Current Path : /compat/linux/proc/self/root/usr/src/usr.sbin/mlxcontrol/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/self/root/usr/src/usr.sbin/mlxcontrol/command.c |
/*- * Copyright (c) 1999 Michael Smith * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD: release/9.1.0/usr.sbin/mlxcontrol/command.c 182965 2008-09-12 17:40:17Z sepotvin $ */ #include <fcntl.h> #include <paths.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <err.h> #include <dev/mlx/mlxio.h> #include <dev/mlx/mlxreg.h> #include "mlxcontrol.h" static int cmd_status(int argc, char *argv[]); static int cmd_rescan(int argc, char *argv[]); static int cmd_detach(int argc, char *argv[]); static int cmd_check(int argc, char *argv[]); static int cmd_rebuild(int argc, char *argv[]); #ifdef SUPPORT_PAUSE static int cmd_pause(int argc, char *argv[]); #endif static int cmd_help(int argc, char *argv[]); extern int cmd_config(int argc, char *argv[]); struct { char *cmd; int (*func)(int argc, char *argv[]); char *desc; char *text; } commands[] = { {"status", cmd_status, "displays device status", " status [-qv] [<drive>...]\n" " Display status for <drive> or all drives if none is listed\n" " -q Suppress output.\n" " -v Display verbose information.\n" " Returns 0 if all drives tested are online, 1 if one or more are\n" " critical, and 2 if one or more are offline."}, {"rescan", cmd_rescan, "scan for new system drives", " rescan <controller> [<controller>...]\n" " Rescan <controller> for system drives.\n" " rescan -a\n" " Rescan all controllers for system drives."}, {"detach", cmd_detach, "detach system drives", " detach <drive> [<drive>...]\n" " Detaches <drive> from the controller.\n" " detach -a <controller>\n" " Detaches all drives on <controller>."}, {"check", cmd_check, "consistency-check a system drive", " check <drive>\n" " Requests a check and rebuild of the parity information on <drive>.\n" " Note that each controller can only check one system drive at a time."}, {"rebuild", cmd_rebuild, "initiate a rebuild of a dead physical drive", " rebuild <controller> <physdrive>\n" " All system drives using space on the physical drive <physdrive>\n" " are rebuilt, reconstructing all data on the drive.\n" " Note that each controller can only perform one rebuild at a time."}, #ifdef SUPPORT_PAUSE {"pause", cmd_pause, "pauses controller channels", " pause [-t <howlong>] [-d <delay>] <controller> [<channel>...]\n" " Pauses SCSI I/O on <channel> and <controller>. If no channel is specified,\n" " all channels are paused.\n" " <howlong> How long (seconds) to pause for (default 30).\n" " <delay> How long (seconds) to wait before pausing (default 30).\n" " pause <controller> -c\n" " Cancels any pending pause operation on <controller>."}, #endif {"config", cmd_config, "examine and update controller configuration", " config <controller>\n" " Print configuration for <controller>."}, {"help", cmd_help, "give help on usage", ""}, {NULL, NULL, NULL, NULL} }; /******************************************************************************** * Command dispatch and global options parsing. */ int main(int argc, char *argv[]) { int ch, i, oargc; char **oargv; oargc = argc; oargv = argv; while ((ch = getopt(argc, argv, "")) != -1) switch(ch) { default: return(cmd_help(0, NULL)); } argc -= optind; argv += optind; if (argc > 0) for (i = 0; commands[i].cmd != NULL; i++) if (!strcmp(argv[0], commands[i].cmd)) return(commands[i].func(argc, argv)); return(cmd_help(oargc, oargv)); } /******************************************************************************** * Helptext output */ static int cmd_help(int argc, char *argv[]) { int i; if (argc > 1) for (i = 0; commands[i].cmd != NULL; i++) if (!strcmp(argv[1], commands[i].cmd)) { fprintf(stderr, "%s\n", commands[i].text); fflush(stderr); return(0); } if (argv != NULL) fprintf(stderr, "Unknown command '%s'.\n", argv[1]); fprintf(stderr, "Valid commands are:\n"); for (i = 0; commands[i].cmd != NULL; i++) fprintf(stderr, " %-20s %s\n", commands[i].cmd, commands[i].desc); fflush(stderr); return(0); } /******************************************************************************** * Status output * * status [-qv] [<device> ...] * Prints status for <device>, or all if none listed. * * -q Suppresses output, command returns 0 if devices are OK, 1 if one or * more devices are critical, 2 if one or more devices are offline. */ static struct mlx_rebuild_status rs; static int rs_ctrlr = -1; static int status_result = 0; /* XXX more verbosity! */ static void status_print(int unit, void *arg) { int verbosity = *(int *)arg; int fd, result, ctrlr, sysdrive, statvalid; /* Find which controller and what system drive we are */ statvalid = 0; if (mlxd_find_ctrlr(unit, &ctrlr, &sysdrive)) { warnx("couldn't get controller/drive for %s", drivepath(unit)); } else { /* If we don't have rebuild stats for this controller, get them */ if (rs_ctrlr == ctrlr) { statvalid = 1; } else { if ((fd = open(ctrlrpath(ctrlr), 0)) < 0) { warn("can't open %s", ctrlrpath(ctrlr)); } else { if (ioctl(fd, MLX_REBUILDSTAT, &rs) < 0) { warn("ioctl MLX_REBUILDSTAT"); } else { rs_ctrlr = ctrlr; statvalid = 1; } close(fd); } } } /* Get the device */ if ((fd = open(drivepath(unit), 0)) < 0) { warn("can't open %s", drivepath(unit)); return; } /* Get its status */ if (ioctl(fd, MLXD_STATUS, &result) < 0) { warn("ioctl MLXD_STATUS"); } else { switch(result) { case MLX_SYSD_ONLINE: if (verbosity > 0) printf("%s: online", drivename(unit)); break; case MLX_SYSD_CRITICAL: if (verbosity > 0) printf("%s: critical", drivename(unit)); if (status_result < 1) status_result = 1; break; case MLX_SYSD_OFFLINE: if (verbosity > 0) printf("%s: offline", drivename(unit)); if (status_result < 2) status_result = 2; break; default: if (verbosity > 0) { printf("%s: unknown status 0x%x", drivename(unit), result); } } if (verbosity > 0) { /* rebuild/check in progress on this drive? */ if (statvalid && (rs_ctrlr == ctrlr) && (rs.rs_drive == sysdrive) && (rs.rs_code != MLX_REBUILDSTAT_IDLE)) { switch(rs.rs_code) { case MLX_REBUILDSTAT_REBUILDCHECK: printf(" [consistency check"); break; case MLX_REBUILDSTAT_ADDCAPACITY: printf(" [add capacity"); break; case MLX_REBUILDSTAT_ADDCAPACITYINIT: printf(" [add capacity init"); break; default: printf(" [unknown operation"); } printf(": %d/%d, %d%% complete]", rs.rs_remaining, rs.rs_size, ((rs.rs_size - rs.rs_remaining) / (rs.rs_size / 100))); } printf("\n"); } } close(fd); } static struct { int hwid; char *name; } mlx_controller_names[] = { {0x01, "960P/PD"}, {0x02, "960PL"}, {0x10, "960PG"}, {0x11, "960PJ"}, {0x12, "960PR"}, {0x13, "960PT"}, {0x14, "960PTL0"}, {0x15, "960PRL"}, {0x16, "960PTL1"}, {0x20, "1100PVX"}, {-1, NULL} }; static void controller_print(int unit, void *arg) { struct mlx_enquiry2 enq; struct mlx_phys_drv pd; int verbosity = *(int *)arg; static char buf[80]; char *model; int i, channel, target; if (verbosity == 0) return; /* fetch and print controller data */ if (mlx_enquiry(unit, &enq)) { printf("mlx%d: error submitting ENQUIRY2\n", unit); } else { for (i = 0, model = NULL; mlx_controller_names[i].name != NULL; i++) { if ((enq.me_hardware_id & 0xff) == mlx_controller_names[i].hwid) { model = mlx_controller_names[i].name; break; } } if (model == NULL) { sprintf(buf, " model 0x%x", enq.me_hardware_id & 0xff); model = buf; } printf("mlx%d: DAC%s, %d channel%s, firmware %d.%02d-%c-%02d, %dMB RAM\n", unit, model, enq.me_actual_channels, enq.me_actual_channels > 1 ? "s" : "", enq.me_firmware_id & 0xff, (enq.me_firmware_id >> 8) & 0xff, (enq.me_firmware_id >> 16), (enq.me_firmware_id >> 24) & 0xff, enq.me_mem_size / (1024 * 1024)); if (verbosity > 1) { printf(" Hardware ID 0x%08x\n", enq.me_hardware_id); printf(" Firmware ID 0x%08x\n", enq.me_firmware_id); printf(" Configured/Actual channels %d/%d\n", enq.me_configured_channels, enq.me_actual_channels); printf(" Max Targets %d\n", enq.me_max_targets); printf(" Max Tags %d\n", enq.me_max_tags); printf(" Max System Drives %d\n", enq.me_max_sys_drives); printf(" Max Arms %d\n", enq.me_max_arms); printf(" Max Spans %d\n", enq.me_max_spans); printf(" DRAM/cache/flash/NVRAM size %d/%d/%d/%d\n", enq.me_mem_size, enq.me_cache_size, enq.me_flash_size, enq.me_nvram_size); printf(" DRAM type %d\n", enq.me_mem_type); printf(" Clock Speed %dns\n", enq.me_clock_speed); printf(" Hardware Speed %dns\n", enq.me_hardware_speed); printf(" Max Commands %d\n", enq.me_max_commands); printf(" Max SG Entries %d\n", enq.me_max_sg); printf(" Max DP %d\n", enq.me_max_dp); printf(" Max IOD %d\n", enq.me_max_iod); printf(" Max Comb %d\n", enq.me_max_comb); printf(" Latency %ds\n", enq.me_latency); printf(" SCSI Timeout %ds\n", enq.me_scsi_timeout); printf(" Min Free Lines %d\n", enq.me_min_freelines); printf(" Rate Constant %d\n", enq.me_rate_const); printf(" MAXBLK %d\n", enq.me_maxblk); printf(" Blocking Factor %d sectors\n", enq.me_blocking_factor); printf(" Cache Line Size %d blocks\n", enq.me_cacheline); printf(" SCSI Capability %s%dMHz, %d bit\n", enq.me_scsi_cap & (1<<4) ? "differential " : "", (1 << ((enq.me_scsi_cap >> 2) & 3)) * 10, 8 << (enq.me_scsi_cap & 0x3)); printf(" Firmware Build Number %d\n", enq.me_firmware_build); printf(" Fault Management Type %d\n", enq.me_fault_mgmt_type); #if 0 printf(" Features %b\n", enq.me_firmware_features, "\20\4Background Init\3Read Ahead\2MORE\1Cluster\n"); #endif } /* fetch and print physical drive data */ for (channel = 0; channel < enq.me_configured_channels; channel++) { for (target = 0; target < enq.me_max_targets; target++) { if ((mlx_get_device_state(unit, channel, target, &pd) == 0) && (pd.pd_flags1 & MLX_PHYS_DRV_PRESENT)) { mlx_print_phys_drv(&pd, channel, target, " ", verbosity - 1); if (verbosity > 1) { /* XXX print device statistics? */ } } } } } } static int cmd_status(int argc, char *argv[]) { int ch, verbosity = 1, i, unit; optreset = 1; optind = 1; while ((ch = getopt(argc, argv, "qv")) != -1) switch(ch) { case 'q': verbosity = 0; break; case 'v': verbosity = 2; break; default: return(cmd_help(argc, argv)); } argc -= optind; argv += optind; if (argc < 1) { mlx_foreach(controller_print, &verbosity); mlxd_foreach(status_print, &verbosity); } else { for (i = 0; i < argc; i++) { if ((unit = driveunit(argv[i])) == -1) { warnx("'%s' is not a valid drive", argv[i]); } else { status_print(unit, &verbosity); } } } return(status_result); } /******************************************************************************** * Recscan for system drives on one or more controllers. * * rescan <controller> [<controller>...] * rescan -a */ static void rescan_ctrlr(int unit, void *junk) { int fd; /* Get the device */ if ((fd = open(ctrlrpath(unit), 0)) < 0) { warn("can't open %s", ctrlrpath(unit)); return; } if (ioctl(fd, MLX_RESCAN_DRIVES) < 0) warn("can't rescan %s", ctrlrname(unit)); close(fd); } static int cmd_rescan(int argc, char *argv[]) { int all = 0, i, ch, unit; optreset = 1; optind = 1; while ((ch = getopt(argc, argv, "a")) != -1) switch(ch) { case 'a': all = 1; break; default: return(cmd_help(argc, argv)); } argc -= optind; argv += optind; if (all) { mlx_foreach(rescan_ctrlr, NULL); } else { for (i = 0; i < argc; i++) { if ((unit = ctrlrunit(argv[i])) == -1) { warnx("'%s' is not a valid controller", argv[i]); } else { rescan_ctrlr(unit, NULL); } } } return(0); } /******************************************************************************** * Detach one or more system drives from a controller. * * detach <drive> [<drive>...] * Detach <drive>. * * detach -a <controller> [<controller>...] * Detach all drives on <controller>. * */ static void detach_drive(int unit, void *arg) { int fd; /* Get the device */ if ((fd = open(ctrlrpath(unit), 0)) < 0) { warn("can't open %s", ctrlrpath(unit)); return; } if (ioctl(fd, MLX_DETACH_DRIVE, &unit) < 0) warn("can't detach %s", drivename(unit)); close(fd); } static int cmd_detach(int argc, char *argv[]) { struct mlxd_foreach_action ma; int all = 0, i, ch, unit; optreset = 1; optind = 1; while ((ch = getopt(argc, argv, "a")) != -1) switch(ch) { case 'a': all = 1; break; default: return(cmd_help(argc, argv)); } argc -= optind; argv += optind; if (all) { ma.func = detach_drive; ma.arg = &unit; for (i = 0; i < argc; i++) { if ((unit = ctrlrunit(argv[i])) == -1) { warnx("'%s' is not a valid controller", argv[i]); } else { mlxd_foreach_ctrlr(unit, &ma); } } } else { for (i = 0; i < argc; i++) { if ((unit = driveunit(argv[i])) == -1) { warnx("'%s' is not a valid drive", argv[i]); } else { /* run across all controllers to find this drive */ mlx_foreach(detach_drive, &unit); } } } return(0); } /******************************************************************************** * Initiate a consistency check on a system drive. * * check [<drive>] * Start a check of <drive> * */ static int cmd_check(int argc, char *argv[]) { int unit, fd, result; if (argc != 2) return(cmd_help(argc, argv)); if ((unit = driveunit(argv[1])) == -1) { warnx("'%s' is not a valid drive", argv[1]); } else { /* Get the device */ if ((fd = open(drivepath(unit), 0)) < 0) { warn("can't open %s", drivepath(unit)); } else { /* Try to start the check */ if ((ioctl(fd, MLXD_CHECKASYNC, &result)) < 0) { switch(result) { case 0x0002: warnx("one or more of the SCSI disks on which the drive '%s' depends is DEAD", argv[1]); break; case 0x0105: warnx("drive %s is invalid, or not a drive which can be checked", argv[1]); break; case 0x0106: warnx("drive rebuild or consistency check is already in progress on this controller"); break; default: warn("ioctl MLXD_CHECKASYNC"); } } } } return(0); } /******************************************************************************** * Initiate a physical drive rebuild * * rebuild <controller> <channel>:<target> * Start a rebuild of <controller>:<channel>:<target> * */ static int cmd_rebuild(int argc, char *argv[]) { struct mlx_rebuild_request rb; int unit, fd; if (argc != 3) return(cmd_help(argc, argv)); /* parse arguments */ if ((unit = ctrlrunit(argv[1])) == -1) { warnx("'%s' is not a valid controller", argv[1]); return(1); } /* try diskXXXX and unknownXXXX as we report the latter for a dead drive ... */ if ((sscanf(argv[2], "disk%2d%2d", &rb.rr_channel, &rb.rr_target) != 2) && (sscanf(argv[2], "unknown%2d%2d", &rb.rr_channel, &rb.rr_target) != 2)) { warnx("'%s' is not a valid physical drive", argv[2]); return(1); } /* get the device */ if ((fd = open(ctrlrpath(unit), 0)) < 0) { warn("can't open %s", ctrlrpath(unit)); return(1); } /* try to start the rebuild */ if ((ioctl(fd, MLX_REBUILDASYNC, &rb)) < 0) { switch(rb.rr_status) { case 0x0002: warnx("the drive at %d:%d is already ONLINE", rb.rr_channel, rb.rr_target); break; case 0x0004: warnx("drive failed during rebuild"); break; case 0x0105: warnx("there is no drive at channel %d, target %d", rb.rr_channel, rb.rr_target); break; case 0x0106: warnx("drive rebuild or consistency check is already in progress on this controller"); break; default: warn("ioctl MLXD_REBUILDASYNC"); } } return(0); } #ifdef SUPPORT_PAUSE /******************************************************************************** * Pause one or more channels on a controller * * pause [-d <delay>] [-t <time>] <controller> [<channel>...] * Pauses <channel> (or all channels) for <time> seconds after a * delay of <delay> seconds. * pause <controller> -c * Cancels pending pause */ static int cmd_pause(int argc, char *argv[]) { struct mlx_pause mp; int unit, i, ch, fd, cancel = 0; char *cp; int oargc = argc; char **oargv = argv; mp.mp_which = 0; mp.mp_when = 30; mp.mp_howlong = 30; optreset = 1; optind = 1; while ((ch = getopt(argc, argv, "cd:t:")) != -1) switch(ch) { case 'c': cancel = 1; break; case 'd': mp.mp_when = strtol(optarg, &cp, 0); if (*cp != 0) return(cmd_help(argc, argv)); break; case 't': mp.mp_howlong = strtol(optarg, &cp, 0); if (*cp != 0) return(cmd_help(argc, argv)); break; default: return(cmd_help(argc, argv)); } argc -= optind; argv += optind; /* get controller unit number that we're working on */ if ((argc < 1) || ((unit = ctrlrunit(argv[0])) == -1)) return(cmd_help(oargc, oargv)); /* Get the device */ if ((fd = open(ctrlrpath(unit), 0)) < 0) { warn("can't open %s", ctrlrpath(unit)); return(1); } if (argc == 1) { /* controller-wide pause/cancel */ mp.mp_which = cancel ? MLX_PAUSE_CANCEL : MLX_PAUSE_ALL; } else { for (i = 1; i < argc; i++) { ch = strtol(argv[i], &cp, 0); if (*cp != 0) { warnx("bad channel number '%s'", argv[i]); continue; } else { mp.mp_which |= (1 << ch); } } } if ((ioctl(fd, MLX_PAUSE_CHANNEL, &mp)) < 0) warn("couldn't %s %s", cancel ? "cancel pause on" : "pause", ctrlrname(unit)); close(fd); return(0); } #endif /* SUPPORT_PAUSE */