128fb27baSJustin T. Gibbs /* 228fb27baSJustin T. Gibbs * Copyright (c) 1997, 1998 Kenneth D. Merry. 328fb27baSJustin T. Gibbs * All rights reserved. 428fb27baSJustin T. Gibbs * 528fb27baSJustin T. Gibbs * Redistribution and use in source and binary forms, with or without 628fb27baSJustin T. Gibbs * modification, are permitted provided that the following conditions 728fb27baSJustin T. Gibbs * are met: 828fb27baSJustin T. Gibbs * 1. Redistributions of source code must retain the above copyright 928fb27baSJustin T. Gibbs * notice, this list of conditions and the following disclaimer. 1028fb27baSJustin T. Gibbs * 2. Redistributions in binary form must reproduce the above copyright 1128fb27baSJustin T. Gibbs * notice, this list of conditions and the following disclaimer in the 1228fb27baSJustin T. Gibbs * documentation and/or other materials provided with the distribution. 1328fb27baSJustin T. Gibbs * 3. The name of the author may not be used to endorse or promote products 1428fb27baSJustin T. Gibbs * derived from this software without specific prior written permission. 1528fb27baSJustin T. Gibbs * 1628fb27baSJustin T. Gibbs * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 1728fb27baSJustin T. Gibbs * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 1828fb27baSJustin T. Gibbs * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 1928fb27baSJustin T. Gibbs * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 2028fb27baSJustin T. Gibbs * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 2128fb27baSJustin T. Gibbs * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 2228fb27baSJustin T. Gibbs * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 2328fb27baSJustin T. Gibbs * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 2428fb27baSJustin T. Gibbs * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 2528fb27baSJustin T. Gibbs * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 2628fb27baSJustin T. Gibbs * SUCH DAMAGE. 2728fb27baSJustin T. Gibbs */ 2828fb27baSJustin T. Gibbs 29e67f5b9fSMatthew Dillon #include <sys/cdefs.h> 30e67f5b9fSMatthew Dillon __FBSDID("$FreeBSD$"); 31e67f5b9fSMatthew Dillon 3228fb27baSJustin T. Gibbs #include <sys/types.h> 3328fb27baSJustin T. Gibbs #include <sys/sysctl.h> 3428fb27baSJustin T. Gibbs #include <sys/errno.h> 3528fb27baSJustin T. Gibbs #include <sys/dkstat.h> 36c4a5ef6eSThomas Moestl #include <sys/queue.h> 3728fb27baSJustin T. Gibbs 38eded794aSKenneth D. Merry #include <ctype.h> 3928fb27baSJustin T. Gibbs #include <err.h> 40c4a5ef6eSThomas Moestl #include <fcntl.h> 41c4a5ef6eSThomas Moestl #include <limits.h> 4228fb27baSJustin T. Gibbs #include <stdio.h> 4328fb27baSJustin T. Gibbs #include <stdlib.h> 4428fb27baSJustin T. Gibbs #include <string.h> 45c4a5ef6eSThomas Moestl #include <stdarg.h> 46c4a5ef6eSThomas Moestl #include <kvm.h> 4728fb27baSJustin T. Gibbs 4828fb27baSJustin T. Gibbs #include "devstat.h" 4928fb27baSJustin T. Gibbs 50c4a5ef6eSThomas Moestl typedef enum { 51c4a5ef6eSThomas Moestl DEVSTAT_ARG_NOTYPE, 52c4a5ef6eSThomas Moestl DEVSTAT_ARG_UINT64, 53884539f7SKenneth D. Merry DEVSTAT_ARG_LD, 54884539f7SKenneth D. Merry DEVSTAT_ARG_SKIP 55c4a5ef6eSThomas Moestl } devstat_arg_type; 56c4a5ef6eSThomas Moestl 5728fb27baSJustin T. Gibbs char devstat_errbuf[DEVSTAT_ERRBUF_SIZE]; 5828fb27baSJustin T. Gibbs 5928fb27baSJustin T. Gibbs /* 6028fb27baSJustin T. Gibbs * Table to match descriptive strings with device types. These are in 6128fb27baSJustin T. Gibbs * order from most common to least common to speed search time. 6228fb27baSJustin T. Gibbs */ 6328fb27baSJustin T. Gibbs struct devstat_match_table match_table[] = { 6428fb27baSJustin T. Gibbs {"da", DEVSTAT_TYPE_DIRECT, DEVSTAT_MATCH_TYPE}, 6528fb27baSJustin T. Gibbs {"cd", DEVSTAT_TYPE_CDROM, DEVSTAT_MATCH_TYPE}, 6628fb27baSJustin T. Gibbs {"scsi", DEVSTAT_TYPE_IF_SCSI, DEVSTAT_MATCH_IF}, 6728fb27baSJustin T. Gibbs {"ide", DEVSTAT_TYPE_IF_IDE, DEVSTAT_MATCH_IF}, 6828fb27baSJustin T. Gibbs {"other", DEVSTAT_TYPE_IF_OTHER, DEVSTAT_MATCH_IF}, 6928fb27baSJustin T. Gibbs {"worm", DEVSTAT_TYPE_WORM, DEVSTAT_MATCH_TYPE}, 7028fb27baSJustin T. Gibbs {"sa", DEVSTAT_TYPE_SEQUENTIAL,DEVSTAT_MATCH_TYPE}, 7128fb27baSJustin T. Gibbs {"pass", DEVSTAT_TYPE_PASS, DEVSTAT_MATCH_PASS}, 7228fb27baSJustin T. Gibbs {"optical", DEVSTAT_TYPE_OPTICAL, DEVSTAT_MATCH_TYPE}, 7328fb27baSJustin T. Gibbs {"array", DEVSTAT_TYPE_STORARRAY, DEVSTAT_MATCH_TYPE}, 7428fb27baSJustin T. Gibbs {"changer", DEVSTAT_TYPE_CHANGER, DEVSTAT_MATCH_TYPE}, 7528fb27baSJustin T. Gibbs {"scanner", DEVSTAT_TYPE_SCANNER, DEVSTAT_MATCH_TYPE}, 7628fb27baSJustin T. Gibbs {"printer", DEVSTAT_TYPE_PRINTER, DEVSTAT_MATCH_TYPE}, 7728fb27baSJustin T. Gibbs {"floppy", DEVSTAT_TYPE_FLOPPY, DEVSTAT_MATCH_TYPE}, 7828fb27baSJustin T. Gibbs {"proc", DEVSTAT_TYPE_PROCESSOR, DEVSTAT_MATCH_TYPE}, 7928fb27baSJustin T. Gibbs {"comm", DEVSTAT_TYPE_COMM, DEVSTAT_MATCH_TYPE}, 8028fb27baSJustin T. Gibbs {"enclosure", DEVSTAT_TYPE_ENCLOSURE, DEVSTAT_MATCH_TYPE}, 8128fb27baSJustin T. Gibbs {NULL, 0, 0} 8228fb27baSJustin T. Gibbs }; 8328fb27baSJustin T. Gibbs 84c4a5ef6eSThomas Moestl struct devstat_args { 85c4a5ef6eSThomas Moestl devstat_metric metric; 86c4a5ef6eSThomas Moestl devstat_arg_type argtype; 87c4a5ef6eSThomas Moestl } devstat_arg_list[] = { 88c4a5ef6eSThomas Moestl { DSM_NONE, DEVSTAT_ARG_NOTYPE }, 89c4a5ef6eSThomas Moestl { DSM_TOTAL_BYTES, DEVSTAT_ARG_UINT64 }, 90c4a5ef6eSThomas Moestl { DSM_TOTAL_BYTES_READ, DEVSTAT_ARG_UINT64 }, 91c4a5ef6eSThomas Moestl { DSM_TOTAL_BYTES_WRITE, DEVSTAT_ARG_UINT64 }, 92c4a5ef6eSThomas Moestl { DSM_TOTAL_TRANSFERS, DEVSTAT_ARG_UINT64 }, 93c4a5ef6eSThomas Moestl { DSM_TOTAL_TRANSFERS_READ, DEVSTAT_ARG_UINT64 }, 94c4a5ef6eSThomas Moestl { DSM_TOTAL_TRANSFERS_WRITE, DEVSTAT_ARG_UINT64 }, 95c4a5ef6eSThomas Moestl { DSM_TOTAL_TRANSFERS_OTHER, DEVSTAT_ARG_UINT64 }, 96c4a5ef6eSThomas Moestl { DSM_TOTAL_BLOCKS, DEVSTAT_ARG_UINT64 }, 97c4a5ef6eSThomas Moestl { DSM_TOTAL_BLOCKS_READ, DEVSTAT_ARG_UINT64 }, 98c4a5ef6eSThomas Moestl { DSM_TOTAL_BLOCKS_WRITE, DEVSTAT_ARG_UINT64 }, 99c4a5ef6eSThomas Moestl { DSM_KB_PER_TRANSFER, DEVSTAT_ARG_LD }, 100c4a5ef6eSThomas Moestl { DSM_KB_PER_TRANSFER_READ, DEVSTAT_ARG_LD }, 101c4a5ef6eSThomas Moestl { DSM_KB_PER_TRANSFER_WRITE, DEVSTAT_ARG_LD }, 102c4a5ef6eSThomas Moestl { DSM_TRANSFERS_PER_SECOND, DEVSTAT_ARG_LD }, 103c4a5ef6eSThomas Moestl { DSM_TRANSFERS_PER_SECOND_READ, DEVSTAT_ARG_LD }, 104c4a5ef6eSThomas Moestl { DSM_TRANSFERS_PER_SECOND_WRITE, DEVSTAT_ARG_LD }, 105c4a5ef6eSThomas Moestl { DSM_TRANSFERS_PER_SECOND_OTHER, DEVSTAT_ARG_LD }, 106c4a5ef6eSThomas Moestl { DSM_MB_PER_SECOND, DEVSTAT_ARG_LD }, 107c4a5ef6eSThomas Moestl { DSM_MB_PER_SECOND_READ, DEVSTAT_ARG_LD }, 108c4a5ef6eSThomas Moestl { DSM_MB_PER_SECOND_WRITE, DEVSTAT_ARG_LD }, 109c4a5ef6eSThomas Moestl { DSM_BLOCKS_PER_SECOND, DEVSTAT_ARG_LD }, 110c4a5ef6eSThomas Moestl { DSM_BLOCKS_PER_SECOND_READ, DEVSTAT_ARG_LD }, 111c4a5ef6eSThomas Moestl { DSM_BLOCKS_PER_SECOND_WRITE, DEVSTAT_ARG_LD }, 112c4a5ef6eSThomas Moestl { DSM_MS_PER_TRANSACTION, DEVSTAT_ARG_LD }, 113c4a5ef6eSThomas Moestl { DSM_MS_PER_TRANSACTION_READ, DEVSTAT_ARG_LD }, 114884539f7SKenneth D. Merry { DSM_MS_PER_TRANSACTION_WRITE, DEVSTAT_ARG_LD }, 115884539f7SKenneth D. Merry { DSM_SKIP, DEVSTAT_ARG_SKIP } 116c4a5ef6eSThomas Moestl }; 117c4a5ef6eSThomas Moestl 118c3508206SKenneth D. Merry static const char *namelist[] = { 119c4a5ef6eSThomas Moestl #define X_NUMDEVS 0 120c4a5ef6eSThomas Moestl "_devstat_num_devs", 121c4a5ef6eSThomas Moestl #define X_GENERATION 1 122c4a5ef6eSThomas Moestl "_devstat_generation", 123c4a5ef6eSThomas Moestl #define X_VERSION 2 124c4a5ef6eSThomas Moestl "_devstat_version", 125c4a5ef6eSThomas Moestl #define X_DEVICE_STATQ 3 126c4a5ef6eSThomas Moestl "_device_statq", 127c4a5ef6eSThomas Moestl #define X_END 4 128c4a5ef6eSThomas Moestl }; 129c4a5ef6eSThomas Moestl 13028fb27baSJustin T. Gibbs /* 13128fb27baSJustin T. Gibbs * Local function declarations. 13228fb27baSJustin T. Gibbs */ 13328fb27baSJustin T. Gibbs static int compare_select(const void *arg1, const void *arg2); 134c4a5ef6eSThomas Moestl static int readkmem(kvm_t *kd, unsigned long addr, void *buf, size_t nbytes); 135c3508206SKenneth D. Merry static int readkmem_nl(kvm_t *kd, const char *name, void *buf, size_t nbytes); 136c4a5ef6eSThomas Moestl static char *get_devstat_kvm(kvm_t *kd); 137c4a5ef6eSThomas Moestl 138c4a5ef6eSThomas Moestl #define KREADNL(kd, var, val) \ 139c4a5ef6eSThomas Moestl readkmem_nl(kd, namelist[var], &val, sizeof(val)) 14028fb27baSJustin T. Gibbs 14128fb27baSJustin T. Gibbs int 142c4a5ef6eSThomas Moestl devstat_getnumdevs(kvm_t *kd) 14328fb27baSJustin T. Gibbs { 14428fb27baSJustin T. Gibbs size_t numdevsize; 14528fb27baSJustin T. Gibbs int numdevs; 146c3508206SKenneth D. Merry const char *func_name = "devstat_getnumdevs"; 14728fb27baSJustin T. Gibbs 14828fb27baSJustin T. Gibbs numdevsize = sizeof(int); 14928fb27baSJustin T. Gibbs 15028fb27baSJustin T. Gibbs /* 15128fb27baSJustin T. Gibbs * Find out how many devices we have in the system. 15228fb27baSJustin T. Gibbs */ 153c4a5ef6eSThomas Moestl if (kd == NULL) { 15428fb27baSJustin T. Gibbs if (sysctlbyname("kern.devstat.numdevs", &numdevs, 15528fb27baSJustin T. Gibbs &numdevsize, NULL, 0) == -1) { 156c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 157c4a5ef6eSThomas Moestl "%s: error getting number of devices\n" 158c4a5ef6eSThomas Moestl "%s: %s", func_name, func_name, 159c4a5ef6eSThomas Moestl strerror(errno)); 16028fb27baSJustin T. Gibbs return(-1); 16128fb27baSJustin T. Gibbs } else 16228fb27baSJustin T. Gibbs return(numdevs); 163c4a5ef6eSThomas Moestl } else { 164c3508206SKenneth D. Merry 165c4a5ef6eSThomas Moestl if (KREADNL(kd, X_NUMDEVS, numdevs) == -1) 166c4a5ef6eSThomas Moestl return(-1); 167c4a5ef6eSThomas Moestl else 168c4a5ef6eSThomas Moestl return(numdevs); 169c4a5ef6eSThomas Moestl } 17028fb27baSJustin T. Gibbs } 17128fb27baSJustin T. Gibbs 17228fb27baSJustin T. Gibbs /* 17328fb27baSJustin T. Gibbs * This is an easy way to get the generation number, but the generation is 17428fb27baSJustin T. Gibbs * supplied in a more atmoic manner by the kern.devstat.all sysctl. 17528fb27baSJustin T. Gibbs * Because this generation sysctl is separate from the statistics sysctl, 17628fb27baSJustin T. Gibbs * the device list and the generation could change between the time that 17728fb27baSJustin T. Gibbs * this function is called and the device list is retreived. 17828fb27baSJustin T. Gibbs */ 179bcc6a3daSKenneth D. Merry long 180c4a5ef6eSThomas Moestl devstat_getgeneration(kvm_t *kd) 18128fb27baSJustin T. Gibbs { 18228fb27baSJustin T. Gibbs size_t gensize; 183bcc6a3daSKenneth D. Merry long generation; 184c3508206SKenneth D. Merry const char *func_name = "devstat_getgeneration"; 18528fb27baSJustin T. Gibbs 186bcc6a3daSKenneth D. Merry gensize = sizeof(long); 18728fb27baSJustin T. Gibbs 18828fb27baSJustin T. Gibbs /* 18928fb27baSJustin T. Gibbs * Get the current generation number. 19028fb27baSJustin T. Gibbs */ 191c4a5ef6eSThomas Moestl if (kd == NULL) { 19228fb27baSJustin T. Gibbs if (sysctlbyname("kern.devstat.generation", &generation, 19328fb27baSJustin T. Gibbs &gensize, NULL, 0) == -1) { 194c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 195c4a5ef6eSThomas Moestl "%s: error getting devstat generation\n%s: %s", 196c4a5ef6eSThomas Moestl func_name, func_name, strerror(errno)); 19728fb27baSJustin T. Gibbs return(-1); 19828fb27baSJustin T. Gibbs } else 19928fb27baSJustin T. Gibbs return(generation); 200c4a5ef6eSThomas Moestl } else { 201c4a5ef6eSThomas Moestl if (KREADNL(kd, X_GENERATION, generation) == -1) 202c4a5ef6eSThomas Moestl return(-1); 203c4a5ef6eSThomas Moestl else 204c4a5ef6eSThomas Moestl return(generation); 205c4a5ef6eSThomas Moestl } 20628fb27baSJustin T. Gibbs } 20728fb27baSJustin T. Gibbs 20828fb27baSJustin T. Gibbs /* 20928fb27baSJustin T. Gibbs * Get the current devstat version. The return value of this function 21028fb27baSJustin T. Gibbs * should be compared with DEVSTAT_VERSION, which is defined in 21128fb27baSJustin T. Gibbs * sys/devicestat.h. This will enable userland programs to determine 21228fb27baSJustin T. Gibbs * whether they are out of sync with the kernel. 21328fb27baSJustin T. Gibbs */ 21428fb27baSJustin T. Gibbs int 215c4a5ef6eSThomas Moestl devstat_getversion(kvm_t *kd) 21628fb27baSJustin T. Gibbs { 21728fb27baSJustin T. Gibbs size_t versize; 21828fb27baSJustin T. Gibbs int version; 219c3508206SKenneth D. Merry const char *func_name = "devstat_getversion"; 22028fb27baSJustin T. Gibbs 22128fb27baSJustin T. Gibbs versize = sizeof(int); 22228fb27baSJustin T. Gibbs 22328fb27baSJustin T. Gibbs /* 22428fb27baSJustin T. Gibbs * Get the current devstat version. 22528fb27baSJustin T. Gibbs */ 226c4a5ef6eSThomas Moestl if (kd == NULL) { 22728fb27baSJustin T. Gibbs if (sysctlbyname("kern.devstat.version", &version, &versize, 22828fb27baSJustin T. Gibbs NULL, 0) == -1) { 229c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 230c4a5ef6eSThomas Moestl "%s: error getting devstat version\n%s: %s", 231c4a5ef6eSThomas Moestl func_name, func_name, strerror(errno)); 23228fb27baSJustin T. Gibbs return(-1); 23328fb27baSJustin T. Gibbs } else 23428fb27baSJustin T. Gibbs return(version); 235c4a5ef6eSThomas Moestl } else { 236c4a5ef6eSThomas Moestl if (KREADNL(kd, X_VERSION, version) == -1) 237c4a5ef6eSThomas Moestl return(-1); 238c4a5ef6eSThomas Moestl else 239c4a5ef6eSThomas Moestl return(version); 240c4a5ef6eSThomas Moestl } 24128fb27baSJustin T. Gibbs } 24228fb27baSJustin T. Gibbs 24328fb27baSJustin T. Gibbs /* 24428fb27baSJustin T. Gibbs * Check the devstat version we know about against the devstat version the 24528fb27baSJustin T. Gibbs * kernel knows about. If they don't match, print an error into the 24628fb27baSJustin T. Gibbs * devstat error buffer, and return -1. If they match, return 0. 24728fb27baSJustin T. Gibbs */ 24828fb27baSJustin T. Gibbs int 249c4a5ef6eSThomas Moestl devstat_checkversion(kvm_t *kd) 25028fb27baSJustin T. Gibbs { 251c3508206SKenneth D. Merry const char *func_name = "devstat_checkversion"; 2526d3e1426SBrian Somers int buflen, res, retval = 0, version; 25328fb27baSJustin T. Gibbs 254c4a5ef6eSThomas Moestl version = devstat_getversion(kd); 255eded794aSKenneth D. Merry 256eded794aSKenneth D. Merry if (version != DEVSTAT_VERSION) { 257eded794aSKenneth D. Merry /* 2586d3e1426SBrian Somers * If getversion() returns an error (i.e. -1), then it 259eded794aSKenneth D. Merry * has printed an error message in the buffer. Therefore, 260eded794aSKenneth D. Merry * we need to add a \n to the end of that message before we 261eded794aSKenneth D. Merry * print our own message in the buffer. 262eded794aSKenneth D. Merry */ 2636d3e1426SBrian Somers if (version == -1) 264eded794aSKenneth D. Merry buflen = strlen(devstat_errbuf); 2656d3e1426SBrian Somers else 2666d3e1426SBrian Somers buflen = 0; 267eded794aSKenneth D. Merry 2686d3e1426SBrian Somers res = snprintf(devstat_errbuf + buflen, 2696d3e1426SBrian Somers DEVSTAT_ERRBUF_SIZE - buflen, 2706d3e1426SBrian Somers "%s%s: userland devstat version %d is not " 2714fb9d384SKenneth D. Merry "the same as the kernel\n%s: devstat " 2724fb9d384SKenneth D. Merry "version %d\n", version == -1 ? "\n" : "", 2734fb9d384SKenneth D. Merry func_name, DEVSTAT_VERSION, func_name, version); 27428fb27baSJustin T. Gibbs 2756d3e1426SBrian Somers if (res < 0) 2766d3e1426SBrian Somers devstat_errbuf[buflen] = '\0'; 277eded794aSKenneth D. Merry 2786d3e1426SBrian Somers buflen = strlen(devstat_errbuf); 279eded794aSKenneth D. Merry if (version < DEVSTAT_VERSION) 2806d3e1426SBrian Somers res = snprintf(devstat_errbuf + buflen, 2816d3e1426SBrian Somers DEVSTAT_ERRBUF_SIZE - buflen, 2824fb9d384SKenneth D. Merry "%s: libdevstat newer than kernel\n", 2834fb9d384SKenneth D. Merry func_name); 28428fb27baSJustin T. Gibbs else 2856d3e1426SBrian Somers res = snprintf(devstat_errbuf + buflen, 2866d3e1426SBrian Somers DEVSTAT_ERRBUF_SIZE - buflen, 2874fb9d384SKenneth D. Merry "%s: kernel newer than libdevstat\n", 2884fb9d384SKenneth D. Merry func_name); 28928fb27baSJustin T. Gibbs 2906d3e1426SBrian Somers if (res < 0) 2916d3e1426SBrian Somers devstat_errbuf[buflen] = '\0'; 29228fb27baSJustin T. Gibbs 29328fb27baSJustin T. Gibbs retval = -1; 29428fb27baSJustin T. Gibbs } 29528fb27baSJustin T. Gibbs 29628fb27baSJustin T. Gibbs return(retval); 29728fb27baSJustin T. Gibbs } 29828fb27baSJustin T. Gibbs 29928fb27baSJustin T. Gibbs /* 30028fb27baSJustin T. Gibbs * Get the current list of devices and statistics, and the current 30128fb27baSJustin T. Gibbs * generation number. 30228fb27baSJustin T. Gibbs * 30328fb27baSJustin T. Gibbs * Return values: 30428fb27baSJustin T. Gibbs * -1 -- error 30528fb27baSJustin T. Gibbs * 0 -- device list is unchanged 30628fb27baSJustin T. Gibbs * 1 -- device list has changed 30728fb27baSJustin T. Gibbs */ 30828fb27baSJustin T. Gibbs int 309c4a5ef6eSThomas Moestl devstat_getdevs(kvm_t *kd, struct statinfo *stats) 31028fb27baSJustin T. Gibbs { 31128fb27baSJustin T. Gibbs int error; 31228fb27baSJustin T. Gibbs size_t dssize; 313bcc6a3daSKenneth D. Merry int oldnumdevs; 314bcc6a3daSKenneth D. Merry long oldgeneration; 31528fb27baSJustin T. Gibbs int retval = 0; 31628fb27baSJustin T. Gibbs struct devinfo *dinfo; 317c3508206SKenneth D. Merry const char *func_name = "devstat_getdevs"; 31828fb27baSJustin T. Gibbs 31928fb27baSJustin T. Gibbs dinfo = stats->dinfo; 32028fb27baSJustin T. Gibbs 32128fb27baSJustin T. Gibbs if (dinfo == NULL) { 322c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 323c4a5ef6eSThomas Moestl "%s: stats->dinfo was NULL", func_name); 32428fb27baSJustin T. Gibbs return(-1); 32528fb27baSJustin T. Gibbs } 32628fb27baSJustin T. Gibbs 32728fb27baSJustin T. Gibbs oldnumdevs = dinfo->numdevs; 32828fb27baSJustin T. Gibbs oldgeneration = dinfo->generation; 32928fb27baSJustin T. Gibbs 330c4a5ef6eSThomas Moestl /* Get the current time when we get the stats */ 331c4a5ef6eSThomas Moestl gettimeofday(&stats->busy_time, NULL); 332c4a5ef6eSThomas Moestl 333c4a5ef6eSThomas Moestl if (kd == NULL) { 334c4a5ef6eSThomas Moestl /* If this is our first time through, mem_ptr will be null. */ 33528fb27baSJustin T. Gibbs if (dinfo->mem_ptr == NULL) { 33628fb27baSJustin T. Gibbs /* 33728fb27baSJustin T. Gibbs * Get the number of devices. If it's negative, it's an 33828fb27baSJustin T. Gibbs * error. Don't bother setting the error string, since 33928fb27baSJustin T. Gibbs * getnumdevs() has already done that for us. 34028fb27baSJustin T. Gibbs */ 34128fb27baSJustin T. Gibbs if ((dinfo->numdevs = getnumdevs()) < 0) 34228fb27baSJustin T. Gibbs return(-1); 34328fb27baSJustin T. Gibbs 34428fb27baSJustin T. Gibbs /* 345c4a5ef6eSThomas Moestl * The kern.devstat.all sysctl returns the current 346c4a5ef6eSThomas Moestl * generation number, as well as all the devices. 347c4a5ef6eSThomas Moestl * So we need four bytes more. 34828fb27baSJustin T. Gibbs */ 349c4a5ef6eSThomas Moestl dssize = (dinfo->numdevs * sizeof(struct devstat)) + 350c4a5ef6eSThomas Moestl sizeof(long); 35128fb27baSJustin T. Gibbs dinfo->mem_ptr = (u_int8_t *)malloc(dssize); 35228fb27baSJustin T. Gibbs } else 353c4a5ef6eSThomas Moestl dssize = (dinfo->numdevs * sizeof(struct devstat)) + 354c4a5ef6eSThomas Moestl sizeof(long); 35528fb27baSJustin T. Gibbs 35628fb27baSJustin T. Gibbs /* 35728fb27baSJustin T. Gibbs * Request all of the devices. We only really allow for one 358c4a5ef6eSThomas Moestl * ENOMEM failure. It would, of course, be possible to just go 359c4a5ef6eSThomas Moestl * in a loop and keep reallocing the device structure until we 360c4a5ef6eSThomas Moestl * don't get ENOMEM back. I'm not sure it's worth it, though. 361c4a5ef6eSThomas Moestl * If devices are being added to the system that quickly, maybe 362c4a5ef6eSThomas Moestl * the user can just wait until all devices are added. 36328fb27baSJustin T. Gibbs */ 36428fb27baSJustin T. Gibbs if ((error = sysctlbyname("kern.devstat.all", dinfo->mem_ptr, 36528fb27baSJustin T. Gibbs &dssize, NULL, 0)) == -1) { 36628fb27baSJustin T. Gibbs /* 36728fb27baSJustin T. Gibbs * If we get ENOMEM back, that means that there are 36828fb27baSJustin T. Gibbs * more devices now, so we need to allocate more 36928fb27baSJustin T. Gibbs * space for the device array. 37028fb27baSJustin T. Gibbs */ 37128fb27baSJustin T. Gibbs if (errno == ENOMEM) { 37228fb27baSJustin T. Gibbs /* 373c4a5ef6eSThomas Moestl * No need to set the error string here, 374c4a5ef6eSThomas Moestl * getnumdevs() will do that if it fails. 37528fb27baSJustin T. Gibbs */ 37628fb27baSJustin T. Gibbs if ((dinfo->numdevs = getnumdevs()) < 0) 37728fb27baSJustin T. Gibbs return(-1); 37828fb27baSJustin T. Gibbs 379c4a5ef6eSThomas Moestl dssize = (dinfo->numdevs * 380c4a5ef6eSThomas Moestl sizeof(struct devstat)) + sizeof(long); 381c4a5ef6eSThomas Moestl dinfo->mem_ptr = (u_int8_t *) 382c4a5ef6eSThomas Moestl realloc(dinfo->mem_ptr, dssize); 38328fb27baSJustin T. Gibbs if ((error = sysctlbyname("kern.devstat.all", 38428fb27baSJustin T. Gibbs dinfo->mem_ptr, &dssize, NULL, 0)) == -1) { 385c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, 386c4a5ef6eSThomas Moestl sizeof(devstat_errbuf), 387c4a5ef6eSThomas Moestl "%s: error getting device " 388c4a5ef6eSThomas Moestl "stats\n%s: %s", func_name, 389c4a5ef6eSThomas Moestl func_name, strerror(errno)); 39028fb27baSJustin T. Gibbs return(-1); 39128fb27baSJustin T. Gibbs } 39228fb27baSJustin T. Gibbs } else { 393c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 39428fb27baSJustin T. Gibbs "%s: error getting device stats\n" 39528fb27baSJustin T. Gibbs "%s: %s", func_name, func_name, 39628fb27baSJustin T. Gibbs strerror(errno)); 39728fb27baSJustin T. Gibbs return(-1); 39828fb27baSJustin T. Gibbs } 39928fb27baSJustin T. Gibbs } 40028fb27baSJustin T. Gibbs 401c4a5ef6eSThomas Moestl } else { 402c4a5ef6eSThomas Moestl /* 403c4a5ef6eSThomas Moestl * This is of course non-atomic, but since we are working 404c4a5ef6eSThomas Moestl * on a core dump, the generation is unlikely to change 405c4a5ef6eSThomas Moestl */ 406c4a5ef6eSThomas Moestl if ((dinfo->numdevs = getnumdevs()) == -1) 407c4a5ef6eSThomas Moestl return(-1); 408c4a5ef6eSThomas Moestl if ((dinfo->mem_ptr = get_devstat_kvm(kd)) == NULL) 409c4a5ef6eSThomas Moestl return(-1); 410c4a5ef6eSThomas Moestl } 41128fb27baSJustin T. Gibbs /* 41228fb27baSJustin T. Gibbs * The sysctl spits out the generation as the first four bytes, 41328fb27baSJustin T. Gibbs * then all of the device statistics structures. 41428fb27baSJustin T. Gibbs */ 415bcc6a3daSKenneth D. Merry dinfo->generation = *(long *)dinfo->mem_ptr; 41628fb27baSJustin T. Gibbs 41728fb27baSJustin T. Gibbs /* 41828fb27baSJustin T. Gibbs * If the generation has changed, and if the current number of 41928fb27baSJustin T. Gibbs * devices is not the same as the number of devices recorded in the 42028fb27baSJustin T. Gibbs * devinfo structure, it is likely that the device list has shrunk. 42128fb27baSJustin T. Gibbs * The reason that it is likely that the device list has shrunk in 42228fb27baSJustin T. Gibbs * this case is that if the device list has grown, the sysctl above 42328fb27baSJustin T. Gibbs * will return an ENOMEM error, and we will reset the number of 42428fb27baSJustin T. Gibbs * devices and reallocate the device array. If the second sysctl 42528fb27baSJustin T. Gibbs * fails, we will return an error and therefore never get to this 42628fb27baSJustin T. Gibbs * point. If the device list has shrunk, the sysctl will not 42728fb27baSJustin T. Gibbs * return an error since we have more space allocated than is 42828fb27baSJustin T. Gibbs * necessary. So, in the shrinkage case, we catch it here and 42928fb27baSJustin T. Gibbs * reallocate the array so that we don't use any more space than is 43028fb27baSJustin T. Gibbs * necessary. 43128fb27baSJustin T. Gibbs */ 43228fb27baSJustin T. Gibbs if (oldgeneration != dinfo->generation) { 43328fb27baSJustin T. Gibbs if (getnumdevs() != dinfo->numdevs) { 43428fb27baSJustin T. Gibbs if ((dinfo->numdevs = getnumdevs()) < 0) 43528fb27baSJustin T. Gibbs return(-1); 43628fb27baSJustin T. Gibbs dssize = (dinfo->numdevs * sizeof(struct devstat)) + 437bcc6a3daSKenneth D. Merry sizeof(long); 43828fb27baSJustin T. Gibbs dinfo->mem_ptr = (u_int8_t *)realloc(dinfo->mem_ptr, 43928fb27baSJustin T. Gibbs dssize); 44028fb27baSJustin T. Gibbs } 44128fb27baSJustin T. Gibbs retval = 1; 44228fb27baSJustin T. Gibbs } 44328fb27baSJustin T. Gibbs 444bcc6a3daSKenneth D. Merry dinfo->devices = (struct devstat *)(dinfo->mem_ptr + sizeof(long)); 44528fb27baSJustin T. Gibbs 44628fb27baSJustin T. Gibbs return(retval); 44728fb27baSJustin T. Gibbs } 44828fb27baSJustin T. Gibbs 44928fb27baSJustin T. Gibbs /* 45028fb27baSJustin T. Gibbs * selectdevs(): 45128fb27baSJustin T. Gibbs * 45228fb27baSJustin T. Gibbs * Devices are selected/deselected based upon the following criteria: 45328fb27baSJustin T. Gibbs * - devices specified by the user on the command line 45428fb27baSJustin T. Gibbs * - devices matching any device type expressions given on the command line 45528fb27baSJustin T. Gibbs * - devices with the highest I/O, if 'top' mode is enabled 45628fb27baSJustin T. Gibbs * - the first n unselected devices in the device list, if maxshowdevs 45728fb27baSJustin T. Gibbs * devices haven't already been selected and if the user has not 45828fb27baSJustin T. Gibbs * specified any devices on the command line and if we're in "add" mode. 45928fb27baSJustin T. Gibbs * 46028fb27baSJustin T. Gibbs * Input parameters: 46128fb27baSJustin T. Gibbs * - device selection list (dev_select) 46228fb27baSJustin T. Gibbs * - current number of devices selected (num_selected) 46328fb27baSJustin T. Gibbs * - total number of devices in the selection list (num_selections) 46428fb27baSJustin T. Gibbs * - devstat generation as of the last time selectdevs() was called 46528fb27baSJustin T. Gibbs * (select_generation) 46628fb27baSJustin T. Gibbs * - current devstat generation (current_generation) 46728fb27baSJustin T. Gibbs * - current list of devices and statistics (devices) 46828fb27baSJustin T. Gibbs * - number of devices in the current device list (numdevs) 46928fb27baSJustin T. Gibbs * - compiled version of the command line device type arguments (matches) 47028fb27baSJustin T. Gibbs * - This is optional. If the number of devices is 0, this will be ignored. 47128fb27baSJustin T. Gibbs * - The matching code pays attention to the current selection mode. So 47228fb27baSJustin T. Gibbs * if you pass in a matching expression, it will be evaluated based 47328fb27baSJustin T. Gibbs * upon the selection mode that is passed in. See below for details. 47428fb27baSJustin T. Gibbs * - number of device type matching expressions (num_matches) 47528fb27baSJustin T. Gibbs * - Set to 0 to disable the matching code. 47628fb27baSJustin T. Gibbs * - list of devices specified on the command line by the user (dev_selections) 47728fb27baSJustin T. Gibbs * - number of devices selected on the command line by the user 47828fb27baSJustin T. Gibbs * (num_dev_selections) 47928fb27baSJustin T. Gibbs * - Our selection mode. There are four different selection modes: 48028fb27baSJustin T. Gibbs * - add mode. (DS_SELECT_ADD) Any devices matching devices explicitly 48128fb27baSJustin T. Gibbs * selected by the user or devices matching a pattern given by the 48228fb27baSJustin T. Gibbs * user will be selected in addition to devices that are already 48328fb27baSJustin T. Gibbs * selected. Additional devices will be selected, up to maxshowdevs 48428fb27baSJustin T. Gibbs * number of devices. 48528fb27baSJustin T. Gibbs * - only mode. (DS_SELECT_ONLY) Only devices matching devices 48628fb27baSJustin T. Gibbs * explicitly given by the user or devices matching a pattern 48728fb27baSJustin T. Gibbs * given by the user will be selected. No other devices will be 48828fb27baSJustin T. Gibbs * selected. 48928fb27baSJustin T. Gibbs * - addonly mode. (DS_SELECT_ADDONLY) This is similar to add and 49028fb27baSJustin T. Gibbs * only. Basically, this will not de-select any devices that are 49128fb27baSJustin T. Gibbs * current selected, as only mode would, but it will also not 49228fb27baSJustin T. Gibbs * gratuitously select up to maxshowdevs devices as add mode would. 49328fb27baSJustin T. Gibbs * - remove mode. (DS_SELECT_REMOVE) Any devices matching devices 49428fb27baSJustin T. Gibbs * explicitly selected by the user or devices matching a pattern 49528fb27baSJustin T. Gibbs * given by the user will be de-selected. 49628fb27baSJustin T. Gibbs * - maximum number of devices we can select (maxshowdevs) 49728fb27baSJustin T. Gibbs * - flag indicating whether or not we're in 'top' mode (perf_select) 49828fb27baSJustin T. Gibbs * 49928fb27baSJustin T. Gibbs * Output data: 50028fb27baSJustin T. Gibbs * - the device selection list may be modified and passed back out 50128fb27baSJustin T. Gibbs * - the number of devices selected and the total number of items in the 50228fb27baSJustin T. Gibbs * device selection list may be changed 50328fb27baSJustin T. Gibbs * - the selection generation may be changed to match the current generation 50428fb27baSJustin T. Gibbs * 50528fb27baSJustin T. Gibbs * Return values: 50628fb27baSJustin T. Gibbs * -1 -- error 50728fb27baSJustin T. Gibbs * 0 -- selected devices are unchanged 50828fb27baSJustin T. Gibbs * 1 -- selected devices changed 50928fb27baSJustin T. Gibbs */ 51028fb27baSJustin T. Gibbs int 511c4a5ef6eSThomas Moestl devstat_selectdevs(struct device_selection **dev_select, int *num_selected, 512bcc6a3daSKenneth D. Merry int *num_selections, long *select_generation, 513c4a5ef6eSThomas Moestl long current_generation, struct devstat *devices, 514c4a5ef6eSThomas Moestl int numdevs, struct devstat_match *matches, int num_matches, 51528fb27baSJustin T. Gibbs char **dev_selections, int num_dev_selections, 516c4a5ef6eSThomas Moestl devstat_select_mode select_mode, int maxshowdevs, 517c4a5ef6eSThomas Moestl int perf_select) 51828fb27baSJustin T. Gibbs { 519be04b6d1SDavid E. O'Brien int i, j, k; 52028fb27baSJustin T. Gibbs int init_selections = 0, init_selected_var = 0; 52128fb27baSJustin T. Gibbs struct device_selection *old_dev_select = NULL; 52228fb27baSJustin T. Gibbs int old_num_selections = 0, old_num_selected; 52328fb27baSJustin T. Gibbs int selection_number = 0; 52428fb27baSJustin T. Gibbs int changed = 0, found = 0; 52528fb27baSJustin T. Gibbs 52628fb27baSJustin T. Gibbs if ((dev_select == NULL) || (devices == NULL) || (numdevs <= 0)) 52728fb27baSJustin T. Gibbs return(-1); 52828fb27baSJustin T. Gibbs 52928fb27baSJustin T. Gibbs /* 53028fb27baSJustin T. Gibbs * We always want to make sure that we have as many dev_select 53128fb27baSJustin T. Gibbs * entries as there are devices. 53228fb27baSJustin T. Gibbs */ 53328fb27baSJustin T. Gibbs /* 53428fb27baSJustin T. Gibbs * In this case, we haven't selected devices before. 53528fb27baSJustin T. Gibbs */ 53628fb27baSJustin T. Gibbs if (*dev_select == NULL) { 53728fb27baSJustin T. Gibbs *dev_select = (struct device_selection *)malloc(numdevs * 53828fb27baSJustin T. Gibbs sizeof(struct device_selection)); 53928fb27baSJustin T. Gibbs *select_generation = current_generation; 54028fb27baSJustin T. Gibbs init_selections = 1; 54128fb27baSJustin T. Gibbs changed = 1; 54228fb27baSJustin T. Gibbs /* 54328fb27baSJustin T. Gibbs * In this case, we have selected devices before, but the device 54428fb27baSJustin T. Gibbs * list has changed since we last selected devices, so we need to 54528fb27baSJustin T. Gibbs * either enlarge or reduce the size of the device selection list. 54628fb27baSJustin T. Gibbs */ 54728fb27baSJustin T. Gibbs } else if (*num_selections != numdevs) { 54828fb27baSJustin T. Gibbs *dev_select = (struct device_selection *)realloc(*dev_select, 54928fb27baSJustin T. Gibbs numdevs * sizeof(struct device_selection)); 55028fb27baSJustin T. Gibbs *select_generation = current_generation; 55128fb27baSJustin T. Gibbs init_selections = 1; 55228fb27baSJustin T. Gibbs /* 55328fb27baSJustin T. Gibbs * In this case, we've selected devices before, and the selection 55428fb27baSJustin T. Gibbs * list is the same size as it was the last time, but the device 55528fb27baSJustin T. Gibbs * list has changed. 55628fb27baSJustin T. Gibbs */ 55728fb27baSJustin T. Gibbs } else if (*select_generation < current_generation) { 55828fb27baSJustin T. Gibbs *select_generation = current_generation; 55928fb27baSJustin T. Gibbs init_selections = 1; 56028fb27baSJustin T. Gibbs } 56128fb27baSJustin T. Gibbs 56228fb27baSJustin T. Gibbs /* 56328fb27baSJustin T. Gibbs * If we're in "only" mode, we want to clear out the selected 56428fb27baSJustin T. Gibbs * variable since we're going to select exactly what the user wants 56528fb27baSJustin T. Gibbs * this time through. 56628fb27baSJustin T. Gibbs */ 56728fb27baSJustin T. Gibbs if (select_mode == DS_SELECT_ONLY) 56828fb27baSJustin T. Gibbs init_selected_var = 1; 56928fb27baSJustin T. Gibbs 57028fb27baSJustin T. Gibbs /* 57128fb27baSJustin T. Gibbs * In all cases, we want to back up the number of selected devices. 57228fb27baSJustin T. Gibbs * It is a quick and accurate way to determine whether the selected 57328fb27baSJustin T. Gibbs * devices have changed. 57428fb27baSJustin T. Gibbs */ 57528fb27baSJustin T. Gibbs old_num_selected = *num_selected; 57628fb27baSJustin T. Gibbs 57728fb27baSJustin T. Gibbs /* 57828fb27baSJustin T. Gibbs * We want to make a backup of the current selection list if 57928fb27baSJustin T. Gibbs * the list of devices has changed, or if we're in performance 58028fb27baSJustin T. Gibbs * selection mode. In both cases, we don't want to make a backup 58128fb27baSJustin T. Gibbs * if we already know for sure that the list will be different. 58228fb27baSJustin T. Gibbs * This is certainly the case if this is our first time through the 58328fb27baSJustin T. Gibbs * selection code. 58428fb27baSJustin T. Gibbs */ 58528fb27baSJustin T. Gibbs if (((init_selected_var != 0) || (init_selections != 0) 58628fb27baSJustin T. Gibbs || (perf_select != 0)) && (changed == 0)){ 58728fb27baSJustin T. Gibbs old_dev_select = (struct device_selection *)malloc( 58828fb27baSJustin T. Gibbs *num_selections * sizeof(struct device_selection)); 58928fb27baSJustin T. Gibbs old_num_selections = *num_selections; 59028fb27baSJustin T. Gibbs bcopy(*dev_select, old_dev_select, 59128fb27baSJustin T. Gibbs sizeof(struct device_selection) * *num_selections); 59228fb27baSJustin T. Gibbs } 59328fb27baSJustin T. Gibbs 59428fb27baSJustin T. Gibbs if (init_selections != 0) { 59528fb27baSJustin T. Gibbs bzero(*dev_select, sizeof(struct device_selection) * numdevs); 59628fb27baSJustin T. Gibbs 59728fb27baSJustin T. Gibbs for (i = 0; i < numdevs; i++) { 59828fb27baSJustin T. Gibbs (*dev_select)[i].device_number = 59928fb27baSJustin T. Gibbs devices[i].device_number; 60028fb27baSJustin T. Gibbs strncpy((*dev_select)[i].device_name, 60128fb27baSJustin T. Gibbs devices[i].device_name, 60228fb27baSJustin T. Gibbs DEVSTAT_NAME_LEN); 60317ee2b20SKenneth D. Merry (*dev_select)[i].device_name[DEVSTAT_NAME_LEN - 1]='\0'; 60428fb27baSJustin T. Gibbs (*dev_select)[i].unit_number = devices[i].unit_number; 60528fb27baSJustin T. Gibbs (*dev_select)[i].position = i; 60628fb27baSJustin T. Gibbs } 60728fb27baSJustin T. Gibbs *num_selections = numdevs; 60828fb27baSJustin T. Gibbs } else if (init_selected_var != 0) { 60928fb27baSJustin T. Gibbs for (i = 0; i < numdevs; i++) 61028fb27baSJustin T. Gibbs (*dev_select)[i].selected = 0; 61128fb27baSJustin T. Gibbs } 61228fb27baSJustin T. Gibbs 61328fb27baSJustin T. Gibbs /* we haven't gotten around to selecting anything yet.. */ 61428fb27baSJustin T. Gibbs if ((select_mode == DS_SELECT_ONLY) || (init_selections != 0) 61528fb27baSJustin T. Gibbs || (init_selected_var != 0)) 61628fb27baSJustin T. Gibbs *num_selected = 0; 61728fb27baSJustin T. Gibbs 61828fb27baSJustin T. Gibbs /* 61928fb27baSJustin T. Gibbs * Look through any devices the user specified on the command line 62028fb27baSJustin T. Gibbs * and see if they match known devices. If so, select them. 62128fb27baSJustin T. Gibbs */ 62228fb27baSJustin T. Gibbs for (i = 0; (i < *num_selections) && (num_dev_selections > 0); i++) { 62328fb27baSJustin T. Gibbs char tmpstr[80]; 62428fb27baSJustin T. Gibbs 62517ee2b20SKenneth D. Merry snprintf(tmpstr, sizeof(tmpstr), "%s%d", 62617ee2b20SKenneth D. Merry (*dev_select)[i].device_name, 62728fb27baSJustin T. Gibbs (*dev_select)[i].unit_number); 62828fb27baSJustin T. Gibbs for (j = 0; j < num_dev_selections; j++) { 62928fb27baSJustin T. Gibbs if (strcmp(tmpstr, dev_selections[j]) == 0) { 63028fb27baSJustin T. Gibbs /* 63128fb27baSJustin T. Gibbs * Here we do different things based on the 63228fb27baSJustin T. Gibbs * mode we're in. If we're in add or 63328fb27baSJustin T. Gibbs * addonly mode, we only select this device 63428fb27baSJustin T. Gibbs * if it hasn't already been selected. 63528fb27baSJustin T. Gibbs * Otherwise, we would be unnecessarily 63628fb27baSJustin T. Gibbs * changing the selection order and 63728fb27baSJustin T. Gibbs * incrementing the selection count. If 63828fb27baSJustin T. Gibbs * we're in only mode, we unconditionally 63928fb27baSJustin T. Gibbs * select this device, since in only mode 64028fb27baSJustin T. Gibbs * any previous selections are erased and 64128fb27baSJustin T. Gibbs * manually specified devices are the first 64228fb27baSJustin T. Gibbs * ones to be selected. If we're in remove 64328fb27baSJustin T. Gibbs * mode, we de-select the specified device and 64428fb27baSJustin T. Gibbs * decrement the selection count. 64528fb27baSJustin T. Gibbs */ 64628fb27baSJustin T. Gibbs switch(select_mode) { 64728fb27baSJustin T. Gibbs case DS_SELECT_ADD: 64828fb27baSJustin T. Gibbs case DS_SELECT_ADDONLY: 64928fb27baSJustin T. Gibbs if ((*dev_select)[i].selected) 65028fb27baSJustin T. Gibbs break; 65128fb27baSJustin T. Gibbs /* FALLTHROUGH */ 65228fb27baSJustin T. Gibbs case DS_SELECT_ONLY: 65328fb27baSJustin T. Gibbs (*dev_select)[i].selected = 65428fb27baSJustin T. Gibbs ++selection_number; 65528fb27baSJustin T. Gibbs (*num_selected)++; 65628fb27baSJustin T. Gibbs break; 65728fb27baSJustin T. Gibbs case DS_SELECT_REMOVE: 65828fb27baSJustin T. Gibbs (*dev_select)[i].selected = 0; 65928fb27baSJustin T. Gibbs (*num_selected)--; 66028fb27baSJustin T. Gibbs /* 66128fb27baSJustin T. Gibbs * This isn't passed back out, we 66228fb27baSJustin T. Gibbs * just use it to keep track of 66328fb27baSJustin T. Gibbs * how many devices we've removed. 66428fb27baSJustin T. Gibbs */ 66528fb27baSJustin T. Gibbs num_dev_selections--; 66628fb27baSJustin T. Gibbs break; 66728fb27baSJustin T. Gibbs } 66828fb27baSJustin T. Gibbs break; 66928fb27baSJustin T. Gibbs } 67028fb27baSJustin T. Gibbs } 67128fb27baSJustin T. Gibbs } 67228fb27baSJustin T. Gibbs 67328fb27baSJustin T. Gibbs /* 67428fb27baSJustin T. Gibbs * Go through the user's device type expressions and select devices 67528fb27baSJustin T. Gibbs * accordingly. We only do this if the number of devices already 67628fb27baSJustin T. Gibbs * selected is less than the maximum number we can show. 67728fb27baSJustin T. Gibbs */ 67828fb27baSJustin T. Gibbs for (i = 0; (i < num_matches) && (*num_selected < maxshowdevs); i++) { 67928fb27baSJustin T. Gibbs /* We should probably indicate some error here */ 68028fb27baSJustin T. Gibbs if ((matches[i].match_fields == DEVSTAT_MATCH_NONE) 68128fb27baSJustin T. Gibbs || (matches[i].num_match_categories <= 0)) 68228fb27baSJustin T. Gibbs continue; 68328fb27baSJustin T. Gibbs 68428fb27baSJustin T. Gibbs for (j = 0; j < numdevs; j++) { 68528fb27baSJustin T. Gibbs int num_match_categories; 68628fb27baSJustin T. Gibbs 68728fb27baSJustin T. Gibbs num_match_categories = matches[i].num_match_categories; 68828fb27baSJustin T. Gibbs 68928fb27baSJustin T. Gibbs /* 69028fb27baSJustin T. Gibbs * Determine whether or not the current device 69128fb27baSJustin T. Gibbs * matches the given matching expression. This if 69228fb27baSJustin T. Gibbs * statement consists of three components: 69328fb27baSJustin T. Gibbs * - the device type check 69428fb27baSJustin T. Gibbs * - the device interface check 69528fb27baSJustin T. Gibbs * - the passthrough check 69628fb27baSJustin T. Gibbs * If a the matching test is successful, it 69728fb27baSJustin T. Gibbs * decrements the number of matching categories, 69828fb27baSJustin T. Gibbs * and if we've reached the last element that 69928fb27baSJustin T. Gibbs * needed to be matched, the if statement succeeds. 70028fb27baSJustin T. Gibbs * 70128fb27baSJustin T. Gibbs */ 70228fb27baSJustin T. Gibbs if ((((matches[i].match_fields & DEVSTAT_MATCH_TYPE)!=0) 70328fb27baSJustin T. Gibbs && ((devices[j].device_type & DEVSTAT_TYPE_MASK) == 70428fb27baSJustin T. Gibbs (matches[i].device_type & DEVSTAT_TYPE_MASK)) 70528fb27baSJustin T. Gibbs &&(((matches[i].match_fields & DEVSTAT_MATCH_PASS)!=0) 70628fb27baSJustin T. Gibbs || (((matches[i].match_fields & 70728fb27baSJustin T. Gibbs DEVSTAT_MATCH_PASS) == 0) 70828fb27baSJustin T. Gibbs && ((devices[j].device_type & 70928fb27baSJustin T. Gibbs DEVSTAT_TYPE_PASS) == 0))) 71028fb27baSJustin T. Gibbs && (--num_match_categories == 0)) 71128fb27baSJustin T. Gibbs || (((matches[i].match_fields & DEVSTAT_MATCH_IF) != 0) 71228fb27baSJustin T. Gibbs && ((devices[j].device_type & DEVSTAT_TYPE_IF_MASK) == 71328fb27baSJustin T. Gibbs (matches[i].device_type & DEVSTAT_TYPE_IF_MASK)) 71428fb27baSJustin T. Gibbs &&(((matches[i].match_fields & DEVSTAT_MATCH_PASS)!=0) 71528fb27baSJustin T. Gibbs || (((matches[i].match_fields & 71628fb27baSJustin T. Gibbs DEVSTAT_MATCH_PASS) == 0) 71728fb27baSJustin T. Gibbs && ((devices[j].device_type & 71828fb27baSJustin T. Gibbs DEVSTAT_TYPE_PASS) == 0))) 71928fb27baSJustin T. Gibbs && (--num_match_categories == 0)) 72028fb27baSJustin T. Gibbs || (((matches[i].match_fields & DEVSTAT_MATCH_PASS)!=0) 72128fb27baSJustin T. Gibbs && ((devices[j].device_type & DEVSTAT_TYPE_PASS) != 0) 72228fb27baSJustin T. Gibbs && (--num_match_categories == 0))) { 72328fb27baSJustin T. Gibbs 72428fb27baSJustin T. Gibbs /* 72528fb27baSJustin T. Gibbs * This is probably a non-optimal solution 72628fb27baSJustin T. Gibbs * to the problem that the devices in the 72728fb27baSJustin T. Gibbs * device list will not be in the same 72828fb27baSJustin T. Gibbs * order as the devices in the selection 72928fb27baSJustin T. Gibbs * array. 73028fb27baSJustin T. Gibbs */ 73128fb27baSJustin T. Gibbs for (k = 0; k < numdevs; k++) { 73228fb27baSJustin T. Gibbs if ((*dev_select)[k].position == j) { 73328fb27baSJustin T. Gibbs found = 1; 73428fb27baSJustin T. Gibbs break; 73528fb27baSJustin T. Gibbs } 73628fb27baSJustin T. Gibbs } 73728fb27baSJustin T. Gibbs 73828fb27baSJustin T. Gibbs /* 73928fb27baSJustin T. Gibbs * There shouldn't be a case where a device 74028fb27baSJustin T. Gibbs * in the device list is not in the 74128fb27baSJustin T. Gibbs * selection list...but it could happen. 74228fb27baSJustin T. Gibbs */ 74328fb27baSJustin T. Gibbs if (found != 1) { 74428fb27baSJustin T. Gibbs fprintf(stderr, "selectdevs: couldn't" 74528fb27baSJustin T. Gibbs " find %s%d in selection " 74628fb27baSJustin T. Gibbs "list\n", 74728fb27baSJustin T. Gibbs devices[j].device_name, 74828fb27baSJustin T. Gibbs devices[j].unit_number); 74928fb27baSJustin T. Gibbs break; 75028fb27baSJustin T. Gibbs } 75128fb27baSJustin T. Gibbs 75228fb27baSJustin T. Gibbs /* 75328fb27baSJustin T. Gibbs * We do different things based upon the 75428fb27baSJustin T. Gibbs * mode we're in. If we're in add or only 75528fb27baSJustin T. Gibbs * mode, we go ahead and select this device 75628fb27baSJustin T. Gibbs * if it hasn't already been selected. If 75728fb27baSJustin T. Gibbs * it has already been selected, we leave 75828fb27baSJustin T. Gibbs * it alone so we don't mess up the 75928fb27baSJustin T. Gibbs * selection ordering. Manually specified 76028fb27baSJustin T. Gibbs * devices have already been selected, and 76128fb27baSJustin T. Gibbs * they have higher priority than pattern 76228fb27baSJustin T. Gibbs * matched devices. If we're in remove 76328fb27baSJustin T. Gibbs * mode, we de-select the given device and 76428fb27baSJustin T. Gibbs * decrement the selected count. 76528fb27baSJustin T. Gibbs */ 76628fb27baSJustin T. Gibbs switch(select_mode) { 76728fb27baSJustin T. Gibbs case DS_SELECT_ADD: 76828fb27baSJustin T. Gibbs case DS_SELECT_ADDONLY: 76928fb27baSJustin T. Gibbs case DS_SELECT_ONLY: 77028fb27baSJustin T. Gibbs if ((*dev_select)[k].selected != 0) 77128fb27baSJustin T. Gibbs break; 77228fb27baSJustin T. Gibbs (*dev_select)[k].selected = 77328fb27baSJustin T. Gibbs ++selection_number; 77428fb27baSJustin T. Gibbs (*num_selected)++; 77528fb27baSJustin T. Gibbs break; 77628fb27baSJustin T. Gibbs case DS_SELECT_REMOVE: 77728fb27baSJustin T. Gibbs (*dev_select)[k].selected = 0; 77828fb27baSJustin T. Gibbs (*num_selected)--; 77928fb27baSJustin T. Gibbs break; 78028fb27baSJustin T. Gibbs } 78128fb27baSJustin T. Gibbs } 78228fb27baSJustin T. Gibbs } 78328fb27baSJustin T. Gibbs } 78428fb27baSJustin T. Gibbs 78528fb27baSJustin T. Gibbs /* 78628fb27baSJustin T. Gibbs * Here we implement "top" mode. Devices are sorted in the 78728fb27baSJustin T. Gibbs * selection array based on two criteria: whether or not they are 78828fb27baSJustin T. Gibbs * selected (not selection number, just the fact that they are 78928fb27baSJustin T. Gibbs * selected!) and the number of bytes in the "bytes" field of the 79028fb27baSJustin T. Gibbs * selection structure. The bytes field generally must be kept up 79128fb27baSJustin T. Gibbs * by the user. In the future, it may be maintained by library 79228fb27baSJustin T. Gibbs * functions, but for now the user has to do the work. 79328fb27baSJustin T. Gibbs * 79428fb27baSJustin T. Gibbs * At first glance, it may seem wrong that we don't go through and 79528fb27baSJustin T. Gibbs * select every device in the case where the user hasn't specified 79628fb27baSJustin T. Gibbs * any devices or patterns. In fact, though, it won't make any 79728fb27baSJustin T. Gibbs * difference in the device sorting. In that particular case (i.e. 79828fb27baSJustin T. Gibbs * when we're in "add" or "only" mode, and the user hasn't 79928fb27baSJustin T. Gibbs * specified anything) the first time through no devices will be 80028fb27baSJustin T. Gibbs * selected, so the only criterion used to sort them will be their 80128fb27baSJustin T. Gibbs * performance. The second time through, and every time thereafter, 80228fb27baSJustin T. Gibbs * all devices will be selected, so again selection won't matter. 80328fb27baSJustin T. Gibbs */ 80428fb27baSJustin T. Gibbs if (perf_select != 0) { 80528fb27baSJustin T. Gibbs 80628fb27baSJustin T. Gibbs /* Sort the device array by throughput */ 80728fb27baSJustin T. Gibbs qsort(*dev_select, *num_selections, 80828fb27baSJustin T. Gibbs sizeof(struct device_selection), 80928fb27baSJustin T. Gibbs compare_select); 81028fb27baSJustin T. Gibbs 81128fb27baSJustin T. Gibbs if (*num_selected == 0) { 81228fb27baSJustin T. Gibbs /* 81328fb27baSJustin T. Gibbs * Here we select every device in the array, if it 81428fb27baSJustin T. Gibbs * isn't already selected. Because the 'selected' 81528fb27baSJustin T. Gibbs * variable in the selection array entries contains 81628fb27baSJustin T. Gibbs * the selection order, the devstats routine can show 81728fb27baSJustin T. Gibbs * the devices that were selected first. 81828fb27baSJustin T. Gibbs */ 81928fb27baSJustin T. Gibbs for (i = 0; i < *num_selections; i++) { 82028fb27baSJustin T. Gibbs if ((*dev_select)[i].selected == 0) { 82128fb27baSJustin T. Gibbs (*dev_select)[i].selected = 82228fb27baSJustin T. Gibbs ++selection_number; 82328fb27baSJustin T. Gibbs (*num_selected)++; 82428fb27baSJustin T. Gibbs } 82528fb27baSJustin T. Gibbs } 82628fb27baSJustin T. Gibbs } else { 82728fb27baSJustin T. Gibbs selection_number = 0; 82828fb27baSJustin T. Gibbs for (i = 0; i < *num_selections; i++) { 82928fb27baSJustin T. Gibbs if ((*dev_select)[i].selected != 0) { 83028fb27baSJustin T. Gibbs (*dev_select)[i].selected = 83128fb27baSJustin T. Gibbs ++selection_number; 83228fb27baSJustin T. Gibbs } 83328fb27baSJustin T. Gibbs } 83428fb27baSJustin T. Gibbs } 83528fb27baSJustin T. Gibbs } 83628fb27baSJustin T. Gibbs 83728fb27baSJustin T. Gibbs /* 83828fb27baSJustin T. Gibbs * If we're in the "add" selection mode and if we haven't already 83928fb27baSJustin T. Gibbs * selected maxshowdevs number of devices, go through the array and 84028fb27baSJustin T. Gibbs * select any unselected devices. If we're in "only" mode, we 84128fb27baSJustin T. Gibbs * obviously don't want to select anything other than what the user 84228fb27baSJustin T. Gibbs * specifies. If we're in "remove" mode, it probably isn't a good 84328fb27baSJustin T. Gibbs * idea to go through and select any more devices, since we might 84428fb27baSJustin T. Gibbs * end up selecting something that the user wants removed. Through 84528fb27baSJustin T. Gibbs * more complicated logic, we could actually figure this out, but 84628fb27baSJustin T. Gibbs * that would probably require combining this loop with the various 84728fb27baSJustin T. Gibbs * selections loops above. 84828fb27baSJustin T. Gibbs */ 84928fb27baSJustin T. Gibbs if ((select_mode == DS_SELECT_ADD) && (*num_selected < maxshowdevs)) { 85028fb27baSJustin T. Gibbs for (i = 0; i < *num_selections; i++) 85128fb27baSJustin T. Gibbs if ((*dev_select)[i].selected == 0) { 85228fb27baSJustin T. Gibbs (*dev_select)[i].selected = ++selection_number; 85328fb27baSJustin T. Gibbs (*num_selected)++; 85428fb27baSJustin T. Gibbs } 85528fb27baSJustin T. Gibbs } 85628fb27baSJustin T. Gibbs 85728fb27baSJustin T. Gibbs /* 85828fb27baSJustin T. Gibbs * Look at the number of devices that have been selected. If it 85928fb27baSJustin T. Gibbs * has changed, set the changed variable. Otherwise, if we've 86028fb27baSJustin T. Gibbs * made a backup of the selection list, compare it to the current 86128fb27baSJustin T. Gibbs * selection list to see if the selected devices have changed. 86228fb27baSJustin T. Gibbs */ 86328fb27baSJustin T. Gibbs if ((changed == 0) && (old_num_selected != *num_selected)) 86428fb27baSJustin T. Gibbs changed = 1; 86528fb27baSJustin T. Gibbs else if ((changed == 0) && (old_dev_select != NULL)) { 86628fb27baSJustin T. Gibbs /* 86728fb27baSJustin T. Gibbs * Now we go through the selection list and we look at 86828fb27baSJustin T. Gibbs * it three different ways. 86928fb27baSJustin T. Gibbs */ 87028fb27baSJustin T. Gibbs for (i = 0; (i < *num_selections) && (changed == 0) && 87128fb27baSJustin T. Gibbs (i < old_num_selections); i++) { 87228fb27baSJustin T. Gibbs /* 87328fb27baSJustin T. Gibbs * If the device at index i in both the new and old 87428fb27baSJustin T. Gibbs * selection arrays has the same device number and 87528fb27baSJustin T. Gibbs * selection status, it hasn't changed. We 87628fb27baSJustin T. Gibbs * continue on to the next index. 87728fb27baSJustin T. Gibbs */ 87828fb27baSJustin T. Gibbs if (((*dev_select)[i].device_number == 87928fb27baSJustin T. Gibbs old_dev_select[i].device_number) 88028fb27baSJustin T. Gibbs && ((*dev_select)[i].selected == 88128fb27baSJustin T. Gibbs old_dev_select[i].selected)) 88228fb27baSJustin T. Gibbs continue; 88328fb27baSJustin T. Gibbs 88428fb27baSJustin T. Gibbs /* 88528fb27baSJustin T. Gibbs * Now, if we're still going through the if 88628fb27baSJustin T. Gibbs * statement, the above test wasn't true. So we 88728fb27baSJustin T. Gibbs * check here to see if the device at index i in 88828fb27baSJustin T. Gibbs * the current array is the same as the device at 88928fb27baSJustin T. Gibbs * index i in the old array. If it is, that means 89028fb27baSJustin T. Gibbs * that its selection number has changed. Set 89128fb27baSJustin T. Gibbs * changed to 1 and exit the loop. 89228fb27baSJustin T. Gibbs */ 89328fb27baSJustin T. Gibbs else if ((*dev_select)[i].device_number == 89428fb27baSJustin T. Gibbs old_dev_select[i].device_number) { 89528fb27baSJustin T. Gibbs changed = 1; 89628fb27baSJustin T. Gibbs break; 89728fb27baSJustin T. Gibbs } 89828fb27baSJustin T. Gibbs /* 89928fb27baSJustin T. Gibbs * If we get here, then the device at index i in 90028fb27baSJustin T. Gibbs * the current array isn't the same device as the 90128fb27baSJustin T. Gibbs * device at index i in the old array. 90228fb27baSJustin T. Gibbs */ 90328fb27baSJustin T. Gibbs else { 904c3508206SKenneth D. Merry found = 0; 90528fb27baSJustin T. Gibbs 90628fb27baSJustin T. Gibbs /* 90728fb27baSJustin T. Gibbs * Search through the old selection array 90828fb27baSJustin T. Gibbs * looking for a device with the same 90928fb27baSJustin T. Gibbs * device number as the device at index i 91028fb27baSJustin T. Gibbs * in the current array. If the selection 91128fb27baSJustin T. Gibbs * status is the same, then we mark it as 91228fb27baSJustin T. Gibbs * found. If the selection status isn't 91328fb27baSJustin T. Gibbs * the same, we break out of the loop. 91428fb27baSJustin T. Gibbs * Since found isn't set, changed will be 91528fb27baSJustin T. Gibbs * set to 1 below. 91628fb27baSJustin T. Gibbs */ 91728fb27baSJustin T. Gibbs for (j = 0; j < old_num_selections; j++) { 91828fb27baSJustin T. Gibbs if (((*dev_select)[i].device_number == 91928fb27baSJustin T. Gibbs old_dev_select[j].device_number) 92028fb27baSJustin T. Gibbs && ((*dev_select)[i].selected == 92128fb27baSJustin T. Gibbs old_dev_select[j].selected)){ 92228fb27baSJustin T. Gibbs found = 1; 92328fb27baSJustin T. Gibbs break; 92428fb27baSJustin T. Gibbs } 92528fb27baSJustin T. Gibbs else if ((*dev_select)[i].device_number 92628fb27baSJustin T. Gibbs == old_dev_select[j].device_number) 92728fb27baSJustin T. Gibbs break; 92828fb27baSJustin T. Gibbs } 92928fb27baSJustin T. Gibbs if (found == 0) 93028fb27baSJustin T. Gibbs changed = 1; 93128fb27baSJustin T. Gibbs } 93228fb27baSJustin T. Gibbs } 93328fb27baSJustin T. Gibbs } 93428fb27baSJustin T. Gibbs if (old_dev_select != NULL) 93528fb27baSJustin T. Gibbs free(old_dev_select); 93628fb27baSJustin T. Gibbs 93728fb27baSJustin T. Gibbs return(changed); 93828fb27baSJustin T. Gibbs } 93928fb27baSJustin T. Gibbs 94028fb27baSJustin T. Gibbs /* 94128fb27baSJustin T. Gibbs * Comparison routine for qsort() above. Note that the comparison here is 94228fb27baSJustin T. Gibbs * backwards -- generally, it should return a value to indicate whether 94328fb27baSJustin T. Gibbs * arg1 is <, =, or > arg2. Instead, it returns the opposite. The reason 94428fb27baSJustin T. Gibbs * it returns the opposite is so that the selection array will be sorted in 94528fb27baSJustin T. Gibbs * order of decreasing performance. We sort on two parameters. The first 94628fb27baSJustin T. Gibbs * sort key is whether or not one or the other of the devices in question 94728fb27baSJustin T. Gibbs * has been selected. If one of them has, and the other one has not, the 94828fb27baSJustin T. Gibbs * selected device is automatically more important than the unselected 94928fb27baSJustin T. Gibbs * device. If neither device is selected, we judge the devices based upon 95028fb27baSJustin T. Gibbs * performance. 95128fb27baSJustin T. Gibbs */ 95228fb27baSJustin T. Gibbs static int 95328fb27baSJustin T. Gibbs compare_select(const void *arg1, const void *arg2) 95428fb27baSJustin T. Gibbs { 955c3508206SKenneth D. Merry if ((((const struct device_selection *)arg1)->selected) 956c3508206SKenneth D. Merry && (((const struct device_selection *)arg2)->selected == 0)) 95728fb27baSJustin T. Gibbs return(-1); 958c3508206SKenneth D. Merry else if ((((const struct device_selection *)arg1)->selected == 0) 959c3508206SKenneth D. Merry && (((const struct device_selection *)arg2)->selected)) 96028fb27baSJustin T. Gibbs return(1); 961c3508206SKenneth D. Merry else if (((const struct device_selection *)arg2)->bytes < 962c3508206SKenneth D. Merry ((const struct device_selection *)arg1)->bytes) 96328fb27baSJustin T. Gibbs return(-1); 964c3508206SKenneth D. Merry else if (((const struct device_selection *)arg2)->bytes > 965c3508206SKenneth D. Merry ((const struct device_selection *)arg1)->bytes) 96628fb27baSJustin T. Gibbs return(1); 96728fb27baSJustin T. Gibbs else 96828fb27baSJustin T. Gibbs return(0); 96928fb27baSJustin T. Gibbs } 97028fb27baSJustin T. Gibbs 97128fb27baSJustin T. Gibbs /* 97228fb27baSJustin T. Gibbs * Take a string with the general format "arg1,arg2,arg3", and build a 97328fb27baSJustin T. Gibbs * device matching expression from it. 97428fb27baSJustin T. Gibbs */ 97528fb27baSJustin T. Gibbs int 976c4a5ef6eSThomas Moestl devstat_buildmatch(char *match_str, struct devstat_match **matches, 977c4a5ef6eSThomas Moestl int *num_matches) 97828fb27baSJustin T. Gibbs { 97928fb27baSJustin T. Gibbs char *tstr[5]; 98028fb27baSJustin T. Gibbs char **tempstr; 98128fb27baSJustin T. Gibbs int num_args; 982be04b6d1SDavid E. O'Brien int i, j; 983c3508206SKenneth D. Merry const char *func_name = "devstat_buildmatch"; 98428fb27baSJustin T. Gibbs 98528fb27baSJustin T. Gibbs /* We can't do much without a string to parse */ 98628fb27baSJustin T. Gibbs if (match_str == NULL) { 987c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 988c4a5ef6eSThomas Moestl "%s: no match expression", func_name); 98928fb27baSJustin T. Gibbs return(-1); 99028fb27baSJustin T. Gibbs } 99128fb27baSJustin T. Gibbs 99228fb27baSJustin T. Gibbs /* 99328fb27baSJustin T. Gibbs * Break the (comma delimited) input string out into separate strings. 99428fb27baSJustin T. Gibbs */ 99528fb27baSJustin T. Gibbs for (tempstr = tstr, num_args = 0; 99628fb27baSJustin T. Gibbs (*tempstr = strsep(&match_str, ",")) != NULL && (num_args < 5); 99728fb27baSJustin T. Gibbs num_args++) 99828fb27baSJustin T. Gibbs if (**tempstr != '\0') 99928fb27baSJustin T. Gibbs if (++tempstr >= &tstr[5]) 100028fb27baSJustin T. Gibbs break; 100128fb27baSJustin T. Gibbs 100228fb27baSJustin T. Gibbs /* The user gave us too many type arguments */ 100328fb27baSJustin T. Gibbs if (num_args > 3) { 1004c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 1005c4a5ef6eSThomas Moestl "%s: too many type arguments", func_name); 100628fb27baSJustin T. Gibbs return(-1); 100728fb27baSJustin T. Gibbs } 100828fb27baSJustin T. Gibbs 100928fb27baSJustin T. Gibbs /* 101028fb27baSJustin T. Gibbs * Since you can't realloc a pointer that hasn't been malloced 101128fb27baSJustin T. Gibbs * first, we malloc first and then realloc. 101228fb27baSJustin T. Gibbs */ 101328fb27baSJustin T. Gibbs if (*num_matches == 0) 101428fb27baSJustin T. Gibbs *matches = (struct devstat_match *)malloc( 101528fb27baSJustin T. Gibbs sizeof(struct devstat_match)); 101628fb27baSJustin T. Gibbs else 101728fb27baSJustin T. Gibbs *matches = (struct devstat_match *)realloc(*matches, 101828fb27baSJustin T. Gibbs sizeof(struct devstat_match) * (*num_matches + 1)); 101928fb27baSJustin T. Gibbs 102028fb27baSJustin T. Gibbs /* Make sure the current entry is clear */ 102128fb27baSJustin T. Gibbs bzero(&matches[0][*num_matches], sizeof(struct devstat_match)); 102228fb27baSJustin T. Gibbs 102328fb27baSJustin T. Gibbs /* 102428fb27baSJustin T. Gibbs * Step through the arguments the user gave us and build a device 102528fb27baSJustin T. Gibbs * matching expression from them. 102628fb27baSJustin T. Gibbs */ 102728fb27baSJustin T. Gibbs for (i = 0; i < num_args; i++) { 102828fb27baSJustin T. Gibbs char *tempstr2, *tempstr3; 102928fb27baSJustin T. Gibbs 103028fb27baSJustin T. Gibbs /* 103128fb27baSJustin T. Gibbs * Get rid of leading white space. 103228fb27baSJustin T. Gibbs */ 103328fb27baSJustin T. Gibbs tempstr2 = tstr[i]; 103428fb27baSJustin T. Gibbs while (isspace(*tempstr2) && (*tempstr2 != '\0')) 103528fb27baSJustin T. Gibbs tempstr2++; 103628fb27baSJustin T. Gibbs 103728fb27baSJustin T. Gibbs /* 103828fb27baSJustin T. Gibbs * Get rid of trailing white space. 103928fb27baSJustin T. Gibbs */ 104028fb27baSJustin T. Gibbs tempstr3 = &tempstr2[strlen(tempstr2) - 1]; 104128fb27baSJustin T. Gibbs 104228fb27baSJustin T. Gibbs while ((*tempstr3 != '\0') && (tempstr3 > tempstr2) 104328fb27baSJustin T. Gibbs && (isspace(*tempstr3))) { 104428fb27baSJustin T. Gibbs *tempstr3 = '\0'; 104528fb27baSJustin T. Gibbs tempstr3--; 104628fb27baSJustin T. Gibbs } 104728fb27baSJustin T. Gibbs 104828fb27baSJustin T. Gibbs /* 104928fb27baSJustin T. Gibbs * Go through the match table comparing the user's 105028fb27baSJustin T. Gibbs * arguments to known device types, interfaces, etc. 105128fb27baSJustin T. Gibbs */ 105228fb27baSJustin T. Gibbs for (j = 0; match_table[j].match_str != NULL; j++) { 105328fb27baSJustin T. Gibbs /* 105428fb27baSJustin T. Gibbs * We do case-insensitive matching, in case someone 105528fb27baSJustin T. Gibbs * wants to enter "SCSI" instead of "scsi" or 105628fb27baSJustin T. Gibbs * something like that. Only compare as many 105728fb27baSJustin T. Gibbs * characters as are in the string in the match 105828fb27baSJustin T. Gibbs * table. This should help if someone tries to use 105928fb27baSJustin T. Gibbs * a super-long match expression. 106028fb27baSJustin T. Gibbs */ 106128fb27baSJustin T. Gibbs if (strncasecmp(tempstr2, match_table[j].match_str, 106228fb27baSJustin T. Gibbs strlen(match_table[j].match_str)) == 0) { 106328fb27baSJustin T. Gibbs /* 106428fb27baSJustin T. Gibbs * Make sure the user hasn't specified two 106528fb27baSJustin T. Gibbs * items of the same type, like "da" and 106628fb27baSJustin T. Gibbs * "cd". One device cannot be both. 106728fb27baSJustin T. Gibbs */ 106828fb27baSJustin T. Gibbs if (((*matches)[*num_matches].match_fields & 106928fb27baSJustin T. Gibbs match_table[j].match_field) != 0) { 1070c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, 1071c4a5ef6eSThomas Moestl sizeof(devstat_errbuf), 107228fb27baSJustin T. Gibbs "%s: cannot have more than " 107328fb27baSJustin T. Gibbs "one match item in a single " 107428fb27baSJustin T. Gibbs "category", func_name); 107528fb27baSJustin T. Gibbs return(-1); 107628fb27baSJustin T. Gibbs } 107728fb27baSJustin T. Gibbs /* 107828fb27baSJustin T. Gibbs * If we've gotten this far, we have a 107928fb27baSJustin T. Gibbs * winner. Set the appropriate fields in 108028fb27baSJustin T. Gibbs * the match entry. 108128fb27baSJustin T. Gibbs */ 108228fb27baSJustin T. Gibbs (*matches)[*num_matches].match_fields |= 108328fb27baSJustin T. Gibbs match_table[j].match_field; 108428fb27baSJustin T. Gibbs (*matches)[*num_matches].device_type |= 108528fb27baSJustin T. Gibbs match_table[j].type; 108628fb27baSJustin T. Gibbs (*matches)[*num_matches].num_match_categories++; 108728fb27baSJustin T. Gibbs break; 108828fb27baSJustin T. Gibbs } 108928fb27baSJustin T. Gibbs } 109028fb27baSJustin T. Gibbs /* 109128fb27baSJustin T. Gibbs * We should have found a match in the above for loop. If 109228fb27baSJustin T. Gibbs * not, that means the user entered an invalid device type 109328fb27baSJustin T. Gibbs * or interface. 109428fb27baSJustin T. Gibbs */ 109528fb27baSJustin T. Gibbs if ((*matches)[*num_matches].num_match_categories != (i + 1)) { 109617ee2b20SKenneth D. Merry snprintf(devstat_errbuf, sizeof(devstat_errbuf), 109728fb27baSJustin T. Gibbs "%s: unknown match item \"%s\"", func_name, 109828fb27baSJustin T. Gibbs tstr[i]); 109928fb27baSJustin T. Gibbs return(-1); 110028fb27baSJustin T. Gibbs } 110128fb27baSJustin T. Gibbs } 110228fb27baSJustin T. Gibbs 110328fb27baSJustin T. Gibbs (*num_matches)++; 110428fb27baSJustin T. Gibbs 110528fb27baSJustin T. Gibbs return(0); 110628fb27baSJustin T. Gibbs } 110728fb27baSJustin T. Gibbs 110828fb27baSJustin T. Gibbs /* 110928fb27baSJustin T. Gibbs * Compute a number of device statistics. Only one field is mandatory, and 111028fb27baSJustin T. Gibbs * that is "current". Everything else is optional. The caller passes in 111128fb27baSJustin T. Gibbs * pointers to variables to hold the various statistics he desires. If he 111228fb27baSJustin T. Gibbs * doesn't want a particular staistic, he should pass in a NULL pointer. 111328fb27baSJustin T. Gibbs * Return values: 111428fb27baSJustin T. Gibbs * 0 -- success 111528fb27baSJustin T. Gibbs * -1 -- failure 111628fb27baSJustin T. Gibbs */ 111728fb27baSJustin T. Gibbs int 111828fb27baSJustin T. Gibbs compute_stats(struct devstat *current, struct devstat *previous, 111928fb27baSJustin T. Gibbs long double etime, u_int64_t *total_bytes, 112028fb27baSJustin T. Gibbs u_int64_t *total_transfers, u_int64_t *total_blocks, 112128fb27baSJustin T. Gibbs long double *kb_per_transfer, long double *transfers_per_second, 112228fb27baSJustin T. Gibbs long double *mb_per_second, long double *blocks_per_second, 112328fb27baSJustin T. Gibbs long double *ms_per_transaction) 112428fb27baSJustin T. Gibbs { 1125884539f7SKenneth D. Merry return(devstat_compute_statistics(current, previous, etime, 1126884539f7SKenneth D. Merry total_bytes ? DSM_TOTAL_BYTES : DSM_SKIP, 1127884539f7SKenneth D. Merry total_bytes, 1128884539f7SKenneth D. Merry total_transfers ? DSM_TOTAL_TRANSFERS : DSM_SKIP, 1129884539f7SKenneth D. Merry total_transfers, 1130884539f7SKenneth D. Merry total_blocks ? DSM_TOTAL_BLOCKS : DSM_SKIP, 1131884539f7SKenneth D. Merry total_blocks, 1132884539f7SKenneth D. Merry kb_per_transfer ? DSM_KB_PER_TRANSFER : DSM_SKIP, 1133884539f7SKenneth D. Merry kb_per_transfer, 1134884539f7SKenneth D. Merry transfers_per_second ? DSM_TRANSFERS_PER_SECOND : DSM_SKIP, 1135884539f7SKenneth D. Merry transfers_per_second, 1136884539f7SKenneth D. Merry mb_per_second ? DSM_MB_PER_SECOND : DSM_SKIP, 1137884539f7SKenneth D. Merry mb_per_second, 1138884539f7SKenneth D. Merry blocks_per_second ? DSM_BLOCKS_PER_SECOND : DSM_SKIP, 1139884539f7SKenneth D. Merry blocks_per_second, 1140884539f7SKenneth D. Merry ms_per_transaction ? DSM_MS_PER_TRANSACTION : DSM_SKIP, 1141884539f7SKenneth D. Merry ms_per_transaction, 1142884539f7SKenneth D. Merry DSM_NONE)); 114328fb27baSJustin T. Gibbs } 114428fb27baSJustin T. Gibbs 114528fb27baSJustin T. Gibbs long double 1146c4a5ef6eSThomas Moestl devstat_compute_etime(struct timeval cur_time, struct timeval prev_time) 114728fb27baSJustin T. Gibbs { 114828fb27baSJustin T. Gibbs struct timeval busy_time; 114928fb27baSJustin T. Gibbs u_int64_t busy_usec; 115028fb27baSJustin T. Gibbs long double etime; 115128fb27baSJustin T. Gibbs 115228fb27baSJustin T. Gibbs timersub(&cur_time, &prev_time, &busy_time); 115328fb27baSJustin T. Gibbs 115428fb27baSJustin T. Gibbs busy_usec = busy_time.tv_sec; 115528fb27baSJustin T. Gibbs busy_usec *= 1000000; 115628fb27baSJustin T. Gibbs busy_usec += busy_time.tv_usec; 115728fb27baSJustin T. Gibbs etime = busy_usec; 115828fb27baSJustin T. Gibbs etime /= 1000000; 115928fb27baSJustin T. Gibbs 116028fb27baSJustin T. Gibbs return(etime); 116128fb27baSJustin T. Gibbs } 1162c4a5ef6eSThomas Moestl 1163c4a5ef6eSThomas Moestl int 1164c4a5ef6eSThomas Moestl devstat_compute_statistics(struct devstat *current, struct devstat *previous, 1165c4a5ef6eSThomas Moestl long double etime, ...) 1166c4a5ef6eSThomas Moestl { 1167c3508206SKenneth D. Merry const char *func_name = "devstat_compute_statistics"; 1168c4a5ef6eSThomas Moestl u_int64_t totalbytes, totalbytesread, totalbyteswrite; 1169c4a5ef6eSThomas Moestl u_int64_t totaltransfers, totaltransfersread, totaltransferswrite; 1170c4a5ef6eSThomas Moestl u_int64_t totaltransfersother, totalblocks, totalblocksread; 1171c4a5ef6eSThomas Moestl u_int64_t totalblockswrite; 1172c4a5ef6eSThomas Moestl va_list ap; 1173c4a5ef6eSThomas Moestl devstat_metric metric; 1174c4a5ef6eSThomas Moestl u_int64_t *destu64; 1175c4a5ef6eSThomas Moestl long double *destld; 1176c4a5ef6eSThomas Moestl int retval; 1177c4a5ef6eSThomas Moestl 1178c4a5ef6eSThomas Moestl retval = 0; 1179c4a5ef6eSThomas Moestl 1180c4a5ef6eSThomas Moestl /* 1181c4a5ef6eSThomas Moestl * current is the only mandatory field. 1182c4a5ef6eSThomas Moestl */ 1183c4a5ef6eSThomas Moestl if (current == NULL) { 1184c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 1185c4a5ef6eSThomas Moestl "%s: current stats structure was NULL", func_name); 1186c4a5ef6eSThomas Moestl return(-1); 1187c4a5ef6eSThomas Moestl } 1188c4a5ef6eSThomas Moestl 1189c4a5ef6eSThomas Moestl totalbytesread = current->bytes_read - 1190c4a5ef6eSThomas Moestl ((previous) ? previous->bytes_read : 0); 1191c4a5ef6eSThomas Moestl totalbyteswrite = current->bytes_written - 1192c4a5ef6eSThomas Moestl ((previous) ? previous->bytes_written : 0); 1193c4a5ef6eSThomas Moestl 1194c4a5ef6eSThomas Moestl totalbytes = totalbytesread + totalbyteswrite; 1195c4a5ef6eSThomas Moestl 1196c4a5ef6eSThomas Moestl totaltransfersread = current->num_reads - 1197c4a5ef6eSThomas Moestl ((previous) ? previous->num_reads : 0); 1198c4a5ef6eSThomas Moestl 1199c4a5ef6eSThomas Moestl totaltransferswrite = current->num_writes - 1200c4a5ef6eSThomas Moestl ((previous) ? previous->num_writes : 0); 1201c4a5ef6eSThomas Moestl 1202c4a5ef6eSThomas Moestl totaltransfersother = current->num_other - 1203c4a5ef6eSThomas Moestl ((previous) ? previous->num_other : 0); 1204c4a5ef6eSThomas Moestl 1205c4a5ef6eSThomas Moestl totaltransfers = totaltransfersread + totaltransferswrite + 1206c4a5ef6eSThomas Moestl totaltransfersother; 1207c4a5ef6eSThomas Moestl 1208c4a5ef6eSThomas Moestl totalblocks = totalbytes; 1209c4a5ef6eSThomas Moestl totalblocksread = totalbytesread; 1210c4a5ef6eSThomas Moestl totalblockswrite = totalbyteswrite; 1211c4a5ef6eSThomas Moestl 1212c4a5ef6eSThomas Moestl if (current->block_size > 0) { 1213c4a5ef6eSThomas Moestl totalblocks /= current->block_size; 1214c4a5ef6eSThomas Moestl totalblocksread /= current->block_size; 1215c4a5ef6eSThomas Moestl totalblockswrite /= current->block_size; 1216c4a5ef6eSThomas Moestl } else { 1217c4a5ef6eSThomas Moestl totalblocks /= 512; 1218c4a5ef6eSThomas Moestl totalblocksread /= 512; 1219c4a5ef6eSThomas Moestl totalblockswrite /= 512; 1220c4a5ef6eSThomas Moestl } 1221c4a5ef6eSThomas Moestl 1222c4a5ef6eSThomas Moestl va_start(ap, etime); 1223c4a5ef6eSThomas Moestl 1224c4a5ef6eSThomas Moestl while ((metric = (devstat_metric)va_arg(ap, devstat_metric)) != 0) { 1225c4a5ef6eSThomas Moestl 1226c4a5ef6eSThomas Moestl if (metric == DSM_NONE) 1227c4a5ef6eSThomas Moestl break; 1228c4a5ef6eSThomas Moestl 1229c4a5ef6eSThomas Moestl if (metric >= DSM_MAX) { 1230c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 1231c4a5ef6eSThomas Moestl "%s: metric %d is out of range", func_name, 1232c4a5ef6eSThomas Moestl metric); 1233c4a5ef6eSThomas Moestl retval = -1; 1234c4a5ef6eSThomas Moestl goto bailout; 1235c4a5ef6eSThomas Moestl } 1236c4a5ef6eSThomas Moestl 1237c4a5ef6eSThomas Moestl switch (devstat_arg_list[metric].argtype) { 1238c4a5ef6eSThomas Moestl case DEVSTAT_ARG_UINT64: 1239c4a5ef6eSThomas Moestl destu64 = (u_int64_t *)va_arg(ap, u_int64_t *); 1240c4a5ef6eSThomas Moestl break; 1241c4a5ef6eSThomas Moestl case DEVSTAT_ARG_LD: 1242c4a5ef6eSThomas Moestl destld = (long double *)va_arg(ap, long double *); 1243884539f7SKenneth D. Merry break; 1244884539f7SKenneth D. Merry case DEVSTAT_ARG_SKIP: 1245884539f7SKenneth D. Merry destld = (long double *)va_arg(ap, long double *); 1246c4a5ef6eSThomas Moestl break; 1247c4a5ef6eSThomas Moestl default: 1248c4a5ef6eSThomas Moestl retval = -1; 1249c4a5ef6eSThomas Moestl goto bailout; 1250c4a5ef6eSThomas Moestl break; /* NOTREACHED */ 1251c4a5ef6eSThomas Moestl } 1252c4a5ef6eSThomas Moestl 1253884539f7SKenneth D. Merry if (devstat_arg_list[metric].argtype == DEVSTAT_ARG_SKIP) 1254884539f7SKenneth D. Merry continue; 1255884539f7SKenneth D. Merry 1256c4a5ef6eSThomas Moestl switch (metric) { 1257c4a5ef6eSThomas Moestl case DSM_TOTAL_BYTES: 1258c4a5ef6eSThomas Moestl *destu64 = totalbytes; 1259c4a5ef6eSThomas Moestl break; 1260c4a5ef6eSThomas Moestl case DSM_TOTAL_BYTES_READ: 1261c4a5ef6eSThomas Moestl *destu64 = totalbytesread; 1262c4a5ef6eSThomas Moestl break; 1263c4a5ef6eSThomas Moestl case DSM_TOTAL_BYTES_WRITE: 1264c4a5ef6eSThomas Moestl *destu64 = totalbyteswrite; 1265c4a5ef6eSThomas Moestl break; 1266c4a5ef6eSThomas Moestl case DSM_TOTAL_TRANSFERS: 1267c4a5ef6eSThomas Moestl *destu64 = totaltransfers; 1268c4a5ef6eSThomas Moestl break; 1269c4a5ef6eSThomas Moestl case DSM_TOTAL_TRANSFERS_READ: 1270c4a5ef6eSThomas Moestl *destu64 = totaltransfersread; 1271c4a5ef6eSThomas Moestl break; 1272c4a5ef6eSThomas Moestl case DSM_TOTAL_TRANSFERS_WRITE: 1273c4a5ef6eSThomas Moestl *destu64 = totaltransferswrite; 1274c4a5ef6eSThomas Moestl break; 1275c4a5ef6eSThomas Moestl case DSM_TOTAL_TRANSFERS_OTHER: 1276c4a5ef6eSThomas Moestl *destu64 = totaltransfersother; 1277c4a5ef6eSThomas Moestl break; 1278c4a5ef6eSThomas Moestl case DSM_TOTAL_BLOCKS: 1279c4a5ef6eSThomas Moestl *destu64 = totalblocks; 1280c4a5ef6eSThomas Moestl break; 1281c4a5ef6eSThomas Moestl case DSM_TOTAL_BLOCKS_READ: 1282c4a5ef6eSThomas Moestl *destu64 = totalblocksread; 1283c4a5ef6eSThomas Moestl break; 1284c4a5ef6eSThomas Moestl case DSM_TOTAL_BLOCKS_WRITE: 1285c4a5ef6eSThomas Moestl *destu64 = totalblockswrite; 1286c4a5ef6eSThomas Moestl break; 1287c4a5ef6eSThomas Moestl case DSM_KB_PER_TRANSFER: 1288c4a5ef6eSThomas Moestl *destld = totalbytes; 1289c4a5ef6eSThomas Moestl *destld /= 1024; 1290c4a5ef6eSThomas Moestl if (totaltransfers > 0) 1291c4a5ef6eSThomas Moestl *destld /= totaltransfers; 1292c4a5ef6eSThomas Moestl else 1293c4a5ef6eSThomas Moestl *destld = 0.0; 1294c4a5ef6eSThomas Moestl break; 1295c4a5ef6eSThomas Moestl case DSM_KB_PER_TRANSFER_READ: 1296c4a5ef6eSThomas Moestl *destld = totalbytesread; 1297c4a5ef6eSThomas Moestl *destld /= 1024; 1298c4a5ef6eSThomas Moestl if (totaltransfersread > 0) 1299c4a5ef6eSThomas Moestl *destld /= totaltransfersread; 1300c4a5ef6eSThomas Moestl else 1301c4a5ef6eSThomas Moestl *destld = 0.0; 1302c4a5ef6eSThomas Moestl break; 1303c4a5ef6eSThomas Moestl case DSM_KB_PER_TRANSFER_WRITE: 1304c4a5ef6eSThomas Moestl *destld = totalbyteswrite; 1305c4a5ef6eSThomas Moestl *destld /= 1024; 1306c4a5ef6eSThomas Moestl if (totaltransferswrite > 0) 1307c4a5ef6eSThomas Moestl *destld /= totaltransferswrite; 1308c4a5ef6eSThomas Moestl else 1309c4a5ef6eSThomas Moestl *destld = 0.0; 1310c4a5ef6eSThomas Moestl break; 1311c4a5ef6eSThomas Moestl case DSM_TRANSFERS_PER_SECOND: 1312c4a5ef6eSThomas Moestl if (etime > 0.0) { 1313c4a5ef6eSThomas Moestl *destld = totaltransfers; 1314c4a5ef6eSThomas Moestl *destld /= etime; 1315c4a5ef6eSThomas Moestl } else 1316c4a5ef6eSThomas Moestl *destld = 0.0; 1317c4a5ef6eSThomas Moestl break; 1318c4a5ef6eSThomas Moestl case DSM_TRANSFERS_PER_SECOND_READ: 1319c4a5ef6eSThomas Moestl if (etime > 0.0) { 1320c4a5ef6eSThomas Moestl *destld = totaltransfersread; 1321c4a5ef6eSThomas Moestl *destld /= etime; 1322c4a5ef6eSThomas Moestl } else 1323c4a5ef6eSThomas Moestl *destld = 0.0; 1324c4a5ef6eSThomas Moestl break; 1325c4a5ef6eSThomas Moestl case DSM_TRANSFERS_PER_SECOND_WRITE: 1326c4a5ef6eSThomas Moestl if (etime > 0.0) { 1327c4a5ef6eSThomas Moestl *destld = totaltransferswrite; 1328c4a5ef6eSThomas Moestl *destld /= etime; 1329c4a5ef6eSThomas Moestl } else 1330c4a5ef6eSThomas Moestl *destld = 0.0; 1331c4a5ef6eSThomas Moestl break; 1332c4a5ef6eSThomas Moestl case DSM_TRANSFERS_PER_SECOND_OTHER: 1333c4a5ef6eSThomas Moestl if (etime > 0.0) { 1334c4a5ef6eSThomas Moestl *destld = totaltransfersother; 1335c4a5ef6eSThomas Moestl *destld /= etime; 1336c4a5ef6eSThomas Moestl } else 1337c4a5ef6eSThomas Moestl *destld = 0.0; 1338c4a5ef6eSThomas Moestl break; 1339c4a5ef6eSThomas Moestl case DSM_MB_PER_SECOND: 1340c4a5ef6eSThomas Moestl *destld = totalbytes; 1341c4a5ef6eSThomas Moestl *destld /= 1024 * 1024; 1342c4a5ef6eSThomas Moestl if (etime > 0.0) 1343c4a5ef6eSThomas Moestl *destld /= etime; 1344c4a5ef6eSThomas Moestl else 1345c4a5ef6eSThomas Moestl *destld = 0.0; 1346c4a5ef6eSThomas Moestl break; 1347c4a5ef6eSThomas Moestl case DSM_MB_PER_SECOND_READ: 1348c4a5ef6eSThomas Moestl *destld = totalbytesread; 1349c4a5ef6eSThomas Moestl *destld /= 1024 * 1024; 1350c4a5ef6eSThomas Moestl if (etime > 0.0) 1351c4a5ef6eSThomas Moestl *destld /= etime; 1352c4a5ef6eSThomas Moestl else 1353c4a5ef6eSThomas Moestl *destld = 0.0; 1354c4a5ef6eSThomas Moestl break; 1355c4a5ef6eSThomas Moestl case DSM_MB_PER_SECOND_WRITE: 1356c4a5ef6eSThomas Moestl *destld = totalbyteswrite; 1357c4a5ef6eSThomas Moestl *destld /= 1024 * 1024; 1358c4a5ef6eSThomas Moestl if (etime > 0.0) 1359c4a5ef6eSThomas Moestl *destld /= etime; 1360c4a5ef6eSThomas Moestl else 1361c4a5ef6eSThomas Moestl *destld = 0.0; 1362c4a5ef6eSThomas Moestl break; 1363c4a5ef6eSThomas Moestl case DSM_BLOCKS_PER_SECOND: 1364c4a5ef6eSThomas Moestl *destld = totalblocks; 1365c4a5ef6eSThomas Moestl if (etime > 0.0) 1366c4a5ef6eSThomas Moestl *destld /= etime; 1367c4a5ef6eSThomas Moestl else 1368c4a5ef6eSThomas Moestl *destld = 0.0; 1369c4a5ef6eSThomas Moestl break; 1370c4a5ef6eSThomas Moestl case DSM_BLOCKS_PER_SECOND_READ: 1371c4a5ef6eSThomas Moestl *destld = totalblocksread; 1372c4a5ef6eSThomas Moestl if (etime > 0.0) 1373c4a5ef6eSThomas Moestl *destld /= etime; 1374c4a5ef6eSThomas Moestl else 1375c4a5ef6eSThomas Moestl *destld = 0.0; 1376c4a5ef6eSThomas Moestl break; 1377c4a5ef6eSThomas Moestl case DSM_BLOCKS_PER_SECOND_WRITE: 1378c4a5ef6eSThomas Moestl *destld = totalblockswrite; 1379c4a5ef6eSThomas Moestl if (etime > 0.0) 1380c4a5ef6eSThomas Moestl *destld /= etime; 1381c4a5ef6eSThomas Moestl else 1382c4a5ef6eSThomas Moestl *destld = 0.0; 1383c4a5ef6eSThomas Moestl break; 1384c4a5ef6eSThomas Moestl /* 1385c4a5ef6eSThomas Moestl * This calculation is somewhat bogus. It simply divides 1386c4a5ef6eSThomas Moestl * the elapsed time by the total number of transactions 1387c4a5ef6eSThomas Moestl * completed. While that does give the caller a good 1388c4a5ef6eSThomas Moestl * picture of the average rate of transaction completion, 1389c4a5ef6eSThomas Moestl * it doesn't necessarily give the caller a good view of 1390c4a5ef6eSThomas Moestl * how long transactions took to complete on average. 1391c4a5ef6eSThomas Moestl * Those two numbers will be different for a device that 1392c4a5ef6eSThomas Moestl * can handle more than one transaction at a time. e.g. 1393c4a5ef6eSThomas Moestl * SCSI disks doing tagged queueing. 1394c4a5ef6eSThomas Moestl * 1395c4a5ef6eSThomas Moestl * The only way to accurately determine the real average 1396c4a5ef6eSThomas Moestl * time per transaction would be to compute and store the 1397c4a5ef6eSThomas Moestl * time on a per-transaction basis. That currently isn't 1398c4a5ef6eSThomas Moestl * done in the kernel, and would only be desireable if it 1399c4a5ef6eSThomas Moestl * could be implemented in a somewhat non-intrusive and high 1400c4a5ef6eSThomas Moestl * performance way. 1401c4a5ef6eSThomas Moestl */ 1402c4a5ef6eSThomas Moestl case DSM_MS_PER_TRANSACTION: 1403c4a5ef6eSThomas Moestl if (totaltransfers > 0) { 1404c4a5ef6eSThomas Moestl *destld = etime; 1405c4a5ef6eSThomas Moestl *destld /= totaltransfers; 1406c4a5ef6eSThomas Moestl *destld *= 1000; 1407c4a5ef6eSThomas Moestl } else 1408c4a5ef6eSThomas Moestl *destld = 0.0; 1409c4a5ef6eSThomas Moestl break; 1410c4a5ef6eSThomas Moestl /* 1411c4a5ef6eSThomas Moestl * As above, these next two really only give the average 1412c4a5ef6eSThomas Moestl * rate of completion for read and write transactions, not 1413c4a5ef6eSThomas Moestl * the average time the transaction took to complete. 1414c4a5ef6eSThomas Moestl */ 1415c4a5ef6eSThomas Moestl case DSM_MS_PER_TRANSACTION_READ: 1416c4a5ef6eSThomas Moestl if (totaltransfersread > 0) { 1417c4a5ef6eSThomas Moestl *destld = etime; 1418c4a5ef6eSThomas Moestl *destld /= totaltransfersread; 1419c4a5ef6eSThomas Moestl *destld *= 1000; 1420c4a5ef6eSThomas Moestl } else 1421c4a5ef6eSThomas Moestl *destld = 0.0; 1422c4a5ef6eSThomas Moestl break; 1423c4a5ef6eSThomas Moestl case DSM_MS_PER_TRANSACTION_WRITE: 1424c4a5ef6eSThomas Moestl if (totaltransferswrite > 0) { 1425c4a5ef6eSThomas Moestl *destld = etime; 1426c4a5ef6eSThomas Moestl *destld /= totaltransferswrite; 1427c4a5ef6eSThomas Moestl *destld *= 1000; 1428c4a5ef6eSThomas Moestl } else 1429c4a5ef6eSThomas Moestl *destld = 0.0; 1430c4a5ef6eSThomas Moestl break; 1431c4a5ef6eSThomas Moestl default: 1432c4a5ef6eSThomas Moestl /* 1433c4a5ef6eSThomas Moestl * This shouldn't happen, since we should have 1434c4a5ef6eSThomas Moestl * caught any out of range metrics at the top of 1435c4a5ef6eSThomas Moestl * the loop. 1436c4a5ef6eSThomas Moestl */ 1437c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 1438c4a5ef6eSThomas Moestl "%s: unknown metric %d", func_name, metric); 1439c4a5ef6eSThomas Moestl retval = -1; 1440c4a5ef6eSThomas Moestl goto bailout; 1441c4a5ef6eSThomas Moestl break; /* NOTREACHED */ 1442c4a5ef6eSThomas Moestl } 1443c4a5ef6eSThomas Moestl } 1444c4a5ef6eSThomas Moestl 1445c4a5ef6eSThomas Moestl bailout: 1446c4a5ef6eSThomas Moestl 1447c4a5ef6eSThomas Moestl va_end(ap); 1448c4a5ef6eSThomas Moestl return(retval); 1449c4a5ef6eSThomas Moestl } 1450c4a5ef6eSThomas Moestl 1451c4a5ef6eSThomas Moestl static int 1452c4a5ef6eSThomas Moestl readkmem(kvm_t *kd, unsigned long addr, void *buf, size_t nbytes) 1453c4a5ef6eSThomas Moestl { 1454c3508206SKenneth D. Merry const char *func_name = "readkmem"; 1455c4a5ef6eSThomas Moestl 1456c4a5ef6eSThomas Moestl if (kvm_read(kd, addr, buf, nbytes) == -1) { 1457c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 1458c4a5ef6eSThomas Moestl "%s: error reading value (kvm_read): %s", func_name, 1459c4a5ef6eSThomas Moestl kvm_geterr(kd)); 1460c4a5ef6eSThomas Moestl return(-1); 1461c4a5ef6eSThomas Moestl } 1462c4a5ef6eSThomas Moestl return(0); 1463c4a5ef6eSThomas Moestl } 1464c4a5ef6eSThomas Moestl 1465c4a5ef6eSThomas Moestl static int 1466c3508206SKenneth D. Merry readkmem_nl(kvm_t *kd, const char *name, void *buf, size_t nbytes) 1467c4a5ef6eSThomas Moestl { 1468c3508206SKenneth D. Merry const char *func_name = "readkmem_nl"; 1469c3508206SKenneth D. Merry struct nlist nl[2]; 1470c3508206SKenneth D. Merry 1471c3508206SKenneth D. Merry (const char *)nl[0].n_name = name; 1472c3508206SKenneth D. Merry nl[1].n_name = NULL; 1473c4a5ef6eSThomas Moestl 1474c4a5ef6eSThomas Moestl if (kvm_nlist(kd, nl) == -1) { 1475c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 1476c4a5ef6eSThomas Moestl "%s: error getting name list (kvm_nlist): %s", 1477c4a5ef6eSThomas Moestl func_name, kvm_geterr(kd)); 1478c4a5ef6eSThomas Moestl return(-1); 1479c4a5ef6eSThomas Moestl } 1480c4a5ef6eSThomas Moestl return(readkmem(kd, nl[0].n_value, buf, nbytes)); 1481c4a5ef6eSThomas Moestl } 1482c4a5ef6eSThomas Moestl 1483c4a5ef6eSThomas Moestl /* 1484c4a5ef6eSThomas Moestl * This duplicates the functionality of the kernel sysctl handler for poking 1485c4a5ef6eSThomas Moestl * through crash dumps. 1486c4a5ef6eSThomas Moestl */ 1487c4a5ef6eSThomas Moestl static char * 1488c4a5ef6eSThomas Moestl get_devstat_kvm(kvm_t *kd) 1489c4a5ef6eSThomas Moestl { 1490c4a5ef6eSThomas Moestl int error, i, wp; 1491c4a5ef6eSThomas Moestl long gen; 1492c4a5ef6eSThomas Moestl struct devstat *nds; 1493c4a5ef6eSThomas Moestl struct devstat ds; 1494c4a5ef6eSThomas Moestl struct devstatlist dhead; 1495c4a5ef6eSThomas Moestl int num_devs; 1496c4a5ef6eSThomas Moestl char *rv = NULL; 1497c3508206SKenneth D. Merry const char *func_name = "get_devstat_kvm"; 1498c4a5ef6eSThomas Moestl 1499c4a5ef6eSThomas Moestl if ((num_devs = getnumdevs()) <= 0) 1500c4a5ef6eSThomas Moestl return(NULL); 1501c4a5ef6eSThomas Moestl error = 0; 1502c4a5ef6eSThomas Moestl if (KREADNL(kd, X_DEVICE_STATQ, dhead) == -1) 1503c4a5ef6eSThomas Moestl return(NULL); 1504c4a5ef6eSThomas Moestl 1505c4a5ef6eSThomas Moestl nds = STAILQ_FIRST(&dhead); 1506c4a5ef6eSThomas Moestl 1507c4a5ef6eSThomas Moestl if ((rv = malloc(sizeof(gen))) == NULL) { 1508c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 1509c4a5ef6eSThomas Moestl "%s: out of memory (initial malloc failed)", 1510c4a5ef6eSThomas Moestl func_name); 1511c4a5ef6eSThomas Moestl return(NULL); 1512c4a5ef6eSThomas Moestl } 1513c4a5ef6eSThomas Moestl gen = getgeneration(); 1514c4a5ef6eSThomas Moestl memcpy(rv, &gen, sizeof(gen)); 1515c4a5ef6eSThomas Moestl wp = sizeof(gen); 1516c4a5ef6eSThomas Moestl /* 1517c4a5ef6eSThomas Moestl * Now push out all the devices. 1518c4a5ef6eSThomas Moestl */ 1519c4a5ef6eSThomas Moestl for (i = 0; (nds != NULL) && (i < num_devs); 1520c4a5ef6eSThomas Moestl nds = STAILQ_NEXT(nds, dev_links), i++) { 1521c4a5ef6eSThomas Moestl if (readkmem(kd, (long)nds, &ds, sizeof(ds)) == -1) { 1522c4a5ef6eSThomas Moestl free(rv); 1523c4a5ef6eSThomas Moestl return(NULL); 1524c4a5ef6eSThomas Moestl } 1525c4a5ef6eSThomas Moestl nds = &ds; 1526c4a5ef6eSThomas Moestl rv = (char *)reallocf(rv, sizeof(gen) + 1527c4a5ef6eSThomas Moestl sizeof(ds) * (i + 1)); 1528c4a5ef6eSThomas Moestl if (rv == NULL) { 1529c4a5ef6eSThomas Moestl snprintf(devstat_errbuf, sizeof(devstat_errbuf), 1530c4a5ef6eSThomas Moestl "%s: out of memory (malloc failed)", 1531c4a5ef6eSThomas Moestl func_name); 1532c4a5ef6eSThomas Moestl return(NULL); 1533c4a5ef6eSThomas Moestl } 1534c4a5ef6eSThomas Moestl memcpy(rv + wp, &ds, sizeof(ds)); 1535c4a5ef6eSThomas Moestl wp += sizeof(ds); 1536c4a5ef6eSThomas Moestl } 1537c4a5ef6eSThomas Moestl return(rv); 1538c4a5ef6eSThomas Moestl } 1539c4a5ef6eSThomas Moestl 1540c4a5ef6eSThomas Moestl /* 1541c4a5ef6eSThomas Moestl * Compatability functions for libdevstat 2. These are deprecated and may 1542c4a5ef6eSThomas Moestl * eventually be removed. 1543c4a5ef6eSThomas Moestl */ 1544c4a5ef6eSThomas Moestl int 1545c4a5ef6eSThomas Moestl getnumdevs(void) 1546c4a5ef6eSThomas Moestl { 1547c4a5ef6eSThomas Moestl return(devstat_getnumdevs(NULL)); 1548c4a5ef6eSThomas Moestl } 1549c4a5ef6eSThomas Moestl 1550c4a5ef6eSThomas Moestl long 1551c4a5ef6eSThomas Moestl getgeneration(void) 1552c4a5ef6eSThomas Moestl { 1553c4a5ef6eSThomas Moestl return(devstat_getgeneration(NULL)); 1554c4a5ef6eSThomas Moestl } 1555c4a5ef6eSThomas Moestl 1556c4a5ef6eSThomas Moestl int 1557c4a5ef6eSThomas Moestl getversion(void) 1558c4a5ef6eSThomas Moestl { 1559c4a5ef6eSThomas Moestl return(devstat_getversion(NULL)); 1560c4a5ef6eSThomas Moestl } 1561c4a5ef6eSThomas Moestl 1562c4a5ef6eSThomas Moestl int 1563c4a5ef6eSThomas Moestl checkversion(void) 1564c4a5ef6eSThomas Moestl { 1565c4a5ef6eSThomas Moestl return(devstat_checkversion(NULL)); 1566c4a5ef6eSThomas Moestl } 1567c4a5ef6eSThomas Moestl 1568c4a5ef6eSThomas Moestl int 1569c4a5ef6eSThomas Moestl getdevs(struct statinfo *stats) 1570c4a5ef6eSThomas Moestl { 1571c4a5ef6eSThomas Moestl return(devstat_getdevs(NULL, stats)); 1572c4a5ef6eSThomas Moestl } 1573c4a5ef6eSThomas Moestl 1574c4a5ef6eSThomas Moestl int 1575c4a5ef6eSThomas Moestl selectdevs(struct device_selection **dev_select, int *num_selected, 1576c4a5ef6eSThomas Moestl int *num_selections, long *select_generation, 1577c4a5ef6eSThomas Moestl long current_generation, struct devstat *devices, int numdevs, 1578c4a5ef6eSThomas Moestl struct devstat_match *matches, int num_matches, 1579c4a5ef6eSThomas Moestl char **dev_selections, int num_dev_selections, 1580c4a5ef6eSThomas Moestl devstat_select_mode select_mode, int maxshowdevs, 1581c4a5ef6eSThomas Moestl int perf_select) 1582c4a5ef6eSThomas Moestl { 1583c4a5ef6eSThomas Moestl 1584c4a5ef6eSThomas Moestl return(devstat_selectdevs(dev_select, num_selected, num_selections, 1585c4a5ef6eSThomas Moestl select_generation, current_generation, devices, numdevs, 1586c4a5ef6eSThomas Moestl matches, num_matches, dev_selections, num_dev_selections, 1587c4a5ef6eSThomas Moestl select_mode, maxshowdevs, perf_select)); 1588c4a5ef6eSThomas Moestl } 1589c4a5ef6eSThomas Moestl 1590c4a5ef6eSThomas Moestl int 1591c4a5ef6eSThomas Moestl buildmatch(char *match_str, struct devstat_match **matches, 1592c4a5ef6eSThomas Moestl int *num_matches) 1593c4a5ef6eSThomas Moestl { 1594c4a5ef6eSThomas Moestl return(devstat_buildmatch(match_str, matches, num_matches)); 1595c4a5ef6eSThomas Moestl } 1596c4a5ef6eSThomas Moestl 1597c4a5ef6eSThomas Moestl long double 1598c4a5ef6eSThomas Moestl compute_etime(struct timeval cur_time, struct timeval prev_time) 1599c4a5ef6eSThomas Moestl { 1600c4a5ef6eSThomas Moestl return(devstat_compute_etime(cur_time, prev_time)); 1601c4a5ef6eSThomas Moestl } 1602