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