/* $Id: tstRTErr-1.cpp 84068 2020-04-28 23:34:42Z vboxsync $ */ /** @file * IPRT Testcase - Error Messages. */ /* * Copyright (C) 2020 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include #include #include static void tstIprtStatuses(RTTEST hTest) { RTTestSub(hTest, "IPRT status codes"); char szMsgShort[640]; char szMsgFull[sizeof(szMsgShort)]; char szMsgAll[sizeof(szMsgShort) + 80]; size_t const cbBuf = sizeof(szMsgShort); char * const pszBuf = (char *)RTTestGuardedAllocTail(hTest, cbBuf); RTTESTI_CHECK_RETV(pszBuf); static const struct { int rc; const char *pszDefine; } s_aTests[] = { { VINF_SUCCESS, "VINF_SUCCESS" }, { VERR_INVALID_PARAMETER, "VERR_INVALID_PARAMETER" }, { VERR_NOT_IMPLEMENTED, "VERR_NOT_IMPLEMENTED" }, { VERR_NUMBER_TOO_BIG, "VERR_NUMBER_TOO_BIG" }, { VWRN_NUMBER_TOO_BIG, "VWRN_NUMBER_TOO_BIG" }, { VERR_CANCELLED, "VERR_CANCELLED" }, { VERR_ISOMK_IMPORT_BOOT_CAT_DEF_ENTRY_INVALID_BOOT_IND, "VERR_ISOMK_IMPORT_BOOT_CAT_DEF_ENTRY_INVALID_BOOT_IND" }, { VERR_CR_CIPHER_INVALID_INITIALIZATION_VECTOR_LENGTH, "VERR_CR_CIPHER_INVALID_INITIALIZATION_VECTOR_LENGTH" }, }; for (size_t i = 0; i < RT_ELEMENTS(s_aTests); i++) { int const rc = s_aTests[i].rc; const char * const pszDefine = s_aTests[i].pszDefine; size_t const cchDefine = strlen(pszDefine); if (RTErrIsKnown(rc) != true) RTTestFailed(hTest, "RTErrIsKnown(%s) did not return true", pszDefine); RTTestDisableAssertions(hTest); size_t cchMsgShort = ~(size_t)0; size_t cchMsgFull = ~(size_t)0; size_t cchMsgAll = ~(size_t)0; size_t cbBuf2 = cbBuf - 1; while (cbBuf2-- > 0) { #define CHECK_TEST_RESULT(a_szFunction, a_pszExpect, a_cchExpect) do { \ if (cbBuf2 > (a_cchExpect) && cchRet != (ssize_t)(a_cchExpect)) \ RTTestFailed(hTest, "%s(%s, , %#x) -> %zd, expected %zd", a_szFunction, pszDefine, cbBuf2, \ cchRet, (a_cchExpect)); \ else if (cbBuf2 <= (a_cchExpect) && cchRet != VERR_BUFFER_OVERFLOW) \ RTTestFailed(hTest, "%s(%s, , %#x) -> %zd, expected %d", a_szFunction, pszDefine, cbBuf2, \ cchRet, VERR_BUFFER_OVERFLOW); \ else if (cbBuf2 > (a_cchExpect) && memcmp(pszBuf2, (a_pszExpect), (a_cchExpect) + 1) != 0) \ RTTestFailed(hTest, "%s(%s, , %#x) -> '%.*s', expected '%s'", a_szFunction, pszDefine, cbBuf2, \ cbBuf2, pszBuf2, (a_pszExpect)); \ /* Only check that it's terminated. Compression may exit before it's quite full. */ \ else if (cbBuf2 > 0 && RTStrNLen(pszBuf2, cbBuf2) >= cbBuf2) \ RTTestFailed(hTest, "%s(%s, , %#x) -> result not terminated", a_szFunction, pszDefine, cbBuf2); \ } while (0) /* RTErrQueryDefine: */ memset(pszBuf, '?', cbBuf); char *pszBuf2 = &pszBuf[cbBuf - cbBuf2]; ssize_t cchRet = RTErrQueryDefine(rc, pszBuf2, cbBuf2, false); CHECK_TEST_RESULT("RTErrQueryDefine", pszDefine, cchDefine); /* RTErrQueryMsgShort: */ memset(pszBuf, '?', cbBuf); cchRet = RTErrQueryMsgShort(rc, pszBuf2, cbBuf2, false); if (cchMsgShort == ~(size_t)0) { cchMsgShort = (size_t)cchRet; memcpy(szMsgShort, pszBuf2, cchMsgShort); szMsgShort[cchMsgShort] = '\0'; } CHECK_TEST_RESULT("RTErrQueryMsgShort", szMsgShort, cchMsgShort); /* RTErrQueryMsgFull: */ memset(pszBuf, '?', cbBuf); cchRet = RTErrQueryMsgFull(rc, pszBuf2, cbBuf2, false); if (cchMsgFull == ~(size_t)0) { cchMsgFull = (size_t)cchRet; memcpy(szMsgFull, pszBuf2, cchMsgFull); szMsgFull[cchMsgFull] = '\0'; } CHECK_TEST_RESULT("RTErrQueryMsgFull", szMsgFull, cchMsgFull); /* Same thru the string formatter. */ #define CHECK_TEST_RESULT2(a_szFunction, a_pszExpect, a_cchExpect) do { \ ssize_t const cchLocalExpect = cbBuf2 > (a_cchExpect) ? (ssize_t)(a_cchExpect) : -(ssize_t)(a_cchExpect) - 1; \ if (cchRet != cchLocalExpect && cchRet > 0) \ RTTestFailed(hTest, "%s(%s, , %#x) -> %zd, expected %zd ('%s' vs '%s')", a_szFunction, pszDefine, cbBuf2, \ cchRet, cchLocalExpect, pszBuf2, (a_pszExpect)); \ else if (cchRet != cchLocalExpect && cchRet <= 0) \ RTTestFailed(hTest, "%s(%s, , %#x) -> %zd, expected %zd", a_szFunction, pszDefine, cbBuf2, \ cchRet, cchLocalExpect); \ else if (cbBuf2 > 0 && memcmp(pszBuf2, (a_pszExpect), RT_MIN(cbBuf2 - 1, (a_cchExpect) + 1)) != 0) \ RTTestFailed(hTest, "%s(%s, , %#x) -> '%.*s', expected '%s'", a_szFunction, pszDefine, cbBuf2, \ cbBuf2, pszBuf2, (a_pszExpect)); \ else if (cbBuf2 > 0 && cbBuf2 <= (a_cchExpect) && pszBuf2[cbBuf2 - 1] != '\0') \ RTTestFailed(hTest, "%s(%s, , %#x) -> result not terminated", a_szFunction, pszDefine, cbBuf2); \ } while (0) memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rrc", rc); CHECK_TEST_RESULT2("RTErrFormatDefine/%Rrc", pszDefine, cchDefine); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rrs", rc); CHECK_TEST_RESULT2("RTErrFormatMsgShort/%Rrs", szMsgShort, cchMsgShort); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rrf", rc); CHECK_TEST_RESULT2("RTErrFormatMsgFull/%Rrf", szMsgFull, cchMsgFull); if (cchMsgAll == ~(size_t)0) cchMsgAll = RTStrPrintf(szMsgAll, sizeof(szMsgAll), "%s (%d) - %s", pszDefine, rc, szMsgFull); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rra", rc); CHECK_TEST_RESULT2("RTErrFormatMsgAll/%Rra", szMsgAll, cchMsgAll); } RTTestRestoreAssertions(hTest); } /* * Same but for an unknown status code. */ static const int s_arcUnknowns[] = { -270, 270, -88888888, 88888888, }; for (size_t i = 0; i < RT_ELEMENTS(s_arcUnknowns); i++) { int const rc = s_arcUnknowns[i]; if (RTErrIsKnown(rc) != false) RTTestFailed(hTest, "RTErrIsKnown(%d) did not return false", rc); size_t const cchDefine = RTStrPrintf(szMsgFull, sizeof(szMsgFull), "%d", rc); const char * const pszDefine = szMsgFull; size_t const cchMsg = RTStrPrintf(szMsgShort, sizeof(szMsgShort), "Unknown Status %d (%#x)", rc, rc); const char * const pszMsg = szMsgShort; RTTestDisableAssertions(hTest); size_t cbBuf2 = cbBuf - 1; while (cbBuf2-- > 0) { /* RTErrQueryDefine: */ memset(pszBuf, '?', cbBuf); char *pszBuf2 = &pszBuf[cbBuf - cbBuf2]; ssize_t cchRet = RTErrQueryDefine(rc, pszBuf2, cbBuf2, false); CHECK_TEST_RESULT("RTErrQueryDefine", pszDefine, cchDefine); RTTEST_CHECK(hTest, RTErrQueryDefine(rc, pszBuf2, cbBuf2, true) == VERR_NOT_FOUND); /* RTErrQueryMsgShort: */ memset(pszBuf, '?', cbBuf); cchRet = RTErrQueryMsgShort(rc, pszBuf2, cbBuf2, false); CHECK_TEST_RESULT("RTErrQueryMsgShort", pszMsg, cchMsg); RTTEST_CHECK(hTest, RTErrQueryMsgShort(rc, pszBuf2, cbBuf2, true) == VERR_NOT_FOUND); /* RTErrQueryMsgFull: */ memset(pszBuf, '?', cbBuf); cchRet = RTErrQueryMsgFull(rc, pszBuf2, cbBuf2, false); CHECK_TEST_RESULT("RTErrQueryMsgFull", pszMsg, cchMsg); RTTEST_CHECK(hTest, RTErrQueryMsgFull(rc, pszBuf2, cbBuf2, true) == VERR_NOT_FOUND); /* Same thru the string formatter. */ memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rrc", rc); CHECK_TEST_RESULT2("RTErrFormatDefine/%Rrc", pszDefine, cchDefine); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rrs", rc); CHECK_TEST_RESULT2("RTErrFormatMsgShort/%Rrs", pszMsg, cchMsg); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rrf", rc); CHECK_TEST_RESULT2("RTErrFormatMsgFull/%Rrf", pszMsg, cchMsg); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rra", rc); CHECK_TEST_RESULT2("RTErrFormatMsgAll/%Rra", pszMsg, cchMsg); } RTTestRestoreAssertions(hTest); } RTTestGuardedFree(hTest, pszBuf); } #ifdef RT_OS_WINDOWS static void tstWinComStatuses(RTTEST hTest) { RTTestSub(hTest, "COM/Win status codes"); char szMsg[640]; char szMsgAll[sizeof(szMsg) + 80]; size_t const cbBuf = sizeof(szMsg); char * const pszBuf = (char *)RTTestGuardedAllocTail(hTest, cbBuf); RTTESTI_CHECK_RETV(pszBuf); static const struct { int32_t rc; const char *pszDefine; } s_aTests[] = { { (int32_t)0x00000000, "ERROR_SUCCESS" }, { (int32_t)0x0000000e, "ERROR_OUTOFMEMORY" }, { (int32_t)0x8007000e, "E_OUTOFMEMORY" }, { (int32_t)0x00000057, "ERROR_INVALID_PARAMETER" }, { (int32_t)0x80070057, "E_INVALIDARG" }, { (int32_t)0x80004005, "E_FAIL" }, { (int32_t)0x00000783, "RPC_S_NOT_ALL_OBJS_EXPORTED" }, }; for (size_t i = 0; i < RT_ELEMENTS(s_aTests); i++) { int32_t const rc = s_aTests[i].rc; const char * const pszDefine = s_aTests[i].pszDefine; size_t const cchDefine = strlen(pszDefine); if (RTErrWinIsKnown(rc) != true) RTTestFailed(hTest, "RTErrIsKnown(%s) did not return true", pszDefine); RTTestDisableAssertions(hTest); size_t cchMsg = ~(size_t)0; size_t cchMsgAll = ~(size_t)0; size_t cbBuf2 = cbBuf - 1; while (cbBuf2-- > 0) { /* RTErrQueryDefine: */ memset(pszBuf, '?', cbBuf); char *pszBuf2 = &pszBuf[cbBuf - cbBuf2]; ssize_t cchRet = RTErrWinQueryDefine(rc, pszBuf2, cbBuf2, false); CHECK_TEST_RESULT("RTErrWinQueryDefine", pszDefine, cchDefine); /* Thru the string formatter. */ memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rwc", rc); CHECK_TEST_RESULT2("RTErrWinFormatDefine/%Rwc", pszDefine, cchDefine); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rhrc", rc); CHECK_TEST_RESULT2("RTErrWinFormatDefine/%Rhrc", pszDefine, cchDefine); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rwf", rc); if (cchMsg == ~(size_t)0) { cchMsg = (size_t)cchRet; memcpy(szMsg, pszBuf2, cchMsg + 1); } CHECK_TEST_RESULT2("RTErrWinFormatMsg/%Rwf", szMsg, cchMsg); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rhrf", rc); CHECK_TEST_RESULT2("RTErrWinFormatMsg/%Rhrf", szMsg, cchMsg); if (cchMsgAll == ~(size_t)0) cchMsgAll = RTStrPrintf(szMsgAll, sizeof(szMsgAll), "%s (%#x) - %s", pszDefine, rc, szMsg); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rwa", rc); CHECK_TEST_RESULT2("RTErrWinFormatMsgAll/%Rwa", szMsgAll, cchMsgAll); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rhra", rc); CHECK_TEST_RESULT2("RTErrWinFormatMsgAll/%Rhra", szMsgAll, cchMsgAll); } RTTestRestoreAssertions(hTest); } /* * Same but for an unknown status code. */ static const int32_t s_arcUnknowns[] = { (int32_t)0xff88ff88, 0x0f88ff88, }; for (size_t i = 0; i < RT_ELEMENTS(s_arcUnknowns); i++) { int32_t const rc = s_arcUnknowns[i]; if (RTErrIsKnown(rc) != false) RTTestFailed(hTest, "RTErrIsKnown(%d) did not return false", rc); size_t const cchDefine = RTStrPrintf(szMsg, sizeof(szMsg), "%#x", rc); const char * const pszDefine = szMsg; size_t const cchMsg = RTStrPrintf(szMsgAll, sizeof(szMsgAll), "Unknown Status %#x", rc); const char * const pszMsg = szMsgAll; RTTestDisableAssertions(hTest); size_t cbBuf2 = cbBuf - 1; while (cbBuf2-- > 0) { /* RTErrWinQueryDefine: */ memset(pszBuf, '?', cbBuf); char *pszBuf2 = &pszBuf[cbBuf - cbBuf2]; ssize_t cchRet = RTErrWinQueryDefine(rc, pszBuf2, cbBuf2, false); CHECK_TEST_RESULT("RTErrWinQueryDefine", pszDefine, cchDefine); RTTEST_CHECK(hTest, RTErrWinQueryDefine(rc, pszBuf2, cbBuf2, true) == VERR_NOT_FOUND); /* Thru the string formatter. */ memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rwc", rc); CHECK_TEST_RESULT2("RTErrWinFormatDefine/%Rwc", pszDefine, cchDefine); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rhrc", rc); CHECK_TEST_RESULT2("RTErrWinFormatDefine/%Rhrc", pszDefine, cchDefine); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rwf", rc); CHECK_TEST_RESULT2("RTErrWinFormatMsg/%Rwf", pszMsg, cchMsg); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rhrf", rc); CHECK_TEST_RESULT2("RTErrWinFormatMsg/%Rhrf", pszMsg, cchMsg); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rwa", rc); CHECK_TEST_RESULT2("RTErrWinFormatMsgAll/%Rwa", pszMsg, cchMsg); memset(pszBuf, '?', cbBuf); cchRet = RTStrPrintf2(pszBuf2, cbBuf2, "%Rhra", rc); CHECK_TEST_RESULT2("RTErrWinFormatMsgAll/%Rhra", pszMsg, cchMsg); } RTTestRestoreAssertions(hTest); } } #endif int main(int argc, char **argv) { RT_NOREF2(argc, argv); RTTEST hTest; int rc = RTTestInitAndCreate("tstRTErr-1", &hTest); if (rc) return rc; RTTestBanner(hTest); tstIprtStatuses(hTest); #ifdef RT_OS_WINDOWS tstWinComStatuses(hTest); #else #endif /* * Summary */ return RTTestSummaryAndDestroy(hTest); }