1smi_node(3)           SMI Management Information Library           smi_node(3)
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NAME

6       smiGetNode,  smiGetNodeByOID,  smiGetFirstNode, smiGetNextNode, smiGet‐
7       ParentNode,    smiGetRelatedNode,     smiGetFirstChildNode,     smiGet‐
8       NextChildNode,    smiGetNodeModule,   smiGetNodeType,   smiGetNodeLine,
9       smiGetFirstElement,   smiGetNextElement,   smiGetElementNode,   smiGet‐
10       FirstOption, smiGetNextOption, smiGetOptionNode, smiGetFirstRefinement,
11       smiGetNextRefinement,   smiGetRefinementModule,   smiGetRefinementNode,
12       smiGetRefinementType,  smiGetRefinementWriteType - SMI type information
13       routines
14

SYNOPSIS

16       #include <smi.h>
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18       SmiNode *smiGetNode(SmiModule *smiModulePtr, char *node);
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20       SmiNode *smiGetNodeByOID(unsigned int oidlen, Subid oid[]);
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22       SmiNode *smiGetFirstNode(SmiModule *smiModulePtr, SmiNodekind kinds);
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24       SmiNode *smiGetNextNode(SmiNode *smiNodePtr, SmiNodekind kinds);
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26       SmiNode *smiGetParentNode(SmiNode *smiNodePtr);
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28       SmiNode *smiGetRelatedNode(SmiNode *smiNodePtr);
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30       SmiNode *smiGetFirstChildNode(SmiNode *smiNodePtr);
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32       SmiNode *smiGetNextChildNode(SmiNode *smiNodePtr);
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34       SmiModule *smiGetNodeModule(SmiNode *smiNodePtr);
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36       SmiType *smiGetNodeType(SmiNode *smiNodePtr);
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38       int smiGetNodeLine(SmiNode *smiNodePtr);
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40       SmiElement *smiGetFirstElement(SmiNode *smiNodePtr);
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42       SmiElement *smiGetNextElement(SmiElement *smiElementPtr);
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44       SmiNode *smiGetElementNode(SmiElement *smiElementPtr);
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46       SmiOption *smiGetFirstOption(SmiNode *smiComplianceNodePtr);
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48       SmiOption *smiGetNextOption(SmiOption *smiOptionPtr);
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50       SmiNode *smiGetOptionNode(SmiOption *smiOptionPtr);
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52       SmiRefinement *smiGetFirstRefinement(SmiNode *smiComplianceNodePtr);
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54       SmiRefinement *smiGetNextRefinement(SmiRefinement *smiRefinementPtr);
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56       SmiNode *smiGetRefinementNode(SmiRefinement *smiRefinementPtr);
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58       SmiType *smiGetRefinementType(SmiRefinement *smiRefinementPtr);
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60       SmiType *smiGetRefinementWriteType(SmiRefinement *smiRefinementPtr);
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62       typedef struct SmiNode {
63           SmiIdentifier       name;
64           int                 oidlen;
65           SmiSubid            *oid;         /* array of length oidlen */
66           SmiDecl             decl;
67           SmiAccess           access;
68           SmiStatus           status;
69           char                *format;
70           SmiValue            value;
71           char                *units;
72           char                *description;
73           char                *reference;
74           SmiIndexkind        indexkind;
75           int                 implied;
76           int                 create;
77           SmiNodekind         nodekind;
78       } SmiNode;
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80       typedef struct SmiElement {
81           /* no visible attributes */
82       } SmiElement;
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84       typedef struct SmiOption {
85           char                *description;
86       } SmiOption;
87
88       typedef struct SmiRefinement {
89           SmiAccess           access;
90           char                *description;
91       } SmiRefinement;
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93

DESCRIPTION

95       These functions retrieve information on any SMI node definition in  the
96       object  identifier tree, these are ASN.1 object identifier assignments,
97       MODULE-IDENTITYs, OBJECT-IDENTITYs,  OBJECT-TYPEs,  NOTIFICATION-TYPEs,
98       TRAP-TYPEs, OBJECT-GROUPs, NOTIFICATION-GROUPs, MODULE-COMPLIANCEs, and
99       AGENT-CAPABILITYs in SMIv1/v2 and node,  scalar,  table,  row,  column,
100       notification, group, and compliance statements in SMIng.
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102       The  smiGetNode() function retrieves a struct SmiNode that represents a
103       node of any kind. Node may be either a fully  qualified  descriptor,  a
104       simple  node  name,  or a numerical OID.  Nodes are also found, if node
105       contains an instance identifier suffix.  If smiModulePtr is not NULL it
106       used to limit the search to the given module. If the node is not found,
107       smiGetNode() returns NULL.
108
109       The smiGetNodeByOID() function retrieves a struct SmiNode that  matches
110       the  longest prefix of the node that is specified by the object identi‐
111       fier oid[] with the length oidlen.  If  no  such  node  is  not  found,
112       smiGetNodeByOID() returns NULL.
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114       The smiGetFirstNode() and smiGetNextNode() functions are used to itera‐
115       tively retrieve struct SmiNodes in tree  pre-order.   smiGetFirstNode()
116       returns  the first node defined in the module specified by smiModulePtr
117       that is of any kind specified in the kinds bitset.  Subsequent calls to
118       smiGetNextNode()  return  the  next  node  of any kind specified in the
119       kinds bitset. If there are no more node definitions in the module, NULL
120       is returned.
121
122       The smiGetFirstChildNode() and smiGetNextChildNode() functions are used
123       to iteratively retrieve struct SmiNodes that  represent  the  immediate
124       child  nodes  of the node specified by smiNodePtr passed to the smiGet‐
125       FirstChildNode() call.
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127       The smiGetParentNode() function is used to retrieve a  struct  SmiNodes
128       that represents the parent node of the node specified by smiNodePtr.
129
130       The  smiGetRelatedNode() function is used to retrieve a struct SmiNodes
131       that is related to the node specified by smiNodePtr. Actually, this  is
132       used for SMIv2 table augmentation entries and similar SMIng constructs.
133
134       The  smiGetNodeModule()  function  returns  the module that defines the
135       node given by struct SmiNodePtr.
136
137       The smiGetNodeType() function returns the type of the (scalar or colum‐
138       nar)  node  given  by struct SmiNodePtr.  If struct SmiNodePtr does not
139       specify a scalar or columnar node, NULL is returned.
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141       The smiGetFirstElement() and smiGetNextElement() functions are used  to
142       iteratively  retrieve  struct  SmiElements  that  represent elements of
143       index clauses or notification object lists, groups of object  types  or
144       notification  types,  and  mandatory groups of module compliance state‐
145       ments. The node to which the list belongs has to be specified by  smiN‐
146       odePtr.  To  retrieve  the node that is represented by a struct SmiEle‐
147       ment, the smiGetElementNode() function has to be called.
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149       The smiGetFirstOption() and smiGetNextOption() functions  are  used  to
150       iteratively  retrieve  struct  SmiOptions  that represent statements on
151       optional (object or notification) groups within the  compliance  state‐
152       ment specified by smiComplianceNodePtr. The group node which is subject
153       of such a statement can be retrieved by  the  smiGetOptionNode()  func‐
154       tion.
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156       Similarly, the smiGetFirstRefinement() and smiGetNextRefinement() func‐
157       tions are used to iteratively retrieve struct SmiRefinements that  rep‐
158       resent  statements on optional object refinements within the compliance
159       statement specified by smiComplianceNodePtr. The node which is  subject
160       of  such  a  refinement  can be retrieved by the smiGetRefinementNode()
161       function. The optional refined type and write-type of a refinement  can
162       be  retrieved  by the smiGetRefinementType() and smiGetRefinementWrite‐
163       Type() functions. If they are not present, NULL is returned.
164
165       The smiGetNodeLine() function returns the line number within the module
166       where the node specified by smiNodePtr is defined.
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FILES

169       /usr/include/smi.h    SMI library header file
170

SEE ALSO

172       libsmi(3), smi_config(3), smi_type(3), smi_module(3), smi.h
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AUTHOR

175       (C)    1999-2004    Frank    Strauss,    TU    Braunschweig,    Germany
176       <strauss@ibr.cs.tu-bs.de>
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180IBR                             March 30, 2004                     smi_node(3)
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