/* https://github.com/peterix/dfhack Copyright (c) 2011 Petr Mrázek A thread-safe logging console with a line editor for windows. Based on linenoise win32 port, copyright 2010, Jon Griffiths . All rights reserved. Based on linenoise, copyright 2010, Salvatore Sanfilippo . The original linenoise can be found at: http://github.com/antirez/linenoise Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of Redis nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include "RemoteTools.h" #include "PluginManager.h" #include "MiscUtils.h" #include "VersionInfo.h" #include "DFHackVersion.h" #include "modules/Materials.h" #include "modules/Translation.h" #include "modules/Units.h" #include "modules/World.h" #include "LuaTools.h" #include "DataDefs.h" #include "df/ui.h" #include "df/ui_advmode.h" #include "df/world.h" #include "df/world_data.h" #include "df/unit.h" #include "df/unit_misc_trait.h" #include "df/unit_soul.h" #include "df/unit_skill.h" #include "df/material.h" #include "df/matter_state.h" #include "df/inorganic_raw.h" #include "df/creature_raw.h" #include "df/plant_raw.h" #include "df/nemesis_record.h" #include "df/historical_figure.h" #include "df/historical_entity.h" #include "df/squad.h" #include "df/squad_position.h" #include "df/incident.h" #include "BasicApi.pb.h" #include #include #include #include using namespace DFHack; using namespace df::enums; using namespace dfproto; using google::protobuf::MessageLite; void DFHack::strVectorToRepeatedField(RepeatedPtrField *pf, const std::vector &vec) { for (size_t i = 0; i < vec.size(); ++i) *pf->Add() = vec[i]; } void DFHack::describeEnum(RepeatedPtrField *pf, int base, int size, const char* const *names) { for (int i = 0; i < size; i++) { const char *key = names[i]; if (!key) continue; auto item = pf->Add(); item->set_value(base+i); item->set_name(key); } } void DFHack::describeBitfield(RepeatedPtrField *pf, int size, const bitfield_item_info *items) { for (int i = 0; i < size; i++) { const char *key = items[i].name; if (!key && items[i].size <= 1) continue; auto item = pf->Add(); item->set_value(i); if (key) item->set_name(key); if (items[i].size > 1) { item->set_bit_size(items[i].size); i += items[i].size-1; } } } void DFHack::describeMaterial(BasicMaterialInfo *info, df::material *mat, const BasicMaterialInfoMask *mask) { info->set_token(mat->id); if (mask && mask->flags()) flagarray_to_ints(info->mutable_flags(), mat->flags); if (!mat->prefix.empty()) info->set_name_prefix(mat->prefix); if (!mask || mask->states_size() == 0) { df::matter_state state = matter_state::Solid; int temp = (mask && mask->has_temperature()) ? mask->temperature() : 10015; if (temp >= mat->heat.melting_point) state = matter_state::Liquid; if (temp >= mat->heat.boiling_point) state = matter_state::Gas; info->add_state_color(mat->state_color[state]); info->add_state_name(mat->state_name[state]); info->add_state_adj(mat->state_adj[state]); } else { for (int i = 0; i < mask->states_size(); i++) { info->add_state_color(mat->state_color[i]); info->add_state_name(mat->state_name[i]); info->add_state_adj(mat->state_adj[i]); } } if (mask && mask->reaction()) { for (size_t i = 0; i < mat->reaction_class.size(); i++) info->add_reaction_class(*mat->reaction_class[i]); for (size_t i = 0; i < mat->reaction_product.id.size(); i++) { auto ptr = info->add_reaction_product(); ptr->set_id(*mat->reaction_product.id[i]); ptr->set_type(mat->reaction_product.material.mat_type[i]); ptr->set_index(mat->reaction_product.material.mat_index[i]); } } } void DFHack::describeMaterial(BasicMaterialInfo *info, const MaterialInfo &mat, const BasicMaterialInfoMask *mask) { assert(mat.isValid()); info->set_type(mat.type); info->set_index(mat.index); describeMaterial(info, mat.material, mask); switch (mat.mode) { case MaterialInfo::Inorganic: info->set_token(mat.inorganic->id); if (mask && mask->flags()) flagarray_to_ints(info->mutable_inorganic_flags(), mat.inorganic->flags); break; case MaterialInfo::Creature: info->set_subtype(mat.subtype); if (mat.figure) { info->set_histfig_id(mat.index); info->set_creature_id(mat.figure->race); } else info->set_creature_id(mat.index); break; case MaterialInfo::Plant: info->set_plant_id(mat.index); break; default: break; } } void DFHack::describeName(NameInfo *info, df::language_name *name) { if (!name->first_name.empty()) info->set_first_name(DF2UTF(name->first_name)); if (!name->nickname.empty()) info->set_nickname(DF2UTF(name->nickname)); if (name->language >= 0) info->set_language_id(name->language); std::string lname = Translation::TranslateName(name, false, true); if (!lname.empty()) info->set_last_name(DF2UTF(lname)); lname = Translation::TranslateName(name, true, true); if (!lname.empty()) info->set_english_name(DF2UTF(lname)); } void DFHack::describeNameTriple(NameTriple *info, const std::string &name, const std::string &plural, const std::string &adj) { info->set_normal(DF2UTF(name)); if (!plural.empty() && plural != name) info->set_plural(DF2UTF(plural)); if (!adj.empty() && adj != name) info->set_adjective(DF2UTF(adj)); } void DFHack::describeUnit(BasicUnitInfo *info, df::unit *unit, const BasicUnitInfoMask *mask) { info->set_unit_id(unit->id); info->set_pos_x(unit->pos.x); info->set_pos_y(unit->pos.y); info->set_pos_z(unit->pos.z); auto name = Units::getVisibleName(unit); if (name->has_name) describeName(info->mutable_name(), name); info->set_flags1(unit->flags1.whole); info->set_flags2(unit->flags2.whole); info->set_flags3(unit->flags3.whole); info->set_race(unit->race); info->set_caste(unit->caste); if (unit->sex >= 0) info->set_gender(unit->sex); if (unit->civ_id >= 0) info->set_civ_id(unit->civ_id); if (unit->hist_figure_id >= 0) info->set_histfig_id(unit->hist_figure_id); if (unit->counters.death_id >= 0) { info->set_death_id(unit->counters.death_id); if (auto death = df::incident::find(unit->counters.death_id)) info->set_death_flags(death->flags.whole); } if (mask && mask->profession()) { if (unit->profession >= (df::profession)0) info->set_profession(unit->profession); if (!unit->custom_profession.empty()) info->set_custom_profession(unit->custom_profession); if (unit->military.squad_id >= 0) { info->set_squad_id(unit->military.squad_id); info->set_squad_position(unit->military.squad_position); } } if (mask && mask->labors()) { for (size_t i = 0; i < sizeof(unit->status.labors)/sizeof(bool); i++) if (unit->status.labors[i]) info->add_labors(i); } if (mask && mask->skills() && unit->status.current_soul) { auto &vec = unit->status.current_soul->skills; for (size_t i = 0; i < vec.size(); i++) { auto skill = vec[i]; auto item = info->add_skills(); item->set_id(skill->id); item->set_level(skill->rating); item->set_experience(skill->experience); } } if (mask && mask->misc_traits()) { auto &vec = unit -> status.misc_traits; for (size_t i = 0; i < vec.size(); i++) { auto trait = vec[i]; auto item = info->add_misc_traits(); item->set_id(trait->id); item->set_value(trait->value); } } if (unit->curse.add_tags1.whole || unit->curse.add_tags2.whole || unit->curse.rem_tags1.whole || unit->curse.rem_tags2.whole || unit->curse.name_visible) { auto curse = info->mutable_curse(); curse->set_add_tags1(unit->curse.add_tags1.whole); curse->set_rem_tags1(unit->curse.rem_tags1.whole); curse->set_add_tags2(unit->curse.add_tags2.whole); curse->set_rem_tags2(unit->curse.rem_tags2.whole); if (unit->curse.name_visible) describeNameTriple(curse->mutable_name(), unit->curse.name, unit->curse.name_plural, unit->curse.name_adjective); } for (size_t i = 0; i < unit->burrows.size(); i++) info->add_burrows(unit->burrows[i]); } static command_result GetVersion(color_ostream &stream, const EmptyMessage *, StringMessage *out) { out->set_value(Version::dfhack_version()); return CR_OK; } static command_result GetDFVersion(color_ostream &stream, const EmptyMessage *, StringMessage *out) { out->set_value(Core::getInstance().vinfo->getVersion()); return CR_OK; } static command_result GetWorldInfo(color_ostream &stream, const EmptyMessage *, GetWorldInfoOut *out) { using df::global::ui; using df::global::ui_advmode; using df::global::world; if (!ui || !world || !Core::getInstance().isWorldLoaded()) return CR_NOT_FOUND; df::game_type gt = game_type::DWARF_MAIN; if (df::global::gametype) gt = *df::global::gametype; out->set_save_dir(world->cur_savegame.save_dir); if (world->world_data->name.has_name) describeName(out->mutable_world_name(), &world->world_data->name); switch (gt) { case game_type::DWARF_MAIN: case game_type::DWARF_RECLAIM: out->set_mode(GetWorldInfoOut::MODE_DWARF); out->set_civ_id(ui->civ_id); out->set_site_id(ui->site_id); out->set_group_id(ui->group_id); out->set_race_id(ui->race_id); break; case game_type::ADVENTURE_MAIN: out->set_mode(GetWorldInfoOut::MODE_ADVENTURE); if (auto unit = vector_get(world->units.active, 0)) out->set_player_unit_id(unit->id); if (!ui_advmode) break; if (auto nemesis = vector_get(world->nemesis.all, ui_advmode->player_id)) { if (nemesis->figure) out->set_player_histfig_id(nemesis->figure->id); for (size_t i = 0; i < nemesis->companions.size(); i++) { auto unm = df::nemesis_record::find(nemesis->companions[i]); if (!unm || !unm->figure) continue; out->add_companion_histfig_ids(unm->figure->id); } } break; case game_type::VIEW_LEGENDS: out->set_mode(GetWorldInfoOut::MODE_LEGENDS); break; default: return CR_NOT_FOUND; } return CR_OK; } static command_result ListEnums(color_ostream &stream, const EmptyMessage *, ListEnumsOut *out) { #define ENUM(name) describe_enum(out->mutable_##name()); #define BITFIELD(name) describe_bitfield(out->mutable_##name()); ENUM(material_flags); ENUM(inorganic_flags); BITFIELD(unit_flags1); BITFIELD(unit_flags2); BITFIELD(unit_flags3); ENUM(unit_labor); ENUM(job_skill); BITFIELD(cie_add_tag_mask1); BITFIELD(cie_add_tag_mask2); describe_bitfield(out->mutable_death_info_flags()); ENUM(profession); return CR_OK; #undef ENUM #undef BITFIELD } static command_result ListJobSkills(color_ostream &stream, const EmptyMessage *, ListJobSkillsOut *out) { auto pf_skill = out->mutable_skill(); FOR_ENUM_ITEMS(job_skill, skill) { auto item = pf_skill->Add(); item->set_id(skill); item->set_key(ENUM_KEY_STR(job_skill, skill)); item->set_caption(ENUM_ATTR_STR(job_skill, caption, skill)); item->set_caption_noun(ENUM_ATTR_STR(job_skill, caption_noun, skill)); item->set_profession(ENUM_ATTR(job_skill, profession, skill)); item->set_labor(ENUM_ATTR(job_skill, labor, skill)); item->set_type(ENUM_KEY_STR(job_skill_class, ENUM_ATTR(job_skill, type, skill))); } auto pf_profession = out->mutable_profession(); FOR_ENUM_ITEMS(profession, p) { auto item = pf_profession->Add(); item->set_id(p); item->set_key(ENUM_KEY_STR(profession, p)); item->set_caption(ENUM_ATTR_STR(profession, caption, p)); item->set_military(ENUM_ATTR(profession, military, p)); item->set_can_assign_labor(ENUM_ATTR(profession, can_assign_labor, p)); item->set_parent(ENUM_ATTR(profession, parent, p)); } auto pf_labor = out->mutable_labor(); FOR_ENUM_ITEMS(unit_labor, labor) { auto item = pf_labor->Add(); item->set_id(labor); item->set_key(ENUM_KEY_STR(unit_labor, labor)); item->set_caption(ENUM_ATTR_STR(unit_labor, caption, labor)); } return CR_OK; } static void listMaterial(ListMaterialsOut *out, int type, int index, const BasicMaterialInfoMask *mask) { MaterialInfo info(type, index); if (info.isValid()) describeMaterial(out->add_value(), info, mask); } static command_result ListMaterials(color_ostream &stream, const ListMaterialsIn *in, ListMaterialsOut *out) { auto mask = in->has_mask() ? &in->mask() : NULL; for (int i = 0; i < in->id_list_size(); i++) { auto &elt = in->id_list(i); listMaterial(out, elt.type(), elt.index(), mask); } if (in->builtin()) { for (int i = 0; i < MaterialInfo::NUM_BUILTIN; i++) listMaterial(out, i, -1, mask); } if (in->inorganic()) { auto &vec = df::inorganic_raw::get_vector(); for (size_t i = 0; i < vec.size(); i++) listMaterial(out, 0, i, mask); } if (in->creatures()) { auto &vec = df::creature_raw::get_vector(); for (size_t i = 0; i < vec.size(); i++) { auto praw = vec[i]; for (size_t j = 0; j < praw->material.size(); j++) listMaterial(out, MaterialInfo::CREATURE_BASE+j, i, mask); } } if (in->plants()) { auto &vec = df::plant_raw::get_vector(); for (size_t i = 0; i < vec.size(); i++) { auto praw = vec[i]; for (size_t j = 0; j < praw->material.size(); j++) listMaterial(out, MaterialInfo::PLANT_BASE+j, i, mask); } } return out->value_size() ? CR_OK : CR_NOT_FOUND; } static command_result ListUnits(color_ostream &stream, const ListUnitsIn *in, ListUnitsOut *out) { auto mask = in->has_mask() ? &in->mask() : NULL; if (in->id_list_size() > 0) { for (int i = 0; i < in->id_list_size(); i++) { auto unit = df::unit::find(in->id_list(i)); if (unit) describeUnit(out->add_value(), unit, mask); } } if (in->scan_all()) { auto &vec = df::unit::get_vector(); for (size_t i = 0; i < vec.size(); i++) { auto unit = vec[i]; if (in->has_race() && unit->race != in->race()) continue; if (in->has_civ_id() && unit->civ_id != in->civ_id()) continue; if (in->has_dead() && Units::isDead(unit) != in->dead()) continue; if (in->has_alive() && Units::isAlive(unit) != in->alive()) continue; if (in->has_sane() && Units::isSane(unit) != in->sane()) continue; describeUnit(out->add_value(), unit, mask); } } return out->value_size() ? CR_OK : CR_NOT_FOUND; } static command_result ListSquads(color_ostream &stream, const ListSquadsIn *in, ListSquadsOut *out) { auto entity = df::historical_entity::find(df::global::ui->group_id); if (!entity) return CR_NOT_FOUND; for (size_t i = 0; i < entity->squads.size(); i++) { auto squad = df::squad::find(entity->squads[i]); if (!squad) continue; auto item = out->add_value(); item->set_squad_id(squad->id); if (squad->name.has_name) describeName(item->mutable_name(), &squad->name); if (!squad->alias.empty()) item->set_alias(squad->alias); for (size_t j = 0; j < squad->positions.size(); j++) item->add_members(squad->positions[j]->occupant); } return CR_OK; } static command_result SetUnitLabors(color_ostream &stream, const SetUnitLaborsIn *in) { for (int i = 0; i < in->change_size(); i++) { auto change = in->change(i); auto unit = df::unit::find(change.unit_id()); if (unit) unit->status.labors[change.labor()] = change.value(); } return CR_OK; } CoreService::CoreService() { suspend_depth = 0; // These 2 methods must be first, so that they get id 0 and 1 addMethod("BindMethod", &CoreService::BindMethod, SF_DONT_SUSPEND | SF_ALLOW_REMOTE); addMethod("RunCommand", &CoreService::RunCommand, SF_DONT_SUSPEND); // Add others here: addMethod("CoreSuspend", &CoreService::CoreSuspend, SF_DONT_SUSPEND | SF_ALLOW_REMOTE); addMethod("CoreResume", &CoreService::CoreResume, SF_DONT_SUSPEND | SF_ALLOW_REMOTE); addMethod("RunLua", &CoreService::RunLua); // Functions: addFunction("GetVersion", GetVersion, SF_DONT_SUSPEND | SF_ALLOW_REMOTE); addFunction("GetDFVersion", GetDFVersion, SF_DONT_SUSPEND | SF_ALLOW_REMOTE); addFunction("GetWorldInfo", GetWorldInfo, SF_ALLOW_REMOTE); addFunction("ListEnums", ListEnums, SF_CALLED_ONCE | SF_DONT_SUSPEND | SF_ALLOW_REMOTE); addFunction("ListJobSkills", ListJobSkills, SF_CALLED_ONCE | SF_DONT_SUSPEND | SF_ALLOW_REMOTE); addFunction("ListMaterials", ListMaterials, SF_CALLED_ONCE | SF_ALLOW_REMOTE); addFunction("ListUnits", ListUnits, SF_ALLOW_REMOTE); addFunction("ListSquads", ListSquads, SF_ALLOW_REMOTE); addFunction("SetUnitLabors", SetUnitLabors, SF_ALLOW_REMOTE); } CoreService::~CoreService() { while (suspend_depth-- > 0) Core::getInstance().Resume(); } command_result CoreService::BindMethod(color_ostream &stream, const dfproto::CoreBindRequest *in, dfproto::CoreBindReply *out) { ServerFunctionBase *fn = connection()->findFunction(stream, in->plugin(), in->method()); if (!fn) { stream.printerr("RPC method not found: %s::%s\n", in->plugin().c_str(), in->method().c_str()); return CR_FAILURE; } if (fn->p_in_template->GetTypeName() != in->input_msg() || fn->p_out_template->GetTypeName() != in->output_msg()) { stream.printerr("Requested wrong signature for RPC method: %s::%s\n", in->plugin().c_str(), in->method().c_str()); return CR_FAILURE; } out->set_assigned_id(fn->getId()); return CR_OK; } command_result CoreService::RunCommand(color_ostream &stream, const dfproto::CoreRunCommandRequest *in) { std::string cmd = in->command(); std::vector args; for (int i = 0; i < in->arguments_size(); i++) args.push_back(in->arguments(i)); return Core::getInstance().runCommand(stream, cmd, args); } command_result CoreService::CoreSuspend(color_ostream &stream, const EmptyMessage*, IntMessage *cnt) { Core::getInstance().Suspend(); cnt->set_value(++suspend_depth); return CR_OK; } command_result CoreService::CoreResume(color_ostream &stream, const EmptyMessage*, IntMessage *cnt) { if (suspend_depth <= 0) return CR_WRONG_USAGE; Core::getInstance().Resume(); cnt->set_value(--suspend_depth); return CR_OK; } namespace { struct LuaFunctionData { command_result rv; const dfproto::CoreRunLuaRequest *in; StringListMessage *out; }; } command_result CoreService::RunLua(color_ostream &stream, const dfproto::CoreRunLuaRequest *in, StringListMessage *out) { auto L = Lua::Core::State; LuaFunctionData data = { CR_FAILURE, in, out }; lua_pushcfunction(L, doRunLuaFunction); lua_pushlightuserdata(L, &data); if (!Lua::Core::SafeCall(stream, 1, 0)) return CR_FAILURE; return data.rv; } int CoreService::doRunLuaFunction(lua_State *L) { color_ostream &out = *Lua::GetOutput(L); auto &args = *(LuaFunctionData*)lua_touserdata(L, 1); // Verify module name std::string module = args.in->module(); size_t len = module.size(); bool valid = false; if (len > 4) { if (module.substr(0,4) == "rpc.") valid = true; else if ((module[len-4] == '.' || module[len-4] == '-') && module.substr(len-3) != "rpc") valid = true; } if (!valid) { args.rv = CR_WRONG_USAGE; out.printerr("Only modules named rpc.* or *.rpc or *-rpc may be called.\n"); return 0; } // Prepare function and arguments lua_settop(L, 0); if (!Lua::PushModulePublic(out, L, module.c_str(), args.in->function().c_str()) || lua_isnil(L, 1)) { args.rv = CR_NOT_FOUND; return 0; } luaL_checkstack(L, args.in->arguments_size(), "too many arguments"); for (int i = 0; i < args.in->arguments_size(); i++) lua_pushstring(L, args.in->arguments(i).c_str()); // Call lua_call(L, args.in->arguments_size(), LUA_MULTRET); // Store results int nresults = lua_gettop(L); for (int i = 1; i <= nresults; i++) { size_t len; const char *data = lua_tolstring(L, i, &len); args.out->add_value(std::string(data, len)); } args.rv = CR_OK; return 0; }