dhewm3/neo/sys/aros/dll/dllstartup.c

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2015-06-20 19:30:46 +00:00
/* DLL Startup function
* This file gets linked in when the user does not define a main function
* that is, if he wants to compile a dll
*/
#define DEBUG 1
#include <aros/debug.h>
#define __DLL_LIB_BUILD
#include <exec/exec.h>
#include <proto/exec.h>
#include <proto/dos.h>
#include <clib/alib_protos.h>
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include "dll.h"
/*
* Only DLL's can export symbols so this function is defined here.
* Note that on the other hand normal executables *can* have a symbolimport table,
* so dllImportSymbols is defined elsewhere.
*/
void dllExportSymbol(dll_tSymbolQuery *sym)
{
dll_tExportSymbol *symtable=DLL_ExportSymbols; //reference DLL's export symbol table
if(!sym->SymbolPointer)
return; //Paranoia
while(symtable->SymbolAddress) //End of table ??
{
if(strcmp(symtable->SymbolName,sym->SymbolName)==0)
{
//FIXME: Stackframe handling
*sym->SymbolPointer=symtable->SymbolAddress;
return;
}
symtable++;
}
*sym->SymbolPointer=0L; //Symbol not found
}
/*
** The actual main function of a DLL
*/
int main(int argc, char **argv)
{
struct MsgPort *myport;
char PortName[255];
dll_tMessage *msg;
int expunge=0L;
int opencount=0L;
bug("[DynFile] %s('%s')\n", __PRETTY_FUNCTION__, argv[0]);
/*
* If an argument was passed, use it as the port name,
* otherwise use the program name
*/
if (argc>1)
{
char *argPort = argv[1];
if (argPort[0] == '"')
strncpy(PortName, &argPort[1], strlen(argPort) - 2);
else
strcpy(PortName, argPort);
}
else
{
strcpy(PortName, argv[0]);
}
bug("[DynFile] %s: Portname '%s'\n", __PRETTY_FUNCTION__, PortName);
/*
* Process symbol import table
*/
if(!dllImportSymbols())
exit(0L);
bug("[DynFile] %s: symbols imported\n", __PRETTY_FUNCTION__);
/*
* Call DLL specific constructor
*/
if(!DLL_Init())
exit(0L);
bug("[DynFile] %s: initialised\n", __PRETTY_FUNCTION__);
/*
* Create a (public) message port
*/
myport = CreatePort(PortName,0);
if (!myport)
exit(0l);
bug("[DynFile] %s: port @ 0x%p\n", __PRETTY_FUNCTION__, myport);
/*
** Loop until DLL expunges (that is if a CloseMessage leads to opencount==0)
** and no pending Messages are left
*/
while((msg=(dll_tMessage *)GetMsg(myport))||(!expunge))
{
if (msg)
{
switch(msg->dllMessageType)
{
case DLLMTYPE_Open:
bug("[DynFile] %s: DLLMTYPE_Open\n", __PRETTY_FUNCTION__);
/*
* Stack type checking should go here. Might be ommited for strictly
* private DLLs, or when stack frame compatibility can be 100% assured.
* FIXME: Not handled for now
*/
opencount++;
if(opencount>0)
expunge=0L;
msg->dllMessageData.dllOpen.ErrorCode=DLLERR_NoError;
break;
case DLLMTYPE_Close:
bug("[DynFile] %s: DLLMTYPE_Close\n", __PRETTY_FUNCTION__);
opencount--;
if(opencount<=0L) // <0 ????
expunge=1L;
break;
case DLLMTYPE_SymbolQuery:
bug("[DynFile] %s: DLLMTYPE_SymbolQuery\n", __PRETTY_FUNCTION__);
dllExportSymbol(&msg->dllMessageData.dllSymbolQuery);
//printf("Symbol Query for %s : %p\n",msg->dllMessageData.dllSymbolQuery.SymbolName,
// *msg->dllMessageData.dllSymbolQuery.SymbolPointer);
break;
case DLLMTYPE_Kill:
bug("[DynFile] %s: DLLMTYPE_Kill\n", __PRETTY_FUNCTION__);
expunge=1L;
break;
}
/*
* Send the message back
*/
ReplyMsg((struct Message *)msg);
}
/*
* Wait for messages to pop up
* Note that if the DLL is expunged it doesn't wait anymore,
* but it still processes all pending messages (including open messages
* which can disable the expunge flag).
* FIXME: Is this multithread safe ??
*/
if(!expunge)
WaitPort(myport);
}
/*
* Delete public port
*/
DeletePort(myport);
/*
* Call DLL specific destructor
*/
DLL_DeInit();
return 0L;
}