/* * Copyright (c) 2000 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * The contents of this file constitute Original Code as defined in and * are subject to the Apple Public Source License Version 1.1 (the * "License"). You may not use this file except in compliance with the * License. Please obtain a copy of the License at * http://www.apple.com/publicsource and read it before using this file. * * This Original Code and all software distributed under the License are * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the * License for the specific language governing rights and limitations * under the License. * * @APPLE_LICENSE_HEADER_END@ */ #include #include #include #include #include #include #include #include #include #include /* for SET */ #include /* Just to satisfy pstat command */ int dmmin, dmmax, dmtext; kmem_mb_alloc(vm_map_t mbmap, int size) { vm_offset_t addr; if (kernel_memory_allocate(mbmap, &addr, size, 0, KMA_NOPAGEWAIT|KMA_KOBJECT) == KERN_SUCCESS) return((void *)addr); else return(0); } pcb_synch() {} struct proc * current_proc(void) { /* Never returns a NULL */ struct uthread * ut; struct proc *p; thread_act_t thr_act = current_act(); ut = (struct uthread *)get_bsdthread_info(thr_act); if (ut && (ut->uu_flag & P_VFORK) && ut->uu_proc) { p = ut->uu_proc; if ((p->p_flag & P_INVFORK) == 0) panic("returning child proc not under vfork"); if (p->p_vforkact != (void *)thr_act) panic("returning child proc which is not cur_act"); return(p); } p = (struct proc *)get_bsdtask_info(current_task()); if (p == NULL) return (kernproc); return (p); } /* Device switch add delete routines */ extern int nblkdev, nchrdev; struct bdevsw nobdev = NO_BDEVICE; struct cdevsw nocdev = NO_CDEVICE; /* * if index is -1, return a free slot if avaliable * else see whether the index is free * return the major number that is free else -1 * */ int bdevsw_isfree(int index) { struct bdevsw *devsw; if (index == -1) { devsw = bdevsw; for(index=0; index < nblkdev; index++, devsw++) { if(memcmp((char *)devsw, (char *)&nobdev, sizeof(struct bdevsw)) == 0) break; } } if ((index < 0) || (index >= nblkdev) || (memcmp((char *)devsw, (char *)&nobdev, sizeof(struct bdevsw)) != 0)) { return(-1); } return(index); } /* * if index is -1, find a free slot to add * else see whether the slot is free * return the major number that is used else -1 */ int bdevsw_add(int index, struct bdevsw * bsw) { struct bdevsw *devsw; if (index == -1) { devsw = bdevsw; /* yes, start at 1 to avoid collision with volfs (Radar 2842228) */ for(index=1; index < nblkdev; index++, devsw++) { if(memcmp((char *)devsw, (char *)&nobdev, sizeof(struct bdevsw)) == 0) break; } } devsw = &bdevsw[index]; if ((index < 0) || (index >= nblkdev) || (memcmp((char *)devsw, (char *)&nobdev, sizeof(struct bdevsw)) != 0)) { return(-1); } bdevsw[index] = *bsw; return(index); } /* * if the slot has the same bsw, then remove * else -1 */ int bdevsw_remove(int index, struct bdevsw * bsw) { struct bdevsw *devsw; devsw = &bdevsw[index]; if ((index < 0) || (index >= nblkdev) || (memcmp((char *)devsw, (char *)bsw, sizeof(struct bdevsw)) != 0)) { return(-1); } bdevsw[index] = nobdev; return(index); } /* * if index is -1, return a free slot if avaliable * else see whether the index is free * return the major number that is free else -1 */ int cdevsw_isfree(int index) { struct cdevsw *devsw; if (index == -1) { devsw = cdevsw; for(index=0; index < nchrdev; index++, devsw++) { if(memcmp((char *)devsw, (char *)&nocdev, sizeof(struct cdevsw)) == 0) break; } } devsw = &cdevsw[index]; if ((index < 0) || (index >= nchrdev) || (memcmp((char *)devsw, (char *)&nocdev, sizeof(struct cdevsw)) != 0)) { return(-1); } return(index); } /* * if index is -1, find a free slot to add * else see whether the slot is free * return the major number that is used else -1 */ int cdevsw_add(int index, struct cdevsw * csw) { struct cdevsw *devsw; if (index == -1) { devsw = cdevsw; for(index=0; index < nchrdev; index++, devsw++) { if(memcmp((char *)devsw, (char *)&nocdev, sizeof(struct cdevsw)) == 0) break; } } devsw = &cdevsw[index]; if ((index < 0) || (index >= nchrdev) || (memcmp((char *)devsw, (char *)&nocdev, sizeof(struct cdevsw)) != 0)) { return(-1); } cdevsw[index] = *csw; return(index); } /* * if the index has the same bsw, then remove * else -1 */ int cdevsw_remove(int index, struct cdevsw * csw) { struct cdevsw *devsw; devsw = &cdevsw[index]; if ((index < 0) || (index >= nchrdev) || (memcmp((char *)devsw, (char *)csw, sizeof(struct cdevsw)) != 0)) { return(-1); } cdevsw[index] = nocdev; return(index); } static int cdev_set_bdev(int cdev, int bdev) { extern int chrtoblk_add(int cdev, int bdev); return (chrtoblk_set(cdev, bdev)); } int cdevsw_add_with_bdev(int index, struct cdevsw * csw, int bdev) { index = cdevsw_add(index, csw); if (index < 0) { return (index); } if (cdev_set_bdev(index, bdev) < 0) { cdevsw_remove(index, csw); return (-1); } return (index); } issingleuser(void) { char namep[16]; if (PE_parse_boot_arg("-s", namep)) { return(1); } else { return(0); } } void * tbeproc(void *procp) { struct proc *p = procp; if (p) SET(p->p_flag, P_TBE); return; }