/* $Id: Matching.cpp 69500 2017-10-28 15:14:05Z vboxsync $ */ /** @file * * Definition of template classes that provide simple API to * do matching between values and value filters constructed from strings. */ /* * Copyright (C) 2006-2017 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. */ #include "Matching.h" #include "Logging.h" #include #include namespace matching { // static void ParsedIntervalFilter_base::parse (const char *aFilter, ParsedIntervalFilter_base *that) { // initially null and valid that->mNull = true; that->mValid = true; that->mErrorPosition = 0; if (!aFilter || strncmp(aFilter, RT_STR_TUPLE("int:")) != 0) return; that->mNull = false; size_t len = strlen (aFilter); Mode mode = Single; // what's expected next size_t start = 4, end = 4; size_t err = 0; // less than 4 indicates success do { end = strcspn(aFilter + start, ",-"); end += start; char delim = aFilter[end]; if (delim == '-') { if (mode == End) { err = end; break; } else mode = Start; } // skip spaces around numbers size_t s = start; while (s < end && aFilter[s] == ' ') ++s; size_t e = end - 1; while (e > s && aFilter[e] == ' ') --e; ++e; that->parseValue(aFilter, s, e, mode); if (!that->mValid) return; if (mode == Start) mode = End; else if (mode == End) mode = Single; start = end + 1; } while (start <= len); if (err >= 4) { that->mValid = false; that->mErrorPosition = err; } } // static size_t ParsedIntervalFilter_base::parseValue ( const char *aFilter, size_t aStart, size_t aEnd, bool aIsSigned, const Limits &aLimits, Widest &val) { char *endptr = NULL; int vrc = 0; if (aIsSigned) vrc = RTStrToInt64Ex(aFilter + aStart, &endptr, 0, &val.ll); else vrc = RTStrToUInt64Ex(aFilter + aStart, &endptr, 0, &val.ull); AssertReturn(endptr, 0); size_t parsed = endptr - aFilter; // return parsed if not able to parse to the end if (parsed != aEnd) return parsed; // return aStart if out if range if (vrc == VWRN_NUMBER_TOO_BIG || (aIsSigned && (val.ll < aLimits.min.ll || val.ll > aLimits.max.ll)) || (!aIsSigned && (val.ull < aLimits.min.ull || val.ull > aLimits.max.ull))) return aStart; return parsed; } void ParsedBoolFilter::parse (const Bstr &aFilter) { mNull = false; mValid = true; mErrorPosition = 0; if (aFilter.isEmpty()) { mValueAny = true; mValue = false; } else { mValueAny = false; if (aFilter == L"true" || aFilter == L"yes" || aFilter == L"1") mValue = true; else if (aFilter == L"false" || aFilter == L"no" || aFilter == L"0") mValue = false; else mValid = false; } } void ParsedRegexpFilter_base::parse (const Bstr &aFilter) { /// @todo (dmik) parse "rx:" string // note, that min/max checks must not be done, when the string // begins with "rx:". These limits are for exact matching only! // empty or null string means any match (see #isMatch() below), // so we don't apply Min/Max restrictions in this case if (!aFilter.isEmpty()) { size_t len = aFilter.length(); if (mMinLen > 0 && len < mMinLen) { mNull = mValid = false; mErrorPosition = len; return; } if (mMaxLen > 0 && len > mMaxLen) { mNull = mValid = false; mErrorPosition = mMaxLen; return; } } mSimple = aFilter; mNull = false; mValid = true; mErrorPosition = 0; } bool ParsedRegexpFilter_base::isMatch (const Bstr &aValue) const { /// @todo (dmik) do regexp matching // empty or null mSimple matches any match return mSimple.isEmpty() || (mIgnoreCase && mSimple.compare(aValue, Bstr::CaseInsensitive) == 0) || (!mIgnoreCase && mSimple.compare(aValue) == 0); } } /* namespace matching */ /* vi: set tabstop=4 shiftwidth=4 expandtab: */