/* $OpenBSD: bioctl.c,v 1.76 2008/08/22 06:41:36 jmc Exp $ */ /* * Copyright (c) 2004, 2005 Marco Peereboom * 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 AUTHORS 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 AUTHORS 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. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "pbkdf2.h" struct locator { int channel; int target; int lun; }; void usage(void); const char *str2locator(const char *, struct locator *); void cleanup(void); int bio_parse_devlist(char *, dev_t *); void bio_kdf_derive(struct sr_crypto_kdfinfo *, struct sr_crypto_kdf_pbkdf2 *); void bio_kdf_generate(struct sr_crypto_kdfinfo *); void derive_key_pkcs(int, u_int8_t *, size_t, u_int8_t *, size_t, int); void bio_inq(char *); void bio_alarm(char *); int bio_getvolbyname(char *); void bio_setstate(char *, int, char *); void bio_setblink(char *, char *, int); void bio_blink(char *, int, int); void bio_createraid(u_int16_t, char *); void bio_deleteraid(char *); u_int32_t bio_createflags(char *); char *bio_vis(char *); void bio_diskinq(char *); int devh = -1; int human; int verbose; u_int32_t cflags = 0; int rflag = 8192; struct bio_locate bl; int main(int argc, char *argv[]) { extern char *optarg; u_int64_t func = 0; /* u_int64_t subfunc = 0; */ char *bioc_dev = NULL, *sd_dev = NULL; char *realname = NULL, *al_arg = NULL; char *bl_arg = NULL, *dev_list = NULL; const char *errstr; int ch, rv, blink = 0, diskinq = 0, ss_func = 0; u_int16_t cr_level = 0; if (argc < 2) usage(); while ((ch = getopt(argc, argv, "a:b:C:c:dH:hil:qr:R:vu:")) != -1) { switch (ch) { case 'a': /* alarm */ func |= BIOC_ALARM; al_arg = optarg; break; case 'b': /* blink */ func |= BIOC_BLINK; blink = BIOC_SBBLINK; bl_arg = optarg; break; case 'C': /* creation flags */ cflags = bio_createflags(optarg); break; case 'c': /* create */ func |= BIOC_CREATERAID; if (isdigit(*optarg)) cr_level = atoi(optarg); else cr_level = *optarg; break; case 'd': /* delete volume */ func |= BIOC_DELETERAID; break; case 'u': /* unblink */ func |= BIOC_BLINK; blink = BIOC_SBUNBLINK; bl_arg = optarg; break; case 'H': /* set hotspare */ func |= BIOC_SETSTATE; ss_func = BIOC_SSHOTSPARE; al_arg = optarg; break; case 'h': human = 1; break; case 'i': /* inquiry */ func |= BIOC_INQ; break; case 'l': /* device list */ func |= BIOC_DEVLIST; dev_list = optarg; break; case 'r': rflag = strtonum(optarg, 1000, 1<<30, &errstr); if (errstr != NULL) errx(1, "Number of rounds is %s: %s", errstr, optarg); break; case 'R': /* rebuild to provided chunk/CTL */ func |= BIOC_SETSTATE; ss_func = BIOC_SSREBUILD; al_arg = optarg; break; case 'v': verbose = 1; break; case 'q': diskinq = 1; break; default: usage(); /* NOTREACHED */ } } argc -= optind; argv += optind; if (argc != 1) usage(); if (func == 0) func |= BIOC_INQ; /* if at least glob sd[0-9]*, it is a drive identifier */ if (strncmp(argv[0], "sd", 2) == 0 && strlen(argv[0]) > 2 && isdigit(argv[0][2])) sd_dev = argv[0]; else bioc_dev = argv[0]; if (bioc_dev) { devh = open("/dev/bio", O_RDWR); if (devh == -1) err(1, "Can't open %s", "/dev/bio"); bl.bl_name = bioc_dev; rv = ioctl(devh, BIOCLOCATE, &bl); if (rv == -1) errx(1, "Can't locate %s device via %s", bl.bl_name, "/dev/bio"); } else if (sd_dev) { devh = opendev(sd_dev, O_RDWR, OPENDEV_PART, &realname); if (devh == -1) err(1, "Can't open %s", sd_dev); } else errx(1, "need -d or -f parameter"); if (diskinq) { bio_diskinq(sd_dev); } else if (func & BIOC_INQ) { bio_inq(sd_dev); } else if (func == BIOC_ALARM) { bio_alarm(al_arg); } else if (func == BIOC_BLINK) { bio_setblink(sd_dev, bl_arg, blink); } else if (func == BIOC_SETSTATE) { bio_setstate(al_arg, ss_func, argv[0]); } else if (func == BIOC_DELETERAID && sd_dev != NULL) { bio_deleteraid(sd_dev); } else if (func & BIOC_CREATERAID || func & BIOC_DEVLIST) { if (!(func & BIOC_CREATERAID)) errx(1, "need -c parameter"); if (!(func & BIOC_DEVLIST)) errx(1, "need -l parameter"); if (sd_dev) errx(1, "can't use sd device"); bio_createraid(cr_level, dev_list); } return (0); } void usage(void) { extern char *__progname; fprintf(stderr, "usage: %s [-dhiqv] [-a alarm-function] " "[-b channel:target[.lun]]\n" "\t[-C flag[,flag,...]] [-c raidlevel] " "[-H channel:target[.lun]]\n" "\t[-l special[,special,...]] " "[-R device|channel:target[.lun]\n" "\t[-r rounds] [-u channel:target[.lun]] " "device\n", __progname); exit(1); } const char * str2locator(const char *string, struct locator *location) { const char *errstr; char parse[80], *targ, *lun; strlcpy(parse, string, sizeof parse); targ = strchr(parse, ':'); if (targ == NULL) return ("target not specified"); *targ++ = '\0'; lun = strchr(targ, '.'); if (lun != NULL) { *lun++ = '\0'; location->lun = strtonum(lun, 0, 256, &errstr); if (errstr) return (errstr); } else location->lun = 0; location->target = strtonum(targ, 0, 256, &errstr); if (errstr) return (errstr); location->channel = strtonum(parse, 0, 256, &errstr); if (errstr) return (errstr); return (NULL); } void bio_inq(char *name) { char *status, size[64], scsiname[16], volname[32]; char percent[10], seconds[20]; int rv, i, d, volheader, hotspare, unused; char encname[16], serial[32]; struct bioc_disk bd; struct bioc_inq bi; struct bioc_vol bv; memset(&bi, 0, sizeof(bi)); bi.bi_cookie = bl.bl_cookie; rv = ioctl(devh, BIOCINQ, &bi); if (rv == -1) { if (errno == ENOTTY) bio_diskinq(name); else err(1, "BIOCINQ"); return; } volheader = 0; for (i = 0; i < bi.bi_novol; i++) { memset(&bv, 0, sizeof(bv)); bv.bv_cookie = bl.bl_cookie; bv.bv_volid = i; bv.bv_percent = -1; bv.bv_seconds = 0; rv = ioctl(devh, BIOCVOL, &bv); if (rv == -1) err(1, "BIOCVOL"); if (name && strcmp(name, bv.bv_dev) != 0) continue; if (!volheader) { volheader = 1; printf("%-7s %-10s %14s %-8s\n", "Volume", "Status", "Size", "Device"); } percent[0] = '\0'; seconds[0] = '\0'; if (bv.bv_percent != -1) snprintf(percent, sizeof percent, " %d%% done", bv.bv_percent); if (bv.bv_seconds) snprintf(seconds, sizeof seconds, " %u seconds", bv.bv_seconds); switch (bv.bv_status) { case BIOC_SVONLINE: status = BIOC_SVONLINE_S; break; case BIOC_SVOFFLINE: status = BIOC_SVOFFLINE_S; break; case BIOC_SVDEGRADED: status = BIOC_SVDEGRADED_S; break; case BIOC_SVBUILDING: status = BIOC_SVBUILDING_S; break; case BIOC_SVREBUILD: status = BIOC_SVREBUILD_S; break; case BIOC_SVSCRUB: status = BIOC_SVSCRUB_S; break; case BIOC_SVINVALID: default: status = BIOC_SVINVALID_S; } snprintf(volname, sizeof volname, "%s %u", bi.bi_dev, bv.bv_volid); unused = 0; hotspare = 0; if (bv.bv_level == -1 && bv.bv_nodisk == 1) hotspare = 1; else if (bv.bv_level == -2 && bv.bv_nodisk == 1) unused = 1; else { if (human) fmt_scaled(bv.bv_size, size); else snprintf(size, sizeof size, "%14llu", bv.bv_size); switch (bv.bv_level) { case 'C': printf("%7s %-10s %14s %-7s CRYPTO%s%s\n", volname, status, size, bv.bv_dev, percent, seconds); break; default: printf("%7s %-10s %14s %-7s RAID%u%s%s\n", volname, status, size, bv.bv_dev, bv.bv_level, percent, seconds); break; } } for (d = 0; d < bv.bv_nodisk; d++) { memset(&bd, 0, sizeof(bd)); bd.bd_cookie = bl.bl_cookie; bd.bd_diskid = d; bd.bd_volid = i; rv = ioctl(devh, BIOCDISK, &bd); if (rv == -1) err(1, "BIOCDISK"); switch (bd.bd_status) { case BIOC_SDONLINE: status = BIOC_SDONLINE_S; break; case BIOC_SDOFFLINE: status = BIOC_SDOFFLINE_S; break; case BIOC_SDFAILED: status = BIOC_SDFAILED_S; break; case BIOC_SDREBUILD: status = BIOC_SDREBUILD_S; break; case BIOC_SDHOTSPARE: status = BIOC_SDHOTSPARE_S; break; case BIOC_SDUNUSED: status = BIOC_SDUNUSED_S; break; case BIOC_SDSCRUB: status = BIOC_SDSCRUB_S; break; case BIOC_SDINVALID: default: status = BIOC_SDINVALID_S; } if (hotspare || unused) ; /* use volname from parent volume */ else snprintf(volname, sizeof volname, " %3u", bd.bd_diskid); if (human) fmt_scaled(bd.bd_size, size); else snprintf(size, sizeof size, "%14llu", bd.bd_size); snprintf(scsiname, sizeof scsiname, "%u:%u.%u", bd.bd_channel, bd.bd_target, bd.bd_lun); if (bd.bd_procdev[0]) strlcpy(encname, bd.bd_procdev, sizeof encname); else strlcpy(encname, "noencl", sizeof encname); if (bd.bd_serial[0]) strlcpy(serial, bd.bd_serial, sizeof serial); else strlcpy(serial, "unknown serial", sizeof serial); printf("%7s %-10s %14s %-7s %-6s <%s>\n", volname, status, size, scsiname, encname, bd.bd_vendor); if (verbose) printf("%7s %-10s %14s %-7s %-6s '%s'\n", "", "", "", "", "", serial); } } } void bio_alarm(char *arg) { int rv; struct bioc_alarm ba; ba.ba_cookie = bl.bl_cookie; switch (arg[0]) { case 'q': /* silence alarm */ /* FALLTHROUGH */ case 's': ba.ba_opcode = BIOC_SASILENCE; break; case 'e': /* enable alarm */ ba.ba_opcode = BIOC_SAENABLE; break; case 'd': /* disable alarm */ ba.ba_opcode = BIOC_SADISABLE; break; case 't': /* test alarm */ ba.ba_opcode = BIOC_SATEST; break; case 'g': /* get alarm state */ ba.ba_opcode = BIOC_GASTATUS; break; default: errx(1, "invalid alarm function: %s", arg); } rv = ioctl(devh, BIOCALARM, &ba); if (rv == -1) err(1, "BIOCALARM"); if (arg[0] == 'g') { printf("alarm is currently %s\n", ba.ba_status ? "enabled" : "disabled"); } } int bio_getvolbyname(char *name) { int id = -1, i, rv; struct bioc_inq bi; struct bioc_vol bv; memset(&bi, 0, sizeof(bi)); bi.bi_cookie = bl.bl_cookie; rv = ioctl(devh, BIOCINQ, &bi); if (rv == -1) err(1, "BIOCINQ"); for (i = 0; i < bi.bi_novol; i++) { memset(&bv, 0, sizeof(bv)); bv.bv_cookie = bl.bl_cookie; bv.bv_volid = i; rv = ioctl(devh, BIOCVOL, &bv); if (rv == -1) err(1, "BIOCVOL"); if (name && strcmp(name, bv.bv_dev) != 0) continue; id = i; break; } return (id); } void bio_setstate(char *arg, int status, char *devname) { struct bioc_setstate bs; struct locator location; struct stat sb; const char *errstr; int rv; memset(&bs, 0, sizeof(bs)); if (stat(arg, &sb) == -1) { /* use CTL */ errstr = str2locator(arg, &location); if (errstr) errx(1, "Target %s: %s", arg, errstr); bs.bs_channel = location.channel; bs.bs_target = location.target; bs.bs_lun = location.lun; } else { /* use other id */ bs.bs_other_id = sb.st_rdev; bs.bs_other_id_type = BIOC_SSOTHER_DEVT; } bs.bs_cookie = bl.bl_cookie; bs.bs_status = status; /* make sure user supplied a sd device */ bs.bs_volid = bio_getvolbyname(devname); if (bs.bs_volid == -1) errx(1, "invalid device %s", devname); rv = ioctl(devh, BIOCSETSTATE, &bs); if (rv == -1) err(1, "BIOCSETSTATE"); } void bio_setblink(char *name, char *arg, int blink) { struct locator location; struct bioc_inq bi; struct bioc_vol bv; struct bioc_disk bd; struct bioc_blink bb; const char *errstr; int v, d, rv; errstr = str2locator(arg, &location); if (errstr) errx(1, "Target %s: %s", arg, errstr); /* try setting blink on the device directly */ memset(&bb, 0, sizeof(bb)); bb.bb_cookie = bl.bl_cookie; bb.bb_status = blink; bb.bb_target = location.target; bb.bb_channel = location.channel; rv = ioctl(devh, BIOCBLINK, &bb); if (rv == 0) return; /* if the blink didnt work, try to find something that will */ memset(&bi, 0, sizeof(bi)); bi.bi_cookie = bl.bl_cookie; rv = ioctl(devh, BIOCINQ, &bi); if (rv == -1) err(1, "BIOCINQ"); for (v = 0; v < bi.bi_novol; v++) { memset(&bv, 0, sizeof(bv)); bv.bv_cookie = bl.bl_cookie; bv.bv_volid = v; rv = ioctl(devh, BIOCVOL, &bv); if (rv == -1) err(1, "BIOCVOL"); if (name && strcmp(name, bv.bv_dev) != 0) continue; for (d = 0; d < bv.bv_nodisk; d++) { memset(&bd, 0, sizeof(bd)); bd.bd_cookie = bl.bl_cookie; bd.bd_volid = v; bd.bd_diskid = d; rv = ioctl(devh, BIOCDISK, &bd); if (rv == -1) err(1, "BIOCDISK"); if (bd.bd_channel == location.channel && bd.bd_target == location.target && bd.bd_lun == location.lun) { if (bd.bd_procdev[0] != '\0') { bio_blink(bd.bd_procdev, location.target, blink); } else warnx("Disk %s is not in an enclosure", arg); return; } } } warnx("Disk %s does not exist", arg); return; } void bio_blink(char *enclosure, int target, int blinktype) { int bioh; struct bio_locate bio; struct bioc_blink blink; int rv; bioh = open("/dev/bio", O_RDWR); if (bioh == -1) err(1, "Can't open %s", "/dev/bio"); bio.bl_name = enclosure; rv = ioctl(bioh, BIOCLOCATE, &bio); if (rv == -1) errx(1, "Can't locate %s device via %s", enclosure, "/dev/bio"); memset(&blink, 0, sizeof(blink)); blink.bb_cookie = bio.bl_cookie; blink.bb_status = blinktype; blink.bb_target = target; rv = ioctl(bioh, BIOCBLINK, &blink); if (rv == -1) err(1, "BIOCBLINK"); close(bioh); } void bio_createraid(u_int16_t level, char *dev_list) { struct bioc_createraid create; struct sr_crypto_kdfinfo kdfinfo; struct sr_crypto_kdf_pbkdf2 kdfhint; int rv, no_dev; dev_t *dt; u_int16_t min_disks = 0; if (!dev_list) errx(1, "no devices specified"); dt = (dev_t *)malloc(BIOC_CRMAXLEN); if (!dt) err(1, "not enough memory for dev_t list"); memset(dt, 0, BIOC_CRMAXLEN); no_dev = bio_parse_devlist(dev_list, dt); switch (level) { case 0: min_disks = 2; break; case 1: min_disks = 2; break; case 'C': min_disks = 1; break; case 'c': min_disks = 1; break; default: errx(1, "unsupported raid level"); } if (no_dev < min_disks) errx(1, "not enough disks"); /* for crypto raid we only allow one single chunk */ if (level == 'C' && no_dev != min_disks) errx(1, "not exactly one disks"); memset(&create, 0, sizeof(create)); create.bc_cookie = bl.bl_cookie; create.bc_level = level; create.bc_dev_list_len = no_dev * sizeof(dev_t); create.bc_dev_list = dt; create.bc_flags = BIOC_SCDEVT | cflags; if (level == 'C') { memset(&kdfinfo, 0, sizeof(kdfinfo)); memset(&kdfhint, 0, sizeof(kdfhint)); create.bc_opaque = &kdfhint; create.bc_opaque_size = sizeof(kdfhint); create.bc_opaque_flags = BIOC_SOOUT; /* try to get KDF hint */ if (ioctl(devh, BIOCCREATERAID, &create) == -1) err(1, "ioctl"); if (create.bc_opaque_status == BIOC_SOINOUT_OK) { bio_kdf_derive(&kdfinfo, &kdfhint); memset(&kdfhint, 0, sizeof(kdfhint)); } else { bio_kdf_generate(&kdfinfo); /* no auto assembling */ create.bc_flags |= BIOC_SCNOAUTOASSEMBLE; } create.bc_opaque = &kdfinfo; create.bc_opaque_size = sizeof(kdfinfo); create.bc_opaque_flags = BIOC_SOIN; } rv = ioctl(devh, BIOCCREATERAID, &create); memset(&kdfinfo, 0, sizeof(kdfinfo)); memset(&create, 0, sizeof(create)); if (rv == -1) { if (errno == EPERM) errx(1, "Incorrect passphrase"); err(1, "BIOCCREATERAID"); } free(dt); } void bio_kdf_derive(struct sr_crypto_kdfinfo *kdfinfo, struct sr_crypto_kdf_pbkdf2 *kdfhint) { if (!kdfinfo) errx(1, "invalid KDF info"); if (!kdfhint) errx(1, "invalid KDF hint"); if (kdfhint->len != sizeof(*kdfhint)) errx(1, "KDF hint has invalid size"); if (kdfhint->type != SR_CRYPTOKDFT_PBKDF2) errx(1, "unknown KDF type %d", kdfhint->type); if (kdfhint->rounds < 1000) errx(1, "number of KDF rounds too low: %d", kdfhint->rounds); kdfinfo->flags = SR_CRYPTOKDF_KEY; kdfinfo->len = sizeof(*kdfinfo); derive_key_pkcs(kdfhint->rounds, kdfinfo->maskkey, sizeof(kdfinfo->maskkey), kdfhint->salt, sizeof(kdfhint->salt), 0); } void bio_kdf_generate(struct sr_crypto_kdfinfo *kdfinfo) { if (!kdfinfo) errx(1, "invalid KDF info"); kdfinfo->pbkdf2.len = sizeof(kdfinfo->pbkdf2); kdfinfo->pbkdf2.type = SR_CRYPTOKDFT_PBKDF2; kdfinfo->pbkdf2.rounds = rflag; kdfinfo->len = sizeof(*kdfinfo); kdfinfo->flags = (SR_CRYPTOKDF_KEY | SR_CRYPTOKDF_HINT); /* generate salt */ arc4random_buf(kdfinfo->pbkdf2.salt, sizeof(kdfinfo->pbkdf2.salt)); derive_key_pkcs(kdfinfo->pbkdf2.rounds, kdfinfo->maskkey, sizeof(kdfinfo->maskkey), kdfinfo->pbkdf2.salt, sizeof(kdfinfo->pbkdf2.salt), 1); } int bio_parse_devlist(char *lst, dev_t *dt) { char *s, *e; u_int32_t sz = 0; int no_dev = 0, i, x; struct stat sb; char dev[MAXPATHLEN]; if (!lst) errx(1, "invalid device list"); s = e = lst; /* make sure we have a valid device list like /dev/sdNa,/dev/sdNNa */ while (*e != '\0') { if (*e == ',') s = e + 1; else if (*(e + 1) == '\0' || *(e + 1) == ',') { /* got one */ sz = e - s + 1; strlcpy(dev, s, sz + 1); if (stat(dev, &sb) == -1) err(1, "could not stat %s", dev); dt[no_dev] = sb.st_rdev; no_dev++; if (no_dev > (int)(BIOC_CRMAXLEN / sizeof(dev_t))) errx(1, "too many devices on device list"); } e++; } for (i = 0; i < no_dev; i++) for (x = 0; x < no_dev; x++) if (dt[i] == dt[x] && x != i) errx(1, "duplicate device in list"); return (no_dev); } u_int32_t bio_createflags(char *lst) { char *s, *e, fs[32]; u_int32_t sz = 0; u_int32_t flags = 0; if (!lst) errx(1, "invalid flags list"); s = e = lst; /* make sure we have a valid flags list like force,noassemeble */ while (*e != '\0') { if (*e == ',') s = e + 1; else if (*(e + 1) == '\0' || *(e + 1) == ',') { /* got one */ sz = e - s + 1; switch (s[0]) { case 'f': flags |= BIOC_SCFORCE; break; case 'n': flags |= BIOC_SCNOAUTOASSEMBLE; break; default: strlcpy(fs, s, sz + 1); errx(1, "invalid flag %s", fs); } } e++; } return (flags); } void bio_deleteraid(char *dev) { struct bioc_deleteraid bd; memset(&bd, 0, sizeof(bd)); bd.bd_cookie = bd.bd_cookie; /* XXX make this a dev_t instead of a string */ strlcpy(bd.bd_dev, dev, sizeof bd.bd_dev); if (ioctl(devh, BIOCDELETERAID, &bd)) errx(1, "delete volume %s failed", dev); } #define BIOCTL_VIS_NBUF 4 #define BIOCTL_VIS_BUFLEN 80 char * bio_vis(char *s) { static char rbuf[BIOCTL_VIS_NBUF][BIOCTL_VIS_BUFLEN]; static uint idx = 0; char *buf; buf = rbuf[idx++]; if (idx == BIOCTL_VIS_NBUF) idx = 0; strnvis(buf, s, BIOCTL_VIS_BUFLEN, VIS_NL|VIS_CSTYLE); return (buf); } void bio_diskinq(char *sd_dev) { struct dk_inquiry di; if (ioctl(devh, DIOCINQ, &di) == -1) err(1, "DIOCINQ"); printf("%s: <%s, %s, %s>, serial %s\n", sd_dev, bio_vis(di.vendor), bio_vis(di.product), bio_vis(di.revision), bio_vis(di.serial)); } void derive_key_pkcs(int rounds, u_int8_t *key, size_t keysz, u_int8_t *salt, size_t saltsz, int verify) { char passphrase[1024], verifybuf[1024]; if (!key) errx(1, "Invalid key"); if (!salt) errx(1, "Invalid salt"); if (rounds < 1000) errx(1, "Too less rounds: %d", rounds); /* get passphrase */ if (readpassphrase("Passphrase: ", passphrase, sizeof(passphrase), RPP_REQUIRE_TTY) == NULL) errx(1, "unable to read passphrase"); if (verify) { /* request user to re-type it */ if (readpassphrase("Re-type passphrase: ", verifybuf, sizeof(verifybuf), RPP_REQUIRE_TTY) == NULL) { memset(passphrase, 0, sizeof(passphrase)); errx(1, "unable to read passphrase"); } if ((strlen(passphrase) != strlen(verifybuf)) || (strcmp(passphrase, verifybuf) != 0)) { memset(passphrase, 0, sizeof(passphrase)); memset(verifybuf, 0, sizeof(verifybuf)); errx(1, "Passphrases did not match"); } /* forget the re-typed one */ memset(verifybuf, 0, strlen(verifybuf)); } /* derive key from passphrase */ if (pkcs5_pbkdf2(passphrase, strlen(passphrase), salt, saltsz, key, keysz, rounds) != 0) errx(1, "pbkdf2 failed"); /* forget passphrase */ memset(passphrase, 0, sizeof(passphrase)); return; }