/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * pargs examines and prints the arguments (argv), environment (environ), * and auxiliary vector of another process. * * This utility is made more complex because it must run in internationalized * environments. The two key cases for pargs to manage are: * * 1. pargs and target run in the same locale: pargs must respect the * locale, but this case is straightforward. Care is taken to correctly * use wide characters in order to print results properly. * * 2. pargs and target run in different locales: in this case, pargs examines * the string having assumed the victim's locale. Unprintable (but valid) * characters are escaped. Next, iconv(3c) is used to convert between the * target and pargs codeset. Finally, a second pass to escape unprintable * (but valid) characters is made. * * In any case in which characters are encountered which are not valid in * their purported locale, the string "fails" and is treated as a traditional * 7-bit ASCII encoded string, and escaped accordingly. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include typedef struct pargs_data { struct ps_prochandle *pd_proc; /* target proc handle */ psinfo_t *pd_psinfo; /* target psinfo */ char *pd_locale; /* target process locale */ int pd_conv_flags; /* flags governing string conversion */ iconv_t pd_iconv; /* iconv conversion descriptor */ size_t pd_argc; uintptr_t *pd_argv; char **pd_argv_strs; size_t pd_envc; uintptr_t *pd_envp; char **pd_envp_strs; size_t pd_auxc; auxv_t *pd_auxv; char **pd_auxv_strs; char *pd_execname; } pargs_data_t; #define CONV_USE_ICONV 0x01 #define CONV_STRICT_ASCII 0x02 static char *command; static int dmodel; #define EXTRACT_BUFSZ 128 /* extract_string() initial size */ #define ENV_CHUNK 16 /* #env ptrs to read at a time */ static jmp_buf env; /* malloc failure handling */ static void * safe_zalloc(size_t size) { void *p; /* * If the malloc fails we longjmp out to allow the code to Prelease() * a stopped victim if needed. */ if ((p = malloc(size)) == NULL) { longjmp(env, errno); } bzero(p, size); return (p); } static char * safe_strdup(const char *s1) { char *s2; s2 = safe_zalloc(strlen(s1) + 1); (void) strcpy(s2, s1); return (s2); } /* * Given a wchar_t which might represent an 'escapable' sequence (see * formats(5)), return the base ascii character needed to print that * sequence. * * The comparisons performed may look suspect at first, but all are valid; * the characters below all appear in the "Portable Character Set." The * Single Unix Spec says: "The wide-character value for each member of the * Portable Character Set will equal its value when used as the lone * character in an integer character constant." */ static uchar_t get_interp_char(wchar_t wc) { switch (wc) { case L'\a': return ('a'); case L'\b': return ('b'); case L'\f': return ('f'); case L'\n': return ('n'); case L'\r': return ('r'); case L'\t': return ('t'); case L'\v': return ('v'); case L'\\': return ('\\'); } return ('\0'); } static char * unctrl_str_strict_ascii(const char *src, int escape_slash, int *unprintable) { uchar_t *uc, *ucp, c, ic; uc = ucp = safe_zalloc((strlen(src) * 4) + 1); while ((c = *src++) != '\0') { /* * Call get_interp_char *first*, since \ will otherwise not * be escaped as \\. */ if ((ic = get_interp_char((wchar_t)c)) != '\0') { if (escape_slash || ic != '\\') *ucp++ = '\\'; *ucp++ = ic; } else if (isascii(c) && isprint(c)) { *ucp++ = c; } else { *ucp++ = '\\'; *ucp++ = ((c >> 6) & 7) + '0'; *ucp++ = ((c >> 3) & 7) + '0'; *ucp++ = (c & 7) + '0'; *unprintable = 1; } } *ucp = '\0'; return ((char *)uc); } /* * Convert control characters as described in format(5) to their readable * representation; special care is taken to handle multibyte character sets. * * If escape_slash is true, escaping of '\' occurs. The first time a string * is unctrl'd, this should be '1'. Subsequent iterations over the same * string should set escape_slash to 0. Otherwise you'll wind up with * \ --> \\ --> \\\\. */ static char * unctrl_str(const char *src, int escape_slash, int *unprintable) { wchar_t wc; wchar_t *wide_src, *wide_srcp; wchar_t *wide_dest, *wide_destp; char *uc; size_t srcbufsz = strlen(src) + 1; size_t destbufsz = srcbufsz * 4; size_t srclen, destlen; wide_srcp = wide_src = safe_zalloc(srcbufsz * sizeof (wchar_t)); wide_destp = wide_dest = safe_zalloc(destbufsz * sizeof (wchar_t)); if ((srclen = mbstowcs(wide_src, src, srcbufsz - 1)) == (size_t)-1) { /* * We can't trust the string, since in the locale in which * this call is operating, the string contains an invalid * multibyte sequence. There isn't much to do here, so * convert the string byte by byte to wide characters, as * if it came from a C locale (char) string. This isn't * perfect, but at least the characters will make it to * the screen. */ free(wide_src); free(wide_dest); return (unctrl_str_strict_ascii(src, escape_slash, unprintable)); } if (srclen == (srcbufsz - 1)) { wide_src[srclen] = L'\0'; } while ((wc = *wide_srcp++) != L'\0') { char cvt_buf[MB_LEN_MAX]; int len, i; char c = get_interp_char(wc); if ((c != '\0') && (escape_slash || c != '\\')) { /* * Print "interpreted version" (\n, \a, etc). */ *wide_destp++ = L'\\'; *wide_destp++ = (wchar_t)c; continue; } if (iswprint(wc)) { *wide_destp++ = wc; continue; } /* * Convert the wide char back into (potentially several) * multibyte characters, then escape out each of those bytes. */ bzero(cvt_buf, sizeof (cvt_buf)); if ((len = wctomb(cvt_buf, wc)) == -1) { /* * This is a totally invalid wide char; discard it. */ continue; } for (i = 0; i < len; i++) { uchar_t c = cvt_buf[i]; *wide_destp++ = L'\\'; *wide_destp++ = (wchar_t)('0' + ((c >> 6) & 7)); *wide_destp++ = (wchar_t)('0' + ((c >> 3) & 7)); *wide_destp++ = (wchar_t)('0' + (c & 7)); *unprintable = 1; } } *wide_destp = '\0'; destlen = (wide_destp - wide_dest) * MB_CUR_MAX + 1; uc = safe_zalloc(destlen); if (wcstombs(uc, wide_dest, destlen) == (size_t)-1) { /* If we've gotten this far, wcstombs shouldn't fail... */ (void) fprintf(stderr, "%s: wcstombs failed unexpectedly: %s\n", command, strerror(errno)); exit(1); } else { char *tmp; /* * Try to save memory; don't waste 3 * strlen in the * common case. */ tmp = safe_strdup(uc); free(uc); uc = tmp; } free(wide_dest); free(wide_src); return (uc); } /* * These functions determine which characters are safe to be left unquoted. * Rather than starting with every printable character and subtracting out the * shell metacharacters, we take the more conservative approach of starting with * a set of safe characters and adding those few common punctuation characters * which are known to be safe. The rules are: * * If this is a printable character (graph), and not punctuation, it is * safe to leave unquoted. * * If it's one of known hard-coded safe characters, it's also safe to leave * unquoted. * * Otherwise, the entire argument must be quoted. * * This will cause some strings to be unecessarily quoted, but it is safer than * having a character unintentionally interpreted by the shell. */ static int issafe_ascii(char c) { return (isalnum(c) || strchr("_.-/@:,", c) != NULL); } static int issafe(wchar_t wc) { return ((iswgraph(wc) && !iswpunct(wc)) || wschr(L"_.-/@:,", wc) != NULL); } /*ARGSUSED*/ static char * quote_string_ascii(pargs_data_t *datap, char *src) { char *dst; int quote_count = 0; int need_quote = 0; char *srcp, *dstp; size_t dstlen; for (srcp = src; *srcp != '\0'; srcp++) { if (!issafe_ascii(*srcp)) { need_quote = 1; if (*srcp == '\'') quote_count++; } } if (!need_quote) return (src); /* * The only character we care about here is a single quote. All the * other unprintable characters (and backslashes) will have been dealt * with by unctrl_str(). We make the following subtitution when we * encounter a single quote: * * ' = '"'"' * * In addition, we put single quotes around the entire argument. For * example: * * foo'bar = 'foo'"'"'bar' */ dstlen = strlen(src) + 3 + 4 * quote_count; dst = safe_zalloc(dstlen); dstp = dst; *dstp++ = '\''; for (srcp = src; *srcp != '\0'; srcp++, dstp++) { *dstp = *srcp; if (*srcp == '\'') { dstp[1] = '"'; dstp[2] = '\''; dstp[3] = '"'; dstp[4] = '\''; dstp += 4; } } *dstp++ = '\''; *dstp = '\0'; free(src); return (dst); } static char * quote_string(pargs_data_t *datap, char *src) { wchar_t *wide_src, *wide_srcp; wchar_t *wide_dest, *wide_destp; char *uc; size_t srcbufsz = strlen(src) + 1; size_t srclen; size_t destbufsz; size_t destlen; int quote_count = 0; int need_quote = 0; if (datap->pd_conv_flags & CONV_STRICT_ASCII) return (quote_string_ascii(datap, src)); wide_srcp = wide_src = safe_zalloc(srcbufsz * sizeof (wchar_t)); if ((srclen = mbstowcs(wide_src, src, srcbufsz - 1)) == (size_t)-1) { free(wide_src); return (quote_string_ascii(datap, src)); } if (srclen == srcbufsz - 1) wide_src[srclen] = L'\0'; for (wide_srcp = wide_src; *wide_srcp != '\0'; wide_srcp++) { if (!issafe(*wide_srcp)) { need_quote = 1; if (*wide_srcp == L'\'') quote_count++; } } if (!need_quote) { free(wide_src); return (src); } /* * See comment for quote_string_ascii(), above. */ destbufsz = srcbufsz + 3 + 4 * quote_count; wide_destp = wide_dest = safe_zalloc(destbufsz * sizeof (wchar_t)); *wide_destp++ = L'\''; for (wide_srcp = wide_src; *wide_srcp != L'\0'; wide_srcp++, wide_destp++) { *wide_destp = *wide_srcp; if (*wide_srcp == L'\'') { wide_destp[1] = L'"'; wide_destp[2] = L'\''; wide_destp[3] = L'"'; wide_destp[4] = L'\''; wide_destp += 4; } } *wide_destp++ = L'\''; *wide_destp = L'\0'; destlen = destbufsz * MB_CUR_MAX + 1; uc = safe_zalloc(destlen); if (wcstombs(uc, wide_dest, destlen) == (size_t)-1) { /* If we've gotten this far, wcstombs shouldn't fail... */ (void) fprintf(stderr, "%s: wcstombs failed unexpectedly: %s\n", command, strerror(errno)); exit(1); } free(wide_dest); free(wide_src); return (uc); } /* * Determine the locale of the target process by traversing its environment, * making only one pass for efficiency's sake; stash the result in * datap->pd_locale. * * It's possible that the process has called setlocale() to change its * locale to something different, but we mostly care about making a good * guess as to the locale at exec(2) time. */ static void lookup_locale(pargs_data_t *datap) { int i, j, composite = 0; size_t len = 0; char *pd_locale; char *lc_all = NULL, *lang = NULL; char *lcs[] = { NULL, NULL, NULL, NULL, NULL, NULL }; static const char *cat_names[] = { "LC_CTYPE=", "LC_NUMERIC=", "LC_TIME=", "LC_COLLATE=", "LC_MONETARY=", "LC_MESSAGES=" }; for (i = 0; i < datap->pd_envc; i++) { char *s = datap->pd_envp_strs[i]; if (s == NULL) continue; if (strncmp("LC_ALL=", s, strlen("LC_ALL=")) == 0) { /* * Minor optimization-- if we find LC_ALL we're done. */ lc_all = s + strlen("LC_ALL="); break; } for (j = 0; j <= _LastCategory; j++) { if (strncmp(cat_names[j], s, strlen(cat_names[j])) == 0) { lcs[j] = s + strlen(cat_names[j]); } } if (strncmp("LANG=", s, strlen("LANG=")) == 0) { lang = s + strlen("LANG="); } } if (lc_all && (*lc_all == '\0')) lc_all = NULL; if (lang && (*lang == '\0')) lang = NULL; for (i = 0; i <= _LastCategory; i++) { if (lc_all != NULL) { lcs[i] = lc_all; } else if (lcs[i] != NULL) { lcs[i] = lcs[i]; } else if (lang != NULL) { lcs[i] = lang; } else { lcs[i] = "C"; } if ((i > 0) && (lcs[i] != lcs[i-1])) composite++; len += 1 + strlen(lcs[i]); /* 1 extra byte for '/' */ } if (composite == 0) { /* simple locale */ pd_locale = safe_strdup(lcs[0]); } else { /* composite locale */ pd_locale = safe_zalloc(len + 1); (void) snprintf(pd_locale, len + 1, "/%s/%s/%s/%s/%s/%s", lcs[0], lcs[1], lcs[2], lcs[3], lcs[4], lcs[5]); } datap->pd_locale = pd_locale; } /* * Pull a string from the victim, regardless of size; this routine allocates * memory for the string which must be freed by the caller. */ static char * extract_string(pargs_data_t *datap, uintptr_t addr) { int size = EXTRACT_BUFSZ; char *result; result = safe_zalloc(size); for (;;) { if (Pread_string(datap->pd_proc, result, size, addr) < 0) { free(result); return (NULL); } else if (strlen(result) == (size - 1)) { free(result); size *= 2; result = safe_zalloc(size); } else { break; } } return (result); } /* * Utility function to read an array of pointers from the victim, adjusting * for victim data model; returns the number of bytes successfully read. */ static ssize_t read_ptr_array(pargs_data_t *datap, uintptr_t offset, uintptr_t *buf, size_t nelems) { ssize_t res; if (dmodel == PR_MODEL_NATIVE) { res = Pread(datap->pd_proc, buf, nelems * sizeof (uintptr_t), offset); } else { int i; uint32_t *arr32 = safe_zalloc(nelems * sizeof (uint32_t)); res = Pread(datap->pd_proc, arr32, nelems * sizeof (uint32_t), offset); if (res > 0) { for (i = 0; i < nelems; i++) buf[i] = arr32[i]; } free(arr32); } return (res); } /* * Extract the argv array from the victim; store the pointer values in * datap->pd_argv and the extracted strings in datap->pd_argv_strs. */ static void get_args(pargs_data_t *datap) { size_t argc = datap->pd_psinfo->pr_argc; uintptr_t argvoff = datap->pd_psinfo->pr_argv; int i; datap->pd_argc = argc; datap->pd_argv = safe_zalloc(argc * sizeof (uintptr_t)); if (read_ptr_array(datap, argvoff, datap->pd_argv, argc) <= 0) { free(datap->pd_argv); datap->pd_argv = NULL; return; } datap->pd_argv_strs = safe_zalloc(argc * sizeof (char *)); for (i = 0; i < argc; i++) { if (datap->pd_argv[i] == 0) continue; datap->pd_argv_strs[i] = extract_string(datap, datap->pd_argv[i]); } } /*ARGSUSED*/ static int build_env(void *data, struct ps_prochandle *pr, uintptr_t addr, const char *str) { pargs_data_t *datap = data; if (datap->pd_envp != NULL) { datap->pd_envp[datap->pd_envc] = addr; if (str == NULL) datap->pd_envp_strs[datap->pd_envc] = NULL; else datap->pd_envp_strs[datap->pd_envc] = strdup(str); } datap->pd_envc++; return (0); } static void get_env(pargs_data_t *datap) { struct ps_prochandle *pr = datap->pd_proc; datap->pd_envc = 0; (void) Penv_iter(pr, build_env, datap); datap->pd_envp = safe_zalloc(sizeof (uintptr_t) * datap->pd_envc); datap->pd_envp_strs = safe_zalloc(sizeof (char *) * datap->pd_envc); datap->pd_envc = 0; (void) Penv_iter(pr, build_env, datap); } /* * The following at_* routines are used to decode data from the aux vector. */ /*ARGSUSED*/ static void at_null(long val, char *instr, size_t n, char *str) { str[0] = '\0'; } /*ARGSUSED*/ static void at_str(long val, char *instr, size_t n, char *str) { str[0] = '\0'; if (instr != NULL) { (void) strlcpy(str, instr, n); } } /* * Note: Don't forget to add a corresponding case to isainfo(1). */ #define FMT_AV(s, n, hwcap, mask, name) \ if ((hwcap) & (mask)) \ (void) snprintf(s, n, "%s" name " | ", s) /*ARGSUSED*/ static void at_hwcap(long val, char *instr, size_t n, char *str) { #if defined(__sparc) || defined(__sparcv9) (void) hwcap_1_val2str(val, str, n, CAP_FMT_PIPSPACE, EM_SPARC); #elif defined(__i386) || defined(__amd64) (void) hwcap_1_val2str(val, str, n, CAP_FMT_PIPSPACE, EM_386); #else #error "port me" #endif } /*ARGSUSED*/ static void at_uid(long val, char *instr, size_t n, char *str) { struct passwd *pw = getpwuid((uid_t)val); if ((pw == NULL) || (pw->pw_name == NULL)) str[0] = '\0'; else (void) snprintf(str, n, "%lu(%s)", val, pw->pw_name); } /*ARGSUSED*/ static void at_gid(long val, char *instr, size_t n, char *str) { struct group *gr = getgrgid((gid_t)val); if ((gr == NULL) || (gr->gr_name == NULL)) str[0] = '\0'; else (void) snprintf(str, n, "%lu(%s)", val, gr->gr_name); } static struct auxfl { int af_flag; const char *af_name; } auxfl[] = { { AF_SUN_SETUGID, "setugid" }, }; /*ARGSUSED*/ static void at_flags(long val, char *instr, size_t n, char *str) { int i; *str = '\0'; for (i = 0; i < sizeof (auxfl)/sizeof (struct auxfl); i++) { if ((val & auxfl[i].af_flag) != 0) { if (*str != '\0') (void) strlcat(str, ",", n); (void) strlcat(str, auxfl[i].af_name, n); } } } #define MAX_AT_NAME_LEN 15 struct aux_id { int aux_type; const char *aux_name; void (*aux_decode)(long, char *, size_t, char *); }; static struct aux_id aux_arr[] = { { AT_NULL, "AT_NULL", at_null }, { AT_IGNORE, "AT_IGNORE", at_null }, { AT_EXECFD, "AT_EXECFD", at_null }, { AT_PHDR, "AT_PHDR", at_null }, { AT_PHENT, "AT_PHENT", at_null }, { AT_PHNUM, "AT_PHNUM", at_null }, { AT_PAGESZ, "AT_PAGESZ", at_null }, { AT_BASE, "AT_BASE", at_null }, { AT_FLAGS, "AT_FLAGS", at_null }, { AT_ENTRY, "AT_ENTRY", at_null }, { AT_SUN_UID, "AT_SUN_UID", at_uid }, { AT_SUN_RUID, "AT_SUN_RUID", at_uid }, { AT_SUN_GID, "AT_SUN_GID", at_gid }, { AT_SUN_RGID, "AT_SUN_RGID", at_gid }, { AT_SUN_LDELF, "AT_SUN_LDELF", at_null }, { AT_SUN_LDSHDR, "AT_SUN_LDSHDR", at_null }, { AT_SUN_LDNAME, "AT_SUN_LDNAME", at_null }, { AT_SUN_LPAGESZ, "AT_SUN_LPAGESZ", at_null }, { AT_SUN_PLATFORM, "AT_SUN_PLATFORM", at_str }, { AT_SUN_EXECNAME, "AT_SUN_EXECNAME", at_str }, { AT_SUN_HWCAP, "AT_SUN_HWCAP", at_hwcap }, { AT_SUN_IFLUSH, "AT_SUN_IFLUSH", at_null }, { AT_SUN_CPU, "AT_SUN_CPU", at_null }, { AT_SUN_MMU, "AT_SUN_MMU", at_null }, { AT_SUN_LDDATA, "AT_SUN_LDDATA", at_null }, { AT_SUN_AUXFLAGS, "AT_SUN_AUXFLAGS", at_flags }, }; #define N_AT_ENTS (sizeof (aux_arr) / sizeof (struct aux_id)) /* * Return the aux_id entry for the given aux type; returns NULL if not found. */ static struct aux_id * aux_find(int type) { int i; for (i = 0; i < N_AT_ENTS; i++) { if (type == aux_arr[i].aux_type) return (&aux_arr[i]); } return (NULL); } static void get_auxv(pargs_data_t *datap) { int i; const auxv_t *auxvp; /* * Fetch the aux vector from the target process. */ if (ps_pauxv(datap->pd_proc, &auxvp) != PS_OK) return; for (i = 0; auxvp[i].a_type != AT_NULL; i++) continue; datap->pd_auxc = i; datap->pd_auxv = safe_zalloc(i * sizeof (auxv_t)); bcopy(auxvp, datap->pd_auxv, i * sizeof (auxv_t)); datap->pd_auxv_strs = safe_zalloc(datap->pd_auxc * sizeof (char *)); for (i = 0; i < datap->pd_auxc; i++) { struct aux_id *aux = aux_find(datap->pd_auxv[i].a_type); /* * Grab strings for those entries which have a string-decoder. */ if ((aux != NULL) && (aux->aux_decode == at_str)) { datap->pd_auxv_strs[i] = extract_string(datap, datap->pd_auxv[i].a_un.a_val); } } } /* * Prepare to convert characters in the victim's character set into user's * character set. */ static void setup_conversions(pargs_data_t *datap, int *diflocale) { char *mylocale = NULL, *mycharset = NULL; char *targetlocale = NULL, *targetcharset = NULL; mycharset = safe_strdup(nl_langinfo(CODESET)); mylocale = setlocale(LC_CTYPE, NULL); if ((mylocale == NULL) || (strcmp(mylocale, "") == 0)) mylocale = "C"; mylocale = safe_strdup(mylocale); if (datap->pd_conv_flags & CONV_STRICT_ASCII) goto done; /* * If the target's locale is "C" or "POSIX", go fast. */ if ((strcmp(datap->pd_locale, "C") == 0) || (strcmp(datap->pd_locale, "POSIX") == 0)) { datap->pd_conv_flags |= CONV_STRICT_ASCII; goto done; } /* * Switch to the victim's locale, and discover its character set. */ if (setlocale(LC_ALL, datap->pd_locale) == NULL) { (void) fprintf(stderr, "%s: Couldn't determine locale of target process.\n", command); (void) fprintf(stderr, "%s: Some strings may not be displayed properly.\n", command); goto done; } /* * Get LC_CTYPE part of target's locale, and its codeset. */ targetlocale = safe_strdup(setlocale(LC_CTYPE, NULL)); targetcharset = safe_strdup(nl_langinfo(CODESET)); /* * Now go fully back to the pargs user's locale. */ (void) setlocale(LC_ALL, ""); /* * It's safe to bail here if the lc_ctype of the locales are the * same-- we know that their encodings and characters sets are the same. */ if (strcmp(targetlocale, mylocale) == 0) goto done; *diflocale = 1; /* * If the codeset of the victim matches our codeset then iconv need * not be involved. */ if (strcmp(mycharset, targetcharset) == 0) goto done; if ((datap->pd_iconv = iconv_open(mycharset, targetcharset)) == (iconv_t)-1) { /* * EINVAL indicates there was no conversion available * from victim charset to mycharset */ if (errno != EINVAL) { (void) fprintf(stderr, "%s: failed to initialize iconv: %s\n", command, strerror(errno)); exit(1); } datap->pd_conv_flags |= CONV_STRICT_ASCII; } else { datap->pd_conv_flags |= CONV_USE_ICONV; } done: free(mycharset); free(mylocale); free(targetcharset); free(targetlocale); } static void cleanup_conversions(pargs_data_t *datap) { if (datap->pd_conv_flags & CONV_USE_ICONV) { (void) iconv_close(datap->pd_iconv); } } static char * convert_run_iconv(pargs_data_t *datap, const char *str) { size_t inleft, outleft, bufsz = 64; char *outstr, *outstrptr; const char *instrptr; for (;;) { outstrptr = outstr = safe_zalloc(bufsz + 1); outleft = bufsz; /* * Generate the "initial shift state" sequence, placing that * at the head of the string. */ inleft = 0; (void) iconv(datap->pd_iconv, NULL, &inleft, &outstrptr, &outleft); inleft = strlen(str); instrptr = str; if (iconv(datap->pd_iconv, &instrptr, &inleft, &outstrptr, &outleft) != (size_t)-1) { /* * Outstr must be null terminated upon exit from * iconv(). */ *(outstr + (bufsz - outleft)) = '\0'; break; } else if (errno == E2BIG) { bufsz *= 2; free(outstr); } else if ((errno == EILSEQ) || (errno == EINVAL)) { free(outstr); return (NULL); } else { /* * iconv() could in theory return EBADF, but that * shouldn't happen. */ (void) fprintf(stderr, "%s: iconv(3C) failed unexpectedly: %s\n", command, strerror(errno)); exit(1); } } return (outstr); } /* * Returns a freshly allocated string converted to the local character set, * removed of unprintable characters. */ static char * convert_str(pargs_data_t *datap, const char *str, int *unprintable) { char *retstr, *tmp; if (datap->pd_conv_flags & CONV_STRICT_ASCII) { retstr = unctrl_str_strict_ascii(str, 1, unprintable); return (retstr); } if ((datap->pd_conv_flags & CONV_USE_ICONV) == 0) { /* * If we aren't using iconv(), convert control chars in * the string in pargs' locale, since that is the display * locale. */ retstr = unctrl_str(str, 1, unprintable); return (retstr); } /* * The logic here is a bit (ahem) tricky. Start by converting * unprintable characters *in the target's locale*. This should * eliminate a variety of unprintable or illegal characters-- in * short, it should leave us with something which iconv() won't * have trouble with. * * After allowing iconv to convert characters as needed, run unctrl * again in pargs' locale-- This time to make sure that any * characters which aren't printable according to the *current* * locale (independent of the current codeset) get taken care of. * Without this second stage, we might (for example) fail to * properly handle characters converted into the 646 character set * (which are 8-bits wide), but which must be displayed in the C * locale (which uses 646, but whose printable characters are a * subset of the 7-bit characters). * * Note that assuming the victim's locale using LC_ALL will be * problematic when pargs' messages are internationalized in the * future (and it calls textdomain(3C)). In this case, any * error message fprintf'd in unctrl_str() will be in the wrong * LC_MESSAGES class. We'll cross that bridge when we come to it. */ (void) setlocale(LC_ALL, datap->pd_locale); retstr = unctrl_str(str, 1, unprintable); (void) setlocale(LC_ALL, ""); tmp = retstr; if ((retstr = convert_run_iconv(datap, retstr)) == NULL) { /* * In this (rare but real) case, the iconv() failed even * though we unctrl'd the string. Treat the original string * (str) as a C locale string and strip it that way. */ free(tmp); return (unctrl_str_strict_ascii(str, 0, unprintable)); } free(tmp); tmp = retstr; /* * Run unctrl_str, but make sure not to escape \ characters, which * may have resulted from the first round of unctrl. */ retstr = unctrl_str(retstr, 0, unprintable); free(tmp); return (retstr); } static void convert_array(pargs_data_t *datap, char **arr, size_t count, int *unprintable) { int i; char *tmp; if (arr == NULL) return; for (i = 0; i < count; i++) { if ((tmp = arr[i]) == NULL) continue; arr[i] = convert_str(datap, arr[i], unprintable); free(tmp); } } /* * Free data allocated during the gathering phase. */ static void free_data(pargs_data_t *datap) { int i; if (datap->pd_argv) { for (i = 0; i < datap->pd_argc; i++) { if (datap->pd_argv_strs[i] != NULL) free(datap->pd_argv_strs[i]); } free(datap->pd_argv); free(datap->pd_argv_strs); } if (datap->pd_envp) { for (i = 0; i < datap->pd_envc; i++) { if (datap->pd_envp_strs[i] != NULL) free(datap->pd_envp_strs[i]); } free(datap->pd_envp); free(datap->pd_envp_strs); } if (datap->pd_auxv) { for (i = 0; i < datap->pd_auxc; i++) { if (datap->pd_auxv_strs[i] != NULL) free(datap->pd_auxv_strs[i]); } free(datap->pd_auxv); free(datap->pd_auxv_strs); } } static void print_args(pargs_data_t *datap) { int i; if (datap->pd_argv == NULL) { (void) fprintf(stderr, "%s: failed to read argv[]\n", command); return; } for (i = 0; i < datap->pd_argc; i++) { (void) printf("argv[%d]: ", i); if (datap->pd_argv[i] == NULL) { (void) printf("\n"); } else if (datap->pd_argv_strs[i] == NULL) { (void) printf("<0x%0*lx>\n", (dmodel == PR_MODEL_LP64)? 16 : 8, (long)datap->pd_argv[i]); } else { (void) printf("%s\n", datap->pd_argv_strs[i]); } } } static void print_env(pargs_data_t *datap) { int i; if (datap->pd_envp == NULL) { (void) fprintf(stderr, "%s: failed to read envp[]\n", command); return; } for (i = 0; i < datap->pd_envc; i++) { (void) printf("envp[%d]: ", i); if (datap->pd_envp[i] == 0) { break; } else if (datap->pd_envp_strs[i] == NULL) { (void) printf("<0x%0*lx>\n", (dmodel == PR_MODEL_LP64)? 16 : 8, (long)datap->pd_envp[i]); } else { (void) printf("%s\n", datap->pd_envp_strs[i]); } } } static int print_cmdline(pargs_data_t *datap) { int i; /* * Go through and check to see if we have valid data. If not, print * an error message and bail. */ for (i = 0; i < datap->pd_argc; i++) { if (datap->pd_argv[i] == NULL || datap->pd_argv_strs[i] == NULL) { (void) fprintf(stderr, "%s: target has corrupted " "argument list\n", command); return (1); } datap->pd_argv_strs[i] = quote_string(datap, datap->pd_argv_strs[i]); } if (datap->pd_execname == NULL) { (void) fprintf(stderr, "%s: cannot determine name of " "executable\n", command); return (1); } (void) printf("%s ", datap->pd_execname); for (i = 1; i < datap->pd_argc; i++) (void) printf("%s ", datap->pd_argv_strs[i]); (void) printf("\n"); return (0); } static void print_auxv(pargs_data_t *datap) { int i; const auxv_t *pa; /* * Print the names and values of all the aux vector entries. */ for (i = 0; i < datap->pd_auxc; i++) { char type[32]; char decode[PATH_MAX]; struct aux_id *aux; long v; pa = &datap->pd_auxv[i]; aux = aux_find(pa->a_type); v = (long)pa->a_un.a_val; if (aux != NULL) { /* * Fetch aux vector type string and decoded * representation of the value. */ (void) strlcpy(type, aux->aux_name, sizeof (type)); aux->aux_decode(v, datap->pd_auxv_strs[i], sizeof (decode), decode); } else { (void) snprintf(type, sizeof (type), "%d", pa->a_type); decode[0] = '\0'; } (void) printf("%-*s 0x%0*lx %s\n", MAX_AT_NAME_LEN, type, (dmodel == PR_MODEL_LP64)? 16 : 8, v, decode); } } int main(int argc, char *argv[]) { int aflag = 0, cflag = 0, eflag = 0, xflag = 0, lflag = 0; int errflg = 0, retc = 0; int opt; int error = 1; core_content_t content = 0; (void) setlocale(LC_ALL, ""); if ((command = strrchr(argv[0], '/')) != NULL) command++; else command = argv[0]; while ((opt = getopt(argc, argv, "acelxF")) != EOF) { switch (opt) { case 'a': /* show process arguments */ content |= CC_CONTENT_STACK; aflag++; break; case 'c': /* force 7-bit ascii */ cflag++; break; case 'e': /* show environment variables */ content |= CC_CONTENT_STACK; eflag++; break; case 'l': lflag++; aflag++; /* -l implies -a */ break; case 'x': /* show aux vector entries */ xflag++; break; case 'F': /* * Since we open the process read-only, there is no need * for the -F flag. It's a documented flag, so we * consume it silently. */ break; default: errflg++; break; } } /* -a is the default if no options are specified */ if ((aflag + eflag + xflag + lflag) == 0) { aflag++; content |= CC_CONTENT_STACK; } /* -l cannot be used with the -x or -e flags */ if (lflag && (xflag || eflag)) { (void) fprintf(stderr, "-l is incompatible with -x and -e\n"); errflg++; } argc -= optind; argv += optind; if (errflg || argc <= 0) { (void) fprintf(stderr, "usage: %s [-acexF] { pid | core } ...\n" " (show process arguments and environment)\n" " -a: show process arguments (default)\n" " -c: interpret characters as 7-bit ascii regardless of " "locale\n" " -e: show environment variables\n" " -l: display arguments as command line\n" " -x: show aux vector entries\n" " -F: force grabbing of the target process\n", command); return (2); } while (argc-- > 0) { char *arg; int gret, r; psinfo_t psinfo; char *psargs_conv; struct ps_prochandle *Pr; pargs_data_t datap; char *info; size_t info_sz; int pstate; char execname[PATH_MAX]; int unprintable; int diflocale; (void) fflush(stdout); arg = *argv++; /* * Suppress extra blanks lines if we've encountered processes * which can't be opened. */ if (error == 0) { (void) printf("\n"); } error = 0; /* * First grab just the psinfo information, in case this * process is a zombie (in which case proc_arg_grab() will * fail). If so, print a nice message and continue. */ if (proc_arg_psinfo(arg, PR_ARG_ANY, &psinfo, &gret) == -1) { (void) fprintf(stderr, "%s: cannot examine %s: %s\n", command, arg, Pgrab_error(gret)); retc++; error = 1; continue; } if (psinfo.pr_nlwp == 0) { (void) printf("%d: \n", (int)psinfo.pr_pid); continue; } /* * If process is a "system" process (like pageout), just * print its psargs and continue on. */ if (psinfo.pr_size == 0 && psinfo.pr_rssize == 0) { proc_unctrl_psinfo(&psinfo); if (!lflag) (void) printf("%d: ", (int)psinfo.pr_pid); (void) printf("%s\n", psinfo.pr_psargs); continue; } /* * Open the process readonly, since we do not need to write to * the control file. */ if ((Pr = proc_arg_grab(arg, PR_ARG_ANY, PGRAB_RDONLY, &gret)) == NULL) { (void) fprintf(stderr, "%s: cannot examine %s: %s\n", command, arg, Pgrab_error(gret)); retc++; error = 1; continue; } pstate = Pstate(Pr); if (pstate == PS_DEAD && (Pcontent(Pr) & content) != content) { (void) fprintf(stderr, "%s: core '%s' has " "insufficient content\n", command, arg); retc++; continue; } /* * If malloc() fails, we return here so that we can let go * of the victim, restore our locale, print a message, * then exit. */ if ((r = setjmp(env)) != 0) { Prelease(Pr, 0); (void) setlocale(LC_ALL, ""); (void) fprintf(stderr, "%s: out of memory: %s\n", command, strerror(r)); return (1); } dmodel = Pstatus(Pr)->pr_dmodel; bzero(&datap, sizeof (datap)); bcopy(Ppsinfo(Pr), &psinfo, sizeof (psinfo_t)); datap.pd_proc = Pr; datap.pd_psinfo = &psinfo; if (cflag) datap.pd_conv_flags |= CONV_STRICT_ASCII; /* * Strip control characters, then record process summary in * a buffer, since we don't want to print anything out until * after we release the process. */ /* * The process is neither a system process nor defunct. * * Do printing and post-processing (like name lookups) after * gathering the raw data from the process and releasing it. * This way, we don't deadlock on (for example) name lookup * if we grabbed the nscd and do 'pargs -x'. * * We always fetch the environment of the target, so that we * can make an educated guess about its locale. */ get_env(&datap); if (aflag != 0) get_args(&datap); if (xflag != 0) get_auxv(&datap); /* * If malloc() fails after this poiint, we return here to * restore our locale and print a message. If we don't * reset this, we might erroneously try to Prelease a process * twice. */ if ((r = setjmp(env)) != 0) { (void) setlocale(LC_ALL, ""); (void) fprintf(stderr, "%s: out of memory: %s\n", command, strerror(r)); return (1); } /* * For the -l option, we need a proper name for this executable * before we release it. */ if (lflag) datap.pd_execname = Pexecname(Pr, execname, sizeof (execname)); Prelease(Pr, 0); /* * Crawl through the environment to determine the locale of * the target. */ lookup_locale(&datap); diflocale = 0; setup_conversions(&datap, &diflocale); if (lflag != 0) { unprintable = 0; convert_array(&datap, datap.pd_argv_strs, datap.pd_argc, &unprintable); if (diflocale) (void) fprintf(stderr, "%s: Warning, target " "locale differs from current locale\n", command); else if (unprintable) (void) fprintf(stderr, "%s: Warning, command " "line contains unprintable characters\n", command); retc += print_cmdline(&datap); } else { psargs_conv = convert_str(&datap, psinfo.pr_psargs, &unprintable); info_sz = strlen(psargs_conv) + MAXPATHLEN + 32 + 1; info = malloc(info_sz); if (pstate == PS_DEAD) { (void) snprintf(info, info_sz, "core '%s' of %d:\t%s\n", arg, (int)psinfo.pr_pid, psargs_conv); } else { (void) snprintf(info, info_sz, "%d:\t%s\n", (int)psinfo.pr_pid, psargs_conv); } (void) printf("%s", info); free(info); free(psargs_conv); if (aflag != 0) { convert_array(&datap, datap.pd_argv_strs, datap.pd_argc, &unprintable); print_args(&datap); if (eflag || xflag) (void) printf("\n"); } if (eflag != 0) { convert_array(&datap, datap.pd_envp_strs, datap.pd_envc, &unprintable); print_env(&datap); if (xflag) (void) printf("\n"); } if (xflag != 0) { convert_array(&datap, datap.pd_auxv_strs, datap.pd_auxc, &unprintable); print_auxv(&datap); } } cleanup_conversions(&datap); free_data(&datap); } return (retc != 0 ? 1 : 0); }