QCA::BufferedComputation
#include <QtCrypto>
Public Member Functions | |
virtual void | clear ()=0 |
virtual MemoryRegion | final ()=0 |
MemoryRegion | process (const MemoryRegion &a) |
virtual void | update (const MemoryRegion &a)=0 |
Detailed Description
General superclass for buffered computation algorithms.
A buffered computation is characterised by having the algorithm take data in an incremental way, then having the results delivered at the end. Conceptually, the algorithm has some internal state that is modified when you call update() and returned when you call final().
Definition at line 1051 of file qca_core.h.
Member Function Documentation
◆ clear()
|
pure virtual |
Reset the internal state.
Implemented in QCA::Hash, and QCA::MessageAuthenticationCode.
◆ final()
|
pure virtual |
Complete the algorithm and return the internal state.
Implemented in QCA::Hash, and QCA::MessageAuthenticationCode.
◆ process()
MemoryRegion QCA::BufferedComputation::process | ( | const MemoryRegion & | a | ) |
Perform an "all in one" update, returning the result.
This is appropriate if you have all the data in one array - just call process on that array, and you will get back the results of the computation.
- Note
- This will invalidate any previous computation using this object.
- Parameters
-
a the data to process.
- Examples
- aes-cmac.cpp.
◆ update()
|
pure virtual |
Update the internal state with a byte array.
- Parameters
-
a the byte array of data that is to be used to update the internal state.
Implemented in QCA::Hash, and QCA::MessageAuthenticationCode.
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