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|
/* vm.c - the arithmetic stack of a virtual machine.
*
* Module begun 2008-02-22 by Rainer Gerhards
*
* Copyright 2008 Rainer Gerhards and Adiscon GmbH.
*
* This file is part of the rsyslog runtime library.
*
* The rsyslog runtime library is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* The rsyslog runtime library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with the rsyslog runtime library. If not, see <http://www.gnu.org/licenses/>.
*
* A copy of the GPL can be found in the file "COPYING" in this distribution.
* A copy of the LGPL can be found in the file "COPYING.LESSER" in this distribution.
*/
#include "config.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <ctype.h>
#include "rsyslog.h"
#include "obj.h"
#include "vm.h"
#include "sysvar.h"
#include "stringbuf.h"
/* static data */
DEFobjStaticHelpers
DEFobjCurrIf(vmstk)
DEFobjCurrIf(var)
DEFobjCurrIf(sysvar)
/* ------------------------------ function registry code and structures ------------------------------ */
/* we maintain a registry of known functions */
/* currently, this is a singly-linked list, this shall become a binary
* tree when we add the real call interface. So far, entries are added
* at the root, only.
*/
typedef struct s_rsf_entry {
cstr_t *pName; /* function name */
prsf_t rsf; /* pointer to function code */
struct s_rsf_entry *pNext; /* Pointer to next element or NULL */
} rsf_entry_t;
rsf_entry_t *funcRegRoot = NULL;
/* add a function to the function registry.
* The handed-over cstr_t* object must no longer be used by the caller.
* A duplicate function name is an error.
* rgerhards, 2009-04-06
*/
static rsRetVal
rsfrAddFunction(uchar *szName, prsf_t rsf)
{
rsf_entry_t *pEntry;
size_t lenName;
DEFiRet;
assert(szName != NULL);
assert(rsf != NULL);
/* first check if we have a duplicate name, with the current approach this means
* we need to go through the whole list.
*/
lenName = strlen((char*)szName);
for(pEntry = funcRegRoot ; pEntry != NULL ; pEntry = pEntry->pNext)
if(!rsCStrSzStrCmp(pEntry->pName, szName, lenName))
ABORT_FINALIZE(RS_RET_DUP_FUNC_NAME);
/* unique name, so add to head of list */
CHKmalloc(pEntry = calloc(1, sizeof(rsf_entry_t)));
CHKiRet(rsCStrConstructFromszStr(&pEntry->pName, szName));
CHKiRet(cstrFinalize(pEntry->pName));
pEntry->rsf = rsf;
pEntry->pNext = funcRegRoot;
funcRegRoot = pEntry;
finalize_it:
RETiRet;
}
/* find a function inside the function registry
* The caller provides a cstr_t with the function name and receives
* a function pointer back. If no function is found, an RS_RET_UNKNW_FUNC
* error is returned. So if the function returns with RS_RET_OK, the caller
* can savely assume the function pointer is valid.
* rgerhards, 2009-04-06
*/
static rsRetVal
findRSFunction(cstr_t *pcsName, prsf_t *prsf)
{
rsf_entry_t *pEntry;
rsf_entry_t *pFound;
DEFiRet;
assert(prsf != NULL);
/* find function by list walkthrough. */
pFound = NULL;
for(pEntry = funcRegRoot ; pEntry != NULL && pFound == NULL ; pEntry = pEntry->pNext)
if(!rsCStrCStrCmp(pEntry->pName, pcsName))
pFound = pEntry;
if(pFound == NULL)
ABORT_FINALIZE(RS_RET_UNKNW_FUNC);
*prsf = pFound->rsf;
finalize_it:
RETiRet;
}
/* find the name of a RainerScript function whom's function pointer
* is known. This function returns the cstr_t object, which MUST NOT
* be modified by the caller.
* rgerhards, 2009-04-06
*/
static rsRetVal
findRSFunctionName(prsf_t rsf, cstr_t **ppcsName)
{
rsf_entry_t *pEntry;
rsf_entry_t *pFound;
DEFiRet;
assert(rsf != NULL);
assert(ppcsName != NULL);
/* find function by list walkthrough. */
pFound = NULL;
for(pEntry = funcRegRoot ; pEntry != NULL && pFound == NULL ; pEntry = pEntry->pNext)
if(pEntry->rsf == rsf)
pFound = pEntry;
if(pFound == NULL)
ABORT_FINALIZE(RS_RET_UNKNW_FUNC);
*ppcsName = pFound->pName;
finalize_it:
RETiRet;
}
/* free the whole function registry
*/
static void
rsfrRemoveAll(void)
{
rsf_entry_t *pEntry;
rsf_entry_t *pEntryDel;
BEGINfunc
pEntry = funcRegRoot;
while(pEntry != NULL) {
pEntryDel = pEntry;
pEntry = pEntry->pNext;
cstrDestruct(&pEntryDel->pName);
free(pEntryDel);
}
funcRegRoot = NULL;
ENDfunc
}
/* ------------------------------ end function registry code and structures ------------------------------ */
/* ------------------------------ instruction set implementation ------------------------------ *
* The following functions implement the VM's instruction set.
*/
#define BEGINop(instruction) \
static rsRetVal op##instruction(vm_t *pThis, __attribute__((unused)) vmop_t *pOp) \
{ \
DEFiRet;
#define CODESTARTop(instruction) \
ISOBJ_TYPE_assert(pThis, vm);
#define PUSHRESULTop(operand, res) \
/* we have a result, so let's push it */ \
var.SetNumber(operand, res); \
vmstk.Push(pThis->pStk, operand); /* result */
#define ENDop(instruction) \
RETiRet; \
}
/* code generator for boolean operations */
#define BOOLOP(name, OPERATION) \
BEGINop(name) /* remember to set the instruction also in the ENDop macro! */ \
var_t *operand1; \
var_t *operand2; \
CODESTARTop(name) \
vmstk.PopBool(pThis->pStk, &operand1); \
vmstk.PopBool(pThis->pStk, &operand2); \
if(operand1->val.num OPERATION operand2->val.num) { \
CHKiRet(var.SetNumber(operand1, 1)); \
} else { \
CHKiRet(var.SetNumber(operand1, 0)); \
} \
vmstk.Push(pThis->pStk, operand1); /* result */ \
var.Destruct(&operand2); /* no longer needed */ \
finalize_it: \
ENDop(name)
BOOLOP(OR, ||)
BOOLOP(AND, &&)
#undef BOOLOP
/* code generator for numerical operations */
#define NUMOP(name, OPERATION) \
BEGINop(name) /* remember to set the instruction also in the ENDop macro! */ \
var_t *operand1; \
var_t *operand2; \
CODESTARTop(name) \
vmstk.PopNumber(pThis->pStk, &operand1); \
vmstk.PopNumber(pThis->pStk, &operand2); \
operand1->val.num = operand1->val.num OPERATION operand2->val.num; \
vmstk.Push(pThis->pStk, operand1); /* result */ \
var.Destruct(&operand2); /* no longer needed */ \
ENDop(name)
NUMOP(PLUS, +)
NUMOP(MINUS, -)
NUMOP(TIMES, *)
NUMOP(DIV, /)
NUMOP(MOD, %)
#undef BOOLOP
/* code generator for compare operations */
#define BEGINCMPOP(name) \
BEGINop(name) \
var_t *operand1; \
var_t *operand2; \
number_t bRes; \
CODESTARTop(name) \
CHKiRet(vmstk.Pop2CommOp(pThis->pStk, &operand1, &operand2)); \
/* data types are equal (so we look only at operand1), but we must \
* check which type we have to deal with... \
*/ \
switch(operand1->varType) {
#define ENDCMPOP(name) \
default: \
bRes = 0; /* we do not abort just so that we have a value. TODO: reconsider */ \
break; \
} \
\
/* we have a result, so let's push it */ \
var.SetNumber(operand1, bRes); \
vmstk.Push(pThis->pStk, operand1); /* result */ \
var.Destruct(&operand2); /* no longer needed */ \
finalize_it: \
ENDop(name)
BEGINCMPOP(CMP_EQ) /* remember to change the name also in the END macro! */
case VARTYPE_NUMBER:
bRes = operand1->val.num == operand2->val.num;
break;
case VARTYPE_STR:
bRes = !rsCStrCStrCmp(operand1->val.pStr, operand2->val.pStr);
break;
ENDCMPOP(CMP_EQ)
BEGINCMPOP(CMP_NEQ) /* remember to change the name also in the END macro! */
case VARTYPE_NUMBER:
bRes = operand1->val.num != operand2->val.num;
break;
case VARTYPE_STR:
bRes = rsCStrCStrCmp(operand1->val.pStr, operand2->val.pStr);
break;
ENDCMPOP(CMP_EQ)
BEGINCMPOP(CMP_LT) /* remember to change the name also in the END macro! */
case VARTYPE_NUMBER:
bRes = operand1->val.num < operand2->val.num;
break;
case VARTYPE_STR:
bRes = rsCStrCStrCmp(operand1->val.pStr, operand2->val.pStr) < 0;
break;
ENDCMPOP(CMP_LT)
BEGINCMPOP(CMP_GT) /* remember to change the name also in the END macro! */
case VARTYPE_NUMBER:
bRes = operand1->val.num > operand2->val.num;
break;
case VARTYPE_STR:
bRes = rsCStrCStrCmp(operand1->val.pStr, operand2->val.pStr) > 0;
break;
ENDCMPOP(CMP_GT)
BEGINCMPOP(CMP_LTEQ) /* remember to change the name also in the END macro! */
case VARTYPE_NUMBER:
bRes = operand1->val.num <= operand2->val.num;
break;
case VARTYPE_STR:
bRes = rsCStrCStrCmp(operand1->val.pStr, operand2->val.pStr) <= 0;
break;
ENDCMPOP(CMP_LTEQ)
BEGINCMPOP(CMP_GTEQ) /* remember to change the name also in the END macro! */
case VARTYPE_NUMBER:
bRes = operand1->val.num >= operand2->val.num;
break;
case VARTYPE_STR:
bRes = rsCStrCStrCmp(operand1->val.pStr, operand2->val.pStr) >= 0;
break;
ENDCMPOP(CMP_GTEQ)
#undef BEGINCMPOP
#undef ENDCMPOP
/* end regular compare operations */
/* comare operations that work on strings, only */
BEGINop(CMP_CONTAINS) /* remember to set the instruction also in the ENDop macro! */
var_t *operand1;
var_t *operand2;
number_t bRes;
CODESTARTop(CMP_CONTAINS)
/* operand2 is on top of stack, so needs to be popped first */
vmstk.PopString(pThis->pStk, &operand2);
vmstk.PopString(pThis->pStk, &operand1);
/* TODO: extend cstr class so that it supports location of cstr inside cstr */
bRes = (rsCStrLocateInSzStr(operand2->val.pStr, rsCStrGetSzStr(operand1->val.pStr)) == -1) ? 0 : 1;
/* we have a result, so let's push it */
PUSHRESULTop(operand1, bRes);
var.Destruct(&operand2); /* no longer needed */
ENDop(CMP_CONTAINS)
BEGINop(CMP_CONTAINSI) /* remember to set the instruction also in the ENDop macro! */
var_t *operand1;
var_t *operand2;
number_t bRes;
CODESTARTop(CMP_CONTAINSI)
/* operand2 is on top of stack, so needs to be popped first */
vmstk.PopString(pThis->pStk, &operand2);
vmstk.PopString(pThis->pStk, &operand1);
var.DebugPrint(operand1); \
var.DebugPrint(operand2); \
/* TODO: extend cstr class so that it supports location of cstr inside cstr */
bRes = (rsCStrCaseInsensitiveLocateInSzStr(operand2->val.pStr, rsCStrGetSzStr(operand1->val.pStr)) == -1) ? 0 : 1;
/* we have a result, so let's push it */
PUSHRESULTop(operand1, bRes);
var.Destruct(&operand2); /* no longer needed */
ENDop(CMP_CONTAINSI)
BEGINop(CMP_STARTSWITH) /* remember to set the instruction also in the ENDop macro! */
var_t *operand1;
var_t *operand2;
number_t bRes;
CODESTARTop(CMP_STARTSWITH)
/* operand2 is on top of stack, so needs to be popped first */
vmstk.PopString(pThis->pStk, &operand2);
vmstk.PopString(pThis->pStk, &operand1);
/* TODO: extend cstr class so that it supports location of cstr inside cstr */
bRes = (rsCStrStartsWithSzStr(operand1->val.pStr, rsCStrGetSzStr(operand2->val.pStr),
rsCStrLen(operand2->val.pStr)) == 0) ? 1 : 0;
/* we have a result, so let's push it */
PUSHRESULTop(operand1, bRes);
var.Destruct(&operand2); /* no longer needed */
ENDop(CMP_STARTSWITH)
BEGINop(CMP_STARTSWITHI) /* remember to set the instruction also in the ENDop macro! */
var_t *operand1;
var_t *operand2;
number_t bRes;
CODESTARTop(CMP_STARTSWITHI)
/* operand2 is on top of stack, so needs to be popped first */
vmstk.PopString(pThis->pStk, &operand2);
vmstk.PopString(pThis->pStk, &operand1);
/* TODO: extend cstr class so that it supports location of cstr inside cstr */
bRes = (rsCStrCaseInsensitveStartsWithSzStr(operand1->val.pStr, rsCStrGetSzStr(operand2->val.pStr),
rsCStrLen(operand2->val.pStr)) == 0) ? 1 : 0;
/* we have a result, so let's push it */
PUSHRESULTop(operand1, bRes);
var.Destruct(&operand2); /* no longer needed */
ENDop(CMP_STARTSWITHI)
/* end comare operations that work on strings, only */
BEGINop(STRADD) /* remember to set the instruction also in the ENDop macro! */
var_t *operand1;
var_t *operand2;
CODESTARTop(STRADD)
vmstk.PopString(pThis->pStk, &operand2);
vmstk.PopString(pThis->pStk, &operand1);
CHKiRet(rsCStrAppendCStr(operand1->val.pStr, operand2->val.pStr));
CHKiRet(cstrFinalize(operand1->val.pStr));
/* we have a result, so let's push it */
vmstk.Push(pThis->pStk, operand1);
var.Destruct(&operand2); /* no longer needed */
finalize_it:
ENDop(STRADD)
BEGINop(NOT) /* remember to set the instruction also in the ENDop macro! */
var_t *operand;
CODESTARTop(NOT)
vmstk.PopBool(pThis->pStk, &operand);
PUSHRESULTop(operand, !operand->val.num);
ENDop(NOT)
BEGINop(UNARY_MINUS) /* remember to set the instruction also in the ENDop macro! */
var_t *operand;
CODESTARTop(UNARY_MINUS)
vmstk.PopNumber(pThis->pStk, &operand);
PUSHRESULTop(operand, -operand->val.num);
ENDop(UNARY_MINUS)
BEGINop(PUSHCONSTANT) /* remember to set the instruction also in the ENDop macro! */
var_t *pVarDup; /* we need to duplicate the var, as we need to hand it over */
CODESTARTop(PUSHCONSTANT)
CHKiRet(var.Duplicate(pOp->operand.pVar, &pVarDup));
vmstk.Push(pThis->pStk, pVarDup);
finalize_it:
ENDop(PUSHCONSTANT)
BEGINop(PUSHMSGVAR) /* remember to set the instruction also in the ENDop macro! */
var_t *pVal; /* the value to push */
cstr_t *pstrVal;
CODESTARTop(PUSHMSGVAR)
if(pThis->pMsg == NULL) {
/* TODO: flag an error message! As a work-around, we permit
* execution to continue here with an empty string
*/
/* TODO: create a method in var to create a string var? */
CHKiRet(var.Construct(&pVal));
CHKiRet(var.ConstructFinalize(pVal));
CHKiRet(rsCStrConstructFromszStr(&pstrVal, (uchar*)""));
CHKiRet(var.SetString(pVal, pstrVal));
} else {
/* we have a message, so pull value from there */
CHKiRet(msgGetMsgVar(pThis->pMsg, pOp->operand.pVar->val.pStr, &pVal));
}
/* if we reach this point, we have a valid pVal and can push it */
vmstk.Push(pThis->pStk, pVal);
finalize_it:
ENDop(PUSHMSGVAR)
BEGINop(PUSHSYSVAR) /* remember to set the instruction also in the ENDop macro! */
var_t *pVal; /* the value to push */
CODESTARTop(PUSHSYSVAR)
CHKiRet(sysvar.GetVar(pOp->operand.pVar->val.pStr, &pVal));
vmstk.Push(pThis->pStk, pVal);
finalize_it:
ENDop(PUSHSYSVAR)
/* The function call operation is only very roughly implemented. While the plumbing
* to reach this instruction is fine, the instruction itself currently supports only
* functions with a single argument AND with a name that we know.
* TODO: later, we can add here the real logic, that involves looking up function
* names, loading them dynamically ... and all that...
* implementation begun 2009-03-10 by rgerhards
*/
BEGINop(FUNC_CALL) /* remember to set the instruction also in the ENDop macro! */
var_t *numOperands;
CODESTARTop(FUNC_CALL)
vmstk.PopNumber(pThis->pStk, &numOperands);
CHKiRet((*pOp->operand.rsf)(pThis->pStk, numOperands->val.num));
var.Destruct(&numOperands); /* no longer needed */
finalize_it:
ENDop(FUNC_CALL)
/* ------------------------------ end instruction set implementation ------------------------------ */
/* ------------------------------ begin built-in function implementation ------------------------------ */
/* note: this shall probably be moved to a separate module, but for the time being we do it directly
* in here. This is on our way to get from a dirty to a clean solution via baby steps that are
* a bit less dirty each time...
*
* The advantage of doing it here is that we do not yet need to think about how to handle the
* exit case, where we must not unload function modules which functions are still referenced.
*
* CALLING INTERFACE:
* The function must pop its parameters off the stack and pop its result onto
* the stack when it is finished. The number of parameters the function was
* called with is provided to it. If the argument count is less then what the function
* expected, it may handle the situation with defaults (or return an error). If the
* argument count is greater than expected, returnung an error is highly
* recommended (use RS_RET_INVLD_NBR_ARGUMENTS for these cases).
*
* All function names are prefixed with "rsf_" (RainerScript Function) to have
* a separate "name space".
*
* rgerhards, 2009-04-06
*/
/* The strlen function, also probably a prototype of how all functions should be
* implemented.
* rgerhards, 2009-04-06
*/
static rsRetVal
rsf_strlen(vmstk_t *pStk, int numOperands)
{
DEFiRet;
var_t *operand1;
int iStrlen;
if(numOperands != 1)
ABORT_FINALIZE(RS_RET_INVLD_NBR_ARGUMENTS);
/* pop args and do operaton (trivial case here...) */
vmstk.PopString(pStk, &operand1);
iStrlen = strlen((char*) rsCStrGetSzStr(operand1->val.pStr));
/* Store result and cleanup */
var.SetNumber(operand1, iStrlen);
vmstk.Push(pStk, operand1);
finalize_it:
RETiRet;
}
/* The "tolower" function, which converts its sole argument to lower case.
* Quite honestly, currently this is primarily a test driver for me...
* rgerhards, 2009-04-06
*/
static rsRetVal
rsf_tolower(vmstk_t *pStk, int numOperands)
{
DEFiRet;
var_t *operand1;
uchar *pSrc;
cstr_t *pcstr;
int iStrlen;
if(numOperands != 1)
ABORT_FINALIZE(RS_RET_INVLD_NBR_ARGUMENTS);
/* pop args and do operaton */
CHKiRet(cstrConstruct(&pcstr));
vmstk.PopString(pStk, &operand1);
pSrc = cstrGetSzStr(operand1->val.pStr);
iStrlen = strlen((char*)pSrc); // TODO: use count from string!
while(iStrlen--) {
CHKiRet(cstrAppendChar(pcstr, tolower(*pSrc++)));
}
/* Store result and cleanup */
CHKiRet(cstrFinalize(pcstr));
var.SetString(operand1, pcstr);
vmstk.Push(pStk, operand1);
finalize_it:
RETiRet;
}
/* Standard-Constructor
*/
BEGINobjConstruct(vm) /* be sure to specify the object type also in END macro! */
ENDobjConstruct(vm)
/* ConstructionFinalizer
* rgerhards, 2008-01-09
*/
static rsRetVal
vmConstructFinalize(vm_t __attribute__((unused)) *pThis)
{
DEFiRet;
ISOBJ_TYPE_assert(pThis, vm);
CHKiRet(vmstk.Construct(&pThis->pStk));
CHKiRet(vmstk.ConstructFinalize(pThis->pStk));
finalize_it:
RETiRet;
}
/* destructor for the vm object */
BEGINobjDestruct(vm) /* be sure to specify the object type also in END and CODESTART macros! */
CODESTARTobjDestruct(vm)
if(pThis->pStk != NULL)
vmstk.Destruct(&pThis->pStk);
if(pThis->pMsg != NULL)
msgDestruct(&pThis->pMsg);
ENDobjDestruct(vm)
/* debugprint for the vm object */
BEGINobjDebugPrint(vm) /* be sure to specify the object type also in END and CODESTART macros! */
CODESTARTobjDebugPrint(vm)
dbgoprint((obj_t*) pThis, "rsyslog virtual machine, currently no state info available\n");
ENDobjDebugPrint(vm)
/* execute a program
*/
static rsRetVal
execProg(vm_t *pThis, vmprg_t *pProg)
{
DEFiRet;
vmop_t *pCurrOp; /* virtual instruction pointer */
ISOBJ_TYPE_assert(pThis, vm);
ISOBJ_TYPE_assert(pProg, vmprg);
#define doOP(OP) case opcode_##OP: CHKiRet(op##OP(pThis, pCurrOp)); break
pCurrOp = pProg->vmopRoot; /* TODO: do this via a method! */
while(pCurrOp != NULL && pCurrOp->opcode != opcode_END_PROG) {
switch(pCurrOp->opcode) {
doOP(OR);
doOP(AND);
doOP(CMP_EQ);
doOP(CMP_NEQ);
doOP(CMP_LT);
doOP(CMP_GT);
doOP(CMP_LTEQ);
doOP(CMP_GTEQ);
doOP(CMP_CONTAINS);
doOP(CMP_CONTAINSI);
doOP(CMP_STARTSWITH);
doOP(CMP_STARTSWITHI);
doOP(NOT);
doOP(PUSHCONSTANT);
doOP(PUSHMSGVAR);
doOP(PUSHSYSVAR);
doOP(STRADD);
doOP(PLUS);
doOP(MINUS);
doOP(TIMES);
doOP(DIV);
doOP(MOD);
doOP(UNARY_MINUS);
doOP(FUNC_CALL);
default:
ABORT_FINALIZE(RS_RET_INVALID_VMOP);
dbgoprint((obj_t*) pThis, "invalid instruction %d in vmprg\n", pCurrOp->opcode);
break;
}
/* so far, we have plain sequential execution, so on to next... */
pCurrOp = pCurrOp->pNext;
}
#undef doOP
/* if we reach this point, our program has intintionally terminated
* (no error state).
*/
finalize_it:
RETiRet;
}
/* Set the current message object for the VM. It *is* valid to set a
* NULL message object, what simply means there is none. Message
* objects are properly reference counted.
*/
static rsRetVal
SetMsg(vm_t *pThis, msg_t *pMsg)
{
DEFiRet;
if(pThis->pMsg != NULL) {
msgDestruct(&pThis->pMsg);
}
if(pMsg != NULL) {
pThis->pMsg = MsgAddRef(pMsg);
}
RETiRet;
}
/* Pop a var from the stack and return it to caller. The variable type is not
* changed, it is taken from the stack as is. This functionality is
* partly needed. We may (or may not ;)) be able to remove it once we have
* full RainerScript support. -- rgerhards, 2008-02-25
*/
static rsRetVal
PopVarFromStack(vm_t *pThis, var_t **ppVar)
{
DEFiRet;
CHKiRet(vmstk.Pop(pThis->pStk, ppVar));
finalize_it:
RETiRet;
}
/* Pop a boolean from the stack and return it to caller. This functionality is
* partly needed. We may (or may not ;)) be able to remove it once we have
* full RainerScript support. -- rgerhards, 2008-02-25
*/
static rsRetVal
PopBoolFromStack(vm_t *pThis, var_t **ppVar)
{
DEFiRet;
CHKiRet(vmstk.PopBool(pThis->pStk, ppVar));
finalize_it:
RETiRet;
}
/* queryInterface function
* rgerhards, 2008-02-21
*/
BEGINobjQueryInterface(vm)
CODESTARTobjQueryInterface(vm)
if(pIf->ifVersion != vmCURR_IF_VERSION) { /* check for current version, increment on each change */
ABORT_FINALIZE(RS_RET_INTERFACE_NOT_SUPPORTED);
}
/* ok, we have the right interface, so let's fill it
* Please note that we may also do some backwards-compatibility
* work here (if we can support an older interface version - that,
* of course, also affects the "if" above).
*/
pIf->Construct = vmConstruct;
pIf->ConstructFinalize = vmConstructFinalize;
pIf->Destruct = vmDestruct;
pIf->DebugPrint = vmDebugPrint;
pIf->ExecProg = execProg;
pIf->PopBoolFromStack = PopBoolFromStack;
pIf->PopVarFromStack = PopVarFromStack;
pIf->SetMsg = SetMsg;
pIf->FindRSFunction = findRSFunction;
pIf->FindRSFunctionName = findRSFunctionName;
finalize_it:
ENDobjQueryInterface(vm)
/* Exit the vm class.
* rgerhards, 2009-04-06
*/
BEGINObjClassExit(vm, OBJ_IS_CORE_MODULE) /* class, version */
rsfrRemoveAll();
objRelease(sysvar, CORE_COMPONENT);
objRelease(var, CORE_COMPONENT);
objRelease(vmstk, CORE_COMPONENT);
ENDObjClassExit(vm)
/* Initialize the vm class. Must be called as the very first method
* before anything else is called inside this class.
* rgerhards, 2008-02-19
*/
BEGINObjClassInit(vm, 1, OBJ_IS_CORE_MODULE) /* class, version */
/* request objects we use */
CHKiRet(objUse(vmstk, CORE_COMPONENT));
CHKiRet(objUse(var, CORE_COMPONENT));
CHKiRet(objUse(sysvar, CORE_COMPONENT));
/* set our own handlers */
OBJSetMethodHandler(objMethod_DEBUGPRINT, vmDebugPrint);
OBJSetMethodHandler(objMethod_CONSTRUCTION_FINALIZER, vmConstructFinalize);
/* register built-in functions // TODO: move to its own module */
CHKiRet(rsfrAddFunction((uchar*)"strlen", rsf_strlen));
CHKiRet(rsfrAddFunction((uchar*)"tolower", rsf_tolower));
ENDObjClassInit(vm)
/* vi:set ai:
*/
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