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#include "cmUVHandlePtr.h"
#include <algorithm>
#include <chrono>
#include <iostream>
#include <thread>
#include "cm_uv.h"
static void signal_reset_fn(uv_async_t* handle)
{
auto ptr = static_cast<cm::uv_async_ptr*>(handle->data);
ptr->reset();
}
// A common pattern is to use an async signal to shutdown the server.
static bool testAsyncShutdown()
{
uv_loop_t Loop;
auto err = uv_loop_init(&Loop);
if (err != 0) {
std::cerr << "Could not init loop" << std::endl;
return false;
}
{
cm::uv_async_ptr signal;
signal.init(Loop, &signal_reset_fn, &signal);
std::thread([&] {
std::this_thread::sleep_for(std::chrono::seconds(2));
signal.send();
})
.detach();
if (uv_run(&Loop, UV_RUN_DEFAULT) != 0) {
std::cerr << "Unclean exit state in testAsyncDtor" << std::endl;
return false;
}
if (signal.get()) {
std::cerr << "Loop exited with signal not being cleaned up" << std::endl;
return false;
}
}
uv_loop_close(&Loop);
return true;
}
static void signal_fn(uv_async_t*)
{
}
// Async dtor is sort of a pain; since it locks a mutex we must be sure its
// dtor always calls reset otherwise the mutex is deleted then locked.
static bool testAsyncDtor()
{
uv_loop_t Loop;
auto err = uv_loop_init(&Loop);
if (err != 0) {
std::cerr << "Could not init loop" << std::endl;
return false;
}
{
cm::uv_async_ptr signal;
signal.init(Loop, signal_fn);
}
if (uv_run(&Loop, UV_RUN_DEFAULT) != 0) {
std::cerr << "Unclean exit state in testAsyncDtor" << std::endl;
return false;
}
uv_loop_close(&Loop);
return true;
}
// Async needs a relatively stateful deleter; make sure that is properly
// accounted for and doesn't try to hold on to invalid state when it is
// moved
static bool testAsyncMove()
{
uv_loop_t Loop;
auto err = uv_loop_init(&Loop);
if (err != 0) {
std::cerr << "Could not init loop" << std::endl;
return false;
}
{
cm::uv_async_ptr signal;
{
cm::uv_async_ptr signalTmp;
signalTmp.init(Loop, signal_fn);
signal = std::move(signalTmp);
}
}
if (uv_run(&Loop, UV_RUN_DEFAULT) != 0) {
std::cerr << "Unclean exit state in testAsyncDtor" << std::endl;
return false;
}
uv_loop_close(&Loop);
return true;
}
// When a type is castable to another uv type (pipe -> stream) here,
// and the deleter is convertible as well, we should allow moves from
// one type to the other.
static bool testCrossAssignment()
{
uv_loop_t Loop;
auto err = uv_loop_init(&Loop);
if (err != 0) {
std::cerr << "Could not init loop" << std::endl;
return false;
}
{
cm::uv_pipe_ptr pipe;
pipe.init(Loop, 0);
cm::uv_stream_ptr stream = std::move(pipe);
if (pipe.get()) {
std::cerr << "Move should be sure to invalidate the previous ptr"
<< std::endl;
return false;
}
cm::uv_handle_ptr handle = std::move(stream);
if (stream.get()) {
std::cerr << "Move should be sure to invalidate the previous ptr"
<< std::endl;
return false;
}
}
if (uv_run(&Loop, UV_RUN_DEFAULT) != 0) {
std::cerr << "Unclean exit state in testCrossAssignment" << std::endl;
return false;
}
uv_loop_close(&Loop);
return true;
}
// This test can't fail at run time; but this makes sure we have all our move
// ctors created correctly.
static bool testAllMoves()
{
using namespace cm;
struct allTypes
{
uv_stream_ptr _7;
uv_timer_ptr _8;
uv_tty_ptr _9;
uv_process_ptr _11;
uv_pipe_ptr _12;
uv_async_ptr _13;
uv_signal_ptr _14;
uv_handle_ptr _15;
};
allTypes a;
allTypes b(std::move(a));
allTypes c = std::move(b);
return true;
};
int testUVRAII(int, char** const)
{
if ((testAsyncShutdown() &&
testAsyncDtor() & testAsyncMove() & testCrossAssignment() &
testAllMoves()) == 0) {
return -1;
}
return 0;
}
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