/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "xpcom-private.h" //----------------------------------------------------------------------------- // XP_MACOSX or ANDROID //----------------------------------------------------------------------------- #if defined(XP_MACOSX) || defined(ANDROID) #include "nsAString.h" #include "nsReadableUtils.h" #include "nsString.h" nsresult NS_CopyNativeToUnicode(const nsACString& aInput, nsAString& aOutput) { CopyUTF8toUTF16(aInput, aOutput); return NS_OK; } nsresult NS_CopyUnicodeToNative(const nsAString& aInput, nsACString& aOutput) { CopyUTF16toUTF8(aInput, aOutput); return NS_OK; } void NS_StartupNativeCharsetUtils() { } void NS_ShutdownNativeCharsetUtils() { } //----------------------------------------------------------------------------- // XP_UNIX //----------------------------------------------------------------------------- #elif defined(XP_UNIX) #include // mbtowc, wctomb #include // setlocale #include "mozilla/Mutex.h" #include "nscore.h" #include "nsAString.h" #include "nsReadableUtils.h" using namespace mozilla; // // choose a conversion library. we used to use mbrtowc/wcrtomb under Linux, // but that doesn't work for non-BMP characters whether we use '-fshort-wchar' // or not (see bug 206811 and // news://news.mozilla.org:119/bajml3$fvr1@ripley.netscape.com). we now use // iconv for all platforms where nltypes.h and nllanginfo.h are present // along with iconv. // #if defined(HAVE_ICONV) && defined(HAVE_NL_TYPES_H) && defined(HAVE_LANGINFO_CODESET) #define USE_ICONV 1 #else #define USE_STDCONV 1 #endif static void isolatin1_to_utf16(const char** aInput, uint32_t* aInputLeft, char16_t** aOutput, uint32_t* aOutputLeft) { while (*aInputLeft && *aOutputLeft) { **aOutput = (unsigned char)** aInput; (*aInput)++; (*aInputLeft)--; (*aOutput)++; (*aOutputLeft)--; } } static void utf16_to_isolatin1(const char16_t** aInput, uint32_t* aInputLeft, char** aOutput, uint32_t* aOutputLeft) { while (*aInputLeft && *aOutputLeft) { **aOutput = (unsigned char)**aInput; (*aInput)++; (*aInputLeft)--; (*aOutput)++; (*aOutputLeft)--; } } //----------------------------------------------------------------------------- // conversion using iconv //----------------------------------------------------------------------------- #if defined(USE_ICONV) #include // CODESET #include // nl_langinfo #include // iconv_open, iconv, iconv_close #include #include "plstr.h" #if defined(HAVE_ICONV_WITH_CONST_INPUT) #define ICONV_INPUT(x) (x) #else #define ICONV_INPUT(x) ((char **)x) #endif // solaris definitely needs this, but we'll enable it by default // just in case... but we know for sure that iconv(3) in glibc // doesn't need this. #if !defined(__GLIBC__) #define ENABLE_UTF8_FALLBACK_SUPPORT #endif #define INVALID_ICONV_T ((iconv_t)-1) static inline size_t xp_iconv(iconv_t converter, const char** aInput, size_t* aInputLeft, char** aOutput, size_t* aOutputLeft) { size_t res, outputAvail = aOutputLeft ? *aOutputLeft : 0; res = iconv(converter, ICONV_INPUT(aInput), aInputLeft, aOutput, aOutputLeft); if (res == (size_t)-1) { // on some platforms (e.g., linux) iconv will fail with // E2BIG if it cannot convert _all_ of its input. it'll // still adjust all of the in/out params correctly, so we // can ignore this error. the assumption is that we will // be called again to complete the conversion. if ((errno == E2BIG) && (*aOutputLeft < outputAvail)) { res = 0; } } return res; } static inline void xp_iconv_reset(iconv_t converter) { // NOTE: the man pages on Solaris claim that you can pass nullptr // for all parameter to reset the converter, but beware the // evil Solaris crash if you go down this route >:-) const char* zero_char_in_ptr = nullptr; char* zero_char_out_ptr = nullptr; size_t zero_size_in = 0; size_t zero_size_out = 0; xp_iconv(converter, &zero_char_in_ptr, &zero_size_in, &zero_char_out_ptr, &zero_size_out); } static inline iconv_t xp_iconv_open(const char** to_list, const char** from_list) { iconv_t res; const char** from_name; const char** to_name; // try all possible combinations to locate a converter. to_name = to_list; while (*to_name) { if (**to_name) { from_name = from_list; while (*from_name) { if (**from_name) { res = iconv_open(*to_name, *from_name); if (res != INVALID_ICONV_T) { return res; } } from_name++; } } to_name++; } return INVALID_ICONV_T; } /* * char16_t[] is NOT a UCS-2 array BUT a UTF-16 string. Therefore, we * have to use UTF-16 with iconv(3) on platforms where it's supported. * However, the way UTF-16 and UCS-2 are interpreted varies across platforms * and implementations of iconv(3). On Tru64, it also depends on the environment * variable. To avoid the trouble arising from byte-swapping * (bug 208809), we have to try UTF-16LE/BE and UCS-2LE/BE before falling * back to UTF-16 and UCS-2 and variants. We assume that UTF-16 and UCS-2 * on systems without UTF-16LE/BE and UCS-2LE/BE have the native endianness, * which isn't the case of glibc 2.1.x, for which we use 'UNICODELITTLE' * and 'UNICODEBIG'. It's also not true of Tru64 V4 when the environment * variable ICONV_BYTEORDER is set to 'big-endian', about which not much * can be done other than adding a note in the release notes. (bug 206811) */ static const char* UTF_16_NAMES[] = { #if defined(IS_LITTLE_ENDIAN) "UTF-16LE", #if defined(__GLIBC__) "UNICODELITTLE", #endif "UCS-2LE", #else "UTF-16BE", #if defined(__GLIBC__) "UNICODEBIG", #endif "UCS-2BE", #endif "UTF-16", "UCS-2", "UCS2", "UCS_2", "ucs-2", "ucs2", "ucs_2", nullptr }; #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) static const char* UTF_8_NAMES[] = { "UTF-8", "UTF8", "UTF_8", "utf-8", "utf8", "utf_8", nullptr }; #endif static const char* ISO_8859_1_NAMES[] = { "ISO-8859-1", #if !defined(__GLIBC__) "ISO8859-1", "ISO88591", "ISO_8859_1", "ISO8859_1", "iso-8859-1", "iso8859-1", "iso88591", "iso_8859_1", "iso8859_1", #endif nullptr }; class nsNativeCharsetConverter { public: nsNativeCharsetConverter(); ~nsNativeCharsetConverter(); nsresult NativeToUnicode(const char** aInput, uint32_t* aInputLeft, char16_t** aOutput, uint32_t* aOutputLeft); nsresult UnicodeToNative(const char16_t** aInput, uint32_t* aInputLeft, char** aOutput, uint32_t* aOutputLeft); static void GlobalInit(); static void GlobalShutdown(); static bool IsNativeUTF8(); private: static iconv_t gNativeToUnicode; static iconv_t gUnicodeToNative; #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) static iconv_t gNativeToUTF8; static iconv_t gUTF8ToNative; static iconv_t gUnicodeToUTF8; static iconv_t gUTF8ToUnicode; #endif static Mutex* gLock; static bool gInitialized; static bool gIsNativeUTF8; static void LazyInit(); static void Lock() { if (gLock) { gLock->Lock(); } } static void Unlock() { if (gLock) { gLock->Unlock(); } } }; iconv_t nsNativeCharsetConverter::gNativeToUnicode = INVALID_ICONV_T; iconv_t nsNativeCharsetConverter::gUnicodeToNative = INVALID_ICONV_T; #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) iconv_t nsNativeCharsetConverter::gNativeToUTF8 = INVALID_ICONV_T; iconv_t nsNativeCharsetConverter::gUTF8ToNative = INVALID_ICONV_T; iconv_t nsNativeCharsetConverter::gUnicodeToUTF8 = INVALID_ICONV_T; iconv_t nsNativeCharsetConverter::gUTF8ToUnicode = INVALID_ICONV_T; #endif Mutex* nsNativeCharsetConverter::gLock = nullptr; bool nsNativeCharsetConverter::gInitialized = false; bool nsNativeCharsetConverter::gIsNativeUTF8 = false; void nsNativeCharsetConverter::LazyInit() { // LazyInit may be called before NS_StartupNativeCharsetUtils, but // the setlocale it does has to be called before nl_langinfo. Like in // NS_StartupNativeCharsetUtils, assume we are called early enough that // we are the first to care about the locale's charset. if (!gLock) { setlocale(LC_CTYPE, ""); } const char* blank_list[] = { "", nullptr }; const char** native_charset_list = blank_list; const char* native_charset = nl_langinfo(CODESET); if (!native_charset) { NS_ERROR("native charset is unknown"); // fallback to ISO-8859-1 native_charset_list = ISO_8859_1_NAMES; } else { native_charset_list[0] = native_charset; } // Most, if not all, Unixen supporting UTF-8 and nl_langinfo(CODESET) // return 'UTF-8' (or 'utf-8') if (!PL_strcasecmp(native_charset, "UTF-8")) { gIsNativeUTF8 = true; } gNativeToUnicode = xp_iconv_open(UTF_16_NAMES, native_charset_list); gUnicodeToNative = xp_iconv_open(native_charset_list, UTF_16_NAMES); #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) if (gNativeToUnicode == INVALID_ICONV_T) { gNativeToUTF8 = xp_iconv_open(UTF_8_NAMES, native_charset_list); gUTF8ToUnicode = xp_iconv_open(UTF_16_NAMES, UTF_8_NAMES); NS_ASSERTION(gNativeToUTF8 != INVALID_ICONV_T, "no native to utf-8 converter"); NS_ASSERTION(gUTF8ToUnicode != INVALID_ICONV_T, "no utf-8 to utf-16 converter"); } if (gUnicodeToNative == INVALID_ICONV_T) { gUnicodeToUTF8 = xp_iconv_open(UTF_8_NAMES, UTF_16_NAMES); gUTF8ToNative = xp_iconv_open(native_charset_list, UTF_8_NAMES); NS_ASSERTION(gUnicodeToUTF8 != INVALID_ICONV_T, "no utf-16 to utf-8 converter"); NS_ASSERTION(gUTF8ToNative != INVALID_ICONV_T, "no utf-8 to native converter"); } #else NS_ASSERTION(gNativeToUnicode != INVALID_ICONV_T, "no native to utf-16 converter"); NS_ASSERTION(gUnicodeToNative != INVALID_ICONV_T, "no utf-16 to native converter"); #endif /* * On Solaris 8 (and newer?), the iconv modules converting to UCS-2 * prepend a byte order mark unicode character (BOM, u+FEFF) during * the first use of the iconv converter. The same is the case of * glibc 2.2.9x and Tru64 V5 (see bug 208809) when 'UTF-16' is used. * However, we use 'UTF-16LE/BE' in both cases, instead so that we * should be safe. But just in case... * * This dummy conversion gets rid of the BOMs and fixes bug 153562. */ char dummy_input[1] = { ' ' }; char dummy_output[4]; if (gNativeToUnicode != INVALID_ICONV_T) { const char* input = dummy_input; size_t input_left = sizeof(dummy_input); char* output = dummy_output; size_t output_left = sizeof(dummy_output); xp_iconv(gNativeToUnicode, &input, &input_left, &output, &output_left); } #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) if (gUTF8ToUnicode != INVALID_ICONV_T) { const char* input = dummy_input; size_t input_left = sizeof(dummy_input); char* output = dummy_output; size_t output_left = sizeof(dummy_output); xp_iconv(gUTF8ToUnicode, &input, &input_left, &output, &output_left); } #endif gInitialized = true; } void nsNativeCharsetConverter::GlobalInit() { gLock = new Mutex("nsNativeCharsetConverter.gLock"); } void nsNativeCharsetConverter::GlobalShutdown() { delete gLock; gLock = nullptr; if (gNativeToUnicode != INVALID_ICONV_T) { iconv_close(gNativeToUnicode); gNativeToUnicode = INVALID_ICONV_T; } if (gUnicodeToNative != INVALID_ICONV_T) { iconv_close(gUnicodeToNative); gUnicodeToNative = INVALID_ICONV_T; } #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) if (gNativeToUTF8 != INVALID_ICONV_T) { iconv_close(gNativeToUTF8); gNativeToUTF8 = INVALID_ICONV_T; } if (gUTF8ToNative != INVALID_ICONV_T) { iconv_close(gUTF8ToNative); gUTF8ToNative = INVALID_ICONV_T; } if (gUnicodeToUTF8 != INVALID_ICONV_T) { iconv_close(gUnicodeToUTF8); gUnicodeToUTF8 = INVALID_ICONV_T; } if (gUTF8ToUnicode != INVALID_ICONV_T) { iconv_close(gUTF8ToUnicode); gUTF8ToUnicode = INVALID_ICONV_T; } #endif gInitialized = false; } nsNativeCharsetConverter::nsNativeCharsetConverter() { Lock(); if (!gInitialized) { LazyInit(); } } nsNativeCharsetConverter::~nsNativeCharsetConverter() { // reset converters for next time if (gNativeToUnicode != INVALID_ICONV_T) { xp_iconv_reset(gNativeToUnicode); } if (gUnicodeToNative != INVALID_ICONV_T) { xp_iconv_reset(gUnicodeToNative); } #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) if (gNativeToUTF8 != INVALID_ICONV_T) { xp_iconv_reset(gNativeToUTF8); } if (gUTF8ToNative != INVALID_ICONV_T) { xp_iconv_reset(gUTF8ToNative); } if (gUnicodeToUTF8 != INVALID_ICONV_T) { xp_iconv_reset(gUnicodeToUTF8); } if (gUTF8ToUnicode != INVALID_ICONV_T) { xp_iconv_reset(gUTF8ToUnicode); } #endif Unlock(); } nsresult nsNativeCharsetConverter::NativeToUnicode(const char** aInput, uint32_t* aInputLeft, char16_t** aOutput, uint32_t* aOutputLeft) { size_t res = 0; size_t inLeft = (size_t)*aInputLeft; size_t outLeft = (size_t)*aOutputLeft * 2; if (gNativeToUnicode != INVALID_ICONV_T) { res = xp_iconv(gNativeToUnicode, aInput, &inLeft, (char**)aOutput, &outLeft); *aInputLeft = inLeft; *aOutputLeft = outLeft / 2; if (res != (size_t)-1) { return NS_OK; } NS_WARNING("conversion from native to utf-16 failed"); // reset converter xp_iconv_reset(gNativeToUnicode); } #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) else if ((gNativeToUTF8 != INVALID_ICONV_T) && (gUTF8ToUnicode != INVALID_ICONV_T)) { // convert first to UTF8, then from UTF8 to UCS2 const char* in = *aInput; char ubuf[1024]; // we assume we're always called with enough space in |aOutput|, // so convert many chars at a time... while (inLeft) { char* p = ubuf; size_t n = sizeof(ubuf); res = xp_iconv(gNativeToUTF8, &in, &inLeft, &p, &n); if (res == (size_t)-1) { NS_ERROR("conversion from native to utf-8 failed"); break; } NS_ASSERTION(outLeft > 0, "bad assumption"); p = ubuf; n = sizeof(ubuf) - n; res = xp_iconv(gUTF8ToUnicode, (const char**)&p, &n, (char**)aOutput, &outLeft); if (res == (size_t)-1) { NS_ERROR("conversion from utf-8 to utf-16 failed"); break; } } (*aInput) += (*aInputLeft - inLeft); *aInputLeft = inLeft; *aOutputLeft = outLeft / 2; if (res != (size_t)-1) { return NS_OK; } // reset converters xp_iconv_reset(gNativeToUTF8); xp_iconv_reset(gUTF8ToUnicode); } #endif // fallback: zero-pad and hope for the best // XXX This is lame and we have to do better. isolatin1_to_utf16(aInput, aInputLeft, aOutput, aOutputLeft); return NS_OK; } nsresult nsNativeCharsetConverter::UnicodeToNative(const char16_t** aInput, uint32_t* aInputLeft, char** aOutput, uint32_t* aOutputLeft) { size_t res = 0; size_t inLeft = (size_t)*aInputLeft * 2; size_t outLeft = (size_t)*aOutputLeft; if (gUnicodeToNative != INVALID_ICONV_T) { res = xp_iconv(gUnicodeToNative, (const char**)aInput, &inLeft, aOutput, &outLeft); *aInputLeft = inLeft / 2; *aOutputLeft = outLeft; if (res != (size_t)-1) { return NS_OK; } NS_ERROR("iconv failed"); // reset converter xp_iconv_reset(gUnicodeToNative); } #if defined(ENABLE_UTF8_FALLBACK_SUPPORT) else if ((gUnicodeToUTF8 != INVALID_ICONV_T) && (gUTF8ToNative != INVALID_ICONV_T)) { const char* in = (const char*)*aInput; char ubuf[6]; // max utf-8 char length (really only needs to be 4 bytes) // convert one uchar at a time... while (inLeft && outLeft) { char* p = ubuf; size_t n = sizeof(ubuf), one_uchar = sizeof(char16_t); res = xp_iconv(gUnicodeToUTF8, &in, &one_uchar, &p, &n); if (res == (size_t)-1) { NS_ERROR("conversion from utf-16 to utf-8 failed"); break; } p = ubuf; n = sizeof(ubuf) - n; res = xp_iconv(gUTF8ToNative, (const char**)&p, &n, aOutput, &outLeft); if (res == (size_t)-1) { if (errno == E2BIG) { // not enough room for last uchar... back up and return. in -= sizeof(char16_t); res = 0; } else { NS_ERROR("conversion from utf-8 to native failed"); } break; } inLeft -= sizeof(char16_t); } (*aInput) += (*aInputLeft - inLeft / 2); *aInputLeft = inLeft / 2; *aOutputLeft = outLeft; if (res != (size_t)-1) { return NS_OK; } // reset converters xp_iconv_reset(gUnicodeToUTF8); xp_iconv_reset(gUTF8ToNative); } #endif // fallback: truncate and hope for the best // XXX This is lame and we have to do better. utf16_to_isolatin1(aInput, aInputLeft, aOutput, aOutputLeft); return NS_OK; } bool nsNativeCharsetConverter::IsNativeUTF8() { if (!gInitialized) { Lock(); if (!gInitialized) { LazyInit(); } Unlock(); } return gIsNativeUTF8; } #endif // USE_ICONV //----------------------------------------------------------------------------- // conversion using mb[r]towc/wc[r]tomb //----------------------------------------------------------------------------- #if defined(USE_STDCONV) #if defined(HAVE_WCRTOMB) || defined(HAVE_MBRTOWC) #include // mbrtowc, wcrtomb #endif class nsNativeCharsetConverter { public: nsNativeCharsetConverter(); nsresult NativeToUnicode(const char** aInput, uint32_t* aInputLeft, char16_t** aOutput, uint32_t* aOutputLeft); nsresult UnicodeToNative(const char16_t** aInput, uint32_t* aInputLeft, char** aOutput, uint32_t* aOutputLeft); static void GlobalInit(); static void GlobalShutdown() { } static bool IsNativeUTF8(); private: static bool gWCharIsUnicode; #if defined(HAVE_WCRTOMB) || defined(HAVE_MBRTOWC) mbstate_t ps; #endif }; bool nsNativeCharsetConverter::gWCharIsUnicode = false; nsNativeCharsetConverter::nsNativeCharsetConverter() { #if defined(HAVE_WCRTOMB) || defined(HAVE_MBRTOWC) memset(&ps, 0, sizeof(ps)); #endif } void nsNativeCharsetConverter::GlobalInit() { // verify that wchar_t for the current locale is actually unicode. // if it is not, then we should avoid calling mbtowc/wctomb and // just fallback on zero-pad/truncation conversion. // // this test cannot be done at build time because the encoding of // wchar_t may depend on the runtime locale. sad, but true!! // // so, if wchar_t is unicode then converting an ASCII character // to wchar_t should not change its numeric value. we'll just // check what happens with the ASCII 'a' character. // // this test is not perfect... obviously, it could yield false // positives, but then at least ASCII text would be converted // properly (or maybe just the 'a' character) -- oh well :( char a = 'a'; unsigned int w = 0; int res = mbtowc((wchar_t*)&w, &a, 1); gWCharIsUnicode = (res != -1 && w == 'a'); #ifdef DEBUG if (!gWCharIsUnicode) { NS_WARNING("wchar_t is not unicode (unicode conversion will be lossy)"); } #endif } nsresult nsNativeCharsetConverter::NativeToUnicode(const char** aInput, uint32_t* aInputLeft, char16_t** aOutput, uint32_t* aOutputLeft) { if (gWCharIsUnicode) { int incr; // cannot use wchar_t here since it may have been redefined (e.g., // via -fshort-wchar). hopefully, sizeof(tmp) is sufficient XP. unsigned int tmp = 0; while (*aInputLeft && *aOutputLeft) { #ifdef HAVE_MBRTOWC incr = (int)mbrtowc((wchar_t*)&tmp, *aInput, *aInputLeft, &ps); #else // XXX is this thread-safe? incr = (int)mbtowc((wchar_t*)&tmp, *aInput, *aInputLeft); #endif if (incr < 0) { NS_WARNING("mbtowc failed: possible charset mismatch"); // zero-pad and hope for the best tmp = (unsigned char)**aInput; incr = 1; } ** aOutput = (char16_t)tmp; (*aInput) += incr; (*aInputLeft) -= incr; (*aOutput)++; (*aOutputLeft)--; } } else { // wchar_t isn't unicode, so the best we can do is treat the // input as if it is isolatin1 :( isolatin1_to_utf16(aInput, aInputLeft, aOutput, aOutputLeft); } return NS_OK; } nsresult nsNativeCharsetConverter::UnicodeToNative(const char16_t** aInput, uint32_t* aInputLeft, char** aOutput, uint32_t* aOutputLeft) { if (gWCharIsUnicode) { int incr; while (*aInputLeft && *aOutputLeft >= MB_CUR_MAX) { #ifdef HAVE_WCRTOMB incr = (int)wcrtomb(*aOutput, (wchar_t)**aInput, &ps); #else // XXX is this thread-safe? incr = (int)wctomb(*aOutput, (wchar_t)**aInput); #endif if (incr < 0) { NS_WARNING("mbtowc failed: possible charset mismatch"); ** aOutput = (unsigned char)**aInput; // truncate incr = 1; } // most likely we're dead anyways if this assertion should fire NS_ASSERTION(uint32_t(incr) <= *aOutputLeft, "wrote beyond end of string"); (*aOutput) += incr; (*aOutputLeft) -= incr; (*aInput)++; (*aInputLeft)--; } } else { // wchar_t isn't unicode, so the best we can do is treat the // input as if it is isolatin1 :( utf16_to_isolatin1(aInput, aInputLeft, aOutput, aOutputLeft); } return NS_OK; } // XXX : for now, return false bool nsNativeCharsetConverter::IsNativeUTF8() { return false; } #endif // USE_STDCONV //----------------------------------------------------------------------------- // API implementation //----------------------------------------------------------------------------- nsresult NS_CopyNativeToUnicode(const nsACString& aInput, nsAString& aOutput) { aOutput.Truncate(); uint32_t inputLen = aInput.Length(); nsACString::const_iterator iter; aInput.BeginReading(iter); // // OPTIMIZATION: preallocate space for largest possible result; convert // directly into the result buffer to avoid intermediate buffer copy. // // this will generally result in a larger allocation, but that seems // better than an extra buffer copy. // if (!aOutput.SetLength(inputLen, fallible)) { return NS_ERROR_OUT_OF_MEMORY; } nsAString::iterator out_iter; aOutput.BeginWriting(out_iter); char16_t* result = out_iter.get(); uint32_t resultLeft = inputLen; const char* buf = iter.get(); uint32_t bufLeft = inputLen; nsNativeCharsetConverter conv; nsresult rv = conv.NativeToUnicode(&buf, &bufLeft, &result, &resultLeft); if (NS_SUCCEEDED(rv)) { NS_ASSERTION(bufLeft == 0, "did not consume entire input buffer"); aOutput.SetLength(inputLen - resultLeft); } return rv; } nsresult NS_CopyUnicodeToNative(const nsAString& aInput, nsACString& aOutput) { aOutput.Truncate(); nsAString::const_iterator iter, end; aInput.BeginReading(iter); aInput.EndReading(end); // cannot easily avoid intermediate buffer copy. char temp[4096]; nsNativeCharsetConverter conv; const char16_t* buf = iter.get(); uint32_t bufLeft = Distance(iter, end); while (bufLeft) { char* p = temp; uint32_t tempLeft = sizeof(temp); nsresult rv = conv.UnicodeToNative(&buf, &bufLeft, &p, &tempLeft); if (NS_FAILED(rv)) { return rv; } if (tempLeft < sizeof(temp)) { aOutput.Append(temp, sizeof(temp) - tempLeft); } } return NS_OK; } bool NS_IsNativeUTF8() { return nsNativeCharsetConverter::IsNativeUTF8(); } void NS_StartupNativeCharsetUtils() { // // need to initialize the locale or else charset conversion will fail. // better not delay this in case some other component alters the locale // settings. // // XXX we assume that we are called early enough that we should // always be the first to care about the locale's charset. // setlocale(LC_CTYPE, ""); nsNativeCharsetConverter::GlobalInit(); } void NS_ShutdownNativeCharsetUtils() { nsNativeCharsetConverter::GlobalShutdown(); } //----------------------------------------------------------------------------- // XP_WIN //----------------------------------------------------------------------------- #elif defined(XP_WIN) #include #include "nsString.h" #include "nsAString.h" #include "nsReadableUtils.h" using namespace mozilla; nsresult NS_CopyNativeToUnicode(const nsACString& aInput, nsAString& aOutput) { uint32_t inputLen = aInput.Length(); nsACString::const_iterator iter; aInput.BeginReading(iter); const char* buf = iter.get(); // determine length of result uint32_t resultLen = 0; int n = ::MultiByteToWideChar(CP_ACP, 0, buf, inputLen, nullptr, 0); if (n > 0) { resultLen += n; } // allocate sufficient space if (!aOutput.SetLength(resultLen, fallible)) { return NS_ERROR_OUT_OF_MEMORY; } if (resultLen > 0) { nsAString::iterator out_iter; aOutput.BeginWriting(out_iter); char16_t* result = out_iter.get(); ::MultiByteToWideChar(CP_ACP, 0, buf, inputLen, wwc(result), resultLen); } return NS_OK; } nsresult NS_CopyUnicodeToNative(const nsAString& aInput, nsACString& aOutput) { uint32_t inputLen = aInput.Length(); nsAString::const_iterator iter; aInput.BeginReading(iter); char16ptr_t buf = iter.get(); // determine length of result uint32_t resultLen = 0; int n = ::WideCharToMultiByte(CP_ACP, 0, buf, inputLen, nullptr, 0, nullptr, nullptr); if (n > 0) { resultLen += n; } // allocate sufficient space if (!aOutput.SetLength(resultLen, fallible)) { return NS_ERROR_OUT_OF_MEMORY; } if (resultLen > 0) { nsACString::iterator out_iter; aOutput.BeginWriting(out_iter); // default "defaultChar" is '?', which is an illegal character on windows // file system. That will cause file uncreatable. Change it to '_' const char defaultChar = '_'; char* result = out_iter.get(); ::WideCharToMultiByte(CP_ACP, 0, buf, inputLen, result, resultLen, &defaultChar, nullptr); } return NS_OK; } // moved from widget/windows/nsToolkit.cpp int32_t NS_ConvertAtoW(const char* aStrInA, int aBufferSize, char16_t* aStrOutW) { return MultiByteToWideChar(CP_ACP, 0, aStrInA, -1, wwc(aStrOutW), aBufferSize); } int32_t NS_ConvertWtoA(const char16_t* aStrInW, int aBufferSizeOut, char* aStrOutA, const char* aDefault) { if ((!aStrInW) || (!aStrOutA) || (aBufferSizeOut <= 0)) { return 0; } int numCharsConverted = WideCharToMultiByte(CP_ACP, 0, char16ptr_t(aStrInW), -1, aStrOutA, aBufferSizeOut, aDefault, nullptr); if (!numCharsConverted) { if (GetLastError() == ERROR_INSUFFICIENT_BUFFER) { // Overflow, add missing null termination but return 0 aStrOutA[aBufferSizeOut - 1] = '\0'; } else { // Other error, clear string and return 0 aStrOutA[0] = '\0'; } } else if (numCharsConverted < aBufferSizeOut) { // Add 2nd null (really necessary?) aStrOutA[numCharsConverted] = '\0'; } return numCharsConverted; } #else #include "nsReadableUtils.h" nsresult NS_CopyNativeToUnicode(const nsACString& aInput, nsAString& aOutput) { CopyASCIItoUTF16(aInput, aOutput); return NS_OK; } nsresult NS_CopyUnicodeToNative(const nsAString& aInput, nsACString& aOutput) { LossyCopyUTF16toASCII(aInput, aOutput); return NS_OK; } void NS_StartupNativeCharsetUtils() { } void NS_ShutdownNativeCharsetUtils() { } #endif