/* * Copyright (c) 2001-2003,2005 Silicon Graphics, Inc. * All Rights Reserved. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation. * * This program is distributed in the hope that it would be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #include #include #undef MAXNAMELEN #define MAXNAMELEN 256 #undef MAXLISTLEN #define MAXLISTLEN 65536 #undef roundup #define roundup(x,y) ((((x)+((y)-1))/(y))*(y)) static const char *user_name = "user."; static const char *secure_name = "security."; static const char *trusted_name = "trusted."; static const char *xfsroot_name = "xfsroot."; /* * Convert IRIX API components into Linux/XFS API components, * and vice-versa. */ static int api_convert(char *name, const char *irixname, int irixflags, int compat) { if (strlen(irixname) >= MAXNAMELEN) { errno = EINVAL; return -1; } if (irixflags & ATTR_ROOT) { if (compat) strcpy(name, xfsroot_name); else strcpy(name, trusted_name); } else if (irixflags & ATTR_SECURE) { strcpy(name, secure_name); } else { strcpy(name, user_name); } strcat(name, irixname); return 0; } static int api_unconvert(char *name, const char *linuxname, int irixflags) { int type, length; length = strlen(user_name); if (strncmp(linuxname, user_name, length) == 0) { type = 0; /*ATTR_USER*/ goto found; } length = strlen(secure_name); if (strncmp(linuxname, secure_name, length) == 0) { type = ATTR_SECURE; goto found; } length = strlen(trusted_name); if (strncmp(linuxname, trusted_name, length) == 0) { type = ATTR_ROOT; goto found; } length = strlen(xfsroot_name); if (strncmp(linuxname, xfsroot_name, length) == 0) { type = ATTR_ROOT; goto found; } return 1; found: if ((irixflags & ATTR_SECURE) != 0 && (type != ATTR_SECURE)) return 1; if ((irixflags & ATTR_ROOT) != 0 && (type != ATTR_ROOT)) return 1; strcpy(name, linuxname + length); return 0; } int attr_get(const char *path, const char *attrname, char *attrvalue, int *valuelength, int flags) { int c, compat; char name[MAXNAMELEN+16]; for (compat = 0; compat < 2; compat++) { if ((c = api_convert(name, attrname, flags, compat)) < 0) return c; if (flags & ATTR_DONTFOLLOW) c = lgetxattr(path, name, attrvalue, *valuelength); else c = getxattr(path, name, attrvalue, *valuelength); if (c < 0 && (errno == ENOATTR || errno == ENOTSUP)) continue; break; } if (c < 0) return c; *valuelength = c; return 0; } int attr_getf(int fd, const char *attrname, char *attrvalue, int *valuelength, int flags) { int c, compat; char name[MAXNAMELEN+16]; for (compat = 0; compat < 2; compat++) { if ((c = api_convert(name, attrname, flags, compat)) < 0) return c; c = fgetxattr(fd, name, attrvalue, *valuelength); if (c < 0 && (errno == ENOATTR || errno == ENOTSUP)) continue; break; } if (c < 0) return c; *valuelength = c; return 0; } int attr_set(const char *path, const char *attrname, const char *attrvalue, const int valuelength, int flags) { int c, compat, lflags = 0; char name[MAXNAMELEN+16]; void *buffer = (void *)attrvalue; if (flags & ATTR_CREATE) lflags = XATTR_CREATE; else if (flags & ATTR_REPLACE) lflags = XATTR_REPLACE; for (compat = 0; compat < 2; compat++) { if ((c = api_convert(name, attrname, flags, compat)) < 0) return c; if (flags & ATTR_DONTFOLLOW) c = lsetxattr(path, name, buffer, valuelength, lflags); else c = setxattr(path, name, buffer, valuelength, lflags); if (c < 0 && (errno == ENOATTR || errno == ENOTSUP)) continue; break; } return c; } int attr_setf(int fd, const char *attrname, const char *attrvalue, const int valuelength, int flags) { int c, compat, lflags = 0; char name[MAXNAMELEN+16]; void *buffer = (void *)attrvalue; if (flags & ATTR_CREATE) lflags = XATTR_CREATE; else if (flags & ATTR_REPLACE) lflags = XATTR_REPLACE; for (compat = 0; compat < 2; compat++) { if ((c = api_convert(name, attrname, flags, compat)) < 0) return c; c = fsetxattr(fd, name, buffer, valuelength, lflags); if (c < 0 && (errno == ENOATTR || errno == ENOTSUP)) continue; break; } return c; } int attr_remove(const char *path, const char *attrname, int flags) { int c, compat; char name[MAXNAMELEN+16]; for (compat = 0; compat < 2; compat++) { if ((c = api_convert(name, attrname, flags, compat)) < 0) return c; if (flags & ATTR_DONTFOLLOW) c = lremovexattr(path, name); else c = removexattr(path, name); if (c < 0 && (errno == ENOATTR || errno == ENOTSUP)) continue; break; } return c; } int attr_removef(int fd, const char *attrname, int flags) { int c, compat; char name[MAXNAMELEN+16]; for (compat = 0; compat < 2; compat++) { if ((c = api_convert(name, attrname, flags, compat)) < 0) return c; c = fremovexattr(fd, name); if (c < 0 && (errno == ENOATTR || errno == ENOTSUP)) continue; break; } return c; } /* * Helper routine for attr_list functions. */ static int attr_list_pack(const char *name, const int valuelen, char *buffer, const int buffersize, int *start_offset, int *end_offset) { attrlist_ent_t *aentp; attrlist_t *alist = (attrlist_t *)buffer; int size = roundup(strlen(name) + 1 + sizeof(aentp->a_valuelen), 8); if ((*end_offset - size) < (*start_offset + sizeof(alist->al_count))) { alist->al_more = 1; return 1; } *end_offset -= size; aentp = (attrlist_ent_t *)&buffer[ *end_offset ]; aentp->a_valuelen = valuelen; strncpy(aentp->a_name, name, size - sizeof(aentp->a_valuelen)); *start_offset += sizeof(alist->al_offset); alist->al_offset[alist->al_count] = *end_offset; alist->al_count++; return 0; } int attr_list(const char *path, char *buffer, const int buffersize, int flags, attrlist_cursor_t *cursor) { const char *l; int length, vlength, count = 0; char lbuf[MAXLISTLEN]; char name[MAXNAMELEN+16]; int start_offset, end_offset; if (buffersize < sizeof(attrlist_t)) { errno = EINVAL; return -1; } bzero(buffer, sizeof(attrlist_t)); if (flags & ATTR_DONTFOLLOW) length = llistxattr(path, lbuf, sizeof(lbuf)); else length = listxattr(path, lbuf, sizeof(lbuf)); if (length <= 0) return length; start_offset = sizeof(attrlist_t); end_offset = buffersize & ~(8-1); /* 8 byte align */ for (l = lbuf; l != lbuf + length; l = strchr(l, '\0') + 1) { if (api_unconvert(name, l, flags)) continue; if (flags & ATTR_DONTFOLLOW) vlength = lgetxattr(path, l, NULL, 0); else vlength = getxattr(path, l, NULL, 0); if (vlength < 0 && (errno == ENOATTR || errno == ENOTSUP)) continue; if (count++ < cursor->opaque[0]) continue; if (attr_list_pack(name, vlength, buffer, buffersize, &start_offset, &end_offset)) { cursor->opaque[0] = count; break; } } return 0; } int attr_listf(int fd, char *buffer, const int buffersize, int flags, attrlist_cursor_t *cursor) { const char *l; int length, vlength, count = 0; char lbuf[MAXLISTLEN]; char name[MAXNAMELEN+16]; int start_offset, end_offset; if (buffersize < sizeof(attrlist_t)) { errno = EINVAL; return -1; } bzero(buffer, sizeof(attrlist_t)); length = flistxattr(fd, lbuf, sizeof(lbuf)); if (length < 0) return length; start_offset = sizeof(attrlist_t); end_offset = buffersize & ~(8-1); /* 8 byte align */ for (l = lbuf; l != lbuf + length; l = strchr(l, '\0') + 1) { if (api_unconvert(name, l, flags)) continue; vlength = fgetxattr(fd, l, NULL, 0); if (vlength < 0 && (errno == ENOATTR || errno == ENOTSUP)) continue; if (count++ < cursor->opaque[0]) continue; if (attr_list_pack(name, vlength, buffer, buffersize, &start_offset, &end_offset)) { cursor->opaque[0] = count; break; } } return 0; } /* * Helper routines for the attr_multi functions. In IRIX, the * multi routines are a single syscall - in Linux, we break em * apart in userspace and make individual syscalls for each. */ static int attr_single(const char *path, attr_multiop_t *op, int flags) { int r = -1; errno = -EINVAL; flags |= op->am_flags; if (op->am_opcode & ATTR_OP_GET) r = attr_get(path, op->am_attrname, op->am_attrvalue, &op->am_length, flags); else if (op->am_opcode & ATTR_OP_SET) r = attr_set(path, op->am_attrname, op->am_attrvalue, op->am_length, flags); else if (op->am_opcode & ATTR_OP_REMOVE) r = attr_remove(path, op->am_attrname, flags); return r; } static int attr_singlef(const int fd, attr_multiop_t *op, int flags) { int r = -1; errno = -EINVAL; flags |= op->am_flags; if (op->am_opcode & ATTR_OP_GET) r = attr_getf(fd, op->am_attrname, op->am_attrvalue, &op->am_length, flags); else if (op->am_opcode & ATTR_OP_SET) r = attr_setf(fd, op->am_attrname, op->am_attrvalue, op->am_length, flags); else if (op->am_opcode & ATTR_OP_REMOVE) r = attr_removef(fd, op->am_attrname, flags); return r; } /* * Operate on multiple attributes of the same object simultaneously * * From the manpage: "attr_multi will fail if ... a bit other than * ATTR_DONTFOLLOW was set in the flag argument." flags must be * checked here as they are not passed into the kernel. */ int attr_multi(const char *path, attr_multiop_t *multiops, int count, int flags) { int i, tmp, r = -1; errno = EINVAL; if ((flags & ATTR_DONTFOLLOW) != flags) return r; r = errno = 0; for (i = 0; i < count; i++) { tmp = attr_single(path, &multiops[i], flags); if (tmp) r = tmp; } return r; } int attr_multif(int fd, attr_multiop_t *multiops, int count, int flags) { int i, tmp, r = -1; errno = EINVAL; if ((flags & ATTR_DONTFOLLOW) != flags) return r; r = errno = 0; for (i = 0; i < count; i++) { tmp = attr_singlef(fd, &multiops[i], flags); if (tmp) r = tmp; } return r; }