1a56bb8a5SSatoshi Asami /* 23b1746dfSPoul-Henning Kamp * Copyright (c) 2003 Poul-Henning Kamp. 3a56bb8a5SSatoshi Asami * Copyright (c) 1995 Jason R. Thorpe. 4a56bb8a5SSatoshi Asami * Copyright (c) 1990, 1993 5a56bb8a5SSatoshi Asami * The Regents of the University of California. All rights reserved. 63b1746dfSPoul-Henning Kamp * All rights reserved. 73b1746dfSPoul-Henning Kamp * Copyright (c) 1988 University of Utah. 8a56bb8a5SSatoshi Asami * 9a56bb8a5SSatoshi Asami * This code is derived from software contributed to Berkeley by 10a56bb8a5SSatoshi Asami * the Systems Programming Group of the University of Utah Computer 11a56bb8a5SSatoshi Asami * Science Department. 12a56bb8a5SSatoshi Asami * 13a56bb8a5SSatoshi Asami * Redistribution and use in source and binary forms, with or without 14a56bb8a5SSatoshi Asami * modification, are permitted provided that the following conditions 15a56bb8a5SSatoshi Asami * are met: 16a56bb8a5SSatoshi Asami * 1. Redistributions of source code must retain the above copyright 17a56bb8a5SSatoshi Asami * notice, this list of conditions and the following disclaimer. 18a56bb8a5SSatoshi Asami * 2. Redistributions in binary form must reproduce the above copyright 19a56bb8a5SSatoshi Asami * notice, this list of conditions and the following disclaimer in the 20a56bb8a5SSatoshi Asami * documentation and/or other materials provided with the distribution. 21a56bb8a5SSatoshi Asami * 3. All advertising materials mentioning features or use of this software 22a56bb8a5SSatoshi Asami * must display the following acknowledgement: 233b1746dfSPoul-Henning Kamp * This product includes software developed for the NetBSD Project 243b1746dfSPoul-Henning Kamp * by Jason R. Thorpe. 253b1746dfSPoul-Henning Kamp * 4. The names of the authors may not be used to endorse or promote products 263b1746dfSPoul-Henning Kamp * derived from this software without specific prior written permission. 27a56bb8a5SSatoshi Asami * 283b1746dfSPoul-Henning Kamp * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 293b1746dfSPoul-Henning Kamp * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 303b1746dfSPoul-Henning Kamp * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 313b1746dfSPoul-Henning Kamp * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 323b1746dfSPoul-Henning Kamp * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 333b1746dfSPoul-Henning Kamp * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 343b1746dfSPoul-Henning Kamp * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 353b1746dfSPoul-Henning Kamp * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 363b1746dfSPoul-Henning Kamp * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 37a56bb8a5SSatoshi Asami * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 38a56bb8a5SSatoshi Asami * SUCH DAMAGE. 39a56bb8a5SSatoshi Asami * 40a56bb8a5SSatoshi Asami * Dynamic configuration and disklabel support by: 41a56bb8a5SSatoshi Asami * Jason R. Thorpe <thorpej@nas.nasa.gov> 42a56bb8a5SSatoshi Asami * Numerical Aerodynamic Simulation Facility 43a56bb8a5SSatoshi Asami * Mail Stop 258-6 44a56bb8a5SSatoshi Asami * NASA Ames Research Center 45a56bb8a5SSatoshi Asami * Moffett Field, CA 94035 463b1746dfSPoul-Henning Kamp * 473b1746dfSPoul-Henning Kamp * from: Utah $Hdr: cd.c 1.6 90/11/28$ 483b1746dfSPoul-Henning Kamp * 493b1746dfSPoul-Henning Kamp * @(#)cd.c 8.2 (Berkeley) 11/16/93 503b1746dfSPoul-Henning Kamp * 513b1746dfSPoul-Henning Kamp * $NetBSD: ccd.c,v 1.22 1995/12/08 19:13:26 thorpej Exp $ 523b1746dfSPoul-Henning Kamp * 533b1746dfSPoul-Henning Kamp * $FreeBSD$ 54a56bb8a5SSatoshi Asami */ 55a56bb8a5SSatoshi Asami 56a56bb8a5SSatoshi Asami #include <sys/param.h> 57a56bb8a5SSatoshi Asami #include <sys/systm.h> 58e2a13e8cSSatoshi Asami #include <sys/kernel.h> 59b7b98418SPeter Wemm #include <sys/module.h> 609626b608SPoul-Henning Kamp #include <sys/bio.h> 61a56bb8a5SSatoshi Asami #include <sys/malloc.h> 62189337d8SPoul-Henning Kamp #include <geom/geom.h> 63a56bb8a5SSatoshi Asami 640f557e0aSPoul-Henning Kamp /* 653a3fcd72SPoul-Henning Kamp * Number of blocks to untouched in front of a component partition. 663a3fcd72SPoul-Henning Kamp * This is to avoid violating its disklabel area when it starts at the 673a3fcd72SPoul-Henning Kamp * beginning of the slice. 680f557e0aSPoul-Henning Kamp */ 693a3fcd72SPoul-Henning Kamp #if !defined(CCD_OFFSET) 703a3fcd72SPoul-Henning Kamp #define CCD_OFFSET 16 713a3fcd72SPoul-Henning Kamp #endif 723a3fcd72SPoul-Henning Kamp 733a3fcd72SPoul-Henning Kamp /* sc_flags */ 743a3fcd72SPoul-Henning Kamp #define CCDF_UNIFORM 0x02 /* use LCCD of sizes for uniform interleave */ 753a3fcd72SPoul-Henning Kamp #define CCDF_MIRROR 0x04 /* use mirroring */ 763a3fcd72SPoul-Henning Kamp 773a3fcd72SPoul-Henning Kamp /* Mask of user-settable ccd flags. */ 783a3fcd72SPoul-Henning Kamp #define CCDF_USERMASK (CCDF_UNIFORM|CCDF_MIRROR) 790f557e0aSPoul-Henning Kamp 800f557e0aSPoul-Henning Kamp /* 810f557e0aSPoul-Henning Kamp * Interleave description table. 820f557e0aSPoul-Henning Kamp * Computed at boot time to speed irregular-interleave lookups. 830f557e0aSPoul-Henning Kamp * The idea is that we interleave in "groups". First we interleave 840f557e0aSPoul-Henning Kamp * evenly over all component disks up to the size of the smallest 850f557e0aSPoul-Henning Kamp * component (the first group), then we interleave evenly over all 860f557e0aSPoul-Henning Kamp * remaining disks up to the size of the next-smallest (second group), 870f557e0aSPoul-Henning Kamp * and so on. 880f557e0aSPoul-Henning Kamp * 890f557e0aSPoul-Henning Kamp * Each table entry describes the interleave characteristics of one 900f557e0aSPoul-Henning Kamp * of these groups. For example if a concatenated disk consisted of 910f557e0aSPoul-Henning Kamp * three components of 5, 3, and 7 DEV_BSIZE blocks interleaved at 920f557e0aSPoul-Henning Kamp * DEV_BSIZE (1), the table would have three entries: 930f557e0aSPoul-Henning Kamp * 940f557e0aSPoul-Henning Kamp * ndisk startblk startoff dev 950f557e0aSPoul-Henning Kamp * 3 0 0 0, 1, 2 960f557e0aSPoul-Henning Kamp * 2 9 3 0, 2 970f557e0aSPoul-Henning Kamp * 1 13 5 2 980f557e0aSPoul-Henning Kamp * 0 - - - 990f557e0aSPoul-Henning Kamp * 1000f557e0aSPoul-Henning Kamp * which says that the first nine blocks (0-8) are interleaved over 1010f557e0aSPoul-Henning Kamp * 3 disks (0, 1, 2) starting at block offset 0 on any component disk, 1020f557e0aSPoul-Henning Kamp * the next 4 blocks (9-12) are interleaved over 2 disks (0, 2) starting 1030f557e0aSPoul-Henning Kamp * at component block 3, and the remaining blocks (13-14) are on disk 1040f557e0aSPoul-Henning Kamp * 2 starting at offset 5. 1050f557e0aSPoul-Henning Kamp */ 1060f557e0aSPoul-Henning Kamp struct ccdiinfo { 1070f557e0aSPoul-Henning Kamp int ii_ndisk; /* # of disks range is interleaved over */ 1080f557e0aSPoul-Henning Kamp daddr_t ii_startblk; /* starting scaled block # for range */ 1090f557e0aSPoul-Henning Kamp daddr_t ii_startoff; /* starting component offset (block #) */ 1100f557e0aSPoul-Henning Kamp int *ii_index; /* ordered list of components in range */ 1110f557e0aSPoul-Henning Kamp }; 1120f557e0aSPoul-Henning Kamp 1130f557e0aSPoul-Henning Kamp /* 1143a3fcd72SPoul-Henning Kamp * Component info table. 1153a3fcd72SPoul-Henning Kamp * Describes a single component of a concatenated disk. 1160f557e0aSPoul-Henning Kamp */ 1173a3fcd72SPoul-Henning Kamp struct ccdcinfo { 1183a3fcd72SPoul-Henning Kamp size_t ci_size; /* size */ 1193a3fcd72SPoul-Henning Kamp struct g_provider *ci_provider; /* provider */ 1203a3fcd72SPoul-Henning Kamp struct g_consumer *ci_consumer; /* consumer */ 1210f557e0aSPoul-Henning Kamp }; 1220f557e0aSPoul-Henning Kamp 1230f557e0aSPoul-Henning Kamp /* 1240f557e0aSPoul-Henning Kamp * A concatenated disk is described by this structure. 1250f557e0aSPoul-Henning Kamp */ 1263a3fcd72SPoul-Henning Kamp 1270f557e0aSPoul-Henning Kamp struct ccd_s { 1280f557e0aSPoul-Henning Kamp LIST_ENTRY(ccd_s) list; 1290f557e0aSPoul-Henning Kamp 1300f557e0aSPoul-Henning Kamp int sc_unit; /* logical unit number */ 1310f557e0aSPoul-Henning Kamp int sc_flags; /* flags */ 1320f557e0aSPoul-Henning Kamp size_t sc_size; /* size of ccd */ 1330f557e0aSPoul-Henning Kamp int sc_ileave; /* interleave */ 1343a3fcd72SPoul-Henning Kamp u_int sc_ndisks; /* number of components */ 1350f557e0aSPoul-Henning Kamp struct ccdcinfo *sc_cinfo; /* component info */ 1360f557e0aSPoul-Henning Kamp struct ccdiinfo *sc_itable; /* interleave table */ 1373a3fcd72SPoul-Henning Kamp u_int32_t sc_secsize; /* # bytes per sector */ 1380f557e0aSPoul-Henning Kamp int sc_pick; /* side of mirror picked */ 1390f557e0aSPoul-Henning Kamp daddr_t sc_blk[2]; /* mirror localization */ 1400f557e0aSPoul-Henning Kamp }; 1410f557e0aSPoul-Henning Kamp 1423a3fcd72SPoul-Henning Kamp static g_start_t g_ccd_start; 14301706d20SPoul-Henning Kamp static void ccdiodone(struct bio *bp); 1443a3fcd72SPoul-Henning Kamp static void ccdinterleave(struct ccd_s *); 1453a3fcd72SPoul-Henning Kamp static int ccdinit(struct gctl_req *req, struct ccd_s *); 1463a3fcd72SPoul-Henning Kamp static int ccdbuffer(struct bio **ret, struct ccd_s *, 14701706d20SPoul-Henning Kamp struct bio *, daddr_t, caddr_t, long); 148a56bb8a5SSatoshi Asami 149e2738b4fSPoul-Henning Kamp static void 1503a3fcd72SPoul-Henning Kamp g_ccd_orphan(struct g_consumer *cp) 151a56bb8a5SSatoshi Asami { 152c44c213fSPoul-Henning Kamp /* 153c44c213fSPoul-Henning Kamp * XXX: We don't do anything here. It is not obvious 154c44c213fSPoul-Henning Kamp * XXX: what DTRT would be, so we do what the previous 155c44c213fSPoul-Henning Kamp * XXX: code did: ignore it and let the user cope. 156c44c213fSPoul-Henning Kamp */ 157b7b98418SPeter Wemm } 158d8594dfbSSatoshi Asami 159b7b98418SPeter Wemm static int 1603a3fcd72SPoul-Henning Kamp g_ccd_access(struct g_provider *pp, int dr, int dw, int de) 161b7b98418SPeter Wemm { 1623a3fcd72SPoul-Henning Kamp struct g_geom *gp; 1633a3fcd72SPoul-Henning Kamp struct g_consumer *cp1, *cp2; 1643a3fcd72SPoul-Henning Kamp int error; 165b7b98418SPeter Wemm 1663a3fcd72SPoul-Henning Kamp de += dr; 1673a3fcd72SPoul-Henning Kamp de += dw; 1683a3fcd72SPoul-Henning Kamp 1693a3fcd72SPoul-Henning Kamp gp = pp->geom; 1703a3fcd72SPoul-Henning Kamp error = ENXIO; 1713a3fcd72SPoul-Henning Kamp LIST_FOREACH(cp1, &gp->consumer, consumer) { 1723a3fcd72SPoul-Henning Kamp error = g_access_rel(cp1, dr, dw, de); 1733a3fcd72SPoul-Henning Kamp if (error) { 1743a3fcd72SPoul-Henning Kamp LIST_FOREACH(cp2, &gp->consumer, consumer) { 1753a3fcd72SPoul-Henning Kamp if (cp1 == cp2) 176b7b98418SPeter Wemm break; 1773a3fcd72SPoul-Henning Kamp g_access_rel(cp1, -dr, -dw, -de); 1783a3fcd72SPoul-Henning Kamp } 179b7b98418SPeter Wemm break; 1803a3fcd72SPoul-Henning Kamp } 181e2a13e8cSSatoshi Asami } 182b7b98418SPeter Wemm return (error); 183e2a13e8cSSatoshi Asami } 184b7b98418SPeter Wemm 1853a3fcd72SPoul-Henning Kamp /* 1863a3fcd72SPoul-Henning Kamp * Free the softc and its substructures. 1873a3fcd72SPoul-Henning Kamp */ 1883a3fcd72SPoul-Henning Kamp static void 1893a3fcd72SPoul-Henning Kamp g_ccd_freesc(struct ccd_s *sc) 1903a3fcd72SPoul-Henning Kamp { 1913a3fcd72SPoul-Henning Kamp struct ccdiinfo *ii; 1923a3fcd72SPoul-Henning Kamp 1933a3fcd72SPoul-Henning Kamp g_free(sc->sc_cinfo); 1943a3fcd72SPoul-Henning Kamp if (sc->sc_itable != NULL) { 1953a3fcd72SPoul-Henning Kamp for (ii = sc->sc_itable; ii->ii_ndisk > 0; ii++) 1963a3fcd72SPoul-Henning Kamp if (ii->ii_index != NULL) 1973a3fcd72SPoul-Henning Kamp g_free(ii->ii_index); 1983a3fcd72SPoul-Henning Kamp g_free(sc->sc_itable); 1993a3fcd72SPoul-Henning Kamp } 2003a3fcd72SPoul-Henning Kamp g_free(sc); 2013a3fcd72SPoul-Henning Kamp } 2023a3fcd72SPoul-Henning Kamp 203a56bb8a5SSatoshi Asami 204a56bb8a5SSatoshi Asami static int 2053a3fcd72SPoul-Henning Kamp ccdinit(struct gctl_req *req, struct ccd_s *cs) 206a56bb8a5SSatoshi Asami { 2073a3fcd72SPoul-Henning Kamp struct ccdcinfo *ci; 2081464240eSMatthew Dillon size_t size; 2091464240eSMatthew Dillon int ix; 210a56bb8a5SSatoshi Asami size_t minsize; 211a56bb8a5SSatoshi Asami int maxsecsize; 212ffee6e99SPoul-Henning Kamp off_t mediasize; 213ffee6e99SPoul-Henning Kamp u_int sectorsize; 214a56bb8a5SSatoshi Asami 215a56bb8a5SSatoshi Asami cs->sc_size = 0; 216a56bb8a5SSatoshi Asami 217a56bb8a5SSatoshi Asami maxsecsize = 0; 218a56bb8a5SSatoshi Asami minsize = 0; 2193a3fcd72SPoul-Henning Kamp for (ix = 0; ix < cs->sc_ndisks; ix++) { 220a56bb8a5SSatoshi Asami ci = &cs->sc_cinfo[ix]; 221a56bb8a5SSatoshi Asami 2223a3fcd72SPoul-Henning Kamp mediasize = ci->ci_provider->mediasize; 2233a3fcd72SPoul-Henning Kamp sectorsize = ci->ci_provider->sectorsize; 224ffee6e99SPoul-Henning Kamp if (sectorsize > maxsecsize) 225ffee6e99SPoul-Henning Kamp maxsecsize = sectorsize; 226ffee6e99SPoul-Henning Kamp size = mediasize / DEV_BSIZE - CCD_OFFSET; 227a56bb8a5SSatoshi Asami 2283a3fcd72SPoul-Henning Kamp /* Truncate to interleave boundary */ 229a56bb8a5SSatoshi Asami 230a56bb8a5SSatoshi Asami if (cs->sc_ileave > 1) 231a56bb8a5SSatoshi Asami size -= size % cs->sc_ileave; 232a56bb8a5SSatoshi Asami 233a56bb8a5SSatoshi Asami if (size == 0) { 2343a3fcd72SPoul-Henning Kamp gctl_error(req, "Component %s has effective size zero", 2353a3fcd72SPoul-Henning Kamp ci->ci_provider->name); 2363a3fcd72SPoul-Henning Kamp return(ENODEV); 237a56bb8a5SSatoshi Asami } 238a56bb8a5SSatoshi Asami 239a56bb8a5SSatoshi Asami if (minsize == 0 || size < minsize) 240a56bb8a5SSatoshi Asami minsize = size; 241a56bb8a5SSatoshi Asami ci->ci_size = size; 242a56bb8a5SSatoshi Asami cs->sc_size += size; 243a56bb8a5SSatoshi Asami } 244a56bb8a5SSatoshi Asami 245a56bb8a5SSatoshi Asami /* 246a56bb8a5SSatoshi Asami * Don't allow the interleave to be smaller than 247a56bb8a5SSatoshi Asami * the biggest component sector. 248a56bb8a5SSatoshi Asami */ 249a56bb8a5SSatoshi Asami if ((cs->sc_ileave > 0) && 250a56bb8a5SSatoshi Asami (cs->sc_ileave < (maxsecsize / DEV_BSIZE))) { 2513a3fcd72SPoul-Henning Kamp gctl_error(req, "Interleave to small for sector size"); 2523a3fcd72SPoul-Henning Kamp return(EINVAL); 253a56bb8a5SSatoshi Asami } 254a56bb8a5SSatoshi Asami 255a56bb8a5SSatoshi Asami /* 256a56bb8a5SSatoshi Asami * If uniform interleave is desired set all sizes to that of 2571464240eSMatthew Dillon * the smallest component. This will guarentee that a single 2581464240eSMatthew Dillon * interleave table is generated. 2591464240eSMatthew Dillon * 2601464240eSMatthew Dillon * Lost space must be taken into account when calculating the 2611464240eSMatthew Dillon * overall size. Half the space is lost when CCDF_MIRROR is 262ddbf51afSPoul-Henning Kamp * specified. 263a56bb8a5SSatoshi Asami */ 26401706d20SPoul-Henning Kamp if (cs->sc_flags & CCDF_UNIFORM) { 2653a3fcd72SPoul-Henning Kamp for (ix = 0; ix < cs->sc_ndisks; ix++) { 2663a3fcd72SPoul-Henning Kamp ci = &cs->sc_cinfo[ix]; 267a56bb8a5SSatoshi Asami ci->ci_size = minsize; 2681464240eSMatthew Dillon } 2693a3fcd72SPoul-Henning Kamp cs->sc_size = cs->sc_ndisks * minsize; 2703a3fcd72SPoul-Henning Kamp } 2713a3fcd72SPoul-Henning Kamp 27201706d20SPoul-Henning Kamp if (cs->sc_flags & CCDF_MIRROR) { 27334f35216SSatoshi Asami /* 27434f35216SSatoshi Asami * Check to see if an even number of components 2751464240eSMatthew Dillon * have been specified. The interleave must also 2761464240eSMatthew Dillon * be non-zero in order for us to be able to 2771464240eSMatthew Dillon * guarentee the topology. 27834f35216SSatoshi Asami */ 2793a3fcd72SPoul-Henning Kamp if (cs->sc_ndisks % 2) { 2803a3fcd72SPoul-Henning Kamp gctl_error(req, 2813a3fcd72SPoul-Henning Kamp "Mirroring requires an even number of disks"); 2823a3fcd72SPoul-Henning Kamp return(EINVAL); 28334f35216SSatoshi Asami } 2841464240eSMatthew Dillon if (cs->sc_ileave == 0) { 2853a3fcd72SPoul-Henning Kamp gctl_error(req, 2863a3fcd72SPoul-Henning Kamp "An interleave must be specified when mirroring"); 2873a3fcd72SPoul-Henning Kamp return(EINVAL); 28809b59204SSatoshi Asami } 2893a3fcd72SPoul-Henning Kamp cs->sc_size = (cs->sc_ndisks/2) * minsize; 2901464240eSMatthew Dillon } 291a56bb8a5SSatoshi Asami 292a56bb8a5SSatoshi Asami /* 293a56bb8a5SSatoshi Asami * Construct the interleave table. 294a56bb8a5SSatoshi Asami */ 2953a3fcd72SPoul-Henning Kamp ccdinterleave(cs); 296a56bb8a5SSatoshi Asami 297a56bb8a5SSatoshi Asami /* 298a56bb8a5SSatoshi Asami * Create pseudo-geometry based on 1MB cylinders. It's 299a56bb8a5SSatoshi Asami * pretty close. 300a56bb8a5SSatoshi Asami */ 3013a3fcd72SPoul-Henning Kamp cs->sc_secsize = maxsecsize; 302a56bb8a5SSatoshi Asami 303a56bb8a5SSatoshi Asami return (0); 304a56bb8a5SSatoshi Asami } 305a56bb8a5SSatoshi Asami 306a56bb8a5SSatoshi Asami static void 3073a3fcd72SPoul-Henning Kamp ccdinterleave(struct ccd_s *cs) 308a56bb8a5SSatoshi Asami { 3091464240eSMatthew Dillon struct ccdcinfo *ci, *smallci; 3101464240eSMatthew Dillon struct ccdiinfo *ii; 3111464240eSMatthew Dillon daddr_t bn, lbn; 3121464240eSMatthew Dillon int ix; 313a56bb8a5SSatoshi Asami u_long size; 314a56bb8a5SSatoshi Asami 3151464240eSMatthew Dillon 316a56bb8a5SSatoshi Asami /* 3171464240eSMatthew Dillon * Allocate an interleave table. The worst case occurs when each 3181464240eSMatthew Dillon * of N disks is of a different size, resulting in N interleave 3191464240eSMatthew Dillon * tables. 3201464240eSMatthew Dillon * 321a56bb8a5SSatoshi Asami * Chances are this is too big, but we don't care. 322a56bb8a5SSatoshi Asami */ 3233a3fcd72SPoul-Henning Kamp size = (cs->sc_ndisks + 1) * sizeof(struct ccdiinfo); 3243a3fcd72SPoul-Henning Kamp cs->sc_itable = g_malloc(size, M_WAITOK | M_ZERO); 325a56bb8a5SSatoshi Asami 326a56bb8a5SSatoshi Asami /* 327a56bb8a5SSatoshi Asami * Trivial case: no interleave (actually interleave of disk size). 328a56bb8a5SSatoshi Asami * Each table entry represents a single component in its entirety. 3291464240eSMatthew Dillon * 330ddbf51afSPoul-Henning Kamp * An interleave of 0 may not be used with a mirror setup. 331a56bb8a5SSatoshi Asami */ 332a56bb8a5SSatoshi Asami if (cs->sc_ileave == 0) { 333a56bb8a5SSatoshi Asami bn = 0; 334a56bb8a5SSatoshi Asami ii = cs->sc_itable; 335a56bb8a5SSatoshi Asami 3363a3fcd72SPoul-Henning Kamp for (ix = 0; ix < cs->sc_ndisks; ix++) { 337a56bb8a5SSatoshi Asami /* Allocate space for ii_index. */ 3383a3fcd72SPoul-Henning Kamp ii->ii_index = g_malloc(sizeof(int), M_WAITOK); 339a56bb8a5SSatoshi Asami ii->ii_ndisk = 1; 340a56bb8a5SSatoshi Asami ii->ii_startblk = bn; 341a56bb8a5SSatoshi Asami ii->ii_startoff = 0; 342a56bb8a5SSatoshi Asami ii->ii_index[0] = ix; 343a56bb8a5SSatoshi Asami bn += cs->sc_cinfo[ix].ci_size; 344a56bb8a5SSatoshi Asami ii++; 345a56bb8a5SSatoshi Asami } 346a56bb8a5SSatoshi Asami ii->ii_ndisk = 0; 347a56bb8a5SSatoshi Asami return; 348a56bb8a5SSatoshi Asami } 349a56bb8a5SSatoshi Asami 350a56bb8a5SSatoshi Asami /* 351a56bb8a5SSatoshi Asami * The following isn't fast or pretty; it doesn't have to be. 352a56bb8a5SSatoshi Asami */ 353a56bb8a5SSatoshi Asami size = 0; 354a56bb8a5SSatoshi Asami bn = lbn = 0; 355a56bb8a5SSatoshi Asami for (ii = cs->sc_itable; ; ii++) { 3561464240eSMatthew Dillon /* 3571464240eSMatthew Dillon * Allocate space for ii_index. We might allocate more then 3581464240eSMatthew Dillon * we use. 3591464240eSMatthew Dillon */ 3603a3fcd72SPoul-Henning Kamp ii->ii_index = g_malloc((sizeof(int) * cs->sc_ndisks), 3613a3fcd72SPoul-Henning Kamp M_WAITOK); 362a56bb8a5SSatoshi Asami 363a56bb8a5SSatoshi Asami /* 364a56bb8a5SSatoshi Asami * Locate the smallest of the remaining components 365a56bb8a5SSatoshi Asami */ 366a56bb8a5SSatoshi Asami smallci = NULL; 3673a3fcd72SPoul-Henning Kamp for (ci = cs->sc_cinfo; ci < &cs->sc_cinfo[cs->sc_ndisks]; 3681464240eSMatthew Dillon ci++) { 369a56bb8a5SSatoshi Asami if (ci->ci_size > size && 370a56bb8a5SSatoshi Asami (smallci == NULL || 3711464240eSMatthew Dillon ci->ci_size < smallci->ci_size)) { 372a56bb8a5SSatoshi Asami smallci = ci; 3731464240eSMatthew Dillon } 3741464240eSMatthew Dillon } 375a56bb8a5SSatoshi Asami 376a56bb8a5SSatoshi Asami /* 377a56bb8a5SSatoshi Asami * Nobody left, all done 378a56bb8a5SSatoshi Asami */ 379a56bb8a5SSatoshi Asami if (smallci == NULL) { 380a56bb8a5SSatoshi Asami ii->ii_ndisk = 0; 3813a3fcd72SPoul-Henning Kamp g_free(ii->ii_index); 3823a3fcd72SPoul-Henning Kamp ii->ii_index = NULL; 383a56bb8a5SSatoshi Asami break; 384a56bb8a5SSatoshi Asami } 385a56bb8a5SSatoshi Asami 386a56bb8a5SSatoshi Asami /* 3871464240eSMatthew Dillon * Record starting logical block using an sc_ileave blocksize. 388a56bb8a5SSatoshi Asami */ 389a56bb8a5SSatoshi Asami ii->ii_startblk = bn / cs->sc_ileave; 3901464240eSMatthew Dillon 3911464240eSMatthew Dillon /* 3923a3fcd72SPoul-Henning Kamp * Record starting component block using an sc_ileave 3931464240eSMatthew Dillon * blocksize. This value is relative to the beginning of 3941464240eSMatthew Dillon * a component disk. 3951464240eSMatthew Dillon */ 396a56bb8a5SSatoshi Asami ii->ii_startoff = lbn; 397a56bb8a5SSatoshi Asami 398a56bb8a5SSatoshi Asami /* 399a56bb8a5SSatoshi Asami * Determine how many disks take part in this interleave 400a56bb8a5SSatoshi Asami * and record their indices. 401a56bb8a5SSatoshi Asami */ 402a56bb8a5SSatoshi Asami ix = 0; 403a56bb8a5SSatoshi Asami for (ci = cs->sc_cinfo; 4043a3fcd72SPoul-Henning Kamp ci < &cs->sc_cinfo[cs->sc_ndisks]; ci++) { 4051464240eSMatthew Dillon if (ci->ci_size >= smallci->ci_size) { 406a56bb8a5SSatoshi Asami ii->ii_index[ix++] = ci - cs->sc_cinfo; 4071464240eSMatthew Dillon } 4081464240eSMatthew Dillon } 409a56bb8a5SSatoshi Asami ii->ii_ndisk = ix; 410a56bb8a5SSatoshi Asami bn += ix * (smallci->ci_size - size); 411a56bb8a5SSatoshi Asami lbn = smallci->ci_size / cs->sc_ileave; 412a56bb8a5SSatoshi Asami size = smallci->ci_size; 413a56bb8a5SSatoshi Asami } 414a56bb8a5SSatoshi Asami } 415a56bb8a5SSatoshi Asami 416e2738b4fSPoul-Henning Kamp static void 4173a3fcd72SPoul-Henning Kamp g_ccd_start(struct bio *bp) 418a56bb8a5SSatoshi Asami { 4191464240eSMatthew Dillon long bcount, rcount; 4203a3fcd72SPoul-Henning Kamp struct bio *cbp[2]; 421a56bb8a5SSatoshi Asami caddr_t addr; 422a56bb8a5SSatoshi Asami daddr_t bn; 4230f76d6d8SPoul-Henning Kamp int err; 42477154759SPoul-Henning Kamp int sent; 4253a3fcd72SPoul-Henning Kamp struct ccd_s *cs; 4263a3fcd72SPoul-Henning Kamp 4273a3fcd72SPoul-Henning Kamp cs = bp->bio_to->geom->softc; 428a56bb8a5SSatoshi Asami 429a56bb8a5SSatoshi Asami /* 430a56bb8a5SSatoshi Asami * Translate the partition-relative block number to an absolute. 431a56bb8a5SSatoshi Asami */ 4323a3fcd72SPoul-Henning Kamp bn = bp->bio_offset / cs->sc_secsize; 433a56bb8a5SSatoshi Asami 434a56bb8a5SSatoshi Asami /* 435a56bb8a5SSatoshi Asami * Allocate component buffers and fire off the requests 436a56bb8a5SSatoshi Asami */ 4379d7f7369SPoul-Henning Kamp addr = bp->bio_data; 43877154759SPoul-Henning Kamp sent = 0; 4393a3fcd72SPoul-Henning Kamp for (bcount = bp->bio_length; bcount > 0; bcount -= rcount) { 4400f76d6d8SPoul-Henning Kamp err = ccdbuffer(cbp, cs, bp, bn, addr, bcount); 4410f76d6d8SPoul-Henning Kamp if (err) { 4420f76d6d8SPoul-Henning Kamp printf("ccdbuffer error %d\n", err); 44377154759SPoul-Henning Kamp if (!sent) 4442f912fc9SPoul-Henning Kamp biofinish(bp, NULL, err); 44577154759SPoul-Henning Kamp else { 44677154759SPoul-Henning Kamp /* 44777154759SPoul-Henning Kamp * XXX: maybe a race where the partners 44877154759SPoul-Henning Kamp * XXX: we sent already have been in 44977154759SPoul-Henning Kamp * XXX: ccdiodone(). Single-threaded g_down 45077154759SPoul-Henning Kamp * XXX: may protect against this. 45177154759SPoul-Henning Kamp */ 45277154759SPoul-Henning Kamp bp->bio_resid -= bcount; 45377154759SPoul-Henning Kamp bp->bio_error = err; 45477154759SPoul-Henning Kamp bp->bio_flags |= BIO_ERROR; 45577154759SPoul-Henning Kamp } 4560f76d6d8SPoul-Henning Kamp return; 4570f76d6d8SPoul-Henning Kamp } 4583a3fcd72SPoul-Henning Kamp rcount = cbp[0]->bio_length; 4591464240eSMatthew Dillon 4603a3fcd72SPoul-Henning Kamp if (cs->sc_flags & CCDF_MIRROR) { 4611464240eSMatthew Dillon /* 4621464240eSMatthew Dillon * Mirroring. Writes go to both disks, reads are 4631464240eSMatthew Dillon * taken from whichever disk seems most appropriate. 4641464240eSMatthew Dillon * 4651464240eSMatthew Dillon * We attempt to localize reads to the disk whos arm 4661464240eSMatthew Dillon * is nearest the read request. We ignore seeks due 4671464240eSMatthew Dillon * to writes when making this determination and we 4681464240eSMatthew Dillon * also try to avoid hogging. 4691464240eSMatthew Dillon */ 4703a3fcd72SPoul-Henning Kamp if (cbp[0]->bio_cmd != BIO_READ) { 4713a3fcd72SPoul-Henning Kamp g_io_request(cbp[0], cbp[0]->bio_from); 4723a3fcd72SPoul-Henning Kamp g_io_request(cbp[1], cbp[1]->bio_from); 47377154759SPoul-Henning Kamp sent++; 4741464240eSMatthew Dillon } else { 4751464240eSMatthew Dillon int pick = cs->sc_pick; 4761464240eSMatthew Dillon daddr_t range = cs->sc_size / 16; 4771464240eSMatthew Dillon 4781464240eSMatthew Dillon if (bn < cs->sc_blk[pick] - range || 4791464240eSMatthew Dillon bn > cs->sc_blk[pick] + range 4801464240eSMatthew Dillon ) { 4811464240eSMatthew Dillon cs->sc_pick = pick = 1 - pick; 4821464240eSMatthew Dillon } 4831464240eSMatthew Dillon cs->sc_blk[pick] = bn + btodb(rcount); 4843a3fcd72SPoul-Henning Kamp g_io_request(cbp[pick], cbp[pick]->bio_from); 48577154759SPoul-Henning Kamp sent++; 4861464240eSMatthew Dillon } 4871464240eSMatthew Dillon } else { 4881464240eSMatthew Dillon /* 4891464240eSMatthew Dillon * Not mirroring 4901464240eSMatthew Dillon */ 4913a3fcd72SPoul-Henning Kamp g_io_request(cbp[0], cbp[0]->bio_from); 49277154759SPoul-Henning Kamp sent++; 4933bc746beSSatoshi Asami } 494a56bb8a5SSatoshi Asami bn += btodb(rcount); 495a56bb8a5SSatoshi Asami addr += rcount; 496a56bb8a5SSatoshi Asami } 497a56bb8a5SSatoshi Asami } 498a56bb8a5SSatoshi Asami 499a56bb8a5SSatoshi Asami /* 500a56bb8a5SSatoshi Asami * Build a component buffer header. 501a56bb8a5SSatoshi Asami */ 5020f76d6d8SPoul-Henning Kamp static int 5033a3fcd72SPoul-Henning Kamp ccdbuffer(struct bio **cb, struct ccd_s *cs, struct bio *bp, daddr_t bn, caddr_t addr, long bcount) 504a56bb8a5SSatoshi Asami { 5051464240eSMatthew Dillon struct ccdcinfo *ci, *ci2 = NULL; /* XXX */ 5063a3fcd72SPoul-Henning Kamp struct bio *cbp; 5071464240eSMatthew Dillon daddr_t cbn, cboff; 5081464240eSMatthew Dillon off_t cbc; 509a56bb8a5SSatoshi Asami 510a56bb8a5SSatoshi Asami /* 511a56bb8a5SSatoshi Asami * Determine which component bn falls in. 512a56bb8a5SSatoshi Asami */ 513a56bb8a5SSatoshi Asami cbn = bn; 514a56bb8a5SSatoshi Asami cboff = 0; 515a56bb8a5SSatoshi Asami 516a56bb8a5SSatoshi Asami if (cs->sc_ileave == 0) { 5171464240eSMatthew Dillon /* 5181464240eSMatthew Dillon * Serially concatenated and neither a mirror nor a parity 5191464240eSMatthew Dillon * config. This is a special case. 5201464240eSMatthew Dillon */ 5211464240eSMatthew Dillon daddr_t sblk; 522a56bb8a5SSatoshi Asami 523a56bb8a5SSatoshi Asami sblk = 0; 524a56bb8a5SSatoshi Asami for (ci = cs->sc_cinfo; cbn >= sblk + ci->ci_size; ci++) 525a56bb8a5SSatoshi Asami sblk += ci->ci_size; 526a56bb8a5SSatoshi Asami cbn -= sblk; 5271464240eSMatthew Dillon } else { 5281464240eSMatthew Dillon struct ccdiinfo *ii; 529a56bb8a5SSatoshi Asami int ccdisk, off; 530a56bb8a5SSatoshi Asami 5311464240eSMatthew Dillon /* 5321464240eSMatthew Dillon * Calculate cbn, the logical superblock (sc_ileave chunks), 5331464240eSMatthew Dillon * and cboff, a normal block offset (DEV_BSIZE chunks) relative 5341464240eSMatthew Dillon * to cbn. 5351464240eSMatthew Dillon */ 5361464240eSMatthew Dillon cboff = cbn % cs->sc_ileave; /* DEV_BSIZE gran */ 5371464240eSMatthew Dillon cbn = cbn / cs->sc_ileave; /* DEV_BSIZE * ileave gran */ 5381464240eSMatthew Dillon 5391464240eSMatthew Dillon /* 5401464240eSMatthew Dillon * Figure out which interleave table to use. 5411464240eSMatthew Dillon */ 5421464240eSMatthew Dillon for (ii = cs->sc_itable; ii->ii_ndisk; ii++) { 543a56bb8a5SSatoshi Asami if (ii->ii_startblk > cbn) 544a56bb8a5SSatoshi Asami break; 5451464240eSMatthew Dillon } 546a56bb8a5SSatoshi Asami ii--; 5471464240eSMatthew Dillon 5481464240eSMatthew Dillon /* 5491464240eSMatthew Dillon * off is the logical superblock relative to the beginning 5501464240eSMatthew Dillon * of this interleave block. 5511464240eSMatthew Dillon */ 552a56bb8a5SSatoshi Asami off = cbn - ii->ii_startblk; 5531464240eSMatthew Dillon 5541464240eSMatthew Dillon /* 5551464240eSMatthew Dillon * We must calculate which disk component to use (ccdisk), 5561464240eSMatthew Dillon * and recalculate cbn to be the superblock relative to 5571464240eSMatthew Dillon * the beginning of the component. This is typically done by 5581464240eSMatthew Dillon * adding 'off' and ii->ii_startoff together. However, 'off' 5591464240eSMatthew Dillon * must typically be divided by the number of components in 5601464240eSMatthew Dillon * this interleave array to be properly convert it from a 5611464240eSMatthew Dillon * CCD-relative logical superblock number to a 5621464240eSMatthew Dillon * component-relative superblock number. 5631464240eSMatthew Dillon */ 564a56bb8a5SSatoshi Asami if (ii->ii_ndisk == 1) { 5651464240eSMatthew Dillon /* 5661464240eSMatthew Dillon * When we have just one disk, it can't be a mirror 5671464240eSMatthew Dillon * or a parity config. 5681464240eSMatthew Dillon */ 569a56bb8a5SSatoshi Asami ccdisk = ii->ii_index[0]; 570a56bb8a5SSatoshi Asami cbn = ii->ii_startoff + off; 571a56bb8a5SSatoshi Asami } else { 5723a3fcd72SPoul-Henning Kamp if (cs->sc_flags & CCDF_MIRROR) { 5731464240eSMatthew Dillon /* 5741464240eSMatthew Dillon * We have forced a uniform mapping, resulting 5751464240eSMatthew Dillon * in a single interleave array. We double 5761464240eSMatthew Dillon * up on the first half of the available 5771464240eSMatthew Dillon * components and our mirror is in the second 5781464240eSMatthew Dillon * half. This only works with a single 5791464240eSMatthew Dillon * interleave array because doubling up 5801464240eSMatthew Dillon * doubles the number of sectors, so there 5811464240eSMatthew Dillon * cannot be another interleave array because 5821464240eSMatthew Dillon * the next interleave array's calculations 5831464240eSMatthew Dillon * would be off. 5841464240eSMatthew Dillon */ 5851464240eSMatthew Dillon int ndisk2 = ii->ii_ndisk / 2; 5861464240eSMatthew Dillon ccdisk = ii->ii_index[off % ndisk2]; 5871464240eSMatthew Dillon cbn = ii->ii_startoff + off / ndisk2; 5881464240eSMatthew Dillon ci2 = &cs->sc_cinfo[ccdisk + ndisk2]; 5891464240eSMatthew Dillon } else { 590a56bb8a5SSatoshi Asami ccdisk = ii->ii_index[off % ii->ii_ndisk]; 591a56bb8a5SSatoshi Asami cbn = ii->ii_startoff + off / ii->ii_ndisk; 592a56bb8a5SSatoshi Asami } 5937ecb65faSSatoshi Asami } 5941464240eSMatthew Dillon 595a56bb8a5SSatoshi Asami ci = &cs->sc_cinfo[ccdisk]; 5961464240eSMatthew Dillon 5971464240eSMatthew Dillon /* 5981464240eSMatthew Dillon * Convert cbn from a superblock to a normal block so it 5991464240eSMatthew Dillon * can be used to calculate (along with cboff) the normal 6001464240eSMatthew Dillon * block index into this particular disk. 6011464240eSMatthew Dillon */ 6021464240eSMatthew Dillon cbn *= cs->sc_ileave; 603a56bb8a5SSatoshi Asami } 604a56bb8a5SSatoshi Asami 605a56bb8a5SSatoshi Asami /* 606a56bb8a5SSatoshi Asami * Fill in the component buf structure. 607a56bb8a5SSatoshi Asami */ 6083a3fcd72SPoul-Henning Kamp cbp = g_clone_bio(bp); 609c44c213fSPoul-Henning Kamp /* XXX: check for NULL */ 6103a3fcd72SPoul-Henning Kamp cbp->bio_done = g_std_done; 6113a3fcd72SPoul-Henning Kamp cbp->bio_offset = dbtob(cbn + cboff + CCD_OFFSET); 6123a3fcd72SPoul-Henning Kamp cbp->bio_data = addr; 613a56bb8a5SSatoshi Asami if (cs->sc_ileave == 0) 61440969e38SDavid Greenman cbc = dbtob((off_t)(ci->ci_size - cbn)); 615a56bb8a5SSatoshi Asami else 61640969e38SDavid Greenman cbc = dbtob((off_t)(cs->sc_ileave - cboff)); 6173a3fcd72SPoul-Henning Kamp cbp->bio_length = (cbc < bcount) ? cbc : bcount; 618c0b89506SJohn Dyson 6193a3fcd72SPoul-Henning Kamp cbp->bio_from = ci->ci_consumer; 6203bc746beSSatoshi Asami cb[0] = cbp; 6211464240eSMatthew Dillon 6223a3fcd72SPoul-Henning Kamp if (cs->sc_flags & CCDF_MIRROR) { 6233a3fcd72SPoul-Henning Kamp cbp = g_clone_bio(bp); 624c44c213fSPoul-Henning Kamp /* XXX: check for NULL */ 6253a3fcd72SPoul-Henning Kamp cbp->bio_done = cb[0]->bio_done = ccdiodone; 6263a3fcd72SPoul-Henning Kamp cbp->bio_offset = cb[0]->bio_offset; 6273a3fcd72SPoul-Henning Kamp cbp->bio_data = cb[0]->bio_data; 6283a3fcd72SPoul-Henning Kamp cbp->bio_length = cb[0]->bio_length; 6293a3fcd72SPoul-Henning Kamp cbp->bio_from = ci2->ci_consumer; 6303a3fcd72SPoul-Henning Kamp cbp->bio_caller1 = cb[0]; 6313a3fcd72SPoul-Henning Kamp cb[0]->bio_caller1 = cbp; 6323bc746beSSatoshi Asami cb[1] = cbp; 6333bc746beSSatoshi Asami } 6340f76d6d8SPoul-Henning Kamp return (0); 635a56bb8a5SSatoshi Asami } 636a56bb8a5SSatoshi Asami 637a56bb8a5SSatoshi Asami /* 638c44c213fSPoul-Henning Kamp * Called only for mirrored operations. 639a56bb8a5SSatoshi Asami */ 640e2738b4fSPoul-Henning Kamp static void 6413a3fcd72SPoul-Henning Kamp ccdiodone(struct bio *cbp) 642a56bb8a5SSatoshi Asami { 6433a3fcd72SPoul-Henning Kamp struct bio *mbp, *pbp; 644a56bb8a5SSatoshi Asami 6453a3fcd72SPoul-Henning Kamp mbp = cbp->bio_caller1; 6463a3fcd72SPoul-Henning Kamp pbp = cbp->bio_parent; 647a56bb8a5SSatoshi Asami 6483a3fcd72SPoul-Henning Kamp if (pbp->bio_cmd == BIO_READ) { 6493a3fcd72SPoul-Henning Kamp if (cbp->bio_error == 0) { 650c44c213fSPoul-Henning Kamp /* We will not be needing the partner bio */ 651c44c213fSPoul-Henning Kamp if (mbp != NULL) { 6523a3fcd72SPoul-Henning Kamp pbp->bio_inbed++; 6533a3fcd72SPoul-Henning Kamp g_destroy_bio(mbp); 654c44c213fSPoul-Henning Kamp } 655c44c213fSPoul-Henning Kamp g_std_done(cbp); 656e7322872SSatoshi Asami return; 657e7322872SSatoshi Asami } 6583a3fcd72SPoul-Henning Kamp if (mbp != NULL) { 659c44c213fSPoul-Henning Kamp /* Try partner the bio instead */ 6603a3fcd72SPoul-Henning Kamp mbp->bio_caller1 = NULL; 6613a3fcd72SPoul-Henning Kamp pbp->bio_inbed++; 6623a3fcd72SPoul-Henning Kamp g_destroy_bio(cbp); 6633a3fcd72SPoul-Henning Kamp g_io_request(mbp, mbp->bio_from); 664c44c213fSPoul-Henning Kamp /* 665c44c213fSPoul-Henning Kamp * XXX: If this comes back OK, we should actually 666c44c213fSPoul-Henning Kamp * try to write the good data on the failed mirror 667c44c213fSPoul-Henning Kamp */ 6681464240eSMatthew Dillon return; 6691464240eSMatthew Dillon } 6703a3fcd72SPoul-Henning Kamp g_std_done(cbp); 6711464240eSMatthew Dillon } 6723a3fcd72SPoul-Henning Kamp if (mbp != NULL) { 6733a3fcd72SPoul-Henning Kamp mbp->bio_caller1 = NULL; 6743a3fcd72SPoul-Henning Kamp pbp->bio_inbed++; 675c44c213fSPoul-Henning Kamp if (cbp->bio_error != 0 && pbp->bio_error == 0) 6763a3fcd72SPoul-Henning Kamp pbp->bio_error = cbp->bio_error; 6773a3fcd72SPoul-Henning Kamp return; 6781464240eSMatthew Dillon } 6793a3fcd72SPoul-Henning Kamp g_std_done(cbp); 6801464240eSMatthew Dillon } 681e7322872SSatoshi Asami 682a56bb8a5SSatoshi Asami static void 6833a3fcd72SPoul-Henning Kamp g_ccd_create(struct gctl_req *req, struct g_class *mp) 684a56bb8a5SSatoshi Asami { 6853a3fcd72SPoul-Henning Kamp int *unit, *ileave, *nprovider; 6863a3fcd72SPoul-Henning Kamp struct g_geom *gp; 6873a3fcd72SPoul-Henning Kamp struct g_consumer *cp; 6883a3fcd72SPoul-Henning Kamp struct g_provider *pp; 6893a3fcd72SPoul-Henning Kamp struct ccd_s *sc; 690189337d8SPoul-Henning Kamp struct sbuf *sb; 6913a3fcd72SPoul-Henning Kamp char buf[20]; 6923a3fcd72SPoul-Henning Kamp int i, error; 6933a3fcd72SPoul-Henning Kamp 6943a3fcd72SPoul-Henning Kamp g_topology_assert(); 6953a3fcd72SPoul-Henning Kamp unit = gctl_get_paraml(req, "unit", sizeof (*unit)); 6963a3fcd72SPoul-Henning Kamp ileave = gctl_get_paraml(req, "ileave", sizeof (*ileave)); 6973a3fcd72SPoul-Henning Kamp nprovider = gctl_get_paraml(req, "nprovider", sizeof (*nprovider)); 6983a3fcd72SPoul-Henning Kamp 6993a3fcd72SPoul-Henning Kamp /* Check for duplicate unit */ 7003a3fcd72SPoul-Henning Kamp LIST_FOREACH(gp, &mp->geom, geom) { 7013a3fcd72SPoul-Henning Kamp sc = gp->softc; 7023a3fcd72SPoul-Henning Kamp if (sc->sc_unit == *unit) { 7033a3fcd72SPoul-Henning Kamp gctl_error(req, "Unit %d already configured", *unit); 7043a3fcd72SPoul-Henning Kamp return; 7053a3fcd72SPoul-Henning Kamp } 7063a3fcd72SPoul-Henning Kamp } 7073a3fcd72SPoul-Henning Kamp 7083a3fcd72SPoul-Henning Kamp if (*nprovider <= 0) { 7093a3fcd72SPoul-Henning Kamp gctl_error(req, "Bogus nprovider argument (= %d)", *nprovider); 7103a3fcd72SPoul-Henning Kamp return; 7113a3fcd72SPoul-Henning Kamp } 7123a3fcd72SPoul-Henning Kamp 7133a3fcd72SPoul-Henning Kamp /* Check all providers are valid */ 7143a3fcd72SPoul-Henning Kamp for (i = 0; i < *nprovider; i++) { 7153a3fcd72SPoul-Henning Kamp sprintf(buf, "provider%d", i); 7163a3fcd72SPoul-Henning Kamp pp = gctl_get_provider(req, buf); 7173a3fcd72SPoul-Henning Kamp if (pp == NULL) 7183a3fcd72SPoul-Henning Kamp return; 7193a3fcd72SPoul-Henning Kamp } 7203a3fcd72SPoul-Henning Kamp 7213a3fcd72SPoul-Henning Kamp gp = g_new_geomf(mp, "ccd%d", *unit); 7223a3fcd72SPoul-Henning Kamp gp->start = g_ccd_start; 7233a3fcd72SPoul-Henning Kamp gp->orphan = g_ccd_orphan; 7243a3fcd72SPoul-Henning Kamp gp->access = g_ccd_access; 7253a3fcd72SPoul-Henning Kamp sc = g_malloc(sizeof *sc, M_WAITOK | M_ZERO); 7263a3fcd72SPoul-Henning Kamp gp->softc = sc; 7273a3fcd72SPoul-Henning Kamp sc->sc_ndisks = *nprovider; 7283a3fcd72SPoul-Henning Kamp 7293a3fcd72SPoul-Henning Kamp /* Allocate space for the component info. */ 7303a3fcd72SPoul-Henning Kamp sc->sc_cinfo = g_malloc(sc->sc_ndisks * sizeof(struct ccdcinfo), 7313a3fcd72SPoul-Henning Kamp M_WAITOK | M_ZERO); 7323a3fcd72SPoul-Henning Kamp 7333a3fcd72SPoul-Henning Kamp /* Create consumers and attach to all providers */ 7343a3fcd72SPoul-Henning Kamp for (i = 0; i < *nprovider; i++) { 7353a3fcd72SPoul-Henning Kamp sprintf(buf, "provider%d", i); 7363a3fcd72SPoul-Henning Kamp pp = gctl_get_provider(req, buf); 7373a3fcd72SPoul-Henning Kamp cp = g_new_consumer(gp); 7383a3fcd72SPoul-Henning Kamp error = g_attach(cp, pp); 7393a3fcd72SPoul-Henning Kamp KASSERT(error == 0, ("attach to %s failed", pp->name)); 7403a3fcd72SPoul-Henning Kamp sc->sc_cinfo[i].ci_consumer = cp; 7413a3fcd72SPoul-Henning Kamp sc->sc_cinfo[i].ci_provider = pp; 7423a3fcd72SPoul-Henning Kamp } 7433a3fcd72SPoul-Henning Kamp 7443a3fcd72SPoul-Henning Kamp sc->sc_unit = *unit; 7453a3fcd72SPoul-Henning Kamp sc->sc_ileave = *ileave; 7463a3fcd72SPoul-Henning Kamp 7473a3fcd72SPoul-Henning Kamp if (gctl_get_param(req, "uniform", NULL)) 7483a3fcd72SPoul-Henning Kamp sc->sc_flags |= CCDF_UNIFORM; 7493a3fcd72SPoul-Henning Kamp if (gctl_get_param(req, "mirror", NULL)) 7503a3fcd72SPoul-Henning Kamp sc->sc_flags |= CCDF_MIRROR; 7513a3fcd72SPoul-Henning Kamp 7523a3fcd72SPoul-Henning Kamp if (sc->sc_ileave == 0 && (sc->sc_flags & CCDF_MIRROR)) { 7533a3fcd72SPoul-Henning Kamp printf("%s: disabling mirror, interleave is 0\n", gp->name); 7543a3fcd72SPoul-Henning Kamp sc->sc_flags &= ~(CCDF_MIRROR); 7553a3fcd72SPoul-Henning Kamp } 7563a3fcd72SPoul-Henning Kamp 7573a3fcd72SPoul-Henning Kamp if ((sc->sc_flags & CCDF_MIRROR) && !(sc->sc_flags & CCDF_UNIFORM)) { 7583a3fcd72SPoul-Henning Kamp printf("%s: mirror/parity forces uniform flag\n", gp->name); 7593a3fcd72SPoul-Henning Kamp sc->sc_flags |= CCDF_UNIFORM; 7603a3fcd72SPoul-Henning Kamp } 7613a3fcd72SPoul-Henning Kamp 7623a3fcd72SPoul-Henning Kamp error = ccdinit(req, sc); 7633a3fcd72SPoul-Henning Kamp if (error != 0) { 7643a3fcd72SPoul-Henning Kamp g_ccd_freesc(sc); 7653a3fcd72SPoul-Henning Kamp gp->softc = NULL; 7663a3fcd72SPoul-Henning Kamp g_wither_geom(gp, ENXIO); 7673a3fcd72SPoul-Henning Kamp return; 7683a3fcd72SPoul-Henning Kamp } 7693a3fcd72SPoul-Henning Kamp 7703a3fcd72SPoul-Henning Kamp pp = g_new_providerf(gp, "%s", gp->name); 7713a3fcd72SPoul-Henning Kamp pp->mediasize = sc->sc_size * (off_t)sc->sc_secsize; 7723a3fcd72SPoul-Henning Kamp pp->sectorsize = sc->sc_secsize; 7733a3fcd72SPoul-Henning Kamp g_error_provider(pp, 0); 774189337d8SPoul-Henning Kamp 775189337d8SPoul-Henning Kamp sb = sbuf_new(NULL, NULL, 0, SBUF_AUTOEXTEND); 776189337d8SPoul-Henning Kamp sbuf_clear(sb); 7773a3fcd72SPoul-Henning Kamp sbuf_printf(sb, "ccd%d: %d components ", sc->sc_unit, *nprovider); 7783a3fcd72SPoul-Henning Kamp for (i = 0; i < *nprovider; i++) { 7793a3fcd72SPoul-Henning Kamp sbuf_printf(sb, "%s%s", 7803a3fcd72SPoul-Henning Kamp i == 0 ? "(" : ", ", 7813a3fcd72SPoul-Henning Kamp sc->sc_cinfo[i].ci_provider->name); 7823a3fcd72SPoul-Henning Kamp } 7833a3fcd72SPoul-Henning Kamp sbuf_printf(sb, "), %jd blocks ", (off_t)pp->mediasize / DEV_BSIZE); 7843a3fcd72SPoul-Henning Kamp if (sc->sc_ileave != 0) 7853a3fcd72SPoul-Henning Kamp sbuf_printf(sb, "interleaved at %d blocks\n", 7863a3fcd72SPoul-Henning Kamp sc->sc_ileave); 7873a3fcd72SPoul-Henning Kamp else 7883a3fcd72SPoul-Henning Kamp sbuf_printf(sb, "concatenated\n"); 7893a3fcd72SPoul-Henning Kamp sbuf_finish(sb); 7903a3fcd72SPoul-Henning Kamp gctl_set_param(req, "output", sbuf_data(sb), sbuf_len(sb) + 1); 7913a3fcd72SPoul-Henning Kamp sbuf_delete(sb); 7923a3fcd72SPoul-Henning Kamp } 7933a3fcd72SPoul-Henning Kamp 7943a3fcd72SPoul-Henning Kamp static void 7953a3fcd72SPoul-Henning Kamp g_ccd_destroy(struct gctl_req *req, struct g_class *mp) 7963a3fcd72SPoul-Henning Kamp { 7973a3fcd72SPoul-Henning Kamp struct g_geom *gp; 7983a3fcd72SPoul-Henning Kamp struct g_provider *pp; 7993a3fcd72SPoul-Henning Kamp struct ccd_s *sc; 8003a3fcd72SPoul-Henning Kamp 8013a3fcd72SPoul-Henning Kamp g_topology_assert(); 8023a3fcd72SPoul-Henning Kamp gp = gctl_get_geom(req, mp, "geom"); 8033a3fcd72SPoul-Henning Kamp if (gp == NULL) 8043a3fcd72SPoul-Henning Kamp return; 8053a3fcd72SPoul-Henning Kamp sc = gp->softc; 8063a3fcd72SPoul-Henning Kamp pp = LIST_FIRST(&gp->provider); 8073a3fcd72SPoul-Henning Kamp if (pp->acr != 0 || pp->acw != 0 || pp->ace != 0) { 8083a3fcd72SPoul-Henning Kamp gctl_error(req, "%s is open(r%dw%de%d)", gp->name, 8093a3fcd72SPoul-Henning Kamp pp->acr, pp->acw, pp->ace); 8103a3fcd72SPoul-Henning Kamp return; 8113a3fcd72SPoul-Henning Kamp } 8123a3fcd72SPoul-Henning Kamp g_ccd_freesc(sc); 8133a3fcd72SPoul-Henning Kamp gp->softc = NULL; 8143a3fcd72SPoul-Henning Kamp g_wither_geom(gp, ENXIO); 8153a3fcd72SPoul-Henning Kamp } 8163a3fcd72SPoul-Henning Kamp 8173a3fcd72SPoul-Henning Kamp static void 8183a3fcd72SPoul-Henning Kamp g_ccd_list(struct gctl_req *req, struct g_class *mp) 8193a3fcd72SPoul-Henning Kamp { 8203a3fcd72SPoul-Henning Kamp struct sbuf *sb; 8213a3fcd72SPoul-Henning Kamp struct ccd_s *cs; 8223a3fcd72SPoul-Henning Kamp struct g_geom *gp; 8233a3fcd72SPoul-Henning Kamp int i, unit, *up; 8243a3fcd72SPoul-Henning Kamp 8253a3fcd72SPoul-Henning Kamp up = gctl_get_paraml(req, "unit", sizeof (int)); 8263a3fcd72SPoul-Henning Kamp unit = *up; 8273a3fcd72SPoul-Henning Kamp sb = sbuf_new(NULL, NULL, 0, SBUF_AUTOEXTEND); 8283a3fcd72SPoul-Henning Kamp sbuf_clear(sb); 8293a3fcd72SPoul-Henning Kamp LIST_FOREACH(gp, &mp->geom, geom) { 8303a3fcd72SPoul-Henning Kamp cs = gp->softc; 8310f557e0aSPoul-Henning Kamp if (unit >= 0 && unit != cs->sc_unit) 8320f557e0aSPoul-Henning Kamp continue; 833189337d8SPoul-Henning Kamp sbuf_printf(sb, "ccd%d\t\t%d\t%d\t", 8343a3fcd72SPoul-Henning Kamp cs->sc_unit, cs->sc_ileave, cs->sc_flags & CCDF_USERMASK); 835189337d8SPoul-Henning Kamp 8363a3fcd72SPoul-Henning Kamp for (i = 0; i < cs->sc_ndisks; ++i) { 8373a3fcd72SPoul-Henning Kamp sbuf_printf(sb, "%s/dev/%s", i == 0 ? "" : " ", 8383a3fcd72SPoul-Henning Kamp cs->sc_cinfo[i].ci_provider->name); 839189337d8SPoul-Henning Kamp } 840189337d8SPoul-Henning Kamp sbuf_printf(sb, "\n"); 841189337d8SPoul-Henning Kamp } 842189337d8SPoul-Henning Kamp sbuf_finish(sb); 8433a3fcd72SPoul-Henning Kamp gctl_set_param(req, "output", sbuf_data(sb), sbuf_len(sb) + 1); 8443a3fcd72SPoul-Henning Kamp sbuf_delete(sb); 845189337d8SPoul-Henning Kamp } 846189337d8SPoul-Henning Kamp 847189337d8SPoul-Henning Kamp static void 848189337d8SPoul-Henning Kamp g_ccd_config(struct gctl_req *req, struct g_class *mp, char const *verb) 849189337d8SPoul-Henning Kamp { 850189337d8SPoul-Henning Kamp 851189337d8SPoul-Henning Kamp g_topology_assert(); 852189337d8SPoul-Henning Kamp if (!strcmp(verb, "create geom")) { 8533a3fcd72SPoul-Henning Kamp g_ccd_create(req, mp); 854189337d8SPoul-Henning Kamp } else if (!strcmp(verb, "destroy geom")) { 8553a3fcd72SPoul-Henning Kamp g_ccd_destroy(req, mp); 856189337d8SPoul-Henning Kamp } else if (!strcmp(verb, "list")) { 8573a3fcd72SPoul-Henning Kamp g_ccd_list(req, mp); 858189337d8SPoul-Henning Kamp } else { 859189337d8SPoul-Henning Kamp gctl_error(req, "unknown verb"); 860189337d8SPoul-Henning Kamp } 861189337d8SPoul-Henning Kamp } 862189337d8SPoul-Henning Kamp 863189337d8SPoul-Henning Kamp static struct g_class g_ccd_class = { 864189337d8SPoul-Henning Kamp .name = "CCD", 865189337d8SPoul-Henning Kamp .ctlreq = g_ccd_config, 866189337d8SPoul-Henning Kamp }; 867189337d8SPoul-Henning Kamp 868189337d8SPoul-Henning Kamp DECLARE_GEOM_CLASS(g_ccd_class, g_ccd); 869