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ifdwrapper.c
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ifdwrapper.c
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/*
* MUSCLE SmartCard Development ( https://www.linuxnet.com )
*
* Copyright (C) 1999-2004
* David Corcoran <[email protected]>
* Copyright (C) 2003-2004
* Damien Sauveron <[email protected]>
* Copyright (C) 2002-2010
* Ludovic Rousseau <[email protected]>
*
* $Id$
*/
/**
* @file
* @brief This wraps the dynamic ifdhandler functions.
*/
#include <errno.h>
#include <unistd.h>
#include <pthread.h>
#include "config.h"
#include "misc.h"
#include "pcscd.h"
#include "ifdhandler.h"
#include "debuglog.h"
#include "readerfactory.h"
#include "ifdwrapper.h"
#include "atrhandler.h"
#include "dyn_generic.h"
#include "sys_generic.h"
#include "utils.h"
/**
* Set the protocol type selection (PTS).
* This function sets the appropriate protocol to be used on the card.
*/
LONG IFDSetPTS(READER_CONTEXT * rContext, DWORD dwProtocol, UCHAR ucFlags,
UCHAR ucPTS1, UCHAR ucPTS2, UCHAR ucPTS3)
{
RESPONSECODE rv = IFD_SUCCESS;
UCHAR ucValue[1];
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IFD_set_protocol_parameters) (DWORD, UCHAR, UCHAR,
UCHAR, UCHAR) = NULL;
RESPONSECODE(*IFDH_set_protocol_parameters) (DWORD, DWORD, UCHAR,
UCHAR, UCHAR, UCHAR) = NULL;
if (rContext->version == IFD_HVERSION_1_0)
{
IFD_set_protocol_parameters = (RESPONSECODE(*)(DWORD, UCHAR, UCHAR,
UCHAR, UCHAR)) rContext->psFunctions.psFunctions_v1.pvfSetProtocolParameters;
if (NULL == IFD_set_protocol_parameters)
return SCARD_E_UNSUPPORTED_FEATURE;
}
else
{
IFDH_set_protocol_parameters = (RESPONSECODE(*)(DWORD, DWORD, UCHAR,
UCHAR, UCHAR, UCHAR))
rContext->psFunctions.psFunctions_v2.pvfSetProtocolParameters;
if (NULL == IFDH_set_protocol_parameters)
return SCARD_E_UNSUPPORTED_FEATURE;
}
#endif
/*
* Locking is done in winscard.c SCardConnect() and SCardReconnect()
*
* This avoids to renegotiate the protocol and confuse the card
* Error returned by CCID driver is: CCID_Receive Procedure byte conflict
*/
ucValue[0] = rContext->slot;
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
{
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
rv = (*IFD_set_protocol_parameters) (dwProtocol,
ucFlags, ucPTS1, ucPTS2, ucPTS3);
}
else
{
rv = (*IFDH_set_protocol_parameters) (rContext->slot,
dwProtocol, ucFlags, ucPTS1, ucPTS2, ucPTS3);
}
#else
#ifdef IFDHANDLERv1
{
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
rv = IFD_Set_Protocol_Parameters(dwProtocol, ucFlags, ucPTS1,
ucPTS2, ucPTS3);
}
#else
rv = IFDHSetProtocolParameters(rContext->slot, dwProtocol, ucFlags,
ucPTS1, ucPTS2, ucPTS3);
#endif
#endif
return rv;
}
/**
* Open a communication channel to the IFD.
*/
LONG IFDOpenIFD(READER_CONTEXT * rContext)
{
RESPONSECODE rv = 0;
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IO_create_channel) (DWORD) = NULL;
RESPONSECODE(*IFDH_create_channel) (DWORD, DWORD) = NULL;
RESPONSECODE(*IFDH_create_channel_by_name) (DWORD, LPSTR) = NULL;
if (rContext->version == IFD_HVERSION_1_0)
IO_create_channel =
rContext->psFunctions.psFunctions_v1.pvfCreateChannel;
else
if (rContext->version == IFD_HVERSION_2_0)
IFDH_create_channel =
rContext->psFunctions.psFunctions_v2.pvfCreateChannel;
else
{
IFDH_create_channel =
rContext->psFunctions.psFunctions_v3.pvfCreateChannel;
IFDH_create_channel_by_name =
rContext->psFunctions.psFunctions_v3.pvfCreateChannelByName;
}
#endif
/* LOCK THIS CODE REGION */
(void)pthread_mutex_lock(rContext->mMutex);
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
{
rv = (*IO_create_channel) (rContext->port);
} else if (rContext->version == IFD_HVERSION_2_0)
{
rv = (*IFDH_create_channel) (rContext->slot, rContext->port);
} else
{
/* use device name only if defined */
if (rContext->lpcDevice[0] != '\0')
rv = (*IFDH_create_channel_by_name) (rContext->slot, rContext->lpcDevice);
else
rv = (*IFDH_create_channel) (rContext->slot, rContext->port);
}
#else
#ifdef IFDHANDLERv1
rv = IO_Create_Channel(rContext->port);
#elif IFDHANDLERv2
rv = IFDHCreateChannel(rContext->slot, rContext->port);
#else
{
/* Use device name only if defined */
if (rContext->lpcDevice[0] != '\0')
rv = IFDHCreateChannelByName(rContext->slot, rContext->lpcDevice);
else
rv = IFDHCreateChannel(rContext->slot, rContext->port);
}
#endif
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
return rv;
}
/**
* Close a communication channel to the IFD.
*/
LONG IFDCloseIFD(READER_CONTEXT * rContext)
{
RESPONSECODE rv = IFD_SUCCESS;
int repeat;
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IO_close_channel) (void) = NULL;
RESPONSECODE(*IFDH_close_channel) (DWORD) = NULL;
if (rContext->version == IFD_HVERSION_1_0)
IO_close_channel = rContext->psFunctions.psFunctions_v1.pvfCloseChannel;
else
IFDH_close_channel = rContext->psFunctions.psFunctions_v2.pvfCloseChannel;
#endif
/* TRY TO LOCK THIS CODE REGION */
repeat = 5;
again:
rv = pthread_mutex_trylock(rContext->mMutex);
if (EBUSY == rv)
{
Log1(PCSC_LOG_ERROR, "Locking failed");
repeat--;
if (repeat)
{
(void)SYS_USleep(100*1000); /* 100 ms */
goto again;
}
}
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
rv = (*IO_close_channel) ();
else
rv = (*IFDH_close_channel) (rContext->slot);
#else
#ifdef IFDHANDLERv1
rv = IO_Close_Channel();
#else
rv = IFDHCloseChannel(rContext->slot);
#endif
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
return rv;
}
/**
* Set capabilities in the reader.
*/
LONG IFDSetCapabilities(READER_CONTEXT * rContext, DWORD dwTag,
DWORD dwLength, PUCHAR pucValue)
{
RESPONSECODE rv = IFD_SUCCESS;
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IFD_set_capabilities) (DWORD, PUCHAR) = NULL;
RESPONSECODE(*IFDH_set_capabilities) (DWORD, DWORD, DWORD, PUCHAR) = NULL;
if (rContext->version == IFD_HVERSION_1_0)
IFD_set_capabilities = rContext->psFunctions.psFunctions_v1.pvfSetCapabilities;
else
IFDH_set_capabilities = rContext->psFunctions.psFunctions_v2.pvfSetCapabilities;
#endif
/*
* Let the calling function lock this otherwise a deadlock will
* result
*/
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
rv = (*IFD_set_capabilities) (dwTag, pucValue);
else
rv = (*IFDH_set_capabilities) (rContext->slot, dwTag,
dwLength, pucValue);
#else
#ifdef IFDHANDLERv1
rv = IFD_Set_Capabilities(dwTag, pucValue);
#else
rv = IFDHSetCapabilities(rContext->slot, dwTag, dwLength, pucValue);
#endif
#endif
return rv;
}
/**
* Get's capabilities in the reader.
* Other functions int this file will call
* the driver directly to not cause a deadlock.
*/
LONG IFDGetCapabilities(READER_CONTEXT * rContext, DWORD dwTag,
PDWORD pdwLength, PUCHAR pucValue)
{
RESPONSECODE rv = IFD_SUCCESS;
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IFD_get_capabilities) (DWORD, /*@out@*/ PUCHAR) = NULL;
RESPONSECODE(*IFDH_get_capabilities) (DWORD, DWORD, PDWORD, /*@out@*/ PUCHAR) = NULL;
if (rContext->version == IFD_HVERSION_1_0)
IFD_get_capabilities =
rContext->psFunctions.psFunctions_v1.pvfGetCapabilities;
else
IFDH_get_capabilities =
rContext->psFunctions.psFunctions_v2.pvfGetCapabilities;
#endif
/* LOCK THIS CODE REGION */
(void)pthread_mutex_lock(rContext->mMutex);
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
rv = (*IFD_get_capabilities) (dwTag, pucValue);
else
rv = (*IFDH_get_capabilities) (rContext->slot, dwTag,
pdwLength, pucValue);
#else
#ifdef IFDHANDLERv1
rv = IFD_Get_Capabilities(dwTag, pucValue);
#else
rv = IFDHGetCapabilities(rContext->slot, dwTag, pdwLength, pucValue);
#endif
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
return rv;
}
/**
* Power up/down or reset's an ICC located in the IFD.
*/
LONG IFDPowerICC(READER_CONTEXT * rContext, DWORD dwAction,
PUCHAR pucAtr, PDWORD pdwAtrLen)
{
RESPONSECODE rv;
#ifndef PCSCLITE_STATIC_DRIVER
short ret;
SMARTCARD_EXTENSION sSmartCard;
#endif
DWORD dwStatus;
UCHAR ucValue[1];
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IFD_power_icc) (DWORD) = NULL;
RESPONSECODE(*IFDH_power_icc) (DWORD, DWORD, PUCHAR, PDWORD) = NULL;
#endif
/*
* Zero out everything
*/
rv = IFD_SUCCESS;
dwStatus = 0;
ucValue[0] = 0;
/*
* Check that the card is inserted first
*/
(void)IFDStatusICC(rContext, &dwStatus, pucAtr, pdwAtrLen);
if (dwStatus & SCARD_ABSENT)
return SCARD_W_REMOVED_CARD;
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
IFD_power_icc = rContext->psFunctions.psFunctions_v1.pvfPowerICC;
else
IFDH_power_icc = rContext->psFunctions.psFunctions_v2.pvfPowerICC;
#endif
/* LOCK THIS CODE REGION */
(void)pthread_mutex_lock(rContext->mMutex);
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
{
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
rv = (*IFD_power_icc) (dwAction);
}
else
{
rv = (*IFDH_power_icc) (rContext->slot, dwAction,
pucAtr, pdwAtrLen);
ret = ATRDecodeAtr(&sSmartCard, pucAtr, *pdwAtrLen);
}
#else
#ifdef IFDHANDLERv1
{
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
rv = IFD_Power_ICC(dwAction);
}
#else
rv = IFDHPowerICC(rContext->slot, dwAction, pucAtr, pdwAtrLen);
#endif
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
/* use clean values in case of error */
if (rv != IFD_SUCCESS)
{
*pdwAtrLen = 0;
pucAtr[0] = '\0';
if (rv == IFD_NO_SUCH_DEVICE)
{
(void)SendHotplugSignal();
return SCARD_E_READER_UNAVAILABLE;
}
return SCARD_E_NOT_TRANSACTED;
}
/*
* Get the ATR and it's length
*/
if (rContext->version == IFD_HVERSION_1_0)
(void)IFDStatusICC(rContext, &dwStatus, pucAtr, pdwAtrLen);
return rv;
}
/**
* Provide statistical information about the IFD and ICC including insertions,
* atr, powering status/etc.
*/
LONG IFDStatusICC(READER_CONTEXT * rContext, PDWORD pdwStatus,
PUCHAR pucAtr, PDWORD pdwAtrLen)
{
RESPONSECODE rv = IFD_SUCCESS;
DWORD dwTag = 0, dwCardStatus = 0;
SMARTCARD_EXTENSION sSmartCard;
UCHAR ucValue[1] = "\x00";
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IFD_is_icc_present) (void) = NULL;
RESPONSECODE(*IFDH_icc_presence) (DWORD) = NULL;
RESPONSECODE(*IFD_get_capabilities) (DWORD, /*@out@*/ PUCHAR) = NULL;
if (rContext->version == IFD_HVERSION_1_0)
{
IFD_is_icc_present =
rContext->psFunctions.psFunctions_v1.pvfICCPresence;
IFD_get_capabilities =
rContext->psFunctions.psFunctions_v1.pvfGetCapabilities;
}
else
IFDH_icc_presence = rContext->psFunctions.psFunctions_v2.pvfICCPresence;
#endif
/* LOCK THIS CODE REGION */
(void)pthread_mutex_lock(rContext->mMutex);
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
{
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
rv = (*IFD_is_icc_present) ();
}
else
rv = (*IFDH_icc_presence) (rContext->slot);
#else
#ifdef IFDHANDLERv1
{
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
rv = IFD_Is_ICC_Present();
}
#else
rv = IFDHICCPresence(rContext->slot);
#endif
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
if (rv == IFD_SUCCESS || rv == IFD_ICC_PRESENT)
dwCardStatus |= SCARD_PRESENT;
else
if (rv == IFD_ICC_NOT_PRESENT)
dwCardStatus |= SCARD_ABSENT;
else
{
Log2(PCSC_LOG_ERROR, "Card not transacted: %ld", rv);
*pdwStatus = SCARD_UNKNOWN;
if (rv == IFD_NO_SUCH_DEVICE)
{
(void)SendHotplugSignal();
return SCARD_E_READER_UNAVAILABLE;
}
return SCARD_E_NOT_TRANSACTED;
}
/*
* Now lets get the ATR and process it if IFD Handler version 1.0.
* IFD Handler version 2.0 does this immediately after reset/power up
* to conserve resources
*/
if (rContext->version == IFD_HVERSION_1_0)
{
if (rv == IFD_SUCCESS || rv == IFD_ICC_PRESENT)
{
short ret;
dwTag = TAG_IFD_ATR;
/* LOCK THIS CODE REGION */
(void)pthread_mutex_lock(rContext->mMutex);
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
#ifndef PCSCLITE_STATIC_DRIVER
rv = (*IFD_get_capabilities) (dwTag, pucAtr);
#else
#ifdef IFDHANDLERv1
rv = IFD_Get_Capabilities(dwTag, pucAtr);
#endif
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
/*
* FIX :: This is a temporary way to return the correct size
* of the ATR since most of the drivers return MAX_ATR_SIZE
*/
ret = ATRDecodeAtr(&sSmartCard, pucAtr, MAX_ATR_SIZE);
/*
* Might be a memory card without an ATR
*/
if (ret == 0)
*pdwAtrLen = 0;
else
*pdwAtrLen = sSmartCard.ATR.Length;
}
else
{
/*
* No card is inserted - Atr length is 0
*/
*pdwAtrLen = 0;
}
/*
* End of FIX
*/
}
*pdwStatus = dwCardStatus;
return SCARD_S_SUCCESS;
}
/*
* Function: IFDControl Purpose : This function provides a means for
* toggling a specific action on the reader such as swallow, eject,
* biometric.
*/
/*
* Valid only for IFDHandler version 2.0
*/
LONG IFDControl_v2(READER_CONTEXT * rContext, PUCHAR TxBuffer,
DWORD TxLength, PUCHAR RxBuffer, PDWORD RxLength)
{
RESPONSECODE rv = IFD_SUCCESS;
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IFDH_control_v2) (DWORD, PUCHAR, DWORD, /*@out@*/ PUCHAR,
PDWORD);
#endif
if (rContext->version != IFD_HVERSION_2_0)
return SCARD_E_UNSUPPORTED_FEATURE;
#ifndef PCSCLITE_STATIC_DRIVER
IFDH_control_v2 = rContext->psFunctions.psFunctions_v2.pvfControl;
#endif
/* LOCK THIS CODE REGION */
(void)pthread_mutex_lock(rContext->mMutex);
#ifndef PCSCLITE_STATIC_DRIVER
rv = (*IFDH_control_v2) (rContext->slot, TxBuffer, TxLength,
RxBuffer, RxLength);
#elif IFDHANDLERv2
rv = IFDHControl(rContext->slot, TxBuffer, TxLength,
RxBuffer, RxLength);
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
if (rv == IFD_SUCCESS)
return SCARD_S_SUCCESS;
else
{
Log2(PCSC_LOG_ERROR, "Card not transacted: %ld", rv);
LogXxd(PCSC_LOG_DEBUG, "TxBuffer ", TxBuffer, TxLength);
LogXxd(PCSC_LOG_DEBUG, "RxBuffer ", RxBuffer, *RxLength);
return SCARD_E_NOT_TRANSACTED;
}
}
/**
* Provide a means for toggling a specific action on the reader such as
* swallow, eject, biometric.
*/
/*
* Valid only for IFDHandler version 3.0 and up
*/
LONG IFDControl(READER_CONTEXT * rContext, DWORD ControlCode,
LPCVOID TxBuffer, DWORD TxLength, LPVOID RxBuffer, DWORD RxLength,
LPDWORD BytesReturned)
{
RESPONSECODE rv = IFD_SUCCESS;
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IFDH_control) (DWORD, DWORD, LPCVOID, DWORD, LPVOID, DWORD, LPDWORD);
#endif
if (rContext->version < IFD_HVERSION_3_0)
return SCARD_E_UNSUPPORTED_FEATURE;
#ifndef PCSCLITE_STATIC_DRIVER
IFDH_control = rContext->psFunctions.psFunctions_v3.pvfControl;
#endif
/* LOCK THIS CODE REGION */
(void)pthread_mutex_lock(rContext->mMutex);
#ifndef PCSCLITE_STATIC_DRIVER
rv = (*IFDH_control) (rContext->slot, ControlCode, TxBuffer,
TxLength, RxBuffer, RxLength, BytesReturned);
#elif IFDHANDLERv3
rv = IFDHControl(rContext->slot, ControlCode, TxBuffer,
TxLength, RxBuffer, RxLength, BytesReturned);
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
if (rv == IFD_SUCCESS)
return SCARD_S_SUCCESS;
else
{
Log2(PCSC_LOG_ERROR, "Card not transacted: %ld", rv);
Log3(PCSC_LOG_DEBUG, "ControlCode: 0x%.8LX BytesReturned: %ld",
ControlCode, *BytesReturned);
LogXxd(PCSC_LOG_DEBUG, "TxBuffer ", TxBuffer, TxLength);
LogXxd(PCSC_LOG_DEBUG, "RxBuffer ", RxBuffer, *BytesReturned);
if (rv == IFD_NO_SUCH_DEVICE)
{
(void)SendHotplugSignal();
return SCARD_E_READER_UNAVAILABLE;
}
if ((IFD_ERROR_NOT_SUPPORTED == rv) || (IFD_NOT_SUPPORTED == rv))
return SCARD_E_UNSUPPORTED_FEATURE;
if (IFD_ERROR_INSUFFICIENT_BUFFER ==rv)
return SCARD_E_INSUFFICIENT_BUFFER;
return SCARD_E_NOT_TRANSACTED;
}
}
/**
* Transmit an APDU to the ICC.
*/
LONG IFDTransmit(READER_CONTEXT * rContext, SCARD_IO_HEADER pioTxPci,
PUCHAR pucTxBuffer, DWORD dwTxLength, PUCHAR pucRxBuffer,
PDWORD pdwRxLength, PSCARD_IO_HEADER pioRxPci)
{
RESPONSECODE rv = IFD_SUCCESS;
#ifndef PCSCLITE_STATIC_DRIVER
RESPONSECODE(*IFD_transmit_to_icc) (SCARD_IO_HEADER, PUCHAR, DWORD,
/*@out@*/ PUCHAR, PDWORD, PSCARD_IO_HEADER) = NULL;
RESPONSECODE(*IFDH_transmit_to_icc) (DWORD, SCARD_IO_HEADER, PUCHAR,
DWORD, /*@out@*/ PUCHAR, PDWORD, PSCARD_IO_HEADER) = NULL;
#endif
/* log the APDU */
DebugLogCategory(DEBUG_CATEGORY_APDU, pucTxBuffer, dwTxLength);
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
IFD_transmit_to_icc =
rContext->psFunctions.psFunctions_v1.pvfTransmitToICC;
else
IFDH_transmit_to_icc =
rContext->psFunctions.psFunctions_v2.pvfTransmitToICC;
#endif
/* LOCK THIS CODE REGION */
(void)pthread_mutex_lock(rContext->mMutex);
#ifndef PCSCLITE_STATIC_DRIVER
if (rContext->version == IFD_HVERSION_1_0)
{
UCHAR ucValue[1];
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
rv = (*IFD_transmit_to_icc) (pioTxPci, (LPBYTE) pucTxBuffer,
dwTxLength, pucRxBuffer, pdwRxLength, pioRxPci);
}
else
rv = (*IFDH_transmit_to_icc) (rContext->slot, pioTxPci,
(LPBYTE) pucTxBuffer, dwTxLength,
pucRxBuffer, pdwRxLength, pioRxPci);
#else
#ifdef IFDHANDLERv1
{
UCHAR ucValue[1];
ucValue[0] = rContext->slot;
(void)IFDSetCapabilities(rContext, TAG_IFD_SLOTNUM, 1, ucValue);
rv = IFD_Transmit_to_ICC(pioTxPci, (LPBYTE) pucTxBuffer,
dwTxLength, pucRxBuffer, pdwRxLength, pioRxPci);
}
#else
rv = IFDHTransmitToICC(rContext->slot, pioTxPci,
(LPBYTE) pucTxBuffer, dwTxLength,
pucRxBuffer, pdwRxLength, pioRxPci);
#endif
#endif
/* END OF LOCKED REGION */
(void)pthread_mutex_unlock(rContext->mMutex);
/* log the returned status word */
DebugLogCategory(DEBUG_CATEGORY_SW, pucRxBuffer, *pdwRxLength);
if (rv == IFD_SUCCESS)
return SCARD_S_SUCCESS;
else
{
Log2(PCSC_LOG_ERROR, "Card not transacted: %ld", rv);
if (rv == IFD_NO_SUCH_DEVICE)
{
(void)SendHotplugSignal();
return SCARD_E_READER_UNAVAILABLE;
}
return SCARD_E_NOT_TRANSACTED;
}
}