499 lines
11 KiB
C++
499 lines
11 KiB
C++
/*++
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Copyright (C) Microsoft Corporation, 1997 - 1999
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Module Name:
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example.cpp
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Abstract:
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This is a plug-in for the smart card driver test suite.
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This plug-in is smart card dependent
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Author:
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Klaus U. Schutz
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Environment:
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Win32 application
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Revision History :
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Nov. 1997 - initial version
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--*/
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#include <stdarg.h>
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#include <stdio.h>
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#include <string.h>
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#include <afx.h>
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#include <afxtempl.h>
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#include <winioctl.h>
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#include "winsmcrd.h"
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#include "ifdtest.h"
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void MyCardEntry(class CCardProvider& in_CCardProvider);
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//
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// Create a card provider object
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// Note: all global varibales and all functions have to be static
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//
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static class CCardProvider MyCard(MyCardEntry);
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static ULONG
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MyCardSetProtocol(
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class CCardProvider& in_CCardProvider,
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class CReader& in_CReader
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)
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/*++
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Routine Description:
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This function will be called after the card has been correctly
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identified. We should here set the protocol that we need
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for further transmissions
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Arguments:
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in_CCardProvider - ref. to our card provider object
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in_CReader - ref. to the reader object
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Return Value:
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IFDSTATUS_FAILED - we were unable to set the protocol correctly
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IFDSTATUS_SUCCESS - protocol set correctly
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--*/
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{
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ULONG l_lResult;
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TestStart("Try to set incorrect protocol T=1");
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l_lResult = in_CReader.SetProtocol(SCARD_PROTOCOL_T1);
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// The test MUST fail with the incorrect protocol
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TEST_CHECK_NOT_SUPPORTED("Set protocol failed", l_lResult);
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TestEnd();
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// Now set the correct protocol
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TestStart("Set protocol T=0");
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l_lResult = in_CReader.SetProtocol(SCARD_PROTOCOL_T0);
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TEST_CHECK_SUCCESS("Set protocol failed", l_lResult);
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TestEnd();
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if (l_lResult != ERROR_SUCCESS) {
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return IFDSTATUS_FAILED;
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}
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return IFDSTATUS_SUCCESS;
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}
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static ULONG
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MyCardTest(
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class CCardProvider& in_CCardProvider,
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class CReader& in_CReader
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)
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/*++
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Routine Description:
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This serves as the test function for a particular smart card
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Arguments:
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in_CReader - ref. to class that provides all information for the test
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Return Value:
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IFDSTATUS value
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--*/
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{
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ULONG l_auNumBytes[] = { 1 , 25, 50, 75, 100, 125, 150, 175, 200, 225, 254 };
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ULONG l_uNumBytes = l_auNumBytes[10];
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ULONG l_lResult;
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ULONG l_uResultLength, l_uIndex;
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PUCHAR l_pchResult;
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UCHAR l_rgchBuffer[512];
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ULONG l_uTest;
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UCHAR Buf_Tempo[9];
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ULONG l_Tempo;
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ULONG Adresse;
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switch (in_CCardProvider.GetTestNo()) {
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case 1:
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TestStart("Buffer boundary test");
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//
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// Check if the reader correctly determines that
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// our receive buffer is too small
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//
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in_CReader.SetReplyBufferSize(9);
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\x84\x00\x00\x08",
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5,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult == ERROR_INSUFFICIENT_BUFFER,
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"Transmit should fail due to too small buffer"
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);
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TestEnd();
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in_CReader.SetReplyBufferSize(2048);
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break;
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case 2:
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TestStart("3 byte APDU");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\xC4\x00",
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3,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_INVALID_PARAMETER,
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0, 0,
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0, 0, 0, 0,
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NULL, NULL, NULL
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);
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TEST_END();
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break;
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case 3:
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// Get Challenge
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TestStart("GET CHALLENGE");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\xC4\x00\x00\x08",
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5,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 10,
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l_pchResult[8], l_pchResult[9], 0x90, 0x00,
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NULL, NULL, NULL
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);
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TEST_END();
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//
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// Submit Alternate Identification Code (AID)
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//
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TestStart("VERIFY PIN");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\x38\x00\x00\x0A\x01\x02\x03\x04\x05\x06\x07\x08\x09\0x0A",
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15,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 2,
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l_pchResult[0], l_pchResult[1], 0x90, 0x08,
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NULL, NULL, NULL
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);
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TEST_END();
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break;
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case 4:
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// Translate of 4 byte APDU (Search for next blank word)
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TestStart("SEARCH BLANK WORD");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\xA0\x00\x00", // Search for next blank word
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4,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 2,
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l_pchResult[0], l_pchResult[1], 0x90, 0x00,
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NULL, NULL, NULL
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);
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TEST_END();
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// Read result of Search for next blank word
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TestStart("GET RESPONSE");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\xC0\x00\x00\x08", // Read Result command
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5,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 10,
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l_pchResult[8], l_pchResult[9], 0x90, 0x00,
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NULL, NULL, NULL
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);
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TEST_END();
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break;
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case 5:
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// Select Working File 2F01
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TestStart("Lc byte incorrect");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\xA4\x00\x00\x02\x2F",
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6,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_INVALID_PARAMETER,
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0, 0,
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0, 0, 0, 0,
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NULL, NULL, NULL
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);
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TEST_END();
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break;
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case 6:
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//
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// Select Working File 2F01
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//
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TestStart("SELECT FILE");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\xA4\x00\x00\x02\x2F\x01",
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7,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 2,
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l_pchResult[0], l_pchResult[1], 0x90, 0x00,
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NULL, NULL, NULL
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);
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TEST_END();
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// Erase memory with restart of work waiting time
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TestStart("ERASE BINARY");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\x0E\x00\x00\x02\x00\x78",
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7,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 2,
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l_pchResult[0], l_pchResult[1], 0x90, 0x00,
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NULL, NULL, NULL
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);
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TEST_END();
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// Generate a 'test' pattern which will be written to the card
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for (l_uIndex = 0; l_uIndex < 256; l_uIndex++) {
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l_rgchBuffer[l_uIndex] = (UCHAR) l_uIndex;
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}
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// Tpdu for write binary. TB100L can write only 4 byte 4 byte
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memcpy(Buf_Tempo, "\xBC\xD0", 2); // writting order
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Buf_Tempo[4] = 0x4; //write 4 bytes in the card
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// This is the amount of bytes we write to the card
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l_uTest = 0;
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Adresse = 0;
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while (l_uTest < 256) {
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for(l_Tempo=5 ; l_Tempo < 9; l_Tempo++){
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Buf_Tempo[l_Tempo] = l_rgchBuffer[l_uTest++];
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}
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Buf_Tempo[2] = 00; // Writting address
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Buf_Tempo[3] = (UCHAR) Adresse++;
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//
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// Write
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//
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TestStart("WRITE BINARY - 4 bytes (%03d)",Adresse);
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//
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// Append number of bytes (note: the buffer contains the pattern already)
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//
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l_lResult = in_CReader.Transmit(
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Buf_Tempo,
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9,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 2,
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l_pchResult[0], l_pchResult[1], 0x90, 0x00,
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NULL, NULL, NULL
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);
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TEST_END();
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}
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// Read 256 bytes
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TestStart("READ BINARY - 256 bytes");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\xB0\x00\x00\x00",
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5,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, l_uNumBytes + 4,
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l_pchResult[256], l_pchResult[257], 0x90, 0x00,
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l_pchResult, l_rgchBuffer , l_uNumBytes + 2
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);
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TEST_END();
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break;
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case 7:
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//
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// Command with Slave Mode
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// Data bytes transferred subsequently (INS')
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//
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TestStart("GENERATE TEMP KEY");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\x80\x00\x00\x02\x12\x00",
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7,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 2,
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l_pchResult[0], l_pchResult[1], 0x90, 0x08,
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NULL, NULL, NULL
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);
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TEST_END();
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break;
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case 8:
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// Select Master File 3F00
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TestStart("SELECT FILE");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\xA4\x00\x00\x02\x3F\x00",
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7,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SUCCESS,
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l_uResultLength, 2,
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l_pchResult[0], l_pchResult[1], 0x90, 0x00,
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NULL, NULL, NULL
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);
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TEST_END();
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// Erase memory on an invalid file => mute card
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TestStart("ERASE BINARY");
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l_lResult = in_CReader.Transmit(
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(PUCHAR) "\xBC\x0E\x00\x00\x02\x00\x78",
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7,
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&l_pchResult,
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&l_uResultLength
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);
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TestCheck(
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l_lResult, "==", ERROR_SEM_TIMEOUT,
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NULL, NULL,
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NULL, NULL,
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NULL, NULL,
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NULL, NULL, NULL
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);
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TEST_END();
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return IFDSTATUS_END;
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default:
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return IFDSTATUS_FAILED;
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}
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return IFDSTATUS_SUCCESS;
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}
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static void
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MyCardEntry(
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class CCardProvider& in_CCardProvider
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)
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/*++
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Routine Description:
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This function registers all callbacks from the test suite
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Arguments:
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CCardProvider - ref. to card provider class
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Return Value:
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-
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--*/
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{
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// Set protocol callback
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in_CCardProvider.SetProtocol(MyCardSetProtocol);
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// Card test callback
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in_CCardProvider.SetCardTest(MyCardTest);
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// Name of our card
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in_CCardProvider.SetCardName("Bull");
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// Maximum number of tests
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in_CCardProvider.SetAtr((PBYTE) "\x3f\x67\x25\x00\x21\x20\x00\x0F\x68\x90\x00", 11);
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}
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