xref: /freebsd/usr.sbin/camdd/camdd.8 (revision 7fdf597e96a02165cfe22ff357b857d5fa15ed8a)
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30.\" Authors: Ken Merry           (Spectra Logic Corporation)
31.\"
32.Dd November 11, 2015
33.Dt CAMDD 8
34.Os
35.Sh NAME
36.Nm camdd
37.Nd CAM data transfer utility
38.Sh SYNOPSIS
39.Nm
40.Aq Fl i|o Ar pass=pass_dev|file=filename,bs=blocksize,[...]
41.Op Fl C Ar retry_count
42.Op Fl E
43.Op Fl m Ar max_io
44.Op Fl t Ar timeout
45.Op Fl v
46.Op Fl h
47.Sh DESCRIPTION
48The
49.Nm
50utility is a sequential data transfer utility that offers standard
51.Xr read 2
52and
53.Xr write 2
54operation in addition to a mode that uses the asynchronous
55.Xr pass 4
56API.
57The asynchronous
58.Xr pass 4
59API allows multiple requests to be queued to a device simultaneously.
60.Pp
61.Nm
62collects performance information and will display it when the transfer
63completes, when
64.Nm
65is terminated or when it receives a SIGINFO signal.
66.Pp
67The following options are available:
68.Bl -tag -width 12n
69.It Fl i | o Ar args
70Specify the input and output device or file.
71Both
72.Fl i
73and
74.Fl o
75must be specified.
76There are a number of parameters that can be specified.
77One of the first two (file or pass) MUST be specified to indicate which I/O
78method to use on the device in question.
79.Bl -tag -width 9n
80.It pass=dev
81Specify a
82.Xr pass 4
83device to operate on.
84This requests that
85.Nm
86access the device in question be accessed via the asynchronous
87.Xr pass 4
88interface.
89.Pp
90The device name can be a
91.Xr pass 4
92name and unit number, for instance
93.Dq pass0 ,
94or a regular peripheral driver name and unit number, for instance
95.Dq da5 .
96It can also be the path of a
97.Xr pass 4
98or other disk device, like
99.Dq /dev/da5 .
100It may also be a bus:target:lun, for example:
101.Dq 0:5:0 .
102.Pp
103Only
104.Xr pass 4
105devices for
106.Tn SCSI
107disk-like devices are supported.
108.Tn ATA
109devices are not currently supported, but support could be added later.
110Specifically,
111.Tn SCSI
112Direct Access (type 0), WORM (type 4), CDROM (type 5), and RBC (Reduced
113Block Command, type 14) devices are supported.
114Tape drives, medium changers, enclosures etc. are not supported.
115.It file=path
116Specify a file or device to operate on.
117This requests that the file or device in question be accessed using the
118standard
119.Xr read 2
120and
121.Xr write 2
122system calls.
123The file interface does not support queueing multiple commands at a time.
124It does support probing disk sector size and capacity information, and tape
125blocksize and maximum transfer size information.
126The file interface supports standard files, disks, tape drives, special
127devices, pipes and standard input and output.
128If the file is specified as a
129.Dq - ,
130standard input or standard output are used.
131For tape devices, the specified blocksize will be the size that
132.Nm
133attempts to use to write to or read from the tape.
134When writing to a tape device, the blocksize is treated like a disk sector
135size.
136So, that means
137.Nm
138will not write anything smaller than the sector size.
139At the end of a transfer, if there isn't sufficient data from the reader
140to yield a full block,
141.Nm
142will add zeros on the end of the data from the reader to make up a full
143block.
144.It bs=N
145Specify the blocksize to use for transfers.
146.Nm
147will attempt to read or write using the requested blocksize.
148.Pp
149Note that the blocksize given only applies to either the input or the
150output path.
151To use the same blocksize for the input and output transfers, you must
152specify that blocksize with both the
153.Fl i
154and
155.Fl o
156arguments.
157.Pp
158The blocksize may be specified in bytes, or using any suffix (e.g. k, M, G)
159supported by
160.Xr expand_number 3 .
161.It offset=N
162Specify the starting offset for the input or output device or file.
163The offset may be specified in bytes, or by using any suffix (e.g. k, M, G)
164supported by
165.Xr expand_number 3 .
166.It depth=N
167Specify a desired queue depth for the input or output path.
168.Nm
169will attempt to keep the requested number of requests of the specified
170blocksize queued to the input or output device.
171Queue depths greater than 1 are only supported for the asynchronous
172.Xr pass 4
173output method.
174The queue depth is maintained on a best effort basis, and may not be
175possible to maintain for especially fast devices.
176For writes, maintaining the queue depth also depends on a sufficiently
177fast reading device.
178.It mcs=N
179Specify the minimum command size to use for
180.Xr pass 4
181devices.
182Some devices do not support 6 byte
183.Tn SCSI
184commands.
185The
186.Xr da 4
187device handles this restriction automatically, but the
188.Xr pass 4
189device allows the user to specify the
190.Tn SCSI
191command used.
192If a device does not accept 6 byte
193.Tn SCSI
194READ/WRITE commands (which is the default at lower LBAs), it will generally
195accept 10 byte
196.Tn SCSI
197commands instead.
198.It debug=N
199Specify the debug level for this device.
200There is currently only one debug level setting, so setting this to any
201non-zero value will turn on debugging.
202The debug facility may be expanded in the future.
203.El
204.It Fl C Ar count
205Specify the retry count for commands sent via the asynchronous
206.Xr pass 4
207interface.
208This does not apply to commands sent via the file interface.
209.It Fl E
210Enable kernel error recovery for the
211.Xr pass 4
212driver.
213If error recovery is not enabled, unit attention conditions and other
214transient failures may cause the transfer to fail.
215.It Fl m Ar size
216Specify the maximum amount of data to be transferred.
217This may be specified in bytes, or by using any suffix (e.g. K, M, G)
218supported by
219.Xr expand_number 3 .
220.It Fl t Ar timeout
221Specify the command timeout in seconds to use for commands sent via the
222.Xr pass 4
223driver.
224.It Fl v
225Enable verbose reporting of errors.
226This is recommended to aid in debugging any
227.Tn SCSI
228issues that come up.
229.It Fl h
230Display the
231.Nm
232usage message.
233.El
234.Pp
235If
236.Nm
237receives a SIGINFO signal, it will print the current input and output byte
238counts, elapsed runtime and average throughput.
239If
240.Nm
241receives a SIGINT signal, it will print the current input and output byte
242counts, elapsed runtime and average throughput and then exit.
243.Sh EXAMPLES
244.Dl camdd -i pass=da8,bs=512k,depth=4 -o pass=da3,bs=512k,depth=4
245.Pp
246Copy all data from da8 to da3 using a blocksize of 512k for both drives,
247and attempt to maintain a queue depth of 4 on both the input and output
248devices.
249The transfer will stop when the end of either device is reached.
250.Pp
251.Dl camdd -i file=/dev/zero,bs=1M -o pass=da5,bs=1M,depth=4 -m 100M
252.Pp
253Read 1MB blocks of zeros from /dev/zero, and write them to da5 with a
254desired queue depth of 4.
255Stop the transfer after 100MB has been written.
256.Pp
257.Dl camdd -i pass=da8,bs=1M,depth=3 -o file=disk.img
258.Pp
259Copy disk da8 using a 1MB blocksize and desired queue depth of 3 to the
260file disk.img.
261.Pp
262.Dl camdd -i file=/etc/rc -o file=-
263.Pp
264Read the file /etc/rc and write it to standard output.
265.Pp
266.Dl camdd -i pass=da10,bs=64k,depth=16 -o file=/dev/nsa0,bs=128k
267.Pp
268Copy 64K blocks from the disk da10 with a queue depth of 16, and write
269to the tape drive sa0 with a 128k blocksize.
270The copy will stop when either the end of the disk or tape is reached.
271.Sh SEE ALSO
272.Xr cam 3 ,
273.Xr cam 4 ,
274.Xr pass 4 ,
275.Xr camcontrol 8
276.Sh HISTORY
277.Nm
278first appeared in
279.Fx 10.2
280.Sh AUTHORS
281.An Kenneth Merry Aq Mt ken@FreeBSD.org
282