge V. Neville-Neil #include <sys/sdt.h> 79a5548bf6SLawrence Stewart #include <sys/smp.h> 80a5548bf6SLawrence Stewart #include <sys/socket.h> 81a5548bf6SLawrence Stewart #include <sys/socketvar.h> 82a5548bf6SLawrence Stewart #include <sys/sysctl.h> 83a5548bf6SLawrence Stewart #include <sys/unistd.h> 84a5548bf6SLawrence Stewart 85a5548bf6SLawrence Stewart #include <net/if.h> 86c3322cb9SGleb Smirnoff #include <net/if_var.h> 87a5548bf6SLawrence Stewart #include <net/pfil.h> 88aa61cff4SCheng Cui #include <net/route.h> 89a5548bf6SLawrence Stewart 90a5548bf6SLawrence Stewart #include <netinet/in.h> 91981ad3ecSGeorge V. Neville-Neil #include <netinet/in_kdtrace.h> 92aa61cff4SCheng Cui #include <netinet/in_fib.h> 93a5548bf6SLawrence Stewart #include <netinet/in_pcb.h> 94a5548bf6SLawrence Stewart #include <netinet/in_systm.h> 95a5548bf6SLawrence Stewart #include <netinet/in_var.h> 96a5548bf6SLawrence Stewart #include <netinet/ip.h> 97b252313fSGleb Smirnoff #include <netinet/ip_var.h> 98a5548bf6SLawrence Stewart #include <netinet/tcp_var.h> 99a5548bf6SLawrence Stewart 100a5548bf6SLawrence Stewart #ifdef SIFTR_IPV6 101a5548bf6SLawrence Stewart #include <netinet/ip6.h> 10234d8ffffSAllan Jude #include <netinet6/ip6_var.h> 103aa61cff4SCheng Cui #include <netinet6/in6_fib.h> 104a5548bf6SLawrence Stewart #include <netinet6/in6_pcb.h> 105a5548bf6SLawrence Stewart #endif /* SIFTR_IPV6 */ 106a5548bf6SLawrence Stewart 107a5548bf6SLawrence Stewart #include <machine/in_cksum.h> 108a5548bf6SLawrence Stewart 109a5548bf6SLawrence Stewart /* 110a5548bf6SLawrence Stewart * Three digit version number refers to X.Y.Z where: 111a5548bf6SLawrence Stewart * X is the major version number 112a5548bf6SLawrence Stewart * Y is bumped to mark backwards incompatible changes 113a5548bf6SLawrence Stewart * Z is bumped to mark backwards compatible changes 114a5548bf6SLawrence Stewart */ 115a5548bf6SLawrence Stewart #define V_MAJOR 1 1161f782fccSCheng Cui #define V_BACKBREAK 3 1171f782fccSCheng Cui #define V_BACKCOMPAT 0 118a5548bf6SLawrence Stewart #define MODVERSION __CONCAT(V_MAJOR, __CONCAT(V_BACKBREAK, V_BACKCOMPAT)) 119a5548bf6SLawrence Stewart #define MODVERSION_STR __XSTRING(V_MAJOR) "." __XSTRING(V_BACKBREAK) "." \ 120a5548bf6SLawrence Stewart __XSTRING(V_BACKCOMPAT) 121a5548bf6SLawrence Stewart 122a5548bf6SLawrence Stewart #define HOOK 0 123a5548bf6SLawrence Stewart #define UNHOOK 1 124a5548bf6SLawrence Stewart #define SIFTR_EXPECTED_MAX_TCP_FLOWS 65536 125a5548bf6SLawrence Stewart #define SYS_NAME "FreeBSD" 126a5548bf6SLawrence Stewart #define PACKET_TAG_SIFTR 100 127a5548bf6SLawrence Stewart #define PACKET_COOKIE_SIFTR 21749576 128a5548bf6SLawrence Stewart #define SIFTR_LOG_FILE_MODE 0644 129a5548bf6SLawrence Stewart #define SIFTR_DISABLE 0 130a5548bf6SLawrence Stewart #define SIFTR_ENABLE 1 131a5548bf6SLawrence Stewart 132a5548bf6SLawrence Stewart /* 133a5548bf6SLawrence Stewart * Hard upper limit on the length of log messages. Bump this up if you add new 134a5548bf6SLawrence Stewart * data fields such that the line length could exceed the below value. 135a5548bf6SLawrence Stewart */ 1361241e8e7STom Jones #define MAX_LOG_MSG_LEN 300 137a95cd6e4SRichard Scheffenegger #define MAX_LOG_BATCH_SIZE 3 138a5548bf6SLawrence Stewart /* XXX: Make this a sysctl tunable. */ 139a5548bf6SLawrence Stewart #define SIFTR_ALQ_BUFLEN (1000*MAX_LOG_MSG_LEN) 140a5548bf6SLawrence Stewart 141a5548bf6SLawrence Stewart #ifdef SIFTR_IPV6 142a5548bf6SLawrence Stewart #define SIFTR_IPMODE 6 143a5548bf6SLawrence Stewart #else 144a5548bf6SLawrence Stewart #define SIFTR_IPMODE 4 145a5548bf6SLawrence Stewart #endif 146a5548bf6SLawrence Stewart 1476bed196cSSergey Kandaurov static MALLOC_DEFINE(M_SIFTR, "siftr", "dynamic memory used by SIFTR"); 1486bed196cSSergey Kandaurov static MALLOC_DEFINE(M_SIFTR_PKTNODE, "siftr_pktnode", 1496bed196cSSergey Kandaurov "SIFTR pkt_node struct"); 1506bed196cSSergey Kandaurov static MALLOC_DEFINE(M_SIFTR_HASHNODE, "siftr_hashnode", 1516bed196cSSergey Kandaurov "SIFTR flow_hash_node struct"); 152a5548bf6SLawrence Stewart 153a5548bf6SLawrence Stewart /* Used as links in the pkt manager queue. */ 154a5548bf6SLawrence Stewart struct pkt_node { 155a5548bf6SLawrence Stewart /* Timestamp of pkt as noted in the pfil hook. */ 156a5548bf6SLawrence Stewart struct timeval tval; 15754739273SGleb Smirnoff /* Direction pkt is travelling. */ 15854739273SGleb Smirnoff enum { 15954739273SGleb Smirnoff DIR_IN = 0, 16054739273SGleb Smirnoff DIR_OUT = 1, 16154739273SGleb Smirnoff } direction; 162cd9da8d0SMichael Tuexen /* IP version pkt_node relates to; either INP_IPV4 or INP_IPV6. */ 163cd9da8d0SMichael Tuexen uint8_t ipver; 164cd9da8d0SMichael Tuexen /* Local TCP port. */ 1652176c9abSMichael Tuexen uint16_t lport; 166cd9da8d0SMichael Tuexen /* Foreign TCP port. */ 1672176c9abSMichael Tuexen uint16_t fport; 1682176c9abSMichael Tuexen /* Local address. */ 1692176c9abSMichael Tuexen union in_dependaddr laddr; 1702176c9abSMichael Tuexen /* Foreign address. */ 1712176c9abSMichael Tuexen union in_dependaddr faddr; 172a5548bf6SLawrence Stewart /* Congestion Window (bytes). */ 1731241e8e7STom Jones uint32_t snd_cwnd; 174a5548bf6SLawrence Stewart /* Sending Window (bytes). */ 1751241e8e7STom Jones uint32_t snd_wnd; 176a5548bf6SLawrence Stewart /* Receive Window (bytes). */ 1771241e8e7STom Jones uint32_t rcv_wnd; 1781241e8e7STom Jones /* More tcpcb flags storage */ 1791241e8e7STom Jones uint32_t t_flags2; 180a5548bf6SLawrence Stewart /* Slow Start Threshold (bytes). */ 1811241e8e7STom Jones uint32_t snd_ssthresh; 182a5548bf6SLawrence Stewart /* Current state of the TCP FSM. */ 183a5548bf6SLawrence Stewart int conn_state; 184a5548bf6SLawrence Stewart /* Max Segment Size (bytes). */ 1852176c9abSMichael Tuexen uint32_t mss; 186d090464eSCheng Cui /* Smoothed RTT (usecs). */ 187d090464eSCheng Cui uint32_t srtt; 188a5548bf6SLawrence Stewart /* Is SACK enabled? */ 189a5548bf6SLawrence Stewart u_char sack_enabled; 190a5548bf6SLawrence Stewart /* Window scaling for snd window. */ 191a5548bf6SLawrence Stewart u_char snd_scale; 192a5548bf6SLawrence Stewart /* Window scaling for recv window. */ 193a5548bf6SLawrence Stewart u_char rcv_scale; 194a5548bf6SLawrence Stewart /* TCP control block flags. */ 1952176c9abSMichael Tuexen u_int t_flags; 196d090464eSCheng Cui /* Retransmission timeout (usec). */ 197d090464eSCheng Cui uint32_t rto; 198a5548bf6SLawrence Stewart /* Size of the TCP send buffer in bytes. */ 199a5548bf6SLawrence Stewart u_int snd_buf_hiwater; 200a5548bf6SLawrence Stewart /* Current num bytes in the send socket buffer. */ 201a5548bf6SLawrence Stewart u_int snd_buf_cc; 202a5548bf6SLawrence Stewart /* Size of the TCP receive buffer in bytes. */ 203a5548bf6SLawrence Stewart u_int rcv_buf_hiwater; 204a5548bf6SLawrence Stewart /* Current num bytes in the receive socket buffer. */ 205a5548bf6SLawrence Stewart u_int rcv_buf_cc; 206a5548bf6SLawrence Stewart /* Number of bytes inflight that we are waiting on ACKs for. */ 207a5548bf6SLawrence Stewart u_int sent_inflight_bytes; 208d4d3e218SLawrence Stewart /* Number of segments currently in the reassembly queue. */ 209d4d3e218SLawrence Stewart int t_segqlen; 210a025fd14SHiren Panchasara /* Flowid for the connection. */ 211a025fd14SHiren Panchasara u_int flowid; 212d0a8b2a5SHiren Panchasara /* Flow type for the connection. */ 213d0a8b2a5SHiren Panchasara u_int flowtype; 214a5548bf6SLawrence Stewart /* Link to next pkt_node in the list. */ 215a5548bf6SLawrence Stewart STAILQ_ENTRY(pkt_node) nodes; 216a5548bf6SLawrence Stewart }; 217a5548bf6SLawrence Stewart 218aa61cff4SCheng Cui struct flow_info 219aa61cff4SCheng Cui { 220aa61cff4SCheng Cui #ifdef SIFTR_IPV6 221aa61cff4SCheng Cui char laddr[INET6_ADDRSTRLEN]; /* local IP address */ 222aa61cff4SCheng Cui char faddr[INET6_ADDRSTRLEN]; /* foreign IP address */ 223aa61cff4SCheng Cui #else 224aa61cff4SCheng Cui char laddr[INET_ADDRSTRLEN]; /* local IP address */ 225aa61cff4SCheng Cui char faddr[INET_ADDRSTRLEN]; /* foreign IP address */ 226aa61cff4SCheng Cui #endif 227aa61cff4SCheng Cui uint16_t lport; /* local TCP port */ 228aa61cff4SCheng Cui uint16_t fport; /* foreign TCP port */ 229aa61cff4SCheng Cui uint32_t key; /* flowid of the connection */ 230aa61cff4SCheng Cui }; 231aa61cff4SCheng Cui 232a5548bf6SLawrence Stewart struct flow_hash_node 233a5548bf6SLawrence Stewart { 234a5548bf6SLawrence Stewart uint16_t counter; 235aa61cff4SCheng Cui struct flow_info const_info; /* constant connection info */ 236a5548bf6SLawrence Stewart LIST_ENTRY(flow_hash_node) nodes; 237a5548bf6SLawrence Stewart }; 238a5548bf6SLawrence Stewart 239a5548bf6SLawrence Stewart struct siftr_stats 240a5548bf6SLawrence Stewart { 241a5548bf6SLawrence Stewart /* # TCP pkts seen by the SIFTR PFIL hooks, including any skipped. */ 242a5548bf6SLawrence Stewart uint64_t n_in; 243a5548bf6SLawrence Stewart uint64_t n_out; 244a5548bf6SLawrence Stewart /* # pkts skipped due to failed malloc calls. */ 245a5548bf6SLawrence Stewart uint32_t nskip_in_malloc; 246a5548bf6SLawrence Stewart uint32_t nskip_out_malloc; 247a5548bf6SLawrence Stewart /* # pkts skipped due to failed inpcb lookups. */ 248a5548bf6SLawrence Stewart uint32_t nskip_in_inpcb; 249a5548bf6SLawrence Stewart uint32_t nskip_out_inpcb; 250a5548bf6SLawrence Stewart /* # pkts skipped due to failed tcpcb lookups. */ 251a5548bf6SLawrence Stewart uint32_t nskip_in_tcpcb; 252a5548bf6SLawrence Stewart uint32_t nskip_out_tcpcb; 253a5548bf6SLawrence Stewart /* # pkts skipped due to stack reinjection. */ 254a5548bf6SLawrence Stewart uint32_t nskip_in_dejavu; 255a5548bf6SLawrence Stewart uint32_t nskip_out_dejavu; 256a5548bf6SLawrence Stewart }; 257a5548bf6SLawrence Stewart 2582bf95012SAndrew Turner DPCPU_DEFINE_STATIC(struct siftr_stats, ss); 259a5548bf6SLawrence Stewart 260a5548bf6SLawrence Stewart static volatile unsigned int siftr_exit_pkt_manager_thread = 0; 261a5548bf6SLawrence Stewart static unsigned int siftr_enabled = 0; 262a5548bf6SLawrence Stewart static unsigned int siftr_pkts_per_log = 1; 263435a8c15SBrooks Davis static uint16_t siftr_port_filter = 0; 264a5548bf6SLawrence Stewart /* static unsigned int siftr_binary_log = 0; */ 265a5548bf6SLawrence Stewart static char siftr_logfile[PATH_MAX] = "/var/log/siftr.log"; 2660e1152fcSHans Petter Selasky static char siftr_logfile_shadow[PATH_MAX] = "/var/log/siftr.log"; 267a5548bf6SLawrence Stewart static u_long siftr_hashmask; 268a5548bf6SLawrence Stewart STAILQ_HEAD(pkthead, pkt_node) pkt_queue = STAILQ_HEAD_INITIALIZER(pkt_queue); 269a5548bf6SLawrence Stewart LIST_HEAD(listhead, flow_hash_node) *counter_hash; 270a5548bf6SLawrence Stewart static int wait_for_pkt; 271a5548bf6SLawrence Stewart static struct alq *siftr_alq = NULL; 272a5548bf6SLawrence Stewart static struct mtx siftr_pkt_queue_mtx; 273a5548bf6SLawrence Stewart static struct mtx siftr_pkt_mgr_mtx; 274a5548bf6SLawrence Stewart static struct thread *siftr_pkt_manager_thr = NULL; 27554739273SGleb Smirnoff static char direction[2] = {'i','o'}; 276*fb05f761SKristof Provost static eventhandler_tag siftr_shutdown_tag; 277a5548bf6SLawrence Stewart 278a5548bf6SLawrence Stewart /* Required function prototypes. */ 279a5548bf6SLawrence Stewart static int siftr_sysctl_enabled_handler(SYSCTL_HANDLER_ARGS); 280a5548bf6SLawrence Stewart static int siftr_sysctl_logfile_name_handler(SYSCTL_HANDLER_ARGS); 281a5548bf6SLawrence Stewart 282a5548bf6SLawrence Stewart /* Declare the net.inet.siftr sysctl tree and populate it. */ 283a5548bf6SLawrence Stewart 284a5548bf6SLawrence Stewart SYSCTL_DECL(_net_inet_siftr); 285a5548bf6SLawrence Stewart 2867029da5cSPawel Biernacki SYSCTL_NODE(_net_inet, OID_AUTO, siftr, CTLFLAG_RW | CTLFLAG_MPSAFE, NULL, 287a5548bf6SLawrence Stewart "siftr related settings"); 288a5548bf6SLawrence Stewart 2897029da5cSPawel Biernacki SYSCTL_PROC(_net_inet_siftr, OID_AUTO, enabled, 2907029da5cSPawel Biernacki CTLTYPE_UINT | CTLFLAG_RW | CTLFLAG_NEEDGIANT, 291a5548bf6SLawrence Stewart &siftr_enabled, 0, &siftr_sysctl_enabled_handler, "IU", 292a5548bf6SLawrence Stewart "switch siftr module operations on/off"); 293a5548bf6SLawrence Stewart 2947029da5cSPawel Biernacki SYSCTL_PROC(_net_inet_siftr, OID_AUTO, logfile, 2957029da5cSPawel Biernacki CTLTYPE_STRING | CTLFLAG_RW | CTLFLAG_NEEDGIANT, &siftr_logfile_shadow, 2967029da5cSPawel Biernacki sizeof(siftr_logfile_shadow), &siftr_sysctl_logfile_name_handler, "A", 2977029da5cSPawel Biernacki "file to save siftr log messages to"); 298a5548bf6SLawrence Stewart 299a5548bf6SLawrence Stewart SYSCTL_UINT(_net_inet_siftr, OID_AUTO, ppl, CTLFLAG_RW, 300a5548bf6SLawrence Stewart &siftr_pkts_per_log, 1, 301a5548bf6SLawrence Stewart "number of packets between generating a log message"); 302a5548bf6SLawrence Stewart 303435a8c15SBrooks Davis SYSCTL_U16(_net_inet_siftr, OID_AUTO, port_filter, CTLFLAG_RW, 304435a8c15SBrooks Davis &siftr_port_filter, 0, 305435a8c15SBrooks Davis "enable packet filter on a TCP port"); 306435a8c15SBrooks Davis 307a5548bf6SLawrence Stewart /* XXX: TODO 308a5548bf6SLawrence Stewart SYSCTL_UINT(_net_inet_siftr, OID_AUTO, binary, CTLFLAG_RW, 309a5548bf6SLawrence Stewart &siftr_binary_log, 0, 310a5548bf6SLawrence Stewart "write log files in binary instead of ascii"); 311a5548bf6SLawrence Stewart */ 312a5548bf6SLawrence Stewart 313a5548bf6SLawrence Stewart /* Begin functions. */ 314a5548bf6SLawrence Stewart 315aa61cff4SCheng Cui static inline struct flow_hash_node * 316aa61cff4SCheng Cui siftr_find_flow(struct listhead *counter_list, uint32_t id) 317a5548bf6SLawrence Stewart { 318a5548bf6SLawrence Stewart struct flow_hash_node *hash_node; 319a5548bf6SLawrence Stewart /* 320a5548bf6SLawrence Stewart * If the list is not empty i.e. the hash index has 321a5548bf6SLawrence Stewart * been used by another flow previously. 322a5548bf6SLawrence Stewart */ 323a5548bf6SLawrence Stewart if (LIST_FIRST(counter_list) != NULL) { 324a5548bf6SLawrence Stewart /* 325a5548bf6SLawrence Stewart * Loop through the hash nodes in the list. 326aa61cff4SCheng Cui * There should normally only be 1 hash node in the list. 327a5548bf6SLawrence Stewart */ 328a5548bf6SLawrence Stewart LIST_FOREACH(hash_node, counter_list, nodes) { 329a5548bf6SLawrence Stewart /* 330a5548bf6SLawrence Stewart * Check if the key for the pkt we are currently 331a5548bf6SLawrence Stewart * processing is the same as the key stored in the 332a5548bf6SLawrence Stewart * hash node we are currently processing. 333a5548bf6SLawrence Stewart * If they are the same, then we've found the 334a5548bf6SLawrence Stewart * hash node that stores the counter for the flow 335a5548bf6SLawrence Stewart * the pkt belongs to. 336a5548bf6SLawrence Stewart */ 337aa61cff4SCheng Cui if (hash_node->const_info.key == id) { 338aa61cff4SCheng Cui return hash_node; 339a5548bf6SLawrence Stewart } 340a5548bf6SLawrence Stewart } 341a5548bf6SLawrence Stewart } 342a5548bf6SLawrence Stewart 343aa61cff4SCheng Cui return NULL; 344aa61cff4SCheng Cui } 345aa61cff4SCheng Cui 346aa61cff4SCheng Cui static inline struct flow_hash_node * 347aa61cff4SCheng Cui siftr_new_hash_node(struct flow_info info, int dir, 348aa61cff4SCheng Cui struct siftr_stats *ss) 349aa61cff4SCheng Cui { 350aa61cff4SCheng Cui struct flow_hash_node *hash_node; 351aa61cff4SCheng Cui struct listhead *counter_list; 352aa61cff4SCheng Cui 353aa61cff4SCheng Cui counter_list = counter_hash + (info.key & siftr_hashmask); 354aa61cff4SCheng Cui /* Create a new hash node to store the flow's constant info. */ 355aa61cff4SCheng Cui hash_node = malloc(sizeof(struct flow_hash_node), M_SIFTR_HASHNODE, 356aa61cff4SCheng Cui M_NOWAIT|M_ZERO); 357a5548bf6SLawrence Stewart 358a5548bf6SLawrence Stewart if (hash_node != NULL) { 359a5548bf6SLawrence Stewart /* Initialise our new hash node list entry. */ 360a5548bf6SLawrence Stewart hash_node->counter = 0; 361aa61cff4SCheng Cui hash_node->const_info = info; 362a5548bf6SLawrence Stewart LIST_INSERT_HEAD(counter_list, hash_node, nodes); 363aa61cff4SCheng Cui return hash_node; 364a5548bf6SLawrence Stewart } else { 365aa61cff4SCheng Cui /* malloc failed */ 366aa61cff4SCheng Cui if (dir == DIR_IN) 367a5548bf6SLawrence Stewart ss->nskip_in_malloc++; 368a5548bf6SLawrence Stewart else 369a5548bf6SLawrence Stewart ss->nskip_out_malloc++; 370a5548bf6SLawrence Stewart 371aa61cff4SCheng Cui return NULL; 372a5548bf6SLawrence Stewart } 373aa61cff4SCheng Cui } 374a5548bf6SLawrence Stewart 375fafb03abSCheng Cui static int 376fafb03abSCheng Cui siftr_process_pkt(struct pkt_node * pkt_node, char *buf) 377aa61cff4SCheng Cui { 378aa61cff4SCheng Cui struct flow_hash_node *hash_node; 379aa61cff4SCheng Cui struct listhead *counter_list; 380fafb03abSCheng Cui int ret_sz; 381aa61cff4SCheng Cui 382aa61cff4SCheng Cui if (pkt_node->flowid == 0) { 383aa61cff4SCheng Cui panic("%s: flowid not available", __func__); 384aa61cff4SCheng Cui } 385aa61cff4SCheng Cui 386aa61cff4SCheng Cui counter_list = counter_hash + (pkt_node->flowid & siftr_hashmask); 387aa61cff4SCheng Cui hash_node = siftr_find_flow(counter_list, pkt_node->flowid); 388aa61cff4SCheng Cui 389aa61cff4SCheng Cui if (hash_node == NULL) { 390fafb03abSCheng Cui return 0; 3917a52b570SCheng Cui } else if (siftr_pkts_per_log > 1) { 3927a52b570SCheng Cui /* 3937a52b570SCheng Cui * Taking the remainder of the counter divided 3947a52b570SCheng Cui * by the current value of siftr_pkts_per_log 3957a52b570SCheng Cui * and storing that in counter provides a neat 3967a52b570SCheng Cui * way to modulate the frequency of log 3977a52b570SCheng Cui * messages being written to the log file. 3987a52b570SCheng Cui */ 3997a52b570SCheng Cui hash_node->counter = (hash_node->counter + 1) % 4007a52b570SCheng Cui siftr_pkts_per_log; 4017a52b570SCheng Cui /* 4027a52b570SCheng Cui * If we have not seen enough packets since the last time 4037a52b570SCheng Cui * we wrote a log message for this connection, return. 4047a52b570SCheng Cui */ 4057a52b570SCheng Cui if (hash_node->counter > 0) 406fafb03abSCheng Cui return 0; 407a5548bf6SLawrence Stewart } 408a5548bf6SLawrence Stewart 409aa61cff4SCheng Cui /* Construct a log message. */ 410fafb03abSCheng Cui ret_sz = snprintf(buf, MAX_LOG_MSG_LEN, 411d29a9a61SCheng Cui "%c,%jd.%06ld,%s,%hu,%s,%hu,%u,%u,%u,%u,%u,%u,%u,%u,%u,%u,%u,%u,%u," 412aa61cff4SCheng Cui "%u,%u,%u,%u,%u,%u,%u,%u\n", 413a5548bf6SLawrence Stewart direction[pkt_node->direction], 414b71f2784SCheng Cui (intmax_t)pkt_node->tval.tv_sec, 415a5548bf6SLawrence Stewart pkt_node->tval.tv_usec, 416aa61cff4SCheng Cui hash_node->const_info.laddr, 417aa61cff4SCheng Cui hash_node->const_info.lport, 418aa61cff4SCheng Cui hash_node->const_info.faddr, 419aa61cff4SCheng Cui hash_node->const_info.fport, 420a5548bf6SLawrence Stewart pkt_node->snd_ssthresh, 421a5548bf6SLawrence Stewart pkt_node->snd_cwnd, 4221241e8e7STom Jones pkt_node->t_flags2, 423a5548bf6SLawrence Stewart pkt_node->snd_wnd, 424a5548bf6SLawrence Stewart pkt_node->rcv_wnd, 425a5548bf6SLawrence Stewart pkt_node->snd_scale, 426a5548bf6SLawrence Stewart pkt_node->rcv_scale, 427a5548bf6SLawrence Stewart pkt_node->conn_state, 4282176c9abSMichael Tuexen pkt_node->mss, 429d090464eSCheng Cui pkt_node->srtt, 430a5548bf6SLawrence Stewart pkt_node->sack_enabled, 4312176c9abSMichael Tuexen pkt_node->t_flags, 432d090464eSCheng Cui pkt_node->rto, 433a5548bf6SLawrence Stewart pkt_node->snd_buf_hiwater, 434a5548bf6SLawrence Stewart pkt_node->snd_buf_cc, 435a5548bf6SLawrence Stewart pkt_node->rcv_buf_hiwater, 436a5548bf6SLawrence Stewart pkt_node->rcv_buf_cc, 437d4d3e218SLawrence Stewart pkt_node->sent_inflight_bytes, 438a025fd14SHiren Panchasara pkt_node->t_segqlen, 439d0a8b2a5SHiren Panchasara pkt_node->flowid, 440d0a8b2a5SHiren Panchasara pkt_node->flowtype); 441a5548bf6SLawrence Stewart 442fafb03abSCheng Cui return ret_sz; 443a5548bf6SLawrence Stewart } 444a5548bf6SLawrence Stewart 445a5548bf6SLawrence Stewart static void 446a5548bf6SLawrence Stewart siftr_pkt_manager_thread(void *arg) 447a5548bf6SLawrence Stewart { 448a5548bf6SLawrence Stewart STAILQ_HEAD(pkthead, pkt_node) tmp_pkt_queue = 449a5548bf6SLawrence Stewart STAILQ_HEAD_INITIALIZER(tmp_pkt_queue); 450a95cd6e4SRichard Scheffenegger struct pkt_node *pkt_node; 451a5548bf6SLawrence Stewart uint8_t draining; 452fafb03abSCheng Cui struct ale *log_buf; 453a95cd6e4SRichard Scheffenegger int ret_sz, cnt = 0; 454fafb03abSCheng Cui char *bufp; 455a5548bf6SLawrence Stewart 456a5548bf6SLawrence Stewart draining = 2; 457a5548bf6SLawrence Stewart 458a5548bf6SLawrence Stewart mtx_lock(&siftr_pkt_mgr_mtx); 459a5548bf6SLawrence Stewart 460a5548bf6SLawrence Stewart /* draining == 0 when queue has been flushed and it's safe to exit. */ 461a5548bf6SLawrence Stewart while (draining) { 462a5548bf6SLawrence Stewart /* 463a5548bf6SLawrence Stewart * Sleep until we are signalled to wake because thread has 464a5548bf6SLawrence Stewart * been told to exit or until 1 tick has passed. 465a5548bf6SLawrence Stewart */ 466a5548bf6SLawrence Stewart mtx_sleep(&wait_for_pkt, &siftr_pkt_mgr_mtx, PWAIT, "pktwait", 467a5548bf6SLawrence Stewart 1); 468a5548bf6SLawrence Stewart 469a5548bf6SLawrence Stewart /* Gain exclusive access to the pkt_node queue. */ 470a5548bf6SLawrence Stewart mtx_lock(&siftr_pkt_queue_mtx); 471a5548bf6SLawrence Stewart 472a5548bf6SLawrence Stewart /* 473a5548bf6SLawrence Stewart * Move pkt_queue to tmp_pkt_queue, which leaves 474a5548bf6SLawrence Stewart * pkt_queue empty and ready to receive more pkt_nodes. 475a5548bf6SLawrence Stewart */ 476a5548bf6SLawrence Stewart STAILQ_CONCAT(&tmp_pkt_queue, &pkt_queue); 477a5548bf6SLawrence Stewart 478a5548bf6SLawrence Stewart /* 479a5548bf6SLawrence Stewart * We've finished making changes to the list. Unlock it 480a5548bf6SLawrence Stewart * so the pfil hooks can continue queuing pkt_nodes. 481a5548bf6SLawrence Stewart */ 482a5548bf6SLawrence Stewart mtx_unlock(&siftr_pkt_queue_mtx); 483a5548bf6SLawrence Stewart 484a5548bf6SLawrence Stewart /* 485a5548bf6SLawrence Stewart * We can't hold a mutex whilst calling siftr_process_pkt 486a5548bf6SLawrence Stewart * because ALQ might sleep waiting for buffer space. 487a5548bf6SLawrence Stewart */ 488a5548bf6SLawrence Stewart mtx_unlock(&siftr_pkt_mgr_mtx); 489a5548bf6SLawrence Stewart 490a95cd6e4SRichard Scheffenegger while ((pkt_node = STAILQ_FIRST(&tmp_pkt_queue)) != NULL) { 491fafb03abSCheng Cui 492a95cd6e4SRichard Scheffenegger log_buf = alq_getn(siftr_alq, MAX_LOG_MSG_LEN * 493a95cd6e4SRichard Scheffenegger ((STAILQ_NEXT(pkt_node, nodes) != NULL) ? 494a95cd6e4SRichard Scheffenegger MAX_LOG_BATCH_SIZE : 1), 495fafb03abSCheng Cui ALQ_WAITOK); 496fafb03abSCheng Cui 497fafb03abSCheng Cui if (log_buf != NULL) { 498fafb03abSCheng Cui log_buf->ae_bytesused = 0; 499fafb03abSCheng Cui bufp = log_buf->ae_data; 500fafb03abSCheng Cui } else { 501fafb03abSCheng Cui /* 502fafb03abSCheng Cui * Should only happen if the ALQ is shutting 503fafb03abSCheng Cui * down. 504fafb03abSCheng Cui */ 505fafb03abSCheng Cui bufp = NULL; 506fafb03abSCheng Cui } 507fafb03abSCheng Cui 508a5548bf6SLawrence Stewart /* Flush all pkt_nodes to the log file. */ 509a95cd6e4SRichard Scheffenegger STAILQ_FOREACH(pkt_node, &tmp_pkt_queue, nodes) { 510fafb03abSCheng Cui if (log_buf != NULL) { 511fafb03abSCheng Cui ret_sz = siftr_process_pkt(pkt_node, 512fafb03abSCheng Cui bufp); 513fafb03abSCheng Cui bufp += ret_sz; 514fafb03abSCheng Cui log_buf->ae_bytesused += ret_sz; 515fafb03abSCheng Cui } 516a95cd6e4SRichard Scheffenegger if (++cnt >= MAX_LOG_BATCH_SIZE) 517a95cd6e4SRichard Scheffenegger break; 518fafb03abSCheng Cui } 519fafb03abSCheng Cui if (log_buf != NULL) { 520fafb03abSCheng Cui alq_post_flags(siftr_alq, log_buf, 0); 521fafb03abSCheng Cui } 522a95cd6e4SRichard Scheffenegger for (;cnt > 0; cnt--) { 523a95cd6e4SRichard Scheffenegger pkt_node = STAILQ_FIRST(&tmp_pkt_queue); 524a95cd6e4SRichard Scheffenegger STAILQ_REMOVE_HEAD(&tmp_pkt_queue, nodes); 525a95cd6e4SRichard Scheffenegger free(pkt_node, M_SIFTR_PKTNODE); 526a95cd6e4SRichard Scheffenegger } 527a5548bf6SLawrence Stewart } 528a5548bf6SLawrence Stewart 529a5548bf6SLawrence Stewart KASSERT(STAILQ_EMPTY(&tmp_pkt_queue), 530a5548bf6SLawrence Stewart ("SIFTR tmp_pkt_queue not empty after flush")); 531a5548bf6SLawrence Stewart 532a5548bf6SLawrence Stewart mtx_lock(&siftr_pkt_mgr_mtx); 533a5548bf6SLawrence Stewart 534a5548bf6SLawrence Stewart /* 535a5548bf6SLawrence Stewart * If siftr_exit_pkt_manager_thread gets set during the window 536a5548bf6SLawrence Stewart * where we are draining the tmp_pkt_queue above, there might 537a5548bf6SLawrence Stewart * still be pkts in pkt_queue that need to be drained. 538a5548bf6SLawrence Stewart * Allow one further iteration to occur after 539a5548bf6SLawrence Stewart * siftr_exit_pkt_manager_thread has been set to ensure 540a5548bf6SLawrence Stewart * pkt_queue is completely empty before we kill the thread. 541a5548bf6SLawrence Stewart * 542a5548bf6SLawrence Stewart * siftr_exit_pkt_manager_thread is set only after the pfil 543a5548bf6SLawrence Stewart * hooks have been removed, so only 1 extra iteration 544a5548bf6SLawrence Stewart * is needed to drain the queue. 545a5548bf6SLawrence Stewart */ 546a5548bf6SLawrence Stewart if (siftr_exit_pkt_manager_thread) 547a5548bf6SLawrence Stewart draining--; 548a5548bf6SLawrence Stewart } 549a5548bf6SLawrence Stewart 550a5548bf6SLawrence Stewart mtx_unlock(&siftr_pkt_mgr_mtx); 551a5548bf6SLawrence Stewart 552a5548bf6SLawrence Stewart /* Calls wakeup on this thread's struct thread ptr. */ 553a5548bf6SLawrence Stewart kthread_exit(); 554a5548bf6SLawrence Stewart } 555a5548bf6SLawrence Stewart 556a5548bf6SLawrence Stewart /* 557a5548bf6SLawrence Stewart * Check if a given mbuf has the SIFTR mbuf tag. If it does, log the fact that 558a5548bf6SLawrence Stewart * it's a reinjected packet and return. If it doesn't, tag the mbuf and return. 559a5548bf6SLawrence Stewart * Return value >0 means the caller should skip processing this mbuf. 560a5548bf6SLawrence Stewart */ 561a5548bf6SLawrence Stewart static inline int 562a5548bf6SLawrence Stewart siftr_chkreinject(struct mbuf *m, int dir, struct siftr_stats *ss) 563a5548bf6SLawrence Stewart { 564a5548bf6SLawrence Stewart if (m_tag_locate(m, PACKET_COOKIE_SIFTR, PACKET_TAG_SIFTR, NULL) 565a5548bf6SLawrence Stewart != NULL) { 566a5548bf6SLawrence Stewart if (dir == PFIL_IN) 567a5548bf6SLawrence Stewart ss->nskip_in_dejavu++; 568a5548bf6SLawrence Stewart else 569a5548bf6SLawrence Stewart ss->nskip_out_dejavu++; 570a5548bf6SLawrence Stewart 571a5548bf6SLawrence Stewart return (1); 572a5548bf6SLawrence Stewart } else { 573a5548bf6SLawrence Stewart struct m_tag *tag = m_tag_alloc(PACKET_COOKIE_SIFTR, 574a5548bf6SLawrence Stewart PACKET_TAG_SIFTR, 0, M_NOWAIT); 575a5548bf6SLawrence Stewart if (tag == NULL) { 576a5548bf6SLawrence Stewart if (dir == PFIL_IN) 577a5548bf6SLawrence Stewart ss->nskip_in_malloc++; 578a5548bf6SLawrence Stewart else 579a5548bf6SLawrence Stewart ss->nskip_out_malloc++; 580a5548bf6SLawrence Stewart 581a5548bf6SLawrence Stewart return (1); 582a5548bf6SLawrence Stewart } 583a5548bf6SLawrence Stewart 584a5548bf6SLawrence Stewart m_tag_prepend(m, tag); 585a5548bf6SLawrence Stewart } 586a5548bf6SLawrence Stewart 587a5548bf6SLawrence Stewart return (0); 588a5548bf6SLawrence Stewart } 589a5548bf6SLawrence Stewart 590a5548bf6SLawrence Stewart /* 591a5548bf6SLawrence Stewart * Look up an inpcb for a packet. Return the inpcb pointer if found, or NULL 592a5548bf6SLawrence Stewart * otherwise. 593a5548bf6SLawrence Stewart */ 594a5548bf6SLawrence Stewart static inline struct inpcb * 595a5548bf6SLawrence Stewart siftr_findinpcb(int ipver, struct ip *ip, struct mbuf *m, uint16_t sport, 596a5548bf6SLawrence Stewart uint16_t dport, int dir, struct siftr_stats *ss) 597a5548bf6SLawrence Stewart { 598a5548bf6SLawrence Stewart struct inpcb *inp; 599a5548bf6SLawrence Stewart 600a5548bf6SLawrence Stewart if (dir == PFIL_IN) 601a5548bf6SLawrence Stewart inp = (ipver == INP_IPV4 ? 602fa046d87SRobert Watson in_pcblookup(&V_tcbinfo, ip->ip_src, sport, ip->ip_dst, 603fa046d87SRobert Watson dport, INPLOOKUP_RLOCKPCB, m->m_pkthdr.rcvif) 604a5548bf6SLawrence Stewart : 605a5548bf6SLawrence Stewart #ifdef SIFTR_IPV6 606fa046d87SRobert Watson in6_pcblookup(&V_tcbinfo, 607a5548bf6SLawrence Stewart &((struct ip6_hdr *)ip)->ip6_src, sport, 608fa046d87SRobert Watson &((struct ip6_hdr *)ip)->ip6_dst, dport, INPLOOKUP_RLOCKPCB, 609a5548bf6SLawrence Stewart m->m_pkthdr.rcvif) 610a5548bf6SLawrence Stewart #else 611a5548bf6SLawrence Stewart NULL 612a5548bf6SLawrence Stewart #endif 613a5548bf6SLawrence Stewart ); 614a5548bf6SLawrence Stewart 615a5548bf6SLawrence Stewart else 616a5548bf6SLawrence Stewart inp = (ipver == INP_IPV4 ? 617fa046d87SRobert Watson in_pcblookup(&V_tcbinfo, ip->ip_dst, dport, ip->ip_src, 618fa046d87SRobert Watson sport, INPLOOKUP_RLOCKPCB, m->m_pkthdr.rcvif) 619a5548bf6SLawrence Stewart : 620a5548bf6SLawrence Stewart #ifdef SIFTR_IPV6 621fa046d87SRobert Watson in6_pcblookup(&V_tcbinfo, 622a5548bf6SLawrence Stewart &((struct ip6_hdr *)ip)->ip6_dst, dport, 623fa046d87SRobert Watson &((struct ip6_hdr *)ip)->ip6_src, sport, INPLOOKUP_RLOCKPCB, 624a5548bf6SLawrence Stewart m->m_pkthdr.rcvif) 625a5548bf6SLawrence Stewart #else 626a5548bf6SLawrence Stewart NULL 627a5548bf6SLawrence Stewart #endif 628a5548bf6SLawrence Stewart ); 629a5548bf6SLawrence Stewart 630a5548bf6SLawrence Stewart /* If we can't find the inpcb, bail. */ 631a5548bf6SLawrence Stewart if (inp == NULL) { 632a5548bf6SLawrence Stewart if (dir == PFIL_IN) 633a5548bf6SLawrence Stewart ss->nskip_in_inpcb++; 634a5548bf6SLawrence Stewart else 635a5548bf6SLawrence Stewart ss->nskip_out_inpcb++; 636a5548bf6SLawrence Stewart } 637a5548bf6SLawrence Stewart 638a5548bf6SLawrence Stewart return (inp); 639a5548bf6SLawrence Stewart } 640a5548bf6SLawrence Stewart 641aa61cff4SCheng Cui static inline uint32_t 642aa61cff4SCheng Cui siftr_get_flowid(struct inpcb *inp, int ipver, uint32_t *phashtype) 643aa61cff4SCheng Cui { 644aa61cff4SCheng Cui if (inp->inp_flowid == 0) { 645aa61cff4SCheng Cui #ifdef SIFTR_IPV6 646aa61cff4SCheng Cui if (ipver == INP_IPV6) { 647aa61cff4SCheng Cui return fib6_calc_packet_hash(&inp->in6p_laddr, 648aa61cff4SCheng Cui &inp->in6p_faddr, 649aa61cff4SCheng Cui inp->inp_lport, 650aa61cff4SCheng Cui inp->inp_fport, 651aa61cff4SCheng Cui IPPROTO_TCP, 652aa61cff4SCheng Cui phashtype); 653aa61cff4SCheng Cui } else 654aa61cff4SCheng Cui #endif 655aa61cff4SCheng Cui { 656aa61cff4SCheng Cui return fib4_calc_packet_hash(inp->inp_laddr, 657aa61cff4SCheng Cui inp->inp_faddr, 658aa61cff4SCheng Cui inp->inp_lport, 659aa61cff4SCheng Cui inp->inp_fport, 660aa61cff4SCheng Cui IPPROTO_TCP, 661aa61cff4SCheng Cui phashtype); 662aa61cff4SCheng Cui } 663aa61cff4SCheng Cui } else { 664aa61cff4SCheng Cui *phashtype = inp->inp_flowtype; 665aa61cff4SCheng Cui return inp->inp_flowid; 666aa61cff4SCheng Cui } 667aa61cff4SCheng Cui } 668aa61cff4SCheng Cui 66979848522SLawrence Stewart static inline void 67079848522SLawrence Stewart siftr_siftdata(struct pkt_node *pn, struct inpcb *inp, struct tcpcb *tp, 67179848522SLawrence Stewart int ipver, int dir, int inp_locally_locked) 67279848522SLawrence Stewart { 673cd9da8d0SMichael Tuexen pn->ipver = ipver; 6742176c9abSMichael Tuexen pn->lport = inp->inp_lport; 6752176c9abSMichael Tuexen pn->fport = inp->inp_fport; 6762176c9abSMichael Tuexen pn->laddr = inp->inp_inc.inc_ie.ie_dependladdr; 6772176c9abSMichael Tuexen pn->faddr = inp->inp_inc.inc_ie.ie_dependfaddr; 67879848522SLawrence Stewart pn->snd_cwnd = tp->snd_cwnd; 67979848522SLawrence Stewart pn->snd_wnd = tp->snd_wnd; 68079848522SLawrence Stewart pn->rcv_wnd = tp->rcv_wnd; 6811241e8e7STom Jones pn->t_flags2 = tp->t_flags2; 68279848522SLawrence Stewart pn->snd_ssthresh = tp->snd_ssthresh; 68379848522SLawrence Stewart pn->snd_scale = tp->snd_scale; 68479848522SLawrence Stewart pn->rcv_scale = tp->rcv_scale; 68579848522SLawrence Stewart pn->conn_state = tp->t_state; 6862176c9abSMichael Tuexen pn->mss = tp->t_maxseg; 687aa61cff4SCheng Cui pn->srtt = ((uint64_t)tp->t_srtt * tick) >> TCP_RTT_SHIFT; 68879848522SLawrence Stewart pn->sack_enabled = (tp->t_flags & TF_SACK_PERMIT) != 0; 6892176c9abSMichael Tuexen pn->t_flags = tp->t_flags; 690d090464eSCheng Cui pn->rto = tp->t_rxtcur * tick; 69179848522SLawrence Stewart pn->snd_buf_hiwater = inp->inp_socket->so_snd.sb_hiwat; 692cfa6009eSGleb Smirnoff pn->snd_buf_cc = sbused(&inp->inp_socket->so_snd); 69379848522SLawrence Stewart pn->rcv_buf_hiwater = inp->inp_socket->so_rcv.sb_hiwat; 694cfa6009eSGleb Smirnoff pn->rcv_buf_cc = sbused(&inp->inp_socket->so_rcv); 69579848522SLawrence Stewart pn->sent_inflight_bytes = tp->snd_max - tp->snd_una; 696d4d3e218SLawrence Stewart pn->t_segqlen = tp->t_segqlen; 69779848522SLawrence Stewart 69879848522SLawrence Stewart /* We've finished accessing the tcb so release the lock. */ 69979848522SLawrence Stewart if (inp_locally_locked) 70079848522SLawrence Stewart INP_RUNLOCK(inp); 70179848522SLawrence Stewart 70254739273SGleb Smirnoff pn->direction = (dir == PFIL_IN ? DIR_IN : DIR_OUT); 70379848522SLawrence Stewart 70479848522SLawrence Stewart /* 70579848522SLawrence Stewart * Significantly more accurate than using getmicrotime(), but slower! 70679848522SLawrence Stewart * Gives true microsecond resolution at the expense of a hit to 70779848522SLawrence Stewart * maximum pps throughput processing when SIFTR is loaded and enabled. 70879848522SLawrence Stewart */ 70979848522SLawrence Stewart microtime(&pn->tval); 710dc2d26dfSMichael Tuexen TCP_PROBE1(siftr, pn); 71179848522SLawrence Stewart } 71279848522SLawrence Stewart 713a5548bf6SLawrence Stewart /* 714a5548bf6SLawrence Stewart * pfil hook that is called for each IPv4 packet making its way through the 715a5548bf6SLawrence Stewart * stack in either direction. 716a5548bf6SLawrence Stewart * The pfil subsystem holds a non-sleepable mutex somewhere when 717a5548bf6SLawrence Stewart * calling our hook function, so we can't sleep at all. 718a5548bf6SLawrence Stewart * It's very important to use the M_NOWAIT flag with all function calls 719a5548bf6SLawrence Stewart * that support it so that they won't sleep, otherwise you get a panic. 720a5548bf6SLawrence Stewart */ 721b252313fSGleb Smirnoff static pfil_return_t 722b252313fSGleb Smirnoff siftr_chkpkt(struct mbuf **m, struct ifnet *ifp, int flags, 723b252313fSGleb Smirnoff void *ruleset __unused, struct inpcb *inp) 724a5548bf6SLawrence Stewart { 72579848522SLawrence Stewart struct pkt_node *pn; 726a5548bf6SLawrence Stewart struct ip *ip; 727a5548bf6SLawrence Stewart struct tcphdr *th; 728a5548bf6SLawrence Stewart struct tcpcb *tp; 729a5548bf6SLawrence Stewart struct siftr_stats *ss; 730a5548bf6SLawrence Stewart unsigned int ip_hl; 731b252313fSGleb Smirnoff int inp_locally_locked, dir; 732aa61cff4SCheng Cui uint32_t hash_id, hash_type; 733aa61cff4SCheng Cui struct listhead *counter_list; 734aa61cff4SCheng Cui struct flow_hash_node *hash_node; 735a5548bf6SLawrence Stewart 736a5548bf6SLawrence Stewart inp_locally_locked = 0; 737b252313fSGleb Smirnoff dir = PFIL_DIR(flags); 738a5548bf6SLawrence Stewart ss = DPCPU_PTR(ss); 739a5548bf6SLawrence Stewart 740a5548bf6SLawrence Stewart /* 741a5548bf6SLawrence Stewart * m_pullup is not required here because ip_{input|output} 742a5548bf6SLawrence Stewart * already do the heavy lifting for us. 743a5548bf6SLawrence Stewart */ 744a5548bf6SLawrence Stewart 745a5548bf6SLawrence Stewart ip = mtod(*m, struct ip *); 746a5548bf6SLawrence Stewart 747a5548bf6SLawrence Stewart /* Only continue processing if the packet is TCP. */ 748a5548bf6SLawrence Stewart if (ip->ip_p != IPPROTO_TCP) 749a5548bf6SLawrence Stewart goto ret; 750a5548bf6SLawrence Stewart 751a5548bf6SLawrence Stewart /* 7529c655838SRichard Scheffenegger * Create a tcphdr struct starting at the correct offset 7539c655838SRichard Scheffenegger * in the IP packet. ip->ip_hl gives the ip header length 7549c655838SRichard Scheffenegger * in 4-byte words, so multiply it to get the size in bytes. 7559c655838SRichard Scheffenegger */ 7569c655838SRichard Scheffenegger ip_hl = (ip->ip_hl << 2); 7579c655838SRichard Scheffenegger th = (struct tcphdr *)((caddr_t)ip + ip_hl); 7589c655838SRichard Scheffenegger 7599c655838SRichard Scheffenegger /* 7609c655838SRichard Scheffenegger * Only pkts selected by the tcp port filter 7619c655838SRichard Scheffenegger * can be inserted into the pkt_queue 7629c655838SRichard Scheffenegger */ 7639c655838SRichard Scheffenegger if ((siftr_port_filter != 0) && 7649c655838SRichard Scheffenegger (siftr_port_filter != ntohs(th->th_sport)) && 7659c655838SRichard Scheffenegger (siftr_port_filter != ntohs(th->th_dport))) { 7669c655838SRichard Scheffenegger goto ret; 7679c655838SRichard Scheffenegger } 7689c655838SRichard Scheffenegger 7699c655838SRichard Scheffenegger /* 770a5548bf6SLawrence Stewart * If a kernel subsystem reinjects packets into the stack, our pfil 771a5548bf6SLawrence Stewart * hook will be called multiple times for the same packet. 772a5548bf6SLawrence Stewart * Make sure we only process unique packets. 773a5548bf6SLawrence Stewart */ 774a5548bf6SLawrence Stewart if (siftr_chkreinject(*m, dir, ss)) 775a5548bf6SLawrence Stewart goto ret; 776a5548bf6SLawrence Stewart 777a5548bf6SLawrence Stewart if (dir == PFIL_IN) 778a5548bf6SLawrence Stewart ss->n_in++; 779a5548bf6SLawrence Stewart else 780a5548bf6SLawrence Stewart ss->n_out++; 781a5548bf6SLawrence Stewart 782a5548bf6SLawrence Stewart /* 783a5548bf6SLawrence Stewart * If the pfil hooks don't provide a pointer to the 784a5548bf6SLawrence Stewart * inpcb, we need to find it ourselves and lock it. 785a5548bf6SLawrence Stewart */ 786a5548bf6SLawrence Stewart if (!inp) { 787a5548bf6SLawrence Stewart /* Find the corresponding inpcb for this pkt. */ 788a5548bf6SLawrence Stewart inp = siftr_findinpcb(INP_IPV4, ip, *m, th->th_sport, 789a5548bf6SLawrence Stewart th->th_dport, dir, ss); 790a5548bf6SLawrence Stewart 791a5548bf6SLawrence Stewart if (inp == NULL) 792a5548bf6SLawrence Stewart goto ret; 793a5548bf6SLawrence Stewart else 794a5548bf6SLawrence Stewart inp_locally_locked = 1; 795a5548bf6SLawrence Stewart } 796a5548bf6SLawrence Stewart 797a5548bf6SLawrence Stewart INP_LOCK_ASSERT(inp); 798a5548bf6SLawrence Stewart 799a5548bf6SLawrence Stewart /* Find the TCP control block that corresponds with this packet */ 800a5548bf6SLawrence Stewart tp = intotcpcb(inp); 801a5548bf6SLawrence Stewart 802a5548bf6SLawrence Stewart /* 803a5548bf6SLawrence Stewart * If we can't find the TCP control block (happens occasionaly for a 804aa61cff4SCheng Cui * packet sent during the shutdown phase of a TCP connection), or the 805aa61cff4SCheng Cui * TCP control block has not initialized (happens during TCPS_SYN_SENT), 806aa61cff4SCheng Cui * bail. 807a5548bf6SLawrence Stewart */ 808aa61cff4SCheng Cui if (tp == NULL || tp->t_state < TCPS_ESTABLISHED) { 809a5548bf6SLawrence Stewart if (dir == PFIL_IN) 810a5548bf6SLawrence Stewart ss->nskip_in_tcpcb++; 811a5548bf6SLawrence Stewart else 812a5548bf6SLawrence Stewart ss->nskip_out_tcpcb++; 813a5548bf6SLawrence Stewart 814a5548bf6SLawrence Stewart goto inp_unlock; 815a5548bf6SLawrence Stewart } 816a5548bf6SLawrence Stewart 817aa61cff4SCheng Cui hash_id = siftr_get_flowid(inp, INP_IPV4, &hash_type); 818aa61cff4SCheng Cui counter_list = counter_hash + (hash_id & siftr_hashmask); 819aa61cff4SCheng Cui hash_node = siftr_find_flow(counter_list, hash_id); 820aa61cff4SCheng Cui 821aa61cff4SCheng Cui /* If this flow hasn't been seen before, we create a new entry. */ 822aa61cff4SCheng Cui if (hash_node == NULL) { 823aa61cff4SCheng Cui struct flow_info info; 824aa61cff4SCheng Cui 825aa61cff4SCheng Cui inet_ntoa_r(inp->inp_laddr, info.laddr); 826aa61cff4SCheng Cui inet_ntoa_r(inp->inp_faddr, info.faddr); 827aa61cff4SCheng Cui info.lport = ntohs(inp->inp_lport); 828aa61cff4SCheng Cui info.fport = ntohs(inp->inp_fport); 829aa61cff4SCheng Cui info.key = hash_id; 830aa61cff4SCheng Cui 831aa61cff4SCheng Cui hash_node = siftr_new_hash_node(info, dir, ss); 832aa61cff4SCheng Cui } 833aa61cff4SCheng Cui 834aa61cff4SCheng Cui if (hash_node == NULL) { 835aa61cff4SCheng Cui goto inp_unlock; 836aa61cff4SCheng Cui } 837435a8c15SBrooks Davis 83879848522SLawrence Stewart pn = malloc(sizeof(struct pkt_node), M_SIFTR_PKTNODE, M_NOWAIT|M_ZERO); 839a5548bf6SLawrence Stewart 84079848522SLawrence Stewart if (pn == NULL) { 84179848522SLawrence Stewart if (dir == PFIL_IN) 84279848522SLawrence Stewart ss->nskip_in_malloc++; 84379848522SLawrence Stewart else 84479848522SLawrence Stewart ss->nskip_out_malloc++; 845a5548bf6SLawrence Stewart 84679848522SLawrence Stewart goto inp_unlock; 84779848522SLawrence Stewart } 848a5548bf6SLawrence Stewart 849aa61cff4SCheng Cui pn->flowid = hash_id; 850aa61cff4SCheng Cui pn->flowtype = hash_type; 851aa61cff4SCheng Cui 85279848522SLawrence Stewart siftr_siftdata(pn, inp, tp, INP_IPV4, dir, inp_locally_locked); 853a5548bf6SLawrence Stewart 854a5548bf6SLawrence Stewart mtx_lock(&siftr_pkt_queue_mtx); 85579848522SLawrence Stewart STAILQ_INSERT_TAIL(&pkt_queue, pn, nodes); 856a5548bf6SLawrence Stewart mtx_unlock(&siftr_pkt_queue_mtx); 857a5548bf6SLawrence Stewart goto ret; 858a5548bf6SLawrence Stewart 859a5548bf6SLawrence Stewart inp_unlock: 860a5548bf6SLawrence Stewart if (inp_locally_locked) 861a5548bf6SLawrence Stewart INP_RUNLOCK(inp); 862a5548bf6SLawrence Stewart 863a5548bf6SLawrence Stewart ret: 864b252313fSGleb Smirnoff return (PFIL_PASS); 865a5548bf6SLawrence Stewart } 866a5548bf6SLawrence Stewart 867a5548bf6SLawrence Stewart #ifdef SIFTR_IPV6 86834d8ffffSAllan Jude static pfil_return_t 86934d8ffffSAllan Jude siftr_chkpkt6(struct mbuf **m, struct ifnet *ifp, int flags, 87034d8ffffSAllan Jude void *ruleset __unused, struct inpcb *inp) 871a5548bf6SLawrence Stewart { 87279848522SLawrence Stewart struct pkt_node *pn; 873a5548bf6SLawrence Stewart struct ip6_hdr *ip6; 874a5548bf6SLawrence Stewart struct tcphdr *th; 875a5548bf6SLawrence Stewart struct tcpcb *tp; 876a5548bf6SLawrence Stewart struct siftr_stats *ss; 877a5548bf6SLawrence Stewart unsigned int ip6_hl; 878b252313fSGleb Smirnoff int inp_locally_locked, dir; 879aa61cff4SCheng Cui uint32_t hash_id, hash_type; 880aa61cff4SCheng Cui struct listhead *counter_list; 881aa61cff4SCheng Cui struct flow_hash_node *hash_node; 882a5548bf6SLawrence Stewart 883a5548bf6SLawrence Stewart inp_locally_locked = 0; 884b252313fSGleb Smirnoff dir = PFIL_DIR(flags); 885a5548bf6SLawrence Stewart ss = DPCPU_PTR(ss); 886a5548bf6SLawrence Stewart 887a5548bf6SLawrence Stewart /* 888a5548bf6SLawrence Stewart * m_pullup is not required here because ip6_{input|output} 889a5548bf6SLawrence Stewart * already do the heavy lifting for us. 890a5548bf6SLawrence Stewart */ 891a5548bf6SLawrence Stewart 892a5548bf6SLawrence Stewart ip6 = mtod(*m, struct ip6_hdr *); 893a5548bf6SLawrence Stewart 894a5548bf6SLawrence Stewart /* 895a5548bf6SLawrence Stewart * Only continue processing if the packet is TCP 896a5548bf6SLawrence Stewart * XXX: We should follow the next header fields 897a5548bf6SLawrence Stewart * as shown on Pg 6 RFC 2460, but right now we'll 898a5548bf6SLawrence Stewart * only check pkts that have no extension headers. 899a5548bf6SLawrence Stewart */ 900a5548bf6SLawrence Stewart if (ip6->ip6_nxt != IPPROTO_TCP) 901a5548bf6SLawrence Stewart goto ret6; 902a5548bf6SLawrence Stewart 903a5548bf6SLawrence Stewart /* 9049c655838SRichard Scheffenegger * Create a tcphdr struct starting at the correct offset 9059c655838SRichard Scheffenegger * in the ipv6 packet. 9069c655838SRichard Scheffenegger */ 9079c655838SRichard Scheffenegger ip6_hl = sizeof(struct ip6_hdr); 9089c655838SRichard Scheffenegger th = (struct tcphdr *)((caddr_t)ip6 + ip6_hl); 9099c655838SRichard Scheffenegger 9109c655838SRichard Scheffenegger /* 9119c655838SRichard Scheffenegger * Only pkts selected by the tcp port filter 9129c655838SRichard Scheffenegger * can be inserted into the pkt_queue 9139c655838SRichard Scheffenegger */ 9149c655838SRichard Scheffenegger if ((siftr_port_filter != 0) && 9159c655838SRichard Scheffenegger (siftr_port_filter != ntohs(th->th_sport)) && 9169c655838SRichard Scheffenegger (siftr_port_filter != ntohs(th->th_dport))) { 9179c655838SRichard Scheffenegger goto ret6; 9189c655838SRichard Scheffenegger } 9199c655838SRichard Scheffenegger 9209c655838SRichard Scheffenegger /* 921a5548bf6SLawrence Stewart * If a kernel subsystem reinjects packets into the stack, our pfil 922a5548bf6SLawrence Stewart * hook will be called multiple times for the same packet. 923a5548bf6SLawrence Stewart * Make sure we only process unique packets. 924a5548bf6SLawrence Stewart */ 925a5548bf6SLawrence Stewart if (siftr_chkreinject(*m, dir, ss)) 926a5548bf6SLawrence Stewart goto ret6; 927a5548bf6SLawrence Stewart 928a5548bf6SLawrence Stewart if (dir == PFIL_IN) 929a5548bf6SLawrence Stewart ss->n_in++; 930a5548bf6SLawrence Stewart else 931a5548bf6SLawrence Stewart ss->n_out++; 932a5548bf6SLawrence Stewart 933a5548bf6SLawrence Stewart /* 934a5548bf6SLawrence Stewart * For inbound packets, the pfil hooks don't provide a pointer to the 935a5548bf6SLawrence Stewart * inpcb, so we need to find it ourselves and lock it. 936a5548bf6SLawrence Stewart */ 937a5548bf6SLawrence Stewart if (!inp) { 938a5548bf6SLawrence Stewart /* Find the corresponding inpcb for this pkt. */ 939a5548bf6SLawrence Stewart inp = siftr_findinpcb(INP_IPV6, (struct ip *)ip6, *m, 940a5548bf6SLawrence Stewart th->th_sport, th->th_dport, dir, ss); 941a5548bf6SLawrence Stewart 942a5548bf6SLawrence Stewart if (inp == NULL) 943a5548bf6SLawrence Stewart goto ret6; 944a5548bf6SLawrence Stewart else 945a5548bf6SLawrence Stewart inp_locally_locked = 1; 946a5548bf6SLawrence Stewart } 947a5548bf6SLawrence Stewart 948a5548bf6SLawrence Stewart /* Find the TCP control block that corresponds with this packet. */ 949a5548bf6SLawrence Stewart tp = intotcpcb(inp); 950a5548bf6SLawrence Stewart 951a5548bf6SLawrence Stewart /* 952a5548bf6SLawrence Stewart * If we can't find the TCP control block (happens occasionaly for a 953aa61cff4SCheng Cui * packet sent during the shutdown phase of a TCP connection), or the 954aa61cff4SCheng Cui * TCP control block has not initialized (happens during TCPS_SYN_SENT), 955aa61cff4SCheng Cui * bail. 956a5548bf6SLawrence Stewart */ 957aa61cff4SCheng Cui if (tp == NULL || tp->t_state < TCPS_ESTABLISHED) { 958a5548bf6SLawrence Stewart if (dir == PFIL_IN) 959a5548bf6SLawrence Stewart ss->nskip_in_tcpcb++; 960a5548bf6SLawrence Stewart else 961a5548bf6SLawrence Stewart ss->nskip_out_tcpcb++; 962a5548bf6SLawrence Stewart 963a5548bf6SLawrence Stewart goto inp_unlock6; 964a5548bf6SLawrence Stewart } 965a5548bf6SLawrence Stewart 966aa61cff4SCheng Cui hash_id = siftr_get_flowid(inp, INP_IPV6, &hash_type); 967aa61cff4SCheng Cui counter_list = counter_hash + (hash_id & siftr_hashmask); 968aa61cff4SCheng Cui hash_node = siftr_find_flow(counter_list, hash_id); 969aa61cff4SCheng Cui 970aa61cff4SCheng Cui /* If this flow hasn't been seen before, we create a new entry. */ 971aa61cff4SCheng Cui if (!hash_node) { 972aa61cff4SCheng Cui struct flow_info info; 973aa61cff4SCheng Cui 974aa61cff4SCheng Cui ip6_sprintf(info.laddr, &inp->in6p_laddr); 975aa61cff4SCheng Cui ip6_sprintf(info.faddr, &inp->in6p_faddr); 976aa61cff4SCheng Cui info.lport = ntohs(inp->inp_lport); 977aa61cff4SCheng Cui info.fport = ntohs(inp->inp_fport); 978aa61cff4SCheng Cui info.key = hash_id; 979aa61cff4SCheng Cui 980aa61cff4SCheng Cui hash_node = siftr_new_hash_node(info, dir, ss); 981aa61cff4SCheng Cui } 982aa61cff4SCheng Cui 983aa61cff4SCheng Cui if (!hash_node) { 984aa61cff4SCheng Cui goto inp_unlock6; 985aa61cff4SCheng Cui } 986435a8c15SBrooks Davis 98779848522SLawrence Stewart pn = malloc(sizeof(struct pkt_node), M_SIFTR_PKTNODE, M_NOWAIT|M_ZERO); 988a5548bf6SLawrence Stewart 98979848522SLawrence Stewart if (pn == NULL) { 99079848522SLawrence Stewart if (dir == PFIL_IN) 99179848522SLawrence Stewart ss->nskip_in_malloc++; 99279848522SLawrence Stewart else 99379848522SLawrence Stewart ss->nskip_out_malloc++; 994a5548bf6SLawrence Stewart 99579848522SLawrence Stewart goto inp_unlock6; 99679848522SLawrence Stewart } 997a5548bf6SLawrence Stewart 998aa61cff4SCheng Cui pn->flowid = hash_id; 999aa61cff4SCheng Cui pn->flowtype = hash_type; 1000aa61cff4SCheng Cui 100179848522SLawrence Stewart siftr_siftdata(pn, inp, tp, INP_IPV6, dir, inp_locally_locked); 1002a5548bf6SLawrence Stewart 1003a5548bf6SLawrence Stewart mtx_lock(&siftr_pkt_queue_mtx); 100479848522SLawrence Stewart STAILQ_INSERT_TAIL(&pkt_queue, pn, nodes); 1005a5548bf6SLawrence Stewart mtx_unlock(&siftr_pkt_queue_mtx); 1006a5548bf6SLawrence Stewart goto ret6; 1007a5548bf6SLawrence Stewart 1008a5548bf6SLawrence Stewart inp_unlock6: 1009a5548bf6SLawrence Stewart if (inp_locally_locked) 1010a5548bf6SLawrence Stewart INP_RUNLOCK(inp); 1011a5548bf6SLawrence Stewart 1012a5548bf6SLawrence Stewart ret6: 1013c198adf3SDag-Erling Smørgrav return (PFIL_PASS); 1014a5548bf6SLawrence Stewart } 1015a5548bf6SLawrence Stewart #endif /* #ifdef SIFTR_IPV6 */ 1016a5548bf6SLawrence Stewart 1017b252313fSGleb Smirnoff VNET_DEFINE_STATIC(pfil_hook_t, siftr_inet_hook); 1018b252313fSGleb Smirnoff #define V_siftr_inet_hook VNET(siftr_inet_hook) 101934d8ffffSAllan Jude #ifdef SIFTR_IPV6 1020b252313fSGleb Smirnoff VNET_DEFINE_STATIC(pfil_hook_t, siftr_inet6_hook); 1021b252313fSGleb Smirnoff #define V_siftr_inet6_hook VNET(siftr_inet6_hook) 1022b252313fSGleb Smirnoff #endif 1023a5548bf6SLawrence Stewart static int 1024a5548bf6SLawrence Stewart siftr_pfil(int action) 1025a5548bf6SLawrence Stewart { 1026caf32b26SGleb Smirnoff struct pfil_hook_args pha = { 1027caf32b26SGleb Smirnoff .pa_version = PFIL_VERSION, 1028caf32b26SGleb Smirnoff .pa_flags = PFIL_IN | PFIL_OUT, 1029caf32b26SGleb Smirnoff .pa_modname = "siftr", 1030caf32b26SGleb Smirnoff .pa_rulname = "default", 1031caf32b26SGleb Smirnoff }; 1032caf32b26SGleb Smirnoff struct pfil_link_args pla = { 1033caf32b26SGleb Smirnoff .pa_version = PFIL_VERSION, 1034caf32b26SGleb Smirnoff .pa_flags = PFIL_IN | PFIL_OUT | PFIL_HEADPTR | PFIL_HOOKPTR, 1035caf32b26SGleb Smirnoff }; 1036b252313fSGleb Smirnoff 1037052aec12SLawrence Stewart VNET_ITERATOR_DECL(vnet_iter); 1038052aec12SLawrence Stewart 1039052aec12SLawrence Stewart VNET_LIST_RLOCK(); 1040052aec12SLawrence Stewart VNET_FOREACH(vnet_iter) { 1041052aec12SLawrence Stewart CURVNET_SET(vnet_iter); 1042a5548bf6SLawrence Stewart 1043a5548bf6SLawrence Stewart if (action == HOOK) { 1044caf32b26SGleb Smirnoff pha.pa_mbuf_chk = siftr_chkpkt; 1045b252313fSGleb Smirnoff pha.pa_type = PFIL_TYPE_IP4; 1046b252313fSGleb Smirnoff V_siftr_inet_hook = pfil_add_hook(&pha); 1047b252313fSGleb Smirnoff pla.pa_hook = V_siftr_inet_hook; 1048b252313fSGleb Smirnoff pla.pa_head = V_inet_pfil_head; 1049b252313fSGleb Smirnoff (void)pfil_link(&pla); 1050a5548bf6SLawrence Stewart #ifdef SIFTR_IPV6 1051caf32b26SGleb Smirnoff pha.pa_mbuf_chk = siftr_chkpkt6; 1052b252313fSGleb Smirnoff pha.pa_type = PFIL_TYPE_IP6; 1053b252313fSGleb Smirnoff V_siftr_inet6_hook = pfil_add_hook(&pha); 1054b252313fSGleb Smirnoff pla.pa_hook = V_siftr_inet6_hook; 1055b252313fSGleb Smirnoff pla.pa_head = V_inet6_pfil_head; 1056b252313fSGleb Smirnoff (void)pfil_link(&pla); 1057a5548bf6SLawrence Stewart #endif 1058a5548bf6SLawrence Stewart } else if (action == UNHOOK) { 1059b252313fSGleb Smirnoff pfil_remove_hook(V_siftr_inet_hook); 1060a5548bf6SLawrence Stewart #ifdef SIFTR_IPV6 1061b252313fSGleb Smirnoff pfil_remove_hook(V_siftr_inet6_hook); 1062a5548bf6SLawrence Stewart #endif 1063a5548bf6SLawrence Stewart } 1064052aec12SLawrence Stewart CURVNET_RESTORE(); 1065052aec12SLawrence Stewart } 1066052aec12SLawrence Stewart VNET_LIST_RUNLOCK(); 1067a5548bf6SLawrence Stewart 1068a5548bf6SLawrence Stewart return (0); 1069a5548bf6SLawrence Stewart } 1070a5548bf6SLawrence Stewart 1071a5548bf6SLawrence Stewart static int 1072a5548bf6SLawrence Stewart siftr_sysctl_logfile_name_handler(SYSCTL_HANDLER_ARGS) 1073a5548bf6SLawrence Stewart { 1074a5548bf6SLawrence Stewart struct alq *new_alq; 1075a5548bf6SLawrence Stewart int error; 1076a5548bf6SLawrence Stewart 10770e1152fcSHans Petter Selasky error = sysctl_handle_string(oidp, arg1, arg2, req); 1078a5548bf6SLawrence Stewart 10790e1152fcSHans Petter Selasky /* Check for error or same filename */ 10800e1152fcSHans Petter Selasky if (error != 0 || req->newptr == NULL || 10810e1152fcSHans Petter Selasky strncmp(siftr_logfile, arg1, arg2) == 0) 10820e1152fcSHans Petter Selasky goto done; 1083a5548bf6SLawrence Stewart 108478914cd6SCheng Cui /* file name changed */ 10850e1152fcSHans Petter Selasky error = alq_open(&new_alq, arg1, curthread->td_ucred, 1086a5548bf6SLawrence Stewart SIFTR_LOG_FILE_MODE, SIFTR_ALQ_BUFLEN, 0); 10870e1152fcSHans Petter Selasky if (error != 0) 10880e1152fcSHans Petter Selasky goto done; 1089a5548bf6SLawrence Stewart 1090a5548bf6SLawrence Stewart /* 1091a5548bf6SLawrence Stewart * If disabled, siftr_alq == NULL so we simply close 1092a5548bf6SLawrence Stewart * the alq as we've proved it can be opened. 1093a5548bf6SLawrence Stewart * If enabled, close the existing alq and switch the old 1094a5548bf6SLawrence Stewart * for the new. 1095a5548bf6SLawrence Stewart */ 10960e1152fcSHans Petter Selasky if (siftr_alq == NULL) { 1097a5548bf6SLawrence Stewart alq_close(new_alq); 10980e1152fcSHans Petter Selasky } else { 1099a5548bf6SLawrence Stewart alq_close(siftr_alq); 1100a5548bf6SLawrence Stewart siftr_alq = new_alq; 1101a5548bf6SLawrence Stewart } 1102a5548bf6SLawrence Stewart 11030e1152fcSHans Petter Selasky /* Update filename upon success */ 11040e1152fcSHans Petter Selasky strlcpy(siftr_logfile, arg1, arg2); 11050e1152fcSHans Petter Selasky done: 11060e1152fcSHans Petter Selasky return (error); 1107a5548bf6SLawrence Stewart } 1108a5548bf6SLawrence Stewart 1109a5548bf6SLawrence Stewart static int 1110a5548bf6SLawrence Stewart siftr_manage_ops(uint8_t action) 1111a5548bf6SLawrence Stewart { 1112a5548bf6SLawrence Stewart struct siftr_stats totalss; 1113a5548bf6SLawrence Stewart struct timeval tval; 1114a5548bf6SLawrence Stewart struct flow_hash_node *counter, *tmp_counter; 1115a5548bf6SLawrence Stewart struct sbuf *s; 1116aa61cff4SCheng Cui int i, error; 1117a5548bf6SLawrence Stewart uint32_t bytes_to_write, total_skipped_pkts; 1118a5548bf6SLawrence Stewart 1119a5548bf6SLawrence Stewart error = 0; 1120a5548bf6SLawrence Stewart total_skipped_pkts = 0; 1121a5548bf6SLawrence Stewart 1122a5548bf6SLawrence Stewart /* Init an autosizing sbuf that initially holds 200 chars. */ 1123a5548bf6SLawrence Stewart if ((s = sbuf_new(NULL, NULL, 200, SBUF_AUTOEXTEND)) == NULL) 1124a5548bf6SLawrence Stewart return (-1); 1125a5548bf6SLawrence Stewart 1126c53d6b90SBrooks Davis if (action == SIFTR_ENABLE && siftr_pkt_manager_thr == NULL) { 1127a5548bf6SLawrence Stewart /* 1128a5548bf6SLawrence Stewart * Create our alq 1129a5548bf6SLawrence Stewart * XXX: We should abort if alq_open fails! 1130a5548bf6SLawrence Stewart */ 1131a5548bf6SLawrence Stewart alq_open(&siftr_alq, siftr_logfile, curthread->td_ucred, 1132a5548bf6SLawrence Stewart SIFTR_LOG_FILE_MODE, SIFTR_ALQ_BUFLEN, 0); 1133a5548bf6SLawrence Stewart 1134a5548bf6SLawrence Stewart STAILQ_INIT(&pkt_queue); 1135a5548bf6SLawrence Stewart 1136adc5f010SLawrence Stewart DPCPU_ZERO(ss); 1137adc5f010SLawrence Stewart 1138a5548bf6SLawrence Stewart siftr_exit_pkt_manager_thread = 0; 1139a5548bf6SLawrence Stewart 1140f6960e20SMatt Macy kthread_add(&siftr_pkt_manager_thread, NULL, NULL, 1141a5548bf6SLawrence Stewart &siftr_pkt_manager_thr, RFNOWAIT, 0, 1142a5548bf6SLawrence Stewart "siftr_pkt_manager_thr"); 1143a5548bf6SLawrence Stewart 1144a5548bf6SLawrence Stewart siftr_pfil(HOOK); 1145a5548bf6SLawrence Stewart 1146a5548bf6SLawrence Stewart microtime(&tval); 1147a5548bf6SLawrence Stewart 1148a5548bf6SLawrence Stewart sbuf_printf(s, 1149a5548bf6SLawrence Stewart "enable_time_secs=%jd\tenable_time_usecs=%06ld\t" 1150d090464eSCheng Cui "siftrver=%s\tsysname=%s\tsysver=%u\tipmode=%u\n", 1151d090464eSCheng Cui (intmax_t)tval.tv_sec, tval.tv_usec, MODVERSION_STR, 1152d090464eSCheng Cui SYS_NAME, __FreeBSD_version, SIFTR_IPMODE); 1153a5548bf6SLawrence Stewart 1154a5548bf6SLawrence Stewart sbuf_finish(s); 1155a5548bf6SLawrence Stewart alq_writen(siftr_alq, sbuf_data(s), sbuf_len(s), ALQ_WAITOK); 1156a5548bf6SLawrence Stewart 1157a5548bf6SLawrence Stewart } else if (action == SIFTR_DISABLE && siftr_pkt_manager_thr != NULL) { 1158a5548bf6SLawrence Stewart /* 1159a5548bf6SLawrence Stewart * Remove the pfil hook functions. All threads currently in 1160a5548bf6SLawrence Stewart * the hook functions are allowed to exit before siftr_pfil() 1161a5548bf6SLawrence Stewart * returns. 1162a5548bf6SLawrence Stewart */ 1163a5548bf6SLawrence Stewart siftr_pfil(UNHOOK); 1164a5548bf6SLawrence Stewart 1165a5548bf6SLawrence Stewart /* This will block until the pkt manager thread unlocks it. */ 1166a5548bf6SLawrence Stewart mtx_lock(&siftr_pkt_mgr_mtx); 1167a5548bf6SLawrence Stewart 1168a5548bf6SLawrence Stewart /* Tell the pkt manager thread that it should exit now. */ 1169a5548bf6SLawrence Stewart siftr_exit_pkt_manager_thread = 1; 1170a5548bf6SLawrence Stewart 1171a5548bf6SLawrence Stewart /* 1172a5548bf6SLawrence Stewart * Wake the pkt_manager thread so it realises that 1173a5548bf6SLawrence Stewart * siftr_exit_pkt_manager_thread == 1 and exits gracefully. 1174a5548bf6SLawrence Stewart * The wakeup won't be delivered until we unlock 1175a5548bf6SLawrence Stewart * siftr_pkt_mgr_mtx so this isn't racy. 1176a5548bf6SLawrence Stewart */ 1177a5548bf6SLawrence Stewart wakeup(&wait_for_pkt); 1178a5548bf6SLawrence Stewart 1179a5548bf6SLawrence Stewart /* Wait for the pkt_manager thread to exit. */ 1180a5548bf6SLawrence Stewart mtx_sleep(siftr_pkt_manager_thr, &siftr_pkt_mgr_mtx, PWAIT, 1181a5548bf6SLawrence Stewart "thrwait", 0); 1182a5548bf6SLawrence Stewart 1183a5548bf6SLawrence Stewart siftr_pkt_manager_thr = NULL; 1184a5548bf6SLawrence Stewart mtx_unlock(&siftr_pkt_mgr_mtx); 1185a5548bf6SLawrence Stewart 1186985147deSLawrence Stewart totalss.n_in = DPCPU_VARSUM(ss, n_in); 1187985147deSLawrence Stewart totalss.n_out = DPCPU_VARSUM(ss, n_out); 1188985147deSLawrence Stewart totalss.nskip_in_malloc = DPCPU_VARSUM(ss, nskip_in_malloc); 1189985147deSLawrence Stewart totalss.nskip_out_malloc = DPCPU_VARSUM(ss, nskip_out_malloc); 1190985147deSLawrence Stewart totalss.nskip_in_tcpcb = DPCPU_VARSUM(ss, nskip_in_tcpcb); 1191985147deSLawrence Stewart totalss.nskip_out_tcpcb = DPCPU_VARSUM(ss, nskip_out_tcpcb); 1192985147deSLawrence Stewart totalss.nskip_in_inpcb = DPCPU_VARSUM(ss, nskip_in_inpcb); 1193985147deSLawrence Stewart totalss.nskip_out_inpcb = DPCPU_VARSUM(ss, nskip_out_inpcb); 1194a5548bf6SLawrence Stewart 1195a5548bf6SLawrence Stewart total_skipped_pkts = totalss.nskip_in_malloc + 11961f782fccSCheng Cui totalss.nskip_out_malloc + totalss.nskip_in_tcpcb + 1197a5548bf6SLawrence Stewart totalss.nskip_out_tcpcb + totalss.nskip_in_inpcb + 1198a5548bf6SLawrence Stewart totalss.nskip_out_inpcb; 1199a5548bf6SLawrence Stewart 1200a5548bf6SLawrence Stewart microtime(&tval); 1201a5548bf6SLawrence Stewart 1202a5548bf6SLawrence Stewart sbuf_printf(s, 1203a5548bf6SLawrence Stewart "disable_time_secs=%jd\tdisable_time_usecs=%06ld\t" 1204a5548bf6SLawrence Stewart "num_inbound_tcp_pkts=%ju\tnum_outbound_tcp_pkts=%ju\t" 1205a5548bf6SLawrence Stewart "total_tcp_pkts=%ju\tnum_inbound_skipped_pkts_malloc=%u\t" 1206a5548bf6SLawrence Stewart "num_outbound_skipped_pkts_malloc=%u\t" 1207a5548bf6SLawrence Stewart "num_inbound_skipped_pkts_tcpcb=%u\t" 1208a5548bf6SLawrence Stewart "num_outbound_skipped_pkts_tcpcb=%u\t" 1209a5548bf6SLawrence Stewart "num_inbound_skipped_pkts_inpcb=%u\t" 1210a5548bf6SLawrence Stewart "num_outbound_skipped_pkts_inpcb=%u\t" 1211a5548bf6SLawrence Stewart "total_skipped_tcp_pkts=%u\tflow_list=", 1212a5548bf6SLawrence Stewart (intmax_t)tval.tv_sec, 1213a5548bf6SLawrence Stewart tval.tv_usec, 1214a5548bf6SLawrence Stewart (uintmax_t)totalss.n_in, 1215a5548bf6SLawrence Stewart (uintmax_t)totalss.n_out, 1216a5548bf6SLawrence Stewart (uintmax_t)(totalss.n_in + totalss.n_out), 1217a5548bf6SLawrence Stewart totalss.nskip_in_malloc, 1218a5548bf6SLawrence Stewart totalss.nskip_out_malloc, 1219a5548bf6SLawrence Stewart totalss.nskip_in_tcpcb, 1220a5548bf6SLawrence Stewart totalss.nskip_out_tcpcb, 1221a5548bf6SLawrence Stewart totalss.nskip_in_inpcb, 1222a5548bf6SLawrence Stewart totalss.nskip_out_inpcb, 1223a5548bf6SLawrence Stewart total_skipped_pkts); 1224a5548bf6SLawrence Stewart 1225a5548bf6SLawrence Stewart /* 1226a5548bf6SLawrence Stewart * Iterate over the flow hash, printing a summary of each 1227a5548bf6SLawrence Stewart * flow seen and freeing any malloc'd memory. 1228a5548bf6SLawrence Stewart * The hash consists of an array of LISTs (man 3 queue). 1229a5548bf6SLawrence Stewart */ 12301e0e83d7SLawrence Stewart for (i = 0; i <= siftr_hashmask; i++) { 1231a5548bf6SLawrence Stewart LIST_FOREACH_SAFE(counter, counter_hash + i, nodes, 1232a5548bf6SLawrence Stewart tmp_counter) { 1233aa61cff4SCheng Cui sbuf_printf(s, "%s;%hu-%s;%hu,", 1234aa61cff4SCheng Cui counter->const_info.laddr, 1235aa61cff4SCheng Cui counter->const_info.lport, 1236aa61cff4SCheng Cui counter->const_info.faddr, 1237aa61cff4SCheng Cui counter->const_info.fport); 1238a5548bf6SLawrence Stewart 1239a5548bf6SLawrence Stewart free(counter, M_SIFTR_HASHNODE); 1240a5548bf6SLawrence Stewart } 1241a5548bf6SLawrence Stewart 1242a5548bf6SLawrence Stewart LIST_INIT(counter_hash + i); 1243a5548bf6SLawrence Stewart } 1244a5548bf6SLawrence Stewart 1245a5548bf6SLawrence Stewart sbuf_printf(s, "\n"); 1246a5548bf6SLawrence Stewart sbuf_finish(s); 1247a5548bf6SLawrence Stewart 1248a5548bf6SLawrence Stewart i = 0; 1249a5548bf6SLawrence Stewart do { 1250a5548bf6SLawrence Stewart bytes_to_write = min(SIFTR_ALQ_BUFLEN, sbuf_len(s)-i); 1251a5548bf6SLawrence Stewart alq_writen(siftr_alq, sbuf_data(s)+i, bytes_to_write, ALQ_WAITOK); 1252a5548bf6SLawrence Stewart i += bytes_to_write; 1253a5548bf6SLawrence Stewart } while (i < sbuf_len(s)); 1254a5548bf6SLawrence Stewart 1255a5548bf6SLawrence Stewart alq_close(siftr_alq); 1256a5548bf6SLawrence Stewart siftr_alq = NULL; 1257c53d6b90SBrooks Davis } else 1258c53d6b90SBrooks Davis error = EINVAL; 1259a5548bf6SLawrence Stewart 1260a5548bf6SLawrence Stewart sbuf_delete(s); 1261a5548bf6SLawrence Stewart 1262a5548bf6SLawrence Stewart /* 1263a5548bf6SLawrence Stewart * XXX: Should be using ret to check if any functions fail 1264a5548bf6SLawrence Stewart * and set error appropriately 1265a5548bf6SLawrence Stewart */ 1266a5548bf6SLawrence Stewart 1267a5548bf6SLawrence Stewart return (error); 1268a5548bf6SLawrence Stewart } 1269a5548bf6SLawrence Stewart 1270a5548bf6SLawrence Stewart static int 1271a5548bf6SLawrence Stewart siftr_sysctl_enabled_handler(SYSCTL_HANDLER_ARGS) 1272a5548bf6SLawrence Stewart { 1273855acb84SBrooks Davis int error; 1274855acb84SBrooks Davis uint32_t new; 1275a5548bf6SLawrence Stewart 1276855acb84SBrooks Davis new = siftr_enabled; 1277855acb84SBrooks Davis error = sysctl_handle_int(oidp, &new, 0, req); 1278c53d6b90SBrooks Davis if (error == 0 && req->newptr != NULL) { 1279855acb84SBrooks Davis if (new > 1) 1280855acb84SBrooks Davis return (EINVAL); 1281855acb84SBrooks Davis else if (new != siftr_enabled) { 1282c53d6b90SBrooks Davis if ((error = siftr_manage_ops(new)) == 0) { 1283c53d6b90SBrooks Davis siftr_enabled = new; 1284c53d6b90SBrooks Davis } else { 1285a5548bf6SLawrence Stewart siftr_manage_ops(SIFTR_DISABLE); 1286855acb84SBrooks Davis } 1287a5548bf6SLawrence Stewart } 1288c53d6b90SBrooks Davis } 1289a5548bf6SLawrence Stewart 1290855acb84SBrooks Davis return (error); 1291a5548bf6SLawrence Stewart } 1292a5548bf6SLawrence Stewart 1293a5548bf6SLawrence Stewart static void 1294d79a9edbSMitchell Horne siftr_shutdown_handler(void *arg, int howto) 1295a5548bf6SLawrence Stewart { 1296d79a9edbSMitchell Horne if ((howto & RB_NOSYNC) != 0 || SCHEDULER_STOPPED()) 1297d79a9edbSMitchell Horne return; 1298d79a9edbSMitchell Horne 1299c53d6b90SBrooks Davis if (siftr_enabled == 1) { 1300a5548bf6SLawrence Stewart siftr_manage_ops(SIFTR_DISABLE); 1301a5548bf6SLawrence Stewart } 1302c53d6b90SBrooks Davis } 1303a5548bf6SLawrence Stewart 1304a5548bf6SLawrence Stewart /* 1305a5548bf6SLawrence Stewart * Module is being unloaded or machine is shutting down. Take care of cleanup. 1306a5548bf6SLawrence Stewart */ 1307a5548bf6SLawrence Stewart static int 1308a5548bf6SLawrence Stewart deinit_siftr(void) 1309a5548bf6SLawrence Stewart { 1310a5548bf6SLawrence Stewart /* Cleanup. */ 1311*fb05f761SKristof Provost EVENTHANDLER_DEREGISTER(shutdown_pre_sync, siftr_shutdown_tag); 1312a5548bf6SLawrence Stewart siftr_manage_ops(SIFTR_DISABLE); 1313a5548bf6SLawrence Stewart hashdestroy(counter_hash, M_SIFTR, siftr_hashmask); 1314a5548bf6SLawrence Stewart mtx_destroy(&siftr_pkt_queue_mtx); 1315a5548bf6SLawrence Stewart mtx_destroy(&siftr_pkt_mgr_mtx); 1316a5548bf6SLawrence Stewart 1317a5548bf6SLawrence Stewart return (0); 1318a5548bf6SLawrence Stewart } 1319a5548bf6SLawrence Stewart 1320a5548bf6SLawrence Stewart /* 1321a5548bf6SLawrence Stewart * Module has just been loaded into the kernel. 1322a5548bf6SLawrence Stewart */ 1323a5548bf6SLawrence Stewart static int 1324a5548bf6SLawrence Stewart init_siftr(void) 1325a5548bf6SLawrence Stewart { 1326*fb05f761SKristof Provost siftr_shutdown_tag = EVENTHANDLER_REGISTER(shutdown_pre_sync, 1327*fb05f761SKristof Provost siftr_shutdown_handler, NULL, SHUTDOWN_PRI_FIRST); 1328a5548bf6SLawrence Stewart 1329a5548bf6SLawrence Stewart /* Initialise our flow counter hash table. */ 1330a5548bf6SLawrence Stewart counter_hash = hashinit(SIFTR_EXPECTED_MAX_TCP_FLOWS, M_SIFTR, 1331a5548bf6SLawrence Stewart &siftr_hashmask); 1332a5548bf6SLawrence Stewart 1333a5548bf6SLawrence Stewart mtx_init(&siftr_pkt_queue_mtx, "siftr_pkt_queue_mtx", NULL, MTX_DEF); 1334a5548bf6SLawrence Stewart mtx_init(&siftr_pkt_mgr_mtx, "siftr_pkt_mgr_mtx", NULL, MTX_DEF); 1335a5548bf6SLawrence Stewart 1336a5548bf6SLawrence Stewart /* Print message to the user's current terminal. */ 1337a5548bf6SLawrence Stewart uprintf("\nStatistical Information For TCP Research (SIFTR) %s\n" 1338a5548bf6SLawrence Stewart " http://caia.swin.edu.au/urp/newtcp\n\n", 1339a5548bf6SLawrence Stewart MODVERSION_STR); 1340a5548bf6SLawrence Stewart 1341a5548bf6SLawrence Stewart return (0); 1342a5548bf6SLawrence Stewart } 1343a5548bf6SLawrence Stewart 1344a5548bf6SLawrence Stewart /* 1345a5548bf6SLawrence Stewart * This is the function that is called to load and unload the module. 1346a5548bf6SLawrence Stewart * When the module is loaded, this function is called once with 1347a5548bf6SLawrence Stewart * "what" == MOD_LOAD 1348a5548bf6SLawrence Stewart * When the module is unloaded, this function is called twice with 1349a5548bf6SLawrence Stewart * "what" = MOD_QUIESCE first, followed by "what" = MOD_UNLOAD second 1350a5548bf6SLawrence Stewart * When the system is shut down e.g. CTRL-ALT-DEL or using the shutdown command, 1351a5548bf6SLawrence Stewart * this function is called once with "what" = MOD_SHUTDOWN 1352a5548bf6SLawrence Stewart * When the system is shut down, the handler isn't called until the very end 1353a5548bf6SLawrence Stewart * of the shutdown sequence i.e. after the disks have been synced. 1354a5548bf6SLawrence Stewart */ 1355a5548bf6SLawrence Stewart static int 1356a5548bf6SLawrence Stewart siftr_load_handler(module_t mod, int what, void *arg) 1357a5548bf6SLawrence Stewart { 1358a5548bf6SLawrence Stewart int ret; 1359a5548bf6SLawrence Stewart 1360a5548bf6SLawrence Stewart switch (what) { 1361a5548bf6SLawrence Stewart case MOD_LOAD: 1362a5548bf6SLawrence Stewart ret = init_siftr(); 1363a5548bf6SLawrence Stewart break; 1364a5548bf6SLawrence Stewart 1365a5548bf6SLawrence Stewart case MOD_QUIESCE: 1366a5548bf6SLawrence Stewart case MOD_SHUTDOWN: 1367a5548bf6SLawrence Stewart ret = deinit_siftr(); 1368a5548bf6SLawrence Stewart break; 1369a5548bf6SLawrence Stewart 1370a5548bf6SLawrence Stewart case MOD_UNLOAD: 1371a5548bf6SLawrence Stewart ret = 0; 1372a5548bf6SLawrence Stewart break; 1373a5548bf6SLawrence Stewart 1374a5548bf6SLawrence Stewart default: 1375a5548bf6SLawrence Stewart ret = EINVAL; 1376a5548bf6SLawrence Stewart break; 1377a5548bf6SLawrence Stewart } 1378a5548bf6SLawrence Stewart 1379a5548bf6SLawrence Stewart return (ret); 1380a5548bf6SLawrence Stewart } 1381a5548bf6SLawrence Stewart 1382a5548bf6SLawrence Stewart static moduledata_t siftr_mod = { 1383a5548bf6SLawrence Stewart .name = "siftr", 1384a5548bf6SLawrence Stewart .evhand = siftr_load_handler, 1385a5548bf6SLawrence Stewart }; 1386a5548bf6SLawrence Stewart 1387a5548bf6SLawrence Stewart /* 1388a5548bf6SLawrence Stewart * Param 1: name of the kernel module 1389a5548bf6SLawrence Stewart * Param 2: moduledata_t struct containing info about the kernel module 1390a5548bf6SLawrence Stewart * and the execution entry point for the module 1391a5548bf6SLawrence Stewart * Param 3: From sysinit_sub_id enumeration in /usr/include/sys/kernel.h 1392a5548bf6SLawrence Stewart * Defines the module initialisation order 1393a5548bf6SLawrence Stewart * Param 4: From sysinit_elem_order enumeration in /usr/include/sys/kernel.h 1394a5548bf6SLawrence Stewart * Defines the initialisation order of this kld relative to others 1395a5548bf6SLawrence Stewart * within the same subsystem as defined by param 3 1396a5548bf6SLawrence Stewart */ 139747cedcbdSJohn Baldwin DECLARE_MODULE(siftr, siftr_mod, SI_SUB_LAST, SI_ORDER_ANY); 1398a5548bf6SLawrence Stewart MODULE_DEPEND(siftr, alq, 1, 1, 1); 1399a5548bf6SLawrence Stewart MODULE_VERSION(siftr, MODVERSION); 1400