FreeCalypso > hg > fc-magnetite
view src/cs/drivers/drv_app/sim/sim.h @ 85:204d6866901b
FFS changes to support C139, Pirelli and future FreeCalypso targets
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 02 Oct 2016 08:10:40 +0000 |
parents | 945cf7f506b2 |
children |
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/* * SIM.H * * Pole Star SIM * * Target : ARM * * Copyright (c) Texas Instruments 1995-1997 * */ /* * Device addresses - GCS000 (Gemini / Polestar) * HER207 (Hercules) */ #ifndef _WINDOWS #include "l1sw.cfg" #include "chipset.cfg" #endif #include "nucleus.h" /* Flags activation section */ // #define SIM_RETRY /* by default : NOT ACTIVE */ //#define SIM_DEBUG_TRACE /* by default : NOT ACTIVE */ //#define SIM_UWORD16_MASK 0x00ff //when using SIM entity not maped to length on 16 bits #define SIM_UWORD16_MASK 0xffff //when using SIM entity maped to length on 16 bits //#define SIM_APDU_TEST //#define SIM_SAT_REFRESH_TEST #define SIM_CMD (MEM_SIM + 0x00) #define SIM_STAT (MEM_SIM + 0x02) #define SIM_CONF1 (MEM_SIM + 0x04) #define SIM_CONF2 (MEM_SIM + 0x06) #define SIM_IT (MEM_SIM + 0x08) #define SIM_DRX (MEM_SIM + 0x0A) #define SIM_DTX (MEM_SIM + 0x0C) #define SIM_MASK (MEM_SIM + 0x0E) /* * Bit definitions */ // control regidter #define SIM_CMD_CRST 0x0001 #define SIM_CMD_SWRST 0x0002 #define SIM_CMD_STOP 0x0004 #define SIM_CMD_START 0x0008 #define SIM_CMD_CLKEN 0x0010 // status register #define SIM_STAT_CD 0x0001 // card present #define SIM_STAT_TXPAR 0x0002 // transmit parity status #define SIM_STAT_FFULL 0x0004 // fifo full #define SIM_STAT_FEMPTY 0x0008 // fifo empty // configuration register #define SIM_CONF1_CHKPAR 0x0001 // enable receipt check parity #define SIM_CONF1_CONV 0x0002 // coding convention #define SIM_CONF1_TXRX 0x0004 // SIO line direction #define SIM_CONF1_SCLKEN 0x0008 // enable SIM clock #define SIM_CONF1_RSVD 0x0010 // reserved #define SIM_CONF1_SCLKDIV 0x0020 // SIM clock frquency #define SIM_CONF1_SCLKLEV 0x0040 // SIM clock idle level #define SIM_CONF1_ETU 0x0080 // ETU period #define SIM_CONF1_BYPASS 0x0100 // bypass hardware timers #define SIM_CONF1_SVCCLEV 0x0200 #define SIM_CONF1_SRSTLEV 0x0400 #define SIM_CONF1_SIOLOW 0x8000 //force SIO to low level // interrupt status register #define SIM_IT_NATR 0x0001 // No answer to reset #define SIM_IT_WT 0x0002 #define SIM_IT_ITOV 0x0004 #define SIM_IT_ITTX 0x0008 // Transmit #define SIM_IT_ITRX 0x0010 // Receipt #if ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) #define SIM_IT_CD 0x0001 // Card insertion/extraction #else #define SIM_IT_CD 0x0020 // Card insertion/extraction #endif // interrupt mask register #define SIM_MASK_NATR 0x0001 // No answer to reset #define SIM_MASK_WT 0x0002 #define SIM_MASK_OV 0x0004 #define SIM_MASK_TX 0x0008 // Transmit #define SIM_MASK_RX 0x0010 // Receipt #define SIM_MASK_CD 0x0020 // Card insertion/extraction // receveid byte register #define SIM_DRX_STATRXPAR 0x0100 // received byte parity status // SIM return code OK #define SIM_OK 0 // SIM return error codes #define SIM_ERR_NOCARD 1 #define SIM_ERR_NOINT 2 #define SIM_ERR_NATR 3 #define SIM_ERR_READ 4 #define SIM_ERR_XMIT 5 #define SIM_ERR_OVF 6 #define SIM_ERR_LEN 7 #define SIM_ERR_CARDREJECT 8 #define SIM_ERR_WAIT 9 #define SIM_ERR_ABNORMAL_CASE1 10 #define SIM_ERR_ABNORMAL_CASE2 11 #define SIM_ERR_BUFF_OVERFL 12 // begin of JYT modifications #define SIM_ERR_HARDWARE_FAIL 13 // end of JYT modifications #define SIM_ERR_RETRY_FAILURE 14 #define SIM_SLEEP_NONE 0 // No SIM available #define SIM_SLEEP_DESACT 1 // The Driver is NOT currently in sleep mode (clock is off) #define SIM_SLEEP_ACT 2 // The Driver is currently in sleep mode (clock is on) #define SIM_SLEEP_NOT_ALLOWED 3 // The Driver cannot stop the clock : // The card don't want or the interface is not able // to do it. #define SIM_SLEEP_WAITING_TIME 500 //represent 2.3s of period before entering in sleep mode #define SIM_CLK_STOP_MASK 0x0D // Clock Stop mask defined by ETSI 11.11 #define SIM_CLK_STOP_NOT_ALLWD 0x00 // see ETSI 11.11 : Clock Stop never allowed #define SIM_CLK_STOP_ALLWD 0x01 // see ETSI 11.11 : No prefered level #define SIM_CLK_STOP_HIGH 0x04 // see ETSI 11.11 : High level only #define SIM_CLK_STOP_LOW 0x08 // see ETSI 11.11 : Low level only #if(ANLG_FAM == 1) //OMEGA specific definitions #define MODE5V_OMEGA 0x06 // used in SIM_SwitchVolt #define MODE_INIT_OMEGA_3V 0x05 // used in SIM_StartVolt #define MODE_INIT_OMEGA_5V 0x07 // unused !!!! #define MODE3V_OMEGA 0x01 // unused !!!! #define MODE_DIS_SIMLDOEN 0xDF // used in SIM_PowerOff #define MODE_DIS_SIMEN 0xFD // used in SIM_PowerOff #define MODE_ENA_SIMLDOEN 0x20 // used in SIM_ManualStart #define MODE_ENA_SIMEN 0x02 // used in SIM_ManualStart #elif(ANLG_FAM == 2) //IOTA specific definitions #define MODE1_8V_IOTA 0x00 #define MODE_INIT_IOTA_3V 0x03 #define MODE_INIT_IOTA_1_8V 0x02 #define MODE3V_IOTA 0x01 #define MODE_DIS_SIMLDOEN 0xFC // SIMSEL + Regulator RSIMEN #define MODE_DIS_SIMEN 0xF7 #define MODE_ENA_SIMLDOEN 0x03 // SIMSEL + Regulator RSIMEN #define MODE_ENA_SIMEN 0x08 #elif(ANLG_FAM == 3) //SYREN specific definitions #define MODE1_8V_SYREN 0x00 #define MODE_INIT_SYREN_3V 0x03 #define MODE_INIT_SYREN_1_8V 0x02 #define MODE3V_SYREN 0x01 #define MODE_DIS_SIMLDOEN 0x1FC // SIMSEL + Regulator RSIMEN #define MODE_DIS_SIMEN 0x1F7 #define MODE_ENA_SIMLDOEN 0x03 // SIMSEL + Regulator RSIMEN #define MODE_ENA_SIMEN 0x08 #endif // define type of interface if not defined // 5V only ME SIM_TYPE = 0 // 3V technology ME SIM_TYPE = 1 // 3V only ME SIM_TYPE = 2 // 1.8V technology ME SIM_TYPE = 3 // JYT, 29/01/02, from new specs IOTA // 1.8V Only ME SIM_TYPE = 4 // JYT, 29/01/02, from new specs IOTA #define SIM_TYPE_5V 0 #define SIM_TYPE_3_5V 1 #define SIM_TYPE_3V 2 #define SIM_TYPE_1_8_3V 3 #define SIM_TYPE_1_8V 4 //default configuration #ifndef SIM_TYPE #if((ANLG_FAM == 2) || (ANLG_FAM == 3)) // Until now (20/03/2003), it is impossible to test IOTA or SYREN with 1.8V Sim Card, // so SIM drv is configured in 3V only with IOTA.and SYREN // When 1.8V Sim Card will be delivered and tested on IOTA and SYREN, then Sim driver will pass // to : #define SIM_TYPE SIM_TYPE_1_8_3V #define SIM_TYPE SIM_TYPE_1_8_3V // MODIFY BY JENNIFER SIM_TYPE_3V #else #define SIM_TYPE SIM_TYPE_3_5V #endif #endif // begin of modifications of JYT #if((ANLG_FAM == 2) || (ANLG_FAM == 3)) #define SIM_MASK_INFO_VOLT 0x70 #else #define SIM_MASK_INFO_VOLT 0x10 #endif #define SIM_1_8V 0x30 #define SIM_3V 0x10 #define SIM_5V 0x00 // end of modifications of JYT // Max size of Answer to Reset (GSM11.11 5.7.1) #define MAX_ATR_SIZE 33 // GSM Instruction Class (GSM 11.11 SIM spec) #define GSM_CLASS 0xA0 // SIM Instruction Codes #define SIM_SELECT 0xA4 #define SIM_STATUS 0xF2 #define SIM_READ_BINARY 0xB0 #define SIM_UPDATE_BINARY 0xD6 #define SIM_READ_RECORD 0xB2 #define SIM_UPDATE_RECORD 0xDC #define SIM_SEEK 0xA2 #define SIM_INCREASE 0x32 #define SIM_VERIFY_CHV 0x20 #define SIM_CHANGE_CHV 0x24 #define SIM_DISABLE_CHV 0x26 #define SIM_ENABLE_CHV 0x28 #define SIM_UNBLOCK_CHV 0x2C #define SIM_INVALIDATE 0x04 #define SIM_REHABILITATE 0x44 #define SIM_RUN_GSM_ALGO 0x88 #define SIM_GET_RESPONSE 0xC0 #define SIM_TERMINAL_PROFILE 0x10 #define SIM_FETCH 0x12 #define SIM_TERMINAL_RESPONSE 0x14 #define SIM_ENVELOPE 0xC2 // SIM file identifiers #define MF 0x3F00 #define EF_ICCID 0x2FE2 #define DF_GSM 0x7F20 #define DF_DCS1800 0x7F21 #define EF_LP 0x6F05 #define EF_IMSI 0x6F07 #define EF_KC 0x6F20 #define EF_PLMNSEL 0x6F30 #define EF_HPLMN 0x6F31 #define EF_ACMAX 0x6F37 #define EF_SST 0x6F38 #define EF_ACM 0x6F39 #define EF_PUCT 0x6F41 #define EF_CBMI 0x6F45 #define EF_BCCH 0x6F74 #define EF_ACC 0x6F78 #define EF_FPLMN 0x6F7B #define EF_LOCI 0x6F7E #define EF_AD 0x6FAD #define EF_PHASE 0x6FAE #define DF_TELECOM 0x7F10 #define EF_ADN 0x6F3A #define EF_FDN 0x6F3B #define EF_SMS 0x6F3C #define EF_CCP 0x6F3D #define EF_MSISDN 0x6F40 #define EF_SMSP 0x6F42 #define EF_SMSS 0x6F43 #define EF_LND 0x6F44 #define EF_EXT1 0x6F4A #define EF_EXT2 0x6F4B #define EF_ECC 0x6FB7 #define MASK_INS 0xFE #define MASK_CMD 0x11 #define MASK_RST 0x10 // Buffer sizes #define RSIMBUFSIZE 270 #define RSIZESW1SW2 2 #define XSIMBUFSIZE 270 // Structures typedef struct { volatile unsigned short cmd; volatile unsigned short stat; volatile unsigned short conf1; volatile unsigned short conf2; volatile unsigned short it; volatile unsigned short rx; volatile unsigned short tx; volatile unsigned short maskit; #if ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) volatile unsigned short it_cd; #endif } SIM_CONTROLLER; typedef struct { SYS_UWORD8 Inverse; SYS_UWORD8 AtrSize; SYS_UWORD8 AtrData[MAX_ATR_SIZE]; } SIM_CARD; typedef struct { SIM_CONTROLLER *c; SYS_UWORD8 *xIn; // xmit input pointer SYS_UWORD8 *xOut; // xmit output pointer unsigned errorSIM; // code return in case of error detectd unsigned short conf1; // image of the configuration register - avoids read/mod/write cycles volatile unsigned short txParityErr; unsigned short rxParityErr; // if 0 no parity error on receipt, 1 if... SYS_UWORD8 Freq_Algo; //use to determine which sim clk freq to choose for running GSM algo SYS_UWORD8 PTS_Try; //use to calculate how many PTS try were already done SYS_UWORD8 FileC; //value of File Characteristic SYS_UWORD16 etu9600; SYS_UWORD16 etu400; SYS_UWORD16 startclock; //744 clock cycle translated in ETU SYS_UWORD16 stopclock; //1860 clock cycle translated in ETU SYS_UWORD8 moderx; //inform that we are in receive mode // 0 : mode of normal reception without procedure // 1 : mode of wait for acknowledge during reception of char // 2 : mode of reception of data by bloc // 3 : mode of reception of data char by char (proc char) // 4 : mode of reception of data char by char (data) // 5 : mode of reception of procedure char SW1/SW2 // 6 : mode of wait for acknowledge char after transmission of char SYS_UWORD16 expected_data; //number of expected char in receive mode proc char SYS_UWORD8 ack; //acknowledge char SYS_UWORD8 null_received; //indicates if a NULL char was received SYS_UWORD8 hw_mask; //mask used because of pole112 hw prb SYS_UWORD8 rbuf[RSIMBUFSIZE]; SYS_UWORD8 rx_index; // receive index on rbuf buffer SYS_UWORD8 xbuf[XSIMBUFSIZE]; SYS_UWORD8 rSW12[RSIZESW1SW2]; //buffer to store SW1 and SW2 SYS_UWORD8 SWcount; //static counter void (*InsertFunc)(SIM_CARD *); void (*RemoveFunc)(void); SYS_UWORD16 apdu_ans_length; } SIM_PORT; void SIM_IntHandler(void); #if ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) void SIM_CD_IntHandler(void); #endif /* * Prototypes */ // obsolete function void SIM_Init(void (Insert(SIM_CARD *cP)), void (Remove(void))); // initialization void SIM_Initialize(void); SYS_UWORD16 SIM_Register(void (Insert(SIM_CARD *cP)), void (Remove(void))); SYS_UWORD16 SIM_Reset(SIM_CARD *cP); SYS_UWORD16 SIM_Restart(SIM_CARD *cP); // file commands SYS_UWORD16 SIM_Select(SYS_UWORD16 id, SYS_UWORD8 *dat, SYS_UWORD16 *size); SYS_UWORD16 SIM_Status(SYS_UWORD8 *dat, SYS_UWORD16 *size); SYS_UWORD16 SIM_ReadBinary(SYS_UWORD8 *dat, SYS_UWORD16 offset, SYS_UWORD16 len, SYS_UWORD16 *size); SYS_UWORD16 SIM_UpdateBinary(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD16 offset, SYS_UWORD16 len, SYS_UWORD16 *size); SYS_UWORD16 SIM_ReadRecord(SYS_UWORD8 *dat, SYS_UWORD8 mode, SYS_UWORD8 recNum, SYS_UWORD16 len, SYS_UWORD16 *size); SYS_UWORD16 SIM_UpdateRecord(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD8 mode, SYS_UWORD8 recNum, SYS_UWORD16 len, SYS_UWORD16 *size); SYS_UWORD16 SIM_Seek(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD8 mode, SYS_UWORD16 len, SYS_UWORD16 *size); SYS_UWORD16 SIM_Increase(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD16 *size); // Authentication SYS_UWORD16 SIM_VerifyCHV(SYS_UWORD8 *result, SYS_UWORD8 *chv, SYS_UWORD8 chvType, SYS_UWORD16 *size); SYS_UWORD16 SIM_ChangeCHV(SYS_UWORD8 *result,SYS_UWORD8 *oldChv, SYS_UWORD8 *newChv, SYS_UWORD8 chvType, SYS_UWORD16 *size); SYS_UWORD16 SIM_DisableCHV(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD16 *size); SYS_UWORD16 SIM_EnableCHV(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD16 *size); SYS_UWORD16 SIM_UnblockCHV(SYS_UWORD8 *result, SYS_UWORD8 *unblockChv, SYS_UWORD8 *newChv, SYS_UWORD8 chvType, SYS_UWORD16 *size); // managing SYS_UWORD16 SIM_Invalidate(SYS_UWORD8 *rP, SYS_UWORD16 *size); SYS_UWORD16 SIM_Rehabilitate(SYS_UWORD8 *rP, SYS_UWORD16 *size); SYS_UWORD16 SIM_RunGSMAlgo(SYS_UWORD8 *result, SYS_UWORD8 *rand, SYS_UWORD16 *size); SYS_UWORD16 SIM_GetResponse(SYS_UWORD8 *dat, SYS_UWORD16 len, SYS_UWORD16 *size); // STK SYS_UWORD16 SIM_TerminalProfile(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD16 len, SYS_UWORD16 *rcvSize); SYS_UWORD16 SIM_Fetch(SYS_UWORD8 *result, SYS_UWORD16 len, SYS_UWORD16 *rcvSize); SYS_UWORD16 SIM_TerminalResponse(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD16 len, SYS_UWORD16 *rcvSize); SYS_UWORD16 SIM_Envelope(SYS_UWORD8 *result, SYS_UWORD8 *dat, SYS_UWORD16 len, SYS_UWORD16 *rcvSize); // power off void SIM_PowerOff(void); // WIM SYS_UWORD16 SIM_XchTPDU(SYS_UWORD8 *dat, SYS_UWORD16 trxLen, SYS_UWORD8 *result, SYS_UWORD16 rcvLen, SYS_UWORD16 *rcvSize); void SIM_lock_cr17689(void); /* * Internal Prototypes */ void SIM_WriteBuffer(SIM_PORT *p, SYS_UWORD16 offset, SYS_UWORD16 n); SYS_UWORD16 SIM_Result(SIM_PORT *p, SYS_UWORD8 *rP, SYS_UWORD16 *lenP, SYS_UWORD8 offset); SYS_UWORD16 SIM_Command(SIM_PORT *p, SYS_UWORD16 n, SYS_UWORD8 *rP, SYS_UWORD16 *lP); SYS_UWORD16 SIM_Command_Base(SIM_PORT *p, SYS_UWORD16 n, SYS_UWORD8 *dP, SYS_UWORD16 *lP); SYS_UWORD16 SIM_Dummy(void); void SIM_InitLog(void); SYS_UWORD16 SIM_TxParityErrors(); SYS_UWORD16 SIM_WaitReception(SIM_PORT *p); void SIM_Interpret_FileCharacteristics(SIM_PORT *p); SYS_UWORD16 SIM_PTSprocedure(SIM_CARD *cP, SIM_PORT *p); void SIM_WARMReset (SIM_PORT *p); void SIM_SleepMode_In(SYS_UWORD32 param); void SIM_SleepMode_Out(SIM_PORT *p); SYS_UWORD8 SIM_GetFileCharacteristics(SIM_PORT *p); SYS_UWORD16 SIM_ATRdynamictreatement (SIM_PORT *p, SIM_CARD *cP); SYS_UWORD16 SIM_Waitforchars (SIM_PORT *p, SYS_UWORD16 max_wait); void SIM_Calcetu (SIM_PORT *p); SYS_UWORD8 SIM_Translate_atr_char (SYS_UWORD8 input, SIM_CARD *cP); SYS_UWORD8 SIM_StartVolt (SYS_UWORD8 ResetFlag); SYS_UWORD8 SIM_SwitchVolt (SYS_UWORD8 ResetFlag); SYS_UWORD16 SIM_ManualStart (SIM_PORT *p); SYS_UWORD8 SIM_Memcpy(SYS_UWORD8 *Buff_target, SYS_UWORD8 Buff_source[], SYS_UWORD16 len); SYS_BOOL SIM_SleepStatus(void); SYS_UWORD16 SIM_Reset_Restart_Internal(SIM_CARD *cP, SYS_UWORD8 ResetFlag); /* * Global variables */ #ifdef SIM_C #define SI_GLOBAL #else #define SI_GLOBAL extern #endif SI_GLOBAL SIM_PORT Sim[1]; SI_GLOBAL NU_TIMER SIM_timer; SI_GLOBAL STATUS status_os_sim; SI_GLOBAL SYS_UWORD8 SIM_sleep_status;