kd 179 kern/vfs/vfslist.c struct knowndev *kd;
kd 186 kern/vfs/vfslist.c kd = knowndevarray_get(knowndevs, i);
kd 197 kern/vfs/vfslist.c if (kd->kd_fs!=NULL) {
kd 199 kern/vfs/vfslist.c volname = FSOP_GETVOLNAME(kd->kd_fs);
kd 201 kern/vfs/vfslist.c if (!strcmp(kd->kd_name, devname) ||
kd 203 kern/vfs/vfslist.c *result = FSOP_GETROOT(kd->kd_fs);
kd 208 kern/vfs/vfslist.c if (kd->kd_rawname!=NULL &&
kd 209 kern/vfs/vfslist.c !strcmp(kd->kd_name, devname)) {
kd 219 kern/vfs/vfslist.c if (!strcmp(kd->kd_name, devname)) {
kd 220 kern/vfs/vfslist.c KASSERT(kd->kd_fs==NULL);
kd 221 kern/vfs/vfslist.c KASSERT(kd->kd_rawname==NULL);
kd 222 kern/vfs/vfslist.c KASSERT(kd->kd_device != NULL);
kd 223 kern/vfs/vfslist.c VOP_INCREF(kd->kd_vnode);
kd 224 kern/vfs/vfslist.c *result = kd->kd_vnode;
kd 232 kern/vfs/vfslist.c if (kd->kd_rawname!=NULL && !strcmp(kd->kd_rawname, devname)) {
kd 233 kern/vfs/vfslist.c KASSERT(kd->kd_device != NULL);
kd 234 kern/vfs/vfslist.c VOP_INCREF(kd->kd_vnode);
kd 235 kern/vfs/vfslist.c *result = kd->kd_vnode;
kd 259 kern/vfs/vfslist.c struct knowndev *kd;
kd 268 kern/vfs/vfslist.c kd = knowndevarray_get(knowndevs, i);
kd 270 kern/vfs/vfslist.c if (kd->kd_fs == fs) {
kd 277 kern/vfs/vfslist.c return kd->kd_name;
kd 339 kern/vfs/vfslist.c struct knowndev *kd;
kd 345 kern/vfs/vfslist.c kd = knowndevarray_get(knowndevs, i);
kd 347 kern/vfs/vfslist.c if (kd->kd_fs) {
kd 348 kern/vfs/vfslist.c volname = FSOP_GETVOLNAME(kd->kd_fs);
kd 354 kern/vfs/vfslist.c if (samestring3(kd->kd_rawname, n1, n2, n3) ||
kd 355 kern/vfs/vfslist.c samestring3(kd->kd_name, n1, n2, n3)) {
kd 375 kern/vfs/vfslist.c struct knowndev *kd=NULL;
kd 399 kern/vfs/vfslist.c kd = kmalloc(sizeof(struct knowndev));
kd 400 kern/vfs/vfslist.c if (kd==NULL) {
kd 404 kern/vfs/vfslist.c kd->kd_name = name;
kd 405 kern/vfs/vfslist.c kd->kd_rawname = rawname;
kd 406 kern/vfs/vfslist.c kd->kd_device = dev;
kd 407 kern/vfs/vfslist.c kd->kd_vnode = vnode;
kd 408 kern/vfs/vfslist.c kd->kd_fs = fs;
kd 419 kern/vfs/vfslist.c result = knowndevarray_add(knowndevs, kd, &index);
kd 440 kern/vfs/vfslist.c if (kd) {
kd 441 kern/vfs/vfslist.c kfree(kd);
kd 513 kern/vfs/vfslist.c struct knowndev *kd;
kd 519 kern/vfs/vfslist.c result = findmount(devname, &kd);
kd 525 kern/vfs/vfslist.c if (kd->kd_fs != NULL) {
kd 529 kern/vfs/vfslist.c KASSERT(kd->kd_rawname != NULL);
kd 530 kern/vfs/vfslist.c KASSERT(kd->kd_device != NULL);
kd 532 kern/vfs/vfslist.c result = mountfunc(data, kd->kd_device, &fs);
kd 540 kern/vfs/vfslist.c kd->kd_fs = fs;
kd 544 kern/vfs/vfslist.c volname ? volname : kd->kd_name, kd->kd_name);
kd 557 kern/vfs/vfslist.c struct knowndev *kd;
kd 562 kern/vfs/vfslist.c result = findmount(devname, &kd);
kd 567 kern/vfs/vfslist.c if (kd->kd_fs == NULL) {
kd 571 kern/vfs/vfslist.c KASSERT(kd->kd_rawname != NULL);
kd 572 kern/vfs/vfslist.c KASSERT(kd->kd_device != NULL);
kd 574 kern/vfs/vfslist.c result = FSOP_SYNC(kd->kd_fs);
kd 579 kern/vfs/vfslist.c result = FSOP_UNMOUNT(kd->kd_fs);
kd 584 kern/vfs/vfslist.c kprintf("vfs: Unmounted %s:\n", kd->kd_name);
kd 587 kern/vfs/vfslist.c kd->kd_fs = NULL;