#include "g_cmds.h" #include "game_inc.h" void addCustomCmds() { Cmd_AddCommandInternal("set_byte", set_byte_f, &set_byte_f_VAR); Cmd_AddCommandInternal("set_short", set_short_f, &set_short_f_VAR); Cmd_AddCommandInternal("set_int", set_int_f, &set_int_f_VAR); Cmd_AddCommandInternal("set_float", set_float_f, &set_float_f_VAR); Cmd_AddCommandInternal("set_pointer", set_pointer_f, &set_pointer_f_VAR); Cmd_AddCommandInternal("quit", Cmd_Quit_f, &quit_f_VAR); Cmd_AddCommandInternal("openmenu", Cmd_OpenMenu_f, &openmenu_f_VAR); Cmd_AddCommandInternal("addbot", Cmd_AddBot_f, &addbot_f_VAR); Cmd_AddCommandInternal("ddldump", Cmd_DDLDump_f, &ddldump_f_VAR); Cmd_AddCommandInternal("weapondefdump", Cmd_WeaponDefDump_f, &weapondefdump_f_VAR); //Cmd_AddCommandInternal("view_vehicle_ents", Cmd_ViewVehicleEnts_f, &view_vehicle_ents_f_VAR); // Cmd_AddCommandInternal("save_inventory", Cmd_LoadoutSave_f, &loadout_save_f_VAR); Cmd_AddCommandInternal("map_restart", SV_CmdsMP_MapRestart_f, &MapRestart_f_VAR); Cmd_AddCommandInternal("fast_restart", SV_CmdsMP_FastRestart_f, &FastRestart_f_VAR); Cmd_AddCommandInternal("setOmnvar", Cmd_Omnvar_Set_f, &omnvar_set_f_VAR); // Cmd_AddCommandInternal("dumpomnvars", Cmd_Omnvars_Dump_f, &omnvar_dump_f_VAR); Cmd_AddCommandInternal("unlockAll", Cmd_UnlockAll_f, &unlockall_f_VAR); } void G_CmdsMP_ClientCommand_Detour(int clientNum) { g_entities = *reinterpret_cast(0x14BC20F00_g); uintptr_t client = g_entities[clientNum].get(0x150); char command[1024]; SV_Cmd_ArgvBuffer(0, command, 1024); if (client) { if (strcmp(command, "noclip") == 0) { if (CheatsOk(clientNum)) { Cmd_Noclip_f(clientNum); } return; } if (strcmp(command, "give") == 0) { if (CheatsOk(clientNum)) { SV_Cmd_ArgvBuffer(1, command, 1024); Weapon weap; if (BG_Weapons_GetFullWeaponForName(command, &weap, BG_FindBaseWeaponForName)) { if (SV_Cmd_Argc() == 3) { SV_Cmd_ArgvBuffer(2, command, 1024); weap.weaponCamo = atoi(command); } if (G_Weapon_GivePlayerWeapon(client, 0, &weap, 0, 0, 0)) { G_Items_AddAmmo(client, &weap, 0, 9999, 1); G_Weapon_SelectWeapon(clientNum, &weap); } } } } if (strcmp(command, "give_akimbo") == 0) { if (CheatsOk(clientNum)) { SV_Cmd_ArgvBuffer(1, command, 1024); Weapon weap; if (BG_Weapons_GetFullWeaponForName(command, &weap, BG_FindBaseWeaponForName)) { if (SV_Cmd_Argc() == 3) { SV_Cmd_ArgvBuffer(2, command, 1024); weap.weaponCamo = atoi(command); } if (G_Weapon_GivePlayerWeapon(client, 0, &weap, 1, 0, 0)) { G_Items_AddAmmo(client, &weap, 0, 9999, 1); G_Weapon_SelectWeapon(clientNum, &weap); } } } } if (strcmp(command, "ks_give") == 0) { if (CheatsOk(clientNum)) { SV_Cmd_ArgvBuffer(1, command, 1024); scrContext_t* ctx = ScriptContext_Server(); Scr_AddString(ctx, command); Scr_FreeThread(ctx, GScr_ExecEntThread(&g_entities[clientNum], 0x1B65FC, 1)); } } if (strcmp(command, "bold_msg") == 0) { char msgbuf[500]; SV_Cmd_ArgvBuffer(1, command, 1024); if (strlen(command) < 500) { for (int i = 0; i < 30; i++) { SvClient* ms_clients = *reinterpret_cast(0x14E17F690_g + (8 * i)); if (ms_clients) { snprintf(msgbuf, 500, "g \"%s\"", command); ms_clients->SendServerCommand(1, msgbuf); } } } } if (strcmp(command, "remove_barriers") == 0) { if (CheatsOk(clientNum)) { auto SL_ConvertToString = reinterpret_cast(0x14131AA20_g); for (int i = 0; i < 1024; i++) { int classname = g_entities[i].get(0x17C); if (classname) { if (strcmp(SL_ConvertToString(classname), "trigger_hurt") == 0 || strcmp(SL_ConvertToString(classname), "trigger_multiple") == 0 || strcmp(SL_ConvertToString(classname), "trigger_damage") == 0) { auto G_SetOrigin = reinterpret_cast(0x140FD4CC0_g); vec3_t gone = { 0, 0, -9999999 }; G_SetOrigin(&g_entities[i], &gone, true, true); } } } for (int i = 0; i < 30; i++) { SvClient* ms_clients = *reinterpret_cast(0x14E17F690_g + (8 * i)); if (ms_clients) { ms_clients->SendServerCommand(1, "g \"Death barriers removed!\""); } } } } /*if (strcmp(command, "scmd") == 0) { if (CheatsOk(clientNum) && clientNum == 0) { char msgbuf[500]; std::string cmdline = ""; if (SV_Cmd_Argc() > 1) { for (int i = 0; i < SV_Cmd_Argc() - 1; i++) { SV_Cmd_ArgvBuffer(1 + i, msgbuf, 500); if (i == 0) { cmdline = msgbuf; } else { cmdline = cmdline + " " + std::string(msgbuf); } std::cout << 1 + i << ": '" << msgbuf << "'" << std::endl; memset(msgbuf, 0, 500); } const char* cCmdLine = cmdline.c_str(); memcpy(msgbuf, cCmdLine, cmdline.length() + 1); std::cout << "msgbug: '" << msgbuf << "'" << std::endl; SvClient* ms_clients = *reinterpret_cast(0x14E17F690_g + (8 * clientNum)); if (ms_clients) { ms_clients->SendServerCommand(1, msgbuf); } } } }*/ if (strcmp(command, "viewpos") == 0) { if (CheatsOk(clientNum)) { char msgbuf[500]; SvClient* ms_clients = *reinterpret_cast(0x14E17F690_g + (8 * clientNum)); if (ms_clients) { snprintf(msgbuf, 500, "f \"viewpos: (%.2f, %.2f, %.2f)\"", g_entities[clientNum].r_currentOrigin[0], g_entities[clientNum].r_currentOrigin[1], g_entities[clientNum].r_currentOrigin[2]); ms_clients->SendServerCommand(1, msgbuf); } } } if (strcmp(command, "setpos") == 0) { if (CheatsOk(clientNum) && clientNum == 0) { if (SV_Cmd_Argc() == 4) { char xBuf[100]; char yBuf[100]; char zBuf[100]; SV_Cmd_ArgvBuffer(1, xBuf, 100); SV_Cmd_ArgvBuffer(2, yBuf, 100); SV_Cmd_ArgvBuffer(3, zBuf, 100); float x = strToFloat(xBuf); float y = strToFloat(yBuf); float z = strToFloat(zBuf); struct gclient_s { char __padding[0x30]; float coords[3]; }; g_entities = *reinterpret_cast(0x14BC20F00_g); gclient_s* host = (gclient_s*)g_entities[0].client; host->coords[0] = x; host->coords[1] = y; host->coords[2] = z; } } } } g_cmdsmp_clientcommand.stub(clientNum); } void set_byte_f() { char command[500]; if (Cmd_Argc() == 3) { Cmd_ArgvBuffer(1, command, 500); uintptr_t address = atoll(command) + base; Cmd_ArgvBuffer(2, command, 500); utils::hook::set(address, atoi(command)); } } void set_short_f() { char command[500]; if (Cmd_Argc() == 3) { Cmd_ArgvBuffer(1, command, 500); uintptr_t address = atoll(command) + base; Cmd_ArgvBuffer(2, command, 500); utils::hook::set(address, atol(command)); } } void set_int_f() { char command[500]; if (Cmd_Argc() == 3) { Cmd_ArgvBuffer(1, command, 500); uintptr_t address = atoll(command) + base; Cmd_ArgvBuffer(2, command, 500); utils::hook::set(address, _atoi64(command)); } } void set_float_f() { char command[500]; if (Cmd_Argc() == 3) { Cmd_ArgvBuffer(1, command, 500); uintptr_t address = atoll(command) + base; Cmd_ArgvBuffer(2, command, 500); utils::hook::set(address, strToFloat(command)); } } void set_pointer_f() { char command[500]; if (Cmd_Argc() == 3) { Cmd_ArgvBuffer(1, command, 500); uintptr_t address = atoll(command) + base; Cmd_ArgvBuffer(2, command, 500); utils::hook::set(address, _atoi64(command)); } } void Cmd_Quit_f() { ExitProcess(0x1); } void Cmd_OpenMenu_f() { char command[500]; if (Cmd_Argc() == 2) { auto LUI_OpenMenu = reinterpret_cast(0x141B9BDB0_g); Cmd_ArgvBuffer(1, command, 500); LUI_OpenMenu(0, command, true, false, false); } } void Cmd_AddBot_f() { auto ent = SV_ClientMP_AddTestClient(); GScr_AddEntity(ent); SV_ClientMP_SpawnBotOrTestClient(ent); } void SV_CmdsMP_MapRestart_f() { auto SV_CmdsMP_RequestMapRestart = reinterpret_cast(0x14136C310_g); SV_CmdsMP_RequestMapRestart(1, 0); } void SV_CmdsMP_FastRestart_f() { auto SV_CmdsMP_RequestMapRestart = reinterpret_cast(0x14136C310_g); SV_CmdsMP_RequestMapRestart(0, 0); } void Cmd_DDLDump_f() { int cur = 0; DDLFile* g_assets = *(DDLFile**)(0x14B8F5C48_g); if (g_assets[cur].name) { while (g_assets[cur].name != 0 && g_assets[cur].ddlDef != 0) { printf("%s\n", g_assets[cur].name); for (int istruct = 0; istruct < g_assets[cur].ddlDef->structCount; istruct++) { printf("struct %s { //count: %i\n", g_assets[cur].ddlDef->structList[istruct].name, g_assets[cur].ddlDef->structList[istruct].memberCount); for (int imember = 0; imember < g_assets[cur].ddlDef->structList[istruct].memberCount; imember++) { if (g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize == 1) { switch (g_assets[cur].ddlDef->structList[istruct].members[imember].type) { case DDL_STRING_TYPE: printf("\tconst char* %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_FIXEDPOINT_TYPE: case DDL_FLOAT_TYPE: printf("\tfloat %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_BYTE_TYPE: printf("\tbyte %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_SHORT_TYPE: printf("\tshort %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_INT_TYPE: printf("\tint %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_UINT_TYPE: printf("\tuint %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_PAD_TYPE: printf("\tchar %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_HASH_TYPE: printf("\thash %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_UINT64_TYPE: printf("\tuint64_t %s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_ENUM_TYPE: printf("\t%s %s;\n", g_assets[cur].ddlDef->enumList[g_assets[cur].ddlDef->structList[istruct].members[imember].externalIndex].name, g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; case DDL_STRUCT_TYPE: printf("\t%s %s;\n", g_assets[cur].ddlDef->structList[g_assets[cur].ddlDef->structList[istruct].members[imember].externalIndex].name, g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; default:printf("\t%s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; } } else { switch (g_assets[cur].ddlDef->structList[istruct].members[imember].type) { case DDL_FIXEDPOINT_TYPE: case DDL_FLOAT_TYPE: printf("\tfloat %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_STRING_TYPE: printf("\tconst char* %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_BYTE_TYPE: printf("\tbyte %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_SHORT_TYPE: printf("\tshort %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_INT_TYPE: printf("\tint %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_UINT_TYPE: printf("\tuint %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_PAD_TYPE: printf("\tchar %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_HASH_TYPE: printf("\thash %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_ENUM_TYPE: printf("\t%s %s[%i];\n", g_assets[cur].ddlDef->enumList[g_assets[cur].ddlDef->structList[istruct].members[imember].externalIndex].name, g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_UINT64_TYPE: printf("\tuint64_t %s[%i];\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; case DDL_STRUCT_TYPE: printf("\t%s %s[%i];\n", g_assets[cur].ddlDef->structList[g_assets[cur].ddlDef->structList[istruct].members[imember].externalIndex].name, g_assets[cur].ddlDef->structList[istruct].members[imember].name, g_assets[cur].ddlDef->structList[istruct].members[imember].arraySize); break; default:printf("\t%s;\n", g_assets[cur].ddlDef->structList[istruct].members[imember].name); break; } } } printf("}\n"); } for (int ienum = 0; ienum < g_assets[cur].ddlDef->enumCount; ienum++) { printf("enum %s { //count: %i\n", g_assets[cur].ddlDef->enumList[ienum].name, g_assets[cur].ddlDef->enumList[ienum].memberCount); for (int imember = 0; imember < g_assets[cur].ddlDef->enumList[ienum].memberCount; imember++) { printf("\t%s,\n", g_assets[cur].ddlDef->enumList[ienum].members[imember]); } printf("}\n\n\n\n"); } cur++; } } } void Cmd_WeaponDefDump_f() { //Globals uintptr_t* bg_weaponCompleteDefs = reinterpret_cast(0x14C6EC870_g); printf("DUMPING WEAPON DEFINITIONS!!! --- \n"); for (int i = 0; i < 550; i++) { WeaponCompleteDef* weap = reinterpret_cast(bg_weaponCompleteDefs[i]); if (!weap) continue; printf("szInternalName: %s\n", weap->szInternalName); printf("szDisplayName: %s\n", weap->szDisplayName); } printf("FINISHED WEAPON DEFINITION DUMP YAY!!! --- \n"); } void Cmd_ViewVehicleEnts_f() { auto SL_ConvertToString = reinterpret_cast(0x14131AA20_g); for (int i = 0; i < 1024; i++) { int classname = g_entities[i].get(0x17C); if (classname) { const char* s_classname = SL_ConvertToString(classname); if (g_entities[i].get(0x160)) { printf("vehicle %s\n", s_classname); } } } } void Cmd_LoadoutSave_f() { SaveInventory(); } void Cmd_UnlockAll_f() { Cbuf_AddText("seta unlockAllItems 1"); }