telephony/sim_card.c - emulator-unstable-refactoring - Git at Google

 /* Copyright (C) 2007-2008 The Android Open Source Project
 **
 ** This software is licensed under the terms of the GNU General Public
 ** License version 2, as published by the Free Software Foundation, and
 ** may be copied, distributed, and modified under those terms.
 **
 ** This program is distributed in the hope that it will be useful,
 ** but WITHOUT ANY WARRANTY; without even the implied warranty of
 ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 ** GNU General Public License for more details.
 */
 #include "sim_card.h"
 #include <string.h>
 #include <assert.h>
 #include <stdio.h>

 /* set ENABLE_DYNAMIC_RECORDS to 1 to enable dynamic records
  * for now, this is an experimental feature that needs more testing
  */
 #define  ENABLE_DYNAMIC_RECORDS  0

 #define  A_SIM_PIN_SIZE  4
 #define  A_SIM_PUK_SIZE  8

 typedef struct ASimCardRec_ {
     ASimStatus  status;
     char        pin[ A_SIM_PIN_SIZE+1 ];
     char        puk[ A_SIM_PUK_SIZE+1 ];
     int         pin_retries;
     int         port;

     char        out_buff[ 256 ];
     int         out_size;

 } ASimCardRec;

 static ASimCardRec  _s_card[1];

 ASimCard
 asimcard_create(int port)
 {
     ASimCard  card    = _s_card;
     card->status      = A_SIM_STATUS_READY;
     card->pin_retries = 0;
     strncpy( card->pin, "0000", sizeof(card->pin) );
     strncpy( card->puk, "12345678", sizeof(card->puk) );
     card->port = port;
     return card;
 }

 void
 asimcard_destroy( ASimCard  card )
 {
     /* nothing really */
     card=card;
 }

 static __inline__ int
 asimcard_ready( ASimCard  card )
 {
     return card->status == A_SIM_STATUS_READY;
 }

 ASimStatus
 asimcard_get_status( ASimCard  sim )
 {
     return sim->status;
 }

 void
 asimcard_set_status( ASimCard  sim, ASimStatus  status )
 {
     sim->status = status;
 }

 const char*
 asimcard_get_pin( ASimCard  sim )
 {
     return sim->pin;
 }

 const char*
 asimcard_get_puk( ASimCard  sim )
 {
     return sim->puk;
 }

 void
 asimcard_set_pin( ASimCard  sim, const char*  pin )
 {
     strncpy( sim->pin, pin, A_SIM_PIN_SIZE );
     sim->pin_retries = 0;
 }

 void
 asimcard_set_puk( ASimCard  sim, const char*  puk )
 {
     strncpy( sim->puk, puk, A_SIM_PUK_SIZE );
     sim->pin_retries = 0;
 }


 int
 asimcard_check_pin( ASimCard  sim, const char*  pin )
 {
     if (sim->status != A_SIM_STATUS_PIN   &&
         sim->status != A_SIM_STATUS_READY )
         return 0;

     if ( !strcmp( sim->pin, pin ) ) {
         sim->status      = A_SIM_STATUS_READY;
         sim->pin_retries = 0;
         return 1;
     }

     if (sim->status != A_SIM_STATUS_READY) {
         if (++sim->pin_retries == 3)
             sim->status = A_SIM_STATUS_PUK;
     }
     return 0;
 }


 int
 asimcard_check_puk( ASimCard  sim, const char* puk, const char*  pin )
 {
     if (sim->status != A_SIM_STATUS_PUK)
         return 0;

     if ( !strcmp( sim->puk, puk ) ) {
         strncpy( sim->puk, puk, A_SIM_PUK_SIZE );
         strncpy( sim->pin, pin, A_SIM_PIN_SIZE );
         sim->status      = A_SIM_STATUS_READY;
         sim->pin_retries = 0;
         return 1;
     }

     if ( ++sim->pin_retries == 6 ) {
         sim->status = A_SIM_STATUS_ABSENT;
     }
     return 0;
 }

 typedef enum {
     SIM_FILE_DM = 0,
     SIM_FILE_DF,
     SIM_FILE_EF_DEDICATED,
     SIM_FILE_EF_LINEAR,
     SIM_FILE_EF_CYCLIC
 } SimFileType;

 typedef enum {
     SIM_FILE_READ_ONLY       = (1 << 0),
     SIM_FILE_NEED_PIN = (1 << 1),
 } SimFileFlags;

 /* descriptor for a known SIM File */
 #define  SIM_FILE_HEAD       \
     SimFileType     type;    \
     unsigned short  id;      \
     unsigned short  flags;

 typedef struct {
     SIM_FILE_HEAD
 } SimFileAnyRec, *SimFileAny;

 typedef struct {
     SIM_FILE_HEAD
     cbytes_t   data;
     int        length;
 } SimFileEFDedicatedRec, *SimFileEFDedicated;

 typedef struct {
     SIM_FILE_HEAD
     byte_t     rec_count;
     byte_t     rec_len;
     cbytes_t   records;
 } SimFileEFLinearRec, *SimFileEFLinear;

 typedef SimFileEFLinearRec   SimFileEFCyclicRec;
 typedef SimFileEFCyclicRec*  SimFileEFCyclic;

 typedef union {
     SimFileAnyRec          any;
     SimFileEFDedicatedRec  dedicated;
     SimFileEFLinearRec     linear;
     SimFileEFCyclicRec     cyclic;
 } SimFileRec, *SimFile;


 #if ENABLE_DYNAMIC_RECORDS
 /* convert a SIM File descriptor into an ASCII string,
    assumes 'dst' is NULL or properly sized.
    return the number of chars, or -1 on error */
 static int
 sim_file_to_hex( SimFile  file, bytes_t  dst )
 {
     SimFileType  type   = file->any.type;
     int          result = 0;

     /* see 9.2.1 in TS 51.011 */
     switch (type) {
         case SIM_FILE_EF_DEDICATED:
         case SIM_FILE_EF_LINEAR:
         case SIM_FILE_EF_CYCLIC:
             {
                 if (dst) {
                     int  file_size, perm;

                     memcpy(dst, "0000", 4);  /* bytes 1-2 are RFU */
                     dst += 4;

                     /* bytes 3-4 are the file size */
                     if (type == SIM_FILE_EF_DEDICATED)
                         file_size = file->dedicated.length;
                     else
                         file_size = file->linear.rec_count * file->linear.rec_len;

                     gsm_hex_from_short( dst, file_size );
                     dst += 4;

                     /* bytes 5-6 are the file id */
                     gsm_hex_from_short( dst, file->any.id );
                     dst += 4;

                     /* byte 7 is the file type - always EF, i.e. 0x04 */
                     dst[0] = '0';
                     dst[1] = '4';
                     dst   += 2;

                     /* byte 8 is RFU, except bit 7 for cyclic files, which indicates
                        that INCREASE is allowed. Since we don't support this yet... */
                     dst[0] = '0';
                     dst[1] = '0';
                     dst   += 2;

                     /* byte 9-11 are access conditions */
                     if (file->any.flags & SIM_FILE_READ_ONLY) {
                         if (file->any.flags & SIM_FILE_NEED_PIN)
                             perm = 0x1a;
                         else
                             perm = 0x0a;
                     } else {
                         if (file->any.flags & SIM_FILE_NEED_PIN)
                             perm = 0x11;
                         else
                             perm = 0x00;
                     }
                     gsm_hex_from_byte(dst, perm);
                     memcpy( dst+2, "a0aa", 4 );
                     dst += 6;

                     /* byte 12 is file status, we don't support invalidation */
                     dst[0] = '0';
                     dst[1] = '0';
                     dst   += 2;

                     /* byte 13 is length of the following data, always 2 */
                     dst[0] = '0';
                     dst[1] = '2';
                     dst   += 2;

                     /* byte 14 is struct of EF */
                     dst[0] = '0';
                     if (type == SIM_FILE_EF_DEDICATED)
                         dst[1] = '0';
                     else if (type == SIM_FILE_EF_LINEAR)
                         dst[1] = '1';
                     else
                         dst[1] = '3';

                     /* byte 15 is lenght of record, or 0 */
                     if (type == SIM_FILE_EF_DEDICATED) {
                         dst[0] = '0';
                         dst[1] = '0';
                     } else
                         gsm_hex_from_byte( dst, file->linear.rec_len );
                 }
                 result = 30;
             }
             break;

         default:
             result = -1;
     }
     return result;
 }


 static const byte_t  _const_spn_cphs[20] = {
     0x41, 0x6e, 0x64, 0x72, 0x6f, 0x69, 0x64, 0xff, 0xff, 0xff,
     0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff
 };

 static const byte_t  _const_voicemail_cphs[1] = {
     0x55
 };

 static const byte_t  _const_iccid[10] = {
     0x98, 0x10, 0x14, 0x30, 0x12, 0x11, 0x81, 0x15, 0x70, 0x02
 };

 static const byte_t  _const_cff_cphs[1] = {
     0x55
 };

 static SimFileEFDedicatedRec  _const_files_dedicated[] =
 {
     { SIM_FILE_EF_DEDICATED, 0x6f14, SIM_FILE_READ_ONLY | SIM_FILE_NEED_PIN,
       _const_spn_cphs, sizeof(_const_spn_cphs) },

     { SIM_FILE_EF_DEDICATED, 0x6f11, SIM_FILE_NEED_PIN,
       _const_voicemail_cphs, sizeof(_const_voicemail_cphs) },

     { SIM_FILE_EF_DEDICATED, 0x2fe2, SIM_FILE_READ_ONLY,
       _const_iccid, sizeof(_const_iccid) },

     { SIM_FILE_EF_DEDICATED, 0x6f13, SIM_FILE_NEED_PIN,
       _const_cff_cphs, sizeof(_const_cff_cphs) },

     { 0, 0, 0, NULL, 0 }  /* end of list */
 };
 #endif /* ENABLE_DYNAMIC_RECORDS */

 const char*
 asimcard_io( ASimCard  sim, const char*  cmd )
 {
     int  nn;
 #if ENABLE_DYNAMIC_RECORDS
     int  command, id, p1, p2, p3;
 #endif
     static const struct { const char*  cmd; const char*  answer; } answers[] =
     {
         { "+CRSM=192,28436,0,0,15", "+CRSM: 144,0,000000146f1404001aa0aa01020000" },
         { "+CRSM=176,28436,0,0,20", "+CRSM: 144,0,416e64726f6964ffffffffffffffffffffffffff" },

         { "+CRSM=192,28433,0,0,15", "+CRSM: 144,0,000000016f11040011a0aa01020000" },
         { "+CRSM=176,28433,0,0,1", "+CRSM: 144,0,55" },

         { "+CRSM=192,12258,0,0,15", "+CRSM: 144,0,0000000a2fe204000fa0aa01020000" },
         { "+CRSM=176,12258,0,0,10", "+CRSM: 144,0,98101430121181157002" },

         { "+CRSM=192,28435,0,0,15", "+CRSM: 144,0,000000016f13040011a0aa01020000" },
         { "+CRSM=176,28435,0,0,1",  "+CRSM: 144,0,55" },

         { "+CRSM=192,28472,0,0,15", "+CRSM: 144,0,0000000f6f3804001aa0aa01020000" },
         { "+CRSM=176,28472,0,0,15", "+CRSM: 144,0,ff30ffff3c003c03000c0000f03f00" },

         { "+CRSM=192,28617,0,0,15", "+CRSM: 144,0,000000086fc9040011a0aa01020104" },
         { "+CRSM=178,28617,1,4,4",  "+CRSM: 144,0,01000000" },

         { "+CRSM=192,28618,0,0,15", "+CRSM: 144,0,0000000a6fca040011a0aa01020105" },
         { "+CRSM=178,28618,1,4,5",  "+CRSM: 144,0,0000000000" },

         { "+CRSM=192,28589,0,0,15", "+CRSM: 144,0,000000046fad04000aa0aa01020000" },
         { "+CRSM=176,28589,0,0,4",  "+CRSM: 144,0,00000003" },

         { "+CRSM=192,28438,0,0,15", "+CRSM: 144,0,000000026f1604001aa0aa01020000" },
         { "+CRSM=176,28438,0,0,2",  "+CRSM: 144,0,0233" },

         { "+CRSM=192,28486,0,0,15", "+CRSM: 148,4" },
         { "+CRSM=192,28621,0,0,15", "+CRSM: 148,4" },

         { "+CRSM=192,28613,0,0,15", "+CRSM: 144,0,000000f06fc504000aa0aa01020118" },
         { "+CRSM=178,28613,1,4,24", "+CRSM: 144,0,43058441aa890affffffffffffffffffffffffffffffffff" },

         { "+CRSM=192,28480,0,0,15", "+CRSM: 144,0,000000806f40040011a0aa01020120" },
         { "+CRSM=178,28480,1,4,32", "+CRSM: 144,0,ffffffffffffffffffffffffffffffffffff07815155258131f5ffffffffffff" },

         { "+CRSM=192,28615,0,0,15", "+CRSM: 144,0,000000406fc7040011a0aa01020120" },
         { "+CRSM=178,28615,1,4,32", "+CRSM: 144,0,566f6963656d61696cffffffffffffffffff07915155125740f9ffffffffffff" },

         { NULL, NULL }
     };

     assert( memcmp( cmd, "+CRSM=", 6 ) == 0 );

 #if ENABLE_DYNAMIC_RECORDS
     if ( sscanf(cmd, "+CRSM=%d,%d,%d,%d,%d", &command, &id, &p1, &p2, &p3) == 5 ) {
         switch (command) {
             case A_SIM_CMD_GET_RESPONSE:
                 {
                     const SimFileEFDedicatedRec*  file = _const_files_dedicated;

                     assert(p1 == 0 && p2 == 0 && p3 == 15);

                     for ( ; file->id != 0; file++ ) {
                         if (file->id == id) {
                             int    count;
                             char*  out = sim->out_buff;
                             strcpy( out, "+CRSM: 144,0," );
                             out  += strlen(out);
                             count = sim_file_to_hex( (SimFile) file, out );
                             if (count < 0)
                                 return "ERROR: INTERNAL SIM ERROR";
                             out[count] = 0;
                             return sim->out_buff;
                         }
                     }
                     break;
                 }

             case A_SIM_CMD_READ_BINARY:
                 {
                     const SimFileEFDedicatedRec*  file = _const_files_dedicated;

                     assert(p1 == 0 && p2 == 0);

                     for ( ; file->id != 0; file++ ) {
                         if (file->id == id) {
                             char*  out = sim->out_buff;

                             if (p3 > file->length)
                                 return "ERROR: BINARY LENGTH IS TOO LONG";

                             strcpy( out, "+CRSM: 144,0," );
                             out  += strlen(out);
                             gsm_hex_from_bytes( out, file->data, p3 );
                             out[p3*2] = 0;
                             return sim->out_buff;
                         }
                     }
                     break;
                 }

             case A_SIM_CMD_READ_RECORD:
                 break;

             default:
                 return "ERROR: UNSUPPORTED SIM COMMAND";
         }
     }
 #endif

     if (!strcmp("+CRSM=178,28480,1,4,32", cmd)) {
         snprintf( sim->out_buff, sizeof(sim->out_buff), "+CRSM: 144,0,ffffffffffffffffffffffffffffffffffff0781515525%d1%d%df%dffffffffffff", (sim->port / 1000) % 10, (sim->port / 10) % 10, (sim->port / 100) % 10, sim->port % 10);
         return sim->out_buff;
         }

     for (nn = 0; answers[nn].cmd != NULL; nn++) {
         if ( !strcmp( answers[nn].cmd, cmd ) ) {
             return answers[nn].answer;
         }
     }
     return "ERROR: BAD COMMAND";
 }
	/* Copyright (C) 2007-2008 The Android Open Source Project
	**
	** This software is licensed under the terms of the GNU General Public
	** License version 2, as published by the Free Software Foundation, and
	** may be copied, distributed, and modified under those terms.
	**
	** This program is distributed in the hope that it will be useful,
	** but WITHOUT ANY WARRANTY; without even the implied warranty of
	** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	** GNU General Public License for more details.
	*/
	#include "sim_card.h"
	#include <string.h>
	#include <assert.h>
	#include <stdio.h>

	/* set ENABLE_DYNAMIC_RECORDS to 1 to enable dynamic records
	* for now, this is an experimental feature that needs more testing
	*/
	#define ENABLE_DYNAMIC_RECORDS 0

	#define A_SIM_PIN_SIZE 4
	#define A_SIM_PUK_SIZE 8

	typedef struct ASimCardRec_ {
	ASimStatus status;
	char pin[ A_SIM_PIN_SIZE+1 ];
	char puk[ A_SIM_PUK_SIZE+1 ];
	int pin_retries;
	int port;

	char out_buff[ 256 ];
	int out_size;

	} ASimCardRec;

	static ASimCardRec _s_card[1];

	ASimCard
	asimcard_create(int port)
	{
	ASimCard card = _s_card;
	card->status = A_SIM_STATUS_READY;
	card->pin_retries = 0;
	strncpy( card->pin, "0000", sizeof(card->pin) );
	strncpy( card->puk, "12345678", sizeof(card->puk) );
	card->port = port;
	return card;
	}

	void
	asimcard_destroy( ASimCard card )
	{
	/* nothing really */
	card=card;
	}

	static __inline__ int
	asimcard_ready( ASimCard card )
	{
	return card->status == A_SIM_STATUS_READY;
	}

	ASimStatus
	asimcard_get_status( ASimCard sim )
	{
	return sim->status;
	}

	void
	asimcard_set_status( ASimCard sim, ASimStatus status )
	{
	sim->status = status;
	}

	const char*
	asimcard_get_pin( ASimCard sim )
	{
	return sim->pin;
	}

	const char*
	asimcard_get_puk( ASimCard sim )
	{
	return sim->puk;
	}

	void
	asimcard_set_pin( ASimCard sim, const char* pin )
	{
	strncpy( sim->pin, pin, A_SIM_PIN_SIZE );
	sim->pin_retries = 0;
	}

	void
	asimcard_set_puk( ASimCard sim, const char* puk )
	{
	strncpy( sim->puk, puk, A_SIM_PUK_SIZE );
	sim->pin_retries = 0;
	}


	int
	asimcard_check_pin( ASimCard sim, const char* pin )
	{
	if (sim->status != A_SIM_STATUS_PIN &&
	sim->status != A_SIM_STATUS_READY )
	return 0;

	if ( !strcmp( sim->pin, pin ) ) {
	sim->status = A_SIM_STATUS_READY;
	sim->pin_retries = 0;
	return 1;
	}

	if (sim->status != A_SIM_STATUS_READY) {
	if (++sim->pin_retries == 3)
	sim->status = A_SIM_STATUS_PUK;
	}
	return 0;
	}


	int
	asimcard_check_puk( ASimCard sim, const char* puk, const char* pin )
	{
	if (sim->status != A_SIM_STATUS_PUK)
	return 0;

	if ( !strcmp( sim->puk, puk ) ) {
	strncpy( sim->puk, puk, A_SIM_PUK_SIZE );
	strncpy( sim->pin, pin, A_SIM_PIN_SIZE );
	sim->status = A_SIM_STATUS_READY;
	sim->pin_retries = 0;
	return 1;
	}

	if ( ++sim->pin_retries == 6 ) {
	sim->status = A_SIM_STATUS_ABSENT;
	}
	return 0;
	}

	typedef enum {
	SIM_FILE_DM = 0,
	SIM_FILE_DF,
	SIM_FILE_EF_DEDICATED,
	SIM_FILE_EF_LINEAR,
	SIM_FILE_EF_CYCLIC
	} SimFileType;

	typedef enum {
	SIM_FILE_READ_ONLY = (1 << 0),
	SIM_FILE_NEED_PIN = (1 << 1),
	} SimFileFlags;

	/* descriptor for a known SIM File */
	#define SIM_FILE_HEAD \
	SimFileType type; \
	unsigned short id; \
	unsigned short flags;

	typedef struct {
	SIM_FILE_HEAD
	} SimFileAnyRec, *SimFileAny;

	typedef struct {
	SIM_FILE_HEAD
	cbytes_t data;
	int length;
	} SimFileEFDedicatedRec, *SimFileEFDedicated;

	typedef struct {
	SIM_FILE_HEAD
	byte_t rec_count;
	byte_t rec_len;
	cbytes_t records;
	} SimFileEFLinearRec, *SimFileEFLinear;

	typedef SimFileEFLinearRec SimFileEFCyclicRec;
	typedef SimFileEFCyclicRec* SimFileEFCyclic;

	typedef union {
	SimFileAnyRec any;
	SimFileEFDedicatedRec dedicated;
	SimFileEFLinearRec linear;
	SimFileEFCyclicRec cyclic;
	} SimFileRec, *SimFile;


	#if ENABLE_DYNAMIC_RECORDS
	/* convert a SIM File descriptor into an ASCII string,
	assumes 'dst' is NULL or properly sized.
	return the number of chars, or -1 on error */
	static int
	sim_file_to_hex( SimFile file, bytes_t dst )
	{
	SimFileType type = file->any.type;
	int result = 0;

	/* see 9.2.1 in TS 51.011 */
	switch (type) {
	case SIM_FILE_EF_DEDICATED:
	case SIM_FILE_EF_LINEAR:
	case SIM_FILE_EF_CYCLIC:
	{
	if (dst) {
	int file_size, perm;

	memcpy(dst, "0000", 4); /* bytes 1-2 are RFU */
	dst += 4;

	/* bytes 3-4 are the file size */
	if (type == SIM_FILE_EF_DEDICATED)
	file_size = file->dedicated.length;
	else
	file_size = file->linear.rec_count * file->linear.rec_len;

	gsm_hex_from_short( dst, file_size );
	dst += 4;

	/* bytes 5-6 are the file id */
	gsm_hex_from_short( dst, file->any.id );
	dst += 4;

	/* byte 7 is the file type - always EF, i.e. 0x04 */
	dst[0] = '0';
	dst[1] = '4';
	dst += 2;

	/* byte 8 is RFU, except bit 7 for cyclic files, which indicates
	that INCREASE is allowed. Since we don't support this yet... */
	dst[0] = '0';
	dst[1] = '0';
	dst += 2;

	/* byte 9-11 are access conditions */
	if (file->any.flags & SIM_FILE_READ_ONLY) {
	if (file->any.flags & SIM_FILE_NEED_PIN)
	perm = 0x1a;
	else
	perm = 0x0a;
	} else {
	if (file->any.flags & SIM_FILE_NEED_PIN)
	perm = 0x11;
	else
	perm = 0x00;
	}
	gsm_hex_from_byte(dst, perm);
	memcpy( dst+2, "a0aa", 4 );
	dst += 6;

	/* byte 12 is file status, we don't support invalidation */
	dst[0] = '0';
	dst[1] = '0';
	dst += 2;

	/* byte 13 is length of the following data, always 2 */
	dst[0] = '0';
	dst[1] = '2';
	dst += 2;

	/* byte 14 is struct of EF */
	dst[0] = '0';
	if (type == SIM_FILE_EF_DEDICATED)
	dst[1] = '0';
	else if (type == SIM_FILE_EF_LINEAR)
	dst[1] = '1';
	else
	dst[1] = '3';

	/* byte 15 is lenght of record, or 0 */
	if (type == SIM_FILE_EF_DEDICATED) {
	dst[0] = '0';
	dst[1] = '0';
	} else
	gsm_hex_from_byte( dst, file->linear.rec_len );
	}
	result = 30;
	}
	break;

	default:
	result = -1;
	}
	return result;
	}


	static const byte_t _const_spn_cphs[20] = {
	0x41, 0x6e, 0x64, 0x72, 0x6f, 0x69, 0x64, 0xff, 0xff, 0xff,
	0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff
	};

	static const byte_t _const_voicemail_cphs[1] = {
	0x55
	};

	static const byte_t _const_iccid[10] = {
	0x98, 0x10, 0x14, 0x30, 0x12, 0x11, 0x81, 0x15, 0x70, 0x02
	};

	static const byte_t _const_cff_cphs[1] = {
	0x55
	};

	static SimFileEFDedicatedRec _const_files_dedicated[] =
	{
	{ SIM_FILE_EF_DEDICATED, 0x6f14, SIM_FILE_READ_ONLY \| SIM_FILE_NEED_PIN,
	_const_spn_cphs, sizeof(_const_spn_cphs) },

	{ SIM_FILE_EF_DEDICATED, 0x6f11, SIM_FILE_NEED_PIN,
	_const_voicemail_cphs, sizeof(_const_voicemail_cphs) },

	{ SIM_FILE_EF_DEDICATED, 0x2fe2, SIM_FILE_READ_ONLY,
	_const_iccid, sizeof(_const_iccid) },

	{ SIM_FILE_EF_DEDICATED, 0x6f13, SIM_FILE_NEED_PIN,
	_const_cff_cphs, sizeof(_const_cff_cphs) },

	{ 0, 0, 0, NULL, 0 } /* end of list */
	};
	#endif /* ENABLE_DYNAMIC_RECORDS */

	const char*
	asimcard_io( ASimCard sim, const char* cmd )
	{
	int nn;
	#if ENABLE_DYNAMIC_RECORDS
	int command, id, p1, p2, p3;
	#endif
	static const struct { const char* cmd; const char* answer; } answers[] =
	{
	{ "+CRSM=192,28436,0,0,15", "+CRSM: 144,0,000000146f1404001aa0aa01020000" },
	{ "+CRSM=176,28436,0,0,20", "+CRSM: 144,0,416e64726f6964ffffffffffffffffffffffffff" },

	{ "+CRSM=192,28433,0,0,15", "+CRSM: 144,0,000000016f11040011a0aa01020000" },
	{ "+CRSM=176,28433,0,0,1", "+CRSM: 144,0,55" },

	{ "+CRSM=192,12258,0,0,15", "+CRSM: 144,0,0000000a2fe204000fa0aa01020000" },
	{ "+CRSM=176,12258,0,0,10", "+CRSM: 144,0,98101430121181157002" },

	{ "+CRSM=192,28435,0,0,15", "+CRSM: 144,0,000000016f13040011a0aa01020000" },
	{ "+CRSM=176,28435,0,0,1", "+CRSM: 144,0,55" },

	{ "+CRSM=192,28472,0,0,15", "+CRSM: 144,0,0000000f6f3804001aa0aa01020000" },
	{ "+CRSM=176,28472,0,0,15", "+CRSM: 144,0,ff30ffff3c003c03000c0000f03f00" },

	{ "+CRSM=192,28617,0,0,15", "+CRSM: 144,0,000000086fc9040011a0aa01020104" },
	{ "+CRSM=178,28617,1,4,4", "+CRSM: 144,0,01000000" },

	{ "+CRSM=192,28618,0,0,15", "+CRSM: 144,0,0000000a6fca040011a0aa01020105" },
	{ "+CRSM=178,28618,1,4,5", "+CRSM: 144,0,0000000000" },

	{ "+CRSM=192,28589,0,0,15", "+CRSM: 144,0,000000046fad04000aa0aa01020000" },
	{ "+CRSM=176,28589,0,0,4", "+CRSM: 144,0,00000003" },

	{ "+CRSM=192,28438,0,0,15", "+CRSM: 144,0,000000026f1604001aa0aa01020000" },
	{ "+CRSM=176,28438,0,0,2", "+CRSM: 144,0,0233" },

	{ "+CRSM=192,28486,0,0,15", "+CRSM: 148,4" },
	{ "+CRSM=192,28621,0,0,15", "+CRSM: 148,4" },

	{ "+CRSM=192,28613,0,0,15", "+CRSM: 144,0,000000f06fc504000aa0aa01020118" },
	{ "+CRSM=178,28613,1,4,24", "+CRSM: 144,0,43058441aa890affffffffffffffffffffffffffffffffff" },

	{ "+CRSM=192,28480,0,0,15", "+CRSM: 144,0,000000806f40040011a0aa01020120" },
	{ "+CRSM=178,28480,1,4,32", "+CRSM: 144,0,ffffffffffffffffffffffffffffffffffff07815155258131f5ffffffffffff" },

	{ "+CRSM=192,28615,0,0,15", "+CRSM: 144,0,000000406fc7040011a0aa01020120" },
	{ "+CRSM=178,28615,1,4,32", "+CRSM: 144,0,566f6963656d61696cffffffffffffffffff07915155125740f9ffffffffffff" },

	{ NULL, NULL }
	};

	assert( memcmp( cmd, "+CRSM=", 6 ) == 0 );

	#if ENABLE_DYNAMIC_RECORDS
	if ( sscanf(cmd, "+CRSM=%d,%d,%d,%d,%d", &command, &id, &p1, &p2, &p3) == 5 ) {
	switch (command) {
	case A_SIM_CMD_GET_RESPONSE:
	{
	const SimFileEFDedicatedRec* file = _const_files_dedicated;

	assert(p1 == 0 && p2 == 0 && p3 == 15);

	for ( ; file->id != 0; file++ ) {
	if (file->id == id) {
	int count;
	char* out = sim->out_buff;
	strcpy( out, "+CRSM: 144,0," );
	out += strlen(out);
	count = sim_file_to_hex( (SimFile) file, out );
	if (count < 0)
	return "ERROR: INTERNAL SIM ERROR";
	out[count] = 0;
	return sim->out_buff;
	}
	}
	break;
	}

	case A_SIM_CMD_READ_BINARY:
	{
	const SimFileEFDedicatedRec* file = _const_files_dedicated;

	assert(p1 == 0 && p2 == 0);

	for ( ; file->id != 0; file++ ) {
	if (file->id == id) {
	char* out = sim->out_buff;

	if (p3 > file->length)
	return "ERROR: BINARY LENGTH IS TOO LONG";

	strcpy( out, "+CRSM: 144,0," );
	out += strlen(out);
	gsm_hex_from_bytes( out, file->data, p3 );
	out[p3*2] = 0;
	return sim->out_buff;
	}
	}
	break;
	}

	case A_SIM_CMD_READ_RECORD:
	break;

	default:
	return "ERROR: UNSUPPORTED SIM COMMAND";
	}
	}
	#endif

	if (!strcmp("+CRSM=178,28480,1,4,32", cmd)) {
	snprintf( sim->out_buff, sizeof(sim->out_buff), "+CRSM: 144,0,ffffffffffffffffffffffffffffffffffff0781515525%d1%d%df%dffffffffffff", (sim->port / 1000) % 10, (sim->port / 10) % 10, (sim->port / 100) % 10, sim->port % 10);
	return sim->out_buff;
	}

	for (nn = 0; answers[nn].cmd != NULL; nn++) {
	if ( !strcmp( answers[nn].cmd, cmd ) ) {
	return answers[nn].answer;
	}
	}
	return "ERROR: BAD COMMAND";
	}