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#ifndef __ERRLTEST_H
#define __ERRLTEST_H
/**
* @file errltest.H
*
* @brief Test case for Error Logging
*/
#include <cxxtest/TestSuite.H>
#include <errl/errlmanager.H>
#include <errl/errlentry.H>
#include <hbotcompid.H>
#define TEST_REASON_CODE (ERRL_COMP_ID | 0x0F)
#define TEST_SEVERITY ERRORLOG::ERRL_SEV_INFORMATIONAL
#define TEST_MOD_ID 0x0022
#define TEST_USR_8BIT_1 0x80
#define TEST_USR_8BIT_2 0x93
#define TEST_USR_16BIT_1 0x8000
#define TEST_USR_16BIT_2 0x9003
#define TEST_USR_32BIT_1 0x80000001
#define TEST_USR_32BIT_2 0x90000003
#define TEST_USR_64BIT_1 0x8000000000000001
#define TEST_USR_64BIT_2 0x9000000000000003
class ErrlTest: public CxxTest::TestSuite
{
public:
/**
* @brief Test error log creation
* - Create an error log
* - Verify data of created log
* - Commit an error log
* - Delete an error log
*/
void testErrl1(void)
{
ERRORLOG::ErrlFFDC * pffdc;
// An example that shows how to use macros to stuff data into
// the two 64-bit user data parameters in the error log.
// l_userData1 = 16bit(0):l_bit8_1:l_bit8_2:l_32bit_1
uint8_t l_8bit_1 = TEST_USR_8BIT_1; // 0x80
uint8_t l_8bit_2 = TEST_USR_8BIT_2; // 0x93
uint32_t l_32bit_1 = TEST_USR_32BIT_1; // 0x80000001
uint64_t l_userData1 =
TWO_UINT32_TO_UINT64( TO_UINT32(TWO_UINT8_TO_UINT16(l_8bit_1, l_8bit_2)), l_32bit_1);
// yields 0x0000809380000001
// l_userData2 = l_16bit_1:l_16bit_2:l_32bit_2
uint16_t l_16bit_1 = TEST_USR_16BIT_1; // 0x8000
uint16_t l_16bit_2 = TEST_USR_16BIT_2; // 0x9003
uint32_t l_32bit_2 = TEST_USR_32BIT_2; // 0x90000003
uint64_t l_userData2 = TWO_UINT16_ONE_UINT32_TO_UINT64(l_16bit_1, l_16bit_2, l_32bit_2);
// yields 0x8000900390000003
// Create an error log
errlHndl_t l_err = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_INFORMATIONAL,
TEST_MOD_ID,
TEST_REASON_CODE,
l_userData1,
l_userData2);
// Make sure log is created
if (l_err == NULL)
{
TS_FAIL("testErrl1: createErrlLog() outputs NULL pointer!");
}
// These addFFDC() calls return a pointer to class ERRORLOG::ErrlFFDC
// but errlffdc.H is not publicly includable to give me the definition
// for it. addFFDC() should return a Boolean indication of success.
const char * pch = "martha washington";
pffdc = l_err->addFFDC( ERRL_COMP_ID, pch, strlen( pch ), 1, 2 );
if ( NULL == pffdc )
{
TS_FAIL("testErrl1: addFFDC() output NULL pointer");
}
pch = "george washington";
pffdc = l_err->addFFDC( DEVFW_COMP_ID, pch, strlen( pch ), 3, 4 );
if ( NULL == pffdc )
{
TS_FAIL("testErrl1: addFFDC() output NULL pointer");
}
pch = "dwight eisenhour";
pffdc = l_err->addFFDC( SCOM_COMP_ID, pch, strlen( pch ), 5, 6 );
if ( NULL == pffdc )
{
TS_FAIL("testErrl1: addFFDC() output NULL pointer");
}
pch = "ronald ";
pffdc = l_err->addFFDC( ERRL_COMP_ID, pch, strlen( pch ), 7, 8 );
if ( NULL == pffdc )
{
TS_FAIL("testErrl1: addFFDC() output NULL pointer");
}
// Append data to something already added.
pch = "reagan";
l_err->appendToFFDC( pffdc, pch, strlen(pch) );
// Add null data.
pffdc = l_err->addFFDC( ERRL_COMP_ID, NULL, 0, 9, 10 );
if ( NULL != pffdc )
{
TS_FAIL("testErrl1: addFFDC() returned non null");
}
// Verify log data
else if (l_err->sev() != ERRORLOG::ERRL_SEV_INFORMATIONAL)
{
TS_FAIL("testErrl1: createErrlLog() returns incorrect severity!");
}
else if (l_err->reasonCode() != TEST_REASON_CODE)
{
TS_FAIL("testErrl1: createErrlLog() returns incorrect reason code!");
}
else if (l_err->eventType() != ERRORLOG::ERRL_ETYPE_NOT_APPLICABLE)
{
TS_FAIL("testErrl1: createErrlLog() returns incorrect event type!");
}
else if (l_err->subSys() != ERRORLOG::EPUB_RESERVED_0)
{
TS_FAIL("testErrl1: createErrlLog() returns incorrect sub system!");
}
else if (l_err->srcType() != ERRORLOG::SRC_ERR_INFO)
{
TS_FAIL("testErrl1: createErrlLog() returns incorrect SRC type!");
}
else if (l_err->termState() != ERRORLOG::TERM_STATE_UNKNOWN)
{
TS_FAIL("testErrl1: termState() returns incorrect term state!");
}
else
{
// Commit error log
errlCommit(l_err);
// Make sure error log has been deleted by manager
if (l_err != NULL)
{
TS_FAIL("testErrl1: commitErrLog() did not delete error!");
}
}
}
/**
* @brief Test error log parameter settings
*/
void testErrl2(void)
{
// An example that shows how to use macros to stuff data into
// the two 64-bit user data parameters in the error log.
// l_userData1 = l_bit32_1:l_bit32_2
uint32_t l_32bit_1 = TEST_USR_32BIT_1;
uint32_t l_32bit_2 = TEST_USR_32BIT_2;
uint64_t l_userData1 = TWO_UINT32_TO_UINT64(l_32bit_1, l_32bit_2);
// l_userData2 = 24bit(0):l_8bit_1:16bit(0):l_16bit_1
uint8_t l_8bit_1 = TEST_USR_8BIT_1;
uint16_t l_16bit_1 = TEST_USR_16BIT_1;
uint64_t l_userData2 =
TWO_UINT32_TO_UINT64(TO_UINT32(l_8bit_1), TO_UINT32(l_16bit_1));
// Create an error log
errlHndl_t l_err = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
TEST_MOD_ID,
TEST_REASON_CODE,
l_userData1,
l_userData2);
// Make sure log is created
if (l_err == NULL)
{
TS_FAIL("testErrl2: createErrlLog() returns NULL pointer!");
}
else
{
// Set and verify log data
l_err->setSev(ERRORLOG::ERRL_SEV_UNKNOWN);
l_err->setEventType(ERRORLOG::ERRL_ETYPE_CAPACITY_UPGRADE);
l_err->setSubSys(ERRORLOG::EPUB_UNKNOWN);
l_err->setSrcType(ERRORLOG::SRC_ERR_INFO);
l_err->setTermState(ERRORLOG::TERM_STATE_NO_FLAGS);
if (l_err->sev() != ERRORLOG::ERRL_SEV_UNKNOWN)
{
TS_FAIL("testErrl2: setSev() fails!");
}
else if (l_err->eventType() != ERRORLOG::ERRL_ETYPE_CAPACITY_UPGRADE)
{
TS_FAIL("testErrl2: setEventType() fails!");
}
else if (l_err->subSys() != ERRORLOG::EPUB_UNKNOWN)
{
TS_FAIL("testErrl2: setSubSys() fails!");
}
else if (l_err->srcType() != ERRORLOG::SRC_ERR_INFO)
{
TS_FAIL("testErrl2: setSrcType() fails!");
}
else if (l_err->termState() != ERRORLOG::TERM_STATE_NO_FLAGS)
{
TS_FAIL("testErrl2: setTermState() fails!");
}
// Delete the log
delete l_err;
l_err = NULL;
}
}
};
#endif
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