public FormItem(DEVICETYPE type, String name, String mac) { InitializeComponent(); this.type = type; labelTitle.Text = name; labelMac.Text = mac; }
public static bool Load_Firmware(string p_file_name, int p_device_type, ref string p_error_str, ref int p_error_code) { bool flag = false; if (p_device_type == 2) { m_devicetype = DEVICETYPE.LIN; m_upper_fw_addr = 0x4000; } else { m_devicetype = DEVICETYPE.PKSA; m_upper_fw_addr = 0x8000; } m_array_size = m_upper_fw_addr - 0x2000; if (!parse_hex_file_put_in_array(p_file_name)) { p_error_code = 1; p_error_str = "Error - Could not read hex file - download aborted"; return(flag); } if (!Force_PKS_Into_Prog_Mode_Cmd()) { p_error_code = 2; p_error_str = "Error - Could not enter programming mode prior to updating firmware - download aborted"; return(flag); } bool flag2 = false; byte[] buffer = new byte[14]; if (!Clear_BL_Flash()) { flag2 = true; p_error_str = "Error - clearing flash prior to writing firmware"; p_error_code = 3; } else if (!Write_BL_Flash(ref m_flash_data_array)) { p_error_str = "Error - writing flash"; flag2 = true; p_error_code = 4; } else if (!Bootloader.Write_BL_Config_Bytes(ref m_config_bytes_array, ref m_config_bool_array)) { flag2 = true; p_error_str = "Error - writing config bytes"; p_error_code = 5; } else { copy_current_fw_array_into_prior_array(); if (!Read_BL_Flash(0x2000, m_upper_fw_addr - 0x2000, ref m_flash_data_array)) { flag2 = true; p_error_str = "Error - reading flash."; p_error_code = 6; } else { for (int i = 0; i < m_array_size; i++) { if (m_flash_data_array[i] != m_prior_flash_data_array[i]) { p_error_str = string.Format("Error - Verification error: flash byte {0:X2} reads as {1:X2}\nbut should be {2:X2}\n", i, m_flash_data_array[i], m_prior_flash_data_array[i]); flag2 = true; p_error_code = 8; break; } } if (Bootloader.Read_BL_Config_Data(ref buffer)) { for (int j = 0; j < buffer.Length; j++) { if (m_config_bool_array[j] && (buffer[j] != m_config_bytes_array[j])) { p_error_str = string.Format("Error - Verification error: Config byte {0:X2} reads as {1:X2}\nbut should be {2:X2}\n", j, buffer[j], m_config_bytes_array[j]); flag2 = true; p_error_code = 9; break; } } } else { flag2 = true; p_error_str = "Error - reading config bytes"; p_error_code = 7; } } } if (!flag2) { if (m_devicetype == DEVICETYPE.LIN) { p_error_str = string.Format("LIN firmware written and verified using hex file {0}.\n", p_file_name); } else { p_error_str = string.Format("PICkit Serial firmware written and verified using hex file {0}.\n", p_file_name); } p_error_code = 0; flag = true; } if (Bootloader.Issue_BL_Reset()) { restart_the_device(); return(flag); } p_error_code = 10; p_error_str = "Error - sending BL Reset Command. Firmware may not have been updated correctly."; return(false); }
public static extern bool freeDeviceList(DEVICETYPE type, IntPtr devList);
public static extern IntPtr buildDeviceList(DEVICETYPE type);
public static extern int buildDeviceNamesFind(DEVICETYPE type, [MarshalAs(UnmanagedType.LPStr)] string altName);
public static bool Load_Firmware(string p_file_name, int p_device_type, ref string p_error_str, ref int p_error_code) { bool flag = false; if (p_device_type == 2) { m_devicetype = DEVICETYPE.LIN; m_upper_fw_addr = 0x4000; } else { m_devicetype = DEVICETYPE.PKSA; m_upper_fw_addr = 0x8000; } m_array_size = m_upper_fw_addr - 0x2000; if (!parse_hex_file_put_in_array(p_file_name)) { p_error_code = 1; p_error_str = "Error - Could not read hex file - download aborted"; return flag; } if (!Force_PKS_Into_Prog_Mode_Cmd()) { p_error_code = 2; p_error_str = "Error - Could not enter programming mode prior to updating firmware - download aborted"; return flag; } bool flag2 = false; byte[] buffer = new byte[14]; if (!Clear_BL_Flash()) { flag2 = true; p_error_str = "Error - clearing flash prior to writing firmware"; p_error_code = 3; } else if (!Write_BL_Flash(ref m_flash_data_array)) { p_error_str = "Error - writing flash"; flag2 = true; p_error_code = 4; } else if (!Bootloader.Write_BL_Config_Bytes(ref m_config_bytes_array, ref m_config_bool_array)) { flag2 = true; p_error_str = "Error - writing config bytes"; p_error_code = 5; } else { copy_current_fw_array_into_prior_array(); if (!Read_BL_Flash(0x2000, m_upper_fw_addr - 0x2000, ref m_flash_data_array)) { flag2 = true; p_error_str = "Error - reading flash."; p_error_code = 6; } else { for (int i = 0; i < m_array_size; i++) { if (m_flash_data_array[i] != m_prior_flash_data_array[i]) { p_error_str = string.Format("Error - Verification error: flash byte {0:X2} reads as {1:X2}\nbut should be {2:X2}\n", i, m_flash_data_array[i], m_prior_flash_data_array[i]); flag2 = true; p_error_code = 8; break; } } if (Bootloader.Read_BL_Config_Data(ref buffer)) { for (int j = 0; j < buffer.Length; j++) { if (m_config_bool_array[j] && (buffer[j] != m_config_bytes_array[j])) { p_error_str = string.Format("Error - Verification error: Config byte {0:X2} reads as {1:X2}\nbut should be {2:X2}\n", j, buffer[j], m_config_bytes_array[j]); flag2 = true; p_error_code = 9; break; } } } else { flag2 = true; p_error_str = "Error - reading config bytes"; p_error_code = 7; } } } if (!flag2) { if (m_devicetype == DEVICETYPE.LIN) { p_error_str = string.Format("LIN firmware written and verified using hex file {0}.\n", p_file_name); } else { p_error_str = string.Format("PICkit Serial firmware written and verified using hex file {0}.\n", p_file_name); } p_error_code = 0; flag = true; } if (Bootloader.Issue_BL_Reset()) { restart_the_device(); return flag; } p_error_code = 10; p_error_str = "Error - sending BL Reset Command. Firmware may not have been updated correctly."; return false; }
//#region zBUTTONMATE属性 //#endregion //#region zTC1属性 //UInt32 zTC1power; //功率 //UInt32 zTC1total_time; //运行时间 //Boolean[] zTC1Switch = new Boolean[6] { false, false, false, false, false, false }; //开关状态 //#endregion //#region zDC1属性 //UInt32 zDC1total_time; //运行时间 //UInt16 zDC1power; //功率 //UInt16 zDC1voltage; //电压 //UInt16 zDC1current; //电流 //Boolean[] zDC1Switch = new Boolean[4] { false, false, false, false};//开关状态 //#endregion //#region zA1属性 //#endregion //#region zM1属性 //#endregion public DeviceItem(DEVICETYPE type, String name, String mac) { this.name = name; this.type = type; this.mac = mac; }