/*
** $Id: lundump.c,v 1.25 2000/08/24 14:19:39 roberto Exp roberto $
** load bytecodes from files
** See Copyright Notice in lua.h
*/
#include <stdio.h>
#include <string.h>
#include "lua.h"
#include "lauxlib.h"
#include "lfunc.h"
#include "lmem.h"
#include "lopcodes.h"
#include "lstring.h"
#include "lundump.h"
#define LoadBlock(L,b,size,Z) ezread(L,Z,b,size)
#define LoadByte ezgetc
static const char* ZNAME(ZIO* Z)
{
const char* s=zname(Z);
return (*s=='@') ? s+1 : s;
}
static void unexpectedEOZ (lua_State* L, ZIO* Z)
{
luaL_verror(L,"unexpected end of file in `%.255s'",ZNAME(Z));
}
static int ezgetc (lua_State* L, ZIO* Z)
{
int c=zgetc(Z);
if (c==EOZ) unexpectedEOZ(L,Z);
return c;
}
static void ezread (lua_State* L, ZIO* Z, void* b, int n)
{
int r=zread(Z,b,n);
if (r!=0) unexpectedEOZ(L,Z);
}
static unsigned int LoadWord (lua_State* L, ZIO* Z)
{
unsigned int hi=ezgetc(L,Z);
unsigned int lo=ezgetc(L,Z);
return (hi<<8)|lo;
}
static unsigned long LoadLong (lua_State* L, ZIO* Z)
{
unsigned long hi=LoadWord(L,Z);
unsigned long lo=LoadWord(L,Z);
return (hi<<16)|lo;
}
static Number LoadNumber (lua_State* L, ZIO* Z)
{
char b[256];
int size=ezgetc(L,Z);
LoadBlock(L,b,size,Z);
b[size]=0;
return luaU_str2d(L,b,ZNAME(Z));
}
static int LoadInt (lua_State* L, ZIO* Z, const char* message)
{
unsigned long l=LoadLong(L,Z);
unsigned int i=l;
if (i!=l) luaL_verror(L,"%s in `%.255s';\n"
" read %lu; expected %u",message,ZNAME(Z),l,-1);
return i;
}
static TString* LoadString (lua_State* L, ZIO* Z)
{
long size=LoadLong(L,Z);
if (size==0)
return NULL;
else
{
char* s=luaL_openspace(L,size);
LoadBlock(L,s,size,Z);
return luaS_newlstr(L,s,size-1); /* remove trailing '\0' */
}
}
static void SwapCode (lua_State* L, Instruction* code, int size, ZIO* Z)
{
unsigned char* p;
unsigned char c;
if (sizeof(Instruction)==4)
while (size--)
{
p=(unsigned char *) code++;
c=p[0]; p[0]=p[3]; p[3]=c;
c=p[1]; p[1]=p[2]; p[2]=c;
}
else if (sizeof(Instruction)==2)
while (size--)
{
p=(unsigned char *) code++;
c=p[0]; p[0]=p[1]; p[1]=c;
}
else
luaL_verror(L,"cannot swap code with %d-byte instructions in `%.255s'",
(int)sizeof(Instruction),ZNAME(Z));
}
static void LoadCode (lua_State* L, Proto* tf, ZIO* Z)
{
int size=LoadInt(L,Z,"code too long");
Instruction t=0,tt=TEST_CODE;
tf->code=luaM_newvector(L,size,Instruction);
LoadBlock(L,tf->code,size*sizeof(*tf->code),Z);
if (tf->code[size-1]!=OP_END) luaL_verror(L,"bad code in `%.255s'",ZNAME(Z));
LoadBlock(L,&t,sizeof(t),Z);
if (t!=tt)
{
Instruction ot=t;
SwapCode(L,&t,1,Z);
if (t!=tt) luaL_verror(L,"cannot swap code in `%.255s';\n"
" read 0x%08X; swapped to 0x%08X; expected 0x%08X",
ZNAME(Z),(unsigned long)ot,(unsigned long)t,(unsigned long)tt);
SwapCode(L,tf->code,size,Z);
}
}
static void LoadLocals (lua_State* L, Proto* tf, ZIO* Z)
{
}
static Proto* LoadFunction (lua_State* L, ZIO* Z, int native);
static void LoadConstants (lua_State* L, Proto* tf, ZIO* Z, int native)
{
int i,n;
tf->nkstr=n=LoadInt(L,Z,"too many strings");
if (n>0)
{
tf->kstr=luaM_newvector(L,n,TString*);
for (i=0; i<n; i++)
{
TString* s=LoadString(L,Z);
LoadByte(L,Z);
tf->kstr[i]=s;
}
}
tf->nknum=n=LoadInt(L,Z,"too many numbers");
if (n>0)
{
tf->knum=luaM_newvector(L,n,Number);
if (native)
LoadBlock(L,tf->knum,n*sizeof(*tf->knum),Z);
else
for (i=0; i<n; i++) tf->knum[i]=LoadNumber(L,Z);
}
tf->nkproto=n=LoadInt(L,Z,"too many functions");
if (n>0)
{
tf->kproto=luaM_newvector(L,n,Proto*);
for (i=0; i<n; i++) tf->kproto[i]=LoadFunction(L,Z,native);
}
}
static Proto* LoadFunction (lua_State* L, ZIO* Z, int native)
{
Proto* tf=luaF_newproto(L);
tf->source=LoadString(L,Z);
if (tf->source==NULL) tf->source=luaS_new(L,zname(Z));
tf->lineDefined=LoadInt(L,Z,"lineDefined too large");
tf->numparams=LoadInt(L,Z,"too many parameters");
tf->is_vararg=LoadByte(L,Z);
tf->maxstacksize=LoadInt(L,Z,"too much stack needed");
LoadCode(L,tf,Z);
LoadLocals(L,tf,Z);
LoadConstants(L,tf,Z,native);
return tf;
}
static void LoadSignature (lua_State* L, ZIO* Z)
{
const char* s=SIGNATURE;
while (*s!=0 && ezgetc(L,Z)==*s)
++s;
if (*s!=0) luaL_verror(L,"bad signature in `%.255s'",ZNAME(Z));
}
#define V(v) v/16,v%16
static int LoadHeader (lua_State* L, ZIO* Z)
{
int version,sizeofR,native;
LoadSignature(L,Z);
version=ezgetc(L,Z);
if (version>VERSION)
luaL_verror(L,"`%.255s' too new:\n"
" read version %d.%d; expected at most %d.%d",
ZNAME(Z),V(version),V(VERSION));
if (version<VERSION0) /* check last major change */
luaL_verror(L,"`%.255s' too old:\n"
" read version %d.%d; expected at least %d.%d",
ZNAME(Z),V(version),V(VERSION));
{
int I=ezgetc(L,Z);
int i=ezgetc(L,Z);
int op=ezgetc(L,Z);
int b=ezgetc(L,Z);
if (I!=sizeof(Instruction) || i!=SIZE_INSTRUCTION || op!=SIZE_OP || b!=SIZE_B)
luaL_verror(L,"virtual machine mismatch in `%.255s':\n"
" read %d-bit,%d-byte instructions, %d-bit opcodes, %d-bit b-arguments;\n"
" expected %d-bit,%d-byte instructions, %d-bit opcodes, %d-bit b-arguments",
ZNAME(Z),i,I,op,b,SIZE_INSTRUCTION,(int)sizeof(Instruction),SIZE_OP,SIZE_B);
}
sizeofR=ezgetc(L,Z);
native=(sizeofR!=0);
if (native) /* test number representation */
{
if (sizeofR!=sizeof(Number))
luaL_verror(L,"native number size mismatch in `%.255s':\n"
" read %d; expected %d",
ZNAME(Z),sizeofR,(int)sizeof(Number));
else
{
Number f=0,tf=TEST_NUMBER;
LoadBlock(L,&f,sizeof(f),Z);
if ((long)f!=(long)tf) /* disregard errors in last bit of fraction */
luaL_verror(L,"unknown number format in `%.255s':\n"
" read " NUMBER_FMT "; expected " NUMBER_FMT,
ZNAME(Z),f,tf);
}
}
return native;
}
static Proto* LoadChunk (lua_State* L, ZIO* Z)
{
return LoadFunction(L,Z,LoadHeader(L,Z));
}
/*
** load one chunk from a file or buffer
** return main if ok and NULL at EOF
*/
Proto* luaU_undump1 (lua_State* L, ZIO* Z)
{
int c=zgetc(Z);
if (c==ID_CHUNK)
return LoadChunk(L,Z);
else if (c!=EOZ)
luaL_verror(L,"`%.255s' is not a Lua binary file",ZNAME(Z));
return NULL;
}
/*
* convert number from text
*/
double luaU_str2d (lua_State* L, const char* b, const char* where)
{
double x;
if (!luaO_str2d(b,&x))
luaL_verror(L,"cannot convert number `%.255s' in `%.255s'",b,where);
return x;
}