Как в c#
вызвать стандартный диалог настройки порта winapi
?
BOOL CommConfigDialog
(
LPCTSTR lpszName, // имя устройства
HWND hWnd, // указатель на вызываемое окно
LPCOMMCONFIG lpCC // указатель на структуру дял информации
);
на PINVOKE.net есть определения всех нужных структур. вот быстрый тест:
using System;
using System.Collections.Specialized;
using System.Runtime.InteropServices;
using System.Windows.Forms;
namespace CommConfig
{
public partial class Form1 : Form
{
// dwProviderSubType
const UInt32 PST_FAX = 0x00000021; // FAX device
const UInt32 PST_LAT = 0x00000101; // LAT protocol
const UInt32 PST_MODEM = 0x00000006; // Modem device
const UInt32 PST_NETWORK_BRIDGE = 0x00000100; // Unspecified network bridge
const UInt32 PST_PARALLELPORT = 0x00000002; // Parallel port
const UInt32 PST_RS232 = 0x00000001; // RS-232 serial port
const UInt32 PST_RS422 = 0x00000003; // RS-422 port
const UInt32 PST_RS423 = 0x00000004; // RS-423 port
const UInt32 PST_RS449 = 0x00000005; // RS-449 port
const UInt32 PST_SCANNER = 0x00000022; // Scanner device
const UInt32 PST_TCPIP_TELNET = 0x00000102; // TCP/IP Telnet protocol
const UInt32 PST_UNSPECIFIED = 0x00000000; // Unspecified
const UInt32 PST_X25 = 0x00000103; // X.25 standards
// dwProvCapabilities
const UInt32 PCF_16BITMODE = 0x0200; // Special 16-bit mode supported
const UInt32 PCF_DTRDSR = 0x0001; // DTR (data-terminal-ready)/DSR (data-set-ready) supported
const UInt32 PCF_INTTIMEOUTS = 0x0080; // Interval time-outs supported
const UInt32 PCF_PARITY_CHECK = 0x0008; // Parity checking supported
const UInt32 PCF_RLSD = 0x0004; // RLSD (receive-line-signal-detect) supported
const UInt32 PCF_RTSCTS = 0x0002; // RTS (request-to-send)/CTS (clear-to-send) supported
const UInt32 PCF_SETXCHAR = 0x0020; // Settable XON/XOFF supported
const UInt32 PCF_SPECIALCHARS = 0x0100; // Special character support provided
const UInt32 PCF_TOTALTIMEOUTS = 0x0040; // Total (elapsed) time-outs supported
const UInt32 PCF_XONXOFF = 0x0010; // XON/XOFF flow control supported
// dwMaxBaud
const UInt32 BAUD_075 = 0x00000001; // 75 bps
const UInt32 BAUD_110 = 0x00000002; // 110 bps
const UInt32 BAUD_134_5 = 0x00000004; // 134.5 bps
const UInt32 BAUD_150 = 0x00000008; // 150 bps
const UInt32 BAUD_300 = 0x00000010; // 300 bps
const UInt32 BAUD_600 = 0x00000020; // 600 bps
const UInt32 BAUD_1200 = 0x00000040; // 1200 bps
const UInt32 BAUD_1800 = 0x00000080; // 1800 bps
const UInt32 BAUD_2400 = 0x00000100; // 2400 bps
const UInt32 BAUD_4800 = 0x00000200; // 4800 bps
const UInt32 BAUD_7200 = 0x00000400; // 7200 bps
const UInt32 BAUD_9600 = 0x00000800; // 9600 bps
const UInt32 BAUD_14400 = 0x00001000; // 14400 bps
const UInt32 BAUD_19200 = 0x00002000; // 19200 bps
const UInt32 BAUD_38400 = 0x00004000; // 38400 bps
const UInt32 BAUD_56K = 0x00008000; // 56K bps
const UInt32 BAUD_57600 = 0x00010000; // 57600 bps
const UInt32 BAUD_115200 = 0x00020000; // 115200 bps
const UInt32 BAUD_128K = 0x00040000; // 128K bps
const UInt32 BAUD_USER = 0x10000000; // Programmable baud rate.
public enum Parity : byte
{
None = 0,
Odd = 1,
Even = 2,
Mark = 3,
Space = 4,
}
public enum StopBits : byte
{
One = 0,
OnePointFive = 1,
Two = 2
}
public enum DtrControl : int
{
Disable = 0,
Enable = 1,
Handshake = 2
}
public enum RtsControl : int
{
Disable = 0,
Enable = 1,
Handshake = 2,
Toggle = 3
}
[StructLayout(LayoutKind.Sequential)]
internal struct Dcb
{
internal uint DCBLength;
internal uint BaudRate;
private BitVector32 Flags;
private ushort wReserved; // not currently used
internal ushort XonLim; // transmit XON threshold
internal ushort XoffLim; // transmit XOFF threshold
internal byte ByteSize;
internal Parity Parity;
internal StopBits StopBits;
internal sbyte XonChar; // Tx and Rx XON character
internal sbyte XoffChar; // Tx and Rx XOFF character
internal sbyte ErrorChar; // error replacement character
internal sbyte EofChar; // end of input character
internal sbyte EvtChar; // received event character
private ushort wReserved1; // reserved; do not use
private static readonly int fBinary;
private static readonly int fParity;
private static readonly int fOutxCtsFlow;
private static readonly int fOutxDsrFlow;
private static readonly BitVector32.Section fDtrControl;
private static readonly int fDsrSensitivity;
private static readonly int fTXContinueOnXoff;
private static readonly int fOutX;
private static readonly int fInX;
private static readonly int fErrorChar;
private static readonly int fNull;
private static readonly BitVector32.Section fRtsControl;
private static readonly int fAbortOnError;
static Dcb()
{
// Create Boolean Mask
int previousMask;
fBinary = BitVector32.CreateMask();
fParity = BitVector32.CreateMask(fBinary);
fOutxCtsFlow = BitVector32.CreateMask(fParity);
fOutxDsrFlow = BitVector32.CreateMask(fOutxCtsFlow);
previousMask = BitVector32.CreateMask(fOutxDsrFlow);
previousMask = BitVector32.CreateMask(previousMask);
fDsrSensitivity = BitVector32.CreateMask(previousMask);
fTXContinueOnXoff = BitVector32.CreateMask(fDsrSensitivity);
fOutX = BitVector32.CreateMask(fTXContinueOnXoff);
fInX = BitVector32.CreateMask(fOutX);
fErrorChar = BitVector32.CreateMask(fInX);
fNull = BitVector32.CreateMask(fErrorChar);
previousMask = BitVector32.CreateMask(fNull);
previousMask = BitVector32.CreateMask(previousMask);
fAbortOnError = BitVector32.CreateMask(previousMask);
// Create section Mask
BitVector32.Section previousSection;
previousSection = BitVector32.CreateSection(1);
previousSection = BitVector32.CreateSection(1, previousSection);
previousSection = BitVector32.CreateSection(1, previousSection);
previousSection = BitVector32.CreateSection(1, previousSection);
fDtrControl = BitVector32.CreateSection(2, previousSection);
previousSection = BitVector32.CreateSection(1, fDtrControl);
previousSection = BitVector32.CreateSection(1, previousSection);
previousSection = BitVector32.CreateSection(1, previousSection);
previousSection = BitVector32.CreateSection(1, previousSection);
previousSection = BitVector32.CreateSection(1, previousSection);
previousSection = BitVector32.CreateSection(1, previousSection);
fRtsControl = BitVector32.CreateSection(3, previousSection);
previousSection = BitVector32.CreateSection(1, fRtsControl);
}
public bool Binary
{
get { return Flags[fBinary]; }
set { Flags[fBinary] = value; }
}
public bool CheckParity
{
get { return Flags[fParity]; }
set { Flags[fParity] = value; }
}
public bool OutxCtsFlow
{
get { return Flags[fOutxCtsFlow]; }
set { Flags[fOutxCtsFlow] = value; }
}
public bool OutxDsrFlow
{
get { return Flags[fOutxDsrFlow]; }
set { Flags[fOutxDsrFlow] = value; }
}
public DtrControl DtrControl
{
get { return (DtrControl)Flags[fDtrControl]; }
set { Flags[fDtrControl] = (int)value; }
}
public bool DsrSensitivity
{
get { return Flags[fDsrSensitivity]; }
set { Flags[fDsrSensitivity] = value; }
}
public bool TxContinueOnXoff
{
get { return Flags[fTXContinueOnXoff]; }
set { Flags[fTXContinueOnXoff] = value; }
}
public bool OutX
{
get { return Flags[fOutX]; }
set { Flags[fOutX] = value; }
}
public bool InX
{
get { return Flags[fInX]; }
set { Flags[fInX] = value; }
}
public bool ReplaceErrorChar
{
get { return Flags[fErrorChar]; }
set { Flags[fErrorChar] = value; }
}
public bool Null
{
get { return Flags[fNull]; }
set { Flags[fNull] = value; }
}
public RtsControl RtsControl
{
get { return (RtsControl)Flags[fRtsControl]; }
set { Flags[fRtsControl] = (int)value; }
}
public bool AbortOnError
{
get { return Flags[fAbortOnError]; }
set { Flags[fAbortOnError] = value; }
}
}
[StructLayout(LayoutKind.Sequential)]
struct COMMCONFIG {
public UInt32 dwSize;
public UInt16 wVersion;
public UInt16 wReserved;
public Dcb dcb;
public UInt32 dwProviderSubType;
public UInt32 dwProviderOffsert;
public UInt32 dwProviderSize;
public Byte wcProviderDate;
}
[DllImport("kernel32.dll")]
static extern bool CommConfigDialog(string lpszName, IntPtr hWnd, ref COMMCONFIG lpCC);
public Form1()
{
InitializeComponent();
}
private void button1_Click(object sender, EventArgs e)
{
COMMCONFIG commConfig = new COMMCONFIG() { dwSize = (uint)Marshal.SizeOf(typeof(COMMCONFIG)), dwProviderSubType = PST_RS232, dcb = new Dcb() {BaudRate = BAUD_115200} };
CommConfigDialog("COM1", IntPtr.Zero, ref commConfig);
Text = commConfig.dcb.BaudRate.ToString();
}
}
}
с разгону не получилось задавать параметры, которые будут видны в диавлоге, но при выходе из диалога значения скорости порта получаются правильными. Я думаю, как шаблон для экспериментов сгодится.