17c478bd9Sstevel@tonic-gate /* 27c478bd9Sstevel@tonic-gate * CDDL HEADER START 37c478bd9Sstevel@tonic-gate * 47c478bd9Sstevel@tonic-gate * The contents of this file are subject to the terms of the 5ae115bc7Smrj * Common Development and Distribution License (the "License"). 6ae115bc7Smrj * You may not use this file except in compliance with the License. 77c478bd9Sstevel@tonic-gate * 87c478bd9Sstevel@tonic-gate * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 97c478bd9Sstevel@tonic-gate * or http://www.opensolaris.org/os/licensing. 107c478bd9Sstevel@tonic-gate * See the License for the specific language governing permissions 117c478bd9Sstevel@tonic-gate * and limitations under the License. 127c478bd9Sstevel@tonic-gate * 137c478bd9Sstevel@tonic-gate * When distributing Covered Code, include this CDDL HEADER in each 147c478bd9Sstevel@tonic-gate * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 157c478bd9Sstevel@tonic-gate * If applicable, add the following below this CDDL HEADER, with the 167c478bd9Sstevel@tonic-gate * fields enclosed by brackets "[]" replaced with your own identifying 177c478bd9Sstevel@tonic-gate * information: Portions Copyright [yyyy] [name of copyright owner] 187c478bd9Sstevel@tonic-gate * 197c478bd9Sstevel@tonic-gate * CDDL HEADER END 207c478bd9Sstevel@tonic-gate */ 21342440ecSPrasad Singamsetty 227c478bd9Sstevel@tonic-gate /* 2365908c77Syu, larry liu - Sun Microsystems - Beijing China * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 247c478bd9Sstevel@tonic-gate * Use is subject to license terms. 257c478bd9Sstevel@tonic-gate */ 267c478bd9Sstevel@tonic-gate 277c478bd9Sstevel@tonic-gate #include <sys/types.h> 287c478bd9Sstevel@tonic-gate #include <sys/param.h> 297c478bd9Sstevel@tonic-gate #include <sys/systm.h> 307c478bd9Sstevel@tonic-gate #include <sys/vm.h> 317c478bd9Sstevel@tonic-gate #include <sys/proc.h> 327c478bd9Sstevel@tonic-gate #include <sys/file.h> 337c478bd9Sstevel@tonic-gate #include <sys/conf.h> 347c478bd9Sstevel@tonic-gate #include <sys/kmem.h> 357c478bd9Sstevel@tonic-gate #include <sys/mem.h> 367c478bd9Sstevel@tonic-gate #include <sys/mman.h> 377c478bd9Sstevel@tonic-gate #include <sys/vnode.h> 387c478bd9Sstevel@tonic-gate #include <sys/errno.h> 397c478bd9Sstevel@tonic-gate #include <sys/memlist.h> 407c478bd9Sstevel@tonic-gate #include <sys/dumphdr.h> 417c478bd9Sstevel@tonic-gate #include <sys/dumpadm.h> 427c478bd9Sstevel@tonic-gate #include <sys/ksyms.h> 437c478bd9Sstevel@tonic-gate #include <sys/compress.h> 447c478bd9Sstevel@tonic-gate #include <sys/stream.h> 457c478bd9Sstevel@tonic-gate #include <sys/strsun.h> 467c478bd9Sstevel@tonic-gate #include <sys/cmn_err.h> 477c478bd9Sstevel@tonic-gate #include <sys/bitmap.h> 487c478bd9Sstevel@tonic-gate #include <sys/modctl.h> 497c478bd9Sstevel@tonic-gate #include <sys/utsname.h> 507c478bd9Sstevel@tonic-gate #include <sys/systeminfo.h> 517c478bd9Sstevel@tonic-gate #include <sys/vmem.h> 527c478bd9Sstevel@tonic-gate #include <sys/log.h> 537c478bd9Sstevel@tonic-gate #include <sys/var.h> 547c478bd9Sstevel@tonic-gate #include <sys/debug.h> 557c478bd9Sstevel@tonic-gate #include <sys/sunddi.h> 567c478bd9Sstevel@tonic-gate #include <fs/fs_subr.h> 577c478bd9Sstevel@tonic-gate #include <sys/fs/snode.h> 587c478bd9Sstevel@tonic-gate #include <sys/ontrap.h> 597c478bd9Sstevel@tonic-gate #include <sys/panic.h> 607c478bd9Sstevel@tonic-gate #include <sys/dkio.h> 617c478bd9Sstevel@tonic-gate #include <sys/vtoc.h> 627c478bd9Sstevel@tonic-gate #include <sys/errorq.h> 637c478bd9Sstevel@tonic-gate #include <sys/fm/util.h> 64e7cbe64fSgw25295 #include <sys/fs/zfs.h> 657c478bd9Sstevel@tonic-gate 667c478bd9Sstevel@tonic-gate #include <vm/hat.h> 677c478bd9Sstevel@tonic-gate #include <vm/as.h> 687c478bd9Sstevel@tonic-gate #include <vm/page.h> 69*ca3e8d88SDave Plauger #include <vm/pvn.h> 707c478bd9Sstevel@tonic-gate #include <vm/seg.h> 717c478bd9Sstevel@tonic-gate #include <vm/seg_kmem.h> 727c478bd9Sstevel@tonic-gate 73*ca3e8d88SDave Plauger #include <bzip2/bzlib.h> 74*ca3e8d88SDave Plauger 75*ca3e8d88SDave Plauger /* 76*ca3e8d88SDave Plauger * Crash dump time is dominated by disk write time. To reduce this, 77*ca3e8d88SDave Plauger * the stronger compression method bzip2 is applied to reduce the dump 78*ca3e8d88SDave Plauger * size and hence reduce I/O time. However, bzip2 is much more 79*ca3e8d88SDave Plauger * computationally expensive than the existing lzjb algorithm, so to 80*ca3e8d88SDave Plauger * avoid increasing compression time, CPUs that are otherwise idle 81*ca3e8d88SDave Plauger * during panic are employed to parallelize the compression task. 82*ca3e8d88SDave Plauger * Many helper CPUs are needed to prevent bzip2 from being a 83*ca3e8d88SDave Plauger * bottleneck, and on systems with too few CPUs, the lzjb algorithm is 84*ca3e8d88SDave Plauger * parallelized instead. Lastly, I/O and compression are performed by 85*ca3e8d88SDave Plauger * different CPUs, and are hence overlapped in time, unlike the older 86*ca3e8d88SDave Plauger * serial code. 87*ca3e8d88SDave Plauger * 88*ca3e8d88SDave Plauger * Another important consideration is the speed of the dump 89*ca3e8d88SDave Plauger * device. Faster disks need less CPUs in order to benefit from 90*ca3e8d88SDave Plauger * parallel lzjb versus parallel bzip2. Therefore, the CPU count 91*ca3e8d88SDave Plauger * threshold for switching from parallel lzjb to paralled bzip2 is 92*ca3e8d88SDave Plauger * elevated for faster disks. The dump device speed is adduced from 93*ca3e8d88SDave Plauger * the setting for dumpbuf.iosize, see dump_update_clevel. 94*ca3e8d88SDave Plauger */ 95*ca3e8d88SDave Plauger 96*ca3e8d88SDave Plauger /* 97*ca3e8d88SDave Plauger * exported vars 98*ca3e8d88SDave Plauger */ 997c478bd9Sstevel@tonic-gate kmutex_t dump_lock; /* lock for dump configuration */ 1007c478bd9Sstevel@tonic-gate dumphdr_t *dumphdr; /* dump header */ 1017c478bd9Sstevel@tonic-gate int dump_conflags = DUMP_KERNEL; /* dump configuration flags */ 1027c478bd9Sstevel@tonic-gate vnode_t *dumpvp; /* dump device vnode pointer */ 1037c478bd9Sstevel@tonic-gate u_offset_t dumpvp_size; /* size of dump device, in bytes */ 1047c478bd9Sstevel@tonic-gate char *dumppath; /* pathname of dump device */ 105*ca3e8d88SDave Plauger int dump_timeout = 120; /* timeout for dumping pages */ 1067c478bd9Sstevel@tonic-gate int dump_timeleft; /* portion of dump_timeout remaining */ 107843e1988Sjohnlev int dump_ioerr; /* dump i/o error */ 108*ca3e8d88SDave Plauger int dump_check_used; /* enable check for used pages */ 1097c478bd9Sstevel@tonic-gate 1107c478bd9Sstevel@tonic-gate /* 111*ca3e8d88SDave Plauger * Tunables for dump compression and parallelism. These can be set via 112*ca3e8d88SDave Plauger * /etc/system. 113*ca3e8d88SDave Plauger * 114*ca3e8d88SDave Plauger * dump_ncpu_low number of helpers for parallel lzjb 115*ca3e8d88SDave Plauger * This is also the minimum configuration. 116*ca3e8d88SDave Plauger * 117*ca3e8d88SDave Plauger * dump_bzip2_level bzip2 compression level: 1-9 118*ca3e8d88SDave Plauger * Higher numbers give greater compression, but take more memory 119*ca3e8d88SDave Plauger * and time. Memory used per helper is ~(dump_bzip2_level * 1MB). 120*ca3e8d88SDave Plauger * 121*ca3e8d88SDave Plauger * dump_plat_mincpu the cross-over limit for using bzip2 (per platform): 122*ca3e8d88SDave Plauger * if dump_plat_mincpu == 0, then always do single threaded dump 123*ca3e8d88SDave Plauger * if ncpu >= dump_plat_mincpu then try to use bzip2 124*ca3e8d88SDave Plauger * 125*ca3e8d88SDave Plauger * dump_metrics_on if set, metrics are collected in the kernel, passed 126*ca3e8d88SDave Plauger * to savecore via the dump file, and recorded by savecore in 127*ca3e8d88SDave Plauger * METRICS.txt. 1287c478bd9Sstevel@tonic-gate */ 129*ca3e8d88SDave Plauger uint_t dump_ncpu_low = 4; /* minimum config for parallel lzjb */ 130*ca3e8d88SDave Plauger uint_t dump_bzip2_level = 1; /* bzip2 level (1-9) */ 131*ca3e8d88SDave Plauger 132*ca3e8d88SDave Plauger /* Define multiple buffers per helper to avoid stalling */ 133*ca3e8d88SDave Plauger #define NCBUF_PER_HELPER 2 134*ca3e8d88SDave Plauger #define NCMAP_PER_HELPER 4 135*ca3e8d88SDave Plauger 136*ca3e8d88SDave Plauger /* minimum number of helpers configured */ 137*ca3e8d88SDave Plauger #define MINHELPERS (dump_ncpu_low) 138*ca3e8d88SDave Plauger #define MINCBUFS (MINHELPERS * NCBUF_PER_HELPER) 139*ca3e8d88SDave Plauger 140*ca3e8d88SDave Plauger /* 141*ca3e8d88SDave Plauger * Define constant parameters. 142*ca3e8d88SDave Plauger * 143*ca3e8d88SDave Plauger * CBUF_SIZE size of an output buffer 144*ca3e8d88SDave Plauger * 145*ca3e8d88SDave Plauger * CBUF_MAPSIZE size of virtual range for mapping pages 146*ca3e8d88SDave Plauger * 147*ca3e8d88SDave Plauger * CBUF_MAPNP size of virtual range in pages 148*ca3e8d88SDave Plauger * 149*ca3e8d88SDave Plauger */ 150*ca3e8d88SDave Plauger #define DUMP_1KB ((size_t)1 << 10) 151*ca3e8d88SDave Plauger #define DUMP_1MB ((size_t)1 << 20) 152*ca3e8d88SDave Plauger #define CBUF_SIZE ((size_t)1 << 17) 153*ca3e8d88SDave Plauger #define CBUF_MAPSHIFT (22) 154*ca3e8d88SDave Plauger #define CBUF_MAPSIZE ((size_t)1 << CBUF_MAPSHIFT) 155*ca3e8d88SDave Plauger #define CBUF_MAPNP ((size_t)1 << (CBUF_MAPSHIFT - PAGESHIFT)) 156*ca3e8d88SDave Plauger 157*ca3e8d88SDave Plauger /* 158*ca3e8d88SDave Plauger * Compression metrics are accumulated nano-second subtotals. The 159*ca3e8d88SDave Plauger * results are normalized by the number of pages dumped. A report is 160*ca3e8d88SDave Plauger * generated when dumpsys() completes and is saved in the dump image 161*ca3e8d88SDave Plauger * after the trailing dump header. 162*ca3e8d88SDave Plauger * 163*ca3e8d88SDave Plauger * Metrics are always collected. Set the variable dump_metrics_on to 164*ca3e8d88SDave Plauger * cause metrics to be saved in the crash file, where savecore will 165*ca3e8d88SDave Plauger * save it in the file METRICS.txt. 166*ca3e8d88SDave Plauger */ 167*ca3e8d88SDave Plauger #define PERPAGES \ 168*ca3e8d88SDave Plauger PERPAGE(bitmap) PERPAGE(map) PERPAGE(unmap) \ 169*ca3e8d88SDave Plauger PERPAGE(copy) PERPAGE(compress) \ 170*ca3e8d88SDave Plauger PERPAGE(write) \ 171*ca3e8d88SDave Plauger PERPAGE(inwait) PERPAGE(outwait) 172*ca3e8d88SDave Plauger 173*ca3e8d88SDave Plauger typedef struct perpage { 174*ca3e8d88SDave Plauger #define PERPAGE(x) hrtime_t x; 175*ca3e8d88SDave Plauger PERPAGES 176*ca3e8d88SDave Plauger #undef PERPAGE 177*ca3e8d88SDave Plauger } perpage_t; 178*ca3e8d88SDave Plauger 179*ca3e8d88SDave Plauger /* 180*ca3e8d88SDave Plauger * This macro controls the code generation for collecting dump 181*ca3e8d88SDave Plauger * performance information. By default, the code is generated, but 182*ca3e8d88SDave Plauger * automatic saving of the information is disabled. If dump_metrics_on 183*ca3e8d88SDave Plauger * is set to 1, the timing information is passed to savecore via the 184*ca3e8d88SDave Plauger * crash file, where it is appended to the file dump-dir/METRICS.txt. 185*ca3e8d88SDave Plauger */ 186*ca3e8d88SDave Plauger #define COLLECT_METRICS 187*ca3e8d88SDave Plauger 188*ca3e8d88SDave Plauger #ifdef COLLECT_METRICS 189*ca3e8d88SDave Plauger uint_t dump_metrics_on = 0; /* set to 1 to enable recording metrics */ 190*ca3e8d88SDave Plauger 191*ca3e8d88SDave Plauger #define HRSTART(v, m) v##ts.m = gethrtime() 192*ca3e8d88SDave Plauger #define HRSTOP(v, m) v.m += gethrtime() - v##ts.m 193*ca3e8d88SDave Plauger #define HRBEGIN(v, m, s) v##ts.m = gethrtime(); v.size += s 194*ca3e8d88SDave Plauger #define HREND(v, m) v.m += gethrtime() - v##ts.m 195*ca3e8d88SDave Plauger #define HRNORM(v, m, n) v.m /= (n) 196*ca3e8d88SDave Plauger 197*ca3e8d88SDave Plauger #else 198*ca3e8d88SDave Plauger #define HRSTART(v, m) 199*ca3e8d88SDave Plauger #define HRSTOP(v, m) 200*ca3e8d88SDave Plauger #define HRBEGIN(v, m, s) 201*ca3e8d88SDave Plauger #define HREND(v, m) 202*ca3e8d88SDave Plauger #define HRNORM(v, m, n) 203*ca3e8d88SDave Plauger #endif /* COLLECT_METRICS */ 204*ca3e8d88SDave Plauger 205*ca3e8d88SDave Plauger /* 206*ca3e8d88SDave Plauger * Buffers for copying and compressing memory pages. 207*ca3e8d88SDave Plauger * 208*ca3e8d88SDave Plauger * cbuf_t buffer controllers: used for both input and output. 209*ca3e8d88SDave Plauger * 210*ca3e8d88SDave Plauger * The buffer state indicates how it is being used: 211*ca3e8d88SDave Plauger * 212*ca3e8d88SDave Plauger * CBUF_FREEMAP: CBUF_MAPSIZE virtual address range is available for 213*ca3e8d88SDave Plauger * mapping input pages. 214*ca3e8d88SDave Plauger * 215*ca3e8d88SDave Plauger * CBUF_INREADY: input pages are mapped and ready for compression by a 216*ca3e8d88SDave Plauger * helper. 217*ca3e8d88SDave Plauger * 218*ca3e8d88SDave Plauger * CBUF_USEDMAP: mapping has been consumed by a helper. Needs unmap. 219*ca3e8d88SDave Plauger * 220*ca3e8d88SDave Plauger * CBUF_FREEBUF: CBUF_SIZE output buffer, which is available. 221*ca3e8d88SDave Plauger * 222*ca3e8d88SDave Plauger * CBUF_WRITE: CBUF_SIZE block of compressed pages from a helper, 223*ca3e8d88SDave Plauger * ready to write out. 224*ca3e8d88SDave Plauger * 225*ca3e8d88SDave Plauger * CBUF_ERRMSG: CBUF_SIZE block of error messages from a helper 226*ca3e8d88SDave Plauger * (reports UE errors.) 227*ca3e8d88SDave Plauger */ 228*ca3e8d88SDave Plauger 229*ca3e8d88SDave Plauger typedef enum cbufstate { 230*ca3e8d88SDave Plauger CBUF_FREEMAP, 231*ca3e8d88SDave Plauger CBUF_INREADY, 232*ca3e8d88SDave Plauger CBUF_USEDMAP, 233*ca3e8d88SDave Plauger CBUF_FREEBUF, 234*ca3e8d88SDave Plauger CBUF_WRITE, 235*ca3e8d88SDave Plauger CBUF_ERRMSG 236*ca3e8d88SDave Plauger } cbufstate_t; 237*ca3e8d88SDave Plauger 238*ca3e8d88SDave Plauger typedef struct cbuf cbuf_t; 239*ca3e8d88SDave Plauger 240*ca3e8d88SDave Plauger struct cbuf { 241*ca3e8d88SDave Plauger cbuf_t *next; /* next in list */ 242*ca3e8d88SDave Plauger cbufstate_t state; /* processing state */ 243*ca3e8d88SDave Plauger size_t used; /* amount used */ 244*ca3e8d88SDave Plauger size_t size; /* mem size */ 245*ca3e8d88SDave Plauger char *buf; /* kmem or vmem */ 246*ca3e8d88SDave Plauger pgcnt_t pagenum; /* index to pfn map */ 247*ca3e8d88SDave Plauger pgcnt_t bitnum; /* first set bitnum */ 248*ca3e8d88SDave Plauger pfn_t pfn; /* first pfn in mapped range */ 249*ca3e8d88SDave Plauger int off; /* byte offset to first pfn */ 250*ca3e8d88SDave Plauger }; 251*ca3e8d88SDave Plauger 252*ca3e8d88SDave Plauger /* 253*ca3e8d88SDave Plauger * cqueue_t queues: a uni-directional channel for communication 254*ca3e8d88SDave Plauger * from the master to helper tasks or vice-versa using put and 255*ca3e8d88SDave Plauger * get primitives. Both mappings and data buffers are passed via 256*ca3e8d88SDave Plauger * queues. Producers close a queue when done. The number of 257*ca3e8d88SDave Plauger * active producers is reference counted so the consumer can 258*ca3e8d88SDave Plauger * detect end of data. Concurrent access is mediated by atomic 259*ca3e8d88SDave Plauger * operations for panic dump, or mutex/cv for live dump. 260*ca3e8d88SDave Plauger * 261*ca3e8d88SDave Plauger * There a four queues, used as follows: 262*ca3e8d88SDave Plauger * 263*ca3e8d88SDave Plauger * Queue Dataflow NewState 264*ca3e8d88SDave Plauger * -------------------------------------------------- 265*ca3e8d88SDave Plauger * mainq master -> master FREEMAP 266*ca3e8d88SDave Plauger * master has initialized or unmapped an input buffer 267*ca3e8d88SDave Plauger * -------------------------------------------------- 268*ca3e8d88SDave Plauger * helperq master -> helper INREADY 269*ca3e8d88SDave Plauger * master has mapped input for use by helper 270*ca3e8d88SDave Plauger * -------------------------------------------------- 271*ca3e8d88SDave Plauger * mainq master <- helper USEDMAP 272*ca3e8d88SDave Plauger * helper is done with input 273*ca3e8d88SDave Plauger * -------------------------------------------------- 274*ca3e8d88SDave Plauger * freebufq master -> helper FREEBUF 275*ca3e8d88SDave Plauger * master has initialized or written an output buffer 276*ca3e8d88SDave Plauger * -------------------------------------------------- 277*ca3e8d88SDave Plauger * mainq master <- helper WRITE 278*ca3e8d88SDave Plauger * block of compressed pages from a helper 279*ca3e8d88SDave Plauger * -------------------------------------------------- 280*ca3e8d88SDave Plauger * mainq master <- helper ERRMSG 281*ca3e8d88SDave Plauger * error messages from a helper (memory error case) 282*ca3e8d88SDave Plauger * -------------------------------------------------- 283*ca3e8d88SDave Plauger * writerq master <- master WRITE 284*ca3e8d88SDave Plauger * non-blocking queue of blocks to write 285*ca3e8d88SDave Plauger * -------------------------------------------------- 286*ca3e8d88SDave Plauger */ 287*ca3e8d88SDave Plauger typedef struct cqueue { 288*ca3e8d88SDave Plauger cbuf_t *volatile first; /* first in list */ 289*ca3e8d88SDave Plauger cbuf_t *last; /* last in list */ 290*ca3e8d88SDave Plauger hrtime_t ts; /* timestamp */ 291*ca3e8d88SDave Plauger hrtime_t empty; /* total time empty */ 292*ca3e8d88SDave Plauger kmutex_t mutex; /* live state lock */ 293*ca3e8d88SDave Plauger kcondvar_t cv; /* live wait var */ 294*ca3e8d88SDave Plauger lock_t spinlock; /* panic mode spin lock */ 295*ca3e8d88SDave Plauger volatile uint_t open; /* producer ref count */ 296*ca3e8d88SDave Plauger } cqueue_t; 297*ca3e8d88SDave Plauger 298*ca3e8d88SDave Plauger /* 299*ca3e8d88SDave Plauger * Convenience macros for using the cqueue functions 300*ca3e8d88SDave Plauger * Note that the caller must have defined "dumpsync_t *ds" 301*ca3e8d88SDave Plauger */ 302*ca3e8d88SDave Plauger #define CQ_IS_EMPTY(q) \ 303*ca3e8d88SDave Plauger (ds->q.first == NULL) 304*ca3e8d88SDave Plauger 305*ca3e8d88SDave Plauger #define CQ_OPEN(q) \ 306*ca3e8d88SDave Plauger atomic_inc_uint(&ds->q.open) 307*ca3e8d88SDave Plauger 308*ca3e8d88SDave Plauger #define CQ_CLOSE(q) \ 309*ca3e8d88SDave Plauger dumpsys_close_cq(&ds->q, ds->live) 310*ca3e8d88SDave Plauger 311*ca3e8d88SDave Plauger #define CQ_PUT(q, cp, st) \ 312*ca3e8d88SDave Plauger dumpsys_put_cq(&ds->q, cp, st, ds->live) 313*ca3e8d88SDave Plauger 314*ca3e8d88SDave Plauger #define CQ_GET(q) \ 315*ca3e8d88SDave Plauger dumpsys_get_cq(&ds->q, ds->live) 316*ca3e8d88SDave Plauger 317*ca3e8d88SDave Plauger /* 318*ca3e8d88SDave Plauger * Dynamic state when dumpsys() is running. 319*ca3e8d88SDave Plauger */ 320*ca3e8d88SDave Plauger typedef struct dumpsync { 321*ca3e8d88SDave Plauger pgcnt_t npages; /* subtotal of pages dumped */ 322*ca3e8d88SDave Plauger pgcnt_t pages_mapped; /* subtotal of pages mapped */ 323*ca3e8d88SDave Plauger pgcnt_t pages_used; /* subtotal of pages used per map */ 324*ca3e8d88SDave Plauger size_t nwrite; /* subtotal of bytes written */ 325*ca3e8d88SDave Plauger uint_t live; /* running live dump */ 326*ca3e8d88SDave Plauger uint_t neednl; /* will need to print a newline */ 327*ca3e8d88SDave Plauger uint_t percent; /* dump progress */ 328*ca3e8d88SDave Plauger uint_t percent_done; /* dump progress reported */ 329*ca3e8d88SDave Plauger cqueue_t freebufq; /* free kmem bufs for writing */ 330*ca3e8d88SDave Plauger cqueue_t mainq; /* input for main task */ 331*ca3e8d88SDave Plauger cqueue_t helperq; /* input for helpers */ 332*ca3e8d88SDave Plauger cqueue_t writerq; /* input for writer */ 333*ca3e8d88SDave Plauger hrtime_t start; /* start time */ 334*ca3e8d88SDave Plauger hrtime_t elapsed; /* elapsed time when completed */ 335*ca3e8d88SDave Plauger hrtime_t iotime; /* time spent writing nwrite bytes */ 336*ca3e8d88SDave Plauger hrtime_t iowait; /* time spent waiting for output */ 337*ca3e8d88SDave Plauger hrtime_t iowaitts; /* iowait timestamp */ 338*ca3e8d88SDave Plauger perpage_t perpage; /* metrics */ 339*ca3e8d88SDave Plauger perpage_t perpagets; 340*ca3e8d88SDave Plauger int dumpcpu; /* master cpu */ 341*ca3e8d88SDave Plauger } dumpsync_t; 342*ca3e8d88SDave Plauger 343*ca3e8d88SDave Plauger static dumpsync_t dumpsync; /* synchronization vars */ 344*ca3e8d88SDave Plauger 345*ca3e8d88SDave Plauger /* 346*ca3e8d88SDave Plauger * helper_t helpers: contains the context for a stream. CPUs run in 347*ca3e8d88SDave Plauger * parallel at dump time; each CPU creates a single stream of 348*ca3e8d88SDave Plauger * compression data. Stream data is divided into CBUF_SIZE blocks. 349*ca3e8d88SDave Plauger * The blocks are written in order within a stream. But, blocks from 350*ca3e8d88SDave Plauger * multiple streams can be interleaved. Each stream is identified by a 351*ca3e8d88SDave Plauger * unique tag. 352*ca3e8d88SDave Plauger */ 353*ca3e8d88SDave Plauger typedef struct helper { 354*ca3e8d88SDave Plauger int helper; /* bound helper id */ 355*ca3e8d88SDave Plauger int tag; /* compression stream tag */ 356*ca3e8d88SDave Plauger perpage_t perpage; /* per page metrics */ 357*ca3e8d88SDave Plauger perpage_t perpagets; /* per page metrics (timestamps) */ 358*ca3e8d88SDave Plauger taskqid_t taskqid; /* live dump task ptr */ 359*ca3e8d88SDave Plauger int in, out; /* buffer offsets */ 360*ca3e8d88SDave Plauger cbuf_t *cpin, *cpout, *cperr; /* cbuf objects in process */ 361*ca3e8d88SDave Plauger dumpsync_t *ds; /* pointer to sync vars */ 362*ca3e8d88SDave Plauger size_t used; /* counts input consumed */ 363*ca3e8d88SDave Plauger char *page; /* buffer for page copy */ 364*ca3e8d88SDave Plauger char *lzbuf; /* lzjb output */ 365*ca3e8d88SDave Plauger bz_stream bzstream; /* bzip2 state */ 366*ca3e8d88SDave Plauger } helper_t; 367*ca3e8d88SDave Plauger 368*ca3e8d88SDave Plauger #define MAINHELPER (-1) /* helper is also the main task */ 369*ca3e8d88SDave Plauger #define FREEHELPER (-2) /* unbound helper */ 370*ca3e8d88SDave Plauger #define DONEHELPER (-3) /* helper finished */ 371*ca3e8d88SDave Plauger 372*ca3e8d88SDave Plauger /* 373*ca3e8d88SDave Plauger * configuration vars for dumpsys 374*ca3e8d88SDave Plauger */ 375*ca3e8d88SDave Plauger typedef struct dumpcfg { 376*ca3e8d88SDave Plauger int threshold; /* ncpu threshold for bzip2 */ 377*ca3e8d88SDave Plauger int nhelper; /* number of helpers */ 378*ca3e8d88SDave Plauger int nhelper_used; /* actual number of helpers used */ 379*ca3e8d88SDave Plauger int ncmap; /* number VA pages for compression */ 380*ca3e8d88SDave Plauger int ncbuf; /* number of bufs for compression */ 381*ca3e8d88SDave Plauger int ncbuf_used; /* number of bufs in use */ 382*ca3e8d88SDave Plauger uint_t clevel; /* dump compression level */ 383*ca3e8d88SDave Plauger helper_t *helper; /* array of helpers */ 384*ca3e8d88SDave Plauger cbuf_t *cmap; /* array of input (map) buffers */ 385*ca3e8d88SDave Plauger cbuf_t *cbuf; /* array of output buffers */ 386*ca3e8d88SDave Plauger ulong_t *helpermap; /* set of dumpsys helper CPU ids */ 387*ca3e8d88SDave Plauger ulong_t *bitmap; /* bitmap for marking pages to dump */ 388*ca3e8d88SDave Plauger ulong_t *rbitmap; /* bitmap for used CBUF_MAPSIZE ranges */ 389*ca3e8d88SDave Plauger pgcnt_t bitmapsize; /* size of bitmap */ 390*ca3e8d88SDave Plauger pgcnt_t rbitmapsize; /* size of bitmap for ranges */ 391*ca3e8d88SDave Plauger pgcnt_t found4m; /* number ranges allocated by dump */ 392*ca3e8d88SDave Plauger pgcnt_t foundsm; /* number small pages allocated by dump */ 393*ca3e8d88SDave Plauger pid_t *pids; /* list of process IDs at dump time */ 394*ca3e8d88SDave Plauger size_t maxsize; /* memory size needed at dump time */ 395*ca3e8d88SDave Plauger size_t maxvmsize; /* size of reserved VM */ 396*ca3e8d88SDave Plauger char *maxvm; /* reserved VM for spare pages */ 397*ca3e8d88SDave Plauger lock_t helper_lock; /* protect helper state */ 398*ca3e8d88SDave Plauger char helpers_wanted; /* flag to enable parallelism */ 399*ca3e8d88SDave Plauger } dumpcfg_t; 400*ca3e8d88SDave Plauger 401*ca3e8d88SDave Plauger static dumpcfg_t dumpcfg; /* config vars */ 402*ca3e8d88SDave Plauger 403*ca3e8d88SDave Plauger /* 404*ca3e8d88SDave Plauger * The dump I/O buffer. 405*ca3e8d88SDave Plauger * 406*ca3e8d88SDave Plauger * There is one I/O buffer used by dumpvp_write and dumvp_flush. It is 407*ca3e8d88SDave Plauger * sized according to the optimum device transfer speed. 408*ca3e8d88SDave Plauger */ 409*ca3e8d88SDave Plauger typedef struct dumpbuf { 410*ca3e8d88SDave Plauger vnode_t *cdev_vp; /* VCHR open of the dump device */ 411*ca3e8d88SDave Plauger len_t vp_limit; /* maximum write offset */ 412*ca3e8d88SDave Plauger offset_t vp_off; /* current dump device offset */ 413*ca3e8d88SDave Plauger char *cur; /* dump write pointer */ 414*ca3e8d88SDave Plauger char *start; /* dump buffer address */ 415*ca3e8d88SDave Plauger char *end; /* dump buffer end */ 416*ca3e8d88SDave Plauger size_t size; /* size of dumpbuf in bytes */ 417*ca3e8d88SDave Plauger size_t iosize; /* best transfer size for device */ 418*ca3e8d88SDave Plauger } dumpbuf_t; 419*ca3e8d88SDave Plauger 420*ca3e8d88SDave Plauger dumpbuf_t dumpbuf; /* I/O buffer */ 421*ca3e8d88SDave Plauger 422*ca3e8d88SDave Plauger /* 423*ca3e8d88SDave Plauger * The dump I/O buffer must be at least one page, at most xfer_size 424*ca3e8d88SDave Plauger * bytes, and should scale with physmem in between. The transfer size 425*ca3e8d88SDave Plauger * passed in will either represent a global default (maxphys) or the 426*ca3e8d88SDave Plauger * best size for the device. The size of the dumpbuf I/O buffer is 427*ca3e8d88SDave Plauger * limited by dumpbuf_limit (8MB by default) because the dump 428*ca3e8d88SDave Plauger * performance saturates beyond a certain size. The default is to 429*ca3e8d88SDave Plauger * select 1/4096 of the memory. 430*ca3e8d88SDave Plauger */ 431*ca3e8d88SDave Plauger static int dumpbuf_fraction = 12; /* memory size scale factor */ 432*ca3e8d88SDave Plauger static size_t dumpbuf_limit = 8 * DUMP_1MB; /* max I/O buf size */ 433*ca3e8d88SDave Plauger 4347c478bd9Sstevel@tonic-gate static size_t 4357c478bd9Sstevel@tonic-gate dumpbuf_iosize(size_t xfer_size) 4367c478bd9Sstevel@tonic-gate { 437*ca3e8d88SDave Plauger size_t iosize = ptob(physmem >> dumpbuf_fraction); 4387c478bd9Sstevel@tonic-gate 439*ca3e8d88SDave Plauger if (iosize < PAGESIZE) 440*ca3e8d88SDave Plauger iosize = PAGESIZE; 441*ca3e8d88SDave Plauger else if (iosize > xfer_size) 442*ca3e8d88SDave Plauger iosize = xfer_size; 443*ca3e8d88SDave Plauger if (iosize > dumpbuf_limit) 444*ca3e8d88SDave Plauger iosize = dumpbuf_limit; 445*ca3e8d88SDave Plauger return (iosize & PAGEMASK); 4467c478bd9Sstevel@tonic-gate } 4477c478bd9Sstevel@tonic-gate 448*ca3e8d88SDave Plauger /* 449*ca3e8d88SDave Plauger * resize the I/O buffer 450*ca3e8d88SDave Plauger */ 4517c478bd9Sstevel@tonic-gate static void 4527c478bd9Sstevel@tonic-gate dumpbuf_resize(void) 4537c478bd9Sstevel@tonic-gate { 454*ca3e8d88SDave Plauger char *old_buf = dumpbuf.start; 455*ca3e8d88SDave Plauger size_t old_size = dumpbuf.size; 4567c478bd9Sstevel@tonic-gate char *new_buf; 4577c478bd9Sstevel@tonic-gate size_t new_size; 4587c478bd9Sstevel@tonic-gate 4597c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(&dump_lock)); 4607c478bd9Sstevel@tonic-gate 461*ca3e8d88SDave Plauger new_size = dumpbuf_iosize(MAX(dumpbuf.iosize, maxphys)); 462*ca3e8d88SDave Plauger if (new_size <= old_size) 4637c478bd9Sstevel@tonic-gate return; /* no need to reallocate buffer */ 4647c478bd9Sstevel@tonic-gate 4657c478bd9Sstevel@tonic-gate new_buf = kmem_alloc(new_size, KM_SLEEP); 466*ca3e8d88SDave Plauger dumpbuf.size = new_size; 467*ca3e8d88SDave Plauger dumpbuf.start = new_buf; 468*ca3e8d88SDave Plauger dumpbuf.end = new_buf + new_size; 4697c478bd9Sstevel@tonic-gate kmem_free(old_buf, old_size); 4707c478bd9Sstevel@tonic-gate } 4717c478bd9Sstevel@tonic-gate 472*ca3e8d88SDave Plauger /* 473*ca3e8d88SDave Plauger * dump_update_clevel is called when dumpadm configures the dump device. 474*ca3e8d88SDave Plauger * Calculate number of helpers and buffers. 475*ca3e8d88SDave Plauger * Allocate the minimum configuration for now. 476*ca3e8d88SDave Plauger * 477*ca3e8d88SDave Plauger * When the dump file is configured we reserve a minimum amount of 478*ca3e8d88SDave Plauger * memory for use at crash time. But we reserve VA for all the memory 479*ca3e8d88SDave Plauger * we really want in order to do the fastest dump possible. The VA is 480*ca3e8d88SDave Plauger * backed by pages not being dumped, according to the bitmap. If 481*ca3e8d88SDave Plauger * there is insufficient spare memory, however, we fall back to the 482*ca3e8d88SDave Plauger * minimum. 483*ca3e8d88SDave Plauger * 484*ca3e8d88SDave Plauger * Live dump (savecore -L) always uses the minimum config. 485*ca3e8d88SDave Plauger * 486*ca3e8d88SDave Plauger * clevel 0 is single threaded lzjb 487*ca3e8d88SDave Plauger * clevel 1 is parallel lzjb 488*ca3e8d88SDave Plauger * clevel 2 is parallel bzip2 489*ca3e8d88SDave Plauger * 490*ca3e8d88SDave Plauger * The ncpu threshold is selected with dump_plat_mincpu. 491*ca3e8d88SDave Plauger * On OPL, set_platform_defaults() overrides the sun4u setting. 492*ca3e8d88SDave Plauger * The actual values are defined via DUMP_PLAT_*_MINCPU macros. 493*ca3e8d88SDave Plauger * 494*ca3e8d88SDave Plauger * Architecture Threshold Algorithm 495*ca3e8d88SDave Plauger * sun4u < 51 parallel lzjb 496*ca3e8d88SDave Plauger * sun4u >= 51 parallel bzip2(*) 497*ca3e8d88SDave Plauger * sun4u OPL < 8 parallel lzjb 498*ca3e8d88SDave Plauger * sun4u OPL >= 8 parallel bzip2(*) 499*ca3e8d88SDave Plauger * sun4v < 128 parallel lzjb 500*ca3e8d88SDave Plauger * sun4v >= 128 parallel bzip2(*) 501*ca3e8d88SDave Plauger * x86 < 11 parallel lzjb 502*ca3e8d88SDave Plauger * x86 >= 11 parallel bzip2(*) 503*ca3e8d88SDave Plauger * 32-bit N/A single-threaded lzjb 504*ca3e8d88SDave Plauger * 505*ca3e8d88SDave Plauger * (*) bzip2 is only chosen if there is sufficient available 506*ca3e8d88SDave Plauger * memory for buffers at dump time. See dumpsys_get_maxmem(). 507*ca3e8d88SDave Plauger * 508*ca3e8d88SDave Plauger * Faster dump devices have larger I/O buffers. The threshold value is 509*ca3e8d88SDave Plauger * increased according to the size of the dump I/O buffer, because 510*ca3e8d88SDave Plauger * parallel lzjb performs better with faster disks. For buffers >= 1MB 511*ca3e8d88SDave Plauger * the threshold is 3X; for buffers >= 256K threshold is 2X. 512*ca3e8d88SDave Plauger * 513*ca3e8d88SDave Plauger * For parallel dumps, the number of helpers is ncpu-1. The CPU 514*ca3e8d88SDave Plauger * running panic runs the main task. For single-threaded dumps, the 515*ca3e8d88SDave Plauger * panic CPU does lzjb compression (it is tagged as MAINHELPER.) 516*ca3e8d88SDave Plauger * 517*ca3e8d88SDave Plauger * Need multiple buffers per helper so that they do not block waiting 518*ca3e8d88SDave Plauger * for the main task. 519*ca3e8d88SDave Plauger * parallel single-threaded 520*ca3e8d88SDave Plauger * Number of output buffers: nhelper*2 1 521*ca3e8d88SDave Plauger * Number of mapping buffers: nhelper*4 1 522*ca3e8d88SDave Plauger * 523*ca3e8d88SDave Plauger */ 524*ca3e8d88SDave Plauger static void 525*ca3e8d88SDave Plauger dump_update_clevel() 526*ca3e8d88SDave Plauger { 527*ca3e8d88SDave Plauger int tag; 528*ca3e8d88SDave Plauger size_t bz2size; 529*ca3e8d88SDave Plauger helper_t *hp, *hpend; 530*ca3e8d88SDave Plauger cbuf_t *cp, *cpend; 531*ca3e8d88SDave Plauger dumpcfg_t *old = &dumpcfg; 532*ca3e8d88SDave Plauger dumpcfg_t newcfg = *old; 533*ca3e8d88SDave Plauger dumpcfg_t *new = &newcfg; 534*ca3e8d88SDave Plauger 535*ca3e8d88SDave Plauger ASSERT(MUTEX_HELD(&dump_lock)); 536*ca3e8d88SDave Plauger 537*ca3e8d88SDave Plauger /* 538*ca3e8d88SDave Plauger * Free the previously allocated bufs and VM. 539*ca3e8d88SDave Plauger */ 540*ca3e8d88SDave Plauger if (old->helper != NULL) { 541*ca3e8d88SDave Plauger 542*ca3e8d88SDave Plauger /* helpers */ 543*ca3e8d88SDave Plauger hpend = &old->helper[old->nhelper]; 544*ca3e8d88SDave Plauger for (hp = old->helper; hp != hpend; hp++) { 545*ca3e8d88SDave Plauger if (hp->lzbuf != NULL) 546*ca3e8d88SDave Plauger kmem_free(hp->lzbuf, PAGESIZE); 547*ca3e8d88SDave Plauger if (hp->page != NULL) 548*ca3e8d88SDave Plauger kmem_free(hp->page, PAGESIZE); 549*ca3e8d88SDave Plauger } 550*ca3e8d88SDave Plauger kmem_free(old->helper, old->nhelper * sizeof (helper_t)); 551*ca3e8d88SDave Plauger 552*ca3e8d88SDave Plauger /* VM space for mapping pages */ 553*ca3e8d88SDave Plauger cpend = &old->cmap[old->ncmap]; 554*ca3e8d88SDave Plauger for (cp = old->cmap; cp != cpend; cp++) 555*ca3e8d88SDave Plauger vmem_xfree(heap_arena, cp->buf, CBUF_MAPSIZE); 556*ca3e8d88SDave Plauger kmem_free(old->cmap, old->ncmap * sizeof (cbuf_t)); 557*ca3e8d88SDave Plauger 558*ca3e8d88SDave Plauger /* output bufs */ 559*ca3e8d88SDave Plauger cpend = &old->cbuf[old->ncbuf]; 560*ca3e8d88SDave Plauger for (cp = old->cbuf; cp != cpend; cp++) 561*ca3e8d88SDave Plauger if (cp->buf != NULL) 562*ca3e8d88SDave Plauger kmem_free(cp->buf, cp->size); 563*ca3e8d88SDave Plauger kmem_free(old->cbuf, old->ncbuf * sizeof (cbuf_t)); 564*ca3e8d88SDave Plauger 565*ca3e8d88SDave Plauger /* reserved VM for dumpsys_get_maxmem */ 566*ca3e8d88SDave Plauger if (old->maxvmsize > 0) 567*ca3e8d88SDave Plauger vmem_xfree(heap_arena, old->maxvm, old->maxvmsize); 568*ca3e8d88SDave Plauger } 569*ca3e8d88SDave Plauger 570*ca3e8d88SDave Plauger /* 571*ca3e8d88SDave Plauger * Allocate memory and VM. 572*ca3e8d88SDave Plauger * One CPU runs dumpsys, the rest are helpers. 573*ca3e8d88SDave Plauger */ 574*ca3e8d88SDave Plauger new->nhelper = ncpus - 1; 575*ca3e8d88SDave Plauger if (new->nhelper < 1) 576*ca3e8d88SDave Plauger new->nhelper = 1; 577*ca3e8d88SDave Plauger 578*ca3e8d88SDave Plauger if (new->nhelper > DUMP_MAX_NHELPER) 579*ca3e8d88SDave Plauger new->nhelper = DUMP_MAX_NHELPER; 580*ca3e8d88SDave Plauger 581*ca3e8d88SDave Plauger /* increase threshold for faster disks */ 582*ca3e8d88SDave Plauger new->threshold = dump_plat_mincpu; 583*ca3e8d88SDave Plauger if (dumpbuf.iosize >= DUMP_1MB) 584*ca3e8d88SDave Plauger new->threshold *= 3; 585*ca3e8d88SDave Plauger else if (dumpbuf.iosize >= (256 * DUMP_1KB)) 586*ca3e8d88SDave Plauger new->threshold *= 2; 587*ca3e8d88SDave Plauger 588*ca3e8d88SDave Plauger /* figure compression level based upon the computed threshold. */ 589*ca3e8d88SDave Plauger if (dump_plat_mincpu == 0 || new->nhelper < 2) { 590*ca3e8d88SDave Plauger new->clevel = 0; 591*ca3e8d88SDave Plauger new->nhelper = 1; 592*ca3e8d88SDave Plauger } else if ((new->nhelper + 1) >= new->threshold) { 593*ca3e8d88SDave Plauger new->clevel = DUMP_CLEVEL_BZIP2; 594*ca3e8d88SDave Plauger } else { 595*ca3e8d88SDave Plauger new->clevel = DUMP_CLEVEL_LZJB; 596*ca3e8d88SDave Plauger } 597*ca3e8d88SDave Plauger 598*ca3e8d88SDave Plauger if (new->clevel == 0) { 599*ca3e8d88SDave Plauger new->ncbuf = 1; 600*ca3e8d88SDave Plauger new->ncmap = 1; 601*ca3e8d88SDave Plauger } else { 602*ca3e8d88SDave Plauger new->ncbuf = NCBUF_PER_HELPER * new->nhelper; 603*ca3e8d88SDave Plauger new->ncmap = NCMAP_PER_HELPER * new->nhelper; 604*ca3e8d88SDave Plauger } 605*ca3e8d88SDave Plauger 606*ca3e8d88SDave Plauger /* 607*ca3e8d88SDave Plauger * Allocate new data structures and buffers for MINHELPERS, 608*ca3e8d88SDave Plauger * and also figure the max desired size. 609*ca3e8d88SDave Plauger */ 610*ca3e8d88SDave Plauger bz2size = BZ2_bzCompressInitSize(dump_bzip2_level); 611*ca3e8d88SDave Plauger new->maxsize = 0; 612*ca3e8d88SDave Plauger new->maxvmsize = 0; 613*ca3e8d88SDave Plauger new->maxvm = NULL; 614*ca3e8d88SDave Plauger tag = 1; 615*ca3e8d88SDave Plauger new->helper = kmem_zalloc(new->nhelper * sizeof (helper_t), KM_SLEEP); 616*ca3e8d88SDave Plauger hpend = &new->helper[new->nhelper]; 617*ca3e8d88SDave Plauger for (hp = new->helper; hp != hpend; hp++) { 618*ca3e8d88SDave Plauger hp->tag = tag++; 619*ca3e8d88SDave Plauger if (hp < &new->helper[MINHELPERS]) { 620*ca3e8d88SDave Plauger hp->lzbuf = kmem_alloc(PAGESIZE, KM_SLEEP); 621*ca3e8d88SDave Plauger hp->page = kmem_alloc(PAGESIZE, KM_SLEEP); 622*ca3e8d88SDave Plauger } else if (new->clevel < DUMP_CLEVEL_BZIP2) { 623*ca3e8d88SDave Plauger new->maxsize += 2 * PAGESIZE; 624*ca3e8d88SDave Plauger } else { 625*ca3e8d88SDave Plauger new->maxsize += PAGESIZE; 626*ca3e8d88SDave Plauger } 627*ca3e8d88SDave Plauger if (new->clevel >= DUMP_CLEVEL_BZIP2) 628*ca3e8d88SDave Plauger new->maxsize += bz2size; 629*ca3e8d88SDave Plauger } 630*ca3e8d88SDave Plauger 631*ca3e8d88SDave Plauger new->cbuf = kmem_zalloc(new->ncbuf * sizeof (cbuf_t), KM_SLEEP); 632*ca3e8d88SDave Plauger cpend = &new->cbuf[new->ncbuf]; 633*ca3e8d88SDave Plauger for (cp = new->cbuf; cp != cpend; cp++) { 634*ca3e8d88SDave Plauger cp->state = CBUF_FREEBUF; 635*ca3e8d88SDave Plauger cp->size = CBUF_SIZE; 636*ca3e8d88SDave Plauger if (cp < &new->cbuf[MINCBUFS]) 637*ca3e8d88SDave Plauger cp->buf = kmem_alloc(cp->size, KM_SLEEP); 638*ca3e8d88SDave Plauger else 639*ca3e8d88SDave Plauger new->maxsize += cp->size; 640*ca3e8d88SDave Plauger } 641*ca3e8d88SDave Plauger 642*ca3e8d88SDave Plauger new->cmap = kmem_zalloc(new->ncmap * sizeof (cbuf_t), KM_SLEEP); 643*ca3e8d88SDave Plauger cpend = &new->cmap[new->ncmap]; 644*ca3e8d88SDave Plauger for (cp = new->cmap; cp != cpend; cp++) { 645*ca3e8d88SDave Plauger cp->state = CBUF_FREEMAP; 646*ca3e8d88SDave Plauger cp->size = CBUF_MAPSIZE; 647*ca3e8d88SDave Plauger cp->buf = vmem_xalloc(heap_arena, CBUF_MAPSIZE, CBUF_MAPSIZE, 648*ca3e8d88SDave Plauger 0, 0, NULL, NULL, VM_SLEEP); 649*ca3e8d88SDave Plauger } 650*ca3e8d88SDave Plauger 651*ca3e8d88SDave Plauger /* reserve VA to be backed with spare pages at crash time */ 652*ca3e8d88SDave Plauger if (new->maxsize > 0) { 653*ca3e8d88SDave Plauger new->maxsize = P2ROUNDUP(new->maxsize, PAGESIZE); 654*ca3e8d88SDave Plauger new->maxvmsize = P2ROUNDUP(new->maxsize, CBUF_MAPSIZE); 655*ca3e8d88SDave Plauger new->maxvm = vmem_xalloc(heap_arena, new->maxvmsize, 656*ca3e8d88SDave Plauger CBUF_MAPSIZE, 0, 0, NULL, NULL, VM_SLEEP); 657*ca3e8d88SDave Plauger } 658*ca3e8d88SDave Plauger 659*ca3e8d88SDave Plauger /* set new config pointers */ 660*ca3e8d88SDave Plauger *old = *new; 661*ca3e8d88SDave Plauger } 662*ca3e8d88SDave Plauger 663*ca3e8d88SDave Plauger /* 664*ca3e8d88SDave Plauger * Define a struct memlist walker to optimize bitnum to pfn 665*ca3e8d88SDave Plauger * lookup. The walker maintains the state of the list traversal. 666*ca3e8d88SDave Plauger */ 667*ca3e8d88SDave Plauger typedef struct dumpmlw { 668*ca3e8d88SDave Plauger struct memlist *mp; /* current memlist */ 669*ca3e8d88SDave Plauger pgcnt_t basenum; /* bitnum base offset */ 670*ca3e8d88SDave Plauger pgcnt_t mppages; /* current memlist size */ 671*ca3e8d88SDave Plauger pgcnt_t mpleft; /* size to end of current memlist */ 672*ca3e8d88SDave Plauger pfn_t mpaddr; /* first pfn in memlist */ 673*ca3e8d88SDave Plauger } dumpmlw_t; 674*ca3e8d88SDave Plauger 675*ca3e8d88SDave Plauger /* initialize the walker */ 676*ca3e8d88SDave Plauger static inline void 677*ca3e8d88SDave Plauger dump_init_memlist_walker(dumpmlw_t *pw) 678*ca3e8d88SDave Plauger { 679*ca3e8d88SDave Plauger pw->mp = phys_install; 680*ca3e8d88SDave Plauger pw->basenum = 0; 681*ca3e8d88SDave Plauger pw->mppages = pw->mp->size >> PAGESHIFT; 682*ca3e8d88SDave Plauger pw->mpleft = pw->mppages; 683*ca3e8d88SDave Plauger pw->mpaddr = pw->mp->address >> PAGESHIFT; 684*ca3e8d88SDave Plauger } 685*ca3e8d88SDave Plauger 686*ca3e8d88SDave Plauger /* 687*ca3e8d88SDave Plauger * Lookup pfn given bitnum. The memlist can be quite long on some 688*ca3e8d88SDave Plauger * systems (e.g.: one per board). To optimize sequential lookups, the 689*ca3e8d88SDave Plauger * caller initializes and presents a memlist walker. 690*ca3e8d88SDave Plauger */ 691*ca3e8d88SDave Plauger static pfn_t 692*ca3e8d88SDave Plauger dump_bitnum_to_pfn(pgcnt_t bitnum, dumpmlw_t *pw) 693*ca3e8d88SDave Plauger { 694*ca3e8d88SDave Plauger bitnum -= pw->basenum; 695*ca3e8d88SDave Plauger while (pw->mp != NULL) { 696*ca3e8d88SDave Plauger if (bitnum < pw->mppages) { 697*ca3e8d88SDave Plauger pw->mpleft = pw->mppages - bitnum; 698*ca3e8d88SDave Plauger return (pw->mpaddr + bitnum); 699*ca3e8d88SDave Plauger } 700*ca3e8d88SDave Plauger bitnum -= pw->mppages; 701*ca3e8d88SDave Plauger pw->basenum += pw->mppages; 702*ca3e8d88SDave Plauger pw->mp = pw->mp->next; 703*ca3e8d88SDave Plauger if (pw->mp != NULL) { 704*ca3e8d88SDave Plauger pw->mppages = pw->mp->size >> PAGESHIFT; 705*ca3e8d88SDave Plauger pw->mpleft = pw->mppages; 706*ca3e8d88SDave Plauger pw->mpaddr = pw->mp->address >> PAGESHIFT; 707*ca3e8d88SDave Plauger } 708*ca3e8d88SDave Plauger } 709*ca3e8d88SDave Plauger return (PFN_INVALID); 710*ca3e8d88SDave Plauger } 711*ca3e8d88SDave Plauger 712*ca3e8d88SDave Plauger static pgcnt_t 713*ca3e8d88SDave Plauger dump_pfn_to_bitnum(pfn_t pfn) 714*ca3e8d88SDave Plauger { 715*ca3e8d88SDave Plauger struct memlist *mp; 716*ca3e8d88SDave Plauger pgcnt_t bitnum = 0; 717*ca3e8d88SDave Plauger 718*ca3e8d88SDave Plauger for (mp = phys_install; mp != NULL; mp = mp->next) { 719*ca3e8d88SDave Plauger if (pfn >= (mp->address >> PAGESHIFT) && 720*ca3e8d88SDave Plauger pfn < ((mp->address + mp->size) >> PAGESHIFT)) 721*ca3e8d88SDave Plauger return (bitnum + pfn - (mp->address >> PAGESHIFT)); 722*ca3e8d88SDave Plauger bitnum += mp->size >> PAGESHIFT; 723*ca3e8d88SDave Plauger } 724*ca3e8d88SDave Plauger return ((pgcnt_t)-1); 725*ca3e8d88SDave Plauger } 726*ca3e8d88SDave Plauger 727*ca3e8d88SDave Plauger /* 728*ca3e8d88SDave Plauger * Set/test bitmap for a CBUF_MAPSIZE range which includes pfn. The 729*ca3e8d88SDave Plauger * mapping of pfn to range index is imperfect because pfn and bitnum 730*ca3e8d88SDave Plauger * do not have the same phase. To make sure a CBUF_MAPSIZE range is 731*ca3e8d88SDave Plauger * covered, call this for both ends: 732*ca3e8d88SDave Plauger * dump_set_used(base) 733*ca3e8d88SDave Plauger * dump_set_used(base+CBUF_MAPNP-1) 734*ca3e8d88SDave Plauger * 735*ca3e8d88SDave Plauger * This is used during a panic dump to mark pages allocated by 736*ca3e8d88SDave Plauger * dumpsys_get_maxmem(). The macro IS_DUMP_PAGE(pp) is used by 737*ca3e8d88SDave Plauger * page_get_mnode_freelist() to make sure pages used by dump are never 738*ca3e8d88SDave Plauger * allocated. 739*ca3e8d88SDave Plauger */ 740*ca3e8d88SDave Plauger #define CBUF_MAPP2R(pfn) ((pfn) >> (CBUF_MAPSHIFT - PAGESHIFT)) 741*ca3e8d88SDave Plauger 742*ca3e8d88SDave Plauger static void 743*ca3e8d88SDave Plauger dump_set_used(pfn_t pfn) 744*ca3e8d88SDave Plauger { 745*ca3e8d88SDave Plauger 746*ca3e8d88SDave Plauger pgcnt_t bitnum, rbitnum; 747*ca3e8d88SDave Plauger 748*ca3e8d88SDave Plauger bitnum = dump_pfn_to_bitnum(pfn); 749*ca3e8d88SDave Plauger ASSERT(bitnum != (pgcnt_t)-1); 750*ca3e8d88SDave Plauger 751*ca3e8d88SDave Plauger rbitnum = CBUF_MAPP2R(bitnum); 752*ca3e8d88SDave Plauger ASSERT(rbitnum < dumpcfg.rbitmapsize); 753*ca3e8d88SDave Plauger 754*ca3e8d88SDave Plauger BT_SET(dumpcfg.rbitmap, rbitnum); 755*ca3e8d88SDave Plauger } 756*ca3e8d88SDave Plauger 757*ca3e8d88SDave Plauger int 758*ca3e8d88SDave Plauger dump_test_used(pfn_t pfn) 759*ca3e8d88SDave Plauger { 760*ca3e8d88SDave Plauger pgcnt_t bitnum, rbitnum; 761*ca3e8d88SDave Plauger 762*ca3e8d88SDave Plauger bitnum = dump_pfn_to_bitnum(pfn); 763*ca3e8d88SDave Plauger ASSERT(bitnum != (pgcnt_t)-1); 764*ca3e8d88SDave Plauger 765*ca3e8d88SDave Plauger rbitnum = CBUF_MAPP2R(bitnum); 766*ca3e8d88SDave Plauger ASSERT(rbitnum < dumpcfg.rbitmapsize); 767*ca3e8d88SDave Plauger 768*ca3e8d88SDave Plauger return (BT_TEST(dumpcfg.rbitmap, rbitnum)); 769*ca3e8d88SDave Plauger } 770*ca3e8d88SDave Plauger 771*ca3e8d88SDave Plauger /* 772*ca3e8d88SDave Plauger * dumpbzalloc and dumpbzfree are callbacks from the bzip2 library. 773*ca3e8d88SDave Plauger * dumpsys_get_maxmem() uses them for BZ2_bzCompressInit(). 774*ca3e8d88SDave Plauger */ 775*ca3e8d88SDave Plauger static void * 776*ca3e8d88SDave Plauger dumpbzalloc(void *opaque, int items, int size) 777*ca3e8d88SDave Plauger { 778*ca3e8d88SDave Plauger size_t *sz; 779*ca3e8d88SDave Plauger char *ret; 780*ca3e8d88SDave Plauger 781*ca3e8d88SDave Plauger ASSERT(opaque != NULL); 782*ca3e8d88SDave Plauger sz = opaque; 783*ca3e8d88SDave Plauger ret = dumpcfg.maxvm + *sz; 784*ca3e8d88SDave Plauger *sz += items * size; 785*ca3e8d88SDave Plauger *sz = P2ROUNDUP(*sz, BZ2_BZALLOC_ALIGN); 786*ca3e8d88SDave Plauger ASSERT(*sz <= dumpcfg.maxvmsize); 787*ca3e8d88SDave Plauger return (ret); 788*ca3e8d88SDave Plauger } 789*ca3e8d88SDave Plauger 790*ca3e8d88SDave Plauger /*ARGSUSED*/ 791*ca3e8d88SDave Plauger static void 792*ca3e8d88SDave Plauger dumpbzfree(void *opaque, void *addr) 793*ca3e8d88SDave Plauger { 794*ca3e8d88SDave Plauger } 795*ca3e8d88SDave Plauger 796*ca3e8d88SDave Plauger /* 797*ca3e8d88SDave Plauger * Perform additional checks on the page to see if we can really use 798*ca3e8d88SDave Plauger * it. The kernel (kas) pages are always set in the bitmap. However, 799*ca3e8d88SDave Plauger * boot memory pages (prom_ppages or P_BOOTPAGES) are not in the 800*ca3e8d88SDave Plauger * bitmap. So we check for them. 801*ca3e8d88SDave Plauger */ 802*ca3e8d88SDave Plauger static inline int 803*ca3e8d88SDave Plauger dump_pfn_check(pfn_t pfn) 804*ca3e8d88SDave Plauger { 805*ca3e8d88SDave Plauger page_t *pp = page_numtopp_nolock(pfn); 806*ca3e8d88SDave Plauger #if defined(__sparc) 807*ca3e8d88SDave Plauger extern struct vnode prom_ppages; 808*ca3e8d88SDave Plauger #endif 809*ca3e8d88SDave Plauger 810*ca3e8d88SDave Plauger if (pp == NULL || pp->p_pagenum != pfn || 811*ca3e8d88SDave Plauger #if defined(__sparc) 812*ca3e8d88SDave Plauger pp->p_vnode == &prom_ppages || 813*ca3e8d88SDave Plauger #else 814*ca3e8d88SDave Plauger PP_ISBOOTPAGES(pp) || 815*ca3e8d88SDave Plauger #endif 816*ca3e8d88SDave Plauger pp->p_toxic != 0) 817*ca3e8d88SDave Plauger return (0); 818*ca3e8d88SDave Plauger return (1); 819*ca3e8d88SDave Plauger } 820*ca3e8d88SDave Plauger 821*ca3e8d88SDave Plauger /* 822*ca3e8d88SDave Plauger * Check a range to see if all contained pages are available and 823*ca3e8d88SDave Plauger * return non-zero if the range can be used. 824*ca3e8d88SDave Plauger */ 825*ca3e8d88SDave Plauger static inline int 826*ca3e8d88SDave Plauger dump_range_check(pgcnt_t start, pgcnt_t end, pfn_t pfn) 827*ca3e8d88SDave Plauger { 828*ca3e8d88SDave Plauger for (; start < end; start++, pfn++) { 829*ca3e8d88SDave Plauger if (BT_TEST(dumpcfg.bitmap, start)) 830*ca3e8d88SDave Plauger return (0); 831*ca3e8d88SDave Plauger if (!dump_pfn_check(pfn)) 832*ca3e8d88SDave Plauger return (0); 833*ca3e8d88SDave Plauger } 834*ca3e8d88SDave Plauger return (1); 835*ca3e8d88SDave Plauger } 836*ca3e8d88SDave Plauger 837*ca3e8d88SDave Plauger /* 838*ca3e8d88SDave Plauger * dumpsys_get_maxmem() is called during panic. Find unused ranges 839*ca3e8d88SDave Plauger * and use them for buffers. If we find enough memory switch to 840*ca3e8d88SDave Plauger * parallel bzip2, otherwise use parallel lzjb. 841*ca3e8d88SDave Plauger * 842*ca3e8d88SDave Plauger * It searches the dump bitmap in 2 passes. The first time it looks 843*ca3e8d88SDave Plauger * for CBUF_MAPSIZE ranges. On the second pass it uses small pages. 844*ca3e8d88SDave Plauger */ 845*ca3e8d88SDave Plauger static void 846*ca3e8d88SDave Plauger dumpsys_get_maxmem() 847*ca3e8d88SDave Plauger { 848*ca3e8d88SDave Plauger dumpcfg_t *cfg = &dumpcfg; 849*ca3e8d88SDave Plauger cbuf_t *endcp = &cfg->cbuf[cfg->ncbuf]; 850*ca3e8d88SDave Plauger helper_t *endhp = &cfg->helper[cfg->nhelper]; 851*ca3e8d88SDave Plauger pgcnt_t bitnum, end; 852*ca3e8d88SDave Plauger size_t sz, endsz, bz2size; 853*ca3e8d88SDave Plauger pfn_t pfn, off; 854*ca3e8d88SDave Plauger cbuf_t *cp; 855*ca3e8d88SDave Plauger helper_t *hp, *ohp; 856*ca3e8d88SDave Plauger dumpmlw_t mlw; 857*ca3e8d88SDave Plauger int k; 858*ca3e8d88SDave Plauger 859*ca3e8d88SDave Plauger if (cfg->maxsize == 0 || cfg->clevel < DUMP_CLEVEL_LZJB || 860*ca3e8d88SDave Plauger (dump_conflags & DUMP_ALL) != 0) 861*ca3e8d88SDave Plauger return; 862*ca3e8d88SDave Plauger 863*ca3e8d88SDave Plauger sz = 0; 864*ca3e8d88SDave Plauger cfg->found4m = 0; 865*ca3e8d88SDave Plauger cfg->foundsm = 0; 866*ca3e8d88SDave Plauger 867*ca3e8d88SDave Plauger /* bitmap of ranges used to estimate which pfns are being used */ 868*ca3e8d88SDave Plauger bzero(dumpcfg.rbitmap, BT_SIZEOFMAP(dumpcfg.rbitmapsize)); 869*ca3e8d88SDave Plauger 870*ca3e8d88SDave Plauger /* find ranges that are not being dumped to use for buffers */ 871*ca3e8d88SDave Plauger dump_init_memlist_walker(&mlw); 872*ca3e8d88SDave Plauger for (bitnum = 0; bitnum < dumpcfg.bitmapsize; bitnum = end) { 873*ca3e8d88SDave Plauger dump_timeleft = dump_timeout; 874*ca3e8d88SDave Plauger end = bitnum + CBUF_MAPNP; 875*ca3e8d88SDave Plauger pfn = dump_bitnum_to_pfn(bitnum, &mlw); 876*ca3e8d88SDave Plauger ASSERT(pfn != PFN_INVALID); 877*ca3e8d88SDave Plauger 878*ca3e8d88SDave Plauger /* skip partial range at end of mem segment */ 879*ca3e8d88SDave Plauger if (mlw.mpleft < CBUF_MAPNP) { 880*ca3e8d88SDave Plauger end = bitnum + mlw.mpleft; 881*ca3e8d88SDave Plauger continue; 882*ca3e8d88SDave Plauger } 883*ca3e8d88SDave Plauger 884*ca3e8d88SDave Plauger /* skip non aligned pages */ 885*ca3e8d88SDave Plauger off = P2PHASE(pfn, CBUF_MAPNP); 886*ca3e8d88SDave Plauger if (off != 0) { 887*ca3e8d88SDave Plauger end -= off; 888*ca3e8d88SDave Plauger continue; 889*ca3e8d88SDave Plauger } 890*ca3e8d88SDave Plauger 891*ca3e8d88SDave Plauger if (!dump_range_check(bitnum, end, pfn)) 892*ca3e8d88SDave Plauger continue; 893*ca3e8d88SDave Plauger 894*ca3e8d88SDave Plauger ASSERT((sz + CBUF_MAPSIZE) <= cfg->maxvmsize); 895*ca3e8d88SDave Plauger hat_devload(kas.a_hat, cfg->maxvm + sz, CBUF_MAPSIZE, pfn, 896*ca3e8d88SDave Plauger PROT_READ | PROT_WRITE, HAT_LOAD_NOCONSIST); 897*ca3e8d88SDave Plauger sz += CBUF_MAPSIZE; 898*ca3e8d88SDave Plauger cfg->found4m++; 899*ca3e8d88SDave Plauger 900*ca3e8d88SDave Plauger /* set the bitmap for both ends to be sure to cover the range */ 901*ca3e8d88SDave Plauger dump_set_used(pfn); 902*ca3e8d88SDave Plauger dump_set_used(pfn + CBUF_MAPNP - 1); 903*ca3e8d88SDave Plauger 904*ca3e8d88SDave Plauger if (sz >= cfg->maxsize) 905*ca3e8d88SDave Plauger goto foundmax; 906*ca3e8d88SDave Plauger } 907*ca3e8d88SDave Plauger 908*ca3e8d88SDave Plauger /* Add small pages if we can't find enough large pages. */ 909*ca3e8d88SDave Plauger dump_init_memlist_walker(&mlw); 910*ca3e8d88SDave Plauger for (bitnum = 0; bitnum < dumpcfg.bitmapsize; bitnum = end) { 911*ca3e8d88SDave Plauger dump_timeleft = dump_timeout; 912*ca3e8d88SDave Plauger end = bitnum + CBUF_MAPNP; 913*ca3e8d88SDave Plauger pfn = dump_bitnum_to_pfn(bitnum, &mlw); 914*ca3e8d88SDave Plauger ASSERT(pfn != PFN_INVALID); 915*ca3e8d88SDave Plauger 916*ca3e8d88SDave Plauger /* Find any non-aligned pages at start and end of segment. */ 917*ca3e8d88SDave Plauger off = P2PHASE(pfn, CBUF_MAPNP); 918*ca3e8d88SDave Plauger if (mlw.mpleft < CBUF_MAPNP) { 919*ca3e8d88SDave Plauger end = bitnum + mlw.mpleft; 920*ca3e8d88SDave Plauger } else if (off != 0) { 921*ca3e8d88SDave Plauger end -= off; 922*ca3e8d88SDave Plauger } else if (cfg->found4m && dump_test_used(pfn)) { 923*ca3e8d88SDave Plauger continue; 924*ca3e8d88SDave Plauger } 925*ca3e8d88SDave Plauger 926*ca3e8d88SDave Plauger for (; bitnum < end; bitnum++, pfn++) { 927*ca3e8d88SDave Plauger dump_timeleft = dump_timeout; 928*ca3e8d88SDave Plauger if (BT_TEST(dumpcfg.bitmap, bitnum)) 929*ca3e8d88SDave Plauger continue; 930*ca3e8d88SDave Plauger if (!dump_pfn_check(pfn)) 931*ca3e8d88SDave Plauger continue; 932*ca3e8d88SDave Plauger ASSERT((sz + PAGESIZE) <= cfg->maxvmsize); 933*ca3e8d88SDave Plauger hat_devload(kas.a_hat, cfg->maxvm + sz, PAGESIZE, pfn, 934*ca3e8d88SDave Plauger PROT_READ | PROT_WRITE, HAT_LOAD_NOCONSIST); 935*ca3e8d88SDave Plauger sz += PAGESIZE; 936*ca3e8d88SDave Plauger cfg->foundsm++; 937*ca3e8d88SDave Plauger dump_set_used(pfn); 938*ca3e8d88SDave Plauger if (sz >= cfg->maxsize) 939*ca3e8d88SDave Plauger goto foundmax; 940*ca3e8d88SDave Plauger } 941*ca3e8d88SDave Plauger } 942*ca3e8d88SDave Plauger 943*ca3e8d88SDave Plauger /* Fall back to lzjb if we did not get enough memory for bzip2. */ 944*ca3e8d88SDave Plauger endsz = (cfg->maxsize * cfg->threshold) / cfg->nhelper; 945*ca3e8d88SDave Plauger if (sz < endsz) { 946*ca3e8d88SDave Plauger cfg->clevel = DUMP_CLEVEL_LZJB; 947*ca3e8d88SDave Plauger } 948*ca3e8d88SDave Plauger 949*ca3e8d88SDave Plauger /* Allocate memory for as many helpers as we can. */ 950*ca3e8d88SDave Plauger foundmax: 951*ca3e8d88SDave Plauger 952*ca3e8d88SDave Plauger /* Byte offsets into memory found and mapped above */ 953*ca3e8d88SDave Plauger endsz = sz; 954*ca3e8d88SDave Plauger sz = 0; 955*ca3e8d88SDave Plauger 956*ca3e8d88SDave Plauger /* Set the size for bzip2 state. Only bzip2 needs it. */ 957*ca3e8d88SDave Plauger bz2size = BZ2_bzCompressInitSize(dump_bzip2_level); 958*ca3e8d88SDave Plauger 959*ca3e8d88SDave Plauger /* Skip the preallocate output buffers. */ 960*ca3e8d88SDave Plauger cp = &cfg->cbuf[MINCBUFS]; 961*ca3e8d88SDave Plauger 962*ca3e8d88SDave Plauger /* Use this to move memory up from the preallocated helpers. */ 963*ca3e8d88SDave Plauger ohp = cfg->helper; 964*ca3e8d88SDave Plauger 965*ca3e8d88SDave Plauger /* Loop over all helpers and allocate memory. */ 966*ca3e8d88SDave Plauger for (hp = cfg->helper; hp < endhp; hp++) { 967*ca3e8d88SDave Plauger 968*ca3e8d88SDave Plauger /* Skip preallocated helpers by checking hp->page. */ 969*ca3e8d88SDave Plauger if (hp->page == NULL) { 970*ca3e8d88SDave Plauger if (cfg->clevel <= DUMP_CLEVEL_LZJB) { 971*ca3e8d88SDave Plauger /* lzjb needs 2 1-page buffers */ 972*ca3e8d88SDave Plauger if ((sz + (2 * PAGESIZE)) > endsz) 973*ca3e8d88SDave Plauger break; 974*ca3e8d88SDave Plauger hp->page = cfg->maxvm + sz; 975*ca3e8d88SDave Plauger sz += PAGESIZE; 976*ca3e8d88SDave Plauger hp->lzbuf = cfg->maxvm + sz; 977*ca3e8d88SDave Plauger sz += PAGESIZE; 978*ca3e8d88SDave Plauger 979*ca3e8d88SDave Plauger } else if (ohp->lzbuf != NULL) { 980*ca3e8d88SDave Plauger /* re-use the preallocted lzjb page for bzip2 */ 981*ca3e8d88SDave Plauger hp->page = ohp->lzbuf; 982*ca3e8d88SDave Plauger ohp->lzbuf = NULL; 983*ca3e8d88SDave Plauger ++ohp; 984*ca3e8d88SDave Plauger 985*ca3e8d88SDave Plauger } else { 986*ca3e8d88SDave Plauger /* bzip2 needs a 1-page buffer */ 987*ca3e8d88SDave Plauger if ((sz + PAGESIZE) > endsz) 988*ca3e8d88SDave Plauger break; 989*ca3e8d88SDave Plauger hp->page = cfg->maxvm + sz; 990*ca3e8d88SDave Plauger sz += PAGESIZE; 991*ca3e8d88SDave Plauger } 992*ca3e8d88SDave Plauger } 993*ca3e8d88SDave Plauger 994*ca3e8d88SDave Plauger /* 995*ca3e8d88SDave Plauger * Add output buffers per helper. The number of 996*ca3e8d88SDave Plauger * buffers per helper is determined by the ratio of 997*ca3e8d88SDave Plauger * ncbuf to nhelper. 998*ca3e8d88SDave Plauger */ 999*ca3e8d88SDave Plauger for (k = 0; cp < endcp && (sz + CBUF_SIZE) <= endsz && 1000*ca3e8d88SDave Plauger k < NCBUF_PER_HELPER; k++) { 1001*ca3e8d88SDave Plauger cp->state = CBUF_FREEBUF; 1002*ca3e8d88SDave Plauger cp->size = CBUF_SIZE; 1003*ca3e8d88SDave Plauger cp->buf = cfg->maxvm + sz; 1004*ca3e8d88SDave Plauger sz += CBUF_SIZE; 1005*ca3e8d88SDave Plauger ++cp; 1006*ca3e8d88SDave Plauger } 1007*ca3e8d88SDave Plauger 1008*ca3e8d88SDave Plauger /* 1009*ca3e8d88SDave Plauger * bzip2 needs compression state. Use the dumpbzalloc 1010*ca3e8d88SDave Plauger * and dumpbzfree callbacks to allocate the memory. 1011*ca3e8d88SDave Plauger * bzip2 does allocation only at init time. 1012*ca3e8d88SDave Plauger */ 1013*ca3e8d88SDave Plauger if (cfg->clevel >= DUMP_CLEVEL_BZIP2) { 1014*ca3e8d88SDave Plauger if ((sz + bz2size) > endsz) { 1015*ca3e8d88SDave Plauger hp->page = NULL; 1016*ca3e8d88SDave Plauger break; 1017*ca3e8d88SDave Plauger } else { 1018*ca3e8d88SDave Plauger hp->bzstream.opaque = &sz; 1019*ca3e8d88SDave Plauger hp->bzstream.bzalloc = dumpbzalloc; 1020*ca3e8d88SDave Plauger hp->bzstream.bzfree = dumpbzfree; 1021*ca3e8d88SDave Plauger (void) BZ2_bzCompressInit(&hp->bzstream, 1022*ca3e8d88SDave Plauger dump_bzip2_level, 0, 0); 1023*ca3e8d88SDave Plauger hp->bzstream.opaque = NULL; 1024*ca3e8d88SDave Plauger } 1025*ca3e8d88SDave Plauger } 1026*ca3e8d88SDave Plauger } 1027*ca3e8d88SDave Plauger 1028*ca3e8d88SDave Plauger /* Finish allocating output buffers */ 1029*ca3e8d88SDave Plauger for (; cp < endcp && (sz + CBUF_SIZE) <= endsz; cp++) { 1030*ca3e8d88SDave Plauger cp->state = CBUF_FREEBUF; 1031*ca3e8d88SDave Plauger cp->size = CBUF_SIZE; 1032*ca3e8d88SDave Plauger cp->buf = cfg->maxvm + sz; 1033*ca3e8d88SDave Plauger sz += CBUF_SIZE; 1034*ca3e8d88SDave Plauger } 1035*ca3e8d88SDave Plauger 1036*ca3e8d88SDave Plauger /* Enable IS_DUMP_PAGE macro, which checks for pages we took. */ 1037*ca3e8d88SDave Plauger if (cfg->found4m || cfg->foundsm) 1038*ca3e8d88SDave Plauger dump_check_used = 1; 1039*ca3e8d88SDave Plauger 1040*ca3e8d88SDave Plauger ASSERT(sz <= endsz); 1041*ca3e8d88SDave Plauger } 1042*ca3e8d88SDave Plauger 10437c478bd9Sstevel@tonic-gate static void 10447c478bd9Sstevel@tonic-gate dumphdr_init(void) 10457c478bd9Sstevel@tonic-gate { 10467c478bd9Sstevel@tonic-gate pgcnt_t npages = 0; 10477c478bd9Sstevel@tonic-gate 10487c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(&dump_lock)); 10497c478bd9Sstevel@tonic-gate 10507c478bd9Sstevel@tonic-gate if (dumphdr == NULL) { 10517c478bd9Sstevel@tonic-gate dumphdr = kmem_zalloc(sizeof (dumphdr_t), KM_SLEEP); 10527c478bd9Sstevel@tonic-gate dumphdr->dump_magic = DUMP_MAGIC; 10537c478bd9Sstevel@tonic-gate dumphdr->dump_version = DUMP_VERSION; 10547c478bd9Sstevel@tonic-gate dumphdr->dump_wordsize = DUMP_WORDSIZE; 10557c478bd9Sstevel@tonic-gate dumphdr->dump_pageshift = PAGESHIFT; 10567c478bd9Sstevel@tonic-gate dumphdr->dump_pagesize = PAGESIZE; 10577c478bd9Sstevel@tonic-gate dumphdr->dump_utsname = utsname; 10587c478bd9Sstevel@tonic-gate (void) strcpy(dumphdr->dump_platform, platform); 1059*ca3e8d88SDave Plauger dumpbuf.size = dumpbuf_iosize(maxphys); 1060*ca3e8d88SDave Plauger dumpbuf.start = kmem_alloc(dumpbuf.size, KM_SLEEP); 1061*ca3e8d88SDave Plauger dumpbuf.end = dumpbuf.start + dumpbuf.size; 1062*ca3e8d88SDave Plauger dumpcfg.pids = kmem_alloc(v.v_proc * sizeof (pid_t), KM_SLEEP); 1063*ca3e8d88SDave Plauger dumpcfg.helpermap = kmem_zalloc(BT_SIZEOFMAP(NCPU), KM_SLEEP); 1064*ca3e8d88SDave Plauger LOCK_INIT_HELD(&dumpcfg.helper_lock); 10657c478bd9Sstevel@tonic-gate } 10667c478bd9Sstevel@tonic-gate 1067843e1988Sjohnlev npages = num_phys_pages(); 10687c478bd9Sstevel@tonic-gate 1069*ca3e8d88SDave Plauger if (dumpcfg.bitmapsize != npages) { 1070*ca3e8d88SDave Plauger size_t rlen = CBUF_MAPP2R(P2ROUNDUP(npages, CBUF_MAPNP)); 10717c478bd9Sstevel@tonic-gate void *map = kmem_alloc(BT_SIZEOFMAP(npages), KM_SLEEP); 1072*ca3e8d88SDave Plauger void *rmap = kmem_alloc(BT_SIZEOFMAP(rlen), KM_SLEEP); 1073*ca3e8d88SDave Plauger 1074*ca3e8d88SDave Plauger if (dumpcfg.bitmap != NULL) 1075*ca3e8d88SDave Plauger kmem_free(dumpcfg.bitmap, BT_SIZEOFMAP(dumpcfg. 1076*ca3e8d88SDave Plauger bitmapsize)); 1077*ca3e8d88SDave Plauger if (dumpcfg.rbitmap != NULL) 1078*ca3e8d88SDave Plauger kmem_free(dumpcfg.rbitmap, BT_SIZEOFMAP(dumpcfg. 1079*ca3e8d88SDave Plauger rbitmapsize)); 1080*ca3e8d88SDave Plauger dumpcfg.bitmap = map; 1081*ca3e8d88SDave Plauger dumpcfg.bitmapsize = npages; 1082*ca3e8d88SDave Plauger dumpcfg.rbitmap = rmap; 1083*ca3e8d88SDave Plauger dumpcfg.rbitmapsize = rlen; 10847c478bd9Sstevel@tonic-gate } 10857c478bd9Sstevel@tonic-gate } 10867c478bd9Sstevel@tonic-gate 10877c478bd9Sstevel@tonic-gate /* 10887c478bd9Sstevel@tonic-gate * Establish a new dump device. 10897c478bd9Sstevel@tonic-gate */ 10907c478bd9Sstevel@tonic-gate int 10917c478bd9Sstevel@tonic-gate dumpinit(vnode_t *vp, char *name, int justchecking) 10927c478bd9Sstevel@tonic-gate { 10937c478bd9Sstevel@tonic-gate vnode_t *cvp; 10947c478bd9Sstevel@tonic-gate vattr_t vattr; 10957c478bd9Sstevel@tonic-gate vnode_t *cdev_vp; 10967c478bd9Sstevel@tonic-gate int error = 0; 10977c478bd9Sstevel@tonic-gate 10987c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(&dump_lock)); 10997c478bd9Sstevel@tonic-gate 11007c478bd9Sstevel@tonic-gate dumphdr_init(); 11017c478bd9Sstevel@tonic-gate 11027c478bd9Sstevel@tonic-gate cvp = common_specvp(vp); 11037c478bd9Sstevel@tonic-gate if (cvp == dumpvp) 11047c478bd9Sstevel@tonic-gate return (0); 11057c478bd9Sstevel@tonic-gate 11067c478bd9Sstevel@tonic-gate /* 11077c478bd9Sstevel@tonic-gate * Determine whether this is a plausible dump device. We want either: 11087c478bd9Sstevel@tonic-gate * (1) a real device that's not mounted and has a cb_dump routine, or 11097c478bd9Sstevel@tonic-gate * (2) a swapfile on some filesystem that has a vop_dump routine. 11107c478bd9Sstevel@tonic-gate */ 1111da6c28aaSamw if ((error = VOP_OPEN(&cvp, FREAD | FWRITE, kcred, NULL)) != 0) 11127c478bd9Sstevel@tonic-gate return (error); 11137c478bd9Sstevel@tonic-gate 11147c478bd9Sstevel@tonic-gate vattr.va_mask = AT_SIZE | AT_TYPE | AT_RDEV; 1115da6c28aaSamw if ((error = VOP_GETATTR(cvp, &vattr, 0, kcred, NULL)) == 0) { 11167c478bd9Sstevel@tonic-gate if (vattr.va_type == VBLK || vattr.va_type == VCHR) { 11177c478bd9Sstevel@tonic-gate if (devopsp[getmajor(vattr.va_rdev)]-> 11187c478bd9Sstevel@tonic-gate devo_cb_ops->cb_dump == nodev) 11197c478bd9Sstevel@tonic-gate error = ENOTSUP; 11207c478bd9Sstevel@tonic-gate else if (vfs_devismounted(vattr.va_rdev)) 11217c478bd9Sstevel@tonic-gate error = EBUSY; 1122681d9761SEric Taylor if (strcmp(ddi_driver_name(VTOS(cvp)->s_dip), 1123681d9761SEric Taylor ZFS_DRIVER) == 0 && 1124681d9761SEric Taylor IS_SWAPVP(common_specvp(cvp))) 1125681d9761SEric Taylor error = EBUSY; 11267c478bd9Sstevel@tonic-gate } else { 11277c478bd9Sstevel@tonic-gate if (vn_matchopval(cvp, VOPNAME_DUMP, fs_nosys) || 11287c478bd9Sstevel@tonic-gate !IS_SWAPVP(cvp)) 11297c478bd9Sstevel@tonic-gate error = ENOTSUP; 11307c478bd9Sstevel@tonic-gate } 11317c478bd9Sstevel@tonic-gate } 11327c478bd9Sstevel@tonic-gate 11337c478bd9Sstevel@tonic-gate if (error == 0 && vattr.va_size < 2 * DUMP_LOGSIZE + DUMP_ERPTSIZE) 11347c478bd9Sstevel@tonic-gate error = ENOSPC; 11357c478bd9Sstevel@tonic-gate 11367c478bd9Sstevel@tonic-gate if (error || justchecking) { 1137da6c28aaSamw (void) VOP_CLOSE(cvp, FREAD | FWRITE, 1, (offset_t)0, 1138da6c28aaSamw kcred, NULL); 11397c478bd9Sstevel@tonic-gate return (error); 11407c478bd9Sstevel@tonic-gate } 11417c478bd9Sstevel@tonic-gate 11427c478bd9Sstevel@tonic-gate VN_HOLD(cvp); 11437c478bd9Sstevel@tonic-gate 11447c478bd9Sstevel@tonic-gate if (dumpvp != NULL) 11457c478bd9Sstevel@tonic-gate dumpfini(); /* unconfigure the old dump device */ 11467c478bd9Sstevel@tonic-gate 11477c478bd9Sstevel@tonic-gate dumpvp = cvp; 11487c478bd9Sstevel@tonic-gate dumpvp_size = vattr.va_size & -DUMP_OFFSET; 11497c478bd9Sstevel@tonic-gate dumppath = kmem_alloc(strlen(name) + 1, KM_SLEEP); 11507c478bd9Sstevel@tonic-gate (void) strcpy(dumppath, name); 1151*ca3e8d88SDave Plauger dumpbuf.iosize = 0; 11527c478bd9Sstevel@tonic-gate 11537c478bd9Sstevel@tonic-gate /* 11547c478bd9Sstevel@tonic-gate * If the dump device is a block device, attempt to open up the 11557c478bd9Sstevel@tonic-gate * corresponding character device and determine its maximum transfer 11567c478bd9Sstevel@tonic-gate * size. We use this information to potentially resize dumpbuf to a 11577c478bd9Sstevel@tonic-gate * larger and more optimal size for performing i/o to the dump device. 11587c478bd9Sstevel@tonic-gate */ 11597c478bd9Sstevel@tonic-gate if (cvp->v_type == VBLK && 11607c478bd9Sstevel@tonic-gate (cdev_vp = makespecvp(VTOS(cvp)->s_dev, VCHR)) != NULL) { 1161da6c28aaSamw if (VOP_OPEN(&cdev_vp, FREAD | FWRITE, kcred, NULL) == 0) { 11627c478bd9Sstevel@tonic-gate size_t blk_size; 11637c478bd9Sstevel@tonic-gate struct dk_cinfo dki; 116465908c77Syu, larry liu - Sun Microsystems - Beijing China struct dk_minfo minf; 11657c478bd9Sstevel@tonic-gate 116665908c77Syu, larry liu - Sun Microsystems - Beijing China if (VOP_IOCTL(cdev_vp, DKIOCGMEDIAINFO, 116765908c77Syu, larry liu - Sun Microsystems - Beijing China (intptr_t)&minf, FKIOCTL, kcred, NULL, NULL) 116865908c77Syu, larry liu - Sun Microsystems - Beijing China == 0 && minf.dki_lbsize != 0) 116965908c77Syu, larry liu - Sun Microsystems - Beijing China blk_size = minf.dki_lbsize; 11707c478bd9Sstevel@tonic-gate else 11717c478bd9Sstevel@tonic-gate blk_size = DEV_BSIZE; 11727c478bd9Sstevel@tonic-gate 11737c478bd9Sstevel@tonic-gate if (VOP_IOCTL(cdev_vp, DKIOCINFO, (intptr_t)&dki, 1174da6c28aaSamw FKIOCTL, kcred, NULL, NULL) == 0) { 1175*ca3e8d88SDave Plauger dumpbuf.iosize = dki.dki_maxtransfer * blk_size; 11767c478bd9Sstevel@tonic-gate dumpbuf_resize(); 11777c478bd9Sstevel@tonic-gate } 1178e7cbe64fSgw25295 /* 1179681d9761SEric Taylor * If we are working with a zvol then dumpify it 1180681d9761SEric Taylor * if it's not being used as swap. 1181e7cbe64fSgw25295 */ 1182e7cbe64fSgw25295 if (strcmp(dki.dki_dname, ZVOL_DRIVER) == 0) { 1183681d9761SEric Taylor if (IS_SWAPVP(common_specvp(cvp))) 1184681d9761SEric Taylor error = EBUSY; 1185681d9761SEric Taylor else if ((error = VOP_IOCTL(cdev_vp, 1186e7cbe64fSgw25295 DKIOCDUMPINIT, NULL, FKIOCTL, kcred, 1187681d9761SEric Taylor NULL, NULL)) != 0) 1188e7cbe64fSgw25295 dumpfini(); 1189e7cbe64fSgw25295 } 11907c478bd9Sstevel@tonic-gate 1191da6c28aaSamw (void) VOP_CLOSE(cdev_vp, FREAD | FWRITE, 1, 0, 1192da6c28aaSamw kcred, NULL); 11937c478bd9Sstevel@tonic-gate } 11947c478bd9Sstevel@tonic-gate 11957c478bd9Sstevel@tonic-gate VN_RELE(cdev_vp); 11967c478bd9Sstevel@tonic-gate } 11977c478bd9Sstevel@tonic-gate 11987c478bd9Sstevel@tonic-gate cmn_err(CE_CONT, "?dump on %s size %llu MB\n", name, dumpvp_size >> 20); 11997c478bd9Sstevel@tonic-gate 1200*ca3e8d88SDave Plauger dump_update_clevel(); 1201*ca3e8d88SDave Plauger 1202e7cbe64fSgw25295 return (error); 12037c478bd9Sstevel@tonic-gate } 12047c478bd9Sstevel@tonic-gate 12057c478bd9Sstevel@tonic-gate void 12067c478bd9Sstevel@tonic-gate dumpfini(void) 12077c478bd9Sstevel@tonic-gate { 1208e7cbe64fSgw25295 vattr_t vattr; 1209e7cbe64fSgw25295 boolean_t is_zfs = B_FALSE; 1210e7cbe64fSgw25295 vnode_t *cdev_vp; 12117c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(&dump_lock)); 12127c478bd9Sstevel@tonic-gate 12137c478bd9Sstevel@tonic-gate kmem_free(dumppath, strlen(dumppath) + 1); 12147c478bd9Sstevel@tonic-gate 1215e7cbe64fSgw25295 /* 1216e7cbe64fSgw25295 * Determine if we are using zvols for our dump device 1217e7cbe64fSgw25295 */ 1218e7cbe64fSgw25295 vattr.va_mask = AT_RDEV; 1219e7cbe64fSgw25295 if (VOP_GETATTR(dumpvp, &vattr, 0, kcred, NULL) == 0) { 1220e7cbe64fSgw25295 is_zfs = (getmajor(vattr.va_rdev) == 1221e7cbe64fSgw25295 ddi_name_to_major(ZFS_DRIVER)) ? B_TRUE : B_FALSE; 1222e7cbe64fSgw25295 } 1223e7cbe64fSgw25295 1224e7cbe64fSgw25295 /* 1225e7cbe64fSgw25295 * If we have a zvol dump device then we call into zfs so 1226e7cbe64fSgw25295 * that it may have a chance to cleanup. 1227e7cbe64fSgw25295 */ 1228e7cbe64fSgw25295 if (is_zfs && 1229e7cbe64fSgw25295 (cdev_vp = makespecvp(VTOS(dumpvp)->s_dev, VCHR)) != NULL) { 1230e7cbe64fSgw25295 if (VOP_OPEN(&cdev_vp, FREAD | FWRITE, kcred, NULL) == 0) { 1231e7cbe64fSgw25295 (void) VOP_IOCTL(cdev_vp, DKIOCDUMPFINI, NULL, FKIOCTL, 1232e7cbe64fSgw25295 kcred, NULL, NULL); 1233e7cbe64fSgw25295 (void) VOP_CLOSE(cdev_vp, FREAD | FWRITE, 1, 0, 1234e7cbe64fSgw25295 kcred, NULL); 1235e7cbe64fSgw25295 } 1236e7cbe64fSgw25295 VN_RELE(cdev_vp); 1237e7cbe64fSgw25295 } 1238e7cbe64fSgw25295 1239da6c28aaSamw (void) VOP_CLOSE(dumpvp, FREAD | FWRITE, 1, (offset_t)0, kcred, NULL); 12407c478bd9Sstevel@tonic-gate 12417c478bd9Sstevel@tonic-gate VN_RELE(dumpvp); 12427c478bd9Sstevel@tonic-gate 12437c478bd9Sstevel@tonic-gate dumpvp = NULL; 12447c478bd9Sstevel@tonic-gate dumpvp_size = 0; 12457c478bd9Sstevel@tonic-gate dumppath = NULL; 12467c478bd9Sstevel@tonic-gate } 12477c478bd9Sstevel@tonic-gate 12487c478bd9Sstevel@tonic-gate static offset_t 12497c478bd9Sstevel@tonic-gate dumpvp_flush(void) 12507c478bd9Sstevel@tonic-gate { 1251*ca3e8d88SDave Plauger size_t size = P2ROUNDUP(dumpbuf.cur - dumpbuf.start, PAGESIZE); 1252*ca3e8d88SDave Plauger hrtime_t iotime; 12537c478bd9Sstevel@tonic-gate int err; 12547c478bd9Sstevel@tonic-gate 1255*ca3e8d88SDave Plauger if (dumpbuf.vp_off + size > dumpbuf.vp_limit) { 12567c478bd9Sstevel@tonic-gate dump_ioerr = ENOSPC; 1257*ca3e8d88SDave Plauger dumpbuf.vp_off = dumpbuf.vp_limit; 12587c478bd9Sstevel@tonic-gate } else if (size != 0) { 1259*ca3e8d88SDave Plauger iotime = gethrtime(); 1260*ca3e8d88SDave Plauger dumpsync.iowait += iotime - dumpsync.iowaitts; 12617c478bd9Sstevel@tonic-gate if (panicstr) 1262*ca3e8d88SDave Plauger err = VOP_DUMP(dumpvp, dumpbuf.start, 1263*ca3e8d88SDave Plauger lbtodb(dumpbuf.vp_off), btod(size), NULL); 12647c478bd9Sstevel@tonic-gate else 1265*ca3e8d88SDave Plauger err = vn_rdwr(UIO_WRITE, dumpbuf.cdev_vp != NULL ? 1266*ca3e8d88SDave Plauger dumpbuf.cdev_vp : dumpvp, dumpbuf.start, size, 1267*ca3e8d88SDave Plauger dumpbuf.vp_off, UIO_SYSSPACE, 0, dumpbuf.vp_limit, 12687c478bd9Sstevel@tonic-gate kcred, 0); 12697c478bd9Sstevel@tonic-gate if (err && dump_ioerr == 0) 12707c478bd9Sstevel@tonic-gate dump_ioerr = err; 1271*ca3e8d88SDave Plauger dumpsync.iowaitts = gethrtime(); 1272*ca3e8d88SDave Plauger dumpsync.iotime += dumpsync.iowaitts - iotime; 1273*ca3e8d88SDave Plauger dumpsync.nwrite += size; 1274*ca3e8d88SDave Plauger dumpbuf.vp_off += size; 12757c478bd9Sstevel@tonic-gate } 1276*ca3e8d88SDave Plauger dumpbuf.cur = dumpbuf.start; 12777c478bd9Sstevel@tonic-gate dump_timeleft = dump_timeout; 1278*ca3e8d88SDave Plauger return (dumpbuf.vp_off); 12797c478bd9Sstevel@tonic-gate } 12807c478bd9Sstevel@tonic-gate 1281*ca3e8d88SDave Plauger /* maximize write speed by keeping seek offset aligned with size */ 12827c478bd9Sstevel@tonic-gate void 12837c478bd9Sstevel@tonic-gate dumpvp_write(const void *va, size_t size) 12847c478bd9Sstevel@tonic-gate { 1285*ca3e8d88SDave Plauger size_t len, off, sz; 1286*ca3e8d88SDave Plauger 12877c478bd9Sstevel@tonic-gate while (size != 0) { 1288*ca3e8d88SDave Plauger len = MIN(size, dumpbuf.end - dumpbuf.cur); 12897c478bd9Sstevel@tonic-gate if (len == 0) { 1290*ca3e8d88SDave Plauger off = P2PHASE(dumpbuf.vp_off, dumpbuf.size); 1291*ca3e8d88SDave Plauger if (off == 0 || !ISP2(dumpbuf.size)) { 12927c478bd9Sstevel@tonic-gate (void) dumpvp_flush(); 12937c478bd9Sstevel@tonic-gate } else { 1294*ca3e8d88SDave Plauger sz = dumpbuf.size - off; 1295*ca3e8d88SDave Plauger dumpbuf.cur = dumpbuf.start + sz; 1296*ca3e8d88SDave Plauger (void) dumpvp_flush(); 1297*ca3e8d88SDave Plauger ovbcopy(dumpbuf.start + sz, dumpbuf.start, off); 1298*ca3e8d88SDave Plauger dumpbuf.cur += off; 1299*ca3e8d88SDave Plauger } 1300*ca3e8d88SDave Plauger } else { 1301*ca3e8d88SDave Plauger bcopy(va, dumpbuf.cur, len); 13027c478bd9Sstevel@tonic-gate va = (char *)va + len; 1303*ca3e8d88SDave Plauger dumpbuf.cur += len; 13047c478bd9Sstevel@tonic-gate size -= len; 13057c478bd9Sstevel@tonic-gate } 13067c478bd9Sstevel@tonic-gate } 13077c478bd9Sstevel@tonic-gate } 13087c478bd9Sstevel@tonic-gate 13097c478bd9Sstevel@tonic-gate /*ARGSUSED*/ 13107c478bd9Sstevel@tonic-gate static void 13117c478bd9Sstevel@tonic-gate dumpvp_ksyms_write(const void *src, void *dst, size_t size) 13127c478bd9Sstevel@tonic-gate { 13137c478bd9Sstevel@tonic-gate dumpvp_write(src, size); 13147c478bd9Sstevel@tonic-gate } 13157c478bd9Sstevel@tonic-gate 13167c478bd9Sstevel@tonic-gate /* 13177c478bd9Sstevel@tonic-gate * Mark 'pfn' in the bitmap and dump its translation table entry. 13187c478bd9Sstevel@tonic-gate */ 13197c478bd9Sstevel@tonic-gate void 13207c478bd9Sstevel@tonic-gate dump_addpage(struct as *as, void *va, pfn_t pfn) 13217c478bd9Sstevel@tonic-gate { 13227c478bd9Sstevel@tonic-gate mem_vtop_t mem_vtop; 13237c478bd9Sstevel@tonic-gate pgcnt_t bitnum; 13247c478bd9Sstevel@tonic-gate 13257c478bd9Sstevel@tonic-gate if ((bitnum = dump_pfn_to_bitnum(pfn)) != (pgcnt_t)-1) { 1326*ca3e8d88SDave Plauger if (!BT_TEST(dumpcfg.bitmap, bitnum)) { 13277c478bd9Sstevel@tonic-gate dumphdr->dump_npages++; 1328*ca3e8d88SDave Plauger BT_SET(dumpcfg.bitmap, bitnum); 13297c478bd9Sstevel@tonic-gate } 13307c478bd9Sstevel@tonic-gate dumphdr->dump_nvtop++; 13317c478bd9Sstevel@tonic-gate mem_vtop.m_as = as; 13327c478bd9Sstevel@tonic-gate mem_vtop.m_va = va; 13337c478bd9Sstevel@tonic-gate mem_vtop.m_pfn = pfn; 13347c478bd9Sstevel@tonic-gate dumpvp_write(&mem_vtop, sizeof (mem_vtop_t)); 13357c478bd9Sstevel@tonic-gate } 13367c478bd9Sstevel@tonic-gate dump_timeleft = dump_timeout; 13377c478bd9Sstevel@tonic-gate } 13387c478bd9Sstevel@tonic-gate 13397c478bd9Sstevel@tonic-gate /* 13407c478bd9Sstevel@tonic-gate * Mark 'pfn' in the bitmap 13417c478bd9Sstevel@tonic-gate */ 13427c478bd9Sstevel@tonic-gate void 13437c478bd9Sstevel@tonic-gate dump_page(pfn_t pfn) 13447c478bd9Sstevel@tonic-gate { 13457c478bd9Sstevel@tonic-gate pgcnt_t bitnum; 13467c478bd9Sstevel@tonic-gate 13477c478bd9Sstevel@tonic-gate if ((bitnum = dump_pfn_to_bitnum(pfn)) != (pgcnt_t)-1) { 1348*ca3e8d88SDave Plauger if (!BT_TEST(dumpcfg.bitmap, bitnum)) { 13497c478bd9Sstevel@tonic-gate dumphdr->dump_npages++; 1350*ca3e8d88SDave Plauger BT_SET(dumpcfg.bitmap, bitnum); 13517c478bd9Sstevel@tonic-gate } 13527c478bd9Sstevel@tonic-gate } 13537c478bd9Sstevel@tonic-gate dump_timeleft = dump_timeout; 13547c478bd9Sstevel@tonic-gate } 13557c478bd9Sstevel@tonic-gate 13567c478bd9Sstevel@tonic-gate /* 13577c478bd9Sstevel@tonic-gate * Dump the <as, va, pfn> information for a given address space. 13587c478bd9Sstevel@tonic-gate * SEGOP_DUMP() will call dump_addpage() for each page in the segment. 13597c478bd9Sstevel@tonic-gate */ 13607c478bd9Sstevel@tonic-gate static void 13617c478bd9Sstevel@tonic-gate dump_as(struct as *as) 13627c478bd9Sstevel@tonic-gate { 13637c478bd9Sstevel@tonic-gate struct seg *seg; 13647c478bd9Sstevel@tonic-gate 13657c478bd9Sstevel@tonic-gate AS_LOCK_ENTER(as, &as->a_lock, RW_READER); 13667c478bd9Sstevel@tonic-gate for (seg = AS_SEGFIRST(as); seg; seg = AS_SEGNEXT(as, seg)) { 13677c478bd9Sstevel@tonic-gate if (seg->s_as != as) 13687c478bd9Sstevel@tonic-gate break; 13697c478bd9Sstevel@tonic-gate if (seg->s_ops == NULL) 13707c478bd9Sstevel@tonic-gate continue; 13717c478bd9Sstevel@tonic-gate SEGOP_DUMP(seg); 13727c478bd9Sstevel@tonic-gate } 13737c478bd9Sstevel@tonic-gate AS_LOCK_EXIT(as, &as->a_lock); 13747c478bd9Sstevel@tonic-gate 13757c478bd9Sstevel@tonic-gate if (seg != NULL) 13767c478bd9Sstevel@tonic-gate cmn_err(CE_WARN, "invalid segment %p in address space %p", 13777c478bd9Sstevel@tonic-gate (void *)seg, (void *)as); 13787c478bd9Sstevel@tonic-gate } 13797c478bd9Sstevel@tonic-gate 13807c478bd9Sstevel@tonic-gate static int 13817c478bd9Sstevel@tonic-gate dump_process(pid_t pid) 13827c478bd9Sstevel@tonic-gate { 13837c478bd9Sstevel@tonic-gate proc_t *p = sprlock(pid); 13847c478bd9Sstevel@tonic-gate 13857c478bd9Sstevel@tonic-gate if (p == NULL) 13867c478bd9Sstevel@tonic-gate return (-1); 13877c478bd9Sstevel@tonic-gate if (p->p_as != &kas) { 13887c478bd9Sstevel@tonic-gate mutex_exit(&p->p_lock); 13897c478bd9Sstevel@tonic-gate dump_as(p->p_as); 13907c478bd9Sstevel@tonic-gate mutex_enter(&p->p_lock); 13917c478bd9Sstevel@tonic-gate } 13927c478bd9Sstevel@tonic-gate 13937c478bd9Sstevel@tonic-gate sprunlock(p); 13947c478bd9Sstevel@tonic-gate 13957c478bd9Sstevel@tonic-gate return (0); 13967c478bd9Sstevel@tonic-gate } 13977c478bd9Sstevel@tonic-gate 13987c478bd9Sstevel@tonic-gate void 13997c478bd9Sstevel@tonic-gate dump_ereports(void) 14007c478bd9Sstevel@tonic-gate { 14017c478bd9Sstevel@tonic-gate u_offset_t dumpvp_start; 14027c478bd9Sstevel@tonic-gate erpt_dump_t ed; 14037c478bd9Sstevel@tonic-gate 14047c478bd9Sstevel@tonic-gate if (dumpvp == NULL || dumphdr == NULL) 14057c478bd9Sstevel@tonic-gate return; 14067c478bd9Sstevel@tonic-gate 1407*ca3e8d88SDave Plauger dumpbuf.cur = dumpbuf.start; 1408*ca3e8d88SDave Plauger dumpbuf.vp_limit = dumpvp_size - (DUMP_OFFSET + DUMP_LOGSIZE); 1409*ca3e8d88SDave Plauger dumpvp_start = dumpbuf.vp_limit - DUMP_ERPTSIZE; 1410*ca3e8d88SDave Plauger dumpbuf.vp_off = dumpvp_start; 14117c478bd9Sstevel@tonic-gate 14127c478bd9Sstevel@tonic-gate fm_ereport_dump(); 14137c478bd9Sstevel@tonic-gate if (panicstr) 14147c478bd9Sstevel@tonic-gate errorq_dump(); 14157c478bd9Sstevel@tonic-gate 14167c478bd9Sstevel@tonic-gate bzero(&ed, sizeof (ed)); /* indicate end of ereports */ 14177c478bd9Sstevel@tonic-gate dumpvp_write(&ed, sizeof (ed)); 14187c478bd9Sstevel@tonic-gate (void) dumpvp_flush(); 14197c478bd9Sstevel@tonic-gate 14207c478bd9Sstevel@tonic-gate if (!panicstr) { 14217c478bd9Sstevel@tonic-gate (void) VOP_PUTPAGE(dumpvp, dumpvp_start, 1422*ca3e8d88SDave Plauger (size_t)(dumpbuf.vp_off - dumpvp_start), 1423da6c28aaSamw B_INVAL | B_FORCE, kcred, NULL); 14247c478bd9Sstevel@tonic-gate } 14257c478bd9Sstevel@tonic-gate } 14267c478bd9Sstevel@tonic-gate 14277c478bd9Sstevel@tonic-gate void 14287c478bd9Sstevel@tonic-gate dump_messages(void) 14297c478bd9Sstevel@tonic-gate { 14307c478bd9Sstevel@tonic-gate log_dump_t ld; 14317c478bd9Sstevel@tonic-gate mblk_t *mctl, *mdata; 14327c478bd9Sstevel@tonic-gate queue_t *q, *qlast; 14337c478bd9Sstevel@tonic-gate u_offset_t dumpvp_start; 14347c478bd9Sstevel@tonic-gate 14357c478bd9Sstevel@tonic-gate if (dumpvp == NULL || dumphdr == NULL || log_consq == NULL) 14367c478bd9Sstevel@tonic-gate return; 14377c478bd9Sstevel@tonic-gate 1438*ca3e8d88SDave Plauger dumpbuf.cur = dumpbuf.start; 1439*ca3e8d88SDave Plauger dumpbuf.vp_limit = dumpvp_size - DUMP_OFFSET; 1440*ca3e8d88SDave Plauger dumpvp_start = dumpbuf.vp_limit - DUMP_LOGSIZE; 1441*ca3e8d88SDave Plauger dumpbuf.vp_off = dumpvp_start; 14427c478bd9Sstevel@tonic-gate 14437c478bd9Sstevel@tonic-gate qlast = NULL; 14447c478bd9Sstevel@tonic-gate do { 14457c478bd9Sstevel@tonic-gate for (q = log_consq; q->q_next != qlast; q = q->q_next) 14467c478bd9Sstevel@tonic-gate continue; 14477c478bd9Sstevel@tonic-gate for (mctl = q->q_first; mctl != NULL; mctl = mctl->b_next) { 14487c478bd9Sstevel@tonic-gate dump_timeleft = dump_timeout; 14497c478bd9Sstevel@tonic-gate mdata = mctl->b_cont; 14507c478bd9Sstevel@tonic-gate ld.ld_magic = LOG_MAGIC; 14517c478bd9Sstevel@tonic-gate ld.ld_msgsize = MBLKL(mctl->b_cont); 14527c478bd9Sstevel@tonic-gate ld.ld_csum = checksum32(mctl->b_rptr, MBLKL(mctl)); 14537c478bd9Sstevel@tonic-gate ld.ld_msum = checksum32(mdata->b_rptr, MBLKL(mdata)); 14547c478bd9Sstevel@tonic-gate dumpvp_write(&ld, sizeof (ld)); 14557c478bd9Sstevel@tonic-gate dumpvp_write(mctl->b_rptr, MBLKL(mctl)); 14567c478bd9Sstevel@tonic-gate dumpvp_write(mdata->b_rptr, MBLKL(mdata)); 14577c478bd9Sstevel@tonic-gate } 14587c478bd9Sstevel@tonic-gate } while ((qlast = q) != log_consq); 14597c478bd9Sstevel@tonic-gate 14607c478bd9Sstevel@tonic-gate ld.ld_magic = 0; /* indicate end of messages */ 14617c478bd9Sstevel@tonic-gate dumpvp_write(&ld, sizeof (ld)); 14627c478bd9Sstevel@tonic-gate (void) dumpvp_flush(); 14637c478bd9Sstevel@tonic-gate if (!panicstr) { 14647c478bd9Sstevel@tonic-gate (void) VOP_PUTPAGE(dumpvp, dumpvp_start, 1465*ca3e8d88SDave Plauger (size_t)(dumpbuf.vp_off - dumpvp_start), 1466da6c28aaSamw B_INVAL | B_FORCE, kcred, NULL); 14677c478bd9Sstevel@tonic-gate } 14687c478bd9Sstevel@tonic-gate } 14697c478bd9Sstevel@tonic-gate 1470*ca3e8d88SDave Plauger /* 1471*ca3e8d88SDave Plauger * The following functions are called on multiple CPUs during dump. 1472*ca3e8d88SDave Plauger * They must not use most kernel services, because all cross-calls are 1473*ca3e8d88SDave Plauger * disabled during panic. Therefore, blocking locks and cache flushes 1474*ca3e8d88SDave Plauger * will not work. 1475*ca3e8d88SDave Plauger */ 1476*ca3e8d88SDave Plauger 1477*ca3e8d88SDave Plauger static int 14787c478bd9Sstevel@tonic-gate dump_pagecopy(void *src, void *dst) 14797c478bd9Sstevel@tonic-gate { 14807c478bd9Sstevel@tonic-gate long *wsrc = (long *)src; 14817c478bd9Sstevel@tonic-gate long *wdst = (long *)dst; 14827c478bd9Sstevel@tonic-gate const ulong_t ncopies = PAGESIZE / sizeof (long); 14837c478bd9Sstevel@tonic-gate volatile int w = 0; 14847c478bd9Sstevel@tonic-gate volatile int ueoff = -1; 14857c478bd9Sstevel@tonic-gate on_trap_data_t otd; 14867c478bd9Sstevel@tonic-gate 14877c478bd9Sstevel@tonic-gate if (on_trap(&otd, OT_DATA_EC)) { 1488*ca3e8d88SDave Plauger if (ueoff == -1) 14897c478bd9Sstevel@tonic-gate ueoff = w * sizeof (long); 14907c478bd9Sstevel@tonic-gate #ifdef _LP64 14917c478bd9Sstevel@tonic-gate wdst[w++] = 0xbadecc00badecc; 14927c478bd9Sstevel@tonic-gate #else 14937c478bd9Sstevel@tonic-gate wdst[w++] = 0xbadecc; 14947c478bd9Sstevel@tonic-gate #endif 14957c478bd9Sstevel@tonic-gate } 14967c478bd9Sstevel@tonic-gate while (w < ncopies) { 14977c478bd9Sstevel@tonic-gate wdst[w] = wsrc[w]; 14987c478bd9Sstevel@tonic-gate w++; 14997c478bd9Sstevel@tonic-gate } 15007c478bd9Sstevel@tonic-gate no_trap(); 1501*ca3e8d88SDave Plauger return (ueoff); 15027c478bd9Sstevel@tonic-gate } 15037c478bd9Sstevel@tonic-gate 1504*ca3e8d88SDave Plauger static void 1505*ca3e8d88SDave Plauger dumpsys_close_cq(cqueue_t *cq, int live) 1506*ca3e8d88SDave Plauger { 1507*ca3e8d88SDave Plauger if (live) { 1508*ca3e8d88SDave Plauger mutex_enter(&cq->mutex); 1509*ca3e8d88SDave Plauger atomic_dec_uint(&cq->open); 1510*ca3e8d88SDave Plauger cv_signal(&cq->cv); 1511*ca3e8d88SDave Plauger mutex_exit(&cq->mutex); 1512*ca3e8d88SDave Plauger } else { 1513*ca3e8d88SDave Plauger atomic_dec_uint(&cq->open); 1514*ca3e8d88SDave Plauger } 1515*ca3e8d88SDave Plauger } 1516*ca3e8d88SDave Plauger 1517*ca3e8d88SDave Plauger static inline void 1518*ca3e8d88SDave Plauger dumpsys_spinlock(lock_t *lp) 1519*ca3e8d88SDave Plauger { 1520*ca3e8d88SDave Plauger uint_t backoff = 0; 1521*ca3e8d88SDave Plauger int loop_count = 0; 1522*ca3e8d88SDave Plauger 1523*ca3e8d88SDave Plauger while (LOCK_HELD(lp) || !lock_spin_try(lp)) { 1524*ca3e8d88SDave Plauger if (++loop_count >= ncpus) { 1525*ca3e8d88SDave Plauger backoff = mutex_lock_backoff(0); 1526*ca3e8d88SDave Plauger loop_count = 0; 1527*ca3e8d88SDave Plauger } else { 1528*ca3e8d88SDave Plauger backoff = mutex_lock_backoff(backoff); 1529*ca3e8d88SDave Plauger } 1530*ca3e8d88SDave Plauger mutex_lock_delay(backoff); 1531*ca3e8d88SDave Plauger } 1532*ca3e8d88SDave Plauger } 1533*ca3e8d88SDave Plauger 1534*ca3e8d88SDave Plauger static inline void 1535*ca3e8d88SDave Plauger dumpsys_spinunlock(lock_t *lp) 1536*ca3e8d88SDave Plauger { 1537*ca3e8d88SDave Plauger lock_clear(lp); 1538*ca3e8d88SDave Plauger } 1539*ca3e8d88SDave Plauger 1540*ca3e8d88SDave Plauger static inline void 1541*ca3e8d88SDave Plauger dumpsys_lock(cqueue_t *cq, int live) 1542*ca3e8d88SDave Plauger { 1543*ca3e8d88SDave Plauger if (live) 1544*ca3e8d88SDave Plauger mutex_enter(&cq->mutex); 1545*ca3e8d88SDave Plauger else 1546*ca3e8d88SDave Plauger dumpsys_spinlock(&cq->spinlock); 1547*ca3e8d88SDave Plauger } 1548*ca3e8d88SDave Plauger 1549*ca3e8d88SDave Plauger static inline void 1550*ca3e8d88SDave Plauger dumpsys_unlock(cqueue_t *cq, int live, int signal) 1551*ca3e8d88SDave Plauger { 1552*ca3e8d88SDave Plauger if (live) { 1553*ca3e8d88SDave Plauger if (signal) 1554*ca3e8d88SDave Plauger cv_signal(&cq->cv); 1555*ca3e8d88SDave Plauger mutex_exit(&cq->mutex); 1556*ca3e8d88SDave Plauger } else { 1557*ca3e8d88SDave Plauger dumpsys_spinunlock(&cq->spinlock); 1558*ca3e8d88SDave Plauger } 1559*ca3e8d88SDave Plauger } 1560*ca3e8d88SDave Plauger 1561*ca3e8d88SDave Plauger static void 1562*ca3e8d88SDave Plauger dumpsys_wait_cq(cqueue_t *cq, int live) 1563*ca3e8d88SDave Plauger { 1564*ca3e8d88SDave Plauger if (live) { 1565*ca3e8d88SDave Plauger cv_wait(&cq->cv, &cq->mutex); 1566*ca3e8d88SDave Plauger } else { 1567*ca3e8d88SDave Plauger dumpsys_spinunlock(&cq->spinlock); 1568*ca3e8d88SDave Plauger while (cq->open) 1569*ca3e8d88SDave Plauger if (cq->first) 1570*ca3e8d88SDave Plauger break; 1571*ca3e8d88SDave Plauger dumpsys_spinlock(&cq->spinlock); 1572*ca3e8d88SDave Plauger } 1573*ca3e8d88SDave Plauger } 1574*ca3e8d88SDave Plauger 1575*ca3e8d88SDave Plauger static void 1576*ca3e8d88SDave Plauger dumpsys_put_cq(cqueue_t *cq, cbuf_t *cp, int newstate, int live) 1577*ca3e8d88SDave Plauger { 1578*ca3e8d88SDave Plauger if (cp == NULL) 1579*ca3e8d88SDave Plauger return; 1580*ca3e8d88SDave Plauger 1581*ca3e8d88SDave Plauger dumpsys_lock(cq, live); 1582*ca3e8d88SDave Plauger 1583*ca3e8d88SDave Plauger if (cq->ts != 0) { 1584*ca3e8d88SDave Plauger cq->empty += gethrtime() - cq->ts; 1585*ca3e8d88SDave Plauger cq->ts = 0; 1586*ca3e8d88SDave Plauger } 1587*ca3e8d88SDave Plauger 1588*ca3e8d88SDave Plauger cp->state = newstate; 1589*ca3e8d88SDave Plauger cp->next = NULL; 1590*ca3e8d88SDave Plauger if (cq->last == NULL) 1591*ca3e8d88SDave Plauger cq->first = cp; 1592*ca3e8d88SDave Plauger else 1593*ca3e8d88SDave Plauger cq->last->next = cp; 1594*ca3e8d88SDave Plauger cq->last = cp; 1595*ca3e8d88SDave Plauger 1596*ca3e8d88SDave Plauger dumpsys_unlock(cq, live, 1); 1597*ca3e8d88SDave Plauger } 1598*ca3e8d88SDave Plauger 1599*ca3e8d88SDave Plauger static cbuf_t * 1600*ca3e8d88SDave Plauger dumpsys_get_cq(cqueue_t *cq, int live) 1601*ca3e8d88SDave Plauger { 1602*ca3e8d88SDave Plauger cbuf_t *cp; 1603*ca3e8d88SDave Plauger hrtime_t now = gethrtime(); 1604*ca3e8d88SDave Plauger 1605*ca3e8d88SDave Plauger dumpsys_lock(cq, live); 1606*ca3e8d88SDave Plauger 1607*ca3e8d88SDave Plauger /* CONSTCOND */ 1608*ca3e8d88SDave Plauger while (1) { 1609*ca3e8d88SDave Plauger cp = (cbuf_t *)cq->first; 1610*ca3e8d88SDave Plauger if (cp == NULL) { 1611*ca3e8d88SDave Plauger if (cq->open == 0) 1612*ca3e8d88SDave Plauger break; 1613*ca3e8d88SDave Plauger dumpsys_wait_cq(cq, live); 1614*ca3e8d88SDave Plauger continue; 1615*ca3e8d88SDave Plauger } 1616*ca3e8d88SDave Plauger cq->first = cp->next; 1617*ca3e8d88SDave Plauger if (cq->first == NULL) { 1618*ca3e8d88SDave Plauger cq->last = NULL; 1619*ca3e8d88SDave Plauger cq->ts = now; 1620*ca3e8d88SDave Plauger } 1621*ca3e8d88SDave Plauger break; 1622*ca3e8d88SDave Plauger } 1623*ca3e8d88SDave Plauger 1624*ca3e8d88SDave Plauger dumpsys_unlock(cq, live, cq->first != NULL || cq->open == 0); 1625*ca3e8d88SDave Plauger return (cp); 1626*ca3e8d88SDave Plauger } 1627*ca3e8d88SDave Plauger 1628*ca3e8d88SDave Plauger /* 1629*ca3e8d88SDave Plauger * Send an error message to the console. If the main task is running 1630*ca3e8d88SDave Plauger * just write the message via uprintf. If a helper is running the 1631*ca3e8d88SDave Plauger * message has to be put on a queue for the main task. Setting fmt to 1632*ca3e8d88SDave Plauger * NULL means flush the error message buffer. If fmt is not NULL, just 1633*ca3e8d88SDave Plauger * add the text to the existing buffer. 1634*ca3e8d88SDave Plauger */ 1635*ca3e8d88SDave Plauger static void 1636*ca3e8d88SDave Plauger dumpsys_errmsg(helper_t *hp, const char *fmt, ...) 1637*ca3e8d88SDave Plauger { 1638*ca3e8d88SDave Plauger dumpsync_t *ds = hp->ds; 1639*ca3e8d88SDave Plauger cbuf_t *cp = hp->cperr; 1640*ca3e8d88SDave Plauger va_list adx; 1641*ca3e8d88SDave Plauger 1642*ca3e8d88SDave Plauger if (hp->helper == MAINHELPER) { 1643*ca3e8d88SDave Plauger if (fmt != NULL) { 1644*ca3e8d88SDave Plauger if (ds->neednl) { 1645*ca3e8d88SDave Plauger uprintf("\n"); 1646*ca3e8d88SDave Plauger ds->neednl = 0; 1647*ca3e8d88SDave Plauger } 1648*ca3e8d88SDave Plauger va_start(adx, fmt); 1649*ca3e8d88SDave Plauger vuprintf(fmt, adx); 1650*ca3e8d88SDave Plauger va_end(adx); 1651*ca3e8d88SDave Plauger } 1652*ca3e8d88SDave Plauger } else if (fmt == NULL) { 1653*ca3e8d88SDave Plauger if (cp != NULL) { 1654*ca3e8d88SDave Plauger CQ_PUT(mainq, cp, CBUF_ERRMSG); 1655*ca3e8d88SDave Plauger hp->cperr = NULL; 1656*ca3e8d88SDave Plauger } 1657*ca3e8d88SDave Plauger } else { 1658*ca3e8d88SDave Plauger if (hp->cperr == NULL) { 1659*ca3e8d88SDave Plauger cp = CQ_GET(freebufq); 1660*ca3e8d88SDave Plauger hp->cperr = cp; 1661*ca3e8d88SDave Plauger cp->used = 0; 1662*ca3e8d88SDave Plauger } 1663*ca3e8d88SDave Plauger va_start(adx, fmt); 1664*ca3e8d88SDave Plauger cp->used += vsnprintf(cp->buf + cp->used, cp->size - cp->used, 1665*ca3e8d88SDave Plauger fmt, adx); 1666*ca3e8d88SDave Plauger va_end(adx); 1667*ca3e8d88SDave Plauger if ((cp->used + LOG_MSGSIZE) > cp->size) { 1668*ca3e8d88SDave Plauger CQ_PUT(mainq, cp, CBUF_ERRMSG); 1669*ca3e8d88SDave Plauger hp->cperr = NULL; 1670*ca3e8d88SDave Plauger } 1671*ca3e8d88SDave Plauger } 1672*ca3e8d88SDave Plauger } 1673*ca3e8d88SDave Plauger 1674*ca3e8d88SDave Plauger /* 1675*ca3e8d88SDave Plauger * Write an output buffer to the dump file. If the main task is 1676*ca3e8d88SDave Plauger * running just write the data. If a helper is running the output is 1677*ca3e8d88SDave Plauger * placed on a queue for the main task. 1678*ca3e8d88SDave Plauger */ 1679*ca3e8d88SDave Plauger static void 1680*ca3e8d88SDave Plauger dumpsys_swrite(helper_t *hp, cbuf_t *cp, size_t used) 1681*ca3e8d88SDave Plauger { 1682*ca3e8d88SDave Plauger dumpsync_t *ds = hp->ds; 1683*ca3e8d88SDave Plauger 1684*ca3e8d88SDave Plauger if (hp->helper == MAINHELPER) { 1685*ca3e8d88SDave Plauger HRSTART(ds->perpage, write); 1686*ca3e8d88SDave Plauger dumpvp_write(cp->buf, used); 1687*ca3e8d88SDave Plauger HRSTOP(ds->perpage, write); 1688*ca3e8d88SDave Plauger CQ_PUT(freebufq, cp, CBUF_FREEBUF); 1689*ca3e8d88SDave Plauger } else { 1690*ca3e8d88SDave Plauger cp->used = used; 1691*ca3e8d88SDave Plauger CQ_PUT(mainq, cp, CBUF_WRITE); 1692*ca3e8d88SDave Plauger } 1693*ca3e8d88SDave Plauger } 1694*ca3e8d88SDave Plauger 1695*ca3e8d88SDave Plauger /* 1696*ca3e8d88SDave Plauger * Copy one page within the mapped range. The offset starts at 0 and 1697*ca3e8d88SDave Plauger * is relative to the first pfn. cp->buf + cp->off is the address of 1698*ca3e8d88SDave Plauger * the first pfn. If dump_pagecopy returns a UE offset, create an 1699*ca3e8d88SDave Plauger * error message. Returns the offset to the next pfn in the range 1700*ca3e8d88SDave Plauger * selected by the bitmap. 1701*ca3e8d88SDave Plauger */ 1702*ca3e8d88SDave Plauger static int 1703*ca3e8d88SDave Plauger dumpsys_copy_page(helper_t *hp, int offset) 1704*ca3e8d88SDave Plauger { 1705*ca3e8d88SDave Plauger cbuf_t *cp = hp->cpin; 1706*ca3e8d88SDave Plauger int ueoff; 1707*ca3e8d88SDave Plauger 1708*ca3e8d88SDave Plauger ASSERT(cp->off + offset + PAGESIZE <= cp->size); 1709*ca3e8d88SDave Plauger ASSERT(BT_TEST(dumpcfg.bitmap, cp->bitnum)); 1710*ca3e8d88SDave Plauger 1711*ca3e8d88SDave Plauger ueoff = dump_pagecopy(cp->buf + cp->off + offset, hp->page); 1712*ca3e8d88SDave Plauger 1713*ca3e8d88SDave Plauger /* ueoff is the offset in the page to a UE error */ 1714*ca3e8d88SDave Plauger if (ueoff != -1) { 1715*ca3e8d88SDave Plauger uint64_t pa = ptob(cp->pfn) + offset + ueoff; 1716*ca3e8d88SDave Plauger 1717*ca3e8d88SDave Plauger dumpsys_errmsg(hp, "memory error at PA 0x%08x.%08x\n", 1718*ca3e8d88SDave Plauger (uint32_t)(pa >> 32), (uint32_t)pa); 1719*ca3e8d88SDave Plauger } 1720*ca3e8d88SDave Plauger 1721*ca3e8d88SDave Plauger /* 1722*ca3e8d88SDave Plauger * Advance bitnum and offset to the next input page for the 1723*ca3e8d88SDave Plauger * next call to this function. 1724*ca3e8d88SDave Plauger */ 1725*ca3e8d88SDave Plauger offset += PAGESIZE; 1726*ca3e8d88SDave Plauger cp->bitnum++; 1727*ca3e8d88SDave Plauger while (cp->off + offset < cp->size) { 1728*ca3e8d88SDave Plauger if (BT_TEST(dumpcfg.bitmap, cp->bitnum)) 1729*ca3e8d88SDave Plauger break; 1730*ca3e8d88SDave Plauger offset += PAGESIZE; 1731*ca3e8d88SDave Plauger cp->bitnum++; 1732*ca3e8d88SDave Plauger } 1733*ca3e8d88SDave Plauger 1734*ca3e8d88SDave Plauger return (offset); 1735*ca3e8d88SDave Plauger } 1736*ca3e8d88SDave Plauger 1737*ca3e8d88SDave Plauger /* 1738*ca3e8d88SDave Plauger * Read the helper queue, and copy one mapped page. Return 0 when 1739*ca3e8d88SDave Plauger * done. Return 1 when a page has been copied into hp->page. 1740*ca3e8d88SDave Plauger */ 1741*ca3e8d88SDave Plauger static int 1742*ca3e8d88SDave Plauger dumpsys_sread(helper_t *hp) 1743*ca3e8d88SDave Plauger { 1744*ca3e8d88SDave Plauger dumpsync_t *ds = hp->ds; 1745*ca3e8d88SDave Plauger 1746*ca3e8d88SDave Plauger /* CONSTCOND */ 1747*ca3e8d88SDave Plauger while (1) { 1748*ca3e8d88SDave Plauger 1749*ca3e8d88SDave Plauger /* Find the next input buffer. */ 1750*ca3e8d88SDave Plauger if (hp->cpin == NULL) { 1751*ca3e8d88SDave Plauger HRSTART(hp->perpage, inwait); 1752*ca3e8d88SDave Plauger 1753*ca3e8d88SDave Plauger /* CONSTCOND */ 1754*ca3e8d88SDave Plauger while (1) { 1755*ca3e8d88SDave Plauger hp->cpin = CQ_GET(helperq); 1756*ca3e8d88SDave Plauger dump_timeleft = dump_timeout; 1757*ca3e8d88SDave Plauger 1758*ca3e8d88SDave Plauger /* 1759*ca3e8d88SDave Plauger * NULL return means the helper queue 1760*ca3e8d88SDave Plauger * is closed and empty. 1761*ca3e8d88SDave Plauger */ 1762*ca3e8d88SDave Plauger if (hp->cpin == NULL) 1763*ca3e8d88SDave Plauger break; 1764*ca3e8d88SDave Plauger 1765*ca3e8d88SDave Plauger /* Have input, check for dump I/O error. */ 1766*ca3e8d88SDave Plauger if (!dump_ioerr) 1767*ca3e8d88SDave Plauger break; 1768*ca3e8d88SDave Plauger 1769*ca3e8d88SDave Plauger /* 1770*ca3e8d88SDave Plauger * If an I/O error occurs, stay in the 1771*ca3e8d88SDave Plauger * loop in order to empty the helper 1772*ca3e8d88SDave Plauger * queue. Return the buffers to the 1773*ca3e8d88SDave Plauger * main task to unmap and free it. 1774*ca3e8d88SDave Plauger */ 1775*ca3e8d88SDave Plauger hp->cpin->used = 0; 1776*ca3e8d88SDave Plauger CQ_PUT(mainq, hp->cpin, CBUF_USEDMAP); 1777*ca3e8d88SDave Plauger } 1778*ca3e8d88SDave Plauger HRSTOP(hp->perpage, inwait); 1779*ca3e8d88SDave Plauger 1780*ca3e8d88SDave Plauger /* Stop here when the helper queue is closed. */ 1781*ca3e8d88SDave Plauger if (hp->cpin == NULL) 1782*ca3e8d88SDave Plauger break; 1783*ca3e8d88SDave Plauger 1784*ca3e8d88SDave Plauger /* Set the offset=0 to get the first pfn. */ 1785*ca3e8d88SDave Plauger hp->in = 0; 1786*ca3e8d88SDave Plauger 1787*ca3e8d88SDave Plauger /* Set the total processed to 0 */ 1788*ca3e8d88SDave Plauger hp->used = 0; 1789*ca3e8d88SDave Plauger } 1790*ca3e8d88SDave Plauger 1791*ca3e8d88SDave Plauger /* Process the next page. */ 1792*ca3e8d88SDave Plauger if (hp->used < hp->cpin->used) { 1793*ca3e8d88SDave Plauger 1794*ca3e8d88SDave Plauger /* 1795*ca3e8d88SDave Plauger * Get the next page from the input buffer and 1796*ca3e8d88SDave Plauger * return a copy. 1797*ca3e8d88SDave Plauger */ 1798*ca3e8d88SDave Plauger ASSERT(hp->in != -1); 1799*ca3e8d88SDave Plauger HRSTART(hp->perpage, copy); 1800*ca3e8d88SDave Plauger hp->in = dumpsys_copy_page(hp, hp->in); 1801*ca3e8d88SDave Plauger hp->used += PAGESIZE; 1802*ca3e8d88SDave Plauger HRSTOP(hp->perpage, copy); 1803*ca3e8d88SDave Plauger break; 1804*ca3e8d88SDave Plauger 1805*ca3e8d88SDave Plauger } else { 1806*ca3e8d88SDave Plauger 1807*ca3e8d88SDave Plauger /* 1808*ca3e8d88SDave Plauger * Done with the input. Flush the VM and 1809*ca3e8d88SDave Plauger * return the buffer to the main task. 1810*ca3e8d88SDave Plauger */ 1811*ca3e8d88SDave Plauger if (panicstr && hp->helper != MAINHELPER) 1812*ca3e8d88SDave Plauger hat_flush_range(kas.a_hat, 1813*ca3e8d88SDave Plauger hp->cpin->buf, hp->cpin->size); 1814*ca3e8d88SDave Plauger dumpsys_errmsg(hp, NULL); 1815*ca3e8d88SDave Plauger CQ_PUT(mainq, hp->cpin, CBUF_USEDMAP); 1816*ca3e8d88SDave Plauger hp->cpin = NULL; 1817*ca3e8d88SDave Plauger } 1818*ca3e8d88SDave Plauger } 1819*ca3e8d88SDave Plauger 1820*ca3e8d88SDave Plauger return (hp->cpin != NULL); 1821*ca3e8d88SDave Plauger } 1822*ca3e8d88SDave Plauger 1823*ca3e8d88SDave Plauger /* 1824*ca3e8d88SDave Plauger * Compress size bytes starting at buf with bzip2 1825*ca3e8d88SDave Plauger * mode: 1826*ca3e8d88SDave Plauger * BZ_RUN add one more compressed page 1827*ca3e8d88SDave Plauger * BZ_FINISH no more input, flush the state 1828*ca3e8d88SDave Plauger */ 1829*ca3e8d88SDave Plauger static void 1830*ca3e8d88SDave Plauger dumpsys_bzrun(helper_t *hp, void *buf, size_t size, int mode) 1831*ca3e8d88SDave Plauger { 1832*ca3e8d88SDave Plauger dumpsync_t *ds = hp->ds; 1833*ca3e8d88SDave Plauger const int CSIZE = sizeof (dumpcsize_t); 1834*ca3e8d88SDave Plauger bz_stream *ps = &hp->bzstream; 1835*ca3e8d88SDave Plauger int rc = 0; 1836*ca3e8d88SDave Plauger uint32_t csize; 1837*ca3e8d88SDave Plauger dumpcsize_t cs; 1838*ca3e8d88SDave Plauger 1839*ca3e8d88SDave Plauger /* Set input pointers to new input page */ 1840*ca3e8d88SDave Plauger if (size > 0) { 1841*ca3e8d88SDave Plauger ps->avail_in = size; 1842*ca3e8d88SDave Plauger ps->next_in = buf; 1843*ca3e8d88SDave Plauger } 1844*ca3e8d88SDave Plauger 1845*ca3e8d88SDave Plauger /* CONSTCOND */ 1846*ca3e8d88SDave Plauger while (1) { 1847*ca3e8d88SDave Plauger 1848*ca3e8d88SDave Plauger /* Quit when all input has been consumed */ 1849*ca3e8d88SDave Plauger if (ps->avail_in == 0 && mode == BZ_RUN) 1850*ca3e8d88SDave Plauger break; 1851*ca3e8d88SDave Plauger 1852*ca3e8d88SDave Plauger /* Get a new output buffer */ 1853*ca3e8d88SDave Plauger if (hp->cpout == NULL) { 1854*ca3e8d88SDave Plauger HRSTART(hp->perpage, outwait); 1855*ca3e8d88SDave Plauger hp->cpout = CQ_GET(freebufq); 1856*ca3e8d88SDave Plauger HRSTOP(hp->perpage, outwait); 1857*ca3e8d88SDave Plauger ps->avail_out = hp->cpout->size - CSIZE; 1858*ca3e8d88SDave Plauger ps->next_out = hp->cpout->buf + CSIZE; 1859*ca3e8d88SDave Plauger } 1860*ca3e8d88SDave Plauger 1861*ca3e8d88SDave Plauger /* Compress input, or finalize */ 1862*ca3e8d88SDave Plauger HRSTART(hp->perpage, compress); 1863*ca3e8d88SDave Plauger rc = BZ2_bzCompress(ps, mode); 1864*ca3e8d88SDave Plauger HRSTOP(hp->perpage, compress); 1865*ca3e8d88SDave Plauger 1866*ca3e8d88SDave Plauger /* Check for error */ 1867*ca3e8d88SDave Plauger if (mode == BZ_RUN && rc != BZ_RUN_OK) { 1868*ca3e8d88SDave Plauger dumpsys_errmsg(hp, "%d: BZ_RUN error %s at page %lx\n", 1869*ca3e8d88SDave Plauger hp->helper, BZ2_bzErrorString(rc), 1870*ca3e8d88SDave Plauger hp->cpin->pagenum); 1871*ca3e8d88SDave Plauger break; 1872*ca3e8d88SDave Plauger } 1873*ca3e8d88SDave Plauger 1874*ca3e8d88SDave Plauger /* Write the buffer if it is full, or we are flushing */ 1875*ca3e8d88SDave Plauger if (ps->avail_out == 0 || mode == BZ_FINISH) { 1876*ca3e8d88SDave Plauger csize = hp->cpout->size - CSIZE - ps->avail_out; 1877*ca3e8d88SDave Plauger cs = DUMP_SET_TAG(csize, hp->tag); 1878*ca3e8d88SDave Plauger if (csize > 0) { 1879*ca3e8d88SDave Plauger (void) memcpy(hp->cpout->buf, &cs, CSIZE); 1880*ca3e8d88SDave Plauger dumpsys_swrite(hp, hp->cpout, csize + CSIZE); 1881*ca3e8d88SDave Plauger hp->cpout = NULL; 1882*ca3e8d88SDave Plauger } 1883*ca3e8d88SDave Plauger } 1884*ca3e8d88SDave Plauger 1885*ca3e8d88SDave Plauger /* Check for final complete */ 1886*ca3e8d88SDave Plauger if (mode == BZ_FINISH) { 1887*ca3e8d88SDave Plauger if (rc == BZ_STREAM_END) 1888*ca3e8d88SDave Plauger break; 1889*ca3e8d88SDave Plauger if (rc != BZ_FINISH_OK) { 1890*ca3e8d88SDave Plauger dumpsys_errmsg(hp, "%d: BZ_FINISH error %s\n", 1891*ca3e8d88SDave Plauger hp->helper, BZ2_bzErrorString(rc)); 1892*ca3e8d88SDave Plauger break; 1893*ca3e8d88SDave Plauger } 1894*ca3e8d88SDave Plauger } 1895*ca3e8d88SDave Plauger } 1896*ca3e8d88SDave Plauger 1897*ca3e8d88SDave Plauger /* Cleanup state and buffers */ 1898*ca3e8d88SDave Plauger if (mode == BZ_FINISH) { 1899*ca3e8d88SDave Plauger 1900*ca3e8d88SDave Plauger /* Reset state so that it is re-usable. */ 1901*ca3e8d88SDave Plauger (void) BZ2_bzCompressReset(&hp->bzstream); 1902*ca3e8d88SDave Plauger 1903*ca3e8d88SDave Plauger /* Give any unused outout buffer to the main task */ 1904*ca3e8d88SDave Plauger if (hp->cpout != NULL) { 1905*ca3e8d88SDave Plauger hp->cpout->used = 0; 1906*ca3e8d88SDave Plauger CQ_PUT(mainq, hp->cpout, CBUF_ERRMSG); 1907*ca3e8d88SDave Plauger hp->cpout = NULL; 1908*ca3e8d88SDave Plauger } 1909*ca3e8d88SDave Plauger } 1910*ca3e8d88SDave Plauger } 1911*ca3e8d88SDave Plauger 1912*ca3e8d88SDave Plauger static void 1913*ca3e8d88SDave Plauger dumpsys_bz2compress(helper_t *hp) 1914*ca3e8d88SDave Plauger { 1915*ca3e8d88SDave Plauger dumpsync_t *ds = hp->ds; 1916*ca3e8d88SDave Plauger dumpstreamhdr_t sh; 1917*ca3e8d88SDave Plauger 1918*ca3e8d88SDave Plauger (void) strcpy(sh.stream_magic, DUMP_STREAM_MAGIC); 1919*ca3e8d88SDave Plauger sh.stream_pagenum = (pgcnt_t)-1; 1920*ca3e8d88SDave Plauger sh.stream_npages = 0; 1921*ca3e8d88SDave Plauger hp->cpin = NULL; 1922*ca3e8d88SDave Plauger hp->cpout = NULL; 1923*ca3e8d88SDave Plauger hp->cperr = NULL; 1924*ca3e8d88SDave Plauger hp->in = 0; 1925*ca3e8d88SDave Plauger hp->out = 0; 1926*ca3e8d88SDave Plauger hp->bzstream.avail_in = 0; 1927*ca3e8d88SDave Plauger 1928*ca3e8d88SDave Plauger /* Bump reference to mainq while we are running */ 1929*ca3e8d88SDave Plauger CQ_OPEN(mainq); 1930*ca3e8d88SDave Plauger 1931*ca3e8d88SDave Plauger /* Get one page at a time */ 1932*ca3e8d88SDave Plauger while (dumpsys_sread(hp)) { 1933*ca3e8d88SDave Plauger if (sh.stream_pagenum != hp->cpin->pagenum) { 1934*ca3e8d88SDave Plauger sh.stream_pagenum = hp->cpin->pagenum; 1935*ca3e8d88SDave Plauger sh.stream_npages = btop(hp->cpin->used); 1936*ca3e8d88SDave Plauger dumpsys_bzrun(hp, &sh, sizeof (sh), BZ_RUN); 1937*ca3e8d88SDave Plauger } 1938*ca3e8d88SDave Plauger dumpsys_bzrun(hp, hp->page, PAGESIZE, 0); 1939*ca3e8d88SDave Plauger } 1940*ca3e8d88SDave Plauger 1941*ca3e8d88SDave Plauger /* Done with input, flush any partial buffer */ 1942*ca3e8d88SDave Plauger if (sh.stream_pagenum != (pgcnt_t)-1) { 1943*ca3e8d88SDave Plauger dumpsys_bzrun(hp, NULL, 0, BZ_FINISH); 1944*ca3e8d88SDave Plauger dumpsys_errmsg(hp, NULL); 1945*ca3e8d88SDave Plauger } 1946*ca3e8d88SDave Plauger 1947*ca3e8d88SDave Plauger ASSERT(hp->cpin == NULL && hp->cpout == NULL && hp->cperr == NULL); 1948*ca3e8d88SDave Plauger 1949*ca3e8d88SDave Plauger /* Decrement main queue count, we are done */ 1950*ca3e8d88SDave Plauger CQ_CLOSE(mainq); 1951*ca3e8d88SDave Plauger } 1952*ca3e8d88SDave Plauger 1953*ca3e8d88SDave Plauger /* 1954*ca3e8d88SDave Plauger * Compress with lzjb 1955*ca3e8d88SDave Plauger * write stream block if full or size==0 1956*ca3e8d88SDave Plauger * if csize==0 write stream header, else write <csize, data> 1957*ca3e8d88SDave Plauger * size==0 is a call to flush a buffer 1958*ca3e8d88SDave Plauger * hp->cpout is the buffer we are flushing or filling 1959*ca3e8d88SDave Plauger * hp->out is the next index to fill data 1960*ca3e8d88SDave Plauger * osize is either csize+data, or the size of a stream header 1961*ca3e8d88SDave Plauger */ 1962*ca3e8d88SDave Plauger static void 1963*ca3e8d88SDave Plauger dumpsys_lzjbrun(helper_t *hp, size_t csize, void *buf, size_t size) 1964*ca3e8d88SDave Plauger { 1965*ca3e8d88SDave Plauger dumpsync_t *ds = hp->ds; 1966*ca3e8d88SDave Plauger const int CSIZE = sizeof (dumpcsize_t); 1967*ca3e8d88SDave Plauger dumpcsize_t cs; 1968*ca3e8d88SDave Plauger size_t osize = csize > 0 ? CSIZE + size : size; 1969*ca3e8d88SDave Plauger 1970*ca3e8d88SDave Plauger /* If flush, and there is no buffer, just return */ 1971*ca3e8d88SDave Plauger if (size == 0 && hp->cpout == NULL) 1972*ca3e8d88SDave Plauger return; 1973*ca3e8d88SDave Plauger 1974*ca3e8d88SDave Plauger /* If flush, or cpout is full, write it out */ 1975*ca3e8d88SDave Plauger if (size == 0 || 1976*ca3e8d88SDave Plauger hp->cpout != NULL && hp->out + osize > hp->cpout->size) { 1977*ca3e8d88SDave Plauger 1978*ca3e8d88SDave Plauger /* Set tag+size word at the front of the stream block. */ 1979*ca3e8d88SDave Plauger cs = DUMP_SET_TAG(hp->out - CSIZE, hp->tag); 1980*ca3e8d88SDave Plauger (void) memcpy(hp->cpout->buf, &cs, CSIZE); 1981*ca3e8d88SDave Plauger 1982*ca3e8d88SDave Plauger /* Write block to dump file. */ 1983*ca3e8d88SDave Plauger dumpsys_swrite(hp, hp->cpout, hp->out); 1984*ca3e8d88SDave Plauger 1985*ca3e8d88SDave Plauger /* Clear pointer to indicate we need a new buffer */ 1986*ca3e8d88SDave Plauger hp->cpout = NULL; 1987*ca3e8d88SDave Plauger 1988*ca3e8d88SDave Plauger /* flushing, we are done */ 1989*ca3e8d88SDave Plauger if (size == 0) 1990*ca3e8d88SDave Plauger return; 1991*ca3e8d88SDave Plauger } 1992*ca3e8d88SDave Plauger 1993*ca3e8d88SDave Plauger /* Get an output buffer if we dont have one. */ 1994*ca3e8d88SDave Plauger if (hp->cpout == NULL) { 1995*ca3e8d88SDave Plauger HRSTART(hp->perpage, outwait); 1996*ca3e8d88SDave Plauger hp->cpout = CQ_GET(freebufq); 1997*ca3e8d88SDave Plauger HRSTOP(hp->perpage, outwait); 1998*ca3e8d88SDave Plauger hp->out = CSIZE; 1999*ca3e8d88SDave Plauger } 2000*ca3e8d88SDave Plauger 2001*ca3e8d88SDave Plauger /* Store csize word. This is the size of compressed data. */ 2002*ca3e8d88SDave Plauger if (csize > 0) { 2003*ca3e8d88SDave Plauger cs = DUMP_SET_TAG(csize, 0); 2004*ca3e8d88SDave Plauger (void) memcpy(hp->cpout->buf + hp->out, &cs, CSIZE); 2005*ca3e8d88SDave Plauger hp->out += CSIZE; 2006*ca3e8d88SDave Plauger } 2007*ca3e8d88SDave Plauger 2008*ca3e8d88SDave Plauger /* Store the data. */ 2009*ca3e8d88SDave Plauger (void) memcpy(hp->cpout->buf + hp->out, buf, size); 2010*ca3e8d88SDave Plauger hp->out += size; 2011*ca3e8d88SDave Plauger } 2012*ca3e8d88SDave Plauger 2013*ca3e8d88SDave Plauger static void 2014*ca3e8d88SDave Plauger dumpsys_lzjbcompress(helper_t *hp) 2015*ca3e8d88SDave Plauger { 2016*ca3e8d88SDave Plauger dumpsync_t *ds = hp->ds; 2017*ca3e8d88SDave Plauger size_t csize; 2018*ca3e8d88SDave Plauger dumpstreamhdr_t sh; 2019*ca3e8d88SDave Plauger 2020*ca3e8d88SDave Plauger (void) strcpy(sh.stream_magic, DUMP_STREAM_MAGIC); 2021*ca3e8d88SDave Plauger sh.stream_pagenum = (pfn_t)-1; 2022*ca3e8d88SDave Plauger sh.stream_npages = 0; 2023*ca3e8d88SDave Plauger hp->cpin = NULL; 2024*ca3e8d88SDave Plauger hp->cpout = NULL; 2025*ca3e8d88SDave Plauger hp->cperr = NULL; 2026*ca3e8d88SDave Plauger hp->in = 0; 2027*ca3e8d88SDave Plauger hp->out = 0; 2028*ca3e8d88SDave Plauger 2029*ca3e8d88SDave Plauger /* Bump reference to mainq while we are running */ 2030*ca3e8d88SDave Plauger CQ_OPEN(mainq); 2031*ca3e8d88SDave Plauger 2032*ca3e8d88SDave Plauger /* Get one page at a time */ 2033*ca3e8d88SDave Plauger while (dumpsys_sread(hp)) { 2034*ca3e8d88SDave Plauger 2035*ca3e8d88SDave Plauger /* Create a stream header for each new input map */ 2036*ca3e8d88SDave Plauger if (sh.stream_pagenum != hp->cpin->pagenum) { 2037*ca3e8d88SDave Plauger sh.stream_pagenum = hp->cpin->pagenum; 2038*ca3e8d88SDave Plauger sh.stream_npages = btop(hp->cpin->used); 2039*ca3e8d88SDave Plauger dumpsys_lzjbrun(hp, 0, &sh, sizeof (sh)); 2040*ca3e8d88SDave Plauger } 2041*ca3e8d88SDave Plauger 2042*ca3e8d88SDave Plauger /* Compress one page */ 2043*ca3e8d88SDave Plauger HRSTART(hp->perpage, compress); 2044*ca3e8d88SDave Plauger csize = compress(hp->page, hp->lzbuf, PAGESIZE); 2045*ca3e8d88SDave Plauger HRSTOP(hp->perpage, compress); 2046*ca3e8d88SDave Plauger 2047*ca3e8d88SDave Plauger /* Add csize+data to output block */ 2048*ca3e8d88SDave Plauger ASSERT(csize > 0 && csize <= PAGESIZE); 2049*ca3e8d88SDave Plauger dumpsys_lzjbrun(hp, csize, hp->lzbuf, csize); 2050*ca3e8d88SDave Plauger } 2051*ca3e8d88SDave Plauger 2052*ca3e8d88SDave Plauger /* Done with input, flush any partial buffer */ 2053*ca3e8d88SDave Plauger if (sh.stream_pagenum != (pfn_t)-1) { 2054*ca3e8d88SDave Plauger dumpsys_lzjbrun(hp, 0, NULL, 0); 2055*ca3e8d88SDave Plauger dumpsys_errmsg(hp, NULL); 2056*ca3e8d88SDave Plauger } 2057*ca3e8d88SDave Plauger 2058*ca3e8d88SDave Plauger ASSERT(hp->cpin == NULL && hp->cpout == NULL && hp->cperr == NULL); 2059*ca3e8d88SDave Plauger 2060*ca3e8d88SDave Plauger /* Decrement main queue count, we are done */ 2061*ca3e8d88SDave Plauger CQ_CLOSE(mainq); 2062*ca3e8d88SDave Plauger } 2063*ca3e8d88SDave Plauger 2064*ca3e8d88SDave Plauger /* 2065*ca3e8d88SDave Plauger * Dump helper called from panic_idle() to compress pages. CPUs in 2066*ca3e8d88SDave Plauger * this path must not call most kernel services. 2067*ca3e8d88SDave Plauger * 2068*ca3e8d88SDave Plauger * During panic, all but one of the CPUs is idle. These CPUs are used 2069*ca3e8d88SDave Plauger * as helpers working in parallel to copy and compress memory 2070*ca3e8d88SDave Plauger * pages. During a panic, however, these processors cannot call any 2071*ca3e8d88SDave Plauger * kernel services. This is because mutexes become no-ops during 2072*ca3e8d88SDave Plauger * panic, and, cross-call interrupts are inhibited. Therefore, during 2073*ca3e8d88SDave Plauger * panic dump the helper CPUs communicate with the panic CPU using 2074*ca3e8d88SDave Plauger * memory variables. All memory mapping and I/O is performed by the 2075*ca3e8d88SDave Plauger * panic CPU. 2076*ca3e8d88SDave Plauger */ 2077*ca3e8d88SDave Plauger void 2078*ca3e8d88SDave Plauger dumpsys_helper() 2079*ca3e8d88SDave Plauger { 2080*ca3e8d88SDave Plauger dumpsys_spinlock(&dumpcfg.helper_lock); 2081*ca3e8d88SDave Plauger if (dumpcfg.helpers_wanted) { 2082*ca3e8d88SDave Plauger helper_t *hp, *hpend = &dumpcfg.helper[dumpcfg.nhelper]; 2083*ca3e8d88SDave Plauger 2084*ca3e8d88SDave Plauger for (hp = dumpcfg.helper; hp != hpend; hp++) { 2085*ca3e8d88SDave Plauger if (hp->helper == FREEHELPER) { 2086*ca3e8d88SDave Plauger hp->helper = CPU->cpu_id; 2087*ca3e8d88SDave Plauger BT_SET(dumpcfg.helpermap, CPU->cpu_seqid); 2088*ca3e8d88SDave Plauger 2089*ca3e8d88SDave Plauger dumpsys_spinunlock(&dumpcfg.helper_lock); 2090*ca3e8d88SDave Plauger 2091*ca3e8d88SDave Plauger if (dumpcfg.clevel < DUMP_CLEVEL_BZIP2) 2092*ca3e8d88SDave Plauger dumpsys_lzjbcompress(hp); 2093*ca3e8d88SDave Plauger else 2094*ca3e8d88SDave Plauger dumpsys_bz2compress(hp); 2095*ca3e8d88SDave Plauger 2096*ca3e8d88SDave Plauger hp->helper = DONEHELPER; 2097*ca3e8d88SDave Plauger return; 2098*ca3e8d88SDave Plauger } 2099*ca3e8d88SDave Plauger } 2100*ca3e8d88SDave Plauger } 2101*ca3e8d88SDave Plauger dumpsys_spinunlock(&dumpcfg.helper_lock); 2102*ca3e8d88SDave Plauger } 2103*ca3e8d88SDave Plauger 2104*ca3e8d88SDave Plauger /* 2105*ca3e8d88SDave Plauger * Dump helper for live dumps. 2106*ca3e8d88SDave Plauger * These run as a system task. 2107*ca3e8d88SDave Plauger */ 2108*ca3e8d88SDave Plauger static void 2109*ca3e8d88SDave Plauger dumpsys_live_helper(void *arg) 2110*ca3e8d88SDave Plauger { 2111*ca3e8d88SDave Plauger helper_t *hp = arg; 2112*ca3e8d88SDave Plauger 2113*ca3e8d88SDave Plauger BT_ATOMIC_SET(dumpcfg.helpermap, CPU->cpu_seqid); 2114*ca3e8d88SDave Plauger if (dumpcfg.clevel < DUMP_CLEVEL_BZIP2) 2115*ca3e8d88SDave Plauger dumpsys_lzjbcompress(hp); 2116*ca3e8d88SDave Plauger else 2117*ca3e8d88SDave Plauger dumpsys_bz2compress(hp); 2118*ca3e8d88SDave Plauger } 2119*ca3e8d88SDave Plauger 2120*ca3e8d88SDave Plauger /* 2121*ca3e8d88SDave Plauger * Compress one page with lzjb (single threaded case) 2122*ca3e8d88SDave Plauger */ 2123*ca3e8d88SDave Plauger static void 2124*ca3e8d88SDave Plauger dumpsys_lzjb_page(helper_t *hp, cbuf_t *cp) 2125*ca3e8d88SDave Plauger { 2126*ca3e8d88SDave Plauger dumpsync_t *ds = hp->ds; 2127*ca3e8d88SDave Plauger uint32_t csize; 2128*ca3e8d88SDave Plauger 2129*ca3e8d88SDave Plauger hp->helper = MAINHELPER; 2130*ca3e8d88SDave Plauger hp->in = 0; 2131*ca3e8d88SDave Plauger hp->used = 0; 2132*ca3e8d88SDave Plauger hp->cpin = cp; 2133*ca3e8d88SDave Plauger while (hp->used < cp->used) { 2134*ca3e8d88SDave Plauger HRSTART(hp->perpage, copy); 2135*ca3e8d88SDave Plauger hp->in = dumpsys_copy_page(hp, hp->in); 2136*ca3e8d88SDave Plauger hp->used += PAGESIZE; 2137*ca3e8d88SDave Plauger HRSTOP(hp->perpage, copy); 2138*ca3e8d88SDave Plauger 2139*ca3e8d88SDave Plauger HRSTART(hp->perpage, compress); 2140*ca3e8d88SDave Plauger csize = compress(hp->page, hp->lzbuf, PAGESIZE); 2141*ca3e8d88SDave Plauger HRSTOP(hp->perpage, compress); 2142*ca3e8d88SDave Plauger 2143*ca3e8d88SDave Plauger HRSTART(hp->perpage, write); 2144*ca3e8d88SDave Plauger dumpvp_write(&csize, sizeof (csize)); 2145*ca3e8d88SDave Plauger dumpvp_write(hp->lzbuf, csize); 2146*ca3e8d88SDave Plauger HRSTOP(hp->perpage, write); 2147*ca3e8d88SDave Plauger } 2148*ca3e8d88SDave Plauger CQ_PUT(mainq, hp->cpin, CBUF_USEDMAP); 2149*ca3e8d88SDave Plauger hp->cpin = NULL; 2150*ca3e8d88SDave Plauger } 2151*ca3e8d88SDave Plauger 2152*ca3e8d88SDave Plauger /* 2153*ca3e8d88SDave Plauger * Main task to dump pages. This is called on the dump CPU. 2154*ca3e8d88SDave Plauger */ 2155*ca3e8d88SDave Plauger static void 2156*ca3e8d88SDave Plauger dumpsys_main_task(void *arg) 2157*ca3e8d88SDave Plauger { 2158*ca3e8d88SDave Plauger dumpsync_t *ds = arg; 2159*ca3e8d88SDave Plauger pgcnt_t pagenum = 0, bitnum = 0, hibitnum; 2160*ca3e8d88SDave Plauger dumpmlw_t mlw; 2161*ca3e8d88SDave Plauger cbuf_t *cp; 2162*ca3e8d88SDave Plauger pgcnt_t baseoff, pfnoff; 2163*ca3e8d88SDave Plauger pfn_t base, pfn; 2164*ca3e8d88SDave Plauger int sec; 2165*ca3e8d88SDave Plauger 2166*ca3e8d88SDave Plauger dump_init_memlist_walker(&mlw); 2167*ca3e8d88SDave Plauger 2168*ca3e8d88SDave Plauger /* CONSTCOND */ 2169*ca3e8d88SDave Plauger while (1) { 2170*ca3e8d88SDave Plauger 2171*ca3e8d88SDave Plauger if (ds->percent > ds->percent_done) { 2172*ca3e8d88SDave Plauger ds->percent_done = ds->percent; 2173*ca3e8d88SDave Plauger sec = (gethrtime() - ds->start) / 1000 / 1000 / 1000; 2174*ca3e8d88SDave Plauger uprintf("^\r%2d:%02d %3d%% done", 2175*ca3e8d88SDave Plauger sec / 60, sec % 60, ds->percent); 2176*ca3e8d88SDave Plauger ds->neednl = 1; 2177*ca3e8d88SDave Plauger } 2178*ca3e8d88SDave Plauger 2179*ca3e8d88SDave Plauger while (CQ_IS_EMPTY(mainq) && !CQ_IS_EMPTY(writerq)) { 2180*ca3e8d88SDave Plauger 2181*ca3e8d88SDave Plauger /* the writerq never blocks */ 2182*ca3e8d88SDave Plauger cp = CQ_GET(writerq); 2183*ca3e8d88SDave Plauger if (cp == NULL) 2184*ca3e8d88SDave Plauger break; 2185*ca3e8d88SDave Plauger 2186*ca3e8d88SDave Plauger dump_timeleft = dump_timeout; 2187*ca3e8d88SDave Plauger 2188*ca3e8d88SDave Plauger HRSTART(ds->perpage, write); 2189*ca3e8d88SDave Plauger dumpvp_write(cp->buf, cp->used); 2190*ca3e8d88SDave Plauger HRSTOP(ds->perpage, write); 2191*ca3e8d88SDave Plauger 2192*ca3e8d88SDave Plauger CQ_PUT(freebufq, cp, CBUF_FREEBUF); 2193*ca3e8d88SDave Plauger } 2194*ca3e8d88SDave Plauger 2195*ca3e8d88SDave Plauger /* 2196*ca3e8d88SDave Plauger * Wait here for some buffers to process. Returns NULL 2197*ca3e8d88SDave Plauger * when all helpers have terminated and all buffers 2198*ca3e8d88SDave Plauger * have been processed. 2199*ca3e8d88SDave Plauger */ 2200*ca3e8d88SDave Plauger cp = CQ_GET(mainq); 2201*ca3e8d88SDave Plauger 2202*ca3e8d88SDave Plauger if (cp == NULL) { 2203*ca3e8d88SDave Plauger 2204*ca3e8d88SDave Plauger /* Drain the write queue. */ 2205*ca3e8d88SDave Plauger if (!CQ_IS_EMPTY(writerq)) 2206*ca3e8d88SDave Plauger continue; 2207*ca3e8d88SDave Plauger 2208*ca3e8d88SDave Plauger /* Main task exits here. */ 2209*ca3e8d88SDave Plauger break; 2210*ca3e8d88SDave Plauger } 2211*ca3e8d88SDave Plauger 2212*ca3e8d88SDave Plauger dump_timeleft = dump_timeout; 2213*ca3e8d88SDave Plauger 2214*ca3e8d88SDave Plauger switch (cp->state) { 2215*ca3e8d88SDave Plauger 2216*ca3e8d88SDave Plauger case CBUF_FREEMAP: 2217*ca3e8d88SDave Plauger 2218*ca3e8d88SDave Plauger /* 2219*ca3e8d88SDave Plauger * Note that we drop CBUF_FREEMAP buffers on 2220*ca3e8d88SDave Plauger * the floor (they will not be on any cqueue) 2221*ca3e8d88SDave Plauger * when we no longer need them. 2222*ca3e8d88SDave Plauger */ 2223*ca3e8d88SDave Plauger if (bitnum >= dumpcfg.bitmapsize) 2224*ca3e8d88SDave Plauger break; 2225*ca3e8d88SDave Plauger 2226*ca3e8d88SDave Plauger if (dump_ioerr) { 2227*ca3e8d88SDave Plauger bitnum = dumpcfg.bitmapsize; 2228*ca3e8d88SDave Plauger CQ_CLOSE(helperq); 2229*ca3e8d88SDave Plauger break; 2230*ca3e8d88SDave Plauger } 2231*ca3e8d88SDave Plauger 2232*ca3e8d88SDave Plauger HRSTART(ds->perpage, bitmap); 2233*ca3e8d88SDave Plauger for (; bitnum < dumpcfg.bitmapsize; bitnum++) 2234*ca3e8d88SDave Plauger if (BT_TEST(dumpcfg.bitmap, bitnum)) 2235*ca3e8d88SDave Plauger break; 2236*ca3e8d88SDave Plauger HRSTOP(ds->perpage, bitmap); 2237*ca3e8d88SDave Plauger dump_timeleft = dump_timeout; 2238*ca3e8d88SDave Plauger 2239*ca3e8d88SDave Plauger if (bitnum >= dumpcfg.bitmapsize) { 2240*ca3e8d88SDave Plauger CQ_CLOSE(helperq); 2241*ca3e8d88SDave Plauger break; 2242*ca3e8d88SDave Plauger } 2243*ca3e8d88SDave Plauger 2244*ca3e8d88SDave Plauger /* 2245*ca3e8d88SDave Plauger * Try to map CBUF_MAPSIZE ranges. Can't 2246*ca3e8d88SDave Plauger * assume that memory segment size is a 2247*ca3e8d88SDave Plauger * multiple of CBUF_MAPSIZE. Can't assume that 2248*ca3e8d88SDave Plauger * the segment starts on a CBUF_MAPSIZE 2249*ca3e8d88SDave Plauger * boundary. 2250*ca3e8d88SDave Plauger */ 2251*ca3e8d88SDave Plauger pfn = dump_bitnum_to_pfn(bitnum, &mlw); 2252*ca3e8d88SDave Plauger ASSERT(pfn != PFN_INVALID); 2253*ca3e8d88SDave Plauger ASSERT(bitnum + mlw.mpleft <= dumpcfg.bitmapsize); 2254*ca3e8d88SDave Plauger 2255*ca3e8d88SDave Plauger base = P2ALIGN(pfn, CBUF_MAPNP); 2256*ca3e8d88SDave Plauger if (base < mlw.mpaddr) { 2257*ca3e8d88SDave Plauger base = mlw.mpaddr; 2258*ca3e8d88SDave Plauger baseoff = P2PHASE(base, CBUF_MAPNP); 2259*ca3e8d88SDave Plauger } else { 2260*ca3e8d88SDave Plauger baseoff = 0; 2261*ca3e8d88SDave Plauger } 2262*ca3e8d88SDave Plauger 2263*ca3e8d88SDave Plauger pfnoff = pfn - base; 2264*ca3e8d88SDave Plauger if (pfnoff + mlw.mpleft < CBUF_MAPNP) { 2265*ca3e8d88SDave Plauger hibitnum = bitnum + mlw.mpleft; 2266*ca3e8d88SDave Plauger cp->size = ptob(pfnoff + mlw.mpleft); 2267*ca3e8d88SDave Plauger } else { 2268*ca3e8d88SDave Plauger hibitnum = bitnum - pfnoff + CBUF_MAPNP - 2269*ca3e8d88SDave Plauger baseoff; 2270*ca3e8d88SDave Plauger cp->size = CBUF_MAPSIZE - ptob(baseoff); 2271*ca3e8d88SDave Plauger } 2272*ca3e8d88SDave Plauger 2273*ca3e8d88SDave Plauger cp->pfn = pfn; 2274*ca3e8d88SDave Plauger cp->bitnum = bitnum++; 2275*ca3e8d88SDave Plauger cp->pagenum = pagenum++; 2276*ca3e8d88SDave Plauger cp->off = ptob(pfnoff); 2277*ca3e8d88SDave Plauger 2278*ca3e8d88SDave Plauger for (; bitnum < hibitnum; bitnum++) 2279*ca3e8d88SDave Plauger if (BT_TEST(dumpcfg.bitmap, bitnum)) 2280*ca3e8d88SDave Plauger pagenum++; 2281*ca3e8d88SDave Plauger 2282*ca3e8d88SDave Plauger dump_timeleft = dump_timeout; 2283*ca3e8d88SDave Plauger cp->used = ptob(pagenum - cp->pagenum); 2284*ca3e8d88SDave Plauger 2285*ca3e8d88SDave Plauger HRSTART(ds->perpage, map); 2286*ca3e8d88SDave Plauger hat_devload(kas.a_hat, cp->buf, cp->size, base, 2287*ca3e8d88SDave Plauger PROT_READ, HAT_LOAD_NOCONSIST); 2288*ca3e8d88SDave Plauger HRSTOP(ds->perpage, map); 2289*ca3e8d88SDave Plauger 2290*ca3e8d88SDave Plauger ds->pages_mapped += btop(cp->size); 2291*ca3e8d88SDave Plauger ds->pages_used += pagenum - cp->pagenum; 2292*ca3e8d88SDave Plauger 2293*ca3e8d88SDave Plauger CQ_OPEN(mainq); 2294*ca3e8d88SDave Plauger 2295*ca3e8d88SDave Plauger /* 2296*ca3e8d88SDave Plauger * If there are no helpers the main task does 2297*ca3e8d88SDave Plauger * non-streams lzjb compress. 2298*ca3e8d88SDave Plauger */ 2299*ca3e8d88SDave Plauger if (dumpcfg.clevel == 0) { 2300*ca3e8d88SDave Plauger dumpsys_lzjb_page(dumpcfg.helper, cp); 2301*ca3e8d88SDave Plauger break; 2302*ca3e8d88SDave Plauger } 2303*ca3e8d88SDave Plauger 2304*ca3e8d88SDave Plauger /* pass mapped pages to a helper */ 2305*ca3e8d88SDave Plauger CQ_PUT(helperq, cp, CBUF_INREADY); 2306*ca3e8d88SDave Plauger 2307*ca3e8d88SDave Plauger /* the last page was done */ 2308*ca3e8d88SDave Plauger if (bitnum >= dumpcfg.bitmapsize) 2309*ca3e8d88SDave Plauger CQ_CLOSE(helperq); 2310*ca3e8d88SDave Plauger 2311*ca3e8d88SDave Plauger break; 2312*ca3e8d88SDave Plauger 2313*ca3e8d88SDave Plauger case CBUF_USEDMAP: 2314*ca3e8d88SDave Plauger 2315*ca3e8d88SDave Plauger ds->npages += btop(cp->used); 2316*ca3e8d88SDave Plauger 2317*ca3e8d88SDave Plauger HRSTART(ds->perpage, unmap); 2318*ca3e8d88SDave Plauger hat_unload(kas.a_hat, cp->buf, cp->size, HAT_UNLOAD); 2319*ca3e8d88SDave Plauger HRSTOP(ds->perpage, unmap); 2320*ca3e8d88SDave Plauger 2321*ca3e8d88SDave Plauger if (bitnum < dumpcfg.bitmapsize) 2322*ca3e8d88SDave Plauger CQ_PUT(mainq, cp, CBUF_FREEMAP); 2323*ca3e8d88SDave Plauger CQ_CLOSE(mainq); 2324*ca3e8d88SDave Plauger 2325*ca3e8d88SDave Plauger ASSERT(ds->npages <= dumphdr->dump_npages); 2326*ca3e8d88SDave Plauger ds->percent = ds->npages * 100LL / dumphdr->dump_npages; 2327*ca3e8d88SDave Plauger break; 2328*ca3e8d88SDave Plauger 2329*ca3e8d88SDave Plauger case CBUF_WRITE: 2330*ca3e8d88SDave Plauger 2331*ca3e8d88SDave Plauger CQ_PUT(writerq, cp, CBUF_WRITE); 2332*ca3e8d88SDave Plauger break; 2333*ca3e8d88SDave Plauger 2334*ca3e8d88SDave Plauger case CBUF_ERRMSG: 2335*ca3e8d88SDave Plauger 2336*ca3e8d88SDave Plauger if (cp->used > 0) { 2337*ca3e8d88SDave Plauger cp->buf[cp->size - 2] = '\n'; 2338*ca3e8d88SDave Plauger cp->buf[cp->size - 1] = '\0'; 2339*ca3e8d88SDave Plauger if (ds->neednl) { 2340*ca3e8d88SDave Plauger uprintf("\n%s", cp->buf); 2341*ca3e8d88SDave Plauger ds->neednl = 0; 2342*ca3e8d88SDave Plauger } else { 2343*ca3e8d88SDave Plauger uprintf("%s", cp->buf); 2344*ca3e8d88SDave Plauger } 2345*ca3e8d88SDave Plauger } 2346*ca3e8d88SDave Plauger CQ_PUT(freebufq, cp, CBUF_FREEBUF); 2347*ca3e8d88SDave Plauger break; 2348*ca3e8d88SDave Plauger 2349*ca3e8d88SDave Plauger default: 2350*ca3e8d88SDave Plauger uprintf("dump: unexpected buffer state %d, " 2351*ca3e8d88SDave Plauger "buffer will be lost\n", cp->state); 2352*ca3e8d88SDave Plauger break; 2353*ca3e8d88SDave Plauger 2354*ca3e8d88SDave Plauger } /* end switch */ 2355*ca3e8d88SDave Plauger 2356*ca3e8d88SDave Plauger } /* end while(1) */ 2357*ca3e8d88SDave Plauger } 2358*ca3e8d88SDave Plauger 2359*ca3e8d88SDave Plauger #ifdef COLLECT_METRICS 2360*ca3e8d88SDave Plauger size_t 2361*ca3e8d88SDave Plauger dumpsys_metrics(dumpsync_t *ds, char *buf, size_t size) 2362*ca3e8d88SDave Plauger { 2363*ca3e8d88SDave Plauger dumpcfg_t *cfg = &dumpcfg; 2364*ca3e8d88SDave Plauger int myid = CPU->cpu_seqid; 2365*ca3e8d88SDave Plauger int i, compress_ratio; 2366*ca3e8d88SDave Plauger int sec, iorate; 2367*ca3e8d88SDave Plauger helper_t *hp, *hpend = &cfg->helper[cfg->nhelper]; 2368*ca3e8d88SDave Plauger char *e = buf + size; 2369*ca3e8d88SDave Plauger char *p = buf; 2370*ca3e8d88SDave Plauger 2371*ca3e8d88SDave Plauger sec = ds->elapsed / (1000 * 1000 * 1000ULL); 2372*ca3e8d88SDave Plauger if (sec < 1) 2373*ca3e8d88SDave Plauger sec = 1; 2374*ca3e8d88SDave Plauger 2375*ca3e8d88SDave Plauger if (ds->iotime < 1) 2376*ca3e8d88SDave Plauger ds->iotime = 1; 2377*ca3e8d88SDave Plauger iorate = (ds->nwrite * 100000ULL) / ds->iotime; 2378*ca3e8d88SDave Plauger 2379*ca3e8d88SDave Plauger compress_ratio = 100LL * ds->npages / btopr(ds->nwrite + 1); 2380*ca3e8d88SDave Plauger 2381*ca3e8d88SDave Plauger #define P(...) (p += p < e ? snprintf(p, e - p, __VA_ARGS__) : 0) 2382*ca3e8d88SDave Plauger 2383*ca3e8d88SDave Plauger P("Master cpu_seqid,%d\n", CPU->cpu_seqid); 2384*ca3e8d88SDave Plauger P("Master cpu_id,%d\n", CPU->cpu_id); 2385*ca3e8d88SDave Plauger P("dump_flags,0x%x\n", dumphdr->dump_flags); 2386*ca3e8d88SDave Plauger P("dump_ioerr,%d\n", dump_ioerr); 2387*ca3e8d88SDave Plauger 2388*ca3e8d88SDave Plauger P("Helpers:\n"); 2389*ca3e8d88SDave Plauger for (i = 0; i < ncpus; i++) { 2390*ca3e8d88SDave Plauger if ((i & 15) == 0) 2391*ca3e8d88SDave Plauger P(",,%03d,", i); 2392*ca3e8d88SDave Plauger if (i == myid) 2393*ca3e8d88SDave Plauger P(" M"); 2394*ca3e8d88SDave Plauger else if (BT_TEST(cfg->helpermap, i)) 2395*ca3e8d88SDave Plauger P("%4d", cpu_seq[i]->cpu_id); 2396*ca3e8d88SDave Plauger else 2397*ca3e8d88SDave Plauger P(" *"); 2398*ca3e8d88SDave Plauger if ((i & 15) == 15) 2399*ca3e8d88SDave Plauger P("\n"); 2400*ca3e8d88SDave Plauger } 2401*ca3e8d88SDave Plauger 2402*ca3e8d88SDave Plauger P("ncbuf_used,%d\n", cfg->ncbuf_used); 2403*ca3e8d88SDave Plauger P("ncmap,%d\n", cfg->ncmap); 2404*ca3e8d88SDave Plauger 2405*ca3e8d88SDave Plauger P("Found %ldM ranges,%ld\n", (CBUF_MAPSIZE / DUMP_1MB), cfg->found4m); 2406*ca3e8d88SDave Plauger P("Found small pages,%ld\n", cfg->foundsm); 2407*ca3e8d88SDave Plauger 2408*ca3e8d88SDave Plauger P("Compression level,%d\n", cfg->clevel); 2409*ca3e8d88SDave Plauger P("Compression type,%s %s\n", cfg->clevel == 0 ? "serial" : "parallel", 2410*ca3e8d88SDave Plauger cfg->clevel >= DUMP_CLEVEL_BZIP2 ? "bzip2" : "lzjb"); 2411*ca3e8d88SDave Plauger P("Compression ratio,%d.%02d\n", compress_ratio / 100, compress_ratio % 2412*ca3e8d88SDave Plauger 100); 2413*ca3e8d88SDave Plauger P("nhelper_used,%d\n", cfg->nhelper_used); 2414*ca3e8d88SDave Plauger 2415*ca3e8d88SDave Plauger P("Dump I/O rate MBS,%d.%02d\n", iorate / 100, iorate % 100); 2416*ca3e8d88SDave Plauger P("..total bytes,%lld\n", (u_longlong_t)ds->nwrite); 2417*ca3e8d88SDave Plauger P("..total nsec,%lld\n", (u_longlong_t)ds->iotime); 2418*ca3e8d88SDave Plauger P("dumpbuf.iosize,%ld\n", dumpbuf.iosize); 2419*ca3e8d88SDave Plauger P("dumpbuf.size,%ld\n", dumpbuf.size); 2420*ca3e8d88SDave Plauger 2421*ca3e8d88SDave Plauger P("Dump pages/sec,%llu\n", (u_longlong_t)ds->npages / sec); 2422*ca3e8d88SDave Plauger P("Dump pages,%llu\n", (u_longlong_t)ds->npages); 2423*ca3e8d88SDave Plauger P("Dump time,%d\n", sec); 2424*ca3e8d88SDave Plauger 2425*ca3e8d88SDave Plauger if (ds->pages_mapped > 0) 2426*ca3e8d88SDave Plauger P("per-cent map utilization,%d\n", (int)((100 * ds->pages_used) 2427*ca3e8d88SDave Plauger / ds->pages_mapped)); 2428*ca3e8d88SDave Plauger 2429*ca3e8d88SDave Plauger P("\nPer-page metrics:\n"); 2430*ca3e8d88SDave Plauger if (ds->npages > 0) { 2431*ca3e8d88SDave Plauger for (hp = cfg->helper; hp != hpend; hp++) { 2432*ca3e8d88SDave Plauger #define PERPAGE(x) ds->perpage.x += hp->perpage.x; 2433*ca3e8d88SDave Plauger PERPAGES; 2434*ca3e8d88SDave Plauger #undef PERPAGE 2435*ca3e8d88SDave Plauger } 2436*ca3e8d88SDave Plauger #define PERPAGE(x) \ 2437*ca3e8d88SDave Plauger P("%s nsec/page,%d\n", #x, (int)(ds->perpage.x / ds->npages)); 2438*ca3e8d88SDave Plauger PERPAGES; 2439*ca3e8d88SDave Plauger #undef PERPAGE 2440*ca3e8d88SDave Plauger P("freebufq.empty,%d\n", (int)(ds->freebufq.empty / 2441*ca3e8d88SDave Plauger ds->npages)); 2442*ca3e8d88SDave Plauger P("helperq.empty,%d\n", (int)(ds->helperq.empty / 2443*ca3e8d88SDave Plauger ds->npages)); 2444*ca3e8d88SDave Plauger P("writerq.empty,%d\n", (int)(ds->writerq.empty / 2445*ca3e8d88SDave Plauger ds->npages)); 2446*ca3e8d88SDave Plauger P("mainq.empty,%d\n", (int)(ds->mainq.empty / ds->npages)); 2447*ca3e8d88SDave Plauger 2448*ca3e8d88SDave Plauger P("I/O wait nsec/page,%llu\n", (u_longlong_t)(ds->iowait / 2449*ca3e8d88SDave Plauger ds->npages)); 2450*ca3e8d88SDave Plauger } 2451*ca3e8d88SDave Plauger #undef P 2452*ca3e8d88SDave Plauger if (p < e) 2453*ca3e8d88SDave Plauger bzero(p, e - p); 2454*ca3e8d88SDave Plauger return (p - buf); 2455*ca3e8d88SDave Plauger } 2456*ca3e8d88SDave Plauger #endif /* COLLECT_METRICS */ 2457*ca3e8d88SDave Plauger 24587c478bd9Sstevel@tonic-gate /* 24597c478bd9Sstevel@tonic-gate * Dump the system. 24607c478bd9Sstevel@tonic-gate */ 24617c478bd9Sstevel@tonic-gate void 24627c478bd9Sstevel@tonic-gate dumpsys(void) 24637c478bd9Sstevel@tonic-gate { 2464*ca3e8d88SDave Plauger dumpsync_t *ds = &dumpsync; 2465*ca3e8d88SDave Plauger taskq_t *livetaskq = NULL; 24667c478bd9Sstevel@tonic-gate pfn_t pfn; 24677c478bd9Sstevel@tonic-gate pgcnt_t bitnum; 24687c478bd9Sstevel@tonic-gate proc_t *p; 2469*ca3e8d88SDave Plauger helper_t *hp, *hpend = &dumpcfg.helper[dumpcfg.nhelper]; 2470*ca3e8d88SDave Plauger cbuf_t *cp; 24717c478bd9Sstevel@tonic-gate pid_t npids, pidx; 24727c478bd9Sstevel@tonic-gate char *content; 2473*ca3e8d88SDave Plauger int save_dump_clevel; 2474*ca3e8d88SDave Plauger dumpmlw_t mlw; 2475*ca3e8d88SDave Plauger dumpcsize_t datatag; 2476*ca3e8d88SDave Plauger dumpdatahdr_t datahdr; 24777c478bd9Sstevel@tonic-gate 24787c478bd9Sstevel@tonic-gate if (dumpvp == NULL || dumphdr == NULL) { 24797c478bd9Sstevel@tonic-gate uprintf("skipping system dump - no dump device configured\n"); 2480*ca3e8d88SDave Plauger if (panicstr) { 2481*ca3e8d88SDave Plauger dumpcfg.helpers_wanted = 0; 2482*ca3e8d88SDave Plauger dumpsys_spinunlock(&dumpcfg.helper_lock); 2483*ca3e8d88SDave Plauger } 24847c478bd9Sstevel@tonic-gate return; 24857c478bd9Sstevel@tonic-gate } 2486*ca3e8d88SDave Plauger dumpbuf.cur = dumpbuf.start; 2487*ca3e8d88SDave Plauger 2488*ca3e8d88SDave Plauger /* clear the sync variables */ 2489*ca3e8d88SDave Plauger ASSERT(dumpcfg.nhelper > 0); 2490*ca3e8d88SDave Plauger bzero(ds, sizeof (*ds)); 2491*ca3e8d88SDave Plauger ds->dumpcpu = CPU->cpu_id; 24927c478bd9Sstevel@tonic-gate 24937c478bd9Sstevel@tonic-gate /* 24947c478bd9Sstevel@tonic-gate * Calculate the starting block for dump. If we're dumping on a 24957c478bd9Sstevel@tonic-gate * swap device, start 1/5 of the way in; otherwise, start at the 24967c478bd9Sstevel@tonic-gate * beginning. And never use the first page -- it may be a disk label. 24977c478bd9Sstevel@tonic-gate */ 24987c478bd9Sstevel@tonic-gate if (dumpvp->v_flag & VISSWAP) 24997c478bd9Sstevel@tonic-gate dumphdr->dump_start = P2ROUNDUP(dumpvp_size / 5, DUMP_OFFSET); 25007c478bd9Sstevel@tonic-gate else 25017c478bd9Sstevel@tonic-gate dumphdr->dump_start = DUMP_OFFSET; 25027c478bd9Sstevel@tonic-gate 2503*ca3e8d88SDave Plauger dumphdr->dump_flags = DF_VALID | DF_COMPLETE | DF_LIVE | DF_COMPRESSED; 25047c478bd9Sstevel@tonic-gate dumphdr->dump_crashtime = gethrestime_sec(); 25057c478bd9Sstevel@tonic-gate dumphdr->dump_npages = 0; 25067c478bd9Sstevel@tonic-gate dumphdr->dump_nvtop = 0; 2507*ca3e8d88SDave Plauger bzero(dumpcfg.bitmap, BT_SIZEOFMAP(dumpcfg.bitmapsize)); 25087c478bd9Sstevel@tonic-gate dump_timeleft = dump_timeout; 25097c478bd9Sstevel@tonic-gate 25107c478bd9Sstevel@tonic-gate if (panicstr) { 25117c478bd9Sstevel@tonic-gate dumphdr->dump_flags &= ~DF_LIVE; 2512da6c28aaSamw (void) VOP_DUMPCTL(dumpvp, DUMP_FREE, NULL, NULL); 2513da6c28aaSamw (void) VOP_DUMPCTL(dumpvp, DUMP_ALLOC, NULL, NULL); 25147c478bd9Sstevel@tonic-gate (void) vsnprintf(dumphdr->dump_panicstring, DUMP_PANICSIZE, 25157c478bd9Sstevel@tonic-gate panicstr, panicargs); 2516*ca3e8d88SDave Plauger 25177c478bd9Sstevel@tonic-gate } 25187c478bd9Sstevel@tonic-gate 25197c478bd9Sstevel@tonic-gate if (dump_conflags & DUMP_ALL) 25207c478bd9Sstevel@tonic-gate content = "all"; 25217c478bd9Sstevel@tonic-gate else if (dump_conflags & DUMP_CURPROC) 25227c478bd9Sstevel@tonic-gate content = "kernel + curproc"; 25237c478bd9Sstevel@tonic-gate else 25247c478bd9Sstevel@tonic-gate content = "kernel"; 25257c478bd9Sstevel@tonic-gate uprintf("dumping to %s, offset %lld, content: %s\n", dumppath, 25267c478bd9Sstevel@tonic-gate dumphdr->dump_start, content); 25277c478bd9Sstevel@tonic-gate 2528*ca3e8d88SDave Plauger /* Make sure nodename is current */ 2529*ca3e8d88SDave Plauger bcopy(utsname.nodename, dumphdr->dump_utsname.nodename, SYS_NMLN); 2530*ca3e8d88SDave Plauger 2531*ca3e8d88SDave Plauger /* 2532*ca3e8d88SDave Plauger * If this is a live dump, try to open a VCHR vnode for better 2533*ca3e8d88SDave Plauger * performance. We must take care to flush the buffer cache 2534*ca3e8d88SDave Plauger * first. 2535*ca3e8d88SDave Plauger */ 2536*ca3e8d88SDave Plauger if (!panicstr) { 2537*ca3e8d88SDave Plauger vnode_t *cdev_vp, *cmn_cdev_vp; 2538*ca3e8d88SDave Plauger 2539*ca3e8d88SDave Plauger ASSERT(dumpbuf.cdev_vp == NULL); 2540*ca3e8d88SDave Plauger cdev_vp = makespecvp(VTOS(dumpvp)->s_dev, VCHR); 2541*ca3e8d88SDave Plauger if (cdev_vp != NULL) { 2542*ca3e8d88SDave Plauger cmn_cdev_vp = common_specvp(cdev_vp); 2543*ca3e8d88SDave Plauger if (VOP_OPEN(&cmn_cdev_vp, FREAD | FWRITE, kcred, NULL) 2544*ca3e8d88SDave Plauger == 0) { 2545*ca3e8d88SDave Plauger if (vn_has_cached_data(dumpvp)) 2546*ca3e8d88SDave Plauger (void) pvn_vplist_dirty(dumpvp, 0, NULL, 2547*ca3e8d88SDave Plauger B_INVAL | B_TRUNC, kcred); 2548*ca3e8d88SDave Plauger dumpbuf.cdev_vp = cmn_cdev_vp; 2549*ca3e8d88SDave Plauger } else { 2550*ca3e8d88SDave Plauger VN_RELE(cdev_vp); 2551*ca3e8d88SDave Plauger } 2552*ca3e8d88SDave Plauger } 2553*ca3e8d88SDave Plauger } 2554*ca3e8d88SDave Plauger 25557c478bd9Sstevel@tonic-gate /* 25567c478bd9Sstevel@tonic-gate * Leave room for the message and ereport save areas and terminal dump 25577c478bd9Sstevel@tonic-gate * header. 25587c478bd9Sstevel@tonic-gate */ 2559*ca3e8d88SDave Plauger dumpbuf.vp_limit = dumpvp_size - DUMP_LOGSIZE - DUMP_OFFSET - 2560*ca3e8d88SDave Plauger DUMP_ERPTSIZE; 25617c478bd9Sstevel@tonic-gate 25627c478bd9Sstevel@tonic-gate /* 25637c478bd9Sstevel@tonic-gate * Write out the symbol table. It's no longer compressed, 25647c478bd9Sstevel@tonic-gate * so its 'size' and 'csize' are equal. 25657c478bd9Sstevel@tonic-gate */ 2566*ca3e8d88SDave Plauger dumpbuf.vp_off = dumphdr->dump_ksyms = dumphdr->dump_start + PAGESIZE; 25677c478bd9Sstevel@tonic-gate dumphdr->dump_ksyms_size = dumphdr->dump_ksyms_csize = 25687c478bd9Sstevel@tonic-gate ksyms_snapshot(dumpvp_ksyms_write, NULL, LONG_MAX); 25697c478bd9Sstevel@tonic-gate 25707c478bd9Sstevel@tonic-gate /* 25717c478bd9Sstevel@tonic-gate * Write out the translation map. 25727c478bd9Sstevel@tonic-gate */ 25737c478bd9Sstevel@tonic-gate dumphdr->dump_map = dumpvp_flush(); 25747c478bd9Sstevel@tonic-gate dump_as(&kas); 2575ae115bc7Smrj dumphdr->dump_nvtop += dump_plat_addr(); 25767c478bd9Sstevel@tonic-gate 25777c478bd9Sstevel@tonic-gate /* 25787c478bd9Sstevel@tonic-gate * call into hat, which may have unmapped pages that also need to 25797c478bd9Sstevel@tonic-gate * be in the dump 25807c478bd9Sstevel@tonic-gate */ 25817c478bd9Sstevel@tonic-gate hat_dump(); 25827c478bd9Sstevel@tonic-gate 25837c478bd9Sstevel@tonic-gate if (dump_conflags & DUMP_ALL) { 25847c478bd9Sstevel@tonic-gate mutex_enter(&pidlock); 25857c478bd9Sstevel@tonic-gate 25867c478bd9Sstevel@tonic-gate for (npids = 0, p = practive; p != NULL; p = p->p_next) 2587*ca3e8d88SDave Plauger dumpcfg.pids[npids++] = p->p_pid; 25887c478bd9Sstevel@tonic-gate 25897c478bd9Sstevel@tonic-gate mutex_exit(&pidlock); 25907c478bd9Sstevel@tonic-gate 25917c478bd9Sstevel@tonic-gate for (pidx = 0; pidx < npids; pidx++) 2592*ca3e8d88SDave Plauger (void) dump_process(dumpcfg.pids[pidx]); 25937c478bd9Sstevel@tonic-gate 2594*ca3e8d88SDave Plauger for (bitnum = 0; bitnum < dumpcfg.bitmapsize; bitnum++) { 25957c478bd9Sstevel@tonic-gate dump_timeleft = dump_timeout; 2596*ca3e8d88SDave Plauger BT_SET(dumpcfg.bitmap, bitnum); 25977c478bd9Sstevel@tonic-gate } 2598*ca3e8d88SDave Plauger dumphdr->dump_npages = dumpcfg.bitmapsize; 25997c478bd9Sstevel@tonic-gate dumphdr->dump_flags |= DF_ALL; 26007c478bd9Sstevel@tonic-gate 26017c478bd9Sstevel@tonic-gate } else if (dump_conflags & DUMP_CURPROC) { 26027c478bd9Sstevel@tonic-gate /* 26037c478bd9Sstevel@tonic-gate * Determine which pid is to be dumped. If we're panicking, we 26047c478bd9Sstevel@tonic-gate * dump the process associated with panic_thread (if any). If 26057c478bd9Sstevel@tonic-gate * this is a live dump, we dump the process associated with 26067c478bd9Sstevel@tonic-gate * curthread. 26077c478bd9Sstevel@tonic-gate */ 26087c478bd9Sstevel@tonic-gate npids = 0; 26097c478bd9Sstevel@tonic-gate if (panicstr) { 26107c478bd9Sstevel@tonic-gate if (panic_thread != NULL && 26117c478bd9Sstevel@tonic-gate panic_thread->t_procp != NULL && 26127c478bd9Sstevel@tonic-gate panic_thread->t_procp != &p0) { 2613*ca3e8d88SDave Plauger dumpcfg.pids[npids++] = 26147c478bd9Sstevel@tonic-gate panic_thread->t_procp->p_pid; 26157c478bd9Sstevel@tonic-gate } 26167c478bd9Sstevel@tonic-gate } else { 2617*ca3e8d88SDave Plauger dumpcfg.pids[npids++] = curthread->t_procp->p_pid; 26187c478bd9Sstevel@tonic-gate } 26197c478bd9Sstevel@tonic-gate 2620*ca3e8d88SDave Plauger if (npids && dump_process(dumpcfg.pids[0]) == 0) 26217c478bd9Sstevel@tonic-gate dumphdr->dump_flags |= DF_CURPROC; 26227c478bd9Sstevel@tonic-gate else 26237c478bd9Sstevel@tonic-gate dumphdr->dump_flags |= DF_KERNEL; 26247c478bd9Sstevel@tonic-gate 26257c478bd9Sstevel@tonic-gate } else { 26267c478bd9Sstevel@tonic-gate dumphdr->dump_flags |= DF_KERNEL; 26277c478bd9Sstevel@tonic-gate } 26287c478bd9Sstevel@tonic-gate 26297c478bd9Sstevel@tonic-gate dumphdr->dump_hashmask = (1 << highbit(dumphdr->dump_nvtop - 1)) - 1; 26307c478bd9Sstevel@tonic-gate 26317c478bd9Sstevel@tonic-gate /* 26327c478bd9Sstevel@tonic-gate * Write out the pfn table. 26337c478bd9Sstevel@tonic-gate */ 26347c478bd9Sstevel@tonic-gate dumphdr->dump_pfn = dumpvp_flush(); 2635*ca3e8d88SDave Plauger dump_init_memlist_walker(&mlw); 2636*ca3e8d88SDave Plauger for (bitnum = 0; bitnum < dumpcfg.bitmapsize; bitnum++) { 26377c478bd9Sstevel@tonic-gate dump_timeleft = dump_timeout; 2638*ca3e8d88SDave Plauger if (!BT_TEST(dumpcfg.bitmap, bitnum)) 26397c478bd9Sstevel@tonic-gate continue; 2640*ca3e8d88SDave Plauger pfn = dump_bitnum_to_pfn(bitnum, &mlw); 26417c478bd9Sstevel@tonic-gate ASSERT(pfn != PFN_INVALID); 26427c478bd9Sstevel@tonic-gate dumpvp_write(&pfn, sizeof (pfn_t)); 26437c478bd9Sstevel@tonic-gate } 2644ae115bc7Smrj dump_plat_pfn(); 26457c478bd9Sstevel@tonic-gate 26467c478bd9Sstevel@tonic-gate /* 26477c478bd9Sstevel@tonic-gate * Write out all the pages. 2648*ca3e8d88SDave Plauger * Map pages, copy them handling UEs, compress, and write them out. 2649*ca3e8d88SDave Plauger * Cooperate with any helpers running on CPUs in panic_idle(). 26507c478bd9Sstevel@tonic-gate */ 26517c478bd9Sstevel@tonic-gate dumphdr->dump_data = dumpvp_flush(); 2652*ca3e8d88SDave Plauger 2653*ca3e8d88SDave Plauger bzero(dumpcfg.helpermap, BT_SIZEOFMAP(NCPU)); 2654*ca3e8d88SDave Plauger ds->live = dumpcfg.clevel > 0 && 2655*ca3e8d88SDave Plauger (dumphdr->dump_flags & DF_LIVE) != 0; 2656*ca3e8d88SDave Plauger 2657*ca3e8d88SDave Plauger save_dump_clevel = dumpcfg.clevel; 2658*ca3e8d88SDave Plauger if (panicstr) 2659*ca3e8d88SDave Plauger dumpsys_get_maxmem(); 2660*ca3e8d88SDave Plauger else if (dumpcfg.clevel >= DUMP_CLEVEL_BZIP2) 2661*ca3e8d88SDave Plauger dumpcfg.clevel = DUMP_CLEVEL_LZJB; 2662*ca3e8d88SDave Plauger 2663*ca3e8d88SDave Plauger dumpcfg.nhelper_used = 0; 2664*ca3e8d88SDave Plauger for (hp = dumpcfg.helper; hp != hpend; hp++) { 2665*ca3e8d88SDave Plauger if (hp->page == NULL) { 2666*ca3e8d88SDave Plauger hp->helper = DONEHELPER; 26677c478bd9Sstevel@tonic-gate continue; 2668*ca3e8d88SDave Plauger } 2669*ca3e8d88SDave Plauger ++dumpcfg.nhelper_used; 2670*ca3e8d88SDave Plauger hp->helper = FREEHELPER; 2671*ca3e8d88SDave Plauger hp->taskqid = NULL; 2672*ca3e8d88SDave Plauger hp->ds = ds; 2673*ca3e8d88SDave Plauger bzero(&hp->perpage, sizeof (hp->perpage)); 2674*ca3e8d88SDave Plauger if (dumpcfg.clevel >= DUMP_CLEVEL_BZIP2) 2675*ca3e8d88SDave Plauger (void) BZ2_bzCompressReset(&hp->bzstream); 2676*ca3e8d88SDave Plauger } 26777c478bd9Sstevel@tonic-gate 2678*ca3e8d88SDave Plauger CQ_OPEN(freebufq); 2679*ca3e8d88SDave Plauger CQ_OPEN(helperq); 2680*ca3e8d88SDave Plauger 2681*ca3e8d88SDave Plauger dumpcfg.ncbuf_used = 0; 2682*ca3e8d88SDave Plauger for (cp = dumpcfg.cbuf; cp != &dumpcfg.cbuf[dumpcfg.ncbuf]; cp++) { 2683*ca3e8d88SDave Plauger if (cp->buf != NULL) { 2684*ca3e8d88SDave Plauger CQ_PUT(freebufq, cp, CBUF_FREEBUF); 2685*ca3e8d88SDave Plauger ++dumpcfg.ncbuf_used; 2686*ca3e8d88SDave Plauger } 2687*ca3e8d88SDave Plauger } 2688*ca3e8d88SDave Plauger 2689*ca3e8d88SDave Plauger for (cp = dumpcfg.cmap; cp != &dumpcfg.cmap[dumpcfg.ncmap]; cp++) 2690*ca3e8d88SDave Plauger CQ_PUT(mainq, cp, CBUF_FREEMAP); 2691*ca3e8d88SDave Plauger 2692*ca3e8d88SDave Plauger ds->start = gethrtime(); 2693*ca3e8d88SDave Plauger ds->iowaitts = ds->start; 2694*ca3e8d88SDave Plauger 2695*ca3e8d88SDave Plauger /* start helpers */ 2696*ca3e8d88SDave Plauger if (ds->live) { 2697*ca3e8d88SDave Plauger int n = dumpcfg.nhelper_used; 2698*ca3e8d88SDave Plauger int pri = MINCLSYSPRI - 25; 2699*ca3e8d88SDave Plauger 2700*ca3e8d88SDave Plauger livetaskq = taskq_create("LiveDump", n, pri, n, n, 2701*ca3e8d88SDave Plauger TASKQ_PREPOPULATE); 2702*ca3e8d88SDave Plauger for (hp = dumpcfg.helper; hp != hpend; hp++) { 2703*ca3e8d88SDave Plauger if (hp->page == NULL) 2704*ca3e8d88SDave Plauger continue; 2705*ca3e8d88SDave Plauger hp->helper = hp - dumpcfg.helper; 2706*ca3e8d88SDave Plauger hp->taskqid = taskq_dispatch(livetaskq, 2707*ca3e8d88SDave Plauger dumpsys_live_helper, (void *)hp, TQ_NOSLEEP); 2708*ca3e8d88SDave Plauger } 2709*ca3e8d88SDave Plauger 2710*ca3e8d88SDave Plauger } else { 2711*ca3e8d88SDave Plauger dumpcfg.helpers_wanted = dumpcfg.clevel > 0; 2712*ca3e8d88SDave Plauger dumpsys_spinunlock(&dumpcfg.helper_lock); 2713*ca3e8d88SDave Plauger } 2714*ca3e8d88SDave Plauger 2715*ca3e8d88SDave Plauger /* run main task */ 2716*ca3e8d88SDave Plauger dumpsys_main_task(ds); 2717*ca3e8d88SDave Plauger 2718*ca3e8d88SDave Plauger ds->elapsed = gethrtime() - ds->start; 2719*ca3e8d88SDave Plauger if (ds->elapsed < 1) 2720*ca3e8d88SDave Plauger ds->elapsed = 1; 2721*ca3e8d88SDave Plauger 2722*ca3e8d88SDave Plauger if (livetaskq != NULL) 2723*ca3e8d88SDave Plauger taskq_destroy(livetaskq); 2724*ca3e8d88SDave Plauger 2725*ca3e8d88SDave Plauger if (ds->neednl) { 2726*ca3e8d88SDave Plauger uprintf("\n"); 2727*ca3e8d88SDave Plauger ds->neednl = 0; 2728*ca3e8d88SDave Plauger } 2729*ca3e8d88SDave Plauger 2730*ca3e8d88SDave Plauger /* record actual pages dumped */ 2731*ca3e8d88SDave Plauger dumphdr->dump_npages = ds->npages; 2732*ca3e8d88SDave Plauger 2733*ca3e8d88SDave Plauger /* platform-specific data */ 2734*ca3e8d88SDave Plauger dumphdr->dump_npages += dump_plat_data(dumpcfg.cbuf[0].buf); 2735*ca3e8d88SDave Plauger 2736*ca3e8d88SDave Plauger /* note any errors by clearing DF_COMPLETE */ 2737*ca3e8d88SDave Plauger if (dump_ioerr || ds->npages < dumphdr->dump_npages) 27387c478bd9Sstevel@tonic-gate dumphdr->dump_flags &= ~DF_COMPLETE; 27397c478bd9Sstevel@tonic-gate 2740*ca3e8d88SDave Plauger /* end of stream blocks */ 2741*ca3e8d88SDave Plauger datatag = 0; 2742*ca3e8d88SDave Plauger dumpvp_write(&datatag, sizeof (datatag)); 2743*ca3e8d88SDave Plauger 2744*ca3e8d88SDave Plauger /* compression info in data header */ 2745*ca3e8d88SDave Plauger bzero(&datahdr, sizeof (datahdr)); 2746*ca3e8d88SDave Plauger datahdr.dump_datahdr_magic = DUMP_DATAHDR_MAGIC; 2747*ca3e8d88SDave Plauger datahdr.dump_datahdr_version = DUMP_DATAHDR_VERSION; 2748*ca3e8d88SDave Plauger datahdr.dump_maxcsize = CBUF_SIZE; 2749*ca3e8d88SDave Plauger datahdr.dump_maxrange = CBUF_MAPSIZE / PAGESIZE; 2750*ca3e8d88SDave Plauger datahdr.dump_nstreams = dumpcfg.nhelper_used; 2751*ca3e8d88SDave Plauger datahdr.dump_clevel = dumpcfg.clevel; 2752*ca3e8d88SDave Plauger #ifdef COLLECT_METRICS 2753*ca3e8d88SDave Plauger if (dump_metrics_on) 2754*ca3e8d88SDave Plauger datahdr.dump_metrics = dumpsys_metrics(ds, dumpcfg.cbuf[0].buf, 2755*ca3e8d88SDave Plauger MIN(dumpcfg.cbuf[0].size, DUMP_OFFSET - sizeof (dumphdr_t) - 2756*ca3e8d88SDave Plauger sizeof (dumpdatahdr_t))); 2757*ca3e8d88SDave Plauger #endif 2758*ca3e8d88SDave Plauger datahdr.dump_data_csize = dumpvp_flush() - dumphdr->dump_data; 27597c478bd9Sstevel@tonic-gate 27607c478bd9Sstevel@tonic-gate /* 27617c478bd9Sstevel@tonic-gate * Write out the initial and terminal dump headers. 27627c478bd9Sstevel@tonic-gate */ 2763*ca3e8d88SDave Plauger dumpbuf.vp_off = dumphdr->dump_start; 27647c478bd9Sstevel@tonic-gate dumpvp_write(dumphdr, sizeof (dumphdr_t)); 27657c478bd9Sstevel@tonic-gate (void) dumpvp_flush(); 27667c478bd9Sstevel@tonic-gate 2767*ca3e8d88SDave Plauger dumpbuf.vp_limit = dumpvp_size; 2768*ca3e8d88SDave Plauger dumpbuf.vp_off = dumpbuf.vp_limit - DUMP_OFFSET; 27697c478bd9Sstevel@tonic-gate dumpvp_write(dumphdr, sizeof (dumphdr_t)); 2770*ca3e8d88SDave Plauger dumpvp_write(&datahdr, sizeof (dumpdatahdr_t)); 2771*ca3e8d88SDave Plauger dumpvp_write(dumpcfg.cbuf[0].buf, datahdr.dump_metrics); 2772*ca3e8d88SDave Plauger 27737c478bd9Sstevel@tonic-gate (void) dumpvp_flush(); 27747c478bd9Sstevel@tonic-gate 2775*ca3e8d88SDave Plauger uprintf("\r%3d%% done: %llu pages dumped, ", 2776*ca3e8d88SDave Plauger ds->percent_done, (u_longlong_t)ds->npages); 27777c478bd9Sstevel@tonic-gate 27787c478bd9Sstevel@tonic-gate if (dump_ioerr == 0) { 27797c478bd9Sstevel@tonic-gate uprintf("dump succeeded\n"); 27807c478bd9Sstevel@tonic-gate } else { 27817c478bd9Sstevel@tonic-gate uprintf("dump failed: error %d\n", dump_ioerr); 2782*ca3e8d88SDave Plauger #ifdef DEBUG 2783*ca3e8d88SDave Plauger if (panicstr) 27847c478bd9Sstevel@tonic-gate debug_enter("dump failed"); 2785*ca3e8d88SDave Plauger #endif 27867c478bd9Sstevel@tonic-gate } 27877c478bd9Sstevel@tonic-gate 27887c478bd9Sstevel@tonic-gate /* 27897c478bd9Sstevel@tonic-gate * Write out all undelivered messages. This has to be the *last* 27907c478bd9Sstevel@tonic-gate * thing we do because the dump process itself emits messages. 27917c478bd9Sstevel@tonic-gate */ 27927c478bd9Sstevel@tonic-gate if (panicstr) { 27937c478bd9Sstevel@tonic-gate dump_ereports(); 27947c478bd9Sstevel@tonic-gate dump_messages(); 27957c478bd9Sstevel@tonic-gate } 27967c478bd9Sstevel@tonic-gate 27977c478bd9Sstevel@tonic-gate delay(2 * hz); /* let people see the 'done' message */ 27987c478bd9Sstevel@tonic-gate dump_timeleft = 0; 27997c478bd9Sstevel@tonic-gate dump_ioerr = 0; 2800*ca3e8d88SDave Plauger 2801*ca3e8d88SDave Plauger /* restore settings after live dump completes */ 2802*ca3e8d88SDave Plauger if (!panicstr) { 2803*ca3e8d88SDave Plauger dumpcfg.clevel = save_dump_clevel; 2804*ca3e8d88SDave Plauger 2805*ca3e8d88SDave Plauger /* release any VCHR open of the dump device */ 2806*ca3e8d88SDave Plauger if (dumpbuf.cdev_vp != NULL) { 2807*ca3e8d88SDave Plauger (void) VOP_CLOSE(dumpbuf.cdev_vp, FREAD | FWRITE, 1, 0, 2808*ca3e8d88SDave Plauger kcred, NULL); 2809*ca3e8d88SDave Plauger VN_RELE(dumpbuf.cdev_vp); 2810*ca3e8d88SDave Plauger dumpbuf.cdev_vp = NULL; 2811*ca3e8d88SDave Plauger } 2812*ca3e8d88SDave Plauger } 28137c478bd9Sstevel@tonic-gate } 28147c478bd9Sstevel@tonic-gate 28157c478bd9Sstevel@tonic-gate /* 28167c478bd9Sstevel@tonic-gate * This function is called whenever the memory size, as represented 28177c478bd9Sstevel@tonic-gate * by the phys_install list, changes. 28187c478bd9Sstevel@tonic-gate */ 28197c478bd9Sstevel@tonic-gate void 28207c478bd9Sstevel@tonic-gate dump_resize() 28217c478bd9Sstevel@tonic-gate { 28227c478bd9Sstevel@tonic-gate mutex_enter(&dump_lock); 28237c478bd9Sstevel@tonic-gate dumphdr_init(); 28247c478bd9Sstevel@tonic-gate dumpbuf_resize(); 2825*ca3e8d88SDave Plauger dump_update_clevel(); 28267c478bd9Sstevel@tonic-gate mutex_exit(&dump_lock); 28277c478bd9Sstevel@tonic-gate } 2828e7cbe64fSgw25295 2829e7cbe64fSgw25295 /* 2830e7cbe64fSgw25295 * This function allows for dynamic resizing of a dump area. It assumes that 2831e7cbe64fSgw25295 * the underlying device has update its appropriate size(9P). 2832e7cbe64fSgw25295 */ 2833e7cbe64fSgw25295 int 2834e7cbe64fSgw25295 dumpvp_resize() 2835e7cbe64fSgw25295 { 2836e7cbe64fSgw25295 int error; 2837e7cbe64fSgw25295 vattr_t vattr; 2838e7cbe64fSgw25295 2839e7cbe64fSgw25295 mutex_enter(&dump_lock); 2840e7cbe64fSgw25295 vattr.va_mask = AT_SIZE; 2841e7cbe64fSgw25295 if ((error = VOP_GETATTR(dumpvp, &vattr, 0, kcred, NULL)) != 0) { 2842e7cbe64fSgw25295 mutex_exit(&dump_lock); 2843e7cbe64fSgw25295 return (error); 2844e7cbe64fSgw25295 } 2845e7cbe64fSgw25295 2846e7cbe64fSgw25295 if (error == 0 && vattr.va_size < 2 * DUMP_LOGSIZE + DUMP_ERPTSIZE) { 2847e7cbe64fSgw25295 mutex_exit(&dump_lock); 2848e7cbe64fSgw25295 return (ENOSPC); 2849e7cbe64fSgw25295 } 2850e7cbe64fSgw25295 2851e7cbe64fSgw25295 dumpvp_size = vattr.va_size & -DUMP_OFFSET; 2852e7cbe64fSgw25295 mutex_exit(&dump_lock); 2853e7cbe64fSgw25295 return (0); 2854e7cbe64fSgw25295 } 2855