/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * Rock Ridge extensions to the System Use Sharing protocol * for the High Sierra filesystem */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "fs/fs_subr.h" #include static void form_time(int, uchar_t *, struct timeval *); static void name_parse(int, uchar_t *, size_t, uchar_t *, int *, ulong_t *, int); /* * Signature table for RRIP */ ext_signature_t rrip_signature_table[ ] = { RRIP_CL, rrip_child_link, RRIP_NM, rrip_name, RRIP_PL, rrip_parent_link, RRIP_PN, rrip_dev_nodes, RRIP_PX, rrip_file_attr, RRIP_RE, rrip_reloc_dir, RRIP_RR, rrip_rock_ridge, RRIP_SL, rrip_sym_link, RRIP_TF, rrip_file_time, (char *)NULL, NULL }; /* * rrip_dev_nodes() * * sig_handler() for RRIP signature "PN" * * This function parses out the major and minor numbers from the "PN * " SUF. */ uchar_t * rrip_dev_nodes(sig_args_t *sig_args_p) { uchar_t *pn_ptr = sig_args_p->SUF_ptr; major_t major_dev = (major_t)RRIP_MAJOR(pn_ptr); minor_t minor_dev = (minor_t)RRIP_MINOR(pn_ptr); sig_args_p->hdp->r_dev = makedevice(major_dev, minor_dev); return (pn_ptr + SUF_LEN(pn_ptr)); } /* * rrip_file_attr() * * sig_handler() for RRIP signature "PX" * * This function parses out the file attributes of a file from the "PX" * SUF. The attributes is finds are : st_mode, st_nlink, st_uid, * and st_gid. */ uchar_t * rrip_file_attr(sig_args_t *sig_args_p) { uchar_t *px_ptr = sig_args_p->SUF_ptr; struct hs_direntry *hdp = sig_args_p->hdp; hdp->mode = RRIP_MODE(px_ptr); hdp->nlink = RRIP_NLINK(px_ptr); hdp->uid = RRIP_UID(px_ptr); hdp->gid = RRIP_GID(px_ptr); if (SUF_LEN(px_ptr) >= RRIP_PX_SIZE) hdp->inode = (ino64_t)RRIP_INO(px_ptr); else hdp->inode = 0; hdp->type = IFTOVT(hdp->mode); return (px_ptr + SUF_LEN(px_ptr)); } /* * rrip_file_time() * * support function for rrip_file_time() * * This function decides whether to parse the times in a long time form * (17 bytes) or a short time form (7 bytes). These time formats are * defined in the ISO 9660 specification. */ static void form_time(int time_length, uchar_t *file_time, struct timeval *tvp) { if (time_length == ISO_DATE_LEN) hs_parse_longdate(file_time, tvp); else hs_parse_dirdate(file_time, tvp); } /* * rrip_file_time() * * sig_handler() for RRIP signature RRIP_TF * * This function parses out the file time attributes of a file from the * "TI" SUF. The times it parses are : st_mtime, st_atime and st_ctime. * * The function form_time is a support function only used in this * function. */ uchar_t * rrip_file_time(sig_args_t *sig_args_p) { uchar_t *tf_ptr = sig_args_p->SUF_ptr; if (IS_TIME_BIT_SET(RRIP_TF_FLAGS(tf_ptr), RRIP_TF_ACCESS_BIT)) { form_time(RRIP_TF_TIME_LENGTH(tf_ptr), RRIP_tf_access(tf_ptr), &sig_args_p->hdp->adate); } if (IS_TIME_BIT_SET(RRIP_TF_FLAGS(tf_ptr), RRIP_TF_MODIFY_BIT)) { form_time(RRIP_TF_TIME_LENGTH(tf_ptr), RRIP_tf_modify(tf_ptr), &sig_args_p->hdp->mdate); } if (IS_TIME_BIT_SET(RRIP_TF_FLAGS(tf_ptr), RRIP_TF_ATTRIBUTES_BIT)) { form_time(RRIP_TF_TIME_LENGTH(tf_ptr), RRIP_tf_attributes(tf_ptr), &sig_args_p->hdp->cdate); } return (tf_ptr + SUF_LEN(tf_ptr)); } /* * name_parse() * * This is a generic fuction used for sym links and filenames. The * flags passed to it effect the way the name/component field is parsed. * * The return value will be the NAME_CONTINUE or NAME_CHANGE value. * */ static void name_parse( int rrip_flags, /* component/name flag */ uchar_t *SUA_string, /* string from SUA */ size_t SUA_string_len, /* length of SUA string */ uchar_t *dst, /* string to copy to */ int *dst_lenp, /* ptr to cur. str len */ ulong_t *name_flags_p, /* internal name flags */ int dst_size) /* limit dest string to */ /* this value */ { size_t off; size_t len; if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_ROOT)) dst[0] = 0; if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_CURRENT)) { SUA_string = (uchar_t *)"."; SUA_string_len = 1; } if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_PARENT)) { SUA_string = (uchar_t *)".."; SUA_string_len = 2; } /* * XXX * For now, ignore the following flags and return. * have to figure out how to get host name in kernel. * Unsure if this even should be done. */ if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_VOLROOT) || IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_HOST)) { cmn_err(CE_NOTE, "VOLUME ROOT and NAME_HOST currently unsupported\n"); return; } /* * strlcat() has two nice properties: * - the size of the output buffer includes the trailing '\0' * - we pass "total size" not "remaining size" * It'd be the ideal candidate for this codeblock - make it: * * strlcat(dst, SUA_string, * MIN(dstsize, strlen(dst) + SUA_string_len + 1)); * * Unfortunately, strlcat() cannot deal with input strings * that are not NULL-terminated - like SUA_string can be in * our case here. So we can't use it :( * Now strncat() doesn't work either - because it doesn't deal * with strings for which the 'potential NULL-termination' isn't * accessible - strncat(dst, NULL, 0) crashes although it copies * nothing in any case. If the SUA ends on a mapping boundary, * then telling strncat() to copy no more than the remaining bytes * in the buffer is of no avail if there's no NULL byte in them. * * Hence - binary copy. What are all these str* funcs for ?? */ dst_size--; /* trailing '\0' */ off = strlen((char *)dst); len = MIN(dst_size - off, SUA_string_len); bcopy((char *)SUA_string, (char *)(dst + off), len); dst[off + len] = '\0'; *dst_lenp = strlen((char *)dst); if (IS_NAME_BIT_SET(rrip_flags, RRIP_NAME_CONTINUE)) SET_NAME_BIT(*(name_flags_p), RRIP_NAME_CONTINUE); else SET_NAME_BIT(*(name_flags_p), RRIP_NAME_CHANGE); } /* * rrip_name() * * sig_handler() for RRIP signature RRIP_NM * * This function handles the name of the current file. It is case * sensitive to whatever was put into the field and does NO * translation. It will take whatever characters were in the field. * * Because the flags effect the way the name is parsed the same way * that the sym_link component parsing is done, we will use the same * function to do the actual parsing. */ uchar_t * rrip_name(sig_args_t *sig_args_p) { uchar_t *nm_ptr = sig_args_p->SUF_ptr; if ((sig_args_p->name_p == (uchar_t *)NULL) || (sig_args_p->name_len_p == (int *)NULL)) goto end; /* * If we have a "." or ".." directory, we should not look for * an alternate name */ if (HDE_NAME_LEN(sig_args_p->dirp) == 1) { if (*((char *)HDE_name(sig_args_p->dirp)) == '\0') { (void) strcpy((char *)sig_args_p->name_p, "."); *sig_args_p->name_len_p = 1; goto end; } else if (*((char *)HDE_name(sig_args_p->dirp)) == '\1') { (void) strcpy((char *)sig_args_p->name_p, ".."); *sig_args_p->name_len_p = 2; goto end; } } name_parse((int)RRIP_NAME_FLAGS(nm_ptr), RRIP_name(nm_ptr), (size_t)RRIP_NAME_LEN(nm_ptr), sig_args_p->name_p, sig_args_p->name_len_p, &(sig_args_p->name_flags), MAXNAMELEN); end: return (nm_ptr + SUF_LEN(nm_ptr)); } /* * rrip_sym_link() * * sig_handler() for RRIP signature RRIP_SL * * creates a symlink buffer to simulate sym_links. */ uchar_t * rrip_sym_link(sig_args_t *sig_args_p) { uchar_t *sl_ptr = sig_args_p->SUF_ptr; uchar_t *comp_ptr; char *tmp_sym_link; struct hs_direntry *hdp = sig_args_p->hdp; int sym_link_len; char *sym_link; if (hdp->type != VLNK) goto end; /* * If the sym link has already been created, don't recreate it */ if (IS_NAME_BIT_SET(sig_args_p->name_flags, RRIP_SYM_LINK_COMPLETE)) goto end; sym_link = kmem_alloc(MAXPATHLEN + 1, KM_SLEEP); /* * If there is an original string put it into sym_link[], otherwise * initialize sym_link[] to the empty string. */ if (hdp->sym_link != (char *)NULL) { sym_link_len = (int)strlen(strcpy(sym_link, hdp->sym_link)); } else { sym_link[0] = '\0'; sym_link_len = 0; } /* for all components */ for (comp_ptr = RRIP_sl_comp(sl_ptr); comp_ptr < (sl_ptr + SUF_LEN(sl_ptr)); comp_ptr += RRIP_COMP_LEN(comp_ptr)) { name_parse((int)RRIP_COMP_FLAGS(comp_ptr), RRIP_comp(comp_ptr), (size_t)RRIP_COMP_NAME_LEN(comp_ptr), (uchar_t *)sym_link, &sym_link_len, &(sig_args_p->name_flags), MAXPATHLEN); /* * If the component is continued don't put a '/' in * the pathname, but do NULL terminate it. */ if (IS_NAME_BIT_SET(RRIP_COMP_FLAGS(comp_ptr), RRIP_NAME_CONTINUE)) { sym_link[sym_link_len] = '\0'; } else { sym_link[sym_link_len] = '/'; sym_link[sym_link_len + 1] = '\0'; /* add 1 to sym_link_len for '/' */ sym_link_len++; } } /* * If we reached the end of the symbolic link, take out the * last slash, but don't change ROOT "/" to an empty string. */ if (!IS_NAME_BIT_SET(RRIP_SL_FLAGS(sl_ptr), RRIP_NAME_CONTINUE) && sym_link_len > 1 && sym_link[sym_link_len - 1] == '/') sym_link[--sym_link_len] = '\0'; /* * if no memory has been allocated, get some, otherwise, append * to the current allocation */ tmp_sym_link = kmem_alloc(SYM_LINK_LEN(sym_link), KM_SLEEP); (void) strcpy(tmp_sym_link, sym_link); if (hdp->sym_link != (char *)NULL) kmem_free(hdp->sym_link, (size_t)(hdp->ext_size + 1)); hdp->sym_link = (char *)&tmp_sym_link[0]; /* the size of a symlink is its length */ hdp->ext_size = (uint_t)strlen(tmp_sym_link); if (!IS_NAME_BIT_SET(RRIP_SL_FLAGS(sl_ptr), RRIP_NAME_CONTINUE)) { /* reached the end of the symbolic link */ SET_NAME_BIT(sig_args_p->name_flags, RRIP_SYM_LINK_COMPLETE); } kmem_free(sym_link, MAXPATHLEN + 1); end: return (sl_ptr + SUF_LEN(sl_ptr)); } /* * rrip_namecopy() * * This function will copy the rrip name to the "to" buffer, if it * exists. * * XXX - We should speed this up by implementing the search in * parse_sua(). It works right now, so I don't want to mess with it. */ int rrip_namecopy( char *from, /* name to copy */ char *to, /* string to copy "from" to */ char *tmp_name, /* temp storage for original name */ uchar_t *dirp, /* directory entry pointer */ uint_t last_offset, /* last index into current dir block */ struct hsfs *fsp, /* filesystem pointer */ struct hs_direntry *hdp) /* directory entry pointer to put */ /* all that good info in */ { int size = 0; int change_flag = 0; int ret_val; if ((to == (char *)NULL) || (from == (char *)NULL) || (dirp == (uchar_t *)NULL)) { return (0); } /* special handling for '.' and '..' */ if (HDE_NAME_LEN(dirp) == 1) { if (*((char *)HDE_name(dirp)) == '\0') { (void) strcpy(to, "."); return (1); } else if (*((char *)HDE_name(dirp)) == '\1') { (void) strcpy(to, ".."); return (2); } } ret_val = parse_sua((uchar_t *)to, &size, &change_flag, dirp, last_offset, hdp, fsp, NULL, 0); if (IS_NAME_BIT_SET(change_flag, RRIP_NAME_CHANGE) && !ret_val) return (size); /* * Well, the name was not found * * make rripname an upper case "nm" (to), so that * we can compare it the current HDE_DIR_NAME() * without nuking the original "nm", for future case * sensitive name comparing */ (void) strcpy(tmp_name, from); /* keep original */ size = hs_uppercase_copy(tmp_name, from, (int)strlen(from)); return (-1); } /* * rrip_reloc_dir() * * This function is fairly bogus. All it does is cause a failure of * the hs_parsedir, so that no vnode will be made for it and * essentially, the directory will no longer be seen. This is part * of the directory hierarchy mess, where the relocated directory will * be hidden as far as ISO 9660 is concerned. When we hit the child * link "CL" SUF, then we will read the new directory. */ uchar_t * rrip_reloc_dir(sig_args_t *sig_args_p) { uchar_t *re_ptr = sig_args_p->SUF_ptr; sig_args_p->flags = RELOC_DIR; return (re_ptr + SUF_LEN(re_ptr)); } /* * rrip_child_link() * * This is the child link part of the directory hierarchy stuff and * this does not really do much anyway. All it does is read the * directory entry that the child link SUF contains. All should be * fine then. */ uchar_t * rrip_child_link(sig_args_t *sig_args_p) { uchar_t *cl_ptr = sig_args_p->SUF_ptr; sig_args_p->hdp->ext_lbn = RRIP_CHILD_LBN(cl_ptr); hs_filldirent(sig_args_p->fsp->hsfs_rootvp, sig_args_p->hdp); sig_args_p->flags = 0; return (cl_ptr + SUF_LEN(cl_ptr)); } /* * rrip_parent_link() * * This is the parent link part of the directory hierarchy stuff and * this does not really do much anyway. All it does is read the * directory entry that the parent link SUF contains. All should be * fine then. */ uchar_t * rrip_parent_link(sig_args_t *sig_args_p) { uchar_t *pl_ptr = sig_args_p->SUF_ptr; sig_args_p->hdp->ext_lbn = RRIP_PARENT_LBN(pl_ptr); hs_filldirent(sig_args_p->fsp->hsfs_rootvp, sig_args_p->hdp); sig_args_p->flags = 0; return (pl_ptr + SUF_LEN(pl_ptr)); } /* * rrip_rock_ridge() * * This function is supposed to aid in speed of the filesystem. * * XXX - It is only here as a place holder so far. */ uchar_t * rrip_rock_ridge(sig_args_t *sig_args_p) { uchar_t *rr_ptr = sig_args_p->SUF_ptr; return (rr_ptr + SUF_LEN(rr_ptr)); }