/* * R : A Computer Language for Statistical Data Analysis * Copyright (C) 1997-2023 The R Core Team * Copyright (C) 1995-1996 Robert Gentleman and Ross Ihaka * * 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 of the License, or * (at your option) any later version. * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, a copy is available at * https://www.R-project.org/Licenses/ */ #ifdef HAVE_CONFIG_H #include #endif #include /* for putenv */ #ifdef HAVE_SYS_TYPES_H # include // for size_t #endif #define R_USE_SIGNALS 1 #include #include #include #include #include #include /* See ../unix/system.txt for a description of some of these functions. Formally part of ../unix/sys-common.c. */ /* * FILESYSTEM INTERACTION */ /* * This call provides a simple interface to the "stat" system call. */ #ifdef HAVE_SYS_TYPES_H # include #endif #ifdef HAVE_SYS_STAT_H # include #endif int attribute_hidden R_isWriteableDir(char *path); #ifdef HAVE_AQUA int (*ptr_CocoaSystem)(const char*); #endif #ifdef Win32 Rboolean R_FileExists(const char *path) { struct _stati64 sb; return _stati64(R_ExpandFileName(path), &sb) == 0; } double attribute_hidden R_FileMtime(const char *path) { struct _stati64 sb; if (_stati64(R_ExpandFileName(path), &sb) != 0) error(_("cannot determine file modification time of '%s'"), path); return sb.st_mtime; } #else Rboolean R_FileExists(const char *path) { struct stat sb; return stat(R_ExpandFileName(path), &sb) == 0; } double attribute_hidden R_FileMtime(const char *path) { struct stat sb; if (stat(R_ExpandFileName(path), &sb) != 0) error(_("cannot determine file modification time of '%s'"), path); return (double) sb.st_mtime; } #endif /* * Unix file names which begin with "." are invisible. */ Rboolean attribute_hidden R_HiddenFile(const char *name) { if (name && name[0] != '.') return 0; else return 1; } /* The MSVC runtime has a global to determine whether an unspecified file open is in text or binary mode. We force explicit text mode here to avoid depending on that global, which may have been changed by user code (most likely in embedded applications of R). */ #ifdef Win32 static char * fixmode(const char *mode) { /* Rconnection can have a mode of 4 chars plus a ccs= setting plus a null; we might * add one char if neither b nor t is specified. */ static char fixedmode[20]; fixedmode[19] = '\0'; strncpy(fixedmode, mode, 19); if (!strpbrk(fixedmode, "bt")) { strcat(fixedmode, "t"); } return fixedmode; } static wchar_t * wcfixmode(const wchar_t *mode) { static wchar_t wcfixedmode[20]; wcfixedmode[19] = L'\0'; wcsncpy(wcfixedmode, mode, 19); if (!wcspbrk(wcfixedmode, L"bt")) { wcscat(wcfixedmode, L"t"); } return wcfixedmode; } #else #define fixmode(mode) (mode) #define wcfixmode(mode) (mode) #endif FILE *R_fopen(const char *filename, const char *mode) { return(filename ? fopen(filename, fixmode(mode)) : NULL ); } /* The point of this function is to allow file names in foreign character sets. On Unix-alikes in a UTF-8 locale all that is needed is to convert file names to UTF-8, since they will be stored in UTF-8. For other locales, it seems that there is no way to specify a file name in UTF-8. On NT-based versions of Windows, file names are stored in 'Unicode' (UCS-2), and _wfopen is provided to access them by UCS-2 names. since Windows 2000 they could be UTF-16LE */ #if defined(Win32) #define BSIZE 100000 wchar_t *filenameToWchar(const SEXP fn, const Rboolean expand) { static wchar_t filename[BSIZE+1]; void *obj; const char *from = "", *inbuf; char *outbuf; size_t inb, outb, res; if(!strlen(CHAR(fn))) { wcscpy(filename, L""); return filename; } if(IS_LATIN1(fn)) #ifdef HAVE_ICONV_CP1252 from = "CP1252"; #else from = "latin1"; #endif if(IS_UTF8(fn)) from = "UTF-8"; if(IS_BYTES(fn)) error(_("encoding of a filename cannot be 'bytes'")); obj = Riconv_open("UTF-16LE", from); if(obj == (void *)(-1)) error(_("unsupported conversion from '%s' in codepage %d"), from, localeCP); if(expand) inbuf = R_ExpandFileName(CHAR(fn)); else inbuf = CHAR(fn); inb = strlen(inbuf)+1; outb = 2*BSIZE; outbuf = (char *) filename; res = Riconv(obj, &inbuf , &inb, &outbuf, &outb); Riconv_close(obj); if(inb > 0) error(_("file name conversion problem -- name too long?")); if(res == -1) error(_("file name conversion problem")); return filename; } FILE *R_wfopen(const wchar_t *filename, const wchar_t *mode) { return filename ? _wfopen(filename, wcfixmode(mode)) : NULL; } FILE *RC_fopen(const SEXP fn, const char *mode, const Rboolean expand) { wchar_t wmode[10]; if(fn == NA_STRING) return NULL; mbstowcs(wmode, fixmode(mode), 10); return _wfopen(filenameToWchar(fn, expand), wmode); } #else FILE *RC_fopen(const SEXP fn, const char *mode, const Rboolean expand) { const void *vmax = vmaxget(); const char *filename = translateCharFP(fn), *res; if(fn == NA_STRING || !filename) return NULL; if(expand) res = R_ExpandFileName(filename); else res = filename; vmaxset(vmax); return fopen(res, mode); } #endif /* * SYSTEM INFORMATION */ /* The location of the R system files */ char *R_HomeDir(void) { return getenv("R_HOME"); } /* This is a primitive (with no arguments) */ attribute_hidden SEXP do_interactive(SEXP call, SEXP op, SEXP args, SEXP rho) { checkArity(op, args); return ScalarLogical( (R_Interactive) ? 1 : 0 ); } attribute_hidden SEXP do_tempdir(SEXP call, SEXP op, SEXP args, SEXP env) { checkArity(op, args); Rboolean check = asLogical(CAR(args)); if(check && !R_isWriteableDir(R_TempDir)) { R_TempDir = NULL; R_reInitTempDir(/* die_on_fail = */ FALSE); } return mkString(R_TempDir); } attribute_hidden SEXP do_tempfile(SEXP call, SEXP op, SEXP args, SEXP env) { SEXP ans, pattern, fileext, tempdir; const char *tn, *td, *te; char *tm; int i, n1, n2, n3, slen; checkArity(op, args); pattern = CAR(args); n1 = length(pattern); args = CDR(args); tempdir = CAR(args); n2 = length(tempdir); args = CDR(args); fileext = CAR(args); n3 = length(fileext); if (!isString(pattern)) error(_("invalid filename pattern")); if (!isString(tempdir)) error(_("invalid '%s' value"), "tempdir"); if (!isString(fileext)) error(_("invalid file extension")); if (n1 < 1) error(_("no 'pattern'")); if (n2 < 1) error(_("no 'tempdir'")); if (n3 < 1) error(_("no 'fileext'")); slen = (n1 > n2) ? n1 : n2; slen = (n3 > slen) ? n3 : slen; PROTECT(ans = allocVector(STRSXP, slen)); for(i = 0; i < slen; i++) { tn = translateCharFP( STRING_ELT( pattern , i%n1 ) ); td = translateCharFP( STRING_ELT( tempdir , i%n2 ) ); te = translateCharFP( STRING_ELT( fileext , i%n3 ) ); /* try to get a new file name */ tm = R_tmpnam2(tn, td, te); SET_STRING_ELT(ans, i, mkChar(tm)); if(tm) free(tm); } UNPROTECT(1); return (ans); } FILE *R_popen(const char *command, const char *type) { FILE *fp; #ifdef OLD__APPLE__ /* Luke recommends this to fix PR#1140 */ /* As of 2016-01-06 on El Capitan this may no longer be needed -- LT */ sigset_t ss; sigemptyset(&ss); sigaddset(&ss, SIGPROF); sigprocmask(SIG_BLOCK, &ss, NULL); fp = popen(command, type); sigprocmask(SIG_UNBLOCK, &ss, NULL); #else fp = popen(command, type); #endif return fp; } #ifdef HAVE_SYS_WAIT_H # include #endif int R_system(const char *command) { int res; #ifdef __APPLE__ # ifdef OLD__APPLE__ /* Luke recommends this to fix PR#1140 */ /* As of 2016-01-06 on El Capitan this may no longer be needed -- LT */ sigset_t ss; sigemptyset(&ss); sigaddset(&ss, SIGPROF); sigprocmask(SIG_BLOCK, &ss, NULL); # endif #ifdef HAVE_AQUA if(ptr_CocoaSystem) res = ptr_CocoaSystem(command); else #endif res = system(command); # ifdef OLD__APPLE__ sigprocmask(SIG_UNBLOCK, &ss, NULL); # endif #else // not APPLE res = system(command); #endif #ifdef HAVE_SYS_WAIT_H if (WIFEXITED(res)) res = WEXITSTATUS(res); #else /* assume that this is shifted if a multiple of 256 */ if ((res % 256) == 0) res = res/256; #endif if (res == -1) { /* this means that system() failed badly - it didn't even get to try to run the shell */ warning(_("system call failed: %s"), strerror(errno)); /* R system() is documented to return 127 on failure, and a lot of code relies on that - it will misinterpret -1 as success */ res = 127; } return res; } #if defined(__APPLE__) # include # define environ (*_NSGetEnviron()) #elif defined(Win32) /* _wenviron is declared in stdlib.h */ # define WIN32_LEAN_AND_MEAN 1 # include /* _wgetenv etc */ #else extern char ** environ; #endif // .Internal(Sys.getenv(x, unset)) attribute_hidden SEXP do_getenv(SEXP call, SEXP op, SEXP args, SEXP env) { int i, j; SEXP ans; checkArity(op, args); if (!isString(CAR(args))) error(_("wrong type for argument")); if (!isString(CADR(args)) || LENGTH(CADR(args)) != 1) error(_("wrong type for argument")); i = LENGTH(CAR(args)); if (i == 0) { // full list of environment variables #ifdef Win32 int n = 0, N; wchar_t **w; for (i = 0, w = _wenviron; *w != NULL; i++, w++) n = max(n, wcslen(*w)); N = 4*n+1; char buf[N]; PROTECT(ans = allocVector(STRSXP, i)); for (i = 0, w = _wenviron; *w != NULL; i++, w++) { wcstoutf8(buf, *w, sizeof(buf)); SET_STRING_ELT(ans, i, mkCharCE(buf, CE_UTF8)); } #else char **e; for (i = 0, e = environ; *e != NULL; i++, e++); PROTECT(ans = allocVector(STRSXP, i)); for (i = 0, e = environ; *e != NULL; i++, e++) SET_STRING_ELT(ans, i, mkChar(*e)); #endif } else { PROTECT(ans = allocVector(STRSXP, i)); for (j = 0; j < i; j++) { #ifdef Win32 const wchar_t *wnm = wtransChar(STRING_ELT(CAR(args), j)); wchar_t *w = _wgetenv(wnm); if (w == NULL) SET_STRING_ELT(ans, j, STRING_ELT(CADR(args), 0)); else { int n = wcslen(w), N = 4*n+1; /* UTF-16 maps to <= 4 UTF-8 */ R_CheckStack2(N); char buf[N]; wcstoutf8(buf, w, sizeof(buf)); SET_STRING_ELT(ans, j, mkCharCE(buf, CE_UTF8)); } #else char *s = getenv(translateChar(STRING_ELT(CAR(args), j))); if (s == NULL) SET_STRING_ELT(ans, j, STRING_ELT(CADR(args), 0)); else { SEXP tmp; if(known_to_be_latin1) tmp = mkCharCE(s, CE_LATIN1); else if(known_to_be_utf8) tmp = mkCharCE(s, CE_UTF8); else tmp = mkChar(s); SET_STRING_ELT(ans, j, tmp); } #endif } } UNPROTECT(1); return (ans); } #ifdef Win32 static int Rwputenv(const wchar_t *nm, const wchar_t *val) { wchar_t *buf; buf = (wchar_t *) malloc((wcslen(nm) + wcslen(val) + 2) * sizeof(wchar_t)); if(!buf) return 1; /* previously wsprintfW, which had a limit of 1024 chars */ wcscpy(buf, nm); wcscat(buf, L"="); wcscat(buf, val); if(_wputenv(buf)) return 1; /* no free here: storage remains in use */ return 0; } #elif !defined(HAVE_SETENV) && defined(HAVE_PUTENV) static int Rputenv(const char *nm, const char *val) { char *buf; size_t sz = (strlen(nm) + strlen(val) + 2) * sizeof(char); buf = (char *) malloc(sz); if(!buf) return 1; snprintf(buf, sz, "%s=%s", nm, val); if(putenv(buf)) return 1; /* no free here: storage remains in use */ return 0; } #endif // .Internal(Sys.setenv(nm, val)) : (nm_1=val_1, nm_2=val_2, ..., nm_=val_) attribute_hidden SEXP do_setenv(SEXP call, SEXP op, SEXP args, SEXP env) { #if defined(HAVE_PUTENV) || defined(HAVE_SETENV) checkArity(op, args); SEXP nm = CAR(args); if (!isString(nm)) error(_("wrong type for argument")); SEXP val = CADR(args); if (!isString(val)) error(_("wrong type for argument")); if(LENGTH(nm) != LENGTH(val)) error(_("'%s' and '%s' are of different lengths"), "names", "val"); int i, n = LENGTH(val); SEXP ans = PROTECT(allocVector(LGLSXP, n)); #ifdef HAVE_SETENV for (i = 0; i < n; i++) LOGICAL(ans)[i] = setenv(translateChar(STRING_ELT(nm, i)), translateChar(STRING_ELT(val, i)), 1) == 0; #elif defined(Win32) for (i = 0; i < n; i++) LOGICAL(ans)[i] = Rwputenv(wtransChar(STRING_ELT(nm, i)), wtransChar(STRING_ELT(val, i))) == 0; #else for (i = 0; i < n; i++) LOGICAL(ans)[i] = Rputenv(translateChar(STRING_ELT(nm, i)), translateChar(STRING_ELT(val, i))) == 0; #endif UNPROTECT(1); return ans; #else error(_("'Sys.setenv' is not available on this system")); return R_NilValue; /* -Wall */ #endif } // .Internal(Sys.unsetenv(nm)) attribute_hidden SEXP do_unsetenv(SEXP call, SEXP op, SEXP args, SEXP env) { checkArity(op, args); SEXP nm = CAR(args); if (!isString(nm)) error(_("wrong type for argument")); int i, n = LENGTH(nm); #if defined(HAVE_UNSETENV) || defined(HAVE_PUTENV_UNSET) || defined(HAVE_PUTENV_UNSET2) #ifdef HAVE_UNSETENV for (i = 0; i < n; i++) unsetenv(translateChar(STRING_ELT(nm, i))); #elif defined(HAVE_PUTENV_UNSET) for (i = 0; i < n; i++) { char buf[1000]; snprintf(buf, 1000, "%s", translateChar(STRING_ELT(nm, i))); putenv(buf); } #elif defined(HAVE_PUTENV_UNSET2) # ifdef Win32 for (i = 0; i < n; i++) { const wchar_t *w = wtransChar(STRING_ELT(nm, i)); wchar_t buf[2*wcslen(w)]; wcscpy(buf, w); wcscat(buf, L"="); _wputenv(buf); } # else for (i = 0; i < n; i++) { char buf[1000]; snprintf(buf, 1000, "%s=", translateChar(STRING_ELT(nm, i))); putenv(buf); } # endif #endif #elif defined(HAVE_PUTENV) || defined(HAVE_SETENV) warning(_("this system cannot unset environment variables: setting to \"\"")); n = LENGTH(nm); for (i = 0; i < n; i++) { #ifdef HAVE_SETENV setenv(translateChar(STRING_ELT(nm, i)), "", 1); #else Rputenv(translateChar(STRING_ELT(nm, i)), ""); #endif } #else warning(_("'Sys.unsetenv' is not available on this system")); #endif SEXP ans = PROTECT(allocVector(LGLSXP, n)); for (i = 0; i < n; i++) LOGICAL(ans)[i] = !getenv(translateChar(STRING_ELT(nm, i))); UNPROTECT(1); return ans; } #include #ifdef HAVE_ICONVLIST static unsigned int cnt; static int count_one (unsigned int namescount, const char * const *names, void *data) { cnt += namescount; return 0; } static int write_one (unsigned int namescount, const char * const *names, void *data) { unsigned int i; SEXP ans = (SEXP) data; for (i = 0; i < namescount; i++) SET_STRING_ELT(ans, cnt++, mkChar(names[i])); return 0; } #endif // Copied from platform.c (only used condiitonally there) // case-insensitive string comparison int static R_strieql(const char *a, const char *b) { while (*a && *b && toupper(*a) == toupper(*b)) { a++; b++; } return (*a == 0 && *b == 0); } #include "RBufferUtils.h" /* iconv(x, from, to, sub, mark) */ attribute_hidden SEXP do_iconv(SEXP call, SEXP op, SEXP args, SEXP env) { SEXP ans, x = CAR(args), si; void * arg_obj = (iconv_t)-1; void * latin1_obj = (iconv_t)-1; void * utf8_obj = (iconv_t)-1; const char *inbuf; char *outbuf; const char *sub; // null for no substitution. size_t inb, outb, res; R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; Rboolean isRawlist = FALSE; checkArity(op, args); if(isNull(x)) { /* list locales */ #ifdef HAVE_ICONVLIST cnt = 0; iconvlist(count_one, NULL); PROTECT(ans = allocVector(STRSXP, cnt)); cnt = 0; iconvlist(write_one, (void *)ans); #else PROTECT(ans = R_NilValue); #endif } else { int mark, toRaw; const char *from, *to; Rboolean isLatin1 = FALSE, isUTF8 = FALSE; args = CDR(args); if(!isString(CAR(args)) || length(CAR(args)) != 1) error(_("invalid '%s' argument"), "from"); from = CHAR(STRING_ELT(CAR(args), 0)); /* ASCII */ args = CDR(args); if(!isString(CAR(args)) || length(CAR(args)) != 1) error(_("invalid '%s' argument"), "to"); to = CHAR(STRING_ELT(CAR(args), 0)); args = CDR(args); if(!isString(CAR(args)) || length(CAR(args)) != 1) error(_("invalid '%s' argument"), "sub"); if(STRING_ELT(CAR(args), 0) == NA_STRING) sub = NULL; else sub = translateChar(STRING_ELT(CAR(args), 0)); args = CDR(args); mark = asLogical(CAR(args)); if(mark == NA_LOGICAL) error(_("invalid '%s' argument"), "mark"); args = CDR(args); toRaw = asLogical(CAR(args)); if(toRaw == NA_LOGICAL) error(_("invalid '%s' argument"), "toRaw"); /* some iconv's allow "UTF8", but GNU libiconv does not */ if(R_strieql(from, "UTF8")) from = "UTF-8"; if(R_strieql(to, "UTF8")) to = "UTF-8"; if(streql(to, "UTF-8")) isUTF8 = TRUE; if(R_strieql(to, "latin1") || R_strieql(to, "ISO_8859-1") || R_strieql(to, "CP1252")) isLatin1 = TRUE; if(streql(to, "") && known_to_be_latin1) isLatin1 = TRUE; if(streql(to, "") && known_to_be_utf8) isUTF8 = TRUE; #ifdef OS_MUSL if(R_strieql(from, "latin-2") || R_strieql(from, "latin2") ) from = "iso88592"; if(R_strieql(to, "latin-2") || R_strieql(to, "latin2") ) to = "iso88592"; if(R_strieql(from, "latin-9") || R_strieql(from, "latin9") ) from = "iso885915"; if(R_strieql(to, "latin-9") || R_strieql(to, "latin9") ) to = "iso885915"; #endif isRawlist = (TYPEOF(x) == VECSXP); if(isRawlist) { if(toRaw) PROTECT(ans = duplicate(x)); else { PROTECT(ans = allocVector(STRSXP, LENGTH(x))); SHALLOW_DUPLICATE_ATTRIB(ans, x); } } else { if(TYPEOF(x) != STRSXP) error(_("'x' must be a character vector")); if(toRaw) { PROTECT(ans = allocVector(VECSXP, LENGTH(x))); SHALLOW_DUPLICATE_ATTRIB(ans, x); } else PROTECT(ans = duplicate(x)); } R_AllocStringBuffer(0, &cbuff); /* 0 -> default */ for(R_xlen_t i = 0; i < XLENGTH(x); i++) { if (isRawlist) { si = VECTOR_ELT(x, i); if (TYPEOF(si) == NILSXP) { if (!toRaw) SET_STRING_ELT(ans, i, NA_STRING); continue; } else if (TYPEOF(si) != RAWSXP) error(_("'x' must be a character vector or a list of NULL or raw vectors")); } else { si = STRING_ELT(x, i); if (si == NA_STRING) { if(!toRaw) SET_STRING_ELT(ans, i, NA_STRING); continue; } } void * obj = (iconv_t)-1; Rboolean fromUTF8 = FALSE; /* With 'from = ""', encoding flags are used in preference of native encoding. FIXME: Should we go further and ignore "from" with any non-bytes, non-raw input? */ if (!isRawlist && IS_UTF8(si) && streql(from, "")) { if (utf8_obj == (iconv_t)-1) { utf8_obj = Riconv_open(to, "UTF-8"); if(utf8_obj == (iconv_t)(-1)) #ifdef Win32 error(_("unsupported conversion from '%s' to '%s' in codepage %d"), "UTF-8", to, localeCP); #else { // musl does not support ASCII//TRANSLIT but has // similar ASCII subsituting with * // In case there are others, we set sub here. if(streql(to, "ASCII//TRANSLIT")) { to = "ASCII"; utf8_obj = Riconv_open(to, "UTF-8"); if(!sub) sub = "c99"; } if(utf8_obj == (iconv_t)(-1)) error(_("unsupported conversion from '%s' to '%s'"), "UTF-8", to); } #endif } obj = utf8_obj; fromUTF8 = TRUE; } else if (!isRawlist && IS_LATIN1(si) && streql(from, "")) { if (latin1_obj == (iconv_t)-1) { latin1_obj = Riconv_open(to, "latin1"); if(latin1_obj == (iconv_t)(-1)) #ifdef Win32 error(_("unsupported conversion from '%s' to '%s' in codepage %d"), "latin1", to, localeCP); #else { if(streql(to, "ASCII//TRANSLIT")) { to = "ASCII"; latin1_obj = Riconv_open(to, "latin1"); if(!sub) sub = "?"; } if(latin1_obj == (iconv_t)(-1)) error(_("unsupported conversion from '%s' to '%s'"), "latin1", to); } #endif } obj = latin1_obj; } else { if (arg_obj == (iconv_t)-1) { arg_obj = Riconv_open(to, from); if(arg_obj == (iconv_t)(-1)) #ifdef Win32 error(_("unsupported conversion from '%s' to '%s' in codepage %d"), from, to, localeCP); #else { if(streql(to, "ASCII//TRANSLIT")) { to = "ASCII"; arg_obj = Riconv_open(to, from); if(!sub) sub = "?"; } if(arg_obj == (iconv_t)(-1)) error(_("unsupported conversion from '%s' to '%s'"), from, to); } #endif } obj = arg_obj; fromUTF8 = streql(from, "UTF-8") || (streql(from, "") && known_to_be_utf8); /* FIXME: utf8locale? as Riconv doesn't handle known_to_be_utf8 */ } top_of_loop: inbuf = isRawlist ? (const char *) RAW(si) : CHAR(si); inb = LENGTH(si); outbuf = cbuff.data; outb = cbuff.bufsize - 1; /* First initialize output */ Riconv (obj, NULL, NULL, &outbuf, &outb); next_char: /* Then convert input */ res = Riconv(obj, &inbuf , &inb, &outbuf, &outb); *outbuf = '\0'; /* other possible error conditions are incomplete and invalid multibyte chars */ if(res == -1 && errno == E2BIG) { R_AllocStringBuffer(2*cbuff.bufsize, &cbuff); goto top_of_loop; } else if(res == -1 && sub && (errno == EILSEQ || errno == EINVAL)) { /* it seems this gets thrown for non-convertible input too */ res = Riconv(obj, NULL, NULL, &outbuf, &outb); if (res == -1 && errno == E2BIG) { R_AllocStringBuffer(2*cbuff.bufsize, &cbuff); goto top_of_loop; } if(fromUTF8 && streql(sub, "Unicode")) { if(outb < 13) { R_AllocStringBuffer(2*cbuff.bufsize, &cbuff); goto top_of_loop; } wchar_t wc; ssize_t clen = utf8toucs(&wc, inbuf); if(clen > 0 && inb >= clen) { R_wchar_t ucs; if (IS_HIGH_SURROGATE(wc)) ucs = utf8toucs32(wc, inbuf); else ucs = (R_wchar_t) wc; inbuf += clen; inb -= clen; if(ucs < 65536) { // gcc 7 objected to this with unsigned int snprintf(outbuf, 9, "", (unsigned short) ucs); outbuf += 8; outb -= 8; } else { /* R_wchar_t is unsigned int on Windows, otherwise wchar_t (usually int). In any case Unicode points <= 0x10FFFF so one could argue against zero-padding here. */ snprintf(outbuf, 13, "", (unsigned int) ucs); size_t l = strlen(outbuf); outbuf += l; outb -= l; } } goto next_char; } else if(fromUTF8 && streql(sub, "c99")) { if(outb < 11) { R_AllocStringBuffer(2*cbuff.bufsize, &cbuff); goto top_of_loop; } wchar_t wc; ssize_t clen = utf8toucs(&wc, inbuf); if(clen > 0 && inb >= clen) { R_wchar_t ucs; if (IS_HIGH_SURROGATE(wc)) ucs = utf8toucs32(wc, inbuf); else ucs = (R_wchar_t) wc; inbuf += clen; inb -= clen; if(ucs < 65536) { // gcc 7 objected to this with unsigned int snprintf(outbuf, 7, "\\u%04x", (unsigned short) ucs); outbuf += 6; outb -= 6; } else { /* R_wchar_t is unsigned int on Windows, otherwise wchar_t (usually int). In any case Unicode points <= 0x10FFFF */ snprintf(outbuf, 11, "\\U%08x", (unsigned int) ucs); outbuf += 10; outb -= 10; } } goto next_char; } else if(strcmp(sub, "byte") == 0) { if(outb < 5) { R_AllocStringBuffer(2*cbuff.bufsize, &cbuff); goto top_of_loop; } snprintf(outbuf, 5, "<%02x>", (unsigned char)*inbuf); outbuf += 4; outb -= 4; } else { size_t sub_len = strlen(sub); if(outb < sub_len) { R_AllocStringBuffer(2*cbuff.bufsize, &cbuff); goto top_of_loop; } memcpy(outbuf, sub, sub_len); outbuf += sub_len; outb -= sub_len; } inbuf++; inb--; goto next_char; } if(toRaw) { if(res != -1 && inb == 0) { size_t nout = cbuff.bufsize - 1 - outb; SEXP el = allocVector(RAWSXP, nout); memcpy(RAW(el), cbuff.data, nout); SET_VECTOR_ELT(ans, i, el); } /* otherwise is already NULL */ } else { if(res != -1 && inb == 0) { cetype_t ienc = CE_NATIVE; size_t nout = cbuff.bufsize - 1 - outb; if(mark) { if(isLatin1) ienc = CE_LATIN1; else if(isUTF8) ienc = CE_UTF8; } /* FIXME: use "bytes" unless CE_NATIVE matches to? */ SET_STRING_ELT(ans, i, mkCharLenCE(cbuff.data, (int) nout, ienc)); } else SET_STRING_ELT(ans, i, NA_STRING); } } if (latin1_obj != (iconv_t)-1) Riconv_close(latin1_obj); if (utf8_obj != (iconv_t)-1) Riconv_close(utf8_obj); if (arg_obj != (iconv_t)-1) Riconv_close(arg_obj); R_FreeStringBuffer(&cbuff); } UNPROTECT(1); return ans; } #define CHECK_CHARSXP(x) do { \ SEXP __x__ = (x); \ if(TYPEOF(__x__) != CHARSXP) \ error(_("'%s' must be called on a CHARSXP, but got '%s'"), \ __func__, R_typeToChar(__x__)); \ } while(0); cetype_t getCharCE(SEXP x) { CHECK_CHARSXP(x); if(IS_UTF8(x)) return CE_UTF8; else if(IS_LATIN1(x)) return CE_LATIN1; else if(IS_BYTES(x)) return CE_BYTES; else return CE_NATIVE; } #ifdef __APPLE__ /* Work-around for libiconv in macOS 14.1. When an invalid input byte is encountered while converting, one has to re-set the converter state. Otherwise, subsequent valid bytes may be reported as invalid and libiconv may crash R due to an assertion failure. The problem does not seem to happen when the converter is re-set after error. While often one should reset the converter in such situation in order to support stateful encodings properly, the problem has been seen even when converting from UTF-8 to UTF-8. This work-around automatically re-sets the converter in Riconv in case of error for stateless encodings. */ # define R_MACOS_LIBICONV_WORKAROUND /* A hack to detect and undo transliteration (experimental, likely to change or be removed). While POSIX says that iconv should transliterate or substitute valid input characters not representable in the output encoding, this typically is not the case. Instead, non-representable characters usually cause an error (EILSEQ or even EINVAL) and R ended up depending on that. macOS 14.1 has a libiconv implementation which transliterates many characters. This feature, currently only available for stateless conversions together with R_MACOS_LIBICONV_WORKAROUND, detects transliteration by converting the result back to the original encoding, compares with the original and then re-rums the conversion only to the to-be-transliterated character. This wouldn't work in cases when the conversion isn't unique, but such cases are unlikely (note implementations of iconv, including libiconv in macOS 14.1, do not support decomposed forms). Enabled at runtime via _R_ICONV_UNDO_TRANSLITERATION_. */ # define R_MACOS_LIBICONV_UNDO_TRANSLITERATION #endif #ifdef R_MACOS_LIBICONV_WORKAROUND typedef struct { iconv_t cd; Rboolean reset_after_error; iconv_t cd_back; Rboolean undo_transliteration; size_t buflen; char *buf; } Riconv_cd; static Rboolean is_stateful(const char *code) { /* list from libiconv 1.17, but names are system-specific */ static char *stateful[] = { "utf7", "UTF-7", "UNICODE-1-1-UTF-7", "csUnicode11UTF7", "cp1255", "CP1255", "WINDOWS-1255", "MS-HEBR", "cp1258", "CP1258", "WINDOWS-1258", "tcvn", "TCVN", "TCVN-5712", "TCVN5712-1", "TCVN5712-1:1993", "iso2022_jp", "ISO-2022-JP", "csISO2022JP", "iso2022_jp1", "ISO-2022-JP-1", "iso2022_jp2", "ISO-2022-JP-2", "csISO2022JP2", "iso2022_jpms", "ISO-2022-JP-MS", "CP50221", "iso2022_cn", "ISO-2022-CN", "csISO2022CN", "iso2022_cn_ext", "ISO-2022-CN-EXT", "hz", "HZ", "HZ-GB-2312", "big5hkscs1999", "BIG5-HKSCS:1999", "big5hkscs2001", "BIG5-HKSCS:2001", "big5hkscs2004", "BIG5-HKSCS:2004", "big5hkscs2008", "BIG5-HKSCS", "BIG5HKSCS", "BIG5-HKSCS:2008", "iso2022_kr", "ISO-2022-KR", "csISO2022KR", "euc_jisx0213", "EUC-JISX0213", "EUC-JIS-2004", "shift_jisx0213", "SHIFT_JISX0213", "SHIFT_JIS-2004", "iso2022_jp3", "ISO-2022-JP-3", "ISO-2022-JP-2004", NULL }; if (!strcasecmp(code, "UTF-8") || !strcasecmp(code, "ISO-8859-1") || !strcasecmp(code, "latin1")) return FALSE; /* if performance of this becomes a problem, there could be a cache of recently used encodings or/and a perfect hashing function */ for(int i = 0; stateful[i] ; i++) if (!strcasecmp(code, stateful[i])) return TRUE; return FALSE; } # ifdef R_MACOS_LIBICONV_UNDO_TRANSLITERATION static Rboolean is_unicode(const char *code) { /* list from libiconv 1.17, but names are system-specific */ static char *unicode[] = { "UTF-8", "UCS-4", "UCS-4BE", "UCS-4LE", "UTF-16", "UTF-16BE", "UTF-16LE", "UTF-32", "UTF-32BE", "UTF-32LE", "UTF-7", "C99", "JAVA", NULL }; for(int i = 0; unicode[i] ; i++) if (!strcasecmp(code, unicode[i])) return TRUE; return FALSE; } # endif #endif static void *iconv_open_internal(const char *tocode, const char *fromcode) { #ifndef R_MACOS_LIBICONV_WORKAROUND return iconv_open(tocode, fromcode); #else iconv_t cd = iconv_open(tocode, fromcode); if (cd == (iconv_t)-1) return cd; Riconv_cd *rcd = malloc(sizeof(Riconv_cd)); if (!rcd) { errno = ENOMEM; return (void *)(iconv_t)-1; } rcd->cd = cd; rcd->reset_after_error = !(is_stateful(tocode) || is_stateful(fromcode)); rcd->undo_transliteration = FALSE; # ifdef R_MACOS_LIBICONV_UNDO_TRANSLITERATION rcd->undo_transliteration = !is_unicode(tocode) && rcd->reset_after_error; /* (!(is_stateful(tocode) || is_stateful(fromcode)) */ char *p = getenv("_R_ICONV_UNDO_TRANSLITERATION_"); if (!p || !StringTrue(p)) rcd->undo_transliteration = FALSE; if (rcd->undo_transliteration) { rcd->cd_back = iconv_open(fromcode, tocode); if (rcd->cd_back == (iconv_t)-1) { iconv_close((iconv_t)rcd->cd); return (iconv_t)-1; } rcd->buflen = 8192; rcd->buf = malloc(rcd->buflen); if (!rcd->buf) { iconv_close((iconv_t)rcd->cd); iconv_close((iconv_t)rcd->cd_back); return (iconv_t)-1; } } # endif return rcd; #endif } void * Riconv_open (const char* tocode, const char* fromcode) { #if defined Win32 || __APPLE__ // These two support "utf8" # ifdef Win32 const char *cp = "ASCII"; char to[20] = ""; if (localeCP > 0) {snprintf(to, 20, "CP%d", localeCP); cp = to;} # else /* __APPLE__ */ const char *cp = "UTF-8"; if (latin1locale) cp = "ISO-8859-1"; else if (!utf8locale) cp = locale2charset(NULL); # endif if (!*tocode && !*fromcode) return iconv_open_internal(cp, cp); if(!*tocode) return iconv_open_internal(cp, fromcode); else if(!*fromcode) return iconv_open_internal(tocode, cp); else return iconv_open_internal(tocode, fromcode); #else // "utf8" is not valid but people keep on using it const char *to = tocode, *from = fromcode; if(strcasecmp(tocode, "utf8") == 0) to = "UTF-8"; if(strcasecmp(fromcode, "utf8") == 0) from = "UTF-8"; return iconv_open_internal(to, from); #endif } /* Should be defined in config.h, but prior to 2.13.0 was only checked if the NLS was enabled */ #ifndef ICONV_CONST # define ICONV_CONST #endif size_t Riconv (void *cd, const char **inbuf, size_t *inbytesleft, char **outbuf, size_t *outbytesleft) { #ifdef R_MACOS_LIBICONV_WORKAROUND Riconv_cd *rcd = (Riconv_cd *)cd; # ifdef R_MACOS_LIBICONV_UNDO_TRANSLITERATION const char *old_inbuf = NULL; size_t old_inbytesleft = 0; char *old_outbuf = NULL; size_t old_outbytesleft = 0; if (rcd->undo_transliteration) { old_inbuf = inbuf ? *inbuf : NULL; old_inbytesleft = inbytesleft ? *inbytesleft : 0; old_outbuf = outbuf ? *outbuf : NULL; old_outbytesleft = outbytesleft ? *outbytesleft : 0; } # endif #endif /* here libiconv has const char **, glibc has char ** for inbuf */ size_t res = iconv( #ifdef R_MACOS_LIBICONV_WORKAROUND rcd->cd, #else (iconv_t)cd, #endif (ICONV_CONST char **) inbuf, inbytesleft, outbuf, outbytesleft); #ifdef R_MACOS_LIBICONV_WORKAROUND if (rcd->reset_after_error && (res == (size_t)-1 && (errno == EILSEQ || errno == EINVAL))) { int saveerrno = errno; iconv(rcd->cd, NULL, NULL, NULL, NULL); errno = saveerrno; } # ifdef R_MACOS_LIBICONV_UNDO_TRANSLITERATION if (rcd->undo_transliteration && inbuf && inbytesleft && outbuf && outbytesleft) { int saveerrno = errno; size_t needed = old_inbytesleft - *inbytesleft; if (rcd->buflen < needed) { free(rcd->buf); rcd->buf = malloc(needed); if (!rcd->buf) { errno = ENOMEM; return -1; } rcd->buflen = needed; } const char *back_inbuf = old_outbuf; size_t back_inbytesleft = old_outbytesleft - *outbytesleft; char *back_outbuf = rcd->buf; size_t back_outbytesleft = needed; iconv(rcd->cd_back, NULL, NULL, NULL, NULL); size_t back_res = iconv(rcd->cd_back, (ICONV_CONST char **) &back_inbuf, &back_inbytesleft, (ICONV_CONST char **) &back_outbuf, &back_outbytesleft); if (back_res == (size_t)-1) { /* should not happen */ errno = saveerrno; return res; } if (back_outbytesleft == 0 && back_inbytesleft == 0 && !memcmp(rcd->buf, old_inbuf, needed)) { /* no transliteration happened */ errno = saveerrno; return res; } size_t stored = needed - back_outbytesleft; size_t i; for(i = 0; i < stored; i++) if (rcd->buf[i] != old_inbuf[i]) { /* byte at index i in old_inbuf was probably transliterated, so convert again only i bytes and report error */ *inbuf = old_inbuf; *outbuf = old_outbuf; *outbytesleft = old_outbytesleft; size_t reduced = i; res = iconv(rcd->cd, (ICONV_CONST char **) inbuf, &reduced, (ICONV_CONST char **) outbuf, outbytesleft); /* "reduced" should be 0 now */ *inbytesleft = old_inbytesleft - (i - reduced); errno = EILSEQ; return -1; } /* should not be reached */ errno = saveerrno; } # endif #endif return res; } int Riconv_close (void *cd) { #ifndef R_MACOS_LIBICONV_WORKAROUND return iconv_close((iconv_t) cd); #else Riconv_cd *rcd = (Riconv_cd *)cd; int res = iconv_close(rcd->cd); # ifdef R_MACOS_LIBICONV_UNDO_TRANSLITERATION if (rcd->undo_transliteration) { free(rcd->buf); if (iconv_close(rcd->cd_back)) res = -1; } # endif return res; #endif } typedef enum { NT_NONE = 0, /* no translation is needed */ NT_FROM_UTF8 = 1, /* need to translate from UTF8 */ NT_FROM_LATIN1 = 2, /* need to translate from latin1 */ NT_FROM_NATIVE = 3, /* need to translate from native encoding */ NT_FROM_ASCII = 4, /* need to translate from ASCII */ } nttype_t; /* Decides whether translation to native encoding is needed. */ static R_INLINE nttype_t needsTranslation(SEXP x) { if (IS_ASCII(x)) return NT_NONE; if (IS_UTF8(x)) { if (utf8locale || x == NA_STRING) return NT_NONE; return NT_FROM_UTF8; } if (IS_LATIN1(x)) { if (x == NA_STRING || latin1locale) return NT_NONE; return NT_FROM_LATIN1; } if (IS_BYTES(x)) error(_("translating strings with \"bytes\" encoding is not allowed")); return NT_NONE; } static void *latin1_obj = NULL, *utf8_obj=NULL, *ucsmb_obj=NULL, *ucsutf8_obj=NULL; /* Translates string in "ans" to native encoding returning it in string buffer "cbuff". */ static int translateToNative(const char *ans, R_StringBuffer *cbuff, nttype_t ttype, int mustWork) { if (ttype == NT_NONE) error(_("internal error: no translation needed")); void * obj; const char *inbuf, *from; char *outbuf; size_t inb, outb, res; Rboolean failed = FALSE; if(ttype == NT_FROM_LATIN1) { if(!latin1_obj) { #ifdef HAVE_ICONV_CP1252 from = "CP1252"; #else from = "latin1"; #endif obj = Riconv_open("", from); /* should never happen */ if(obj == (void *)(-1)) #ifdef Win32 error(_("unsupported conversion from '%s' in codepage %d"), from, localeCP); #else error(_("unsupported conversion from '%s' to '%s'"), from, ""); #endif latin1_obj = obj; } obj = latin1_obj; } else { /* ttype == NT_FROM_UTF8 */ if(!utf8_obj) { obj = Riconv_open("", "UTF-8"); /* should never happen */ if(obj == (void *)(-1)) #ifdef Win32 error(_("unsupported conversion from '%s' in codepage %d"), "UTF-8", localeCP); #else error(_("unsupported conversion from '%s' to '%s'"), "UTF-8", ""); #endif utf8_obj = obj; } obj = utf8_obj; } R_AllocStringBuffer(0, cbuff); top_of_loop: inbuf = ans; inb = strlen(inbuf); outbuf = cbuff->data; outb = cbuff->bufsize - 1; /* First initialize output */ Riconv (obj, NULL, NULL, &outbuf, &outb); next_char: /* Then convert input */ res = Riconv(obj, &inbuf , &inb, &outbuf, &outb); if(res == -1 && errno == E2BIG) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } else if(res == -1 && (errno == EILSEQ || errno == EINVAL)) { res = Riconv(obj, NULL, NULL, &outbuf, &outb); if((res == -1 && errno == E2BIG) || outb < 13) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } failed = TRUE; if (ttype == NT_FROM_UTF8) { /* if starting in UTF-8, use \uxxxx */ /* This must be the first byte */ wchar_t wc; ssize_t clen = utf8toucs(&wc, inbuf); if(clen > 0 && inb >= clen) { R_wchar_t ucs; if (IS_HIGH_SURROGATE(wc)) ucs = utf8toucs32(wc, inbuf); else ucs = (R_wchar_t) wc; inbuf += clen; inb -= clen; if(ucs < 65536) { // gcc 7 objects to this with unsigned int snprintf(outbuf, 9, "", (unsigned short) ucs); outbuf += 8; outb -= 8; } else { // R_wchar_t is usually unsigned int, but wchar_t need not be snprintf(outbuf, 13, "", (unsigned int) ucs); outbuf += 12; outb -= 12; } } else { snprintf(outbuf, 5, "<%02x>", (unsigned char)*inbuf); outbuf += 4; outb -= 4; inbuf++; inb--; } } else { // not from UTF-8 snprintf(outbuf, 5, "<%02x>", (unsigned char)*inbuf); outbuf += 4; outb -= 4; inbuf++; inb--; } goto next_char; } *outbuf = '\0'; if (mustWork && failed) { /* copy to truncate and in case of error prevent memory leak */ char err_buff[256]; if (strlen(cbuff->data) > 255) { strncpy(err_buff, cbuff->data, 252); err_buff[252] = '\0'; mbcsTruncateToValid(err_buff); strcat(err_buff, "..."); } else strcpy(err_buff, cbuff->data); if (mustWork == 2) { warning(_("unable to translate '%s' to native encoding"), err_buff); return 1; } else { R_FreeStringBuffer(cbuff); error(_("unable to translate '%s' to native encoding"), err_buff); } } return 0; } static const char *copyAndFreeStringBuffer(R_StringBuffer *cbuff) { size_t res = strlen(cbuff->data) + 1; char *p = R_alloc(res, 1); memcpy(p, cbuff->data, res); R_FreeStringBuffer(cbuff); return p; } /* This may return a R_alloc-ed result, so the caller has to manage the R_alloc stack */ const char *translateChar(SEXP x) { CHECK_CHARSXP(x); nttype_t t = needsTranslation(x); const char *ans = CHAR(x); if (t == NT_NONE) return ans; R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; translateToNative(ans, &cbuff, t, 0); return copyAndFreeStringBuffer(&cbuff); } /* Variant which does not return escaped string (which must work, throwing error when conversion fails). Used for file paths, including devices. */ const char *translateCharFP(SEXP x) { CHECK_CHARSXP(x); nttype_t t = needsTranslation(x); const char *ans = CHAR(x); if (t == NT_NONE) return ans; R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; translateToNative(ans, &cbuff, t, 1); return copyAndFreeStringBuffer(&cbuff); } /* Variant which returns NULL (with a warning) when conversion fails, used for file paths. */ attribute_hidden const char *translateCharFP2(SEXP x) { CHECK_CHARSXP(x); nttype_t t = needsTranslation(x); const char *ans = CHAR(x); if (t == NT_NONE) return ans; R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; if (translateToNative(ans, &cbuff, t, 2)) { R_FreeStringBuffer(&cbuff); return NULL; } else return copyAndFreeStringBuffer(&cbuff); } SEXP installTrChar(SEXP x) { CHECK_CHARSXP(x); nttype_t t = needsTranslation(x); if (t == NT_NONE) return installNoTrChar(x); R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; // For back-compatibility this allows installing // symbols with escapes, with a warning. translateToNative(CHAR(x), &cbuff, t, 2); SEXP Sans = install(cbuff.data); R_FreeStringBuffer(&cbuff); return Sans; } /* Translates as from R 3.6.0. As from R 4.0.0 unused in newly installed code as installChar is remapped to Rf_installTrChar. */ SEXP Rf_installChar(SEXP x) { return Rf_installTrChar(x); } /* This may return a R_alloc-ed result, so the caller has to manage the R_alloc stack. Use for writeLines/Bin/Char, the first only with useBytes = TRUE. */ const char *translateChar0(SEXP x) { CHECK_CHARSXP(x); if(IS_BYTES(x)) return CHAR(x); return translateChar(x); } /* Decides whether translation to UTF-8 is needed. */ static R_INLINE nttype_t needsTranslationUTF8(SEXP x) { if (IS_UTF8(x) || IS_ASCII(x) || x == NA_STRING) return NT_NONE; if (IS_BYTES(x)) error(_("translating strings with \"bytes\" encoding is not allowed")); if (IS_LATIN1(x) || latin1locale) return NT_FROM_LATIN1; if (utf8locale) return NT_NONE; return NT_FROM_NATIVE; } /* Translates string in "ans" to UTF-8 returning it in string buffer "cbuff". */ static int translateToUTF8(const char *ans, R_StringBuffer *cbuff, nttype_t ttype, int mustWork) { if (ttype == NT_NONE) error(_("internal error: no translation needed")); void *obj; const char *inbuf, *from = ""; char *outbuf; size_t inb, outb, res; Rboolean failed = FALSE; if (ttype == NT_FROM_LATIN1) #ifdef HAVE_ICONV_CP1252 from = "CP1252"; #else from = "latin1"; #endif /* else (ttype == NT_FROM_NATIVE) */ obj = Riconv_open("UTF-8", from); if(obj == (void *)(-1)) #ifdef Win32 error(_("unsupported conversion from '%s' in codepage %d"), from, localeCP); #else error(_("unsupported conversion from '%s' to '%s'"), from, "UTF-8"); #endif R_AllocStringBuffer(0, cbuff); top_of_loop: inbuf = ans; inb = strlen(inbuf); outbuf = cbuff->data; outb = cbuff->bufsize - 1; /* First initialize output */ Riconv (obj, NULL, NULL, &outbuf, &outb); next_char: /* Then convert input */ res = Riconv(obj, &inbuf , &inb, &outbuf, &outb); if(res == -1 && errno == E2BIG) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } else if(res == -1 && (errno == EILSEQ || errno == EINVAL)) { res = Riconv(obj, NULL, NULL, &outbuf, &outb); if((res == -1 && errno == E2BIG) || outb < 5) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } failed = TRUE; snprintf(outbuf, 5, "<%02x>", (unsigned char)*inbuf); outbuf += 4; outb -= 4; inbuf++; inb--; goto next_char; } *outbuf = '\0'; Riconv_close(obj); if (mustWork && failed) { const void *vmax = vmaxget(); const char *native_buf = reEnc(cbuff->data, CE_UTF8, CE_NATIVE, 2); /* copy to truncate */ char err_buff[256]; if (strlen(native_buf) > 255) { strncpy(err_buff, native_buf, 252); err_buff[252] = '\0'; mbcsTruncateToValid(err_buff); strcat(err_buff, "..."); } else strcpy(err_buff, native_buf); if (mustWork == 2) { warning(_("unable to translate '%s' to UTF-8"), err_buff); vmaxset(vmax); return 1; } else { R_FreeStringBuffer(cbuff); error(_("unable to translate '%s' to UTF-8"), err_buff); } vmaxset(vmax); } return 0; } /* This may return a R_alloc-ed result, so the caller has to manage the R_alloc stack */ const char *translateCharUTF8(SEXP x) { CHECK_CHARSXP(x); nttype_t t = needsTranslationUTF8(x); const char *ans = CHAR(x); if (t == NT_NONE) return ans; R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; translateToUTF8(ans, &cbuff, t, 0); return copyAndFreeStringBuffer(&cbuff); } /* Variant which does not return escaped string (which must work, throwing error when conversion fails). */ attribute_hidden const char *trCharUTF8(SEXP x) { CHECK_CHARSXP(x); nttype_t t = needsTranslationUTF8(x); const char *ans = CHAR(x); if (t == NT_NONE) return ans; R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; translateToUTF8(ans, &cbuff, t, 1); return copyAndFreeStringBuffer(&cbuff); } /* Variant which returns NULL (with a warning) when conversion fails. */ attribute_hidden const char *trCharUTF82(SEXP x) { CHECK_CHARSXP(x); nttype_t t = needsTranslationUTF8(x); const char *ans = CHAR(x); if (t == NT_NONE) return ans; R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; if (translateToUTF8(ans, &cbuff, t, 2)) { R_FreeStringBuffer(&cbuff); return NULL; } else return copyAndFreeStringBuffer(&cbuff); } /* Decides type of translation needed to get wchar_t*. */ static R_INLINE nttype_t wneedsTranslation(SEXP x) { if (IS_BYTES(x)) error(_("translating strings with \"bytes\" encoding is not allowed")); if (IS_ASCII(x)) return NT_FROM_ASCII; if (IS_UTF8(x)) return NT_FROM_UTF8; if (IS_LATIN1(x) || latin1locale) return NT_FROM_LATIN1; if (utf8locale) return NT_FROM_UTF8; return NT_FROM_NATIVE; } static const wchar_t *wcopyAndFreeStringBuffer(R_StringBuffer *cbuff) { size_t res = wcslen((wchar_t *) cbuff->data) + 1; wchar_t *p = (wchar_t *) R_alloc(res, sizeof(wchar_t)); memcpy(p, cbuff->data, res * sizeof(wchar_t)); R_FreeStringBuffer(cbuff); return p; } static const wchar_t *wfromASCII(const char *src, size_t len) { size_t i; wchar_t *p = (wchar_t *) R_alloc(len + 1, sizeof(wchar_t)); for (i = 0; i < len; i++) p[i] = (wchar_t) src[i]; p[i] = L'\0'; return p; } #ifdef Win32 static const char TO_WCHAR[] = "UTF-16LE"; #else # ifdef WORDS_BIGENDIAN static const char TO_WCHAR[] = "UCS-4BE"; # else static const char TO_WCHAR[] = "UCS-4LE"; # endif #endif static void *latin1_wobj = NULL, *utf8_wobj=NULL; /* Translate from current encoding to wchar_t = UTF-16LE/UCS-4 NB: that wchar_t is UCS-4 is an assumption, but not easy to avoid. */ /* This may return a R_alloc-ed result, so the caller has to manage the R_alloc stack */ static int translateToWchar(const char *ans, R_StringBuffer *cbuff, nttype_t ttype, int mustWork) { void * obj; const char *inbuf, *from; char *outbuf; size_t inb, outb, res; Rboolean failed = FALSE; if(ttype == NT_FROM_LATIN1) { if(!latin1_wobj) { #ifdef HAVE_ICONV_CP1252 from = "CP1252"; #else from = "latin1"; #endif obj = Riconv_open(TO_WCHAR, from); if(obj == (void *)(-1)) error(_("unsupported conversion from '%s' to '%s'"), from, TO_WCHAR); latin1_wobj = obj; } else obj = latin1_wobj; } else if(ttype == NT_FROM_UTF8) { if(!utf8_wobj) { obj = Riconv_open(TO_WCHAR, "UTF-8"); if(obj == (void *)(-1)) error(_("unsupported conversion from '%s' to '%s'"), "UTF-8", TO_WCHAR); utf8_wobj = obj; } else obj = utf8_wobj; } else { /* t == NT_FROM_NATIVE */ obj = Riconv_open(TO_WCHAR, ""); if(obj == (void *)(-1)) #ifdef Win32 error(_("unsupported conversion to '%s' from codepage %d"), TO_WCHAR, localeCP); #else error(_("unsupported conversion from '%s' to '%s'"), "", TO_WCHAR); #endif } /* R_AllocStringBuffer returns correctly aligned for wchar_t */ R_AllocStringBuffer(0, cbuff); top_of_loop: inbuf = ans; inb = strlen(inbuf); outbuf = cbuff->data; outb = cbuff->bufsize - 1; /* First initialize output */ Riconv (obj, NULL, NULL, &outbuf, &outb); next_char: /* Then convert input */ res = Riconv(obj, &inbuf , &inb, &outbuf, &outb); if(res == -1 && errno == E2BIG) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } else if(res == -1 && (errno == EILSEQ || errno == EINVAL)) { res = Riconv(obj, NULL, NULL, &outbuf, &outb); if((res == -1 && errno == E2BIG) || outb < 5 * sizeof(wchar_t)) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } failed = TRUE; swprintf((wchar_t*)outbuf, 5, L"<%02x>", (unsigned char)*inbuf); outbuf += 4 * sizeof(wchar_t); outb -= 4 * sizeof(wchar_t); inbuf++; inb--; goto next_char; } *((wchar_t *) outbuf) = L'\0'; /* terminate wide string */ if(ttype == NT_FROM_NATIVE) Riconv_close(obj); if (mustWork && failed) { const void *vmax = vmaxget(); const char *native_buf = reEnc3(cbuff->data, TO_WCHAR, "", 2); /* copy to truncate (and mark as truncated) */ char err_buff[256]; if (strlen(native_buf) > 255) { strncpy(err_buff, native_buf, 252); err_buff[252] = '\0'; mbcsTruncateToValid(err_buff); strcat(err_buff, "..."); } else strcpy(err_buff, native_buf); if (mustWork == 2) { warning(_("unable to translate '%s' to a wide string"), err_buff); vmaxset(vmax); return 1; } else { R_FreeStringBuffer(cbuff); error(_("unable to translate '%s' to a wide string"), err_buff); } vmaxset(vmax); } return 0; } /* This may return a R_alloc-ed result, so the caller has to manage the R_alloc stack */ const wchar_t *wtransChar(SEXP x) { CHECK_CHARSXP(x); nttype_t t = wneedsTranslation(x); if (t == NT_FROM_ASCII) return wfromASCII(CHAR(x), LENGTH(x)); R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; translateToWchar(CHAR(x), &cbuff, t, 0); return wcopyAndFreeStringBuffer(&cbuff); } /* Variant which returns NULL (with a warning) when conversion fails. */ const wchar_t *wtransChar2(SEXP x) { CHECK_CHARSXP(x); nttype_t t = wneedsTranslation(x); if (t == NT_FROM_ASCII) return wfromASCII(CHAR(x), LENGTH(x)); R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; if (translateToWchar(CHAR(x), &cbuff, t, 2)) { R_FreeStringBuffer(&cbuff); return NULL; } else return wcopyAndFreeStringBuffer(&cbuff); } static int reEncodeIconv(const char *x, R_StringBuffer *cbuff, const char *fromcode, const char *tocode, int subst) { void * obj; const char *inbuf; char *outbuf; size_t inb, outb, res; Rboolean fromWchar = !strcmp(fromcode, TO_WCHAR); obj = Riconv_open(tocode, fromcode); if(obj == (void *)(-1)) return 1; R_AllocStringBuffer(0, cbuff); top_of_loop: inbuf = x; if (fromWchar) inb = wcslen((wchar_t *)inbuf) * sizeof(wchar_t); else inb = strlen(inbuf); outbuf = cbuff->data; outb = cbuff->bufsize - 3; /* First initialize output */ Riconv (obj, NULL, NULL, &outbuf, &outb); next_char: /* Then convert input */ res = Riconv(obj, &inbuf , &inb, &outbuf, &outb); if(res == -1 && errno == E2BIG) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } else if(res == -1 && (errno == EILSEQ || errno == EINVAL)) { res = Riconv(obj, NULL, NULL, &outbuf, &outb); if(res == -1 && errno == E2BIG) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } size_t inb_per_char = fromWchar ? sizeof(wchar_t) : 1; /* ensure space in cbuff for substitution */ size_t need = 0; switch(subst) { case 1: /* substitute hex */ need = inb_per_char * 4 + 1; break; case 2: /* substitute . */ case 3: /* substitute ? */ need = inb_per_char; break; default: /* skip byte */ inbuf += inb_per_char; inb -= inb_per_char; goto next_char; } if(outb < need) { R_AllocStringBuffer(2*cbuff->bufsize, cbuff); goto top_of_loop; } /* substitute individual bytes, it makes more sense for users as typically errors would be due to conversion from a single-byte encoding */ for(int i = 0; i < inb_per_char; i++) { if (!inb) break; switch(subst) { case 1: /* substitute hex */ snprintf(outbuf, 5, "<%02x>", (unsigned char)*inbuf); outbuf += 4; outb -= 4; inbuf++; inb--; break; case 2: /* substitute . */ *outbuf++ = '.'; inbuf++; outb--; inb--; break; case 3: /* substitute ? */ *outbuf++ = '?'; inbuf++; outb--; inb--; break; } } goto next_char; } Riconv_close(obj); *outbuf = '\0'; return 0; } #include /* returns 1 when no conversion is needed and in case of error, 0 otherwise */ static int reEncode(const char *x, R_StringBuffer *cbuff, cetype_t ce_in, cetype_t ce_out, int subst) { char *tocode = NULL, *fromcode = NULL; /* We can only encode from Symbol to UTF-8 */ if(ce_in == ce_out || ce_out == CE_SYMBOL || ce_in == CE_ANY || ce_out == CE_ANY) return 1; if(ce_in == CE_SYMBOL) { if(ce_out == CE_UTF8) { size_t nc = 3*strlen(x)+1; /* all in BMP */ R_AllocStringBuffer(nc, cbuff); Rf_AdobeSymbol2utf8(cbuff->data, x, cbuff->bufsize, TRUE); return 0; } else return 1; } if(strIsASCII(x)) return 1; if(utf8locale && ce_in == CE_NATIVE && ce_out == CE_UTF8) return 1; if(utf8locale && ce_out == CE_NATIVE && ce_in == CE_UTF8) return 1; if(latin1locale && ce_in == CE_NATIVE && ce_out == CE_LATIN1) return 1; if(latin1locale && ce_out == CE_NATIVE && ce_in == CE_LATIN1) return 1; switch(ce_in) { case CE_NATIVE: fromcode = ""; break; #ifdef HAVE_ICONV_CP1252 case CE_LATIN1: fromcode = "CP1252"; break; #else case CE_LATIN1: fromcode = "latin1"; break; #endif case CE_UTF8: fromcode = "UTF-8"; break; default: return 1; } switch(ce_out) { case CE_NATIVE: tocode = ""; break; case CE_LATIN1: tocode = "latin1"; break; /* ?? CP1252 */ case CE_UTF8: tocode = "UTF-8"; break; default: return 1; } return reEncodeIconv(x, cbuff, fromcode, tocode, subst); } /* This may return a R_alloc-ed result, so the caller has to manage the R_alloc stack */ const char *reEnc(const char *x, cetype_t ce_in, cetype_t ce_out, int subst) { R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; if (reEncode(x, &cbuff, ce_in, ce_out, subst)) return x; size_t res = strlen(cbuff.data) + 1; char *p = R_alloc(res, 1); memcpy(p, cbuff.data, res); R_FreeStringBuffer(&cbuff); return p; } #ifdef Win32 /* A version avoiding R_alloc for use in the Rgui editor */ void reEnc2(const char *x, char *y, int ny, cetype_t ce_in, cetype_t ce_out, int subst) { int res; R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; if (reEncode(x, &cbuff, ce_in, ce_out, subst)) { strncpy(y, x, ny); y[ny - 1] = '\0'; return; } res = strlen(cbuff.data) + 1; if (res > ny) error("converted string too long for buffer"); memcpy(y, cbuff.data, res); R_FreeStringBuffer(&cbuff); } #endif /* A version that works with arbitrary iconv encodings, used for getting escaped invalid characters for error messages. */ const char *reEnc3(const char *x, const char *fromcode, const char *tocode, int subst) { R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; if (reEncodeIconv(x, &cbuff, fromcode, tocode, subst)) return x; size_t res = strlen(cbuff.data) + 1; char *p = R_alloc(res, 1); memcpy(p, cbuff.data, res); R_FreeStringBuffer(&cbuff); return p; } attribute_hidden void invalidate_cached_recodings(void) { if (latin1_obj) { Riconv_close(latin1_obj); latin1_obj = NULL; } if (utf8_obj) { Riconv_close(utf8_obj); utf8_obj = NULL; } if (ucsmb_obj) { Riconv_close(ucsmb_obj); ucsmb_obj = NULL; } #ifdef Win32 if (latin1_wobj) { Riconv_close(latin1_wobj); latin1_wobj = NULL; } if (utf8_wobj) { Riconv_close(utf8_wobj); utf8_wobj = NULL; } #endif } /* in C11 these could use char32_t */ #ifdef WORDS_BIGENDIAN static const char UNICODE[] = "UCS-4BE"; #else static const char UNICODE[] = "UCS-4LE"; #endif /* used in gram.c and devX11.c */ size_t ucstomb(char *s, const unsigned int wc) { char buf[R_MB_CUR_MAX+1]; void *cd = NULL ; unsigned int wcs[2]; const char *inbuf = (const char *) wcs; size_t inbytesleft = sizeof(unsigned int); /* better be 4 */ char *outbuf = buf; size_t outbytesleft = sizeof(buf); size_t status; if(wc == 0) {*s = '\0'; return 1;} memset(buf, 0, sizeof(buf)); memset(wcs, 0, sizeof(wcs)); wcs[0] = wc; if(ucsmb_obj == NULL) { if((void *)(-1) == (cd = Riconv_open("", UNICODE))) { #ifndef Win32 char tocode[128]; /* locale set fuzzy case */ strncpy(tocode, locale2charset(NULL), sizeof(tocode) - 1); tocode[sizeof(tocode) - 1] = '\0'; if((void *)(-1) == (cd = Riconv_open(tocode, UNICODE))) return (size_t)(-1); #else return (size_t)(-1); #endif } ucsmb_obj = cd; } status = Riconv(ucsmb_obj, &inbuf, &inbytesleft, &outbuf, &outbytesleft); if (status == (size_t) -1) { switch(errno){ case EINVAL: return (size_t) -2; case EILSEQ: return (size_t) -1; case E2BIG: break; default: errno = EILSEQ; return (size_t) -1; } } buf[R_MB_CUR_MAX] = '\0'; /* safety measure */ strcpy(s, buf); return strlen(buf); } /* used in engine.c for non-UTF-8 MBCS */ size_t attribute_hidden mbtoucs(unsigned int *wc, const char *s, size_t n) { unsigned int wcs[2]; char buf[16]; void *cd; const char *inbuf = s; size_t inbytesleft = strlen(s); char *outbuf = (char *) wcs; size_t outbytesleft = sizeof(buf); size_t status; if(s[0] == 0) {*wc = 0; return 1;} if((void *)(-1) == (cd = Riconv_open(UNICODE, ""))) return (size_t)(-1); status = Riconv(cd, &inbuf, &inbytesleft, &outbuf, &outbytesleft); if (status == (size_t) -1) { switch(errno){ case EINVAL: Riconv_close(cd); return (size_t) -2; case EILSEQ: Riconv_close(cd); return (size_t) -1; case E2BIG: break; default: Riconv_close(cd); errno = EILSEQ; return (size_t) -1; } } Riconv_close(cd); *wc = wcs[0]; return (size_t) 1; } /* made available for use in graphics devices */ size_t ucstoutf8(char *s, const unsigned int wc) { char buf[16]; void *cd = NULL ; unsigned int wcs[2]; const char *inbuf = (const char *) wcs; size_t inbytesleft = sizeof(unsigned int); /* better be 4 */ char *outbuf = buf; size_t outbytesleft = sizeof(buf); size_t status; if(wc == 0) {*s = '\0'; return 1;} memset(buf, 0, sizeof(buf)); wcs[0] = wc; wcs[1] = 0; if(ucsutf8_obj == NULL) { if((void *)(-1) == (cd = Riconv_open("UTF-8", UNICODE))) { error(_("unsupported conversion from '%s' to '%s'"), UNICODE, "UTF-8"); return (size_t)(-1); } ucsutf8_obj = cd; } status = Riconv(ucsutf8_obj, &inbuf, &inbytesleft, &outbuf, &outbytesleft); if (status == (size_t) -1) { switch(errno){ case E2BIG: break; default: error(_("invalid Unicode point %u"), wc); return (size_t) -1; // Not reached } } *outbuf = '\0'; strcpy(s, buf); return strlen(buf); } /* moved from src/unix/sys-unix.c and src/gnuwin32/extra.c */ #ifdef HAVE_STAT # ifdef HAVE_ACCESS # ifdef HAVE_UNISTD_H # include # endif # endif #ifdef Win32 # define WIN32_LEAN_AND_MEAN 1 # include /* For GetShortPathName */ #endif #if !defined(S_IFDIR) && defined(__S_IFDIR) # define S_IFDIR __S_IFDIR #endif int attribute_hidden R_isWriteableDir(char *path) { #ifdef Win32 struct _stati64 sb; #else struct stat sb; #endif int isdir = 0; if(!path) return 0; #ifdef Win32 if(_stati64(path, &sb) == 0) { #else if(stat(path, &sb) == 0) { #endif isdir = (sb.st_mode & S_IFDIR) > 0; /* is a directory */ #ifdef HAVE_ACCESS /* We want to know if the directory is writable by this user, which mode does not tell us */ isdir &= (access(path, W_OK) == 0); #endif } return isdir; } #else int attribute_hidden R_isWriteableDir(char *path) { return 1; } #endif /* HAVE_STAT */ #if !HAVE_DECL_MKDTEMP extern char * mkdtemp (char *template); #endif #ifdef Win32 # include #endif void R_reInitTempDir(int die_on_fail) { char *tmp = NULL, *tm; size_t len; #define ERROR_MAYBE_DIE(MSG_) do { \ if(die_on_fail) \ R_Suicide(MSG_); \ else \ errorcall(R_NilValue, MSG_); \ } while (0) if(R_TempDir) return; /* someone else set it */ /* getenv("R_SESSION_TMPDIR"); no longer set in R.sh */ tm = getenv("TMPDIR"); if (!R_isWriteableDir(tm)) { tm = getenv("TMP"); if (!R_isWriteableDir(tm)) { tm = getenv("TEMP"); if (!R_isWriteableDir(tm)) { #ifdef Win32 tm = getenv("R_USER"); /* this one will succeed */ if (!tm) ERROR_MAYBE_DIE(_("'R_USER' not set")); #else tm = "/tmp"; #endif } } } /* make sure no spaces in path */ int hasspace = 0; char *p; for (p = tm; *p; p++) if (isspace(*p)) { hasspace = 1; break; } #ifdef Win32 char *suffix = "\\RtmpXXXXXX"; if (hasspace) { DWORD res = GetShortPathName(tm, NULL, 0); if (res > 0) { len = res + strlen(suffix); tmp = (char *)malloc(len); if (!tmp) ERROR_MAYBE_DIE(_("cannot allocate 'R_TempDir'")); DWORD res1 = GetShortPathName(tm, tmp, res); if (res1 > 0 && res1 < res) strcat(tmp, suffix); else { /* very unlikely */ free(tmp); tmp = NULL; } } if (tmp) { /* GetShortPathName may return a long name, so check again */ hasspace = 0; for (p = tmp; *p; p++) if (isspace(*p)) { hasspace = 1; break; } } } #else char *suffix = "/RtmpXXXXXX"; #endif if (hasspace) { if (tmp) free(tmp); ERROR_MAYBE_DIE(_("'R_TempDir' contains space")); } if (!tmp) { len = strlen(tm) + strlen(suffix) + 1; tmp = (char *)malloc(len); if (!tmp) ERROR_MAYBE_DIE(_("cannot allocate 'R_TempDir'")); strcpy(tmp, tm); strcat(tmp, suffix); } if(!mkdtemp(tmp)) { free(tmp); ERROR_MAYBE_DIE(_("cannot create 'R_TempDir'")); } #ifndef Win32 # ifdef HAVE_SETENV if(setenv("R_SESSION_TMPDIR", tmp, 1)) { free(tmp); errorcall(R_NilValue, _("unable to set R_SESSION_TMPDIR")); } # elif defined(HAVE_PUTENV) { len = strlen(tmp) + 20; char * buf = (char *) malloc((len) * sizeof(char)); if(buf) { snprintf(buf, len, "R_SESSION_TMPDIR=%s", tmp); if(putenv(buf)) { free(tmp); free(buf); errorcall(R_NilValue, _("unable to set R_SESSION_TMPDIR")); } /* no free here: storage remains in use */ } else { free(tmp); errorcall(R_NilValue, _("unable to set R_SESSION_TMPDIR")); } } # endif #endif R_TempDir = tmp; Sys_TempDir = tmp; } attribute_hidden void InitTempDir(void) { R_reInitTempDir(/* die_on_fail = */ TRUE); } /* returns malloc'd result */ char * R_tmpnam(const char * prefix, const char * tempdir) { return R_tmpnam2(prefix, tempdir, ""); } /* NB for use with multicore: parent and all children share the same session directory and run in parallel. So as from 2.14.1, we make sure getpid() is part of the process. */ /* returns malloc'd result */ char * R_tmpnam2(const char *prefix, const char *tempdir, const char *fileext) { unsigned int n, pid = getpid(); #ifdef Win32 char filesep[] = "\\"; #else char filesep[] = "/"; #endif if(!prefix) prefix = ""; /* NULL */ if(!fileext) fileext = ""; /* " */ for (n = 0; n < 100; n++) { /* try a random number at the end. Need at least 6 hex digits */ int r1 = rand(); #if RAND_MAX > 16777215 # define TMPNAM2_SNPRINTF(BUF, SIZE) \ snprintf(BUF, SIZE, "%s%s%s%x%x%s", tempdir, filesep, prefix, pid, r1, fileext) #else int r2 = rand(); # define TMPNAM2_SNPRINTF(BUF, SIZE) \ snprintf(BUF, SIZE, "%s%s%s%x%x%x%s", tempdir, filesep, prefix, pid, r1, r2, fileext) #endif size_t needed = TMPNAM2_SNPRINTF(NULL, 0) + 1; #ifdef Unix if (needed > R_PATH_MAX) error(_("temporary name too long")); #endif char *res = (char *) malloc(needed); if(!res) error(_("allocation failed in R_tmpnam2")); TMPNAM2_SNPRINTF(res, needed); if (!R_FileExists(res)) return res; free(res); } error(_("cannot find unused tempfile name")); } void R_free_tmpnam(char *name) { if (name) free(name); } attribute_hidden SEXP do_proctime(SEXP call, SEXP op, SEXP args, SEXP env) { SEXP ans, nm; checkArity(op, args); PROTECT(ans = allocVector(REALSXP, 5)); PROTECT(nm = allocVector(STRSXP, 5)); R_getProcTime(REAL(ans)); SET_STRING_ELT(nm, 0, mkChar("user.self")); SET_STRING_ELT(nm, 1, mkChar("sys.self")); SET_STRING_ELT(nm, 2, mkChar("elapsed")); SET_STRING_ELT(nm, 3, mkChar("user.child")); SET_STRING_ELT(nm, 4, mkChar("sys.child")); setAttrib(ans, R_NamesSymbol, nm); setAttrib(ans, R_ClassSymbol, mkString("proc_time")); UNPROTECT(2); return ans; } attribute_hidden void resetTimeLimits(void) { double data[5]; R_getProcTime(data); elapsedLimit = (elapsedLimitValue > 0) ? data[2] + elapsedLimitValue : -1.0; if (elapsedLimit2 > 0.0 && (elapsedLimit <= 0.0 || elapsedLimit2 < elapsedLimit)) elapsedLimit = elapsedLimit2; #ifdef Win32 cpuLimit = (cpuLimitValue > 0) ? data[0] + data[1] + cpuLimitValue : -1.0; #else cpuLimit = (cpuLimitValue > 0) ? data[0] + data[1] + data[3] + data[4] + cpuLimitValue : -1.0; #endif if (cpuLimit2 > 0.0 && (cpuLimit <= 0.0 || cpuLimit2 < cpuLimit)) cpuLimit = cpuLimit2; } attribute_hidden SEXP do_setTimeLimit(SEXP call, SEXP op, SEXP args, SEXP rho) { double cpu, elapsed, old_cpu = cpuLimitValue, old_elapsed = elapsedLimitValue; int transient; checkArity(op, args); cpu = asReal(CAR(args)); elapsed = asReal(CADR(args)); transient = asLogical(CADDR(args)); if (R_FINITE(cpu) && cpu > 0) cpuLimitValue = cpu; else cpuLimitValue = -1; if (R_FINITE(elapsed) && elapsed > 0) elapsedLimitValue = elapsed; else elapsedLimitValue = -1; resetTimeLimits(); if (transient == TRUE) { cpuLimitValue = old_cpu; elapsedLimitValue = old_elapsed; } return R_NilValue; } attribute_hidden SEXP do_setSessionTimeLimit(SEXP call, SEXP op, SEXP args, SEXP rho) { double cpu, elapsed, data[5]; checkArity(op, args); cpu = asReal(CAR(args)); elapsed = asReal(CADR(args)); R_getProcTime(data); if (R_FINITE(cpu) && cpu > 0) #ifdef Win32 cpuLimit2 = cpu + data[0] + data[1]; #else cpuLimit2 = cpu + data[0] + data[1] + data[3] + data[4]; #endif else cpuLimit2 = -1; if (R_FINITE(elapsed) && elapsed > 0) elapsedLimit2 = elapsed + data[2]; else elapsedLimit2 = -1; return R_NilValue; } attribute_hidden void R_CheckTimeLimits(void) { if (cpuLimit > 0.0 || elapsedLimit > 0.0) { /* On Linux and macOS at least R_getProcTime can be quite slow; currentTIme is somewhat faster. */ /* To reduce overhead, skip checking TIME_CHECK_SKIP times. */ const int TIME_CHECK_SKIP = 5; static int check_count = 0; if (check_count < TIME_CHECK_SKIP) { check_count++; return; } else check_count = 0; /* Before calling R_getProcTime first use checkTime to make sure at least TIME_CHECK_DELTA seconds have elapsed since the last call. */ const double TIME_CHECK_DELTA = 0.05; static double check_time = 0; double tm = currentTime(); if (tm < check_time) return; else check_time = tm + TIME_CHECK_DELTA; double cpu, data[5]; R_getProcTime(data); #ifdef Win32 cpu = data[0] + data[1]; #else cpu = data[0] + data[1] + data[3] + data[4]; #endif if (elapsedLimit > 0.0 && data[2] > elapsedLimit) { cpuLimit = elapsedLimit = -1; if (elapsedLimit2 > 0.0 && data[2] > elapsedLimit2) { elapsedLimit2 = -1.0; error(_("reached session elapsed time limit")); } else error(_("reached elapsed time limit")); } if (cpuLimit > 0.0 && cpu > cpuLimit) { cpuLimit = elapsedLimit = -1; if (cpuLimit2 > 0.0 && cpu > cpuLimit2) { cpuLimit2 = -1.0; error(_("reached session CPU time limit")); } else error(_("reached CPU time limit")); } } } /* moved from character.c in 2.10.0: configure requires this */ #ifdef HAVE_GLOB_H # include #endif #ifdef Win32 # include # define globfree dos_wglobfree # define glob_t wglob_t #else # ifndef GLOB_QUOTE # define GLOB_QUOTE 0 # endif #endif attribute_hidden SEXP do_glob(SEXP call, SEXP op, SEXP args, SEXP env) { SEXP x, ans; R_xlen_t i, n; int res, dirmark, initialized=FALSE; glob_t globbuf; #ifdef Win32 R_StringBuffer cbuff = {NULL, 0, MAXELTSIZE}; #endif checkArity(op, args); if (!isString(x = CAR(args))) error(_("invalid '%s' argument"), "paths"); if (!XLENGTH(x)) return allocVector(STRSXP, 0); dirmark = asLogical(CADR(args)); if (dirmark == NA_LOGICAL) error(_("invalid '%s' argument"), "dirmark"); #ifndef GLOB_MARK if (dirmark) error(_("'dirmark = TRUE' is not supported on this platform")); #endif for (i = 0; i < XLENGTH(x); i++) { SEXP el = STRING_ELT(x, i); if (el == NA_STRING) continue; #ifdef Win32 res = dos_wglob(filenameToWchar(el, FALSE), (dirmark ? GLOB_MARK : 0) | GLOB_QUOTE | (initialized ? GLOB_APPEND : 0), NULL, &globbuf); if (res == GLOB_NOSPACE) error(_("internal out-of-memory condition")); #else res = glob(translateChar(el), # ifdef GLOB_MARK (dirmark ? GLOB_MARK : 0) | # endif GLOB_QUOTE | (initialized ? GLOB_APPEND : 0), NULL, &globbuf); # ifdef GLOB_ABORTED if (res == GLOB_ABORTED) warning(_("read error on '%s'"), translateChar(el)); # endif # ifdef GLOB_NOSPACE if (res == GLOB_NOSPACE) error(_("internal out-of-memory condition")); # endif #endif initialized = TRUE; } n = initialized ? globbuf.gl_pathc : 0; PROTECT(ans = allocVector(STRSXP, n)); for (i = 0; i < n; i++) #ifdef Win32 { wchar_t *w = globbuf.gl_pathv[i]; char *buf; size_t nb = wcstoutf8(NULL, w, (size_t)INT_MAX + 2); buf = R_AllocStringBuffer(nb, &cbuff); wcstoutf8(buf, w, nb); SET_STRING_ELT(ans, i, mkCharCE(buf, CE_UTF8)); } #else SET_STRING_ELT(ans, i, mkChar(globbuf.gl_pathv[i])); #endif UNPROTECT(1); #ifdef Win32 R_FreeStringBufferL(&cbuff); #endif if (initialized) globfree(&globbuf); return ans; } /* isatty is in unistd.h, or io.h on Windows */ #ifdef Win32 # include #endif #ifdef Win32 int attribute_hidden R_is_redirection_tty(int fd) { /* for now detects only msys/cygwin redirection tty */ HANDLE h = (HANDLE) _get_osfhandle(fd); if (h == INVALID_HANDLE_VALUE || GetFileType(h) != FILE_TYPE_PIPE) return 0; FILE_NAME_INFO *fnInfo; /* find out the required FileNameLength */ DWORD size = sizeof(FILE_NAME_INFO); if (!(fnInfo = (FILE_NAME_INFO*)malloc(size))) return 0; fnInfo->FileNameLength = 0; /* most likely not needed */ BOOL r = GetFileInformationByHandleEx(h, FileNameInfo, fnInfo, size); if (r || GetLastError() != ERROR_MORE_DATA) { free(fnInfo); return 0; } /* use the right length */ DWORD fnLength = fnInfo->FileNameLength; /* most likely not needed */ size = sizeof(FILE_NAME_INFO) + fnLength; free(fnInfo); if (!(fnInfo = (FILE_NAME_INFO*)malloc(size))) return 0; fnInfo->FileNameLength = fnLength; r = GetFileInformationByHandleEx(h, FileNameInfo, fnInfo, size); int res = 0; if (r) /* note that fnInfo->FileName is not null terminated */ /* e.g. msys-1888ae32e00d56aa-pty0-from-master, cygwin-e022582115c10879-pty0-from-master */ /* test borrowed from git */ res = ((wcsstr(fnInfo->FileName, L"msys-") || wcsstr(fnInfo->FileName, L"cygwin-")) && wcsstr(fnInfo->FileName, L"-pty")); free(fnInfo); return res; } #endif int attribute_hidden R_isatty(int fd) { #ifdef Win32 if (R_is_redirection_tty(fd)) return 1; #endif return isatty(fd); }