Aegisub/libaegisub/common/charset_conv.cpp

429 lines
12 KiB
C++

// Copyright (c) 2010, Thomas Goyne <plorkyeran@aegisub.org>
//
// Permission to use, copy, modify, and distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice appear in all copies.
//
// THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
// WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
// ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
// WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
// ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
// OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
/// @file charset_conv.cpp
/// @brief Wrapper for libiconv to present a more C++-friendly API
/// @ingroup libaegisub
#include <errno.h>
#include <cstdint>
#include <cassert>
#include <boost/range/algorithm.hpp>
#include <libaegisub/charset_conv.h>
#include <iconv.h>
#include "charset_6937.h"
// Check if we can use advanced fallback capabilities added in GNU's iconv
// implementation
#if !defined(_LIBICONV_VERSION) || _LIBICONV_VERSION < 0x010A || defined(LIBICONV_PLUG)
#define ICONV_POSIX
#endif
#ifdef AGI_ICONV_CONST
#define ICONV_CONST_CAST(a) a
#else
#define ICONV_CONST_CAST(a) const_cast<char **>(a)
#endif
static const iconv_t iconv_invalid = (iconv_t)-1;
static const size_t iconv_failed = (size_t)-1;
namespace {
using namespace agi::charset;
Converter *get_converter(bool subst, const char *src, const char *dst);
/// @brief Map a user-friendly encoding name to the real encoding name
const char *get_real_encoding_name(const char *name) {
struct pair { const char *pretty; const char *real; };
static pair pretty_names[] = {
# define ADD(pretty, real) pair{pretty, real},
# include <libaegisub/charsets.def>
# undef ADD
};
static bool init = false;
if (!init) {
init = true;
boost::sort(pretty_names, [](pair a, pair b) {
return strcmp(a.pretty, b.pretty) < 0;
});
}
auto enc = boost::lower_bound(pretty_names, name, [](pair a, const char *b) {
return strcmp(a.pretty, b) < 0;
});
if (enc != std::end(pretty_names) && strcmp(enc->pretty, name) == 0)
return enc->real;
return name;
}
size_t get_bom_size(Iconv& cd) {
// Most (but not all) iconv implementations automatically insert a BOM
// at the beginning of text converted to UTF-8, UTF-16 and UTF-32, but
// we usually don't want this, as some of the wxString using code
// assumes there is no BOM (as the exact encoding is known externally)
// As such, when doing conversions we will strip the BOM if it exists,
// then manually add it when writing files
char buff[8];
const char* src = "";
char *dst = buff;
size_t srcLen = 1;
size_t dstLen = 8;
size_t res = cd(&src, &srcLen, &dst, &dstLen);
assert(res != iconv_failed);
assert(srcLen == 0);
size_t size = 0;
for (src = buff; src < dst; ++src) {
if (*src) ++size;
}
if (size) {
// If there is a BOM, it will always be at least as big as the NUL
size = std::max(size, (8 - dstLen) / 2);
}
return size;
}
void eat_bom(Iconv& cd, size_t bomSize, const char** inbuf, size_t* inbytesleft, char** outbuf, size_t* outbytesleft) {
// If this encoding has a forced BOM (i.e. it's UTF-16 or UTF-32 without
// a specified byte order), skip over it
if (bomSize > 0 && inbytesleft && *inbytesleft) {
// libiconv marks the bom as written after writing the first
// character after the bom rather than when it writes the bom, so
// convert at least one extra character
char bom[8];
char *dst = bom;
size_t dstSize = std::min((size_t)8, bomSize + *outbytesleft);
const char *src = *inbuf;
size_t srcSize = *inbytesleft;
cd(&src, &srcSize, &dst, &dstSize);
}
}
// Calculate the size of NUL in the given character set
size_t nul_size(const char *encoding) {
// We need a character set to convert from with a known encoding of NUL
// UTF-8 seems like the obvious choice
std::unique_ptr<Converter> cd(get_converter(false, "UTF-8", encoding));
char dbuff[4];
char sbuff[] = "";
char* dst = dbuff;
const char* src = sbuff;
size_t dstLen = sizeof(dbuff);
size_t srcLen = 1;
size_t ret = cd->Convert(&src, &srcLen, &dst, &dstLen);
assert(ret != iconv_failed);
assert(dst - dbuff > 0);
return dst - dbuff;
}
#ifdef ICONV_POSIX
class ConverterImpl final : public Converter {
size_t bomSize;
Iconv cd;
public:
// subst is not used here because POSIX doesn't let you disable substitution
ConverterImpl(bool, const char* sourceEncoding, const char* destEncoding)
{
const char *dstEnc = get_real_encoding_name(destEncoding);
cd = Iconv("utf-8", dstEnc);
bomSize = get_bom_size(cd);
cd = Iconv(get_real_encoding_name(sourceEncoding), dstEnc);
}
size_t Convert(const char** inbuf, size_t* inbytesleft, char** outbuf, size_t* outbytesleft) {
eat_bom(cd, bomSize, inbuf, inbytesleft, outbuf, outbytesleft);
size_t res = cd(inbuf, inbytesleft, outbuf, outbytesleft);
// This loop never does anything useful with a POSIX-compliant iconv
// implementation, but those don't seem to actually exist
while (res == iconv_failed && errno != E2BIG) {
++*inbuf;
--*inbytesleft;
res = cd(inbuf, inbytesleft, outbuf, outbytesleft);
}
return res;
}
};
#else
class ConverterImpl final : public iconv_fallbacks, public Converter {
size_t bomSize;
char invalidRep[8];
size_t invalidRepSize;
Iconv cd;
static void fallback(
unsigned int code,
void (*callback) (const char *buf, size_t buflen, void* callback_arg),
void *callback_arg,
void *convPtr)
{
// At some point in the future, this should probably switch to a real mapping
// For now, there's just three cases: BOM to nothing, '\' to itself
// (for Shift-JIS, which does not have \) and everything else to '?'
if (code == 0xFEFF) return;
if (code == 0x5C) callback("\\", 1, callback_arg);
else {
ConverterImpl *self = static_cast<ConverterImpl *>(convPtr);
callback(self->invalidRep, self->invalidRepSize, callback_arg);
}
}
public:
ConverterImpl(bool subst, const char* sourceEncoding, const char* destEncoding)
{
const char *dstEnc = get_real_encoding_name(destEncoding);
cd = Iconv("utf-8", dstEnc);
bomSize = get_bom_size(cd);
// Get fallback character
const char sbuff[] = "?";
const char *src = sbuff;
char *dst = invalidRep;
size_t dstLen = 4;
size_t srcLen = 1;
size_t res = Convert(&src, &srcLen, &dst, &dstLen);
assert(res != iconv_failed);
assert(srcLen == 0);
invalidRepSize = 4 - dstLen;
cd = Iconv(get_real_encoding_name(sourceEncoding), dstEnc);
if (subst) {
data = this;
mb_to_uc_fallback = nullptr;
mb_to_wc_fallback = nullptr;
uc_to_mb_fallback = fallback;
wc_to_mb_fallback = nullptr;
int transliterate = 1;
iconvctl(cd, ICONV_SET_TRANSLITERATE, &transliterate);
iconvctl(cd, ICONV_SET_FALLBACKS, static_cast<iconv_fallbacks*>(this));
}
}
size_t Convert(const char** inbuf, size_t* inbytesleft, char** outbuf, size_t* outbytesleft) override {
eat_bom(cd, bomSize, inbuf, inbytesleft, outbuf, outbytesleft);
size_t res = cd(inbuf, inbytesleft, outbuf, outbytesleft);
if (res == iconv_failed && errno == E2BIG && *outbytesleft == 0) {
// libiconv checks if there are any bytes left in the output buffer
// before checking if the conversion would actually write any
// characters to the output buffer, resulting in occasional invalid
// E2BIG false positives
char buff[8];
size_t buffsize = 8;
char* out = buff;
const char* in = *inbuf;
size_t insize = *inbytesleft;
res = cd(&in, &insize, &out, &buffsize);
// If no bytes of the output buffer were used, the original
// conversion may have been successful
if (buffsize != 8) {
errno = E2BIG;
res = iconv_failed;
}
}
return res;
}
};
#endif
Converter *get_converter(bool subst, const char *src, const char *dst) {
try {
return new ConverterImpl(subst, src, dst);
}
catch (UnsupportedConversion const&) {
if (strcmp(dst, "ISO-6937-2"))
throw;
return new Converter6937(subst, src);
}
}
} // namespace {
namespace agi { namespace charset {
Iconv::Iconv() : cd(iconv_invalid) { }
Iconv::Iconv(const char *source, const char *dest)
: cd(iconv_open(dest, source))
{
if (cd == iconv_invalid)
throw UnsupportedConversion(std::string("Cannot convert from ") + source + " to " + dest);
}
Iconv::~Iconv() {
if (cd != iconv_invalid) iconv_close(cd);
}
size_t Iconv::operator()(const char **inbuf, size_t *inbytesleft, char **outbuf, size_t *outbytesleft) {
return iconv(cd, ICONV_CONST_CAST(inbuf), inbytesleft, outbuf, outbytesleft);
}
IconvWrapper::IconvWrapper(const char* sourceEncoding, const char* destEncoding, bool enableSubst)
: conv(get_converter(enableSubst, sourceEncoding, destEncoding))
{
// These need to be set only after we verify that the source and dest
// charsets are valid
toNulLen = nul_size(destEncoding);
fromNulLen = nul_size(sourceEncoding);
}
IconvWrapper::~IconvWrapper() { }
std::string IconvWrapper::Convert(const char *source, size_t len) {
std::string dest;
Convert(source, len, dest);
return dest;
}
void IconvWrapper::Convert(const char *src, size_t srcLen, std::string &dest) {
char buff[512];
size_t res;
do {
char *dst = buff;
size_t dstLen = sizeof(buff);
res = conv->Convert(&src, &srcLen, &dst, &dstLen);
if (res == 0) conv->Convert(nullptr, nullptr, &dst, &dstLen);
dest.append(buff, sizeof(buff) - dstLen);
} while (res == iconv_failed && errno == E2BIG);
if (res == iconv_failed) {
switch (errno) {
case EILSEQ:
case EINVAL:
throw BadInput(
"One or more characters in the input string were not valid "
"characters in the given input encoding");
default:
throw ConversionFailure("An unknown conversion failure occurred");
}
}
}
size_t IconvWrapper::Convert(const char* source, size_t sourceSize, char *dest, size_t destSize) {
if (sourceSize == (size_t)-1)
sourceSize = SrcStrLen(source);
size_t res = conv->Convert(&source, &sourceSize, &dest, &destSize);
if (res == 0) res = conv->Convert(nullptr, nullptr, &dest, &destSize);
if (res == iconv_failed) {
switch (errno) {
case E2BIG:
throw BufferTooSmall(
"Destination buffer was not large enough to fit converted "
"string.");
case EINVAL:
case EILSEQ:
throw BadInput(
"One or more characters in the input string were not valid "
"characters in the given input encoding");
default:
throw ConversionFailure("An unknown conversion failure occurred");
}
}
return res;
}
size_t IconvWrapper::Convert(const char** source, size_t* sourceSize, char** dest, size_t* destSize) {
return conv->Convert(source, sourceSize, dest, destSize);
}
size_t IconvWrapper::RequiredBufferSize(std::string const& str) {
return RequiredBufferSize(str.data(), str.size());
}
size_t IconvWrapper::RequiredBufferSize(const char* src, size_t srcLen) {
char buff[512];
size_t charsWritten = 0;
size_t res;
do {
char* dst = buff;
size_t dstSize = sizeof(buff);
res = conv->Convert(&src, &srcLen, &dst, &dstSize);
conv->Convert(nullptr, nullptr, &dst, &dstSize);
charsWritten += dst - buff;
} while (res == iconv_failed && errno == E2BIG);
if (res == iconv_failed) {
switch (errno) {
case EINVAL:
case EILSEQ:
throw BadInput(
"One or more characters in the input string were not valid "
"characters in the given input encoding");
default:
throw ConversionFailure("An unknown conversion failure occurred");
}
}
return charsWritten;
}
static size_t mbstrlen(const char* str, size_t nulLen) {
const char *ptr;
switch (nulLen) {
case 1:
return strlen(str);
case 2:
for (ptr = str; *reinterpret_cast<const uint16_t *>(ptr) != 0; ptr += 2) ;
return ptr - str;
case 4:
for (ptr = str; *reinterpret_cast<const uint32_t *>(ptr) != 0; ptr += 4) ;
return ptr - str;
default:
return (size_t)-1;
}
}
size_t IconvWrapper::SrcStrLen(const char* str) {
return mbstrlen(str, fromNulLen);
}
size_t IconvWrapper::DstStrLen(const char* str) {
return mbstrlen(str, toNulLen);
}
bool IsConversionSupported(const char *src, const char *dst) {
iconv_t cd = iconv_open(dst, src);
bool supported = cd != iconv_invalid;
iconv_close(cd);
return supported;
}
}
}