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// -*- mode: cpp; mode: fold -*-
// Description /*{{{*/
/* ######################################################################
Hashes - Simple wrapper around the hash functions
This is just used to make building the methods simpler, this is the
only interface required..
##################################################################### */
/*}}}*/
#ifndef APTPKG_HASHES_H
#define APTPKG_HASHES_H
#include <apt-pkg/macros.h>
#include <cstring>
#include <string>
#include <vector>
class FileFd;
// helper class that contains hash function name
// and hash
class HashString
{
protected:
std::string Type;
std::string Hash;
static const char * _SupportedHashes[10];
// internal helper
std::string GetHashForFile(std::string filename) const;
public:
HashString(std::string Type, std::string Hash);
explicit HashString(std::string StringedHashString); // init from str as "type:hash"
HashString();
// get hash type used
std::string HashType() const { return Type; };
std::string HashValue() const { return Hash; };
// verify the given filename against the currently loaded hash
bool VerifyFile(std::string filename) const;
// generate a hash string from the given filename
bool FromFile(std::string filename);
// helper
std::string toStr() const; // convert to str as "type:hash"
bool empty() const;
bool usable() const;
bool operator==(HashString const &other) const;
bool operator!=(HashString const &other) const;
// return the list of hashes we support
static APT_PURE const char** SupportedHashes();
};
class HashStringList
{
public:
/** find best hash if no specific one is requested
*
* @param type of the checksum to return, can be \b NULL
* @return If type is \b NULL (or the empty string) it will
* return the 'best' hash; otherwise the hash which was
* specifically requested. If no hash is found \b NULL will be returned.
*/
HashString const * find(char const * const type) const;
HashString const * find(std::string const &type) const { return find(type.c_str()); }
/** finds the filesize hash and returns it as number
*
* @return beware: if the size isn't known we return \b 0 here,
* just like we would do for an empty file. If that is a problem
* for you have to get the size manually out of the list.
*/
unsigned long long FileSize() const;
/** sets the filesize hash
*
* @param Size of the file
* @return @see #push_back
*/
bool FileSize(unsigned long long const Size);
/** check if the given hash type is supported
*
* @param type to check
* @return true if supported, otherwise false
*/
static APT_PURE bool supported(char const * const type);
/** add the given #HashString to the list
*
* @param hashString to add
* @return true if the hash is added because it is supported and
* not already a different hash of the same type included, otherwise false
*/
bool push_back(const HashString &hashString);
/** @return size of the list of HashStrings */
size_t size() const { return list.size(); }
/** verify file against all hashes in the list
*
* @param filename to verify
* @return true if the file matches the hashsum, otherwise false
*/
bool VerifyFile(std::string filename) const;
/** is the list empty ?
*
* @return \b true if the list is empty, otherwise \b false
*/
bool empty() const { return list.empty(); }
/** has the list at least one good entry
*
* similar to #empty, but handles forced hashes.
*
* @return if no hash is forced, same result as #empty,
* if one is forced \b true if this has is available, \b false otherwise
*/
bool usable() const;
typedef std::vector<HashString>::const_iterator const_iterator;
/** iterator to the first element */
const_iterator begin() const { return list.begin(); }
/** iterator to the end element */
const_iterator end() const { return list.end(); }
/** start fresh with a clear list */
void clear() { list.clear(); }
/** compare two HashStringList for similarity.
*
* Two lists are similar if at least one hashtype is in both lists
* and the hashsum matches. All hashes are checked by default,
* if one doesn't match false is returned regardless of how many
* matched before. If a hash is forced, only this hash is compared,
* all others are ignored.
*/
bool operator==(HashStringList const &other) const;
bool operator!=(HashStringList const &other) const;
HashStringList() {}
// simplifying API-compatibility constructors
explicit HashStringList(std::string const &hash) {
if (hash.empty() == false)
list.push_back(HashString(hash));
}
explicit HashStringList(char const * const hash) {
if (hash != NULL && hash[0] != '\0')
list.push_back(HashString(hash));
}
private:
std::vector<HashString> list;
};
class PrivateHashes;
class Hashes
{
PrivateHashes * const d;
public:
static const int UntilEOF = 0;
bool Add(const unsigned char * const Data, unsigned long long const Size) APT_NONNULL(2);
inline bool Add(const char * const Data) APT_NONNULL(2)
{return Add(reinterpret_cast<unsigned char const *>(Data),strlen(Data));};
inline bool Add(const char *const Data, unsigned long long const Size) APT_NONNULL(2)
{
return Add(reinterpret_cast<unsigned char const *>(Data), Size);
};
inline bool Add(const unsigned char * const Beg,const unsigned char * const End) APT_NONNULL(2,3)
{return Add(Beg,End-Beg);};
enum SupportedHashes { MD5SUM = (1 << 0), SHA1SUM = (1 << 1), SHA256SUM = (1 << 2),
SHA512SUM = (1 << 3) };
bool AddFD(int const Fd,unsigned long long Size = 0);
bool AddFD(FileFd &Fd,unsigned long long Size = 0);
HashStringList GetHashStringList();
/** Get a specific hash. It is an error to use a hash that was not hashes */
HashString GetHashString(SupportedHashes hash);
/** create a Hashes object to calculate all supported hashes
*
* If ALL is too much, you can limit which Hashes are calculated
* with the following other constructors which mention explicitly
* which hashes to generate. */
Hashes();
/** @param Hashes bitflag composed of #SupportedHashes */
explicit Hashes(unsigned int const Hashes);
/** @param Hashes is a list of hashes */
explicit Hashes(HashStringList const &Hashes);
virtual ~Hashes();
};
#endif
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