#include #include #include #include #include #include #include #include #include "Game.h" #include Memory apex_mem; Memory client_mem; bool firing_range = false; bool active = true; uintptr_t aimentity = 0; uintptr_t tmp_aimentity = 0; uintptr_t lastaimentity = 0; float max = 999.0f; float max_dist = 200.0f*40.0f; int team_player = 0; int tmp_spec = 0, spectators = 0; int tmp_all_spec = 0, allied_spectators = 0; float max_fov = 15; const int toRead = 100; int aim = false; bool esp = false; bool item_glow = false; bool player_glow = false; extern bool aim_no_recoil; int safe_level = 0; bool aiming = false; extern float smooth; extern int bone; bool actions_t = false; bool esp_t = false; bool aim_t = false; bool vars_t = false; bool item_t = false; uint64_t g_Base; uint64_t c_Base; bool next = false; bool valid = false; bool lock = false; typedef struct player { float dist = 0; int entity_team = 0; float boxMiddle = 0; float h_y = 0; float width = 0; float height = 0; float b_x = 0; float b_y = 0; bool knocked = false; bool visible = false; int health = 0; int shield = 0; char name[33] = { 0 }; }player; struct Matrix { float matrix[16]; }; float lastvis_esp[toRead]; float lastvis_aim[toRead]; ////////////////////////////////////////////////////////////////////////////////////////////////// void ProcessPlayer(Entity& LPlayer, Entity& target, uint64_t entitylist, int index) { int entity_team = target.getTeamId(); bool obs = target.Observing(entitylist); if (obs) { /*if(obs == LPlayer.ptr) { if (entity_team == team_player) { tmp_all_spec++; } else { tmp_spec++; } }*/ tmp_spec++; return; } Vector EntityPosition = target.getPosition(); Vector LocalPlayerPosition = LPlayer.getPosition(); float dist = LocalPlayerPosition.DistTo(EntityPosition); if (dist > max_dist) return; if (!target.isAlive()) return; if(!firing_range) if (entity_team < 0 || entity_team>50 || entity_team == team_player) return; if(aim==2) { if((target.lastVisTime() > lastvis_aim[index])) { float fov = CalculateFov(LPlayer, target); if (fov < max) { max = fov; tmp_aimentity = target.ptr; } } else { if(aimentity==target.ptr) { aimentity=tmp_aimentity=lastaimentity=0; } } } else { float fov = CalculateFov(LPlayer, target); if (fov < max) { max = fov; tmp_aimentity = target.ptr; } } lastvis_aim[index] = target.lastVisTime(); } void DoActions() { actions_t = true; while (actions_t) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); while (g_Base!=0 && c_Base!=0) { std::this_thread::sleep_for(std::chrono::milliseconds(30)); uint64_t LocalPlayer = 0; apex_mem.Read(g_Base + OFFSET_LOCAL_ENT, LocalPlayer); if (LocalPlayer == 0) continue; Entity LPlayer = getEntity(LocalPlayer); team_player = LPlayer.getTeamId(); if (team_player < 0 || team_player>50) { continue; } uint64_t entitylist = g_Base + OFFSET_ENTITYLIST; uint64_t baseent = 0; apex_mem.Read(entitylist, baseent); if (baseent == 0) { continue; } max = 999.0f; tmp_spec = 0; tmp_all_spec = 0; tmp_aimentity = 0; if(firing_range) { int c=0; for (int i = 0; i < 10000; i++) { uint64_t centity = 0; apex_mem.Read(entitylist + ((uint64_t)i << 5), centity); if (centity == 0) continue; if (LocalPlayer == centity) continue; Entity Target = getEntity(centity); if (!Target.isDummy()) { continue; } if(player_glow && !Target.isGlowing()) { Target.enableGlow(); } else if(!player_glow && Target.isGlowing()) { Target.disableGlow(); } ProcessPlayer(LPlayer, Target, entitylist, c); c++; } } else { for (int i = 0; i < toRead; i++) { uint64_t centity = 0; apex_mem.Read(entitylist + ((uint64_t)i << 5), centity); if (centity == 0) continue; if (LocalPlayer == centity) continue; Entity Target = getEntity(centity); if (!Target.isPlayer()) { continue; } ProcessPlayer(LPlayer, Target, entitylist, i); int entity_team = Target.getTeamId(); if (entity_team == team_player) { continue; } switch (safe_level) { case 1: if (spectators > 0) { if(Target.isGlowing()) { Target.disableGlow(); } continue; } break; case 2: if (spectators+allied_spectators > 0) { if(Target.isGlowing()) { Target.disableGlow(); } continue; } break; default: break; } if(player_glow && !Target.isGlowing()) { Target.enableGlow(); } else if(!player_glow && Target.isGlowing()) { Target.disableGlow(); } } } spectators = tmp_spec; allied_spectators = tmp_all_spec; if(!lock) aimentity = tmp_aimentity; else aimentity = lastaimentity; } } actions_t = false; } // ///////////////////////////////////////////////////////////////////////////////////////////////////// player players[toRead]; static void EspLoop() { esp_t = true; while(esp_t) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); while(g_Base!=0 && c_Base!=0) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); if (esp) { valid = false; switch (safe_level) { case 1: if (spectators > 0) { next = true; while(next && g_Base!=0 && c_Base!=0 && esp) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); } continue; } break; case 2: if (spectators+allied_spectators > 0) { next = true; while(next && g_Base!=0 && c_Base!=0 && esp) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); } continue; } break; default: break; } uint64_t LocalPlayer = 0; apex_mem.Read(g_Base + OFFSET_LOCAL_ENT, LocalPlayer); if (LocalPlayer == 0) { next = true; while(next && g_Base!=0 && c_Base!=0 && esp) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); } continue; } Entity LPlayer = getEntity(LocalPlayer); int team_player = LPlayer.getTeamId(); if (team_player < 0 || team_player>50) { next = true; while(next && g_Base!=0 && c_Base!=0 && esp) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); } continue; } Vector LocalPlayerPosition = LPlayer.getPosition(); uint64_t viewRenderer = 0; apex_mem.Read(g_Base + OFFSET_RENDER, viewRenderer); uint64_t viewMatrix = 0; apex_mem.Read(viewRenderer + OFFSET_MATRIX, viewMatrix); Matrix m = {}; apex_mem.Read(viewMatrix, m); uint64_t entitylist = g_Base + OFFSET_ENTITYLIST; memset(players,0,sizeof(players)); if(firing_range) { int c=0; for (int i = 0; i < 10000; i++) { uint64_t centity = 0; apex_mem.Read( entitylist + ((uint64_t)i << 5), centity); if (centity == 0) { continue; } if (LocalPlayer == centity) { continue; } Entity Target = getEntity(centity); if (!Target.isDummy()) { continue; } if (!Target.isAlive()) { continue; } int entity_team = Target.getTeamId(); Vector EntityPosition = Target.getPosition(); float dist = LocalPlayerPosition.DistTo(EntityPosition); if (dist > max_dist || dist < 50.0f) { continue; } Vector bs = Vector(); WorldToScreen(EntityPosition, m.matrix, 1920, 1080, bs); if (bs.x > 0 && bs.y > 0) { Vector hs = Vector(); Vector HeadPosition = Target.getBonePosition(8); WorldToScreen(HeadPosition, m.matrix, 1920, 1080, hs); float height = abs(abs(hs.y) - abs(bs.y)); float width = height / 2.0f; float boxMiddle = bs.x - (width / 2.0f); int health = Target.getHealth(); int shield = Target.getShield(); players[c] = { dist, entity_team, boxMiddle, hs.y, width, height, bs.x, bs.y, 0, (Target.lastVisTime() > lastvis_esp[c]), health, shield }; Target.get_name(g_Base, i-1, &players[c].name[0]); lastvis_esp[c] = Target.lastVisTime(); valid = true; c++; } } } else { for (int i = 0; i < toRead; i++) { uint64_t centity = 0; apex_mem.Read( entitylist + ((uint64_t)i << 5), centity); if (centity == 0) { continue; } if (LocalPlayer == centity) { continue; } Entity Target = getEntity(centity); if (!Target.isPlayer()) { continue; } if (!Target.isAlive()) { continue; } int entity_team = Target.getTeamId(); if (entity_team < 0 || entity_team>50 || entity_team == team_player) { continue; } Vector EntityPosition = Target.getPosition(); float dist = LocalPlayerPosition.DistTo(EntityPosition); if (dist > max_dist || dist < 50.0f) { continue; } Vector bs = Vector(); WorldToScreen(EntityPosition, m.matrix, 1920, 1080, bs); if (bs.x > 0 && bs.y > 0) { Vector hs = Vector(); Vector HeadPosition = Target.getBonePosition(8); WorldToScreen(HeadPosition, m.matrix, 1920, 1080, hs); float height = abs(abs(hs.y) - abs(bs.y)); float width = height / 2.0f; float boxMiddle = bs.x - (width / 2.0f); int health = Target.getHealth(); int shield = Target.getShield(); players[i] = { dist, entity_team, boxMiddle, hs.y, width, height, bs.x, bs.y, Target.isKnocked(), (Target.lastVisTime() > lastvis_esp[i]), health, shield }; Target.get_name(g_Base, i-1, &players[i].name[0]); lastvis_esp[i] = Target.lastVisTime(); valid = true; } } } next = true; while(next && g_Base!=0 && c_Base!=0 && esp) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); } } } } esp_t = false; } static void AimbotLoop() { aim_t = true; while (aim_t) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); while (g_Base!=0 && c_Base!=0) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); if (aim>0) { switch (safe_level) { case 1: if (spectators > 0) { continue; } break; case 2: if (spectators+allied_spectators > 0) { continue; } break; default: break; } if (aimentity == 0 || !aiming) { lock=false; lastaimentity=0; continue; } lock=true; lastaimentity = aimentity; uint64_t LocalPlayer = 0; apex_mem.Read(g_Base + OFFSET_LOCAL_ENT, LocalPlayer); if (LocalPlayer == 0) continue; Entity LPlayer = getEntity(LocalPlayer); QAngle Angles = CalculateBestBoneAim(LPlayer, aimentity, max_fov); if (Angles.x == 0 && Angles.y == 0) { lock=false; lastaimentity=0; continue; } LPlayer.SetViewAngles(Angles); } } } aim_t = false; } static void set_vars(uint64_t add_addr) { printf("Reading client vars...\n"); std::this_thread::sleep_for(std::chrono::milliseconds(50)); //Get addresses of client vars uint64_t spec_addr = 0; client_mem.Read(add_addr, spec_addr); uint64_t all_spec_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t), all_spec_addr); uint64_t aim_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*2, aim_addr); uint64_t esp_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*3, esp_addr); uint64_t safe_lev_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*4, safe_lev_addr); uint64_t aiming_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*5, aiming_addr); uint64_t g_Base_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*6, g_Base_addr); uint64_t next_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*7, next_addr); uint64_t player_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*8, player_addr); uint64_t valid_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*9, valid_addr); uint64_t max_dist_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*10, max_dist_addr); uint64_t item_glow_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*11, item_glow_addr); uint64_t player_glow_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*12, player_glow_addr); uint64_t aim_no_recoil_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*13, aim_no_recoil_addr); uint64_t smooth_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*14, smooth_addr); uint64_t max_fov_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*15, max_fov_addr); uint64_t bone_addr = 0; client_mem.Read(add_addr + sizeof(uint64_t)*16, bone_addr); int tmp = 0; client_mem.Read(spec_addr, tmp); if(tmp != 1) { printf("Incorrect values read. Check if the add_off is correct. Quitting.\n"); active = false; return; } vars_t = true; while(vars_t) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); if(c_Base!=0 && g_Base!=0) printf("\nReady\n"); while(c_Base!=0 && g_Base!=0) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); client_mem.Write(all_spec_addr, allied_spectators); client_mem.Write(spec_addr, spectators); client_mem.Write(all_spec_addr, allied_spectators); client_mem.Write(g_Base_addr, g_Base); client_mem.Read(aim_addr, aim); client_mem.Read(esp_addr, esp); client_mem.Read(safe_lev_addr, safe_level); client_mem.Read(aiming_addr, aiming); client_mem.Read(max_dist_addr, max_dist); client_mem.Read(item_glow_addr, item_glow); client_mem.Read(player_glow_addr, player_glow); client_mem.Read(aim_no_recoil_addr, aim_no_recoil); client_mem.Read(smooth_addr, smooth); client_mem.Read(max_fov_addr, max_fov); client_mem.Read(bone_addr, bone); if(esp && next) { if(valid) client_mem.WriteArray(player_addr, players, toRead); client_mem.Write(valid_addr, valid); client_mem.Write(next_addr, true); //next bool next_val = false; do { client_mem.Read(next_addr, next_val); std::this_thread::sleep_for(std::chrono::milliseconds(1)); } while (next_val && g_Base!=0 && c_Base!=0); next = false; } } } vars_t = false; } static void item_glow_t() { item_t = true; while(item_t) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); int k = 0; while(g_Base!=0 && c_Base!=0) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); uint64_t entitylist = g_Base + OFFSET_ENTITYLIST; if (item_glow) { for (int i = 0; i < 10000; i++) { uint64_t centity = 0; apex_mem.Read(entitylist + ((uint64_t)i << 5), centity); if (centity == 0) continue; Item item = getItem(centity); if(item.isItem() && !item.isGlowing()) { item.enableGlow(); } } k=1; std::this_thread::sleep_for(std::chrono::milliseconds(600)); } else { if(k==1) { for (int i = 0; i < 10000; i++) { uint64_t centity = 0; apex_mem.Read(entitylist + ((uint64_t)i << 5), centity); if (centity == 0) continue; Item item = getItem(centity); if(item.isItem() && item.isGlowing()) { item.disableGlow(); } } k=0; } } } } item_t = false; } int main() { const char* cl_proc = "cl_ap.exe"; const char* ap_proc = "R5Apex.exe"; //const char* ap_proc = "EasyAntiCheat_launcher.exe"; //Client "add" offset uint64_t add_off = 0x3e890; std::thread aimbot_thr; std::thread esp_thr; std::thread actions_thr; std::thread itemglow_thr; std::thread vars_thr; while(active) { if(apex_mem.get_proc_status() != process_status::FOUND_READY) { if(aim_t) { aim_t = false; esp_t = false; actions_t = false; item_t = false; g_Base = 0; aimbot_thr.~thread(); esp_thr.~thread(); actions_thr.~thread(); itemglow_thr.~thread(); } std::this_thread::sleep_for(std::chrono::seconds(1)); printf("Searching for apex process...\n"); apex_mem.open_proc(ap_proc); if(apex_mem.get_proc_status() == process_status::FOUND_READY) { g_Base = apex_mem.get_proc_baseaddr(); printf("\nApex process found\n"); printf("Base: %lx\n", g_Base); aimbot_thr = std::thread(AimbotLoop); esp_thr = std::thread(EspLoop); actions_thr = std::thread(DoActions); itemglow_thr = std::thread(item_glow_t); aimbot_thr.detach(); esp_thr.detach(); actions_thr.detach(); itemglow_thr.detach(); } } else { apex_mem.check_proc(); } if(client_mem.get_proc_status() != process_status::FOUND_READY) { if(vars_t) { vars_t = false; c_Base = 0; vars_thr.~thread(); } std::this_thread::sleep_for(std::chrono::seconds(1)); printf("Searching for client process...\n"); client_mem.open_proc(cl_proc); if(client_mem.get_proc_status() == process_status::FOUND_READY) { c_Base = client_mem.get_proc_baseaddr(); printf("\nClient process found\n"); printf("Base: %lx\n", c_Base); vars_thr = std::thread(set_vars, c_Base + add_off); vars_thr.detach(); } } else { client_mem.check_proc(); } std::this_thread::sleep_for(std::chrono::milliseconds(10)); } return 0; }