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1 | .Dd April 30, 2013 |
2 | .Dt getiopolicy_np 3 | |
3 | .Os | |
4 | .Sh NAME | |
5 | .Nm getiopolicy_np, setiopolicy_np | |
6 | .Nd manipulate the I/O policy of a process or thread | |
7 | .Sh LIBRARY | |
8 | .Lb libc | |
9 | .Sh SYNOPSIS | |
10 | .In sys/resource.h | |
11 | .Ft int | |
12 | .Fn getiopolicy_np "int iotype" "int scope" | |
13 | .Ft int | |
14 | .Fn setiopolicy_np "int iotype" "int scope" "int policy" | |
15 | .Sh DESCRIPTION | |
16 | The | |
17 | .Fn getiopolicy_np | |
18 | and | |
19 | .Fn setiopolicy_np | |
20 | functions are provided to get or set the I/O policies of the current process | |
21 | or the current thread. The policy of the I/O of the given type | |
22 | .Fa iotype | |
23 | can be get or set for the given | |
24 | .Fa scope . | |
25 | .Pp | |
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26 | The scope that the I/O policy takes effect is specified in the argument |
27 | .Fa scope | |
28 | as follows: | |
29 | .Bl -tag -width IOPOL_SCOPE_PROCESS | |
30 | .It IOPOL_SCOPE_PROCESS | |
31 | The I/O policy of all I/Os issued by the current process is get or set. | |
32 | .It IOPOL_SCOPE_THREAD | |
33 | The I/O policy of all I/Os issued by the current thread is get or set. | |
34 | .El | |
35 | .Pp | |
36 | In | |
37 | .Fn getiopolicy_np , | |
38 | the I/O policy of the given I/O type and scope is returned. In | |
39 | .Fn setiopolicy_np , | |
40 | the argument | |
41 | .Fa policy | |
42 | is an integer which contains the new I/O policy to be set for the given I/O | |
43 | type and scope. | |
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44 | .Pp |
45 | The I/O type is specified in the argument | |
46 | .Fa iotype . | |
47 | The currently supported I/O types are as follows: | |
48 | .Bl -tag -width F1 | |
49 | .It IOPOL_TYPE_DISK | |
50 | This can mean either the I/O policy for I/Os to local disks or to | |
51 | remote volumes. | |
52 | I/Os to local disks are I/Os sent to the media without going through a network, | |
53 | including I/Os to internal and external hard drives, optical media in internal | |
54 | and external drives, flash drives, floppy disks, ram disks, and mounted disk | |
55 | images which reside on these media. | |
56 | I/Os to remote volumes are I/Os that require network activity to complete the | |
57 | operation. | |
58 | This is currently only supported for remote volumes mounted by SMB or AFP. | |
59 | .Pp | |
60 | IOPOL_TYPE_DISK supports following values for | |
61 | .Fa policy: | |
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62 | .Bl -tag -width IOPOL_PASSIVEXXX |
63 | .It IOPOL_IMPORTANT | |
64 | I/Os with the IMPORTANT policy are unrestricted. This policy should only be | |
65 | used for I/Os that are critical to system responsiveness. | |
66 | This is the default I/O policy for new threads. | |
67 | .It IOPOL_STANDARD | |
68 | The STANDARD policy is for work requested by the user, but that is not the | |
69 | user's current focus. I/Os with this policy may be delayed slightly to allow | |
70 | IMPORTANT I/Os to complete quickly. | |
71 | .It IOPOL_UTILITY | |
72 | The UTILITY policy is for short-running background work. I/Os with this policy | |
73 | are throttled to prevent a significant impact on the latency of IMPORTANT and | |
74 | STANDARD I/Os. | |
75 | .It IOPOL_THROTTLE | |
76 | The THROTTLE policy is for long-running I/O intensive background work, such as | |
77 | backups, search indexing, or file synchronization. I/Os with this policy will | |
78 | be throttled to avoid impacting performance of higher priority I/Os. | |
79 | .It IOPOL_PASSIVE | |
80 | The PASSIVE I/Os are a special type of I/O that are ignored by the other | |
81 | policies so that the threads issuing lower priority I/Os are not slowed down by | |
82 | PASSIVE I/Os. The PASSIVE I/O policy is useful for server type applications. | |
83 | The I/Os generated by these applications are called passive I/Os because these | |
84 | I/Os are caused directly or indirectly by the I/O requests they receive from | |
85 | client applications. For example, when an image file is mounted by DiskImages, | |
86 | DiskImages generate passive I/Os. DiskImages should mark these I/Os using the | |
87 | PASSIVE I/O policy so that when client applications that access the volume | |
88 | managed by DiskImages, these client applications will not be slowed down by the | |
89 | I/Os generated by DiskImages. | |
90 | .El | |
91 | .Pp | |
92 | I/Os with the STANDARD, UTILITY, and THROTTLE policies are called throttleable | |
93 | I/Os and are of decreasing priority. If a throttleable request occurs within a | |
94 | small time window of a request of higher priority, the thread that issued the | |
95 | throttleable I/O is forced to a sleep for a short period. (Both this window and | |
96 | the sleep period are dependent on the policy of the throttleable I/O.) This | |
97 | slows down the thread that issues the throttleable I/O so that higher-priority | |
98 | I/Os can complete with low-latency and receive a greater share of the disk | |
99 | bandwidth. Furthermore, an IMPORTANT I/O request may bypass a previously issued | |
100 | throttleable I/O request in kernel or driver queues and be sent to the device | |
101 | first. In some circumstances, very large throttleable I/O requests will be | |
102 | broken into smaller requests which are then issued serially. | |
103 | .Pp | |
104 | The I/O policy of a newly created process is inherited from its parent | |
105 | process. The I/O policy of an I/O request is the lowest priority | |
106 | policy of the current thread and the current process. | |
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107 | .It IOPOL_TYPE_VFS_ATIME_UPDATES |
108 | This | |
109 | .Fa iotype | |
110 | lets users change the access time updates policy for the files accessed | |
111 | by the current thread or process. | |
112 | .Pp | |
113 | IOPOL_TYPE_VFS_ATIME_UPDATES supports following values for | |
114 | .Fa policy: | |
115 | .Bl -tag -width IOPOL_ATIME_UPDATES_DEFAULT | |
116 | .It IOPOL_ATIME_UPDATES_OFF | |
117 | The ATIME_UPDATES_OFF policy turns off access time updation for files accessed. | |
118 | This policy is useful for applications which access a large number of files | |
119 | to reduce the metadata I/O writes. | |
120 | .It IOPOL_ATIME_UPDATES_DEFAULT | |
121 | This is the default I/O policy for new threads. | |
122 | .El | |
123 | .El | |
124 | .Pp | |
125 | Like with IOPOL_TYPE_DISK, the I/O policy of a newly created process is | |
126 | inherited from its parent process. Access time updates are turned off if the | |
127 | I/O policy is set to IOPOL_ATIME_UPDATES_OFF for the current thread or current | |
128 | process. | |
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129 | .Sh RETURN VALUES |
130 | The | |
131 | .Fn getiopolicy_np | |
132 | call returns the I/O policy of the given I/O type and scope. If error | |
133 | happens, -1 is returned. The | |
134 | .Fn setiopolicy_np | |
135 | call returns 0 if there is no error, or -1 if there is an error. When error | |
136 | happens, the error code is stored in the external variable | |
137 | .Fa errno . | |
138 | .Sh ERRORS | |
39037602 | 139 | .Fn getiopolicy_np |
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140 | and |
141 | .Fn setiopolicy_np | |
142 | will fail if: | |
143 | .Bl -tag -width Er | |
144 | .It Bq Er EINVAL | |
145 | Io_type or scope is not one of the values defined in this manual. | |
146 | .El | |
147 | .Pp | |
148 | In addition to the errors indicated above, | |
149 | .Fn setiopolicy_np | |
150 | will fail if: | |
151 | .Bl -tag -width Er | |
152 | .It Bq Er EINVAL | |
153 | Policy is not one of the values defined in this manual. | |
154 | .El | |
155 | .Sh NOTES | |
156 | The thread or process with a throttleable I/O policy enabled will be generally | |
157 | prevented from having an adverse effect on the throughput or latency of higher | |
158 | priority I/Os of other processes. | |
159 | However, there are a few considerations that users of the throttleable I/O | |
160 | policies should keep in mind: | |
161 | .Pp | |
162 | Consider using the | |
163 | .Dv F_NOCACHE | |
164 | .Xr fcntl 2 | |
165 | command to prevent caching when using a throttleable I/O policy. | |
166 | This will reduce contention for available caches with IMPORTANT I/O. | |
167 | .Pp | |
168 | Large read requests will automatically be broken up into smaller requests | |
169 | to avoid stalling IMPORTANT I/O requests. | |
170 | However, due to the consistency guarantees provided to contiguous writes, | |
171 | this can not be done automatically for large writes. | |
172 | If a thread or process with a throttleable I/O policy enabled will be issuing | |
173 | large writes, consider the use of the | |
174 | .Dv F_SINGLE_WRITER | |
175 | .Xr fcntl 2 | |
176 | command. | |
177 | This will indicate to the system that there is only one thread writing to | |
178 | the file and allow automatic division of large writes. | |
179 | .Pp | |
180 | Write-heavy throttleable I/O workloads may fill a drive's track (write) cache. | |
181 | Subsequent higher priority writes must then wait for enough of the track cache | |
182 | to be flushed before they can continue. | |
183 | If the writes issued as throttleable I/O are small and not contiguous, many | |
184 | seeks may be incurred before space is available for a subsequent higher | |
185 | priority write. | |
186 | Issuers of throttleable I/O should attempt to issue their writes sequentially | |
187 | or to locations in a single small area of the drive (i.e. different | |
188 | positions in the same file) to ensure good spacial locality. | |
189 | .Pp | |
190 | The | |
191 | .Dv F_FULLFSYNC | |
192 | .Xr fcntl 2 | |
193 | command can cause very long system-wide IO stalls; use this command only if absolutely necessary. | |
194 | .Sh SEE ALSO | |
195 | .Xr nice 3 , | |
196 | .Xr getpriority 2 , | |
197 | .Xr setpriority 2 , | |
198 | .Xr fcntl 2 , | |
199 | .Xr open 2 , | |
200 | .Xr renice 8 | |
201 | .Sh HISTORY | |
202 | The | |
203 | .Fn getiopolicy_np | |
204 | and | |
205 | .Fn setiopolicy_np | |
206 | function call first appeared in Mac OS X 10.5 (Leopard) . |