/* $NetBSD: ustarfs.c,v 1.35 2014/03/20 03:13:18 christos Exp $ */ /* [Notice revision 2.2] * Copyright (c) 1997, 1998 Avalon Computer Systems, Inc. * All rights reserved. * * Author: Ross Harvey * * 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 and * author 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. * 3. Neither the name of Avalon Computer Systems, Inc. nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * 4. This copyright will be assigned to The NetBSD Foundation on * 1/1/2000 unless these terms (including possibly the assignment * date) are updated in writing by Avalon prior to the latest specified * assignment date. * * THIS SOFTWARE IS PROVIDED BY AVALON COMPUTER SYSTEMS, INC. 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 AVALON OR THE 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. */ /* ******************************* USTAR FS ******************************* */ /* * Implement an ROFS with an 8K boot area followed by ustar-format data. * The point: minimal FS overhead, and it's easy (well, `possible') to * split files over multiple volumes. * * XXX - TODO LIST * --- - ---- ---- * XXX - tag volume numbers and verify that the correct volume is * inserted after volume swaps. * * XXX - stop hardwiring FS metadata for floppies...embed it in a file, * file name, or something. (Remember __SYMDEF? :-) * * XXX Does not currently implement: * XXX * XXX LIBSA_NO_FS_CLOSE * XXX LIBSA_NO_FS_SEEK * XXX LIBSA_NO_FS_WRITE * XXX LIBSA_NO_FS_SYMLINK (does this even make sense?) * XXX LIBSA_FS_SINGLECOMPONENT */ #ifdef _STANDALONE #include #else #include #endif #include "stand.h" #include "ustarfs.h" #define BBSIZE 8192 #define USTAR_NAME_BLOCK 512 /* * Virtual offset: relative to start of ustar archive * Logical offset: volume-relative * Physical offset: the usual meaning */ /* virtual offset to volume number */ #define vda2vn(_v,_volsize) ((_v) / (_volsize)) /* conversions between the three different levels of disk addresses */ #define vda2lda(_v,_volsize) ((_v) % (_volsize)) #define lda2vda(_v,_volsize,_volnumber) ((_v) + (_volsize) * (_volnumber)) #define lda2pda(_lda) ((_lda) + ustarfs_mode_offset) #define pda2lda(_pda) ((_pda) - ustarfs_mode_offset) /* * Change this to off_t if you want to support big volumes. If we only use * ustarfs on floppies it can stay int for libsa code density. * * It needs to be signed. */ typedef int ustoffs; typedef struct ustar_struct { char ust_name[100], ust_mode[8], ust_uid[8], ust_gid[8], ust_size[12], ust_misc[12 + 8 + 1 + 100], ust_magic[6], /* there is more, but we don't care */ ust_pad[1]; /* make it aligned */ } ustar_t; /* * We buffer one even cylinder of data...it's actually only really one * cyl on a 1.44M floppy, but on other devices it's fast enough with any * kind of block buffering, so we optimize for the slowest device. */ #ifndef USTAR_SECT_PER_CYL #define USTAR_SECT_PER_CYL (18 * 2) #endif typedef struct ust_active_struct { ustar_t uas_active; char uas_1cyl[USTAR_SECT_PER_CYL * 512]; ustoffs uas_volsize; /* XXX this is hardwired now */ ustoffs uas_windowbase; /* relative to volume 0 */ ustoffs uas_filestart; /* relative to volume 0 */ ustoffs uas_fseek; /* relative to file */ ustoffs uas_filesize; /* relative to volume 0 */ int uas_init_window; /* data present in window */ int uas_init_fs; /* ust FS actually found */ int uas_volzerosig; /* ID volume 0 by signature */ int uas_sigdone; /* did sig already */ int uas_offset; /* amount of cylinder below lba 0 */ } ust_active_t; static const char formatid[] = "USTARFS", metaname[] = "USTAR.volsize."; static const int ustarfs_mode_offset = BBSIZE; static int checksig(ust_active_t *); static int convert(const char *, int, int); static int get_volume(struct open_file *, int); static void setwindow(ust_active_t *, ustoffs, ustoffs); static int real_fs_cylinder_read(struct open_file *, ustoffs, int); static int ustarfs_cylinder_read(struct open_file *, ustoffs, int); static void ustarfs_sscanf(const char *, const char *, int *); static int read512block(struct open_file *, ustoffs, char block[512]); static int init_volzero_sig(struct open_file *); #ifdef HAVE_CHANGEDISK_HOOK /* * Called when the next volume is prompted. * Machine dependent code can eject the medium etc. * The new medium must be ready when this hook returns. */ void changedisk_hook(struct open_file *); #endif static int convert(const char *f, int base, int fw) { int i, c, result = 0; while(fw > 0 && *f == ' ') { --fw; ++f; } for(i = 0; i < fw; ++i) { c = f[i]; if ('0' <= c && c < '0' + base) { c -= '0'; result = result * base + c; } else break; } return result; } static void ustarfs_sscanf(const char *s, const char *f, int *xi) { *xi = convert(s, 8, convert(f + 1, 10, 99)); } static int ustarfs_cylinder_read(struct open_file *f, ustoffs seek2, int forcelabel) { int i, e; for (i = 0; i < 3; ++i) { e = real_fs_cylinder_read(f, seek2, forcelabel); if (e == 0) return 0; } return e; } static int real_fs_cylinder_read(struct open_file *f, ustoffs seek2, int forcelabel) { int i; int e = 0; /* XXX work around gcc warning */ ustoffs lda; char *xferbase; ust_active_t *ustf; size_t xferrqst, xfercount; ustf = f->f_fsdata; xferrqst = sizeof ustf->uas_1cyl; xferbase = ustf->uas_1cyl; lda = pda2lda(seek2); if (lda < 0) { lda = -lda; ustf->uas_offset = lda; /* * don't read the label unless we have to. (Preserve * sequential block access so tape boot works.) */ if (!forcelabel) { memset(xferbase, 0, lda); xferrqst -= lda; xferbase += lda; seek2 += lda; } } else { ustf->uas_offset = 0; } while(xferrqst > 0) { #if !defined(LIBSA_NO_TWIDDLE) twiddle(); #endif for (i = 0; i < 3; ++i) { e = DEV_STRATEGY(f->f_dev)(f->f_devdata, F_READ, seek2 / 512, xferrqst, xferbase, &xfercount); if (e == 0) break; printf("@"); } if (e) break; if (xfercount != xferrqst) printf("Warning, unexpected short transfer %d/%d\n", (int)xfercount, (int)xferrqst); xferrqst -= xfercount; xferbase += xfercount; seek2 += xfercount; } return e; } static int checksig(ust_active_t *ustf) { int i, rcs; for(i = rcs = 0; i < (int)(sizeof ustf->uas_1cyl); ++i) rcs += ustf->uas_1cyl[i]; return rcs; } static int get_volume(struct open_file *f, int vn) { int e, needvolume, havevolume; ust_active_t *ustf; ustf = f->f_fsdata; havevolume = vda2vn(ustf->uas_windowbase, ustf->uas_volsize); needvolume = vn; while(havevolume != needvolume) { printf("\nPlease "); if (havevolume >= 0) printf("remove disk %d, ", havevolume + 1); printf("insert disk %d, and press return...", needvolume + 1); #ifdef HAVE_CHANGEDISK_HOOK changedisk_hook(f); #else for (;;) { int c = getchar(); if ((c == '\n') || (c == '\r')) break; } #endif printf("\n"); e = ustarfs_cylinder_read(f, 0, needvolume != 0); if (e) return e; if(strncmp(formatid, ustf->uas_1cyl, strlen(formatid))) { /* no magic, might be OK if we want volume 0 */ if (ustf->uas_volzerosig == checksig(ustf)) { havevolume = 0; continue; } printf("Disk is not from the volume set?!\n"); havevolume = -2; continue; } ustarfs_sscanf(ustf->uas_1cyl + strlen(formatid), "%9o", &havevolume); --havevolume; } return 0; } static void setwindow(ust_active_t *ustf, ustoffs pda, ustoffs vda) { ustf->uas_windowbase = lda2vda(pda2lda(pda), ustf->uas_volsize, vda2vn(vda, ustf->uas_volsize)) + ustf->uas_offset; ustf->uas_init_window = 1; } static int read512block(struct open_file *f, ustoffs vda, char block[512]) { ustoffs pda; ssize_t e; int dienow; ust_active_t *ustf; dienow = 0; ustf = f->f_fsdata; /* * if (vda in window) * copy out and return data * if (vda is on some other disk) * do disk swap * get physical disk address * round down to cylinder boundary * read cylinder * set window (in vda space) and try again * [ there is an implicit assumption that windowbase always identifies * the current volume, even if initwindow == 0. This way, a * windowbase of 0 causes the initial volume to be disk 0 ] */ tryagain: if(ustf->uas_init_window && ustf->uas_windowbase <= vda && vda < ustf->uas_windowbase + (int)(sizeof ustf->uas_1cyl) - ustf->uas_offset) { memcpy(block, ustf->uas_1cyl + (vda - ustf->uas_windowbase) + ustf->uas_offset, 512); return 0; } if (dienow++) panic("ustarfs read512block"); ustf->uas_init_window = 0; e = get_volume(f, vda2vn(vda, ustf->uas_volsize)); if (e) return e; pda = lda2pda(vda2lda(vda, ustf->uas_volsize)); pda-= pda % sizeof ustf->uas_1cyl; e = ustarfs_cylinder_read(f, pda, 0); if (e) return e; setwindow(ustf, pda, vda); goto tryagain; } static int init_volzero_sig(struct open_file *f) { int e; ust_active_t *ustf; ustf = f->f_fsdata; if (!ustf->uas_sigdone) { e = ustarfs_cylinder_read(f, 0, 0); if (e) return e; ustf->uas_volzerosig = checksig(ustf); setwindow(ustf, 0, 0); } return 0; } __compactcall int ustarfs_open(const char *path, struct open_file *f) { ust_active_t *ustf; ustoffs offset; char block[512]; int filesize; int e, e2; int newvolblocks; if (*path == '/') ++path; f->f_fsdata = ustf = alloc(sizeof *ustf); memset(ustf, 0, sizeof *ustf); offset = 0; /* default to 2880 sector floppy */ ustf->uas_volsize = 80 * 2 * 18 * 512 - lda2pda(0); ustf->uas_fseek = 0; e = init_volzero_sig(f); if (e) return e; e2 = EINVAL; for(;;) { ustf->uas_filestart = offset; e = read512block(f, offset, block); if (e) break; memcpy(&ustf->uas_active, block, sizeof ustf->uas_active); if(strncmp(ustf->uas_active.ust_magic, "ustar", 5)) { e = e2; break; } e2 = ENOENT; /* it must be an actual ustarfs */ ustf->uas_init_fs = 1; /* if volume metadata is found, use it */ if(strncmp(ustf->uas_active.ust_name, metaname, strlen(metaname)) == 0) { ustarfs_sscanf(ustf->uas_active.ust_name + strlen(metaname), "%99o", &newvolblocks); ustf->uas_volsize = newvolblocks * 512 - lda2pda(0); } ustarfs_sscanf(ustf->uas_active.ust_size,"%12o",&filesize); if(strncmp(ustf->uas_active.ust_name, path, sizeof ustf->uas_active.ust_name) == 0) { ustf->uas_filesize = filesize; break; } offset += USTAR_NAME_BLOCK + filesize; filesize %= 512; if (filesize) offset += 512 - filesize; } if (e) { dealloc(ustf, sizeof *ustf); f->f_fsdata = 0; } return e; } #ifndef LIBSA_NO_FS_WRITE __compactcall int ustarfs_write(struct open_file *f, void *start, size_t size, size_t *resid) { return EROFS; } #endif /* !LIBSA_NO_FS_WRITE */ #ifndef LIBSA_NO_FS_SEEK __compactcall off_t ustarfs_seek(struct open_file *f, off_t offs, int whence) { ust_active_t *ustf; ustf = f->f_fsdata; switch (whence) { case SEEK_SET: ustf->uas_fseek = offs; break; case SEEK_CUR: ustf->uas_fseek += offs; break; case SEEK_END: ustf->uas_fseek = ustf->uas_filesize - offs; break; default: return -1; } return ustf->uas_fseek; } #endif /* !LIBSA_NO_FS_SEEK */ __compactcall int ustarfs_read(struct open_file *f, void *start, size_t size, size_t *resid) { ust_active_t *ustf; int e; char *space512; int blkoffs; int readoffs; int bufferoffset; size_t seg; size_t infile; size_t inbuffer; e = 0; space512 = alloc(512); ustf = f->f_fsdata; while(size != 0) { if (ustf->uas_fseek >= ustf->uas_filesize) break; bufferoffset = ustf->uas_fseek % 512; blkoffs = ustf->uas_fseek - bufferoffset; readoffs = ustf->uas_filestart + 512 + blkoffs; e = read512block(f, readoffs, space512); if (e) break; seg = size; inbuffer = 512 - bufferoffset; if (inbuffer < seg) seg = inbuffer; infile = ustf->uas_filesize - ustf->uas_fseek; if (infile < seg) seg = infile; memcpy(start, space512 + bufferoffset, seg); ustf->uas_fseek += seg; start = (char *)start + seg; size -= seg; } if (resid) *resid = size; dealloc(space512, 512); return e; } __compactcall int ustarfs_stat(struct open_file *f, struct stat *sb) { int mode, uid, gid; ust_active_t *ustf; if (f == NULL) return EINVAL; ustf = f->f_fsdata; memset(sb, 0, sizeof *sb); ustarfs_sscanf(ustf->uas_active.ust_mode, "%8o", &mode); ustarfs_sscanf(ustf->uas_active.ust_uid, "%8o", &uid); ustarfs_sscanf(ustf->uas_active.ust_gid, "%8o", &gid); sb->st_mode = mode; sb->st_uid = uid; sb->st_gid = gid; sb->st_size = ustf->uas_filesize; return 0; } #if defined(LIBSA_ENABLE_LS_OP) #include "ls.h" __compactcall void ustarfs_ls(struct open_file *f, const char *pattern) { lsunsup("ustarfs"); return; } #endif #ifndef LIBSA_NO_FS_CLOSE __compactcall int ustarfs_close(struct open_file *f) { if (f == NULL || f->f_fsdata == NULL) return EINVAL; dealloc(f->f_fsdata, sizeof(ust_active_t)); f->f_fsdata = 0; return 0; } #endif /* !LIBSA_NO_FS_CLOSE */