FreeCalypso > hg > fc-magnetite
view cdg-hybrid/cdginc/p_8010_136_simdrv_sap.val @ 629:3231dd9b38c1
armio.c: make GPIOs 8 & 13 outputs driving 1 on all "classic" targets
Calypso GPIOs 8 & 13 are pinmuxed with MCUEN1 & MCUEN2, respectively,
and on powerup these pins are MCUEN, i.e., outputs driving 1. TI's code
for C-Sample and earlier turns them into GPIOs configured as outputs also
driving 1 - so far, so good - but TI's code for BOARD 41 (which covers
D-Sample, Leonardo and all real world Calypso devices derived from the
latter) switches them from MCUEN to GPIOs, but then leaves them as inputs.
Given that the hardware powerup state of these two pins is outputs driving 1,
every Calypso board design MUST be compatible with such driving; typically
these GPIO signals will be either unused and unconnected or connected as
outputs driving some peripheral. Turning these pins into GPIO inputs will
result in floating inputs on every reasonably-wired board, thus I am
convinced that this configuration is nothing but a bug on the part of
whoever wrote this code at TI.
This floating input bug had already been fixed earlier for GTA modem and
FCDEV3B targets; the present change makes the fix unconditional for all
"classic" targets. The newly affected targets are D-Sample, Leonardo,
Tango and GTM900.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Thu, 02 Jan 2020 05:38:26 +0000 |
parents | e7a67accfad9 |
children |
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/* +--------------------------------------------------------------------------+ | PROJECT : PROTOCOL STACK | | FILE : p_8010_136_simdrv_sap.val | | 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 P_8010_136_SIMDRV_SAP_VAL #define P_8010_136_SIMDRV_SAP_VAL #define CDG_ENTER__P_8010_136_SIMDRV_SAP_VAL #define CDG_ENTER__FILENAME _P_8010_136_SIMDRV_SAP_VAL #define CDG_ENTER__P_8010_136_SIMDRV_SAP_VAL__FILE_TYPE CDGINC #define CDG_ENTER__P_8010_136_SIMDRV_SAP_VAL__LAST_MODIFIED _2004_06_10 #define CDG_ENTER__P_8010_136_SIMDRV_SAP_VAL__ID_AND_VERSION _8010_136_03_009 #define CDG_ENTER__P_8010_136_SIMDRV_SAP_VAL__SRC_FILE_TIME _Thu_Nov_29_09_27_56_2007 #include "CDG_ENTER.h" #undef CDG_ENTER__P_8010_136_SIMDRV_SAP_VAL #undef CDG_ENTER__FILENAME /* * Enum to value table VAL_reset_return_val * CCDGEN:WriteEnum_Count==29 */ #ifndef __T_SIMDRV_VAL_reset_return_val__ #define __T_SIMDRV_VAL_reset_return_val__ typedef enum { SIMDRV_SIM_INSERTED = 0x0, /* A SIM is inserted and ATR/PPS was successful */ SIMDRV_SIM_NOT_INSERTED = 0x1, /* No SIM inserted (hardware detected) */ SIMDRV_INVALID_CARD = 0x2, /* Card is not responding or gives unintelligible answers, communications time out. */ SIMDRV_ME_FAILURE = 0x3, /* Power management related problems, e.g. voltage selection */ SIMDRV_IMPROPER_CALL_BACK = 0x4, /* simdrv_register function called with pointer improperly set, e.g. NULL. */ SIMDRV_ME_READER_NOT_AVAILABLE = 0x5 /* The reader requested is not available */ }T_SIMDRV_VAL_reset_return_val; #endif /* * Enum to value table VAL_len * CCDGEN:WriteEnum_Count==31 */ #ifndef __T_SIMDRV_VAL_len__ #define __T_SIMDRV_VAL_len__ typedef enum { SIMDRV_VAL_LEN__RANGE_MIN = 0x0, /* minimum */ SIMDRV_VAL_LEN__RANGE_MAX = 0x100, /* maximum */ SIMDRV_LENGTH_UNKNOWN = 0xffff /* Indicating that the length expected is unknown. */ }T_SIMDRV_VAL_len; #endif /* * Enum to value table VAL_sw1_2 * CCDGEN:WriteEnum_Count==33 */ #ifndef __T_SIMDRV_VAL_sw1_2__ #define __T_SIMDRV_VAL_sw1_2__ typedef enum { SIMDRV_ERR_NOCARD = 0x1, /* No SIM inserted (hardware detected) */ SIMDRV_ERR_NOT_RESET = 0x2, /* A reset has not been performed on the driver with the requested Id. */ SIMDRV_ERR_ME_FAIL = 0x3, /* Unrecoverable ME failure (for instance interrupt fails to occur) */ SIMDRV_ERR_RETRY_FAIL = 0x4, /* ME/SIM communication failed after certain retries, SIM reset required */ SIMDRV_ERR_PARAM_WRONG = 0x5 /* A driver function is called with invalid parameters */ }T_SIMDRV_VAL_sw1_2; #endif /* * Enum to value table VAL_cla * CCDGEN:WriteEnum_Count==35 */ #ifndef __T_SIMDRV_VAL_cla__ #define __T_SIMDRV_VAL_cla__ typedef enum { SIMDRV_GSM_CLASS_BYTE = 0xa0, /* GSM Class byte according to [GSM 11.11 / 3GPP 51.011] */ SIMDRV_UMTS_CLASS_BYTE = 0x80, /* UMTS Class byte according to [ETSI 102 221 10.1.2] */ SIMDRV_UICC_CLASS_BYTE = 0x0 /* UICC Class byte according to [ISO 7816-4] */ }T_SIMDRV_VAL_cla; #endif /* * Enum to value table VAL_ins * CCDGEN:WriteEnum_Count==37 */ #ifndef __T_SIMDRV_VAL_ins__ #define __T_SIMDRV_VAL_ins__ typedef enum { SIMDRV_INS_SELECT = 0xa4, /* Select Instruction */ SIMDRV_INS_STATUS = 0xf2, /* Status Instruction */ SIMDRV_INS_READ_BINARY = 0xb0, /* Read Binary Instruction */ SIMDRV_INS_UPDATE_BINARY = 0xd6, /* Update Binary Instruction */ SIMDRV_INS_READ_RECORD = 0xb2, /* Read Record Instruction */ SIMDRV_INS_UPDATE_RECORD = 0xdc, /* Update Record Instruction */ SIMDRV_INS_SEEK = 0xa2, /* Seek Instruction */ SIMDRV_INS_INCREASE = 0x32, /* Increase Instruction */ SIMDRV_INS_VERIFY_CHV = 0x20, /* Verify Chv Instruction */ SIMDRV_INS_CHANGE_CHV = 0x24, /* Change Chv Instruction */ SIMDRV_INS_DISABLE_CHV = 0x26, /* Disable Chv Instruction */ SIMDRV_INS_ENABLE_CHV = 0x28, /* Ensable Chv Instruction */ SIMDRV_INS_UNBLOCK_CHV = 0x2c, /* Unblock Chv Instruction */ SIMDRV_INS_INVALIDATE = 0x4, /* Invalidate Instruction */ SIMDRV_INS_REHABILITATE = 0x44, /* Rehabilitate Instruction */ SIMDRV_INS_AUTHENTICATE = 0x88, /* Run GSM Algorithm (2/2.5G) / Authenticate (3G) Instruction */ SIMDRV_INS_TERMINAL_PROFILE = 0x10, /* Terminal Profile Instruction */ SIMDRV_INS_ENVELOPE = 0xc2, /* Envelope Instruction */ SIMDRV_INS_FETCH = 0x12, /* Fetch Instruction */ SIMDRV_INS_TERMINAL_RESPONSE = 0x14, /* Terminal Response Instruction */ SIMDRV_INS_GET_RESPONSE = 0xc0 /* Get Response Instruction */ }T_SIMDRV_VAL_ins; #endif /* * Enum to value table VAL_voltage_select * CCDGEN:WriteEnum_Count==39 */ #ifndef __T_SIMDRV_VAL_voltage_select__ #define __T_SIMDRV_VAL_voltage_select__ typedef enum { SIMDRV_REQ_VOLTAGE_SEL = 0x0, /* The SIM reader driver shall perform voltage selection */ SIMDRV_OMIT_VOLTAGE_SEL = 0x1 /* The SIM reader driver shall restart with the current voltage */ }T_SIMDRV_VAL_voltage_select; #endif /* * Enum to value table VAL_config_requested * CCDGEN:WriteEnum_Count==41 */ #ifndef __T_SIMDRV_VAL_config_requested__ #define __T_SIMDRV_VAL_config_requested__ typedef enum { SIMDRV_OMIT_CONFIG_CHARACTERISTICS = 0x0, /* PS Shall not retrieve Configuration Characteristics */ SIMDRV_REQUEST_CONFIG_CHARACTERISTICS = 0x1 /* PS Shall retrieve Configuration Characteristics */ }T_SIMDRV_VAL_config_requested; #endif /* * Enum to value table VAL_reader_id * CCDGEN:WriteEnum_Count==43 */ #ifndef __T_SIMDRV_VAL_reader_id__ #define __T_SIMDRV_VAL_reader_id__ typedef enum { SIMDRV_VAL_READER_ID__RANGE_MIN = 0x1, /* minimum */ SIMDRV_VAL_READER_ID__RANGE_MAX = 0x2 /* maximum */ }T_SIMDRV_VAL_reader_id; #endif /* * user defined constants */ #define SIMDRV_SIZE_ATR_INFO (0x21) #define SIMDRV_MIN_RESULT (0x1) #define SIMDRV_MAX_RESULT (0x100) #define SIMDRV_MIN_DATA_SIZE (0x1) #define SIMDRV_MAX_DATA_SIZE (0xff) #define SIMDRV_MAX_READERS (0x2) #include "CDG_LEAVE.h" #endif