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/* Copyright (C) 2002 The gtkmm Development Team
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <glibmm/exceptionhandler.h>
#include <glibmm/iochannel.h>
#include <glibmm/utility.h>
#include <glibmm/main.h>
namespace
{
// Glib::IOChannel reference counting issues:
//
// Normally, you'd expect that the C++ object stays around as long as the
// C instance does. Also Glib::wrap() usually returns always the same C++
// wrapper object for a single C instance.
//
// Unfortunately it isn't possible to implement these features if we didn't
// create the underlying GIOChannel. That is, when wrapping existing
// GIOChannel instances such as returned by e.g. g_io_channel_unix_new() or
// g_io_channel_new_file(). Neither is there a way to hook up a wrapper
// object in an existing GIOChannel, nor exists any destroy notification.
//
// So that means: If the IOChannel is implemented in C++ -- that is, our
// GlibmmIOChannel backend is used -- we use the GIOChannel reference
// counting mechanism. If the IOChannel backend is unknown, then the
// wrapper instance holds always exactly one reference to the GIOChannel.
// The wrapper object itself is then managed via our own refcounting
// mechanism. To do that a utility class ForeignIOChannel is introduced to
// override reference() and unreference().
class ForeignIOChannel : public Glib::IOChannel
{
public:
ForeignIOChannel(GIOChannel* gobject, bool take_copy)
: Glib::IOChannel(gobject, take_copy), ref_count_(0) {}
void reference() const override;
void unreference() const override;
private:
mutable int ref_count_;
};
void ForeignIOChannel::reference() const
{
++ref_count_;
}
void ForeignIOChannel::unreference() const
{
if (!(--ref_count_)) delete this;
}
} // anonymous namespace
namespace Glib
{
class GlibmmIOChannel
{
public:
GIOChannel base;
Glib::IOChannel* wrapper;
static const GIOFuncs vfunc_table;
static GIOStatus io_read(GIOChannel* channel, char* buf, gsize count,
gsize* bytes_read, GError** err);
static GIOStatus io_write(GIOChannel* channel, const char* buf, gsize count,
gsize* bytes_written, GError** err);
static GIOStatus io_seek (GIOChannel* channel, gint64 offset, GSeekType type, GError** err);
static GIOStatus io_close(GIOChannel* channel, GError** err);
static GSource* io_create_watch(GIOChannel* channel, GIOCondition condition);
static void io_free(GIOChannel* channel);
static GIOStatus io_set_flags(GIOChannel* channel, GIOFlags flags, GError** err);
static GIOFlags io_get_flags(GIOChannel* channel);
};
// static
const GIOFuncs GlibmmIOChannel::vfunc_table =
{
&GlibmmIOChannel::io_read,
&GlibmmIOChannel::io_write,
&GlibmmIOChannel::io_seek,
&GlibmmIOChannel::io_close,
&GlibmmIOChannel::io_create_watch,
&GlibmmIOChannel::io_free,
&GlibmmIOChannel::io_set_flags,
&GlibmmIOChannel::io_get_flags,
};
/**** GLib::IOChannel ******************************************************/
/* Construct a custom C++-implemented IOChannel. GlibmmIOChannel is an
* extended GIOChannel struct which allows us to hook up a pointer to this
* persistent wrapper instance.
*/
IOChannel::IOChannel()
:
gobject_ (static_cast<GIOChannel*>(g_malloc(sizeof(GlibmmIOChannel))))
{
g_io_channel_init(gobject_);
gobject_->funcs = const_cast<GIOFuncs*>(&GlibmmIOChannel::vfunc_table);
reinterpret_cast<GlibmmIOChannel*>(gobject_)->wrapper = this;
}
IOChannel::IOChannel(IOChannel&& other) noexcept
: sigc::trackable(std::move(other)),
gobject_(std::move(other.gobject_))
{
other.gobject_ = nullptr;
}
IOChannel& IOChannel::operator=(IOChannel&& other) noexcept
{
sigc::trackable::operator=(std::move(other));
release_gobject();
gobject_ = std::move(other.gobject_);
other.gobject_ = nullptr;
return *this;
}
/* Construct an IOChannel wrapper for an already created GIOChannel.
* See the comment at the top of this file for an explanation of the
* problems with this approach.
*/
IOChannel::IOChannel(GIOChannel* gobject, bool take_copy)
:
gobject_ (gobject)
{
// This ctor should never be called for GlibmmIOChannel instances.
g_assert(gobject != nullptr);
g_assert(gobject->funcs != &GlibmmIOChannel::vfunc_table);
if(take_copy)
g_io_channel_ref(gobject_);
}
void IOChannel::release_gobject()
{
if(gobject_)
{
// Check whether this IOChannel is implemented in C++, i.e. whether it
// uses our GlibmmIOChannel forwarding backend. Normally, this will never
// be true because the wrapper should only be deleted in the io_free()
// callback, which clears gobject_ before deleting. But in case the ctor
// of a derived class threw an exception the GIOChannel must be destroyed
// prematurely.
//
if(gobject_->funcs == &GlibmmIOChannel::vfunc_table)
{
// Disconnect the wrapper object so that it won't be deleted twice.
reinterpret_cast<GlibmmIOChannel*>(gobject_)->wrapper = nullptr;
}
const auto tmp_gobject = gobject_;
gobject_ = nullptr;
g_io_channel_unref(tmp_gobject);
}
}
IOChannel::~IOChannel()
{
release_gobject();
}
Glib::RefPtr<IOChannel> IOChannel::create_from_file(const std::string& filename, const std::string& mode)
{
GError* gerror = nullptr;
const auto channel = g_io_channel_new_file(filename.c_str(), mode.c_str(), &gerror);
if(gerror)
{
Glib::Error::throw_exception(gerror);
}
return Glib::wrap(channel, false);
}
Glib::RefPtr<IOChannel> IOChannel::create_from_fd(int fd)
{
return Glib::wrap(g_io_channel_unix_new(fd), false);
}
#ifdef G_OS_WIN32
Glib::RefPtr<IOChannel> IOChannel::create_from_win32_fd(int fd)
{
return Glib::wrap(g_io_channel_win32_new_fd(fd), false);
}
Glib::RefPtr<IOChannel> IOChannel::create_from_win32_socket(int socket)
{
return Glib::wrap(g_io_channel_win32_new_socket(socket), false);
}
#endif /* G_OS_WIN32 */
IOStatus IOChannel::write(const Glib::ustring& str)
{
gsize bytes_written = 0;
return write(str.data(), str.bytes(), bytes_written);
}
IOStatus IOChannel::read_line(Glib::ustring& line)
{
GError* gerror = nullptr;
gsize bytes = 0;
char* pch_buf = nullptr;
const auto status = g_io_channel_read_line(gobj(), &pch_buf, &bytes, nullptr, &gerror);
auto buf = make_unique_ptr_gfree(pch_buf);
if(gerror)
{
Glib::Error::throw_exception(gerror);
}
if(buf.get())
line.assign(buf.get(), buf.get() + bytes);
else
line.erase();
return (IOStatus) status;
}
IOStatus IOChannel::read_to_end(Glib::ustring& str)
{
GError* gerror = nullptr;
gsize bytes = 0;
char* pch_buf = nullptr;
const auto status = g_io_channel_read_to_end(gobj(), &pch_buf, &bytes, &gerror);
auto buf = make_unique_ptr_gfree(pch_buf);
if(gerror)
{
Glib::Error::throw_exception(gerror);
}
if(buf.get())
str.assign(buf.get(), buf.get() + bytes);
else
str.erase();
return (IOStatus) status;
}
IOStatus IOChannel::read(Glib::ustring& str, gsize count)
{
auto buf = make_unique_ptr_gfree(g_new(char, count));
GError* gerror = nullptr;
gsize bytes = 0;
const auto status = g_io_channel_read_chars(gobj(), buf.get(), count, &bytes, &gerror);
if(gerror)
{
Glib::Error::throw_exception(gerror);
}
if(buf.get())
str.assign(buf.get(), buf.get() + bytes);
else
str.erase();
return (IOStatus) status;
}
IOStatus IOChannel::set_encoding(const std::string& encoding)
{
GError* gerror = nullptr;
const auto status = g_io_channel_set_encoding(
gobj(), Glib::c_str_or_nullptr(encoding), &gerror);
if(gerror)
{
Glib::Error::throw_exception(gerror);
}
return (IOStatus) status;
}
std::string IOChannel::get_encoding() const
{
const char *const encoding = g_io_channel_get_encoding(gobject_);
return convert_const_gchar_ptr_to_stdstring(encoding);
}
void IOChannel::set_line_term(const std::string& term)
{
if(term.empty())
g_io_channel_set_line_term(gobj(), nullptr, 0);
else
g_io_channel_set_line_term(gobj(), term.data(), term.size());
}
std::string IOChannel::get_line_term() const
{
int len = 0;
const char *const term = g_io_channel_get_line_term(gobject_, &len);
return (term) ? std::string(term, len) : std::string();
}
Glib::RefPtr<IOSource> IOChannel::create_watch(IOCondition condition)
{
// The corresponding unreference() takes place in the dtor
// of the Glib::RefPtr<IOChannel> object below.
reference();
return IOSource::create(Glib::RefPtr<IOChannel>(this), condition);
}
IOStatus IOChannel::read_vfunc(char*, gsize, gsize&)
{
g_assert_not_reached();
return IO_STATUS_ERROR;
}
IOStatus IOChannel::write_vfunc(const char*, gsize, gsize&)
{
g_assert_not_reached();
return IO_STATUS_ERROR;
}
IOStatus IOChannel::seek_vfunc(gint64, SeekType)
{
g_assert_not_reached();
return IO_STATUS_ERROR;
}
IOStatus IOChannel::close_vfunc()
{
g_assert_not_reached();
return IO_STATUS_ERROR;
}
Glib::RefPtr<Glib::Source> IOChannel::create_watch_vfunc(IOCondition)
{
g_assert_not_reached();
return Glib::RefPtr<Glib::Source>();
}
IOStatus IOChannel::set_flags_vfunc(IOFlags)
{
g_assert_not_reached();
return IO_STATUS_ERROR;
}
IOFlags IOChannel::get_flags_vfunc()
{
g_assert_not_reached();
return IOFlags(0);
}
void IOChannel::reference() const
{
g_io_channel_ref(gobject_);
}
void IOChannel::unreference() const
{
g_io_channel_unref(gobject_);
}
Glib::RefPtr<IOChannel> wrap(GIOChannel* gobject, bool take_copy)
{
IOChannel* cpp_object = nullptr;
if(gobject)
{
if(gobject->funcs == &GlibmmIOChannel::vfunc_table)
{
cpp_object = reinterpret_cast<GlibmmIOChannel*>(gobject)->wrapper;
if(take_copy && cpp_object)
cpp_object->reference();
}
else
{
cpp_object = new ForeignIOChannel(gobject, take_copy);
cpp_object->reference(); // the refcount is initially 0
}
}
return Glib::RefPtr<IOChannel>(cpp_object);
}
/**** Glib::GlibmmIOChannel ************************************************/
GIOStatus GlibmmIOChannel::io_read(GIOChannel* channel, char* buf, gsize count,
gsize* bytes_read, GError** err)
{
const auto wrapper = reinterpret_cast<GlibmmIOChannel*>(channel)->wrapper;
try
{
return (GIOStatus) wrapper->read_vfunc(buf, count, *bytes_read);
}
catch(Glib::Error& error)
{
error.propagate(err);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
return G_IO_STATUS_ERROR;
}
GIOStatus GlibmmIOChannel::io_write(GIOChannel* channel, const char* buf, gsize count,
gsize* bytes_written, GError** err)
{
const auto wrapper = reinterpret_cast<GlibmmIOChannel*>(channel)->wrapper;
try
{
return (GIOStatus) wrapper->write_vfunc(buf, count, *bytes_written);
}
catch(Glib::Error& error)
{
error.propagate(err);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
return G_IO_STATUS_ERROR;
}
GIOStatus GlibmmIOChannel::io_seek(GIOChannel* channel, gint64 offset, GSeekType type, GError** err)
{
const auto wrapper = reinterpret_cast<GlibmmIOChannel*>(channel)->wrapper;
try
{
return (GIOStatus) wrapper->seek_vfunc(offset, (SeekType) type);
}
catch(Glib::Error& error)
{
error.propagate(err);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
return G_IO_STATUS_ERROR;
}
GIOStatus GlibmmIOChannel::io_close(GIOChannel* channel, GError** err)
{
const auto wrapper = reinterpret_cast<GlibmmIOChannel*>(channel)->wrapper;
try
{
return (GIOStatus) wrapper->close_vfunc();
}
catch(Glib::Error& error)
{
error.propagate(err);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
return G_IO_STATUS_ERROR;
}
// static
GSource* GlibmmIOChannel::io_create_watch(GIOChannel* channel, GIOCondition condition)
{
const auto wrapper = reinterpret_cast<GlibmmIOChannel*>(channel)->wrapper;
try
{
const auto source = wrapper->create_watch_vfunc((IOCondition) condition);
return (source) ? source->gobj_copy() : nullptr;
}
catch(...)
{
Glib::exception_handlers_invoke();
}
return nullptr;
}
// static
void GlibmmIOChannel::io_free(GIOChannel* channel)
{
if(IOChannel *const wrapper = reinterpret_cast<GlibmmIOChannel*>(channel)->wrapper)
{
wrapper->gobject_ = nullptr;
delete wrapper;
}
g_free(channel);
}
GIOStatus GlibmmIOChannel::io_set_flags(GIOChannel* channel, GIOFlags flags, GError** err)
{
const auto wrapper = reinterpret_cast<GlibmmIOChannel*>(channel)->wrapper;
try
{
return (GIOStatus) wrapper->set_flags_vfunc((IOFlags) flags);
}
catch(Glib::Error& error)
{
error.propagate(err);
}
catch(...)
{
Glib::exception_handlers_invoke();
}
return G_IO_STATUS_ERROR;
}
// static
GIOFlags GlibmmIOChannel::io_get_flags(GIOChannel* channel)
{
const auto wrapper = reinterpret_cast<GlibmmIOChannel*>(channel)->wrapper;
try
{
return (GIOFlags) wrapper->get_flags_vfunc();
}
catch(...)
{
Glib::exception_handlers_invoke();
}
return GIOFlags(0);
}
} // namespace Glib
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