1*2c2f96dcSApple OSS Distributions /*
2*2c2f96dcSApple OSS Distributions * Copyright (c) 2004-2019 Apple Inc. All rights reserved.
3*2c2f96dcSApple OSS Distributions *
4*2c2f96dcSApple OSS Distributions * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5*2c2f96dcSApple OSS Distributions *
6*2c2f96dcSApple OSS Distributions * This file contains Original Code and/or Modifications of Original Code
7*2c2f96dcSApple OSS Distributions * as defined in and that are subject to the Apple Public Source License
8*2c2f96dcSApple OSS Distributions * Version 2.0 (the 'License'). You may not use this file except in
9*2c2f96dcSApple OSS Distributions * compliance with the License. The rights granted to you under the License
10*2c2f96dcSApple OSS Distributions * may not be used to create, or enable the creation or redistribution of,
11*2c2f96dcSApple OSS Distributions * unlawful or unlicensed copies of an Apple operating system, or to
12*2c2f96dcSApple OSS Distributions * circumvent, violate, or enable the circumvention or violation of, any
13*2c2f96dcSApple OSS Distributions * terms of an Apple operating system software license agreement.
14*2c2f96dcSApple OSS Distributions *
15*2c2f96dcSApple OSS Distributions * Please obtain a copy of the License at
16*2c2f96dcSApple OSS Distributions * http://www.opensource.apple.com/apsl/ and read it before using this file.
17*2c2f96dcSApple OSS Distributions *
18*2c2f96dcSApple OSS Distributions * The Original Code and all software distributed under the License are
19*2c2f96dcSApple OSS Distributions * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20*2c2f96dcSApple OSS Distributions * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21*2c2f96dcSApple OSS Distributions * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22*2c2f96dcSApple OSS Distributions * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23*2c2f96dcSApple OSS Distributions * Please see the License for the specific language governing rights and
24*2c2f96dcSApple OSS Distributions * limitations under the License.
25*2c2f96dcSApple OSS Distributions *
26*2c2f96dcSApple OSS Distributions * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27*2c2f96dcSApple OSS Distributions */
28*2c2f96dcSApple OSS Distributions /*
29*2c2f96dcSApple OSS Distributions * Copyright (c) 1988 University of Utah.
30*2c2f96dcSApple OSS Distributions * Copyright (c) 1990, 1993
31*2c2f96dcSApple OSS Distributions * The Regents of the University of California. All rights reserved.
32*2c2f96dcSApple OSS Distributions *
33*2c2f96dcSApple OSS Distributions * This code is derived from software contributed to Berkeley by
34*2c2f96dcSApple OSS Distributions * the Systems Programming Group of the University of Utah Computer
35*2c2f96dcSApple OSS Distributions * Science Department.
36*2c2f96dcSApple OSS Distributions *
37*2c2f96dcSApple OSS Distributions * Redistribution and use in source and binary forms, with or without
38*2c2f96dcSApple OSS Distributions * modification, are permitted provided that the following conditions
39*2c2f96dcSApple OSS Distributions * are met:
40*2c2f96dcSApple OSS Distributions * 1. Redistributions of source code must retain the above copyright
41*2c2f96dcSApple OSS Distributions * notice, this list of conditions and the following disclaimer.
42*2c2f96dcSApple OSS Distributions * 2. Redistributions in binary form must reproduce the above copyright
43*2c2f96dcSApple OSS Distributions * notice, this list of conditions and the following disclaimer in the
44*2c2f96dcSApple OSS Distributions * documentation and/or other materials provided with the distribution.
45*2c2f96dcSApple OSS Distributions * 3. All advertising materials mentioning features or use of this software
46*2c2f96dcSApple OSS Distributions * must display the following acknowledgement:
47*2c2f96dcSApple OSS Distributions * This product includes software developed by the University of
48*2c2f96dcSApple OSS Distributions * California, Berkeley and its contributors.
49*2c2f96dcSApple OSS Distributions * 4. Neither the name of the University nor the names of its contributors
50*2c2f96dcSApple OSS Distributions * may be used to endorse or promote products derived from this software
51*2c2f96dcSApple OSS Distributions * without specific prior written permission.
52*2c2f96dcSApple OSS Distributions *
53*2c2f96dcSApple OSS Distributions * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
54*2c2f96dcSApple OSS Distributions * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
55*2c2f96dcSApple OSS Distributions * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
56*2c2f96dcSApple OSS Distributions * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
57*2c2f96dcSApple OSS Distributions * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
58*2c2f96dcSApple OSS Distributions * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
59*2c2f96dcSApple OSS Distributions * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
60*2c2f96dcSApple OSS Distributions * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
61*2c2f96dcSApple OSS Distributions * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
62*2c2f96dcSApple OSS Distributions * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
63*2c2f96dcSApple OSS Distributions * SUCH DAMAGE.
64*2c2f96dcSApple OSS Distributions *
65*2c2f96dcSApple OSS Distributions * from: Utah Hdr: vn.c 1.13 94/04/02
66*2c2f96dcSApple OSS Distributions *
67*2c2f96dcSApple OSS Distributions * from: @(#)vn.c 8.6 (Berkeley) 4/1/94
68*2c2f96dcSApple OSS Distributions * $FreeBSD: src/sys/dev/vn/vn.c,v 1.105.2.4 2001/11/18 07:11:00 dillon Exp $
69*2c2f96dcSApple OSS Distributions */
70*2c2f96dcSApple OSS Distributions
71*2c2f96dcSApple OSS Distributions /*
72*2c2f96dcSApple OSS Distributions * RAM disk driver.
73*2c2f96dcSApple OSS Distributions *
74*2c2f96dcSApple OSS Distributions * Block interface to a ramdisk.
75*2c2f96dcSApple OSS Distributions *
76*2c2f96dcSApple OSS Distributions */
77*2c2f96dcSApple OSS Distributions
78*2c2f96dcSApple OSS Distributions #include <sys/param.h>
79*2c2f96dcSApple OSS Distributions #include <sys/kernel.h>
80*2c2f96dcSApple OSS Distributions #include <sys/mount.h>
81*2c2f96dcSApple OSS Distributions #include <sys/namei.h>
82*2c2f96dcSApple OSS Distributions #include <sys/proc.h>
83*2c2f96dcSApple OSS Distributions #include <sys/buf.h>
84*2c2f96dcSApple OSS Distributions #include <sys/malloc.h>
85*2c2f96dcSApple OSS Distributions #include <sys/mount.h>
86*2c2f96dcSApple OSS Distributions #include <sys/fcntl.h>
87*2c2f96dcSApple OSS Distributions #include <sys/conf.h>
88*2c2f96dcSApple OSS Distributions #include <sys/disk.h>
89*2c2f96dcSApple OSS Distributions #include <sys/stat.h>
90*2c2f96dcSApple OSS Distributions #include <sys/vm.h>
91*2c2f96dcSApple OSS Distributions #include <sys/uio_internal.h>
92*2c2f96dcSApple OSS Distributions #include <libkern/libkern.h>
93*2c2f96dcSApple OSS Distributions
94*2c2f96dcSApple OSS Distributions #include <vm/pmap.h>
95*2c2f96dcSApple OSS Distributions #include <vm/vm_pager.h>
96*2c2f96dcSApple OSS Distributions #include <mach/memory_object_types.h>
97*2c2f96dcSApple OSS Distributions #include <kern/debug.h>
98*2c2f96dcSApple OSS Distributions
99*2c2f96dcSApple OSS Distributions #include <miscfs/devfs/devfs.h>
100*2c2f96dcSApple OSS Distributions
101*2c2f96dcSApple OSS Distributions
102*2c2f96dcSApple OSS Distributions void mdevinit(int the_cnt);
103*2c2f96dcSApple OSS Distributions
104*2c2f96dcSApple OSS Distributions static open_close_fcn_t mdevopen;
105*2c2f96dcSApple OSS Distributions static open_close_fcn_t mdevclose;
106*2c2f96dcSApple OSS Distributions static psize_fcn_t mdevsize;
107*2c2f96dcSApple OSS Distributions static strategy_fcn_t mdevstrategy;
108*2c2f96dcSApple OSS Distributions static int mdevbioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p);
109*2c2f96dcSApple OSS Distributions static int mdevcioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p);
110*2c2f96dcSApple OSS Distributions static int mdevrw(dev_t dev, struct uio *uio, int ioflag);
111*2c2f96dcSApple OSS Distributions
112*2c2f96dcSApple OSS Distributions #ifdef CONFIG_MEMDEV_INSECURE
113*2c2f96dcSApple OSS Distributions static char * nonspace(char *pos, char *end);
114*2c2f96dcSApple OSS Distributions static char * getspace(char *pos, char *end);
115*2c2f96dcSApple OSS Distributions static char * cvtnum(char *pos, char *end, uint64_t *num);
116*2c2f96dcSApple OSS Distributions #endif /* CONFIG_MEMDEV_INSECURE */
117*2c2f96dcSApple OSS Distributions
118*2c2f96dcSApple OSS Distributions extern void bcopy_phys(addr64_t from, addr64_t to, vm_size_t bytes);
119*2c2f96dcSApple OSS Distributions extern void mapping_set_mod(ppnum_t pn);
120*2c2f96dcSApple OSS Distributions extern ppnum_t pmap_find_phys(pmap_t pmap, addr64_t va);
121*2c2f96dcSApple OSS Distributions
122*2c2f96dcSApple OSS Distributions /*
123*2c2f96dcSApple OSS Distributions * Maximal number of memory devices.
124*2c2f96dcSApple OSS Distributions */
125*2c2f96dcSApple OSS Distributions #define NB_MAX_MDEVICES (16)
126*2c2f96dcSApple OSS Distributions
127*2c2f96dcSApple OSS Distributions /*
128*2c2f96dcSApple OSS Distributions * cdevsw
129*2c2f96dcSApple OSS Distributions * D_DISK we want to look like a disk
130*2c2f96dcSApple OSS Distributions * D_CANFREE We support B_FREEBUF
131*2c2f96dcSApple OSS Distributions */
132*2c2f96dcSApple OSS Distributions
133*2c2f96dcSApple OSS Distributions static const struct bdevsw mdevbdevsw = {
134*2c2f96dcSApple OSS Distributions .d_open = mdevopen,
135*2c2f96dcSApple OSS Distributions .d_close = mdevclose,
136*2c2f96dcSApple OSS Distributions .d_strategy = mdevstrategy,
137*2c2f96dcSApple OSS Distributions .d_ioctl = mdevbioctl,
138*2c2f96dcSApple OSS Distributions .d_dump = eno_dump,
139*2c2f96dcSApple OSS Distributions .d_psize = mdevsize,
140*2c2f96dcSApple OSS Distributions .d_type = D_DISK,
141*2c2f96dcSApple OSS Distributions };
142*2c2f96dcSApple OSS Distributions
143*2c2f96dcSApple OSS Distributions static const struct cdevsw mdevcdevsw = {
144*2c2f96dcSApple OSS Distributions .d_open = mdevopen,
145*2c2f96dcSApple OSS Distributions .d_close = mdevclose,
146*2c2f96dcSApple OSS Distributions .d_read = mdevrw,
147*2c2f96dcSApple OSS Distributions .d_write = mdevrw,
148*2c2f96dcSApple OSS Distributions .d_ioctl = mdevcioctl,
149*2c2f96dcSApple OSS Distributions .d_stop = eno_stop,
150*2c2f96dcSApple OSS Distributions .d_reset = eno_reset,
151*2c2f96dcSApple OSS Distributions .d_ttys = NULL,
152*2c2f96dcSApple OSS Distributions .d_select = eno_select,
153*2c2f96dcSApple OSS Distributions .d_mmap = eno_mmap,
154*2c2f96dcSApple OSS Distributions .d_strategy = eno_strat,
155*2c2f96dcSApple OSS Distributions .d_reserved_1 = eno_getc,
156*2c2f96dcSApple OSS Distributions .d_reserved_2 = eno_putc,
157*2c2f96dcSApple OSS Distributions .d_type = D_DISK,
158*2c2f96dcSApple OSS Distributions };
159*2c2f96dcSApple OSS Distributions
160*2c2f96dcSApple OSS Distributions struct mdev {
161*2c2f96dcSApple OSS Distributions uint64_t mdBase; /* base page number (pages are assumed to be 4K). Multiply by 4096 to find actual address */
162*2c2f96dcSApple OSS Distributions uint32_t mdSize; /* size in pages (pages are assumed to be 4K). Multiply by 4096 to find actual size. */
163*2c2f96dcSApple OSS Distributions int mdFlags; /* flags */
164*2c2f96dcSApple OSS Distributions int mdSecsize; /* sector size */
165*2c2f96dcSApple OSS Distributions int mdBDev; /* Block device number */
166*2c2f96dcSApple OSS Distributions int mdCDev; /* Character device number */
167*2c2f96dcSApple OSS Distributions void * mdbdevb;
168*2c2f96dcSApple OSS Distributions void * mdcdevb;
169*2c2f96dcSApple OSS Distributions } mdev[NB_MAX_MDEVICES];
170*2c2f96dcSApple OSS Distributions
171*2c2f96dcSApple OSS Distributions /* mdFlags */
172*2c2f96dcSApple OSS Distributions #define mdInited 0x01 /* This device defined */
173*2c2f96dcSApple OSS Distributions #define mdRO 0x02 /* This device is read-only */
174*2c2f96dcSApple OSS Distributions #define mdPhys 0x04 /* This device is in physical memory */
175*2c2f96dcSApple OSS Distributions
176*2c2f96dcSApple OSS Distributions int mdevBMajor = -1;
177*2c2f96dcSApple OSS Distributions int mdevCMajor = -1;
178*2c2f96dcSApple OSS Distributions
179*2c2f96dcSApple OSS Distributions static int mdevioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p, int is_char);
180*2c2f96dcSApple OSS Distributions dev_t mdevadd(int devid, uint64_t base, unsigned int size, int phys);
181*2c2f96dcSApple OSS Distributions dev_t mdevlookup(int devid);
182*2c2f96dcSApple OSS Distributions void mdevremoveall(void);
183*2c2f96dcSApple OSS Distributions int mdevgetrange(int devid, uint64_t *base, uint64_t *size);
184*2c2f96dcSApple OSS Distributions
185*2c2f96dcSApple OSS Distributions static int
mdevclose(__unused dev_t dev,__unused int flags,__unused int devtype,__unused struct proc * p)186*2c2f96dcSApple OSS Distributions mdevclose(__unused dev_t dev, __unused int flags,
187*2c2f96dcSApple OSS Distributions __unused int devtype, __unused struct proc *p)
188*2c2f96dcSApple OSS Distributions {
189*2c2f96dcSApple OSS Distributions return 0;
190*2c2f96dcSApple OSS Distributions }
191*2c2f96dcSApple OSS Distributions
192*2c2f96dcSApple OSS Distributions static int
mdevopen(dev_t dev,int flags,__unused int devtype,__unused struct proc * p)193*2c2f96dcSApple OSS Distributions mdevopen(dev_t dev, int flags, __unused int devtype, __unused struct proc *p)
194*2c2f96dcSApple OSS Distributions {
195*2c2f96dcSApple OSS Distributions int devid;
196*2c2f96dcSApple OSS Distributions
197*2c2f96dcSApple OSS Distributions devid = minor(dev); /* Get minor device number */
198*2c2f96dcSApple OSS Distributions
199*2c2f96dcSApple OSS Distributions if (devid >= NB_MAX_MDEVICES || devid < 0) {
200*2c2f96dcSApple OSS Distributions return ENXIO; /* Not valid */
201*2c2f96dcSApple OSS Distributions }
202*2c2f96dcSApple OSS Distributions if ((flags & FWRITE) && (mdev[devid].mdFlags & mdRO)) {
203*2c2f96dcSApple OSS Distributions return EACCES; /* Currently mounted RO */
204*2c2f96dcSApple OSS Distributions }
205*2c2f96dcSApple OSS Distributions return 0;
206*2c2f96dcSApple OSS Distributions }
207*2c2f96dcSApple OSS Distributions
208*2c2f96dcSApple OSS Distributions static int
mdevrw(dev_t dev,struct uio * uio,__unused int ioflag)209*2c2f96dcSApple OSS Distributions mdevrw(dev_t dev, struct uio *uio, __unused int ioflag)
210*2c2f96dcSApple OSS Distributions {
211*2c2f96dcSApple OSS Distributions int status;
212*2c2f96dcSApple OSS Distributions addr64_t mdata;
213*2c2f96dcSApple OSS Distributions int devid;
214*2c2f96dcSApple OSS Distributions enum uio_seg saveflag;
215*2c2f96dcSApple OSS Distributions int count;
216*2c2f96dcSApple OSS Distributions
217*2c2f96dcSApple OSS Distributions devid = minor(dev); /* Get minor device number */
218*2c2f96dcSApple OSS Distributions
219*2c2f96dcSApple OSS Distributions if (devid >= NB_MAX_MDEVICES || devid < 0) {
220*2c2f96dcSApple OSS Distributions return ENXIO; /* Not valid */
221*2c2f96dcSApple OSS Distributions }
222*2c2f96dcSApple OSS Distributions if (!(mdev[devid].mdFlags & mdInited)) {
223*2c2f96dcSApple OSS Distributions return ENXIO; /* Have we actually been defined yet? */
224*2c2f96dcSApple OSS Distributions }
225*2c2f96dcSApple OSS Distributions if (uio->uio_offset < 0) {
226*2c2f96dcSApple OSS Distributions return EINVAL; /* invalid offset */
227*2c2f96dcSApple OSS Distributions }
228*2c2f96dcSApple OSS Distributions if (uio_resid(uio) < 0) {
229*2c2f96dcSApple OSS Distributions return EINVAL;
230*2c2f96dcSApple OSS Distributions }
231*2c2f96dcSApple OSS Distributions mdata = ((addr64_t)mdev[devid].mdBase << 12) + uio->uio_offset; /* Point to the area in "file" */
232*2c2f96dcSApple OSS Distributions
233*2c2f96dcSApple OSS Distributions saveflag = uio->uio_segflg; /* Remember what the request is */
234*2c2f96dcSApple OSS Distributions /* Make sure we are moving from physical ram if physical device */
235*2c2f96dcSApple OSS Distributions if (mdev[devid].mdFlags & mdPhys) {
236*2c2f96dcSApple OSS Distributions if (uio->uio_segflg == UIO_USERSPACE64) {
237*2c2f96dcSApple OSS Distributions uio->uio_segflg = UIO_PHYS_USERSPACE64;
238*2c2f96dcSApple OSS Distributions } else if (uio->uio_segflg == UIO_USERSPACE32) {
239*2c2f96dcSApple OSS Distributions uio->uio_segflg = UIO_PHYS_USERSPACE32;
240*2c2f96dcSApple OSS Distributions } else {
241*2c2f96dcSApple OSS Distributions uio->uio_segflg = UIO_PHYS_USERSPACE;
242*2c2f96dcSApple OSS Distributions }
243*2c2f96dcSApple OSS Distributions }
244*2c2f96dcSApple OSS Distributions
245*2c2f96dcSApple OSS Distributions if (uio->uio_offset > (mdev[devid].mdSize << 12)) {
246*2c2f96dcSApple OSS Distributions count = 0;
247*2c2f96dcSApple OSS Distributions } else {
248*2c2f96dcSApple OSS Distributions count = imin(uio_resid(uio), (mdev[devid].mdSize << 12) - uio->uio_offset);
249*2c2f96dcSApple OSS Distributions }
250*2c2f96dcSApple OSS Distributions
251*2c2f96dcSApple OSS Distributions status = uiomove64(mdata, count, uio); /* Move the data */
252*2c2f96dcSApple OSS Distributions uio->uio_segflg = saveflag; /* Restore the flag */
253*2c2f96dcSApple OSS Distributions
254*2c2f96dcSApple OSS Distributions return status;
255*2c2f96dcSApple OSS Distributions }
256*2c2f96dcSApple OSS Distributions
257*2c2f96dcSApple OSS Distributions static void
mdevstrategy(struct buf * bp)258*2c2f96dcSApple OSS Distributions mdevstrategy(struct buf *bp)
259*2c2f96dcSApple OSS Distributions {
260*2c2f96dcSApple OSS Distributions unsigned int left, lop, csize;
261*2c2f96dcSApple OSS Distributions vm_offset_t vaddr, blkoff;
262*2c2f96dcSApple OSS Distributions int devid;
263*2c2f96dcSApple OSS Distributions addr64_t paddr, fvaddr;
264*2c2f96dcSApple OSS Distributions ppnum_t pp;
265*2c2f96dcSApple OSS Distributions
266*2c2f96dcSApple OSS Distributions devid = minor(buf_device(bp)); /* Get minor device number */
267*2c2f96dcSApple OSS Distributions
268*2c2f96dcSApple OSS Distributions if ((mdev[devid].mdFlags & mdInited) == 0) { /* Have we actually been defined yet? */
269*2c2f96dcSApple OSS Distributions buf_seterror(bp, ENXIO);
270*2c2f96dcSApple OSS Distributions buf_biodone(bp);
271*2c2f96dcSApple OSS Distributions return;
272*2c2f96dcSApple OSS Distributions }
273*2c2f96dcSApple OSS Distributions
274*2c2f96dcSApple OSS Distributions buf_setresid(bp, buf_count(bp)); /* Set byte count */
275*2c2f96dcSApple OSS Distributions
276*2c2f96dcSApple OSS Distributions blkoff = buf_blkno(bp) * mdev[devid].mdSecsize; /* Get offset into file */
277*2c2f96dcSApple OSS Distributions
278*2c2f96dcSApple OSS Distributions /*
279*2c2f96dcSApple OSS Distributions * Note that reading past end is an error, but reading at end is an EOF. For these
280*2c2f96dcSApple OSS Distributions * we just return with resid == count.
281*2c2f96dcSApple OSS Distributions */
282*2c2f96dcSApple OSS Distributions
283*2c2f96dcSApple OSS Distributions if (blkoff >= (mdev[devid].mdSize << 12)) { /* Are they trying to read/write at/after end? */
284*2c2f96dcSApple OSS Distributions if (blkoff != (mdev[devid].mdSize << 12)) { /* Are we trying to read after EOF? */
285*2c2f96dcSApple OSS Distributions buf_seterror(bp, EINVAL); /* Yeah, this is an error */
286*2c2f96dcSApple OSS Distributions }
287*2c2f96dcSApple OSS Distributions buf_biodone(bp); /* Return */
288*2c2f96dcSApple OSS Distributions return;
289*2c2f96dcSApple OSS Distributions }
290*2c2f96dcSApple OSS Distributions
291*2c2f96dcSApple OSS Distributions if ((blkoff + buf_count(bp)) > (mdev[devid].mdSize << 12)) { /* Will this read go past end? */
292*2c2f96dcSApple OSS Distributions buf_setcount(bp, (uint32_t)((mdev[devid].mdSize << 12) - blkoff)); /* Yes, trim to max */
293*2c2f96dcSApple OSS Distributions }
294*2c2f96dcSApple OSS Distributions /*
295*2c2f96dcSApple OSS Distributions * make sure the buffer's data area is
296*2c2f96dcSApple OSS Distributions * accessible
297*2c2f96dcSApple OSS Distributions */
298*2c2f96dcSApple OSS Distributions if (buf_map(bp, (caddr_t *)&vaddr)) {
299*2c2f96dcSApple OSS Distributions panic("ramstrategy: buf_map failed");
300*2c2f96dcSApple OSS Distributions }
301*2c2f96dcSApple OSS Distributions
302*2c2f96dcSApple OSS Distributions fvaddr = (mdev[devid].mdBase << 12) + blkoff; /* Point to offset into ram disk */
303*2c2f96dcSApple OSS Distributions
304*2c2f96dcSApple OSS Distributions if (buf_flags(bp) & B_READ) { /* Is this a read? */
305*2c2f96dcSApple OSS Distributions if (!(mdev[devid].mdFlags & mdPhys)) { /* Physical mapped disk? */
306*2c2f96dcSApple OSS Distributions bcopy((void *)((uintptr_t)fvaddr),
307*2c2f96dcSApple OSS Distributions (void *)vaddr, (size_t)buf_count(bp)); /* This is virtual, just get the data */
308*2c2f96dcSApple OSS Distributions } else {
309*2c2f96dcSApple OSS Distributions left = buf_count(bp); /* Init the amount left to copy */
310*2c2f96dcSApple OSS Distributions while (left) { /* Go until it is all copied */
311*2c2f96dcSApple OSS Distributions lop = min((4096 - (vaddr & 4095)), (4096 - (fvaddr & 4095))); /* Get smallest amount left on sink and source */
312*2c2f96dcSApple OSS Distributions csize = min(lop, left); /* Don't move more than we need to */
313*2c2f96dcSApple OSS Distributions
314*2c2f96dcSApple OSS Distributions pp = pmap_find_phys(kernel_pmap, (addr64_t)((uintptr_t)vaddr)); /* Get the sink physical address */
315*2c2f96dcSApple OSS Distributions if (!pp) { /* Not found, what gives? */
316*2c2f96dcSApple OSS Distributions panic("mdevstrategy: sink address %016llX not mapped", (addr64_t)((uintptr_t)vaddr));
317*2c2f96dcSApple OSS Distributions }
318*2c2f96dcSApple OSS Distributions paddr = (addr64_t)(((addr64_t)pp << 12) | (addr64_t)(vaddr & 4095)); /* Get actual address */
319*2c2f96dcSApple OSS Distributions bcopy_phys(fvaddr, paddr, csize); /* Copy this on in */
320*2c2f96dcSApple OSS Distributions mapping_set_mod((ppnum_t)(paddr >> 12)); /* Make sure we know that it is modified */
321*2c2f96dcSApple OSS Distributions
322*2c2f96dcSApple OSS Distributions left = left - csize; /* Calculate what is left */
323*2c2f96dcSApple OSS Distributions vaddr = vaddr + csize; /* Move to next sink address */
324*2c2f96dcSApple OSS Distributions fvaddr = fvaddr + csize; /* Bump to next physical address */
325*2c2f96dcSApple OSS Distributions }
326*2c2f96dcSApple OSS Distributions }
327*2c2f96dcSApple OSS Distributions } else { /* This is a write */
328*2c2f96dcSApple OSS Distributions if (!(mdev[devid].mdFlags & mdPhys)) { /* Physical mapped disk? */
329*2c2f96dcSApple OSS Distributions bcopy((void *)vaddr, (void *)((uintptr_t)fvaddr),
330*2c2f96dcSApple OSS Distributions (size_t)buf_count(bp)); /* This is virtual, just put the data */
331*2c2f96dcSApple OSS Distributions } else {
332*2c2f96dcSApple OSS Distributions left = buf_count(bp); /* Init the amount left to copy */
333*2c2f96dcSApple OSS Distributions while (left) { /* Go until it is all copied */
334*2c2f96dcSApple OSS Distributions lop = min((4096 - (vaddr & 4095)), (4096 - (fvaddr & 4095))); /* Get smallest amount left on sink and source */
335*2c2f96dcSApple OSS Distributions csize = min(lop, left); /* Don't move more than we need to */
336*2c2f96dcSApple OSS Distributions
337*2c2f96dcSApple OSS Distributions pp = pmap_find_phys(kernel_pmap, (addr64_t)((uintptr_t)vaddr)); /* Get the source physical address */
338*2c2f96dcSApple OSS Distributions if (!pp) { /* Not found, what gives? */
339*2c2f96dcSApple OSS Distributions panic("mdevstrategy: source address %016llX not mapped", (addr64_t)((uintptr_t)vaddr));
340*2c2f96dcSApple OSS Distributions }
341*2c2f96dcSApple OSS Distributions paddr = (addr64_t)(((addr64_t)pp << 12) | (addr64_t)(vaddr & 4095)); /* Get actual address */
342*2c2f96dcSApple OSS Distributions
343*2c2f96dcSApple OSS Distributions bcopy_phys(paddr, fvaddr, csize); /* Move this on out */
344*2c2f96dcSApple OSS Distributions
345*2c2f96dcSApple OSS Distributions left = left - csize; /* Calculate what is left */
346*2c2f96dcSApple OSS Distributions vaddr = vaddr + csize; /* Move to next sink address */
347*2c2f96dcSApple OSS Distributions fvaddr = fvaddr + csize; /* Bump to next physical address */
348*2c2f96dcSApple OSS Distributions }
349*2c2f96dcSApple OSS Distributions }
350*2c2f96dcSApple OSS Distributions }
351*2c2f96dcSApple OSS Distributions /*
352*2c2f96dcSApple OSS Distributions * buf_unmap takes care of all the cases
353*2c2f96dcSApple OSS Distributions * it will unmap the buffer from kernel
354*2c2f96dcSApple OSS Distributions * virtual space if that was the state
355*2c2f96dcSApple OSS Distributions * when we mapped it.
356*2c2f96dcSApple OSS Distributions */
357*2c2f96dcSApple OSS Distributions buf_unmap(bp);
358*2c2f96dcSApple OSS Distributions
359*2c2f96dcSApple OSS Distributions buf_setresid(bp, 0); /* Nothing more to do */
360*2c2f96dcSApple OSS Distributions buf_biodone(bp); /* Say we've finished */
361*2c2f96dcSApple OSS Distributions }
362*2c2f96dcSApple OSS Distributions
363*2c2f96dcSApple OSS Distributions static int
mdevbioctl(dev_t dev,u_long cmd,caddr_t data,int flag,struct proc * p)364*2c2f96dcSApple OSS Distributions mdevbioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p)
365*2c2f96dcSApple OSS Distributions {
366*2c2f96dcSApple OSS Distributions return mdevioctl(dev, cmd, data, flag, p, 0);
367*2c2f96dcSApple OSS Distributions }
368*2c2f96dcSApple OSS Distributions
369*2c2f96dcSApple OSS Distributions static int
mdevcioctl(dev_t dev,u_long cmd,caddr_t data,int flag,struct proc * p)370*2c2f96dcSApple OSS Distributions mdevcioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p)
371*2c2f96dcSApple OSS Distributions {
372*2c2f96dcSApple OSS Distributions return mdevioctl(dev, cmd, data, flag, p, 1);
373*2c2f96dcSApple OSS Distributions }
374*2c2f96dcSApple OSS Distributions
375*2c2f96dcSApple OSS Distributions static int
mdevioctl(dev_t dev,u_long cmd,caddr_t data,__unused int flag,struct proc * p,int is_char)376*2c2f96dcSApple OSS Distributions mdevioctl(dev_t dev, u_long cmd, caddr_t data, __unused int flag,
377*2c2f96dcSApple OSS Distributions struct proc *p, int is_char)
378*2c2f96dcSApple OSS Distributions {
379*2c2f96dcSApple OSS Distributions int error;
380*2c2f96dcSApple OSS Distributions u_int32_t *f;
381*2c2f96dcSApple OSS Distributions u_int64_t *o;
382*2c2f96dcSApple OSS Distributions int devid;
383*2c2f96dcSApple OSS Distributions dk_memdev_info_t * memdev_info;
384*2c2f96dcSApple OSS Distributions
385*2c2f96dcSApple OSS Distributions devid = minor(dev); /* Get minor device number */
386*2c2f96dcSApple OSS Distributions
387*2c2f96dcSApple OSS Distributions if (devid >= NB_MAX_MDEVICES || devid < 0) {
388*2c2f96dcSApple OSS Distributions return ENXIO; /* Not valid */
389*2c2f96dcSApple OSS Distributions }
390*2c2f96dcSApple OSS Distributions error = proc_suser(p); /* Are we superman? */
391*2c2f96dcSApple OSS Distributions if (error) {
392*2c2f96dcSApple OSS Distributions return error; /* Nope... */
393*2c2f96dcSApple OSS Distributions }
394*2c2f96dcSApple OSS Distributions f = (u_int32_t*)data;
395*2c2f96dcSApple OSS Distributions o = (u_int64_t *)data;
396*2c2f96dcSApple OSS Distributions memdev_info = (dk_memdev_info_t *) data;
397*2c2f96dcSApple OSS Distributions
398*2c2f96dcSApple OSS Distributions switch (cmd) {
399*2c2f96dcSApple OSS Distributions case DKIOCGETMAXBLOCKCOUNTREAD:
400*2c2f96dcSApple OSS Distributions *o = 32;
401*2c2f96dcSApple OSS Distributions break;
402*2c2f96dcSApple OSS Distributions
403*2c2f96dcSApple OSS Distributions case DKIOCGETMAXBLOCKCOUNTWRITE:
404*2c2f96dcSApple OSS Distributions *o = 32;
405*2c2f96dcSApple OSS Distributions break;
406*2c2f96dcSApple OSS Distributions
407*2c2f96dcSApple OSS Distributions case DKIOCGETMAXSEGMENTCOUNTREAD:
408*2c2f96dcSApple OSS Distributions *o = 32;
409*2c2f96dcSApple OSS Distributions break;
410*2c2f96dcSApple OSS Distributions
411*2c2f96dcSApple OSS Distributions case DKIOCGETMAXSEGMENTCOUNTWRITE:
412*2c2f96dcSApple OSS Distributions *o = 32;
413*2c2f96dcSApple OSS Distributions break;
414*2c2f96dcSApple OSS Distributions
415*2c2f96dcSApple OSS Distributions case DKIOCGETBLOCKSIZE:
416*2c2f96dcSApple OSS Distributions *f = mdev[devid].mdSecsize;
417*2c2f96dcSApple OSS Distributions break;
418*2c2f96dcSApple OSS Distributions
419*2c2f96dcSApple OSS Distributions case DKIOCSETBLOCKSIZE:
420*2c2f96dcSApple OSS Distributions if (is_char) {
421*2c2f96dcSApple OSS Distributions return ENODEV; /* We can only do this for a block */
422*2c2f96dcSApple OSS Distributions }
423*2c2f96dcSApple OSS Distributions if (*f < DEV_BSIZE) {
424*2c2f96dcSApple OSS Distributions return EINVAL; /* Too short? */
425*2c2f96dcSApple OSS Distributions }
426*2c2f96dcSApple OSS Distributions mdev[devid].mdSecsize = *f; /* set the new block size */
427*2c2f96dcSApple OSS Distributions break;
428*2c2f96dcSApple OSS Distributions
429*2c2f96dcSApple OSS Distributions case DKIOCISWRITABLE:
430*2c2f96dcSApple OSS Distributions *f = 1;
431*2c2f96dcSApple OSS Distributions break;
432*2c2f96dcSApple OSS Distributions
433*2c2f96dcSApple OSS Distributions case DKIOCGETBLOCKCOUNT:
434*2c2f96dcSApple OSS Distributions if (!(mdev[devid].mdFlags & mdInited)) {
435*2c2f96dcSApple OSS Distributions return ENXIO;
436*2c2f96dcSApple OSS Distributions }
437*2c2f96dcSApple OSS Distributions *o = ((mdev[devid].mdSize << 12) + mdev[devid].mdSecsize - 1) / mdev[devid].mdSecsize;
438*2c2f96dcSApple OSS Distributions break;
439*2c2f96dcSApple OSS Distributions
440*2c2f96dcSApple OSS Distributions /*
441*2c2f96dcSApple OSS Distributions * We're interested in the following bits of information:
442*2c2f96dcSApple OSS Distributions * Are you a memory-backed device (always yes, in this case)?
443*2c2f96dcSApple OSS Distributions * Physical memory (mdPhys)?
444*2c2f96dcSApple OSS Distributions * What is your base page?
445*2c2f96dcSApple OSS Distributions * What is your size?
446*2c2f96dcSApple OSS Distributions */
447*2c2f96dcSApple OSS Distributions case DKIOCGETMEMDEVINFO:
448*2c2f96dcSApple OSS Distributions if (!(mdev[devid].mdFlags & mdInited)) {
449*2c2f96dcSApple OSS Distributions return ENXIO;
450*2c2f96dcSApple OSS Distributions }
451*2c2f96dcSApple OSS Distributions memdev_info->mi_mdev = TRUE;
452*2c2f96dcSApple OSS Distributions memdev_info->mi_phys = (mdev[devid].mdFlags & mdPhys) ? TRUE : FALSE;
453*2c2f96dcSApple OSS Distributions memdev_info->mi_base = (uint32_t)mdev[devid].mdBase;
454*2c2f96dcSApple OSS Distributions memdev_info->mi_size = mdev[devid].mdSize;
455*2c2f96dcSApple OSS Distributions break;
456*2c2f96dcSApple OSS Distributions
457*2c2f96dcSApple OSS Distributions default:
458*2c2f96dcSApple OSS Distributions error = ENOTTY;
459*2c2f96dcSApple OSS Distributions break;
460*2c2f96dcSApple OSS Distributions }
461*2c2f96dcSApple OSS Distributions return error;
462*2c2f96dcSApple OSS Distributions }
463*2c2f96dcSApple OSS Distributions
464*2c2f96dcSApple OSS Distributions
465*2c2f96dcSApple OSS Distributions static int
mdevsize(dev_t dev)466*2c2f96dcSApple OSS Distributions mdevsize(dev_t dev)
467*2c2f96dcSApple OSS Distributions {
468*2c2f96dcSApple OSS Distributions int devid;
469*2c2f96dcSApple OSS Distributions
470*2c2f96dcSApple OSS Distributions devid = minor(dev); /* Get minor device number */
471*2c2f96dcSApple OSS Distributions if (devid >= NB_MAX_MDEVICES || devid < 0) {
472*2c2f96dcSApple OSS Distributions return ENXIO; /* Not valid */
473*2c2f96dcSApple OSS Distributions }
474*2c2f96dcSApple OSS Distributions if ((mdev[devid].mdFlags & mdInited) == 0) {
475*2c2f96dcSApple OSS Distributions return -1; /* Not inited yet */
476*2c2f96dcSApple OSS Distributions }
477*2c2f96dcSApple OSS Distributions return mdev[devid].mdSecsize;
478*2c2f96dcSApple OSS Distributions }
479*2c2f96dcSApple OSS Distributions
480*2c2f96dcSApple OSS Distributions #include <pexpert/pexpert.h>
481*2c2f96dcSApple OSS Distributions
482*2c2f96dcSApple OSS Distributions void
mdevinit(__unused int the_cnt)483*2c2f96dcSApple OSS Distributions mdevinit(__unused int the_cnt)
484*2c2f96dcSApple OSS Distributions {
485*2c2f96dcSApple OSS Distributions #ifdef CONFIG_MEMDEV_INSECURE
486*2c2f96dcSApple OSS Distributions
487*2c2f96dcSApple OSS Distributions int devid, phys;
488*2c2f96dcSApple OSS Distributions uint64_t base;
489*2c2f96dcSApple OSS Distributions uint64_t size;
490*2c2f96dcSApple OSS Distributions char *ba, *lp;
491*2c2f96dcSApple OSS Distributions dev_t dev;
492*2c2f96dcSApple OSS Distributions
493*2c2f96dcSApple OSS Distributions
494*2c2f96dcSApple OSS Distributions ba = PE_boot_args(); /* Get the boot arguments */
495*2c2f96dcSApple OSS Distributions lp = ba + 256; /* Point to the end */
496*2c2f96dcSApple OSS Distributions
497*2c2f96dcSApple OSS Distributions while (1) { /* Step through, looking for our keywords */
498*2c2f96dcSApple OSS Distributions phys = 0; /* Assume virtual memory device */
499*2c2f96dcSApple OSS Distributions ba = nonspace(ba, lp); /* Find non-space */
500*2c2f96dcSApple OSS Distributions if (ba >= lp) {
501*2c2f96dcSApple OSS Distributions return; /* We are done if no more... */
502*2c2f96dcSApple OSS Distributions }
503*2c2f96dcSApple OSS Distributions if (((ba[0] != 'v') && (ba[0] != 'p'))
504*2c2f96dcSApple OSS Distributions || (ba[1] != 'm') || (ba[2] != 'd') || (ba[4] != '=')
505*2c2f96dcSApple OSS Distributions || (ba[3] < '0') || (ba[3] > 'f')
506*2c2f96dcSApple OSS Distributions || ((ba[3] > '9') && (ba[3] < 'a'))) { /* Is this of form "vmdx=" or "pmdx=" where x is hex digit? */
507*2c2f96dcSApple OSS Distributions ba = getspace(ba, lp); /* Find next white space or end */
508*2c2f96dcSApple OSS Distributions continue; /* Start looking for the next one */
509*2c2f96dcSApple OSS Distributions }
510*2c2f96dcSApple OSS Distributions
511*2c2f96dcSApple OSS Distributions if (ba[0] == 'p') {
512*2c2f96dcSApple OSS Distributions phys = 1; /* Set physical memory disk */
513*2c2f96dcSApple OSS Distributions }
514*2c2f96dcSApple OSS Distributions devid = ba[3] & 0xF; /* Assume digit */
515*2c2f96dcSApple OSS Distributions if (ba[3] > '9') {
516*2c2f96dcSApple OSS Distributions devid += 9; /* Adjust for hex digits */
517*2c2f96dcSApple OSS Distributions }
518*2c2f96dcSApple OSS Distributions ba = &ba[5]; /* Step past keyword */
519*2c2f96dcSApple OSS Distributions ba = cvtnum(ba, lp, &base); /* Convert base of memory disk */
520*2c2f96dcSApple OSS Distributions if (ba >= lp) {
521*2c2f96dcSApple OSS Distributions return; /* Malformed one at the end, leave */
522*2c2f96dcSApple OSS Distributions }
523*2c2f96dcSApple OSS Distributions if (ba[0] != '.') {
524*2c2f96dcSApple OSS Distributions continue; /* If not length separater, try next... */
525*2c2f96dcSApple OSS Distributions }
526*2c2f96dcSApple OSS Distributions if (base & 0xFFF) {
527*2c2f96dcSApple OSS Distributions continue; /* Only allow page aligned stuff */
528*2c2f96dcSApple OSS Distributions }
529*2c2f96dcSApple OSS Distributions ba++; /* Step past '.' */
530*2c2f96dcSApple OSS Distributions ba = cvtnum(ba, lp, &size); /* Try to convert it */
531*2c2f96dcSApple OSS Distributions if (!size || (size & 0xFFF)) {
532*2c2f96dcSApple OSS Distributions continue; /* Allow only non-zer page size multiples */
533*2c2f96dcSApple OSS Distributions }
534*2c2f96dcSApple OSS Distributions if (ba < lp) { /* If we are not at end, check end character */
535*2c2f96dcSApple OSS Distributions if ((ba[0] != ' ') && (ba[0] != 0)) {
536*2c2f96dcSApple OSS Distributions continue; /* End must be null or space */
537*2c2f96dcSApple OSS Distributions }
538*2c2f96dcSApple OSS Distributions }
539*2c2f96dcSApple OSS Distributions
540*2c2f96dcSApple OSS Distributions dev = mdevadd(devid, base >> 12, (unsigned)size >> 12, phys); /* Go add the device */
541*2c2f96dcSApple OSS Distributions }
542*2c2f96dcSApple OSS Distributions
543*2c2f96dcSApple OSS Distributions #endif /* CONFIG_MEMDEV_INSECURE */
544*2c2f96dcSApple OSS Distributions
545*2c2f96dcSApple OSS Distributions return;
546*2c2f96dcSApple OSS Distributions }
547*2c2f96dcSApple OSS Distributions
548*2c2f96dcSApple OSS Distributions #ifdef CONFIG_MEMDEV_INSECURE
549*2c2f96dcSApple OSS Distributions
550*2c2f96dcSApple OSS Distributions char *
nonspace(char * pos,char * end)551*2c2f96dcSApple OSS Distributions nonspace(char *pos, char *end) /* Find next non-space in string */
552*2c2f96dcSApple OSS Distributions {
553*2c2f96dcSApple OSS Distributions if (pos >= end) {
554*2c2f96dcSApple OSS Distributions return end; /* Don't go past end */
555*2c2f96dcSApple OSS Distributions }
556*2c2f96dcSApple OSS Distributions if (pos[0] == 0) {
557*2c2f96dcSApple OSS Distributions return end; /* If at null, make end */
558*2c2f96dcSApple OSS Distributions }
559*2c2f96dcSApple OSS Distributions while (1) { /* Keep going */
560*2c2f96dcSApple OSS Distributions if (pos[0] != ' ') {
561*2c2f96dcSApple OSS Distributions return pos; /* Leave if we found one */
562*2c2f96dcSApple OSS Distributions }
563*2c2f96dcSApple OSS Distributions pos++; /* Stop */
564*2c2f96dcSApple OSS Distributions if (pos >= end) {
565*2c2f96dcSApple OSS Distributions return end; /* Quit if we run off end */
566*2c2f96dcSApple OSS Distributions }
567*2c2f96dcSApple OSS Distributions }
568*2c2f96dcSApple OSS Distributions }
569*2c2f96dcSApple OSS Distributions
570*2c2f96dcSApple OSS Distributions char *
getspace(char * pos,char * end)571*2c2f96dcSApple OSS Distributions getspace(char *pos, char *end) /* Find next non-space in string */
572*2c2f96dcSApple OSS Distributions {
573*2c2f96dcSApple OSS Distributions while (1) { /* Keep going */
574*2c2f96dcSApple OSS Distributions if (pos >= end) {
575*2c2f96dcSApple OSS Distributions return end; /* Don't go past end */
576*2c2f96dcSApple OSS Distributions }
577*2c2f96dcSApple OSS Distributions if (pos[0] == 0) {
578*2c2f96dcSApple OSS Distributions return end; /* Leave if we hit null */
579*2c2f96dcSApple OSS Distributions }
580*2c2f96dcSApple OSS Distributions if (pos[0] == ' ') {
581*2c2f96dcSApple OSS Distributions return pos; /* Leave if we found one */
582*2c2f96dcSApple OSS Distributions }
583*2c2f96dcSApple OSS Distributions pos++; /* Stop */
584*2c2f96dcSApple OSS Distributions }
585*2c2f96dcSApple OSS Distributions }
586*2c2f96dcSApple OSS Distributions
587*2c2f96dcSApple OSS Distributions char *
cvtnum(char * pos,char * end,uint64_t * num)588*2c2f96dcSApple OSS Distributions cvtnum(char *pos, char *end, uint64_t *num) /* Convert to a number */
589*2c2f96dcSApple OSS Distributions {
590*2c2f96dcSApple OSS Distributions int rad, dig;
591*2c2f96dcSApple OSS Distributions
592*2c2f96dcSApple OSS Distributions *num = 0; /* Set answer to 0 to start */
593*2c2f96dcSApple OSS Distributions rad = 10;
594*2c2f96dcSApple OSS Distributions
595*2c2f96dcSApple OSS Distributions if (pos >= end) {
596*2c2f96dcSApple OSS Distributions return end; /* Don't go past end */
597*2c2f96dcSApple OSS Distributions }
598*2c2f96dcSApple OSS Distributions if (pos[0] == 0) {
599*2c2f96dcSApple OSS Distributions return end; /* If at null, make end */
600*2c2f96dcSApple OSS Distributions }
601*2c2f96dcSApple OSS Distributions if (pos[0] == '0' && ((pos[1] == 'x') || (pos[1] == 'x'))) { /* A hex constant? */
602*2c2f96dcSApple OSS Distributions rad = 16;
603*2c2f96dcSApple OSS Distributions pos += 2; /* Point to the number */
604*2c2f96dcSApple OSS Distributions }
605*2c2f96dcSApple OSS Distributions
606*2c2f96dcSApple OSS Distributions while (1) { /* Convert it */
607*2c2f96dcSApple OSS Distributions if (pos >= end) {
608*2c2f96dcSApple OSS Distributions return end; /* Don't go past end */
609*2c2f96dcSApple OSS Distributions }
610*2c2f96dcSApple OSS Distributions if (pos[0] == 0) {
611*2c2f96dcSApple OSS Distributions return end; /* If at null, make end */
612*2c2f96dcSApple OSS Distributions }
613*2c2f96dcSApple OSS Distributions if (pos[0] < '0') {
614*2c2f96dcSApple OSS Distributions return pos; /* Leave if non-digit */
615*2c2f96dcSApple OSS Distributions }
616*2c2f96dcSApple OSS Distributions dig = pos[0] & 0xF; /* Extract digit */
617*2c2f96dcSApple OSS Distributions if (pos[0] > '9') { /* Is it bigger than 9? */
618*2c2f96dcSApple OSS Distributions if (rad == 10) {
619*2c2f96dcSApple OSS Distributions return pos; /* Leave if not base 10 */
620*2c2f96dcSApple OSS Distributions }
621*2c2f96dcSApple OSS Distributions if (!(((pos[0] >= 'A') && (pos[0] <= 'F'))
622*2c2f96dcSApple OSS Distributions || ((pos[0] >= 'a') && (pos[0] <= 'f')))) {
623*2c2f96dcSApple OSS Distributions return pos; /* Leave if bogus char */
624*2c2f96dcSApple OSS Distributions }
625*2c2f96dcSApple OSS Distributions dig = dig + 9; /* Adjust for character */
626*2c2f96dcSApple OSS Distributions }
627*2c2f96dcSApple OSS Distributions *num = (*num * rad) + dig; /* Accumulate the number */
628*2c2f96dcSApple OSS Distributions pos++; /* Step on */
629*2c2f96dcSApple OSS Distributions }
630*2c2f96dcSApple OSS Distributions }
631*2c2f96dcSApple OSS Distributions
632*2c2f96dcSApple OSS Distributions #endif /* CONFIG_MEMDEV_INSECURE */
633*2c2f96dcSApple OSS Distributions
634*2c2f96dcSApple OSS Distributions dev_t
mdevadd(int devid,uint64_t base,unsigned int size,int phys)635*2c2f96dcSApple OSS Distributions mdevadd(int devid, uint64_t base, unsigned int size, int phys)
636*2c2f96dcSApple OSS Distributions {
637*2c2f96dcSApple OSS Distributions int i;
638*2c2f96dcSApple OSS Distributions
639*2c2f96dcSApple OSS Distributions if (devid < 0) {
640*2c2f96dcSApple OSS Distributions devid = -1;
641*2c2f96dcSApple OSS Distributions for (i = 0; i < NB_MAX_MDEVICES; i++) { /* Search all known memory devices */
642*2c2f96dcSApple OSS Distributions if (!(mdev[i].mdFlags & mdInited)) { /* Is this a free one? */
643*2c2f96dcSApple OSS Distributions if (devid < 0) {
644*2c2f96dcSApple OSS Distributions devid = i; /* Remember first free one */
645*2c2f96dcSApple OSS Distributions }
646*2c2f96dcSApple OSS Distributions continue; /* Skip check */
647*2c2f96dcSApple OSS Distributions }
648*2c2f96dcSApple OSS Distributions if (!(((base + size - 1) < mdev[i].mdBase) || ((mdev[i].mdBase + mdev[i].mdSize - 1) < base))) { /* Is there any overlap? */
649*2c2f96dcSApple OSS Distributions panic("mdevadd: attempt to add overlapping memory device at %016llX-%016llX", mdev[i].mdBase, mdev[i].mdBase + mdev[i].mdSize - 1);
650*2c2f96dcSApple OSS Distributions }
651*2c2f96dcSApple OSS Distributions }
652*2c2f96dcSApple OSS Distributions if (devid < 0) { /* Do we have free slots? */
653*2c2f96dcSApple OSS Distributions panic("mdevadd: attempt to add more than %d memory devices", NB_MAX_MDEVICES);
654*2c2f96dcSApple OSS Distributions }
655*2c2f96dcSApple OSS Distributions } else {
656*2c2f96dcSApple OSS Distributions if (devid >= NB_MAX_MDEVICES) { /* Giving us something bogus? */
657*2c2f96dcSApple OSS Distributions panic("mdevadd: attempt to explicitly add a bogus memory device: %08X", devid);
658*2c2f96dcSApple OSS Distributions }
659*2c2f96dcSApple OSS Distributions if (mdev[devid].mdFlags & mdInited) { /* Already there? */
660*2c2f96dcSApple OSS Distributions panic("mdevadd: attempt to explicitly add a previously defined memory device: %08X", devid);
661*2c2f96dcSApple OSS Distributions }
662*2c2f96dcSApple OSS Distributions }
663*2c2f96dcSApple OSS Distributions
664*2c2f96dcSApple OSS Distributions if (mdevBMajor < 0) { /* Have we gotten a major number yet? */
665*2c2f96dcSApple OSS Distributions mdevBMajor = bdevsw_add(-1, &mdevbdevsw); /* Add to the table and figure out a major number */
666*2c2f96dcSApple OSS Distributions if (mdevBMajor < 0) {
667*2c2f96dcSApple OSS Distributions printf("mdevadd: error - bdevsw_add() returned %d\n", mdevBMajor);
668*2c2f96dcSApple OSS Distributions return -1;
669*2c2f96dcSApple OSS Distributions }
670*2c2f96dcSApple OSS Distributions }
671*2c2f96dcSApple OSS Distributions
672*2c2f96dcSApple OSS Distributions if (mdevCMajor < 0) { /* Have we gotten a major number yet? */
673*2c2f96dcSApple OSS Distributions mdevCMajor = cdevsw_add_with_bdev(-1, &mdevcdevsw, mdevBMajor); /* Add to the table and figure out a major number */
674*2c2f96dcSApple OSS Distributions if (mdevCMajor < 0) {
675*2c2f96dcSApple OSS Distributions printf("ramdevice_init: error - cdevsw_add() returned %d\n", mdevCMajor);
676*2c2f96dcSApple OSS Distributions return -1;
677*2c2f96dcSApple OSS Distributions }
678*2c2f96dcSApple OSS Distributions }
679*2c2f96dcSApple OSS Distributions
680*2c2f96dcSApple OSS Distributions mdev[devid].mdBDev = makedev(mdevBMajor, devid); /* Get the device number */
681*2c2f96dcSApple OSS Distributions mdev[devid].mdbdevb = devfs_make_node(mdev[devid].mdBDev, DEVFS_BLOCK, /* Make the node */
682*2c2f96dcSApple OSS Distributions UID_ROOT, GID_OPERATOR,
683*2c2f96dcSApple OSS Distributions 0600, "md%d", devid);
684*2c2f96dcSApple OSS Distributions if (mdev[devid].mdbdevb == NULL) { /* Did we make one? */
685*2c2f96dcSApple OSS Distributions printf("mdevadd: devfs_make_node for block failed!\n");
686*2c2f96dcSApple OSS Distributions return -1; /* Nope... */
687*2c2f96dcSApple OSS Distributions }
688*2c2f96dcSApple OSS Distributions
689*2c2f96dcSApple OSS Distributions mdev[devid].mdCDev = makedev(mdevCMajor, devid); /* Get the device number */
690*2c2f96dcSApple OSS Distributions mdev[devid].mdcdevb = devfs_make_node(mdev[devid].mdCDev, DEVFS_CHAR, /* Make the node */
691*2c2f96dcSApple OSS Distributions UID_ROOT, GID_OPERATOR,
692*2c2f96dcSApple OSS Distributions 0600, "rmd%d", devid);
693*2c2f96dcSApple OSS Distributions if (mdev[devid].mdcdevb == NULL) { /* Did we make one? */
694*2c2f96dcSApple OSS Distributions printf("mdevadd: devfs_make_node for character failed!\n");
695*2c2f96dcSApple OSS Distributions return -1; /* Nope... */
696*2c2f96dcSApple OSS Distributions }
697*2c2f96dcSApple OSS Distributions
698*2c2f96dcSApple OSS Distributions mdev[devid].mdBase = base; /* Set the base address of ram disk */
699*2c2f96dcSApple OSS Distributions mdev[devid].mdSize = size; /* Set the length of the ram disk */
700*2c2f96dcSApple OSS Distributions mdev[devid].mdSecsize = DEV_BSIZE; /* Set starting block size */
701*2c2f96dcSApple OSS Distributions if (phys) {
702*2c2f96dcSApple OSS Distributions mdev[devid].mdFlags |= mdPhys; /* Show that we are in physical memory */
703*2c2f96dcSApple OSS Distributions }
704*2c2f96dcSApple OSS Distributions mdev[devid].mdFlags |= mdInited; /* Show we are all set up */
705*2c2f96dcSApple OSS Distributions printf("Added memory device md%x/rmd%x (%08X/%08X) at %016llX for %016llX\n",
706*2c2f96dcSApple OSS Distributions devid, devid, mdev[devid].mdBDev, mdev[devid].mdCDev, base << 12, (uint64_t)size << 12);
707*2c2f96dcSApple OSS Distributions return mdev[devid].mdBDev;
708*2c2f96dcSApple OSS Distributions }
709*2c2f96dcSApple OSS Distributions
710*2c2f96dcSApple OSS Distributions
711*2c2f96dcSApple OSS Distributions dev_t
mdevlookup(int devid)712*2c2f96dcSApple OSS Distributions mdevlookup(int devid)
713*2c2f96dcSApple OSS Distributions {
714*2c2f96dcSApple OSS Distributions if ((devid < 0) || (devid >= NB_MAX_MDEVICES)) {
715*2c2f96dcSApple OSS Distributions return -1; /* Filter any bogus requests */
716*2c2f96dcSApple OSS Distributions }
717*2c2f96dcSApple OSS Distributions if (!(mdev[devid].mdFlags & mdInited)) {
718*2c2f96dcSApple OSS Distributions return -1; /* This one hasn't been defined */
719*2c2f96dcSApple OSS Distributions }
720*2c2f96dcSApple OSS Distributions return mdev[devid].mdBDev; /* Return the device number */
721*2c2f96dcSApple OSS Distributions }
722*2c2f96dcSApple OSS Distributions
723*2c2f96dcSApple OSS Distributions void
mdevremoveall(void)724*2c2f96dcSApple OSS Distributions mdevremoveall(void)
725*2c2f96dcSApple OSS Distributions {
726*2c2f96dcSApple OSS Distributions int i;
727*2c2f96dcSApple OSS Distributions
728*2c2f96dcSApple OSS Distributions for (i = 0; i < NB_MAX_MDEVICES; i++) {
729*2c2f96dcSApple OSS Distributions if (!(mdev[i].mdFlags & mdInited)) {
730*2c2f96dcSApple OSS Distributions continue; /* Ignore unused mdevs */
731*2c2f96dcSApple OSS Distributions }
732*2c2f96dcSApple OSS Distributions devfs_remove(mdev[i].mdbdevb); /* Remove the block device */
733*2c2f96dcSApple OSS Distributions devfs_remove(mdev[i].mdcdevb); /* Remove the character device */
734*2c2f96dcSApple OSS Distributions
735*2c2f96dcSApple OSS Distributions mdev[i].mdBase = 0; /* Clear the mdev's storage */
736*2c2f96dcSApple OSS Distributions mdev[i].mdSize = 0;
737*2c2f96dcSApple OSS Distributions mdev[i].mdSecsize = 0;
738*2c2f96dcSApple OSS Distributions mdev[i].mdFlags = 0;
739*2c2f96dcSApple OSS Distributions mdev[i].mdBDev = 0;
740*2c2f96dcSApple OSS Distributions mdev[i].mdCDev = 0;
741*2c2f96dcSApple OSS Distributions mdev[i].mdbdevb = 0;
742*2c2f96dcSApple OSS Distributions mdev[i].mdcdevb = 0;
743*2c2f96dcSApple OSS Distributions }
744*2c2f96dcSApple OSS Distributions }
745*2c2f96dcSApple OSS Distributions
746*2c2f96dcSApple OSS Distributions int
mdevgetrange(int devid,uint64_t * base,uint64_t * size)747*2c2f96dcSApple OSS Distributions mdevgetrange(int devid, uint64_t *base, uint64_t *size)
748*2c2f96dcSApple OSS Distributions {
749*2c2f96dcSApple OSS Distributions assert(base);
750*2c2f96dcSApple OSS Distributions assert(size);
751*2c2f96dcSApple OSS Distributions
752*2c2f96dcSApple OSS Distributions /* filter invalid request */
753*2c2f96dcSApple OSS Distributions if ((devid < 0) || (devid >= NB_MAX_MDEVICES)) {
754*2c2f96dcSApple OSS Distributions return -1;
755*2c2f96dcSApple OSS Distributions }
756*2c2f96dcSApple OSS Distributions
757*2c2f96dcSApple OSS Distributions /* filter non-initialized memory devices */
758*2c2f96dcSApple OSS Distributions if ((mdev[devid].mdFlags & mdInited) == 0) {
759*2c2f96dcSApple OSS Distributions return -1;
760*2c2f96dcSApple OSS Distributions }
761*2c2f96dcSApple OSS Distributions
762*2c2f96dcSApple OSS Distributions *base = mdev[devid].mdBase << 12;
763*2c2f96dcSApple OSS Distributions *size = mdev[devid].mdSize << 12;
764*2c2f96dcSApple OSS Distributions
765*2c2f96dcSApple OSS Distributions /* make sure (base, size) is a valid range and will not overflow */
766*2c2f96dcSApple OSS Distributions assert(*size < (UINT64_MAX - *base));
767*2c2f96dcSApple OSS Distributions
768*2c2f96dcSApple OSS Distributions return 0;
769*2c2f96dcSApple OSS Distributions }
770