view cdg-hybrid/cdginc/uicc.h @ 223:740a8e8fc9d7

startup sync logic rework for the new PWON button boot scheme Previously we added logic to the MMI task to hold off PEI init until R2D is running, and then extended that condition to wait for FCHG init too. However, the dependencies of MMI upon R2D and FCHG don't start until mmiInit(), and that call is driven by Switch_ON() code, hence the wait for R2D and FCHG init can be made in that code path instead of the MMI task. Furthermore, with our new way of signaling PWON button boot to MMI, we need a new wait to ensure that the MMI task is up - previously this assurance was provided by the wait for Kp pointers to be set. Solution: revert our previous PEI init hold-off additions to MMI, add a new flag indicating MMI task init done, and put the combined wait for all needed conditions into our new PWON button boot code in power.c.
author Mychaela Falconia <falcon@freecalypso.org>
date Tue, 27 Apr 2021 06:24:52 +0000
parents 35f7a1dc9f7d
children
line wrap: on
line source

/*
+--------------------------------------------------------------------------+
| PROJECT : PROTOCOL STACK                                                 |
| FILE    : uicc.h                                                         |
| SOURCE  : "sap\8010_136_SIMDRV_SAP.pdf"                                  |
| LastModified : "2004-06-10"                                              |
| IdAndVersion : "8010.136.03.009"                                         |
| SrcFileTime  : "Thu Nov 29 09:27:56 2007"                                |
| Generated by CCDGEN_2.5.5A on Fri Oct 14 21:41:52 2016                   |
|           !!DO NOT MODIFY!!DO NOT MODIFY!!DO NOT MODIFY!!                |
+--------------------------------------------------------------------------+
*/

/* PRAGMAS
 * PREFIX                 : SIMDRV
 * COMPATIBILITY_DEFINES  : NO
 * ALWAYS_ENUM_IN_VAL_FILE: YES
 * ENABLE_GROUP: YES
 * CAPITALIZE_TYPENAME: NO
 */

#ifndef UICC_INCLUDE
#define UICC_INCLUDE


#define PUB_L1_MISC_ENTER__Uicc_H

#define PUB_L1_MISC_ENTER__FILENAME _Uicc_H
#define PUB_L1_MISC_ENTER__Uicc_H__FILE_TYPE CDGINC
#define PUB_L1_MISC_ENTER__Uicc_H__LAST_MODIFIED _2004_06_10
#define PUB_L1_MISC_ENTER__Uicc_H__ID_AND_VERSION _8010_136_03_009

#define PUB_L1_MISC_ENTER__Uicc_H__SRC_FILE_TIME _Thu_Nov_29_09_27_56_2007

#include "pub_L1_misc_enter.h"

#undef PUB_L1_MISC_ENTER__Uicc_H

#undef PUB_L1_MISC_ENTER__FILENAME


/*
 * Enum to value table VAL_reset_return_val
 * CCDGEN:WriteEnum_Count==30
 */
#ifndef UICC_VAL_RESET_RETURN_VAL_CLASS
#define UICC_VAL_RESET_RETURN_VAL_CLASS
enum 
{
  UICC_SIM_INSERTED              = 0x0,           /* A SIM is inserted and ATR/PPS was successful */
  UICC_SIM_NOT_INSERTED          = 0x1,           /* No SIM inserted (hardware detected) */
  UICC_INVALID_CARD              = 0x2,           /* Card is not responding or gives unintelligible answers, communications time out. */
  UICC_ME_FAILURE                = 0x3,           /* Power management related problems, e.g. voltage selection */
  UICC_IMPROPER_CALL_BACK        = 0x4,           /* simdrv_register function called with pointer improperly set, e.g. NULL. */
  UICC_ME_READER_NOT_AVAILABLE   = 0x5            /* The reader requested is not available */
};
typedef Uint8 Uicc_ValResetReturnVal;
#endif /* UICC_VAL_RESET_RETURN_VAL_CLASS */

/*
 * Enum to value table VAL_len
 * CCDGEN:WriteEnum_Count==32
 */
#ifndef UICC_VAL_LEN_CLASS
#define UICC_VAL_LEN_CLASS
enum 
{
  UICC_VAL_LEN__RANGE_MIN        = 0x0,           /* minimum                        */
  UICC_VAL_LEN__RANGE_MAX        = 0x100,         /* maximum                        */
  UICC_LENGTH_UNKNOWN            = 0xffff         /* Indicating that the length expected is unknown. */
};
typedef Uint16 Uicc_ValLen;
#endif /* UICC_VAL_LEN_CLASS */

/*
 * Enum to value table VAL_sw1_2
 * CCDGEN:WriteEnum_Count==34
 */
#ifndef UICC_VAL_SW_1_2_CLASS
#define UICC_VAL_SW_1_2_CLASS
enum 
{
  UICC_ERR_NOCARD                = 0x1,           /* No SIM inserted (hardware detected) */
  UICC_ERR_NOT_RESET             = 0x2,           /* A reset has not been performed on the driver with the requested Id. */
  UICC_ERR_ME_FAIL               = 0x3,           /* Unrecoverable ME failure (for instance interrupt fails to occur) */
  UICC_ERR_RETRY_FAIL            = 0x4,           /* ME/SIM communication failed after certain retries, SIM reset required */
  UICC_ERR_PARAM_WRONG           = 0x5            /* A driver function is called with invalid parameters */
};
typedef Uint8 Uicc_ValSw1_2;
#endif /* UICC_VAL_SW_1_2_CLASS */

/*
 * Enum to value table VAL_cla
 * CCDGEN:WriteEnum_Count==36
 */
#ifndef UICC_VAL_CLA_CLASS
#define UICC_VAL_CLA_CLASS
enum 
{
  UICC_GSM_CLASS_BYTE            = 0xa0,          /* GSM Class byte according to [GSM 11.11 / 3GPP 51.011] */
  UICC_UMTS_CLASS_BYTE           = 0x80,          /* UMTS Class byte according to [ETSI 102 221 10.1.2] */
  UICC_UICC_CLASS_BYTE           = 0x0            /* UICC Class byte according to [ISO 7816-4] */
};
typedef Uint8 Uicc_ValCla;
#endif /* UICC_VAL_CLA_CLASS */

/*
 * Enum to value table VAL_ins
 * CCDGEN:WriteEnum_Count==38
 */
#ifndef UICC_VAL_INS_CLASS
#define UICC_VAL_INS_CLASS
enum 
{
  UICC_INS_SELECT                = 0xa4,          /* Select Instruction             */
  UICC_INS_STATUS                = 0xf2,          /* Status Instruction             */
  UICC_INS_READ_BINARY           = 0xb0,          /* Read Binary Instruction        */
  UICC_INS_UPDATE_BINARY         = 0xd6,          /* Update Binary Instruction      */
  UICC_INS_READ_RECORD           = 0xb2,          /* Read Record Instruction        */
  UICC_INS_UPDATE_RECORD         = 0xdc,          /* Update Record Instruction      */
  UICC_INS_SEEK                  = 0xa2,          /* Seek Instruction               */
  UICC_INS_INCREASE              = 0x32,          /* Increase Instruction           */
  UICC_INS_VERIFY_CHV            = 0x20,          /* Verify Chv Instruction         */
  UICC_INS_CHANGE_CHV            = 0x24,          /* Change Chv Instruction         */
  UICC_INS_DISABLE_CHV           = 0x26,          /* Disable Chv Instruction        */
  UICC_INS_ENABLE_CHV            = 0x28,          /* Ensable Chv Instruction        */
  UICC_INS_UNBLOCK_CHV           = 0x2c,          /* Unblock Chv Instruction        */
  UICC_INS_INVALIDATE            = 0x4,           /* Invalidate Instruction         */
  UICC_INS_REHABILITATE          = 0x44,          /* Rehabilitate Instruction       */
  UICC_INS_AUTHENTICATE          = 0x88,          /* Run GSM Algorithm (2/2.5G) / Authenticate (3G) Instruction */
  UICC_INS_TERMINAL_PROFILE      = 0x10,          /* Terminal Profile Instruction   */
  UICC_INS_ENVELOPE              = 0xc2,          /* Envelope Instruction           */
  UICC_INS_FETCH                 = 0x12,          /* Fetch Instruction              */
  UICC_INS_TERMINAL_RESPONSE     = 0x14,          /* Terminal Response Instruction  */
  UICC_INS_GET_RESPONSE          = 0xc0           /* Get Response Instruction       */
};
typedef Uint8 Uicc_ValIns;
#endif /* UICC_VAL_INS_CLASS */

/*
 * Enum to value table VAL_voltage_select
 * CCDGEN:WriteEnum_Count==40
 */
#ifndef UICC_VAL_VOLTAGE_SELECT_CLASS
#define UICC_VAL_VOLTAGE_SELECT_CLASS
enum 
{
  UICC_REQ_VOLTAGE_SEL           = 0x0,           /* The SIM reader driver shall perform voltage selection */
  UICC_OMIT_VOLTAGE_SEL          = 0x1            /* The SIM reader driver shall restart with the current voltage */
};
typedef Uint8 Uicc_ValVoltageSelect;
#endif /* UICC_VAL_VOLTAGE_SELECT_CLASS */

/*
 * Enum to value table VAL_config_requested
 * CCDGEN:WriteEnum_Count==42
 */
#ifndef UICC_VAL_CONFIG_REQUESTED_CLASS
#define UICC_VAL_CONFIG_REQUESTED_CLASS
enum 
{
  UICC_OMIT_CONFIG_CHARACTERISTICS = 0x0,         /* PS Shall not retrieve Configuration Characteristics */
  UICC_REQUEST_CONFIG_CHARACTERISTICS = 0x1       /* PS Shall retrieve Configuration Characteristics */
};
typedef Uint8 Uicc_ValConfigRequested;
#endif /* UICC_VAL_CONFIG_REQUESTED_CLASS */

/*
 * Enum to value table VAL_reader_id
 * CCDGEN:WriteEnum_Count==44
 */
#ifndef UICC_VAL_READER_ID_CLASS
#define UICC_VAL_READER_ID_CLASS
enum 
{
  UICC_VAL_READER_ID__RANGE_MIN  = 0x1,           /* minimum                        */
  UICC_VAL_READER_ID__RANGE_MAX  = 0x2            /* maximum                        */
};
typedef Uint8 Uicc_ValReaderId;
#endif /* UICC_VAL_READER_ID_CLASS */
#define UICC_SIZE_ATR_INFO             (0x21)     
#ifndef UICC_ATR_STRING_INFO_CLASS
#define UICC_ATR_STRING_INFO_CLASS
/*
 * SIM Card Info
 * CCDGEN:WriteStruct_Count==1284
 */
typedef struct
{
  Uint8                     atrStringArrayCount;      /*<  0:  1> counter                                            */
  Uint8                     atrStringArray[UICC_SIZE_ATR_INFO]; /*<  1: 33> SIM Card Answer to reset string                    */
  Uint8                     __dummy0;                 /*< 34:  1> alignment                                          */
  Uint8                     __dummy1;                 /*< 35:  1> alignment                                          */
} Uicc_AtrStringInfo;
#endif /* UICC_ATR_STRING_INFO_CLASS */


/*
 * typedef between var and valtab enums
 */
#ifndef UICC_LEN_CLASS
#define UICC_LEN_CLASS
typedef Uicc_ValLen Uicc_Len;
#endif /* Uicc_Len_CLASS */
#define UICC_MAX_RESULT                (0x100)    
#ifndef UICC_RESULT_INFO_CLASS
#define UICC_RESULT_INFO_CLASS
/*
 * Result Buffer
 * CCDGEN:WriteStruct_Count==1286
 */
typedef struct
{
  Uicc_Len                  len;                      /*<  0:  2> Uicc_Len,  Maximum length of expected data         */
  Uint16                    resultArrayCount;         /*<  2:  2> counter                                            */
  Uint8                     *resultArray;             /*<  4:  4> pointer codetransparent to Result byte             */
} Uicc_ResultInfo;
#endif /* UICC_RESULT_INFO_CLASS */

#define UICC_MAX_DATA_SIZE             (0xff)     
#ifndef UICC_DATA_INFO_CLASS
#define UICC_DATA_INFO_CLASS
/*
 * Data element info
 * CCDGEN:WriteStruct_Count==1288
 */
typedef struct
{
  Uint8                     __dummy0;                 /*<  0:  1> alignment                                          */
  Uint8                     __dummy1;                 /*<  1:  1> alignment                                          */
  Uint8                     __dummy2;                 /*<  2:  1> alignment                                          */
  Uint8                     dataArrayCount;           /*<  3:  1> counter                                            */
  Uint8                     *dataArray;               /*<  4:  4> pointer codetransparent to Data element            */
} Uicc_DataInfo;
#endif /* UICC_DATA_INFO_CLASS */


/*
 * typedef between var and valtab enums
 */
#ifndef UICC_CLA_CLASS
#define UICC_CLA_CLASS
typedef Uicc_ValCla Uicc_Cla;
#endif /* Uicc_Cla_CLASS */
#ifndef UICC_INS_CLASS
#define UICC_INS_CLASS
typedef Uicc_ValIns Uicc_Ins;
#endif /* Uicc_Ins_CLASS */
#ifndef UICC_CMD_HEADER_CLASS
#define UICC_CMD_HEADER_CLASS
/*
 * Transparent command header
 * CCDGEN:WriteStruct_Count==1290
 */
typedef struct
{
  Uicc_Cla                  cla;                      /*<  0:  1> Uicc_Cla,  Class Byte                              */
  Uicc_Ins                  ins;                      /*<  1:  1> Uicc_Ins,  instruction code                        */
  Uint8                     p1;                       /*<  2:  1> Parameter 1 of the SIM APDU                        */
  Uint8                     p2;                       /*<  3:  1> Parameter 2 of the SIM APDU                        */
} Uicc_CmdHeader;
#endif /* UICC_CMD_HEADER_CLASS */

#ifndef UICC_CONFIG_CHARACTERISTICS_CLASS
#define UICC_CONFIG_CHARACTERISTICS_CLASS
/*
 * Configuration Characteristics
 * CCDGEN:WriteStruct_Count==1292
 */
typedef struct
{
  Uint8                     uiccCharacteristics;      /*<  0:  1> UICC Characteristics                               */
  Uint8                     __dummy0;                 /*<  1:  1> alignment                                          */
  Uint8                     __dummy1;                 /*<  2:  1> alignment                                          */
  Uint8                     __dummy2;                 /*<  3:  1> alignment                                          */
} Uicc_ConfigCharacteristics;
#endif /* UICC_CONFIG_CHARACTERISTICS_CLASS */


/*
 * typedef between var and valtab enums
 */
#ifndef UICC_RESET_RETURN_VAL_CLASS
#define UICC_RESET_RETURN_VAL_CLASS
typedef Uicc_ValResetReturnVal Uicc_ResetReturnVal;
#endif /* Uicc_ResetReturnVal_CLASS */
#ifndef UICC_LEN_CLASS
#define UICC_LEN_CLASS
typedef Uicc_ValLen Uicc_Len;
#endif /* Uicc_Len_CLASS */
#ifndef UICC_SW_1_2_CLASS
#define UICC_SW_1_2_CLASS
typedef Uicc_ValSw1_2 Uicc_Sw1_2;
#endif /* Uicc_Sw1_2_CLASS */
#ifndef UICC_CLA_CLASS
#define UICC_CLA_CLASS
typedef Uicc_ValCla Uicc_Cla;
#endif /* Uicc_Cla_CLASS */
#ifndef UICC_INS_CLASS
#define UICC_INS_CLASS
typedef Uicc_ValIns Uicc_Ins;
#endif /* Uicc_Ins_CLASS */
#ifndef UICC_VOLTAGE_SELECT_CLASS
#define UICC_VOLTAGE_SELECT_CLASS
typedef Uicc_ValVoltageSelect Uicc_VoltageSelect;
#endif /* Uicc_VoltageSelect_CLASS */
#ifndef UICC_CONFIG_REQUESTED_CLASS
#define UICC_CONFIG_REQUESTED_CLASS
typedef Uicc_ValConfigRequested Uicc_ConfigRequested;
#endif /* Uicc_ConfigRequested_CLASS */
#ifndef UICC_READER_ID_CLASS
#define UICC_READER_ID_CLASS
typedef Uicc_ValReaderId Uicc_ReaderId;
#endif /* Uicc_ReaderId_CLASS */
#ifndef UICC_DUMMY_CLASS
#define UICC_DUMMY_CLASS
/*
 * 
 * CCDGEN:WriteStruct_Count==1294
 */
typedef struct
{
  Puf_PrimHdr primHdr;
  Uicc_AtrStringInfo        *atrStringInfoPtr;        /*<  0:  4> pointer to SIM Card Info                           */
  Uicc_ResetReturnVal       resetReturnVal;           /*<  4:  1> Uicc_ResetReturnVal,  Reset return value           */
  Uint8                     __dummy0;                 /*<  5:  1> alignment                                          */
  Uint8                     __dummy1;                 /*<  6:  1> alignment                                          */
  Uint8                     __dummy2;                 /*<  7:  1> alignment                                          */
  Uicc_ResultInfo           *resultInfoPtr;           /*<  8:  4> pointer to Result Buffer                           */
  Uicc_Len                  len;                      /*< 12:  2> Uicc_Len,  Maximum length of expected data         */
  Uint8                     __dummy3;                 /*< 14:  1> alignment                                          */
  Uint8                     __dummy4;                 /*< 15:  1> alignment                                          */
  Uicc_DataInfo             *dataInfoPtr;             /*< 16:  4> pointer to Data element info                       */
  Uicc_Sw1_2                sw1_2;                    /*< 20:  2> Uicc_Sw1_2,  Status Words                          */
  Uicc_Cla                  cla;                      /*< 22:  1> Uicc_Cla,  Class Byte                              */
  Uicc_Ins                  ins;                      /*< 23:  1> Uicc_Ins,  instruction code                        */
  Uicc_CmdHeader            cmdHeader;                /*< 24:  4> Transparent command header                         */
  Uicc_VoltageSelect        voltageSelect;            /*< 28:  1> Uicc_VoltageSelect,  Perform Voltage Selection     */
  Uint8                     p1;                       /*< 29:  1> Parameter 1 of the SIM APDU                        */
  Uint8                     p2;                       /*< 30:  1> Parameter 2 of the SIM APDU                        */
  Uicc_ConfigRequested      configRequested;          /*< 31:  1> Uicc_ConfigRequested,  Configuration Characteristics requested */
  Uicc_ConfigCharacteristics *configCharacteristicsPtr; /*< 32:  4> pointer to Configuration Characteristics           */
  Uicc_ReaderId             readerId;                 /*< 36:  1> Uicc_ReaderId,  Reader Id                          */
  Uint8                     uiccCharacteristics;      /*< 37:  1> UICC Characteristics                               */
  Uint8                     __dummy5;                 /*< 38:  1> alignment                                          */
  Uint8                     __dummy6;                 /*< 39:  1> alignment                                          */
} Uicc_Dummy;

#define UICC_DUMMY_SIZE() \
( \
  sizeof(Uicc_Dummy) \
)
#endif /* UICC_DUMMY_CLASS */

#define UICC_MIN_RESULT                (0x1)      
#define UICC_MIN_DATA_SIZE             (0x1)      
#define UICC_MAX_READERS               (0x2)      

#include "pub_L1_misc_leave.h"


#endif