/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * The intent of this file is to contain any data that must remain * resident in the kernel. * * space_store(), space_fetch(), and space_free() have been added to * easily store and retrieve kernel resident data. * These functions are recommended rather than adding new variables to * this file. * * Note that it's possible for name collisions to occur. In order to * prevent collisions, it's recommended that the convention in * PSARC/1997/389 be used. If a collision occurs, then space_store will * fail. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include struct buf bfreelist; /* Head of the free list of buffers */ sysinfo_t sysinfo; vminfo_t vminfo; /* VM stats protected by sysinfolock mutex */ #ifdef lint int __lintzero; /* Alway zero for shutting up lint */ #endif /* * The following describe the physical memory configuration. * * physmem - The amount of physical memory configured * in pages. ptob(physmem) is the amount * of physical memory in bytes. Defined in * .../os/startup.c. * * physmax - The highest numbered physical page in memory. * * maxmem - Maximum available memory, in pages. Defined * in main.c. * * physinstalled * - Pages of physical memory installed; * includes use by PROM/boot not counted in * physmem. */ pfn_t physmax; pgcnt_t physinstalled; struct var v; #include #include #include #include #include /* * Data from swapgeneric.c that must be resident. */ struct vnode *rootvp; /* vnode of the root device */ dev_t rootdev; /* dev_t of the root device */ int root_is_svm; /* root is a mirrored device flag */ int netboot; int obpdebug; char *dhcack; /* Used to cache ascii form of DHCPACK handed up by boot */ char *netdev_path; /* Used to cache the netdev_path handed up by boot */ /* * Data from arp.c that must be resident. */ #include #include #include #include #include #include #include #include #include #include #include ether_addr_t etherbroadcastaddr = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; /* * Data from timod that must be resident */ /* * state transition table for TI interface */ #include #define nr 127 /* not reachable */ char ti_statetbl[TE_NOEVENTS][TS_NOSTATES] = { /* STATES */ /* 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 */ { 1, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, 2, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, 4, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, 3, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, 3, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, 0, 3, nr, 3, 3, nr, nr, 7, nr, nr, nr, 6, 7, 9, 10, 11}, {nr, nr, 0, nr, nr, 6, nr, nr, nr, nr, nr, nr, 3, nr, 3, 3, 3}, {nr, nr, nr, nr, nr, nr, nr, nr, 9, nr, nr, nr, nr, 3, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, nr, 3, nr, nr, nr, nr, 3, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, nr, 7, nr, nr, nr, nr, 7, nr, nr, nr}, {nr, nr, nr, 5, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, 8, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, 12, 13, nr, 14, 15, 16, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, nr, nr, 9, nr, 11, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, nr, nr, 9, nr, 11, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, nr, nr, 10, nr, 3, nr, nr, nr, nr, nr}, {nr, nr, nr, 7, nr, nr, nr, 7, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, 9, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, nr, nr, 9, 10, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, nr, nr, 9, 10, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, nr, nr, 11, 3, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, 3, nr, nr, 3, 3, 3, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, 3, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, nr, nr, nr, nr, 7, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, 9, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, 3, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, 3, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, {nr, nr, nr, 3, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr, nr}, }; #include #include #include static void store_fetch_initspace(); /* * Allocate tunable structures at runtime. */ void space_init(void) { sad_initspace(); pty_initspace(); store_fetch_initspace(); } int ts_dispatch_extended = -1; /* set in ts_getdptbl or set_platform_default */ /* * Previously defined in consmsconf.c ... */ dev_t kbddev = NODEV; dev_t mousedev = NODEV; dev_t stdindev = NODEV; struct vnode *wsconsvp; dev_t fbdev = NODEV; struct vnode *fbvp; dev_info_t *fbdip; /* * moved from cons.c because they must be resident in the kernel. */ vnode_t *rconsvp; dev_t rconsdev; dev_t uconsdev = NODEV; /* * This flag, when set marks rconsvp in a transition state. */ int cn_conf; /* * Moved from sad_conf.c because of the usual in loadable modules */ #ifndef NSTRPHASH #define NSTRPHASH 128 #endif struct autopush **strpcache; int strpmask = NSTRPHASH - 1; /* * Moved here from wscons.c * Package the redirection-related routines into an ops vector of the form * that the redirecting driver expects. */ extern int wcvnget(); extern void wcvnrele(); srvnops_t wscons_srvnops = { wcvnget, wcvnrele }; /* * consconfig() in autoconf.c sets this; it's the vnode of the distinguished * keyboard/frame buffer combination, aka the workstation console. */ vnode_t *rwsconsvp; dev_t rwsconsdev; /* * Platform console abort policy. * Platforms may override the default software policy, if such hardware * (e.g. keyswitches with a secure position) exists. */ int abort_enable = KIOCABORTENABLE; /* from iwscons.c */ kthread_id_t iwscn_thread; /* thread that is allowed to push redirm */ wcm_data_t *iwscn_wcm_data; /* allocated data for redirm */ /* from cpc.c */ uint_t kcpc_key; /* TSD key for CPU performance counter context */ /* * storing and retrieving data by string key * * this mechanism allows a consumer to store and retrieve by name a pointer * to some space maintained by the consumer. * For example, a driver or module may want to have persistent data * over unloading/loading cycles. The pointer is typically to some * kmem_alloced space and it should not be pointing to data that will * be destroyed when the module is unloaded. */ static mod_hash_t *space_hash; static char *space_hash_name = "space_hash"; static size_t space_hash_nchains = 8; static void store_fetch_initspace() { space_hash = mod_hash_create_strhash(space_hash_name, space_hash_nchains, mod_hash_null_valdtor); ASSERT(space_hash); } int space_store(char *key, uintptr_t ptr) { char *s; int rval; size_t l; /* some sanity checks first */ if (key == NULL) { return (-1); } l = (size_t)strlen(key); if (l == 0) { return (-1); } /* increment for null terminator */ l++; /* alloc space for the string, mod_hash_insert will deallocate */ s = kmem_alloc(l, KM_SLEEP); bcopy(key, s, l); rval = mod_hash_insert(space_hash, (mod_hash_key_t)s, (mod_hash_val_t)ptr); switch (rval) { case 0: break; #ifdef DEBUG case MH_ERR_DUPLICATE: cmn_err(CE_WARN, "space_store: duplicate key %s", key); rval = -1; break; case MH_ERR_NOMEM: cmn_err(CE_WARN, "space_store: no mem for key %s", key); rval = -1; break; default: cmn_err(CE_WARN, "space_store: unspecified error for key %s", key); rval = -1; break; #else default: rval = -1; break; #endif } return (rval); } uintptr_t space_fetch(char *key) { uintptr_t ptr = 0; mod_hash_val_t val; int rval; if (key) { rval = mod_hash_find(space_hash, (mod_hash_key_t)key, &val); if (rval == 0) { ptr = (uintptr_t)val; } } return (ptr); } void space_free(char *key) { if (key) { (void) mod_hash_destroy(space_hash, (mod_hash_key_t)key); } } /* * Support for CRC32. At present all calculations are done in simple * macros, so all we need is somewhere to declare the global lookup table. */ #include const uint32_t crc32_table[256] = { CRC32_TABLE }; /* * We need to fanout load from NIC which can overwhelm a single * CPU. A 10Gb NIC interrupting a single CPU is a good example. * Instead of fanning out to random CPUs, it a big performance * win if you can fanout to the threads on the same core (niagara) * that is taking interrupts. * * We need a better mechanism to figure out the other threads on * the same core or cores on the same chip which share caches etc. * but for time being, this will suffice. */ #define NUMBER_OF_THREADS_PER_CPU 4 uint_t ip_threads_per_cpu = NUMBER_OF_THREADS_PER_CPU; /* Global flag to enable/disable soft ring facility */ boolean_t ip_squeue_soft_ring = B_FALSE;