//--------------------------------------------------------------------------- // Copyright (C) 2001 Dallas Semiconductor Corporation, All Rights Reserved. // // 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, copy, 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 DALLAS SEMICONDUCTOR 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 Dallas Semiconductor // shall not be used except as stated in the Dallas Semiconductor // Branding Policy. //--------------------------------------------------------------------------- // // TMEXLnk.C - Link module to call on TMEX low-level functions to // excersize the general 1-Wire Net functions. // (Requires TMEX 3.11 or newer) // // Version: 3.00 // // History: 1.00 -> 1.01 Return values in owLevel corrected. // Added function msDelay. // 1.02 -> 1.03 Add msGettick, always return owLevel success // to hide adapters (DS9097E) that do not have // power delivery capabilities. // 1.03 -> 2.00 Changed 'MLan' to 'ow'. Added support for // multiple ports. // 2.10 -> 3.00 Added owReadBitPower and owWriteBytePower #include "ownet.h" #include // external TMEX variables extern long SessionHandle[MAX_PORTNUM]; extern short far pascal TMTouchByte(long, short); extern short far pascal TMTouchReset(long); extern short far pascal TMTouchBit(long, short); extern short far pascal TMProgramPulse(long); extern short far pascal TMOneWireCom(long, short, short); extern short far pascal TMOneWireLevel(long, short, short, short); // exportable low-level functions SMALLINT owTouchReset(int); SMALLINT owTouchBit(int,SMALLINT); SMALLINT owTouchByte(int,SMALLINT); SMALLINT owWriteByte(int,SMALLINT); SMALLINT owReadByte(int); SMALLINT owSpeed(int,SMALLINT); SMALLINT owLevel(int,SMALLINT); SMALLINT owProgramPulse(int); SMALLINT owWriteBytePower(int,SMALLINT); SMALLINT owReadBitPower(int, SMALLINT); SMALLINT owHasPowerDelivery(int); SMALLINT owHasProgramPulse(int); SMALLINT owHasOverDrive(int); void msDelay(int); long msGettick(void); //-------------------------------------------------------------------------- // Reset all of the devices on the 1-Wire Net and return the result. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number is provided to // indicate the symbolic port number. // // Returns: TRUE(1): presense pulse(s) detected, device(s) reset // FALSE(0): no presense pulses detected // SMALLINT owTouchReset(int portnum) { int result; // Assume valid Session result = TMTouchReset(SessionHandle[portnum]); // success if the normal or alarm presence if ((result == 1) || (result == 2)) return TRUE; else return FALSE; } //-------------------------------------------------------------------------- // Send 1 bit of communication to the 1-Wire Net and return the // result 1 bit read from the 1-Wire Net. The parameter 'sendbit' // least significant bit is used and the least significant bit // of the result is the return bit. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number is provided to // indicate the symbolic port number. // 'sendbit' - the least significant bit is the bit to send // // Returns: 0: 0 bit read from sendbit // 1: 1 bit read from sendbit // SMALLINT owTouchBit(int portnum, SMALLINT sendbit) { // Assume valid Session return TMTouchBit(SessionHandle[portnum],(short)sendbit); } //-------------------------------------------------------------------------- // Send 8 bits of communication to the 1-Wire Net and verify that the // 8 bits read from the 1-Wire Net is the same (write operation). // The parameter 'sendbyte' least significant 8 bits are used. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number is provided to // indicate the symbolic port number. // 'sendbyte' - 8 bits to send (least significant byte) // // Returns: TRUE: bytes written and echo was the same // FALSE: echo was not the same // SMALLINT owTouchByte(int portnum, SMALLINT sendbyte) { // Assume valid Session return TMTouchByte(SessionHandle[portnum],(short)sendbyte); } //-------------------------------------------------------------------------- // Send 8 bits of communication to the MicroLAN and verify that the // 8 bits read from the MicroLAN is the same (write operation). // The parameter 'sendbyte' least significant 8 bits are used. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number is provided to // indicate the symbolic port number. // 'sendbyte' - 8 bits to send (least significant byte) // // Returns: TRUE: bytes written and echo was the same // FALSE: echo was not the same // SMALLINT owWriteByte(int portnum, SMALLINT sendbyte) { return (owTouchByte(portnum,sendbyte) == sendbyte) ? TRUE : FALSE; } //-------------------------------------------------------------------------- // Send 8 bits of read communication to the 1-Wire Net and and return the // result 8 bits read from the 1-Wire Net. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number is provided to // indicate the symbolic port number. // // Returns: 8 bytes read from 1-Wire Net // SMALLINT owReadByte(int portnum) { return owTouchByte(portnum,0xFF); } //-------------------------------------------------------------------------- // Set the 1-Wire Net communucation speed. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number is provided to // indicate the symbolic port number. // 'new_speed' - new speed defined as // MODE_NORMAL 0x00 // MODE_OVERDRIVE 0x01 // // Returns: current 1-Wire Net speed // SMALLINT owSpeed(int portnum, SMALLINT new_speed) { return TMOneWireCom(SessionHandle[portnum],0,(short)new_speed); } //-------------------------------------------------------------------------- // Set the 1-Wire Net line level. The values for new_level are // as follows: // // 'portnum' - number 0 to MAX_PORTNUM-1. This number is provided to // indicate the symbolic port number. // 'new_level' - new level defined as // MODE_NORMAL 0x00 // MODE_STRONG5 0x02 // MODE_PROGRAM 0x04 // MODE_BREAK 0x08 (not supported) // // Returns: current 1-Wire Net level // SMALLINT owLevel(int portnum, SMALLINT new_level) { int rslt; switch (new_level) { case MODE_NORMAL: rslt = TMOneWireLevel(SessionHandle[portnum],0,0,0); break; case MODE_STRONG5: rslt = TMOneWireLevel(SessionHandle[portnum],0,1,0); break; case MODE_PROGRAM: rslt = TMOneWireLevel(SessionHandle[portnum],0,3,0); break; case MODE_BREAK: rslt = TMOneWireLevel(SessionHandle[portnum],0,2,0); break; default: rslt = 0; } // Assume TMEX can do it so always return NewLevel return new_level; } //-------------------------------------------------------------------------- // This procedure creates a fixed 480 microseconds 12 volt pulse // on the 1-Wire Net for programming EPROM iButtons. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number is provided to // indicate the symbolic port number. // // Returns: TRUE successful // FALSE program voltage not available // SMALLINT owProgramPulse(int portnum) { return TMProgramPulse(SessionHandle[portnum]); } //-------------------------------------------------------------------------- // Description: // Delay for at least 'len' ms // void msDelay(int len) { Sleep(len); } //-------------------------------------------------------------------------- // Get the current millisecond tick count. Does not have to represent // an actual time, it just needs to be an incrementing timer. // long msGettick(void) { return GetTickCount(); } //-------------------------------------------------------------------------- // Send 8 bits of communication to the 1-Wire Net and verify that the // 8 bits read from the 1-Wire Net is the same (write operation). // The parameter 'sendbyte' least significant 8 bits are used. After the // 8 bits are sent change the level of the 1-Wire net. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number was provided to // OpenCOM to indicate the port number. // 'sendbyte' - 8 bits to send (least significant byte) // // Returns: TRUE: bytes written and echo was the same // FALSE: echo was not the same // SMALLINT owWriteBytePower(int portnum, SMALLINT sendbyte) { // prime for power delivery after byte TMOneWireLevel(SessionHandle[portnum],1,1,2); // send the byte and start strong pullup if(TMTouchByte(SessionHandle[portnum],(short)sendbyte) != sendbyte) { TMOneWireLevel(SessionHandle[portnum],0,0,0); return FALSE; } return TRUE; } //-------------------------------------------------------------------------- // Send 1 bit of communication to the 1-Wire Net and verify that the // response matches the 'applyPowerResponse' bit and apply power delivery // to the 1-Wire net. Note that some implementations may apply the power // first and then turn it off if the response is incorrect. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number was provided to // OpenCOM to indicate the port number. // 'applyPowerResponse' - 1 bit response to check, if correct then start // power delivery // // Returns: TRUE: bit written and response correct, strong pullup now on // FALSE: response incorrect // SMALLINT owReadBitPower(int portnum, SMALLINT applyPowerResponse) { // prime for power delivery after bit TMOneWireLevel(SessionHandle[portnum],1,1,1); // send the byte and start strong pullup if(TMTouchBit(SessionHandle[portnum],0x01) != applyPowerResponse) { TMOneWireLevel(SessionHandle[portnum],0,0,0); return FALSE; } return TRUE; } //-------------------------------------------------------------------------- // This procedure indicates wether the adapter can deliver power. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number was provided to // OpenCOM to indicate the port number. // // Returns: TRUE because all userial adapters have over drive. // SMALLINT owHasPowerDelivery(int portnum) { return TRUE; } //-------------------------------------------------------------------------- // This procedure indicates wether the adapter can deliver power. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number was provided to // OpenCOM to indicate the port number. // // Returns: TRUE because all userial adapters have over drive. // SMALLINT owHasOverDrive(int portnum) { return TRUE; } //-------------------------------------------------------------------------- // This procedure creates a fixed 480 microseconds 12 volt pulse // on the 1-Wire Net for programming EPROM iButtons. // // 'portnum' - number 0 to MAX_PORTNUM-1. This number was provided to // OpenCOM to indicate the port number. // // Returns: TRUE program volatage available // FALSE program voltage not available SMALLINT owHasProgramPulse(int portnum) { return TMProgramPulse(SessionHandle[portnum]); }