xref: /titanic_44/usr/src/uts/sun4v/sys/vdc.h (revision 613a2f6ba31e891e3d947a356daf5e563d43c1ce)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef	_VDC_H
28 #define	_VDC_H
29 
30 /*
31  * Virtual disk client implementation definitions
32  */
33 
34 #include <sys/sysmacros.h>
35 #include <sys/note.h>
36 
37 #include <sys/ldc.h>
38 #include <sys/vio_mailbox.h>
39 #include <sys/vdsk_mailbox.h>
40 #include <sys/vdsk_common.h>
41 
42 #ifdef	__cplusplus
43 extern "C" {
44 #endif
45 
46 #define	VDC_DRIVER_NAME		"vdc"
47 
48 /*
49  * Bit-field values to indicate if parts of the vdc driver are initialised.
50  */
51 #define	VDC_SOFT_STATE	0x0001
52 #define	VDC_LOCKS	0x0002
53 #define	VDC_MINOR	0x0004
54 #define	VDC_THREAD	0x0008
55 #define	VDC_DRING_INIT	0x0010	/* The DRing was created */
56 #define	VDC_DRING_BOUND	0x0020	/* The DRing was bound to an LDC channel */
57 #define	VDC_DRING_LOCAL	0x0040	/* The local private DRing was allocated */
58 #define	VDC_DRING_ENTRY	0x0080	/* At least one DRing entry was initialised */
59 #define	VDC_DRING	(VDC_DRING_INIT | VDC_DRING_BOUND |	\
60 				VDC_DRING_LOCAL | VDC_DRING_ENTRY)
61 #define	VDC_HANDSHAKE	0x0100	/* Indicates if a handshake is in progress */
62 #define	VDC_HANDSHAKE_STOP	0x0200	/* stop further handshakes */
63 
64 /*
65  * Definitions of MD nodes/properties.
66  */
67 #define	VDC_MD_CHAN_NAME		"channel-endpoint"
68 #define	VDC_MD_VDEV_NAME		"virtual-device"
69 #define	VDC_MD_PORT_NAME		"virtual-device-port"
70 #define	VDC_MD_DISK_NAME		"disk"
71 #define	VDC_MD_CFG_HDL			"cfg-handle"
72 #define	VDC_MD_TIMEOUT			"vdc-timeout"
73 #define	VDC_MD_ID			"id"
74 
75 /*
76  * Definition of actions to be carried out when processing the sequence ID
77  * of a message received from the vDisk server. The function verifying the
78  * sequence number checks the 'seq_num_xxx' fields in the soft state and
79  * returns whether the message should be processed (VDC_SEQ_NUM_TODO) or
80  * whether it was it was previously processed (VDC_SEQ_NUM_SKIP).
81  */
82 #define	VDC_SEQ_NUM_INVALID		-1	/* Error */
83 #define	VDC_SEQ_NUM_SKIP		0	/* Request already processed */
84 #define	VDC_SEQ_NUM_TODO		1	/* Request needs processing */
85 
86 /*
87  * Macros to get UNIT and PART number
88  */
89 #define	VDCUNIT_SHIFT	3
90 #define	VDCPART_MASK	7
91 
92 #define	VDCUNIT(dev)	(getminor((dev)) >> VDCUNIT_SHIFT)
93 #define	VDCPART(dev)	(getminor((dev)) &  VDCPART_MASK)
94 
95 /*
96  * Scheme to store the instance number and the slice number in the minor number.
97  * (NOTE: Uses the same format and definitions as the sd(7D) driver)
98  */
99 #define	VD_MAKE_DEV(instance, minor)	((instance << VDCUNIT_SHIFT) | minor)
100 
101 #define	VDC_EFI_DEV_SET(dev, vdsk, ioctl)	\
102 	VDSK_EFI_DEV_SET(dev, vdsk, ioctl,	\
103 	    (vdsk)->vdisk_bsize, (vdsk)->vdisk_size)
104 
105 /*
106  * variables controlling how long to wait before timing out and how many
107  * retries to attempt before giving up when communicating with vds.
108  *
109  * These values need to be sufficiently large so that a guest can survive
110  * the reboot of the service domain.
111  */
112 #define	VDC_RETRIES	10
113 
114 #define	VDC_USEC_TIMEOUT_MIN	(30 * MICROSEC)		/* 30 sec */
115 
116 /*
117  * This macro returns the number of Hz that the vdc driver should wait before
118  * a timeout is triggered. The 'timeout' parameter specifiecs the wait
119  * time in Hz. The 'mul' parameter allows for a multiplier to be
120  * specified allowing for a backoff to be implemented (e.g. using the
121  * retry number as a multiplier) where the wait time will get longer if
122  * there is no response on the previous retry.
123  */
124 #define	VD_GET_TIMEOUT_HZ(timeout, mul)	\
125 	(ddi_get_lbolt() + ((timeout) * MAX(1, (mul))))
126 
127 /*
128  * Macros to manipulate Descriptor Ring variables in the soft state
129  * structure.
130  */
131 #define	VDC_GET_NEXT_REQ_ID(vdc)	((vdc)->req_id++)
132 
133 #define	VDC_GET_DRING_ENTRY_PTR(vdc, idx)	\
134 		(vd_dring_entry_t *)(uintptr_t)((vdc)->dring_mem_info.vaddr + \
135 			(idx * (vdc)->dring_entry_size))
136 
137 #define	VDC_MARK_DRING_ENTRY_FREE(vdc, idx)			\
138 	{ \
139 		vd_dring_entry_t *dep = NULL;				\
140 		ASSERT(vdc != NULL);					\
141 		ASSERT(idx < vdc->dring_len);		\
142 		ASSERT(vdc->dring_mem_info.vaddr != NULL);		\
143 		dep = (vd_dring_entry_t *)(uintptr_t)			\
144 			(vdc->dring_mem_info.vaddr +	\
145 			(idx * vdc->dring_entry_size));			\
146 		ASSERT(dep != NULL);					\
147 		dep->hdr.dstate = VIO_DESC_FREE;			\
148 	}
149 
150 /* Initialise the Session ID and Sequence Num in the DRing msg */
151 #define	VDC_INIT_DRING_DATA_MSG_IDS(dmsg, vdc)		\
152 		ASSERT(vdc != NULL);			\
153 		dmsg.tag.vio_sid = vdc->session_id;	\
154 		dmsg.seq_num = vdc->seq_num;
155 
156 /*
157  * The states that the read thread can be in.
158  */
159 typedef enum vdc_rd_state {
160 	VDC_READ_IDLE,			/* idling - conn is not up */
161 	VDC_READ_WAITING,		/* waiting for data */
162 	VDC_READ_PENDING,		/* pending data avail for read */
163 	VDC_READ_RESET			/* channel was reset - stop reads */
164 } vdc_rd_state_t;
165 
166 /*
167  * The states that the vdc-vds connection can be in.
168  */
169 typedef enum vdc_state {
170 	VDC_STATE_INIT,			/* device is initialized */
171 	VDC_STATE_INIT_WAITING,		/* waiting for ldc connection */
172 	VDC_STATE_NEGOTIATE,		/* doing handshake negotiation */
173 	VDC_STATE_HANDLE_PENDING,	/* handle requests in backup dring */
174 	VDC_STATE_RUNNING,		/* running and accepting requests */
175 	VDC_STATE_DETACH,		/* detaching */
176 	VDC_STATE_RESETTING		/* resetting connection with vds */
177 } vdc_state_t;
178 
179 /*
180  * The states that the vdc instance can be in.
181  */
182 typedef enum vdc_lc_state {
183 	VDC_LC_ATTACHING,	/* driver is attaching */
184 	VDC_LC_ONLINE,		/* driver is attached and online */
185 	VDC_LC_DETACHING	/* driver is detaching */
186 } vdc_lc_state_t;
187 
188 /*
189  * Local Descriptor Ring entry
190  *
191  * vdc creates a Local (private) descriptor ring the same size as the
192  * public descriptor ring it exports to vds.
193  */
194 
195 typedef enum {
196 	VIO_read_dir,		/* read data from server */
197 	VIO_write_dir,		/* write data to server */
198 	VIO_both_dir		/* transfer both in and out in same buffer */
199 } vio_desc_direction_t;
200 
201 typedef enum {
202 	CB_STRATEGY,		/* non-blocking strategy call */
203 	CB_SYNC			/* synchronous operation */
204 } vio_cb_type_t;
205 
206 typedef struct vdc_local_desc {
207 	boolean_t		is_free;	/* local state - inuse or not */
208 
209 	int			operation;	/* VD_OP_xxx to be performed */
210 	caddr_t			addr;		/* addr passed in by consumer */
211 	int			slice;
212 	diskaddr_t		offset;		/* disk offset */
213 	size_t			nbytes;
214 	vio_cb_type_t		cb_type;	/* operation type blk/nonblk */
215 	void			*cb_arg;	/* buf passed to strategy() */
216 	vio_desc_direction_t	dir;		/* direction of transfer */
217 
218 	caddr_t			align_addr;	/* used if addr non-aligned */
219 	ldc_mem_handle_t	desc_mhdl;	/* Mem handle of buf */
220 	vd_dring_entry_t	*dep;		/* public Dring Entry Pointer */
221 
222 } vdc_local_desc_t;
223 
224 /*
225  * I/O queue used by failfast
226  */
227 typedef struct vdc_io {
228 	struct vdc_io	*vio_next;	/* next pending I/O in the queue */
229 	struct buf	*vio_buf;	/* buf for CB_STRATEGY I/O */
230 	clock_t		vio_qtime;	/* time the I/O was queued */
231 } vdc_io_t;
232 
233 /*
234  * Per vDisk server channel states
235  */
236 #define	VDC_LDC_INIT	0x0001
237 #define	VDC_LDC_CB	0x0002
238 #define	VDC_LDC_OPEN	0x0004
239 #define	VDC_LDC		(VDC_LDC_INIT | VDC_LDC_CB | VDC_LDC_OPEN)
240 
241 /*
242  * vDisk server information
243  */
244 typedef struct vdc_server {
245 	struct vdc_server	*next;			/* Next server */
246 	struct vdc		*vdcp;			/* Ptr to vdc struct */
247 	uint64_t		id;			/* Server port id */
248 	uint64_t		state;			/* Server state */
249 	uint64_t		ldc_id;			/* Server LDC id */
250 	ldc_handle_t		ldc_handle;		/* Server LDC handle */
251 	ldc_status_t		ldc_state;		/* Server LDC state */
252 	uint64_t		ctimeout;		/* conn tmout (secs) */
253 } vdc_server_t;
254 
255 /*
256  * vdc soft state structure
257  */
258 typedef struct vdc {
259 
260 	kmutex_t	lock;		/* protects next 2 sections of vars */
261 	kcondvar_t	running_cv;	/* signal when upper layers can send */
262 	kcondvar_t	initwait_cv;	/* signal when ldc conn is up */
263 	kcondvar_t	dring_free_cv;	/* signal when desc is avail */
264 	kcondvar_t	membind_cv;	/* signal when mem can be bound */
265 	boolean_t	self_reset;
266 
267 	int		initialized;	/* keeps track of what's init'ed */
268 	vdc_lc_state_t	lifecycle;	/* Current state of the vdc instance */
269 
270 	int		hshake_cnt;	/* number of failed handshakes */
271 	uint8_t		open[OTYPCNT];	/* mask of opened slices */
272 	uint8_t		open_excl;	/* mask of exclusively opened slices */
273 	ulong_t		open_lyr[V_NUMPAR]; /* number of layered opens */
274 	int		dkio_flush_pending; /* # outstanding DKIO flushes */
275 	int		validate_pending; /* # outstanding validate request */
276 	vd_disk_label_t vdisk_label; 	/* label type of device/disk imported */
277 	struct extvtoc	*vtoc;		/* structure to store VTOC data */
278 	struct dk_geom	*geom;		/* structure to store geometry data */
279 	vd_slice_t	slice[V_NUMPAR]; /* logical partitions */
280 
281 	kthread_t	*msg_proc_thr;	/* main msg processing thread */
282 
283 	kmutex_t	read_lock;	/* lock to protect read */
284 	kcondvar_t	read_cv;	/* cv to wait for READ events */
285 	vdc_rd_state_t	read_state;	/* current read state */
286 
287 	uint32_t	sync_op_cnt;	/* num of active sync operations */
288 	boolean_t	sync_op_pending; /* sync operation is pending */
289 	boolean_t	sync_op_blocked; /* blocked waiting to do sync op */
290 	uint32_t	sync_op_status;	/* status of sync operation */
291 	kcondvar_t	sync_pending_cv; /* cv wait for sync op to finish */
292 	kcondvar_t	sync_blocked_cv; /* cv wait for other syncs to finish */
293 
294 	uint64_t	session_id;	/* common ID sent with all messages */
295 	uint64_t	seq_num;	/* most recent sequence num generated */
296 	uint64_t	seq_num_reply;	/* Last seq num ACK/NACK'ed by vds */
297 	uint64_t	req_id;		/* Most recent Request ID generated */
298 	uint64_t	req_id_proc;	/* Last request ID processed by vdc */
299 	vdc_state_t	state;		/* Current disk client-server state */
300 
301 	dev_info_t	*dip;		/* device info pointer */
302 	int		instance;	/* driver instance number */
303 
304 	vio_ver_t	ver;		/* version number agreed with server */
305 	vd_disk_type_t	vdisk_type;	/* type of device/disk being imported */
306 	uint32_t	vdisk_media;	/* physical media type of vDisk */
307 	uint64_t	vdisk_size;	/* device size in blocks */
308 	uint64_t	max_xfer_sz;	/* maximum block size of a descriptor */
309 	uint64_t	vdisk_bsize;	/* blk size for the virtual disk */
310 	uint32_t	vio_bmask;	/* mask to check vio blk alignment */
311 	int		vio_bshift;	/* shift for vio blk conversion */
312 	uint64_t	operations;	/* bitmask of ops. server supports */
313 	struct dk_cinfo	*cinfo;		/* structure to store DKIOCINFO data */
314 	struct dk_minfo	*minfo;		/* structure for DKIOCGMEDIAINFO data */
315 	ddi_devid_t	devid;		/* device id */
316 	boolean_t	ctimeout_reached; /* connection timeout has expired */
317 
318 	/*
319 	 * The ownership fields are protected by the lock mutex. The
320 	 * ownership_lock mutex is used to serialize ownership operations;
321 	 * it should be acquired before the lock mutex.
322 	 */
323 	kmutex_t	ownership_lock;		/* serialize ownership ops */
324 	int		ownership;		/* ownership status flags */
325 	kthread_t	*ownership_thread;	/* ownership thread */
326 	kcondvar_t	ownership_cv;		/* cv for ownership update */
327 
328 	/*
329 	 * The failfast fields are protected by the lock mutex.
330 	 */
331 	kthread_t	*failfast_thread;	/* failfast thread */
332 	clock_t		failfast_interval;	/* interval in microsecs */
333 	kcondvar_t	failfast_cv;		/* cv for failfast update */
334 	kcondvar_t	failfast_io_cv;		/* cv wait for I/O to finish */
335 	vdc_io_t	*failfast_io_queue;	/* failfast io queue */
336 
337 	/*
338 	 * kstats used to store I/O statistics consumed by iostat(1M).
339 	 * These are protected by the lock mutex.
340 	 */
341 	kstat_t		*io_stats;
342 	kstat_t		*err_stats;
343 
344 	ldc_dring_handle_t	dring_hdl;		/* dring handle */
345 	ldc_mem_info_t		dring_mem_info;		/* dring information */
346 	uint_t			dring_curr_idx;		/* current index */
347 	uint32_t		dring_len;		/* dring length */
348 	uint32_t		dring_max_cookies;	/* dring max cookies */
349 	uint32_t		dring_cookie_count;	/* num cookies */
350 	uint32_t		dring_entry_size;	/* descriptor size */
351 	ldc_mem_cookie_t 	*dring_cookie;		/* dring cookies */
352 	uint64_t		dring_ident;		/* dring ident */
353 
354 	uint64_t		threads_pending; 	/* num of threads */
355 
356 	vdc_local_desc_t	*local_dring;		/* local dring */
357 	vdc_local_desc_t	*local_dring_backup;	/* local dring backup */
358 	int			local_dring_backup_tail; /* backup dring tail */
359 	int			local_dring_backup_len;	/* backup dring len */
360 
361 	int			num_servers;		/* no. of servers */
362 	vdc_server_t		*server_list;		/* vdisk server list */
363 	vdc_server_t		*curr_server;		/* curr vdisk server */
364 } vdc_t;
365 
366 /*
367  * Ownership status flags
368  */
369 #define	VDC_OWNERSHIP_NONE	0x00 /* no ownership wanted */
370 #define	VDC_OWNERSHIP_WANTED	0x01 /* ownership is wanted */
371 #define	VDC_OWNERSHIP_GRANTED	0x02 /* ownership has been granted */
372 #define	VDC_OWNERSHIP_RESET	0x04 /* ownership has been reset */
373 
374 /*
375  * Reservation conflict panic message
376  */
377 #define	VDC_RESV_CONFLICT_FMT_STR	"Reservation Conflict\nDisk: "
378 #define	VDC_RESV_CONFLICT_FMT_LEN 	(sizeof (VDC_RESV_CONFLICT_FMT_STR))
379 
380 /*
381  * Debugging macros
382  */
383 #ifdef DEBUG
384 extern int	vdc_msglevel;
385 extern uint64_t	vdc_matchinst;
386 
387 #define	DMSG(_vdc, err_level, format, ...)				\
388 	do {								\
389 		if (vdc_msglevel > err_level &&				\
390 		(vdc_matchinst & (1ull << (_vdc)->instance)))		\
391 			cmn_err(CE_CONT, "?[%d,t@%p] %s: "format,	\
392 			(_vdc)->instance, (void *)curthread,		\
393 			__func__, __VA_ARGS__);				\
394 		_NOTE(CONSTANTCONDITION)				\
395 	} while (0);
396 
397 #define	DMSGX(err_level, format, ...)					\
398 	do {								\
399 		if (vdc_msglevel > err_level)				\
400 			cmn_err(CE_CONT, "?%s: "format, __func__, __VA_ARGS__);\
401 		_NOTE(CONSTANTCONDITION)				\
402 	} while (0);
403 
404 #define	VDC_DUMP_DRING_MSG(dmsgp)					\
405 		DMSGX(0, "sq:%lu start:%d end:%d ident:%lu\n",		\
406 			dmsgp->seq_num, dmsgp->start_idx,		\
407 			dmsgp->end_idx, dmsgp->dring_ident);
408 
409 #else	/* !DEBUG */
410 #define	DMSG(err_level, ...)
411 #define	DMSGX(err_level, format, ...)
412 #define	VDC_DUMP_DRING_MSG(dmsgp)
413 
414 #endif	/* !DEBUG */
415 
416 #ifdef	__cplusplus
417 }
418 #endif
419 
420 #endif	/* _VDC_H */
421