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mkxp-z/binding-sandbox/binding-util.cpp

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/*
** binding-util.cpp
**
** This file is part of mkxp.
**
** Copyright (C) 2013 - 2021 Amaryllis Kulla <ancurio@mapleshrine.eu>
**
** mkxp 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.
**
** mkxp 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 mkxp. If not, see <http://www.gnu.org/licenses/>.
*/
#include "binding-util.h"
#include "filesystem.h"
#include "sharedstate.h"
using namespace mkxp_sandbox;
void mkxp_sandbox::set_private_data(VALUE obj, void *ptr) {
/* RGSS's behavior is to just leak memory if a disposable is reinitialized,
* with the original disposable being left permanently instantiated,
* but that's (1) bad, and (2) would currently cause memory access issues
* when things like a sprite's src_rect inevitably get GC'd, so we're not
* copying that. */
wasm_ptr_t data = sb()->rtypeddata_data(obj);
// Free the old value if it already exists (initialize called twice?)
if (sb()->ref<wasm_ptr_t>(data) != 0 && sb()->ref<void *>(sb()->ref<wasm_ptr_t>(data)) != ptr) {
sb()->rtypeddata_dfree(obj, sb()->ref<wasm_ptr_t>(data));
sb()->ref<wasm_ptr_t>(data) = 0;
}
if (sb()->ref<wasm_ptr_t>(data) == 0) {
wasm_ptr_t buf = sb()->sandbox_malloc(sizeof(void *));
sb()->ref<void *>(buf) = ptr;
sb()->ref<wasm_ptr_t>(data) = buf;
}
}
wasm_size_t get_length::operator()(VALUE obj) {
BOOST_ASIO_CORO_REENTER (this) {
SANDBOX_AWAIT_S(0, rb_intern, "length");
SANDBOX_AWAIT_S(1, rb_funcall, obj, SANDBOX_SLOT(0), 0);
SANDBOX_AWAIT_S(2, rb_num2ulong, SANDBOX_SLOT(1));
}
return SANDBOX_SLOT(2);
}
wasm_size_t get_bytesize::operator()(VALUE obj) {
BOOST_ASIO_CORO_REENTER (this) {
SANDBOX_AWAIT_S(0, rb_intern, "bytesize");
SANDBOX_AWAIT_S(1, rb_funcall, obj, SANDBOX_SLOT(0), 0);
SANDBOX_AWAIT_S(2, rb_num2ulong, SANDBOX_SLOT(1));
}
return SANDBOX_SLOT(2);
}
VALUE wrap_property::operator()(VALUE self, void *ptr, const char *iv, VALUE klass) {
BOOST_ASIO_CORO_REENTER (this) {
SANDBOX_AWAIT_S(0, rb_obj_alloc, klass);
set_private_data(SANDBOX_SLOT(0), ptr);
SANDBOX_AWAIT(rb_iv_set, self, iv, SANDBOX_SLOT(0));
}
return SANDBOX_SLOT(0);
}
void log_backtrace::operator()(VALUE exception) {
BOOST_ASIO_CORO_REENTER (this) {
SANDBOX_AWAIT(rb_p, exception);
SANDBOX_AWAIT_S(0, rb_intern, "backtrace");
SANDBOX_AWAIT_S(1, rb_funcall, exception, SANDBOX_SLOT(0), 0);
SANDBOX_AWAIT_S(0, rb_intern, "join");
SANDBOX_AWAIT_S(2, rb_str_new_cstr, "\n\t");
SANDBOX_AWAIT_S(1, rb_funcall, SANDBOX_SLOT(1), SANDBOX_SLOT(0), 1, SANDBOX_SLOT(2));
SANDBOX_AWAIT_S(3, rb_string_value_cstr, &SANDBOX_SLOT(1));
mkxp_retro::log_printf(RETRO_LOG_ERROR, "%s\n", sb()->str(SANDBOX_SLOT(3)));
}
}
VALUE mkxp_sandbox::mkxp_error_class;
VALUE mkxp_sandbox::physfs_error_class;
VALUE mkxp_sandbox::sdl_error_class;
VALUE mkxp_sandbox::rgss_error_class;
VALUE mkxp_sandbox::reset_class;
VALUE mkxp_sandbox::enoent_class;
void exception_binding_init::operator()() {
BOOST_ASIO_CORO_REENTER (this) {
SANDBOX_AWAIT_R(mkxp_error_class, rb_define_class, "MKXPError", sb()->rb_eException());
SANDBOX_AWAIT_R(physfs_error_class, rb_define_class, "PHYSFSError", sb()->rb_eException());
SANDBOX_AWAIT_R(sdl_error_class, rb_define_class, "SDLError", sb()->rb_eException());
SANDBOX_AWAIT_R(rgss_error_class, rb_define_class, "RGSSError", sb()->rb_eStandardError());
SANDBOX_AWAIT_R(reset_class, rb_define_class, rgssVer >= 3 ? "RGSSReset" : "Reset", sb()->rb_eStandardError());
SANDBOX_AWAIT_S(0, rb_intern, "Errno");
SANDBOX_AWAIT_R(enoent_class, rb_const_get, sb()->rb_cObject(), SANDBOX_SLOT(0));
SANDBOX_AWAIT_S(0, rb_intern, "ENOENT");
SANDBOX_AWAIT_R(enoent_class, rb_const_get, enoent_class, SANDBOX_SLOT(0));
}
}
void exception_raise::operator()(Exception &exception) {
BOOST_ASIO_CORO_REENTER (this) {
if (exception.type == Exception::Ok) {
return;
}
SANDBOX_AWAIT_S(0, rb_str_new_cstr, exception.msg.c_str());
if (exception.type == Exception::RGSSError) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), rgss_error_class);
} else if (exception.type == Exception::Reset) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), reset_class);
} else if (exception.type == Exception::NoFileError) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), enoent_class);
} else if (exception.type == Exception::IOError) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), sb()->rb_eIOError());
} else if (exception.type == Exception::TypeError) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), sb()->rb_eTypeError());
} else if (exception.type == Exception::ArgumentError) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), sb()->rb_eArgError());
} else if (exception.type == Exception::SystemExit) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), sb()->rb_eSystemExit());
} else if (exception.type == Exception::RuntimeError) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), sb()->rb_eRuntimeError());
} else if (exception.type == Exception::PHYSFSError) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), physfs_error_class);
} else if (exception.type == Exception::SDLError) {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), sdl_error_class);
} else {
SANDBOX_AWAIT_S(0, rb_class_new_instance, 1, &SANDBOX_SLOT(0), mkxp_error_class);
}
SANDBOX_AWAIT(rb_exc_raise, SANDBOX_SLOT(0));
}
}
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