gcc4 fixes

5 files changed, 5 insertions, 5 deletions

diff --git a/gammu/emb/common/phone/alcatel/alcatel.c b/gammu/emb/common/phone/alcatel/alcatel.c
index b75077f..718d91e 100644
--- a/gammu/emb/common/phone/alcatel/alcatel.c
+++ b/gammu/emb/common/phone/alcatel/alcatel.c
@@ -1,443 +1,443 @@
 /* (c) 2002-2004 by Michal Cihar */
 
 /*
  * High level functions for communication with Alcatel One Touch 501 and
  * compatible mobile phone.
  *
  * This code implements functions to communicate with Alcatel phones,
  * currently seem to work:
  *  - BE5 series (501/701)
  *  - BF5 series (715)
  *  - BH4 series (535/735)
  * For some functions it uses normal AT  mode (not implemented here, look at
  * ../at/atgen.[ch]) for others it  switches into binary mode and initialises
  * underlaying protocol (see ../../protocol/alcatel/alcabus.[ch]) and
  * communicates over it. Don't ask me why Alcatel uses such silly thing...
  *
  * Notes for future features:
  * - max phone number length is 61 (BE5)
  * - max name length is 50 (BE5)
  */
 
 #include "../../gsmstate.h"
 
 #ifdef GSM_ENABLE_ALCATEL
 #ifdef GSM_ENABLE_ATGEN
 
 #include <string.h>
 #include <time.h>
 
 #include "../../gsmcomon.h"
 #include "../../misc/coding/coding.h"
 #include "../../misc/misc.h"
 #include "../../service/sms/gsmsms.h"
 #include "../pfunc.h"
 #include "alcatel.h"
 
 /* Timeout for GSM_WaitFor calls. */
 #define ALCATEL_TIMEOUT			64
 
 /* Some magic numbers for protocol follow */
 
 /* synchronisation types (for everything except begin transfer): */
 #define ALCATEL_SYNC_TYPE_CALENDAR	0x64
 #define ALCATEL_SYNC_TYPE_TODO		0x68
 #define ALCATEL_SYNC_TYPE_CONTACTS	0x6C
 
 /* synchronisation types (for begin transfer): */
 #define ALCATEL_BEGIN_SYNC_CALENDAR	0x00
 #define ALCATEL_BEGIN_SYNC_TODO		0x02
 #define ALCATEL_BEGIN_SYNC_CONTACTS	0x01
 
 /* category types */
 #define ALCATEL_LIST_TODO_CAT		0x9B
 #define ALCATEL_LIST_CONTACTS_CAT	0x96
 
 
 /* We need lot of ATGEN functions, because Alcatel is an AT device. */
 
-extern GSM_Reply_Function ALCATELReplyFunctions[];
+static GSM_Reply_Function ALCATELReplyFunctions[];
 extern GSM_Reply_Function ATGENReplyFunctions[];
 
 extern GSM_Error ATGEN_Initialise		(GSM_StateMachine *s);
 extern GSM_Error ATGEN_Terminate		(GSM_StateMachine *s);
 extern GSM_Error ATGEN_GetIMEI 			(GSM_StateMachine *s);
 extern GSM_Error ATGEN_GetFirmware		(GSM_StateMachine *s);
 extern GSM_Error ATGEN_GetModel			(GSM_StateMachine *s);
 extern GSM_Error ATGEN_GetDateTime		(GSM_StateMachine *s, GSM_DateTime *date_time);
 extern GSM_Error ATGEN_GetMemory		(GSM_StateMachine *s, GSM_MemoryEntry *entry);
 extern GSM_Error ATGEN_GetNextMemory		(GSM_StateMachine *s, GSM_MemoryEntry *entry, bool start);
 extern GSM_Error ATGEN_SetMemory		(GSM_StateMachine *s, GSM_MemoryEntry *entry);
 extern GSM_Error ATGEN_AddMemory		(GSM_StateMachine *s, GSM_MemoryEntry *entry);
 extern GSM_Error ATGEN_DeleteMemory		(GSM_StateMachine *s, GSM_MemoryEntry *entry);
 extern GSM_Error ATGEN_GetMemoryStatus		(GSM_StateMachine *s, GSM_MemoryStatus *Status);
 extern GSM_Error ATGEN_GetSMSC			(GSM_StateMachine *s, GSM_SMSC *smsc);
 extern GSM_Error ATGEN_SetSMSC			(GSM_StateMachine *s, GSM_SMSC *smsc);
 extern GSM_Error ATGEN_GetSMSFolders		(GSM_StateMachine *s, GSM_SMSFolders *folders);
 extern GSM_Error ATGEN_GetSMSStatus		(GSM_StateMachine *s, GSM_SMSMemoryStatus *status);
 extern GSM_Error ATGEN_GetSMS			(GSM_StateMachine *s, GSM_MultiSMSMessage *sms);
 extern GSM_Error ATGEN_GetNextSMS		(GSM_StateMachine *s, GSM_MultiSMSMessage *sms, bool start);
 extern GSM_Error ATGEN_SendSavedSMS		(GSM_StateMachine *s, int Folder, int Location);
 extern GSM_Error ATGEN_SendSMS			(GSM_StateMachine *s, GSM_SMSMessage *sms);
 extern GSM_Error ATGEN_DeleteSMS		(GSM_StateMachine *s, GSM_SMSMessage *sms);
 extern GSM_Error ATGEN_AddSMS			(GSM_StateMachine *s, GSM_SMSMessage *sms);
 extern GSM_Error ATGEN_GetBatteryCharge		(GSM_StateMachine *s, GSM_BatteryCharge *bat);
 extern GSM_Error ATGEN_GetSignalQuality		(GSM_StateMachine *s, GSM_SignalQuality *sig);
 extern GSM_Error ATGEN_DialVoice		(GSM_StateMachine *s, char *number, GSM_CallShowNumber ShowNumber);
 extern GSM_Error ATGEN_AnswerCall		(GSM_StateMachine *s, int ID, bool all);
 extern GSM_Error ATGEN_CancelCall		(GSM_StateMachine *s, int ID, bool all);
 extern GSM_Error ATGEN_SetDateTime		(GSM_StateMachine *s, GSM_DateTime *date_time);
 extern GSM_Error ATGEN_EnterSecurityCode	(GSM_StateMachine *s, GSM_SecurityCode Code);
 extern GSM_Error ATGEN_GetSecurityStatus	(GSM_StateMachine *s, GSM_SecurityCodeType *Status);
 extern GSM_Error ATGEN_ResetPhoneSettings	(GSM_StateMachine *s, GSM_ResetSettingsType Type);
 extern GSM_Error ATGEN_SendDTMF			(GSM_StateMachine *s, char *sequence);
 extern GSM_Error ATGEN_GetSIMIMSI		(GSM_StateMachine *s, char *IMSI);
 extern GSM_Error ATGEN_HandleCMSError		(GSM_StateMachine *s);
 extern GSM_Error ATGEN_GetNetworkInfo		(GSM_StateMachine *s, GSM_NetworkInfo *netinfo);
 extern GSM_Error ATGEN_Reset			(GSM_StateMachine *s, bool hard);
 extern GSM_Error ATGEN_PressKey			(GSM_StateMachine *s, GSM_KeyCode Key, bool Press);
 extern GSM_Error ATGEN_GetDisplayStatus		(GSM_StateMachine *s, GSM_DisplayFeatures *features);
 extern GSM_Error ATGEN_SetAutoNetworkLogin	(GSM_StateMachine *s);
 extern GSM_Error ATGEN_DeleteAllMemory		(GSM_StateMachine *s, GSM_MemoryType type);
 
 extern GSM_Error ATGEN_DispatchMessage		(GSM_StateMachine *s);
 extern GSM_Error ATGEN_SetFastSMSSending	(GSM_StateMachine *s, bool enable);
 extern GSM_Error ATGEN_SetIncomingCB		(GSM_StateMachine *s, bool enable);
 extern GSM_Error ATGEN_SetIncomingSMS		(GSM_StateMachine *s, bool enable);
 
 /**
  * Alcatel uses some 8-bit characters in contacts, calendar etc.. This table
  * attempts to decode it, it is probably not complete, here are just chars
  * that I found...
  */
 unsigned char GSM_AlcatelAlphabet[] =
 {
 /*	in phone	unicode		description	*/
 	0x80,		0x00,0x20,	/* empty	 */
 	0x81,		0x00,0x20,	/* empty	*/
 	0x82,		0x00,0x20,	/* empty	*/
 	0x83,		0x00,0x20,	/* empty	*/
 
 	0x84,		0x00,0xe7,	/* c cedilla	*/
 	0x85,		0x20,0x26,	/* ...		*/
 	0x86,		0x03,0xc0,	/* pi		*/
 	0x87,		0x01,0x3e,	/* l caron	*/
 	0x88,		0x00,0xc0,	/* A grave	*/
 	0x89,		0x00,0xc1,	/* A acute	*/
 	0x8a,		0x00,0xc2,	/* A circumflex	*/
 	0x8b,		0x00,0xc3,	/* A tilde	*/
 	0x8c,		0x00,0xc8,	/* E grave	*/
 	0x8d,		0x00,0xca,	/* E circumflex	*/
 	0x8e,		0x00,0xcb,	/* E diaresis	*/
 	0x8f,		0x00,0xcc,	/* I grave	*/
 	0x90,		0x00,0xcd,	/* I acute	*/
 	0x91,		0x00,0xd0,	/* ETH		*/
 	0x92,		0x00,0xd2,	/* O grave	*/
 	0x93,		0x00,0xd3,	/* O acute	*/
 	0x94,		0x00,0xd4,	/* O circumflex	*/
 	0x95,		0x00,0xd5,	/* O tilde	*/
 	0x96,		0x00,0xd9,	/* U grave	*/
 	0x97,		0x00,0xda,	/* U acute	*/
 	0x98,		0x00,0xe1,	/* a acute	*/
 	0x99,		0x00,0xe2,	/* a circumflex	*/
 	0x9a,		0x00,0xe3,	/* a tilde	*/
 	0x9b,		0x00,0xea,	/* e circumflex	*/
 	0x9c,		0x00,0xeb,	/* e diaresis	*/
 	0x9d,		0x00,0xed,	/* i acute	*/
 	0x9e,		0x00,0xee,	/* i circumflex	*/
 	0x9f,		0x00,0xef,	/* i diaresis	*/
 	0xa0,		0x00,0xf3,	/* o acute	*/
 	0xa1,		0x00,0xf4,	/* o circumflex	*/
 	0xa2,		0x00,0xf5,	/* o tilde	*/
 	0xa3,		0x00,0xfa,	/* u acute	*/
 	0xa4,		0x00,0xa2,	/* cent		*/
 	0xa5,		0x00,0x5b,	/* [		*/
 	0xa6,		0x01,0x59,	/* r caron	*/
 	0xa7,		0x01,0x0d,	/* c caron	*/
 	0xa8,		0x01,0x61,	/* s caron	*/
 	0xa9,		0x01,0x1b,	/* e caron	*/
 	0xaa,		0x01,0x6f,	/* u ring	*/
 	0xab,		0x00,0xfd,	/* y acute	*/
 	0xac,		0x00,0xf0,	/* eth		*/
 	0xad,		0x01,0x07,	/* c acute	*/
 	0xae,		0x01,0x19,	/* e ogonek	*/
 	0xaf,		0x01,0x05,	/* a ogonek	*/
 	0xb0,		0x01,0x7c,	/* z dot	*/
 	0xb1,		0x01,0x7a,	/* z acute	*/
 	0xb2,		0x01,0x5b,	/* s acute	*/
 	0xb3,		0x01,0x44,	/* n acute	*/
 	0xb4,		0x01,0x42,	/* l stroke	*/
 
 	0xb5,		0x00,0x20,	/* empty	*/
 
 	0xb6,		0x01,0x48,	/* n caron	*/
 	0xb7,		0x01,0x65,	/* t caron	*/
 
 	0xb8,		0x00,0x20,	/* empty	*/
 
 	0xb9,		0x01,0x7e,	/* z caron	*/
 	0xba,		0x01,0xe7,	/* g caron	*/
 
 	0xbb,		0x00,0x20,	/* empty	*/
 	0xbc,		0x00,0x20,	/* empty	*/
 
 	0xbd,		0x1e,0x20,	/* G macron	*/
 	0xbe,		0x1e,0x21,	/* g macron	*/
 	0xbf,		0x01,0x5e,	/* S cedilla	*/
 	0xc0,		0x01,0x5f,	/* s cedilla	*/
 	0xc1,		0x01,0x2f,	/* i ogonek	*/ /* FIXME: not sure with this, it look like normal i */
 	0xc2,		0x01,0x31,	/* i dotless	*/
 	0xc3,		0x01,0x68,	/* U tilde	*/
 	0xc4,		0x01,0x50,	/* O dbl acute	*/
 	0xc5,		0x01,0x69,	/* u tilde	*/
 	0xc6,		0x01,0x51,	/* o dbl acute	*/
 	0xc7,		0x27,0xa9,	/* =>		*/
 	0xc8,		0x27,0xa8,	/* filled =>	*/
 	0xc9,		0x00,0xd7,	/* x		*/
 	0xca,		0x00,0x5d,	/* ]		*/
 	0xcb,		0x26,0x0f,	/* phone	*/
 	0xcc,		0x01,0x0f,	/* d caron	*/
 
 	0xcd,		0x00,0x20,	/* empty	*/
 
 	0xce,		0x00,0x7e,	/* ~		*/
 	0xcf,		0x00,0x5c,	/* \		*/
 	0xd0,		0x00,0x5e,	/* ^		*/
 
 	0xd1,		0x00,0x20,	/* empty	*/
 
 	0xd2,		0x00,0x7b,	/* {		*/
 	0xd3,		0x00,0x7c,	/* | 		*/
 	0xd4,		0x00,0x7d,	/* }		*/
 
 	0xd5,		0x00,0x20,	/* empty	*/
 
 	0xd6,		0x01,0x63,	/* t cedilla	*/
 
 	0xd7,		0x00,0x20,	/* empty	*/
 	0xd8,		0x00,0x20,	/* empty	*/
 	0xd9,		0x00,0x20,	/* empty	*/
 	0xda,		0x00,0x20,	/* empty	*/
 	0xdb,		0x00,0x20,	/* empty	*/
 	0xdc,		0x00,0x20,	/* empty	*/
 	0xdd,		0x00,0x20,	/* empty	*/
 	0xde,		0x00,0x20,	/* empty	*/
 	0xdf,		0x00,0x20,	/* empty	*/
 	0xe0,		0x00,0x20,	/* empty	*/
 
 	0xe1,		0x00,0x20,	/* two candles	*/ /* FIXME */
 
 	0xe2,		0x00,0x20,	/* empty	*/
 	0xe3,		0x00,0x20,	/* empty	*/
 	0xe4,		0x00,0x20,	/* empty	*/
 
 	0xe5,		0x01,0xce,	/* a caron	*/
 	0xe6,		0x01,0x01,	/* a macron	*/
 	0xe7,		0x01,0x13,	/* e macron	*/
 	0xe8,		0x01,0x2b,	/* i macron	*/
 	0xe9,		0x01,0x4d,	/* o macron	*/
 	0xea,		0x01,0x6b,	/* u macron	*/
 	0xeb,		0x00,0x41,	/* A		*/
 	0xec,		0x00,0x40,	/* @		*/
 	0xed,		0x00,0x20,	/* some strange char :-) */ /* FIXME */
 
 	0xee,		0x00,0x20,	/* big key stroken	*/ /* FIXME */
 	0xef,		0x00,0x20,	/* big key	*/ /* FIXME */
 
 	0xf0,		0x00,0x20,	/* empty	*/
 
 	0xf1,		0x00,0x31,	/* 1		*/
 	0xf2,		0x00,0x21,	/* bold !	*/
 	0xf3,		0x26,0x0e,	/* black phone	*/
 	0xf4,		0x00,0x26,	/* &		*/
 	0xf5,		0x23,0x7e,	/* bell		*/
 	0xf6,		0x26,0x6a,	/* note		*/
 
 	0xf7,		0x27,0x13,	/* okay inv	*/ /* FIXME */
 	0xf8,		0x27,0x13,	/* okay		*/
 
 	0xf9,		0x00,0x20,	/* empty	*/
 
 	0xfa,		0x00,0x20,	/* key		*/ /* FIXME */
 
 	0xfb,		0x00,0x20,	/* empty	*/
 
 	0xfc,		0x20,0xac,	/* Euro		*/
 	0xfd,		0x21,0x97,	/* NE arrow	*/
 	0xfe,		0x21,0x98,	/* SE arrow	*/
 
 	0xff,		0x00,0x20,	/* empty	*/
 
 	0x00,		0x00,0x00
 };
 
 /* This is being called from atgen */
 GSM_Error ALCATEL_ProtocolVersionReply	(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	char			*str, *str2;
 /*
  * Reply received here looks like:
  * 1 "AT+CPROT=?"
  * 2 "+CPROT: 0,"V1.0",1"
  * 3 "+CPROT: 16,"V1.1",16"
  * 4 "OK"
  */
 	switch (s->Phone.Data.Priv.ATGEN.ReplyState) {
 		case AT_Reply_OK:
 			str = strstr(msg.Buffer, "\"V");
 			if (str == NULL) return ERR_UNKNOWNRESPONSE;
 			str += 2;
 			while((str2 = strstr(str, "\"V")) != NULL) str = str2 + 2;
 			if (strncmp(str, "1.0", 3) == 0) {
 				s->Phone.Data.Priv.ALCATEL.ProtocolVersion = V_1_0;
 			} else if (strncmp(str, "1.1", 3) == 0) {
 				s->Phone.Data.Priv.ALCATEL.ProtocolVersion = V_1_1;
 			} else {
 				smprintf(s, "Unknown protocol version. Please send debug log and phone info to author.\n");
 				return ERR_NOTIMPLEMENTED;
 			}
 			return ERR_NONE;
 		case AT_Reply_Error:
 		case AT_Reply_CMSError:
 			return ATGEN_HandleCMSError(s);
 		default:
 			return ERR_UNKNOWNRESPONSE;
 	}
 }
 
 static GSM_Error ALCATEL_SetBinaryMode(GSM_StateMachine *s)
 {
 	GSM_Phone_ALCATELData	*Priv = &s->Phone.Data.Priv.ALCATEL;
 	GSM_Error		error;
 
 	if (Priv->Mode == ModeBinary) return ERR_NONE;
 
 	dbgprintf ("Changing to binary mode\n");
 
 	error=GSM_WaitFor (s, "AT+IFC=2,2\r", 11, 0x02, 4, ID_SetFlowControl);
 	if (error != ERR_NONE) return error;
 
 	error=GSM_WaitFor (s, "AT+CPROT=?\r", 11, 0x02, 4, ID_AlcatelProtocol);
 	if (error != ERR_NONE) return error;
 
 	if (Priv->ProtocolVersion == V_1_0) {
 		error=GSM_WaitFor (s, "AT+CPROT=16,\"V1.0\",16\r", 22, 0x00, 4, ID_AlcatelConnect);
 	} else {
 		error=GSM_WaitFor (s, "AT+CPROT=16,\"V1.1\",16\r", 22, 0x00, 4, ID_AlcatelConnect);
 	}
 
 	if (error == ERR_TIMEOUT && s->Speed != 19200) {
 		smprintf(s, "HINT: Try changing speed to 19200, it is sometimes needed for Alcatel binary mode.\n");
 	}
 
 	if (error != ERR_NONE) return error;
 
 	dbgprintf ("Changing protocol to Alcabus\n");
 
 	s->Protocol.Functions = &ALCABUSProtocol;
 	error = s->Protocol.Functions->Initialise(s);
 	if (error != ERR_NONE) {
 		s->Protocol.Functions = &ATProtocol;
 		return error;
 	}
 	s->Phone.Functions->ReplyFunctions	= ALCATELReplyFunctions;
 	Priv->Mode				= ModeBinary;
 	Priv->BinaryItem			= 0;
 	Priv->BinaryType			= 0;
 	Priv->BinaryState			= StateAttached;
 	return ERR_NONE;
 }
 
 static GSM_Error ALCATEL_GoToBinaryState(GSM_StateMachine *s, GSM_Alcatel_BinaryState state, GSM_Alcatel_BinaryType type, int item) {
 	GSM_Phone_ALCATELData	*Priv = &s->Phone.Data.Priv.ALCATEL;
 	GSM_Error		error;
 	unsigned char		attach_buffer[] = {0x00, 0x00, 0x7C ,0x20};
 	unsigned char		detach_buffer[] = {0x00, 0x01, 0x7C ,0x00};
 	unsigned char		start_buffer[] =
 					{0x00, 0x04, 0x7C, 0x80, /* 4 byte database id follows */
 					 0x12, 0x34, 0x56, 0x78};
 	unsigned char		end_buffer[] =
 					{0x00, 0x04, 0x7C, 0x82,
 					 0x00,			/* type */
 					 0x00, 0x00, 0x00, 0x00}; /* TimeStamp */
 	unsigned char		close_buffer[] =
 					{0x00, 0x04,
 					 0x00, 			 /*type */
 					 0x23, 0x01};
 	unsigned char		select1_buffer[] =
 					{0x00, 0x00,
 					 0x00, 			 /*type */
 					 0x20};
 	unsigned char		select2_buffer[] =
 					{0x00, 0x04,
 					 0x00, 			 /*type */
 					 0x22, 0x01, 0x00};
 	unsigned char		begin_buffer[] =
 					{0x00, 0x04, 0x7C, 0x81,
 					 0x00,			 /*type */
 					 0x00, 0x85, 0x00};
 	unsigned char		commit_buffer[] =
 					{0x00, 0x04,
 					 0x00, 			/*type */
 					 0x20, 0x01};
 
 	smprintf(s, "Alcatel state switcher: %d -> %d, %d -> %d, %d -> %d\n", Priv->BinaryState, state, Priv->BinaryType, type, Priv->BinaryItem, item);
 	error = ALCATEL_SetBinaryMode(s);
 	if (error != ERR_NONE) return error;
 
 	/* Do we need to do anything? */
 	if ((state == Priv->BinaryState) && (type == Priv->BinaryType) && (item == Priv->BinaryItem)) return ERR_NONE;
 
 	/* We're editing, but the next state is not the same. so commit editing */
 	if (Priv->BinaryState == StateEdit) {
 		/* Something has changed, we will have to reread fields! */
 		Priv->CurrentFieldsItem  = -1;
 		switch (Priv->BinaryType) {
 			case TypeCalendar:
 				commit_buffer[2] = ALCATEL_SYNC_TYPE_CALENDAR;
 				break;
 			case TypeContacts:
 				commit_buffer[2] = ALCATEL_SYNC_TYPE_CONTACTS;
 				break;
 			case TypeToDo:
 				commit_buffer[2] = ALCATEL_SYNC_TYPE_TODO;
 				break;
 		}
 		dbgprintf ("Commiting edited record\n");
 		error=GSM_WaitFor (s, commit_buffer, 5, 0x02, ALCATEL_TIMEOUT, ID_AlcatelCommit);
 		if (error != ERR_NONE) return error;
 		error=GSM_WaitFor (s, 0, 0, 0x00, ALCATEL_TIMEOUT, ID_AlcatelCommit2);
 		if (error != ERR_NONE) return error;
 		Priv->BinaryState = StateSession;
 		Priv->BinaryItem = 0;
 	}
 
 	/* Do we want to edit something of same type? */
 	if ((state == StateEdit) && (type == Priv->BinaryType)) {
 		/* Edit state doesn't need any switching, it is needed only for
 		 * indication that e have to commit record before we switch to other
 		 * mode.
 		 */
 		Priv->BinaryState = StateEdit;
 		Priv->BinaryItem = item;
 		return ERR_NONE;
 	}
 
 	/* Now we can be only in Attached or Session state, so if states and types matches, just keep them as they are */
 	if ((state == Priv->BinaryState) && (type == Priv->BinaryType)) {
 		return ERR_NONE;
 	}
 
 	/* Do we need to close session? */
 	if (Priv->BinaryState == StateSession) {
 		dbgprintf ("Ending session\n");
 		switch (Priv->BinaryType) {
 			case TypeCalendar:
 				end_buffer[4] 	= ALCATEL_BEGIN_SYNC_CALENDAR;
 				break;
 			case TypeContacts:
 				end_buffer[4] 	= ALCATEL_BEGIN_SYNC_CONTACTS;
 				break;
 			case TypeToDo:
 				end_buffer[4] 	= ALCATEL_BEGIN_SYNC_TODO;
 				break;
diff --git a/gammu/emb/gammu/depend/nokia/dct3.c b/gammu/emb/gammu/depend/nokia/dct3.c
index b9e47ea..bda7532 100644
--- a/gammu/emb/gammu/depend/nokia/dct3.c
+++ b/gammu/emb/gammu/depend/nokia/dct3.c
@@ -1,402 +1,402 @@
 /* (c) 2002-2004 by Marcin Wiacek */
 /* MSID by Walek */
 
 #include "../../../common/gsmstate.h"
 
 #ifdef GSM_ENABLE_NOKIA_DCT3
 
 #include <string.h>
 #include <signal.h>
 
 #include "../../../common/misc/coding/coding.h"
 #include "../../../common/gsmcomon.h"
 #include "../../../common/service/gsmpbk.h"
 #include "../../../common/phone/nokia/dct3/dct3func.h"
 #include "../../../common/phone/pfunc.h"
 #include "../../gammu.h"
 
-extern GSM_Reply_Function UserReplyFunctions3[];
+static GSM_Reply_Function UserReplyFunctions3[];
 
 /* ------- some usefull functions ----------------------------------------- */
 
 GSM_Error CheckDCT3Only()
 {
 	bool found = false;
 
 	/* Checking if phone is DCT3 */
 #ifdef GSM_ENABLE_NOKIA6110
 	if (strstr(N6110Phone.models, s.Phone.Data.ModelInfo->model) != NULL) found = true;
 #endif
 #ifdef GSM_ENABLE_NOKIA7110
 	if (strstr(N7110Phone.models, s.Phone.Data.ModelInfo->model) != NULL) found = true;
 #endif
 #ifdef GSM_ENABLE_NOKIA9210
 	if (strstr(N9210Phone.models, s.Phone.Data.ModelInfo->model) != NULL) found = true;
 #endif
 	if (!found) return ERR_NOTSUPPORTED;
 
 	if (s.ConnectionType!=GCT_MBUS2	    && s.ConnectionType!=GCT_FBUS2      &&
 	    s.ConnectionType!=GCT_FBUS2DLR3 && s.ConnectionType!=GCT_FBUS2BLUE  &&
 	    s.ConnectionType!=GCT_FBUS2IRDA && s.ConnectionType!=GCT_IRDAPHONET &&
 	    s.ConnectionType!=GCT_BLUEFBUS2) {
 		return ERR_OTHERCONNECTIONREQUIRED;
 	}
 	return ERR_NONE;
 }
 
 static void CheckDCT3()
 {
 	GSM_Error error;
 
 	error = CheckDCT3Only();
 	switch (error) {
 	case ERR_NOTSUPPORTED:
 		Print_Error(ERR_NOTSUPPORTED);
 		break;
 	case ERR_OTHERCONNECTIONREQUIRED:
 		printf("Can't do it with current phone protocol\n");
 		GSM_TerminateConnection(&s);
 		exit(-1);
 	default:
 		break;
 	}
 }
 
 static bool answer_yes3(char *text)
 {
     	int         len;
     	char        ans[99];
 
 	while (1) {
 		printf("%s (yes/no) ? ",text);
 		len=GetLine(stdin, ans, 99);
 		if (len==-1) exit(-1);
 		if (mystrncasecmp(ans, "yes",0)) return true;
 		if (mystrncasecmp(ans, "no" ,0)) return false;
 	}
 }
 
 /* ------------------- functions ------------------------------------------- */
 
 static FILE *DCT3T9File;
 
 static GSM_Error DCT3_ReplyGetT9(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int DCT3T9Size;
 
 	DCT3T9Size = msg.Length - 6;
 	fwrite(msg.Buffer+6,1,DCT3T9Size,DCT3T9File);
 	return ERR_NONE;
 }
 
 void DCT3GetT9(int argc, char *argv[])
 {
 	int	      i;
 	unsigned char req[] = {0x00, 0x01, 0xAE, 0x02, 0x00,
 			       0x00};	/* Part number */
 
 //"00 01 AE 00" gets some control values
 
 	if (CheckDCT3Only()!=ERR_NONE) return;
 
 	DCT3T9File = fopen("T9", "w");      
 	if (DCT3T9File == NULL) return;
 
 	s.User.UserReplyFunctions=UserReplyFunctions3;
 
 	for (i=0;i<5;i++) {
 		req[5] = i;
 		error=GSM_WaitFor (&s, req, 6, 0x40, 4, ID_User3);		
 		Print_Error(error);
 	}
 
 	fclose(DCT3T9File);
 }
 
 void DCT3VibraTest(int argc, char *argv[])
 {
 	unsigned char ans[200];
 	unsigned char SetLevel[4] = {0x00, 0x01, 0xA3,
 				     0xff};	/* Level */
 
 	if (CheckDCT3Only()!=ERR_NONE) return;
 
 	s.User.UserReplyFunctions=UserReplyFunctions3;
 
 	error=DCT3_EnableSecurity (&s, 0x01);
 	Print_Error(error);
 
 	error=GSM_WaitFor (&s, SetLevel, 4, 0x40, 4, ID_User3);
 	Print_Error(error);
 
 	printf("Press any key to continue...\n");
 	GetLine(stdin, ans, 99);
 
 	SetLevel[3] = 0x00;
 	error=GSM_WaitFor (&s, SetLevel, 4, 0x40, 4, ID_User3);
 }
 
 static GSM_Error DCT3_ReplyPhoneTests(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int i;
 
 	for (i=0;i<msg.Buffer[3];i++) {
 		switch (i) {
 		case 0: printf("Unknown(%02i)                       ",i);break;
 		case 1: printf("MCU ROM checksum         (startup)");	break;
 		case 2: printf("MCU RAM interface        (startup)");	break;
 		case 3: printf("MCU RAM component                 ");	break;
 		case 4: printf("MCU EEPROM interface     (startup)");	break;
 		case 5: printf("MCU EEPROM component              ");	break;
 		case 6: printf("Real Time Clock battery  (startup)");	break;
 		case 7: printf("CCONT interface          (startup)");	break;
 		case 8: printf("AD converter             (startup)");	break;
 		case 9: printf("SW Reset                          ");	break;
 		case 10:printf("Power Off                         ");	break;
 		case 11:printf("Security Data                     ");	break;
 		case 12:printf("EEPROM Tune checksum     (startup)");	break;
 		case 13:printf("PPM checksum             (startup)");	break;
 		case 14:printf("MCU download DSP         (startup)");	break;
 		case 15:printf("DSP alive                (startup)");	break;
 		case 16:printf("COBBA serial             (startup)");	break;
 		case 17:printf("COBBA paraller           (startup)");	break;
 		case 18:printf("EEPROM security checksum (startup)");	break;
 		case 19:printf("PPM validity             (startup)");	break;
 		case 20:printf("Warranty state           (startup)");	break;
 		case 21:printf("Simlock check/SW version (startup)");	break;
 		case 22:printf("IMEI check?                       ");	break;/*from PC-Locals1.3.is OK?*/
 		default:printf("Unknown(%02i)                       ",i);break;
 		}
 		switch (msg.Buffer[4+i]) {
 		case 0:   printf(" : passed");					break;
 		case 0xff:printf(" : not executed");				break;
 		case 254: printf(" : fail");					break;
 		default:  printf(" : result unknown(%i)",msg.Buffer[4+i]);	break;
     		}
 		printf("\n");
 	}
 
 	return ERR_NONE;
 }
 
 void DCT3SelfTests(int argc, char *argv[])
 {
 	unsigned char 	buffer[3]  = {0x00,0x01,0xcf};
 	unsigned char 	buffer3[8] = {0x00,0x01,0xce,0x1d,0xfe,0x23,0x00,0x00};
 	int		i;
 
 	if (CheckDCT3Only()!=ERR_NONE) return;
 
 	error=DCT3_EnableSecurity (&s, 0x01);
 	Print_Error(error);
 
 	if (answer_yes3("Run all tests now ?")) {
 		/* make almost all tests */
 		error = s.Protocol.Functions->WriteMessage(&s, buffer3, 8, 0x40);
 		Print_Error(error);
 	
 		GSM_Terminate();
 
 		while (!false) {
 			GSM_Init(false);
 			if (error==ERR_NONE) break;
 			GSM_Terminate();
 		}
 
 		my_sleep(400);
 	}
 
 	s.User.UserReplyFunctions=UserReplyFunctions3;
 
 	for (i=0;i<10;i++) {
 		error=GSM_WaitFor (&s, buffer, 3, 0x40, 4, ID_User1);	
 		if (error == ERR_NONE) break;
 	}
 }
 
 struct DCT3ADCInfo {
 	char 	*name;
 	char 	*unit;
 	int 	x;
 	int	pos1;
 	int	pos2;
 };
 
 static struct DCT3ADCInfo DCT3ADC[] = {
 	{"Battery voltage:",			"mV",  1,  3,  2},
 //	{"Charger voltage:",			"mV",  1, -1,  7},  	
 //	{"Charger current:",			"mA",  1, -1,  5},
 	{"Battery type:",			"mAh", 1,  4,  3},
 	{"Battery temperature:",		"mK", 10,  5,  4},
 //	{"Accessory detection:",		"mV",  1, -1, -1},
 	{"RSSI:",				"",    1,  2, -1},
 //	{"VCXO temperature:",			"mV",  1, -1, -1},
 //	{"Hook information:",			"mV",  1, -1, -1},
 
 	{"", "", 1, -1, -1}
 };
 
 unsigned char 	DCT3ADCBuf[200];
 int		DCT3ADCInt;
 
 static GSM_Error DCT3_ReplyGetADC(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	switch (msg.Buffer[2]) {
 	case 0x68:
 		memcpy(DCT3ADCBuf,msg.Buffer+4,msg.Length-4);
 		return ERR_NONE;
 	case 0x91:
 		DCT3ADCInt = msg.Buffer[4]*256+msg.Buffer[5];
 		return ERR_NONE;
 	}
 	return ERR_UNKNOWNRESPONSE;
 }
 
 void DCT3GetADC(int argc, char *argv[])
 {
 	int		i = 0;
 	unsigned char	GetRaw[] = {0x00, 0x01, 0x68};
 	unsigned char	GetUnit[] = {0x00, 0x01, 0x91,
 				     0x02};		/* Test number */
 
 	if (CheckDCT3Only()!=ERR_NONE) return;
 
 	s.User.UserReplyFunctions=UserReplyFunctions3;
 
 	error=DCT3_EnableSecurity (&s, 0x02);
 	Print_Error(error);
 
 	error=GSM_WaitFor (&s, GetRaw, 3, 0x40, 6, ID_User3);		
 	Print_Error(error);
 
 	while (1) {
 		printf(" %30s ",DCT3ADC[i].name);
 		if (DCT3ADC[i].pos1 != -1) {
 			printf("raw ");
 			printf("%10i ",
 				DCT3ADCBuf[(DCT3ADC[i].pos1-1)*2]*256+
 				DCT3ADCBuf[(DCT3ADC[i].pos1-1)*2+1]);
 		}
 		if (DCT3ADC[i].pos2 != -1) {
 			printf("unit result ");
 			GetUnit[3] = DCT3ADC[i].pos2;
 			error=GSM_WaitFor (&s, GetUnit, 6, 0x40, 4, ID_User3);		
 			Print_Error(error);
 			printf("%10i ",DCT3ADCInt*DCT3ADC[i].x);
 			printf("%s\n",DCT3ADC[i].unit);
 		}
 		i++;
 		if (DCT3ADC[i].name[0] == 0x00) break;
 	}
 
 	error=DCT3_EnableSecurity (&s, 0x01);
 	Print_Error(error);
 }
 
 void DCT3DisplayTest(int argc, char *argv[])
 {
 	unsigned char ans[200];
 	unsigned char req[] =  {0x00, 0x01, 0xD3,
 				0x03,          	/* 3=set, 2=clear */
 				0x03};	 	/* test number */
 
 	if (CheckDCT3Only()!=ERR_NONE) return;
 
 	if (atoi(argv[2]) != 1 && atoi(argv[2]) != 2) {
 		printf("Give 1 or 2 as test number\n");
 	}
 
 	s.User.UserReplyFunctions=UserReplyFunctions3;
 
 	req[4] = atoi(argv[2]);
 	s.Protocol.Functions->WriteMessage(&s, req, 5, 0x40);
 
 	printf("Press any key to continue...\n");
 	GetLine(stdin, ans, 99);
 
 	req[3] = 0x02;
 	req[4] = 0x03;
 	s.Protocol.Functions->WriteMessage(&s, req, 5, 0x40);
 
 	error=DCT3_EnableSecurity (&s, 0x03);
 	Print_Error(error);
 }
 
 void DCT3netmonitor(int argc, char *argv[])
 {
 	char value[100];
 
 	GSM_Init(true);
 
         CheckDCT3();
 
 	error=DCT3_Netmonitor(&s, atoi(argv[2]), value);
 	Print_Error(error);
 
 	printf("%s\n",value);
 #ifdef GSM_ENABLE_BEEP
 	if (atoi(argv[2]) == 243) GSM_PhoneBeep();
 #endif
 	GSM_Terminate();
 }
 
 static GSM_Error DCT3_ReplyGetMSID(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int i;
 
 	printf("MSID          : ");
 	for (i=5;i<18;i++) printf("%02x",msg.Buffer[i]);
 	printf("\n");
 	return ERR_NONE;
 }
 
 static GSM_Error DCT3_ReplyGetDSPROM(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	printf("DSP ROM       : %c\n",msg.Buffer[5]);
 	return ERR_NONE;
 }
 
 static GSM_Error DCT3_ReplySimlockInfo(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int	i, j;  
 	char	uni[100], buffer[50];    
 
 	j=0;
 	for (i=0; i < 12; i++) {
 		if (j<24) {
 			uni[j]='0' + (msg.Buffer[9+i] >> 4);
 			j++;
 		}
 		if (j!=15) {
 			if (j<24) {
 				uni[j]='0' + (msg.Buffer[9+i] & 0x0f);
 				j++;
 			}
 		} else j++;
 	}
 
 	strncpy(buffer,uni,5);
 	buffer[5]=0;
 	printf("Simlock 1     : MCC+MNC %10s, %s, %s, counter %i\n",
 		buffer,
 		((msg.Buffer[6] & 1) == 1)==0?"opened":"CLOSED",
 		((msg.Buffer[5] & 1) != 1)==0?"user   ":"factory",
 		msg.Buffer[21]);
 
 	strncpy(buffer,uni+16,4);
 	buffer[4]=0;
 	printf("Simlock 2     : GID1    %10s, %s, %s, counter %i\n",
 		buffer,
 		((msg.Buffer[6] & 4) == 4)==0?"opened":"CLOSED",
 		((msg.Buffer[5] & 4) != 4)==0?"user   ":"factory",
 		msg.Buffer[23]);
 
 	strncpy(buffer,uni+20,4);
 	buffer[4]=0;
 	printf("Simlock 3     : GID2    %10s, %s, %s, counter %i\n",
 		buffer,
 		((msg.Buffer[6] & 8) == 8)==0?"opened":"CLOSED",
 		((msg.Buffer[5] & 8) != 8)==0?"user   ":"factory",
 		msg.Buffer[24]);
 
 	strncpy(buffer,uni+5,10);
diff --git a/gammu/emb/gammu/depend/nokia/dct3trac/wmx.c b/gammu/emb/gammu/depend/nokia/dct3trac/wmx.c
index 64eda37..e46d9dd 100644
--- a/gammu/emb/gammu/depend/nokia/dct3trac/wmx.c
+++ b/gammu/emb/gammu/depend/nokia/dct3trac/wmx.c
@@ -1,415 +1,415 @@
 /**
  * Nokia DCT3 Firmware Debug Trace Monitor
  * wumpus 2003 -- www.blacksphere.tk
  * SIM stuff by The Monty
  *
  * Command line arguments:
  * gammu --nokiadebug v00-0F,20,21
  * (v=verbose)
  */
 
 #include "../../../../common/gsmstate.h"
 
 #ifdef GSM_ENABLE_NOKIA_DCT3
 
 #include <string.h>
 #include <signal.h>
 
 #include "../../../../common/misc/coding/coding.h"
 #include "../../../../common/gsmcomon.h"
 #include "../../../../common/gsmstate.h"
 #include "../../../../common/service/gsmpbk.h"
 #include "../../../../common/phone/nokia/dct3/dct3func.h"
 #include "../../../gammu.h"
 #include "../dct3.h"
 #include "wmx.h"
 #include "wmx-util.h"
 #include "wmx-gsm.h"
 #include "wmx-sim.h"
 #include "wmx-list.h"
 
-extern GSM_Reply_Function UserReplyFunctionsX[];
+static GSM_Reply_Function UserReplyFunctionsX[];
 
 /* Global variables suck */
 GSMDecoder 		*gsmdec;
 struct wmx_tracestruct 	*traces;
 
 static GSM_Error DCT3_ReplySwitchDebug(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	switch(msg.Buffer[2]) {
 	case 0x70:
 		printf("Debug Trace Enabled\n");
 		break;
 	case 0x71:
 		printf("Debug Trace Disabled\n");
 		break;
 	}
 	return ERR_NONE;
 }
 
 /**
  * RPC confirmation/reply
  */
 static GSM_Error DCT3_ReplyRPC(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	printf("RPC Reply ");
 	printf("call=%02x rettype=%02x data=", msg.Buffer[2], msg.Buffer[3]);
 	if(msg.Buffer[3] == 3) {
 		/* string */
 		printf("%s", &msg.Buffer[4]);
 	} else {
 		dumpraw("RPC Reply data", &msg.Buffer[4], msg.Length-4);
 	}
 	printf("\n");
 	return ERR_NONE;
 }
 
 /* disassemble mdisnd (0x18xx) packet */
 static void mdisnd_data(unsigned char type, unsigned char *buffer, size_t length)
 {
 	GSMDecoder_l1l2data 	dat;
 	size_t 			x;
 	int 			ch;
 
 	if(type==0x1B && length>2) {
 		/* channel packet */
 		ch 	= buffer[1];
 		dat.tx 	= GSMDECODER_SEND;
 		dat.ch 	= ch;
 		printf("%02X ch=%02X ",buffer[0],ch);
 		if (ch == 0x80 || ch == 0xB0) {
 			printf("\n");
 			GSMDecoder_L2packet(gsmdec, &dat, &buffer[2], length-2);
 		} else if (ch == 0x70) {
 			dumpraw("MDI send ch70 prefix", &buffer[2], 2);
 			printf("\n");
 			GSMDecoder_L2packet(gsmdec, &dat, &buffer[4], length-4);
 		} else {
 			dumpraw("MDI recv 1B packet", &buffer[2], length-2);
 		}
 	} else {
 		/* hex */
 		for(x=0; x<length; x++) {
 			printf("%02x ",buffer[x]&0xFF);
 		}
 	}
 }
 
 /* disassemble mdircv (0x19xx) packet */
 static void mdircv_data(unsigned char type, unsigned char *buffer, size_t length)
 {
 	size_t 			x;
 	int 			ch;
 	GSMDecoder_l1l2data 	dat;
 
 	if (type==0x80 && length>1) {
 		// buffer[0]    channel
 		// buffer[1]    flag1
 		// buffer[2]    flag2
 		// buffer[3..5] timestamp
 		// buffer[6..7] unknown_hw1
 		// buffer[8..9] unknown_hw2
 		ch 	 	= buffer[0];
 		dat.tx 	 	= GSMDECODER_RECEIVE;
 		dat.ch 	 	= ch;
 		dat.bsic 	= buffer[1];
 		dat.err  	= buffer[2];
 		dat.seq  	= (buffer[3]<<16)|(buffer[4]<<8)|(buffer[5]);
 		dat.arfcn 	= (buffer[6]<<8)|buffer[7];
 		dat.timeshift 	= (buffer[8]<<8)|buffer[9];
 		
 		printf("ch=%02X bsic=%i err=%i t=%06X arfcn=%i shift=%i",
 			ch, buffer[1], buffer[2],
 			dat.seq, dat.arfcn, dat.timeshift
 		);
 		
 		//dumpraw("MDI recv 80 header", &buffer[6], 4);
 		printf(" ");
 		if(buffer[2] == 0) { /* unencrypted */
 			if(ch == 0x70) {
 				/* Normal header + 2b prefix */
 				dumpraw("MDI recv ch70 prefix", &buffer[10], 2);
 				printf("\n");
 				GSMDecoder_L2packet(gsmdec, &dat, &buffer[12], length-12);
  			} else if (ch == 0x80 || ch == 0xB0) {
 				/* Normal header */
 				printf("\n");
 				GSMDecoder_L2packet(gsmdec, &dat, &buffer[10], length-10);
 			} else if (ch == 0x50 || ch == 0x60) {
 				/* Short header */
 				
 				printf("\n");
 				GSMDecoder_L2short_packet(gsmdec, &dat, &buffer[10], length-10);
 			} else {
 				dumpraw("MDI send 80 packet", &buffer[10], length-10);
 			}
 		} else {
 			/* Encrypted (?) */
 			dumpraw("MDI send err 80", &buffer[10], length-10);
 		}
 	} else {
 		/* hex */
 		for(x=0; x<length; x++) {
 			printf("%02x ",buffer[x]&0xFF);
 		}
 	}
 }
 
 static GSM_Error DCT3_ReplyDebugTrace(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int 			x;
 	int 			id,timestamp,number,length;
 	struct wmx_tracetype 	*minor;
 	char 			*desc;
 
 	//printf("Debug Trace Received\n");
 	/* parse frame 
 	   Debug trace packet:
 	   packet type 0x00
 	   source subsystem 0x01 (LOCAL)
 	   verder formaat zie notebook
 	   0x08 ID (payload=offset 0x02 here)
 	   0x0A timestamp
 	   0x0C seq nr
 	   0x0D .. parameters
 	*/
 	id 		= ((msg.Buffer[2]&0xFF)<<8)|(msg.Buffer[3]&0xFF);
 	timestamp 	= ((msg.Buffer[4]&0xFF)<<8)|(msg.Buffer[5]&0xFF);
 	number 		= msg.Buffer[6]&0xFF;
 	length 		= msg.Buffer[7]&0xFF;
 
 	/* filter */
 	//if((id&0xFF00)==0x1900 && id != 0x1980)
 	//	return GE_NONE;
 	//printf("%02x\n",msg.Buffer[10]);
 	//if(msg.Buffer[10]!=0x40) 
 	//	return GE_NONE;
 	/* Query trace type name */
 	desc = "Unknown";
 	if(traces != NULL) {
 		minor = wmx_tracestruct_queryminor(traces, id);
 		if(minor != NULL) desc = minor->desc;
 	}
 	printf("<%04X> %s\n", id, desc);
 	printf("t=%04x nr=%02x: ", timestamp, number);
 
 	/* TODO -- decode debug types on phone type */
 	switch(id>>8) {
 	case 0x33:
 	case 0x34:
 	case 0x35:
 	case 0x37:
 	case 0x38:
 	case 0x39:
 	case 0x3A:
 	case 0x3B:
 	case 0x3C:
 	case 0x5F:
 		/* text */
 		/* skip length byte */
 		printf("\"");
 		for(x=8; x<msg.Length; x++) {
 			printf("%c",msg.Buffer[x]&0xFF);
 		}
 		printf("\"");
 		break;
 		/*
 	case 0x6801:
 		for(x=8; x<msg.Length; x++) {
 			printf("%02x%c ",msg.Buffer[x]&0xFF,msg.Buffer[x]&0xFF);
 		}
 		break;
 		*/
 	case 0x18: /* MDISND */
 		
 		/* skip these:
 		  +00 length
 		  +01 type (also xx in 0x18xx)
 		*/
 		if(msg.Length<10 || msg.Buffer[9]!=(id&0xFF)) {
 			printf("C %02X: param:%02x", id&0xFF, msg.Buffer[8]);
 		} else {
 			//printf("D %02X: ", id&0xFF);
 			printf("D %02X: ", id&0xFF);
 			mdisnd_data((unsigned char)(id&0xFF), (unsigned char*)&msg.Buffer[10], msg.Length-10);
 		}
 		break;
 	case 0x19: /* MDIRCV */
 		if(msg.Length<10 || msg.Buffer[9]!=(id&0xFF)) {
 			printf("C %02X: param:%02x", id&0xFF, msg.Buffer[8]);
 		} else {
 			printf("D %02X: ", id&0xFF);
 			mdircv_data((unsigned char)(id&0xFF), (unsigned char*)&msg.Buffer[10], msg.Length-10);
 			//dumpraw((unsigned char*)&msg.Buffer[10], msg.Length-10);
 		}
 		break;
  	case 0x20: /* 0x25 SIM commands */
  		/*
 		for(x=8;x<msg.Length;x++) 
  		    printf("%02x ", msg.Buffer[x]&0xFF);
  		*/
  		printf("SIM command ");
  		if(msg.Buffer[8]==0xa0) { // check if valid (class=a0) 
 			simCommand_data(msg.Buffer[9], (unsigned char)(id&0xFF), (unsigned char*)&msg.Buffer[10], msg.Length-10);
  			// TODO: pass the msg.Buffer[9] and skip 1rst arg 	
  		} else {
 			printf("Unknown 0x25 packet (NOT SIM cmd): ");
 			for(x=8;x<msg.Length;x++) printf("%02x ", msg.Buffer[x]&0xFF);
 			printf("\n");
  		}
  		break;
  	case 0x22: /* 0x27 SIM answer to command (error/ok/etc..) */
  		if(msg.Length<10) {
  		    	// Unknown response
  		    	for(x=0;x<msg.Length-10;x++) printf("%02x ", msg.Buffer[x]&0xFF);
 			printf(" (Unknown 0x27 packet ? ? )\n");
  		} else {
  		    	simAnswer_Process((unsigned char)(id&0xFF), (unsigned char*)&msg.Buffer[8], length);
  		}
  		break;			
  	case 0x23:  /* 0x28 SIM response data to commands */		
  		if(msg.Length<10) {
  		    	// Unknown response
  		    	for(x=0;x<msg.Length-10;x++) printf("%02x ", msg.Buffer[x]&0xFF);
  		    	printf(" (Unknown 0x28 packet)\n");
  		} else {
  		    	simResponse_Process((unsigned char)(id&0xFF), (unsigned char*)&msg.Buffer[8], length);
  		}
  		break;
 	default:
 		/* hex */		
 		for(x=8; x<msg.Length; x++) {
 			printf("%02x ",msg.Buffer[x]&0xFF);
 		}		
 		break;
 	}
 	printf("\n");
 	return ERR_NONE;
 }
 
 
 static GSM_Error DCT3_ReplyMyPacket(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int x;
 
 	printf("MyPacket ");
 	for(x=0; x<msg.Length; x++) {
 		printf("%02x ",msg.Buffer[x]&0xFF);
 	}
 	printf("\n");
 	return ERR_NONE;
 }
 
 #define ID_DebugTrace   0x666
 #define ID_DebugSwitch  0x667
 #define ID_RPC		0x668
 
 void DCT3SetDebug(int argc, char *argv[])
 {	
 	int		x,count;
 	unsigned int y;
 	unsigned char 	reqDisable[] = {0x01, 0x01, 0x71};
 //	unsigned char 	reqTest[] = {0x01, 0x01, 0x96, 0xFF, 0xFF};
 
 	/* RPC testing packets: */
 
 	/* RPC: Get version */
 	//unsigned char 	reqTest2[] = {0x01, 0x01, 0x00, 0x03, 0x00}; 
 	/* RPC: read I/O 0x6D mask 0xFF */
 	//unsigned char 	reqTest2[] = {0x01, 0x01, 0x02, 0x01, 0x02, 0x6D, 0xFF}; /*  */
 	/* RPC: write I/O 0x03 mask 0xFF value 0x31 */
 	//unsigned char 	reqTest2[] = {0x01, 0x01, 0x01, 0x01, 0x07, 0x03, 0xFF, 0x31}; /* write I/O */
 
 	/* RPC: write forged FBUS packet to MDISND */
 //	unsigned char 	reqTest2[] = {0x01, 0x01, 0x16, 0x01, 0x06,
 //	0x14, // R0 -- length
 //	0x05, // R1 -- MDI type identifier 0x05(FBUS)
 //	0x1e, 0x0c, 0x00, 0x66,
 //	0x00, 0x0e, 0x01, 0x01,
 //	0x66, 0x55, 0x44, 0x33,
 //	0x0d, 0x01, 0x01, 0x01,
 //	0x1b, 0x58, 0x01, 0x44};
 //	1805 t=cb37 nr=e2 :D 05: 
 
 	/* debug enable packet */
 	unsigned char reqEnable[] = {
 		0x00, 0x01, 0x70,
 		/* Debug bits
 		   byte[bit>>3]&(1<<(7-(bit&7)))
 		*/
 		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 0x00 */
 		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 0x40 */
 		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 0x80 */
 		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 0xC0 */
 		/* Debug verbose bits 
 		   byte[bit>>3]&(1<<(7-(bit&7)))
 		*/
 		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
 		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
 		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
 		0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 
 		}; 
 
 	#define ENABLE_BIT(bit,verbose) reqEnable[3 + (bit>>3)] |= 1<<(7-(bit&7)); if(verbose){reqEnable[3 + 32 + (bit>>3)] |= 1<<(7-(bit&7));}
 
 	/* Enable some bit
 	   TODO command line or GUI interface
 	*/   
 	//ENABLE_BIT(0x18, 1);	/* Enable MDISND debugging */
 	//ENABLE_BIT(0x19, 1);	/* Enable MDIRCV debugging */
 	//ENABLE_BIT(0x31, 1); 
 	
 	gsmdec = GSMDecoder_new();
 	/* Open XML file .. needs to be argument */
 	{
 		FILE *xout = fopen("out.xml", "w");
 		GSMDecoder_xmlout(gsmdec, xout);
 	}
 	printf("Debug Trace Mode -- wumpus 2003\n");
 	traces = wmx_tracestruct_load(argv[2]);
 	if(traces == NULL)
 		printf("Warning: could not load trace description file %s\n", argv[2]);
 	printf("Activating ranges:\n");
 	count = 0;
 	for(x=3; x<argc; x++) {
 		char 		*ptr = argv[x];
 		unsigned 	from,to,verbose;
 
 		while(*ptr) {
 		 	verbose = 0;
 			if(*ptr == 'v') {
 				verbose = 1;
 				ptr++;
 			}
 			to = from = strtol(ptr, &ptr, 16);
 			if(*ptr == '-') {
 				ptr ++;
 				to = strtol(ptr, &ptr, 16);
 			}
 			if(*ptr != ',' && *ptr != 0) {
 				printf("Invalid parameter '%s'\n", argv[x]);
 				return;
 			}
 			if(*ptr == ',')
 				ptr++;
 			if(from > 0xFF) from=0xFF;
 			if(to > 0xFF) to=0xFF;
 			printf("  %02x-%02x verbose=%i\n",from,to,verbose);
 			for(y=from; y<=to; y++) {
 				ENABLE_BIT(y, verbose);
 				count++;
 			}
 		}
 	}
 	if(count == 0) {
 		printf("Nothing activated -- bailing out\n");
 		return;
 	}
 	//ENABLE_BIT(0x20, 1);  /* SIM commands (literal) */
 	//ENABLE_BIT(0x21, 1);  /* SIML2 commands (literal) */
 	//ENABLE_BIT(0x22, 1);  /* SIM commands (literal) */
 	//ENABLE_BIT(0x3B, 1);	/* PHCTRL state */
 
 	GSM_Init(true);
 
 	/* We Need DCT3 */
diff --git a/gammu/emb/gammu/depend/nokia/dct4.c b/gammu/emb/gammu/depend/nokia/dct4.c
index 4bf958d..43d8f09 100644
--- a/gammu/emb/gammu/depend/nokia/dct4.c
+++ b/gammu/emb/gammu/depend/nokia/dct4.c
@@ -1,400 +1,400 @@
 /* (c) 2002-2004 by Marcin Wiacek */
 
 #include "../../../common/gsmstate.h"
 
 #ifdef GSM_ENABLE_NOKIA_DCT4
 
 #include <string.h>
 
 #include "dct4.h"
 #include "../../gammu.h"
 #include "../../../common/phone/pfunc.h"
 #include "../../../common/phone/nokia/nfunc.h"
 #include "../../../common/phone/nokia/dct4/dct4func.h"
 #include "../../../common/misc/coding/coding.h"
 
-extern GSM_Reply_Function UserReplyFunctions4[];
+static GSM_Reply_Function UserReplyFunctions4[];
 
 /* ------- some usefull functions ----------------------------------------- */
 
 GSM_Error CheckDCT4Only()
 {
 	bool found = false;
 
 	/* Checking if phone is DCT4 */
 #ifdef GSM_ENABLE_NOKIA3650
  	if (strstr(N3650Phone.models, s.Phone.Data.ModelInfo->model) != NULL) found = true;
 #endif
 #ifdef GSM_ENABLE_NOKIA6510
  	if (strstr(N6510Phone.models, s.Phone.Data.ModelInfo->model) != NULL) found = true;
 #endif
 #ifdef GSM_ENABLE_NOKIA3320
  	if (strstr(N3320Phone.models, s.Phone.Data.ModelInfo->model) != NULL) found = true;
 #endif
 	if (!found) return ERR_NOTSUPPORTED;
 
 	if (s.ConnectionType!=GCT_MBUS2	     && s.ConnectionType!=GCT_FBUS2      &&
 	    s.ConnectionType!=GCT_FBUS2DLR3  && s.ConnectionType!=GCT_PHONETBLUE &&
 	    s.ConnectionType!=GCT_IRDAPHONET && s.ConnectionType!=GCT_BLUEPHONET &&
 	    s.ConnectionType!=GCT_FBUS2DKU5) {
 		return ERR_OTHERCONNECTIONREQUIRED;
 	}
 	return ERR_NONE;
 }
 
 static void CheckDCT4()
 {
 	GSM_Error error;
 
 	error = CheckDCT4Only();
 	switch (error) {
 	case ERR_NOTSUPPORTED:
 		Print_Error(ERR_NOTSUPPORTED);
 		break;
 	case ERR_OTHERCONNECTIONREQUIRED:
 		printf("Can't do it with current phone protocol\n");
 		GSM_TerminateConnection(&s);
 		exit(-1);
 	default:
 		break;
 	}
 }
 
 static bool answer_yes2(char *text)
 {
     	int         len;
     	char        ans[99];
 
 	while (1) {
 		printf("%s (yes/no) ? ",text);
 		len=GetLine(stdin, ans, 99);
 		if (len==-1) exit(-1);
 		if (mystrncasecmp(ans, "yes",0)) return true;
 		if (mystrncasecmp(ans, "no" ,0)) return false;
 	}
 }
 
 /* ------------------- functions ------------------------------------------- */
 
 static DCT4_Feature DCT4Features[] = {
 	{DCT4_ALWAYS_ONLINE,     	 "GPRS Always Online",		 {{0,"on (Context)"},{1,"off (Attach)"},{0,""}}},///??
 	{DCT4_GPRS_PCCH,	 	 "PCCH support for GPRS",	 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_GEA1,			 "GEA1 support indication",	 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_EOTD,			 "EOTD support",		 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_WAP_PUSH,			 "WAP push",			 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_USE_PREF_SIM_NET,		 "Use SIM preffered network list",{{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_JAVA_TCK,	                 "Java TCK support",             {{1,"on"},{0,"off"},{0,""}}},
 
 	{DCT4_ALS,		 	 "Alternate Line Service (ALS)", {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_A52,		 	 "Ciphering alghoritm A52", 	 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_CSP,		 	 "Customer Service Profile",	 {{0,"off"},{1,"on"},{0,""}}},
 	{DCT4_EONS,			 "EONS support",		 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_3GINDICATOR,		 "3G indicator",		 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_DISPLAY_PHONE_NAME,	 "Display both number and name for incoming calls",{{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_DISPLAY_WAP_PROFILE,	 "Display selected WAP profile name instead of Home option menu in Services",{{1,"on"},{0,"off"},{0,""}}},
 
 	{DCT4_GAMES_WAP_DOWNLOAD,	 "Games WAP download",		 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_GAMES_SCORE_SEND,		 "Games WAP score send",	 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_GAMES_URL_CHECK,		 "Games URL check",		 {{1,"on"},{0,"off"},{0,""}}},
 
 	{DCT4_BLUETOOTH_MENU,	 	 "Bluetooth menu",		 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_WAP_BOOKMARKS_MENU,	 "Bookmarks menu in Services", 	 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_WAP_BOOKMARKS_MENU2,	 "Bookmarks menu in Services", 	 {{3,"bookmarks & download"},{0,"off"},{0,""}}},
 	{DCT4_WAP_GOTO_MENU,	 	 "GoTo menu in Services",	 {{0,"on"},{1,"off"},{0,""}}},
 	{DCT4_WAP_SETTINGS_MENU,	 "Profiles menu in Services",	 {{0,"on"},{1,"off"},{0,""}}},
 	{DCT4_SERVICES_GAMES_APP_GALLERY,"Services menu in Games/Apps/Gallery",{{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_JAVA_GAMES_MENU,		 "Java games menu in Games",	 {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_SAT_CONFIRM_MENU,		 "Can use confirming SIM service actions", {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_INSTANT_MESS_MENU,	 "Instant Messaging in Messages",{{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_CONFIRM_ALS,		 "Confirm using ALS",            {{1,"on"},{0,"off"},{0,""}}},
 	{DCT4_BOOKMARK_GOTO_MENU,	 "Bookmarks in GoTo menu",       {{1,"on"},{0,"off"},{0,""}}},
 
 	{DCT4_5100_IDENTIFY,		 "Phone identification",         {{1,"NPM-6U"},{0,"NPM-6"},{0,""}}},
 
 #ifdef DEBUG
 	{DCT4_TEST,"",{{1,"1"},{0,"0"}}},
 #endif
 
 	{0,			 	 "",				 {{0,""}}}
 };
 
 static DCT4_Phone_Features DCT4PhoneFeatures[] = {
 /*3100*/ {"RH-19",	{{DCT4_ALS,1},{DCT4_A52,3},{DCT4_CSP,4},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 			 {DCT4_EONS,28},{DCT4_3GINDICATOR,30},{DCT4_INSTANT_MESS_MENU,33},
 			 {DCT4_CONFIRM_ALS,35},
 			 {0,0}}},
 /*3200*/ {"RH-30",	{{DCT4_ALS,2},{DCT4_A52,4},{DCT4_CSP,5},{DCT4_GPRS_PCCH,14},
 			 {DCT4_GEA1,15},{DCT4_EOTD,18},{DCT4_WAP_SETTINGS_MENU,20},
 			 {DCT4_DISPLAY_PHONE_NAME,21},{DCT4_WAP_GOTO_MENU,23},
 			 {DCT4_SERVICES_GAMES_APP_GALLERY,26},{DCT4_3GINDICATOR,28},
 			 {DCT4_DISPLAY_WAP_PROFILE,31},{DCT4_SAT_CONFIRM_MENU,33},
 			 {DCT4_CONFIRM_ALS,34},{DCT4_EONS,40},{DCT4_ALWAYS_ONLINE,45},
 			 {0,0}}},
 /*3200*/ {"RH-31",	{{DCT4_ALS,2},{DCT4_A52,4},{DCT4_CSP,5},{DCT4_GPRS_PCCH,14},
 			 {DCT4_GEA1,15},{DCT4_EOTD,18},{DCT4_WAP_SETTINGS_MENU,20},
 			 {DCT4_DISPLAY_PHONE_NAME,21},{DCT4_WAP_GOTO_MENU,23},
 			 {DCT4_SERVICES_GAMES_APP_GALLERY,26},{DCT4_3GINDICATOR,28},
 			 {DCT4_DISPLAY_WAP_PROFILE,31},{DCT4_SAT_CONFIRM_MENU,33},
 			 {DCT4_CONFIRM_ALS,34},{DCT4_EONS,40},{DCT4_ALWAYS_ONLINE,45},
 			 {0,0}}},
 /*3300*/ {"NEM-1",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 		/*MORE*/ {0,0}}},
 /*3510*/ {"NHM-8",	{{DCT4_ALS,1},{DCT4_A52,3},{DCT4_CSP,6},
 			 {DCT4_GAMES_WAP_DOWNLOAD,7},{DCT4_GAMES_SCORE_SEND,8},
 			 {DCT4_GAMES_URL_CHECK,9},{DCT4_GPRS_PCCH,13},
 			 {DCT4_GEA1,15},{DCT4_ALWAYS_ONLINE,18},{0,0}}},
 /*3510i*/{"RH-9",	{{DCT4_ALS,1},{DCT4_A52,3},{DCT4_CSP,4},{DCT4_GPRS_PCCH,9},
  			 {DCT4_DISPLAY_PHONE_NAME,14},{DCT4_WAP_GOTO_MENU,15},
 			 {DCT4_WAP_SETTINGS_MENU,16},{DCT4_SERVICES_GAMES_APP_GALLERY,19},
 			 {DCT4_DISPLAY_WAP_PROFILE,25},{0,0}}},
 /*3650*/ {"NHL-8",	{{DCT4_ALS,1},{0,0}}},
 /*5100*/ {"NPM-6",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 			 {DCT4_EONS,28},
 		//	 {DCT4_5100_IDENTIFY,10},
 			 {0,0}}},
 /*5100*/ {"NPM-6U",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 			 {DCT4_EONS,28},
 		//	 {DCT4_5100_IDENTIFY,10},
 			 {0,0}}},
 /*6100*/ {"NPL-2",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 			 {0,0}}},
 /*6220*/ {"RH-20",	{{DCT4_ALS,1},{DCT4_A52,3},{DCT4_CSP,4},
 			 {DCT4_GEA1,14},{DCT4_EOTD,17},{DCT4_WAP_SETTINGS_MENU,19},
 			 {DCT4_DISPLAY_PHONE_NAME,20},{DCT4_WAP_GOTO_MENU,22},
 			 {DCT4_WAP_BOOKMARKS_MENU2,24},{DCT4_SERVICES_GAMES_APP_GALLERY,25},
 			 {DCT4_3GINDICATOR,27},{DCT4_DISPLAY_WAP_PROFILE,30},{DCT4_SAT_CONFIRM_MENU,32},
 			 {DCT4_CONFIRM_ALS,33},{DCT4_JAVA_TCK,36},{DCT4_BOOKMARK_GOTO_MENU,37},
 			 {0,0}}},
 /*6310*/ {"NPE-4",	{{DCT4_ALS,1},{DCT4_A52,3},{DCT4_CSP,6},{DCT4_GAMES_WAP_DOWNLOAD,7},
 			 {DCT4_GAMES_SCORE_SEND,8},{DCT4_GAMES_URL_CHECK,9},{DCT4_BLUETOOTH_MENU,10},
 			 {DCT4_GPRS_PCCH,13},{DCT4_GEA1,15},{DCT4_ALWAYS_ONLINE,18},{0,0}}},
 /*6310i*/{"NPL-1",	{{DCT4_ALS,1},{DCT4_A52,3},{DCT4_CSP,6},{DCT4_GAMES_WAP_DOWNLOAD,7},
 			 {DCT4_GAMES_SCORE_SEND,8},{DCT4_GAMES_URL_CHECK,9},
 			 {DCT4_BLUETOOTH_MENU,10},{DCT4_USE_PREF_SIM_NET,11},
 			 {DCT4_GPRS_PCCH,13},{DCT4_GEA1,15},{DCT4_EOTD,16},
 			 {DCT4_ALWAYS_ONLINE,17},{DCT4_JAVA_GAMES_MENU,18},
       			 {DCT4_WAP_BOOKMARKS_MENU,20},{DCT4_WAP_SETTINGS_MENU,21},
 			 {DCT4_WAP_PUSH,28},{DCT4_WAP_GOTO_MENU,29},{0,0}}},
 /*6510*/ {"NPM-9",	{{DCT4_ALS,1},{DCT4_A52,3},{DCT4_CSP,6},{DCT4_GAMES_WAP_DOWNLOAD,7},
 			 {DCT4_GAMES_SCORE_SEND,8},{DCT4_GAMES_URL_CHECK,9},
 			 {DCT4_GPRS_PCCH,13},{DCT4_GEA1,15},{DCT4_ALWAYS_ONLINE,18},{0,0}}},
 /*6610*/ {"NHL-4U",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 			 {0,0}}},
 /*6800*/ {"NHL-6",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 		/*MORE*/ {0,0}}},
 /*7210*/ {"NHL-4",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 			 {0,0}}},
 /*7250*/ {"NHL-4J",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 			 {0,0}}},
 /*7250i*/{"NHL-4JX",	{{DCT4_ALS,1},{DCT4_CSP,4},{DCT4_GAMES_URL_CHECK,5},{DCT4_GPRS_PCCH,8},
 			 {DCT4_GEA1,9},{DCT4_ALWAYS_ONLINE,11},{DCT4_EOTD,12},
 			 {DCT4_DISPLAY_PHONE_NAME,17},{DCT4_WAP_GOTO_MENU,18},
 			 {DCT4_WAP_SETTINGS_MENU,19},{DCT4_SERVICES_GAMES_APP_GALLERY,22},
 			 {DCT4_DISPLAY_WAP_PROFILE,26},{DCT4_SAT_CONFIRM_MENU,27},
 		/*MORE*/ {0,0}}},
 /*8310*/{"NHM-7",	{{DCT4_ALS,1},{DCT4_CSP,6},{DCT4_GAMES_WAP_DOWNLOAD,7},
 			 {DCT4_GAMES_SCORE_SEND,8},{DCT4_GAMES_URL_CHECK,9},{DCT4_GPRS_PCCH,13},
 			 {DCT4_ALWAYS_ONLINE,18},{0,0}}},
 	{"",		{{0,0}}}
 };
 
 static GSM_Error DCT4_ReplySetPPS(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	printf("Setting done OK\n");
 	return ERR_NONE;
 }
 
 void DCT4SetPhoneMenus(int argc, char *argv[])
 {
 	int 		current = 10,i=0,j,z;
 	unsigned char 	reqSet[200] = {
 		N7110_FRAME_HEADER,0x04,0x00,0x01,0x47,0x48,0x02,
 		0x00};		/* Number of changed features */
 
 	if (CheckDCT4Only()!=ERR_NONE) return;
 
 	s.User.UserReplyFunctions=UserReplyFunctions4;
 
 	while (DCT4PhoneFeatures[i].Model[0] != 0x00) {
 		if (!strcmp(DCT4PhoneFeatures[i].Model,s.Phone.Data.Model)) {
 			j = 0;
 			while (DCT4PhoneFeatures[i].Features[j].Name != 0x00) {
 				z = 0;
 				while (DCT4Features[z].Name != 0x00) {
 					if (DCT4Features[z].Name == DCT4PhoneFeatures[i].Features[j].Name) {
 						printf("%s : %s\n",DCT4Features[z].Text,DCT4Features[z].Values[0].Text);
 						reqSet[9]++;							/* Number of features */
 						reqSet[current++] = DCT4PhoneFeatures[i].Features[j].Number; 	/* Feature number */
 						reqSet[current++] = DCT4Features[z].Values[0].Value;		/* Value */
 						break;
 					}
 					z++;
 				}
 				j++;
 			}
 		}
 		i++;
 	}
 
 	if (current == 10) {
 		printf("Sorry, but configuration matrix for this model is not added yet. Please report\n");
 		return;
 	}
 
 	reqSet[current++] = 0x00;
 	reqSet[current++] = 0x00;
 
 	error=GSM_WaitFor (&s, reqSet, current, 0x1b, 4, ID_User1);
 	Print_Error(error);
 }
 
 DCT4_Phone_Tests DCT4Tests;
 
 static GSM_Error DCT4_ReplyTestsNames(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int i,pos;
 
 	DCT4Tests.Num   = msg.Buffer[5];
 	pos 		= 6;
 
 	smprintf(s,"%i names for phone tests received\n",msg.Buffer[5]);
 	for (i=0;i<msg.Buffer[5];i++) {
 		strcpy(DCT4Tests.Tests[i].Name,msg.Buffer+pos+4);
 		DCT4Tests.Tests[i].ID = msg.Buffer[pos+2];
 		smprintf(s,"%x.\"%s\"\n",DCT4Tests.Tests[i].ID,DCT4Tests.Tests[i].Name);
 		pos+=msg.Buffer[pos+1];
 	}
 
 	return ERR_NONE;
 }
 
 static GSM_Error DCT4_ReplyTestsStartup(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int 	 i,pos,j;
 	bool	 found;
 
 	pos = 10;
 
 	for (i=0;i<msg.Buffer[8];i++) {
 		found = false;
 		for (j=0;j<DCT4Tests.Num;j++) {
 			if (DCT4Tests.Tests[j].ID == msg.Buffer[pos]) {
 				DCT4Tests.Tests[j].Startup 	= true;
 				found 				= true;
 				break;
 			}
 		}
 		if (!found) printf("%x ",msg.Buffer[pos]);
 		pos++;
 	}
 
 	return ERR_NONE;
 }
 
 static GSM_Error DCT4_ReplyTestsStatus(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	int i,pos,j;
 
 	pos = 6;
 
 	smprintf(s,"%i status entries for phone tests received\n",msg.Buffer[5]);
 	for (i=0;i<msg.Buffer[5];i++) {
 		for (j=0;j<DCT4Tests.Num;j++) {
 			if (DCT4Tests.Tests[j].ID == msg.Buffer[pos+2]) {
 				printf("\"%40s\" : ",DCT4Tests.Tests[j].Name);
 				switch(msg.Buffer[pos+3]) {
 					case 0x00: printf("Passed"); 		break;
 					case 0x01: printf("Fail");   		break;
 					case 0x03: printf("Not executed"); 	break;
 					case 0x06: printf("No signal");		break;
 					case 0x0D: printf("Timeout");		break;
 					default  : printf("Unknown (%x)",msg.Buffer[pos+3]);
 				}
 				if (DCT4Tests.Tests[j].Startup) printf(" (startup)");
 				printf("\n");				
 				break;
 			}
 		}
 		pos+=msg.Buffer[pos+1];
 	}
 
 	return ERR_NONE;
 }
 
 void DCT4SelfTests(int argc, char *argv[])
 {
 	int 	      j;
 	unsigned char GetDoneST[6]    = {0x00, 0x08, 0x01, 0x04, 0x01, 0x00};
 	unsigned char GetDoneST2[6]   = {0x00, 0x08, 0x02, 0x04, 0x02, 0x00};
 	unsigned char GetNames[6]     = {0x00, 0x08, 0x03, 0x06, 0x03, 0x00};
 	unsigned char GetStatus[6]    = {0x00, 0x08, 0x04, 0x02, 0x03, 0x00}; 
 
 	unsigned char RunALL[6]       = {0x00, 0x06, 0x04, 0x00, 0x03, 0x00};
 
 //	unsigned char GetID[6]        = {0x00, 0x08, 0x00, 0x04, 0x03, 0x00};//tests ID
 
 	if (CheckDCT4Only()!=ERR_NONE) return;
 
 	s.User.UserReplyFunctions=UserReplyFunctions4;
 
 	if (answer_yes2("Run all tests now ?")) {
 		error=GSM_WaitFor (&s, RunALL, 6, 0x35, 4, ID_User1);
 		Print_Error(error);
 	}
 
 	error=GSM_WaitFor (&s, GetNames, 6, 0x35, 4, ID_User1);
 	Print_Error(error);
 
 	for (j=0;j<DCT4Tests.Num;j++) DCT4Tests.Tests[j].Startup = false;
 
 	error=GSM_WaitFor (&s, GetDoneST, 6, 0x35, 4, ID_User3);
 	Print_Error(error);
 
 	error=GSM_WaitFor (&s, GetDoneST2, 6, 0x35, 4, ID_User3);
 	Print_Error(error);
 
 	error=GSM_WaitFor (&s, GetStatus, 6, 0x35, 4, ID_User2);
 	Print_Error(error);
 }
 
 static GSM_Error DCT4_ReplyVibra(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 #ifdef DEBUG
 	switch (msg.Buffer[3]) {
 		case 0x0D : dbgprintf("Vibra state set OK\n"); break;
diff --git a/gammu/emb/gammu/depend/siemens/dsiemens.c b/gammu/emb/gammu/depend/siemens/dsiemens.c
index dc54102..a34bc3b 100644
--- a/gammu/emb/gammu/depend/siemens/dsiemens.c
+++ b/gammu/emb/gammu/depend/siemens/dsiemens.c
@@ -1,363 +1,363 @@
 /* (c) by Walek */
 
 #include "../../../common/gsmstate.h"
 
 #ifdef GSM_ENABLE_ATGEN
 
 #include <string.h>
 
 #include "../../../common/misc/coding/coding.h"
 #include "../../../common/gsmcomon.h"
 #include "../../../common/service/gsmnet.h"
 #include "../../../common/phone/at/atgen.h"
 #include "../../gammu.h"
 #include "dsiemens.h"
 #include "chiffre.h"
 
 extern GSM_Error  ATGEN_GetSIMIMSI (GSM_StateMachine *s, char *IMSI);
 extern GSM_Error  ATGEN_GetMemoryStatus (GSM_StateMachine *s, GSM_MemoryStatus *status);
 extern GSM_Error  ATGEN_SetMemory (GSM_StateMachine *s, GSM_MemoryEntry *pbk);
-extern GSM_Reply_Function UserReplyFunctionsAtS[];
+static GSM_Reply_Function UserReplyFunctionsAtS[];
 
 bool 	new_variable;
 GSM_Error CheckSiemens()
 {
 	if (s.Phone.Data.Priv.ATGEN.Manufacturer != AT_Siemens) return ERR_NOTSUPPORTED;
 	return ERR_NONE;
 }
 
 GSM_Error ATSIEMENS_Reply_GetSAT(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
 	GSM_Phone_ATGENData		*Priv = &s->Phone.Data.Priv.ATGEN;
 	GSM_SAT_Measure_results		MeasureResult;
 	unsigned char 			buf[256];
         int                             length,i,rep,ChNo=1,j=0,result=0,origARFCN=0;
     	int				freq_tmp,frequency[24];
    	GSM_NetworkInfo			Network;
 
     	if (Priv->ReplyState!=AT_Reply_OK) return ERR_UNKNOWN;
     	if (s->Protocol.Data.AT.EditMode) s->Protocol.Data.AT.EditMode = false;
 	if (strstr(GetLineString(msg.Buffer,Priv->Lines,2),"SSTK")) {
     	    length = strlen(GetLineString(msg.Buffer,Priv->Lines,2))-7;
     	    DecodeHexBin(buf, GetLineString(msg.Buffer,Priv->Lines,2)+7,length);
 	    if (buf[0]==0x7f) {
 		new_variable=true;
 		return ERR_NONE;
 	    } 
 	    else return ERR_UNKNOWN;
 	}
     	if (!strstr(GetLineString(msg.Buffer,Priv->Lines,3),"SSTK")) return ERR_UNKNOWN;
         
     	length = strlen(GetLineString(msg.Buffer,Priv->Lines,3))-7;
     	DecodeHexBin(buf, GetLineString(msg.Buffer,Priv->Lines,3)+7,length);
 
     	if (buf[3]!=0x26) return ERR_UNKNOWN;
     
 #ifdef DEBUG
     	dbgprintf ("SAT command: Provide Local Information\nFunction: ");
     	switch (buf[4]) {
         	case 00: dbgprintf ("Loc Info\n");			break;
 		case 01: dbgprintf ("IMEI\n");				break;
 		case 02: dbgprintf ("Network Measure\n");		break;
 		case 03: dbgprintf ("Date time and timezone\n");	break;
 		case 04: dbgprintf ("Language setting\n");		break;
 		case 05: dbgprintf ("Timing advance\n");		break;
     	}
 #endif
     	/* Loc Info (MCC, MNC, LAC, Cell ID) */
     	if (buf[4]==00) {
         	DecodeBCD (Network.NetworkCode,buf+14,2);
         	Network.NetworkCode[3] = ' ';
         	DecodeBCD (Network.NetworkCode+4,buf+16,1);
         	EncodeHexBin (Network.LAC,buf+17,2);
         	EncodeHexBin (Network.CID,buf+19,2);
 
 		printf("   Network code              : %s\n",Network.NetworkCode);
 		printf("   Network name for Gammu    : %s\n",
 			DecodeUnicodeString(GSM_GetNetworkName(Network.NetworkCode)));
 		printf("   CID   : %s\n",Network.CID);
 		printf("   LAC   : %s\n",Network.LAC);
     	}
 
     	/* Network Measure */
     	if (buf[4]==02) {
 	
 	    for (i=0;i<24;i++) frequency[i]=0;
 	    if (!new_variable) {
 	        GetBufferI(buf+32,&j,&result,7);
 	        result &= 0x67;
 	        if (result !=0x47) return ERR_NOTSUPPORTED;
 	    }
 #ifdef DEBUG
 	    if (new_variable)	dbgprintf ("New variable Bitmap format\n");
 	    else	 	dbgprintf ("Old variable Bitmap format\n");	    
 #endif    
             GetBufferI(buf+32,&j,&origARFCN,10);
 	/* 10 bit origin ARFCN or first frequency (new variable format) */
 #ifdef DEBUG
 	    dbgprintf("Origin BCCH = %i\n",origARFCN);
 #endif
             rep     = buf[31]*8;
 	    if (!new_variable ){
     	        for (i=0;i<rep;i++){
 	    	    result = 0; 
                     GetBufferI(buf+32,&j,&result,1);
 		    if (result) {
     	    		frequency[ChNo]=i+origARFCN+1;
 			ChNo++;
 		    }
 	    	}	    
 	    } 
 	    else {
 	        frequency[ChNo++]=origARFCN;
 		for (i=0; i<rep; i+=10){
 		    result = 0;
 		    GetBufferI(buf+32,&j,&result,10);
 		    if (!result) break;
 		    frequency[ChNo++]=result;
 		}
 		j=1;
 		while (j) {
 		    j=0;
 		    for (i=0; i<ChNo-1; i++){
 			if (frequency[i] > frequency[i+1]){
 			    freq_tmp=frequency[i];
 			    frequency[i]=frequency[i+1];
 			    frequency[i+1]=freq_tmp;
 			    j=1;
 			}
 		    }
 		}
 	    };
 #ifdef DEBUG
     	dbgprintf("Neighbor BCCH list: ");
 	for (i=1;i<ChNo;i++) dbgprintf ("%d ",frequency[i]);
 	dbgprintf ("\n");
 #endif
 	j	= 0;
 	result	= 0;
 	GetBufferI(buf+14,&j,&result,1);
 	if (result) 	MeasureResult.BA_used=true;
 	else		MeasureResult.BA_used=false;
 
 	result	= 0;
 	GetBufferI(buf+14,&j,&result,1);
 	if (result) 	MeasureResult.DTX_used=true;
 	else		MeasureResult.DTX_used=false;
 	
 	result	= 0;
 	GetBufferI(buf+14,&j,&result,6);
 	MeasureResult.RXLEV_FullServicingCell=result-110;
 	
 	j++;	//skip spare bit
 	result	= 0;
 	GetBufferI(buf+14,&j,&result,1);
 	if (result) 	MeasureResult.MeasValid=true;
 	else		MeasureResult.MeasValid=false;
 	
 	result	= 0;
 	GetBufferI(buf+14,&j,&result,6);
 	MeasureResult.RXLEV_SubServicingCell=result-110;
 
 	j++;	//skip spare bit
 	result	= 0;
 	GetBufferI(buf+14,&j,&result,3);
 	MeasureResult.RXQUAL_FullServicingCell=result;
 	
 	result	= 0;
 	GetBufferI(buf+14,&j,&result,3);
 	MeasureResult.RXQUAL_SubServicingCell=result;
 	
 	printf ("RX Level FULL Servicing Cell = %i\n",MeasureResult.RXLEV_FullServicingCell);
 	printf ("RX Level Sub Servicing Cell = %i\n",MeasureResult.RXLEV_FullServicingCell);
 
 	printf ("RX Quality Full Servicing Cell = %i\n",MeasureResult.RXQUAL_FullServicingCell);
 	printf ("RX Quality Sub Servicing Cell = %i\n",MeasureResult.RXQUAL_SubServicingCell);
 
 	result	= 0;
 	GetBufferI(buf+14,&j,&result,3);
 	MeasureResult.NO_NCELL_M=result;
 
 	rep=MeasureResult.NO_NCELL_M;
 	
 	for (i=0;i<MeasureResult.NO_NCELL_M;i++) {
 	    result	= 0;
 	    GetBufferI(buf+14,&j,&result,6);
 	    MeasureResult.NeighbourCell[i].RxLev = result-110;
 
 	    result	= 0;
 	    GetBufferI(buf+14,&j,&result,5);
 	    if (new_variable)
 		   MeasureResult.NeighbourCell[i].ChFreq = frequency[result+1];
 	    else   MeasureResult.NeighbourCell[i].ChFreq = frequency[result];
 
 	    result	= 0;
 	    GetBufferI(buf+14,&j,&result,3);
 	    MeasureResult.NeighbourCell[i].NB = 10 * result;
 	    result	= 0;
 	    GetBufferI(buf+14,&j,&result,3);
 	    MeasureResult.NeighbourCell[i].NB +=  result;
 
 	    if (MeasureResult.NeighbourCell[i].ChFreq)
 		printf("CH = %i,\t",MeasureResult.NeighbourCell[i].ChFreq);
 	    else
 		printf("CH = Unknown\t");
 		printf("RX Lev = %i dBm\t",MeasureResult.NeighbourCell[i].RxLev);
 		printf("BSIC CELL = %i\n",MeasureResult.NeighbourCell[i].NB);
 	    }
     	}
 #ifdef DEBUG
     	if  (buf[4]==05) {				//Timing Advance
 		if (buf[11]) dbgprintf ("Unknown Timing Advance\n");
 		else dbgprintf ("Timing Advance = %i\n",buf[14] & 0x3f);
     	}
 #endif
     	return ERR_NONE;
 }
 
 GSM_Error ATSIEMENS_Reply_GetNetmon(GSM_Protocol_Message msg, GSM_StateMachine *s)
 {
     	GSM_Phone_ATGENData	*Priv = &s->Phone.Data.Priv.ATGEN;
     	int 			i=2;
     
     	if (!strstr(GetLineString(msg.Buffer,Priv->Lines,1),"AT^S^MI")) return ERR_UNKNOWN;
     	while (strlen(GetLineString(msg.Buffer,Priv->Lines,i+1)))   
 		printf("%s\n",GetLineString(msg.Buffer,Priv->Lines,i++));
     	printf("\n");
     	return ERR_NONE;
 }
 
 GSM_Error ATSIEMENS_GetSAT(GSM_StateMachine *s)
 {
     	GSM_Phone_ATGENData	*Priv = &s->Phone.Data.Priv.ATGEN;
     	GSM_Error		error;
     	unsigned char		*reqSAT[]= {"D009810301260082028182",
 				    	    "D009810301260282028182",
 				    	    "D009810301260582028182"},req[32];
     	int 			i,len;
         
     	if (Priv->Manufacturer!=AT_Siemens) return ERR_NOTSUPPORTED;
 	
         sprintf(req, "AT^SSTK=?\r");
         error = GSM_WaitFor (s, req, strlen(req), 0x00, 3, ID_User1); 
         
     	for (i=0;i<3;i++){
 		len				= strlen(reqSAT[i]);
 		s->Protocol.Data.AT.EditMode 	= true;
         	sprintf(req, "AT^SSTK=%i,1\r",len/2);
         	error = GSM_WaitFor (s, req, strlen(req), 0x00, 3, ID_User1); 
 		s->Phone.Data.DispatchError	= ERR_TIMEOUT;
 		s->Phone.Data.RequestID		= ID_User1;
     		error = s->Protocol.Functions->WriteMessage(s, reqSAT[i], len, 0x00);
     		if (error!=ERR_NONE) return error;
     		error = s->Protocol.Functions->WriteMessage(s, "\x1A", 1, 0x00);
 		if (error!=ERR_NONE) return error;
         	error = GSM_WaitForOnce (s, NULL,0x00, 0x00, 4);
     		if (error!=ERR_NONE) return error;
     	}
     	return ERR_NONE;
 }
 
 GSM_Error ATSIEMENS_GetNetmon(GSM_StateMachine *s,int test_no)
 {
 	GSM_Phone_ATGENData	*Priv = &s->Phone.Data.Priv.ATGEN;
 	unsigned char		req[32];
         
 	if (Priv->Manufacturer!=AT_Siemens) return ERR_NOTSUPPORTED;
 	sprintf(req, "AT^S^MI=%d\r",test_no);
 	printf ("Siemens NetMonitor test #%i\n",test_no); 
 	return GSM_WaitFor(s, req, strlen(req), 0x00, 3, ID_User2);
 }
 
 GSM_Error ATSIEMENS_ActivateNetmon (GSM_StateMachine *s,int netmon_type)
 {
 	GSM_Phone_ATGENData	*Priv = &s->Phone.Data.Priv.ATGEN;
 	unsigned char		req[32];
         
 	if (Priv->Manufacturer!=AT_Siemens) return ERR_NOTSUPPORTED;
 
 	sprintf(req, "AT\r");
 	printf ("Activate Siemens NetMonitor\n"); 
 	siemens_code (req,req,2);
 
 	return GSM_WaitFor(s, req, strlen(req), 0x00, 3, ID_User2);
 }
 
 void ATSIEMENSActivateNetmon(int argc, char *argv[])
 {
 	GSM_MemoryStatus status;
 	GSM_MemoryEntry	 pbk;
 	int 		 netmon_type, pbk_maxlocation;
 	char 		 imsi[15], NetMonCode[32];
 
 	GSM_Init(true);
 	if (CheckSiemens()==ERR_NOTSUPPORTED) Print_Error(ERR_NOTSUPPORTED);
 	s.User.UserReplyFunctions=UserReplyFunctionsAtS;
 
 	printf ("Activate NetMonitor...\n");
 	netmon_type = atoi(argv[2]);
 			
 	if ((netmon_type==1) || (netmon_type==2)) {
 	    error   = ATGEN_GetSIMIMSI (&s,imsi);
 	    Print_Error(error);	    
 	    siemens_code(imsi,NetMonCode,netmon_type);
 	    
 	    status.MemoryType = MEM_SM;
 	    error = ATGEN_GetMemoryStatus (&s,&status);
 	    Print_Error(error);
 
 	    pbk_maxlocation = status.MemoryUsed+status.MemoryFree;
 	    pbk.MemoryType = MEM_SM;
 	    pbk.Location = pbk_maxlocation;
 	    pbk.EntriesNum = 2;
 	    pbk.Entries[0].EntryType = PBK_Number_General;
 	    EncodeUnicode (pbk.Entries[0].Text,NetMonCode,strlen(NetMonCode));
 	    pbk.Entries[1].EntryType = PBK_Text_Name;
 	    sprintf (NetMonCode,"Net Monitor");	
 	    EncodeUnicode (pbk.Entries[1].Text,NetMonCode,strlen(NetMonCode));
 	    error = ATGEN_SetMemory (&s, &pbk);
 	    Print_Error(error);	
 	}
 	else printf ("NetMonitor type should be:\n1 - full Netmon\n2 - simple NetMon\n");
     
 	GSM_Terminate();
 }
 
 void ATSIEMENSSATNetmon(int argc, char *argv[])
 {
 	GSM_Init(true);
 	if (CheckSiemens()==ERR_NOTSUPPORTED) Print_Error(ERR_NOTSUPPORTED);
 	s.User.UserReplyFunctions=UserReplyFunctionsAtS;
 
 	printf ("Getting Siemens Sim Aplication Toolkit NetMonitor...\n");
 
 	error=ATSIEMENS_GetSAT(&s);    
 	Print_Error(error);    
 	GSM_Terminate();
 }
 
 void ATSIEMENSNetmonitor(int argc, char *argv[])
 {
 	int test_no;
 
 	GSM_Init(true);
 	if (CheckSiemens()==ERR_NOTSUPPORTED) Print_Error(ERR_NOTSUPPORTED);
 	s.User.UserReplyFunctions=UserReplyFunctionsAtS;
 
 	printf ("Getting Siemens NetMonitor...\n");
 	test_no = atoi(argv[2]);
 	error   = ATSIEMENS_GetNetmon (&s,test_no+1);
 	Print_Error(error);
 	GSM_Terminate();
 }
 
 static GSM_Reply_Function UserReplyFunctionsAtS[] = {
 	{ATSIEMENS_Reply_GetSAT,	"AT^SSTK",	0x00,0x00,ID_User1	},
 	{ATSIEMENS_Reply_GetNetmon,	"AT^S^MI",	0x00,0x00,ID_User2	},
 	{NULL,				"\x00",		0x00,0x00,ID_None	}
 };
 #endif
 
 /* How should editor hadle tabs in this file? Add editor commands here.
  * vim: noexpandtab sw=8 ts=8 sts=8:
  */