From 998bfa0656b84cb99e733724eebcce55d042362f Mon Sep 17 00:00:00 2001 From: MacRimi Date: Tue, 14 Oct 2025 22:47:13 +0200 Subject: [PATCH] Update flask_server.py --- AppImage/scripts/flask_server.py | 23 ----------------------- 1 file changed, 23 deletions(-) diff --git a/AppImage/scripts/flask_server.py b/AppImage/scripts/flask_server.py index 6ce3970..b0d51e4 100644 --- a/AppImage/scripts/flask_server.py +++ b/AppImage/scripts/flask_server.py @@ -1000,8 +1000,6 @@ def get_smart_data(disk_name): smart_data['crc_errors'] = int(raw_value) print(f"[v0] CRC Errors: {smart_data['crc_errors']}") elif attr_id == '233': # Media_Wearout_Indicator (Intel/Samsung SSD) - # Valor normalizado: 100 = nuevo, 0 = gastado - # Invertimos para mostrar desgaste: 0% = nuevo, 100% = gastado normalized_value = int(parts[3]) if len(parts) > 3 else 100 smart_data['media_wearout_indicator'] = 100 - normalized_value print(f"[v0] Media Wearout Indicator (ID 233): {smart_data['media_wearout_indicator']}% used") @@ -1032,27 +1030,6 @@ def get_smart_data(disk_name): except (ValueError, IndexError) as e: print(f"[v0] Error parsing attribute line '{line}': {e}") continue - elif attr_id == 233: # Media_Wearout_Indicator (Intel/Samsung SSD) - # Valor normalizado: 100 = nuevo, 0 = gastado - # Invertimos para mostrar desgaste: 0% = nuevo, 100% = gastado - smart_data['media_wearout_indicator'] = 100 - normalized_value - print(f"[v0] Media Wearout Indicator (ID 233): {smart_data['media_wearout_indicator']}% used") - elif attr_id == 177: # Wear_Leveling_Count - # Valor normalizado: 100 = nuevo, 0 = gastado - smart_data['wear_leveling_count'] = 100 - normalized_value - print(f"[v0] Wear Leveling Count (ID 177): {smart_data['wear_leveling_count']}% used") - elif attr_id == 202: # Percentage_Lifetime_Remain (algunos fabricantes) - # Valor normalizado: 100 = nuevo, 0 = gastado - smart_data['ssd_life_left'] = normalized_value - print(f"[v0] SSD Life Left (ID 202): {smart_data['ssd_life_left']}%") - elif attr_id == 231: # SSD_Life_Left (algunos fabricantes) - smart_data['ssd_life_left'] = normalized_value - print(f"[v0] SSD Life Left (ID 231): {smart_data['ssd_life_left']}%") - elif attr_id == 241: # Total_LBAs_Written - # Convertir a GB (raw_value es en sectores de 512 bytes) - total_gb = (raw_value * 512) / (1024 * 1024 * 1024) - smart_data['total_lbas_written'] = round(total_gb, 2) - print(f"[v0] Total LBAs Written (ID 241): {smart_data['total_lbas_written']} GB") # If we got complete data, break if smart_data['model'] != 'Unknown' and smart_data['serial'] != 'Unknown':