#include "HyprCtl.hpp" #include #include #include #include #include #include #include #include #include #include #include #include static void trimTrailingComma(std::string& str) { if (!str.empty() && str.back() == ',') str.pop_back(); } static std::string getWorkspaceNameFromSpecialID(const int workspaceID) { if (workspaceID == 0) return ""; const auto* workspace = g_pCompositor->getWorkspaceByID(workspaceID); if (!workspace) return ""; return workspace->m_szName; } std::string monitorsRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string result = ""; if (format == HyprCtl::FORMAT_JSON) { result += "["; for (auto& m : g_pCompositor->m_vMonitors) { if (!m->output) continue; result += std::format( R"#({{ "id": {}, "name": "{}", "description": "{}", "make": "{}", "model": "{}", "serial": "{}", "width": {}, "height": {}, "refreshRate": {:.5f}, "x": {}, "y": {}, "activeWorkspace": {{ "id": {}, "name": "{}" }}, "specialWorkspace": {{ "id": {}, "name": "{}" }}, "reserved": [{}, {}, {}, {}], "scale": {:.2f}, "transform": {}, "focused": {}, "dpmsStatus": {}, "vrr": {}, "activelyTearing": {} }},)#", m->ID, escapeJSONStrings(m->szName), escapeJSONStrings(m->output->description ? m->output->description : ""), (m->output->make ? m->output->make : ""), (m->output->model ? m->output->model : ""), (m->output->serial ? m->output->serial : ""), (int)m->vecPixelSize.x, (int)m->vecPixelSize.y, m->refreshRate, (int)m->vecPosition.x, (int)m->vecPosition.y, m->activeWorkspace, escapeJSONStrings(g_pCompositor->getWorkspaceByID(m->activeWorkspace)->m_szName), m->specialWorkspaceID, escapeJSONStrings(getWorkspaceNameFromSpecialID(m->specialWorkspaceID)), (int)m->vecReservedTopLeft.x, (int)m->vecReservedTopLeft.y, (int)m->vecReservedBottomRight.x, (int)m->vecReservedBottomRight.y, m->scale, (int)m->transform, (m.get() == g_pCompositor->m_pLastMonitor ? "true" : "false"), (m->dpmsStatus ? "true" : "false"), (m->output->adaptive_sync_status == WLR_OUTPUT_ADAPTIVE_SYNC_ENABLED ? "true" : "false"), m->tearingState.activelyTearing ? "true" : "false"); } trimTrailingComma(result); result += "]"; } else { for (auto& m : g_pCompositor->m_vMonitors) { if (!m->output) continue; result += std::format("Monitor {} (ID {}):\n\t{}x{}@{:.5f} at {}x{}\n\tdescription: {}\n\tmake: {}\n\tmodel: {}\n\tserial: {}\n\tactive workspace: {} ({})\n\tspecial " "workspace: {} ({})\n\treserved: {} " "{} {} {}\n\tscale: {:.2f}\n\ttransform: " "{}\n\tfocused: {}\n\tdpmsStatus: {}\n\tvrr: {}\n\tactivelyTearing: {}\n\n", m->szName, m->ID, (int)m->vecPixelSize.x, (int)m->vecPixelSize.y, m->refreshRate, (int)m->vecPosition.x, (int)m->vecPosition.y, (m->output->description ? m->output->description : ""), (m->output->make ? m->output->make : ""), (m->output->model ? m->output->model : ""), (m->output->serial ? m->output->serial : ""), m->activeWorkspace, g_pCompositor->getWorkspaceByID(m->activeWorkspace)->m_szName, m->specialWorkspaceID, getWorkspaceNameFromSpecialID(m->specialWorkspaceID), (int)m->vecReservedTopLeft.x, (int)m->vecReservedTopLeft.y, (int)m->vecReservedBottomRight.x, (int)m->vecReservedBottomRight.y, m->scale, (int)m->transform, (m.get() == g_pCompositor->m_pLastMonitor ? "yes" : "no"), (int)m->dpmsStatus, (int)(m->output->adaptive_sync_status == WLR_OUTPUT_ADAPTIVE_SYNC_ENABLED), m->tearingState.activelyTearing); } } return result; } static std::string getGroupedData(CWindow* w, HyprCtl::eHyprCtlOutputFormat format) { const bool isJson = format == HyprCtl::FORMAT_JSON; if (!w->m_sGroupData.pNextWindow) return isJson ? "" : "0"; std::vector groupMembers; CWindow* curr = w; do { groupMembers.push_back(curr); curr = curr->m_sGroupData.pNextWindow; } while (curr != w); const auto comma = isJson ? ", " : ","; std::ostringstream result; bool first = true; for (auto& gw : groupMembers) { if (first) first = false; else result << comma; if (isJson) result << std::format("\"0x{:x}\"", (uintptr_t)gw); else result << std::format("{:x}", (uintptr_t)gw); } return result.str(); } static std::string getWindowData(CWindow* w, HyprCtl::eHyprCtlOutputFormat format) { if (format == HyprCtl::FORMAT_JSON) { return std::format( R"#({{ "address": "0x{:x}", "mapped": {}, "hidden": {}, "at": [{}, {}], "size": [{}, {}], "workspace": {{ "id": {}, "name": "{}" }}, "floating": {}, "monitor": {}, "class": "{}", "title": "{}", "initialClass": "{}", "initialTitle": "{}", "pid": {}, "xwayland": {}, "pinned": {}, "fullscreen": {}, "fullscreenMode": {}, "fakeFullscreen": {}, "grouped": [{}], "swallowing": "0x{:x}" }},)#", (uintptr_t)w, (w->m_bIsMapped ? "true" : "false"), (w->isHidden() ? "true" : "false"), (int)w->m_vRealPosition.goalv().x, (int)w->m_vRealPosition.goalv().y, (int)w->m_vRealSize.goalv().x, (int)w->m_vRealSize.goalv().y, w->m_iWorkspaceID, escapeJSONStrings(w->m_iWorkspaceID == -1 ? "" : g_pCompositor->getWorkspaceByID(w->m_iWorkspaceID) ? g_pCompositor->getWorkspaceByID(w->m_iWorkspaceID)->m_szName : std::string("Invalid workspace " + std::to_string(w->m_iWorkspaceID))), ((int)w->m_bIsFloating == 1 ? "true" : "false"), (int64_t)w->m_iMonitorID, escapeJSONStrings(g_pXWaylandManager->getAppIDClass(w)), escapeJSONStrings(g_pXWaylandManager->getTitle(w)), escapeJSONStrings(w->m_szInitialClass), escapeJSONStrings(w->m_szInitialTitle), w->getPID(), ((int)w->m_bIsX11 == 1 ? "true" : "false"), (w->m_bPinned ? "true" : "false"), (w->m_bIsFullscreen ? "true" : "false"), (w->m_bIsFullscreen ? (g_pCompositor->getWorkspaceByID(w->m_iWorkspaceID) ? (int)g_pCompositor->getWorkspaceByID(w->m_iWorkspaceID)->m_efFullscreenMode : 0) : 0), w->m_bFakeFullscreenState ? "true" : "false", getGroupedData(w, format), (uintptr_t)w->m_pSwallowed); } else { return std::format( "Window {:x} -> {}:\n\tmapped: {}\n\thidden: {}\n\tat: {},{}\n\tsize: {},{}\n\tworkspace: {} ({})\n\tfloating: {}\n\tmonitor: {}\n\tclass: {}\n\ttitle: " "{}\n\tinitialClass: {}\n\tinitialTitle: {}\n\tpid: " "{}\n\txwayland: {}\n\tpinned: " "{}\n\tfullscreen: {}\n\tfullscreenmode: {}\n\tfakefullscreen: {}\n\tgrouped: {}\n\tswallowing: {:x}\n\n", (uintptr_t)w, w->m_szTitle, (int)w->m_bIsMapped, (int)w->isHidden(), (int)w->m_vRealPosition.goalv().x, (int)w->m_vRealPosition.goalv().y, (int)w->m_vRealSize.goalv().x, (int)w->m_vRealSize.goalv().y, w->m_iWorkspaceID, (w->m_iWorkspaceID == -1 ? "" : g_pCompositor->getWorkspaceByID(w->m_iWorkspaceID) ? g_pCompositor->getWorkspaceByID(w->m_iWorkspaceID)->m_szName : std::string("Invalid workspace " + std::to_string(w->m_iWorkspaceID))), (int)w->m_bIsFloating, (int64_t)w->m_iMonitorID, g_pXWaylandManager->getAppIDClass(w), g_pXWaylandManager->getTitle(w), w->m_szInitialClass, w->m_szInitialTitle, w->getPID(), (int)w->m_bIsX11, (int)w->m_bPinned, (int)w->m_bIsFullscreen, (w->m_bIsFullscreen ? (g_pCompositor->getWorkspaceByID(w->m_iWorkspaceID) ? g_pCompositor->getWorkspaceByID(w->m_iWorkspaceID)->m_efFullscreenMode : 0) : 0), (int)w->m_bFakeFullscreenState, getGroupedData(w, format), (uintptr_t)w->m_pSwallowed); } } std::string clientsRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string result = ""; if (format == HyprCtl::FORMAT_JSON) { result += "["; for (auto& w : g_pCompositor->m_vWindows) { result += getWindowData(w.get(), format); } trimTrailingComma(result); result += "]"; } else { for (auto& w : g_pCompositor->m_vWindows) { result += getWindowData(w.get(), format); } } return result; } static std::string getWorkspaceData(CWorkspace* w, HyprCtl::eHyprCtlOutputFormat format) { const auto PLASTW = w->getLastFocusedWindow(); const auto PMONITOR = g_pCompositor->getMonitorFromID(w->m_iMonitorID); if (format == HyprCtl::FORMAT_JSON) { return std::format(R"#({{ "id": {}, "name": "{}", "monitor": "{}", "monitorID": {}, "windows": {}, "hasfullscreen": {}, "lastwindow": "0x{:x}", "lastwindowtitle": "{}" }})#", w->m_iID, escapeJSONStrings(w->m_szName), escapeJSONStrings(PMONITOR ? PMONITOR->szName : "?"), escapeJSONStrings(PMONITOR ? std::to_string(PMONITOR->ID) : "undefined"), g_pCompositor->getWindowsOnWorkspace(w->m_iID), ((int)w->m_bHasFullscreenWindow == 1 ? "true" : "false"), (uintptr_t)PLASTW, PLASTW ? escapeJSONStrings(PLASTW->m_szTitle) : ""); } else { return std::format("workspace ID {} ({}) on monitor {}:\n\tmonitorID: {}\n\twindows: {}\n\thasfullscreen: {}\n\tlastwindow: 0x{:x}\n\tlastwindowtitle: {}\n\n", w->m_iID, w->m_szName, PMONITOR ? PMONITOR->szName : "?", PMONITOR ? std::to_string(PMONITOR->ID) : "null", g_pCompositor->getWindowsOnWorkspace(w->m_iID), (int)w->m_bHasFullscreenWindow, (uintptr_t)PLASTW, PLASTW ? PLASTW->m_szTitle : ""); } } static std::string getWorkspaceRuleData(const SWorkspaceRule& r, HyprCtl::eHyprCtlOutputFormat format) { const auto boolToString = [](const bool b) -> std::string { return b ? "true" : "false"; }; if (format == HyprCtl::FORMAT_JSON) { const std::string monitor = r.monitor.empty() ? "" : std::format(",\n \"monitor\": \"{}\"", escapeJSONStrings(r.monitor)); const std::string default_ = (bool)(r.isDefault) ? std::format(",\n \"default\": {}", boolToString(r.isDefault)) : ""; const std::string persistent = (bool)(r.isPersistent) ? std::format(",\n \"persistent\": {}", boolToString(r.isPersistent)) : ""; const std::string gapsIn = (bool)(r.gapsIn) ? std::format(",\n \"gapsIn\": {}", r.gapsIn.value()) : ""; const std::string gapsOut = (bool)(r.gapsOut) ? std::format(",\n \"gapsOut\": {}", r.gapsOut.value()) : ""; const std::string borderSize = (bool)(r.borderSize) ? std::format(",\n \"borderSize\": {}", r.borderSize.value()) : ""; const std::string border = (bool)(r.border) ? std::format(",\n \"border\": {}", boolToString(r.border.value())) : ""; const std::string rounding = (bool)(r.rounding) ? std::format(",\n \"rounding\": {}", boolToString(r.rounding.value())) : ""; const std::string decorate = (bool)(r.decorate) ? std::format(",\n \"decorate\": {}", boolToString(r.decorate.value())) : ""; const std::string shadow = (bool)(r.shadow) ? std::format(",\n \"shadow\": {}", boolToString(r.shadow.value())) : ""; std::string result = std::format(R"#({{ "workspaceString": "{}"{}{}{}{}{}{}{}{} }})#", escapeJSONStrings(r.workspaceString), monitor, default_, persistent, gapsIn, gapsOut, borderSize, border, rounding, decorate, shadow); return result; } else { const std::string monitor = std::format("\tmonitor: {}\n", r.monitor.empty() ? "" : escapeJSONStrings(r.monitor)); const std::string default_ = std::format("\tdefault: {}\n", (bool)(r.isDefault) ? boolToString(r.isDefault) : ""); const std::string persistent = std::format("\tpersistent: {}\n", (bool)(r.isPersistent) ? boolToString(r.isPersistent) : ""); const std::string gapsIn = std::format("\tgapsIn: {}\n", (bool)(r.gapsIn) ? std::to_string(r.gapsIn.value()) : ""); const std::string gapsOut = std::format("\tgapsOut: {}\n", (bool)(r.gapsOut) ? std::to_string(r.gapsOut.value()) : ""); const std::string borderSize = std::format("\tborderSize: {}\n", (bool)(r.borderSize) ? std::to_string(r.borderSize.value()) : ""); const std::string border = std::format("\tborder: {}\n", (bool)(r.border) ? boolToString(r.border.value()) : ""); const std::string rounding = std::format("\trounding: {}\n", (bool)(r.rounding) ? boolToString(r.rounding.value()) : ""); const std::string decorate = std::format("\tdecorate: {}\n", (bool)(r.decorate) ? boolToString(r.decorate.value()) : ""); const std::string shadow = std::format("\tshadow: {}\n", (bool)(r.shadow) ? boolToString(r.shadow.value()) : ""); std::string result = std::format("Workspace rule {}:\n{}{}{}{}{}{}{}{}{}{}\n", escapeJSONStrings(r.workspaceString), monitor, default_, persistent, gapsIn, gapsOut, borderSize, border, rounding, decorate, shadow); return result; } } std::string activeWorkspaceRequest(HyprCtl::eHyprCtlOutputFormat format) { if (!g_pCompositor->m_pLastMonitor) return "unsafe state"; std::string result = ""; auto w = g_pCompositor->getWorkspaceByID(g_pCompositor->m_pLastMonitor->activeWorkspace); if (!w) return "internal error"; return getWorkspaceData(w, format); } std::string workspacesRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string result = ""; if (format == HyprCtl::FORMAT_JSON) { result += "["; for (auto& w : g_pCompositor->m_vWorkspaces) { result += getWorkspaceData(w.get(), format); result += ","; } trimTrailingComma(result); result += "]"; } else { for (auto& w : g_pCompositor->m_vWorkspaces) { result += getWorkspaceData(w.get(), format); } } return result; } std::string workspaceRulesRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string result = ""; if (format == HyprCtl::FORMAT_JSON) { result += "["; for (auto& r : g_pConfigManager->getAllWorkspaceRules()) { result += getWorkspaceRuleData(r, format); result += ","; } trimTrailingComma(result); result += "]"; } else { for (auto& r : g_pConfigManager->getAllWorkspaceRules()) { result += getWorkspaceRuleData(r, format); } } return result; } std::string activeWindowRequest(HyprCtl::eHyprCtlOutputFormat format) { const auto PWINDOW = g_pCompositor->m_pLastWindow; if (!g_pCompositor->windowValidMapped(PWINDOW)) return format == HyprCtl::FORMAT_JSON ? "{}" : "Invalid"; auto result = getWindowData(PWINDOW, format); if (format == HyprCtl::FORMAT_JSON) result.pop_back(); return result; } std::string layersRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string result = ""; if (format == HyprCtl::FORMAT_JSON) { result += "{\n"; for (auto& mon : g_pCompositor->m_vMonitors) { result += std::format( R"#("{}": {{ "levels": {{ )#", escapeJSONStrings(mon->szName)); int layerLevel = 0; for (auto& level : mon->m_aLayerSurfaceLayers) { result += std::format( R"#( "{}": [ )#", layerLevel); for (auto& layer : level) { result += std::format( R"#( {{ "address": "0x{:x}", "x": {}, "y": {}, "w": {}, "h": {}, "namespace": "{}" }},)#", (uintptr_t)layer.get(), layer->geometry.x, layer->geometry.y, layer->geometry.width, layer->geometry.height, escapeJSONStrings(layer->szNamespace)); } trimTrailingComma(result); if (level.size() > 0) result += "\n "; result += "],"; layerLevel++; } trimTrailingComma(result); result += "\n }\n},"; } trimTrailingComma(result); result += "\n}\n"; } else { for (auto& mon : g_pCompositor->m_vMonitors) { result += std::format("Monitor {}:\n", mon->szName); int layerLevel = 0; static const std::array levelNames = {"background", "bottom", "top", "overlay"}; for (auto& level : mon->m_aLayerSurfaceLayers) { result += std::format("\tLayer level {} ({}):\n", layerLevel, levelNames[layerLevel]); for (auto& layer : level) { result += std::format("\t\tLayer {:x}: xywh: {} {} {} {}, namespace: {}\n", (uintptr_t)layer.get(), layer->geometry.x, layer->geometry.y, layer->geometry.width, layer->geometry.height, layer->szNamespace); } layerLevel++; } result += "\n\n"; } } return result; } std::string devicesRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string result = ""; if (format == HyprCtl::FORMAT_JSON) { result += "{\n"; result += "\"mice\": [\n"; for (auto& m : g_pInputManager->m_lMice) { result += std::format( R"#( {{ "address": "0x{:x}", "name": "{}", "defaultSpeed": {:.5f} }},)#", (uintptr_t)&m, escapeJSONStrings(m.name), wlr_input_device_is_libinput(m.mouse) ? libinput_device_config_accel_get_default_speed((libinput_device*)wlr_libinput_get_device_handle(m.mouse)) : 0.f); } trimTrailingComma(result); result += "\n],\n"; result += "\"keyboards\": [\n"; for (auto& k : g_pInputManager->m_lKeyboards) { const auto KM = g_pInputManager->getActiveLayoutForKeyboard(&k); result += std::format( R"#( {{ "address": "0x{:x}", "name": "{}", "rules": "{}", "model": "{}", "layout": "{}", "variant": "{}", "options": "{}", "active_keymap": "{}", "main": {} }},)#", (uintptr_t)&k, escapeJSONStrings(k.name), escapeJSONStrings(k.currentRules.rules), escapeJSONStrings(k.currentRules.model), escapeJSONStrings(k.currentRules.layout), escapeJSONStrings(k.currentRules.variant), escapeJSONStrings(k.currentRules.options), escapeJSONStrings(KM), (k.active ? "true" : "false")); } trimTrailingComma(result); result += "\n],\n"; result += "\"tablets\": [\n"; for (auto& d : g_pInputManager->m_lTabletPads) { result += std::format( R"#( {{ "address": "0x{:x}", "type": "tabletPad", "belongsTo": {{ "address": "0x{:x}", "name": "{}" }} }},)#", (uintptr_t)&d, (uintptr_t)d.pTabletParent, escapeJSONStrings(d.pTabletParent ? d.pTabletParent->name : "")); } for (auto& d : g_pInputManager->m_lTablets) { result += std::format( R"#( {{ "address": "0x{:x}", "name": "{}" }},)#", (uintptr_t)&d, escapeJSONStrings(d.name)); } for (auto& d : g_pInputManager->m_lTabletTools) { result += std::format( R"#( {{ "address": "0x{:x}", "type": "tabletTool", "belongsTo": "0x{:x}" }},)#", (uintptr_t)&d, d.wlrTabletTool ? (uintptr_t)d.wlrTabletTool->data : 0); } trimTrailingComma(result); result += "\n],\n"; result += "\"touch\": [\n"; for (auto& d : g_pInputManager->m_lTouchDevices) { result += std::format( R"#( {{ "address": "0x{:x}", "name": "{}" }},)#", (uintptr_t)&d, d.name); } trimTrailingComma(result); result += "\n],\n"; result += "\"switches\": [\n"; for (auto& d : g_pInputManager->m_lSwitches) { result += std::format( R"#( {{ "address": "0x{:x}", "name": "{}" }},)#", (uintptr_t)&d, d.pWlrDevice ? d.pWlrDevice->name : ""); } trimTrailingComma(result); result += "\n]\n"; result += "}\n"; } else { result += "mice:\n"; for (auto& m : g_pInputManager->m_lMice) { result += std::format( "\tMouse at {:x}:\n\t\t{}\n\t\t\tdefault speed: {:.5f}\n", (uintptr_t)&m, m.name, (wlr_input_device_is_libinput(m.mouse) ? libinput_device_config_accel_get_default_speed((libinput_device*)wlr_libinput_get_device_handle(m.mouse)) : 0.f)); } result += "\n\nKeyboards:\n"; for (auto& k : g_pInputManager->m_lKeyboards) { const auto KM = g_pInputManager->getActiveLayoutForKeyboard(&k); result += std::format("\tKeyboard at {:x}:\n\t\t{}\n\t\t\trules: r \"{}\", m \"{}\", l \"{}\", v \"{}\", o \"{}\"\n\t\t\tactive keymap: {}\n\t\t\tmain: {}\n", (uintptr_t)&k, k.name, k.currentRules.rules, k.currentRules.model, k.currentRules.layout, k.currentRules.variant, k.currentRules.options, KM, (k.active ? "yes" : "no")); } result += "\n\nTablets:\n"; for (auto& d : g_pInputManager->m_lTabletPads) { result += std::format("\tTablet Pad at {:x} (belongs to {:x} -> {})\n", (uintptr_t)&d, (uintptr_t)d.pTabletParent, d.pTabletParent ? d.pTabletParent->name : ""); } for (auto& d : g_pInputManager->m_lTablets) { result += std::format("\tTablet at {:x}:\n\t\t{}\n", (uintptr_t)&d, d.name); } for (auto& d : g_pInputManager->m_lTabletTools) { result += std::format("\tTablet Tool at {:x} (belongs to {:x})\n", (uintptr_t)&d, d.wlrTabletTool ? (uintptr_t)d.wlrTabletTool->data : 0); } result += "\n\nTouch:\n"; for (auto& d : g_pInputManager->m_lTouchDevices) { result += std::format("\tTouch Device at {:x}:\n\t\t{}\n", (uintptr_t)&d, d.name); } result += "\n\nSwitches:\n"; for (auto& d : g_pInputManager->m_lSwitches) { result += std::format("\tSwitch Device at {:x}:\n\t\t{}\n", (uintptr_t)&d, d.pWlrDevice ? d.pWlrDevice->name : ""); } } return result; } std::string animationsRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string ret = ""; if (format == HyprCtl::eHyprCtlOutputFormat::FORMAT_NORMAL) { ret += "animations:\n"; for (auto& ac : g_pConfigManager->getAnimationConfig()) { ret += std::format("\n\tname: {}\n\t\toverriden: {}\n\t\tbezier: {}\n\t\tenabled: {}\n\t\tspeed: {:.2f}\n\t\tstyle: {}\n", ac.first, (int)ac.second.overridden, ac.second.internalBezier, ac.second.internalEnabled, ac.second.internalSpeed, ac.second.internalStyle); } ret += "beziers:\n"; for (auto& bz : g_pAnimationManager->getAllBeziers()) { ret += std::format("\n\tname: {}\n", bz.first); } } else { // json ret += "[["; for (auto& ac : g_pConfigManager->getAnimationConfig()) { ret += std::format(R"#( {{ "name": "{}", "overridden": {}, "bezier": "{}", "enabled": {}, "speed": {:.2f}, "style": "{}" }},)#", ac.first, ac.second.overridden ? "true" : "false", ac.second.internalBezier, ac.second.internalEnabled ? "true" : "false", ac.second.internalSpeed, ac.second.internalStyle); } ret[ret.length() - 1] = ']'; ret += ",\n["; for (auto& bz : g_pAnimationManager->getAllBeziers()) { ret += std::format(R"#( {{ "name": "{}" }},)#", bz.first); } trimTrailingComma(ret); ret += "]]"; } return ret; } std::string globalShortcutsRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string ret = ""; const auto SHORTCUTS = g_pProtocolManager->m_pGlobalShortcutsProtocolManager->getAllShortcuts(); if (format == HyprCtl::eHyprCtlOutputFormat::FORMAT_NORMAL) { for (auto& sh : SHORTCUTS) ret += std::format("{}:{} -> {}\n", sh.appid, sh.id, sh.description); } else { ret += "["; for (auto& sh : SHORTCUTS) { ret += std::format(R"#( {{ "name": "{}", "description": "{}" }},)#", escapeJSONStrings(sh.appid + ":" + sh.id), escapeJSONStrings(sh.description)); } trimTrailingComma(ret); ret += "]\n"; } return ret; } std::string bindsRequest(HyprCtl::eHyprCtlOutputFormat format) { std::string ret = ""; if (format == HyprCtl::eHyprCtlOutputFormat::FORMAT_NORMAL) { for (auto& kb : g_pKeybindManager->m_lKeybinds) { ret += "bind"; if (kb.locked) ret += "l"; if (kb.mouse) ret += "m"; if (kb.release) ret += "r"; if (kb.repeat) ret += "e"; if (kb.nonConsuming) ret += "n"; ret += std::format("\n\tmodmask: {}\n\tsubmap: {}\n\tkey: {}\n\tkeycode: {}\n\tdispatcher: {}\n\targ: {}\n\n", kb.modmask, kb.submap, kb.key, kb.keycode, kb.handler, kb.arg); } } else { // json ret += "["; for (auto& kb : g_pKeybindManager->m_lKeybinds) { ret += std::format( R"#( {{ "locked": {}, "mouse": {}, "release": {}, "repeat": {}, "non_consuming": {}, "modmask": {}, "submap": "{}", "key": "{}", "keycode": {}, "dispatcher": "{}", "arg": "{}" }},)#", kb.locked ? "true" : "false", kb.mouse ? "true" : "false", kb.release ? "true" : "false", kb.repeat ? "true" : "false", kb.nonConsuming ? "true" : "false", kb.modmask, escapeJSONStrings(kb.submap), escapeJSONStrings(kb.key), kb.keycode, escapeJSONStrings(kb.handler), escapeJSONStrings(kb.arg)); } trimTrailingComma(ret); ret += "]"; } return ret; } std::string versionRequest(HyprCtl::eHyprCtlOutputFormat format) { auto commitMsg = removeBeginEndSpacesTabs(GIT_COMMIT_MESSAGE); std::replace(commitMsg.begin(), commitMsg.end(), '#', ' '); if (format == HyprCtl::eHyprCtlOutputFormat::FORMAT_NORMAL) { std::string result = "Hyprland, built from branch " + std::string(GIT_BRANCH) + " at commit " + GIT_COMMIT_HASH + " " + GIT_DIRTY + " (" + commitMsg + ").\nTag: " + GIT_TAG + "\n\nflags: (if any)\n"; #ifdef LEGACY_RENDERER result += "legacyrenderer\n"; #endif #ifndef NDEBUG result += "debug\n"; #endif #ifdef HYPRLAND_DEBUG result += "debug\n"; #endif #ifdef NO_XWAYLAND result += "no xwayland\n"; #endif return result; } else { std::string result = std::format( R"#({{ "branch": "{}", "commit": "{}", "dirty": {}, "commit_message": "{}", "tag": "{}", "flags": [)#", GIT_BRANCH, GIT_COMMIT_HASH, (strcmp(GIT_DIRTY, "dirty") == 0 ? "true" : "false"), escapeJSONStrings(commitMsg), GIT_TAG); #ifdef LEGACY_RENDERER result += "\"legacyrenderer\","; #endif #ifndef NDEBUG result += "\"debug\","; #endif #ifdef HYPRLAND_DEBUG result += "\"debug\","; #endif #ifdef NO_XWAYLAND result += "\"no xwayland\","; #endif trimTrailingComma(result); result += "]\n}"; return result; } return ""; // make the compiler happy } std::string dispatchRequest(std::string in) { // get rid of the dispatch keyword in = in.substr(in.find_first_of(' ') + 1); const auto DISPATCHSTR = in.substr(0, in.find_first_of(' ')); auto DISPATCHARG = std::string(); if ((int)in.find_first_of(' ') != -1) DISPATCHARG = in.substr(in.find_first_of(' ') + 1); const auto DISPATCHER = g_pKeybindManager->m_mDispatchers.find(DISPATCHSTR); if (DISPATCHER == g_pKeybindManager->m_mDispatchers.end()) return "Invalid dispatcher"; DISPATCHER->second(DISPATCHARG); Debug::log(LOG, "Hyprctl: dispatcher {} : {}", DISPATCHSTR, DISPATCHARG); return "ok"; } std::string dispatchKeyword(std::string in) { // get rid of the keyword keyword in = in.substr(in.find_first_of(' ') + 1); const auto COMMAND = in.substr(0, in.find_first_of(' ')); const auto VALUE = in.substr(in.find_first_of(' ') + 1); std::string retval = g_pConfigManager->parseKeyword(COMMAND, VALUE, true); if (COMMAND == "monitor") g_pConfigManager->m_bWantsMonitorReload = true; // for monitor keywords if (COMMAND.contains("input") || COMMAND.contains("device:")) { g_pInputManager->setKeyboardLayout(); // update kb layout g_pInputManager->setPointerConfigs(); // update mouse cfgs g_pInputManager->setTouchDeviceConfigs(); // update touch device cfgs g_pInputManager->setTabletConfigs(); // update tablets } if (COMMAND.contains("general:layout")) g_pLayoutManager->switchToLayout(g_pConfigManager->getString("general:layout")); // update layout if (COMMAND.contains("decoration:screen_shader")) g_pHyprOpenGL->m_bReloadScreenShader = true; if (COMMAND.contains("blur")) { for (auto& [m, rd] : g_pHyprOpenGL->m_mMonitorRenderResources) { rd.blurFBDirty = true; } } // decorations will probably need a repaint if (COMMAND.contains("decoration:") || COMMAND.contains("border") || COMMAND == "workspace" || COMMAND.contains("cursor_zoom_factor")) { for (auto& m : g_pCompositor->m_vMonitors) { g_pHyprRenderer->damageMonitor(m.get()); g_pLayoutManager->getCurrentLayout()->recalculateMonitor(m->ID); } } Debug::log(LOG, "Hyprctl: keyword {} : {}", COMMAND, VALUE); if (retval == "") return "ok"; return retval; } std::string reloadRequest(const std::string& request) { const auto REQMODE = request.substr(request.find_last_of(' ') + 1); g_pConfigManager->m_bForceReload = true; if (REQMODE == "config-only") { g_pConfigManager->m_bNoMonitorReload = true; } g_pConfigManager->tick(); return "ok"; } std::string killRequest() { g_pInputManager->setClickMode(CLICKMODE_KILL); return "ok"; } std::string splashRequest() { return g_pCompositor->m_szCurrentSplash; } std::string cursorPosRequest(HyprCtl::eHyprCtlOutputFormat format) { const auto CURSORPOS = g_pInputManager->getMouseCoordsInternal().floor(); if (format == HyprCtl::FORMAT_NORMAL) { return std::format("{}, {}", (int)CURSORPOS.x, (int)CURSORPOS.y); } else { return std::format(R"#( {{ "x": {}, "y": {} }} )#", (int)CURSORPOS.x, (int)CURSORPOS.y); } return "error"; } std::string getReply(std::string); std::string dispatchBatch(std::string request) { // split by ; request = request.substr(9); std::string curitem = ""; std::string reply = ""; auto nextItem = [&]() { auto idx = request.find_first_of(';'); if (idx != std::string::npos) { curitem = request.substr(0, idx); request = request.substr(idx + 1); } else { curitem = request; request = ""; } curitem = removeBeginEndSpacesTabs(curitem); }; nextItem(); while (curitem != "") { reply += getReply(curitem); nextItem(); } return reply; } std::string dispatchSetCursor(std::string request) { CVarList vars(request, 0, ' '); const auto SIZESTR = vars[vars.size() - 1]; std::string theme = ""; for (size_t i = 1; i < vars.size() - 1; ++i) theme += vars[i] + " "; if (!theme.empty()) theme.pop_back(); int size = 0; try { size = std::stoi(SIZESTR); } catch (...) { return "size not int"; } if (size <= 0) return "size not positive"; wlr_xcursor_manager_destroy(g_pCompositor->m_sWLRXCursorMgr); g_pCompositor->m_sWLRXCursorMgr = wlr_xcursor_manager_create(theme.c_str(), size); setenv("XCURSOR_SIZE", SIZESTR.c_str(), true); setenv("XCURSOR_THEME", theme.c_str(), true); for (auto& m : g_pCompositor->m_vMonitors) { wlr_xcursor_manager_load(g_pCompositor->m_sWLRXCursorMgr, m->scale); } return "ok"; } std::string switchXKBLayoutRequest(const std::string& request) { CVarList vars(request, 0, ' '); const auto KB = vars[1]; const auto CMD = vars[2]; // get kb const auto PKEYBOARD = std::find_if(g_pInputManager->m_lKeyboards.begin(), g_pInputManager->m_lKeyboards.end(), [&](const SKeyboard& other) { return other.name == g_pInputManager->deviceNameToInternalString(KB); }); if (PKEYBOARD == g_pInputManager->m_lKeyboards.end()) return "device not found"; const auto PWLRKEYBOARD = wlr_keyboard_from_input_device(PKEYBOARD->keyboard); const auto LAYOUTS = xkb_keymap_num_layouts(PWLRKEYBOARD->keymap); xkb_layout_index_t activeLayout = 0; while (activeLayout < LAYOUTS) { if (xkb_state_layout_index_is_active(PWLRKEYBOARD->xkb_state, activeLayout, XKB_STATE_LAYOUT_EFFECTIVE)) break; activeLayout++; } if (CMD == "next") { wlr_keyboard_notify_modifiers(PWLRKEYBOARD, PWLRKEYBOARD->modifiers.depressed, PWLRKEYBOARD->modifiers.latched, PWLRKEYBOARD->modifiers.locked, activeLayout > LAYOUTS ? 0 : activeLayout + 1); } else if (CMD == "prev") { wlr_keyboard_notify_modifiers(PWLRKEYBOARD, PWLRKEYBOARD->modifiers.depressed, PWLRKEYBOARD->modifiers.latched, PWLRKEYBOARD->modifiers.locked, activeLayout == 0 ? LAYOUTS - 1 : activeLayout - 1); } else { int requestedLayout = 0; try { requestedLayout = std::stoi(CMD); } catch (std::exception& e) { return "invalid arg 2"; } if (requestedLayout < 0 || (uint64_t)requestedLayout > LAYOUTS - 1) { return "layout idx out of range of " + std::to_string(LAYOUTS); } wlr_keyboard_notify_modifiers(PWLRKEYBOARD, PWLRKEYBOARD->modifiers.depressed, PWLRKEYBOARD->modifiers.latched, PWLRKEYBOARD->modifiers.locked, requestedLayout); } return "ok"; } std::string dispatchSeterror(std::string request) { CVarList vars(request, 0, ' '); std::string errorMessage = ""; if (vars.size() < 3) { g_pHyprError->destroy(); if (vars.size() == 2 && !vars[1].find("dis")) return "var 1 not color or disable"; return "ok"; } const CColor COLOR = configStringToInt(vars[1]); for (size_t i = 2; i < vars.size(); ++i) errorMessage += vars[i] + ' '; if (errorMessage.empty()) { g_pHyprError->destroy(); } else { errorMessage.pop_back(); // pop last space g_pHyprError->queueCreate(errorMessage, COLOR); } return "ok"; } std::string dispatchSetProp(std::string request) { CVarList vars(request, 0, ' '); if (vars.size() < 4) return "not enough args"; const auto PWINDOW = g_pCompositor->getWindowByRegex(vars[1]); if (!PWINDOW) return "window not found"; const auto PROP = vars[2]; const auto VAL = vars[3]; bool lock = false; if (vars.size() > 4) { if (vars[4].starts_with("lock")) { lock = true; } } try { if (PROP == "animationstyle") { PWINDOW->m_sAdditionalConfigData.animationStyle = VAL; } else if (PROP == "rounding") { PWINDOW->m_sAdditionalConfigData.rounding.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forcenoblur") { PWINDOW->m_sAdditionalConfigData.forceNoBlur.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forceopaque") { PWINDOW->m_sAdditionalConfigData.forceOpaque.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forceopaqueoverriden") { PWINDOW->m_sAdditionalConfigData.forceOpaqueOverridden.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forceallowsinput") { PWINDOW->m_sAdditionalConfigData.forceAllowsInput.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forcenoanims") { PWINDOW->m_sAdditionalConfigData.forceNoAnims.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forcenoborder") { PWINDOW->m_sAdditionalConfigData.forceNoBorder.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forcenoshadow") { PWINDOW->m_sAdditionalConfigData.forceNoShadow.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forcenodim") { PWINDOW->m_sAdditionalConfigData.forceNoDim.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "windowdancecompat") { PWINDOW->m_sAdditionalConfigData.windowDanceCompat.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "nomaxsize") { PWINDOW->m_sAdditionalConfigData.noMaxSize.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "dimaround") { PWINDOW->m_sAdditionalConfigData.dimAround.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "alphaoverride") { PWINDOW->m_sSpecialRenderData.alphaOverride.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "alpha") { PWINDOW->m_sSpecialRenderData.alpha.forceSetIgnoreLocked(std::stof(VAL), lock); } else if (PROP == "alphainactiveoverride") { PWINDOW->m_sSpecialRenderData.alphaInactiveOverride.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "alphainactive") { PWINDOW->m_sSpecialRenderData.alphaInactive.forceSetIgnoreLocked(std::stof(VAL), lock); } else if (PROP == "activebordercolor") { PWINDOW->m_sSpecialRenderData.activeBorderColor.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "inactivebordercolor") { PWINDOW->m_sSpecialRenderData.inactiveBorderColor.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "forcergbx") { PWINDOW->m_sAdditionalConfigData.forceRGBX.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "bordersize") { PWINDOW->m_sSpecialRenderData.borderSize.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "keepaspectratio") { PWINDOW->m_sAdditionalConfigData.keepAspectRatio.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else if (PROP == "immediate") { PWINDOW->m_sAdditionalConfigData.forceTearing.forceSetIgnoreLocked(configStringToInt(VAL), lock); } else { return "prop not found"; } } catch (std::exception& e) { return "error in parsing prop value: " + std::string(e.what()); } g_pCompositor->updateAllWindowsAnimatedDecorationValues(); for (auto& m : g_pCompositor->m_vMonitors) g_pLayoutManager->getCurrentLayout()->recalculateMonitor(m->ID); return "ok"; } std::string dispatchGetOption(std::string request, HyprCtl::eHyprCtlOutputFormat format) { std::string curitem = ""; auto nextItem = [&]() { auto idx = request.find_first_of(' '); if (idx != std::string::npos) { curitem = request.substr(0, idx); request = request.substr(idx + 1); } else { curitem = request; request = ""; } curitem = removeBeginEndSpacesTabs(curitem); }; nextItem(); nextItem(); const auto PCFGOPT = g_pConfigManager->getConfigValuePtrSafe(curitem); if (!PCFGOPT) return "no such option"; if (format == HyprCtl::eHyprCtlOutputFormat::FORMAT_NORMAL) return std::format("option {}\n\tint: {}\n\tfloat: {:.5f}\n\tstr: \"{}\"\n\tdata: {:x}\n\tset: {}", curitem, PCFGOPT->intValue, PCFGOPT->floatValue, PCFGOPT->strValue, (uintptr_t)PCFGOPT->data.get(), PCFGOPT->set); else { return std::format( R"#( {{ "option": "{}", "int": {}, "float": {:.5f}, "str": "{}", "data": "0x{:x}", "set": {} }} )#", curitem, PCFGOPT->intValue, PCFGOPT->floatValue, PCFGOPT->strValue, (uintptr_t)PCFGOPT->data.get(), PCFGOPT->set); } } void createOutputIter(wlr_backend* backend, void* data) { const auto DATA = (std::pair*)data; if (DATA->second) return; if (DATA->first.empty() || DATA->first == "auto") { if (wlr_backend_is_wl(backend)) { wlr_wl_output_create(backend); DATA->second = true; } else if (wlr_backend_is_x11(backend)) { wlr_x11_output_create(backend); DATA->second = true; } else if (wlr_backend_is_headless(backend)) { wlr_headless_add_output(backend, 1920, 1080); DATA->second = true; } } else { if (wlr_backend_is_wl(backend) && DATA->first == "wayland") { wlr_wl_output_create(backend); DATA->second = true; } else if (wlr_backend_is_x11(backend) && DATA->first == "x11") { wlr_x11_output_create(backend); DATA->second = true; } else if (wlr_backend_is_headless(backend) && DATA->first == "headless") { wlr_headless_add_output(backend, 1920, 1080); DATA->second = true; } } } std::string dispatchOutput(std::string request) { std::string curitem = ""; auto nextItem = [&]() { auto idx = request.find_first_of(' '); if (idx != std::string::npos) { curitem = request.substr(0, idx); request = request.substr(idx + 1); } else { curitem = request; request = ""; } curitem = removeBeginEndSpacesTabs(curitem); }; nextItem(); nextItem(); const auto MODE = curitem; nextItem(); const auto NAME = curitem; if (MODE == "create" || MODE == "add") { std::pair result = {NAME, false}; wlr_multi_for_each_backend(g_pCompositor->m_sWLRBackend, createOutputIter, &result); if (!result.second) return "no backend replied to the request"; } else if (MODE == "destroy" || MODE == "remove") { const auto PMONITOR = g_pCompositor->getMonitorFromName(NAME); if (!PMONITOR) return "output not found"; if (!PMONITOR->createdByUser) return "cannot remove a real display. Use the monitor keyword."; wlr_output_destroy(PMONITOR->output); } return "ok"; } std::string dispatchPlugin(std::string request) { CVarList vars(request, 0, ' '); if (vars.size() < 2) return "not enough args"; const auto OPERATION = vars[1]; const auto PATH = vars[2]; if (OPERATION == "load") { if (vars.size() < 3) return "not enough args"; const auto PLUGIN = g_pPluginSystem->loadPlugin(PATH); if (!PLUGIN) return "error in loading plugin"; } else if (OPERATION == "unload") { if (vars.size() < 3) return "not enough args"; const auto PLUGIN = g_pPluginSystem->getPluginByPath(PATH); if (!PLUGIN) return "plugin not loaded"; g_pPluginSystem->unloadPlugin(PLUGIN); } else if (OPERATION == "list") { const auto PLUGINS = g_pPluginSystem->getAllPlugins(); std::string list = ""; for (auto& p : PLUGINS) { list += std::format("\nPlugin {} by {}:\n\tHandle: {:x}\n\tVersion: {}\n\tDescription: {}\n", p->name, p->author, (uintptr_t)p->m_pHandle, p->version, p->description); } return list; } else { return "unknown opt"; } return "ok"; } std::string dispatchNotify(std::string request) { CVarList vars(request, 0, ' '); if (vars.size() < 5) return "not enough args"; const auto ICON = vars[1]; if (!isNumber(ICON)) return "invalid arg 1"; int icon = -1; try { icon = std::stoi(ICON); } catch (std::exception& e) { return "invalid arg 1"; } if (icon > ICON_NONE || icon < 0) { icon = ICON_NONE; } const auto TIME = vars[2]; int time = 0; try { time = std::stoi(TIME); } catch (std::exception& e) { return "invalid arg 2"; } CColor color = configStringToInt(vars[3]); std::string message = ""; for (size_t i = 4; i < vars.size(); ++i) { message += vars[i] + " "; } message.pop_back(); g_pHyprNotificationOverlay->addNotification(message, color, time, (eIcons)icon); return "ok"; } std::string getReply(std::string request) { auto format = HyprCtl::FORMAT_NORMAL; // process flags for non-batch requests if (!request.contains("[[BATCH]]") && request.contains("/")) { long unsigned int sepIndex = 0; for (const auto& c : request) { if (c == '/') { // stop at separator break; } sepIndex++; if (c == 'j') format = HyprCtl::FORMAT_JSON; } if (sepIndex < request.size()) request = request.substr(sepIndex + 1); // remove flags and separator so we can compare the rest of the string } if (request == "monitors") return monitorsRequest(format); else if (request == "workspaces") return workspacesRequest(format); else if (request == "workspacerules") return workspaceRulesRequest(format); else if (request == "activeworkspace") return activeWorkspaceRequest(format); else if (request == "clients") return clientsRequest(format); else if (request == "kill") return killRequest(); else if (request == "activewindow") return activeWindowRequest(format); else if (request == "layers") return layersRequest(format); else if (request == "version") return versionRequest(format); else if (request.starts_with("reload")) return reloadRequest(request); else if (request == "devices") return devicesRequest(format); else if (request == "splash") return splashRequest(); else if (request == "cursorpos") return cursorPosRequest(format); else if (request == "binds") return bindsRequest(format); else if (request == "globalshortcuts") return globalShortcutsRequest(format); else if (request == "animations") return animationsRequest(format); else if (request.starts_with("plugin")) return dispatchPlugin(request); else if (request.starts_with("notify")) return dispatchNotify(request); else if (request.starts_with("setprop")) return dispatchSetProp(request); else if (request.starts_with("seterror")) return dispatchSeterror(request); else if (request.starts_with("switchxkblayout")) return switchXKBLayoutRequest(request); else if (request.starts_with("output")) return dispatchOutput(request); else if (request.starts_with("dispatch")) return dispatchRequest(request); else if (request.starts_with("keyword")) return dispatchKeyword(request); else if (request.starts_with("setcursor")) return dispatchSetCursor(request); else if (request.starts_with("getoption")) return dispatchGetOption(request, format); else if (request.starts_with("[[BATCH]]")) return dispatchBatch(request); return "unknown request"; } std::string HyprCtl::makeDynamicCall(const std::string& input) { return getReply(input); } int hyprCtlFDTick(int fd, uint32_t mask, void* data) { if (mask & WL_EVENT_ERROR || mask & WL_EVENT_HANGUP) return 0; sockaddr_in clientAddress; socklen_t clientSize = sizeof(clientAddress); const auto ACCEPTEDCONNECTION = accept4(HyprCtl::iSocketFD, (sockaddr*)&clientAddress, &clientSize, SOCK_CLOEXEC); char readBuffer[1024]; fd_set fdset; FD_ZERO(&fdset); FD_SET(ACCEPTEDCONNECTION, &fdset); timeval timeout = {.tv_sec = 0, .tv_usec = 5000}; auto success = select(ACCEPTEDCONNECTION + 1, &fdset, nullptr, nullptr, &timeout); if (success <= 0) { close(ACCEPTEDCONNECTION); return 0; } auto messageSize = read(ACCEPTEDCONNECTION, readBuffer, 1024); readBuffer[messageSize == 1024 ? 1023 : messageSize] = '\0'; std::string request(readBuffer); std::string reply = ""; try { reply = getReply(request); } catch (std::exception& e) { Debug::log(ERR, "Error in request: {}", e.what()); reply = "Err: " + std::string(e.what()); } write(ACCEPTEDCONNECTION, reply.c_str(), reply.length()); close(ACCEPTEDCONNECTION); if (g_pConfigManager->m_bWantsMonitorReload) { g_pConfigManager->ensureMonitorStatus(); } return 0; } void HyprCtl::startHyprCtlSocket() { iSocketFD = socket(AF_UNIX, SOCK_STREAM | SOCK_CLOEXEC, 0); if (iSocketFD < 0) { Debug::log(ERR, "Couldn't start the Hyprland Socket. (1) IPC will not work."); return; } sockaddr_un SERVERADDRESS = {.sun_family = AF_UNIX}; std::string socketPath = "/tmp/hypr/" + g_pCompositor->m_szInstanceSignature + "/.socket.sock"; strcpy(SERVERADDRESS.sun_path, socketPath.c_str()); if (bind(iSocketFD, (sockaddr*)&SERVERADDRESS, SUN_LEN(&SERVERADDRESS)) < 0) { Debug::log(ERR, "Couldn't start the Hyprland Socket. (2) IPC will not work."); return; } // 10 max queued. listen(iSocketFD, 10); Debug::log(LOG, "Hypr socket started at {}", socketPath); wl_event_loop_add_fd(g_pCompositor->m_sWLEventLoop, iSocketFD, WL_EVENT_READABLE, hyprCtlFDTick, nullptr); }