1------------------------------------------------------------------------------
2--                                                                          --
3--                         GNAT COMPILER COMPONENTS                         --
4--                                                                          --
5--           G N A T . S E R I A L _ C O M M U N I C A T I O N S            --
6--                                                                          --
7--                                 B o d y                                  --
8--                                                                          --
9--                    Copyright (C) 2007-2019, AdaCore                      --
10--                                                                          --
11-- GNAT is free software;  you can  redistribute it  and/or modify it under --
12-- terms of the  GNU General Public License as published  by the Free Soft- --
13-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
14-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
15-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
16-- or FITNESS FOR A PARTICULAR PURPOSE.                                     --
17--                                                                          --
18-- As a special exception under Section 7 of GPL version 3, you are granted --
19-- additional permissions described in the GCC Runtime Library Exception,   --
20-- version 3.1, as published by the Free Software Foundation.               --
21--                                                                          --
22-- You should have received a copy of the GNU General Public License and    --
23-- a copy of the GCC Runtime Library Exception along with this program;     --
24-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
25-- <http://www.gnu.org/licenses/>.                                          --
26--                                                                          --
27-- GNAT was originally developed  by the GNAT team at  New York University. --
28-- Extensive contributions were provided by Ada Core Technologies Inc.      --
29--                                                                          --
30------------------------------------------------------------------------------
31
32--  This is the Windows implementation of this package
33
34with Ada.Streams;          use Ada.Streams, Ada;
35
36with System;               use System;
37with System.Communication; use System.Communication;
38with System.CRTL;          use System.CRTL;
39with System.Win32;         use System.Win32;
40with System.Win32.Ext;     use System.Win32.Ext;
41
42with GNAT.OS_Lib;
43
44package body GNAT.Serial_Communications is
45
46   package OSC renames System.OS_Constants;
47
48   --  Common types
49
50   C_Bits      : constant array (Data_Bits) of Interfaces.C.unsigned := (8, 7);
51   C_Parity    : constant array (Parity_Check) of Interfaces.C.unsigned :=
52                   (None => NOPARITY, Odd => ODDPARITY, Even => EVENPARITY);
53   C_Stop_Bits : constant array (Stop_Bits_Number) of Interfaces.C.unsigned :=
54                   (One => ONESTOPBIT, Two => TWOSTOPBITS);
55
56   -----------
57   -- Files --
58   -----------
59
60   procedure Raise_Error (Message : String; Error : DWORD := GetLastError);
61   pragma No_Return (Raise_Error);
62
63   -----------
64   -- Close --
65   -----------
66
67   procedure Close (Port : in out Serial_Port) is
68      Success : BOOL;
69
70   begin
71      if Port.H /= -1 then
72         Success := CloseHandle (HANDLE (Port.H));
73
74         if Success = Win32.FALSE then
75            Raise_Error ("error closing the port");
76         end if;
77      end if;
78   end Close;
79
80   ----------
81   -- Name --
82   ----------
83
84   function Name (Number : Positive) return Port_Name is
85      N_Img : constant String := Positive'Image (Number);
86   begin
87      if Number > 9 then
88         return
89           Port_Name ("\\.\COM" & N_Img (N_Img'First + 1 .. N_Img'Last));
90      else
91         return
92           Port_Name ("COM" & N_Img (N_Img'First + 1 .. N_Img'Last) & ':');
93      end if;
94   end Name;
95
96   ----------
97   -- Open --
98   ----------
99
100   procedure Open
101     (Port : out Serial_Port;
102      Name : Port_Name)
103   is
104      C_Name  : constant String := String (Name) & ASCII.NUL;
105      Success : BOOL;
106      pragma Unreferenced (Success);
107
108   begin
109      if Port.H /= -1 then
110         Success := CloseHandle (HANDLE (Port.H));
111      end if;
112
113      Port.H := CreateFileA
114        (lpFileName            => C_Name (C_Name'First)'Address,
115         dwDesiredAccess       => GENERIC_READ or GENERIC_WRITE,
116         dwShareMode           => 0,
117         lpSecurityAttributes  => null,
118         dwCreationDisposition => OPEN_EXISTING,
119         dwFlagsAndAttributes  => 0,
120         hTemplateFile         => 0);
121
122      pragma Assert (INVALID_HANDLE_VALUE = -1);
123
124      if Port.H = Serial_Port_Descriptor (INVALID_HANDLE_VALUE) then
125         Raise_Error ("cannot open com port");
126      end if;
127   end Open;
128
129   -----------------
130   -- Raise_Error --
131   -----------------
132
133   procedure Raise_Error (Message : String; Error : DWORD := GetLastError) is
134   begin
135      raise Serial_Error with Message
136        & (if Error /= 0
137           then " (" & GNAT.OS_Lib.Errno_Message (Err => Integer (Error)) & ')'
138           else "");
139   end Raise_Error;
140
141   ----------
142   -- Read --
143   ----------
144
145   overriding procedure Read
146     (Port   : in out Serial_Port;
147      Buffer : out Stream_Element_Array;
148      Last   : out Stream_Element_Offset)
149   is
150      Success   : BOOL;
151      Read_Last : aliased DWORD;
152
153   begin
154      if Port.H = -1 then
155         Raise_Error ("read: port not opened", 0);
156      end if;
157
158      Success :=
159        ReadFile
160          (hFile                => HANDLE (Port.H),
161           lpBuffer             => Buffer (Buffer'First)'Address,
162           nNumberOfBytesToRead => DWORD (Buffer'Length),
163           lpNumberOfBytesRead  => Read_Last'Access,
164           lpOverlapped         => null);
165
166      if Success = Win32.FALSE then
167         Raise_Error ("read error");
168      end if;
169
170      Last := Last_Index (Buffer'First, CRTL.size_t (Read_Last));
171   end Read;
172
173   ---------
174   -- Set --
175   ---------
176
177   procedure Set
178     (Port      : Serial_Port;
179      Rate      : Data_Rate        := B9600;
180      Bits      : Data_Bits        := CS8;
181      Stop_Bits : Stop_Bits_Number := One;
182      Parity    : Parity_Check     := None;
183      Block     : Boolean          := True;
184      Local     : Boolean          := True;
185      Flow      : Flow_Control     := None;
186      Timeout   : Duration         := 10.0)
187   is
188      pragma Unreferenced (Local);
189
190      Success      : BOOL;
191      Com_Time_Out : aliased COMMTIMEOUTS;
192      Com_Settings : aliased DCB;
193
194   begin
195      if Port.H = -1 then
196         Raise_Error ("set: port not opened", 0);
197      end if;
198
199      Success := GetCommState (HANDLE (Port.H), Com_Settings'Access);
200
201      if Success = Win32.FALSE then
202         Success := CloseHandle (HANDLE (Port.H));
203         Raise_Error ("set: cannot get comm state");
204      end if;
205
206      Com_Settings.BaudRate        := DWORD (Data_Rate_Value (Rate));
207      Com_Settings.fParity         := 1;
208      Com_Settings.fBinary         := Bits1 (System.Win32.TRUE);
209      Com_Settings.fOutxDsrFlow    := 0;
210      Com_Settings.fDsrSensitivity := 0;
211      Com_Settings.fDtrControl     := OSC.DTR_CONTROL_ENABLE;
212      Com_Settings.fInX            := 0;
213      Com_Settings.fRtsControl     := OSC.RTS_CONTROL_ENABLE;
214
215      case Flow is
216         when None =>
217            Com_Settings.fOutX        := 0;
218            Com_Settings.fOutxCtsFlow := 0;
219
220         when RTS_CTS =>
221            Com_Settings.fOutX        := 0;
222            Com_Settings.fOutxCtsFlow := 1;
223
224         when Xon_Xoff =>
225            Com_Settings.fOutX        := 1;
226            Com_Settings.fOutxCtsFlow := 0;
227      end case;
228
229      Com_Settings.fAbortOnError := 0;
230      Com_Settings.ByteSize      := BYTE (C_Bits (Bits));
231      Com_Settings.Parity        := BYTE (C_Parity (Parity));
232      Com_Settings.StopBits      := BYTE (C_Stop_Bits (Stop_Bits));
233
234      Success := SetCommState (HANDLE (Port.H), Com_Settings'Access);
235
236      if Success = Win32.FALSE then
237         Success := CloseHandle (HANDLE (Port.H));
238         Raise_Error ("cannot set comm state");
239      end if;
240
241      --  Set the timeout status, to honor our spec with respect to read
242      --  timeouts. Always disconnect write timeouts.
243
244      --  Blocking reads - no timeout at all
245
246      if Block then
247         Com_Time_Out := (others => 0);
248
249      --  Non-blocking reads and null timeout - immediate return with what we
250      --  have - set ReadIntervalTimeout to MAXDWORD.
251
252      elsif Timeout = 0.0 then
253         Com_Time_Out :=
254           (ReadIntervalTimeout => DWORD'Last,
255            others              => 0);
256
257      --  Non-blocking reads with timeout - set total read timeout accordingly
258
259      else
260         Com_Time_Out :=
261           (ReadTotalTimeoutConstant => DWORD (1000 * Timeout),
262            others                   => 0);
263      end if;
264
265      Success :=
266        SetCommTimeouts
267          (hFile          => HANDLE (Port.H),
268           lpCommTimeouts => Com_Time_Out'Access);
269
270      if Success = Win32.FALSE then
271         Raise_Error ("cannot set the timeout");
272      end if;
273   end Set;
274
275   ------------
276   -- To_Ada --
277   ------------
278
279   procedure To_Ada (Port : out Serial_Port; Fd : Serial_Port_Descriptor) is
280   begin
281      Port.H := Fd;
282   end To_Ada;
283
284   -----------
285   -- Write --
286   -----------
287
288   overriding procedure Write
289     (Port   : in out Serial_Port;
290      Buffer : Stream_Element_Array)
291   is
292      Success   : BOOL;
293      Temp_Last : aliased DWORD;
294
295   begin
296      if Port.H = -1 then
297         Raise_Error ("write: port not opened", 0);
298      end if;
299
300      Success :=
301        WriteFile
302          (hFile                  => HANDLE (Port.H),
303           lpBuffer               => Buffer'Address,
304           nNumberOfBytesToWrite  => DWORD (Buffer'Length),
305           lpNumberOfBytesWritten => Temp_Last'Access,
306           lpOverlapped           => null);
307
308      if Success = Win32.FALSE
309        or else Stream_Element_Offset (Temp_Last) /= Buffer'Length
310      then
311         Raise_Error ("failed to write data");
312      end if;
313   end Write;
314
315end GNAT.Serial_Communications;
316