12 .nf
13 \fBzonecfg\fR \fB-z\fR \fIzonename\fR
14 .fi
15
16 .LP
17 .nf
18 \fBzonecfg\fR \fB-z\fR \fIzonename\fR \fIsubcommand\fR
19 .fi
20
21 .LP
22 .nf
23 \fBzonecfg\fR \fB-z\fR \fIzonename\fR \fB-f\fR \fIcommand_file\fR
24 .fi
25
26 .LP
27 .nf
28 \fBzonecfg\fR help
29 .fi
30
31 .SH DESCRIPTION
32 .sp
33 .LP
34 The \fBzonecfg\fR utility creates and modifies the configuration of a zone.
35 Zone configuration consists of a number of resources and properties.
36 .sp
37 .LP
38 To simplify the user interface, \fBzonecfg\fR uses the concept of a scope. The
39 default scope is global.
40 .sp
41 .LP
42 The following synopsis of the \fBzonecfg\fR command is for interactive usage:
43 .sp
44 .in +2
45 .nf
46 zonecfg \fB-z\fR \fIzonename subcommand\fR
47 .fi
48 .in -2
49 .sp
50
51 .sp
52 .LP
55 .sp
56 .LP
57 In addition to creating and modifying a zone, the \fBzonecfg\fR utility can
58 also be used to persistently specify the resource management settings for the
59 global zone.
60 .sp
61 .LP
62 In the following text, "rctl" is used as an abbreviation for "resource
63 control". See \fBresource_controls\fR(5).
64 .sp
65 .LP
66 Every zone is configured with an associated brand. The brand determines the
67 user-level environment used within the zone, as well as various behaviors for
68 the zone when it is installed, boots, or is shutdown. Once a zone has been
69 installed the brand cannot be changed. The default brand is determined by the
70 installed distribution in the global zone. Some brands do not support all of
71 the \fBzonecfg\fR properties and resources. See the brand-specific man page for
72 more details on each brand. For an overview of brands, see the \fBbrands\fR(5)
73 man page.
74 .SS "Resources"
75 .sp
76 .LP
77 The following resource types are supported:
78 .sp
79 .ne 2
80 .na
81 \fB\fBattr\fR\fR
82 .ad
83 .sp .6
84 .RS 4n
85 Generic attribute.
86 .RE
87
88 .sp
89 .ne 2
90 .na
91 \fB\fBcapped-cpu\fR\fR
92 .ad
93 .sp .6
94 .RS 4n
95 Limits for CPU usage.
148 .sp
149 .ne 2
150 .na
151 \fB\fBnet\fR\fR
152 .ad
153 .sp .6
154 .RS 4n
155 Network interface.
156 .RE
157
158 .sp
159 .ne 2
160 .na
161 \fB\fBrctl\fR\fR
162 .ad
163 .sp .6
164 .RS 4n
165 Resource control.
166 .RE
167
168 .SS "Properties"
169 .sp
170 .LP
171 Each resource type has one or more properties. There are also some global
172 properties, that is, properties of the configuration as a whole, rather than of
173 some particular resource.
174 .sp
175 .LP
176 The following properties are supported:
177 .sp
178 .ne 2
179 .na
180 \fB(global)\fR
181 .ad
182 .sp .6
183 .RS 4n
184 \fBzonename\fR
185 .RE
186
187 .sp
188 .ne 2
189 .na
408 .ne 2
409 .na
410 \fB\fBcapped-memory\fR\fR
411 .ad
412 .sp .6
413 .RS 4n
414 \fBphysical\fR, \fBswap\fR, \fBlocked\fR
415 .RE
416
417 .sp
418 .ne 2
419 .na
420 \fB\fBcapped-cpu\fR\fR
421 .ad
422 .sp .6
423 .RS 4n
424 \fBncpus\fR
425 .RE
426
427 .sp
428 .LP
429 As for the property values which are paired with these names, they are either
430 simple, complex, or lists. The type allowed is property-specific. Simple values
431 are strings, optionally enclosed within quotation marks. Complex values have
432 the syntax:
433 .sp
434 .in +2
435 .nf
436 (<\fIname\fR>=<\fIvalue\fR>,<\fIname\fR>=<\fIvalue\fR>,...)
437 .fi
438 .in -2
439 .sp
440
441 .sp
442 .LP
443 where each <\fIvalue\fR> is simple, and the <\fIname\fR> strings are unique
444 within a given property. Lists have the syntax:
445 .sp
446 .in +2
447 .nf
848 \fB\fBcapped-cpu\fR: ncpus\fR
849 .ad
850 .sp .6
851 .RS 4n
852 Sets a limit on the amount of CPU time that can be used by a zone. The unit
853 used translates to the percentage of a single CPU that can be used by all user
854 threads in a zone, expressed as a fraction (for example, \fB\&.75\fR) or a
855 mixed number (whole number and fraction, for example, \fB1.25\fR). An
856 \fBncpu\fR value of \fB1\fR means 100% of a CPU, a value of \fB1.25\fR means
857 125%, \fB\&.75\fR mean 75%, and so forth. When projects within a capped zone
858 have their own caps, the minimum value takes precedence.
859 .sp
860 The \fBcapped-cpu\fR property is an alias for \fBzone.cpu-cap\fR resource
861 control and is related to the \fBzone.cpu-cap\fR resource control. See
862 \fBresource_controls\fR(5).
863 .RE
864
865 .sp
866 .ne 2
867 .na
868 \fBglobal: \fBfs-allowed\fR\fR
869 .ad
870 .sp .6
871 .RS 4n
872 A comma-separated list of additional filesystems that may be mounted within
873 the zone; for example "ufs,pcfs". By default, only hsfs(7fs) and network
874 filesystems can be mounted. If the first entry in the list is "-" then
875 that disables all of the default filesystems. If any filesystems are listed
876 after "-" then only those filesystems can be mounted.
877
878 This property does not apply to filesystems mounted into the zone via "add fs"
879 or "add dataset".
880
881 WARNING: allowing filesystem mounts other than the default may allow the zone
882 administrator to compromise the system with a malicious filesystem image, and
883 is not supported.
884 .RE
885
886 .sp
887 .LP
911 raw simple
912 type simple
913 options list of simple
914 net address simple
915 physical simple
916 device match simple
917 rctl name simple
918 value list of complex
919 attr name simple
920 type simple
921 value simple
922 dataset name simple
923 dedicated-cpu ncpus simple or range
924 importance simple
925
926 capped-memory physical simple with scale
927 swap simple with scale
928 locked simple with scale
929
930 capped-cpu ncpus simple
931 .fi
932 .in -2
933 .sp
934
935 .sp
936 .LP
937 To further specify things, the breakdown of the complex property "value" of the
938 "rctl" resource type, it consists of three name/value pairs, the names being
939 "priv", "limit" and "action", each of which takes a simple value. The "name"
940 property of an "attr" resource is syntactically restricted in a fashion similar
941 but not identical to zone names: it must begin with an alphanumeric, and can
942 contain alphanumerics plus the hyphen (\fB-\fR), underscore (\fB_\fR), and dot
943 (\fB\&.\fR) characters. Attribute names beginning with "zone" are reserved for
944 use by the system. Finally, the "autoboot" global property must have a value of
945 "true" or "false".
946 .SS "Using Kernel Statistics to Monitor CPU Caps"
947 .sp
948 .LP
949 Using the kernel statistics (\fBkstat\fR(3KSTAT)) module \fBcaps\fR, the system
950 maintains information for all capped projects and zones. You can access this
951 information by reading kernel statistics (\fBkstat\fR(3KSTAT)), specifying
952 \fBcaps\fR as the \fBkstat\fR module name. The following command displays
953 kernel statistics for all active CPU caps:
954 .sp
955 .in +2
956 .nf
957 # \fBkstat caps::'/cpucaps/'\fR
958 .fi
959 .in -2
960 .sp
961
962 .sp
963 .LP
964 A \fBkstat\fR(1M) command running in a zone displays only CPU caps relevant for
965 that zone and for projects in that zone. See \fBEXAMPLES\fR.
966 .sp
967 .LP
1080 .ad
1081 .sp .6
1082 .RS 4n
1083 The cap value, in terms of a percentage of a single CPU.
1084 .RE
1085
1086 .sp
1087 .ne 2
1088 .na
1089 \fB\fBzonename\fR\fR
1090 .ad
1091 .sp .6
1092 .RS 4n
1093 Name of the zone for which statistics are displayed.
1094 .RE
1095
1096 .sp
1097 .LP
1098 See \fBEXAMPLES\fR for sample output from a \fBkstat\fR command.
1099 .SH OPTIONS
1100 .sp
1101 .LP
1102 The following options are supported:
1103 .sp
1104 .ne 2
1105 .na
1106 \fB\fB-f\fR \fIcommand_file\fR\fR
1107 .ad
1108 .sp .6
1109 .RS 4n
1110 Specify the name of \fBzonecfg\fR command file. \fIcommand_file\fR is a text
1111 file of \fBzonecfg\fR subcommands, one per line.
1112 .RE
1113
1114 .sp
1115 .ne 2
1116 .na
1117 \fB\fB-z\fR \fIzonename\fR\fR
1118 .ad
1119 .sp .6
1120 .RS 4n
1121 Specify the name of a zone. Zone names are case sensitive. Zone names must
1122 begin with an alphanumeric character and can contain alphanumeric characters,
1123 the underscore (\fB_\fR) the hyphen (\fB-\fR), and the dot (\fB\&.\fR). The
1124 name \fBglobal\fR and all names beginning with \fBSUNW\fR are reserved and
1125 cannot be used.
1126 .RE
1127
1128 .SH SUBCOMMANDS
1129 .sp
1130 .LP
1131 You can use the \fBadd\fR and \fBselect\fR subcommands to select a specific
1132 resource, at which point the scope changes to that resource. The \fBend\fR and
1133 \fBcancel\fR subcommands are used to complete the resource specification, at
1134 which time the scope is reverted back to global. Certain subcommands, such as
1135 \fBadd\fR, \fBremove\fR and \fBset\fR, have different semantics in each scope.
1136 .sp
1137 .LP
1138 \fBzonecfg\fR supports a semicolon-separated list of subcommands. For example:
1139 .sp
1140 .in +2
1141 .nf
1142 # \fBzonecfg -z myzone "add net; set physical=myvnic; end"\fR
1143 .fi
1144 .in -2
1145 .sp
1146
1147 .sp
1148 .LP
1149 Subcommands which can result in destructive actions or loss of work have an
1786
1787 .LP
1788 \fBExample 11 \fRDisplaying CPU Caps for a Specific Zone or Project
1789 .sp
1790 .LP
1791 Using the \fBkstat\fR \fB-c\fR and \fB-i\fR options, you can display CPU caps
1792 for a specific zone or project, as below. The first command produces a display
1793 for a specific project, the second for the same project within zone 1.
1794
1795 .sp
1796 .in +2
1797 .nf
1798 # \fBkstat -c project_caps\fR
1799
1800 # \fBkstat -c project_caps -i 1\fR
1801 .fi
1802 .in -2
1803 .sp
1804
1805 .SH EXIT STATUS
1806 .sp
1807 .LP
1808 The following exit values are returned:
1809 .sp
1810 .ne 2
1811 .na
1812 \fB\fB0\fR\fR
1813 .ad
1814 .sp .6
1815 .RS 4n
1816 Successful completion.
1817 .RE
1818
1819 .sp
1820 .ne 2
1821 .na
1822 \fB\fB1\fR\fR
1823 .ad
1824 .sp .6
1825 .RS 4n
1826 An error occurred.
1827 .RE
1828
1829 .sp
1830 .ne 2
1831 .na
1832 \fB\fB2\fR\fR
1833 .ad
1834 .sp .6
1835 .RS 4n
1836 Invalid usage.
1837 .RE
1838
1839 .SH ATTRIBUTES
1840 .sp
1841 .LP
1842 See \fBattributes\fR(5) for descriptions of the following attributes:
1843 .sp
1844
1845 .sp
1846 .TS
1847 box;
1848 c | c
1849 l | l .
1850 ATTRIBUTE TYPE ATTRIBUTE VALUE
1851 _
1852 Interface Stability Volatile
1853 .TE
1854
1855 .SH SEE ALSO
1856 .sp
1857 .LP
1858 \fBppriv\fR(1), \fBprctl\fR(1), \fBzlogin\fR(1), \fBkstat\fR(1M),
1859 \fBmount\fR(1M), \fBpooladm\fR(1M), \fBpoolcfg\fR(1M), \fBpoold\fR(1M),
1860 \fBrcapd\fR(1M), \fBrctladm\fR(1M), \fBsvcadm\fR(1M), \fBsysidtool\fR(1M),
1861 \fBzfs\fR(1M), \fBzoneadm\fR(1M), \fBpriv_str_to_set\fR(3C),
1862 \fBkstat\fR(3KSTAT), \fBvfstab\fR(4), \fBattributes\fR(5), \fBbrands\fR(5),
1863 \fBfnmatch\fR(5), \fBlx\fR(5), \fBprivileges\fR(5), \fBresource_controls\fR(5),
1864 \fBzones\fR(5)
1865 .sp
1866 .LP
1867 \fISystem Administration Guide: Solaris Containers-Resource Management, and
1868 Solaris Zones\fR
1869 .SH NOTES
1870 .sp
1871 .LP
1872 All character data used by \fBzonecfg\fR must be in US-ASCII encoding.
|
12 .nf
13 \fBzonecfg\fR \fB-z\fR \fIzonename\fR
14 .fi
15
16 .LP
17 .nf
18 \fBzonecfg\fR \fB-z\fR \fIzonename\fR \fIsubcommand\fR
19 .fi
20
21 .LP
22 .nf
23 \fBzonecfg\fR \fB-z\fR \fIzonename\fR \fB-f\fR \fIcommand_file\fR
24 .fi
25
26 .LP
27 .nf
28 \fBzonecfg\fR help
29 .fi
30
31 .SH DESCRIPTION
32 .LP
33 The \fBzonecfg\fR utility creates and modifies the configuration of a zone.
34 Zone configuration consists of a number of resources and properties.
35 .sp
36 .LP
37 To simplify the user interface, \fBzonecfg\fR uses the concept of a scope. The
38 default scope is global.
39 .sp
40 .LP
41 The following synopsis of the \fBzonecfg\fR command is for interactive usage:
42 .sp
43 .in +2
44 .nf
45 zonecfg \fB-z\fR \fIzonename subcommand\fR
46 .fi
47 .in -2
48 .sp
49
50 .sp
51 .LP
54 .sp
55 .LP
56 In addition to creating and modifying a zone, the \fBzonecfg\fR utility can
57 also be used to persistently specify the resource management settings for the
58 global zone.
59 .sp
60 .LP
61 In the following text, "rctl" is used as an abbreviation for "resource
62 control". See \fBresource_controls\fR(5).
63 .sp
64 .LP
65 Every zone is configured with an associated brand. The brand determines the
66 user-level environment used within the zone, as well as various behaviors for
67 the zone when it is installed, boots, or is shutdown. Once a zone has been
68 installed the brand cannot be changed. The default brand is determined by the
69 installed distribution in the global zone. Some brands do not support all of
70 the \fBzonecfg\fR properties and resources. See the brand-specific man page for
71 more details on each brand. For an overview of brands, see the \fBbrands\fR(5)
72 man page.
73 .SS "Resources"
74 .LP
75 The following resource types are supported:
76 .sp
77 .ne 2
78 .na
79 \fB\fBattr\fR\fR
80 .ad
81 .sp .6
82 .RS 4n
83 Generic attribute.
84 .RE
85
86 .sp
87 .ne 2
88 .na
89 \fB\fBcapped-cpu\fR\fR
90 .ad
91 .sp .6
92 .RS 4n
93 Limits for CPU usage.
146 .sp
147 .ne 2
148 .na
149 \fB\fBnet\fR\fR
150 .ad
151 .sp .6
152 .RS 4n
153 Network interface.
154 .RE
155
156 .sp
157 .ne 2
158 .na
159 \fB\fBrctl\fR\fR
160 .ad
161 .sp .6
162 .RS 4n
163 Resource control.
164 .RE
165
166 .sp
167 .ne 2
168 .na
169 \fB\fBsecurity-flags\fR\fR
170 .ad
171 .sp .6
172 .RS 4n
173 Process security flag settings.
174 .RE
175
176 .SS "Properties"
177 .LP
178 Each resource type has one or more properties. There are also some global
179 properties, that is, properties of the configuration as a whole, rather than of
180 some particular resource.
181 .sp
182 .LP
183 The following properties are supported:
184 .sp
185 .ne 2
186 .na
187 \fB(global)\fR
188 .ad
189 .sp .6
190 .RS 4n
191 \fBzonename\fR
192 .RE
193
194 .sp
195 .ne 2
196 .na
415 .ne 2
416 .na
417 \fB\fBcapped-memory\fR\fR
418 .ad
419 .sp .6
420 .RS 4n
421 \fBphysical\fR, \fBswap\fR, \fBlocked\fR
422 .RE
423
424 .sp
425 .ne 2
426 .na
427 \fB\fBcapped-cpu\fR\fR
428 .ad
429 .sp .6
430 .RS 4n
431 \fBncpus\fR
432 .RE
433
434 .sp
435 .ne 2
436 .na
437 \fB\fBsecurity-flags\fB\fB
438 .ad
439 .sp .6
440 .RS 4n
441 \fBlower\fR, \fBdefault\fR, \fBupper\fR.
442 .RE
443
444 .sp
445 .LP
446 As for the property values which are paired with these names, they are either
447 simple, complex, or lists. The type allowed is property-specific. Simple values
448 are strings, optionally enclosed within quotation marks. Complex values have
449 the syntax:
450 .sp
451 .in +2
452 .nf
453 (<\fIname\fR>=<\fIvalue\fR>,<\fIname\fR>=<\fIvalue\fR>,...)
454 .fi
455 .in -2
456 .sp
457
458 .sp
459 .LP
460 where each <\fIvalue\fR> is simple, and the <\fIname\fR> strings are unique
461 within a given property. Lists have the syntax:
462 .sp
463 .in +2
464 .nf
865 \fB\fBcapped-cpu\fR: ncpus\fR
866 .ad
867 .sp .6
868 .RS 4n
869 Sets a limit on the amount of CPU time that can be used by a zone. The unit
870 used translates to the percentage of a single CPU that can be used by all user
871 threads in a zone, expressed as a fraction (for example, \fB\&.75\fR) or a
872 mixed number (whole number and fraction, for example, \fB1.25\fR). An
873 \fBncpu\fR value of \fB1\fR means 100% of a CPU, a value of \fB1.25\fR means
874 125%, \fB\&.75\fR mean 75%, and so forth. When projects within a capped zone
875 have their own caps, the minimum value takes precedence.
876 .sp
877 The \fBcapped-cpu\fR property is an alias for \fBzone.cpu-cap\fR resource
878 control and is related to the \fBzone.cpu-cap\fR resource control. See
879 \fBresource_controls\fR(5).
880 .RE
881
882 .sp
883 .ne 2
884 .na
885 \fB\fBsecurity-flags\fR: lower, default, upper\fR
886 .ad
887 .sp .6
888 .RS 4n
889 Set the process security flags associated with the zone. The \fBlower\fR and
890 \fBupper\fR fields set the limits, the \fBdefault\fR field is set of flags all
891 zone processes inherit.
892 .RE
893
894 .sp
895 .ne 2
896 .na
897 \fBglobal: \fBfs-allowed\fR\fR
898 .ad
899 .sp .6
900 .RS 4n
901 A comma-separated list of additional filesystems that may be mounted within
902 the zone; for example "ufs,pcfs". By default, only hsfs(7fs) and network
903 filesystems can be mounted. If the first entry in the list is "-" then
904 that disables all of the default filesystems. If any filesystems are listed
905 after "-" then only those filesystems can be mounted.
906
907 This property does not apply to filesystems mounted into the zone via "add fs"
908 or "add dataset".
909
910 WARNING: allowing filesystem mounts other than the default may allow the zone
911 administrator to compromise the system with a malicious filesystem image, and
912 is not supported.
913 .RE
914
915 .sp
916 .LP
940 raw simple
941 type simple
942 options list of simple
943 net address simple
944 physical simple
945 device match simple
946 rctl name simple
947 value list of complex
948 attr name simple
949 type simple
950 value simple
951 dataset name simple
952 dedicated-cpu ncpus simple or range
953 importance simple
954
955 capped-memory physical simple with scale
956 swap simple with scale
957 locked simple with scale
958
959 capped-cpu ncpus simple
960 security-flags lower simple
961 default simple
962 upper simple
963 .fi
964 .in -2
965 .sp
966
967 .sp
968 .LP
969 To further specify things, the breakdown of the complex property "value" of the
970 "rctl" resource type, it consists of three name/value pairs, the names being
971 "priv", "limit" and "action", each of which takes a simple value. The "name"
972 property of an "attr" resource is syntactically restricted in a fashion similar
973 but not identical to zone names: it must begin with an alphanumeric, and can
974 contain alphanumerics plus the hyphen (\fB-\fR), underscore (\fB_\fR), and dot
975 (\fB\&.\fR) characters. Attribute names beginning with "zone" are reserved for
976 use by the system. Finally, the "autoboot" global property must have a value of
977 "true" or "false".
978 .SS "Using Kernel Statistics to Monitor CPU Caps"
979 .LP
980 Using the kernel statistics (\fBkstat\fR(3KSTAT)) module \fBcaps\fR, the system
981 maintains information for all capped projects and zones. You can access this
982 information by reading kernel statistics (\fBkstat\fR(3KSTAT)), specifying
983 \fBcaps\fR as the \fBkstat\fR module name. The following command displays
984 kernel statistics for all active CPU caps:
985 .sp
986 .in +2
987 .nf
988 # \fBkstat caps::'/cpucaps/'\fR
989 .fi
990 .in -2
991 .sp
992
993 .sp
994 .LP
995 A \fBkstat\fR(1M) command running in a zone displays only CPU caps relevant for
996 that zone and for projects in that zone. See \fBEXAMPLES\fR.
997 .sp
998 .LP
1111 .ad
1112 .sp .6
1113 .RS 4n
1114 The cap value, in terms of a percentage of a single CPU.
1115 .RE
1116
1117 .sp
1118 .ne 2
1119 .na
1120 \fB\fBzonename\fR\fR
1121 .ad
1122 .sp .6
1123 .RS 4n
1124 Name of the zone for which statistics are displayed.
1125 .RE
1126
1127 .sp
1128 .LP
1129 See \fBEXAMPLES\fR for sample output from a \fBkstat\fR command.
1130 .SH OPTIONS
1131 .LP
1132 The following options are supported:
1133 .sp
1134 .ne 2
1135 .na
1136 \fB\fB-f\fR \fIcommand_file\fR\fR
1137 .ad
1138 .sp .6
1139 .RS 4n
1140 Specify the name of \fBzonecfg\fR command file. \fIcommand_file\fR is a text
1141 file of \fBzonecfg\fR subcommands, one per line.
1142 .RE
1143
1144 .sp
1145 .ne 2
1146 .na
1147 \fB\fB-z\fR \fIzonename\fR\fR
1148 .ad
1149 .sp .6
1150 .RS 4n
1151 Specify the name of a zone. Zone names are case sensitive. Zone names must
1152 begin with an alphanumeric character and can contain alphanumeric characters,
1153 the underscore (\fB_\fR) the hyphen (\fB-\fR), and the dot (\fB\&.\fR). The
1154 name \fBglobal\fR and all names beginning with \fBSUNW\fR are reserved and
1155 cannot be used.
1156 .RE
1157
1158 .SH SUBCOMMANDS
1159 .LP
1160 You can use the \fBadd\fR and \fBselect\fR subcommands to select a specific
1161 resource, at which point the scope changes to that resource. The \fBend\fR and
1162 \fBcancel\fR subcommands are used to complete the resource specification, at
1163 which time the scope is reverted back to global. Certain subcommands, such as
1164 \fBadd\fR, \fBremove\fR and \fBset\fR, have different semantics in each scope.
1165 .sp
1166 .LP
1167 \fBzonecfg\fR supports a semicolon-separated list of subcommands. For example:
1168 .sp
1169 .in +2
1170 .nf
1171 # \fBzonecfg -z myzone "add net; set physical=myvnic; end"\fR
1172 .fi
1173 .in -2
1174 .sp
1175
1176 .sp
1177 .LP
1178 Subcommands which can result in destructive actions or loss of work have an
1815
1816 .LP
1817 \fBExample 11 \fRDisplaying CPU Caps for a Specific Zone or Project
1818 .sp
1819 .LP
1820 Using the \fBkstat\fR \fB-c\fR and \fB-i\fR options, you can display CPU caps
1821 for a specific zone or project, as below. The first command produces a display
1822 for a specific project, the second for the same project within zone 1.
1823
1824 .sp
1825 .in +2
1826 .nf
1827 # \fBkstat -c project_caps\fR
1828
1829 # \fBkstat -c project_caps -i 1\fR
1830 .fi
1831 .in -2
1832 .sp
1833
1834 .SH EXIT STATUS
1835 .LP
1836 The following exit values are returned:
1837 .sp
1838 .ne 2
1839 .na
1840 \fB\fB0\fR\fR
1841 .ad
1842 .sp .6
1843 .RS 4n
1844 Successful completion.
1845 .RE
1846
1847 .sp
1848 .ne 2
1849 .na
1850 \fB\fB1\fR\fR
1851 .ad
1852 .sp .6
1853 .RS 4n
1854 An error occurred.
1855 .RE
1856
1857 .sp
1858 .ne 2
1859 .na
1860 \fB\fB2\fR\fR
1861 .ad
1862 .sp .6
1863 .RS 4n
1864 Invalid usage.
1865 .RE
1866
1867 .SH ATTRIBUTES
1868 .LP
1869 See \fBattributes\fR(5) for descriptions of the following attributes:
1870 .sp
1871
1872 .sp
1873 .TS
1874 box;
1875 c | c
1876 l | l .
1877 ATTRIBUTE TYPE ATTRIBUTE VALUE
1878 _
1879 Interface Stability Volatile
1880 .TE
1881
1882 .SH SEE ALSO
1883 .LP
1884 \fBppriv\fR(1), \fBprctl\fR(1), \fBzlogin\fR(1), \fBkstat\fR(1M),
1885 \fBmount\fR(1M), \fBpooladm\fR(1M), \fBpoolcfg\fR(1M), \fBpoold\fR(1M),
1886 \fBrcapd\fR(1M), \fBrctladm\fR(1M), \fBsvcadm\fR(1M), \fBsysidtool\fR(1M),
1887 \fBzfs\fR(1M), \fBzoneadm\fR(1M), \fBpriv_str_to_set\fR(3C),
1888 \fBkstat\fR(3KSTAT), \fBvfstab\fR(4), \fBattributes\fR(5), \fBbrands\fR(5),
1889 \fBfnmatch\fR(5), \fBlx\fR(5), \fBprivileges\fR(5), \fBresource_controls\fR(5),
1890 \fBsecurity-flags\fR(5), \fBzones\fR(5)
1891 .sp
1892 .LP
1893 \fISystem Administration Guide: Solaris Containers-Resource Management, and
1894 Solaris Zones\fR
1895 .SH NOTES
1896 .LP
1897 All character data used by \fBzonecfg\fR must be in US-ASCII encoding.
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