/* * Copyright (c) 2015, 2017, 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 #include #include #include #include #ifdef DEBUG_ARGFILE #ifndef NO_JNI #define NO_JNI #endif #define JLI_ReportMessage(...) printf(__VA_ARGS__) #define JDK_JAVA_OPTIONS "JDK_JAVA_OPTIONS" int IsWhiteSpaceOption(const char* name) { return 1; } #else #include "java.h" #endif #include "jli_util.h" #include "emessages.h" #define MAX_ARGF_SIZE 0x7fffffffL static char* clone_substring(const char *begin, size_t len) { char *rv = (char *) JLI_MemAlloc(len + 1); memcpy(rv, begin, len); rv[len] = '\0'; return rv; } enum STATE { FIND_NEXT, IN_COMMENT, IN_QUOTE, IN_ESCAPE, SKIP_LEAD_WS, IN_TOKEN }; typedef struct { enum STATE state; const char* cptr; const char* eob; char quote_char; JLI_List parts; } __ctx_args; #define NOT_FOUND -1 static int firstAppArgIndex = NOT_FOUND; static jboolean expectingNoDashArg = JNI_FALSE; // Initialize to 1, as the first argument is the app name and not preprocessed static size_t argsCount = 1; static jboolean stopExpansion = JNI_FALSE; static jboolean relaunch = JNI_FALSE; void JLI_InitArgProcessing(jboolean hasJavaArgs, jboolean disableArgFile) { // No expansion for relaunch if (argsCount != 1) { relaunch = JNI_TRUE; stopExpansion = JNI_TRUE; argsCount = 1; } else { stopExpansion = disableArgFile; } expectingNoDashArg = JNI_FALSE; // for tools, this value remains 0 all the time. firstAppArgIndex = hasJavaArgs ? 0: NOT_FOUND; } int JLI_GetAppArgIndex() { // Will be 0 for tools return firstAppArgIndex; } static void checkArg(const char *arg) { size_t idx = 0; argsCount++; // All arguments arrive here must be a launcher argument, // ie. by now, all argfile expansions must have been performed. if (*arg == '-') { expectingNoDashArg = JNI_FALSE; if (IsWhiteSpaceOption(arg)) { // expect an argument expectingNoDashArg = JNI_TRUE; if (JLI_StrCmp(arg, "-jar") == 0 || JLI_StrCmp(arg, "--module") == 0 || JLI_StrCmp(arg, "-m") == 0) { // This is tricky, we do expect NoDashArg // But that is considered main class to stop expansion expectingNoDashArg = JNI_FALSE; // We can not just update the idx here because if -jar @file // still need expansion of @file to get the argument for -jar } } else if (JLI_StrCmp(arg, "--disable-@files") == 0) { stopExpansion = JNI_TRUE; } } else { if (!expectingNoDashArg) { // this is main class, argsCount is index to next arg idx = argsCount; } expectingNoDashArg = JNI_FALSE; } // only update on java mode and not yet found main class if (firstAppArgIndex == NOT_FOUND && idx != 0) { firstAppArgIndex = (int) idx; } } /* [\n\r] +------------+ +------------+ [\n\r] +---------+ IN_COMMENT +<------+ | IN_ESCAPE +---------+ | +------------+ | +------------+ | | [#] ^ |[#] ^ | | | +----------+ | [\\]| |[^\n\r] | v | | | v | +------------+ [^ \t\n\r\f] +------------+['"]> +------------+ | | FIND_NEXT +-------------->+ IN_TOKEN +-----------+ IN_QUOTE + | +------------+ +------------+ <[quote]+------------+ | | ^ | | ^ ^ | | | [ \t\n\r\f]| [\n\r]| | |[^ \t\n\r\f]v | +--------------------------+-----------------------+ | +--------------+ | ['"] | | SKIP_LEAD_WS | +---------------------------------------------------------+ +--------------+ */ static char* nextToken(__ctx_args *pctx) { const char* nextc = pctx->cptr; const char* const eob = pctx->eob; const char* anchor = nextc; char *token; for (; nextc < eob; nextc++) { register char ch = *nextc; // Skip white space characters if (pctx->state == FIND_NEXT || pctx->state == SKIP_LEAD_WS) { while (ch == ' ' || ch == '\n' || ch == '\r' || ch == '\t' || ch == '\f') { nextc++; if (nextc >= eob) { return NULL; } ch = *nextc; } pctx->state = (pctx->state == FIND_NEXT) ? IN_TOKEN : IN_QUOTE; anchor = nextc; // Deal with escape sequences } else if (pctx->state == IN_ESCAPE) { // concatenation directive if (ch == '\n' || ch == '\r') { pctx->state = SKIP_LEAD_WS; } else { // escaped character char* escaped = (char*) JLI_MemAlloc(2 * sizeof(char)); escaped[1] = '\0'; switch (ch) { case 'n': escaped[0] = '\n'; break; case 'r': escaped[0] = '\r'; break; case 't': escaped[0] = '\t'; break; case 'f': escaped[0] = '\f'; break; default: escaped[0] = ch; break; } JLI_List_add(pctx->parts, escaped); pctx->state = IN_QUOTE; } // anchor to next character anchor = nextc + 1; continue; // ignore comment to EOL } else if (pctx->state == IN_COMMENT) { while (ch != '\n' && ch != '\r') { nextc++; if (nextc > eob) { return NULL; } ch = *nextc; } pctx->state = FIND_NEXT; continue; } assert(pctx->state != IN_ESCAPE); assert(pctx->state != FIND_NEXT); assert(pctx->state != SKIP_LEAD_WS); assert(pctx->state != IN_COMMENT); switch(ch) { case ' ': case '\t': case '\f': if (pctx->state == IN_QUOTE) { continue; } // fall through case '\n': case '\r': if (pctx->parts->size == 0) { token = clone_substring(anchor, nextc - anchor); } else { JLI_List_addSubstring(pctx->parts, anchor, nextc - anchor); token = JLI_List_combine(pctx->parts); JLI_List_free(pctx->parts); pctx->parts = JLI_List_new(4); } pctx->cptr = nextc + 1; pctx->state = FIND_NEXT; return token; case '#': if (pctx->state == IN_QUOTE) { continue; } pctx->state = IN_COMMENT; break; case '\\': if (pctx->state != IN_QUOTE) { continue; } JLI_List_addSubstring(pctx->parts, anchor, nextc - anchor); pctx->state = IN_ESCAPE; break; case '\'': case '"': if (pctx->state == IN_QUOTE && pctx->quote_char != ch) { // not matching quote continue; } // partial before quote if (anchor != nextc) { JLI_List_addSubstring(pctx->parts, anchor, nextc - anchor); } // anchor after quote character anchor = nextc + 1; if (pctx->state == IN_TOKEN) { pctx->quote_char = ch; pctx->state = IN_QUOTE; } else { pctx->state = IN_TOKEN; } break; default: break; } } assert(nextc == eob); if (anchor != nextc) { // not yet return until end of stream, we have part of a token. JLI_List_addSubstring(pctx->parts, anchor, nextc - anchor); } return NULL; } static JLI_List readArgFile(FILE *file) { char buf[4096]; JLI_List rv; __ctx_args ctx; size_t size; char *token; ctx.state = FIND_NEXT; ctx.parts = JLI_List_new(4); /* arbitrarily pick 8, seems to be a reasonable number of arguments */ rv = JLI_List_new(8); while (!feof(file)) { size = fread(buf, sizeof(char), sizeof(buf), file); if (ferror(file)) { JLI_List_free(rv); return NULL; } /* nextc is next character to read from the buffer * eob is the end of input * token is the copied token value, NULL if no a complete token */ ctx.cptr = buf; ctx.eob = buf + size; token = nextToken(&ctx); while (token != NULL) { checkArg(token); JLI_List_add(rv, token); token = nextToken(&ctx); } } // remaining partial token if (ctx.state == IN_TOKEN || ctx.state == IN_QUOTE) { if (ctx.parts->size != 0) { JLI_List_add(rv, JLI_List_combine(ctx.parts)); } } JLI_List_free(ctx.parts); return rv; } /* * if the arg represent a file, that is, prefix with a single '@', * return a list of arguments from the file. * otherwise, return NULL. */ static JLI_List expandArgFile(const char *arg) { FILE *fptr; struct stat st; JLI_List rv; /* failed to access the file */ if (stat(arg, &st) != 0) { JLI_ReportMessage(CFG_ERROR6, arg); exit(1); } if (st.st_size > MAX_ARGF_SIZE) { JLI_ReportMessage(CFG_ERROR10, MAX_ARGF_SIZE); exit(1); } fptr = fopen(arg, "r"); /* arg file cannot be openned */ if (fptr == NULL) { JLI_ReportMessage(CFG_ERROR6, arg); exit(1); } rv = readArgFile(fptr); fclose(fptr); /* error occurred reading the file */ if (rv == NULL) { JLI_ReportMessage(DLL_ERROR4, arg); exit(1); } return rv; } JLI_List JLI_PreprocessArg(const char *arg) { JLI_List rv; if (firstAppArgIndex > 0) { // In user application arg, no more work. return NULL; } if (stopExpansion) { // still looking for user application arg checkArg(arg); return NULL; } if (arg[0] != '@') { checkArg(arg); return NULL; } if (arg[1] == '\0') { // @ by itself is an argument checkArg(arg); return NULL; } arg++; if (arg[0] == '@') { // escaped @argument rv = JLI_List_new(1); checkArg(arg); JLI_List_add(rv, JLI_StringDup(arg)); } else { rv = expandArgFile(arg); } return rv; } int isTerminalOpt(char *arg) { return JLI_StrCmp(arg, "-jar") == 0 || JLI_StrCmp(arg, "-m") == 0 || JLI_StrCmp(arg, "--module") == 0 || JLI_StrCmp(arg, "--dry-run") == 0 || JLI_StrCmp(arg, "-h") == 0 || JLI_StrCmp(arg, "-?") == 0 || JLI_StrCmp(arg, "-help") == 0 || JLI_StrCmp(arg, "--help") == 0 || JLI_StrCmp(arg, "-X") == 0 || JLI_StrCmp(arg, "--help-extra") == 0 || JLI_StrCmp(arg, "-version") == 0 || JLI_StrCmp(arg, "--version") == 0 || JLI_StrCmp(arg, "-fullversion") == 0 || JLI_StrCmp(arg, "--full-version") == 0; } jboolean JLI_AddArgsFromEnvVar(JLI_List args, const char *var_name) { char *env = getenv(var_name); char *p, *arg; char quote; JLI_List argsInFile; if (firstAppArgIndex == 0) { // Not 'java', return return JNI_FALSE; } if (relaunch) { return JNI_FALSE; } if (NULL == env) { return JNI_FALSE; } JLI_ReportMessage(ARG_INFO_ENVVAR, var_name, env); // This is retained until the process terminates as it is saved as the args p = JLI_MemAlloc(JLI_StrLen(env) + 1); while (*env != '\0') { while (*env != '\0' && isspace(*env)) { env++; } // Trailing space if (*env == '\0') { break; } arg = p; while (*env != '\0' && !isspace(*env)) { if (*env == '"' || *env == '\'') { quote = *env++; while (*env != quote && *env != '\0') { *p++ = *env++; } if (*env == '\0') { JLI_ReportMessage(ARG_ERROR8, var_name); exit(1); } env++; } else { *p++ = *env++; } } *p++ = '\0'; argsInFile = JLI_PreprocessArg(arg); if (NULL == argsInFile) { if (isTerminalOpt(arg)) { JLI_ReportMessage(ARG_ERROR9, arg, var_name); exit(1); } JLI_List_add(args, arg); } else { size_t cnt, idx; char *argFile = arg; cnt = argsInFile->size; for (idx = 0; idx < cnt; idx++) { arg = argsInFile->elements[idx]; if (isTerminalOpt(arg)) { JLI_ReportMessage(ARG_ERROR10, arg, argFile, var_name); exit(1); } JLI_List_add(args, arg); } // Shallow free, we reuse the string to avoid copy JLI_MemFree(argsInFile->elements); JLI_MemFree(argsInFile); } /* * Check if main-class is specified after argument being checked. It * must always appear after expansion, as a main-class could be specified * indirectly into environment variable via an @argfile, and it must be * caught now. */ if (firstAppArgIndex != NOT_FOUND) { JLI_ReportMessage(ARG_ERROR11, var_name); exit(1); } assert (*env == '\0' || isspace(*env)); } return JNI_TRUE; } #ifdef DEBUG_ARGFILE /* * Stand-alone sanity test, build with following command line * $ CC -DDEBUG_ARGFILE -DNO_JNI -g args.c jli_util.c */ void fail(char *expected, char *actual, size_t idx) { printf("FAILED: Token[%lu] expected to be <%s>, got <%s>\n", idx, expected, actual); exit(1); } void test_case(char *case_data, char **tokens, size_t cnt_tokens) { size_t actual_cnt; char *token; __ctx_args ctx; actual_cnt = 0; ctx.state = FIND_NEXT; ctx.parts = JLI_List_new(4); ctx.cptr = case_data; ctx.eob = case_data + strlen(case_data); printf("Test case: <%s>, expected %lu tokens.\n", case_data, cnt_tokens); for (token = nextToken(&ctx); token != NULL; token = nextToken(&ctx)) { // should not have more tokens than expected if (actual_cnt >= cnt_tokens) { printf("FAILED: Extra token detected: <%s>\n", token); exit(2); } if (JLI_StrCmp(token, tokens[actual_cnt]) != 0) { fail(tokens[actual_cnt], token, actual_cnt); } actual_cnt++; } char* last = NULL; if (ctx.parts->size != 0) { last = JLI_List_combine(ctx.parts); } JLI_List_free(ctx.parts); if (actual_cnt >= cnt_tokens) { // same number of tokens, should have nothing left to parse if (last != NULL) { if (*last != '#') { printf("Leftover detected: %s", last); exit(2); } } } else { if (JLI_StrCmp(last, tokens[actual_cnt]) != 0) { fail(tokens[actual_cnt], last, actual_cnt); } actual_cnt++; } if (actual_cnt != cnt_tokens) { printf("FAILED: Number of tokens not match, expected %lu, got %lu\n", cnt_tokens, actual_cnt); exit(3); } printf("PASS\n"); } #define DO_CASE(name) \ test_case(name[0], name + 1, sizeof(name)/sizeof(char*) - 1) int main(int argc, char** argv) { size_t i, j; char* case1[] = { "-version -cp \"c:\\\\java libs\\\\one.jar\" \n", "-version", "-cp", "c:\\java libs\\one.jar" }; DO_CASE(case1); // note the open quote at the end char* case2[] = { "com.foo.Panda \"Furious 5\"\fand\t'Shi Fu' \"escape\tprison", "com.foo.Panda", "Furious 5", "and", "Shi Fu", "escape\tprison"}; DO_CASE(case2); char* escaped_chars[] = { "escaped chars testing \"\\a\\b\\c\\f\\n\\r\\t\\v\\9\\6\\23\\82\\28\\377\\477\\278\\287\"", "escaped", "chars", "testing", "abc\f\n\r\tv96238228377477278287"}; DO_CASE(escaped_chars); char* mixed_quote[] = { "\"mix 'single quote' in double\" 'mix \"double quote\" in single' partial\"quote me\"this", "mix 'single quote' in double", "mix \"double quote\" in single", "partialquote methis"}; DO_CASE(mixed_quote); char* comments[] = { "line one #comment\n'line #2' #rest are comment\r\n#comment on line 3\nline 4 #comment to eof", "line", "one", "line #2", "line", "4"}; DO_CASE(comments); char* open_quote[] = { "This is an \"open quote \n across line\n\t, note for WS.", "This", "is", "an", "open quote ", "across", "line", ",", "note", "for", "WS." }; DO_CASE(open_quote); char* escape_in_open_quote[] = { "Try \"this \\\\\\\\ escape\\n double quote \\\" in open quote", "Try", "this \\\\ escape\n double quote \" in open quote" }; DO_CASE(escape_in_open_quote); char* quote[] = { "'-Dmy.quote.single'='Property in single quote. Here a double quote\" Add some slashes \\\\/'", "-Dmy.quote.single=Property in single quote. Here a double quote\" Add some slashes \\/" }; DO_CASE(quote); char* multi[] = { "\"Open quote to \n new \"line \\\n\r third\\\n\r\\\tand\ffourth\"", "Open quote to ", "new", "line third\tand\ffourth" }; DO_CASE(multi); char* escape_quote[] = { "c:\\\"partial quote\"\\lib", "c:\\partial quote\\lib" }; DO_CASE(escape_quote); if (argc > 1) { for (i = 0; i < argc; i++) { JLI_List tokens = JLI_PreprocessArg(argv[i]); if (NULL != tokens) { for (j = 0; j < tokens->size; j++) { printf("Token[%lu]: <%s>\n", (unsigned long) j, tokens->elements[j]); } } } } } #endif // DEBUG_ARGFILE