1eb0cc229Sedp /*
2eb0cc229Sedp * CDDL HEADER START
3eb0cc229Sedp *
4eb0cc229Sedp * The contents of this file are subject to the terms of the
5eb0cc229Sedp * Common Development and Distribution License (the "License").
6eb0cc229Sedp * You may not use this file except in compliance with the License.
7eb0cc229Sedp *
8eb0cc229Sedp * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9eb0cc229Sedp * or http://www.opensolaris.org/os/licensing.
10eb0cc229Sedp * See the License for the specific language governing permissions
11eb0cc229Sedp * and limitations under the License.
12eb0cc229Sedp *
13eb0cc229Sedp * When distributing Covered Code, include this CDDL HEADER in each
14eb0cc229Sedp * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15eb0cc229Sedp * If applicable, add the following below this CDDL HEADER, with the
16eb0cc229Sedp * fields enclosed by brackets "[]" replaced with your own identifying
17eb0cc229Sedp * information: Portions Copyright [yyyy] [name of copyright owner]
18eb0cc229Sedp *
19eb0cc229Sedp * CDDL HEADER END
20eb0cc229Sedp */
21eb0cc229Sedp /*
22*7f0b8309SEdward Pilatowicz * Copyright 2009 Sun Microsystems, Inc. All rights reserved.
23eb0cc229Sedp * Use is subject to license terms.
24eb0cc229Sedp */
25eb0cc229Sedp
26*7f0b8309SEdward Pilatowicz #include <io/xdf_shell.h>
27eb0cc229Sedp
28eb0cc229Sedp /*
29*7f0b8309SEdward Pilatowicz * We're emulating (and possibly layering on top of) cmdk devices, so xdf
30*7f0b8309SEdward Pilatowicz * disk unit mappings must match up with cmdk disk unit mappings'.
31eb0cc229Sedp */
32*7f0b8309SEdward Pilatowicz #if !defined(XDF_PSHIFT)
33*7f0b8309SEdward Pilatowicz #error "can't find definition for xdf unit mappings - XDF_PSHIFT"
34*7f0b8309SEdward Pilatowicz #endif /* XDF_PSHIFT */
35*7f0b8309SEdward Pilatowicz
36*7f0b8309SEdward Pilatowicz #if !defined(CMDK_UNITSHF)
37*7f0b8309SEdward Pilatowicz #error "can't find definition for cmdk unit mappings - CMDK_UNITSHF"
38*7f0b8309SEdward Pilatowicz #endif /* CMDK_UNITSHF */
39*7f0b8309SEdward Pilatowicz
40*7f0b8309SEdward Pilatowicz #if ((XDF_PSHIFT - CMDK_UNITSHF) != 0)
41*7f0b8309SEdward Pilatowicz #error "cmdk and xdf unit mappings don't match."
42*7f0b8309SEdward Pilatowicz #endif /* ((XDF_PSHIFT - CMDK_UNITSHF) != 0) */
43*7f0b8309SEdward Pilatowicz
44*7f0b8309SEdward Pilatowicz extern const struct dev_ops cmdk_ops;
45*7f0b8309SEdward Pilatowicz extern void *cmdk_state;
46eb0cc229Sedp
47eb0cc229Sedp /*
48*7f0b8309SEdward Pilatowicz * Globals required by xdf_shell.c
49eb0cc229Sedp */
50*7f0b8309SEdward Pilatowicz const char *xdfs_c_name = "cmdk";
51*7f0b8309SEdward Pilatowicz const char *xdfs_c_linkinfo = "PV Common Direct Access Disk";
52*7f0b8309SEdward Pilatowicz void **xdfs_c_hvm_ss = &cmdk_state;
53*7f0b8309SEdward Pilatowicz const size_t xdfs_c_hvm_ss_size = sizeof (struct cmdk);
54*7f0b8309SEdward Pilatowicz const struct dev_ops *xdfs_c_hvm_dev_ops = &cmdk_ops;
55eb0cc229Sedp
56*7f0b8309SEdward Pilatowicz const xdfs_h2p_map_t xdfs_c_h2p_map[] = {
57eb0cc229Sedp /*
58eb0cc229Sedp * The paths mapping here are very specific to xen and qemu. When a
59eb0cc229Sedp * domU is booted under xen in HVM mode, qemu is normally used to
60eb0cc229Sedp * emulate up to four ide disks. These disks always have the four
61eb0cc229Sedp * path listed below. To configure an emulated ide device, the
62eb0cc229Sedp * xen domain configuration file normally has an entry that looks
63eb0cc229Sedp * like this:
64eb0cc229Sedp * disk = [ 'file:/foo.img,hda,w' ]
65eb0cc229Sedp *
66eb0cc229Sedp * The part we're interested in is the 'hda', which we'll call the
67eb0cc229Sedp * xen disk device name here. The xen management tools (which parse
68eb0cc229Sedp * the xen domain configuration file and launch qemu) makes the
69eb0cc229Sedp * following assumptions about this value:
70eb0cc229Sedp * hda == emulated ide disk 0 (ide bus 0, master)
71eb0cc229Sedp * hdb == emulated ide disk 1 (ide bus 0, slave)
72eb0cc229Sedp * hdc == emulated ide disk 2 (ide bus 1, master)
73eb0cc229Sedp * hdd == emulated ide disk 3 (ide bus 1, slave)
74eb0cc229Sedp *
75eb0cc229Sedp * (Uncoincidentally, these xen disk device names actually map to
76eb0cc229Sedp * the /dev filesystem names of ide disk devices in Linux. So in
77eb0cc229Sedp * Linux /dev/hda is the first ide disk.) So for the first part of
78eb0cc229Sedp * our mapping we've just hardcoded the cmdk paths that we know
79eb0cc229Sedp * qemu will use.
80eb0cc229Sedp *
81eb0cc229Sedp * To understand the second half of the mapping (ie, the xdf device
82eb0cc229Sedp * that each emulated cmdk device should be mapped two) we need to
83eb0cc229Sedp * know the solaris device node address that will be assigned to
8497869ac5Sjhd * each xdf device. (The device node address is the decimal
8597869ac5Sjhd * number that comes after the "xdf@" in the device path.)
86eb0cc229Sedp *
87eb0cc229Sedp * So the question becomes, how do we know what the xenstore device
88eb0cc229Sedp * id for emulated disk will be? Well, it turns out that since the
89eb0cc229Sedp * xen management tools expect the disk device names to be Linux
90eb0cc229Sedp * device names, those same management tools assign each disk a
91eb0cc229Sedp * device id that matches the dev_t of the corresponding device
92eb0cc229Sedp * under Linux. (Big shocker.) This xen device name-to-id mapping
93eb0cc229Sedp * is currently all hard coded here:
94eb0cc229Sedp * xen.hg/tools/python/xen/util/blkif.py`blkdev_name_to_number()
95eb0cc229Sedp *
96eb0cc229Sedp * So looking at the code above we can see the following xen disk
97eb0cc229Sedp * device name to xenstore device id mappings:
9897869ac5Sjhd * 'hda' == 0t768 == ((3 * 256) + (0 * 64))
9997869ac5Sjhd * 'hdb' == 0t832 == ((3 * 256) + (1 * 64))
10097869ac5Sjhd * 'hdc' == 0t5632 == ((22 * 256) + (0 * 64))
10197869ac5Sjhd * 'hdd' == 0t5696 == ((22 * 256) + (1 * 64))
102eb0cc229Sedp */
10397869ac5Sjhd { "/pci@0,0/pci-ide@1,1/ide@0/cmdk@0,0", "/xpvd/xdf@768" },
10497869ac5Sjhd { "/pci@0,0/pci-ide@1,1/ide@0/cmdk@1,0", "/xpvd/xdf@832" },
10597869ac5Sjhd { "/pci@0,0/pci-ide@1,1/ide@1/cmdk@0,0", "/xpvd/xdf@5632" },
10697869ac5Sjhd { "/pci@0,0/pci-ide@1,1/ide@1/cmdk@1,0", "/xpvd/xdf@5696" },
107eb0cc229Sedp { NULL, 0 }
108eb0cc229Sedp };
109eb0cc229Sedp
110eb0cc229Sedp /*
111*7f0b8309SEdward Pilatowicz * Private functions
112eb0cc229Sedp */
113eb0cc229Sedp /*
114*7f0b8309SEdward Pilatowicz * xdfs_get_modser() is basically a local copy of
115eb0cc229Sedp * cmdk_get_modser() modified to work without the dadk layer.
116eb0cc229Sedp * (which the non-pv version of the cmdk driver uses.)
117eb0cc229Sedp */
118eb0cc229Sedp static int
xdfs_get_modser(xdfs_state_t * xsp,int ioccmd,char * buf,int len)119*7f0b8309SEdward Pilatowicz xdfs_get_modser(xdfs_state_t *xsp, int ioccmd, char *buf, int len)
120eb0cc229Sedp {
121eb0cc229Sedp struct scsi_device *scsi_device;
122eb0cc229Sedp opaque_t ctlobjp;
123eb0cc229Sedp dadk_ioc_string_t strarg;
124eb0cc229Sedp char *s;
125eb0cc229Sedp char ch;
126eb0cc229Sedp boolean_t ret;
127eb0cc229Sedp int i;
128eb0cc229Sedp int tb;
129eb0cc229Sedp
130eb0cc229Sedp strarg.is_buf = buf;
131eb0cc229Sedp strarg.is_size = len;
132*7f0b8309SEdward Pilatowicz scsi_device = ddi_get_driver_private(xsp->xdfss_dip);
133eb0cc229Sedp ctlobjp = scsi_device->sd_address.a_hba_tran;
134eb0cc229Sedp if (CTL_IOCTL(ctlobjp,
135eb0cc229Sedp ioccmd, (uintptr_t)&strarg, FNATIVE | FKIOCTL) != 0)
136eb0cc229Sedp return (0);
137eb0cc229Sedp
138eb0cc229Sedp /*
139eb0cc229Sedp * valid model/serial string must contain a non-zero non-space
140eb0cc229Sedp * trim trailing spaces/NULL
141eb0cc229Sedp */
142eb0cc229Sedp ret = B_FALSE;
143eb0cc229Sedp s = buf;
144eb0cc229Sedp for (i = 0; i < strarg.is_size; i++) {
145eb0cc229Sedp ch = *s++;
146eb0cc229Sedp if (ch != ' ' && ch != '\0')
147eb0cc229Sedp tb = i + 1;
148eb0cc229Sedp if (ch != ' ' && ch != '\0' && ch != '0')
149eb0cc229Sedp ret = B_TRUE;
150eb0cc229Sedp }
151eb0cc229Sedp
152eb0cc229Sedp if (ret == B_FALSE)
153eb0cc229Sedp return (0);
154eb0cc229Sedp
155eb0cc229Sedp return (tb);
156eb0cc229Sedp }
157eb0cc229Sedp
158eb0cc229Sedp /*
159*7f0b8309SEdward Pilatowicz * xdfs_devid_modser() is basically a copy of cmdk_devid_modser()
160eb0cc229Sedp * that has been modified to use local pv cmdk driver functions.
161eb0cc229Sedp *
162eb0cc229Sedp * Build a devid from the model and serial number
163eb0cc229Sedp * Return DDI_SUCCESS or DDI_FAILURE.
164eb0cc229Sedp */
165eb0cc229Sedp static int
xdfs_devid_modser(xdfs_state_t * xsp)166*7f0b8309SEdward Pilatowicz xdfs_devid_modser(xdfs_state_t *xsp)
167eb0cc229Sedp {
168eb0cc229Sedp int rc = DDI_FAILURE;
169eb0cc229Sedp char *hwid;
170eb0cc229Sedp int modlen;
171eb0cc229Sedp int serlen;
172eb0cc229Sedp
173eb0cc229Sedp /*
174eb0cc229Sedp * device ID is a concatenation of model number, '=', serial number.
175eb0cc229Sedp */
176eb0cc229Sedp hwid = kmem_alloc(CMDK_HWIDLEN, KM_SLEEP);
177*7f0b8309SEdward Pilatowicz modlen = xdfs_get_modser(xsp, DIOCTL_GETMODEL, hwid, CMDK_HWIDLEN);
178eb0cc229Sedp if (modlen == 0)
179eb0cc229Sedp goto err;
180eb0cc229Sedp
181eb0cc229Sedp hwid[modlen++] = '=';
182*7f0b8309SEdward Pilatowicz serlen = xdfs_get_modser(xsp, DIOCTL_GETSERIAL,
183eb0cc229Sedp hwid + modlen, CMDK_HWIDLEN - modlen);
184eb0cc229Sedp if (serlen == 0)
185eb0cc229Sedp goto err;
186eb0cc229Sedp
187eb0cc229Sedp hwid[modlen + serlen] = 0;
188eb0cc229Sedp
189eb0cc229Sedp /* Initialize the device ID, trailing NULL not included */
190*7f0b8309SEdward Pilatowicz rc = ddi_devid_init(xsp->xdfss_dip, DEVID_ATA_SERIAL, modlen + serlen,
191*7f0b8309SEdward Pilatowicz hwid, (ddi_devid_t *)&xsp->xdfss_tgt_devid);
192eb0cc229Sedp if (rc != DDI_SUCCESS)
193eb0cc229Sedp goto err;
194eb0cc229Sedp
195eb0cc229Sedp kmem_free(hwid, CMDK_HWIDLEN);
196eb0cc229Sedp return (DDI_SUCCESS);
197eb0cc229Sedp
198eb0cc229Sedp err:
199eb0cc229Sedp kmem_free(hwid, CMDK_HWIDLEN);
200eb0cc229Sedp return (DDI_FAILURE);
201eb0cc229Sedp }
202eb0cc229Sedp
203eb0cc229Sedp /*
204*7f0b8309SEdward Pilatowicz * xdfs_devid_read() is basically a local copy of
205eb0cc229Sedp * cmdk_devid_read() modified to work without the dadk layer.
206eb0cc229Sedp * (which the non-pv version of the cmdk driver uses.)
207eb0cc229Sedp *
208eb0cc229Sedp * Read a devid from on the first block of the last track of
209eb0cc229Sedp * the last cylinder. Make sure what we read is a valid devid.
210eb0cc229Sedp * Return DDI_SUCCESS or DDI_FAILURE.
211eb0cc229Sedp */
212eb0cc229Sedp static int
xdfs_devid_read(xdfs_state_t * xsp)213*7f0b8309SEdward Pilatowicz xdfs_devid_read(xdfs_state_t *xsp)
214eb0cc229Sedp {
215eb0cc229Sedp diskaddr_t blk;
216eb0cc229Sedp struct dk_devid *dkdevidp;
217eb0cc229Sedp uint_t *ip, chksum;
218eb0cc229Sedp int i;
219eb0cc229Sedp
220*7f0b8309SEdward Pilatowicz if (cmlb_get_devid_block(xsp->xdfss_cmlbhandle, &blk, 0) != 0)
221eb0cc229Sedp return (DDI_FAILURE);
222eb0cc229Sedp
223eb0cc229Sedp dkdevidp = kmem_zalloc(NBPSCTR, KM_SLEEP);
224*7f0b8309SEdward Pilatowicz if (xdfs_lb_rdwr(xsp->xdfss_dip,
225eb0cc229Sedp TG_READ, dkdevidp, blk, NBPSCTR, NULL) != 0)
226eb0cc229Sedp goto err;
227eb0cc229Sedp
228eb0cc229Sedp /* Validate the revision */
229eb0cc229Sedp if ((dkdevidp->dkd_rev_hi != DK_DEVID_REV_MSB) ||
230eb0cc229Sedp (dkdevidp->dkd_rev_lo != DK_DEVID_REV_LSB))
231eb0cc229Sedp goto err;
232eb0cc229Sedp
233eb0cc229Sedp /* Calculate the checksum */
234eb0cc229Sedp chksum = 0;
235eb0cc229Sedp ip = (uint_t *)dkdevidp;
236eb0cc229Sedp for (i = 0; i < ((NBPSCTR - sizeof (int))/sizeof (int)); i++)
237eb0cc229Sedp chksum ^= ip[i];
238eb0cc229Sedp if (DKD_GETCHKSUM(dkdevidp) != chksum)
239eb0cc229Sedp goto err;
240eb0cc229Sedp
241eb0cc229Sedp /* Validate the device id */
242eb0cc229Sedp if (ddi_devid_valid((ddi_devid_t)dkdevidp->dkd_devid) != DDI_SUCCESS)
243eb0cc229Sedp goto err;
244eb0cc229Sedp
245eb0cc229Sedp /* keep a copy of the device id */
246eb0cc229Sedp i = ddi_devid_sizeof((ddi_devid_t)dkdevidp->dkd_devid);
247*7f0b8309SEdward Pilatowicz xsp->xdfss_tgt_devid = kmem_alloc(i, KM_SLEEP);
248*7f0b8309SEdward Pilatowicz bcopy(dkdevidp->dkd_devid, xsp->xdfss_tgt_devid, i);
249eb0cc229Sedp kmem_free(dkdevidp, NBPSCTR);
250eb0cc229Sedp return (DDI_SUCCESS);
251eb0cc229Sedp
252eb0cc229Sedp err:
253eb0cc229Sedp kmem_free(dkdevidp, NBPSCTR);
254eb0cc229Sedp return (DDI_FAILURE);
255eb0cc229Sedp }
256eb0cc229Sedp
257eb0cc229Sedp /*
258*7f0b8309SEdward Pilatowicz * xdfs_devid_fabricate() is basically a local copy of
259eb0cc229Sedp * cmdk_devid_fabricate() modified to work without the dadk layer.
260eb0cc229Sedp * (which the non-pv version of the cmdk driver uses.)
261eb0cc229Sedp *
262eb0cc229Sedp * Create a devid and write it on the first block of the last track of
263eb0cc229Sedp * the last cylinder.
264eb0cc229Sedp * Return DDI_SUCCESS or DDI_FAILURE.
265eb0cc229Sedp */
266eb0cc229Sedp static int
xdfs_devid_fabricate(xdfs_state_t * xsp)267*7f0b8309SEdward Pilatowicz xdfs_devid_fabricate(xdfs_state_t *xsp)
268eb0cc229Sedp {
269eb0cc229Sedp ddi_devid_t devid = NULL; /* devid made by ddi_devid_init */
270eb0cc229Sedp struct dk_devid *dkdevidp = NULL; /* devid struct stored on disk */
271eb0cc229Sedp diskaddr_t blk;
272eb0cc229Sedp uint_t *ip, chksum;
273eb0cc229Sedp int i;
274eb0cc229Sedp
275*7f0b8309SEdward Pilatowicz if (cmlb_get_devid_block(xsp->xdfss_cmlbhandle, &blk, 0) != 0)
276eb0cc229Sedp return (DDI_FAILURE);
277eb0cc229Sedp
278*7f0b8309SEdward Pilatowicz if (ddi_devid_init(xsp->xdfss_dip, DEVID_FAB, 0, NULL, &devid) !=
279eb0cc229Sedp DDI_SUCCESS)
280eb0cc229Sedp return (DDI_FAILURE);
281eb0cc229Sedp
282eb0cc229Sedp /* allocate a buffer */
283eb0cc229Sedp dkdevidp = (struct dk_devid *)kmem_zalloc(NBPSCTR, KM_SLEEP);
284eb0cc229Sedp
285eb0cc229Sedp /* Fill in the revision */
286eb0cc229Sedp dkdevidp->dkd_rev_hi = DK_DEVID_REV_MSB;
287eb0cc229Sedp dkdevidp->dkd_rev_lo = DK_DEVID_REV_LSB;
288eb0cc229Sedp
289eb0cc229Sedp /* Copy in the device id */
290eb0cc229Sedp i = ddi_devid_sizeof(devid);
291eb0cc229Sedp if (i > DK_DEVID_SIZE)
292eb0cc229Sedp goto err;
293eb0cc229Sedp bcopy(devid, dkdevidp->dkd_devid, i);
294eb0cc229Sedp
295eb0cc229Sedp /* Calculate the chksum */
296eb0cc229Sedp chksum = 0;
297eb0cc229Sedp ip = (uint_t *)dkdevidp;
298eb0cc229Sedp for (i = 0; i < ((NBPSCTR - sizeof (int))/sizeof (int)); i++)
299eb0cc229Sedp chksum ^= ip[i];
300eb0cc229Sedp
301eb0cc229Sedp /* Fill in the checksum */
302eb0cc229Sedp DKD_FORMCHKSUM(chksum, dkdevidp);
303eb0cc229Sedp
304*7f0b8309SEdward Pilatowicz if (xdfs_lb_rdwr(xsp->xdfss_dip,
305eb0cc229Sedp TG_WRITE, dkdevidp, blk, NBPSCTR, NULL) != 0)
306eb0cc229Sedp goto err;
307eb0cc229Sedp
308eb0cc229Sedp kmem_free(dkdevidp, NBPSCTR);
309eb0cc229Sedp
310*7f0b8309SEdward Pilatowicz xsp->xdfss_tgt_devid = devid;
311eb0cc229Sedp return (DDI_SUCCESS);
312eb0cc229Sedp
313eb0cc229Sedp err:
314eb0cc229Sedp if (dkdevidp != NULL)
315eb0cc229Sedp kmem_free(dkdevidp, NBPSCTR);
316eb0cc229Sedp if (devid != NULL)
317eb0cc229Sedp ddi_devid_free(devid);
318eb0cc229Sedp return (DDI_FAILURE);
319eb0cc229Sedp }
320eb0cc229Sedp
321eb0cc229Sedp /*
322*7f0b8309SEdward Pilatowicz * xdfs_rwcmd_copyin() is a duplicate of rwcmd_copyin().
323eb0cc229Sedp */
324eb0cc229Sedp static int
xdfs_rwcmd_copyin(struct dadkio_rwcmd * rwcmdp,caddr_t inaddr,int flag)325*7f0b8309SEdward Pilatowicz xdfs_rwcmd_copyin(struct dadkio_rwcmd *rwcmdp, caddr_t inaddr, int flag)
326eb0cc229Sedp {
327eb0cc229Sedp switch (ddi_model_convert_from(flag)) {
328eb0cc229Sedp case DDI_MODEL_ILP32: {
329eb0cc229Sedp struct dadkio_rwcmd32 cmd32;
330eb0cc229Sedp
331eb0cc229Sedp if (ddi_copyin(inaddr, &cmd32,
332eb0cc229Sedp sizeof (struct dadkio_rwcmd32), flag)) {
333eb0cc229Sedp return (EFAULT);
334eb0cc229Sedp }
335eb0cc229Sedp
336eb0cc229Sedp rwcmdp->cmd = cmd32.cmd;
337eb0cc229Sedp rwcmdp->flags = cmd32.flags;
338342440ecSPrasad Singamsetty rwcmdp->blkaddr = (blkaddr_t)cmd32.blkaddr;
339eb0cc229Sedp rwcmdp->buflen = cmd32.buflen;
340eb0cc229Sedp rwcmdp->bufaddr = (caddr_t)(intptr_t)cmd32.bufaddr;
341eb0cc229Sedp /*
342eb0cc229Sedp * Note: we do not convert the 'status' field,
343eb0cc229Sedp * as it should not contain valid data at this
344eb0cc229Sedp * point.
345eb0cc229Sedp */
346eb0cc229Sedp bzero(&rwcmdp->status, sizeof (rwcmdp->status));
347eb0cc229Sedp break;
348eb0cc229Sedp }
349eb0cc229Sedp case DDI_MODEL_NONE: {
350eb0cc229Sedp if (ddi_copyin(inaddr, rwcmdp,
351eb0cc229Sedp sizeof (struct dadkio_rwcmd), flag)) {
352eb0cc229Sedp return (EFAULT);
353eb0cc229Sedp }
354eb0cc229Sedp }
355eb0cc229Sedp }
356eb0cc229Sedp return (0);
357eb0cc229Sedp }
358eb0cc229Sedp
359eb0cc229Sedp /*
360*7f0b8309SEdward Pilatowicz * xdfs_rwcmd_copyout() is a duplicate of rwcmd_copyout().
361eb0cc229Sedp */
362eb0cc229Sedp static int
xdfs_rwcmd_copyout(struct dadkio_rwcmd * rwcmdp,caddr_t outaddr,int flag)363*7f0b8309SEdward Pilatowicz xdfs_rwcmd_copyout(struct dadkio_rwcmd *rwcmdp, caddr_t outaddr, int flag)
364eb0cc229Sedp {
365eb0cc229Sedp switch (ddi_model_convert_from(flag)) {
366eb0cc229Sedp case DDI_MODEL_ILP32: {
367eb0cc229Sedp struct dadkio_rwcmd32 cmd32;
368eb0cc229Sedp
369eb0cc229Sedp cmd32.cmd = rwcmdp->cmd;
370eb0cc229Sedp cmd32.flags = rwcmdp->flags;
371eb0cc229Sedp cmd32.blkaddr = rwcmdp->blkaddr;
372eb0cc229Sedp cmd32.buflen = rwcmdp->buflen;
373eb0cc229Sedp ASSERT64(((uintptr_t)rwcmdp->bufaddr >> 32) == 0);
374eb0cc229Sedp cmd32.bufaddr = (caddr32_t)(uintptr_t)rwcmdp->bufaddr;
375eb0cc229Sedp
376eb0cc229Sedp cmd32.status.status = rwcmdp->status.status;
377eb0cc229Sedp cmd32.status.resid = rwcmdp->status.resid;
378eb0cc229Sedp cmd32.status.failed_blk_is_valid =
379eb0cc229Sedp rwcmdp->status.failed_blk_is_valid;
380eb0cc229Sedp cmd32.status.failed_blk = rwcmdp->status.failed_blk;
381eb0cc229Sedp cmd32.status.fru_code_is_valid =
382eb0cc229Sedp rwcmdp->status.fru_code_is_valid;
383eb0cc229Sedp cmd32.status.fru_code = rwcmdp->status.fru_code;
384eb0cc229Sedp
385eb0cc229Sedp bcopy(rwcmdp->status.add_error_info,
386eb0cc229Sedp cmd32.status.add_error_info, DADKIO_ERROR_INFO_LEN);
387eb0cc229Sedp
388eb0cc229Sedp if (ddi_copyout(&cmd32, outaddr,
389eb0cc229Sedp sizeof (struct dadkio_rwcmd32), flag))
390eb0cc229Sedp return (EFAULT);
391eb0cc229Sedp break;
392eb0cc229Sedp }
393eb0cc229Sedp case DDI_MODEL_NONE: {
394eb0cc229Sedp if (ddi_copyout(rwcmdp, outaddr,
395eb0cc229Sedp sizeof (struct dadkio_rwcmd), flag))
396eb0cc229Sedp return (EFAULT);
397eb0cc229Sedp }
398eb0cc229Sedp }
399eb0cc229Sedp return (0);
400eb0cc229Sedp }
401eb0cc229Sedp
402eb0cc229Sedp static int
xdfs_dioctl_rwcmd(dev_t dev,intptr_t arg,int flag)403*7f0b8309SEdward Pilatowicz xdfs_dioctl_rwcmd(dev_t dev, intptr_t arg, int flag)
404eb0cc229Sedp {
405eb0cc229Sedp struct dadkio_rwcmd *rwcmdp;
406eb0cc229Sedp struct iovec aiov;
407eb0cc229Sedp struct uio auio;
408eb0cc229Sedp struct buf *bp;
409eb0cc229Sedp int rw, status;
410eb0cc229Sedp
411eb0cc229Sedp rwcmdp = kmem_alloc(sizeof (struct dadkio_rwcmd), KM_SLEEP);
412*7f0b8309SEdward Pilatowicz status = xdfs_rwcmd_copyin(rwcmdp, (caddr_t)arg, flag);
413eb0cc229Sedp
414eb0cc229Sedp if (status != 0)
415eb0cc229Sedp goto out;
416eb0cc229Sedp
417eb0cc229Sedp switch (rwcmdp->cmd) {
418eb0cc229Sedp case DADKIO_RWCMD_READ:
419eb0cc229Sedp case DADKIO_RWCMD_WRITE:
420eb0cc229Sedp break;
421eb0cc229Sedp default:
422eb0cc229Sedp status = EINVAL;
423eb0cc229Sedp goto out;
424eb0cc229Sedp }
425eb0cc229Sedp
426eb0cc229Sedp bzero((caddr_t)&aiov, sizeof (struct iovec));
427eb0cc229Sedp aiov.iov_base = rwcmdp->bufaddr;
428eb0cc229Sedp aiov.iov_len = rwcmdp->buflen;
429eb0cc229Sedp
430eb0cc229Sedp bzero((caddr_t)&auio, sizeof (struct uio));
431eb0cc229Sedp auio.uio_iov = &aiov;
432eb0cc229Sedp auio.uio_iovcnt = 1;
433eb0cc229Sedp auio.uio_loffset = (offset_t)rwcmdp->blkaddr * (offset_t)XB_BSIZE;
434eb0cc229Sedp auio.uio_resid = rwcmdp->buflen;
435eb0cc229Sedp auio.uio_segflg = (flag & FKIOCTL) ? UIO_SYSSPACE : UIO_USERSPACE;
436eb0cc229Sedp
437eb0cc229Sedp /*
438eb0cc229Sedp * Tell the xdf driver that this I/O request is using an absolute
439eb0cc229Sedp * offset.
440eb0cc229Sedp */
441eb0cc229Sedp bp = getrbuf(KM_SLEEP);
442eb0cc229Sedp bp->b_private = (void *)XB_SLICE_NONE;
443eb0cc229Sedp
444eb0cc229Sedp rw = ((rwcmdp->cmd == DADKIO_RWCMD_WRITE) ? B_WRITE : B_READ);
445*7f0b8309SEdward Pilatowicz status = physio(xdfs_strategy, bp, dev, rw, xdfs_minphys, &auio);
446eb0cc229Sedp
447eb0cc229Sedp biofini(bp);
448eb0cc229Sedp kmem_free(bp, sizeof (buf_t));
449eb0cc229Sedp
450eb0cc229Sedp if (status == 0)
451*7f0b8309SEdward Pilatowicz status = xdfs_rwcmd_copyout(rwcmdp, (caddr_t)arg, flag);
452eb0cc229Sedp
453eb0cc229Sedp out:
454eb0cc229Sedp kmem_free(rwcmdp, sizeof (struct dadkio_rwcmd));
455eb0cc229Sedp return (status);
456eb0cc229Sedp }
457eb0cc229Sedp
458eb0cc229Sedp
459*7f0b8309SEdward Pilatowicz /*
460*7f0b8309SEdward Pilatowicz * xdf_shell callback functions
461*7f0b8309SEdward Pilatowicz */
462*7f0b8309SEdward Pilatowicz /*ARGSUSED*/
463*7f0b8309SEdward Pilatowicz int
xdfs_c_ioctl(xdfs_state_t * xsp,dev_t dev,int part,int cmd,intptr_t arg,int flag,cred_t * credp,int * rvalp,boolean_t * done)464*7f0b8309SEdward Pilatowicz xdfs_c_ioctl(xdfs_state_t *xsp, dev_t dev, int part,
465*7f0b8309SEdward Pilatowicz int cmd, intptr_t arg, int flag, cred_t *credp, int *rvalp, boolean_t *done)
466*7f0b8309SEdward Pilatowicz {
467*7f0b8309SEdward Pilatowicz *done = B_TRUE;
468eb0cc229Sedp switch (cmd) {
469eb0cc229Sedp default:
470*7f0b8309SEdward Pilatowicz *done = B_FALSE;
471*7f0b8309SEdward Pilatowicz return (0);
472*7f0b8309SEdward Pilatowicz case DKIOCLOCK:
473*7f0b8309SEdward Pilatowicz case DKIOCUNLOCK:
474*7f0b8309SEdward Pilatowicz case FDEJECT:
475*7f0b8309SEdward Pilatowicz case DKIOCEJECT:
476*7f0b8309SEdward Pilatowicz case CDROMEJECT: {
477*7f0b8309SEdward Pilatowicz /* we don't support ejectable devices */
478*7f0b8309SEdward Pilatowicz return (ENOTTY);
479*7f0b8309SEdward Pilatowicz }
480eb0cc229Sedp case DKIOCGETWCE:
481*7f0b8309SEdward Pilatowicz case DKIOCSETWCE: {
482*7f0b8309SEdward Pilatowicz /* we don't support write cache get/set */
483eb0cc229Sedp return (EIO);
484*7f0b8309SEdward Pilatowicz }
485eb0cc229Sedp case DKIOCADDBAD: {
486eb0cc229Sedp /*
487eb0cc229Sedp * This is for ata/ide bad block handling. It is supposed
488eb0cc229Sedp * to cause the driver to re-read the bad block list and
489eb0cc229Sedp * alternate map after it has been updated. Our driver
490eb0cc229Sedp * will refuse to attach to any disk which has a bad blocks
491eb0cc229Sedp * list defined, so there really isn't much to do here.
492eb0cc229Sedp */
493eb0cc229Sedp return (0);
494eb0cc229Sedp }
495eb0cc229Sedp case DKIOCGETDEF: {
496eb0cc229Sedp /*
497eb0cc229Sedp * I can't actually find any code that utilizes this ioctl,
498eb0cc229Sedp * hence we're leaving it explicitly unimplemented.
499eb0cc229Sedp */
500*7f0b8309SEdward Pilatowicz ASSERT("ioctl cmd unsupported by xdf shell: DKIOCGETDEF");
501eb0cc229Sedp return (EIO);
502eb0cc229Sedp }
503eb0cc229Sedp case DIOCTL_RWCMD: {
504eb0cc229Sedp /*
505eb0cc229Sedp * This just seems to just be an alternate interface for
506eb0cc229Sedp * reading and writing the disk. Great, another way to
507eb0cc229Sedp * do the same thing...
508eb0cc229Sedp */
509*7f0b8309SEdward Pilatowicz return (xdfs_dioctl_rwcmd(dev, arg, flag));
510eb0cc229Sedp }
511eb0cc229Sedp case DKIOCINFO: {
512*7f0b8309SEdward Pilatowicz int instance = ddi_get_instance(xsp->xdfss_dip);
513*7f0b8309SEdward Pilatowicz dev_info_t *dip = xsp->xdfss_dip;
514eb0cc229Sedp struct dk_cinfo info;
515*7f0b8309SEdward Pilatowicz int rv;
516eb0cc229Sedp
517eb0cc229Sedp /* Pass on the ioctl request, save the response */
518*7f0b8309SEdward Pilatowicz if ((rv = ldi_ioctl(xsp->xdfss_tgt_lh[part],
519eb0cc229Sedp cmd, (intptr_t)&info, FKIOCTL, credp, rvalp)) != 0)
520*7f0b8309SEdward Pilatowicz return (rv);
521eb0cc229Sedp
522eb0cc229Sedp /* Update controller info */
523eb0cc229Sedp info.dki_cnum = ddi_get_instance(ddi_get_parent(dip));
524eb0cc229Sedp (void) strlcpy(info.dki_cname,
525eb0cc229Sedp ddi_get_name(ddi_get_parent(dip)), sizeof (info.dki_cname));
526eb0cc229Sedp
527eb0cc229Sedp /* Update unit info. */
528eb0cc229Sedp if (info.dki_ctype == DKC_VBD)
529eb0cc229Sedp info.dki_ctype = DKC_DIRECT;
530eb0cc229Sedp info.dki_unit = instance;
531eb0cc229Sedp (void) strlcpy(info.dki_dname,
532eb0cc229Sedp ddi_driver_name(dip), sizeof (info.dki_dname));
533eb0cc229Sedp info.dki_addr = 1;
534eb0cc229Sedp
535eb0cc229Sedp if (ddi_copyout(&info, (void *)arg, sizeof (info), flag))
536eb0cc229Sedp return (EFAULT);
537eb0cc229Sedp return (0);
538eb0cc229Sedp }
539eb0cc229Sedp } /* switch (cmd) */
540eb0cc229Sedp /*NOTREACHED*/
541eb0cc229Sedp }
542eb0cc229Sedp
543eb0cc229Sedp /*
544*7f0b8309SEdward Pilatowicz * xdfs_c_devid_setup() is a slightly modified copy of cmdk_devid_setup().
545*7f0b8309SEdward Pilatowicz *
546*7f0b8309SEdward Pilatowicz * Create and register the devid.
547*7f0b8309SEdward Pilatowicz * There are 4 different ways we can get a device id:
548*7f0b8309SEdward Pilatowicz * 1. Already have one - nothing to do
549*7f0b8309SEdward Pilatowicz * 2. Build one from the drive's model and serial numbers
550*7f0b8309SEdward Pilatowicz * 3. Read one from the disk (first sector of last track)
551*7f0b8309SEdward Pilatowicz * 4. Fabricate one and write it on the disk.
552*7f0b8309SEdward Pilatowicz * If any of these succeeds, register the deviceid
553eb0cc229Sedp */
554*7f0b8309SEdward Pilatowicz void
xdfs_c_devid_setup(xdfs_state_t * xsp)555*7f0b8309SEdward Pilatowicz xdfs_c_devid_setup(xdfs_state_t *xsp)
556eb0cc229Sedp {
557*7f0b8309SEdward Pilatowicz int rc;
558eb0cc229Sedp
559*7f0b8309SEdward Pilatowicz /* Try options until one succeeds, or all have failed */
560eb0cc229Sedp
561*7f0b8309SEdward Pilatowicz /* 1. All done if already registered */
562eb0cc229Sedp
563*7f0b8309SEdward Pilatowicz if (xsp->xdfss_tgt_devid != NULL)
564*7f0b8309SEdward Pilatowicz return;
565*7f0b8309SEdward Pilatowicz
566*7f0b8309SEdward Pilatowicz /* 2. Build a devid from the model and serial number */
567*7f0b8309SEdward Pilatowicz rc = xdfs_devid_modser(xsp);
568*7f0b8309SEdward Pilatowicz if (rc != DDI_SUCCESS) {
569*7f0b8309SEdward Pilatowicz /* 3. Read devid from the disk, if present */
570*7f0b8309SEdward Pilatowicz rc = xdfs_devid_read(xsp);
571*7f0b8309SEdward Pilatowicz
572*7f0b8309SEdward Pilatowicz /* 4. otherwise make one up and write it on the disk */
573*7f0b8309SEdward Pilatowicz if (rc != DDI_SUCCESS)
574*7f0b8309SEdward Pilatowicz rc = xdfs_devid_fabricate(xsp);
575eb0cc229Sedp }
576eb0cc229Sedp
577*7f0b8309SEdward Pilatowicz /* If we managed to get a devid any of the above ways, register it */
578*7f0b8309SEdward Pilatowicz if (rc == DDI_SUCCESS)
579*7f0b8309SEdward Pilatowicz (void) ddi_devid_register(xsp->xdfss_dip, xsp->xdfss_tgt_devid);
580eb0cc229Sedp }
581eb0cc229Sedp
582*7f0b8309SEdward Pilatowicz int
xdfs_c_getpgeom(dev_info_t * dip,cmlb_geom_t * pgeom)583*7f0b8309SEdward Pilatowicz xdfs_c_getpgeom(dev_info_t *dip, cmlb_geom_t *pgeom)
584eb0cc229Sedp {
585eb0cc229Sedp struct scsi_device *scsi_device;
586eb0cc229Sedp struct tgdk_geom tgdk_geom;
587eb0cc229Sedp opaque_t ctlobjp;
588eb0cc229Sedp int err;
589eb0cc229Sedp
590eb0cc229Sedp scsi_device = ddi_get_driver_private(dip);
591eb0cc229Sedp ctlobjp = scsi_device->sd_address.a_hba_tran;
592eb0cc229Sedp if ((err = CTL_IOCTL(ctlobjp,
593eb0cc229Sedp DIOCTL_GETPHYGEOM, (uintptr_t)&tgdk_geom, FKIOCTL)) != 0)
594eb0cc229Sedp return (err);
595eb0cc229Sedp
596eb0cc229Sedp /* This driver won't work if this isn't true */
597eb0cc229Sedp ASSERT(tgdk_geom.g_secsiz == XB_BSIZE);
598eb0cc229Sedp
599eb0cc229Sedp pgeom->g_ncyl = tgdk_geom.g_cyl;
600eb0cc229Sedp pgeom->g_acyl = tgdk_geom.g_acyl;
601eb0cc229Sedp pgeom->g_nhead = tgdk_geom.g_head;
602eb0cc229Sedp pgeom->g_nsect = tgdk_geom.g_sec;
603eb0cc229Sedp pgeom->g_secsize = tgdk_geom.g_secsiz;
604eb0cc229Sedp pgeom->g_capacity = tgdk_geom.g_cap;
605eb0cc229Sedp pgeom->g_intrlv = 1;
606eb0cc229Sedp pgeom->g_rpm = 3600;
607eb0cc229Sedp return (0);
608eb0cc229Sedp }
609eb0cc229Sedp
610*7f0b8309SEdward Pilatowicz boolean_t
xdfs_c_bb_check(xdfs_state_t * xsp)611*7f0b8309SEdward Pilatowicz xdfs_c_bb_check(xdfs_state_t *xsp)
612eb0cc229Sedp {
613eb0cc229Sedp struct alts_parttbl *ap;
614eb0cc229Sedp diskaddr_t nblocks, blk;
615eb0cc229Sedp uint32_t altused, altbase, altlast;
616eb0cc229Sedp uint16_t vtoctag;
617eb0cc229Sedp int alts;
618eb0cc229Sedp
619eb0cc229Sedp /* find slice with V_ALTSCTR tag */
620eb0cc229Sedp for (alts = 0; alts < NDKMAP; alts++) {
621eb0cc229Sedp
622*7f0b8309SEdward Pilatowicz if (cmlb_partinfo(xsp->xdfss_cmlbhandle, alts,
623eb0cc229Sedp &nblocks, &blk, NULL, &vtoctag, 0) != 0) {
624eb0cc229Sedp /* no partition table exists */
625eb0cc229Sedp return (B_FALSE);
626eb0cc229Sedp }
627eb0cc229Sedp
628eb0cc229Sedp if ((vtoctag == V_ALTSCTR) && (nblocks > 1))
629eb0cc229Sedp break;
630eb0cc229Sedp }
631eb0cc229Sedp if (alts >= NDKMAP)
632eb0cc229Sedp return (B_FALSE); /* no V_ALTSCTR slice defined */
633eb0cc229Sedp
634eb0cc229Sedp /* read in ALTS label block */
635eb0cc229Sedp ap = (struct alts_parttbl *)kmem_zalloc(NBPSCTR, KM_SLEEP);
636*7f0b8309SEdward Pilatowicz if (xdfs_lb_rdwr(xsp->xdfss_dip, TG_READ, ap, blk, NBPSCTR, NULL) != 0)
637eb0cc229Sedp goto err;
638eb0cc229Sedp
639eb0cc229Sedp altused = ap->alts_ent_used; /* number of BB entries */
640eb0cc229Sedp altbase = ap->alts_ent_base; /* blk offset from begin slice */
641eb0cc229Sedp altlast = ap->alts_ent_end; /* blk offset to last block */
642eb0cc229Sedp
643eb0cc229Sedp if ((altused == 0) || (altbase < 1) ||
644eb0cc229Sedp (altbase > altlast) || (altlast >= nblocks))
645eb0cc229Sedp goto err;
646eb0cc229Sedp
647eb0cc229Sedp /* we found bad block mappins */
648eb0cc229Sedp kmem_free(ap, NBPSCTR);
649eb0cc229Sedp return (B_TRUE);
650eb0cc229Sedp
651eb0cc229Sedp err:
652eb0cc229Sedp kmem_free(ap, NBPSCTR);
653eb0cc229Sedp return (B_FALSE);
654eb0cc229Sedp }
655eb0cc229Sedp
656*7f0b8309SEdward Pilatowicz char *
xdfs_c_cmlb_node_type(xdfs_state_t * xsp)657*7f0b8309SEdward Pilatowicz xdfs_c_cmlb_node_type(xdfs_state_t *xsp)
658eb0cc229Sedp {
659*7f0b8309SEdward Pilatowicz return (xsp->xdfss_tgt_is_cd ? DDI_NT_CD : DDI_NT_BLOCK);
660eb0cc229Sedp }
661eb0cc229Sedp
662eb0cc229Sedp /*ARGSUSED*/
663eb0cc229Sedp int
xdfs_c_cmlb_alter_behavior(xdfs_state_t * xsp)664*7f0b8309SEdward Pilatowicz xdfs_c_cmlb_alter_behavior(xdfs_state_t *xsp)
665eb0cc229Sedp {
666*7f0b8309SEdward Pilatowicz return (xsp->xdfss_tgt_is_cd ?
667*7f0b8309SEdward Pilatowicz 0 : CMLB_CREATE_ALTSLICE_VTOC_16_DTYPE_DIRECT);
668eb0cc229Sedp }
669eb0cc229Sedp
670*7f0b8309SEdward Pilatowicz /*ARGSUSED*/
671*7f0b8309SEdward Pilatowicz void
xdfs_c_attach(xdfs_state_t * xsp)672*7f0b8309SEdward Pilatowicz xdfs_c_attach(xdfs_state_t *xsp)
673eb0cc229Sedp {
674eb0cc229Sedp }
675