/* * Copyright (c) 2005, 2013, 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. */ /* * Class-Path Wildcards * * The syntax for wildcards is a single asterisk. The class path * foo/"*", e.g., loads all jar files in the directory named foo. * (This requires careful quotation when used in shell scripts.) * * Only files whose names end in .jar or .JAR are matched. * Files whose names end in .zip, or which have a particular * magic number, regardless of filename extension, are not * matched. * * Files are considered regardless of whether or not they are * "hidden" in the UNIX sense, i.e., have names beginning with '.'. * * A wildcard only matches jar files, not class files in the same * directory. If you want to load both class files and jar files from * a single directory foo then you can say foo:foo/"*", or foo/"*":foo * if you want the jar files to take precedence. * * Subdirectories are not searched recursively, i.e., foo/"*" only * looks for jar files in foo, not in foo/bar, foo/baz, etc. * * Expansion of wildcards is done early, prior to the invocation of a * program's main method, rather than late, during the class-loading * process itself. Each element of the input class path containing a * wildcard is replaced by the (possibly empty) sequence of elements * generated by enumerating the jar files in the named directory. If * the directory foo contains a.jar, b.jar, and c.jar, * e.g., then the class path foo/"*" is expanded into * foo/a.jar:foo/b.jar:foo/c.jar, and that string would be the value * of the system property java.class.path. * * The order in which the jar files in a directory are enumerated in * the expanded class path is not specified and may vary from platform * to platform and even from moment to moment on the same machine. A * well-constructed application should not depend upon any particular * order. If a specific order is required then the jar files can be * enumerated explicitly in the class path. * * The CLASSPATH environment variable is not treated any differently * from the -classpath (equiv. -cp) command-line option, * i.e. wildcards are honored in all these cases. * * Class-path wildcards are not honored in the Class-Path jar-manifest * header. * * Class-path wildcards are honored not only by the Java launcher but * also by most other command-line tools that accept class paths, and * in particular by javac and javadoc. * * Class-path wildcards are not honored in any other kind of path, and * especially not in the bootstrap class path, which is a mere * artifact of our implementation and not something that developers * should use. * * Classpath wildcards are only expanded in the Java launcher code, * supporting the use of wildcards on the command line and in the * CLASSPATH environment variable. We do not support the use of * wildcards by applications that embed the JVM. */ #include #include #include #include #include #include "java.h" /* Strictly for PATH_SEPARATOR/FILE_SEPARATOR */ #include "jli_util.h" #ifdef _WIN32 #include #else /* Unix */ #include #include #endif /* Unix */ static int exists(const char* filename) { #ifdef _WIN32 return _access(filename, 0) == 0; #else return access(filename, F_OK) == 0; #endif } #define NEW_(TYPE) ((TYPE) JLI_MemAlloc(sizeof(struct TYPE##_))) /* * Wildcard directory iteration. * WildcardIterator_for(wildcard) returns an iterator. * Each call to that iterator's next() method returns the basename * of an entry in the wildcard's directory. The basename's memory * belongs to the iterator. The caller is responsible for prepending * the directory name and file separator, if necessary. * When done with the iterator, call the close method to clean up. */ typedef struct WildcardIterator_* WildcardIterator; #ifdef _WIN32 struct WildcardIterator_ { HANDLE handle; char *firstFile; /* Stupid FindFirstFile...FindNextFile */ }; // since this is used repeatedly we keep it here. static WIN32_FIND_DATA find_data; static WildcardIterator WildcardIterator_for(const char *wildcard) { WildcardIterator it = NEW_(WildcardIterator); HANDLE handle = FindFirstFile(wildcard, &find_data); if (handle == INVALID_HANDLE_VALUE) { JLI_MemFree(it); return NULL; } it->handle = handle; it->firstFile = find_data.cFileName; return it; } static char * WildcardIterator_next(WildcardIterator it) { if (it->firstFile != NULL) { char *firstFile = it->firstFile; it->firstFile = NULL; return firstFile; } return FindNextFile(it->handle, &find_data) ? find_data.cFileName : NULL; } static void WildcardIterator_close(WildcardIterator it) { if (it) { FindClose(it->handle); JLI_MemFree(it->firstFile); JLI_MemFree(it); } } #else /* Unix */ struct WildcardIterator_ { DIR *dir; }; static WildcardIterator WildcardIterator_for(const char *wildcard) { DIR *dir; int wildlen = JLI_StrLen(wildcard); if (wildlen < 2) { dir = opendir("."); } else { char *dirname = JLI_StringDup(wildcard); dirname[wildlen - 1] = '\0'; dir = opendir(dirname); JLI_MemFree(dirname); } if (dir == NULL) return NULL; else { WildcardIterator it = NEW_(WildcardIterator); it->dir = dir; return it; } } static char * WildcardIterator_next(WildcardIterator it) { struct dirent* dirp = readdir(it->dir); return dirp ? dirp->d_name : NULL; } static void WildcardIterator_close(WildcardIterator it) { if (it) { closedir(it->dir); JLI_MemFree(it); } } #endif /* Unix */ static int equal(const char *s1, const char *s2) { return JLI_StrCmp(s1, s2) == 0; } /* * FileList ADT - a dynamic list of C filenames */ struct FileList_ { char **files; int size; int capacity; }; typedef struct FileList_ *FileList; static FileList FileList_new(int capacity) { FileList fl = NEW_(FileList); fl->capacity = capacity; fl->files = (char **) JLI_MemAlloc(capacity * sizeof(fl->files[0])); fl->size = 0; return fl; } static void FileList_free(FileList fl) { if (fl) { if (fl->files) { int i; for (i = 0; i < fl->size; i++) JLI_MemFree(fl->files[i]); JLI_MemFree(fl->files); } JLI_MemFree(fl); } } static void FileList_ensureCapacity(FileList fl, int capacity) { if (fl->capacity < capacity) { while (fl->capacity < capacity) fl->capacity *= 2; fl->files = JLI_MemRealloc(fl->files, fl->capacity * sizeof(fl->files[0])); } } static void FileList_add(FileList fl, char *file) { FileList_ensureCapacity(fl, fl->size+1); fl->files[fl->size++] = file; } static void FileList_addSubstring(FileList fl, const char *beg, size_t len) { char *filename = (char *) JLI_MemAlloc(len+1); memcpy(filename, beg, len); filename[len] = '\0'; FileList_ensureCapacity(fl, fl->size+1); fl->files[fl->size++] = filename; } static char * FileList_join(FileList fl, char sep) { int i; int size; char *path; char *p; for (i = 0, size = 1; i < fl->size; i++) size += (int)JLI_StrLen(fl->files[i]) + 1; path = JLI_MemAlloc(size); for (i = 0, p = path; i < fl->size; i++) { int len = (int)JLI_StrLen(fl->files[i]); if (i > 0) *p++ = sep; memcpy(p, fl->files[i], len); p += len; } *p = '\0'; return path; } static FileList FileList_split(const char *path, char sep) { const char *p, *q; size_t len = JLI_StrLen(path); int count; FileList fl; for (count = 1, p = path; p < path + len; p++) count += (*p == sep); fl = FileList_new(count); for (p = path;;) { for (q = p; q <= path + len; q++) { if (*q == sep || *q == '\0') { FileList_addSubstring(fl, p, q - p); if (*q == '\0') return fl; p = q + 1; } } } } static int isJarFileName(const char *filename) { int len = (int)JLI_StrLen(filename); return (len >= 4) && (filename[len - 4] == '.') && (equal(filename + len - 3, "jar") || equal(filename + len - 3, "JAR")) && /* Paranoia: Maybe filename is "DIR:foo.jar" */ (JLI_StrChr(filename, PATH_SEPARATOR) == NULL); } static char * wildcardConcat(const char *wildcard, const char *basename) { int wildlen = (int)JLI_StrLen(wildcard); int baselen = (int)JLI_StrLen(basename); char *filename = (char *) JLI_MemAlloc(wildlen + baselen); /* Replace the trailing '*' with basename */ memcpy(filename, wildcard, wildlen-1); memcpy(filename+wildlen-1, basename, baselen+1); return filename; } static FileList wildcardFileList(const char *wildcard) { const char *basename; FileList fl = FileList_new(16); WildcardIterator it = WildcardIterator_for(wildcard); if (it == NULL) { FileList_free(fl); return NULL; } while ((basename = WildcardIterator_next(it)) != NULL) if (isJarFileName(basename)) FileList_add(fl, wildcardConcat(wildcard, basename)); WildcardIterator_close(it); return fl; } static int isWildcard(const char *filename) { int len = (int)JLI_StrLen(filename); return (len > 0) && (filename[len - 1] == '*') && (len == 1 || IS_FILE_SEPARATOR(filename[len - 2])) && (! exists(filename)); } static void FileList_expandWildcards(FileList fl) { int i, j; for (i = 0; i < fl->size; i++) { if (isWildcard(fl->files[i])) { FileList expanded = wildcardFileList(fl->files[i]); if (expanded != NULL && expanded->size > 0) { JLI_MemFree(fl->files[i]); FileList_ensureCapacity(fl, fl->size + expanded->size); for (j = fl->size - 1; j >= i+1; j--) fl->files[j+expanded->size-1] = fl->files[j]; for (j = 0; j < expanded->size; j++) fl->files[i+j] = expanded->files[j]; i += expanded->size - 1; fl->size += expanded->size - 1; /* fl expropriates expanded's elements. */ expanded->size = 0; } FileList_free(expanded); } } } const char * JLI_WildcardExpandClasspath(const char *classpath) { char *expanded; FileList fl; if (JLI_StrChr(classpath, '*') == NULL) return classpath; fl = FileList_split(classpath, PATH_SEPARATOR); FileList_expandWildcards(fl); expanded = FileList_join(fl, PATH_SEPARATOR); FileList_free(fl); if (getenv(JLDEBUG_ENV_ENTRY) != 0) printf("Expanded wildcards:\n" " before: \"%s\"\n" " after : \"%s\"\n", classpath, expanded); return expanded; } #ifdef DEBUG_WILDCARD static void FileList_print(FileList fl) { int i; putchar('['); for (i = 0; i < fl->size; i++) { if (i > 0) printf(", "); printf("\"%s\"",fl->files[i]); } putchar(']'); } static void wildcardExpandArgv(const char ***argv) { int i; for (i = 0; (*argv)[i]; i++) { if (equal((*argv)[i], "-cp") || equal((*argv)[i], "-classpath")) { i++; (*argv)[i] = wildcardExpandClasspath((*argv)[i]); } } } static void debugPrintArgv(char *argv[]) { int i; putchar('['); for (i = 0; argv[i]; i++) { if (i > 0) printf(", "); printf("\"%s\"", argv[i]); } printf("]\n"); } int main(int argc, char *argv[]) { argv[0] = "java"; wildcardExpandArgv((const char***)&argv); debugPrintArgv(argv); /* execvp("java", argv); */ return 0; } #endif /* DEBUG_WILDCARD */ /* Cute little perl prototype implementation.... my $sep = ($^O =~ /^(Windows|cygwin)/) ? ";" : ":"; sub expand($) { opendir DIR, $_[0] or return $_[0]; join $sep, map {"$_[0]/$_"} grep {/\.(jar|JAR)$/} readdir DIR; } sub munge($) { join $sep, map {(! -r $_ and s/[\/\\]+\*$//) ? expand $_ : $_} split $sep, $_[0]; } for (my $i = 0; $i < @ARGV - 1; $i++) { $ARGV[$i+1] = munge $ARGV[$i+1] if $ARGV[$i] =~ /^-c(p|lasspath)$/; } $ENV{CLASSPATH} = munge $ENV{CLASSPATH} if exists $ENV{CLASSPATH}; @ARGV = ("java", @ARGV); print "@ARGV\n"; exec @ARGV; */