11cafed39SJonathan Lemon /*- 2*fe267a55SPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD 3*fe267a55SPedro F. Giffuni * 4d4b5cae4SRobert Watson * Copyright (c) 2007-2009 Robert N. M. Watson 5f2d2d694SRobert Watson * Copyright (c) 2010-2011 Juniper Networks, Inc. 6e3b6e33cSJake Burkholder * All rights reserved. 7e3b6e33cSJake Burkholder * 82d22f334SRobert Watson * This software was developed by Robert N. M. Watson under contract 92d22f334SRobert Watson * to Juniper Networks, Inc. 102d22f334SRobert Watson * 11e3b6e33cSJake Burkholder * Redistribution and use in source and binary forms, with or without 12e3b6e33cSJake Burkholder * modification, are permitted provided that the following conditions 13e3b6e33cSJake Burkholder * are met: 14e3b6e33cSJake Burkholder * 1. Redistributions of source code must retain the above copyright 151cafed39SJonathan Lemon * notice, this list of conditions and the following disclaimer. 16e3b6e33cSJake Burkholder * 2. Redistributions in binary form must reproduce the above copyright 17e3b6e33cSJake Burkholder * notice, this list of conditions and the following disclaimer in the 18e3b6e33cSJake Burkholder * documentation and/or other materials provided with the distribution. 19e3b6e33cSJake Burkholder * 201cafed39SJonathan Lemon * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 211cafed39SJonathan Lemon * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 221cafed39SJonathan Lemon * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 231cafed39SJonathan Lemon * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 241cafed39SJonathan Lemon * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 251cafed39SJonathan Lemon * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 261cafed39SJonathan Lemon * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 271cafed39SJonathan Lemon * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 281cafed39SJonathan Lemon * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 291cafed39SJonathan Lemon * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 301cafed39SJonathan Lemon * SUCH DAMAGE. 31e3b6e33cSJake Burkholder */ 32e3b6e33cSJake Burkholder 33d4b5cae4SRobert Watson #include <sys/cdefs.h> 34d4b5cae4SRobert Watson __FBSDID("$FreeBSD$"); 35d4b5cae4SRobert Watson 36d4b5cae4SRobert Watson /* 37d4b5cae4SRobert Watson * netisr is a packet dispatch service, allowing synchronous (directly 38d4b5cae4SRobert Watson * dispatched) and asynchronous (deferred dispatch) processing of packets by 39d4b5cae4SRobert Watson * registered protocol handlers. Callers pass a protocol identifier and 40d4b5cae4SRobert Watson * packet to netisr, along with a direct dispatch hint, and work will either 410a32e29fSRobert Watson * be immediately processed by the registered handler, or passed to a 420a32e29fSRobert Watson * software interrupt (SWI) thread for deferred dispatch. Callers will 430a32e29fSRobert Watson * generally select one or the other based on: 44d4b5cae4SRobert Watson * 450a32e29fSRobert Watson * - Whether directly dispatching a netisr handler lead to code reentrance or 46d4b5cae4SRobert Watson * lock recursion, such as entering the socket code from the socket code. 470a32e29fSRobert Watson * - Whether directly dispatching a netisr handler lead to recursive 48d4b5cae4SRobert Watson * processing, such as when decapsulating several wrapped layers of tunnel 49d4b5cae4SRobert Watson * information (IPSEC within IPSEC within ...). 50d4b5cae4SRobert Watson * 51d4b5cae4SRobert Watson * Maintaining ordering for protocol streams is a critical design concern. 52d4b5cae4SRobert Watson * Enforcing ordering limits the opportunity for concurrency, but maintains 53d4b5cae4SRobert Watson * the strong ordering requirements found in some protocols, such as TCP. Of 54d4b5cae4SRobert Watson * related concern is CPU affinity--it is desirable to process all data 55d4b5cae4SRobert Watson * associated with a particular stream on the same CPU over time in order to 56d4b5cae4SRobert Watson * avoid acquiring locks associated with the connection on different CPUs, 57d4b5cae4SRobert Watson * keep connection data in one cache, and to generally encourage associated 58d4b5cae4SRobert Watson * user threads to live on the same CPU as the stream. It's also desirable 59d4b5cae4SRobert Watson * to avoid lock migration and contention where locks are associated with 60d4b5cae4SRobert Watson * more than one flow. 61d4b5cae4SRobert Watson * 62d4b5cae4SRobert Watson * netisr supports several policy variations, represented by the 630a32e29fSRobert Watson * NETISR_POLICY_* constants, allowing protocols to play various roles in 64d4b5cae4SRobert Watson * identifying flows, assigning work to CPUs, etc. These are described in 650a32e29fSRobert Watson * netisr.h. 66d4b5cae4SRobert Watson */ 67d4b5cae4SRobert Watson 68d4b5cae4SRobert Watson #include "opt_ddb.h" 69f0796cd2SGleb Smirnoff #include "opt_device_polling.h" 701d8cd39eSRobert Watson 71e3b6e33cSJake Burkholder #include <sys/param.h> 72e3b6e33cSJake Burkholder #include <sys/bus.h> 73e3b6e33cSJake Burkholder #include <sys/kernel.h> 741cafed39SJonathan Lemon #include <sys/kthread.h> 758ec07310SGleb Smirnoff #include <sys/malloc.h> 76d4b5cae4SRobert Watson #include <sys/interrupt.h> 771cafed39SJonathan Lemon #include <sys/lock.h> 781cafed39SJonathan Lemon #include <sys/mbuf.h> 79d4b5cae4SRobert Watson #include <sys/mutex.h> 8053402767SRobert Watson #include <sys/pcpu.h> 81d4b5cae4SRobert Watson #include <sys/proc.h> 82d4b5cae4SRobert Watson #include <sys/rmlock.h> 83d4b5cae4SRobert Watson #include <sys/sched.h> 84d4b5cae4SRobert Watson #include <sys/smp.h> 851cafed39SJonathan Lemon #include <sys/socket.h> 86d4b5cae4SRobert Watson #include <sys/sysctl.h> 87d4b5cae4SRobert Watson #include <sys/systm.h> 88d4b5cae4SRobert Watson 89d4b5cae4SRobert Watson #ifdef DDB 90d4b5cae4SRobert Watson #include <ddb/ddb.h> 91d4b5cae4SRobert Watson #endif 921cafed39SJonathan Lemon 93938448cdSRobert Watson #define _WANT_NETISR_INTERNAL /* Enable definitions from netisr_internal.h */ 941cafed39SJonathan Lemon #include <net/if.h> 951cafed39SJonathan Lemon #include <net/if_var.h> 96e3b6e33cSJake Burkholder #include <net/netisr.h> 97938448cdSRobert Watson #include <net/netisr_internal.h> 98530c0060SRobert Watson #include <net/vnet.h> 99e3b6e33cSJake Burkholder 100d4b5cae4SRobert Watson /*- 101d4b5cae4SRobert Watson * Synchronize use and modification of the registered netisr data structures; 102d4b5cae4SRobert Watson * acquire a read lock while modifying the set of registered protocols to 103d4b5cae4SRobert Watson * prevent partially registered or unregistered protocols from being run. 104d4b5cae4SRobert Watson * 105d4b5cae4SRobert Watson * The following data structures and fields are protected by this lock: 106d4b5cae4SRobert Watson * 107938448cdSRobert Watson * - The netisr_proto array, including all fields of struct netisr_proto. 108d4b5cae4SRobert Watson * - The nws array, including all fields of struct netisr_worker. 109d4b5cae4SRobert Watson * - The nws_array array. 110d4b5cae4SRobert Watson * 111d4b5cae4SRobert Watson * Note: the NETISR_LOCKING define controls whether read locks are acquired 112d4b5cae4SRobert Watson * in packet processing paths requiring netisr registration stability. This 1130a32e29fSRobert Watson * is disabled by default as it can lead to measurable performance 114d4b5cae4SRobert Watson * degradation even with rmlocks (3%-6% for loopback ping-pong traffic), and 115d4b5cae4SRobert Watson * because netisr registration and unregistration is extremely rare at 116d4b5cae4SRobert Watson * runtime. If it becomes more common, this decision should be revisited. 117d4b5cae4SRobert Watson * 118d4b5cae4SRobert Watson * XXXRW: rmlocks don't support assertions. 119d4b5cae4SRobert Watson */ 120d4b5cae4SRobert Watson static struct rmlock netisr_rmlock; 121d4b5cae4SRobert Watson #define NETISR_LOCK_INIT() rm_init_flags(&netisr_rmlock, "netisr", \ 122d4b5cae4SRobert Watson RM_NOWITNESS) 123d4b5cae4SRobert Watson #define NETISR_LOCK_ASSERT() 124d4b5cae4SRobert Watson #define NETISR_RLOCK(tracker) rm_rlock(&netisr_rmlock, (tracker)) 125d4b5cae4SRobert Watson #define NETISR_RUNLOCK(tracker) rm_runlock(&netisr_rmlock, (tracker)) 126d4b5cae4SRobert Watson #define NETISR_WLOCK() rm_wlock(&netisr_rmlock) 127d4b5cae4SRobert Watson #define NETISR_WUNLOCK() rm_wunlock(&netisr_rmlock) 128d4b5cae4SRobert Watson /* #define NETISR_LOCKING */ 129e3b6e33cSJake Burkholder 1306472ac3dSEd Schouten static SYSCTL_NODE(_net, OID_AUTO, isr, CTLFLAG_RW, 0, "netisr"); 1311cafed39SJonathan Lemon 132d4b5cae4SRobert Watson /*- 133f2d2d694SRobert Watson * Three global direct dispatch policies are supported: 134d4b5cae4SRobert Watson * 135da162ca8SSergey Kandaurov * NETISR_DISPATCH_DEFERRED: All work is deferred for a netisr, regardless of 136f2d2d694SRobert Watson * context (may be overriden by protocols). 137d4b5cae4SRobert Watson * 138f2d2d694SRobert Watson * NETISR_DISPATCH_HYBRID: If the executing context allows direct dispatch, 139f2d2d694SRobert Watson * and we're running on the CPU the work would be performed on, then direct 140f2d2d694SRobert Watson * dispatch it if it wouldn't violate ordering constraints on the workstream. 141d4b5cae4SRobert Watson * 142f2d2d694SRobert Watson * NETISR_DISPATCH_DIRECT: If the executing context allows direct dispatch, 143f2d2d694SRobert Watson * always direct dispatch. (The default.) 144d4b5cae4SRobert Watson * 145d4b5cae4SRobert Watson * Notice that changing the global policy could lead to short periods of 146d4b5cae4SRobert Watson * misordered processing, but this is considered acceptable as compared to 147f2d2d694SRobert Watson * the complexity of enforcing ordering during policy changes. Protocols can 148f2d2d694SRobert Watson * override the global policy (when they're not doing that, they select 149f2d2d694SRobert Watson * NETISR_DISPATCH_DEFAULT). 150d4b5cae4SRobert Watson */ 151f2d2d694SRobert Watson #define NETISR_DISPATCH_POLICY_DEFAULT NETISR_DISPATCH_DIRECT 152f2d2d694SRobert Watson #define NETISR_DISPATCH_POLICY_MAXSTR 20 /* Used for temporary buffers. */ 153f2d2d694SRobert Watson static u_int netisr_dispatch_policy = NETISR_DISPATCH_POLICY_DEFAULT; 154f2d2d694SRobert Watson static int sysctl_netisr_dispatch_policy(SYSCTL_HANDLER_ARGS); 155af3b2549SHans Petter Selasky SYSCTL_PROC(_net_isr, OID_AUTO, dispatch, CTLTYPE_STRING | CTLFLAG_RWTUN, 156af3b2549SHans Petter Selasky 0, 0, sysctl_netisr_dispatch_policy, "A", 157f2d2d694SRobert Watson "netisr dispatch policy"); 158e3b6e33cSJake Burkholder 159f2d2d694SRobert Watson /* 160d4b5cae4SRobert Watson * Allow the administrator to limit the number of threads (CPUs) to use for 161d4b5cae4SRobert Watson * netisr. We don't check netisr_maxthreads before creating the thread for 162a9467c3cSHiren Panchasara * CPU 0. This must be set at boot. We will create at most one thread per CPU. 163a9467c3cSHiren Panchasara * By default we initialize this to 1 which would assign just 1 cpu (cpu0) and 164a9467c3cSHiren Panchasara * therefore only 1 workstream. If set to -1, netisr would use all cpus 165a9467c3cSHiren Panchasara * (mp_ncpus) and therefore would have those many workstreams. One workstream 166a9467c3cSHiren Panchasara * per thread (CPU). 1675fd04e38SRobert Watson */ 168a9467c3cSHiren Panchasara static int netisr_maxthreads = 1; /* Max number of threads. */ 16978494902SPawel Jakub Dawidek SYSCTL_INT(_net_isr, OID_AUTO, maxthreads, CTLFLAG_RDTUN, 170d4b5cae4SRobert Watson &netisr_maxthreads, 0, 171d4b5cae4SRobert Watson "Use at most this many CPUs for netisr processing"); 1725fd04e38SRobert Watson 173d4b5cae4SRobert Watson static int netisr_bindthreads = 0; /* Bind threads to CPUs. */ 17478494902SPawel Jakub Dawidek SYSCTL_INT(_net_isr, OID_AUTO, bindthreads, CTLFLAG_RDTUN, 175d4b5cae4SRobert Watson &netisr_bindthreads, 0, "Bind netisr threads to CPUs."); 176d4b5cae4SRobert Watson 177d4b5cae4SRobert Watson /* 1780a32e29fSRobert Watson * Limit per-workstream mbuf queue limits s to at most net.isr.maxqlimit, 1790a32e29fSRobert Watson * both for initial configuration and later modification using 1800a32e29fSRobert Watson * netisr_setqlimit(). 181d4b5cae4SRobert Watson */ 182d4b5cae4SRobert Watson #define NETISR_DEFAULT_MAXQLIMIT 10240 183d4b5cae4SRobert Watson static u_int netisr_maxqlimit = NETISR_DEFAULT_MAXQLIMIT; 184f88910cdSMatthew D Fleming SYSCTL_UINT(_net_isr, OID_AUTO, maxqlimit, CTLFLAG_RDTUN, 185d4b5cae4SRobert Watson &netisr_maxqlimit, 0, 186d4b5cae4SRobert Watson "Maximum netisr per-protocol, per-CPU queue depth."); 187d4b5cae4SRobert Watson 188d4b5cae4SRobert Watson /* 1890a32e29fSRobert Watson * The default per-workstream mbuf queue limit for protocols that don't 1900a32e29fSRobert Watson * initialize the nh_qlimit field of their struct netisr_handler. If this is 1910a32e29fSRobert Watson * set above netisr_maxqlimit, we truncate it to the maximum during boot. 192d4b5cae4SRobert Watson */ 193d4b5cae4SRobert Watson #define NETISR_DEFAULT_DEFAULTQLIMIT 256 194d4b5cae4SRobert Watson static u_int netisr_defaultqlimit = NETISR_DEFAULT_DEFAULTQLIMIT; 195f88910cdSMatthew D Fleming SYSCTL_UINT(_net_isr, OID_AUTO, defaultqlimit, CTLFLAG_RDTUN, 196d4b5cae4SRobert Watson &netisr_defaultqlimit, 0, 197d4b5cae4SRobert Watson "Default netisr per-protocol, per-CPU queue limit if not set by protocol"); 198d4b5cae4SRobert Watson 199d4b5cae4SRobert Watson /* 200938448cdSRobert Watson * Store and export the compile-time constant NETISR_MAXPROT limit on the 201938448cdSRobert Watson * number of protocols that can register with netisr at a time. This is 202938448cdSRobert Watson * required for crashdump analysis, as it sizes netisr_proto[]. 203d4b5cae4SRobert Watson */ 204938448cdSRobert Watson static u_int netisr_maxprot = NETISR_MAXPROT; 205f88910cdSMatthew D Fleming SYSCTL_UINT(_net_isr, OID_AUTO, maxprot, CTLFLAG_RD, 206938448cdSRobert Watson &netisr_maxprot, 0, 207938448cdSRobert Watson "Compile-time limit on the number of protocols supported by netisr."); 208d4b5cae4SRobert Watson 209d4b5cae4SRobert Watson /* 210938448cdSRobert Watson * The netisr_proto array describes all registered protocols, indexed by 211938448cdSRobert Watson * protocol number. See netisr_internal.h for more details. 212d4b5cae4SRobert Watson */ 213938448cdSRobert Watson static struct netisr_proto netisr_proto[NETISR_MAXPROT]; 214d4b5cae4SRobert Watson 215484149deSBjoern A. Zeeb #ifdef VIMAGE 216484149deSBjoern A. Zeeb /* 217484149deSBjoern A. Zeeb * The netisr_enable array describes a per-VNET flag for registered 218484149deSBjoern A. Zeeb * protocols on whether this netisr is active in this VNET or not. 219484149deSBjoern A. Zeeb * netisr_register() will automatically enable the netisr for the 220484149deSBjoern A. Zeeb * default VNET and all currently active instances. 221484149deSBjoern A. Zeeb * netisr_unregister() will disable all active VNETs, including vnet0. 222484149deSBjoern A. Zeeb * Individual network stack instances can be enabled/disabled by the 223484149deSBjoern A. Zeeb * netisr_(un)register _vnet() functions. 224484149deSBjoern A. Zeeb * With this we keep the one netisr_proto per protocol but add a 225484149deSBjoern A. Zeeb * mechanism to stop netisr processing for vnet teardown. 226484149deSBjoern A. Zeeb * Apart from that we expect a VNET to always be enabled. 227484149deSBjoern A. Zeeb */ 228484149deSBjoern A. Zeeb static VNET_DEFINE(u_int, netisr_enable[NETISR_MAXPROT]); 229484149deSBjoern A. Zeeb #define V_netisr_enable VNET(netisr_enable) 230484149deSBjoern A. Zeeb #endif 231484149deSBjoern A. Zeeb 232d4b5cae4SRobert Watson /* 233938448cdSRobert Watson * Per-CPU workstream data. See netisr_internal.h for more details. 234d4b5cae4SRobert Watson */ 23553402767SRobert Watson DPCPU_DEFINE(struct netisr_workstream, nws); 236d4b5cae4SRobert Watson 237d4b5cae4SRobert Watson /* 238d4b5cae4SRobert Watson * Map contiguous values between 0 and nws_count into CPU IDs appropriate for 23953402767SRobert Watson * accessing workstreams. This allows constructions of the form 24053402767SRobert Watson * DPCPU_ID_GET(nws_array[arbitraryvalue % nws_count], nws). 241d4b5cae4SRobert Watson */ 242d4b5cae4SRobert Watson static u_int nws_array[MAXCPU]; 243d4b5cae4SRobert Watson 244d4b5cae4SRobert Watson /* 245d4b5cae4SRobert Watson * Number of registered workstreams. Will be at most the number of running 246d4b5cae4SRobert Watson * CPUs once fully started. 247d4b5cae4SRobert Watson */ 248d4b5cae4SRobert Watson static u_int nws_count; 249f88910cdSMatthew D Fleming SYSCTL_UINT(_net_isr, OID_AUTO, numthreads, CTLFLAG_RD, 250d4b5cae4SRobert Watson &nws_count, 0, "Number of extant netisr threads."); 251d4b5cae4SRobert Watson 252d4b5cae4SRobert Watson /* 253d4b5cae4SRobert Watson * Synchronization for each workstream: a mutex protects all mutable fields 254d4b5cae4SRobert Watson * in each stream, including per-protocol state (mbuf queues). The SWI is 255d4b5cae4SRobert Watson * woken up if asynchronous dispatch is required. 256d4b5cae4SRobert Watson */ 257d4b5cae4SRobert Watson #define NWS_LOCK(s) mtx_lock(&(s)->nws_mtx) 258d4b5cae4SRobert Watson #define NWS_LOCK_ASSERT(s) mtx_assert(&(s)->nws_mtx, MA_OWNED) 259d4b5cae4SRobert Watson #define NWS_UNLOCK(s) mtx_unlock(&(s)->nws_mtx) 260d4b5cae4SRobert Watson #define NWS_SIGNAL(s) swi_sched((s)->nws_swi_cookie, 0) 261d4b5cae4SRobert Watson 262d4b5cae4SRobert Watson /* 263d4b5cae4SRobert Watson * Utility routines for protocols that implement their own mapping of flows 264d4b5cae4SRobert Watson * to CPUs. 265d4b5cae4SRobert Watson */ 266d4b5cae4SRobert Watson u_int 267d4b5cae4SRobert Watson netisr_get_cpucount(void) 268d4b5cae4SRobert Watson { 269d4b5cae4SRobert Watson 270d4b5cae4SRobert Watson return (nws_count); 2715fd04e38SRobert Watson } 272d4b5cae4SRobert Watson 273d4b5cae4SRobert Watson u_int 274d4b5cae4SRobert Watson netisr_get_cpuid(u_int cpunumber) 275d4b5cae4SRobert Watson { 276d4b5cae4SRobert Watson 277fdf95c0bSAndrey V. Elsukov return (nws_array[cpunumber % nws_count]); 2785fd04e38SRobert Watson } 2795fd04e38SRobert Watson 2805fd04e38SRobert Watson /* 2810a32e29fSRobert Watson * The default implementation of flow -> CPU ID mapping. 282d4b5cae4SRobert Watson * 283d4b5cae4SRobert Watson * Non-static so that protocols can use it to map their own work to specific 284d4b5cae4SRobert Watson * CPUs in a manner consistent to netisr for affinity purposes. 285d4b5cae4SRobert Watson */ 286d4b5cae4SRobert Watson u_int 287d4b5cae4SRobert Watson netisr_default_flow2cpu(u_int flowid) 288d4b5cae4SRobert Watson { 289d4b5cae4SRobert Watson 290d4b5cae4SRobert Watson return (nws_array[flowid % nws_count]); 291d4b5cae4SRobert Watson } 292d4b5cae4SRobert Watson 293d4b5cae4SRobert Watson /* 294f2d2d694SRobert Watson * Dispatch tunable and sysctl configuration. 295f2d2d694SRobert Watson */ 296f2d2d694SRobert Watson struct netisr_dispatch_table_entry { 297f2d2d694SRobert Watson u_int ndte_policy; 298f2d2d694SRobert Watson const char *ndte_policy_str; 299f2d2d694SRobert Watson }; 300f2d2d694SRobert Watson static const struct netisr_dispatch_table_entry netisr_dispatch_table[] = { 301f2d2d694SRobert Watson { NETISR_DISPATCH_DEFAULT, "default" }, 302f2d2d694SRobert Watson { NETISR_DISPATCH_DEFERRED, "deferred" }, 303f2d2d694SRobert Watson { NETISR_DISPATCH_HYBRID, "hybrid" }, 304f2d2d694SRobert Watson { NETISR_DISPATCH_DIRECT, "direct" }, 305f2d2d694SRobert Watson }; 306f2d2d694SRobert Watson 307f2d2d694SRobert Watson static void 308f2d2d694SRobert Watson netisr_dispatch_policy_to_str(u_int dispatch_policy, char *buffer, 309f2d2d694SRobert Watson u_int buflen) 310f2d2d694SRobert Watson { 311f2d2d694SRobert Watson const struct netisr_dispatch_table_entry *ndtep; 312f2d2d694SRobert Watson const char *str; 313f2d2d694SRobert Watson u_int i; 314f2d2d694SRobert Watson 315f2d2d694SRobert Watson str = "unknown"; 3168dfea464SPedro F. Giffuni for (i = 0; i < nitems(netisr_dispatch_table); i++) { 317f2d2d694SRobert Watson ndtep = &netisr_dispatch_table[i]; 318f2d2d694SRobert Watson if (ndtep->ndte_policy == dispatch_policy) { 319f2d2d694SRobert Watson str = ndtep->ndte_policy_str; 320f2d2d694SRobert Watson break; 321f2d2d694SRobert Watson } 322f2d2d694SRobert Watson } 323f2d2d694SRobert Watson snprintf(buffer, buflen, "%s", str); 324f2d2d694SRobert Watson } 325f2d2d694SRobert Watson 326f2d2d694SRobert Watson static int 327f2d2d694SRobert Watson netisr_dispatch_policy_from_str(const char *str, u_int *dispatch_policyp) 328f2d2d694SRobert Watson { 329f2d2d694SRobert Watson const struct netisr_dispatch_table_entry *ndtep; 330f2d2d694SRobert Watson u_int i; 331f2d2d694SRobert Watson 3328dfea464SPedro F. Giffuni for (i = 0; i < nitems(netisr_dispatch_table); i++) { 333f2d2d694SRobert Watson ndtep = &netisr_dispatch_table[i]; 334f2d2d694SRobert Watson if (strcmp(ndtep->ndte_policy_str, str) == 0) { 335f2d2d694SRobert Watson *dispatch_policyp = ndtep->ndte_policy; 336f2d2d694SRobert Watson return (0); 337f2d2d694SRobert Watson } 338f2d2d694SRobert Watson } 339f2d2d694SRobert Watson return (EINVAL); 340f2d2d694SRobert Watson } 341f2d2d694SRobert Watson 342f2d2d694SRobert Watson static int 343f2d2d694SRobert Watson sysctl_netisr_dispatch_policy(SYSCTL_HANDLER_ARGS) 344f2d2d694SRobert Watson { 345f2d2d694SRobert Watson char tmp[NETISR_DISPATCH_POLICY_MAXSTR]; 346f2d2d694SRobert Watson u_int dispatch_policy; 347f2d2d694SRobert Watson int error; 348f2d2d694SRobert Watson 349f2d2d694SRobert Watson netisr_dispatch_policy_to_str(netisr_dispatch_policy, tmp, 350f2d2d694SRobert Watson sizeof(tmp)); 351f2d2d694SRobert Watson error = sysctl_handle_string(oidp, tmp, sizeof(tmp), req); 352f2d2d694SRobert Watson if (error == 0 && req->newptr != NULL) { 353f2d2d694SRobert Watson error = netisr_dispatch_policy_from_str(tmp, 354f2d2d694SRobert Watson &dispatch_policy); 355f2d2d694SRobert Watson if (error == 0 && dispatch_policy == NETISR_DISPATCH_DEFAULT) 356f2d2d694SRobert Watson error = EINVAL; 357933e681dSDavide Italiano if (error == 0) 358f2d2d694SRobert Watson netisr_dispatch_policy = dispatch_policy; 359f2d2d694SRobert Watson } 360f2d2d694SRobert Watson return (error); 361f2d2d694SRobert Watson } 362f2d2d694SRobert Watson 363f2d2d694SRobert Watson /* 364d4b5cae4SRobert Watson * Register a new netisr handler, which requires initializing per-protocol 365d4b5cae4SRobert Watson * fields for each workstream. All netisr work is briefly suspended while 366d4b5cae4SRobert Watson * the protocol is installed. 3671cafed39SJonathan Lemon */ 3681cafed39SJonathan Lemon void 369d4b5cae4SRobert Watson netisr_register(const struct netisr_handler *nhp) 3701cafed39SJonathan Lemon { 371484149deSBjoern A. Zeeb VNET_ITERATOR_DECL(vnet_iter); 372d4b5cae4SRobert Watson struct netisr_work *npwp; 373d4b5cae4SRobert Watson const char *name; 374d4b5cae4SRobert Watson u_int i, proto; 3751cafed39SJonathan Lemon 376d4b5cae4SRobert Watson proto = nhp->nh_proto; 377d4b5cae4SRobert Watson name = nhp->nh_name; 37859dd72d0SRobert Watson 3797902224cSSam Leffler /* 380d4b5cae4SRobert Watson * Test that the requested registration is valid. 3817902224cSSam Leffler */ 382d4b5cae4SRobert Watson KASSERT(nhp->nh_name != NULL, 383d4b5cae4SRobert Watson ("%s: nh_name NULL for %u", __func__, proto)); 384d4b5cae4SRobert Watson KASSERT(nhp->nh_handler != NULL, 385d4b5cae4SRobert Watson ("%s: nh_handler NULL for %s", __func__, name)); 386d4b5cae4SRobert Watson KASSERT(nhp->nh_policy == NETISR_POLICY_SOURCE || 387d4b5cae4SRobert Watson nhp->nh_policy == NETISR_POLICY_FLOW || 388d4b5cae4SRobert Watson nhp->nh_policy == NETISR_POLICY_CPU, 389d4b5cae4SRobert Watson ("%s: unsupported nh_policy %u for %s", __func__, 390d4b5cae4SRobert Watson nhp->nh_policy, name)); 391d4b5cae4SRobert Watson KASSERT(nhp->nh_policy == NETISR_POLICY_FLOW || 392d4b5cae4SRobert Watson nhp->nh_m2flow == NULL, 393d4b5cae4SRobert Watson ("%s: nh_policy != FLOW but m2flow defined for %s", __func__, 394d4b5cae4SRobert Watson name)); 395d4b5cae4SRobert Watson KASSERT(nhp->nh_policy == NETISR_POLICY_CPU || nhp->nh_m2cpuid == NULL, 396d4b5cae4SRobert Watson ("%s: nh_policy != CPU but m2cpuid defined for %s", __func__, 397d4b5cae4SRobert Watson name)); 398d4b5cae4SRobert Watson KASSERT(nhp->nh_policy != NETISR_POLICY_CPU || nhp->nh_m2cpuid != NULL, 399d4b5cae4SRobert Watson ("%s: nh_policy == CPU but m2cpuid not defined for %s", __func__, 400d4b5cae4SRobert Watson name)); 401f2d2d694SRobert Watson KASSERT(nhp->nh_dispatch == NETISR_DISPATCH_DEFAULT || 402f2d2d694SRobert Watson nhp->nh_dispatch == NETISR_DISPATCH_DEFERRED || 403f2d2d694SRobert Watson nhp->nh_dispatch == NETISR_DISPATCH_HYBRID || 404f2d2d694SRobert Watson nhp->nh_dispatch == NETISR_DISPATCH_DIRECT, 405f2d2d694SRobert Watson ("%s: invalid nh_dispatch (%u)", __func__, nhp->nh_dispatch)); 406f2d2d694SRobert Watson 407d4b5cae4SRobert Watson KASSERT(proto < NETISR_MAXPROT, 408d4b5cae4SRobert Watson ("%s(%u, %s): protocol too big", __func__, proto, name)); 409d4b5cae4SRobert Watson 410d4b5cae4SRobert Watson /* 411d4b5cae4SRobert Watson * Test that no existing registration exists for this protocol. 412d4b5cae4SRobert Watson */ 413d4b5cae4SRobert Watson NETISR_WLOCK(); 414938448cdSRobert Watson KASSERT(netisr_proto[proto].np_name == NULL, 415d4b5cae4SRobert Watson ("%s(%u, %s): name present", __func__, proto, name)); 416938448cdSRobert Watson KASSERT(netisr_proto[proto].np_handler == NULL, 417d4b5cae4SRobert Watson ("%s(%u, %s): handler present", __func__, proto, name)); 418d4b5cae4SRobert Watson 419938448cdSRobert Watson netisr_proto[proto].np_name = name; 420938448cdSRobert Watson netisr_proto[proto].np_handler = nhp->nh_handler; 421938448cdSRobert Watson netisr_proto[proto].np_m2flow = nhp->nh_m2flow; 422938448cdSRobert Watson netisr_proto[proto].np_m2cpuid = nhp->nh_m2cpuid; 423938448cdSRobert Watson netisr_proto[proto].np_drainedcpu = nhp->nh_drainedcpu; 424d4b5cae4SRobert Watson if (nhp->nh_qlimit == 0) 425938448cdSRobert Watson netisr_proto[proto].np_qlimit = netisr_defaultqlimit; 426d4b5cae4SRobert Watson else if (nhp->nh_qlimit > netisr_maxqlimit) { 427d4b5cae4SRobert Watson printf("%s: %s requested queue limit %u capped to " 428d4b5cae4SRobert Watson "net.isr.maxqlimit %u\n", __func__, name, nhp->nh_qlimit, 429d4b5cae4SRobert Watson netisr_maxqlimit); 430938448cdSRobert Watson netisr_proto[proto].np_qlimit = netisr_maxqlimit; 431d4b5cae4SRobert Watson } else 432938448cdSRobert Watson netisr_proto[proto].np_qlimit = nhp->nh_qlimit; 433938448cdSRobert Watson netisr_proto[proto].np_policy = nhp->nh_policy; 434f2d2d694SRobert Watson netisr_proto[proto].np_dispatch = nhp->nh_dispatch; 4353aa6d94eSJohn Baldwin CPU_FOREACH(i) { 43653402767SRobert Watson npwp = &(DPCPU_ID_PTR(i, nws))->nws_work[proto]; 437d4b5cae4SRobert Watson bzero(npwp, sizeof(*npwp)); 438938448cdSRobert Watson npwp->nw_qlimit = netisr_proto[proto].np_qlimit; 4391cafed39SJonathan Lemon } 440484149deSBjoern A. Zeeb 441484149deSBjoern A. Zeeb #ifdef VIMAGE 442484149deSBjoern A. Zeeb /* 443484149deSBjoern A. Zeeb * Test that we are in vnet0 and have a curvnet set. 444484149deSBjoern A. Zeeb */ 445484149deSBjoern A. Zeeb KASSERT(curvnet != NULL, ("%s: curvnet is NULL", __func__)); 446484149deSBjoern A. Zeeb KASSERT(IS_DEFAULT_VNET(curvnet), ("%s: curvnet %p is not vnet0 %p", 447484149deSBjoern A. Zeeb __func__, curvnet, vnet0)); 448484149deSBjoern A. Zeeb VNET_LIST_RLOCK_NOSLEEP(); 449484149deSBjoern A. Zeeb VNET_FOREACH(vnet_iter) { 450484149deSBjoern A. Zeeb CURVNET_SET(vnet_iter); 451484149deSBjoern A. Zeeb V_netisr_enable[proto] = 1; 452484149deSBjoern A. Zeeb CURVNET_RESTORE(); 453484149deSBjoern A. Zeeb } 454484149deSBjoern A. Zeeb VNET_LIST_RUNLOCK_NOSLEEP(); 455484149deSBjoern A. Zeeb #endif 456d4b5cae4SRobert Watson NETISR_WUNLOCK(); 4571cafed39SJonathan Lemon } 4581cafed39SJonathan Lemon 4591cafed39SJonathan Lemon /* 460d4b5cae4SRobert Watson * Clear drop counters across all workstreams for a protocol. 461d4b5cae4SRobert Watson */ 462d4b5cae4SRobert Watson void 463d4b5cae4SRobert Watson netisr_clearqdrops(const struct netisr_handler *nhp) 464d4b5cae4SRobert Watson { 465d4b5cae4SRobert Watson struct netisr_work *npwp; 466d4b5cae4SRobert Watson #ifdef INVARIANTS 467d4b5cae4SRobert Watson const char *name; 468d4b5cae4SRobert Watson #endif 469d4b5cae4SRobert Watson u_int i, proto; 470d4b5cae4SRobert Watson 471d4b5cae4SRobert Watson proto = nhp->nh_proto; 472d4b5cae4SRobert Watson #ifdef INVARIANTS 473d4b5cae4SRobert Watson name = nhp->nh_name; 474d4b5cae4SRobert Watson #endif 475d4b5cae4SRobert Watson KASSERT(proto < NETISR_MAXPROT, 476d4b5cae4SRobert Watson ("%s(%u): protocol too big for %s", __func__, proto, name)); 477d4b5cae4SRobert Watson 478d4b5cae4SRobert Watson NETISR_WLOCK(); 479938448cdSRobert Watson KASSERT(netisr_proto[proto].np_handler != NULL, 480d4b5cae4SRobert Watson ("%s(%u): protocol not registered for %s", __func__, proto, 481d4b5cae4SRobert Watson name)); 482d4b5cae4SRobert Watson 4833aa6d94eSJohn Baldwin CPU_FOREACH(i) { 48453402767SRobert Watson npwp = &(DPCPU_ID_PTR(i, nws))->nws_work[proto]; 485d4b5cae4SRobert Watson npwp->nw_qdrops = 0; 486d4b5cae4SRobert Watson } 487d4b5cae4SRobert Watson NETISR_WUNLOCK(); 488d4b5cae4SRobert Watson } 489d4b5cae4SRobert Watson 490d4b5cae4SRobert Watson /* 4910a32e29fSRobert Watson * Query current drop counters across all workstreams for a protocol. 492d4b5cae4SRobert Watson */ 493d4b5cae4SRobert Watson void 494d4b5cae4SRobert Watson netisr_getqdrops(const struct netisr_handler *nhp, u_int64_t *qdropp) 495d4b5cae4SRobert Watson { 496d4b5cae4SRobert Watson struct netisr_work *npwp; 497d4b5cae4SRobert Watson struct rm_priotracker tracker; 498d4b5cae4SRobert Watson #ifdef INVARIANTS 499d4b5cae4SRobert Watson const char *name; 500d4b5cae4SRobert Watson #endif 501d4b5cae4SRobert Watson u_int i, proto; 502d4b5cae4SRobert Watson 503d4b5cae4SRobert Watson *qdropp = 0; 504d4b5cae4SRobert Watson proto = nhp->nh_proto; 505d4b5cae4SRobert Watson #ifdef INVARIANTS 506d4b5cae4SRobert Watson name = nhp->nh_name; 507d4b5cae4SRobert Watson #endif 508d4b5cae4SRobert Watson KASSERT(proto < NETISR_MAXPROT, 509d4b5cae4SRobert Watson ("%s(%u): protocol too big for %s", __func__, proto, name)); 510d4b5cae4SRobert Watson 511d4b5cae4SRobert Watson NETISR_RLOCK(&tracker); 512938448cdSRobert Watson KASSERT(netisr_proto[proto].np_handler != NULL, 513d4b5cae4SRobert Watson ("%s(%u): protocol not registered for %s", __func__, proto, 514d4b5cae4SRobert Watson name)); 515d4b5cae4SRobert Watson 5163aa6d94eSJohn Baldwin CPU_FOREACH(i) { 51753402767SRobert Watson npwp = &(DPCPU_ID_PTR(i, nws))->nws_work[proto]; 518d4b5cae4SRobert Watson *qdropp += npwp->nw_qdrops; 519d4b5cae4SRobert Watson } 520d4b5cae4SRobert Watson NETISR_RUNLOCK(&tracker); 521d4b5cae4SRobert Watson } 522d4b5cae4SRobert Watson 523d4b5cae4SRobert Watson /* 5240a32e29fSRobert Watson * Query current per-workstream queue limit for a protocol. 525d4b5cae4SRobert Watson */ 526d4b5cae4SRobert Watson void 527d4b5cae4SRobert Watson netisr_getqlimit(const struct netisr_handler *nhp, u_int *qlimitp) 528d4b5cae4SRobert Watson { 529d4b5cae4SRobert Watson struct rm_priotracker tracker; 530d4b5cae4SRobert Watson #ifdef INVARIANTS 531d4b5cae4SRobert Watson const char *name; 532d4b5cae4SRobert Watson #endif 533d4b5cae4SRobert Watson u_int proto; 534d4b5cae4SRobert Watson 535d4b5cae4SRobert Watson proto = nhp->nh_proto; 536d4b5cae4SRobert Watson #ifdef INVARIANTS 537d4b5cae4SRobert Watson name = nhp->nh_name; 538d4b5cae4SRobert Watson #endif 539d4b5cae4SRobert Watson KASSERT(proto < NETISR_MAXPROT, 540d4b5cae4SRobert Watson ("%s(%u): protocol too big for %s", __func__, proto, name)); 541d4b5cae4SRobert Watson 542d4b5cae4SRobert Watson NETISR_RLOCK(&tracker); 543938448cdSRobert Watson KASSERT(netisr_proto[proto].np_handler != NULL, 544d4b5cae4SRobert Watson ("%s(%u): protocol not registered for %s", __func__, proto, 545d4b5cae4SRobert Watson name)); 546938448cdSRobert Watson *qlimitp = netisr_proto[proto].np_qlimit; 547d4b5cae4SRobert Watson NETISR_RUNLOCK(&tracker); 548d4b5cae4SRobert Watson } 549d4b5cae4SRobert Watson 550d4b5cae4SRobert Watson /* 551d4b5cae4SRobert Watson * Update the queue limit across per-workstream queues for a protocol. We 552d4b5cae4SRobert Watson * simply change the limits, and don't drain overflowed packets as they will 553d4b5cae4SRobert Watson * (hopefully) take care of themselves shortly. 5541cafed39SJonathan Lemon */ 5551cafed39SJonathan Lemon int 556d4b5cae4SRobert Watson netisr_setqlimit(const struct netisr_handler *nhp, u_int qlimit) 5571cafed39SJonathan Lemon { 558d4b5cae4SRobert Watson struct netisr_work *npwp; 559d4b5cae4SRobert Watson #ifdef INVARIANTS 560d4b5cae4SRobert Watson const char *name; 561d4b5cae4SRobert Watson #endif 562d4b5cae4SRobert Watson u_int i, proto; 5631cafed39SJonathan Lemon 564d4b5cae4SRobert Watson if (qlimit > netisr_maxqlimit) 565d4b5cae4SRobert Watson return (EINVAL); 566d4b5cae4SRobert Watson 567d4b5cae4SRobert Watson proto = nhp->nh_proto; 568d4b5cae4SRobert Watson #ifdef INVARIANTS 569d4b5cae4SRobert Watson name = nhp->nh_name; 570d4b5cae4SRobert Watson #endif 571d4b5cae4SRobert Watson KASSERT(proto < NETISR_MAXPROT, 572d4b5cae4SRobert Watson ("%s(%u): protocol too big for %s", __func__, proto, name)); 573d4b5cae4SRobert Watson 574d4b5cae4SRobert Watson NETISR_WLOCK(); 575938448cdSRobert Watson KASSERT(netisr_proto[proto].np_handler != NULL, 576d4b5cae4SRobert Watson ("%s(%u): protocol not registered for %s", __func__, proto, 577d4b5cae4SRobert Watson name)); 578d4b5cae4SRobert Watson 579938448cdSRobert Watson netisr_proto[proto].np_qlimit = qlimit; 5803aa6d94eSJohn Baldwin CPU_FOREACH(i) { 58153402767SRobert Watson npwp = &(DPCPU_ID_PTR(i, nws))->nws_work[proto]; 582d4b5cae4SRobert Watson npwp->nw_qlimit = qlimit; 583fb68148fSJonathan Lemon } 584d4b5cae4SRobert Watson NETISR_WUNLOCK(); 5853161f583SAndre Oppermann return (0); 586e3b6e33cSJake Burkholder } 587e3b6e33cSJake Burkholder 588d4b5cae4SRobert Watson /* 589d4b5cae4SRobert Watson * Drain all packets currently held in a particular protocol work queue. 590d4b5cae4SRobert Watson */ 591e3b6e33cSJake Burkholder static void 592d4b5cae4SRobert Watson netisr_drain_proto(struct netisr_work *npwp) 593e3b6e33cSJake Burkholder { 594d4b5cae4SRobert Watson struct mbuf *m; 595d4b5cae4SRobert Watson 596d4b5cae4SRobert Watson /* 597d4b5cae4SRobert Watson * We would assert the lock on the workstream but it's not passed in. 598d4b5cae4SRobert Watson */ 599d4b5cae4SRobert Watson while ((m = npwp->nw_head) != NULL) { 600d4b5cae4SRobert Watson npwp->nw_head = m->m_nextpkt; 601d4b5cae4SRobert Watson m->m_nextpkt = NULL; 602d4b5cae4SRobert Watson if (npwp->nw_head == NULL) 603d4b5cae4SRobert Watson npwp->nw_tail = NULL; 604d4b5cae4SRobert Watson npwp->nw_len--; 605d4b5cae4SRobert Watson m_freem(m); 606d4b5cae4SRobert Watson } 607d4b5cae4SRobert Watson KASSERT(npwp->nw_tail == NULL, ("%s: tail", __func__)); 608d4b5cae4SRobert Watson KASSERT(npwp->nw_len == 0, ("%s: len", __func__)); 609d4b5cae4SRobert Watson } 610d4b5cae4SRobert Watson 611d4b5cae4SRobert Watson /* 612d4b5cae4SRobert Watson * Remove the registration of a network protocol, which requires clearing 613d4b5cae4SRobert Watson * per-protocol fields across all workstreams, including freeing all mbufs in 614d4b5cae4SRobert Watson * the queues at time of unregister. All work in netisr is briefly suspended 615d4b5cae4SRobert Watson * while this takes place. 616d4b5cae4SRobert Watson */ 617d4b5cae4SRobert Watson void 618d4b5cae4SRobert Watson netisr_unregister(const struct netisr_handler *nhp) 619d4b5cae4SRobert Watson { 620484149deSBjoern A. Zeeb VNET_ITERATOR_DECL(vnet_iter); 621d4b5cae4SRobert Watson struct netisr_work *npwp; 622d4b5cae4SRobert Watson #ifdef INVARIANTS 623d4b5cae4SRobert Watson const char *name; 624d4b5cae4SRobert Watson #endif 625d4b5cae4SRobert Watson u_int i, proto; 626d4b5cae4SRobert Watson 627d4b5cae4SRobert Watson proto = nhp->nh_proto; 628d4b5cae4SRobert Watson #ifdef INVARIANTS 629d4b5cae4SRobert Watson name = nhp->nh_name; 630d4b5cae4SRobert Watson #endif 631d4b5cae4SRobert Watson KASSERT(proto < NETISR_MAXPROT, 632d4b5cae4SRobert Watson ("%s(%u): protocol too big for %s", __func__, proto, name)); 633d4b5cae4SRobert Watson 634d4b5cae4SRobert Watson NETISR_WLOCK(); 635938448cdSRobert Watson KASSERT(netisr_proto[proto].np_handler != NULL, 636d4b5cae4SRobert Watson ("%s(%u): protocol not registered for %s", __func__, proto, 637d4b5cae4SRobert Watson name)); 638d4b5cae4SRobert Watson 639484149deSBjoern A. Zeeb #ifdef VIMAGE 640484149deSBjoern A. Zeeb VNET_LIST_RLOCK_NOSLEEP(); 641484149deSBjoern A. Zeeb VNET_FOREACH(vnet_iter) { 642484149deSBjoern A. Zeeb CURVNET_SET(vnet_iter); 643484149deSBjoern A. Zeeb V_netisr_enable[proto] = 0; 644484149deSBjoern A. Zeeb CURVNET_RESTORE(); 645484149deSBjoern A. Zeeb } 646484149deSBjoern A. Zeeb VNET_LIST_RUNLOCK_NOSLEEP(); 647484149deSBjoern A. Zeeb #endif 648484149deSBjoern A. Zeeb 649938448cdSRobert Watson netisr_proto[proto].np_name = NULL; 650938448cdSRobert Watson netisr_proto[proto].np_handler = NULL; 651938448cdSRobert Watson netisr_proto[proto].np_m2flow = NULL; 652938448cdSRobert Watson netisr_proto[proto].np_m2cpuid = NULL; 653938448cdSRobert Watson netisr_proto[proto].np_qlimit = 0; 654938448cdSRobert Watson netisr_proto[proto].np_policy = 0; 6553aa6d94eSJohn Baldwin CPU_FOREACH(i) { 65653402767SRobert Watson npwp = &(DPCPU_ID_PTR(i, nws))->nws_work[proto]; 657d4b5cae4SRobert Watson netisr_drain_proto(npwp); 658d4b5cae4SRobert Watson bzero(npwp, sizeof(*npwp)); 659d4b5cae4SRobert Watson } 660d4b5cae4SRobert Watson NETISR_WUNLOCK(); 661d4b5cae4SRobert Watson } 662d4b5cae4SRobert Watson 663484149deSBjoern A. Zeeb #ifdef VIMAGE 664484149deSBjoern A. Zeeb void 665484149deSBjoern A. Zeeb netisr_register_vnet(const struct netisr_handler *nhp) 666484149deSBjoern A. Zeeb { 667484149deSBjoern A. Zeeb u_int proto; 668484149deSBjoern A. Zeeb 669484149deSBjoern A. Zeeb proto = nhp->nh_proto; 670484149deSBjoern A. Zeeb 671484149deSBjoern A. Zeeb KASSERT(curvnet != NULL, ("%s: curvnet is NULL", __func__)); 672484149deSBjoern A. Zeeb KASSERT(proto < NETISR_MAXPROT, 673484149deSBjoern A. Zeeb ("%s(%u): protocol too big for %s", __func__, proto, nhp->nh_name)); 674484149deSBjoern A. Zeeb NETISR_WLOCK(); 675484149deSBjoern A. Zeeb KASSERT(netisr_proto[proto].np_handler != NULL, 676484149deSBjoern A. Zeeb ("%s(%u): protocol not registered for %s", __func__, proto, 677484149deSBjoern A. Zeeb nhp->nh_name)); 678484149deSBjoern A. Zeeb 679484149deSBjoern A. Zeeb V_netisr_enable[proto] = 1; 680484149deSBjoern A. Zeeb NETISR_WUNLOCK(); 681484149deSBjoern A. Zeeb } 682484149deSBjoern A. Zeeb 683484149deSBjoern A. Zeeb static void 684484149deSBjoern A. Zeeb netisr_drain_proto_vnet(struct vnet *vnet, u_int proto) 685484149deSBjoern A. Zeeb { 686484149deSBjoern A. Zeeb struct netisr_workstream *nwsp; 687484149deSBjoern A. Zeeb struct netisr_work *npwp; 688484149deSBjoern A. Zeeb struct mbuf *m, *mp, *n, *ne; 689484149deSBjoern A. Zeeb u_int i; 690484149deSBjoern A. Zeeb 691484149deSBjoern A. Zeeb KASSERT(vnet != NULL, ("%s: vnet is NULL", __func__)); 692484149deSBjoern A. Zeeb NETISR_LOCK_ASSERT(); 693484149deSBjoern A. Zeeb 694484149deSBjoern A. Zeeb CPU_FOREACH(i) { 695484149deSBjoern A. Zeeb nwsp = DPCPU_ID_PTR(i, nws); 696484149deSBjoern A. Zeeb if (nwsp->nws_intr_event == NULL) 697484149deSBjoern A. Zeeb continue; 698484149deSBjoern A. Zeeb npwp = &nwsp->nws_work[proto]; 699484149deSBjoern A. Zeeb NWS_LOCK(nwsp); 700484149deSBjoern A. Zeeb 701484149deSBjoern A. Zeeb /* 702484149deSBjoern A. Zeeb * Rather than dissecting and removing mbufs from the middle 703484149deSBjoern A. Zeeb * of the chain, we build a new chain if the packet stays and 704484149deSBjoern A. Zeeb * update the head and tail pointers at the end. All packets 705484149deSBjoern A. Zeeb * matching the given vnet are freed. 706484149deSBjoern A. Zeeb */ 707484149deSBjoern A. Zeeb m = npwp->nw_head; 708484149deSBjoern A. Zeeb n = ne = NULL; 709484149deSBjoern A. Zeeb while (m != NULL) { 710484149deSBjoern A. Zeeb mp = m; 711484149deSBjoern A. Zeeb m = m->m_nextpkt; 712484149deSBjoern A. Zeeb mp->m_nextpkt = NULL; 713484149deSBjoern A. Zeeb if (mp->m_pkthdr.rcvif->if_vnet != vnet) { 714484149deSBjoern A. Zeeb if (n == NULL) { 715484149deSBjoern A. Zeeb n = ne = mp; 716484149deSBjoern A. Zeeb } else { 717484149deSBjoern A. Zeeb ne->m_nextpkt = mp; 718484149deSBjoern A. Zeeb ne = mp; 719484149deSBjoern A. Zeeb } 720484149deSBjoern A. Zeeb continue; 721484149deSBjoern A. Zeeb } 722484149deSBjoern A. Zeeb /* This is a packet in the selected vnet. Free it. */ 723484149deSBjoern A. Zeeb npwp->nw_len--; 724484149deSBjoern A. Zeeb m_freem(mp); 725484149deSBjoern A. Zeeb } 726484149deSBjoern A. Zeeb npwp->nw_head = n; 727484149deSBjoern A. Zeeb npwp->nw_tail = ne; 728484149deSBjoern A. Zeeb NWS_UNLOCK(nwsp); 729484149deSBjoern A. Zeeb } 730484149deSBjoern A. Zeeb } 731484149deSBjoern A. Zeeb 732484149deSBjoern A. Zeeb void 733484149deSBjoern A. Zeeb netisr_unregister_vnet(const struct netisr_handler *nhp) 734484149deSBjoern A. Zeeb { 735484149deSBjoern A. Zeeb u_int proto; 736484149deSBjoern A. Zeeb 737484149deSBjoern A. Zeeb proto = nhp->nh_proto; 738484149deSBjoern A. Zeeb 739484149deSBjoern A. Zeeb KASSERT(curvnet != NULL, ("%s: curvnet is NULL", __func__)); 740484149deSBjoern A. Zeeb KASSERT(proto < NETISR_MAXPROT, 741484149deSBjoern A. Zeeb ("%s(%u): protocol too big for %s", __func__, proto, nhp->nh_name)); 742484149deSBjoern A. Zeeb NETISR_WLOCK(); 743484149deSBjoern A. Zeeb KASSERT(netisr_proto[proto].np_handler != NULL, 744484149deSBjoern A. Zeeb ("%s(%u): protocol not registered for %s", __func__, proto, 745484149deSBjoern A. Zeeb nhp->nh_name)); 746484149deSBjoern A. Zeeb 747484149deSBjoern A. Zeeb V_netisr_enable[proto] = 0; 748484149deSBjoern A. Zeeb 749484149deSBjoern A. Zeeb netisr_drain_proto_vnet(curvnet, proto); 750484149deSBjoern A. Zeeb NETISR_WUNLOCK(); 751484149deSBjoern A. Zeeb } 752484149deSBjoern A. Zeeb #endif 753484149deSBjoern A. Zeeb 754d4b5cae4SRobert Watson /* 755f2d2d694SRobert Watson * Compose the global and per-protocol policies on dispatch, and return the 756f2d2d694SRobert Watson * dispatch policy to use. 757f2d2d694SRobert Watson */ 758f2d2d694SRobert Watson static u_int 759f2d2d694SRobert Watson netisr_get_dispatch(struct netisr_proto *npp) 760f2d2d694SRobert Watson { 761f2d2d694SRobert Watson 762f2d2d694SRobert Watson /* 763f2d2d694SRobert Watson * Protocol-specific configuration overrides the global default. 764f2d2d694SRobert Watson */ 765f2d2d694SRobert Watson if (npp->np_dispatch != NETISR_DISPATCH_DEFAULT) 766f2d2d694SRobert Watson return (npp->np_dispatch); 767f2d2d694SRobert Watson return (netisr_dispatch_policy); 768f2d2d694SRobert Watson } 769f2d2d694SRobert Watson 770f2d2d694SRobert Watson /* 771d4b5cae4SRobert Watson * Look up the workstream given a packet and source identifier. Do this by 772d4b5cae4SRobert Watson * checking the protocol's policy, and optionally call out to the protocol 773d4b5cae4SRobert Watson * for assistance if required. 774d4b5cae4SRobert Watson */ 775d4b5cae4SRobert Watson static struct mbuf * 776f2d2d694SRobert Watson netisr_select_cpuid(struct netisr_proto *npp, u_int dispatch_policy, 777f2d2d694SRobert Watson uintptr_t source, struct mbuf *m, u_int *cpuidp) 778d4b5cae4SRobert Watson { 779d4b5cae4SRobert Watson struct ifnet *ifp; 780f2d2d694SRobert Watson u_int policy; 781d4b5cae4SRobert Watson 782d4b5cae4SRobert Watson NETISR_LOCK_ASSERT(); 783d4b5cae4SRobert Watson 784d4b5cae4SRobert Watson /* 785d4b5cae4SRobert Watson * In the event we have only one worker, shortcut and deliver to it 786d4b5cae4SRobert Watson * without further ado. 787d4b5cae4SRobert Watson */ 788d4b5cae4SRobert Watson if (nws_count == 1) { 789d4b5cae4SRobert Watson *cpuidp = nws_array[0]; 790d4b5cae4SRobert Watson return (m); 791d4b5cae4SRobert Watson } 792d4b5cae4SRobert Watson 793d4b5cae4SRobert Watson /* 794d4b5cae4SRobert Watson * What happens next depends on the policy selected by the protocol. 795d4b5cae4SRobert Watson * If we want to support per-interface policies, we should do that 796d4b5cae4SRobert Watson * here first. 797d4b5cae4SRobert Watson */ 798f2d2d694SRobert Watson policy = npp->np_policy; 799f2d2d694SRobert Watson if (policy == NETISR_POLICY_CPU) { 800f2d2d694SRobert Watson m = npp->np_m2cpuid(m, source, cpuidp); 801f2d2d694SRobert Watson if (m == NULL) 802f2d2d694SRobert Watson return (NULL); 803d4b5cae4SRobert Watson 804f2d2d694SRobert Watson /* 805f2d2d694SRobert Watson * It's possible for a protocol not to have a good idea about 806f2d2d694SRobert Watson * where to process a packet, in which case we fall back on 807f2d2d694SRobert Watson * the netisr code to decide. In the hybrid case, return the 808f2d2d694SRobert Watson * current CPU ID, which will force an immediate direct 809f2d2d694SRobert Watson * dispatch. In the queued case, fall back on the SOURCE 810f2d2d694SRobert Watson * policy. 811f2d2d694SRobert Watson */ 812fdf95c0bSAndrey V. Elsukov if (*cpuidp != NETISR_CPUID_NONE) { 813fdf95c0bSAndrey V. Elsukov *cpuidp = netisr_get_cpuid(*cpuidp); 814f2d2d694SRobert Watson return (m); 815fdf95c0bSAndrey V. Elsukov } 816f2d2d694SRobert Watson if (dispatch_policy == NETISR_DISPATCH_HYBRID) { 817fdf95c0bSAndrey V. Elsukov *cpuidp = netisr_get_cpuid(curcpu); 818f2d2d694SRobert Watson return (m); 819f2d2d694SRobert Watson } 820f2d2d694SRobert Watson policy = NETISR_POLICY_SOURCE; 821f2d2d694SRobert Watson } 822f2d2d694SRobert Watson 823f2d2d694SRobert Watson if (policy == NETISR_POLICY_FLOW) { 824c2529042SHans Petter Selasky if (M_HASHTYPE_GET(m) == M_HASHTYPE_NONE && 825c2529042SHans Petter Selasky npp->np_m2flow != NULL) { 826d4b5cae4SRobert Watson m = npp->np_m2flow(m, source); 827d4b5cae4SRobert Watson if (m == NULL) 828d4b5cae4SRobert Watson return (NULL); 829d4b5cae4SRobert Watson } 830c2529042SHans Petter Selasky if (M_HASHTYPE_GET(m) != M_HASHTYPE_NONE) { 831d4b5cae4SRobert Watson *cpuidp = 832d4b5cae4SRobert Watson netisr_default_flow2cpu(m->m_pkthdr.flowid); 833d4b5cae4SRobert Watson return (m); 834d4b5cae4SRobert Watson } 835f2d2d694SRobert Watson policy = NETISR_POLICY_SOURCE; 836f2d2d694SRobert Watson } 837d4b5cae4SRobert Watson 838f2d2d694SRobert Watson KASSERT(policy == NETISR_POLICY_SOURCE, 839f2d2d694SRobert Watson ("%s: invalid policy %u for %s", __func__, npp->np_policy, 840f2d2d694SRobert Watson npp->np_name)); 841f2d2d694SRobert Watson 842d4b5cae4SRobert Watson ifp = m->m_pkthdr.rcvif; 843d4b5cae4SRobert Watson if (ifp != NULL) 844f2d2d694SRobert Watson *cpuidp = nws_array[(ifp->if_index + source) % nws_count]; 845d4b5cae4SRobert Watson else 846d4b5cae4SRobert Watson *cpuidp = nws_array[source % nws_count]; 847d4b5cae4SRobert Watson return (m); 848d4b5cae4SRobert Watson } 849d4b5cae4SRobert Watson 850d4b5cae4SRobert Watson /* 851d4b5cae4SRobert Watson * Process packets associated with a workstream and protocol. For reasons of 852d4b5cae4SRobert Watson * fairness, we process up to one complete netisr queue at a time, moving the 853d4b5cae4SRobert Watson * queue to a stack-local queue for processing, but do not loop refreshing 854d4b5cae4SRobert Watson * from the global queue. The caller is responsible for deciding whether to 855d4b5cae4SRobert Watson * loop, and for setting the NWS_RUNNING flag. The passed workstream will be 856d4b5cae4SRobert Watson * locked on entry and relocked before return, but will be released while 857d4b5cae4SRobert Watson * processing. The number of packets processed is returned. 858d4b5cae4SRobert Watson */ 859d4b5cae4SRobert Watson static u_int 860d4b5cae4SRobert Watson netisr_process_workstream_proto(struct netisr_workstream *nwsp, u_int proto) 861d4b5cae4SRobert Watson { 862d4b5cae4SRobert Watson struct netisr_work local_npw, *npwp; 863d4b5cae4SRobert Watson u_int handled; 864d4b5cae4SRobert Watson struct mbuf *m; 865d4b5cae4SRobert Watson 866d4b5cae4SRobert Watson NETISR_LOCK_ASSERT(); 867d4b5cae4SRobert Watson NWS_LOCK_ASSERT(nwsp); 868d4b5cae4SRobert Watson 869d4b5cae4SRobert Watson KASSERT(nwsp->nws_flags & NWS_RUNNING, 870d4b5cae4SRobert Watson ("%s(%u): not running", __func__, proto)); 871d4b5cae4SRobert Watson KASSERT(proto >= 0 && proto < NETISR_MAXPROT, 872d4b5cae4SRobert Watson ("%s(%u): invalid proto\n", __func__, proto)); 873d4b5cae4SRobert Watson 874d4b5cae4SRobert Watson npwp = &nwsp->nws_work[proto]; 875d4b5cae4SRobert Watson if (npwp->nw_len == 0) 876d4b5cae4SRobert Watson return (0); 877d4b5cae4SRobert Watson 878d4b5cae4SRobert Watson /* 879d4b5cae4SRobert Watson * Move the global work queue to a thread-local work queue. 880d4b5cae4SRobert Watson * 881d4b5cae4SRobert Watson * Notice that this means the effective maximum length of the queue 882d4b5cae4SRobert Watson * is actually twice that of the maximum queue length specified in 883d4b5cae4SRobert Watson * the protocol registration call. 884d4b5cae4SRobert Watson */ 885d4b5cae4SRobert Watson handled = npwp->nw_len; 886d4b5cae4SRobert Watson local_npw = *npwp; 887d4b5cae4SRobert Watson npwp->nw_head = NULL; 888d4b5cae4SRobert Watson npwp->nw_tail = NULL; 889d4b5cae4SRobert Watson npwp->nw_len = 0; 890d4b5cae4SRobert Watson nwsp->nws_pendingbits &= ~(1 << proto); 891d4b5cae4SRobert Watson NWS_UNLOCK(nwsp); 892d4b5cae4SRobert Watson while ((m = local_npw.nw_head) != NULL) { 893d4b5cae4SRobert Watson local_npw.nw_head = m->m_nextpkt; 894d4b5cae4SRobert Watson m->m_nextpkt = NULL; 895d4b5cae4SRobert Watson if (local_npw.nw_head == NULL) 896d4b5cae4SRobert Watson local_npw.nw_tail = NULL; 897d4b5cae4SRobert Watson local_npw.nw_len--; 8980028e524SBjoern A. Zeeb VNET_ASSERT(m->m_pkthdr.rcvif != NULL, 8990028e524SBjoern A. Zeeb ("%s:%d rcvif == NULL: m=%p", __func__, __LINE__, m)); 900d4b5cae4SRobert Watson CURVNET_SET(m->m_pkthdr.rcvif->if_vnet); 901938448cdSRobert Watson netisr_proto[proto].np_handler(m); 902d4b5cae4SRobert Watson CURVNET_RESTORE(); 903d4b5cae4SRobert Watson } 904d4b5cae4SRobert Watson KASSERT(local_npw.nw_len == 0, 905d4b5cae4SRobert Watson ("%s(%u): len %u", __func__, proto, local_npw.nw_len)); 906938448cdSRobert Watson if (netisr_proto[proto].np_drainedcpu) 907938448cdSRobert Watson netisr_proto[proto].np_drainedcpu(nwsp->nws_cpu); 908d4b5cae4SRobert Watson NWS_LOCK(nwsp); 909d4b5cae4SRobert Watson npwp->nw_handled += handled; 910d4b5cae4SRobert Watson return (handled); 911d4b5cae4SRobert Watson } 912d4b5cae4SRobert Watson 913d4b5cae4SRobert Watson /* 9140a32e29fSRobert Watson * SWI handler for netisr -- processes packets in a set of workstreams that 915d4b5cae4SRobert Watson * it owns, woken up by calls to NWS_SIGNAL(). If this workstream is already 916d4b5cae4SRobert Watson * being direct dispatched, go back to sleep and wait for the dispatching 917d4b5cae4SRobert Watson * thread to wake us up again. 918d4b5cae4SRobert Watson */ 919d4b5cae4SRobert Watson static void 920d4b5cae4SRobert Watson swi_net(void *arg) 921d4b5cae4SRobert Watson { 922d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 923d4b5cae4SRobert Watson struct rm_priotracker tracker; 924d4b5cae4SRobert Watson #endif 925d4b5cae4SRobert Watson struct netisr_workstream *nwsp; 926d4b5cae4SRobert Watson u_int bits, prot; 927d4b5cae4SRobert Watson 928d4b5cae4SRobert Watson nwsp = arg; 929d4b5cae4SRobert Watson 9301cafed39SJonathan Lemon #ifdef DEVICE_POLLING 931d4b5cae4SRobert Watson KASSERT(nws_count == 1, 932d4b5cae4SRobert Watson ("%s: device_polling but nws_count != 1", __func__)); 933d4b5cae4SRobert Watson netisr_poll(); 934d4b5cae4SRobert Watson #endif 935d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 936d4b5cae4SRobert Watson NETISR_RLOCK(&tracker); 937d4b5cae4SRobert Watson #endif 938d4b5cae4SRobert Watson NWS_LOCK(nwsp); 939d4b5cae4SRobert Watson KASSERT(!(nwsp->nws_flags & NWS_RUNNING), ("swi_net: running")); 940d4b5cae4SRobert Watson if (nwsp->nws_flags & NWS_DISPATCHING) 941d4b5cae4SRobert Watson goto out; 942d4b5cae4SRobert Watson nwsp->nws_flags |= NWS_RUNNING; 943d4b5cae4SRobert Watson nwsp->nws_flags &= ~NWS_SCHEDULED; 944d4b5cae4SRobert Watson while ((bits = nwsp->nws_pendingbits) != 0) { 945d4b5cae4SRobert Watson while ((prot = ffs(bits)) != 0) { 946d4b5cae4SRobert Watson prot--; 947d4b5cae4SRobert Watson bits &= ~(1 << prot); 948d4b5cae4SRobert Watson (void)netisr_process_workstream_proto(nwsp, prot); 949d4b5cae4SRobert Watson } 950d4b5cae4SRobert Watson } 951d4b5cae4SRobert Watson nwsp->nws_flags &= ~NWS_RUNNING; 952d4b5cae4SRobert Watson out: 953d4b5cae4SRobert Watson NWS_UNLOCK(nwsp); 954d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 955d4b5cae4SRobert Watson NETISR_RUNLOCK(&tracker); 956d4b5cae4SRobert Watson #endif 957d4b5cae4SRobert Watson #ifdef DEVICE_POLLING 958d4b5cae4SRobert Watson netisr_pollmore(); 959d4b5cae4SRobert Watson #endif 960d4b5cae4SRobert Watson } 961d4b5cae4SRobert Watson 962d4b5cae4SRobert Watson static int 963d4b5cae4SRobert Watson netisr_queue_workstream(struct netisr_workstream *nwsp, u_int proto, 964d4b5cae4SRobert Watson struct netisr_work *npwp, struct mbuf *m, int *dosignalp) 965d4b5cae4SRobert Watson { 966d4b5cae4SRobert Watson 967d4b5cae4SRobert Watson NWS_LOCK_ASSERT(nwsp); 968d4b5cae4SRobert Watson 969d4b5cae4SRobert Watson *dosignalp = 0; 970d4b5cae4SRobert Watson if (npwp->nw_len < npwp->nw_qlimit) { 971d4b5cae4SRobert Watson m->m_nextpkt = NULL; 972d4b5cae4SRobert Watson if (npwp->nw_head == NULL) { 973d4b5cae4SRobert Watson npwp->nw_head = m; 974d4b5cae4SRobert Watson npwp->nw_tail = m; 975d4b5cae4SRobert Watson } else { 976d4b5cae4SRobert Watson npwp->nw_tail->m_nextpkt = m; 977d4b5cae4SRobert Watson npwp->nw_tail = m; 978d4b5cae4SRobert Watson } 979d4b5cae4SRobert Watson npwp->nw_len++; 980d4b5cae4SRobert Watson if (npwp->nw_len > npwp->nw_watermark) 981d4b5cae4SRobert Watson npwp->nw_watermark = npwp->nw_len; 9820a32e29fSRobert Watson 9830a32e29fSRobert Watson /* 9840a32e29fSRobert Watson * We must set the bit regardless of NWS_RUNNING, so that 9850a32e29fSRobert Watson * swi_net() keeps calling netisr_process_workstream_proto(). 9860a32e29fSRobert Watson */ 987d4b5cae4SRobert Watson nwsp->nws_pendingbits |= (1 << proto); 988d4b5cae4SRobert Watson if (!(nwsp->nws_flags & 989d4b5cae4SRobert Watson (NWS_RUNNING | NWS_DISPATCHING | NWS_SCHEDULED))) { 990d4b5cae4SRobert Watson nwsp->nws_flags |= NWS_SCHEDULED; 991d4b5cae4SRobert Watson *dosignalp = 1; /* Defer until unlocked. */ 992d4b5cae4SRobert Watson } 993d4b5cae4SRobert Watson npwp->nw_queued++; 994d4b5cae4SRobert Watson return (0); 995d4b5cae4SRobert Watson } else { 996ba3b25b3SBjoern A. Zeeb m_freem(m); 997d4b5cae4SRobert Watson npwp->nw_qdrops++; 998d4b5cae4SRobert Watson return (ENOBUFS); 999d4b5cae4SRobert Watson } 1000d4b5cae4SRobert Watson } 1001d4b5cae4SRobert Watson 1002d4b5cae4SRobert Watson static int 1003d4b5cae4SRobert Watson netisr_queue_internal(u_int proto, struct mbuf *m, u_int cpuid) 1004d4b5cae4SRobert Watson { 1005d4b5cae4SRobert Watson struct netisr_workstream *nwsp; 1006d4b5cae4SRobert Watson struct netisr_work *npwp; 1007d4b5cae4SRobert Watson int dosignal, error; 1008d4b5cae4SRobert Watson 1009d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 1010d4b5cae4SRobert Watson NETISR_LOCK_ASSERT(); 1011d4b5cae4SRobert Watson #endif 10129e6e01ebSRobert Watson KASSERT(cpuid <= mp_maxid, ("%s: cpuid too big (%u, %u)", __func__, 10139e6e01ebSRobert Watson cpuid, mp_maxid)); 101453402767SRobert Watson KASSERT(!CPU_ABSENT(cpuid), ("%s: CPU %u absent", __func__, cpuid)); 1015d4b5cae4SRobert Watson 1016d4b5cae4SRobert Watson dosignal = 0; 1017d4b5cae4SRobert Watson error = 0; 101853402767SRobert Watson nwsp = DPCPU_ID_PTR(cpuid, nws); 1019d4b5cae4SRobert Watson npwp = &nwsp->nws_work[proto]; 1020d4b5cae4SRobert Watson NWS_LOCK(nwsp); 1021d4b5cae4SRobert Watson error = netisr_queue_workstream(nwsp, proto, npwp, m, &dosignal); 1022d4b5cae4SRobert Watson NWS_UNLOCK(nwsp); 1023d4b5cae4SRobert Watson if (dosignal) 1024d4b5cae4SRobert Watson NWS_SIGNAL(nwsp); 1025d4b5cae4SRobert Watson return (error); 1026d4b5cae4SRobert Watson } 1027d4b5cae4SRobert Watson 1028d4b5cae4SRobert Watson int 1029d4b5cae4SRobert Watson netisr_queue_src(u_int proto, uintptr_t source, struct mbuf *m) 1030d4b5cae4SRobert Watson { 1031d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 1032d4b5cae4SRobert Watson struct rm_priotracker tracker; 1033d4b5cae4SRobert Watson #endif 1034d4b5cae4SRobert Watson u_int cpuid; 1035d4b5cae4SRobert Watson int error; 1036d4b5cae4SRobert Watson 1037d4b5cae4SRobert Watson KASSERT(proto < NETISR_MAXPROT, 1038d4b5cae4SRobert Watson ("%s: invalid proto %u", __func__, proto)); 1039d4b5cae4SRobert Watson 1040d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 1041d4b5cae4SRobert Watson NETISR_RLOCK(&tracker); 1042d4b5cae4SRobert Watson #endif 1043938448cdSRobert Watson KASSERT(netisr_proto[proto].np_handler != NULL, 1044d4b5cae4SRobert Watson ("%s: invalid proto %u", __func__, proto)); 1045d4b5cae4SRobert Watson 1046484149deSBjoern A. Zeeb #ifdef VIMAGE 1047484149deSBjoern A. Zeeb if (V_netisr_enable[proto] == 0) { 1048484149deSBjoern A. Zeeb m_freem(m); 1049484149deSBjoern A. Zeeb return (ENOPROTOOPT); 1050484149deSBjoern A. Zeeb } 1051484149deSBjoern A. Zeeb #endif 1052484149deSBjoern A. Zeeb 1053f2d2d694SRobert Watson m = netisr_select_cpuid(&netisr_proto[proto], NETISR_DISPATCH_DEFERRED, 1054f2d2d694SRobert Watson source, m, &cpuid); 105553402767SRobert Watson if (m != NULL) { 105653402767SRobert Watson KASSERT(!CPU_ABSENT(cpuid), ("%s: CPU %u absent", __func__, 105753402767SRobert Watson cpuid)); 1058d4b5cae4SRobert Watson error = netisr_queue_internal(proto, m, cpuid); 105953402767SRobert Watson } else 1060d4b5cae4SRobert Watson error = ENOBUFS; 1061d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 1062d4b5cae4SRobert Watson NETISR_RUNLOCK(&tracker); 1063d4b5cae4SRobert Watson #endif 1064d4b5cae4SRobert Watson return (error); 1065d4b5cae4SRobert Watson } 1066d4b5cae4SRobert Watson 1067d4b5cae4SRobert Watson int 1068d4b5cae4SRobert Watson netisr_queue(u_int proto, struct mbuf *m) 1069d4b5cae4SRobert Watson { 1070d4b5cae4SRobert Watson 1071d4b5cae4SRobert Watson return (netisr_queue_src(proto, 0, m)); 1072d4b5cae4SRobert Watson } 1073d4b5cae4SRobert Watson 1074d4b5cae4SRobert Watson /* 10750a32e29fSRobert Watson * Dispatch a packet for netisr processing; direct dispatch is permitted by 1076d4b5cae4SRobert Watson * calling context. 1077d4b5cae4SRobert Watson */ 1078d4b5cae4SRobert Watson int 1079d4b5cae4SRobert Watson netisr_dispatch_src(u_int proto, uintptr_t source, struct mbuf *m) 1080d4b5cae4SRobert Watson { 1081d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 1082d4b5cae4SRobert Watson struct rm_priotracker tracker; 1083d4b5cae4SRobert Watson #endif 1084d4b5cae4SRobert Watson struct netisr_workstream *nwsp; 1085f2d2d694SRobert Watson struct netisr_proto *npp; 1086d4b5cae4SRobert Watson struct netisr_work *npwp; 1087d4b5cae4SRobert Watson int dosignal, error; 1088f2d2d694SRobert Watson u_int cpuid, dispatch_policy; 1089d4b5cae4SRobert Watson 1090d4b5cae4SRobert Watson KASSERT(proto < NETISR_MAXPROT, 1091d4b5cae4SRobert Watson ("%s: invalid proto %u", __func__, proto)); 1092d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 1093d4b5cae4SRobert Watson NETISR_RLOCK(&tracker); 1094d4b5cae4SRobert Watson #endif 1095f2d2d694SRobert Watson npp = &netisr_proto[proto]; 1096f2d2d694SRobert Watson KASSERT(npp->np_handler != NULL, ("%s: invalid proto %u", __func__, 1097f2d2d694SRobert Watson proto)); 1098f2d2d694SRobert Watson 1099484149deSBjoern A. Zeeb #ifdef VIMAGE 1100484149deSBjoern A. Zeeb if (V_netisr_enable[proto] == 0) { 1101484149deSBjoern A. Zeeb m_freem(m); 1102484149deSBjoern A. Zeeb return (ENOPROTOOPT); 1103484149deSBjoern A. Zeeb } 1104484149deSBjoern A. Zeeb #endif 1105484149deSBjoern A. Zeeb 1106f2d2d694SRobert Watson dispatch_policy = netisr_get_dispatch(npp); 1107f2d2d694SRobert Watson if (dispatch_policy == NETISR_DISPATCH_DEFERRED) 1108f2d2d694SRobert Watson return (netisr_queue_src(proto, source, m)); 1109d4b5cae4SRobert Watson 1110d4b5cae4SRobert Watson /* 1111d4b5cae4SRobert Watson * If direct dispatch is forced, then unconditionally dispatch 1112d4b5cae4SRobert Watson * without a formal CPU selection. Borrow the current CPU's stats, 1113d4b5cae4SRobert Watson * even if there's no worker on it. In this case we don't update 1114d4b5cae4SRobert Watson * nws_flags because all netisr processing will be source ordered due 1115d4b5cae4SRobert Watson * to always being forced to directly dispatch. 1116d4b5cae4SRobert Watson */ 1117f2d2d694SRobert Watson if (dispatch_policy == NETISR_DISPATCH_DIRECT) { 111853402767SRobert Watson nwsp = DPCPU_PTR(nws); 1119d4b5cae4SRobert Watson npwp = &nwsp->nws_work[proto]; 1120d4b5cae4SRobert Watson npwp->nw_dispatched++; 1121d4b5cae4SRobert Watson npwp->nw_handled++; 1122938448cdSRobert Watson netisr_proto[proto].np_handler(m); 1123d4b5cae4SRobert Watson error = 0; 1124d4b5cae4SRobert Watson goto out_unlock; 1125d4b5cae4SRobert Watson } 1126d4b5cae4SRobert Watson 1127f2d2d694SRobert Watson KASSERT(dispatch_policy == NETISR_DISPATCH_HYBRID, 1128f2d2d694SRobert Watson ("%s: unknown dispatch policy (%u)", __func__, dispatch_policy)); 1129f2d2d694SRobert Watson 1130d4b5cae4SRobert Watson /* 1131d4b5cae4SRobert Watson * Otherwise, we execute in a hybrid mode where we will try to direct 1132d4b5cae4SRobert Watson * dispatch if we're on the right CPU and the netisr worker isn't 1133d4b5cae4SRobert Watson * already running. 1134d4b5cae4SRobert Watson */ 1135f2d2d694SRobert Watson sched_pin(); 1136f2d2d694SRobert Watson m = netisr_select_cpuid(&netisr_proto[proto], NETISR_DISPATCH_HYBRID, 1137f2d2d694SRobert Watson source, m, &cpuid); 1138d4b5cae4SRobert Watson if (m == NULL) { 1139d4b5cae4SRobert Watson error = ENOBUFS; 1140f2d2d694SRobert Watson goto out_unpin; 1141d4b5cae4SRobert Watson } 114253402767SRobert Watson KASSERT(!CPU_ABSENT(cpuid), ("%s: CPU %u absent", __func__, cpuid)); 1143d4b5cae4SRobert Watson if (cpuid != curcpu) 1144d4b5cae4SRobert Watson goto queue_fallback; 114553402767SRobert Watson nwsp = DPCPU_PTR(nws); 1146d4b5cae4SRobert Watson npwp = &nwsp->nws_work[proto]; 1147d4b5cae4SRobert Watson 1148d4b5cae4SRobert Watson /*- 1149d4b5cae4SRobert Watson * We are willing to direct dispatch only if three conditions hold: 1150d4b5cae4SRobert Watson * 1151d4b5cae4SRobert Watson * (1) The netisr worker isn't already running, 1152d4b5cae4SRobert Watson * (2) Another thread isn't already directly dispatching, and 1153d4b5cae4SRobert Watson * (3) The netisr hasn't already been woken up. 1154d4b5cae4SRobert Watson */ 1155d4b5cae4SRobert Watson NWS_LOCK(nwsp); 1156d4b5cae4SRobert Watson if (nwsp->nws_flags & (NWS_RUNNING | NWS_DISPATCHING | NWS_SCHEDULED)) { 1157d4b5cae4SRobert Watson error = netisr_queue_workstream(nwsp, proto, npwp, m, 1158d4b5cae4SRobert Watson &dosignal); 115953402767SRobert Watson NWS_UNLOCK(nwsp); 1160d4b5cae4SRobert Watson if (dosignal) 1161d4b5cae4SRobert Watson NWS_SIGNAL(nwsp); 1162d4b5cae4SRobert Watson goto out_unpin; 1163d4b5cae4SRobert Watson } 1164d4b5cae4SRobert Watson 1165d4b5cae4SRobert Watson /* 1166d4b5cae4SRobert Watson * The current thread is now effectively the netisr worker, so set 1167d4b5cae4SRobert Watson * the dispatching flag to prevent concurrent processing of the 1168d4b5cae4SRobert Watson * stream from another thread (even the netisr worker), which could 1169d4b5cae4SRobert Watson * otherwise lead to effective misordering of the stream. 1170d4b5cae4SRobert Watson */ 1171d4b5cae4SRobert Watson nwsp->nws_flags |= NWS_DISPATCHING; 1172d4b5cae4SRobert Watson NWS_UNLOCK(nwsp); 1173938448cdSRobert Watson netisr_proto[proto].np_handler(m); 1174d4b5cae4SRobert Watson NWS_LOCK(nwsp); 1175d4b5cae4SRobert Watson nwsp->nws_flags &= ~NWS_DISPATCHING; 1176d4b5cae4SRobert Watson npwp->nw_handled++; 1177d4b5cae4SRobert Watson npwp->nw_hybrid_dispatched++; 1178d4b5cae4SRobert Watson 1179d4b5cae4SRobert Watson /* 1180d4b5cae4SRobert Watson * If other work was enqueued by another thread while we were direct 1181d4b5cae4SRobert Watson * dispatching, we need to signal the netisr worker to do that work. 1182d4b5cae4SRobert Watson * In the future, we might want to do some of that work in the 1183d4b5cae4SRobert Watson * current thread, rather than trigger further context switches. If 1184d4b5cae4SRobert Watson * so, we'll want to establish a reasonable bound on the work done in 1185d4b5cae4SRobert Watson * the "borrowed" context. 1186d4b5cae4SRobert Watson */ 1187d4b5cae4SRobert Watson if (nwsp->nws_pendingbits != 0) { 1188d4b5cae4SRobert Watson nwsp->nws_flags |= NWS_SCHEDULED; 1189d4b5cae4SRobert Watson dosignal = 1; 1190d4b5cae4SRobert Watson } else 1191d4b5cae4SRobert Watson dosignal = 0; 1192d4b5cae4SRobert Watson NWS_UNLOCK(nwsp); 1193d4b5cae4SRobert Watson if (dosignal) 1194d4b5cae4SRobert Watson NWS_SIGNAL(nwsp); 1195d4b5cae4SRobert Watson error = 0; 1196d4b5cae4SRobert Watson goto out_unpin; 1197d4b5cae4SRobert Watson 1198d4b5cae4SRobert Watson queue_fallback: 1199d4b5cae4SRobert Watson error = netisr_queue_internal(proto, m, cpuid); 1200d4b5cae4SRobert Watson out_unpin: 1201d4b5cae4SRobert Watson sched_unpin(); 1202d4b5cae4SRobert Watson out_unlock: 1203d4b5cae4SRobert Watson #ifdef NETISR_LOCKING 1204d4b5cae4SRobert Watson NETISR_RUNLOCK(&tracker); 1205d4b5cae4SRobert Watson #endif 1206d4b5cae4SRobert Watson return (error); 1207d4b5cae4SRobert Watson } 1208d4b5cae4SRobert Watson 1209d4b5cae4SRobert Watson int 1210d4b5cae4SRobert Watson netisr_dispatch(u_int proto, struct mbuf *m) 1211d4b5cae4SRobert Watson { 1212d4b5cae4SRobert Watson 1213d4b5cae4SRobert Watson return (netisr_dispatch_src(proto, 0, m)); 1214d4b5cae4SRobert Watson } 1215d4b5cae4SRobert Watson 1216d4b5cae4SRobert Watson #ifdef DEVICE_POLLING 1217d4b5cae4SRobert Watson /* 1218d4b5cae4SRobert Watson * Kernel polling borrows a netisr thread to run interface polling in; this 1219d4b5cae4SRobert Watson * function allows kernel polling to request that the netisr thread be 1220d4b5cae4SRobert Watson * scheduled even if no packets are pending for protocols. 1221d4b5cae4SRobert Watson */ 1222d4b5cae4SRobert Watson void 1223d4b5cae4SRobert Watson netisr_sched_poll(void) 1224d4b5cae4SRobert Watson { 1225d4b5cae4SRobert Watson struct netisr_workstream *nwsp; 1226d4b5cae4SRobert Watson 122753402767SRobert Watson nwsp = DPCPU_ID_PTR(nws_array[0], nws); 1228d4b5cae4SRobert Watson NWS_SIGNAL(nwsp); 1229d4b5cae4SRobert Watson } 12301cafed39SJonathan Lemon #endif 1231e3b6e33cSJake Burkholder 1232d4b5cae4SRobert Watson static void 1233d4b5cae4SRobert Watson netisr_start_swi(u_int cpuid, struct pcpu *pc) 1234d4b5cae4SRobert Watson { 1235d4b5cae4SRobert Watson char swiname[12]; 1236d4b5cae4SRobert Watson struct netisr_workstream *nwsp; 1237d4b5cae4SRobert Watson int error; 1238d4b5cae4SRobert Watson 123953402767SRobert Watson KASSERT(!CPU_ABSENT(cpuid), ("%s: CPU %u absent", __func__, cpuid)); 124053402767SRobert Watson 124153402767SRobert Watson nwsp = DPCPU_ID_PTR(cpuid, nws); 1242d4b5cae4SRobert Watson mtx_init(&nwsp->nws_mtx, "netisr_mtx", NULL, MTX_DEF); 1243d4b5cae4SRobert Watson nwsp->nws_cpu = cpuid; 1244d4b5cae4SRobert Watson snprintf(swiname, sizeof(swiname), "netisr %u", cpuid); 1245d4b5cae4SRobert Watson error = swi_add(&nwsp->nws_intr_event, swiname, swi_net, nwsp, 1246d4b5cae4SRobert Watson SWI_NET, INTR_MPSAFE, &nwsp->nws_swi_cookie); 1247d4b5cae4SRobert Watson if (error) 1248d4b5cae4SRobert Watson panic("%s: swi_add %d", __func__, error); 1249d4b5cae4SRobert Watson pc->pc_netisr = nwsp->nws_intr_event; 1250d4b5cae4SRobert Watson if (netisr_bindthreads) { 1251d4b5cae4SRobert Watson error = intr_event_bind(nwsp->nws_intr_event, cpuid); 1252d4b5cae4SRobert Watson if (error != 0) 1253d4b5cae4SRobert Watson printf("%s: cpu %u: intr_event_bind: %d", __func__, 1254d4b5cae4SRobert Watson cpuid, error); 1255e3b6e33cSJake Burkholder } 1256d4b5cae4SRobert Watson NETISR_WLOCK(); 1257d4b5cae4SRobert Watson nws_array[nws_count] = nwsp->nws_cpu; 1258d4b5cae4SRobert Watson nws_count++; 1259d4b5cae4SRobert Watson NETISR_WUNLOCK(); 1260e3b6e33cSJake Burkholder } 1261e3b6e33cSJake Burkholder 1262d4b5cae4SRobert Watson /* 1263d4b5cae4SRobert Watson * Initialize the netisr subsystem. We rely on BSS and static initialization 1264d4b5cae4SRobert Watson * of most fields in global data structures. 1265d4b5cae4SRobert Watson * 1266d4b5cae4SRobert Watson * Start a worker thread for the boot CPU so that we can support network 1267d4b5cae4SRobert Watson * traffic immediately in case the network stack is used before additional 1268d4b5cae4SRobert Watson * CPUs are started (for example, diskless boot). 1269d4b5cae4SRobert Watson */ 1270e3b6e33cSJake Burkholder static void 1271d4b5cae4SRobert Watson netisr_init(void *arg) 1272e3b6e33cSJake Burkholder { 1273fdce57a0SJohn Baldwin struct pcpu *pc; 1274fdce57a0SJohn Baldwin 1275d4b5cae4SRobert Watson NETISR_LOCK_INIT(); 1276a9467c3cSHiren Panchasara if (netisr_maxthreads == 0 || netisr_maxthreads < -1 ) 1277a9467c3cSHiren Panchasara netisr_maxthreads = 1; /* default behavior */ 1278a9467c3cSHiren Panchasara else if (netisr_maxthreads == -1) 1279a9467c3cSHiren Panchasara netisr_maxthreads = mp_ncpus; /* use max cpus */ 12809e6e01ebSRobert Watson if (netisr_maxthreads > mp_ncpus) { 1281912f6323SRobert Watson printf("netisr_init: forcing maxthreads from %d to %d\n", 12829e6e01ebSRobert Watson netisr_maxthreads, mp_ncpus); 12839e6e01ebSRobert Watson netisr_maxthreads = mp_ncpus; 1284ed54411cSRobert Watson } 1285ed54411cSRobert Watson if (netisr_defaultqlimit > netisr_maxqlimit) { 1286912f6323SRobert Watson printf("netisr_init: forcing defaultqlimit from %d to %d\n", 12879e6e01ebSRobert Watson netisr_defaultqlimit, netisr_maxqlimit); 1288d4b5cae4SRobert Watson netisr_defaultqlimit = netisr_maxqlimit; 1289ed54411cSRobert Watson } 1290d4b5cae4SRobert Watson #ifdef DEVICE_POLLING 1291d4b5cae4SRobert Watson /* 1292d4b5cae4SRobert Watson * The device polling code is not yet aware of how to deal with 1293d4b5cae4SRobert Watson * multiple netisr threads, so for the time being compiling in device 1294d4b5cae4SRobert Watson * polling disables parallel netisr workers. 1295d4b5cae4SRobert Watson */ 129651d4054eSGeorge V. Neville-Neil if (netisr_maxthreads != 1 || netisr_bindthreads != 0) { 1297912f6323SRobert Watson printf("netisr_init: forcing maxthreads to 1 and " 1298912f6323SRobert Watson "bindthreads to 0 for device polling\n"); 1299d4b5cae4SRobert Watson netisr_maxthreads = 1; 1300d4b5cae4SRobert Watson netisr_bindthreads = 0; 1301ed54411cSRobert Watson } 1302d4b5cae4SRobert Watson #endif 1303fdce57a0SJohn Baldwin 1304fdce57a0SJohn Baldwin #ifdef EARLY_AP_STARTUP 1305fdce57a0SJohn Baldwin STAILQ_FOREACH(pc, &cpuhead, pc_allcpu) { 1306fdce57a0SJohn Baldwin if (nws_count >= netisr_maxthreads) 1307fdce57a0SJohn Baldwin break; 1308fdce57a0SJohn Baldwin netisr_start_swi(pc->pc_cpuid, pc); 1309fdce57a0SJohn Baldwin } 1310fdce57a0SJohn Baldwin #else 1311e2a8d178SJason A. Harmening pc = get_pcpu(); 1312e2a8d178SJason A. Harmening netisr_start_swi(pc->pc_cpuid, pc); 1313fdce57a0SJohn Baldwin #endif 1314e3b6e33cSJake Burkholder } 1315d4b5cae4SRobert Watson SYSINIT(netisr_init, SI_SUB_SOFTINTR, SI_ORDER_FIRST, netisr_init, NULL); 1316d4b5cae4SRobert Watson 1317fdce57a0SJohn Baldwin #ifndef EARLY_AP_STARTUP 1318d4b5cae4SRobert Watson /* 1319d4b5cae4SRobert Watson * Start worker threads for additional CPUs. No attempt to gracefully handle 1320d4b5cae4SRobert Watson * work reassignment, we don't yet support dynamic reconfiguration. 1321d4b5cae4SRobert Watson */ 1322d4b5cae4SRobert Watson static void 1323d4b5cae4SRobert Watson netisr_start(void *arg) 1324d4b5cae4SRobert Watson { 1325d4b5cae4SRobert Watson struct pcpu *pc; 1326d4b5cae4SRobert Watson 1327d098f930SNathan Whitehorn STAILQ_FOREACH(pc, &cpuhead, pc_allcpu) { 1328d4b5cae4SRobert Watson if (nws_count >= netisr_maxthreads) 1329d4b5cae4SRobert Watson break; 1330d4b5cae4SRobert Watson /* Worker will already be present for boot CPU. */ 1331d4b5cae4SRobert Watson if (pc->pc_netisr != NULL) 1332d4b5cae4SRobert Watson continue; 1333d4b5cae4SRobert Watson netisr_start_swi(pc->pc_cpuid, pc); 1334d4b5cae4SRobert Watson } 1335d4b5cae4SRobert Watson } 1336d4b5cae4SRobert Watson SYSINIT(netisr_start, SI_SUB_SMP, SI_ORDER_MIDDLE, netisr_start, NULL); 1337fdce57a0SJohn Baldwin #endif 1338d4b5cae4SRobert Watson 13392d22f334SRobert Watson /* 13402d22f334SRobert Watson * Sysctl monitoring for netisr: query a list of registered protocols. 13412d22f334SRobert Watson */ 13422d22f334SRobert Watson static int 13432d22f334SRobert Watson sysctl_netisr_proto(SYSCTL_HANDLER_ARGS) 13442d22f334SRobert Watson { 13452d22f334SRobert Watson struct rm_priotracker tracker; 13462d22f334SRobert Watson struct sysctl_netisr_proto *snpp, *snp_array; 13472d22f334SRobert Watson struct netisr_proto *npp; 13482d22f334SRobert Watson u_int counter, proto; 13492d22f334SRobert Watson int error; 13502d22f334SRobert Watson 13512d22f334SRobert Watson if (req->newptr != NULL) 13522d22f334SRobert Watson return (EINVAL); 13532d22f334SRobert Watson snp_array = malloc(sizeof(*snp_array) * NETISR_MAXPROT, M_TEMP, 13542d22f334SRobert Watson M_ZERO | M_WAITOK); 13552d22f334SRobert Watson counter = 0; 13562d22f334SRobert Watson NETISR_RLOCK(&tracker); 13572d22f334SRobert Watson for (proto = 0; proto < NETISR_MAXPROT; proto++) { 1358938448cdSRobert Watson npp = &netisr_proto[proto]; 13592d22f334SRobert Watson if (npp->np_name == NULL) 13602d22f334SRobert Watson continue; 13612d22f334SRobert Watson snpp = &snp_array[counter]; 13622d22f334SRobert Watson snpp->snp_version = sizeof(*snpp); 13632d22f334SRobert Watson strlcpy(snpp->snp_name, npp->np_name, NETISR_NAMEMAXLEN); 13642d22f334SRobert Watson snpp->snp_proto = proto; 13652d22f334SRobert Watson snpp->snp_qlimit = npp->np_qlimit; 13662d22f334SRobert Watson snpp->snp_policy = npp->np_policy; 1367f2d2d694SRobert Watson snpp->snp_dispatch = npp->np_dispatch; 13682d22f334SRobert Watson if (npp->np_m2flow != NULL) 13692d22f334SRobert Watson snpp->snp_flags |= NETISR_SNP_FLAGS_M2FLOW; 13702d22f334SRobert Watson if (npp->np_m2cpuid != NULL) 13712d22f334SRobert Watson snpp->snp_flags |= NETISR_SNP_FLAGS_M2CPUID; 13722d22f334SRobert Watson if (npp->np_drainedcpu != NULL) 13732d22f334SRobert Watson snpp->snp_flags |= NETISR_SNP_FLAGS_DRAINEDCPU; 13742d22f334SRobert Watson counter++; 13752d22f334SRobert Watson } 13762d22f334SRobert Watson NETISR_RUNLOCK(&tracker); 13777f450febSRobert Watson KASSERT(counter <= NETISR_MAXPROT, 13782d22f334SRobert Watson ("sysctl_netisr_proto: counter too big (%d)", counter)); 13792d22f334SRobert Watson error = SYSCTL_OUT(req, snp_array, sizeof(*snp_array) * counter); 13802d22f334SRobert Watson free(snp_array, M_TEMP); 13812d22f334SRobert Watson return (error); 13822d22f334SRobert Watson } 13832d22f334SRobert Watson 13842d22f334SRobert Watson SYSCTL_PROC(_net_isr, OID_AUTO, proto, 13852d22f334SRobert Watson CTLFLAG_RD|CTLTYPE_STRUCT|CTLFLAG_MPSAFE, 0, 0, sysctl_netisr_proto, 13862d22f334SRobert Watson "S,sysctl_netisr_proto", 13872d22f334SRobert Watson "Return list of protocols registered with netisr"); 13882d22f334SRobert Watson 13892d22f334SRobert Watson /* 13902d22f334SRobert Watson * Sysctl monitoring for netisr: query a list of workstreams. 13912d22f334SRobert Watson */ 13922d22f334SRobert Watson static int 13932d22f334SRobert Watson sysctl_netisr_workstream(SYSCTL_HANDLER_ARGS) 13942d22f334SRobert Watson { 13952d22f334SRobert Watson struct rm_priotracker tracker; 13962d22f334SRobert Watson struct sysctl_netisr_workstream *snwsp, *snws_array; 13972d22f334SRobert Watson struct netisr_workstream *nwsp; 13982d22f334SRobert Watson u_int counter, cpuid; 13992d22f334SRobert Watson int error; 14002d22f334SRobert Watson 14012d22f334SRobert Watson if (req->newptr != NULL) 14022d22f334SRobert Watson return (EINVAL); 14032d22f334SRobert Watson snws_array = malloc(sizeof(*snws_array) * MAXCPU, M_TEMP, 14042d22f334SRobert Watson M_ZERO | M_WAITOK); 14052d22f334SRobert Watson counter = 0; 14062d22f334SRobert Watson NETISR_RLOCK(&tracker); 14073aa6d94eSJohn Baldwin CPU_FOREACH(cpuid) { 14082d22f334SRobert Watson nwsp = DPCPU_ID_PTR(cpuid, nws); 14092d22f334SRobert Watson if (nwsp->nws_intr_event == NULL) 14102d22f334SRobert Watson continue; 14112d22f334SRobert Watson NWS_LOCK(nwsp); 14122d22f334SRobert Watson snwsp = &snws_array[counter]; 14132d22f334SRobert Watson snwsp->snws_version = sizeof(*snwsp); 14142d22f334SRobert Watson 14152d22f334SRobert Watson /* 14162d22f334SRobert Watson * For now, we equate workstream IDs and CPU IDs in the 14172d22f334SRobert Watson * kernel, but expose them independently to userspace in case 14182d22f334SRobert Watson * that assumption changes in the future. 14192d22f334SRobert Watson */ 14202d22f334SRobert Watson snwsp->snws_wsid = cpuid; 14212d22f334SRobert Watson snwsp->snws_cpu = cpuid; 14222d22f334SRobert Watson if (nwsp->nws_intr_event != NULL) 14232d22f334SRobert Watson snwsp->snws_flags |= NETISR_SNWS_FLAGS_INTR; 14242d22f334SRobert Watson NWS_UNLOCK(nwsp); 14252d22f334SRobert Watson counter++; 14262d22f334SRobert Watson } 14272d22f334SRobert Watson NETISR_RUNLOCK(&tracker); 14287f450febSRobert Watson KASSERT(counter <= MAXCPU, 14292d22f334SRobert Watson ("sysctl_netisr_workstream: counter too big (%d)", counter)); 14302d22f334SRobert Watson error = SYSCTL_OUT(req, snws_array, sizeof(*snws_array) * counter); 14312d22f334SRobert Watson free(snws_array, M_TEMP); 14322d22f334SRobert Watson return (error); 14332d22f334SRobert Watson } 14342d22f334SRobert Watson 14352d22f334SRobert Watson SYSCTL_PROC(_net_isr, OID_AUTO, workstream, 14362d22f334SRobert Watson CTLFLAG_RD|CTLTYPE_STRUCT|CTLFLAG_MPSAFE, 0, 0, sysctl_netisr_workstream, 14372d22f334SRobert Watson "S,sysctl_netisr_workstream", 14382d22f334SRobert Watson "Return list of workstreams implemented by netisr"); 14392d22f334SRobert Watson 14402d22f334SRobert Watson /* 14412d22f334SRobert Watson * Sysctl monitoring for netisr: query per-protocol data across all 14422d22f334SRobert Watson * workstreams. 14432d22f334SRobert Watson */ 14442d22f334SRobert Watson static int 14452d22f334SRobert Watson sysctl_netisr_work(SYSCTL_HANDLER_ARGS) 14462d22f334SRobert Watson { 14472d22f334SRobert Watson struct rm_priotracker tracker; 14482d22f334SRobert Watson struct sysctl_netisr_work *snwp, *snw_array; 14492d22f334SRobert Watson struct netisr_workstream *nwsp; 14502d22f334SRobert Watson struct netisr_proto *npp; 14512d22f334SRobert Watson struct netisr_work *nwp; 14522d22f334SRobert Watson u_int counter, cpuid, proto; 14532d22f334SRobert Watson int error; 14542d22f334SRobert Watson 14552d22f334SRobert Watson if (req->newptr != NULL) 14562d22f334SRobert Watson return (EINVAL); 14572d22f334SRobert Watson snw_array = malloc(sizeof(*snw_array) * MAXCPU * NETISR_MAXPROT, 14582d22f334SRobert Watson M_TEMP, M_ZERO | M_WAITOK); 14592d22f334SRobert Watson counter = 0; 14602d22f334SRobert Watson NETISR_RLOCK(&tracker); 14613aa6d94eSJohn Baldwin CPU_FOREACH(cpuid) { 14622d22f334SRobert Watson nwsp = DPCPU_ID_PTR(cpuid, nws); 14632d22f334SRobert Watson if (nwsp->nws_intr_event == NULL) 14642d22f334SRobert Watson continue; 14652d22f334SRobert Watson NWS_LOCK(nwsp); 14662d22f334SRobert Watson for (proto = 0; proto < NETISR_MAXPROT; proto++) { 1467938448cdSRobert Watson npp = &netisr_proto[proto]; 14682d22f334SRobert Watson if (npp->np_name == NULL) 14692d22f334SRobert Watson continue; 14702d22f334SRobert Watson nwp = &nwsp->nws_work[proto]; 14712d22f334SRobert Watson snwp = &snw_array[counter]; 14722d22f334SRobert Watson snwp->snw_version = sizeof(*snwp); 14732d22f334SRobert Watson snwp->snw_wsid = cpuid; /* See comment above. */ 14742d22f334SRobert Watson snwp->snw_proto = proto; 14752d22f334SRobert Watson snwp->snw_len = nwp->nw_len; 14762d22f334SRobert Watson snwp->snw_watermark = nwp->nw_watermark; 14772d22f334SRobert Watson snwp->snw_dispatched = nwp->nw_dispatched; 14782d22f334SRobert Watson snwp->snw_hybrid_dispatched = 14792d22f334SRobert Watson nwp->nw_hybrid_dispatched; 14802d22f334SRobert Watson snwp->snw_qdrops = nwp->nw_qdrops; 14812d22f334SRobert Watson snwp->snw_queued = nwp->nw_queued; 14822d22f334SRobert Watson snwp->snw_handled = nwp->nw_handled; 14832d22f334SRobert Watson counter++; 14842d22f334SRobert Watson } 14852d22f334SRobert Watson NWS_UNLOCK(nwsp); 14862d22f334SRobert Watson } 14877f450febSRobert Watson KASSERT(counter <= MAXCPU * NETISR_MAXPROT, 14882d22f334SRobert Watson ("sysctl_netisr_work: counter too big (%d)", counter)); 14892d22f334SRobert Watson NETISR_RUNLOCK(&tracker); 14902d22f334SRobert Watson error = SYSCTL_OUT(req, snw_array, sizeof(*snw_array) * counter); 14912d22f334SRobert Watson free(snw_array, M_TEMP); 14922d22f334SRobert Watson return (error); 14932d22f334SRobert Watson } 14942d22f334SRobert Watson 14952d22f334SRobert Watson SYSCTL_PROC(_net_isr, OID_AUTO, work, 14962d22f334SRobert Watson CTLFLAG_RD|CTLTYPE_STRUCT|CTLFLAG_MPSAFE, 0, 0, sysctl_netisr_work, 14972d22f334SRobert Watson "S,sysctl_netisr_work", 14982d22f334SRobert Watson "Return list of per-workstream, per-protocol work in netisr"); 14992d22f334SRobert Watson 1500d4b5cae4SRobert Watson #ifdef DDB 1501d4b5cae4SRobert Watson DB_SHOW_COMMAND(netisr, db_show_netisr) 1502d4b5cae4SRobert Watson { 1503d4b5cae4SRobert Watson struct netisr_workstream *nwsp; 1504d4b5cae4SRobert Watson struct netisr_work *nwp; 1505d4b5cae4SRobert Watson int first, proto; 150653402767SRobert Watson u_int cpuid; 1507d4b5cae4SRobert Watson 1508d4b5cae4SRobert Watson db_printf("%3s %6s %5s %5s %5s %8s %8s %8s %8s\n", "CPU", "Proto", 1509d4b5cae4SRobert Watson "Len", "WMark", "Max", "Disp", "HDisp", "Drop", "Queue"); 15103aa6d94eSJohn Baldwin CPU_FOREACH(cpuid) { 151153402767SRobert Watson nwsp = DPCPU_ID_PTR(cpuid, nws); 1512d4b5cae4SRobert Watson if (nwsp->nws_intr_event == NULL) 1513d4b5cae4SRobert Watson continue; 1514d4b5cae4SRobert Watson first = 1; 1515d4b5cae4SRobert Watson for (proto = 0; proto < NETISR_MAXPROT; proto++) { 1516938448cdSRobert Watson if (netisr_proto[proto].np_handler == NULL) 1517d4b5cae4SRobert Watson continue; 1518d4b5cae4SRobert Watson nwp = &nwsp->nws_work[proto]; 1519d4b5cae4SRobert Watson if (first) { 152053402767SRobert Watson db_printf("%3d ", cpuid); 1521d4b5cae4SRobert Watson first = 0; 1522d4b5cae4SRobert Watson } else 1523d4b5cae4SRobert Watson db_printf("%3s ", ""); 1524d4b5cae4SRobert Watson db_printf( 1525d4b5cae4SRobert Watson "%6s %5d %5d %5d %8ju %8ju %8ju %8ju\n", 1526938448cdSRobert Watson netisr_proto[proto].np_name, nwp->nw_len, 1527d4b5cae4SRobert Watson nwp->nw_watermark, nwp->nw_qlimit, 1528d4b5cae4SRobert Watson nwp->nw_dispatched, nwp->nw_hybrid_dispatched, 1529d4b5cae4SRobert Watson nwp->nw_qdrops, nwp->nw_queued); 1530d4b5cae4SRobert Watson } 1531d4b5cae4SRobert Watson } 1532d4b5cae4SRobert Watson } 1533d4b5cae4SRobert Watson #endif 1534