+/* loader.c - class loader functions
-/* loader.c ********************************************************************
+ Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003
+ R. Grafl, A. Krall, C. Kruegel, C. Oates, R. Obermaisser,
+ M. Probst, S. Ring, E. Steiner, C. Thalinger, D. Thuernbeck,
+ P. Tomsich, J. Wenninger
- Copyright (c) 1999 A. Krall, R. Grafl, R. Obermaiser, M. Probst
+ This file is part of CACAO.
- See file COPYRIGHT for information on usage and disclaimer of warranties
+ This program 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, or (at
+ your option) any later version.
- Contains the functions of the class loader.
+ This program 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.
- Author: Reinhard Grafl EMAIL: cacao@complang.tuwien.ac.at
- Changes: Andreas Krall EMAIL: cacao@complang.tuwien.ac.at
- Roman Obermaiser EMAIL: cacao@complang.tuwien.ac.at
- Mark Probst EMAIL: cacao@complang.tuwien.ac.at
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
+ 02111-1307, USA.
- Last Change: 1999/11/08
+ Contact: cacao@complang.tuwien.ac.at
-*******************************************************************************/
+ Authors: Reinhard Grafl
+ Changes: Andreas Krall
+ Roman Obermaiser
+ Mark Probst
+ Edwin Steiner
+ $Id: loader.c 771 2003-12-13 23:11:08Z stefan $
+
+*/
-#include <assert.h>
+#include <string.h>
+#include <assert.h>
+#include <sys/stat.h>
#include "global.h"
#include "loader.h"
+#include "main.h"
#include "native.h"
#include "tables.h"
#include "builtin.h"
#include "jit.h"
-#ifdef OLD_COMPILER
-#include "compiler.h"
-#endif
#include "asmpart.h"
-
-#ifdef USE_BOEHM
#include "toolbox/memory.h"
-#endif
-
+#include "toolbox/loging.h"
#include "threads/thread.h"
+#include "threads/locks.h"
#include <sys/stat.h>
-/* global variables ***********************************************************/
+#ifdef USE_ZLIB
+#include "unzip.h"
+#endif
-extern bool newcompiler; /* true if new compiler is used */
+#undef JOWENN_DEBUG
+#undef JOWENN_DEBUG1
+#undef JOWENN_DEBUG2
+
+/* global variables ***********************************************************/
int count_class_infos = 0; /* variables for measurements */
int count_const_pool_len = 0;
int count_class_loads = 0;
int count_class_inits = 0;
-bool loadverbose = false; /* switches for debug messages */
-bool linkverbose = false;
-bool initverbose = false;
-
-bool makeinitializations = true;
-
-bool getloadingtime = false; /* to measure the runtime */
-long int loadingtime = 0;
-
static s4 interfaceindex; /* sequential numbering of interfaces */
list unloadedclasses; /* list of all referenced but not loaded classes */
/* utf-symbols for pointer comparison of frequently used strings */
-static utf *utf_innerclasses; /* InnerClasses */
-static utf *utf_constantvalue; /* ConstantValue */
-static utf *utf_code; /* Code */
-static utf *utf_finalize; /* finalize */
-static utf *utf_fidesc; /* ()V */
-static utf *utf_clinit; /* <clinit> */
+static utf *utf_innerclasses; /* InnerClasses */
+static utf *utf_constantvalue; /* ConstantValue */
+static utf *utf_code; /* Code */
+static utf *utf_finalize; /* finalize */
+static utf *utf_fidesc; /* ()V changed */
+static utf *utf_clinit; /* <clinit> */
static utf *utf_initsystemclass; /* initializeSystemClass */
-static utf *utf_systemclass; /* java/lang/System */
+static utf *utf_systemclass; /* java/lang/System */
+static utf *utf_vmclassloader; /* java/lang/VMClassLoader */
+static utf *utf_vmclass; /* java/lang/VMClassLoader */
+static utf *utf_initialize;
+static utf *utf_initializedesc;
+
+
+#ifdef USE_ZLIB
+static unzFile uf = 0;
+#endif
+
+
+utf* clinit_desc(){
+ return utf_fidesc;
+}
+utf* clinit_name(){
+ return utf_clinit;
+}
/* important system classes ***************************************************/
classinfo *class_java_lang_Object;
classinfo *class_java_lang_String;
-classinfo *class_java_lang_ClassCastException;
-classinfo *class_java_lang_NullPointerException;
-classinfo *class_java_lang_ArrayIndexOutOfBoundsException;
-classinfo *class_java_lang_NegativeArraySizeException;
-classinfo *class_java_lang_OutOfMemoryError;
-classinfo *class_java_lang_ArithmeticException;
-classinfo *class_java_lang_ArrayStoreException;
-classinfo *class_java_lang_ThreadDeath;
-classinfo *class_array = NULL;
+
+classinfo *class_java_lang_Throwable;
+classinfo *class_java_lang_Cloneable;
+classinfo *class_java_io_Serializable;
+
+/* Pseudo classes for the typechecker */
+classinfo *pseudo_class_Arraystub = NULL;
+classinfo *pseudo_class_Null = NULL;
+classinfo *pseudo_class_New = NULL;
+vftbl *pseudo_class_Arraystub_vftbl = NULL;
+
+/* stefan */
+/* These are made static so they cannot be used for throwing in native */
+/* functions. */
+static classinfo *class_java_lang_ClassCastException;
+static classinfo *class_java_lang_NullPointerException;
+static classinfo *class_java_lang_ArrayIndexOutOfBoundsException;
+static classinfo *class_java_lang_NegativeArraySizeException;
+static classinfo *class_java_lang_OutOfMemoryError;
+static classinfo *class_java_lang_ArithmeticException;
+static classinfo *class_java_lang_ArrayStoreException;
+static classinfo *class_java_lang_ThreadDeath;
+
+static methodinfo method_clone_array;
+
+static int loader_inited = 0;
/******************************************************************************
the one character type signature and the name of the primitive class
******************************************************************************/
-
-primitivetypeinfo primitivetype_table[PRIMITIVETYPE_COUNT] = {
- { NULL, NULL, "java/lang/Double", 'D', "double" },
- { NULL, NULL, "java/lang/Float", 'F', "float" },
- { NULL, NULL, "java/lang/Character", 'C', "char" },
- { NULL, NULL, "java/lang/Integer", 'I', "int" },
- { NULL, NULL, "java/lang/Long", 'J', "long" },
- { NULL, NULL, "java/lang/Byte", 'B', "byte" },
- { NULL, NULL, "java/lang/Short", 'S', "short" },
- { NULL, NULL, "java/lang/Boolean", 'Z', "boolean" },
- { NULL, NULL, "java/lang/Void", 'V', "void" }};
+/* CAUTION: Don't change the order of the types. This table is indexed
+ * by the ARRAYTYPE_ constants (expcept ARRAYTYPE_OBJECT).
+ */
+primitivetypeinfo primitivetype_table[PRIMITIVETYPE_COUNT] = {
+ { NULL, NULL, "java/lang/Integer", 'I', "int" , "[I", NULL, NULL },
+ { NULL, NULL, "java/lang/Long", 'J', "long" , "[J", NULL, NULL },
+ { NULL, NULL, "java/lang/Float", 'F', "float" , "[F", NULL, NULL },
+ { NULL, NULL, "java/lang/Double", 'D', "double" , "[D", NULL, NULL },
+ { NULL, NULL, "java/lang/Byte", 'B', "byte" , "[B", NULL, NULL },
+ { NULL, NULL, "java/lang/Character", 'C', "char" , "[C", NULL, NULL },
+ { NULL, NULL, "java/lang/Short", 'S', "short" , "[S", NULL, NULL },
+ { NULL, NULL, "java/lang/Boolean", 'Z', "boolean" , "[Z", NULL, NULL },
+ { NULL, NULL, "java/lang/Void", 'V', "void" , NULL, NULL, NULL }};
/* instances of important system classes **************************************/
java_objectheader *proto_java_lang_ArrayStoreException;
java_objectheader *proto_java_lang_ThreadDeath;
-
/************* functions for reading classdata *********************************
getting classdata in blocks of variable size
static u1 *classbuf_pos; /* current position in classfile buffer */
static int classbuffer_size; /* size of classfile-data */
+/* assert that at least <len> bytes are left to read */
+/* <len> is limited to the range of non-negative s4 values */
+#define ASSERT_LEFT(len) \
+ do {if ( ((s4)(len)) < 0 \
+ || ((classbuffer + classbuffer_size) - classbuf_pos - 1) < (len)) \
+ panic("Unexpected end of classfile"); } while(0)
+
/* transfer block of classfile data into a buffer */
-#define suck_nbytes(buffer,len) memcpy(buffer,classbuf_pos+1,len); \
- classbuf_pos+=len;
+#define suck_nbytes(buffer,len) \
+ do {ASSERT_LEFT(len); \
+ memcpy(buffer,classbuf_pos+1,len); \
+ classbuf_pos+=len;} while (0)
/* skip block of classfile data */
-#define skip_nbytes(len) classbuf_pos+=len;
+#define skip_nbytes(len) \
+ do {ASSERT_LEFT(len); \
+ classbuf_pos+=len;} while(0)
inline u1 suck_u1()
{
+ ASSERT_LEFT(1);
return *++classbuf_pos;
}
inline u2 suck_u2()
/* get u8 from classfile data */
-
-static u8 suck_u8 ()
+static u8 suck_u8()
{
#if U8_AVAILABLE
- u8 lo,hi;
+ u8 lo, hi;
hi = suck_u4();
lo = suck_u4();
- return (hi<<32) + lo;
+ return (hi << 32) + lo;
#else
u8 v;
v.high = suck_u4();
#endif
}
-/* get float from classfile data */
-static float suck_float ()
+/* get float from classfile data */
+static float suck_float()
{
float f;
#if !WORDS_BIGENDIAN
u1 buffer[4];
u2 i;
- for (i=0; i<4; i++) buffer[3-i] = suck_u1 ();
- memcpy ( (u1*) (&f), buffer, 4);
+ for (i = 0; i < 4; i++) buffer[3 - i] = suck_u1();
+ memcpy((u1*) (&f), buffer, 4);
#else
- suck_nbytes ( (u1*) (&f), 4 );
+ suck_nbytes((u1*) (&f), 4);
#endif
PANICIF (sizeof(float) != 4, "Incompatible float-format");
return f;
}
+
/* get double from classfile data */
-static double suck_double ()
+static double suck_double()
{
double d;
#if !WORDS_BIGENDIAN
u1 buffer[8];
u2 i;
- for (i=0; i<8; i++) buffer[7-i] = suck_u1 ();
- memcpy ( (u1*) (&d), buffer, 8);
+ for (i = 0; i < 8; i++) buffer[7 - i] = suck_u1 ();
+ memcpy((u1*) (&d), buffer, 8);
#else
- suck_nbytes ( (u1*) (&d), 8 );
+ suck_nbytes((u1*) (&d), 8);
#endif
PANICIF (sizeof(double) != 8, "Incompatible double-format" );
return d;
}
+
/************************** function suck_init *********************************
called once at startup, sets the searchpath for the classfiles
*******************************************************************************/
-void suck_init (char *cpath)
+void suck_init(char *cpath)
{
classpath = cpath;
classbuffer = NULL;
*******************************************************************************/
-
-bool suck_start (utf *classname) {
+bool suck_start(utf *classname)
+{
#define MAXFILENAME 1000 /* maximum length of a filename */
FILE *classfile;
int filenamelen, err;
struct stat buffer;
-
+ int isZip;
+
if (classbuffer) /* classbuffer is already valid */
return true;
/* extract directory from searchpath */
filenamelen = 0;
- while ((*pathpos) && (*pathpos!=':')) {
- PANICIF (filenamelen >= MAXFILENAME, "Filename too long") ;
+ while ((*pathpos) && (*pathpos != ':')) {
+ PANICIF (filenamelen >= MAXFILENAME, "Filename too long");
filename[filenamelen++] = *(pathpos++);
}
- filename[filenamelen++] = '/';
+ isZip = 0;
+ if (filenamelen > 4) {
+ if ( ((filename[filenamelen - 1] == 'p') || (filename[filenamelen - 1] == 'P')) &
+ ((filename[filenamelen - 2] == 'i') || (filename[filenamelen - 2] == 'I')) &
+ ((filename[filenamelen - 3] == 'z') || (filename[filenamelen - 3] == 'Z')) ) {
+ isZip = 1;
+ }
+ }
+
+ if (isZip) {
+#ifdef USE_ZLIB
+ filename[filenamelen++] = '\0';
+ if (uf == 0) uf = unzOpen(filename);
+ if (uf != 0) {
+ utf_ptr = classname->text;
+ filenamelen = 0;
+ while (utf_ptr < utf_end(classname)) {
+ PANICIF (filenamelen >= MAXFILENAME, "Filename too long");
+ c = *utf_ptr++;
+ if ((c <= ' ' || c > 'z') && (c != '/')) /* invalid character */
+ c = '?';
+ filename[filenamelen++] = c;
+ }
+ strcpy(filename + filenamelen, ".class");
+ if (cacao_locate(uf,classname) == UNZ_OK) {
+ unz_file_info file_info;
+ log_text("Class found in zip file");
+ if (unzGetCurrentFileInfo(uf, &file_info, filename,
+ sizeof(filename), NULL, 0, NULL, 0) == UNZ_OK) {
+ if (unzOpenCurrentFile(uf) == UNZ_OK) {
+ classbuffer_size = file_info.uncompressed_size;
+ classbuffer = MNEW(u1, classbuffer_size);
+ classbuf_pos = classbuffer - 1;
+ /*printf("classfile size: %d\n",file_info.uncompressed_size);*/
+ if (unzReadCurrentFile(uf, classbuffer, classbuffer_size) == classbuffer_size) {
+ unzCloseCurrentFile(uf);
+ return true;
+ } else {
+ MFREE(classbuffer, u1, classbuffer_size);
+ log_text("Error while unzipping");
+ }
+ } else log_text("Error while opening file in archive");
+ } else log_text("Error while retrieving fileinfo");
+ }
+ unzCloseCurrentFile(uf);
+
+ }
+#endif
+ } else {
+ filename[filenamelen++] = '/';
- /* add classname to filename */
-
- utf_ptr = classname->text;
- while (utf_ptr < utf_end(classname)) {
- PANICIF (filenamelen >= MAXFILENAME, "Filename too long");
- c = *utf_ptr++;
- if ((c <= ' ' || c > 'z') && (c != '/')) /* invalid character */
- c = '?';
- filename[filenamelen++] = c;
+ /* add classname to filename */
+
+ utf_ptr = classname->text;
+ while (utf_ptr < utf_end(classname)) {
+ PANICIF (filenamelen >= MAXFILENAME, "Filename too long");
+ c = *utf_ptr++;
+ if ((c <= ' ' || c > 'z') && (c != '/')) /* invalid character */
+ c = '?';
+ filename[filenamelen++] = c;
}
-
- /* add suffix */
+
+ /* add suffix */
- strcpy (filename+filenamelen, ".class");
+ strcpy(filename + filenamelen, ".class");
- classfile = fopen(filename, "r");
- if (classfile) { /* file exists */
-
- /* determine size of classfile */
+ classfile = fopen(filename, "r");
+ if (classfile) { /* file exists */
+
+ /* determine size of classfile */
- err = stat (filename, &buffer);
+ /* dolog("File: %s",filename); */
- if (!err) { /* read classfile data */
- classbuffer_size = buffer.st_size;
- classbuffer = MNEW(u1, classbuffer_size);
- classbuf_pos = classbuffer-1;
- fread(classbuffer, 1, classbuffer_size, classfile);
- fclose(classfile);
- return true;
+ err = stat(filename, &buffer);
+
+ if (!err) { /* read classfile data */
+ classbuffer_size = buffer.st_size;
+ classbuffer = MNEW(u1, classbuffer_size);
+ classbuf_pos = classbuffer - 1;
+ fread(classbuffer, 1, classbuffer_size, classfile);
+ fclose(classfile);
+ return true;
+ }
}
}
}
-
if (verbose) {
- sprintf (logtext, "Warning: Can not open class file '%s'", filename);
- dolog();
+ dolog("Warning: Can not open class file '%s'", filename);
}
return false;
*******************************************************************************/
-void suck_stop () {
-
+void suck_stop()
+{
/* determine amount of classdata not retrieved by suck-operations */
- int classdata_left = ((classbuffer+classbuffer_size)-classbuf_pos-1);
+ int classdata_left = ((classbuffer + classbuffer_size) - classbuf_pos - 1);
- if (classdata_left > 0) {
+ if (classdata_left > 0) {
/* surplus */
- sprintf (logtext,"There are %d access bytes at end of classfile",
- classdata_left);
- dolog();
+ dolog("There are %d access bytes at end of classfile",
+ classdata_left);
+ /* XXX panic? */
}
/* free memory */
classbuffer = NULL;
}
+
/******************************************************************************/
/******************* Some support functions ***********************************/
/******************************************************************************/
-/********** internal function: printflags (only for debugging) ***************/
-static void printflags (u2 f)
+void fprintflags (FILE *fp, u2 f)
+{
+ if ( f & ACC_PUBLIC ) fprintf (fp," PUBLIC");
+ if ( f & ACC_PRIVATE ) fprintf (fp," PRIVATE");
+ if ( f & ACC_PROTECTED ) fprintf (fp," PROTECTED");
+ if ( f & ACC_STATIC ) fprintf (fp," STATIC");
+ if ( f & ACC_FINAL ) fprintf (fp," FINAL");
+ if ( f & ACC_SYNCHRONIZED ) fprintf (fp," SYNCHRONIZED");
+ if ( f & ACC_VOLATILE ) fprintf (fp," VOLATILE");
+ if ( f & ACC_TRANSIENT ) fprintf (fp," TRANSIENT");
+ if ( f & ACC_NATIVE ) fprintf (fp," NATIVE");
+ if ( f & ACC_INTERFACE ) fprintf (fp," INTERFACE");
+ if ( f & ACC_ABSTRACT ) fprintf (fp," ABSTRACT");
+}
+
+/********** internal function: printflags (only for debugging) ***************/
+void printflags (u2 f)
{
if ( f & ACC_PUBLIC ) printf (" PUBLIC");
if ( f & ACC_PRIVATE ) printf (" PRIVATE");
static void skipattribute ()
{
+ u4 len;
suck_u2 ();
- skip_nbytes(suck_u4());
+ len = suck_u4();
+ skip_nbytes(len);
}
/********************** Function: skipattributebody ****************************
static void skipattributebody ()
{
- skip_nbytes(suck_u4());
+ u4 len;
+ len = suck_u4();
+ skip_nbytes(len);
}
/************************* Function: skipattributes ****************************
/* check type of constantpool entry */
if (c->cptags[pos] != ctype) {
- sprintf (logtext, "Type mismatch on constant: %d requested, %d here",
+ error ("Type mismatch on constant: %d requested, %d here (innerclass_getconstant)",
(int) ctype, (int) c->cptags[pos] );
- error();
}
return c->cpinfos[pos];
static void checkfielddescriptor (char *utf_ptr, char *end_pos)
{
+ class_from_descriptor(utf_ptr,end_pos,NULL,
+ CLASSLOAD_NEW
+ | CLASSLOAD_NULLPRIMITIVE
+ | CLASSLOAD_NOVOID
+ | CLASSLOAD_CHECKEND);
+#if 0
char *tstart; /* pointer to start of classname */
char ch;
-
- switch (*utf_ptr++) {
- case 'B':
- case 'C':
- case 'I':
- case 'S':
- case 'Z':
- case 'J':
- case 'F':
- case 'D':
- /* primitive type */
- break;
-
- case 'L':
- /* save start of classname */
- tstart = utf_ptr;
-
- /* determine length of classname */
- while ( *utf_ptr++ != ';' )
- if (utf_ptr>=end_pos)
- panic ("Missing ';' in objecttype-descriptor");
-
- /* cause loading of referenced class */
- class_new ( utf_new(tstart, utf_ptr-tstart-1) );
- break;
-
- case '[' :
- /* array type */
- while ((ch = *utf_ptr++)=='[')
- /* skip */ ;
-
- /* component type of array */
- switch (ch) {
- case 'B':
- case 'C':
- case 'I':
- case 'S':
- case 'Z':
- case 'J':
- case 'F':
- case 'D':
- /* primitive type */
- break;
-
- case 'L':
- /* save start of classname */
- tstart = utf_ptr;
-
- /* determine length of classname */
- while ( *utf_ptr++ != ';' )
- if (utf_ptr>=end_pos)
- panic ("Missing ';' in objecttype-descriptor");
-
- /* cause loading of referenced class */
- class_new ( utf_new(tstart, utf_ptr-tstart-1) );
- break;
+ char *start = utf_ptr;
- default:
- panic ("Ill formed methodtype-descriptor");
- }
- break;
-
- default:
- panic ("Ill formed methodtype-descriptor");
+ switch (*utf_ptr++) {
+ case 'B':
+ case 'C':
+ case 'I':
+ case 'S':
+ case 'Z':
+ case 'J':
+ case 'F':
+ case 'D':
+ /* primitive type */
+ break;
+
+ case '[':
+ case 'L':
+ if (!class_from_descriptor(start,end_pos,&utf_ptr,CLASSLOAD_NEW))
+ panic ("Ill formed descriptor");
+ break;
+
+ default:
+ panic ("Ill formed descriptor");
}
-
- /* exceeding characters */
+
+ /* exceeding characters */
if (utf_ptr!=end_pos) panic ("descriptor has exceeding chars");
+#endif
}
{
char *utf_ptr = d->text; /* current position in utf text */
char *end_pos = utf_end(d); /* points behind utf string */
- char *tstart; /* pointer to start of classname */
- char c,ch;
/* method descriptor must start with parenthesis */
- if (*utf_ptr++ != '(') panic ("Missing '(' in method descriptor");
+ if (utf_ptr == end_pos || *utf_ptr++ != '(') panic ("Missing '(' in method descriptor");
+
+ /* check arguments */
+ while (utf_ptr != end_pos && *utf_ptr != ')') {
+ class_from_descriptor(utf_ptr,end_pos,&utf_ptr,
+ CLASSLOAD_NEW
+ | CLASSLOAD_NULLPRIMITIVE
+ | CLASSLOAD_NOVOID);
+ }
+ if (utf_ptr == end_pos) panic("Missing return type in method descriptor");
+ utf_ptr++; /* skip ')' */
+
+ class_from_descriptor(utf_ptr,end_pos,NULL,
+ CLASSLOAD_NEW
+ | CLASSLOAD_NULLPRIMITIVE
+ | CLASSLOAD_CHECKEND);
+
+#if 0
+ /* XXX check length */
/* check arguments */
while ((c = *utf_ptr++) != ')') {
+ start = utf_ptr-1;
+
switch (c) {
case 'B':
case 'C':
/* primitive type */
break;
+ case '[':
case 'L':
- /* save start of classname */
- tstart = utf_ptr;
-
- /* determine length of classname */
- while ( *utf_ptr++ != ';' )
- if (utf_ptr>=end_pos)
- panic ("Missing ';' in objecttype-descriptor");
-
- /* cause loading of referenced class */
- class_new ( utf_new(tstart, utf_ptr-tstart-1) );
- break;
-
- case '[' :
- /* array type */
- while ((ch = *utf_ptr++)=='[')
- /* skip */ ;
-
- /* component type of array */
- switch (ch) {
- case 'B':
- case 'C':
- case 'I':
- case 'S':
- case 'Z':
- case 'J':
- case 'F':
- case 'D':
- /* primitive type */
- break;
-
- case 'L':
- /* save start of classname */
- tstart = utf_ptr;
-
- /* determine length of classname */
- while ( *utf_ptr++ != ';' )
- if (utf_ptr>=end_pos)
- panic ("Missing ';' in objecttype-descriptor");
-
- /* cause loading of referenced class */
- class_new ( utf_new(tstart, utf_ptr-tstart-1) );
- break;
-
- default:
- panic ("Ill formed methodtype-descriptor");
- }
+ if (!class_from_descriptor(start,end_pos,&utf_ptr,CLASSLOAD_NEW))
+ panic ("Ill formed method descriptor");
break;
default:
panic ("Ill formed methodtype-descriptor");
- }
+ }
}
/* check returntype */
else
/* treat as field-descriptor */
checkfielddescriptor (utf_ptr,end_pos);
-}
-
-
-/******************** Function: buildarraydescriptor ***************************
-
- creates a constant_arraydescriptor structure for the array type named by an
- utf string
-
-*******************************************************************************/
-
-constant_arraydescriptor * buildarraydescriptor(char *utf_ptr, u4 namelen)
-{
- constant_arraydescriptor *d;
-
- if (*utf_ptr++ != '[') panic ("Attempt to build arraydescriptor for non-array");
-
- d = NEW (constant_arraydescriptor);
- d -> objectclass = NULL;
- d -> elementdescriptor = NULL;
-
-#ifdef STATISTICS
- count_const_pool_len += sizeof(constant_arraydescriptor);
#endif
-
- switch (*utf_ptr) {
- case 'Z': d -> arraytype = ARRAYTYPE_BOOLEAN; break;
- case 'B': d -> arraytype = ARRAYTYPE_BYTE; break;
- case 'C': d -> arraytype = ARRAYTYPE_CHAR; break;
- case 'D': d -> arraytype = ARRAYTYPE_DOUBLE; break;
- case 'F': d -> arraytype = ARRAYTYPE_FLOAT; break;
- case 'I': d -> arraytype = ARRAYTYPE_INT; break;
- case 'J': d -> arraytype = ARRAYTYPE_LONG; break;
- case 'S': d -> arraytype = ARRAYTYPE_SHORT; break;
-
- case '[':
- d -> arraytype = ARRAYTYPE_ARRAY;
- d -> elementdescriptor = buildarraydescriptor (utf_ptr, namelen-1);
- break;
-
- case 'L':
- d -> arraytype = ARRAYTYPE_OBJECT;
- d -> objectclass = class_new ( utf_new(utf_ptr+1, namelen-3) );
- break;
- }
- return d;
}
-/******************* Function: freearraydescriptor *****************************
+/***************** Function: print_arraydescriptor ****************************
- removes a structure created by buildarraydescriptor from memory
+ Debugging helper for displaying an arraydescriptor
*******************************************************************************/
-static void freearraydescriptor (constant_arraydescriptor *d)
+void print_arraydescriptor(FILE *file, arraydescriptor *desc)
{
- while (d) {
- constant_arraydescriptor *n = d->elementdescriptor;
- FREE (d, constant_arraydescriptor);
- d = n;
- }
-}
-
-/*********************** Function: displayarraydescriptor *********************/
+ if (!desc) {
+ fprintf(file, "<NULL>");
+ return;
+ }
-static void displayarraydescriptor (constant_arraydescriptor *d)
-{
- switch (d->arraytype) {
- case ARRAYTYPE_BOOLEAN: printf ("boolean[]"); break;
- case ARRAYTYPE_BYTE: printf ("byte[]"); break;
- case ARRAYTYPE_CHAR: printf ("char[]"); break;
- case ARRAYTYPE_DOUBLE: printf ("double[]"); break;
- case ARRAYTYPE_FLOAT: printf ("float[]"); break;
- case ARRAYTYPE_INT: printf ("int[]"); break;
- case ARRAYTYPE_LONG: printf ("long[]"); break;
- case ARRAYTYPE_SHORT: printf ("short[]"); break;
- case ARRAYTYPE_ARRAY: displayarraydescriptor(d->elementdescriptor); printf("[]"); break;
- case ARRAYTYPE_OBJECT: utf_display(d->objectclass->name); printf("[]"); break;
+ fprintf(file, "{");
+ if (desc->componentvftbl) {
+ if (desc->componentvftbl->class)
+ utf_fprint(file, desc->componentvftbl->class->name);
+ else
+ fprintf(file, "<no classinfo>");
+ }
+ else
+ fprintf(file, "0");
+
+ fprintf(file, ",");
+ if (desc->elementvftbl) {
+ if (desc->elementvftbl->class)
+ utf_fprint(file, desc->elementvftbl->class->name);
+ else
+ fprintf(file, "<no classinfo>");
}
+ else
+ fprintf(file, "0");
+ fprintf(file, ",%d,%d,%d,%d}", desc->arraytype, desc->dimension,
+ desc->dataoffset, desc->componentsize);
}
-
/******************************************************************************/
/************************** Functions for fields ****************************/
/******************************************************************************/
f -> descriptor = class_getconstant (c, suck_u2(), CONSTANT_Utf8); /* JavaVM descriptor */
f -> type = jtype = desc_to_type (f->descriptor); /* data type */
f -> offset = 0; /* offset from start of object */
+ f -> class = c;
+ f->xta = NULL;
switch (f->type) {
case TYPE_INT: f->value.i = 0; break;
case TYPE_FLOAT: f->value.f = 0.0; break;
case TYPE_DOUBLE: f->value.d = 0.0; break;
case TYPE_ADDRESS: f->value.a = NULL;
- heap_addreference (&(f->value.a)); /* make global reference (GC) */
+/* heap_addreference (&(f->value.a)); /* make global reference (GC) */
break;
case TYPE_LONG:
#if U8_AVAILABLE
/**************** Function: field_display (debugging only) ********************/
-static void field_display (fieldinfo *f)
+void field_display(fieldinfo *f)
{
- printf (" ");
- printflags (f -> flags);
- printf (" ");
- utf_display (f -> name);
- printf (" ");
- utf_display (f -> descriptor);
- printf (" offset: %ld\n", (long int) (f -> offset) );
+ printf(" ");
+ printflags(f->flags);
+ printf(" ");
+ utf_display(f->name);
+ printf(" ");
+ utf_display(f->descriptor);
+ printf(" offset: %ld\n", (long int) (f->offset));
}
*******************************************************************************/
-static void method_load (methodinfo *m, classinfo *c)
+static void method_load(methodinfo *m, classinfo *c)
{
- u4 attrnum,i,e;
+ u4 attrnum, i, e;
#ifdef STATISTICS
count_all_methods++;
#endif
- m -> class = c;
+ m->class = c;
- m -> flags = suck_u2 ();
- m -> name = class_getconstant (c, suck_u2(), CONSTANT_Utf8);
- m -> descriptor = class_getconstant (c, suck_u2(), CONSTANT_Utf8);
+ m->flags = suck_u2();
+ m->name = class_getconstant(c, suck_u2(), CONSTANT_Utf8);
+ m->descriptor = class_getconstant(c, suck_u2(), CONSTANT_Utf8);
+ checkmethoddescriptor(m->descriptor);
- m -> jcode = NULL;
- m -> exceptiontable = NULL;
- m -> entrypoint = NULL;
- m -> mcode = NULL;
- m -> stubroutine = NULL;
+ m->jcode = NULL;
+ m->exceptiontable = NULL;
+ m->entrypoint = NULL;
+ m->mcode = NULL;
+ m->stubroutine = NULL;
+ m->methodUsed = NOTUSED;
+ m->monoPoly = MONO;
+ m->subRedefs = 0;
+ m->subRedefsUsed = 0;
+
+ m->xta = NULL;
- if (! (m->flags & ACC_NATIVE) ) {
- m -> stubroutine = createcompilerstub (m);
- }
- else {
+ if (!(m->flags & ACC_NATIVE)) {
+ m->stubroutine = createcompilerstub(m);
- functionptr f = native_findfunction
- (c->name, m->name, m->descriptor, (m->flags & ACC_STATIC) != 0);
+ } else {
+ functionptr f = native_findfunction(c->name, m->name, m->descriptor,
+ (m->flags & ACC_STATIC) != 0);
if (f) {
-#ifdef OLD_COMPILER
- if (newcompiler)
-#endif
- m -> stubroutine = createnativestub (f, m);
-#ifdef OLD_COMPILER
- else
- m -> stubroutine = oldcreatenativestub (f, m);
-#endif
- }
+ m->stubroutine = createnativestub(f, m);
}
+ }
attrnum = suck_u2();
- for (i=0; i<attrnum; i++) {
+ for (i = 0; i < attrnum; i++) {
utf *aname;
- aname = class_getconstant (c, suck_u2(), CONSTANT_Utf8);
+ aname = class_getconstant(c, suck_u2(), CONSTANT_Utf8);
- if ( aname != utf_code) {
- skipattributebody ();
- }
- else {
- if (m -> jcode) panic ("Two code-attributes for one method!");
+ if (aname != utf_code) {
+ skipattributebody();
+
+ } else {
+ u4 codelen;
+ if (m->jcode)
+ panic("Two code-attributes for one method!");
suck_u4();
- m -> maxstack = suck_u2();
- m -> maxlocals = suck_u2();
- m -> jcodelength = suck_u4();
- m -> jcode = MNEW (u1, m->jcodelength);
- suck_nbytes (m->jcode, m->jcodelength);
- m -> exceptiontablelength = suck_u2 ();
- m -> exceptiontable =
- MNEW (exceptiontable, m->exceptiontablelength);
+ m->maxstack = suck_u2();
+ m->maxlocals = suck_u2();
+ codelen = suck_u4();
+ if (codelen == 0)
+ panic("bytecode has zero length");
+ if (codelen > 65536)
+ panic("bytecode too long");
+ m->jcodelength = codelen;
+ m->jcode = MNEW(u1, m->jcodelength);
+ suck_nbytes(m->jcode, m->jcodelength);
+ m->exceptiontablelength = suck_u2();
+ m->exceptiontable =
+ MNEW(exceptiontable, m->exceptiontablelength);
#ifdef STATISTICS
- count_vmcode_len += m->jcodelength + 18;
- count_extable_len += 8 * m->exceptiontablelength;
+ count_vmcode_len += m->jcodelength + 18;
+ count_extable_len += 8 * m->exceptiontablelength;
#endif
- for (e=0; e < m->exceptiontablelength; e++) {
+ for (e = 0; e < m->exceptiontablelength; e++) {
u4 idx;
- m -> exceptiontable[e].startpc = suck_u2();
- m -> exceptiontable[e].endpc = suck_u2();
- m -> exceptiontable[e].handlerpc = suck_u2();
+ m->exceptiontable[e].startpc = suck_u2();
+ m->exceptiontable[e].endpc = suck_u2();
+ m->exceptiontable[e].handlerpc = suck_u2();
idx = suck_u2();
- if (!idx) m -> exceptiontable[e].catchtype = NULL;
- else {
- m -> exceptiontable[e].catchtype =
- class_getconstant (c, idx, CONSTANT_Class);
- }
- }
+ if (!idx) {
+ m->exceptiontable[e].catchtype = NULL;
- skipattributes ( suck_u2() );
- }
-
- }
+ } else {
+ m->exceptiontable[e].catchtype =
+ class_getconstant(c, idx, CONSTANT_Class);
+ }
+ }
+ skipattributes(suck_u2());
+ }
+ }
}
+
/********************* Function: method_free ***********************************
frees all memory that was allocated for this method
*******************************************************************************/
-static void method_free (methodinfo *m)
+static void method_free(methodinfo *m)
{
- if (m->jcode) MFREE (m->jcode, u1, m->jcodelength);
- if (m->exceptiontable)
- MFREE (m->exceptiontable, exceptiontable, m->exceptiontablelength);
- if (m->mcode) CFREE (m->mcode, m->mcodelength);
+ if (m->jcode)
+ MFREE(m->jcode, u1, m->jcodelength);
+
+ if (m->exceptiontable)
+ MFREE(m->exceptiontable, exceptiontable, m->exceptiontablelength);
+
+ if (m->mcode)
+ CFREE(m->mcode, m->mcodelength);
+
if (m->stubroutine) {
- if (m->flags & ACC_NATIVE) removenativestub (m->stubroutine);
- else removecompilerstub (m->stubroutine);
+ if (m->flags & ACC_NATIVE) {
+ removenativestub(m->stubroutine);
+
+ } else {
+ removecompilerstub(m->stubroutine);
}
+ }
}
/************** Function: method_display (debugging only) **************/
-void method_display (methodinfo *m)
+void method_display(methodinfo *m)
{
- printf (" ");
- printflags (m -> flags);
- printf (" ");
- utf_display (m -> name);
- printf (" ");
- utf_display (m -> descriptor);
- printf ("\n");
+ printf(" ");
+ printflags(m->flags);
+ printf(" ");
+ utf_display(m->name);
+ printf(" ");
+ utf_display(m->descriptor);
+ printf("\n");
}
/******************************************************************************/
-/******************** function: class_getconstant ******************************
+/******************** function:: class_getconstant ******************************
retrieves the value at position 'pos' of the constantpool of a class
if the type of the value is other than 'ctype' the system is stopped
*******************************************************************************/
-voidptr class_getconstant (classinfo *c, u4 pos, u4 ctype)
+voidptr class_getconstant(classinfo *c, u4 pos, u4 ctype)
{
/* invalid position in constantpool */
- if (pos >= c->cpcount)
- panic ("Attempt to access constant outside range");
+ if (pos >= c->cpcount)
+ panic("Attempt to access constant outside range");
/* check type of constantpool entry */
+
if (c->cptags[pos] != ctype) {
- sprintf (logtext, "Type mismatch on constant: %d requested, %d here",
- (int) ctype, (int) c->cptags[pos] );
- error();
- }
+ class_showconstantpool(c);
+ error("Type mismatch on constant: %d requested, %d here (class_getconstant)",
+ (int) ctype, (int) c->cptags[pos]);
+ }
return c->cpinfos[pos];
}
*******************************************************************************/
-u4 class_constanttype (classinfo *c, u4 pos)
+u4 class_constanttype(classinfo *c, u4 pos)
{
- if (pos >= c->cpcount)
- panic ("Attempt to access constant outside range");
+ if (pos >= c->cpcount)
+ panic("Attempt to access constant outside range");
+
return c->cptags[pos];
}
*******************************************************************************/
-static void class_loadcpool (classinfo *c)
+static void class_loadcpool(classinfo *c)
{
/* The following structures are used to save information which cannot be
/* number of bytes in the bytes array (not string-length) */
u4 length = suck_u2();
cptags [idx] = CONSTANT_Utf8;
+ /* validate the string */
+ ASSERT_LEFT(length);
+ if (!is_valid_utf(classbuf_pos+1, classbuf_pos+1+length))
+ panic("Invalid UTF-8 string");
/* insert utf-string into the utf-symboltable */
cpinfos [idx] = utf_new(classbuf_pos+1, length);
/* skip bytes of the string */
}
default:
- sprintf (logtext, "Unkown constant type: %d",(int) t);
- error ();
+ error ("Unkown constant type: %d",(int) t);
} /* end switch */
while (forward_classes) {
utf *name =
class_getconstant (c, forward_classes -> name_index, CONSTANT_Utf8);
-
- if ( (name->blength>0) && (name->text[0]=='[') ) {
- /* check validity of descriptor */
- checkfielddescriptor (name->text, utf_end(name));
- cptags [forward_classes -> thisindex] = CONSTANT_Arraydescriptor;
- cpinfos [forward_classes -> thisindex] =
- buildarraydescriptor(name->text, name->blength);
+ cptags [forward_classes -> thisindex] = CONSTANT_Class;
+ /* retrieve class from class-table */
+ cpinfos [forward_classes -> thisindex] = class_new (name);
- }
- else {
- cptags [forward_classes -> thisindex] = CONSTANT_Class;
- /* retrieve class from class-table */
- cpinfos [forward_classes -> thisindex] = class_new (name);
- }
forward_classes = forward_classes -> next;
}
while (forward_strings) {
utf *text =
class_getconstant (c, forward_strings -> string_index, CONSTANT_Utf8);
-
+/*
+ log_text("forward_string:");
+ printf( "classpoolid: %d\n",forward_strings -> thisindex);
+ utf_display(text);
+ log_text("\n------------------"); */
/* resolve utf-string */
cptags [forward_strings -> thisindex] = CONSTANT_String;
cpinfos [forward_strings -> thisindex] = text;
nat = class_getconstant
(c, forward_fieldmethints -> nameandtype_index, CONSTANT_NameAndType);
+#ifdef JOWENN_DEBUG
+ log_text("trying to resolve:");
+ log_text(nat->name->text);
+ switch(forward_fieldmethints ->tag) {
+ case CONSTANT_Fieldref:
+ log_text("CONSTANT_Fieldref");
+ break;
+ case CONSTANT_InterfaceMethodref:
+ log_text("CONSTANT_InterfaceMethodref");
+ break;
+ case CONSTANT_Methodref:
+ log_text("CONSTANT_Methodref");
+ break;
+ }
+#endif
fmi -> class = class_getconstant
(c, forward_fieldmethints -> class_index, CONSTANT_Class);
fmi -> name = nat -> name;
break;
case CONSTANT_InterfaceMethodref:
case CONSTANT_Methodref: /* check validity of descriptor */
+ /* XXX check special names (<init>) */
checkmethoddescriptor (fmi->descriptor);
break;
}
}
+/* class_showconstantpool(c); */
dump_release (dumpsize);
}
*******************************************************************************/
-static int class_load (classinfo *c)
+static int class_load(classinfo *c)
{
u4 i;
u4 mi,ma;
/* output for debugging purposes */
if (loadverbose) {
- sprintf (logtext, "Loading class: ");
- utf_sprint (logtext+strlen(logtext), c->name );
- dolog();
- }
+ char logtext[MAXLOGTEXT];
+ sprintf(logtext, "Loading class: ");
+ utf_sprint(logtext + strlen(logtext), c->name);
+ log_text(logtext);
+ }
/* load classdata, throw exception on error */
- if (!suck_start (c->name)) {
- throw_classnotfoundexception();
+
+ if (!suck_start(c->name)) {
+ throw_noclassdeffounderror_message(c->name);
return false;
}
mi = suck_u2();
ma = suck_u2();
if (ma != MAJOR_VERSION && (ma != MAJOR_VERSION+1 || mi != 0)) {
- sprintf (logtext, "File version %d.%d is not supported",
- (int) ma, (int) mi);
- error();
- }
+ error("File version %d.%d is not supported", (int) ma, (int) mi);
+ }
+ class_loadcpool(c);
+ /*JOWENN*/
+ c->erroneous_state = 0;
+ c->initializing_thread = 0;
+ /*JOWENN*/
+ c->classUsed = NOTUSED; /* not used initially CO-RT */
+ c->impldBy = NULL;
- class_loadcpool (c);
-
/* ACC flags */
- c -> flags = suck_u2 ();
+ c->flags = suck_u2();
+ /*if (!(c->flags & ACC_PUBLIC)) { log_text("CLASS NOT PUBLIC"); } JOWENN*/
+
/* this class */
- suck_u2 ();
+ suck_u2();
/* retrieve superclass */
- if ( (i = suck_u2 () ) ) {
- c -> super = class_getconstant (c, i, CONSTANT_Class);
- }
- else {
- c -> super = NULL;
- }
+ if ((i = suck_u2())) {
+ c->super = class_getconstant(c, i, CONSTANT_Class);
+
+ } else {
+ c->super = NULL;
+ }
/* retrieve interfaces */
- c -> interfacescount = suck_u2 ();
- c -> interfaces = MNEW (classinfo*, c -> interfacescount);
- for (i=0; i < c -> interfacescount; i++) {
- c -> interfaces [i] =
- class_getconstant (c, suck_u2(), CONSTANT_Class);
- }
+ c->interfacescount = suck_u2();
+ c->interfaces = MNEW(classinfo*, c->interfacescount);
+ for (i = 0; i < c->interfacescount; i++) {
+ c->interfaces [i] =
+ class_getconstant(c, suck_u2(), CONSTANT_Class);
+ }
/* load fields */
- c -> fieldscount = suck_u2 ();
-#ifdef USE_BOEHM
- c -> fields = GCNEW (fieldinfo, c -> fieldscount);
-#else
- c -> fields = MNEW (fieldinfo, c -> fieldscount);
-#endif
- for (i=0; i < c -> fieldscount; i++) {
- field_load (&(c->fields[i]), c);
- }
+ c->fieldscount = suck_u2();
+/* utf_display(c->name);
+ printf(" ,Fieldscount: %d\n",c->fieldscount);*/
+
+ c->fields = GCNEW(fieldinfo, c->fieldscount);
+ for (i = 0; i < c->fieldscount; i++) {
+ field_load(&(c->fields[i]), c);
+ }
/* load methods */
- c -> methodscount = suck_u2 ();
- c -> methods = MNEW (methodinfo, c -> methodscount);
- for (i=0; i < c -> methodscount; i++) {
- method_load (&(c -> methods [i]), c);
- }
+ c->methodscount = suck_u2();
+ c->methods = MNEW(methodinfo, c->methodscount);
+ for (i = 0; i < c->methodscount; i++) {
+ method_load(&(c->methods[i]), c);
+ }
#ifdef STATISTICS
- count_class_infos += sizeof(classinfo*) * c -> interfacescount;
- count_class_infos += sizeof(fieldinfo) * c -> fieldscount;
- count_class_infos += sizeof(methodinfo) * c -> methodscount;
+ count_class_infos += sizeof(classinfo*) * c->interfacescount;
+ count_class_infos += sizeof(fieldinfo) * c->fieldscount;
+ count_class_infos += sizeof(methodinfo) * c->methodscount;
#endif
/* load variable-length attribute structures */
- attribute_load (suck_u2(), c);
+ attribute_load(suck_u2(), c);
/* free memory */
- suck_stop ();
+ suck_stop();
/* remove class from list of unloaded classes and
add to list of unlinked classes */
- list_remove (&unloadedclasses, c);
- list_addlast (&unlinkedclasses, c);
+ list_remove(&unloadedclasses, c);
+ list_addlast(&unlinkedclasses, c);
+
+ c->loaded = true;
return true;
}
*******************************************************************************/
-static s4 class_highestinterface (classinfo *c)
+static s4 class_highestinterface(classinfo *c)
{
s4 h;
s4 i;
- if ( ! (c->flags & ACC_INTERFACE) ) {
- sprintf (logtext, "Interface-methods count requested for non-interface: ");
- utf_sprint (logtext+strlen(logtext), c->name);
- error();
- }
+ if (!(c->flags & ACC_INTERFACE)) {
+ char logtext[MAXLOGTEXT];
+ sprintf(logtext, "Interface-methods count requested for non-interface: ");
+ utf_sprint(logtext + strlen(logtext), c->name);
+ error(logtext);
+ }
h = c->index;
- for (i=0; i<c->interfacescount; i++) {
- s4 h2 = class_highestinterface (c->interfaces[i]);
- if (h2>h) h=h2;
- }
+ for (i = 0; i < c->interfacescount; i++) {
+ s4 h2 = class_highestinterface(c->interfaces[i]);
+ if (h2 > h) h = h2;
+ }
+
return h;
}
}
+/******************* Function: class_new_array *********************************
+
+ This function is called by class_new to setup an array class.
+
+*******************************************************************************/
+
+void class_new_array(classinfo *c)
+{
+ classinfo *comp = NULL;
+ methodinfo *clone;
+ int namelen;
+
+ /* XXX remove */ /* dolog("class_new_array: %s",c->name->text); */
+
+ /* Array classes are not loaded from classfiles. */
+ list_remove (&unloadedclasses, c);
+
+ /* Check array class name */
+ namelen = c->name->blength;
+ if (namelen < 2 || c->name->text[0] != '[')
+ panic("Invalid array class name");
+
+ /* Check the component type */
+ switch (c->name->text[1]) {
+ case '[':
+ /* c is an array of arrays. We have to create the component class. */
+ comp = class_new(utf_new(c->name->text + 1,namelen - 1));
+ break;
+
+ case 'L':
+ /* c is an array of objects. */
+ if (namelen < 4 || c->name->text[namelen-1] != ';')
+ panic("Invalid array class name");
+ comp = class_new(utf_new(c->name->text + 2,namelen - 3));
+ break;
+ }
+
+ /* Setup the array class */
+ c->super = class_java_lang_Object;
+ c->flags = ACC_PUBLIC | ACC_FINAL | ACC_ABSTRACT;
+
+ c->interfacescount = 2;
+ c->interfaces = MNEW(classinfo*,2); /* XXX use GC? */
+ c->interfaces[0] = class_java_lang_Cloneable;
+ c->interfaces[1] = class_java_io_Serializable;
+
+ c->methodscount = 1;
+ c->methods = MNEW (methodinfo, c->methodscount); /* XXX use GC? */
+
+ clone = c->methods;
+ memset(clone, 0, sizeof(methodinfo));
+ clone->flags = ACC_PUBLIC; /* XXX protected? */
+ clone->name = utf_new_char("clone");
+ clone->descriptor = utf_new_char("()Ljava/lang/Object;");
+ clone->class = c;
+ clone->stubroutine = createnativestub((functionptr) &builtin_clone_array, clone);
+ clone->monoPoly = MONO; /* XXX should be poly? */
+
+ /* XXX: field: length? */
+
+ /* The array class has to be linked */
+ list_addlast(&unlinkedclasses,c);
+
+ /*
+ * Array classes which are created after the other classes have been
+ * loaded and linked are linked explicitely.
+ */
+ c->loaded=true;
+
+ if (loader_inited)
+ loader_load(c->name); /* XXX handle errors */
+}
+
+
+/****************** Function: class_link_array *********************************
+
+ This function is called by class_link to create the
+ arraydescriptor for an array class.
+
+ This function returns NULL if the array cannot be linked because
+ the component type has not been linked yet.
+
+*******************************************************************************/
+
+static arraydescriptor *class_link_array(classinfo *c)
+{
+ classinfo *comp = NULL;
+ int namelen = c->name->blength;
+ arraydescriptor *desc;
+ vftbl *compvftbl;
+
+ /* Check the component type */
+ switch (c->name->text[1]) {
+ case '[':
+ /* c is an array of arrays. */
+ comp = class_get(utf_new(c->name->text + 1,namelen - 1));
+ if (!comp) panic("Could not find component array class.");
+ break;
+
+ case 'L':
+ /* c is an array of objects. */
+ comp = class_get(utf_new(c->name->text + 2,namelen - 3));
+ if (!comp) panic("Could not find component class.");
+ break;
+ }
+
+ /* If the component type has not been linked return NULL */
+ if (comp && !comp->linked)
+ return NULL;
+
+ /* Allocate the arraydescriptor */
+ desc = NEW(arraydescriptor);
+
+ if (comp) {
+ /* c is an array of references */
+ desc->arraytype = ARRAYTYPE_OBJECT;
+ desc->componentsize = sizeof(void*);
+ desc->dataoffset = OFFSET(java_objectarray,data);
+
+ compvftbl = comp->vftbl;
+ if (!compvftbl)
+ panic("Component class has no vftbl.");
+ desc->componentvftbl = compvftbl;
+
+ if (compvftbl->arraydesc) {
+ desc->elementvftbl = compvftbl->arraydesc->elementvftbl;
+ desc->dimension = compvftbl->arraydesc->dimension + 1;
+ desc->elementtype = compvftbl->arraydesc->elementtype;
+ }
+ else {
+ desc->elementvftbl = compvftbl;
+ desc->dimension = 1;
+ desc->elementtype = ARRAYTYPE_OBJECT;
+ }
+ }
+ else {
+ /* c is an array of a primitive type */
+ switch (c->name->text[1]) {
+ case 'Z': desc->arraytype = ARRAYTYPE_BOOLEAN;
+ desc->dataoffset = OFFSET(java_booleanarray,data);
+ desc->componentsize = sizeof(u1); break;
+ case 'B': desc->arraytype = ARRAYTYPE_BYTE;
+ desc->dataoffset = OFFSET(java_bytearray,data);
+ desc->componentsize = sizeof(u1); break;
+ case 'C': desc->arraytype = ARRAYTYPE_CHAR;
+ desc->dataoffset = OFFSET(java_chararray,data);
+ desc->componentsize = sizeof(u2); break;
+ case 'D': desc->arraytype = ARRAYTYPE_DOUBLE;
+ desc->dataoffset = OFFSET(java_doublearray,data);
+ desc->componentsize = sizeof(double); break;
+ case 'F': desc->arraytype = ARRAYTYPE_FLOAT;
+ desc->dataoffset = OFFSET(java_floatarray,data);
+ desc->componentsize = sizeof(float); break;
+ case 'I': desc->arraytype = ARRAYTYPE_INT;
+ desc->dataoffset = OFFSET(java_intarray,data);
+ desc->componentsize = sizeof(s4); break;
+ case 'J': desc->arraytype = ARRAYTYPE_LONG;
+ desc->dataoffset = OFFSET(java_longarray,data);
+ desc->componentsize = sizeof(s8); break;
+ case 'S': desc->arraytype = ARRAYTYPE_SHORT;
+ desc->dataoffset = OFFSET(java_shortarray,data);
+ desc->componentsize = sizeof(s2); break;
+ default:
+ panic("Invalid array class name");
+ }
+
+ desc->componentvftbl = NULL;
+ desc->elementvftbl = NULL;
+ desc->dimension = 1;
+ desc->elementtype = desc->arraytype;
+ }
+
+ return desc;
+}
+
+
/********************** Function: class_link ***********************************
Tries to link a class. The super class and every implemented interface must
*******************************************************************************/
-static void class_link (classinfo *c)
+void class_link(classinfo *c)
{
s4 supervftbllength; /* vftbllegnth of super class */
s4 vftbllength; /* vftbllength of current class */
classinfo *super = c->super; /* super class */
classinfo *ic, *c2; /* intermediate class variables */
vftbl *v; /* vftbl of current class */
- s4 i; /* interface/method/field counter */
+ s4 i; /* interface/method/field counter */
+ arraydescriptor *arraydesc = NULL; /* descriptor for array classes */
/* check if all superclasses are already linked, if not put c at end of
list_remove(&unlinkedclasses, c);
list_addlast(&unlinkedclasses, c);
return;
- }
}
+ }
/* check super class */
if (super == NULL) { /* class java.long.Object */
c->index = 0;
+ c->classUsed = USED; /* Object class is always used CO-RT*/
+ c -> impldBy = NULL;
c->instancesize = sizeof(java_objectheader);
vftbllength = supervftbllength = 0;
c->finalizer = NULL;
- }
- else {
+
+ } else {
if (!super->linked) {
list_remove(&unlinkedclasses, c);
list_addlast(&unlinkedclasses, c);
return;
- }
+ }
+ /* handle array classes */
+ if (c->name->text[0] == '[')
+ if ((arraydesc = class_link_array(c)) == NULL) {
+ list_remove(&unlinkedclasses, c);
+ list_addlast(&unlinkedclasses, c);
+ return;
+ }
+
if (c->flags & ACC_INTERFACE)
c->index = interfaceindex++;
else
vftbllength = supervftbllength = super->vftbl->vftbllength;
c->finalizer = super->finalizer;
- }
+ }
if (linkverbose) {
- sprintf (logtext, "Linking Class: ");
- utf_sprint (logtext+strlen(logtext), c->name );
- dolog ();
- }
+ char logtext[MAXLOGTEXT];
+ sprintf(logtext, "Linking Class: ");
+ utf_sprint(logtext + strlen(logtext), c->name );
+ log_text(logtext);
+ }
/* compute vftbl length */
if (method_canoverwrite(m, &(sc->methods[j]))) {
m->vftblindex = sc->methods[j].vftblindex;
goto foundvftblindex;
- }
}
- sc = sc->super;
}
- m->vftblindex = (vftbllength++);
-foundvftblindex: ;
+ sc = sc->super;
}
- }
+ m->vftblindex = (vftbllength++);
+ foundvftblindex: ;
+ }
+ }
#ifdef STATISTICS
- count_vftbl_len += sizeof(vftbl) + sizeof(methodptr)*(vftbllength-1);
+ count_vftbl_len += sizeof(vftbl) + (sizeof(methodptr) * (vftbllength - 1));
#endif
/* compute interfacetable length */
s4 h = class_highestinterface (c2->interfaces[i]) + 1;
if (h > interfacetablelength)
interfacetablelength = h;
- }
- c2 = c2->super;
}
+ c2 = c2->super;
+ }
/* allocate virtual function table */
v = (vftbl*) mem_alloc(sizeof(vftbl) + sizeof(methodptr) *
- (vftbllength - 1) + sizeof(methodptr*) *
- (interfacetablelength - (interfacetablelength > 0)));
+ (vftbllength - 1) + sizeof(methodptr*) *
+ (interfacetablelength - (interfacetablelength > 0)));
v = (vftbl*) (((methodptr*) v) + (interfacetablelength - 1) *
- (interfacetablelength > 1));
+ (interfacetablelength > 1));
c->header.vftbl = c->vftbl = v;
v->class = c;
v->vftbllength = vftbllength;
v->interfacetablelength = interfacetablelength;
+ v->arraydesc = arraydesc;
+
+ /* store interface index in vftbl */
+ if (c->flags & ACC_INTERFACE)
+ v->baseval = -(c->index);
/* copy virtual function table of super class */
for (i = 0; i < supervftbllength; i++)
- v->table[i] = super->vftbl->table[i];
+ v->table[i] = super->vftbl->table[i];
/* add method stubs into virtual function table */
methodinfo *m = &(c->methods[i]);
if (!(m->flags & ACC_STATIC)) {
v->table[m->vftblindex] = m->stubroutine;
- }
}
+ }
/* compute instance size and offset of each field */
fieldinfo *f = &(c->fields[i]);
if (!(f->flags & ACC_STATIC) ) {
- dsize = desc_typesize (f->descriptor);
- c->instancesize = ALIGN (c->instancesize, dsize);
+ dsize = desc_typesize(f->descriptor);
+ c->instancesize = ALIGN(c->instancesize, dsize);
f->offset = c->instancesize;
c->instancesize += dsize;
- }
}
+ }
/* initialize interfacetable and interfacevftbllength */
- v->interfacevftbllength = MNEW (s4, interfacetablelength);
+ v->interfacevftbllength = MNEW(s4, interfacetablelength);
#ifdef STATISTICS
count_vftbl_len += (4 + sizeof(s4)) * v->interfacetablelength;
for (i = 0; i < interfacetablelength; i++) {
v->interfacevftbllength[i] = 0;
v->interfacetable[-i] = NULL;
- }
+ }
/* add interfaces */
for (c2 = c; c2 != NULL; c2 = c2->super)
for (i = 0; i < c2->interfacescount; i++) {
- class_addinterface (c, c2->interfaces[i]);
- }
+ class_addinterface(c, c2->interfaces[i]);
+ }
/* add finalizer method (not for java.lang.Object) */
if (fidesc == NULL)
fidesc = utf_fidesc;
- fi = class_findmethod (c, finame, fidesc);
+ fi = class_findmethod(c, finame, fidesc);
if (fi != NULL) {
if (!(fi->flags & ACC_STATIC)) {
c->finalizer = fi;
- }
}
}
+ }
/* final tasks */
c->linked = true;
- list_remove (&unlinkedclasses, c);
- list_addlast (&linkedclasses, c);
+ list_remove(&unlinkedclasses, c);
+ list_addlast(&linkedclasses, c);
}
case CONSTANT_NameAndType:
FREE (info, constant_nameandtype);
break;
- case CONSTANT_Arraydescriptor:
- freearraydescriptor (info);
- break;
}
}
}
*******************************************************************************/
-static void class_free (classinfo *c)
+static void class_free(classinfo *c)
{
s4 i;
vftbl *v;
- class_freecpool (c);
+ class_freecpool(c);
- MFREE (c->interfaces, classinfo*, c->interfacescount);
+ MFREE(c->interfaces, classinfo*, c->interfacescount);
for (i = 0; i < c->fieldscount; i++)
field_free(&(c->fields[i]));
-#ifndef USE_BOEHM
- MFREE (c->fields, fieldinfo, c->fieldscount);
-#endif
for (i = 0; i < c->methodscount; i++)
method_free(&(c->methods[i]));
- MFREE (c->methods, methodinfo, c->methodscount);
+ MFREE(c->methods, methodinfo, c->methodscount);
if ((v = c->vftbl) != NULL) {
+ if (v->arraydesc)
+ mem_free(v->arraydesc,sizeof(arraydescriptor));
+
for (i = 0; i < v->interfacetablelength; i++) {
- MFREE (v->interfacetable[-i], methodptr, v->interfacevftbllength[i]);
- }
- MFREE (v->interfacevftbllength, s4, v->interfacetablelength);
+ MFREE(v->interfacetable[-i], methodptr, v->interfacevftbllength[i]);
+ }
+ MFREE(v->interfacevftbllength, s4, v->interfacetablelength);
i = sizeof(vftbl) + sizeof(methodptr) * (v->vftbllength - 1) +
sizeof(methodptr*) * (v->interfacetablelength -
(v->interfacetablelength > 0));
v = (vftbl*) (((methodptr*) v) - (v->interfacetablelength - 1) *
(v->interfacetablelength > 1));
- mem_free (v, i);
- }
+ mem_free(v, i);
+ }
if (c->innerclasscount)
- MFREE (c->innerclass, innerclassinfo, c->innerclasscount);
+ MFREE(c->innerclass, innerclassinfo, c->innerclasscount);
- if (c->classvftbl)
- mem_free(c->header.vftbl, sizeof(vftbl) + sizeof(methodptr)*(c->vftbl->vftbllength-1));
+ /* if (c->classvftbl)
+ mem_free(c->header.vftbl, sizeof(vftbl) + sizeof(methodptr)*(c->vftbl->vftbllength-1)); */
- FREE (c, classinfo);
+ GCFREE(c);
}
+
/************************* Function: class_findfield ***************************
Searches a 'classinfo' structure for a field having the given name and
*******************************************************************************/
-
-fieldinfo *class_findfield (classinfo *c, utf *name, utf *desc)
+fieldinfo *class_findfield(classinfo *c, utf *name, utf *desc)
{
s4 i;
-
+
for (i = 0; i < c->fieldscount; i++) {
if ((c->fields[i].name == name) && (c->fields[i].descriptor == desc))
return &(c->fields[i]);
}
- panic ("Can not find field given in CONSTANT_Fieldref");
+ panic("Can not find field given in CONSTANT_Fieldref");
+
+ /* keep compiler happy */
return NULL;
}
+/************************* Function: class_findmethod **************************
+
+ Searches a 'classinfo' structure for a method having the given name and
+ type and returns the index in the class info structure.
+ If type is NULL, it is ignored.
+
+*******************************************************************************/
+
+s4 class_findmethodIndex(classinfo *c, utf *name, utf *desc)
+{
+ s4 i;
+#if defined(JOWENN_DEBUG1) || defined(JOWENN_DEBUG2)
+ char *buffer;
+ int buffer_len, pos;
+#endif
+#ifdef JOWENN_DEBUG1
+
+ buffer_len =
+ utf_strlen(name) + utf_strlen(desc) + utf_strlen(c->name) + 64;
+
+ buffer = MNEW(char, buffer_len);
+
+ strcpy(buffer, "class_findmethod: method:");
+ utf_sprint(buffer + strlen(buffer), name);
+ strcpy(buffer + strlen(buffer), ", desc: ");
+ utf_sprint(buffer + strlen(buffer), desc);
+ strcpy(buffer + strlen(buffer), ", classname: ");
+ utf_sprint(buffer + strlen(buffer), c->name);
+
+ log_text(buffer);
+
+ MFREE(buffer, char, buffer_len);
+#endif
+ for (i = 0; i < c->methodscount; i++) {
+#ifdef JOWENN_DEBUG2
+ buffer_len =
+ utf_strlen(c->methods[i].name) + utf_strlen(c->methods[i].descriptor)+ 64;
+
+ buffer = MNEW(char, buffer_len);
+
+ strcpy(buffer, "class_findmethod: comparing to method:");
+ utf_sprint(buffer + strlen(buffer), c->methods[i].name);
+ strcpy(buffer + strlen(buffer), ", desc: ");
+ utf_sprint(buffer + strlen(buffer), c->methods[i].descriptor);
+
+ log_text(buffer);
+
+ MFREE(buffer, char, buffer_len);
+#endif
+
+
+ if ((c->methods[i].name == name) && ((desc == NULL) ||
+ (c->methods[i].descriptor == desc))) {
+ return i;
+ }
+ }
+
+#ifdef JOWENN_DEBUG2
+ class_showconstantpool(c);
+ log_text("class_findmethod: returning NULL");
+#endif
+
+ return -1;
+}
+
+
/************************* Function: class_findmethod **************************
Searches a 'classinfo' structure for a method having the given name and
*******************************************************************************/
-methodinfo *class_findmethod (classinfo *c, utf *name, utf *desc)
+methodinfo *class_findmethod(classinfo *c, utf *name, utf *desc)
{
+#if 0
s4 i;
+#if defined(JOWENN_DEBUG1) || defined(JOWENN_DEBUG2)
+ char *buffer;
+ int buffer_len, pos;
+#endif
+#ifdef JOWENN_DEBUG1
+
+ buffer_len =
+ utf_strlen(name) + utf_strlen(desc) + utf_strlen(c->name) + 64;
+
+ buffer = MNEW(char, buffer_len);
+
+ strcpy(buffer, "class_findmethod: method:");
+ utf_sprint(buffer + strlen(buffer), name);
+ strcpy(buffer + strlen(buffer), ", desc: ");
+ utf_sprint(buffer + strlen(buffer), desc);
+ strcpy(buffer + strlen(buffer), ", classname: ");
+ utf_sprint(buffer + strlen(buffer), c->name);
+
+ log_text(buffer);
+
+ MFREE(buffer, char, buffer_len);
+#endif
for (i = 0; i < c->methodscount; i++) {
+#ifdef JOWENN_DEBUG2
+ buffer_len =
+ utf_strlen(c->methods[i].name) + utf_strlen(c->methods[i].descriptor)+ 64;
+
+ buffer = MNEW(char, buffer_len);
+
+ strcpy(buffer, "class_findmethod: comparing to method:");
+ utf_sprint(buffer + strlen(buffer), c->methods[i].name);
+ strcpy(buffer + strlen(buffer), ", desc: ");
+ utf_sprint(buffer + strlen(buffer), c->methods[i].descriptor);
+
+ log_text(buffer);
+
+ MFREE(buffer, char, buffer_len);
+#endif
+
if ((c->methods[i].name == name) && ((desc == NULL) ||
- (c->methods[i].descriptor == desc)))
+ (c->methods[i].descriptor == desc))) {
return &(c->methods[i]);
}
+ }
+#ifdef JOWENN_DEBUG2
+ class_showconstantpool(c);
+ log_text("class_findmethod: returning NULL");
+#endif
return NULL;
+#endif
+
+ s4 idx=class_findmethodIndex(c, name, desc);
+/* if (idx==-1) log_text("class_findmethod: method not found");*/
+ if (idx == -1) return NULL;
+
+ return &(c->methods[idx]);
}
+
+/*********************** Function: class_fetchmethod **************************
+
+ like class_findmethod, but aborts with an error if the method is not found
+
+*******************************************************************************/
+
+methodinfo *class_fetchmethod(classinfo *c, utf *name, utf *desc)
+{
+ methodinfo *mi;
+ mi = class_findmethod(c, name, desc);
+
+ if (!mi) {
+ log_plain("Class: "); if (c) log_plain_utf(c->name); log_nl();
+ log_plain("Method: "); if (name) log_plain_utf(name); log_nl();
+ log_plain("Descriptor: "); if (desc) log_plain_utf(desc); log_nl();
+ panic("Method not found");
+ }
+
+ return mi;
+}
+
+
/************************* Function: class_findmethod_approx ******************
like class_findmethod but ignores the return value when comparing the
*******************************************************************************/
-methodinfo *class_findmethod_approx (classinfo *c, utf *name, utf *desc)
+methodinfo *class_findmethod_approx(classinfo *c, utf *name, utf *desc)
{
s4 i;
- for (i = 0; i < c->methodscount; i++)
+ for (i = 0; i < c->methodscount; i++) {
if (c->methods[i].name == name) {
utf *meth_descr = c->methods[i].descriptor;
return &(c->methods[i]);
if (desc->blength <= meth_descr->blength) {
- /* current position in utf text */
- char *desc_utf_ptr = desc->text;
- char *meth_utf_ptr = meth_descr->text;
- /* points behind utf strings */
- char *desc_end = utf_end(desc);
- char *meth_end = utf_end(meth_descr);
- char ch;
-
- /* compare argument types */
- while (desc_utf_ptr<desc_end && meth_utf_ptr<meth_end) {
-
- if ((ch=*desc_utf_ptr++) != (*meth_utf_ptr++))
- break; /* no match */
-
- if (ch==')')
- return &(c->methods[i]); /* all parameter types equal */
- }
+ /* current position in utf text */
+ char *desc_utf_ptr = desc->text;
+ char *meth_utf_ptr = meth_descr->text;
+ /* points behind utf strings */
+ char *desc_end = utf_end(desc);
+ char *meth_end = utf_end(meth_descr);
+ char ch;
+
+ /* compare argument types */
+ while (desc_utf_ptr < desc_end && meth_utf_ptr < meth_end) {
+
+ if ((ch = *desc_utf_ptr++) != (*meth_utf_ptr++))
+ break; /* no match */
+
+ if (ch == ')')
+ return &(c->methods[i]); /* all parameter types equal */
+ }
}
}
+ }
return NULL;
}
+
/***************** Function: class_resolvemethod_approx ***********************
Searches a class and every super class for a method (without paying
*******************************************************************************/
-methodinfo *class_resolvemethod_approx (classinfo *c, utf *name, utf *desc)
+methodinfo *class_resolvemethod_approx(classinfo *c, utf *name, utf *desc)
{
while (c) {
/* search for method (ignore returntype) */
- methodinfo *m = class_findmethod_approx (c, name, desc);
+ methodinfo *m = class_findmethod_approx(c, name, desc);
/* method found */
if (m) return m;
/* search superclass */
c = c->super;
- }
+ }
+
return NULL;
}
*******************************************************************************/
-
-methodinfo *class_resolvemethod (classinfo *c, utf *name, utf *desc)
+methodinfo *class_resolvemethod(classinfo *c, utf *name, utf *desc)
{
while (c) {
- methodinfo *m = class_findmethod (c, name, desc);
+ methodinfo *m = class_findmethod(c, name, desc);
if (m) return m;
/* search superclass */
c = c->super;
- }
+ }
+
return NULL;
}
-
/************************* Function: class_issubclass **************************
*******************************************************************************/
-bool class_issubclass (classinfo *sub, classinfo *super)
+bool class_issubclass(classinfo *sub, classinfo *super)
{
for (;;) {
if (!sub) return false;
- if (sub==super) return true;
- sub = sub -> super;
- }
+ if (sub == super) return true;
+ sub = sub->super;
+ }
}
-
/****************** Initialization function for classes ******************
In Java, every class can have a static initialization function. This
*******************************************************************************/
-#ifdef USE_THREADS
-extern int blockInts;
-#endif
-
-void class_init (classinfo *c)
+void class_init(classinfo *c)
{
- methodinfo *m;
- java_objectheader *exceptionptr;
+ methodinfo *m;
s4 i;
+#ifdef USE_THREADS
int b;
+#endif
if (!makeinitializations)
return;
- if (c->initialized)
- return;
- c -> initialized = true;
-
+ if (c->initialized)
+ return;
+
+ c->initialized = true;
+
#ifdef STATISTICS
count_class_inits++;
#endif
- if (c->super)
- class_init (c->super);
- for (i=0; i < c->interfacescount; i++)
- class_init(c->interfaces[i]);
+ if (c->super)
+ class_init (c->super);
+ for (i = 0; i < c->interfacescount; i++)
+ class_init(c->interfaces[i]); /* real */
- m = class_findmethod (c, utf_clinit, utf_fidesc);
+ m = class_findmethod(c, utf_clinit, utf_fidesc);
if (!m) {
if (initverbose) {
- sprintf (logtext, "Class ");
- utf_sprint (logtext+strlen(logtext), c->name);
- sprintf (logtext+strlen(logtext), " has no initializer");
- dolog ();
- }
- return;
+ char logtext[MAXLOGTEXT];
+ sprintf(logtext, "Class ");
+ utf_sprint(logtext + strlen(logtext), c->name);
+ sprintf(logtext + strlen(logtext), " has no initializer");
+ log_text(logtext);
}
-
- if (! (m->flags & ACC_STATIC))
- panic ("Class initializer is not static!");
-
+ /* goto callinitialize;*/
+ return;
+ }
+
+ if (!(m->flags & ACC_STATIC))
+ panic("Class initializer is not static!");
+
if (initverbose) {
- sprintf (logtext, "Starting initializer for class: ");
- utf_sprint (logtext+strlen(logtext), c->name);
- dolog ();
+ char logtext[MAXLOGTEXT];
+ sprintf(logtext, "Starting initializer for class: ");
+ utf_sprint(logtext + strlen(logtext), c->name);
+ log_text(logtext);
}
#ifdef USE_THREADS
blockInts = 0;
#endif
- exceptionptr = asm_calljavamethod (m, NULL,NULL,NULL,NULL);
+ asm_calljavafunction(m, NULL, NULL, NULL, NULL);
#ifdef USE_THREADS
assert(blockInts == 0);
blockInts = b;
#endif
- if (exceptionptr) {
- printf ("#### Initializer of ");
- utf_display (c->name);
- printf (" has thrown: ");
- utf_display (exceptionptr->vftbl->class->name);
- printf ("\n");
- fflush (stdout);
- }
+ if (exceptionptr) {
+ printf("#### Initializer of ");
+ utf_display(c->name);
+ printf(" has thrown: ");
+ utf_display(exceptionptr->vftbl->class->name);
+ printf("\n");
+ fflush(stdout);
+ }
if (initverbose) {
- sprintf (logtext, "Finished initializer for class: ");
- utf_sprint (logtext+strlen(logtext), c->name);
- dolog ();
+ char logtext[MAXLOGTEXT];
+ sprintf(logtext, "Finished initializer for class: ");
+ utf_sprint(logtext + strlen(logtext), c->name);
+ log_text(logtext);
}
-
if (c->name == utf_systemclass) {
/* class java.lang.System requires explicit initialization */
-
+
if (initverbose)
- printf ("#### Initializing class System");
+ printf("#### Initializing class System");
- /* find initializing method */
- m = class_findmethod (c,
- utf_initsystemclass,
- utf_fidesc);
+ /* find initializing method */
+ m = class_findmethod(c,
+ utf_initsystemclass,
+ utf_fidesc);
if (!m) {
/* no method found */
- log("initializeSystemClass failed");
+ /* printf("initializeSystemClass failed"); */
return;
}
- #ifdef USE_THREADS
- b = blockInts;
- blockInts = 0;
- #endif
+#ifdef USE_THREADS
+ b = blockInts;
+ blockInts = 0;
+#endif
- exceptionptr = asm_calljavamethod (m, NULL,NULL,NULL,NULL);
+ asm_calljavafunction(m, NULL, NULL, NULL, NULL);
- #ifdef USE_THREADS
- assert(blockInts == 0);
- blockInts = b;
- #endif
+#ifdef USE_THREADS
+ assert(blockInts == 0);
+ blockInts = b;
+#endif
- if (exceptionptr) {
- printf ("#### initializeSystemClass has thrown: ");
- utf_display (exceptionptr->vftbl->class->name);
- printf ("\n");
- fflush (stdout);
+ if (exceptionptr) {
+ printf("#### initializeSystemClass has thrown: ");
+ utf_display(exceptionptr->vftbl->class->name);
+ printf("\n");
+ fflush(stdout);
}
}
}
+/********* Function: find_class_method_constant *********/
+int find_class_method_constant (classinfo *c, utf * c1, utf* m1, utf* d1)
+{
+ u4 i;
+ voidptr e;
+
+ for (i=0; i<c->cpcount; i++) {
+
+ e = c -> cpinfos [i];
+ if (e) {
+
+ switch (c -> cptags [i]) {
+ case CONSTANT_Methodref:
+ {
+ constant_FMIref *fmi = e;
+ if ( (fmi->class->name == c1)
+ && (fmi->name == m1)
+ && (fmi->descriptor == d1)) {
+
+ return i;
+ }
+ }
+ break;
+
+ case CONSTANT_InterfaceMethodref:
+ {
+ constant_FMIref *fmi = e;
+ if ( (fmi->class->name == c1)
+ && (fmi->name == m1)
+ && (fmi->descriptor == d1)) {
+
+ return i;
+ }
+ }
+ break;
+ }
+ }
+ }
+
+ return -1;
+}
+
+
+void class_showconstanti(classinfo *c, int ii)
+{
+ u4 i = ii;
+ voidptr e;
+
+ e = c->cpinfos [i];
+ printf ("#%d: ", (int) i);
+ if (e) {
+ switch (c->cptags [i]) {
+ case CONSTANT_Class:
+ printf("Classreference -> ");
+ utf_display(((classinfo*)e)->name);
+ break;
+
+ case CONSTANT_Fieldref:
+ printf("Fieldref -> "); goto displayFMIi;
+ case CONSTANT_Methodref:
+ printf("Methodref -> "); goto displayFMIi;
+ case CONSTANT_InterfaceMethodref:
+ printf("InterfaceMethod -> "); goto displayFMIi;
+ displayFMIi:
+ {
+ constant_FMIref *fmi = e;
+ utf_display(fmi->class->name);
+ printf(".");
+ utf_display(fmi->name);
+ printf(" ");
+ utf_display(fmi->descriptor);
+ }
+ break;
+
+ case CONSTANT_String:
+ printf("String -> ");
+ utf_display(e);
+ break;
+ case CONSTANT_Integer:
+ printf("Integer -> %d", (int) (((constant_integer*)e)->value));
+ break;
+ case CONSTANT_Float:
+ printf("Float -> %f", ((constant_float*)e)->value);
+ break;
+ case CONSTANT_Double:
+ printf("Double -> %f", ((constant_double*)e)->value);
+ break;
+ case CONSTANT_Long:
+ {
+ u8 v = ((constant_long*)e)->value;
+#if U8_AVAILABLE
+ printf("Long -> %ld", (long int) v);
+#else
+ printf("Long -> HI: %ld, LO: %ld\n",
+ (long int) v.high, (long int) v.low);
+#endif
+ }
+ break;
+ case CONSTANT_NameAndType:
+ {
+ constant_nameandtype *cnt = e;
+ printf("NameAndType: ");
+ utf_display(cnt->name);
+ printf(" ");
+ utf_display(cnt->descriptor);
+ }
+ break;
+ case CONSTANT_Utf8:
+ printf("Utf8 -> ");
+ utf_display(e);
+ break;
+ default:
+ panic("Invalid type of ConstantPool-Entry");
+ }
+ }
+ printf("\n");
+}
-/********* Function: class_showconstantpool (debugging only) *********/
void class_showconstantpool (classinfo *c)
{
if (e) {
switch (c -> cptags [i]) {
- case CONSTANT_Class:
- printf ("Classreference -> ");
- utf_display ( ((classinfo*)e) -> name );
- break;
+ case CONSTANT_Class:
+ printf ("Classreference -> ");
+ utf_display ( ((classinfo*)e) -> name );
+ break;
- case CONSTANT_Fieldref:
- printf ("Fieldref -> "); goto displayFMI;
- case CONSTANT_Methodref:
- printf ("Methodref -> "); goto displayFMI;
- case CONSTANT_InterfaceMethodref:
- printf ("InterfaceMethod -> "); goto displayFMI;
- displayFMI:
- {
+ case CONSTANT_Fieldref:
+ printf ("Fieldref -> "); goto displayFMI;
+ case CONSTANT_Methodref:
+ printf ("Methodref -> "); goto displayFMI;
+ case CONSTANT_InterfaceMethodref:
+ printf ("InterfaceMethod -> "); goto displayFMI;
+ displayFMI:
+ {
constant_FMIref *fmi = e;
utf_display ( fmi->class->name );
printf (".");
utf_display ( fmi->name);
printf (" ");
utf_display ( fmi->descriptor );
- }
- break;
+ }
+ break;
- case CONSTANT_String:
- printf ("String -> ");
- utf_display (e);
- break;
- case CONSTANT_Integer:
- printf ("Integer -> %d", (int) ( ((constant_integer*)e) -> value) );
- break;
- case CONSTANT_Float:
- printf ("Float -> %f", ((constant_float*)e) -> value);
- break;
- case CONSTANT_Double:
- printf ("Double -> %f", ((constant_double*)e) -> value);
- break;
- case CONSTANT_Long:
- {
+ case CONSTANT_String:
+ printf ("String -> ");
+ utf_display (e);
+ break;
+ case CONSTANT_Integer:
+ printf ("Integer -> %d", (int) ( ((constant_integer*)e) -> value) );
+ break;
+ case CONSTANT_Float:
+ printf ("Float -> %f", ((constant_float*)e) -> value);
+ break;
+ case CONSTANT_Double:
+ printf ("Double -> %f", ((constant_double*)e) -> value);
+ break;
+ case CONSTANT_Long:
+ {
u8 v = ((constant_long*)e) -> value;
#if U8_AVAILABLE
printf ("Long -> %ld", (long int) v);
#else
printf ("Long -> HI: %ld, LO: %ld\n",
- (long int) v.high, (long int) v.low);
+ (long int) v.high, (long int) v.low);
#endif
- }
- break;
- case CONSTANT_NameAndType:
- { constant_nameandtype *cnt = e;
- printf ("NameAndType: ");
- utf_display (cnt->name);
- printf (" ");
- utf_display (cnt->descriptor);
- }
- break;
- case CONSTANT_Utf8:
- printf ("Utf8 -> ");
- utf_display (e);
- break;
- case CONSTANT_Arraydescriptor: {
- printf ("Arraydescriptor: ");
- displayarraydescriptor (e);
- }
- break;
- default:
- panic ("Invalid type of ConstantPool-Entry");
}
-
+ break;
+ case CONSTANT_NameAndType:
+ {
+ constant_nameandtype *cnt = e;
+ printf ("NameAndType: ");
+ utf_display (cnt->name);
+ printf (" ");
+ utf_display (cnt->descriptor);
+ }
+ break;
+ case CONSTANT_Utf8:
+ printf ("Utf8 -> ");
+ utf_display (e);
+ break;
+ default:
+ panic ("Invalid type of ConstantPool-Entry");
}
+ }
printf ("\n");
- }
-
+ }
}
/******************* General functions for the class loader *******************/
/******************************************************************************/
-static int loader_inited = 0;
-
/********************* Function: loader_load ***********************************
Loads and links the class desired class and each class and interface
*******************************************************************************/
-classinfo *loader_load (utf *topname)
+static int loader_load_running = 0;
+
+classinfo *loader_load(utf *topname)
{
classinfo *top;
classinfo *c;
- long int starttime=0,stoptime=0;
+ s8 starttime = 0;
+ s8 stoptime = 0;
+ classinfo *notlinkable;
+
+#if defined(USE_THREADS) && defined(NATIVE_THREADS)
+ pthread_mutex_lock(&compiler_mutex);
+#endif
+
+ /* avoid recursive calls */
+ if (loader_load_running)
+ return class_new(topname);
+
+ loader_load_running++;
- intsDisable(); /* schani */
+ intsDisable();
if (getloadingtime)
starttime = getcputime();
- top = class_new (topname);
+ top = class_new(topname);
/* load classes */
- while ( (c = list_first(&unloadedclasses)) ) {
- if (!class_load (c)) {
- list_remove (&unloadedclasses, c);
- top=NULL;
- }
- }
+ while ((c = list_first(&unloadedclasses))) {
+ if (!class_load(c)) {
+ if (linkverbose)
+ dolog("Failed to load class");
+ list_remove(&unloadedclasses, c);
+ top = NULL;
+ }
+ }
/* link classes */
- while ( (c = list_first(&unlinkedclasses)) ) {
- class_link (c);
- }
+ if (linkverbose)
+ dolog("Linking...");
+
+ /* XXX added a hack to break infinite linking loops. A better
+ * linking algorithm would be nice. -Edwin */
+ notlinkable = NULL;
+ while ((c = list_first(&unlinkedclasses))) {
+ class_link(c);
+ if (!c->linked) {
+ if (!notlinkable)
+ notlinkable = c;
+ else if (notlinkable == c) {
+ /* We tried to link this class for the second time and
+ * no other classes were linked in between, so we are
+ * caught in a loop.
+ */
+ if (linkverbose)
+ dolog("Cannot resolve linking dependencies");
+ top = NULL;
+ if (!exceptionptr)
+ throw_linkageerror_message(c->name);
+ break;
+ }
+
+ } else
+ notlinkable = NULL;
+ }
+ if (linkverbose)
+ dolog("Linking done.");
if (loader_inited)
loader_compute_subclasses();
/* measure time */
if (getloadingtime) {
stoptime = getcputime();
- loadingtime += (stoptime-starttime);
+ loadingtime += (stoptime - starttime);
+ }
+
+
+ loader_load_running--;
+
+ /* check if a former loader_load call tried to load/link the class and
+ failed. This is needed because the class didn't appear in the
+ undloadclasses or unlinkedclasses list during this class. */
+ if (top) {
+ if (!top->loaded) {
+ if (linkverbose) dolog("Failed to load class (former call)");
+ throw_noclassdeffounderror_message(top->name);
+ top = NULL;
+
+ } else if (!top->linked) {
+ if (linkverbose)
+ dolog("Failed to link class (former call)");
+ throw_linkageerror_message(top->name);
+ top = NULL;
}
+ }
- intsRestore(); /* schani */
+ intsRestore();
+
+#if defined(USE_THREADS) && defined(NATIVE_THREADS)
+ pthread_mutex_unlock(&compiler_mutex);
+#endif
+ /* XXX DEBUG */ if (linkverbose && !top) dolog("returning NULL from loader_load");
+
return top;
}
+/****************** Function: loader_load_sysclass ****************************
+
+ Loads and links the class desired class and each class and interface
+ referenced by it.
+
+ The pointer to the classinfo is stored in *top if top != NULL.
+ The pointer is also returned.
+
+ If the class could not be loaded the function aborts with an error.
+
+*******************************************************************************/
+
+classinfo *loader_load_sysclass(classinfo **top,utf *topname)
+{
+ classinfo *cls;
+
+ if ((cls = loader_load(topname)) == NULL) {
+ log_plain("Could not important system class: ");
+ log_plain_utf(topname);
+ log_nl();
+ panic("Could not load important system class");
+ }
+
+ if (top) *top = cls;
+
+ return cls;
+}
/**************** function: create_primitive_classes ***************************
for (i=0;i<PRIMITIVETYPE_COUNT;i++) {
/* create primitive class */
classinfo *c = class_new ( utf_new_char(primitivetype_table[i].name) );
+ c -> classUsed = NOTUSED; /* not used initially CO-RT */
+ c -> impldBy = NULL;
/* prevent loader from loading primitive class */
list_remove (&unloadedclasses, c);
+ c->loaded=true;
/* add to unlinked classes */
list_addlast (&unlinkedclasses, c);
- c -> super = class_java_lang_Object;
+/*JOWENN primitive types don't have objects as super class c -> super = class_java_lang_Object; */
class_link (c);
primitivetype_table[i].class_primitive = c;
/* create class for wrapping the primitive type */
primitivetype_table[i].class_wrap =
class_new( utf_new_char(primitivetype_table[i].wrapname) );
+ primitivetype_table[i].class_wrap -> classUsed = NOTUSED; /* not used initially CO-RT */
+ primitivetype_table[i].class_wrap -> impldBy = NULL;
+
+ /* create the primitive array class */
+ if (primitivetype_table[i].arrayname) {
+ c = class_new( utf_new_char(primitivetype_table[i].arrayname) );
+ primitivetype_table[i].arrayclass = c;
+ c->loaded=true;
+ if (!c->linked) class_link(c);
+ primitivetype_table[i].arrayvftbl = c->vftbl;
+ }
}
}
-/***************** function: create_array_class ********************************
+/**************** function: class_primitive_from_sig ***************************
+
+ return the primitive class indicated by the given signature character
- create class representing an array
+ If the descriptor does not indicate a valid primitive type the
+ return value is NULL.
********************************************************************************/
+classinfo *class_primitive_from_sig(char sig)
+{
+ switch (sig) {
+ case 'I': return primitivetype_table[PRIMITIVETYPE_INT].class_primitive;
+ case 'J': return primitivetype_table[PRIMITIVETYPE_LONG].class_primitive;
+ case 'F': return primitivetype_table[PRIMITIVETYPE_FLOAT].class_primitive;
+ case 'D': return primitivetype_table[PRIMITIVETYPE_DOUBLE].class_primitive;
+ case 'B': return primitivetype_table[PRIMITIVETYPE_BYTE].class_primitive;
+ case 'C': return primitivetype_table[PRIMITIVETYPE_CHAR].class_primitive;
+ case 'S': return primitivetype_table[PRIMITIVETYPE_SHORT].class_primitive;
+ case 'Z': return primitivetype_table[PRIMITIVETYPE_BOOLEAN].class_primitive;
+ case 'V': return primitivetype_table[PRIMITIVETYPE_VOID].class_primitive;
+ }
+ return NULL;
+}
+
+/****************** function: class_from_descriptor ****************************
-classinfo *create_array_class(utf *u)
-{
- classinfo *c = class_new (u);
- /* prevent loader from loading the array class */
- list_remove (&unloadedclasses, c);
- /* add to unlinked classes */
- list_addlast (&unlinkedclasses, c);
- c -> super = class_java_lang_Object;
- class_link(c);
+ return the class indicated by the given descriptor
+
+ utf_ptr....first character of descriptor
+ end_ptr....first character after the end of the string
+ next.......if non-NULL, *next is set to the first character after
+ the descriptor. (Undefined if an error occurs.)
+
+ mode.......a combination (binary or) of the following flags:
+
+ (Flags marked with * are the default settings.)
+
+ What to do if a reference type descriptor is parsed successfully:
+
+ CLASSLOAD_SKIP...skip it and return something != NULL
+ * CLASSLOAD_NEW....get classinfo * via class_new
+ CLASSLOAD_LOAD...get classinfo * via loader_load
+
+ How to handle primitive types:
- return c;
+ * CLASSLOAD_PRIMITIVE.......return primitive class (eg. "int")
+ CLASSLOAD_NULLPRIMITIVE...return NULL for primitive types
+
+ How to handle "V" descriptors:
+
+ * CLASSLOAD_VOID.....handle it like other primitive types
+ CLASSLOAD_NOVOID...treat it as an error
+
+ How to deal with extra characters after the end of the
+ descriptor:
+
+ * CLASSLOAD_NOCHECKEND...ignore (useful for parameter lists)
+ CLASSLOAD_CHECKEND.....treat them as an error
+
+ How to deal with errors:
+
+ * CLASSLOAD_PANIC....abort execution with an error message
+ CLASSLOAD_NOPANIC..return NULL on error
+
+********************************************************************************/
+
+classinfo *class_from_descriptor(char *utf_ptr, char *end_ptr,
+ char **next, int mode)
+{
+ char *start = utf_ptr;
+ bool error = false;
+ utf *name;
+
+ SKIP_FIELDDESCRIPTOR_SAFE(utf_ptr,end_ptr,error);
+
+ if (mode & CLASSLOAD_CHECKEND)
+ error |= (utf_ptr != end_ptr);
+
+ if (!error) {
+ if (next) *next = utf_ptr;
+
+ switch (*start) {
+ case 'V':
+ if (mode & CLASSLOAD_NOVOID)
+ break;
+ /* FALLTHROUGH! */
+ case 'I':
+ case 'J':
+ case 'F':
+ case 'D':
+ case 'B':
+ case 'C':
+ case 'S':
+ case 'Z':
+ return (mode & CLASSLOAD_NULLPRIMITIVE)
+ ? NULL
+ : class_primitive_from_sig(*start);
+
+ case 'L':
+ start++;
+ utf_ptr--;
+ /* FALLTHROUGH! */
+ case '[':
+ if (mode & CLASSLOAD_SKIP) return class_java_lang_Object;
+ name = utf_new(start,utf_ptr-start);
+ return (mode & CLASSLOAD_LOAD)
+ ? loader_load(name) : class_new(name); /* XXX */
+ }
+ }
+
+ /* An error occurred */
+ if (mode & CLASSLOAD_NOPANIC)
+ return NULL;
+
+ log_plain("Invalid descriptor at beginning of '");
+ log_plain_utf(utf_new(start, end_ptr-start));
+ log_plain("'");
+ log_nl();
+
+ panic("Invalid descriptor");
+
+ /* keep compiler happy */
+ return NULL;
}
+
+/******************* function: type_from_descriptor ****************************
+
+ return the basic type indicated by the given descriptor
+
+ This function parses a descriptor and returns its basic type as
+ TYPE_INT, TYPE_LONG, TYPE_FLOAT, TYPE_DOUBLE, TYPE_ADDRESS or TYPE_VOID.
+
+ cls...if non-NULL the referenced variable is set to the classinfo *
+ returned by class_from_descriptor.
+
+ For documentation of the arguments utf_ptr, end_ptr, next and mode
+ see class_from_descriptor. The only difference is that
+ type_from_descriptor always uses CLASSLOAD_PANIC.
+
+********************************************************************************/
+
+int type_from_descriptor(classinfo **cls, char *utf_ptr, char *end_ptr,
+ char **next, int mode)
+{
+ classinfo *mycls;
+ if (!cls) cls = &mycls;
+ *cls = class_from_descriptor(utf_ptr, end_ptr, next, mode & (~CLASSLOAD_NOPANIC));
+ switch (*utf_ptr) {
+ case 'B':
+ case 'C':
+ case 'I':
+ case 'S':
+ case 'Z':
+ return TYPE_INT;
+ case 'D':
+ return TYPE_DOUBLE;
+ case 'F':
+ return TYPE_FLOAT;
+ case 'J':
+ return TYPE_LONG;
+ case 'V':
+ return TYPE_VOID;
+ }
+ return TYPE_ADDRESS;
+}
+
+
+/*************** function: create_pseudo_classes *******************************
+
+ create pseudo classes used by the typechecker
+
+********************************************************************************/
+
+static void create_pseudo_classes()
+{
+ /* pseudo class for Arraystubs (extends java.lang.Object) */
+
+ pseudo_class_Arraystub = class_new(utf_new_char("$ARRAYSTUB$"));
+ list_remove(&unloadedclasses, pseudo_class_Arraystub);
+
+ pseudo_class_Arraystub->super = class_java_lang_Object;
+ pseudo_class_Arraystub->interfacescount = 2;
+ pseudo_class_Arraystub->interfaces = MNEW(classinfo*, 2);
+ pseudo_class_Arraystub->interfaces[0] = class_java_lang_Cloneable;
+ pseudo_class_Arraystub->interfaces[1] = class_java_io_Serializable;
+
+ list_addlast(&unlinkedclasses, pseudo_class_Arraystub);
+ class_link(pseudo_class_Arraystub);
+
+ pseudo_class_Arraystub_vftbl = pseudo_class_Arraystub->vftbl;
+
+ /* pseudo class representing the null type */
+
+ pseudo_class_Null = class_new(utf_new_char("$NULL$"));
+ list_remove(&unloadedclasses, pseudo_class_Null);
+
+ pseudo_class_Null->super = class_java_lang_Object;
+
+ list_addlast(&unlinkedclasses, pseudo_class_Null);
+ class_link(pseudo_class_Null);
+
+ /* pseudo class representing new uninitialized objects */
+
+ pseudo_class_New = class_new( utf_new_char("$NEW$") );
+ list_remove(&unloadedclasses,pseudo_class_New);
+
+ pseudo_class_New->super = class_java_lang_Object;
+
+ list_addlast(&unlinkedclasses,pseudo_class_New);
+ class_link(pseudo_class_New);
+}
+
+
/********************** Function: loader_init **********************************
Initializes all lists and loads all classes required for the system or the
*******************************************************************************/
-void loader_init ()
+void loader_init(u1 * stackbottom)
{
- utf *string_class;
interfaceindex = 0;
+ log_text("Entering loader_init");
+
list_init (&unloadedclasses, OFFSET(classinfo, listnode) );
list_init (&unlinkedclasses, OFFSET(classinfo, listnode) );
list_init (&linkedclasses, OFFSET(classinfo, listnode) );
utf_clinit = utf_new_char("<clinit>");
utf_initsystemclass = utf_new_char("initializeSystemClass");
utf_systemclass = utf_new_char("java/lang/System");
+ utf_vmclassloader = utf_new_char("java/lang/VMClassLoader");
+ utf_initialize = utf_new_char("initialize");
+ utf_initializedesc = utf_new_char("(I)V");
+
+ utf_vmclass = utf_new_char("java/lang/VMClass");
+
+ /* create some important classes */
+ /* These classes have to be created now because the classinfo
+ * pointers are used in the loading code.
+ */
+ class_java_lang_Object = class_new(utf_new_char("java/lang/Object"));
+ class_java_lang_String = class_new(utf_new_char("java/lang/String"));
+ class_java_lang_Cloneable = class_new(utf_new_char("java/lang/Cloneable"));
+ class_java_io_Serializable = class_new(utf_new_char("java/io/Serializable"));
+
+ log_text("loader_init: java/lang/Object");
+ /* load the classes which were created above */
+ loader_load_sysclass(NULL, class_java_lang_Object->name);
+
+ loader_inited = 1; /*JOWENN*/
+
+ loader_load_sysclass(&class_java_lang_Throwable,
+ utf_new_char("java/lang/Throwable"));
+
+ log_text("loader_init: loader_load: java/lang/ClassCastException");
+ loader_load_sysclass(&class_java_lang_ClassCastException,
+ utf_new_char ("java/lang/ClassCastException"));
+ loader_load_sysclass(&class_java_lang_NullPointerException,
+ utf_new_char ("java/lang/NullPointerException"));
+ loader_load_sysclass(&class_java_lang_ArrayIndexOutOfBoundsException,
+ utf_new_char ("java/lang/ArrayIndexOutOfBoundsException"));
+ loader_load_sysclass(&class_java_lang_NegativeArraySizeException,
+ utf_new_char ("java/lang/NegativeArraySizeException"));
+ loader_load_sysclass(&class_java_lang_OutOfMemoryError,
+ utf_new_char ("java/lang/OutOfMemoryError"));
+ loader_load_sysclass(&class_java_lang_ArrayStoreException,
+ utf_new_char ("java/lang/ArrayStoreException"));
+ loader_load_sysclass(&class_java_lang_ArithmeticException,
+ utf_new_char ("java/lang/ArithmeticException"));
+ loader_load_sysclass(&class_java_lang_ThreadDeath,
+ utf_new_char ("java/lang/ThreadDeath"));
+
+ /* create classes representing primitive types */
+ create_primitive_classes();
- /* create class for arrays */
- class_array = class_new ( utf_new_char ("The_Array_Class") );
- list_remove (&unloadedclasses, class_array);
-
- /* create class for strings, load it after class Object was loaded */
- string_class = utf_new_char ("java/lang/String");
- class_java_lang_String = class_new(string_class);
- list_remove (&unloadedclasses, class_java_lang_String);
-
- class_java_lang_Object =
- loader_load ( utf_new_char ("java/lang/Object") );
-
- list_addlast(&unloadedclasses, class_java_lang_String);
-
- class_java_lang_String =
- loader_load ( string_class );
- class_java_lang_ClassCastException =
- loader_load ( utf_new_char ("java/lang/ClassCastException") );
- class_java_lang_NullPointerException =
- loader_load ( utf_new_char ("java/lang/NullPointerException") );
- class_java_lang_ArrayIndexOutOfBoundsException = loader_load (
- utf_new_char ("java/lang/ArrayIndexOutOfBoundsException") );
- class_java_lang_NegativeArraySizeException = loader_load (
- utf_new_char ("java/lang/NegativeArraySizeException") );
- class_java_lang_OutOfMemoryError = loader_load (
- utf_new_char ("java/lang/OutOfMemoryError") );
- class_java_lang_ArrayStoreException =
- loader_load ( utf_new_char ("java/lang/ArrayStoreException") );
- class_java_lang_ArithmeticException =
- loader_load ( utf_new_char ("java/lang/ArithmeticException") );
- class_java_lang_ThreadDeath = /* schani */
- loader_load ( utf_new_char ("java/lang/ThreadDeath") );
-
- /* link class for arrays */
- list_addlast (&unlinkedclasses, class_array);
- class_array -> super = class_java_lang_Object;
- class_link (class_array);
+ /* create classes used by the typechecker */
+ create_pseudo_classes();
/* correct vftbl-entries (retarded loading of class java/lang/String) */
- stringtable_update();
+ stringtable_update();
- /* create classes representing primitive types */
- create_primitive_classes();
-
- proto_java_lang_ClassCastException =
+#ifdef USE_THREADS
+ if (stackbottom!=0)
+ initLocks();
+#endif
+
+ log_text("loader_init: creating global proto_java_lang_ClassCastException");
+ proto_java_lang_ClassCastException =
builtin_new(class_java_lang_ClassCastException);
- heap_addreference ( (void**) &proto_java_lang_ClassCastException);
+/* heap_addreference((void**) &proto_java_lang_ClassCastException); */
+
+ log_text("loader_init: proto_java_lang_ClassCastException has been initialized");
- proto_java_lang_NullPointerException =
+ proto_java_lang_NullPointerException =
builtin_new(class_java_lang_NullPointerException);
- heap_addreference ( (void**) &proto_java_lang_NullPointerException);
+/* heap_addreference((void**) &proto_java_lang_NullPointerException); */
+ log_text("loader_init: proto_java_lang_NullPointerException has been initialized");
- proto_java_lang_ArrayIndexOutOfBoundsException =
+ proto_java_lang_ArrayIndexOutOfBoundsException =
builtin_new(class_java_lang_ArrayIndexOutOfBoundsException);
- heap_addreference ( (void**) &proto_java_lang_ArrayIndexOutOfBoundsException);
+/* heap_addreference((void**) &proto_java_lang_ArrayIndexOutOfBoundsException); */
- proto_java_lang_NegativeArraySizeException =
+ proto_java_lang_NegativeArraySizeException =
builtin_new(class_java_lang_NegativeArraySizeException);
- heap_addreference ( (void**) &proto_java_lang_NegativeArraySizeException);
+/* heap_addreference((void**) &proto_java_lang_NegativeArraySizeException); */
- proto_java_lang_OutOfMemoryError =
+ proto_java_lang_OutOfMemoryError =
builtin_new(class_java_lang_OutOfMemoryError);
- heap_addreference ( (void**) &proto_java_lang_OutOfMemoryError);
+/* heap_addreference((void**) &proto_java_lang_OutOfMemoryError); */
- proto_java_lang_ArithmeticException =
+ proto_java_lang_ArithmeticException =
builtin_new(class_java_lang_ArithmeticException);
- heap_addreference ( (void**) &proto_java_lang_ArithmeticException);
+/* heap_addreference((void**) &proto_java_lang_ArithmeticException); */
- proto_java_lang_ArrayStoreException =
+ proto_java_lang_ArrayStoreException =
builtin_new(class_java_lang_ArrayStoreException);
- heap_addreference ( (void**) &proto_java_lang_ArrayStoreException);
+/* heap_addreference((void**) &proto_java_lang_ArrayStoreException); */
proto_java_lang_ThreadDeath = /* schani */
- builtin_new(class_java_lang_ThreadDeath);
- heap_addreference ( (void**) &proto_java_lang_ThreadDeath);
+ builtin_new(class_java_lang_ThreadDeath);
+/* heap_addreference((void**) &proto_java_lang_ThreadDeath); */
loader_inited = 1;
}
-
-
/********************* Function: loader_initclasses ****************************
Initializes all loaded but uninitialized classes
{
classinfo *c;
+#if defined(USE_THREADS) && defined(NATIVE_THREADS)
+ pthread_mutex_lock(&compiler_mutex);
+#endif
+
intsDisable(); /* schani */
if (makeinitializations) {
}
intsRestore(); /* schani */
+
+#if defined(USE_THREADS) && defined(NATIVE_THREADS)
+ pthread_mutex_unlock(&compiler_mutex);
+#endif
}
static s4 classvalue;
-static void loader_compute_class_values (classinfo *c)
+static void loader_compute_class_values(classinfo *c)
{
classinfo *subs;
c->vftbl->baseval = ++classvalue;
+
subs = c->sub;
while (subs != NULL) {
loader_compute_class_values(subs);
subs = subs->nextsub;
- }
+ }
c->vftbl->diffval = classvalue - c->vftbl->baseval;
-/*
+
+ /*
{
int i;
for (i = 0; i < c->index; i++)
utf_display(c->name);
printf("\n");
}
-*/
+ */
}
-void loader_compute_subclasses ()
+void loader_compute_subclasses()
{
classinfo *c;
intsDisable(); /* schani */
- c = list_first (&linkedclasses);
+ c = list_first(&linkedclasses);
while (c) {
if (!(c->flags & ACC_INTERFACE)) {
c->nextsub = 0;
c->sub = 0;
- }
- c = list_next (&linkedclasses, c);
}
+ c = list_next (&linkedclasses, c);
+ }
c = list_first (&linkedclasses);
while (c) {
if (!(c->flags & ACC_INTERFACE) && (c->super != NULL)) {
c->nextsub = c->super->sub;
c->super->sub = c;
- }
- c = list_next (&linkedclasses, c);
}
+ c = list_next (&linkedclasses, c);
+ }
classvalue = 0;
+#if defined(USE_THREADS) && defined(NATIVE_THREADS)
+ cast_lock();
+#endif
loader_compute_class_values(class_java_lang_Object);
+#if defined(USE_THREADS) && defined(NATIVE_THREADS)
+ cast_unlock();
+#endif
intsRestore(); /* schani */
}
-
/******************** function classloader_buffer ******************************
sets buffer for reading classdata
void classload_buffer(u1 *buf, int len)
{
- classbuffer = buf;
- classbuffer_size = len;
- classbuf_pos = buf - 1;
+ classbuffer = buf;
+ classbuffer_size = len;
+ classbuf_pos = buf - 1;
}
*******************************************************************************/
-void loader_close ()
+void loader_close()
{
classinfo *c;
- while ( (c=list_first(&unloadedclasses)) ) {
- list_remove (&unloadedclasses,c);
- class_free (c);
- }
- while ( (c=list_first(&unlinkedclasses)) ) {
- list_remove (&unlinkedclasses,c);
- class_free (c);
- }
- while ( (c=list_first(&linkedclasses)) ) {
- list_remove (&linkedclasses,c);
- class_free (c);
- }
+ while ((c = list_first(&unloadedclasses))) {
+ list_remove(&unloadedclasses, c);
+ class_free(c);
+ }
+ while ((c = list_first(&unlinkedclasses))) {
+ list_remove(&unlinkedclasses, c);
+ class_free(c);
+ }
+ while ((c = list_first(&linkedclasses))) {
+ list_remove(&linkedclasses, c);
+ class_free(c);
+ }
}
* tab-width: 4
* End:
*/
-