Fix bad #define
[amule.git] / src / SHAHashSet.h
blob674641711a8d2aa3ca79b0aa73e0cdea8e8dffbf
1 //
2 // This file is part of the aMule Project.
3 //
4 // Copyright (c) 2004-2011 Angel Vidal ( kry@amule.org )
5 // Copyright (c) 2003-2011 aMule Team ( admin@amule.org / http://www.amule.org )
6 // Copyright (c) 2002-2011 Merkur ( devs@emule-project.net / http://www.emule-project.net )
7 //
8 // Any parts of this program derived from the xMule, lMule or eMule project,
9 // or contributed by third-party developers are copyrighted by their
10 // respective authors.
12 // This program is free software; you can redistribute it and/or modify
13 // it under the terms of the GNU General Public License as published by
14 // the Free Software Foundation; either version 2 of the License, or
15 // (at your option) any later version.
17 // This program is distributed in the hope that it will be useful,
18 // but WITHOUT ANY WARRANTY; without even the implied warranty of
19 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 // GNU General Public License for more details.
22 // You should have received a copy of the GNU General Public License
23 // along with this program; if not, write to the Free Software
24 // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
28 SHA hashset basically exists of 1 Tree for all Parts (9.28MB) + n Trees
29 for all blocks (180KB) while n is the number of Parts.
30 This means it is NOT a complete hashtree, since the 9.28MB is a given level, in order
31 to be able to create a hashset format similar to the MD4 one.
33 If the number of elements for the next level are odd (for example 21 blocks to spread into 2 hashs)
34 the majority of elements will go into the left branch if the parent node was a left branch
35 and into the right branch if the parent node was a right branch. The first node is always
36 taken as a left branch.
38 Example tree:
39 FileSize: 19506000 Bytes = 18,6 MB
41 X(18,6 MB) MasterHash
42 / \
43 X(18,55) \
44 / \ \
45 X(9,28) X(9,28) X(0,05MB) PartHashs
46 / \ / \ \
47 X(4,75) X(4,57) X(4,57) X(4,57) X(4,75)
48 [...............]
49 X(180KB) X(180KB) [...] X(140KB) | X(180KB) X(180KB) [...] BlockHashs
51 Border between first and second Part (9.28MB)
53 HashsIdentifier:
54 When sending hashes, they are sent with a 16bit identifier which specifies its position in the
55 tree (so StartPosition + HashDataSize would lead to the same hash)
56 The identifier basically describes the way from the top of the tree to the hash. a set bit (1)
57 means follow the left branch, a 0 means follow the right. The highest bit which is set is seen as the start-
58 position (since the first node is always seen as left).
60 Example
62 x 0000000000000001
63 / \
64 x \ 0000000000000011
65 / \ \
66 x _X_ x 0000000000000110
69 Version 2 of AICH also supports 32bit identifiers to support large files, check CAICHHashSet::CreatePartRecoveryData
72 #ifndef __SHAHAHSET_H__
73 #define __SHAHAHSET_H__
75 #include <deque>
76 #include <set>
78 #include "Types.h"
79 #include "ClientRef.h"
81 #define HASHSIZE 20
82 #define KNOWN2_MET_FILENAME wxT("known2_64.met")
83 #define OLD_KNOWN2_MET_FILENAME wxT("known2.met")
84 #define KNOWN2_MET_VERSION 0x02
86 enum EAICHStatus {
87 AICH_ERROR = 0,
88 AICH_EMPTY,
89 AICH_UNTRUSTED,
90 AICH_TRUSTED,
91 AICH_VERIFIED,
92 AICH_HASHSETCOMPLETE
95 class CFileDataIO;
96 class CKnownFile;
97 class CMemFile;
98 class CPartFile;
99 class CUpDownClient;
102 /////////////////////////////////////////////////////////////////////////////////////////
103 ///CAICHHash
104 class CAICHHash
106 private:
107 byte m_abyBuffer[HASHSIZE];
109 public:
110 CAICHHash() { memset(m_abyBuffer, 0, HASHSIZE); }
111 CAICHHash(CFileDataIO* file) { Read(file); }
112 CAICHHash(byte* data) { Read(data); }
113 CAICHHash(const CAICHHash& k1) { *this = k1; }
114 ~CAICHHash() {}
115 CAICHHash& operator=(const CAICHHash& k1)
117 memcpy(m_abyBuffer, k1.m_abyBuffer, HASHSIZE);
118 return *this;
120 friend bool operator==(const CAICHHash& k1,const CAICHHash& k2)
122 return memcmp(k1.m_abyBuffer, k2.m_abyBuffer, HASHSIZE) == 0;
124 friend bool operator!=(const CAICHHash& k1,const CAICHHash& k2) { return !(k1 == k2); }
125 void Read(CFileDataIO* file);
126 void Write(CFileDataIO* file) const;
127 void Read(byte* data) { memcpy(m_abyBuffer, data, HASHSIZE); }
128 wxString GetString() const;
129 byte* GetRawHash() { return m_abyBuffer; }
130 static uint32 GetHashSize() { return HASHSIZE;}
131 unsigned int DecodeBase32(const wxString &base32);
134 /////////////////////////////////////////////////////////////////////////////////////////
135 ///CAICHHashAlgo
136 class CAICHHashAlgo
138 public:
139 virtual ~CAICHHashAlgo() {};
140 virtual void Reset() = 0;
141 virtual void Add(const void* pData, uint32 nLength) = 0;
142 virtual void Finish(CAICHHash& Hash) = 0;
143 virtual void GetHash(CAICHHash& Hash) = 0;
146 /////////////////////////////////////////////////////////////////////////////////////////
147 ///CAICHHashTree
148 class CAICHHashTree
150 friend class CAICHHashSet;
151 private:
152 CAICHHash m_Hash;
153 uint64 m_nDataSize; // size of data which is covered by this hash
154 uint64 m_nBaseSize; // blocksize on which the lowest hash is based on
155 bool m_bIsLeftBranch; // left or right branch of the tree
156 bool m_bHashValid; // the hash is valid and not empty
157 CAICHHashTree* m_pLeftTree;
158 CAICHHashTree* m_pRightTree;
160 public:
161 CAICHHashTree(uint64 nDataSize, bool bLeftBranch, uint64 nBaseSize);
162 ~CAICHHashTree();
164 const CAICHHash &GetHash() const { return m_Hash; }
165 uint64 GetNDataSize() const { return m_nDataSize; }
166 uint64 GetNBaseSize() const { return m_nBaseSize; }
167 bool GetIsLeftBranch() const { return m_bIsLeftBranch; }
168 bool GetHashValid() const { return m_bHashValid; }
170 void SetBlockHash(uint64 nSize, uint64 nStartPos, CAICHHashAlgo* pHashAlg);
171 bool ReCalculateHash(CAICHHashAlgo* hashalg, bool bDontReplace );
172 bool VerifyHashTree(CAICHHashAlgo* hashalg, bool bDeleteBadTrees);
173 CAICHHashTree* FindHash(uint64 nStartPos, uint64 nSize)
175 uint8 buffer = 0;
176 return FindHash(nStartPos, nSize, &buffer);
179 protected:
180 CAICHHashTree* FindHash(uint64 nStartPos, uint64 nSize, uint8* nLevel);
181 bool CreatePartRecoveryData(uint64 nStartPos, uint64 nSize,
182 CFileDataIO* fileDataOut, uint32 wHashIdent, bool b32BitIdent);
183 void WriteHash(CFileDataIO* fileDataOut, uint32 wHashIdent, bool b32BitIdent) const;
184 bool WriteLowestLevelHashs(CFileDataIO* fileDataOut,
185 uint32 wHashIdent, bool bNoIdent, bool b32BitIdent) const;
186 bool LoadLowestLevelHashs(CFileDataIO* fileInput);
187 bool SetHash(CFileDataIO* fileInput, uint32 wHashIdent, sint8 nLevel = (-1), bool bAllowOverwrite = true);
190 /////////////////////////////////////////////////////////////////////////////////////////
191 ///CAICHUntrustedHashs
192 class CAICHUntrustedHash {
193 public:
194 CAICHUntrustedHash& operator=(const CAICHUntrustedHash& k1)
196 m_adwIpsSigning = k1.m_adwIpsSigning;
197 m_Hash = k1.m_Hash ;
198 return *this;
200 bool AddSigningIP(uint32 dwIP);
202 CAICHHash m_Hash;
203 std::set<uint32> m_adwIpsSigning;
206 /////////////////////////////////////////////////////////////////////////////////////////
207 ///CAICHUntrustedHashs
208 class CAICHRequestedData {
209 public:
210 CAICHRequestedData()
212 m_nPart = 0;
213 m_pPartFile = NULL;
215 CAICHRequestedData& operator=(const CAICHRequestedData& k1)
217 m_nPart = k1.m_nPart;
218 m_pPartFile = k1.m_pPartFile;
219 m_pClient = k1.m_pClient;
220 return *this;
222 uint16 m_nPart;
223 CPartFile* m_pPartFile;
224 CClientRef m_pClient;
228 using namespace std;
230 typedef std::list<CAICHRequestedData> CAICHRequestedDataList;
232 /////////////////////////////////////////////////////////////////////////////////////////
233 ///CAICHHashSet
234 class CAICHHashSet
236 private:
237 CKnownFile* m_pOwner;
238 EAICHStatus m_eStatus;
239 deque<CAICHUntrustedHash> m_aUntrustedHashs;
241 public:
242 static CAICHRequestedDataList m_liRequestedData;
243 CAICHHashTree m_pHashTree;
245 CAICHHashSet(CKnownFile* pOwner);
246 ~CAICHHashSet(void);
247 bool CreatePartRecoveryData(uint64 nPartStartPos, CFileDataIO* fileDataOut, bool bDbgDontLoad = false);
248 bool ReadRecoveryData(uint64 nPartStartPos, CMemFile* fileDataIn);
249 bool ReCalculateHash(bool bDontReplace = false);
250 bool VerifyHashTree(bool bDeleteBadTrees);
251 void UntrustedHashReceived(const CAICHHash& Hash, uint32 dwFromIP);
252 bool IsPartDataAvailable(uint64 nPartStartPos);
253 void SetStatus(EAICHStatus bNewValue) { m_eStatus = bNewValue; }
254 EAICHStatus GetStatus() const { return m_eStatus; }
256 void FreeHashSet();
257 void SetFileSize(uint64 nSize);
259 CAICHHash& GetMasterHash() { return m_pHashTree.m_Hash; }
260 void SetMasterHash(const CAICHHash& Hash, EAICHStatus eNewStatus);
261 bool HasValidMasterHash() { return m_pHashTree.m_bHashValid; }
263 bool SaveHashSet();
264 bool LoadHashSet(); // only call directly when debugging
266 static CAICHHashAlgo* GetNewHashAlgo();
267 static void ClientAICHRequestFailed(CUpDownClient* pClient);
268 static void RemoveClientAICHRequest(const CUpDownClient* pClient);
269 static bool IsClientRequestPending(const CPartFile* pForFile, uint16 nPart);
270 static CAICHRequestedData GetAICHReqDetails(const CUpDownClient* pClient);
271 void DbgTest();
273 void SetOwner(CKnownFile* owner) { m_pOwner = owner; }
276 #endif //__SHAHAHSET_H__
278 // File_checked_for_headers