xref: /freebsd/lib/libcam/cam_cdbparse.3 (revision fed1ca4b719c56c930f2259d80663cd34be812bb)
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2.\" Copyright (c) 1998 Kenneth D. Merry.
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64.Dd October 13, 1998
65.Dt CAM_CDBPARSE 3
66.Os
67.Sh NAME
68.Nm csio_build ,
69.Nm csio_build_visit ,
70.Nm csio_decode ,
71.Nm csio_decode_visit ,
72.Nm buff_decode ,
73.Nm buff_decode_visit ,
74.Nm csio_encode ,
75.Nm csio_encode_visit ,
76.Nm buff_encode_visit
77.Nd CAM user library SCSI buffer parsing routines
78.Sh LIBRARY
79.Lb libcam
80.Sh SYNOPSIS
81.In stdio.h
82.In camlib.h
83.Ft int
84.Fo csio_build
85.Fa "struct ccb_scsiio *csio"
86.Fa "uint8_t *data_ptr"
87.Fa "uint32_t dxfer_len"
88.Fa "uint32_t flags"
89.Fa "int retry_count"
90.Fa "int timeout"
91.Fa "const char *cmd_spec"
92.Fa "..."
93.Fc
94.Ft int
95.Fo csio_build_visit
96.Fa "struct ccb_scsiio *csio"
97.Fa "uint8_t *data_ptr"
98.Fa "uint32_t dxfer_len"
99.Fa "uint32_t flags"
100.Fa "int retry_count"
101.Fa "int timeout"
102.Fa "const char *cmd_spec"
103.Fa "int (*arg_get)(void *hook, char *field_name)"
104.Fa "void *gethook"
105.Fc
106.Ft int
107.Fo csio_decode
108.Fa "struct ccb_scsiio *csio"
109.Fa "const char *fmt"
110.Fa "..."
111.Fc
112.Ft int
113.Fo csio_decode_visit
114.Fa "struct ccb_scsiio *csio"
115.Fa "const char *fmt"
116.Fa "void (*arg_put)(void *hook"
117.Fa "int letter"
118.Fa "void *val"
119.Fa "int count"
120.Fa "char *name)"
121.Fa "void *puthook"
122.Fc
123.Ft int
124.Fo buff_decode
125.Fa "uint8_t *buff"
126.Fa "size_t len"
127.Fa "const char *fmt"
128.Fa "..."
129.Fc
130.Ft int
131.Fo buff_decode_visit
132.Fa "uint8_t *buff"
133.Fa "size_t len"
134.Fa "const char *fmt"
135.Fa "void (*arg_put)(void *, int, void *, int, char *)"
136.Fa "void *puthook"
137.Fc
138.Ft int
139.Fo csio_encode
140.Fa "struct ccb_scsiio *csio"
141.Fa "const char *fmt"
142.Fa "..."
143.Fc
144.Ft int
145.Fo csio_encode_visit
146.Fa "struct ccb_scsiio *csio"
147.Fa "const char *fmt"
148.Fa "int (*arg_get)(void *hook, char *field_name)"
149.Fa "void *gethook"
150.Fc
151.Ft int
152.Fo buff_encode_visit
153.Fa "uint8_t *buff"
154.Fa "size_t len"
155.Fa "const char *fmt"
156.Fa "int (*arg_get)(void *hook, char *field_name)"
157.Fa "void *gethook"
158.Fc
159.Sh DESCRIPTION
160The CAM buffer/CDB encoding and decoding routines provide a relatively easy
161migration path for userland
162.Tn SCSI
163applications written with the similarly-named
164.Va scsireq_ Ns *
165functions from the old
166.Fx
167.Tn SCSI
168layer.
169.Pp
170These functions may be used in new applications, but users may find it
171easier to use the various SCSI CCB building functions included with the
172.Xr cam 3
173library.
174(e.g.\&
175.Fn cam_fill_csio ,
176.Fn scsi_start_stop ,
177and
178.Fn scsi_read_write )
179.Pp
180.Fn csio_build
181builds up a
182.Va ccb_scsiio
183structure based on the information provided in
184the variable argument list.
185It gracefully handles a NULL
186.Fa data_ptr
187argument passed to it.
188.Pp
189.Fa dxfer_len
190is the length of the data phase; the data transfer direction is
191determined by the
192.Fa flags
193argument.
194.Pp
195.Fa data_ptr
196is the data buffer used during the
197.Tn SCSI
198data phase.
199If no data is to be
200transferred for the
201.Tn SCSI
202command in question, this should be set to NULL.
203If there is data to
204transfer for the command, this buffer must be at least
205.Fa dxfer_len
206long.
207.Pp
208.Fa flags
209are the flags defined in
210.In cam/cam_ccb.h :
211.Bd -literal
212/* Common CCB header */
213/* CAM CCB flags */
214typedef enum {
215     CAM_CDB_POINTER       = 0x00000001,/* The CDB field is a pointer    */
216     CAM_QUEUE_ENABLE      = 0x00000002,/* SIM queue actions are enabled */
217     CAM_CDB_LINKED        = 0x00000004,/* CCB contains a linked CDB     */
218     CAM_SCATTER_VALID     = 0x00000010,/* Scatter/gather list is valid  */
219     CAM_DIS_AUTOSENSE     = 0x00000020,/* Disable autosense feature     */
220     CAM_DIR_RESV          = 0x00000000,/* Data direction (00:reserved)  */
221     CAM_DIR_IN            = 0x00000040,/* Data direction (01:DATA IN)   */
222     CAM_DIR_OUT           = 0x00000080,/* Data direction (10:DATA OUT)  */
223     CAM_DIR_NONE          = 0x000000C0,/* Data direction (11:no data)   */
224     CAM_DIR_MASK          = 0x000000C0,/* Data direction Mask		 */
225     CAM_SOFT_RST_OP       = 0x00000100,/* Use Soft reset alternative    */
226     CAM_ENG_SYNC          = 0x00000200,/* Flush resid bytes on complete */
227     CAM_DEV_QFRZDIS       = 0x00000400,/* Disable DEV Q freezing	 */
228     CAM_DEV_QFREEZE       = 0x00000800,/* Freeze DEV Q on execution     */
229     CAM_HIGH_POWER        = 0x00001000,/* Command takes a lot of power  */
230     CAM_SENSE_PTR         = 0x00002000,/* Sense data is a pointer	 */
231     CAM_SENSE_PHYS        = 0x00004000,/* Sense pointer is physical addr*/
232     CAM_TAG_ACTION_VALID  = 0x00008000,/* Use the tag action in this ccb*/
233     CAM_PASS_ERR_RECOVER  = 0x00010000,/* Pass driver does err. recovery*/
234     CAM_DIS_DISCONNECT    = 0x00020000,/* Disable disconnect		 */
235     CAM_SG_LIST_PHYS      = 0x00040000,/* SG list has physical addrs.   */
236     CAM_MSG_BUF_PHYS      = 0x00080000,/* Message buffer ptr is physical*/
237     CAM_SNS_BUF_PHYS      = 0x00100000,/* Autosense data ptr is physical*/
238     CAM_DATA_PHYS         = 0x00200000,/* SG/Buffer data ptrs are phys. */
239     CAM_CDB_PHYS          = 0x00400000,/* CDB pointer is physical	 */
240     CAM_ENG_SGLIST        = 0x00800000,/* SG list is for the HBA engine */
241
242/* Phase cognizant mode flags */
243     CAM_DIS_AUTOSRP       = 0x01000000,/* Disable autosave/restore ptrs */
244     CAM_DIS_AUTODISC      = 0x02000000,/* Disable auto disconnect	 */
245     CAM_TGT_CCB_AVAIL     = 0x04000000,/* Target CCB available		 */
246     CAM_TGT_PHASE_MODE    = 0x08000000,/* The SIM runs in phase mode	 */
247     CAM_MSGB_VALID        = 0x20000000,/* Message buffer valid		 */
248     CAM_STATUS_VALID      = 0x40000000,/* Status buffer valid		 */
249     CAM_DATAB_VALID       = 0x80000000,/* Data buffer valid		 */
250
251/* Host target Mode flags */
252     CAM_TERM_IO           = 0x20000000,/* Terminate I/O Message sup.    */
253     CAM_DISCONNECT        = 0x40000000,/* Disconnects are mandatory     */
254     CAM_SEND_STATUS       = 0x80000000,/* Send status after data phase  */
255} ccb_flags;
256.Ed
257.Pp
258Multiple flags should be ORed together.
259Any of the CCB flags may be used,
260although it is worth noting several important ones here:
261.Bl -tag -width CAM_PASS_ERR_RECOVER
262.It Dv CAM_DIR_IN
263This indicates that the operation in question is a read operation.
264i.e.,
265data is being read from the
266.Tn SCSI
267device to the user-supplied buffer.
268.It Dv CAM_DIR_OUT
269This indicates that the operation is a write operation.
270i.e., data is being
271written from the user-supplied buffer to the device.
272.It Dv CAM_DIR_NONE
273This indicates that there is no data to be transferred for this command.
274.It Dv CAM_DEV_QFRZDIS
275This flag disables device queue freezing as an error recovery mechanism.
276.It Dv CAM_PASS_ERR_RECOVER
277This flag tells the
278.Xr pass 4
279driver to enable error recovery.
280The default is to not perform error
281recovery, which means that the retry count will not be honored without this
282flag, among other things.
283.It Dv CAM_DATA_PHYS
284This indicates that the address contained in
285.Fa data_ptr
286is a physical address, not a virtual address.
287.El
288.Pp
289The
290.Fa retry_count
291tells the kernel how many times to retry the command in question.
292The
293retry count is ignored unless the
294.Xr pass 4
295driver is told to enable error recovery via the
296.Dv CAM_PASS_ERR_RECOVER
297flag.
298.Pp
299The
300.Fa timeout
301tells the kernel how long to wait for the given command to complete.
302If
303the timeout expires and the command has not completed, the CCB will be
304returned from the kernel with an appropriate error status.
305.Pp
306.Fa cmd_spec
307is a CDB format specifier used to build up the SCSI CDB.
308This text string is made up of a list of field specifiers.
309Field
310specifiers specify the value for each CDB field (including indicating
311that the value be taken from the next argument in the
312variable argument list), the width
313of the field in bits or bytes, and an optional name.
314White space is
315ignored, and the pound sign ('#') introduces a comment that ends at the
316end of the current line.
317.Pp
318The optional name is the first part of a field specifier and
319is in curly braces.
320The text in curly braces in this example are
321the names:
322.Dl "{PS} v:b1 {Reserved} 0:b1 {Page Code} v:b6 # Mode select page"
323.Pp
324This field specifier has two one bit fields and one six bit field.
325The second one bit field is the constant value 0 and the first
326one bit field and the six bit field are taken from the variable
327argument list.
328Multi byte fields are swapped into the SCSI byte order in the
329CDB and white space is ignored.
330.Pp
331When the field is a hex value or the letter v, (e.g.,
332.Fa "1A"
333or
334.Fa "v" )
335then a single byte value
336is copied to the next unused byte of the CDB.
337When the letter
338.Fa v
339is used the next integer argument is taken from the variable argument list
340and that value used.
341.Pp
342A constant hex value followed by a field width specifier or the letter
343.Fa v
344followed by a field width specifier (e.g.,
345.Fa 3:4 ,
346.Fa 3:b4 ,
347.Fa 3:i3 ,
348.Fa v:i3 )
349specifies a field of a given bit or byte width.
350Either the constant value or (for the V specifier) the next integer value from
351the variable argument list is copied to the next unused
352bits or bytes of the CDB.
353.Pp
354A decimal number or the letter
355.Fa b
356followed by a decimal number field width indicates a bit field of that width.
357The bit fields are packed as tightly as possible beginning with the
358high bit (so that it reads the same as the SCSI spec), and a new byte of
359the CDB is started whenever a byte fills completely or when an
360.Fa i
361field is encountered.
362.Pp
363A field width specifier consisting of the letter
364.Fa i
365followed by either
3661, 2, 3 or 4 indicates a 1, 2, 3 or 4 byte integral value that must
367be swapped into SCSI byte order (MSB first).
368.Pp
369For the
370.Fa v
371field specifier the next integer argument is taken from the variable argument
372list and that value is used swapped into SCSI byte order.
373.Pp
374.Fn csio_build_visit
375operates similarly to
376.Fn csio_build ,
377except that the values to substitute for variable arguments in
378.Fa cmd_spec
379are retrieved via the
380.Fn arg_get
381function passed in to
382.Fn csio_build_visit
383instead of via
384.Xr stdarg 3 .
385The
386.Fn arg_get
387function takes two arguments:
388.Bl -tag -width field_name
389.It Fa gethook
390is passed into the
391.Fn arg_get
392function at each invocation.
393This enables the
394.Fn arg_get
395function to keep some state in between calls without using global or static
396variables.
397.It Fa field_name
398is the field name supplied in
399.Fa fmt ,
400if any.
401.El
402.Pp
403.Fn csio_decode
404is used to decode information from the data in phase of the SCSI
405transfer.
406.Pp
407The decoding is similar to
408the command specifier processing of
409.Fn csio_build
410except that the data is extracted from the data pointed to by
411.Fa csio->data_ptr .
412The stdarg list should be pointers to integers instead of integer
413values.
414A seek field type and a suppression modifier are added.
415The
416.Fa *
417suppression modifier (e.g.,
418.Fa *i3
419or
420.Fa *b4 )
421suppresses assignment from the field and can be used to skip
422over bytes or bits in the data, without having to copy
423them to a dummy variable in the arg list.
424.Pp
425The seek field type
426.Fa s
427permits you to skip over data.
428This seeks to an absolute position
429.Pq Fa s3
430or a relative position
431.Pq Fa s+3
432in the data, based on whether or not the presence of the '+' sign.
433The seek value can be specified as
434.Fa v
435and the next integer value from the argument list will be
436used as the seek value.
437.Pp
438.Fn csio_decode_visit
439operates like
440.Fn csio_decode
441except that instead of placing the decoded contents of the buffer in
442variadic arguments, the decoded buffer contents are returned to the user
443via the
444.Fn arg_put
445function that is passed in.
446The
447.Fn arg_put
448function takes several arguments:
449.Bl -tag -width letter
450.It Fa hook
451The "hook" is a mechanism to allow the
452.Fn arg_put
453function to save state in between calls.
454.It Fa letter
455is the letter describing the format of the argument being passed into the
456function.
457.It Fa val
458is a void pointer to the value being passed into the function.
459.It Fa count
460is the size of the value being passed into the
461.Fn arg_put
462function.
463The argument format determines the unit of measure.
464.It Fa name
465This is a text description of the field, if one was provided in the
466.Fa fmt .
467.El
468.Pp
469.Fn buff_decode
470decodes an arbitrary data buffer using the method
471described above for
472.Fn csio_decode .
473.Pp
474.Fn buff_decode_visit
475decodes an arbitrary data buffer using the method described above for
476.Fn csio_decode_visit .
477.Pp
478.Fn csio_encode
479encodes the
480.Fa data_ptr
481portion (not the CDB!) of a
482.Va ccb_scsiio
483structure, using the method described above for
484.Fn csio_build .
485.Pp
486.Fn csio_encode_visit
487encodes the
488.Fa data_ptr
489portion (not the CDB!) of a
490.Va ccb_scsiio
491structure, using the method described above for
492.Fn csio_build_visit .
493.Pp
494.Fn buff_encode_visit
495encodes an arbitrary data pointer, using the method described
496above for
497.Fn csio_build_visit .
498.Sh RETURN VALUES
499.Fn csio_build ,
500.Fn csio_build_visit ,
501.Fn csio_encode ,
502.Fn csio_encode_visit ,
503and
504.Fn buff_encode_visit
505return the number of fields processed.
506.Pp
507.Fn csio_decode ,
508.Fn csio_decode_visit ,
509.Fn buff_decode ,
510and
511.Fn buff_decode_visit
512return the number of assignments performed.
513.Sh SEE ALSO
514.Xr cam 3 ,
515.Xr pass 4 ,
516.Xr camcontrol 8
517.Sh HISTORY
518The CAM versions of these functions are based upon similar functions
519implemented for the old
520.Fx
521.Tn SCSI
522layer.
523The encoding/decoding functions in the old
524.Tn SCSI
525code were written by Peter Dufault.
526.Pp
527Many systems have comparable interfaces to permit a user to construct a
528SCSI command in user space.
529.Pp
530The old
531.Va scsireq
532data structure was almost identical to the SGI /dev/scsi data
533structure.
534If anyone knows the name of the authors it should
535go here; Peter Dufault first read about it in a 1989 Sun Expert magazine.
536.Pp
537The new CCB data structures are derived from the CAM-2 and CAM-3
538specifications.
539.Pp
540.An Peter Dufault
541implemented a clone of SGI's interface in
542.Bx 386
543that
544led to the original
545.Fx
546.Tn SCSI
547library and the related kernel ioctl.
548If anyone needs that for compatibility contact dufault@hda.com.
549.Sh AUTHORS
550Kenneth Merry implemented the CAM versions of these encoding and decoding
551functions.
552This current work is based upon earlier work by Peter Dufault.
553.Sh BUGS
554There should probably be a function that encodes both the CDB and the data
555buffer portions of a
556.Tn SCSI
557CCB.
558I discovered this while implementing the arbitrary command execution
559code in
560.Xr camcontrol 8 ,
561but I have not yet had time to implement such a function.
562.Pp
563Some of the CCB flag descriptions really do not belong here.
564Rather they
565belong in a generic CCB man page.
566Since that man page has not yet been
567written, the shorter descriptions here will have to suffice.
568