diff -r 630d2f34d719 -r 07a122eea281 fax/faxclientandserver/FAXSVR/FRAMES.H --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/fax/faxclientandserver/FAXSVR/FRAMES.H Wed Sep 01 12:40:21 2010 +0100 @@ -0,0 +1,136 @@ +// Copyright (c) 1997-2009 Nokia Corporation and/or its subsidiary(-ies). +// All rights reserved. +// This component and the accompanying materials are made available +// under the terms of "Eclipse Public License v1.0" +// which accompanies this distribution, and is available +// at the URL "http://www.eclipse.org/legal/epl-v10.html". +// +// Initial Contributors: +// Nokia Corporation - initial contribution. +// +// Contributors: +// +// Description: +// The bytes are all inverted as the T.30 spec indicates that all frame +// data should be transmitted from MSB -> LSB ( i.e. left to right just +// as printed). However, asynchronous data is always send LSB -> MSB +// which would be the wrong way round. Note that in the faxparms.bit +// structure the fields are declared in MSB -> LSB order, which is OK. +// ID strings are an exception : they are always transmitted completely +// backwards (LSB of last byte -> MSB of first byte. +// Where the MSB is listed as an x this should be set to 1 if we +// received KT30_DIS or left at to 0 if we received a response to our KT30_DIS +// We have a mask on incoming data to knock this bit off +// +// + +/** + @file + @internalComponent +*/ + +#ifndef __FRAMES_H +#define __FRAMES_H +/** +@internalComponent +*/ +const TUint8 KT30_DISMASK (0xfe); + +const TUint8 KT30_TCF (0x00); +const TUint8 KT30_FILL (0x00); + +const TUint8 KT30_T1 (35); // this is the T1 35 second timeout +const TUint8 KT30_T2 (6); // this is the T2 6 second timeout +const TUint8 KT30_T4 (3); // this is the T4 3 second timeout (5.2E/T.30) + +const TUint8 KT30_ADDR (0xff); // HDLC address is palindromic +const TUint8 KT30_CTLNXT (0x03); // intermediate frame control field 11000000 +const TUint8 KT30_CTLLST (0x13); // final control field 11001000 + +const TUint8 KT30_DIS (0x80); // answering capability follows 00000001 +const TUint8 KT30_CSI (0x40); // answering station identity follows 00000010 +const TUint8 KT30_NSF (0x20); // answering nonstandard facilities 00000100 + +const TUint8 KT30_DTC (0x81); // polling capability follows 10000001 +const TUint8 KT30_CIG (0x41); // polling station identity follows 10000010 +const TUint8 KT30_NSC (0x21); // polling nonstandard facilities 10000100 + +const TUint8 KT30_DCS (0x82); // transmitter capability follows x1000001 +const TUint8 KT30_TSI (0x42); // transmitter station identity follows x1000010 +const TUint8 KT30_NSS (0x22); // transmitter nonstandard facilities x1000100 + +const TUint8 KT30_CFR (0x84); // confirmation to received x0100001 +const TUint8 KT30_FTT (0x44); // failure to train x0100010 + +const TUint8 KT30_EOM (0x8e); // end of document x1110001 +const TUint8 KT30_MPS (0x4e); // end of page x1110010 +const TUint8 KT30_EOP (0x2e); // end of transmission x1110100 +const TUint8 KT30_PRIEOM (0x9e); // end of document - operator pls x1111001 +const TUint8 KT30_PRIMPS (0x5e); // end of page - operator pls x1111010 +const TUint8 KT30_PRIEOP (0x3e); // end of transmission - operator pls x1111100 + +const TUint8 KT30_MCF (0x8c); // message confirmation x0110001 +const TUint8 KT30_RTP (0xcc); // message confirmation with retrain x0110011 +const TUint8 KT30_PIP (0xac); // message confirmation - operator pls x0110101 +const TUint8 KT30_RTN (0x4c); // message not received with retrain x0110010 +const TUint8 KT30_PIN (0x2c); // message not received - operator pls x0110100 + +const TUint8 KT30_DCN (0xfa); // disconnect x1011111 +const TUint8 KT30_CRP (0x1a); // command repeat x1011000 +/** +@internalComponent +*/ +union faxparms + { + TUint8 byte[5] ; + struct + { + unsigned b01: 1 ; // transmitter T2 + unsigned b02: 1 ; // receiver T2 + unsigned b03: 1 ; // T2 IOC + unsigned b04: 1 ; // transmitter T3 + unsigned b05: 1 ; // receiver T3 + unsigned b06: 1 ; // reserved + unsigned b07: 1 ; // reserved + unsigned b08: 1 ; // reserved + + unsigned b09: 1 ; // transmitter T4 + unsigned b10: 1 ; // receiver T4 + unsigned b11: 1 ; // data signalling rate b 1 + unsigned b12: 1 ; // data signalling rate b 2 + unsigned b13: 1 ; // data signalling rate b 3 + unsigned b14: 1 ; // data signalling rate b 4 + unsigned b15: 1 ; // fine vertical resolution + unsigned b16: 1 ; // two dimensional coding + + unsigned b17: 1 ; // fax width b 1 + unsigned b18: 1 ; // fax width b 2 + unsigned b19: 1 ; // fax length b 1 + unsigned b20: 1 ; // fax length b 2 + unsigned b21: 1 ; // minimum scan line line b 1 + unsigned b22: 1 ; // minimum scan line line b 2 + unsigned b23: 1 ; // minimum scan line line b 3 + unsigned b24: 1 ; // extend field + + unsigned b25: 1 ; // 2400 bps handshake + unsigned b26: 1 ; // uncompressed mode + unsigned b27: 1 ; // error correction + unsigned b28: 1 ; // frame size 64 octets + unsigned b29: 1 ; // error limiting mode + unsigned b30: 1 ; // G4 + unsigned b31: 1 ; // T6 coding + unsigned b32: 1 ; // extend field + + unsigned b33: 1 ; // validity of width bs 17,18 + unsigned b34: 1 ; // width 1216 pels/151mm + unsigned b35: 1 ; // width 864 pels/107mm + unsigned b36: 1 ; // width 1728 pels/151mm + unsigned b37: 1 ; // width 1728 pels/107mm + unsigned b38: 1 ; // reserved + unsigned b39: 1 ; // reserved + unsigned b40: 1 ; // extend + } bit ; + } ; + +#endif +