/* $Id: tstRTCRest-1.cpp $ */ /** @file * IPRT Testcase - REST C++ classes. */ /* * Copyright (C) 2018-2023 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation, in version 3 of the * License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL), a copy of it is provided in the "COPYING.CDDL" file included * in the VirtualBox 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. * * SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0 */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include #include #include #include #include #include #include #include #include #include /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ static RTTEST g_hTest; static char *toJson(RTCRestObjectBase const *pObj) { RTCString str; RTCRestOutputToString Dst(&str, false); pObj->serializeAsJson(Dst); static char s_szReturnBuffer[4096]; RTStrCopy(s_szReturnBuffer, sizeof(s_szReturnBuffer), str.c_str()); return s_szReturnBuffer; } static int deserializeFromJson(RTCRestObjectBase *pObj, const char *pszJson, PRTERRINFOSTATIC pErrInfo, const char *pszName) { RTJSONVAL hValue; RTTESTI_CHECK_RC_OK_RET(RTJsonParseFromString(&hValue, pszJson, pErrInfo ? RTErrInfoInitStatic(pErrInfo) : NULL), rcCheck); RTCRestJsonPrimaryCursor Cursor(hValue, pszName, pErrInfo ? RTErrInfoInitStatic(pErrInfo) : NULL); return pObj->deserializeFromJson(Cursor.m_Cursor); } static int fromString(RTCRestObjectBase *pObj, const char *pszString, PRTERRINFOSTATIC pErrInfo, const char *pszName) { RTCString strValue(pszString); return pObj->fromString(strValue, pszName, pErrInfo ? RTErrInfoInitStatic(pErrInfo) : NULL); } static void testBool(void) { RTTestSub(g_hTest, "RTCRestBool"); { RTCRestBool obj1; RTTESTI_CHECK(obj1.m_fValue == false); RTTESTI_CHECK(obj1.isNull() == false); RTTESTI_CHECK(strcmp(obj1.typeName(), "bool") == 0); RTTESTI_CHECK(obj1.typeClass() == RTCRestObjectBase::kTypeClass_Bool); } { RTCRestBool obj2(true); RTTESTI_CHECK(obj2.m_fValue == true); RTTESTI_CHECK(obj2.isNull() == false); } { RTCRestBool obj2(false); RTTESTI_CHECK(obj2.m_fValue == false); RTTESTI_CHECK(obj2.isNull() == false); } { /* Value assignments: */ RTCRestBool obj3; RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); obj3.assignValue(true); RTTESTI_CHECK(obj3.m_fValue == true); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); obj3.assignValue(false); RTTESTI_CHECK(obj3.m_fValue == false); RTTESTI_CHECK(obj3.isNull() == false); obj3.assignValue(true); RTTESTI_CHECK(obj3.m_fValue == true); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_fValue == false); RTTESTI_CHECK(obj3.isNull() == false); obj3.assignValue(true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_fValue == false); RTTESTI_CHECK(obj3.isNull() == false); /* Copy assignments: */ RTCRestBool obj3True(true); RTTESTI_CHECK(obj3True.m_fValue == true); RTTESTI_CHECK(obj3True.isNull() == false); RTCRestBool obj3False(false); RTTESTI_CHECK(obj3False.m_fValue == false); RTTESTI_CHECK(obj3False.isNull() == false); RTCRestBool obj3Null; obj3Null.setNull(); RTTESTI_CHECK(obj3Null.m_fValue == false); RTTESTI_CHECK(obj3Null.isNull() == true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignCopy(obj3True), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_fValue == true); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Null), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_fValue == false); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK_RC(obj3.assignCopy(obj3False), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_fValue == false); RTTESTI_CHECK(obj3.isNull() == false); obj3 = obj3Null; RTTESTI_CHECK(obj3.m_fValue == false); RTTESTI_CHECK(obj3.isNull() == true); obj3 = obj3True; RTTESTI_CHECK(obj3.m_fValue == true); RTTESTI_CHECK(obj3.isNull() == false); obj3 = obj3Null; RTTESTI_CHECK(obj3.m_fValue == false); RTTESTI_CHECK(obj3.isNull() == true); obj3 = obj3False; RTTESTI_CHECK(obj3.m_fValue == false); RTTESTI_CHECK(obj3.isNull() == false); /* setNull implies resetToDefault: */ obj3 = obj3True; RTTESTI_CHECK(obj3.m_fValue == true); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK(obj3.m_fValue == false); /* Copy constructors: */ { RTCRestBool obj3a(obj3True); RTTESTI_CHECK(obj3a.m_fValue == true); RTTESTI_CHECK(obj3a.isNull() == false); } { RTCRestBool obj3b(obj3False); RTTESTI_CHECK(obj3b.m_fValue == false); RTTESTI_CHECK(obj3b.isNull() == false); } { RTCRestBool obj3c(obj3Null); RTTESTI_CHECK(obj3c.m_fValue == false); RTTESTI_CHECK(obj3c.isNull() == true); } /* Serialization to json: */ const char *pszJson = toJson(&obj3True); RTTESTI_CHECK_MSG(strcmp(pszJson, "true") == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3False); RTTESTI_CHECK_MSG(strcmp(pszJson, "false") == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Null); RTTESTI_CHECK_MSG(strcmp(pszJson, "null") == 0, ("pszJson=%s\n", pszJson)); /* Serialization to string. */ RTCString str; str = "lead-in:"; RTTESTI_CHECK_RC(obj3True.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:true"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3True.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("true"), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3False.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:false"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3False.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("false"), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Null.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:null"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Null.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("null"), ("str=%s\n", str.c_str())); } /* deserialize: */ RTERRINFOSTATIC ErrInfo; { RTCRestBool obj4; obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "false", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "true", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == true); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == true); /* object goes to default state on failure: */ RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "0", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_BOOL); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); obj4.assignValue(true); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"false\"", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_BOOL); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "[ null ]", NULL, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_BOOL); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, "true", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == true); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "false", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == false); obj4.m_fValue = true; RTTESTI_CHECK_RC(fromString(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == true); obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, " TrUe ", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == true); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "\tfAlSe;", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "\r\nfAlSe\n;", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "\r\tNuLl\n;", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_fValue == false); RTTESTI_CHECK(obj4.isNull() == true); RTTESTI_CHECK_RC(fromString(&obj4, "1", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_UNABLE_TO_PARSE_STRING_AS_BOOL); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); RTTESTI_CHECK_RC(fromString(&obj4, "0", NULL, RT_XSTR(__LINE__)), VERR_REST_UNABLE_TO_PARSE_STRING_AS_BOOL); } } class Int64Constants { public: Int64Constants() {} const char *getSubName() const { return "RTCRestInt64"; } int64_t getMin() const { return INT64_MIN; } const char *getMinStr() const { return "-9223372036854775808"; } int64_t getMax() const { return INT64_MAX; } const char *getMaxStr() const { return "9223372036854775807"; } const char *getTypeName() const { return "int64_t"; } RTCRestObjectBase::kTypeClass getTypeClass() const { return RTCRestObjectBase::kTypeClass_Int64; } }; class Int32Constants { public: Int32Constants() { } const char *getSubName() const { return "RTCRestInt32"; } int32_t getMin() const { return INT32_MIN; } const char *getMinStr() const { return "-2147483648"; } int32_t getMax() const { return INT32_MAX; } const char *getMaxStr() const { return "2147483647"; } const char *getTypeName() const { return "int32_t"; } RTCRestObjectBase::kTypeClass getTypeClass() const { return RTCRestObjectBase::kTypeClass_Int32; } }; class Int16Constants { public: Int16Constants() { } const char *getSubName() const { return "RTCRestInt16"; } int16_t getMin() const { return INT16_MIN; } const char *getMinStr() const { return "-32768"; } int16_t getMax() const { return INT16_MAX; } const char *getMaxStr() const { return "32767"; } const char *getTypeName() const { return "int16_t"; } RTCRestObjectBase::kTypeClass getTypeClass() const { return RTCRestObjectBase::kTypeClass_Int16; } }; template void testInteger(void) { ConstantClass const Consts; RTTestSub(g_hTest, Consts.getSubName()); { RestType obj1; RTTESTI_CHECK(obj1.m_iValue == 0); RTTESTI_CHECK(obj1.isNull() == false); RTTESTI_CHECK(strcmp(obj1.typeName(), Consts.getTypeName()) == 0); RTTESTI_CHECK(obj1.typeClass() == Consts.getTypeClass()); } { RestType obj2(2398); RTTESTI_CHECK(obj2.m_iValue == 2398); RTTESTI_CHECK(obj2.isNull() == false); } { RestType obj2(-7345); RTTESTI_CHECK(obj2.m_iValue == -7345); RTTESTI_CHECK(obj2.isNull() == false); } { /* Value assignments: */ RestType obj3; RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK(obj3.m_iValue == 0); obj3.assignValue(-1); RTTESTI_CHECK(obj3.m_iValue == -1); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); obj3.assignValue(42); RTTESTI_CHECK(obj3.m_iValue == 42); RTTESTI_CHECK(obj3.isNull() == false); obj3.assignValue(Consts.getMax()); RTTESTI_CHECK(obj3.m_iValue == Consts.getMax()); RTTESTI_CHECK(obj3.isNull() == false); obj3.assignValue(Consts.getMin()); RTTESTI_CHECK(obj3.m_iValue == Consts.getMin()); RTTESTI_CHECK(obj3.isNull() == false); /* Reset to default: */ RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_iValue == 0); RTTESTI_CHECK(obj3.isNull() == false); obj3.assignValue(42); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_iValue == 0); RTTESTI_CHECK(obj3.isNull() == false); /* Copy assignments: */ RestType obj3Max(Consts.getMax()); RTTESTI_CHECK(obj3Max.m_iValue == Consts.getMax()); RTTESTI_CHECK(obj3Max.isNull() == false); RestType obj3Min(Consts.getMin()); RTTESTI_CHECK(obj3Min.m_iValue == Consts.getMin()); RTTESTI_CHECK(obj3Min.isNull() == false); RestType obj3Null; obj3Null.setNull(); RTTESTI_CHECK(obj3Null.m_iValue == 0); RTTESTI_CHECK(obj3Null.isNull() == true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Max), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_iValue == Consts.getMax()); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Null), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_iValue == 0); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Min), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_iValue == Consts.getMin()); RTTESTI_CHECK(obj3.isNull() == false); obj3 = obj3Null; RTTESTI_CHECK(obj3.m_iValue == 0); RTTESTI_CHECK(obj3.isNull() == true); obj3 = obj3Max; RTTESTI_CHECK(obj3.m_iValue == Consts.getMax()); RTTESTI_CHECK(obj3.isNull() == false); obj3 = obj3Null; RTTESTI_CHECK(obj3.m_iValue == 0); RTTESTI_CHECK(obj3.isNull() == true); obj3 = obj3Min; RTTESTI_CHECK(obj3.m_iValue == Consts.getMin()); RTTESTI_CHECK(obj3.isNull() == false); /* setNull implies resetToDefault: */ obj3 = obj3Max; RTTESTI_CHECK(obj3.m_iValue == Consts.getMax()); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK(obj3.m_iValue == 0); /* Copy constructors: */ { RestType obj3a(obj3Max); RTTESTI_CHECK(obj3a.m_iValue == Consts.getMax()); RTTESTI_CHECK(obj3a.isNull() == false); } { RestType obj3b(obj3Min); RTTESTI_CHECK(obj3b.m_iValue == Consts.getMin()); RTTESTI_CHECK(obj3b.isNull() == false); } { RestType obj3c(obj3Null); RTTESTI_CHECK(obj3c.m_iValue == 0); RTTESTI_CHECK(obj3c.isNull() == true); } /* Serialization to json: */ const char *pszJson = toJson(&obj3Max); RTTESTI_CHECK_MSG(strcmp(pszJson, Consts.getMaxStr()) == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Min); RTTESTI_CHECK_MSG(strcmp(pszJson, Consts.getMinStr()) == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Null); RTTESTI_CHECK_MSG(strcmp(pszJson, "null") == 0, ("pszJson=%s\n", pszJson)); /* Serialization to string. */ RTCString str; RTCString strExpect; str = "lead-in:"; RTTESTI_CHECK_RC(obj3Max.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); strExpect.printf("lead-in:%s", Consts.getMaxStr()); RTTESTI_CHECK_MSG(str.equals(strExpect), ("str=%s strExpect=%s\n", str.c_str(), strExpect.c_str())); RTTESTI_CHECK_RC(obj3Max.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals(Consts.getMaxStr()), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Min.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); strExpect.printf("lead-in:%s", Consts.getMinStr()); RTTESTI_CHECK_MSG(str.equals(strExpect), ("str=%s strExpect=%s\n", str.c_str(), strExpect.c_str())); RTTESTI_CHECK_RC(obj3Min.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals(Consts.getMinStr()), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Null.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:null"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Null.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("null"), ("str=%s\n", str.c_str())); } /* deserialize: */ RTERRINFOSTATIC ErrInfo; { /* from json: */ RestType obj4; obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "42", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == 42); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "-22", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == -22); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, Consts.getMaxStr(), &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == Consts.getMax()); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, Consts.getMinStr(), &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == Consts.getMin()); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == 0); RTTESTI_CHECK(obj4.isNull() == true); /* object goes to default state on failure: */ obj4.assignValue(Consts.getMin()); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "0.0", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_INTEGER); RTTESTI_CHECK(obj4.m_iValue == 0); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); obj4.assignValue(Consts.getMax()); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"false\"", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_INTEGER); RTTESTI_CHECK(obj4.m_iValue == 0); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "[ null ]", NULL, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_INTEGER); RTTESTI_CHECK(obj4.m_iValue == 0); RTTESTI_CHECK(obj4.isNull() == false); /* from string: */ obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, "22", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == 22); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "-42", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == -42); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, Consts.getMaxStr(), &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == Consts.getMax()); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, Consts.getMinStr(), &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == Consts.getMin()); RTTESTI_CHECK(obj4.isNull() == false); obj4.m_iValue = 33; RTTESTI_CHECK_RC(fromString(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == 0); RTTESTI_CHECK(obj4.isNull() == true); obj4.m_iValue = 33; RTTESTI_CHECK_RC(fromString(&obj4, " nULl;", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == 0); RTTESTI_CHECK(obj4.isNull() == true); obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, " 0x42 ", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == 0x42); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "\t010\t", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == 8); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "\r\t0X4FDB\t", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_iValue == 0x4fdb); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "1.1", &ErrInfo, RT_XSTR(__LINE__)), VERR_TRAILING_CHARS); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); RTTESTI_CHECK_RC(fromString(&obj4, "false", NULL, RT_XSTR(__LINE__)), VERR_NO_DIGITS); } } void testDouble(void) { RTTestSub(g_hTest, "RTCRestDouble"); #define TST_DBL_MAX (1.79769313486231571e+308) #define TST_DBL_MIN (2.22507385850720138e-308) #define TST_DBL_MAX_STRING1 "1.79769313486231571e+308" #define TST_DBL_MAX_STRING2 "1.7976931348623157e+308" #define TST_DBL_MAX_EQUAL(a_psz) ( strcmp(a_psz, TST_DBL_MAX_STRING1) == 0 || strcmp(a_psz, TST_DBL_MAX_STRING2) == 0 ) #define TST_DBL_MIN_STRING1 "2.22507385850720138e-308" #define TST_DBL_MIN_STRING2 "2.2250738585072014e-308" #define TST_DBL_MIN_EQUAL(a_psz) ( strcmp(a_psz, TST_DBL_MIN_STRING1) == 0 || strcmp(a_psz, TST_DBL_MIN_STRING2) == 0 ) { RTCRestDouble obj1; RTTESTI_CHECK(obj1.m_rdValue == 0.0); RTTESTI_CHECK(obj1.isNull() == false); RTTESTI_CHECK(strcmp(obj1.typeName(), "double") == 0); RTTESTI_CHECK(obj1.typeClass() == RTCRestObjectBase::kTypeClass_Double); } { RTCRestDouble obj2(2398.1); RTTESTI_CHECK(obj2.m_rdValue == 2398.1); RTTESTI_CHECK(obj2.isNull() == false); } { RTCRestDouble obj2(-7345.2); RTTESTI_CHECK(obj2.m_rdValue == -7345.2); RTTESTI_CHECK(obj2.isNull() == false); } { /* Value assignments: */ RTCRestDouble obj3; RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK(obj3.m_rdValue == 0.0); obj3.assignValue(-1.0); RTTESTI_CHECK(obj3.m_rdValue == -1.0); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); obj3.assignValue(42.42); RTTESTI_CHECK(obj3.m_rdValue == 42.42); RTTESTI_CHECK(obj3.isNull() == false); obj3.assignValue(TST_DBL_MAX); RTTESTI_CHECK(obj3.m_rdValue == TST_DBL_MAX); RTTESTI_CHECK(obj3.isNull() == false); obj3.assignValue(TST_DBL_MIN); RTTESTI_CHECK(obj3.m_rdValue == TST_DBL_MIN); RTTESTI_CHECK(obj3.isNull() == false); /* Reset to default: */ RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_rdValue == 0.0); RTTESTI_CHECK(obj3.isNull() == false); obj3.assignValue(42); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_rdValue == 0.0); RTTESTI_CHECK(obj3.isNull() == false); /* Copy assignments: */ RTCRestDouble obj3Max(TST_DBL_MAX); RTTESTI_CHECK(obj3Max.m_rdValue == TST_DBL_MAX); RTTESTI_CHECK(obj3Max.isNull() == false); RTCRestDouble obj3Min(TST_DBL_MIN); RTTESTI_CHECK(obj3Min.m_rdValue == TST_DBL_MIN); RTTESTI_CHECK(obj3Min.isNull() == false); RTCRestDouble obj3Null; obj3Null.setNull(); RTTESTI_CHECK(obj3Null.m_rdValue == 0.0); RTTESTI_CHECK(obj3Null.isNull() == true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Max), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_rdValue == TST_DBL_MAX); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Null), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_rdValue == 0.0); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Min), VINF_SUCCESS); RTTESTI_CHECK(obj3.m_rdValue == TST_DBL_MIN); RTTESTI_CHECK(obj3.isNull() == false); obj3 = obj3Null; RTTESTI_CHECK(obj3.m_rdValue == 0.0); RTTESTI_CHECK(obj3.isNull() == true); obj3 = obj3Max; RTTESTI_CHECK(obj3.m_rdValue == TST_DBL_MAX); RTTESTI_CHECK(obj3.isNull() == false); obj3 = obj3Null; RTTESTI_CHECK(obj3.m_rdValue == 0.0); RTTESTI_CHECK(obj3.isNull() == true); obj3 = obj3Min; RTTESTI_CHECK(obj3.m_rdValue == TST_DBL_MIN); RTTESTI_CHECK(obj3.isNull() == false); /* setNull implies resetToDefault: */ obj3 = obj3Max; RTTESTI_CHECK(obj3.m_rdValue == TST_DBL_MAX); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK(obj3.m_rdValue == 0.0); /* Copy constructors: */ { RTCRestDouble obj3a(obj3Max); RTTESTI_CHECK(obj3a.m_rdValue == TST_DBL_MAX); RTTESTI_CHECK(obj3a.isNull() == false); } { RTCRestDouble obj3b(obj3Min); RTTESTI_CHECK(obj3b.m_rdValue == TST_DBL_MIN); RTTESTI_CHECK(obj3b.isNull() == false); } { RTCRestDouble obj3c(obj3Null); RTTESTI_CHECK(obj3c.m_rdValue == 0.0); RTTESTI_CHECK(obj3c.isNull() == true); } /* Serialization to json: */ const char *pszJson = toJson(&obj3Max); RTTESTI_CHECK_MSG(TST_DBL_MAX_EQUAL(pszJson), ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Min); RTTESTI_CHECK_MSG(TST_DBL_MIN_EQUAL(pszJson), ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Null); RTTESTI_CHECK_MSG(strcmp(pszJson, "null") == 0, ("pszJson=%s\n", pszJson)); /* Serialization to string. */ RTCString str; RTCString strExpect1; RTCString strExpect2; str = "lead-in:"; RTTESTI_CHECK_RC(obj3Max.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); strExpect1.printf("lead-in:%s", TST_DBL_MAX_STRING1); strExpect2.printf("lead-in:%s", TST_DBL_MAX_STRING2); RTTESTI_CHECK_MSG(str.equals(strExpect1) || str.equals(strExpect2), ("str=%s strExpect1=%s strExpect2=%s\n", str.c_str(), strExpect1.c_str(), strExpect2.c_str())); RTTESTI_CHECK_RC(obj3Max.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(TST_DBL_MAX_EQUAL(str.c_str()), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Min.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); strExpect1.printf("lead-in:%s", TST_DBL_MIN_STRING1); strExpect2.printf("lead-in:%s", TST_DBL_MIN_STRING2); RTTESTI_CHECK_MSG(str.equals(strExpect1) || str.equals(strExpect2), ("str=%s strExpect1=%s strExpect2=%s\n", str.c_str(), strExpect1.c_str(), strExpect2.c_str())); RTTESTI_CHECK_RC(obj3Min.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(TST_DBL_MIN_EQUAL(str.c_str()), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Null.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:null"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Null.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("null"), ("str=%s\n", str.c_str())); } /* deserialize: */ RTERRINFOSTATIC ErrInfo; { /* Some linux systems and probably all Solaris fail to parse the longer MIN string, so just detect and skip. */ bool fGroksMinString = true; #if defined(RT_OS_LINUX) || defined(RT_OS_SOLARIS) RTJSONVAL hTmpValue = NIL_RTJSONVAL; int rcTmp = RTJsonParseFromString(&hTmpValue, TST_DBL_MIN_STRING1, NULL); RTJsonValueRelease(hTmpValue); if (rcTmp == VERR_INVALID_PARAMETER || rcTmp == VERR_OUT_OF_RANGE) fGroksMinString = false; #endif /* from json: */ RTCRestDouble obj4; obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "42.42", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 42.42); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "-22.22", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == -22.22); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, TST_DBL_MAX_STRING1, &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == TST_DBL_MAX); RTTESTI_CHECK(obj4.isNull() == false); if (fGroksMinString) { obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, TST_DBL_MIN_STRING1, &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == TST_DBL_MIN); RTTESTI_CHECK(obj4.isNull() == false); } RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 0.0); RTTESTI_CHECK(obj4.isNull() == true); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "14323", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 14323.0); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "-234875", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == -234875.0); RTTESTI_CHECK(obj4.isNull() == false); /* object goes to default state on failure: */ obj4.assignValue(TST_DBL_MIN); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "false", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_DOUBLE); RTTESTI_CHECK(obj4.m_rdValue == 0.0); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); obj4.assignValue(TST_DBL_MAX); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"false\"", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_DOUBLE); RTTESTI_CHECK(obj4.m_rdValue == 0.0); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "[ null ]", NULL, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_DOUBLE); RTTESTI_CHECK(obj4.m_rdValue == 0.0); RTTESTI_CHECK(obj4.isNull() == false); /* from string: */ obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, "22.42", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 22.42); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "-42.22", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == -42.22); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, TST_DBL_MAX_STRING1, &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == TST_DBL_MAX); RTTESTI_CHECK(obj4.isNull() == false); if (fGroksMinString) { RTTESTI_CHECK_RC(fromString(&obj4, TST_DBL_MIN_STRING1, &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == TST_DBL_MIN); RTTESTI_CHECK(obj4.isNull() == false); } obj4.m_rdValue = 33.33; RTTESTI_CHECK_RC(fromString(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 0.0); RTTESTI_CHECK(obj4.isNull() == true); obj4.m_rdValue = 33.33; RTTESTI_CHECK_RC(fromString(&obj4, " nULl;", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 0.0); RTTESTI_CHECK(obj4.isNull() == true); obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, " 42.22 ", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 42.22); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "\t010\t", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue ==10.0); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "\r\t03495.344\t\r\n", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 3495.344); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "1.1;", &ErrInfo, RT_XSTR(__LINE__)), VERR_TRAILING_CHARS); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); RTTESTI_CHECK_RC(fromString(&obj4, "false", NULL, RT_XSTR(__LINE__)), VERR_NO_DIGITS); #if (!defined(RT_OS_WINDOWS) && !defined(VBOX_SOLARIS_WITHOUT_XPG6_ENABLED)) || RT_MSC_PREREQ(RT_MSC_VER_VS2015) RTTESTI_CHECK_RC(fromString(&obj4, " 0x42 ", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.m_rdValue == 66.0); #else RTTESTI_CHECK_RC(fromString(&obj4, " 0x42 ", &ErrInfo, RT_XSTR(__LINE__)), VERR_TRAILING_CHARS); RTTESTI_CHECK(obj4.m_rdValue == 0.0); #endif RTTESTI_CHECK(obj4.isNull() == false); } } void testString(const char *pszDummy, ...) { RTTestSub(g_hTest, "RTCRestString"); { RTCRestString obj1; RTTESTI_CHECK(obj1.isEmpty()); RTTESTI_CHECK(obj1.isNull() == false); RTTESTI_CHECK(strcmp(obj1.typeName(), "RTCString") == 0); RTTESTI_CHECK(obj1.typeClass() == RTCRestObjectBase::kTypeClass_String); } { RTCRestString obj2(RTCString("2398.1")); RTTESTI_CHECK(obj2 == "2398.1"); RTTESTI_CHECK(obj2.isNull() == false); } { RTCRestString obj2("-7345.2"); RTTESTI_CHECK(obj2 == "-7345.2"); RTTESTI_CHECK(obj2.isNull() == false); } { /* Value assignments: */ RTCRestString obj3; RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK(obj3.isEmpty()); obj3 = "-1.0"; RTTESTI_CHECK(obj3 == "-1.0"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); obj3 = RTCString("-2.0"); RTTESTI_CHECK(obj3 == "-2.0"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); obj3 = RTCRestString("-3.0"); RTTESTI_CHECK(obj3 == "-3.0"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignNoThrow(RTCRestString("4.0")), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "4.0"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignNoThrow("-4.0"), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "-4.0"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignNoThrow(RTCRestString("0123456789"), 3, 5), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "34567"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignNoThrow("0123456789", 4), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "0123"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignNoThrow(8, 'x'), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "xxxxxxxx"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.printfNoThrow("%d%s%d", 42, "asdf", 22), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "42asdf22"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); va_list va; va_start(va, pszDummy); RTTESTI_CHECK_RC(obj3.printfVNoThrow("asdf", va), VINF_SUCCESS); va_end(va); RTTESTI_CHECK(obj3 == "asdf"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); obj3.assign(RTCRestString("4.0")); RTTESTI_CHECK(obj3 == "4.0"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); obj3.assign("-4.0"); RTTESTI_CHECK(obj3 == "-4.0"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); obj3.assign(RTCRestString("0123456789"), 3, 5); RTTESTI_CHECK(obj3 == "34567"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); obj3.assign("0123456789", 4); RTTESTI_CHECK(obj3 == "0123"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); obj3.assign(8, 'x'); RTTESTI_CHECK(obj3 == "xxxxxxxx"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); obj3.printf("%d%s%d", 42, "asdf", 22); RTTESTI_CHECK(obj3 == "42asdf22"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); va_start(va, pszDummy); obj3.printfV("asdf", va); va_end(va); RTTESTI_CHECK(obj3 == "asdf"); RTTESTI_CHECK(obj3.isNull() == false); /* Reset to default: */ RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isEmpty()); RTTESTI_CHECK(obj3.isNull() == false); obj3 = "1"; RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isEmpty()); RTTESTI_CHECK(obj3.isNull() == false); /* Copy assignments: */ RTCRestString const obj3Max("max"); RTTESTI_CHECK(obj3Max == "max"); RTTESTI_CHECK(obj3Max.isNull() == false); RTCRestString obj3Null; obj3Null.setNull(); RTTESTI_CHECK(obj3Null.isEmpty()); RTTESTI_CHECK(obj3Null.isNull() == true); RTCRestString obj3Empty; RTTESTI_CHECK(obj3Empty.isEmpty()); RTTESTI_CHECK(obj3Empty.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Max), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "max"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Null), VINF_SUCCESS); RTTESTI_CHECK(obj3.isEmpty()); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Empty), VINF_SUCCESS); RTTESTI_CHECK(obj3 == ""); RTTESTI_CHECK(obj3.isEmpty()); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignCopy(RTCString("11.0")), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "11.0"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true && obj3.isEmpty()); RTTESTI_CHECK_RC(obj3.assignCopy("12.0"), VINF_SUCCESS); RTTESTI_CHECK(obj3 == "12.0"); RTTESTI_CHECK(obj3.isNull() == false); /* setNull implies resetToDefault: */ obj3 = obj3Max; RTTESTI_CHECK(obj3 == "max"); RTTESTI_CHECK(obj3.isNull() == false); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(obj3.isNull() == true); RTTESTI_CHECK(obj3.isEmpty()); /* Copy constructors: */ { RTCRestString obj3a(obj3Max); RTTESTI_CHECK(obj3a == "max"); RTTESTI_CHECK(obj3a.isNull() == false); } { RTCRestString const obj3c(obj3Null); RTTESTI_CHECK(obj3c.isEmpty()); RTTESTI_CHECK(obj3c.isNull() == true); } /* Serialization to json: */ const char *pszJson = toJson(&obj3Max); RTTESTI_CHECK_MSG(strcmp(pszJson, "\"max\"") == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Null); RTTESTI_CHECK_MSG(strcmp(pszJson, "null") == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Empty); RTTESTI_CHECK_MSG(strcmp(pszJson, "\"\"") == 0, ("pszJson=%s\n", pszJson)); /* Serialization to string. */ RTCString str; RTCString strExpect; str = "lead-in:"; RTTESTI_CHECK_RC(obj3Max.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:max"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Max.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("max"), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Empty.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Empty.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals(""), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Null.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Null.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals(""), ("str=%s\n", str.c_str())); } /* deserialize: */ RTERRINFOSTATIC ErrInfo; { /* from json: */ RTCRestString obj4; obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"42.42\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == "42.42"); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"-22.22\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == "-22.22"); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"maximum\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == "maximum"); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4.isEmpty()); RTTESTI_CHECK(obj4.isNull() == true); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"\\u0020\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == " "); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"\\u004f\\u004D\\u0047\\u0021 :-)\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == "OMG! :-)"); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"42:\\uD801\\udC37\\ud852\\uDf62:42\"", /* U+10437 U+24B62 */ &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == "42:" "\xf0\x90\x90\xb7" "\xf0\xa4\xad\xa2" ":42"); RTTESTI_CHECK(obj4.isNull() == false); /* object goes to default state on failure: */ obj4 = "asdf"; RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "false", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_STRING); RTTESTI_CHECK(obj4.isEmpty()); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); obj4 = "asdf"; RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "1", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_STRING); RTTESTI_CHECK(obj4.isEmpty()); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK(RTErrInfoIsSet(&ErrInfo.Core)); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "[ null ]", NULL, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_STRING); RTTESTI_CHECK(obj4.isEmpty()); RTTESTI_CHECK(obj4.isNull() == false); /* from string: */ obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, "22.42", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == "22.42"); RTTESTI_CHECK(obj4.isNull() == false); RTTESTI_CHECK_RC(fromString(&obj4, "-42.22", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == "-42.22"); RTTESTI_CHECK(obj4.isNull() == false); obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); RTTESTI_CHECK(obj4 == "null"); RTTESTI_CHECK(obj4.isNull() == false); } } void testDate() { RTTestSub(g_hTest, "RTCRestDate"); int64_t const iRecent = INT64_C(1536580687739632500); int64_t const iRecentSec = INT64_C(1536580687000000000); RTTIMESPEC TimeSpec; #define CHECK_DATE(a_obj, a_fNull, a_fOkay, a_i64Nano, a_sz, a_fUtc) \ do { \ RTTESTI_CHECK((a_obj).isOkay() == (a_fOkay)); \ if ((a_obj).getEpochNano() != (a_i64Nano)) \ RTTestIFailed("line " RT_XSTR(__LINE__) ": getEpochNano=%RI64, expected %RI64", (a_obj).getEpochNano(), (int64_t)(a_i64Nano)); \ if (!(a_obj).getString().equals(a_sz)) \ RTTestIFailed("line " RT_XSTR(__LINE__) ": getString=%s, expected %s", (a_obj).getString().c_str(), a_sz); \ RTTESTI_CHECK((a_obj).isUtc() == (a_fUtc)); \ RTTESTI_CHECK((a_obj).isNull() == (a_fNull)); \ } while (0) #define CHECK_DATE_FMT(a_obj, a_fNull, a_fOkay, a_i64Nano, a_sz, a_fUtc, a_enmFormat) \ do { \ CHECK_DATE(a_obj, a_fNull, a_fOkay, a_i64Nano, a_sz, a_fUtc); \ if ((a_obj).getFormat() != (a_enmFormat)) \ RTTestIFailed("line " RT_XSTR(__LINE__) ": getFormat=%d, expected %d (%s)", (a_obj).getFormat(), (a_enmFormat), #a_enmFormat); \ } while (0) { RTCRestDate obj1; CHECK_DATE(obj1, true, false, 0, "", true); RTTESTI_CHECK(strcmp(obj1.typeName(), "RTCRestDate") == 0); RTTESTI_CHECK(obj1.typeClass() == RTCRestObjectBase::kTypeClass_Date); } { /* Value assignments: */ RTCRestDate obj3; RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc3339), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00Z", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); CHECK_DATE(obj3, true, false, 0, "", true); RTTESTI_CHECK_RC(obj3.assignValueRfc3339(RTTimeSpecSetNano(&TimeSpec, 0)), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00Z", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); CHECK_DATE(obj3, true, false, 0, "", true); RTTESTI_CHECK_RC(obj3.assignValueRfc2822(RTTimeSpecSetNano(&TimeSpec, 0)), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "Thu, 1 Jan 1970 00:00:00 -0000", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignValueRfc7131(RTTimeSpecSetNano(&TimeSpec, 0)), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "Thu, 1 Jan 1970 00:00:00 GMT", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc2822), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "Thu, 1 Jan 1970 00:00:00 -0000", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc7131), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "Thu, 1 Jan 1970 00:00:00 GMT", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc3339_Fraction_9), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00.000000000Z", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc3339_Fraction_6), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00.000000Z", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc3339_Fraction_3), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00.000Z", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc3339_Fraction_2), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00.00Z", true); /* Format changes: */ RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, INT64_C(59123456789)), RTCRestDate::kFormat_Rfc3339_Fraction_9), VINF_SUCCESS); CHECK_DATE(obj3, false, true, INT64_C(59123456789), "1970-01-01T00:00:59.123456789Z", true); RTTESTI_CHECK_RC(obj3.setFormat(RTCRestDate::kFormat_Rfc2822), VINF_SUCCESS); CHECK_DATE(obj3, false, true, INT64_C(59123456789), "Thu, 1 Jan 1970 00:00:59 -0000", true); RTTESTI_CHECK_RC(obj3.setFormat(RTCRestDate::kFormat_Rfc7131), VINF_SUCCESS); CHECK_DATE(obj3, false, true, INT64_C(59123456789), "Thu, 1 Jan 1970 00:00:59 GMT", true); RTTESTI_CHECK_RC(obj3.setFormat(RTCRestDate::kFormat_Rfc3339), VINF_SUCCESS); CHECK_DATE(obj3, false, true, INT64_C(59123456789), "1970-01-01T00:00:59Z", true); RTTESTI_CHECK_RC(obj3.setFormat(RTCRestDate::kFormat_Rfc3339_Fraction_2), VINF_SUCCESS); CHECK_DATE(obj3, false, true, INT64_C(59123456789), "1970-01-01T00:00:59.12Z", true); RTTESTI_CHECK_RC(obj3.setFormat(RTCRestDate::kFormat_Rfc3339_Fraction_3), VINF_SUCCESS); CHECK_DATE(obj3, false, true, INT64_C(59123456789), "1970-01-01T00:00:59.123Z", true); RTTESTI_CHECK_RC(obj3.setFormat(RTCRestDate::kFormat_Rfc3339_Fraction_6), VINF_SUCCESS); CHECK_DATE(obj3, false, true, INT64_C(59123456789), "1970-01-01T00:00:59.123456Z", true); RTTESTI_CHECK_RC(obj3.setFormat(RTCRestDate::kFormat_Rfc3339_Fraction_9), VINF_SUCCESS); CHECK_DATE(obj3, false, true, INT64_C(59123456789), "1970-01-01T00:00:59.123456789Z", true); /* Reset to default and setNull works identically: */ RTTESTI_CHECK_RC(obj3.resetToDefault(), VINF_SUCCESS); CHECK_DATE(obj3, true, false, 0, "", true); RTTESTI_CHECK_RC(obj3.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc3339_Fraction_2), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00.00Z", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); CHECK_DATE(obj3, true, false, 0, "", true); /* Copy assignments: */ RTCRestDate obj3Epoch_3339_9; RTTESTI_CHECK_RC(obj3Epoch_3339_9.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc3339_Fraction_9), VINF_SUCCESS); CHECK_DATE(obj3Epoch_3339_9, false, true, 0, "1970-01-01T00:00:00.000000000Z", true); RTCRestDate obj3Epoch_7131; RTTESTI_CHECK_RC(obj3Epoch_7131.assignValue(RTTimeSpecSetNano(&TimeSpec, 0), RTCRestDate::kFormat_Rfc7131), VINF_SUCCESS); CHECK_DATE(obj3Epoch_7131, false, true, 0, "Thu, 1 Jan 1970 00:00:00 GMT", true); RTCRestDate obj3Recent_3339; RTTESTI_CHECK_RC(obj3Recent_3339.assignValue(RTTimeSpecSetNano(&TimeSpec, iRecent), RTCRestDate::kFormat_Rfc3339), VINF_SUCCESS); CHECK_DATE(obj3Recent_3339, false, true, iRecent, "2018-09-10T11:58:07Z", true); RTCRestDate obj3Recent_2822; RTTESTI_CHECK_RC(obj3Recent_2822.assignValue(RTTimeSpecSetNano(&TimeSpec, iRecent), RTCRestDate::kFormat_Rfc2822), VINF_SUCCESS); CHECK_DATE(obj3Recent_2822, false, true, iRecent, "Mon, 10 Sep 2018 11:58:07 -0000", true); RTCRestDate const obj3Null; CHECK_DATE(obj3Null, true, false, 0, "", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Epoch_3339_9), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00.000000000Z", true); RTTESTI_CHECK_RC(obj3.setNull(), VINF_SUCCESS); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Epoch_7131), VINF_SUCCESS); CHECK_DATE(obj3, false, true, 0, "Thu, 1 Jan 1970 00:00:00 GMT", true); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Recent_3339), VINF_SUCCESS); CHECK_DATE(obj3Recent_2822, false, true, iRecent, "Mon, 10 Sep 2018 11:58:07 -0000", true); RTTESTI_CHECK_RC(obj3.assignCopy(obj3Null), VINF_SUCCESS); CHECK_DATE(obj3, true, false, 0, "", true); obj3 = obj3Recent_2822; CHECK_DATE(obj3Recent_2822, false, true, iRecent, "Mon, 10 Sep 2018 11:58:07 -0000", true); obj3 = obj3Epoch_3339_9; CHECK_DATE(obj3, false, true, 0, "1970-01-01T00:00:00.000000000Z", true); obj3 = obj3Null; CHECK_DATE(obj3, true, false, 0, "", true); /* Copy constructors: */ { RTCRestDate obj3a(obj3Epoch_3339_9); CHECK_DATE(obj3a, false, true, 0, "1970-01-01T00:00:00.000000000Z", true); } { RTCRestDate obj3b(obj3Epoch_7131); CHECK_DATE(obj3b, false, true, 0, "Thu, 1 Jan 1970 00:00:00 GMT", true); } { RTCRestDate obj3c(obj3Recent_3339); CHECK_DATE(obj3Recent_3339, false, true, iRecent, "2018-09-10T11:58:07Z", true); } { RTCRestDate obj3d(obj3Recent_2822); CHECK_DATE(obj3d, false, true, iRecent, "Mon, 10 Sep 2018 11:58:07 -0000", true); } { RTCRestDate obj3e(obj3Null); CHECK_DATE(obj3e, true, false, 0, "", true); } /* Serialization to json: */ const char *pszJson = toJson(&obj3Epoch_3339_9); RTTESTI_CHECK_MSG(strcmp(pszJson, "\"1970-01-01T00:00:00.000000000Z\"") == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Epoch_7131); RTTESTI_CHECK_MSG(strcmp(pszJson, "\"Thu, 1 Jan 1970 00:00:00 GMT\"") == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Recent_3339); RTTESTI_CHECK_MSG(strcmp(pszJson, "\"2018-09-10T11:58:07Z\"") == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Recent_2822); RTTESTI_CHECK_MSG(strcmp(pszJson, "\"Mon, 10 Sep 2018 11:58:07 -0000\"") == 0, ("pszJson=%s\n", pszJson)); pszJson = toJson(&obj3Null); RTTESTI_CHECK_MSG(strcmp(pszJson, "null") == 0, ("pszJson=%s\n", pszJson)); /* Serialization to string. */ RTCString str; str = "lead-in:"; RTTESTI_CHECK_RC(obj3Epoch_7131.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:Thu, 1 Jan 1970 00:00:00 GMT"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Epoch_7131.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("Thu, 1 Jan 1970 00:00:00 GMT"), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Recent_3339.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:2018-09-10T11:58:07Z"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Recent_3339.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("2018-09-10T11:58:07Z"), ("str=%s\n", str.c_str())); str = "lead-in:"; RTTESTI_CHECK_RC(obj3Null.toString(&str, RTCRestObjectBase::kToString_Append), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("lead-in:null"), ("str=%s\n", str.c_str())); RTTESTI_CHECK_RC(obj3Null.toString(&str), VINF_SUCCESS); RTTESTI_CHECK_MSG(str.equals("null"), ("str=%s\n", str.c_str())); } /* deserialize: */ RTERRINFOSTATIC ErrInfo; { RTCRestDate obj4; RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"Thu, 1 Jan 1970 00:00:00 GMT\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, 0, "Thu, 1 Jan 1970 00:00:00 GMT", true, RTCRestDate::kFormat_Rfc7131); obj4.setNull(); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"Thu, 1 Jan 1970 00:00:00.0000 GMT\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, 0, "Thu, 1 Jan 1970 00:00:00.0000 GMT", true, RTCRestDate::kFormat_Rfc7131); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"1 Jan 1970 00:00:00 GMT\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, 0, "1 Jan 1970 00:00:00 GMT", true, RTCRestDate::kFormat_Rfc7131); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"1 Jan 1970 00:00:00\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, 0, "1 Jan 1970 00:00:00", false, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"1 Jan 070 00:00:00\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, 0, "1 Jan 070 00:00:00", false, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"2018-09-10T11:58:07Z\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, iRecentSec , "2018-09-10T11:58:07Z", true, RTCRestDate::kFormat_Rfc3339); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"1 Jan 70 00:00:00\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, 0, "1 Jan 70 00:00:00", false, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"2018-09-10T11:58:07.739632500Z\"", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, iRecent, "2018-09-10T11:58:07.739632500Z", true, RTCRestDate::kFormat_Rfc3339_Fraction_9); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, true, false, 0, "", true, RTCRestDate::kFormat_Rfc3339_Fraction_9); /* object goes to default state if not string and to non-okay if string: */ RTTESTI_CHECK_RC(obj4.assignValue(RTTimeSpecSetNano(&TimeSpec, iRecent), RTCRestDate::kFormat_Rfc2822), VINF_SUCCESS); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "true", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_DATE); CHECK_DATE_FMT(obj4, true, false, 0, "", true, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(obj4.assignValue(RTTimeSpecSetNano(&TimeSpec, iRecent), RTCRestDate::kFormat_Rfc2822), VINF_SUCCESS); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"string\"", &ErrInfo, RT_XSTR(__LINE__)), VWRN_REST_UNABLE_TO_DECODE_DATE); CHECK_DATE_FMT(obj4, false, false, 0, "string", false, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(obj4.assignValue(RTTimeSpecSetNano(&TimeSpec, iRecent), RTCRestDate::kFormat_Rfc2822), VINF_SUCCESS); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "\"0x199 string\"", &ErrInfo, RT_XSTR(__LINE__)), VWRN_REST_UNABLE_TO_DECODE_DATE); CHECK_DATE_FMT(obj4, false, false, 0, "0x199 string", false, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(obj4.assignValue(RTTimeSpecSetNano(&TimeSpec, iRecent), RTCRestDate::kFormat_Rfc2822), VINF_SUCCESS); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "[ null ]", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_DATE); CHECK_DATE_FMT(obj4, true, false, 0, "", true, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(obj4.assignValue(RTTimeSpecSetNano(&TimeSpec, iRecent), RTCRestDate::kFormat_Rfc2822), VINF_SUCCESS); RTTESTI_CHECK_RC(deserializeFromJson(&obj4, "{ \"foo\": 1 }", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_WRONG_JSON_TYPE_FOR_DATE); CHECK_DATE_FMT(obj4, true, false, 0, "", true, RTCRestDate::kFormat_Rfc2822); /* From string: */ obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, "Thu, 1 Jan 1970 00:00:00 GMT", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, 0, "Thu, 1 Jan 1970 00:00:00 GMT", true, RTCRestDate::kFormat_Rfc7131); RTTESTI_CHECK_RC(fromString(&obj4, "Mon, 10 Sep 2018 11:58:07 -0000", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, iRecentSec, "Mon, 10 Sep 2018 11:58:07 -0000", true, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(fromString(&obj4, "\t\n\rnull;\r\n\t", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, true, false, 0, "", true, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(fromString(&obj4, "Mon, 10 Sep 2018 11:58:07 +0000", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, iRecentSec, "Mon, 10 Sep 2018 11:58:07 +0000", false, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(fromString(&obj4, "1970-01-01T00:00:00.000000000Z", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, 0, "1970-01-01T00:00:00.000000000Z", true, RTCRestDate::kFormat_Rfc3339_Fraction_9); RTTESTI_CHECK_RC(fromString(&obj4, "10 Sep 2018 11:58:07 -0000", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, iRecentSec, "10 Sep 2018 11:58:07 -0000", true, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(fromString(&obj4, "null", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, true, false, 0, "", true, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(fromString(&obj4, "Mon, 10 Sep 18 11:58:07 -0000", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, iRecentSec, "Mon, 10 Sep 18 11:58:07 -0000", true, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(fromString(&obj4, "fa;se", &ErrInfo, RT_XSTR(__LINE__)), VERR_REST_UNABLE_TO_DECODE_DATE); CHECK_DATE_FMT(obj4, false, false, 0, "fa;se", false, RTCRestDate::kFormat_Rfc2822); RTTESTI_CHECK_RC(fromString(&obj4, "10 Sep 18 11:58:07", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, iRecentSec, "10 Sep 18 11:58:07", false, RTCRestDate::kFormat_Rfc2822); obj4.setNull(); RTTESTI_CHECK_RC(fromString(&obj4, "10 Sep 118 11:58:07", &ErrInfo, RT_XSTR(__LINE__)), VINF_SUCCESS); CHECK_DATE_FMT(obj4, false, true, iRecentSec, "10 Sep 118 11:58:07", false, RTCRestDate::kFormat_Rfc2822); } } /** Wraps RTCRestInt16 to check for leaks. */ class MyRestInt16 : public RTCRestInt16 { public: static size_t s_cInstances; MyRestInt16() : RTCRestInt16() { s_cInstances++; /*printf("%p: default %02u; cInstances %zu\n", this, m_iValue, s_cInstances);*/ } MyRestInt16(MyRestInt16 const &a_rThat) : RTCRestInt16(a_rThat) { s_cInstances++; /*printf("%p: copy %02u; cInstances %zu\n", this, m_iValue, s_cInstances);*/ } MyRestInt16(int16_t a_iValue) : RTCRestInt16(a_iValue) { s_cInstances++; /*printf("%p: value %02u; cInstances %zu\n", this, m_iValue, s_cInstances);*/ } ~MyRestInt16() { s_cInstances--; /*printf("%p: delete %02u; cInstances %zu\n", this, m_iValue, s_cInstances);*/ } virtual RTCRestObjectBase *baseClone() const RT_NOEXCEPT RT_OVERRIDE { /*printf("clone\n");*/ return new MyRestInt16(*this); } }; size_t MyRestInt16::s_cInstances = 0; static void verifyArray(RTCRestArray const &rArray, int iLine, unsigned cElements, ...) { if (rArray.size() != cElements) RTTestIFailed("line %u: size() -> %zu, expected %u", iLine, rArray.size(), cElements); va_list va; va_start(va, cElements); for (unsigned i = 0; i < cElements; i++) { int iExpected = va_arg(va, int); if (rArray.at(i)->m_iValue != iExpected) RTTestIFailed("line %u: element #%u: %d, expected %d", iLine, i, rArray.at(i)->m_iValue, iExpected); } va_end(va); } static void testArray() { RTTestSub(g_hTest, "RTCRestArray"); { RTCRestArray obj1; RTTESTI_CHECK(obj1.size() == 0); RTTESTI_CHECK(obj1.isEmpty() == true); RTTESTI_CHECK(obj1.isNull() == false); RTTESTI_CHECK(strcmp(obj1.typeName(), "RTCRestArray") == 0); RTTESTI_CHECK(obj1.typeClass() == RTCRestObjectBase::kTypeClass_Array); } /* Some random order insertion and manipulations: */ { RTCRestArray Arr2; RTCRestArray const *pConstArr2 = &Arr2; RTTESTI_CHECK_RC(Arr2.insert(0, new MyRestInt16(3)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 1, 3); RTTESTI_CHECK_RC(Arr2.append( new MyRestInt16(7)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 2, 3, 7); RTTESTI_CHECK_RC(Arr2.insert(1, new MyRestInt16(5)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 3, 3, 5, 7); RTTESTI_CHECK_RC(Arr2.insert(2, new MyRestInt16(6)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 4, 3, 5, 6, 7); RTTESTI_CHECK_RC(Arr2.prepend( new MyRestInt16(0)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 5, 0, 3, 5, 6, 7); RTTESTI_CHECK_RC(Arr2.append( new MyRestInt16(9)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 6, 0, 3, 5, 6, 7, 9); RTTESTI_CHECK_RC(Arr2.insert(5, new MyRestInt16(8)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 7, 0, 3, 5, 6, 7, 8, 9); RTTESTI_CHECK_RC(Arr2.insert(1, new MyRestInt16(1)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 8, 0, 1, 3, 5, 6, 7, 8, 9); RTTESTI_CHECK_RC(Arr2.insert(3, new MyRestInt16(4)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 9, 0, 1, 3, 4, 5, 6, 7, 8, 9); RTTESTI_CHECK_RC(Arr2.insert(2, new MyRestInt16(2)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 10, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); RTTESTI_CHECK(Arr2.size() == 10); for (size_t i = 0; i < Arr2.size(); i++) { MyRestInt16 *pCur = Arr2.at(i); RTTESTI_CHECK(pCur->m_iValue == (int16_t)i); MyRestInt16 const *pCur2 = pConstArr2->at(i); RTTESTI_CHECK(pCur2->m_iValue == (int16_t)i); } RTTESTI_CHECK_RC(Arr2.replace(2, new MyRestInt16(22)), VWRN_ALREADY_EXISTS); verifyArray(Arr2, __LINE__, 10, 0, 1, 22, 3, 4, 5, 6, 7, 8, 9); RTTESTI_CHECK_RC(Arr2.replace(7, new MyRestInt16(77)), VWRN_ALREADY_EXISTS); verifyArray(Arr2, __LINE__, 10, 0, 1, 22, 3, 4, 5, 6, 77, 8, 9); RTTESTI_CHECK_RC(Arr2.replace(10, new MyRestInt16(10)), VINF_SUCCESS); verifyArray(Arr2, __LINE__, 11, 0, 1, 22, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_RC(Arr2.replaceCopy(2, MyRestInt16(2)), VWRN_ALREADY_EXISTS); verifyArray(Arr2, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); /* copy constructor: */ { RTCRestArray const Arr2Copy(Arr2); verifyArray(Arr2Copy, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); } verifyArray(Arr2, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); { RTCRestArray Arr2Copy2(Arr2); verifyArray(Arr2Copy2, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_RC(Arr2Copy2.removeAt(7), VINF_SUCCESS); verifyArray(Arr2Copy2, __LINE__, 10, 0, 1, 2, 3, 4, 5, 6, 8, 9, 10); } verifyArray(Arr2, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); /* copy method + clear: */ { RTCRestArray Arr2Copy3; RTTESTI_CHECK_RC(Arr2Copy3.assignCopy(Arr2), VINF_SUCCESS); verifyArray(Arr2Copy3, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); Arr2Copy3.at(3)->m_iValue = 33; verifyArray(Arr2Copy3, __LINE__, 11, 0, 1, 2, 33, 4, 5, 6, 77, 8, 9, 10); Arr2Copy3.clear(); verifyArray(Arr2Copy3, __LINE__, 0); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); } verifyArray(Arr2, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); /* Check setNull and resetToDefaults with copies: */ { RTCRestArray Arr2Copy4(Arr2); verifyArray(Arr2Copy4, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_RC(Arr2Copy4.setNull(), VINF_SUCCESS); verifyArray(Arr2Copy4, __LINE__, 0); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); RTTESTI_CHECK(Arr2Copy4.isNull() == true); RTTESTI_CHECK_RC(Arr2Copy4.resetToDefault(), VINF_SUCCESS); RTTESTI_CHECK(Arr2Copy4.isNull() == false); verifyArray(Arr2Copy4, __LINE__, 0); } verifyArray(Arr2, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); { RTCRestArray Arr2Copy5(Arr2); verifyArray(Arr2Copy5, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_RC(Arr2Copy5.resetToDefault(), VINF_SUCCESS); verifyArray(Arr2Copy5, __LINE__, 0); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); RTTESTI_CHECK(Arr2Copy5.isNull() == false); RTTESTI_CHECK_RC(Arr2Copy5.setNull(), VINF_SUCCESS); RTTESTI_CHECK(Arr2Copy5.isNull() == true); RTTESTI_CHECK_RC(Arr2Copy5.append(new MyRestInt16(100)), VINF_SUCCESS); RTTESTI_CHECK(Arr2Copy5.isNull() == false); verifyArray(Arr2Copy5, __LINE__, 1, 100); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size() + 1, ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size() + 1)); } verifyArray(Arr2, __LINE__, 11, 0, 1, 2, 3, 4, 5, 6, 77, 8, 9, 10); RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == Arr2.size(), ("%zu vs %zu\n", MyRestInt16::s_cInstances, Arr2.size())); } RTTESTI_CHECK_MSG(MyRestInt16::s_cInstances == 0, ("%zu\n", MyRestInt16::s_cInstances)); { RTCRestArray Arr3; RTCRestArray const *pConstArr3 = &Arr3; /* Insert a range of numbers into a int64 array. */ for (int64_t i = 0; i < _64K; i++) { if (i & 1) { RTCRestInt64 toCopy(i); if (i & 2) RTTESTI_CHECK_RC(Arr3.insertCopy(i, toCopy), VINF_SUCCESS); else RTTESTI_CHECK_RC(Arr3.appendCopy(toCopy), VINF_SUCCESS); } else { RTCRestInt64 *pDirect = new RTCRestInt64(i); if (i & 2) RTTESTI_CHECK_RC(Arr3.insert(i, pDirect), VINF_SUCCESS); else RTTESTI_CHECK_RC(Arr3.append(pDirect), VINF_SUCCESS); } RTTESTI_CHECK(Arr3.size() == (size_t)i + 1); RTTESTI_CHECK(Arr3.isEmpty() == false); } /* Verify insertions: */ size_t cElements = _64K; RTTESTI_CHECK(Arr3.size() == cElements); for (int64_t i = 0; i < _64K; i++) { RTCRestInt64 *pCur = Arr3.at(i); RTTESTI_CHECK(pCur->m_iValue == i); RTCRestInt64 const *pCur2 = pConstArr3->at(i); RTTESTI_CHECK(pCur2->m_iValue == i); } RTTESTI_CHECK(Arr3.first()->m_iValue == 0); RTTESTI_CHECK(Arr3.last()->m_iValue == _64K - 1); RTTESTI_CHECK(pConstArr3->first()->m_iValue == 0); RTTESTI_CHECK(pConstArr3->last()->m_iValue == _64K - 1); /* Remove every 3rd element: */ RTTESTI_CHECK(Arr3.size() == cElements); for (int64_t i = _64K - 1; i >= 0; i -= 3) { RTTESTI_CHECK_RC(Arr3.removeAt(i), VINF_SUCCESS); cElements--; RTTESTI_CHECK(Arr3.size() == cElements); } /* Verify after removal: */ for (int64_t i = 0, iValue = 0; i < (ssize_t)Arr3.size(); i++, iValue++) { if ((iValue % 3) == 0) iValue++; RTTESTI_CHECK_MSG(Arr3.at(i)->m_iValue == iValue, ("%RI64: %RI64 vs %RI64\n", i, Arr3.at(i)->m_iValue, iValue)); } /* Clear it and we're done: */ Arr3.clear(); RTTESTI_CHECK(Arr3.size() == 0); RTTESTI_CHECK(Arr3.isEmpty() == true); } { RTCRestArray Arr4; /* Insert a range of numbers into a int32 array, in reverse order. */ for (int32_t i = 0; i < 2048; i++) { if (i & 1) { RTCRestInt32 toCopy(i); if (i & 2) RTTESTI_CHECK_RC(Arr4.insertCopy(0, toCopy), VINF_SUCCESS); else RTTESTI_CHECK_RC(Arr4.prependCopy(toCopy), VINF_SUCCESS); } else { RTCRestInt32 *pDirect = new RTCRestInt32(i); if (i & 2) RTTESTI_CHECK_RC(Arr4.insert(0, pDirect), VINF_SUCCESS); else RTTESTI_CHECK_RC(Arr4.prepend(pDirect), VINF_SUCCESS); } RTTESTI_CHECK((ssize_t)Arr4.size() == i + 1); RTTESTI_CHECK(Arr4.isEmpty() == false); } for (int32_t i = 0, iValue = (int32_t)Arr4.size() - 1; i < (ssize_t)Arr4.size(); i++, iValue--) RTTESTI_CHECK_MSG(Arr4.at(i)->m_iValue == iValue, ("%RI32: %RI32 vs %RI32\n", i, Arr4.at(i)->m_iValue, iValue)); for (int32_t i = 0; i < 512; i++) RTTESTI_CHECK_RC(Arr4.removeAt(0), VINF_SUCCESS); RTTESTI_CHECK(Arr4.size() == 1536); for (int32_t i = 0; i < 512; i++) RTTESTI_CHECK_RC(Arr4.removeAt(~(size_t)0), VINF_SUCCESS); RTTESTI_CHECK(Arr4.size() == 1024); for (int32_t i = 0, iValue = 1535; i < (ssize_t)Arr4.size(); i++, iValue--) RTTESTI_CHECK_MSG(Arr4.at(i)->m_iValue == iValue, ("%RI32: %RI32 vs %RI32\n", i, Arr4.at(i)->m_iValue, iValue)); } } static void verifyMap(RTCRestStringMap const &rMap, int iLine, unsigned cEntries, ...) { if (rMap.size() != cEntries) RTTestIFailed("line %u: size() -> %zu, expected %u", iLine, rMap.size(), cEntries); if (rMap.isEmpty() != (cEntries ? false : true)) RTTestIFailed("line %u: isEmpty() -> %RTbool, with %u entries", iLine, rMap.isEmpty(), cEntries); va_list va; va_start(va, cEntries); for (unsigned i = 0; i < cEntries; i++) { const char *pszKey = va_arg(va, const char *); int iValue = va_arg(va, int); if ( rMap.containsKey(pszKey) != true || rMap.containsKey(RTCString(pszKey)) != true || rMap.get(pszKey) == NULL || rMap.get(RTCString(pszKey)) == NULL) RTTestIFailed("line %u: entry '%s' not found!", iLine, pszKey); else if (rMap.get(pszKey)->m_iValue != iValue) RTTestIFailed("line %u: entry '%s' value mismatch: %d, expected %d", iLine, pszKey, rMap.get(pszKey)->m_iValue, iValue); RTTESTI_CHECK(rMap.get(pszKey) == rMap.get(RTCString(pszKey))); } va_end(va); RTTESTI_CHECK(rMap.isNull() == false); uint64_t fFound = 0; for (RTCRestStringMapBase::ConstIterator it = rMap.begin(); it != rMap.end(); ++it) { MyRestInt16 const *pObj = (MyRestInt16 const *)it.getValue(); RTTESTI_CHECK(RT_VALID_PTR(pObj)); bool fFoundIt = false; va_start(va, cEntries); for (unsigned i = 0; i < cEntries; i++) { const char *pszKey = va_arg(va, const char *); int iValue = va_arg(va, int); if (it.getKey().equals(pszKey)) { if (fFound & RT_BIT_64(i)) RTTestIFailed("line %u: base enum: entry '%s' returned more than once!", iLine, pszKey); if (pObj->m_iValue != iValue) RTTestIFailed("line %u: base enum: entry '%s' value mismatch: %d, expected %d", iLine, pszKey, pObj->m_iValue, iValue); fFound |= RT_BIT_64(i); fFoundIt = true; va_end(va); return; } } va_end(va); if (!fFoundIt) RTTestIFailed("line %u: base enum: entry '%s' not expected!", iLine, it.getKey().c_str()); } } void testStringMap(void) { RTTestSub(g_hTest, "RTCRestMap"); { RTCRestStringMap obj1; RTTESTI_CHECK(obj1.size() == 0); RTTESTI_CHECK(obj1.isEmpty() == true); RTTESTI_CHECK(obj1.isNull() == false); RTTESTI_CHECK(strcmp(obj1.typeName(), "RTCRestStringMap") == 0); RTTESTI_CHECK(obj1.typeClass() == RTCRestObjectBase::kTypeClass_StringMap); } /* Basic operations: */ { MyRestInt16::s_cInstances = 0; RTCRestStringMap Map2; verifyMap(Map2, __LINE__, 0); RTTESTI_CHECK_RC(Map2.putCopy("0x0004", MyRestInt16(4)), VINF_SUCCESS); verifyMap(Map2, __LINE__, 1, "0x0004", 4); RTTESTI_CHECK(MyRestInt16::s_cInstances == 1); RTTESTI_CHECK_RC(Map2.put("0x0001", new MyRestInt16(1)), VINF_SUCCESS); verifyMap(Map2, __LINE__, 2, "0x0004",4, "0x0001",1); RTTESTI_CHECK_RC(Map2.put("0x0003", new MyRestInt16(3)), VINF_SUCCESS); verifyMap(Map2, __LINE__, 3, "0x0004",4, "0x0001",1, "0x0003",3); RTTESTI_CHECK_RC(Map2.put("0x0002", new MyRestInt16(2)), VINF_SUCCESS); verifyMap(Map2, __LINE__, 4, "0x0004",4, "0x0001",1, "0x0003",3, "0x0002",2); RTTESTI_CHECK(MyRestInt16::s_cInstances == 4); RTTESTI_CHECK_RC(Map2.put("0x0000", new MyRestInt16(0)), VINF_SUCCESS); verifyMap(Map2, __LINE__, 5, "0x0004",4, "0x0001",1, "0x0003",3, "0x0002",2, "0x0000",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 5); RTTESTI_CHECK_RC(Map2.putCopy("towel", MyRestInt16(42)), VINF_SUCCESS); verifyMap(Map2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0003",3, "0x0002",2, "0x0000",0, "towel",42); RTTESTI_CHECK(MyRestInt16::s_cInstances == 6); RTTESTI_CHECK(Map2.containsKey("0x0005") == false); RTTESTI_CHECK(Map2.get("0x0005") == NULL); RTTESTI_CHECK(Map2.remove("0x0003") == true); verifyMap(Map2, __LINE__, 5, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42); RTTESTI_CHECK(MyRestInt16::s_cInstances == 5); RTTESTI_CHECK(Map2.remove("0x0003") == false); verifyMap(Map2, __LINE__, 5, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42); RTTESTI_CHECK(MyRestInt16::s_cInstances == 5); RTCRestObjectBase *pNewBase = NULL; RTTESTI_CHECK_RC(Map2.putNewValue(&pNewBase, "putNewValue"), VINF_SUCCESS); ((MyRestInt16 *)pNewBase)->m_iValue = 88; RTTESTI_CHECK(MyRestInt16::s_cInstances == 6); verifyMap(Map2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",88); pNewBase = NULL; RTTESTI_CHECK_RC(Map2.putNewValue(&pNewBase, RTCString("putNewValue")), VERR_ALREADY_EXISTS); verifyMap(Map2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",88); pNewBase = NULL; RTTESTI_CHECK_RC(Map2.putNewValue(&pNewBase, RTCString("putNewValue"), true /*a_fReplace*/), VWRN_ALREADY_EXISTS); verifyMap(Map2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 6); /* Make copy and remove all: */ { RTCRestStringMap Map2Copy1; RTTESTI_CHECK_RC(Map2Copy1.assignCopy(Map2), VINF_SUCCESS); verifyMap(Map2Copy1, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 12); RTTESTI_CHECK(Map2Copy1.remove("0x0004") == true); verifyMap(Map2Copy1, __LINE__, 5, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 11); RTTESTI_CHECK(Map2Copy1.remove("putNewValue") == true); verifyMap(Map2Copy1, __LINE__, 4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42); RTTESTI_CHECK(MyRestInt16::s_cInstances == 10); RTTESTI_CHECK(Map2Copy1.remove("towel") == true); verifyMap(Map2Copy1, __LINE__, 3, "0x0001",1, "0x0002",2, "0x0000",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 9); RTTESTI_CHECK(Map2Copy1.remove("0x0002") == true); verifyMap(Map2Copy1, __LINE__, 2, "0x0001",1, "0x0000",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 8); RTTESTI_CHECK(Map2Copy1.remove("0x0000") == true); verifyMap(Map2Copy1, __LINE__, 1, "0x0001",1); RTTESTI_CHECK(MyRestInt16::s_cInstances == 7); RTTESTI_CHECK(Map2Copy1.remove("0x0001") == true); verifyMap(Map2Copy1, __LINE__, 0); RTTESTI_CHECK(Map2Copy1.isEmpty() == true); RTTESTI_CHECK(MyRestInt16::s_cInstances == 6); } verifyMap(Map2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); /* Make copy and use clear: */ { RTCRestStringMap Map2Copy2(Map2); verifyMap(Map2Copy2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 12); Map2Copy2.clear(); verifyMap(Map2Copy2, __LINE__, 0); RTTESTI_CHECK(Map2Copy2.isEmpty() == true); RTTESTI_CHECK(MyRestInt16::s_cInstances == 6); } verifyMap(Map2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); /* Make copy and reset to default: */ { RTCRestStringMap Map2Copy3(Map2); verifyMap(Map2Copy3, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 12); RTTESTI_CHECK_RC(Map2Copy3.resetToDefault(), VINF_SUCCESS); verifyMap(Map2Copy3, __LINE__, 0); RTTESTI_CHECK(Map2Copy3.isEmpty() == true); RTTESTI_CHECK(MyRestInt16::s_cInstances == 6); } verifyMap(Map2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); /* Make copy and set to null: */ { RTCRestStringMap Map2Copy4; Map2Copy4 = Map2; verifyMap(Map2Copy4, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); RTTESTI_CHECK(MyRestInt16::s_cInstances == 12); RTTESTI_CHECK_RC(Map2Copy4.setNull(), VINF_SUCCESS); RTTESTI_CHECK(Map2Copy4.size() == 0); RTTESTI_CHECK(Map2Copy4.isEmpty() == true); RTTESTI_CHECK(Map2Copy4.isNull() == true); RTTESTI_CHECK(MyRestInt16::s_cInstances == 6); } verifyMap(Map2, __LINE__, 6, "0x0004",4, "0x0001",1, "0x0002",2, "0x0000",0, "towel",42, "putNewValue",0); } RTTESTI_CHECK(MyRestInt16::s_cInstances == 0); /* Check that null indicator is reset when it should: */ { RTCRestStringMap Map3; Map3.setNull(); RTTESTI_CHECK_RC(Map3.setNull(), VINF_SUCCESS); RTTESTI_CHECK(Map3.size() == 0); RTTESTI_CHECK(Map3.isEmpty() == true); RTTESTI_CHECK(Map3.isNull() == true); RTTESTI_CHECK_RC(Map3.putCopy("not-null-anymore", MyRestInt16(1)), VINF_SUCCESS); verifyMap(Map3, __LINE__, 1, "not-null-anymore",1); } RTTESTI_CHECK(MyRestInt16::s_cInstances == 0); { RTCRestStringMap Map4; Map4.setNull(); RTTESTI_CHECK_RC(Map4.setNull(), VINF_SUCCESS); RTTESTI_CHECK(Map4.size() == 0); RTTESTI_CHECK(Map4.isEmpty() == true); RTTESTI_CHECK(Map4.isNull() == true); RTCRestObjectBase *pNewBase = NULL; RTTESTI_CHECK_RC(Map4.putNewValue(&pNewBase, "putNewValue"), VINF_SUCCESS); verifyMap(Map4, __LINE__, 1, "putNewValue",0); } RTTESTI_CHECK(MyRestInt16::s_cInstances == 0); } class TestRequest : public RTCRestClientRequestBase { public: RTCRestString m_strValue; RTCRestInt64 m_iValue; RTCRestArray m_Array; RTCRestStringMap m_Map; /** @todo add more attributes. */ TestRequest(const char *a_pszValue, int64_t a_iValue, unsigned a_cElements, ...) : RTCRestClientRequestBase() , m_strValue(a_pszValue) , m_iValue(a_iValue) { m_fIsSet = UINT64_MAX; va_list va; va_start(va, a_cElements); for (unsigned i = 0; i < a_cElements; i++) m_Array.append(new RTCRestString(va_arg(va, const char *))); va_end(va); } int resetToDefault() RT_NOEXCEPT RT_OVERRIDE { m_strValue = ""; m_iValue = 0; return m_Array.resetToDefault(); } const char *getOperationName() const RT_NOEXCEPT RT_OVERRIDE { return "Test"; } int xmitPrepare(RTCString *a_pStrPath, RTCString *a_pStrQuery, RTHTTP a_hHttp, RTCString *a_pStrBody) const RT_NOEXCEPT RT_OVERRIDE { RT_NOREF(a_pStrPath, a_pStrQuery, a_hHttp, a_pStrBody); return VINF_SUCCESS; } void xmitComplete(int a_rcStatus, RTHTTP a_hHttp) const RT_NOEXCEPT RT_OVERRIDE { RT_NOREF(a_rcStatus, a_hHttp); } void testPath(const char *a_pszExpected) { static PATHPARAMDESC const s_aParams[] = { { RT_STR_TUPLE("{string}"), 0, 0 }, { RT_STR_TUPLE("{integer}"), 0, 0 }, { RT_STR_TUPLE("{array}"), 0, 0 }, }; PATHPARAMSTATE aState[] = { { &m_strValue, 0 }, { &m_iValue, 0 }, { &m_Array, 0 } }; RTCString strPath; RTTESTI_CHECK_RC(doPathParameters(&strPath, RT_STR_TUPLE("my/{integer}/{string}/array:{array}/path"), s_aParams, aState, RT_ELEMENTS(aState)), VINF_SUCCESS); RTTESTI_CHECK_MSG(strPath.equals(a_pszExpected), ("actual: %s\nexpect: %s\n", strPath.c_str(), a_pszExpected)); } void testQuery(const char *a_pszCsv, const char *a_pszSsv, const char *a_pszTsv, const char *a_pszPipes, const char *a_pszMulti) { QUERYPARAMDESC aParams[] = { { "string", 0, true, 0 }, { "integer", 0, true, 0 }, { "array", 0, true, 0 }, }; RTCRestObjectBase const *apObjects[] = { &m_strValue, &m_iValue, &m_Array }; RTCString strQuery; RTTESTI_CHECK_RC(doQueryParameters(&strQuery, aParams, apObjects, RT_ELEMENTS(apObjects)), VINF_SUCCESS); RTTESTI_CHECK_MSG(strQuery.equals(a_pszCsv), ("actual: %s\nexpect: %s\n", strQuery.c_str(), a_pszCsv)); strQuery.setNull(); aParams[2].fFlags = RTCRestObjectBase::kCollectionFormat_csv; RTTESTI_CHECK_RC(doQueryParameters(&strQuery, aParams, apObjects, RT_ELEMENTS(apObjects)), VINF_SUCCESS); RTTESTI_CHECK_MSG(strQuery.equals(a_pszCsv), ("actual: %s\nexpect: %s\n", strQuery.c_str(), a_pszCsv)); strQuery.setNull(); aParams[2].fFlags = RTCRestObjectBase::kCollectionFormat_ssv; RTTESTI_CHECK_RC(doQueryParameters(&strQuery, aParams, apObjects, RT_ELEMENTS(apObjects)), VINF_SUCCESS); RTTESTI_CHECK_MSG(strQuery.equals(a_pszSsv), ("actual: %s\nexpect: %s\n", strQuery.c_str(), a_pszSsv)); strQuery.setNull(); aParams[2].fFlags = RTCRestObjectBase::kCollectionFormat_tsv; RTTESTI_CHECK_RC(doQueryParameters(&strQuery, aParams, apObjects, RT_ELEMENTS(apObjects)), VINF_SUCCESS); RTTESTI_CHECK_MSG(strQuery.equals(a_pszTsv), ("actual: %s\nexpect: %s\n", strQuery.c_str(), a_pszTsv)); strQuery.setNull(); aParams[2].fFlags = RTCRestObjectBase::kCollectionFormat_pipes; RTTESTI_CHECK_RC(doQueryParameters(&strQuery, aParams, apObjects, RT_ELEMENTS(apObjects)), VINF_SUCCESS); RTTESTI_CHECK_MSG(strQuery.equals(a_pszPipes), ("actual: %s\nexpect: %s\n", strQuery.c_str(), a_pszPipes)); strQuery.setNull(); aParams[2].fFlags = RTCRestObjectBase::kCollectionFormat_multi; RTTESTI_CHECK_RC(doQueryParameters(&strQuery, aParams, apObjects, RT_ELEMENTS(apObjects)), VINF_SUCCESS); RTTESTI_CHECK_MSG(strQuery.equals(a_pszMulti), ("actual: %s\nexpect: %s\n", strQuery.c_str(), a_pszMulti)); } void testHeader(unsigned a_cHeaders, ...) { HEADERPARAMDESC aParams[] = { { "x-string", 0, true, 0, false }, { "x-integer", 0, true, 0, false }, { "x-array", 0, true, 0, false }, { "x-map-", 0, true, 0, true }, }; RTCRestObjectBase const *apObjects[] = { &m_strValue, &m_iValue, &m_Array, &m_Map }; RTHTTP hHttp = NIL_RTHTTP; RTTESTI_CHECK_RC(RTHttpCreate(&hHttp), VINF_SUCCESS); RTTESTI_CHECK_RC(doHeaderParameters(hHttp, aParams, apObjects, RT_ELEMENTS(apObjects)), VINF_SUCCESS); RTTESTI_CHECK(RTHttpGetHeaderCount(hHttp) == a_cHeaders); va_list va; va_start(va, a_cHeaders); for (size_t i = 0; i < a_cHeaders; i++) { const char *pszField = va_arg(va, const char *); const char *pszValue = va_arg(va, const char *); const char *pszActual = RTHttpGetHeader(hHttp, pszField, RTSTR_MAX); RTTESTI_CHECK_MSG(RTStrCmp(pszActual, pszValue) == 0, ("Header '%s' value is '%s' rather than '%s'", pszField, pszActual, pszValue)); } va_end(va); RTTESTI_CHECK_RC(RTHttpDestroy(hHttp), VINF_SUCCESS); } }; void testClientRequestBase() { RTTestSub(g_hTest, "RTCRestClientRequestBase"); { TestRequest Req1("this-is-a-string", 123456789, 5, "1", "22", "333", "444", "555"); Req1.testPath("my/123456789/this-is-a-string/array:1%2C22%2C333%2C444%2C555/path"); Req1.testQuery("?string=this-is-a-string&integer=123456789&array=1%2C22%2C333%2C444%2C555", "?string=this-is-a-string&integer=123456789&array=1%2022%20333%20444%20555", "?string=this-is-a-string&integer=123456789&array=1%0922%09333%09444%09555", "?string=this-is-a-string&integer=123456789&array=1%7C22%7C333%7C444%7C555", "?string=this-is-a-string&integer=123456789&array=1&array=22&array=333&array=444&array=555"); Req1.testHeader(3, "x-string","this-is-a-string", "x-integer","123456789", "x-array","1,22,333,444,555"); } { TestRequest Req2(";'[]", 42, 3, "null", "foo", "bar"); RTTESTI_CHECK_RC(Req2.m_Map.put("stuff-1", new RTCRestString("stuffy-value-1")), VINF_SUCCESS); RTTESTI_CHECK_RC(Req2.m_Map.put("stuff-2", new RTCRestString("stuffy-value-2")), VINF_SUCCESS); RTTESTI_CHECK_RC(Req2.m_Map.put("2222", new RTCRestString("33")), VINF_SUCCESS); Req2.testPath("my/42/%3B%27%5B%5D/array:null%2Cfoo%2Cbar/path"); Req2.testQuery("?string=%3B%27%5B%5D&integer=42&array=null%2Cfoo%2Cbar", "?string=%3B%27%5B%5D&integer=42&array=null%20foo%20bar", "?string=%3B%27%5B%5D&integer=42&array=null%09foo%09bar", "?string=%3B%27%5B%5D&integer=42&array=null%7Cfoo%7Cbar", "?string=%3B%27%5B%5D&integer=42&array=null&array=foo&array=bar"); Req2.testHeader(6, "x-string",";'[]", "x-integer","42", "x-array","null,foo,bar", "x-map-stuff-1","stuffy-value-1", "x-map-stuff-2","stuffy-value-2", "x-map-2222","33"); } } class TestResponse : public RTCRestClientResponseBase { public: RTCRestArray *m_pArray; RTCRestStringMap *m_pMap; RTCRestInt64 *m_pInteger; RTCRestString *m_pStrContentType; TestResponse() : m_pArray(NULL), m_pMap(NULL), m_pInteger(NULL), m_pStrContentType(NULL) { } ~TestResponse() { if (m_pStrContentType) delete m_pStrContentType; if (m_pInteger) delete m_pInteger; if (m_pMap) delete m_pMap; if (m_pArray) delete m_pArray; } const char *getOperationName() const RT_NOEXCEPT RT_OVERRIDE { return "Test"; } protected: virtual int consumeHeader(uint32_t a_uMatchWord, const char *a_pchField, size_t a_cchField, const char *a_pchValue, size_t a_cchValue) RT_NOEXCEPT RT_OVERRIDE { int rc = RTCRestClientResponseBase::consumeHeader(a_uMatchWord, a_pchField, a_cchField, a_pchValue, a_cchValue); AssertRCReturn(rc, rc); #define MATCH_FIELD(a_sz) (sizeof(a_sz) - 1 == a_cchField && RTStrNICmpAscii(a_pchField, RT_STR_TUPLE(a_sz)) == 0) if (MATCH_FIELD("x-array")) { if (!m_pArray) { m_pArray = new (std::nothrow) RTCRestArray(); AssertReturn(m_pArray, VERR_NO_MEMORY); return deserializeHeader(m_pArray, a_pchValue, a_cchValue, RTCRestObjectBase::kCollectionFormat_csv, "x-array"); } } else if (a_cchField >= sizeof("x-map-") - 1 && RTStrNICmpAscii(a_pchField, RT_STR_TUPLE("x-map-")) == 0) { if (!m_pMap) { m_pMap = new (std::nothrow) RTCRestStringMap(); AssertReturn(m_pMap, VERR_NO_MEMORY); } return deserializeHeaderIntoMap(m_pMap, a_pchField + 6, a_cchField - 6, a_pchValue, a_cchValue, 0, "x-map-"); } else if (MATCH_FIELD("x-integer")) { if (!m_pInteger) { m_pInteger = new (std::nothrow) RTCRestInt64(); AssertReturn(m_pInteger, VERR_NO_MEMORY); return deserializeHeader(m_pInteger, a_pchValue, a_cchValue, 0, "x-integer"); } } else if (MATCH_FIELD("content-type")) { if (!m_pStrContentType) { m_pStrContentType = new (std::nothrow) RTCRestString(); AssertReturn(m_pStrContentType, VERR_NO_MEMORY); return deserializeHeader(m_pStrContentType, a_pchValue, a_cchValue, 0, "content-type"); } } else return VWRN_NOT_FOUND; RT_NOREF(a_uMatchWord); return addError(VERR_ALREADY_EXISTS, "Already have field '%.*s'!", a_cchField, a_pchField); } public: int pushHeader(const char *pszField, const char *pszValue) { size_t const cchField = strlen(pszField); void *pvFieldCopy = RTTestGuardedAllocTail(g_hTest, cchField); RTTESTI_CHECK_RET(pvFieldCopy, VERR_NO_MEMORY); memcpy(pvFieldCopy, pszField, cchField); size_t const cchValue = strlen(pszValue); void *pvValueCopy = RTTestGuardedAllocTail(g_hTest, cchValue); RTTESTI_CHECK_RET(pvValueCopy, VERR_NO_MEMORY); memcpy(pvValueCopy, pszValue, cchValue); uint32_t uWord = RTHTTP_MAKE_HDR_MATCH_WORD(cchField, cchField >= 1 ? RT_C_TO_LOWER(pszField[0]) : 0, cchField >= 2 ? RT_C_TO_LOWER(pszField[1]) : 0, cchField >= 3 ? RT_C_TO_LOWER(pszField[2]) : 0); int rc = consumeHeader(uWord, (const char *)pvFieldCopy, cchField, (const char *)pvValueCopy, cchValue); RTTestGuardedFree(g_hTest, pvValueCopy); RTTestGuardedFree(g_hTest, pvFieldCopy); return rc; } }; void testClientResponseBase() { RTTestSub(g_hTest, "RTCRestClientResponseBase"); { TestResponse Resp1; RTTESTI_CHECK_RC(Resp1.pushHeader("content-type", "application/json; charset=utf-8"), VINF_SUCCESS); RTTESTI_CHECK(Resp1.getContentType().equals("application/json; charset=utf-8")); RTTESTI_CHECK(Resp1.m_pStrContentType && Resp1.m_pStrContentType->equals("application/json; charset=utf-8")); RTTESTI_CHECK_RC(Resp1.pushHeader("content-typ2", "oopsy daisy"), VWRN_NOT_FOUND); RTTESTI_CHECK_RC(Resp1.pushHeader("content-type2", "oopsy daisy"), VWRN_NOT_FOUND); RTTESTI_CHECK(Resp1.getContentType().equals("application/json; charset=utf-8")); RTTESTI_CHECK(Resp1.m_pStrContentType && Resp1.m_pStrContentType->equals("application/json; charset=utf-8")); RTTESTI_CHECK_RC(Resp1.pushHeader("x-integer", "398679406"), VINF_SUCCESS); RTTESTI_CHECK(Resp1.m_pInteger && Resp1.m_pInteger->m_iValue == 398679406); RTTESTI_CHECK_RC(Resp1.pushHeader("x-array", "zero,one,two,three"), VINF_SUCCESS); RTTESTI_CHECK(Resp1.m_pArray && Resp1.m_pArray->size() == 4); RTTESTI_CHECK_RC(Resp1.pushHeader("x-map-", "empty-key"), VINF_SUCCESS); RTTESTI_CHECK(Resp1.m_pMap && Resp1.m_pMap->size() == 1 && Resp1.m_pMap->get("") != NULL && Resp1.m_pMap->get("")->equals("empty-key")); RTTESTI_CHECK_RC(Resp1.pushHeader("x-map-42", "key-is-42"), VINF_SUCCESS); RTTESTI_CHECK(Resp1.m_pMap && Resp1.m_pMap->size() == 2 && Resp1.m_pMap->get("42") != NULL && Resp1.m_pMap->get("42")->equals("key-is-42")); } } int main() { RTEXITCODE rcExit = RTTestInitAndCreate("tstRTCRest-1", &g_hTest); if (rcExit == RTEXITCODE_SUCCESS ) { testBool(); testInteger(); testInteger(); testInteger(); testDouble(); testString("dummy", 1, 2); testDate(); testArray(); testStringMap(); testClientRequestBase(); testClientResponseBase(); rcExit = RTTestSummaryAndDestroy(g_hTest); } return rcExit; }