public static bool Configure_PICkitSerial_For_I2CSlave_Auto_Mode(byte p_slave_addr, byte p_slave_mask, byte p_array_byte_count, ref byte[] p_profile_array, ref string p_result_str) { byte[] array = new byte[65]; byte[] array2 = new byte[255]; byte[] array3 = new byte[65]; bool result = false; string text = ""; Array.Clear(array, 0, array.Length); Array.Clear(array3, 0, array3.Length); Mode.update_status_packet_data(7, ref array3); array3[23] = 2; array3[29] = p_slave_addr; array3[30] = p_slave_mask; USBWrite.configure_outbound_control_block_packet(ref array, ref text, ref array3); USBWrite.Send_Cold_Reset_Cmd(); bool flag = USBWrite.Send_Data_Packet_To_PICkitS(ref array); Array.Clear(array2, 0, array2.Length); array2[0] = 0; array2[1] = 5; array2[2] = p_array_byte_count; for (int i = 3; i < (int)(p_array_byte_count + 3); i++) { array2[i] = p_profile_array[i - 3]; } USBWrite.Send_Script_To_PICkitS(ref array2); USBWrite.Send_Warm_Reset_Cmd(); if (flag) { if (USBWrite.Update_Status_Packet()) { Utilities.m_flags.g_status_packet_mutex.WaitOne(); int j; for (j = 7; j < 31; j++) { if (Constants.STATUS_PACKET_DATA[j] != array[j - 5]) { p_result_str = string.Format("Byte {0} failed verification in config block write.\n Value reads {1:X2}, but should be {2:X2}.", j - 7, Constants.STATUS_PACKET_DATA[j], array[j - 5]); break; } } if (j == 31) { result = true; p_result_str = string.Format("PICkit Serial Analyzer correctly updated.", new object[0]); } Utilities.m_flags.g_status_packet_mutex.ReleaseMutex(); } else { p_result_str = string.Format("Error requesting config verification - Config Block may not be updated correctly", new object[0]); } } else { p_result_str = string.Format("Error sending config packet - Config Block may not be updated correctly", new object[0]); } return(result); }
private static void Reset_Control_Block_Thread() { m_reset_cb.WaitOne(); string str = ""; byte[] array = new byte[0x41]; byte[] buffer2 = new byte[0x41]; string str2 = ""; Array.Clear(array, 0, array.Length); Array.Clear(buffer2, 0, buffer2.Length); I2CS.reset_buffers(); if (USBWrite.Update_Status_Packet()) { Utilities.m_flags.g_status_packet_mutex.WaitOne(); for (int i = 0; i < array.Length; i++) { array[i] = Constants.STATUS_PACKET_DATA[i]; } Utilities.m_flags.g_status_packet_mutex.ReleaseMutex(); USBWrite.configure_outbound_control_block_packet(ref buffer2, ref str, ref array); USBWrite.write_and_verify_config_block(ref buffer2, ref str, true, ref str2); } m_reset_cb.ReleaseMutex(); }
public static bool Send_LED_State_Cmd(int p_LED_num, byte p_value) { byte[] array = new byte[65]; Array.Clear(array, 0, array.Length); array[1] = 3; array[2] = 2; switch (p_LED_num) { case 1: array[3] = 18; break; case 2: array[3] = 19; break; default: return(false); } array[4] = p_value; array[5] = 0; bool result = USBWrite.Send_Data_Packet_To_PICkitS(ref array); USBWrite.Update_Status_Packet(); return(result); }
public static bool Configure_PICkitSerial_For_I2CSlave_Auto_Mode(byte p_slave_addr, byte p_slave_mask, byte p_array_byte_count, ref byte[] p_profile_array, ref string p_result_str) { bool flag = false; byte[] array = new byte[0x41]; byte[] buffer2 = new byte[0xff]; byte[] buffer3 = new byte[0x41]; bool flag2 = false; string str = ""; int index = 0; Array.Clear(array, 0, array.Length); Array.Clear(buffer3, 0, buffer3.Length); Mode.update_status_packet_data(7, ref buffer3); buffer3[0x17] = 2; buffer3[0x1d] = p_slave_addr; buffer3[30] = p_slave_mask; USBWrite.configure_outbound_control_block_packet(ref array, ref str, ref buffer3); USBWrite.Send_Cold_Reset_Cmd(); flag = USBWrite.Send_Data_Packet_To_PICkitS(ref array); Array.Clear(buffer2, 0, buffer2.Length); buffer2[0] = 0; buffer2[1] = 5; buffer2[2] = p_array_byte_count; for (int i = 3; i < (p_array_byte_count + 3); i++) { buffer2[i] = p_profile_array[i - 3]; } USBWrite.Send_Script_To_PICkitS(ref buffer2); USBWrite.Send_Warm_Reset_Cmd(); if (!flag) { p_result_str = string.Format("Error sending config packet - Config Block may not be updated correctly", new object[0]); return(flag2); } if (!USBWrite.Update_Status_Packet()) { p_result_str = string.Format("Error requesting config verification - Config Block may not be updated correctly", new object[0]); return(flag2); } Utilities.m_flags.g_status_packet_mutex.WaitOne(); index = 7; while (index < 0x1f) { if (Constants.STATUS_PACKET_DATA[index] != array[index - 5]) { p_result_str = string.Format("Byte {0} failed verification in config block write.\n Value reads {1:X2}, but should be {2:X2}.", index - 7, Constants.STATUS_PACKET_DATA[index], array[index - 5]); break; } index++; } if (index == 0x1f) { flag2 = true; p_result_str = string.Format("PICkit Serial Analyzer correctly updated.", new object[0]); } Utilities.m_flags.g_status_packet_mutex.ReleaseMutex(); return(flag2); }
public static void Send_CommClear_Cmd() { USBWrite.m_command_byte_array[0] = 0; USBWrite.m_command_byte_array[1] = 1; USBWrite.m_command_byte_array[2] = 7; USBWrite.m_command_byte_array[3] = 0; USBWrite.m_command_byte_array[4] = 0; USBWrite.Send_Data_Packet_To_PICkitS(ref USBWrite.m_command_byte_array); USBWrite.Update_Status_Packet(); }
public static bool Send_CommReset_Cmd() { USBWrite.m_command_byte_array[0] = 0; USBWrite.m_command_byte_array[1] = 1; USBWrite.m_command_byte_array[2] = 6; USBWrite.m_command_byte_array[3] = 0; USBWrite.m_command_byte_array[4] = 0; bool result = USBWrite.Send_Data_Packet_To_PICkitS(ref USBWrite.m_command_byte_array); USBWrite.Update_Status_Packet(); return(result); }
public static bool write_and_verify_config_block(ref byte[] p_control_block_data, ref string p_result_str, bool p_perform_warm_and_cold_reset, ref string p_cb_data_str) { bool result = false; if (p_perform_warm_and_cold_reset) { USBWrite.Send_Cold_Reset_Cmd(); } bool flag = USBWrite.Send_Data_Packet_To_PICkitS(ref p_control_block_data); if (p_perform_warm_and_cold_reset) { USBWrite.Send_Warm_Reset_Cmd(); } if (flag) { if (USBWrite.Update_Status_Packet()) { Utilities.m_flags.g_status_packet_mutex.WaitOne(); int i; for (i = 7; i < 31; i++) { if (Constants.STATUS_PACKET_DATA[i] != p_control_block_data[i - 5]) { p_result_str = string.Format("Byte {0} failed verification in config block write.\n Value reads {1:X2}, but should be {2:X2}.", i - 7, Constants.STATUS_PACKET_DATA[i], p_control_block_data[i - 5]); break; } } if (i == 31) { result = true; p_result_str = string.Format("PICkit Serial Analyzer correctly updated.", new object[0]); p_cb_data_str = ""; for (i = 7; i < 31; i++) { p_cb_data_str += string.Format("{0:X2} ", Constants.STATUS_PACKET_DATA[i]); } } Utilities.m_flags.g_status_packet_mutex.ReleaseMutex(); } else { p_result_str = string.Format("Error requesting config verification - Config Block may not be updated correctly", new object[0]); } } else { p_result_str = string.Format("Error sending config packet - Config Block may not be updated correctly", new object[0]); } return(result); }
public static bool Send_Warm_Reset_Cmd() { USBRead.m_EVENT_TIME_ROLLOVER = 0.0; USBRead.m_RUNNING_TIME = 0.0; USBWrite.m_command_byte_array[0] = 0; USBWrite.m_command_byte_array[1] = 1; USBWrite.m_command_byte_array[2] = 1; USBWrite.m_command_byte_array[3] = 0; USBWrite.m_command_byte_array[4] = 0; bool result = USBWrite.Send_Data_Packet_To_PICkitS(ref USBWrite.m_command_byte_array); USBWrite.Update_Status_Packet(); return(result); }
public static bool Get_Status_Packet(ref byte[] p_status_packet) { bool flag = false; if (!USBWrite.Update_Status_Packet()) { return(flag); } Utilities.m_flags.g_status_packet_mutex.WaitOne(); for (int i = 0; i < Constants.STATUS_PACKET_DATA.Length; i++) { p_status_packet[i] = Constants.STATUS_PACKET_DATA[i]; } Utilities.m_flags.g_status_packet_mutex.ReleaseMutex(); return(true); }
public static bool Send_CtrlBlkWrite_Cmd(ref byte[] p_data_array) { byte[] array = new byte[65]; Array.Clear(array, 0, array.Length); array[0] = 0; array[1] = 2; int i; for (i = 0; i < 24; i++) { array[i + 2] = p_data_array[i]; } array[i] = 0; USBWrite.Send_Cold_Reset_Cmd(); bool result = USBWrite.Send_Data_Packet_To_PICkitS(ref array); USBWrite.Send_Warm_Reset_Cmd(); USBWrite.Update_Status_Packet(); return(result); }
public static bool Add_LIN_Slave_Profile_To_PKS(byte p_array_byte_count, ref byte[] p_profile_array, ref string p_result_str, ref int p_error_code) { bool flag = false; byte[] array = new byte[0x41]; byte[] buffer2 = new byte[0xff]; byte[] buffer3 = new byte[0x41]; bool flag2 = false; byte num = 0; byte num2 = 0; string str = ""; int index = 0; p_error_code = 0; Array.Clear(array, 0, array.Length); Array.Clear(buffer3, 0, buffer3.Length); byte num4 = Number_Of_Bytes_In_CBUF3(ref num, ref num2); if (p_array_byte_count > num4) { p_result_str = string.Format("Byte count of {0} greater than allowed value of {1}.", p_array_byte_count, num4); p_error_code = 1; return(flag); } USBWrite.Clear_CBUF(3); if (!Basic.Get_Status_Packet(ref buffer3)) { p_result_str = string.Format("Error reading status packet.", new object[0]); p_error_code = 2; return(false); } buffer3[0x17] = (byte)(buffer3[0x17] | 0x20); USBWrite.configure_outbound_control_block_packet(ref array, ref str, ref buffer3); flag = USBWrite.Send_Data_Packet_To_PICkitS(ref array); Array.Clear(buffer2, 0, buffer2.Length); buffer2[0] = 0; buffer2[1] = 5; buffer2[2] = p_array_byte_count; for (int i = 3; i < (p_array_byte_count + 3); i++) { buffer2[i] = p_profile_array[i - 3]; } bool flag3 = USBWrite.Send_Script_To_PICkitS(ref buffer2); if (!(flag & flag3)) { p_error_code = 2; p_result_str = string.Format("Error sending config packet - Config Block may not be updated correctly", new object[0]); return(flag2); } if (!USBWrite.Update_Status_Packet()) { p_result_str = string.Format("Error requesting config verification - Config Block may not be updated correctly", new object[0]); return(flag2); } Utilities.m_flags.g_status_packet_mutex.WaitOne(); index = 7; while (index < 0x1f) { if (Constants.STATUS_PACKET_DATA[index] != array[index - 5]) { p_error_code = 3; p_result_str = string.Format("Byte {0} failed verification in config block write.\n Value reads {1:X2}, but should be {2:X2}.", index - 7, Constants.STATUS_PACKET_DATA[index], array[index - 5]); break; } index++; } if (index == 0x1f) { flag2 = true; p_result_str = string.Format("PICkit Serial Analyzer correctly updated.", new object[0]); } Utilities.m_flags.g_status_packet_mutex.ReleaseMutex(); return(flag2); }
public static bool Send_Script_To_PICkitS(ref byte[] p_send_byte_array) { bool result; lock (USBWrite.m_priv_write_script_lock) { USBWrite.m_data_buffer_is_empty = false; bool flag = false; uint num = 0u; uint num2 = (uint)p_send_byte_array[2]; byte[] array = new byte[65]; USBWrite.m_last_script_array_mutex.WaitOne(); USBWrite.m_last_script_array_byte_count = (byte)(num2 + 2u); Array.Clear(USBWrite.m_last_script_array, 0, USBWrite.m_last_script_array.Length); for (int i = 0; i < (int)USBWrite.m_last_script_array_byte_count; i++) { USBWrite.m_last_script_array[i] = p_send_byte_array[i + 1]; } Utilities.m_flags.g_PKSA_has_completed_script.Reset(); USBWrite.m_last_script_array_mutex.ReleaseMutex(); uint num3 = num2 / 62u; byte b = (byte)(num2 % 62u); if (b != 0) { num3 += 1u; } int num4 = 0; while ((long)num4 < (long)((ulong)num3)) { Array.Clear(array, 0, array.Length); array[0] = p_send_byte_array[0]; array[1] = p_send_byte_array[1]; uint num5; uint num6; if (num3 != 1u) { num5 = 3u; if ((long)num4 == (long)((ulong)(num3 - 1u)) && b != 0) { num6 = (uint)(b + 4); array[2] = b; } else { num6 = 65u; array[2] = 62; } } else { num6 = num2 + 4u; num5 = 2u; } for (uint num7 = num5; num7 < num6; num7 += 1u) { array[(int)((UIntPtr)num7)] = p_send_byte_array[(int)((UIntPtr)(num + num7))]; } if (num3 != 1u) { num += 62u; if ((long)num4 == (long)((ulong)(num3 - 1u))) { num += 1u; } } if (array[1] == 3) { if (!USBWrite.there_is_room_in_cbuf1(array[2])) { result = false; return(result); } USBWrite.m_cbuf1_avail_bytes_mutex.WaitOne(); USBWrite.m_cbuf1_avail_bytes -= array[2]; USBWrite.m_cbuf1_avail_bytes_mutex.ReleaseMutex(); if (!USBWrite.Send_Data_Packet_To_PICkitS(ref array)) { result = false; return(result); } if (USBWrite.There_Was_A_Write_Error()) { result = false; return(result); } } else { if (!USBWrite.Send_Data_Packet_To_PICkitS(ref array)) { result = false; return(result); } if (USBWrite.There_Was_A_Write_Error()) { result = false; return(result); } } num4++; } if (array[1] == 3) { if (USBWrite.m_use_script_timeout) { bool flag2 = Utilities.m_flags.g_PKSA_has_completed_script.WaitOne(USBWrite.m_universal_timeout, false); if (flag2 && USBWrite.Update_Status_Packet()) { uint num8 = 0u; if (!Status.There_Is_A_Status_Error(ref num8)) { flag = true; } } } else { flag = true; } } else { flag = true; } USBWrite.m_data_buffer_is_empty = true; result = flag; } return(result); }
public static bool Transaction_Is_Complete() { bool result = false; if (USBWrite.We_Are_Done_Writing_Data() && !USBRead.m_read_thread_is_processing_a_USB_packet && USBWrite.Update_Status_Packet()) { Utilities.m_flags.g_status_packet_mutex.WaitOne(); if ((Constants.STATUS_PACKET_DATA[37] & 1) == 0 && Constants.STATUS_PACKET_DATA[55] == 0) { result = true; } Utilities.m_flags.g_status_packet_mutex.ReleaseMutex(); } return(result); }
public static bool Add_LIN_Slave_Profile_To_PKS(byte p_array_byte_count, ref byte[] p_profile_array, ref string p_result_str, ref int p_error_code) { bool flag = false; byte[] array = new byte[65]; byte[] array2 = new byte[255]; byte[] array3 = new byte[65]; bool result = false; byte b = 0; byte b2 = 0; string text = ""; p_error_code = 0; Array.Clear(array, 0, array.Length); Array.Clear(array3, 0, array3.Length); byte b3 = LIN.Number_Of_Bytes_In_CBUF3(ref b, ref b2); if (p_array_byte_count > b3) { p_result_str = string.Format("Byte count of {0} greater than allowed value of {1}.", p_array_byte_count, b3); p_error_code = 1; return(flag); } USBWrite.Clear_CBUF(3); if (!Basic.Get_Status_Packet(ref array3)) { p_result_str = string.Format("Error reading status packet.", new object[0]); p_error_code = 2; return(false); } byte[] expr_A6_cp_0 = array3; int expr_A6_cp_1 = 23; expr_A6_cp_0[expr_A6_cp_1] |= 32; USBWrite.configure_outbound_control_block_packet(ref array, ref text, ref array3); flag = USBWrite.Send_Data_Packet_To_PICkitS(ref array); Array.Clear(array2, 0, array2.Length); array2[0] = 0; array2[1] = 5; array2[2] = p_array_byte_count; for (int i = 3; i < (int)(p_array_byte_count + 3); i++) { array2[i] = p_profile_array[i - 3]; } bool flag2 = USBWrite.Send_Script_To_PICkitS(ref array2); if (flag & flag2) { if (USBWrite.Update_Status_Packet()) { Utilities.m_flags.g_status_packet_mutex.WaitOne(); int j; for (j = 7; j < 31; j++) { if (Constants.STATUS_PACKET_DATA[j] != array[j - 5]) { p_error_code = 3; p_result_str = string.Format("Byte {0} failed verification in config block write.\n Value reads {1:X2}, but should be {2:X2}.", j - 7, Constants.STATUS_PACKET_DATA[j], array[j - 5]); break; } } if (j == 31) { result = true; p_result_str = string.Format("PICkit Serial Analyzer correctly updated.", new object[0]); } Utilities.m_flags.g_status_packet_mutex.ReleaseMutex(); } else { p_result_str = string.Format("Error requesting config verification - Config Block may not be updated correctly", new object[0]); } } else { p_error_code = 2; p_result_str = string.Format("Error sending config packet - Config Block may not be updated correctly", new object[0]); } return(result); }