src/share/native/com/sun/java/util/jar/pack/main.cpp - toolchain/jdk/jdk9_jdk - Git at Google

 /*
  * Copyright (c) 2003, 2008, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.  Oracle designates this
  * particular file as subject to the "Classpath" exception as provided
  * by Oracle in the LICENSE file that accompanied this code.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */
 #include <sys/types.h>

 #include <stdio.h>
 #include <string.h>
 #include <stdlib.h>
 #include <stdarg.h>
 #include <errno.h>

 #include <limits.h>
 #include <time.h>

 #if defined(unix) && !defined(PRODUCT)
 #include "pthread.h"
 #define THREAD_SELF ((int)pthread_self())
 #endif

 #include "defines.h"
 #include "bytes.h"
 #include "utils.h"
 #include "coding.h"
 #include "bands.h"

 #include "constants.h"

 #include "zip.h"

 #include "unpack.h"


 int main(int argc, char **argv) {
     return unpacker::run(argc, argv);
 }

 // Single-threaded, implementation, not reentrant.
 // Includes a weak error check against MT access.
 #ifndef THREAD_SELF
 #define THREAD_SELF (0)
 #endif
 NOT_PRODUCT(static int uThread = -1;)

 unpacker* unpacker::non_mt_current = null;
 unpacker* unpacker::current() {
   assert(uThread == THREAD_SELF);
   return non_mt_current;
 }
 static void set_current_unpacker(unpacker* u) {
   unpacker::non_mt_current = u;
   assert(((uThread = (u == null) ? -1 : THREAD_SELF),
           true));
 }

 // Callback for fetching data, Unix style.
 static jlong read_input_via_stdio(unpacker* u,
                                   void* buf, jlong minlen, jlong maxlen) {
   assert(minlen <= maxlen);  // don't talk nonsense
   jlong numread = 0;
   char* bufptr = (char*) buf;
   while (numread < minlen) {
     // read available input, up to buf.length or maxlen
     int readlen = (1<<16);
     if (readlen > (maxlen - numread))
       readlen = (int)(maxlen - numread);
     int nr = 0;
     if (u->infileptr != null) {
       nr = (int)fread(bufptr, 1, readlen, u->infileptr);
     } else {
 #ifndef WIN32
       // we prefer unbuffered inputs
       nr = (int)read(u->infileno, bufptr, readlen);
 #else
       nr = (int)fread(bufptr, 1, readlen, stdin);
 #endif
     }
     if (nr <= 0) {
       if (errno != EINTR)
         break;
       nr = 0;
     }
     numread += nr;
     bufptr += nr;
     assert(numread <= maxlen);
   }
   //fprintf(u->errstrm, "readInputFn(%d,%d) => %d\n",
   //        (int)minlen, (int)maxlen, (int)numread);
   return numread;
 }

 enum { EOF_MAGIC = 0, BAD_MAGIC = -1 };
 static int read_magic(unpacker* u, char peek[], int peeklen) {
   assert(peeklen == 4);  // magic numbers are always 4 bytes
   jlong nr = (u->read_input_fn)(u, peek, peeklen, peeklen);
   if (nr != peeklen) {
     return (nr == 0) ? EOF_MAGIC : BAD_MAGIC;
   }
   int magic = 0;
   for (int i = 0; i < peeklen; i++) {
     magic <<= 8;
     magic += peek[i] & 0xFF;
   }
   return magic;
 }

 static void setup_gzin(unpacker* u) {
   gunzip* gzin = NEW(gunzip, 1);
   gzin->init(u);
 }

 static const char* nbasename(const char* progname) {
   const char* slash = strrchr(progname, '/');
   if (slash != null)  progname = ++slash;
   return progname;
 }

 static const char* usage_lines[] = {
   "Usage:  %s [-opt... | --option=value]... x.pack[.gz] y.jar\n",
     "\n",
     "Unpacking Options\n",
     "  -H{h}, --deflate-hint={h}     override transmitted deflate hint: true, false, or keep (default)\n",
     "  -r, --remove-pack-file        remove input file after unpacking\n",
     "  -v, --verbose                 increase program verbosity\n",
     "  -q, --quiet                   set verbosity to lowest level\n",
     "  -l{F}, --log-file={F}         output to the given log file, or '-' for standard output (default)\n",
     "  -?, -h, --help                print this message\n",
     "  -V, --version                 print program version\n",
     "  -J{X}                         Java VM argument (ignored)\n",
     null
 };

 static void usage(unpacker* u, const char* progname, bool full = false) {
   // WinMain does not set argv[0] to the progrname
   progname = (progname != null) ? nbasename(progname) : "unpack200";
   for (int i = 0; usage_lines[i] != null; i++) {
     fprintf(u->errstrm, usage_lines[i], progname);
     if (!full) {
       fprintf(u->errstrm,
               "(For more information, run %s --help .)\n", progname);
       break;
     }
   }
 }

 // argument parsing
 static char** init_args(int argc, char** argv, int &envargc) {
   const char* env = getenv("UNPACK200_FLAGS");
   ptrlist envargs;
   envargs.init();
   if (env != null) {
     char* buf = (char*) strdup(env);
     const char* delim = "\n\t ";
     for (char* p = strtok(buf, delim); p != null; p = strtok(null, delim)) {
       envargs.add(p);
     }
   }
   // allocate extra margin at both head and tail
   char** argp = NEW(char*, envargs.length()+argc+1);
   char** argp0 = argp;
   int i;
   for (i = 0; i < envargs.length(); i++) {
     *argp++ = (char*) envargs.get(i);
   }
   for (i = 1; i < argc; i++) {
     // note: skip argv[0] (program name)
     *argp++ = (char*) strdup(argv[i]);  // make a scratch copy
   }
   *argp = null; // sentinel
   envargc = envargs.length();  // report this count to next_arg
   envargs.free();
   return argp0;
 }

 static int strpcmp(const char* str, const char* pfx) {
   return strncmp(str, pfx, strlen(pfx));
 }

 static const char flag_opts[] = "vqrVh?";
 static const char string_opts[] = "HlJ";

 static int next_arg(char** &argp) {
   char* arg = *argp;
   if (arg == null || arg[0] != '-') { // end of option list
     return 0;
   }
   //printf("opt: %s\n", arg);
   char ach = arg[1];
   if (ach == '\0') {
     // ++argp;  // do not pop this arg
     return 0;  // bare "-" is stdin/stdout
   } else if (arg[1] == '-') {  // --foo option
     static const char* keys[] = {
       "Hdeflate-hint=",
       "vverbose",
       "qquiet",
       "rremove-pack-file",
       "llog-file=",
       "Vversion",
       "hhelp",
       null };
     if (arg[2] == '\0') {  // end of option list
       ++argp;  // pop the "--"
       return 0;
     }
     for (int i = 0; keys[i] != null; i++) {
       const char* key = keys[i];
       char kch = *key++;
       if (strchr(key, '=') == null) {
         if (!strcmp(arg+2, key)) {
           ++argp;  // pop option arg
           return kch;
         }
       } else {
         if (!strpcmp(arg+2, key)) {
           *argp += 2 + strlen(key);  // remove "--"+key from arg
           return kch;
         }
       }
     }
   } else if (strchr(flag_opts, ach) != null) {  // plain option
     if (arg[2] == '\0') {
       ++argp;
     } else {
       // in-place edit of "-vxyz" to "-xyz"
       arg += 1;  // skip original '-'
       arg[0] = '-';
       *argp = arg;
     }
     //printf("  key => %c\n", ach);
     return ach;
   } else if (strchr(string_opts, ach) != null) {  // argument-bearing option
     if (arg[2] == '\0') {
       if (argp[1] == null)  return -1;  // no next arg
       ++argp;  // leave the argument in place
     } else {
       // in-place edit of "-Hxyz" to "xyz"
       arg += 2;  // skip original '-H'
       *argp = arg;
     }
     //printf("  key => %c\n", ach);
     return ach;
   }
   return -1;  // bad argument
 }

 static const char sccsver[] = "1.30, 07/05/05";

 // Usage:  unpackage input.pack output.jar
 int unpacker::run(int argc, char **argv) {
   unpacker u;
   u.init(read_input_via_stdio);
   set_current_unpacker(&u);

   jar jarout;
   jarout.init(&u);

   int envargc = 0;
   char** argbuf = init_args(argc, argv, envargc);
   char** arg0 = argbuf+envargc;
   char** argp = argbuf;

   int verbose = 0;
   char* logfile = null;

   for (;;) {
     const char* arg = (*argp == null)? "": u.saveStr(*argp);
     bool isenvarg = (argp < arg0);
     int ach = next_arg(argp);
     bool hasoptarg = (ach != 0 && strchr(string_opts, ach) != null);
     if (ach == 0 && argp >= arg0)  break;
     if (isenvarg && argp == arg0 && hasoptarg)  ach = 0;  // don't pull from cmdline
     switch (ach) {
     case 'H':  u.set_option(UNPACK_DEFLATE_HINT,*argp++); break;
     case 'v':  ++verbose; break;
     case 'q':  verbose = 0; break;
     case 'r':  u.set_option(UNPACK_REMOVE_PACKFILE,"1"); break;
     case 'l':  logfile = *argp++; break;
     case 'J':  argp += 1; break;  // skip ignored -Jxxx parameter

     case 'V':
       fprintf(u.errstrm, VERSION_STRING, nbasename(argv[0]), sccsver);
       exit(0);

     case 'h':
     case '?':
       usage(&u, argv[0], true);
       exit(1);

     default:
       const char* inenv = isenvarg? " in ${UNPACK200_FLAGS}": "";
       if (hasoptarg)
         fprintf(u.errstrm, "Missing option string%s: %s\n", inenv, arg);
       else
         fprintf(u.errstrm, "Unrecognized argument%s: %s\n", inenv, arg);
       usage(&u, argv[0]);
       exit(2);
     }
   }

   if (verbose != 0) {
     u.set_option(DEBUG_VERBOSE, u.saveIntStr(verbose));
   }
   if (logfile != null) {
     u.set_option(UNPACK_LOG_FILE, logfile);
   }

   u.redirect_stdio();

   const char* source_file      = *argp++;
   const char* destination_file = *argp++;

   if (source_file == null || destination_file == null || *argp != null) {
     usage(&u, argv[0]);
     exit(2);
   }

   if (verbose != 0) {
     fprintf(u.errstrm,
             "Unpacking from %s to %s\n", source_file, destination_file);
   }
   bool& remove_source = u.remove_packfile;

   if (strcmp(source_file, "-") == 0) {
     remove_source = false;
     u.infileno = fileno(stdin);
   } else {
     u.infileptr = fopen(source_file, "rb");
     if (u.infileptr == null) {
        fprintf(u.errstrm,
                "Error: Could not open input file: %s\n", source_file);
        exit(3); // Called only from the native standalone unpacker
     }
   }

   if (strcmp(destination_file, "-") == 0) {
     jarout.jarfp = stdout;
     if (u.errstrm == stdout) // do not mix output
       u.set_option(UNPACK_LOG_FILE, LOGFILE_STDERR);
   } else {
     jarout.openJarFile(destination_file);
     assert(jarout.jarfp != null);
   }

   if (verbose != 0)
     u.dump_options();

   char peek[4];
   int magic;

   // check for GZIP input
   magic = read_magic(&u, peek, (int)sizeof(peek));
   if ((magic & GZIP_MAGIC_MASK) == GZIP_MAGIC) {
     // Oops; must slap an input filter on this data.
     setup_gzin(&u);
     u.gzin->start(magic);
     if (!u.aborting()) {
       u.start();
     }
   } else {
     u.start(peek, sizeof(peek));
   }

   // Note:  The checks to u.aborting() are necessary to gracefully
   // terminate processing when the first segment throws an error.

   for (;;) {
     if (u.aborting())  break;

     // Each trip through this loop unpacks one segment
     // and then resets the unpacker.
     for (unpacker::file* filep; (filep = u.get_next_file()) != null; ) {
       if (u.aborting())  break;
       u.write_file_to_jar(filep);
     }
     if (u.aborting())  break;

     // Peek ahead for more data.
     magic = read_magic(&u, peek, (int)sizeof(peek));
     if (magic != (int)JAVA_PACKAGE_MAGIC) {
       if (magic != EOF_MAGIC)
         u.abort("garbage after end of pack archive");
       break;   // all done
     }

     // Release all storage from parsing the old segment.
     u.reset();

     // Restart, beginning with the peek-ahead.
     u.start(peek, sizeof(peek));
   }


   int status = 0;
   if (u.aborting()) {
     fprintf(u.errstrm, "Error: %s\n", u.get_abort_message());
     status = 1;
   }

   if (u.infileptr != null) {
     fclose(u.infileptr);
     u.infileptr = null;
   }

   if (!u.aborting() && remove_source)
     remove(source_file);

   if (verbose != 0) {
     fprintf(u.errstrm, "unpacker completed with status=%d\n", status);
   }

   u.finish();

   u.free();  // tidy up malloc blocks
   set_current_unpacker(null);  // clean up global pointer

   return status;
 }
	/*
	* Copyright (c) 2003, 2008, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation. Oracle designates this
	* particular file as subject to the "Classpath" exception as provided
	* by Oracle in the LICENSE file that accompanied this code.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/
	#include <sys/types.h>

	#include <stdio.h>
	#include <string.h>
	#include <stdlib.h>
	#include <stdarg.h>
	#include <errno.h>

	#include <limits.h>
	#include <time.h>

	#if defined(unix) && !defined(PRODUCT)
	#include "pthread.h"
	#define THREAD_SELF ((int)pthread_self())
	#endif

	#include "defines.h"
	#include "bytes.h"
	#include "utils.h"
	#include "coding.h"
	#include "bands.h"

	#include "constants.h"

	#include "zip.h"

	#include "unpack.h"


	int main(int argc, char **argv) {
	return unpacker::run(argc, argv);
	}

	// Single-threaded, implementation, not reentrant.
	// Includes a weak error check against MT access.
	#ifndef THREAD_SELF
	#define THREAD_SELF (0)
	#endif
	NOT_PRODUCT(static int uThread = -1;)

	unpacker* unpacker::non_mt_current = null;
	unpacker* unpacker::current() {
	assert(uThread == THREAD_SELF);
	return non_mt_current;
	}
	static void set_current_unpacker(unpacker* u) {
	unpacker::non_mt_current = u;
	assert(((uThread = (u == null) ? -1 : THREAD_SELF),
	true));
	}

	// Callback for fetching data, Unix style.
	static jlong read_input_via_stdio(unpacker* u,
	void* buf, jlong minlen, jlong maxlen) {
	assert(minlen <= maxlen); // don't talk nonsense
	jlong numread = 0;
	char* bufptr = (char*) buf;
	while (numread < minlen) {
	// read available input, up to buf.length or maxlen
	int readlen = (1<<16);
	if (readlen > (maxlen - numread))
	readlen = (int)(maxlen - numread);
	int nr = 0;
	if (u->infileptr != null) {
	nr = (int)fread(bufptr, 1, readlen, u->infileptr);
	} else {
	#ifndef WIN32
	// we prefer unbuffered inputs
	nr = (int)read(u->infileno, bufptr, readlen);
	#else
	nr = (int)fread(bufptr, 1, readlen, stdin);
	#endif
	}
	if (nr <= 0) {
	if (errno != EINTR)
	break;
	nr = 0;
	}
	numread += nr;
	bufptr += nr;
	assert(numread <= maxlen);
	}
	//fprintf(u->errstrm, "readInputFn(%d,%d) => %d\n",
	// (int)minlen, (int)maxlen, (int)numread);
	return numread;
	}

	enum { EOF_MAGIC = 0, BAD_MAGIC = -1 };
	static int read_magic(unpacker* u, char peek[], int peeklen) {
	assert(peeklen == 4); // magic numbers are always 4 bytes
	jlong nr = (u->read_input_fn)(u, peek, peeklen, peeklen);
	if (nr != peeklen) {
	return (nr == 0) ? EOF_MAGIC : BAD_MAGIC;
	}
	int magic = 0;
	for (int i = 0; i < peeklen; i++) {
	magic <<= 8;
	magic += peek[i] & 0xFF;
	}
	return magic;
	}

	static void setup_gzin(unpacker* u) {
	gunzip* gzin = NEW(gunzip, 1);
	gzin->init(u);
	}

	static const char* nbasename(const char* progname) {
	const char* slash = strrchr(progname, '/');
	if (slash != null) progname = ++slash;
	return progname;
	}

	static const char* usage_lines[] = {
	"Usage: %s [-opt... \| --option=value]... x.pack[.gz] y.jar\n",
	"\n",
	"Unpacking Options\n",
	" -H{h}, --deflate-hint={h} override transmitted deflate hint: true, false, or keep (default)\n",
	" -r, --remove-pack-file remove input file after unpacking\n",
	" -v, --verbose increase program verbosity\n",
	" -q, --quiet set verbosity to lowest level\n",
	" -l{F}, --log-file={F} output to the given log file, or '-' for standard output (default)\n",
	" -?, -h, --help print this message\n",
	" -V, --version print program version\n",
	" -J{X} Java VM argument (ignored)\n",
	null
	};

	static void usage(unpacker* u, const char* progname, bool full = false) {
	// WinMain does not set argv[0] to the progrname
	progname = (progname != null) ? nbasename(progname) : "unpack200";
	for (int i = 0; usage_lines[i] != null; i++) {
	fprintf(u->errstrm, usage_lines[i], progname);
	if (!full) {
	fprintf(u->errstrm,
	"(For more information, run %s --help .)\n", progname);
	break;
	}
	}
	}

	// argument parsing
	static char init_args(int argc, char argv, int &envargc) {
	const char* env = getenv("UNPACK200_FLAGS");
	ptrlist envargs;
	envargs.init();
	if (env != null) {
	char* buf = (char*) strdup(env);
	const char* delim = "\n\t ";
	for (char* p = strtok(buf, delim); p != null; p = strtok(null, delim)) {
	envargs.add(p);
	}
	}
	// allocate extra margin at both head and tail
	char** argp = NEW(char*, envargs.length()+argc+1);
	char** argp0 = argp;
	int i;
	for (i = 0; i < envargs.length(); i++) {
	argp++ = (char) envargs.get(i);
	}
	for (i = 1; i < argc; i++) {
	// note: skip argv[0] (program name)
	argp++ = (char) strdup(argv[i]); // make a scratch copy
	}
	*argp = null; // sentinel
	envargc = envargs.length(); // report this count to next_arg
	envargs.free();
	return argp0;
	}

	static int strpcmp(const char* str, const char* pfx) {
	return strncmp(str, pfx, strlen(pfx));
	}

	static const char flag_opts[] = "vqrVh?";
	static const char string_opts[] = "HlJ";

	static int next_arg(char** &argp) {
	char* arg = *argp;
	if (arg == null \|\| arg[0] != '-') { // end of option list
	return 0;
	}
	//printf("opt: %s\n", arg);
	char ach = arg[1];
	if (ach == '\0') {
	// ++argp; // do not pop this arg
	return 0; // bare "-" is stdin/stdout
	} else if (arg[1] == '-') { // --foo option
	static const char* keys[] = {
	"Hdeflate-hint=",
	"vverbose",
	"qquiet",
	"rremove-pack-file",
	"llog-file=",
	"Vversion",
	"hhelp",
	null };
	if (arg[2] == '\0') { // end of option list
	++argp; // pop the "--"
	return 0;
	}
	for (int i = 0; keys[i] != null; i++) {
	const char* key = keys[i];
	char kch = *key++;
	if (strchr(key, '=') == null) {
	if (!strcmp(arg+2, key)) {
	++argp; // pop option arg
	return kch;
	}
	} else {
	if (!strpcmp(arg+2, key)) {
	*argp += 2 + strlen(key); // remove "--"+key from arg
	return kch;
	}
	}
	}
	} else if (strchr(flag_opts, ach) != null) { // plain option
	if (arg[2] == '\0') {
	++argp;
	} else {
	// in-place edit of "-vxyz" to "-xyz"
	arg += 1; // skip original '-'
	arg[0] = '-';
	*argp = arg;
	}
	//printf(" key => %c\n", ach);
	return ach;
	} else if (strchr(string_opts, ach) != null) { // argument-bearing option
	if (arg[2] == '\0') {
	if (argp[1] == null) return -1; // no next arg
	++argp; // leave the argument in place
	} else {
	// in-place edit of "-Hxyz" to "xyz"
	arg += 2; // skip original '-H'
	*argp = arg;
	}
	//printf(" key => %c\n", ach);
	return ach;
	}
	return -1; // bad argument
	}

	static const char sccsver[] = "1.30, 07/05/05";

	// Usage: unpackage input.pack output.jar
	int unpacker::run(int argc, char **argv) {
	unpacker u;
	u.init(read_input_via_stdio);
	set_current_unpacker(&u);

	jar jarout;
	jarout.init(&u);

	int envargc = 0;
	char** argbuf = init_args(argc, argv, envargc);
	char** arg0 = argbuf+envargc;
	char** argp = argbuf;

	int verbose = 0;
	char* logfile = null;

	for (;;) {
	const char* arg = (argp == null)? "": u.saveStr(argp);
	bool isenvarg = (argp < arg0);
	int ach = next_arg(argp);
	bool hasoptarg = (ach != 0 && strchr(string_opts, ach) != null);
	if (ach == 0 && argp >= arg0) break;
	if (isenvarg && argp == arg0 && hasoptarg) ach = 0; // don't pull from cmdline
	switch (ach) {
	case 'H': u.set_option(UNPACK_DEFLATE_HINT,*argp++); break;
	case 'v': ++verbose; break;
	case 'q': verbose = 0; break;
	case 'r': u.set_option(UNPACK_REMOVE_PACKFILE,"1"); break;
	case 'l': logfile = *argp++; break;
	case 'J': argp += 1; break; // skip ignored -Jxxx parameter

	case 'V':
	fprintf(u.errstrm, VERSION_STRING, nbasename(argv[0]), sccsver);
	exit(0);

	case 'h':
	case '?':
	usage(&u, argv[0], true);
	exit(1);

	default:
	const char* inenv = isenvarg? " in ${UNPACK200_FLAGS}": "";
	if (hasoptarg)
	fprintf(u.errstrm, "Missing option string%s: %s\n", inenv, arg);
	else
	fprintf(u.errstrm, "Unrecognized argument%s: %s\n", inenv, arg);
	usage(&u, argv[0]);
	exit(2);
	}
	}

	if (verbose != 0) {
	u.set_option(DEBUG_VERBOSE, u.saveIntStr(verbose));
	}
	if (logfile != null) {
	u.set_option(UNPACK_LOG_FILE, logfile);
	}

	u.redirect_stdio();

	const char* source_file = *argp++;
	const char* destination_file = *argp++;

	if (source_file == null \|\| destination_file == null \|\| *argp != null) {
	usage(&u, argv[0]);
	exit(2);
	}

	if (verbose != 0) {
	fprintf(u.errstrm,
	"Unpacking from %s to %s\n", source_file, destination_file);
	}
	bool& remove_source = u.remove_packfile;

	if (strcmp(source_file, "-") == 0) {
	remove_source = false;
	u.infileno = fileno(stdin);
	} else {
	u.infileptr = fopen(source_file, "rb");
	if (u.infileptr == null) {
	fprintf(u.errstrm,
	"Error: Could not open input file: %s\n", source_file);
	exit(3); // Called only from the native standalone unpacker
	}
	}

	if (strcmp(destination_file, "-") == 0) {
	jarout.jarfp = stdout;
	if (u.errstrm == stdout) // do not mix output
	u.set_option(UNPACK_LOG_FILE, LOGFILE_STDERR);
	} else {
	jarout.openJarFile(destination_file);
	assert(jarout.jarfp != null);
	}

	if (verbose != 0)
	u.dump_options();

	char peek[4];
	int magic;

	// check for GZIP input
	magic = read_magic(&u, peek, (int)sizeof(peek));
	if ((magic & GZIP_MAGIC_MASK) == GZIP_MAGIC) {
	// Oops; must slap an input filter on this data.
	setup_gzin(&u);
	u.gzin->start(magic);
	if (!u.aborting()) {
	u.start();
	}
	} else {
	u.start(peek, sizeof(peek));
	}

	// Note: The checks to u.aborting() are necessary to gracefully
	// terminate processing when the first segment throws an error.

	for (;;) {
	if (u.aborting()) break;

	// Each trip through this loop unpacks one segment
	// and then resets the unpacker.
	for (unpacker::file* filep; (filep = u.get_next_file()) != null; ) {
	if (u.aborting()) break;
	u.write_file_to_jar(filep);
	}
	if (u.aborting()) break;

	// Peek ahead for more data.
	magic = read_magic(&u, peek, (int)sizeof(peek));
	if (magic != (int)JAVA_PACKAGE_MAGIC) {
	if (magic != EOF_MAGIC)
	u.abort("garbage after end of pack archive");
	break; // all done
	}

	// Release all storage from parsing the old segment.
	u.reset();

	// Restart, beginning with the peek-ahead.
	u.start(peek, sizeof(peek));
	}



	int status = 0;
	if (u.aborting()) {
	fprintf(u.errstrm, "Error: %s\n", u.get_abort_message());
	status = 1;
	}

	if (u.infileptr != null) {
	fclose(u.infileptr);
	u.infileptr = null;
	}

	if (!u.aborting() && remove_source)
	remove(source_file);

	if (verbose != 0) {
	fprintf(u.errstrm, "unpacker completed with status=%d\n", status);
	}

	u.finish();

	u.free(); // tidy up malloc blocks
	set_current_unpacker(null); // clean up global pointer

	return status;
	}