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/*
===========================================================================
Copyright (C) 1999-2005 Id Software, Inc.

This file is part of Quake III Arena source code.

Quake III Arena source code is free software; you can redistribute it
and/or modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the License,
or (at your option) any later version.

Quake III Arena source code 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 General Public License for more details.

You should have received a copy of the GNU General Public License
along with Quake III Arena source code; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
===========================================================================
*/
// vm.c -- virtual machine

/*


intermix code and data
symbol table

a dll has one imported function: VM_SystemCall
and one exported function: Perform


*/

#include "vm_local.h"


vm_t	*currentVM = NULL; // bk001212
vm_t	*lastVM    = NULL; // bk001212
int		vm_debugLevel;

#define	MAX_VM		3
vm_t	vmTable[MAX_VM];


void VM_VmInfo_f( void );
void VM_VmProfile_f( void );



#if 0 // 64bit!
// converts a VM pointer to a C pointer and
// checks to make sure that the range is acceptable
void	*VM_VM2C( vmptr_t p, int length ) {
	return (void *)p;
}
#endif

void VM_Debug( int level ) {
	vm_debugLevel = level;
}

/*
==============
VM_Init
==============
*/
void VM_Init( void ) {
	Cvar_Get( "vm_cgame", "2", CVAR_ARCHIVE );	// !@# SHIP WITH SET TO 2
	Cvar_Get( "vm_game", "2", CVAR_ARCHIVE );	// !@# SHIP WITH SET TO 2
	Cvar_Get( "vm_ui", "2", CVAR_ARCHIVE );		// !@# SHIP WITH SET TO 2

	Cmd_AddCommand ("vmprofile", VM_VmProfile_f );
	Cmd_AddCommand ("vminfo", VM_VmInfo_f );

	Com_Memset( vmTable, 0, sizeof( vmTable ) );
}


/*
===============
VM_ValueToSymbol

Assumes a program counter value
===============
*/
const char *VM_ValueToSymbol( vm_t *vm, int value ) {
	vmSymbol_t	*sym;
	static char		text[MAX_TOKEN_CHARS];

	sym = vm->symbols;
	if ( !sym ) {
		return "NO SYMBOLS";
	}

	// find the symbol
	while ( sym->next && sym->next->symValue <= value ) {
		sym = sym->next;
	}

	if ( value == sym->symValue ) {
		return sym->symName;
	}

	Com_sprintf( text, sizeof( text ), "%s+%i", sym->symName, value - sym->symValue );

	return text;
}

/*
===============
VM_ValueToFunctionSymbol

For profiling, find the symbol behind this value
===============
*/
vmSymbol_t *VM_ValueToFunctionSymbol( vm_t *vm, int value ) {
	vmSymbol_t	*sym;
	static vmSymbol_t	nullSym;

	sym = vm->symbols;
	if ( !sym ) {
		return &nullSym;
	}

	while ( sym->next && sym->next->symValue <= value ) {
		sym = sym->next;
	}

	return sym;
}


/*
===============
VM_SymbolToValue
===============
*/
int VM_SymbolToValue( vm_t *vm, const char *symbol ) {
	vmSymbol_t	*sym;

	for ( sym = vm->symbols ; sym ; sym = sym->next ) {
		if ( !strcmp( symbol, sym->symName ) ) {
			return sym->symValue;
		}
	}
	return 0;
}


/*
=====================
VM_SymbolForCompiledPointer
=====================
*/
#if 0 // 64bit!
const char *VM_SymbolForCompiledPointer( vm_t *vm, void *code ) {
	int			i;

	if ( code < (void *)vm->codeBase ) {
		return "Before code block";
	}
	if ( code >= (void *)(vm->codeBase + vm->codeLength) ) {
		return "After code block";
	}

	// find which original instruction it is after
	for ( i = 0 ; i < vm->codeLength ; i++ ) {
		if ( (void *)vm->instructionPointers[i] > code ) {
			break;
		}
	}
	i--;

	// now look up the bytecode instruction pointer
	return VM_ValueToSymbol( vm, i );
}
#endif



/*
===============
ParseHex
===============
*/
int	ParseHex( const char *text ) {
	int		value;
	int		c;

	value = 0;
	while ( ( c = *text++ ) != 0 ) {
		if ( c >= '0' && c <= '9' ) {
			value = value * 16 + c - '0';
			continue;
		}
		if ( c >= 'a' && c <= 'f' ) {
			value = value * 16 + 10 + c - 'a';
			continue;
		}
		if ( c >= 'A' && c <= 'F' ) {
			value = value * 16 + 10 + c - 'A';
			continue;
		}
	}

	return value;
}

/*
===============
VM_LoadSymbols
===============
*/
void VM_LoadSymbols( vm_t *vm ) {
	int		len;
	char	*mapfile, *text_p, *token;
	char	name[MAX_QPATH];
	char	symbols[MAX_QPATH];
	vmSymbol_t	**prev, *sym;
	int		count;
	int		value;
	int		chars;
	int		segment;
	int		numInstructions;

	// don't load symbols if not developer
	if ( !com_developer->integer ) {
		return;
	}

	COM_StripExtension( vm->name, name );
	Com_sprintf( symbols, sizeof( symbols ), "vm/%s.map", name );
	len = FS_ReadFile( symbols, (void **)&mapfile );
	if ( !mapfile ) {
		Com_Printf( "Couldn't load symbol file: %s\n", symbols );
		return;
	}

	numInstructions = vm->instructionPointersLength >> 2;

	// parse the symbols
	text_p = mapfile;
	prev = &vm->symbols;
	count = 0;

	while ( 1 ) {
		token = COM_Parse( &text_p );
		if ( !token[0] ) {
			break;
		}
		segment = ParseHex( token );
		if ( segment ) {
			COM_Parse( &text_p );
			COM_Parse( &text_p );
			continue;		// only load code segment values
		}

		token = COM_Parse( &text_p );
		if ( !token[0] ) {
			Com_Printf( "WARNING: incomplete line at end of file\n" );
			break;
		}
		value = ParseHex( token );

		token = COM_Parse( &text_p );
		if ( !token[0] ) {
			Com_Printf( "WARNING: incomplete line at end of file\n" );
			break;
		}
		chars = strlen( token );
		sym = Hunk_Alloc( sizeof( *sym ) + chars, h_high );
		*prev = sym;
		prev = &sym->next;
		sym->next = NULL;

		// convert value from an instruction number to a code offset
		if ( value >= 0 && value < numInstructions ) {
			value = vm->instructionPointers[value];
		}

		sym->symValue = value;
		Q_strncpyz( sym->symName, token, chars + 1 );

		count++;
	}

	vm->numSymbols = count;
	Com_Printf( "%i symbols parsed from %s\n", count, symbols );
	FS_FreeFile( mapfile );
}

/*
============
VM_DllSyscall

Dlls will call this directly

 rcg010206 The horror; the horror.

  The syscall mechanism relies on stack manipulation to get it's args.
   This is likely due to C's inability to pass "..." parameters to
   a function in one clean chunk. On PowerPC Linux, these parameters
   are not necessarily passed on the stack, so while (&arg[0] == arg)
   is true, (&arg[1] == 2nd function parameter) is not necessarily
   accurate, as arg's value might have been stored to the stack or
   other piece of scratch memory to give it a valid address, but the
   next parameter might still be sitting in a register.

  Quake's syscall system also assumes that the stack grows downward,
   and that any needed types can be squeezed, safely, into a signed int.

  This hack below copies all needed values for an argument to a
   array in memory, so that Quake can get the correct values. This can
   also be used on systems where the stack grows upwards, as the
   presumably standard and safe stdargs.h macros are used.

  As for having enough space in a signed int for your datatypes, well,
   it might be better to wait for DOOM 3 before you start porting.  :)

  The original code, while probably still inherently dangerous, seems
   to work well enough for the platforms it already works on. Rather
   than add the performance hit for those platforms, the original code
   is still in use there.

  For speed, we just grab 15 arguments, and don't worry about exactly
   how many the syscall actually needs; the extra is thrown away.
 
============
*/
long QDECL VM_DllSyscall( long arg, ... ) {
#if ((defined __GNUC__) && !(defined __i386__))
  // rcg010206 - see commentary above
  long args[16];
  int i;
  va_list ap;
  
  args[0] = arg;
  
  va_start(ap, arg);
  for (i = 1; i < sizeof (args) / sizeof (args[i]); i++)
    args[i] = va_arg(ap, long);
  va_end(ap);
  
  return currentVM->systemCall( args );
#else // original id code
	return currentVM->systemCall( &arg );
#endif
}

/*
=================
VM_LoadQVM

Load a .qvm file
=================
*/
vmHeader_t *VM_LoadQVM( vm_t *vm, qboolean alloc ) {
	int					length;
	int					dataLength;
	int					i;
	char				filename[MAX_QPATH];
	vmHeader_t	*header;

	// load the image
	Com_sprintf( filename, sizeof(filename), "vm/%s.qvm", vm->name );
	Com_Printf( "Loading vm file %s...\n", filename );
	length = FS_ReadFile( filename, (void **)&header );
	if ( !header ) {
		Com_Printf( "Failed.\n" );
		VM_Free( vm );
		return NULL;
	}

	if( LittleLong( header->vmMagic ) == VM_MAGIC_VER2 ) {
		Com_Printf( "...which has vmMagic VM_MAGIC_VER2\n" );

		// byte swap the header
		for ( i = 0 ; i < sizeof( vmHeader_t ) / 4 ; i++ ) {
			((int *)header)[i] = LittleLong( ((int *)header)[i] );
		}

		// validate
		if ( header->jtrgLength < 0
			|| header->bssLength < 0
			|| header->dataLength < 0
			|| header->litLength < 0
			|| header->codeLength <= 0 ) {
			VM_Free( vm );
			Com_Error( ERR_FATAL, "%s has bad header", filename );
		}
	} else if( LittleLong( header->vmMagic ) == VM_MAGIC ) {
		// byte swap the header
		// sizeof( vmHeader_t ) - sizeof( int ) is the 1.32b vm header size
		for ( i = 0 ; i < ( sizeof( vmHeader_t ) - sizeof( int ) ) / 4 ; i++ ) {
			((int *)header)[i] = LittleLong( ((int *)header)[i] );
		}

		// validate
		if ( header->bssLength < 0
			|| header->dataLength < 0
			|| header->litLength < 0
			|| header->codeLength <= 0 ) {
			VM_Free( vm );
			Com_Error( ERR_FATAL, "%s has bad header", filename );
		}
	} else {
		VM_Free( vm );
		Com_Error( ERR_FATAL, "%s does not have a recognisable "
				"magic number in its header", filename );
	}

	// round up to next power of 2 so all data operations can
	// be mask protected
	dataLength = header->dataLength + header->litLength + header->bssLength;
	for ( i = 0 ; dataLength > ( 1 << i ) ; i++ ) {
	}
	dataLength = 1 << i;

	if( alloc ) {
		// allocate zero filled space for initialized and uninitialized data
		vm->dataBase = Hunk_Alloc( dataLength, h_high );
		vm->dataMask = dataLength - 1;
	} else {
		// clear the data
		Com_Memset( vm->dataBase, 0, dataLength );
	}

	// copy the intialized data
	Com_Memcpy( vm->dataBase, (byte *)header + header->dataOffset, header->dataLength + header->litLength );

	// byte swap the longs
	for ( i = 0 ; i < header->dataLength ; i += 4 ) {
		*(int *)(vm->dataBase + i) = LittleLong( *(int *)(vm->dataBase + i ) );
	}

	if( header->vmMagic == VM_MAGIC_VER2 ) {
		vm->numJumpTableTargets = header->jtrgLength >> 2;
		Com_Printf( "Loading %d jump table targets\n", vm->numJumpTableTargets );

		if( alloc ) {
			vm->jumpTableTargets = Hunk_Alloc( header->jtrgLength, h_high );
		} else {
			Com_Memset( vm->jumpTableTargets, 0, header->jtrgLength );
		}

		Com_Memcpy( vm->jumpTableTargets, (byte *)header + header->dataOffset +
				header->dataLength + header->litLength, header->jtrgLength );

		// byte swap the longs
		for ( i = 0 ; i < header->jtrgLength ; i += 4 ) {
			*(int *)(vm->jumpTableTargets + i) = LittleLong( *(int *)(vm->jumpTableTargets + i ) );
		}
	}

	return header;
}

/*
=================
VM_Restart

Reload the data, but leave everything else in place
This allows a server to do a map_restart without changing memory allocation
=================
*/
vm_t *VM_Restart( vm_t *vm ) {
	vmHeader_t	*header;

	// DLL's can't be restarted in place
	if ( vm->dllHandle ) {
		char	name[MAX_QPATH];
		long	(*systemCall)( long *parms );
		
		systemCall = vm->systemCall;	
		Q_strncpyz( name, vm->name, sizeof( name ) );

		VM_Free( vm );

		vm = VM_Create( name, systemCall, VMI_NATIVE );
		return vm;
	}

	// load the image
	Com_Printf( "VM_Restart()\n" );

	if( !( header = VM_LoadQVM( vm, qfalse ) ) ) {
		Com_Error( ERR_DROP, "VM_Restart failed.\n" );
		return NULL;
	}

	// free the original file
	FS_FreeFile( header );

	return vm;
}

/*
================
VM_Create

If image ends in .qvm it will be interpreted, otherwise
it will attempt to load as a system dll
================
*/

#define	STACK_SIZE	0x20000

vm_t *VM_Create( const char *module, long (*systemCalls)(long *), 
				vmInterpret_t interpret ) {
	vm_t		*vm;
	vmHeader_t	*header;
	int			i, remaining;

	if ( !module || !module[0] || !systemCalls ) {
		Com_Error( ERR_FATAL, "VM_Create: bad parms" );
	}

	remaining = Hunk_MemoryRemaining();

	// see if we already have the VM
	for ( i = 0 ; i < MAX_VM ; i++ ) {
		if (!Q_stricmp(vmTable[i].name, module)) {
			vm = &vmTable[i];
			return vm;
		}
	}

	// find a free vm
	for ( i = 0 ; i < MAX_VM ; i++ ) {
		if ( !vmTable[i].name[0] ) {
			break;
		}
	}

	if ( i == MAX_VM ) {
		Com_Error( ERR_FATAL, "VM_Create: no free vm_t" );
	}

	vm = &vmTable[i];

	Q_strncpyz( vm->name, module, sizeof( vm->name ) );
	vm->systemCall = systemCalls;

	// never allow dll loading with a demo
	if ( interpret == VMI_NATIVE ) {
		if ( Cvar_VariableValue( "fs_restrict" ) ) {
			interpret = VMI_COMPILED;
		}
	}

	if ( interpret == VMI_NATIVE ) {
		// try to load as a system dll
		Com_Printf( "Loading dll file %s.\n", vm->name );
		vm->dllHandle = Sys_LoadDll( module, vm->fqpath , &vm->entryPoint, VM_DllSyscall );
		if ( vm->dllHandle ) {
			return vm;
		}

		Com_Printf( "Failed to load dll, looking for qvm.\n" );
		interpret = VMI_COMPILED;
	}

	// load the image
	if( !( header = VM_LoadQVM( vm, qtrue ) ) ) {
		return NULL;
	}

	// allocate space for the jump targets, which will be filled in by the compile/prep functions
	vm->instructionPointersLength = header->instructionCount * 4;
	vm->instructionPointers = Hunk_Alloc( vm->instructionPointersLength, h_high );

	// copy or compile the instructions
	vm->codeLength = header->codeLength;

#ifdef NO_VM_COMPILED
	if(interpret >= VMI_COMPILED) {
		Com_Printf("Architecture doesn't have a bytecode compiler, using interpreter\n");
		interpret = VMI_BYTECODE;
	}
#else
	if ( interpret >= VMI_COMPILED ) {
		vm->compiled = qtrue;
		VM_Compile( vm, header );
	} else
#endif
	{
		vm->compiled = qfalse;
		VM_PrepareInterpreter( vm, header );
	}

	// free the original file
	FS_FreeFile( header );

	// load the map file
	VM_LoadSymbols( vm );

	// the stack is implicitly at the end of the image
	vm->programStack = vm->dataMask + 1;
	vm->stackBottom = vm->programStack - STACK_SIZE;

	Com_Printf("%s loaded in %d bytes on the hunk\n", module, remaining - Hunk_MemoryRemaining());

	return vm;
}

/*
==============
VM_Free
==============
*/
void VM_Free( vm_t *vm ) {

	if ( vm->dllHandle ) {
		Sys_UnloadDll( vm->dllHandle );
		Com_Memset( vm, 0, sizeof( *vm ) );
	}
#if 0	// now automatically freed by hunk
	if ( vm->codeBase ) {
		Z_Free( vm->codeBase );
	}
	if ( vm->dataBase ) {
		Z_Free( vm->dataBase );
	}
	if ( vm->instructionPointers ) {
		Z_Free( vm->instructionPointers );
	}
#endif
	Com_Memset( vm, 0, sizeof( *vm ) );

	currentVM = NULL;
	lastVM = NULL;
}

void VM_Clear(void) {
	int i;
	for (i=0;i<MAX_VM; i++) {
		if ( vmTable[i].dllHandle ) {
			Sys_UnloadDll( vmTable[i].dllHandle );
		}
		Com_Memset( &vmTable[i], 0, sizeof( vm_t ) );
	}
	currentVM = NULL;
	lastVM = NULL;
}

void *VM_ArgPtr( long intValue ) {
	if ( !intValue ) {
		return NULL;
	}
	// bk001220 - currentVM is missing on reconnect
	if ( currentVM==NULL )
	  return NULL;

	if ( currentVM->entryPoint ) {
		return (void *)(currentVM->dataBase + intValue);
	}
	else {
		return (void *)(currentVM->dataBase + (intValue & currentVM->dataMask));
	}
}

void *VM_ExplicitArgPtr( vm_t *vm, long intValue ) {
	if ( !intValue ) {
		return NULL;
	}

	// bk010124 - currentVM is missing on reconnect here as well?
	if ( currentVM==NULL )
	  return NULL;

	//
	if ( vm->entryPoint ) {
		return (void *)(vm->dataBase + intValue);
	}
	else {
		return (void *)(vm->dataBase + (intValue & vm->dataMask));
	}
}


/*
==============
VM_Call


Upon a system call, the stack will look like:

sp+32	parm1
sp+28	parm0
sp+24	return value
sp+20	return address
sp+16	local1
sp+14	local0
sp+12	arg1
sp+8	arg0
sp+4	return stack
sp		return address

An interpreted function will immediately execute
an OP_ENTER instruction, which will subtract space for
locals from sp
==============
*/
#define	MAX_STACK	256
#define	STACK_MASK	(MAX_STACK-1)

long	QDECL VM_Call( vm_t *vm, long callnum, ... ) {
	vm_t	*oldVM;
	int		r;
	int i;

	if ( !vm ) {
		Com_Error( ERR_FATAL, "VM_Call with NULL vm" );
	}

	oldVM = currentVM;
	currentVM = vm;
	lastVM = vm;

	if ( vm_debugLevel ) {
	  Com_Printf( "VM_Call( %ld )\n", callnum );
	}

	// if we have a dll loaded, call it directly
	if ( vm->entryPoint ) {
		//rcg010207 -  see dissertation at top of VM_DllSyscall() in this file.
		long args[10];
		va_list ap;
		va_start(ap, callnum);
		for (i = 0; i < sizeof (args) / sizeof (args[i]); i++) {
			args[i] = va_arg(ap, long);
		}
		va_end(ap);

		r = vm->entryPoint( callnum,  args[0],  args[1],  args[2], args[3],
                            args[4],  args[5],  args[6], args[7],
                            args[8],  args[9]);
	} else {
#ifdef __i386__ // i386 calling convention doesn't need conversion
#ifndef NO_VM_COMPILED
		if ( vm->compiled )
			r = VM_CallCompiled( vm, (int*)&callnum );
		else
#endif
			r = VM_CallInterpreted( vm, (int*)&callnum );
#else
		struct {
			int callnum;
			int args[10];
		} a;
		va_list ap;

		a.callnum = callnum;
		va_start(ap, callnum);
		for (i = 0; i < sizeof (a.args) / sizeof (a.args[0]); i++) {
			a.args[i] = va_arg(ap, long);
		}
		va_end(ap);
#ifndef NO_VM_COMPILED
		if ( vm->compiled )
			r = VM_CallCompiled( vm, &a.callnum );
		else
#endif
			r = VM_CallInterpreted( vm, &a.callnum );
#endif
	}

	if ( oldVM != NULL ) // bk001220 - assert(currentVM!=NULL) for oldVM==NULL
	  currentVM = oldVM;
	return r;
}

//=================================================================

static int QDECL VM_ProfileSort( const void *a, const void *b ) {
	vmSymbol_t	*sa, *sb;

	sa = *(vmSymbol_t **)a;
	sb = *(vmSymbol_t **)b;

	if ( sa->profileCount < sb->profileCount ) {
		return -1;
	}
	if ( sa->profileCount > sb->profileCount ) {
		return 1;
	}
	return 0;
}

/*
==============
VM_VmProfile_f

==============
*/
void VM_VmProfile_f( void ) {
	vm_t		*vm;
	vmSymbol_t	**sorted, *sym;
	int			i;
	double		total;

	if ( !lastVM ) {
		return;
	}

	vm = lastVM;

	if ( !vm->numSymbols ) {
		return;
	}

	sorted = Z_Malloc( vm->numSymbols * sizeof( *sorted ) );
	sorted[0] = vm->symbols;
	total = sorted[0]->profileCount;
	for ( i = 1 ; i < vm->numSymbols ; i++ ) {
		sorted[i] = sorted[i-1]->next;
		total += sorted[i]->profileCount;
	}

	qsort( sorted, vm->numSymbols, sizeof( *sorted ), VM_ProfileSort );

	for ( i = 0 ; i < vm->numSymbols ; i++ ) {
		int		perc;

		sym = sorted[i];

		perc = 100 * (float) sym->profileCount / total;
		Com_Printf( "%2i%% %9i %s\n", perc, sym->profileCount, sym->symName );
		sym->profileCount = 0;
	}

	Com_Printf("    %9.0f total\n", total );

	Z_Free( sorted );
}

/*
==============
VM_VmInfo_f

==============
*/
void VM_VmInfo_f( void ) {
	vm_t	*vm;
	int		i;

	Com_Printf( "Registered virtual machines:\n" );
	for ( i = 0 ; i < MAX_VM ; i++ ) {
		vm = &vmTable[i];
		if ( !vm->name[0] ) {
			break;
		}
		Com_Printf( "%s : ", vm->name );
		if ( vm->dllHandle ) {
			Com_Printf( "native\n" );
			continue;
		}
		if ( vm->compiled ) {
			Com_Printf( "compiled on load\n" );
		} else {
			Com_Printf( "interpreted\n" );
		}
		Com_Printf( "    code length : %7i\n", vm->codeLength );
		Com_Printf( "    table length: %7i\n", vm->instructionPointersLength );
		Com_Printf( "    data length : %7i\n", vm->dataMask + 1 );
	}
}

/*
===============
VM_LogSyscalls

Insert calls to this while debugging the vm compiler
===============
*/
void VM_LogSyscalls( int *args ) {
	static	int		callnum;
	static	FILE	*f;

	if ( !f ) {
		f = fopen("syscalls.log", "w" );
	}
	callnum++;
	fprintf(f, "%i: %li (%i) = %i %i %i %i\n", callnum, (long)(args - (int *)currentVM->dataBase),
		args[0], args[1], args[2], args[3], args[4] );
}