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File: [OMI] / omi / mof / mof.l
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Revision: 1.3, Mon Apr 20 17:19:53 2015 UTC (9 years ago) by krisbash Branch: MAIN CVS Tags: OMI_1_0_8_2, OMI_1_0_8_1, HEAD Changes since 1.2: +101 -6 lines OMI 1.0.8-1 |
/*
**==============================================================================
**
** mof.lex
**
** This file defines a lexigraphical analyzer for the Managed Object Format
** (MOF). See the BNF in the CIM Infrastructure Specification.
**
**==============================================================================
*/
%{
/* Do not read from standard input */
#define YY_NEVER_INTERACTIVE 1
#define MOF_STACK_SIZE 32
#include "config.h"
#include "mof.h"
#include "types.h"
#include "mofyacc.h"
#include "buffer.h"
#include "ptrarray.h"
#include "state.h"
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
extern int yyparse();
int closeIncludeFile();
struct _MOF_Parser
{
MOF_State state;
};
typedef struct _StackItem
{
char* file;
unsigned int line;
YY_BUFFER_STATE buffer;
}
StackItem;
/* Stack of parser states for open nested MOF files */
static StackItem s_stack[MOF_STACK_SIZE];
/* Current size of stack s_stack[s_top-1] is the top */
static size_t s_top = 0;
%}
/*
**==============================================================================
**
** Case-insensitive keywords (see CIM Infrastructure specification).
**
**==============================================================================
*/
/* True and false */
TRUE [Tt][Rr][Uu][Ee]
FALSE [Ff][Aa][Ll][Ss][Ee]
/* Null value */
NULL [Nn][Uu][Ll][Ll]
/* Data types */
DT_BOOLEAN [Bb][Oo][Oo][Ll][Ee][Aa][Nn]
DT_SINT8 [Ss][Ii][Nn][Tt]8
DT_UINT8 [Uu][Ii][Nn][Tt]8
DT_SINT16 [Ss][Ii][Nn][Tt]16
DT_UINT16 [Uu][Ii][Nn][Tt]16
DT_SINT32 [Ss][Ii][Nn][Tt]32
DT_UINT32 [Uu][Ii][Nn][Tt]32
DT_SINT64 [Ss][Ii][Nn][Tt]64
DT_UINT64 [Uu][Ii][Nn][Tt]64
DT_REAL32 [Rr][Ee][Aa][Ll]32
DT_REAL64 [Rr][Ee][Aa][Ll]64
DT_DATETIME [Dd][Aa][Tt][Ee][Tt][Ii][Mm][Ee]
DT_CHAR16 [Cc][Hh][Aa][Rr]16
DT_STRING [Ss][Tt][Rr][Ii][Nn][Gg]
/* Ref */
REF [Rr][Ee][Ff]
/* Scope */
SCOPE [Ss][Cc][Oo][Pp][Ee]
CLASS [Cc][Ll][Aa][Ss][Ss]
ASSOCIATION [Aa][Ss][Ss][Oo][Cc][Ii][Aa][Tt][Ii][Oo][Nn]
INDICATION [Ii][Nn][Dd][Ii][Cc][Aa][Tt][Ii][Oo][Nn]
QUALIFIER [Qq][Uu][Aa][Ll][Ii][Ff][Ii][Ee][Rr]
PROPERTY [Pp][Rr][Oo][Pp][Ee][Rr][Tt][Yy]
REFERENCE [Rr][Ee][Ff][Ee][Rr][Ee][Nn][Cc][Ee]
METHOD [Mm][Ee][Tt][Hh][Oo][Dd]
PARAMETER [Pp][Aa][Rr][Aa][Mm][Ee][Tt][Ee][Rr]
ANY [Aa][Nn][Yy]
/* Flavor */
FLAVOR [Ff][Ll][Aa][Vv][Oo][Rr]
ENABLEOVERRIDE [Ee][Nn][Aa][Bb][Ll][Ee][Oo][Vv][Ee][Rr][Rr][Ii][Dd][Ee]
DISABLEOVERRIDE [Dd][Ii][Ss][Aa][Bb][Ll][Ee][Oo][Vv][Ee][Rr][Rr][Ii][Dd][Ee]
RESTRICTED [Rr][Ee][Ss][Tt][Rr][Ii][Cc][Tt][Ee][Dd]
TOSUBCLASS [Tt][Oo][Ss][Uu][Bb][Cc][Ll][Aa][Ss][Ss]
TOINSTANCE [Tt][Oo][Ii][Nn][Ss][Tt][Aa][Nn][Cc][Ee]
TRANSLATABLE [Tt][Rr][Aa][Nn][Ss][Ll][Aa][Tt][Aa][Bb][Ll][Ee]
/* Instance of */
INSTANCE [Ii][Nn][Ss][Tt][Aa][Nn][Cc][Ee]
OF [Oo][Ff]
/* Object */
OBJECT [Oo][Bb][Jj][Ee][Cc][Tt]
/* Alias */
AS [Aa][Ss]
/* #pragma */
PRAGMA \#[Pp][Rr][Aa][Gg][Mm][Aa][ ]
/*
**==============================================================================
**
** Literal productions (see CIM Infrastructure specification).
**
**==============================================================================
*/
simpleChar \'[^\']\'
escapedChar \'\\[rntfb\"\'\\]\'
hexChar \'\\[xX][A-Fa-f0-9]+\'
realValue [+-]?[0-9]*\.[0-9]+([eE][+-]?[0-9]+)?
hexValue [+-]?0[xX][A-Fa-f0-9]+
decimalValue [+-]?[1-9][0-9]*
octalValue [+-]?0[0-7]+
binaryValue [+-]?[01]+[Bb]
blank [ \r\n\t]
identifier [A-Za-z_][A-Za-z_0-9]*
aliasIdentifier \$[A-Za-z_][A-Za-z_0-9]*
whiteSpaceChar [ \r\n\t\b\f]
/*
**------------------------------------------------------------------------------
**
** Lex productions:
**
**------------------------------------------------------------------------------
*/
%%
<<EOF>> {
if (s_top == 0)
yyterminate();
else
{
if (closeIncludeFile() != 0)
return TOK_ERROR;
}
}
{TRUE} {
yylval.boolean = 1;
return TOK_BOOLEAN_VALUE;
}
{FALSE} {
yylval.boolean = 0;
return TOK_BOOLEAN_VALUE;
}
{NULL} {
return TOK_NULL;
}
{DT_BOOLEAN} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_BOOLEAN;
}
{DT_SINT8} {
return TOK_SINT8;
}
{DT_UINT8} {
return TOK_UINT8;
}
{DT_SINT16} {
return TOK_SINT16;
}
{DT_UINT16} {
return TOK_UINT16;
}
{DT_SINT32} {
return TOK_SINT32;
}
{DT_UINT32} {
return TOK_UINT32;
}
{DT_SINT64} {
return TOK_SINT64;
}
{DT_UINT64} {
return TOK_UINT64;
}
{DT_REAL32} {
return TOK_REAL32;
}
{DT_REAL64} {
return TOK_REAL64;
}
{DT_DATETIME} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_DATETIME;
}
{DT_CHAR16} {
return TOK_CHAR16;
}
{DT_STRING} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_STRING;
}
{REF} {
return TOK_REF;
}
{SCOPE} {
return TOK_SCOPE;
}
{CLASS} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_CLASS;
}
{ASSOCIATION} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_ASSOCIATION;
}
{INDICATION} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_INDICATION;
}
{QUALIFIER} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_QUALIFIER;
}
{PROPERTY} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_PROPERTY;
}
{REFERENCE} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_REFERENCE;
}
{METHOD} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_METHOD;
}
{PARAMETER} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_PARAMETER;
}
{ANY} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_ANY;
}
{FLAVOR} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_FLAVOR;
}
{ENABLEOVERRIDE} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_ENABLEOVERRIDE;
}
{DISABLEOVERRIDE} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_DISABLEOVERRIDE;
}
{RESTRICTED} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_RESTRICTED;
}
{TOSUBCLASS} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_TOSUBCLASS;
}
{TOINSTANCE} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_TOINSTANCE;
}
{TRANSLATABLE} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_TRANSLATABLE;
}
{INSTANCE} {
return TOK_INSTANCE;
}
{OF} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_OF;
}
{AS} {
return TOK_AS;
}
{OBJECT} {
return TOK_OBJECT;
}
{PRAGMA} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_PRAGMA;
}
\/\* {
/* C-sytle comments */
int c;
int prev;
/* Discard C-style comments. Replace with a single space since
* comments may function as token separators.
*/
for (c = input(), prev = '\0'; EOF != c; prev = c, c = input())
{
/* Check for closing comment */
if (prev == '*' && c == '/')
break;
/* Increment line counter on newlines */
if (c == '\n')
state.line++;
}
/* Inject a blank character into input */
unput(' ');
}
\/\/ {
/* C++-style comments */
int c;
/* Discard all characters on this comment line including the newline */
for (c = input(); EOF != c; c = input())
{
/* Increment line counter on newlines */
if (c == '\n')
{
state.line++;
break;
}
}
}
\" {
/* Read a string literal */
int c;
Buffer buf = BUFFER_INITIALIZER;
/* Scan until the closing quote is found */
for (;;)
{
c = input();
if (EOF == c || c == '"')
break;
if (Buffer_AppendChar(&buf, (char)c) != 0)
{
yyerrorf(ID_OUT_OF_MEMORY, "out of memory");
return TOK_ERROR;
}
/* If backslash, get next character */
if (c == '\\')
{
c = input();
if (EOF == c)
{
yyerrorf(ID_UNTERMINATED_STRING_LITERAL,
"unterminated string literal");
return TOK_ERROR;
}
if (Buffer_AppendChar(&buf, (char)c) != 0)
{
yyerrorf(ID_OUT_OF_MEMORY, "out of memory");
return TOK_ERROR;
}
}
}
/* Append zero-terminator */
if (Buffer_AppendChar(&buf, '\0') != 0)
{
yyerrorf(ID_OUT_OF_MEMORY, "out of memory");
return TOK_ERROR;
}
/* Return the string */
yylval.string = buf.data;
return TOK_STRING_VALUE;
}
{simpleChar} {
yylval.character = yytext[1];
return TOK_CHAR_VALUE;
}
{escapedChar} {
switch (yytext[2])
{
case 'r':
yylval.character = '\r';
break;
case 'n':
yylval.character = '\n';
break;
case 't':
yylval.character = '\t';
break;
case 'f':
yylval.character = '\f';
break;
case 'b':
yylval.character = '\b';
break;
case '\"':
yylval.character = '"';
break;
case '\'':
yylval.character = '\'';
break;
case '\\':
yylval.character = '\\';
break;
default:
yyerrorf(ID_INTERNAL_ERROR, "internal error");
return TOK_ERROR;
}
return TOK_CHAR_VALUE;
}
{hexChar} {
char* end;
if (yyleng - 4 > 4)
{
yyerrorf(ID_ILLEGAL_HEX_CHARACTER, "illegal hex character");
return TOK_ERROR;
}
yylval.character = (MI_Char16)strtoul(&yytext[3], &end, 16);
if (*end != '\'')
{
yyerrorf(ID_ILLEGAL_HEX_CHARACTER, "illegal hex character");
return TOK_ERROR;
}
return TOK_CHAR_VALUE;
}
[+-]?0 {
yylval.integer = 0;
return TOK_INTEGER_VALUE;
}
{decimalValue} {
errno = 0;
if (yytext[0] == '-')
yylval.integer = (MI_Sint64)Strtoll(yytext, NULL, 10);
else
yylval.integer = (MI_Sint64)Strtoull(yytext, NULL, 10);
if (errno == ERANGE)
{
yyerrorf(ID_INTEGER_OVERFLOW, "integer overflow");
return TOK_ERROR;
}
return TOK_INTEGER_VALUE;
}
{realValue} {
yylval.real = (double)strtod(yytext, NULL);
return TOK_REAL_VALUE;
}
{hexValue} {
errno = 0;
if (yytext[0] == '-')
yylval.integer = (MI_Sint64)Strtoll(yytext, NULL, 16);
else
yylval.integer = (MI_Sint64)Strtoull(yytext, NULL, 16);
if (errno == ERANGE)
{
yyerrorf(ID_INTEGER_OVERFLOW, "integer overflow");
return TOK_ERROR;
}
return TOK_INTEGER_VALUE;
}
{octalValue} {
errno = 0;
if (yytext[0] == '-')
yylval.integer = (MI_Sint64)Strtoll(yytext, NULL, 8);
else
yylval.integer = (MI_Sint64)Strtoull(yytext, NULL, 8);
if (errno == ERANGE)
{
yyerrorf(ID_INTEGER_OVERFLOW, "integer overflow");
return TOK_ERROR;
}
return TOK_INTEGER_VALUE;
}
{binaryValue} {
char* end;
if (yytext[0] == '-')
yylval.integer = (MI_Sint64)Strtoll(yytext, &end, 2);
else
yylval.integer = (MI_Sint64)Strtoull(yytext, &end, 2);
if (*end != 'B' && *end != 'b')
{
yyerrorf(ID_ILLEGAL_BINARY_LITERAL, "illegal binary literal");
return TOK_ERROR;
}
if (errno == ERANGE)
{
yyerrorf(ID_INTEGER_OVERFLOW, "integer overflow");
return TOK_ERROR;
}
return TOK_INTEGER_VALUE;
}
{identifier} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_IDENT;
}
{aliasIdentifier} {
yylval.identifier = MOF_Strdup(&state.heap, yytext);
return TOK_ALIAS_IDENTIFIER;
}
\= {
return '=';
}
\( {
return '(';
}
\) {
return ')';
}
\[ {
return '[';
}
\] {
return ']';
}
\{ {
return '{';
}
\} {
return '}';
}
\: {
return ':';
}
\; {
return ';';
}
\, {
return ',';
}
{whiteSpaceChar}+ {
/* swallow whiteSpaceChar */
int i;
for (i = 0; i < yyleng; i++)
{
if (yytext[i] == '\n')
state.line++;
}
}
. {
yyterminate();
}
%%
/*
**==============================================================================
**
** Function definitions
**
**==============================================================================
*/
int yywrap()
{
/* Return 1 to indicate the end of input */
return 1;
}
static int exists(const char* path)
{
if (access(path, R_OK) != 0)
return -1;
return 0;
}
static char* findIncludeFile(const char* path)
{
/* First attempt to locate the file relative to the one that included it */
{
Buffer buf = BUFFER_INITIALIZER;
char* p;
p = strrchr(state.path, '/');
if (p)
{
if (Buffer_Append(&buf, state.path, p - state.path + 1) != 0)
return NULL;
}
if (Buffer_Append(&buf, path, strlen(path) + 1) != 0)
return NULL;
if (exists((const char*)buf.data) == 0)
return (char*)buf.data;
}
/* Attempt to open the file relative to the current directory */
{
if (exists(path) == 0)
return MOF_Strdup(&state.heap, path);
}
/* Search for file using include path array */
{
size_t i;
for (i = 0; i < state.paths.size; i++)
{
const char* p = (const char*)state.paths.data[i];
Buffer buf = BUFFER_INITIALIZER;
if (Buffer_Append(&buf, p, strlen(p)) != 0)
return NULL;
if (Buffer_AppendChar(&buf, '/') != 0)
return NULL;
if (Buffer_Append(&buf, path, strlen(path) + 1) != 0)
return NULL;
if (exists((char*)buf.data) == 0)
return (char*)buf.data;
MOF_Free(&state.heap, buf.data);
}
}
/* Not found */
return NULL;
}
int openIncludeFile(const char* path_)
{
FILE* is;
char* path;
if ((path = findIncludeFile(path_)) == NULL)
{
yyerrorf(ID_FAILED_TO_FIND_INCLUDE_FILE,
"failed to find inlude file: \"%s\"", path_);
return -1;
}
/* Check for stack overflow. */
if (s_top >= MOF_STACK_SIZE)
{
yyerrorf(ID_MOF_STACK_OVERFLOW, "MOF file stack overflow");
return -1;
}
/* Open the file */
if ((is = File_Open(path, "rb")) == NULL)
{
yyerrorf(ID_FAILED_TO_OPEN_FILE, "failed to open file: \"%s\"", path);
return -1;
}
/* Push current state onto stack. */
s_stack[s_top].file = state.path;
s_stack[s_top].line = state.line;
s_stack[s_top].buffer = YY_CURRENT_BUFFER;
s_top++;
/* Setup state for new file */
yy_switch_to_buffer(yy_create_buffer(is, YY_BUF_SIZE));
state.path = MOF_Strdup(&state.heap, path);
state.line = 1;
return 0;
}
int closeIncludeFile()
{
/* Check for stack underflow. */
if (s_top == 0)
{
yyerrorf(ID_MOF_STACK_UNDERFLOW, "MOF file stack underflow");
return -1;
}
/* Release current state */
MOF_Free(&state.heap, state.path);
fclose(YY_CURRENT_BUFFER->yy_input_file);
yy_delete_buffer(YY_CURRENT_BUFFER);
/* Restore state from top of stack */
s_top--;
state.path = s_stack[s_top].file;
state.line = s_stack[s_top].line;
yy_switch_to_buffer(s_stack[s_top].buffer);
return 0;
}
/*
**==============================================================================
**
** MOF_Parser
**
**==============================================================================
*/
MOF_Parser* MOF_Parser_New(
const char* const* paths,
size_t numPaths)
{
MOF_Parser* self = (MOF_Parser*)PAL_Calloc(1, sizeof(MOF_Parser));
size_t i;
char* str;
if (!self)
return NULL;
for (i = 0; i < numPaths; i++)
{
str = MOF_Strdup(&self->state.heap, paths[i]);
if (!str)
{
MOF_Release(&self->state.heap);
PAL_Free(self);
return NULL;
}
/* PtrArray_Append() uses the global state's heap object to
* obtain memory, so install self->state as the global state
* object temporarily.
*/
{
state = self->state;
PtrArray_Append(&state.paths, str);
self->state = state;
memset(&state, 0, sizeof(state));
}
}
return self;
}
void MOF_Parser_SetErrorCallback(
MOF_Parser* self,
void (*callback)(const char* msg, const wchar_t* wmsg, void* data),
void* data)
{
if (self)
{
self->state.errorCallback = callback;
self->state.errorCallbackData = data;
}
}
void MOF_Parser_SetWarningCallback(
MOF_Parser* self,
void (*callback)(const char* msg, const wchar_t* wmsg, void* data),
void* data)
{
if (self)
{
self->state.warningCallback = callback;
self->state.warningCallbackData = data;
}
}
void MOF_Parser_SetPragmaCallback(
MOF_Parser* self,
void (*callback)(const char* pragma, const char* value, void* data),
void* data)
{
if (self)
{
self->state.pragmaCallback = callback;
self->state.pragmaCallbackData = data;
}
}
void MOF_Parser_SetClassDeclCallback(
MOF_Parser* self,
void (*callback)(const MI_ClassDecl* decl, void* data),
void* data)
{
if (self)
{
self->state.classDeclCallback = callback;
self->state.classDeclCallbackData = data;
}
}
void MOF_Parser_SetInstanceDeclCallback(
MOF_Parser* self,
void (*callback)(const MI_InstanceDecl* decl, void* data),
void* data)
{
if (self)
{
self->state.instanceDeclCallback = callback;
self->state.instanceDeclCallbackData = data;
}
}
void MOF_Parser_SetQualifierDeclCallback(
MOF_Parser* self,
void (*callback)(const MI_QualifierDecl* decl, void* data),
void* data)
{
if (self)
{
self->state.qualifierDeclCallback = callback;
self->state.qualifierDeclCallbackData = data;
}
}
void MOF_Parser_Delete(MOF_Parser* self)
{
if (self)
{
MOF_Release(&self->state.heap);
PAL_Free(self);
}
}
/* Handle multiple calls to this function */
int MOF_Parser_Parse(MOF_Parser* self, const char* path)
{
/* Reject null parameters */
if (!self || !path)
return -1;
/* Clear stack */
s_top = 0;
/* Set global state */
state = self->state;
/* Open input */
yyin = File_Open(path, "rb");
if (!yyin)
{
yyerrorf(ID_FAILED_TO_OPEN_FILE, "failed to open file: %s", path);
self->state = state;
memset(&state.heap, 0, sizeof(state));
return -1;
}
/* Save path */
state.path = MOF_Strdup(&state.heap, path);
/* Set initialize line number */
state.line = 1;
/* Clear the parser state */
yy_c_buf_p = 0;
yy_last_accepting_cpos = 0;
yy_init = 1;
/* Run the parser */
if (yyparse() != 0)
{
fclose(yyin);
yy_delete_buffer(YY_CURRENT_BUFFER);
self->state = state;
memset(&state.heap, 0, sizeof(state));
return -1;
}
/* Perform post processing (which requires first pass completion) */
if (PerformPostProcessing() != 0)
{
fclose(yyin);
yy_delete_buffer(YY_CURRENT_BUFFER);
self->state = state;
memset(&state.heap, 0, sizeof(state));
return -1;
}
/* Close stream and release parse buffer */
fclose(yyin);
yy_delete_buffer(YY_CURRENT_BUFFER);
/* Restore state */
self->state = state;
memset(&state.heap, 0, sizeof(state));
return 0;
}
/* Parse a MOF string */
int MOF_Parser_ParseString(MOF_Parser* self, const char* mof_string)
{
YY_BUFFER_STATE bp;
/* Reject null parameters */
if (!self || !mof_string)
return -1;
/* Clear stack */
s_top = 0;
/* Set global state */
state = self->state;
/* Save path */
state.path = MOF_Strdup(&state.heap, "MOF string");
/* Set initialize line number */
state.line = 1;
/* Clear the parser state */
yy_c_buf_p = 0;
yy_last_accepting_cpos = 0;
yy_init = 1;
/* Run the parser */
bp = yy_scan_string(mof_string);
yy_switch_to_buffer(bp);
if (yyparse() != 0)
{
yy_delete_buffer(bp);
self->state = state;
memset(&state.heap, 0, sizeof(state));
return -1;
}
/* Perform post processing (which requires first pass completion) */
if (PerformPostProcessing() != 0)
{
yy_delete_buffer(bp);
self->state = state;
memset(&state.heap, 0, sizeof(state));
return -1;
}
/* Close stream and release parse buffer */
yy_delete_buffer(bp);
/* Restore state */
self->state = state;
memset(&state.heap, 0, sizeof(state));
return 0;
}
void MOF_Parser_Dump(MOF_Parser* self, FILE* file)
{
size_t i;
for (i = 0; i < self->state.qualifierDecls.size; i++)
MOF_PrintQualifierDecl(self->state.qualifierDecls.data[i], file);
for (i = 0; i < self->state.classDecls.size; i++)
MOF_PrintClassDecl(self->state.classDecls.data[i], file);
for (i = 0; i < self->state.instanceDecls.size; i++)
MOF_PrintInstanceDecl(self->state.instanceDecls.data[i], file);
}
void MOF_Parser_EnableExtensions(MOF_Parser* self, MI_Boolean enabled)
{
self->state.extensionsEnabled = enabled;
return;
}
| ViewCVS 0.9.2 |