/** * @file llluamanager_test.cpp * @author Nat Goodspeed * @date 2023-09-28 * @brief Test for llluamanager. * * $LicenseInfo:firstyear=2023&license=viewerlgpl$ * Copyright (c) 2023, Linden Research, Inc. * $/LicenseInfo$ */ // Precompiled header //#include "llviewerprecompiledheaders.h" // associated header #include "../newview/llluamanager.h" // STL headers // std headers #include // external library headers // other Linden headers #include "../llcommon/tests/StringVec.h" #include "../test/lltut.h" #include "llapp.h" #include "lldate.h" #include "llevents.h" #include "lleventcoro.h" #include "llsdutil.h" #include "lluri.h" #include "lluuid.h" #include "lua_function.h" #include "lualistener.h" #include "stringize.h" class LLTestApp : public LLApp { public: bool init() override { return true; } bool cleanup() override { return true; } bool frame() override { return true; } }; template auto listener(CALLABLE&& callable) { return [callable=std::forward(callable)] (const LLSD& data) { callable(data); return false; }; } /***************************************************************************** * TUT *****************************************************************************/ namespace tut { struct llluamanager_data { // We need an LLApp instance because LLLUAmanager uses coroutines, // which suspend, and when a coroutine suspends it checks LLApp state, // and if it's not APP_STATUS_RUNNING the coroutine terminates. LLTestApp mApp; }; typedef test_group llluamanager_group; typedef llluamanager_group::object object; llluamanager_group llluamanagergrp("llluamanager"); static struct LuaExpr { std::string desc, expr; LLSD expect; } lua_expressions[] = { { "nil", "nil", LLSD() }, { "true", "true", true }, { "false", "false", false }, { "int", "17", 17 }, { "real", "3.14", 3.14 }, { "string", "'string'", "string" }, // can't synthesize Lua userdata in Lua code: that can only be // constructed by a C function { "empty table", "{}", LLSD() }, { "nested empty table", "{ 1, 2, 3, {}, 5 }", llsd::array(1, 2, 3, LLSD(), 5) }, { "nested non-empty table", "{ 1, 2, 3, {a=0, b=1}, 5 }", llsd::array(1, 2, 3, llsd::map("a", 0, "b", 1), 5) }, }; template<> template<> void object::test<1>() { set_test_name("test Lua results"); LuaState L; for (auto& luax : lua_expressions) { auto [count, result] = LLLUAmanager::waitScriptLine(L, "return " + luax.expr); auto desc{ stringize("waitScriptLine(", luax.desc, "): ") }; // if count < 0, report Lua error message ensure_equals(desc + result.asString(), count, 1); ensure_equals(desc + "result", result, luax.expect); } } void from_lua(const std::string& desc, const std::string_view& construct, const LLSD& expect) { LLSD fromlua; LLStreamListener pump("testpump", listener([&fromlua](const LLSD& data){ fromlua = data; })); const std::string lua(stringize( "data = ", construct, "\n" "LL.post_on('testpump', data)\n" )); LuaState L; auto [count, result] = LLLUAmanager::waitScriptLine(L, lua); // We woke up again ourselves because the coroutine running Lua has // finished. But our Lua chunk didn't actually return anything, so we // expect count to be 0 and result to be undefined. ensure_equals(desc + ": " + result.asString(), count, 0); ensure_equals(desc, fromlua, expect); } template<> template<> void object::test<2>() { set_test_name("LLSD from post_on()"); for (auto& luax : lua_expressions) { from_lua(luax.desc, luax.expr, luax.expect); } } template<> template<> void object::test<3>() { set_test_name("test post_on(), get_event_pumps(), get_event_next()"); StringVec posts; LLStreamListener pump("testpump", listener([&posts](const LLSD& data) { posts.push_back(data.asString()); })); const std::string lua( "-- test post_on,get_event_pumps,get_event_next\n" "LL.post_on('testpump', 'entry')\n" "LL.post_on('testpump', 'get_event_pumps()')\n" "replypump, cmdpump = LL.get_event_pumps()\n" "LL.post_on('testpump', replypump)\n" "LL.post_on('testpump', 'get_event_next()')\n" "pump, data = LL.get_event_next()\n" "LL.post_on('testpump', data)\n" "LL.post_on('testpump', 'exit')\n" ); LuaState L; // It's important to let the startScriptLine() coroutine run // concurrently with ours until we've had a chance to post() our // reply. auto future = LLLUAmanager::startScriptLine(L, lua); StringVec expected{ "entry", "get_event_pumps()", "", "get_event_next()", "message", "exit" }; expected[2] = posts.at(2); LL_DEBUGS() << "Found pumpname '" << expected[2] << "'" << LL_ENDL; LLEventPump& luapump{ LLEventPumps::instance().obtain(expected[2]) }; LL_DEBUGS() << "Found pump '" << luapump.getName() << "', type '" << LLError::Log::classname(luapump) << "': post('" << expected[4] << "')" << LL_ENDL; luapump.post(expected[4]); auto [count, result] = future.get(); ensure_equals("post_on(): " + result.asString(), count, 0); ensure_equals("post_on() sequence", posts, expected); } void round_trip(const std::string& desc, const LLSD& send, const LLSD& expect) { LLEventMailDrop testpump("testpump"); const std::string lua( "-- test LLSD round trip\n" "replypump, cmdpump = LL.get_event_pumps()\n" "LL.post_on('testpump', replypump)\n" "pump, data = LL.get_event_next()\n" "return data\n" ); LuaState L; auto future = LLLUAmanager::startScriptLine(L, lua); // We woke up again ourselves because the coroutine running Lua has // reached the get_event_next() call, which suspends the calling C++ // coroutine (including the Lua code running on it) until we post // something to that reply pump. auto luapump{ llcoro::suspendUntilEventOn(testpump).asString() }; LLEventPumps::instance().post(luapump, send); // The C++ coroutine running the Lua script is now ready to run. Run // it so it will echo the LLSD back to us. auto [count, result] = future.get(); ensure_equals(stringize("round_trip(", desc, "): ", result.asString()), count, 1); ensure_equals(desc, result, expect); } // Define an RTItem to be used for round-trip LLSD testing: what it is, // what we send to Lua, what we expect to get back. They could be the // same. struct RTItem { RTItem(const std::string& name, const LLSD& send, const LLSD& expect): mName(name), mSend(send), mExpect(expect) {} RTItem(const std::string& name, const LLSD& both): mName(name), mSend(both), mExpect(both) {} std::string mName; LLSD mSend, mExpect; }; template<> template<> void object::test<4>() { set_test_name("LLSD round trip"); LLSD::Binary binary{ 3, 1, 4, 1, 5, 9, 2, 6, 5 }; const char* uuid{ "01234567-abcd-0123-4567-0123456789ab" }; const char* date{ "2023-10-04T21:06:00Z" }; const char* uri{ "https://secondlife.com/index.html" }; std::vector items{ RTItem("undefined", LLSD()), RTItem("true", true), RTItem("false", false), RTItem("int", 17), RTItem("real", 3.14), RTItem("int real", 27.0, 27), RTItem("string", "string"), RTItem("binary", binary), RTItem("empty array", LLSD::emptyArray(), LLSD()), RTItem("empty map", LLSD::emptyMap(), LLSD()), RTItem("UUID", LLUUID(uuid), uuid), RTItem("date", LLDate(date), date), RTItem("uri", LLURI(uri), uri) }; // scalars for (const auto& item: items) { round_trip(item.mName, item.mSend, item.mExpect); } // array LLSD send_array{ LLSD::emptyArray() }, expect_array{ LLSD::emptyArray() }; for (const auto& item: items) { send_array.append(item.mSend); expect_array.append(item.mExpect); } // exercise the array tail trimming below send_array.append(items[0].mSend); expect_array.append(items[0].mExpect); // Lua takes a table value of nil to mean: don't store this key. An // LLSD array containing undefined entries (converted to nil) leaves // "holes" in the Lua table. These will be converted back to undefined // LLSD entries -- except at the end. Trailing undefined entries are // simply omitted from the table -- so the table converts back to a // shorter LLSD array. We've constructed send_array and expect_array // according to 'items' above -- but truncate from expect_array any // trailing entries whose mSend will map to Lua nil. while (expect_array.size() > 0 && send_array[expect_array.size() - 1].isUndefined()) { expect_array.erase(expect_array.size() - 1); } round_trip("array", send_array, expect_array); // map LLSD send_map{ LLSD::emptyMap() }, expect_map{ LLSD::emptyMap() }; for (const auto& item: items) { send_map[item.mName] = item.mSend; // see comment in the expect_array truncation loop above -- // Lua never stores table entries with nil values if (item.mSend.isDefined()) { expect_map[item.mName] = item.mExpect; } } round_trip("map", send_map, expect_map); // deeply nested map: exceed Lua's default stack space (20), // i.e. verify that we have the right checkstack() calls for (int i = 0; i < 20; ++i) { LLSD new_send_map{ send_map }, new_expect_map{ expect_map }; new_send_map["nested map"] = send_map; new_expect_map["nested map"] = expect_map; send_map = new_send_map; expect_map = new_expect_map; } round_trip("nested map", send_map, expect_map); } template<> template<> void object::test<5>() { set_test_name("leap.request() from main thread"); const std::string lua( "-- leap.request() from main thread\n" "\n" "leap = require 'leap'\n" "\n" "return {\n" " a=leap.request('echo', {data='a'}).data,\n" " b=leap.request('echo', {data='b'}).data\n" "}\n" ); LLStreamListener pump( "echo", listener([](const LLSD& data) { LL_DEBUGS("Lua") << "echo pump got: " << data << LL_ENDL; sendReply(data, data); })); LuaState L; auto [count, result] = LLLUAmanager::waitScriptLine(L, lua); ensure_equals("Lua script didn't return item", count, 1); ensure_equals("echo failed", result, llsd::map("a", "a", "b", "b")); } template<> template<> void object::test<6>() { set_test_name("interleave leap.request() responses"); const std::string lua( "-- interleave leap.request() responses\n" "\n" "fiber = require('fiber')\n" "leap = require('leap')\n" "-- debug = require('printf')\n" "local function debug(...) end\n" "\n" "-- negative priority ensures catchall is always last\n" "catchall = leap.WaitFor:new(-1, 'catchall')\n" "function catchall:filter(pump, data)\n" " debug('catchall:filter(%s, %s)', pump, data)\n" " return data\n" "end\n" "\n" "-- but first, catch events with 'special' key\n" "catch_special = leap.WaitFor:new(2, 'catch_special')\n" "function catch_special:filter(pump, data)\n" " debug('catch_special:filter(%s, %s)', pump, data)\n" " return if data['special'] ~= nil then data else nil\n" "end\n" "\n" "function drain(waitfor)\n" " debug('%s start', waitfor.name)\n" " -- It seems as though we ought to be able to code this loop\n" " -- over waitfor:wait() as:\n" " -- for item in waitfor.wait, waitfor do\n" " -- However, that seems to stitch a detour through C code into\n" " -- the coroutine call stack, which prohibits coroutine.yield():\n" " -- 'attempt to yield across metamethod/C-call boundary'\n" " -- So we resort to two different calls to waitfor:wait().\n" " local item = waitfor:wait()\n" " while item do\n" " debug('%s caught %s', waitfor.name, item)\n" " item = waitfor:wait()\n" " end\n" " debug('%s done', waitfor.name)\n" "end\n" "\n" "function requester(name)\n" " debug('requester(%s) start', name)\n" " local response = leap.request('testpump', {name=name})\n" " debug('requester(%s) got %s', name, response)\n" " -- verify that the correct response was dispatched to this coroutine\n" " assert(response.name == name)\n" "end\n" "\n" "-- fiber.print_all()\n" "fiber.launch('catchall', drain, catchall)\n" "fiber.launch('catch_special', drain, catch_special)\n" "fiber.launch('requester(a)', requester, 'a')\n" "fiber.launch('requester(b)', requester, 'b')\n" ); LLSD requests; LLStreamListener pump( "testpump", listener([&requests](const LLSD& data) { LL_DEBUGS("Lua") << "testpump got: " << data << LL_ENDL; requests.append(data); })); LuaState L; auto future = LLLUAmanager::startScriptLine(L, lua); auto replyname{ L.obtainListener()->getReplyName() }; auto& replypump{ LLEventPumps::instance().obtain(replyname) }; // By the time leap.process() calls get_event_next() and wakes us up, // we expect that both requester() coroutines have posted and are // waiting for a reply. ensure_equals("didn't get both requests", requests.size(), 2); // moreover, we expect they arrived in the order they were created ensure_equals("a wasn't first", requests[0]["name"].asString(), "a"); ensure_equals("b wasn't second", requests[1]["name"].asString(), "b"); replypump.post(llsd::map("special", "K")); // respond to requester(b) FIRST replypump.post(requests[1]); replypump.post(llsd::map("name", "not special")); // now respond to requester(a) replypump.post(requests[0]); // tell leap.process() we're done replypump.post(LLSD()); auto [count, result] = future.get(); ensure_equals("leap.lua: " + result.asString(), count, 0); } template<> template<> void object::test<7>() { set_test_name("stop hanging Lua script"); const std::string lua( "-- hanging Lua script should terminate\n" "\n" "LL.get_event_next()\n" ); LuaState L; auto future = LLLUAmanager::startScriptLine(L, lua); // Poke LLTestApp to send its preliminary shutdown message. mApp.setQuitting(); // but now we have to give the startScriptLine() coroutine a chance to run auto [count, result] = future.get(); ensure_equals("killed Lua script terminated normally", count, -1); ensure_equals("unexpected killed Lua script error", result.asString(), "viewer is stopping"); } } // namespace tut