/* * Copyright (c) 1998 Metro Link Incorporated * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, cpy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF * OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * * Except as contained in this notice, the name of the Metro Link shall not be * used in advertising or otherwise to promote the sale, use or other dealings * in this Software without prior written authorization from Metro Link. * */ /* * Based, in part, on code with the following copyright notice: * * Copyright 1995 by Patrick Lecoanet, France. * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of Patrick Lecoanet not be used in * advertising or publicity pertaining to distribution of the software without * specific, written prior permission. Patrick Lecoanet makes no * representations about the suitability of this software for any purpose. It * is provided "as is" without express or implied warranty. * * PATRICK LECOANET DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL PATRICK LECOANET BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. * */ /* $XFree86: xc/programs/Xserver/hw/xfree86/input/elo2300/elo.c,v 1.10 2000/08/11 19:10:44 dawes Exp $ */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #define _elo_C_ /***************************************************************************** * Standard Headers ****************************************************************************/ #include #include #define NEED_XF86_TYPES #include #include #include #include /* Needed for InitValuator/Proximity stuff */ #include /***************************************************************************** * Local Headers ****************************************************************************/ #include "elo.h" /***************************************************************************** * Variables without includable headers ****************************************************************************/ /***************************************************************************** * Local Variables ****************************************************************************/ static XF86ModuleVersionInfo VersionRec = { "elo2300", MODULEVENDORSTRING, MODINFOSTRING1, MODINFOSTRING2, XORG_VERSION_CURRENT, PACKAGE_VERSION_MAJOR, PACKAGE_VERSION_MINOR, PACKAGE_VERSION_PATCHLEVEL, ABI_CLASS_XINPUT, ABI_XINPUT_VERSION, MOD_CLASS_XINPUT, {0, 0, 0, 0} /* signature, to be patched into the file by * a tool */ }; static const char *default_options[] = { "BaudRate", "9600", "StopBits", "1", "DataBits", "8", "Parity", "None", "Vmin", "10", "Vtime", "1", "FlowControl", "None" }; _X_EXPORT XF86ModuleData elo2300ModuleData = { &VersionRec, SetupProc, TearDownProc }; /***************************************************************************** * Function Definitions ****************************************************************************/ static void TearDownProc( pointer p ) { LocalDevicePtr local = (LocalDevicePtr) p; EloPrivatePtr priv = (EloPrivatePtr) local->private; DeviceOff (local->dev); xf86CloseSerial (local->fd); XisbFree (priv->buffer); xfree (priv); xfree (local->name); xfree (local); } static pointer SetupProc( pointer module, pointer options, int *errmaj, int *errmin ) { LocalDevicePtr local = xcalloc (1, sizeof (LocalDeviceRec)); EloPrivatePtr priv = xcalloc (1, sizeof (EloPrivateRec)); pointer defaults, merged; char *s; if ((!local) || (!priv)) goto SetupProc_fail; defaults = xf86OptionListCreate( default_options, (sizeof (default_options) / sizeof (default_options[0])), 0); merged = xf86OptionListMerge( defaults, options ); xf86OptionListReport( merged ); local->fd = xf86OpenSerial (merged); if (local->fd == -1) { xf86ErrorF ("ELO 2300 driver unable to open device\n"); *errmaj = LDR_NOPORTOPEN; *errmin = errno; goto SetupProc_fail; } xf86ErrorFVerb( 6, "tty port opened successfully\n" ); priv->min_x = xf86SetIntOption( merged, "MinX", 0 ); priv->max_x = xf86SetIntOption( merged, "MaxX", 1000 ); priv->min_y = xf86SetIntOption( merged, "MinY", 0 ); priv->max_y = xf86SetIntOption( merged, "MaxY", 1000 ); priv->untouch_delay = xf86SetIntOption( merged, "UntouchDelay", ELO_UNTOUCH_DELAY ); priv->report_delay = xf86SetIntOption( merged, "ReportDelay", ELO_REPORT_DELAY ); priv->screen_num = xf86SetIntOption( merged, "ScreenNumber", 0 ); priv->button_number = xf86SetIntOption( merged, "ButtonNumber", 1 ); priv->button_threshold = xf86SetIntOption( merged, "ButtonThreshold", 128 ); s = xf86FindOptionValue (merged, "ReportingMode"); if ((s) && (xf86NameCmp (s, "raw") == 0)) priv->reporting_mode = TS_Raw; else priv->reporting_mode = TS_Scaled; priv->buffer = XisbNew (local->fd, 200); priv->button_down = FALSE; EloNewPacket (priv); if (QueryHardware (priv, errmaj, errmin) != Success) { xf86ErrorF ("Unable to query/initialize Elographics 2300 hardware.\n"); goto SetupProc_fail; } /* this results in an xstrdup that must be freed later */ local->name = xf86SetStrOption( merged, "DeviceName", "ELOGraphics 2300 TouchScreen" ); local->type_name = XI_TOUCHSCREEN; local->device_control = DeviceControl; local->read_input = ReadInput; local->control_proc = ControlProc; local->close_proc = CloseProc; local->switch_mode = SwitchMode; local->conversion_proc = ConvertProc; local->dev = NULL; local->private = priv; local->private_flags = 0; local->history_size = xf86SetIntOption( merged, "HistorySize", 0 ); #if GET_ABI_MAJOR(ABI_XINPUT_VERSION) == 0 xf86AddLocalDevice (local, merged); #endif /* prepare to process touch packets */ EloNewPacket (priv); return (local); SetupProc_fail: if ((local) && (local->fd)) xf86CloseSerial (local->fd); if ((local) && (local->name)) xfree (local->name); if ((priv) && (priv->buffer)) XisbFree (priv->buffer); if (priv) xfree (priv); return (local); } static Bool DeviceControl( DeviceIntPtr dev, int mode ) { Bool RetValue; switch (mode) { case DEVICE_INIT: DeviceInit (dev); RetValue = Success; break; case DEVICE_ON: RetValue = DeviceOn( dev ); break; case DEVICE_OFF: RetValue = DeviceOff( dev ); break; case DEVICE_CLOSE: RetValue = DeviceClose( dev ); break; default: RetValue = BadValue; } return( RetValue ); } static Bool DeviceOn( DeviceIntPtr dev ) { LocalDevicePtr local = (LocalDevicePtr) dev->public.devicePrivate; AddEnabledDevice (local->fd); dev->public.on = TRUE; return (Success); } static Bool DeviceOff( DeviceIntPtr dev ) { LocalDevicePtr local = (LocalDevicePtr) dev->public.devicePrivate; RemoveEnabledDevice (local->fd); dev->public.on = FALSE; return (Success); } static Bool DeviceClose( DeviceIntPtr dev ) { return (Success); } static Bool DeviceInit( DeviceIntPtr dev ) { LocalDevicePtr local = (LocalDevicePtr) dev->public.devicePrivate; EloPrivatePtr priv = (EloPrivatePtr) (local->private); unsigned char map[] = {0, 1}; /* * these have to be here instead of in the SetupProc, because when the * SetupProc is run and server startup, screenInfo is not setup yet */ priv->screen_width = screenInfo.screens[priv->screen_num]->width; priv->screen_height = screenInfo.screens[priv->screen_num]->height; /* * Device reports button press for up to 1 button. */ if (InitButtonClassDeviceStruct (dev, 1, map) == FALSE) { ErrorF ("Unable to allocate Elographics touchscreen ButtonClassDeviceStruct\n"); return !Success; } /* * Device reports motions on 2 axes in absolute coordinates. * Device may reports touch pressure on the 3rd axis. */ if (InitValuatorClassDeviceStruct (dev, priv->axes, #if GET_ABI_MAJOR(ABI_XINPUT_VERSION) < 3 xf86GetMotionEvents, #endif local->history_size, Absolute) == FALSE) { ErrorF ("Unable to allocate Elographics touchscreen ValuatorClassDeviceStruct\n"); return !Success; } else { InitValuatorAxisStruct (dev, 0, priv->min_x, priv->max_x, 9500, 0 /* min_res */ , 9500 /* max_res */ ); InitValuatorAxisStruct (dev, 1, priv->min_y, priv->max_y, 10500, 0 /* min_res */ , 10500 /* max_res */ ); /* 3rd axis is pressure */ if (priv->axes == 3) { InitValuatorAxisStruct (dev, 2, 0, 255, 255, 0 /* min_res */ , 255 /* max_res */ ); } } if (InitProximityClassDeviceStruct (dev) == FALSE) { ErrorF ("Unable to allocate Elographics touchscreen ProximityClassDeviceStruct\n"); return !Success; } /* * Allocate the motion events buffer. */ xf86MotionHistoryAllocate (local); return (Success); } static void ReadInput( LocalDevicePtr local ) { int x, y, z; int state; EloPrivatePtr priv = (EloPrivatePtr) (local->private); /* * set blocking to -1 on the first call because we know there is data to * read. Xisb automatically clears it after one successful read so that * succeeding reads are preceeded buy a select with a 0 timeout to prevent * read from blocking indefinately. */ XisbBlockDuration (priv->buffer, -1); while (EloGetPacket (priv) == Success) { if (priv->packet[1] == ELO_TOUCH) { x = WORD_ASSEMBLY (priv->packet[3], priv->packet[4]); y = WORD_ASSEMBLY (priv->packet[5], priv->packet[6]); z = WORD_ASSEMBLY (priv->packet[7], priv->packet[8]); state = priv->packet[2] & 0x07; if (priv->reporting_mode == TS_Scaled) { x = xf86ScaleAxis (x, 0, priv->screen_width, priv->min_x, priv->max_x); y = xf86ScaleAxis (y, 0, priv->screen_height, priv->min_y, priv->max_y); } xf86XInputSetScreen (local, priv->screen_num, x, y); if (state == ELO_PRESS) { if (priv->axes == 3) xf86PostProximityEvent (local->dev, 1, 0, 3, x, y, z); else xf86PostProximityEvent (local->dev, 1, 0, 2, x, y); } /* * Send events. * * We *must* generate a motion before a button change if pointer * location has changed as DIX assumes this. This is why we always * emit a motion, regardless of the kind of packet processed. */ if (priv->axes == 3) xf86PostMotionEvent (local->dev, TRUE, 0, 3, x, y, z); else xf86PostMotionEvent (local->dev, TRUE, 0, 2, x, y); /* * Emit a button press or release. */ if ((z > priv->button_threshold) && (!priv->button_down)) { if (priv->axes == 3) { xf86PostButtonEvent (local->dev, TRUE, priv->button_number, 1, 0, 3, x, y, z); } else { xf86PostButtonEvent (local->dev, TRUE, priv->button_number, 1, 0, 2, x, y); } priv->button_down = TRUE; } /* * if button_threshold is 0, there may never be a STREAMING * event with a z <= 0 before there is an untouch (RELEASE) * event */ if (((z <= priv->button_threshold) || (state == ELO_RELEASE)) && (priv->button_down)) { if (priv->axes == 3) { xf86PostButtonEvent (local->dev, TRUE, priv->button_number, 0, 0, 3, x, y, z); } else { xf86PostButtonEvent (local->dev, TRUE, priv->button_number, 0, 0, 2, x, y); } priv->button_down = FALSE; } /* * the untouch should always come after the button release */ if (state == ELO_RELEASE) { if (priv->axes == 3) xf86PostProximityEvent (local->dev, 0, 0, 3, x, y, z); else xf86PostProximityEvent (local->dev, 0, 0, 2, x, y); } xf86ErrorFVerb (3, "TouchScreen: x(%d), y(%d), %s\n", x, y, (state == ELO_PRESS) ? "Press" : ((state == ELO_RELEASE) ? "Release" : "Stream")); } } } static int ControlProc( LocalDevicePtr local, xDeviceCtl * control ) { xDeviceAbsCalibCtl *c = (xDeviceAbsCalibCtl *) control; EloPrivatePtr priv = (EloPrivatePtr) (local->private); priv->min_x = c->min_x; priv->max_x = c->max_x; priv->min_y = c->min_y; priv->max_y = c->max_y; /* * if we have real Z values, set the threshold, otherwise stick with * the built-in default. */ if (priv->axes == 3) priv->button_threshold = c->button_threshold; return (Success); } static void CloseProc( LocalDevicePtr local ) { } static int SwitchMode( ClientPtr client, DeviceIntPtr dev, int mode ) { LocalDevicePtr local = (LocalDevicePtr) dev->public.devicePrivate; EloPrivatePtr priv = (EloPrivatePtr) (local->private); if ((mode == TS_Raw) || (mode == TS_Scaled)) { priv->reporting_mode = mode; return (Success); } #if GET_ABI_MAJOR(ABI_XINPUT_VERSION) == 0 else if ((mode == SendCoreEvents) || (mode == DontSendCoreEvents)) { xf86XInputSetSendCoreEvents (local, (mode == SendCoreEvents)); return (Success); } #endif else return (!Success); } static Bool ConvertProc( LocalDevicePtr local, int first, int num, int v0, int v1, int v2, int v3, int v4, int v5, int *x, int *y ) { EloPrivatePtr priv = (EloPrivatePtr) (local->private); if (priv->reporting_mode == TS_Raw) { *x = xf86ScaleAxis (v0, 0, priv->screen_width, priv->min_x, priv->max_x); *y = xf86ScaleAxis (v1, 0, priv->screen_height, priv->min_y, priv->max_y); } else { *x = v0; *y = v1; } return (TRUE); } static Bool QueryHardware( EloPrivatePtr priv, int *errmaj, int *errmin ) { unsigned char req[ELO_PACKET_SIZE]; memset (req, 0, ELO_PACKET_SIZE); req[1] = tolower (ELO_ID); if (EloSendQuery (req, priv) == Success) { /* * indicates hardware reports actual z (pressure) values */ if (priv->packet[4] & 0x80) priv->axes = 3; else priv->axes = 2; EloPrintIdent( priv->packet ); if (EloWaitAck (priv) != Success) { *errmaj = LDR_NOHARDWARE; return (!Success); } } else { *errmaj = LDR_NOHARDWARE; return (!Success); } /* * Set the operating mode: Stream, no scaling, no calibration, * no range checking, no trim, tracking enabled. */ memset (req, 0, ELO_PACKET_SIZE); req[1] = ELO_MODE; req[3] = ELO_TOUCH_MODE | ELO_STREAM_MODE | ELO_UNTOUCH_MODE | ELO_ENABLE_Z_MODE; req[4] = ELO_TRACKING_MODE; if (EloSendControl (req, priv) != Success) { ErrorF ("Unable to change Elographics touchscreen modes\n"); *errmaj = LDR_NOHARDWARE; return (!Success); } /* * Set the touch reports timings from configuration data. */ memset (req, 0, ELO_PACKET_SIZE); req[1] = ELO_REPORT; req[2] = priv->untouch_delay; req[3] = priv->report_delay; if (EloSendControl (req, priv) != Success) { ErrorF ("Unable to change Elographics touchscreen reports timings\n"); *errmaj = LDR_NOHARDWARE; return (!Success); } return (Success); } /* *************************************************************************** * * EloSendControl -- * Emit a control command to the controller and wait for acknowledge. * * Returns Success if acknowledge received and reported no error. * *************************************************************************** */ static Bool EloSendControl( unsigned char *control, EloPrivatePtr priv ) { if (EloSendPacket (control, priv->buffer) == Success) { return EloWaitAck (priv); } else return !Success; } /* *************************************************************************** * * EloSendQuery -- * Emit a query to the controller and blocks until the reply and * the acknowledge are read. * * The reply is left in reply. The function returns Success if the * reply is valid and !Success otherwise. * *************************************************************************** */ static Bool EloSendQuery( unsigned char *request, EloPrivatePtr priv ) { Bool ok; if (EloSendPacket (request, priv->buffer) == Success) { ok = EloWaitReply (toupper (request[1]), priv); return ok; } else return !Success; } /* *************************************************************************** * * EloSendPacket -- * Emit an height bytes packet to the controller. * The function expects a valid buffer containing the * command to be sent to the controller. It fills it with the * leading sync character an the trailing checksum byte. * *************************************************************************** */ static Bool EloSendPacket( unsigned char *packet, XISBuffer * b ) { int i, result; int sum = ELO_INIT_CHECKSUM; packet[0] = ELO_SYNC_BYTE; for (i = 0; i < ELO_PACKET_SIZE - 1; i++) { sum += packet[i]; sum &= 0xFF; } packet[ELO_PACKET_SIZE - 1] = sum; result = XisbWrite (b, packet, ELO_PACKET_SIZE); if (result != ELO_PACKET_SIZE) { ErrorF ("System error while sending to Elographics touchscreen.\n"); return !Success; } else return Success; } /* *************************************************************************** * * EloWaitReply -- * It is assumed that the reply will be in the few next bytes * read and will be available very soon after the query post. if * these two asumptions are not met, there are chances that the server * will be stuck for a while. * The reply type need to match parameter 'type'. * The reply is left in reply. The function returns Success if the * reply is valid and !Success otherwise. * *************************************************************************** */ static Bool EloWaitReply( unsigned char type, EloPrivatePtr priv ) { Bool ok; int wrong, empty; xf86ErrorFVerb( 4, "Waiting for a '%c' reply\n", type ); wrong = ELO_MAX_WRONG_PACKETS; empty = ELO_MAX_EMPTY_PACKETS; do { ok = !Success; /* * Wait half a second for the reply. The fuse counts down each * timeout and each wrong packet. */ xf86ErrorFVerb( 4, "Waiting %d ms for data from port\n", ELO_MAX_WAIT / 1000 ); EloNewPacket (priv); XisbBlockDuration (priv->buffer, ELO_MAX_WAIT); ok = EloGetPacket (priv); if (ok != Success) empty--; if ((ok == Success) && (priv->packet[1] != type)) { xf86ErrorFVerb( 2, "Wrong reply received\n" ); ok = !Success; wrong--; } } while (ok != Success && wrong && empty); return ok; } /* * prepare to read a new packet regardless of the state of the packet in * progress */ static void EloNewPacket( EloPrivatePtr priv ) { priv->packeti = 0; priv->lex_mode = elo_normal; priv->checksum = 0; } /* *************************************************************************** * * EloGetPacket -- * Read a packet from the port. Try to synchronize with start of * packet and compute checksum. * The packet structure read by this function is as follow: * Byte 0 : ELO_SYNC_BYTE * Byte 1 * ... * Byte 8 : packet data * Byte 9 : checksum of bytes 0 to 8 * * This function returns if a valid packet has been assembled in * buffer or if no more data is available. * * Returns Success if a packet is successfully assembled including * testing checksum. If a packet checksum is incorrect, it is discarded. * Bytes preceding the ELO_SYNC_BYTE are also discarded. * Returns !Success if out of data while reading. The start of the * partially assembled packet is left in packet, buffer_p and * checksum reflect the current state of assembly. * *************************************************************************** */ static Bool EloGetPacket( EloPrivatePtr priv ) { int count = 0; int c; while ((c = XisbRead (priv->buffer)) >= 0) { if (priv->lex_mode != elo_checksum) priv->checksum += c; if (count++ > 50) { EloNewPacket (priv); return (!Success); } switch (priv->lex_mode) { case elo_normal: if (c == ELO_SYNC_BYTE) { priv->packet[priv->packeti++] = (unsigned char) c; priv->checksum = ELO_INIT_CHECKSUM + c; priv->lex_mode = elo_body; } break; case elo_body: if (priv->packeti < 9) priv->packet[priv->packeti++] = (unsigned char) c; if (priv->packeti == 9) priv->lex_mode = elo_checksum; break; case elo_checksum: if (c != priv->checksum) { xf86ErrorFVerb( 4, "Checksum mismatch. Read %d calculated %d\nPacket discarded.\n", c, priv->checksum ); EloNewPacket (priv); } else { EloNewPacket (priv); xf86ErrorFVerb( 5, "got a good packet from ELO touchscreen\n" ); return (Success); } break; } } return (!Success); } /* *************************************************************************** * * EloWaitAck -- * Wait for an acknowledge from the controller. Returns Success if * acknowledge received and reported no errors. * *************************************************************************** */ static Bool EloWaitAck( EloPrivatePtr priv ) { int i, nb_errors; if (EloWaitReply (ELO_ACK, priv) == Success) { for (i = 0, nb_errors = 0; i < 4; i++) if (priv->packet[2 + i] != '0') nb_errors++; if (nb_errors != 0) { xf86ErrorFVerb( 2, "Elographics acknowledge packet reports %d errors\n", nb_errors ); } return Success; /* return (nb_errors < 4) ? Success : !Success; */ } else return !Success; } /* *************************************************************************** * * EloPrintIdent -- * Print type of touchscreen and features on controller board. * *************************************************************************** */ static void EloPrintIdent( unsigned char *packet ) { xf86Msg( X_PROBED, " Elographics touchscreen is a " ); switch (packet[2]) { case '0': xf86ErrorF( "AccuTouch" ); break; case '1': xf86ErrorF( "DuraTouch" ); break; case '2': xf86ErrorF( "Intellitouch" ); break; } xf86ErrorF( ", connected through a " ); switch (packet[3]) { case '0': xf86ErrorF( "serial link.\n" ); break; case '1': xf86ErrorF( "ISA-Bus card.\n" ); break; case '2': xf86ErrorF( "Micro Channel card.\n"); break; } xf86Msg( X_PROBED, " The controller is a model " ); if (packet[8] & 1) xf86ErrorF( "E271-2210" ); else xf86ErrorF( "E271-2200" ); xf86ErrorF( ", firmware revision %d.%d.\n", packet[6], packet[5] ); if( packet[4] ) { xf86Msg( X_PROBED, " Additional features:\n" ); if (packet[4] & 0x10) xf86Msg( X_PROBED, " External A/D converter\n" ); if (packet[4] & 0x20) xf86Msg( X_PROBED, " 32K RAM\n" ); if (packet[4] & 0x40) xf86Msg( X_PROBED, " RAM onboard\n" ); if (packet[4] & 0x80) xf86Msg( X_PROBED, " Z axis active\n" ); xf86ErrorF( "\n" ); } }