/* --------------------------------------------------------------------------- Nullsoft Database Engine -------------------- codename: Near Death Experience --------------------------------------------------------------------------- */ /* --------------------------------------------------------------------------- BinaryField Class Field data layout: [2 bytes] length [length bytes] binary data --------------------------------------------------------------------------- */ #include "../nde.h" #include "BinaryField.h" #include "../NDEString.h" //--------------------------------------------------------------------------- BinaryField::BinaryField(const uint8_t *_Data, int len) { InitField(); Type = FIELD_BINARY; if (_Data && len > 0) { Data = (uint8_t *)ndestring_malloc(len); memcpy(Data, _Data, len); Size = len; } } //--------------------------------------------------------------------------- void BinaryField::InitField(void) { Type = FIELD_BINARY; Data = NULL; Size = 0; } //--------------------------------------------------------------------------- BinaryField::BinaryField() { InitField(); } //--------------------------------------------------------------------------- BinaryField::~BinaryField() { ndestring_release((wchar_t *)Data); } //--------------------------------------------------------------------------- void BinaryField::ReadTypedData(const uint8_t *data, size_t len) { unsigned short c; int pos = 0; CHECK_SHORT(len); c = GET_SHORT(); pos += 2; if (c && c<=len) { Size = c; ndestring_release((wchar_t *)Data); Data = (uint8_t *)ndestring_malloc(c); GET_BINARY(Data, data, c, pos); } } //--------------------------------------------------------------------------- void BinaryField::WriteTypedData(uint8_t *data, size_t len) { size_t pos = 0; CHECK_SHORT(len); if (Data && Size<=len) { unsigned short c = (unsigned short)Size; PUT_SHORT(c); pos += 2; if (Data) PUT_BINARY(data, (unsigned char*)Data, c, pos); } else { PUT_SHORT(0); } } //--------------------------------------------------------------------------- const uint8_t *BinaryField::GetData(size_t *len) { if (len) *len = Size; return Data; } //--------------------------------------------------------------------------- void BinaryField::SetData(const uint8_t *_Data, size_t len) { if (!_Data || !len) return; ndestring_release((wchar_t *)Data); Size = 0; Data = (uint8_t *)ndestring_malloc(len); memcpy(Data, _Data, len); Size = len; } //--------------------------------------------------------------------------- size_t BinaryField::GetDataSize(void) { if (!Data) return 2; return Size + 2; } //--------------------------------------------------------------------------- int BinaryField::Compare(Field *Entry) { if (!Entry) return -1; size_t compare_length; const uint8_t *compare_data = ((BinaryField*)Entry)->GetData(&compare_length); return memcmp(Data, compare_data, min(compare_length, Size)); } //--------------------------------------------------------------------------- bool BinaryField::ApplyFilter(Field *FilterData, int op) { size_t l, s; const uint8_t *p = ((BinaryField *)FilterData)->GetData(&l); const uint8_t *d = GetData(&s); if (!p) p = (const uint8_t *)""; if (!d) d = (const uint8_t *)""; bool r; switch (op) { case FILTER_EQUALS: if (l != s) r = false; else r = !memcmp(d, p, min(s, l)); break; case FILTER_CONTAINS: if (l > s) r = FALSE; else r = !!memmem(d, p, s, l); break; case FILTER_ABOVE: r = (memcmp(d, p, min(s, l)) > 0); break; case FILTER_BELOW: r = (memcmp(d, p, min(s, l)) < 0); break; case FILTER_BELOWOREQUAL: r = (memcmp(d, p, min(s, l)) <= 0); break; case FILTER_ABOVEOREQUAL: r = (memcmp(d, p, min(s, l)) >= 0); break; case FILTER_ISEMPTY: r = (s == 0); break; case FILTER_ISNOTEMPTY: r = (s != 0); break; default: r = true; break; } return r; }