// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ /* ###################################################################### contents - Archive contents generator The GenContents class is a back end for an archive contents generator. It takes a list of per-deb file name and merges it into a memory database of all previous output. This database is stored as a set of binary trees linked across directories to form a tree of all files+dirs given to it. The tree will also be sorted as it is built up thus removing the massive sort time overhead. By breaking all the pathnames into components and storing them separately a space saving is realized by not duplicating the string over and over again. Ultimately this saving is sacrificed to storage of the tree structure itself but the tree structure yields a speed gain in the sorting and processing. Ultimately it takes about 5 seconds to do 141000 nodes and about 5 meg of ram. The tree looks something like: usr/ / \ / libslang bin/ lib/ --> libc6 / \ \ libfoo games/ sbin/ The ---> is the DirDown link ##################################################################### */ /*}}}*/ // Include Files /*{{{*/ #include #include #include #include #include #include #include #include #include "contents.h" #include /*}}}*/ // GenContents::~GenContents - Free allocated memory /*{{{*/ // --------------------------------------------------------------------- /* Since all our allocations are static big-block allocations all that is needed is to free all of them. */ GenContents::~GenContents() { while (BlockList != 0) { BigBlock *Old = BlockList; BlockList = Old->Next; free(Old->Block); delete Old; } } /*}}}*/ // GenContents::Mystrdup - Custom strdup /*{{{*/ // --------------------------------------------------------------------- /* This strdup also uses a large block allocator to eliminate glibc overhead */ char *GenContents::Mystrdup(const char *From) { unsigned int Len = strlen(From) + 1; if (StrLeft <= Len) { StrLeft = 4096*10; StrPool = (char *)malloc(StrLeft); BigBlock *Block = new BigBlock; Block->Block = StrPool; Block->Next = BlockList; BlockList = Block; } memcpy(StrPool,From,Len); StrLeft -= Len; char *Res = StrPool; StrPool += Len; return Res; } /*}}}*/ // GenContents::Node::operator new - Big block allocator /*{{{*/ // --------------------------------------------------------------------- /* This eliminates glibc's malloc overhead by allocating large blocks and having a continuous set of Nodes. This takes about 8 bytes off each nodes space needs. Freeing is not supported. */ void *GenContents::Node::operator new(size_t Amount,GenContents *Owner) { if (Owner->NodeLeft == 0) { Owner->NodeLeft = 10000; Owner->NodePool = static_cast(malloc(Amount*Owner->NodeLeft)); BigBlock *Block = new BigBlock; Block->Block = Owner->NodePool; Block->Next = Owner->BlockList; Owner->BlockList = Block; } Owner->NodeLeft--; return Owner->NodePool++; } /*}}}*/ // GenContents::Grab - Grab a new node representing Name under Top /*{{{*/ // --------------------------------------------------------------------- /* This grabs a new node representing the pathname component Name under the node Top. The node is given the name Package. It is assumed that Name is inside of top. If a duplicate already entered name is found then a note is made on the Dup list and the previous in-tree node is returned. */ GenContents::Node *GenContents::Grab(GenContents::Node *Top,const char *Name, const char *Package) { /* We drop down to the next dir level each call. This simplifies the calling routine */ if (Top->DirDown == 0) { Node *Item = new(this) Node; Item->Path = Mystrdup(Name); Item->Package = Package; Top->DirDown = Item; return Item; } Top = Top->DirDown; int Res; while (1) { Res = strcmp(Name,Top->Path); // Collision! if (Res == 0) { // See if this is the same package (multi-version dup) if (Top->Package == Package || strcasecmp(Top->Package,Package) == 0) return Top; // Look for an already existing Dup for (Node *I = Top->Dups; I != 0; I = I->Dups) if (I->Package == Package || strcasecmp(I->Package,Package) == 0) return Top; // Add the dup in Node *Item = new(this) Node; Item->Path = Top->Path; Item->Package = Package; Item->Dups = Top->Dups; Top->Dups = Item; return Top; } // Continue to traverse the tree if (Res < 0) { if (Top->BTreeLeft == 0) break; Top = Top->BTreeLeft; } else { if (Top->BTreeRight == 0) break; Top = Top->BTreeRight; } } // The item was not found in the tree Node *Item = new(this) Node; Item->Path = Mystrdup(Name); Item->Package = Package; // Link it into the tree if (Res < 0) { Item->BTreeLeft = Top->BTreeLeft; Top->BTreeLeft = Item; } else { Item->BTreeRight = Top->BTreeRight; Top->BTreeRight = Item; } return Item; } /*}}}*/ // GenContents::Add - Add a path to the tree /*{{{*/ // --------------------------------------------------------------------- /* This takes a full pathname and adds it into the tree. We split the pathname into directory fragments adding each one as we go. Technically in output from tar this should result in hitting previous items. */ void GenContents::Add(const char *Dir,const char *Package) { Node *Root = &this->Root; // Drop leading slashes while (*Dir == '/' && *Dir != 0) Dir++; // Run over the string and grab out each bit up to and including a / const char *Start = Dir; const char *I = Dir; while (*I != 0) { if (*I != '/' || I - Start <= 1) { I++; continue; } I++; // Copy the path fragment over char Tmp[1024]; strncpy(Tmp,Start,I - Start); Tmp[I - Start] = 0; // Grab a node for it Root = Grab(Root,Tmp,Package); Start = I; } // The final component if it does not have a trailing / if (I - Start >= 1) Grab(Root,Start,Package); } /*}}}*/ // GenContents::WriteSpace - Write a given number of white space chars /*{{{*/ // --------------------------------------------------------------------- /* We mod 8 it and write tabs where possible. */ void GenContents::WriteSpace(std::string &out, size_t Current, size_t Target) { if (Target <= Current) Target = Current + 1; /* Now we write tabs so long as the next tab stop would not pass the target */ for (; (Current/8 + 1)*8 < Target; Current = (Current/8 + 1)*8) out.append("\t"); // Fill the last bit with spaces for (; Current < Target; Current++) out.append(" "); } /*}}}*/ // GenContents::Print - Display the tree /*{{{*/ // --------------------------------------------------------------------- /* This is the final result function. It takes the tree and recursively calls itself and runs over each section of the tree printing out the pathname and the hit packages. We use Buf to build the pathname summed over all the directory parents of this node. */ void GenContents::Print(FileFd &Out) { char Buffer[1024]; Buffer[0] = 0; DoPrint(Out,&Root,Buffer); } void GenContents::DoPrint(FileFd &Out,GenContents::Node *Top, char *Buf) { if (Top == 0) return; // Go left DoPrint(Out,Top->BTreeLeft,Buf); // Print the current dir location and then descend to lower dirs char *OldEnd = Buf + strlen(Buf); if (Top->Path != 0) { strcat(Buf,Top->Path); // Do not show the item if it is a directory with dups if (Top->Path[strlen(Top->Path)-1] != '/' /*|| Top->Dups == 0*/) { std::string out = Buf; WriteSpace(out, out.length(), 60); for (Node *I = Top; I != 0; I = I->Dups) { if (I != Top) out.append(","); out.append(I->Package); } out.append("\n"); Out.Write(out.c_str(), out.length()); } } // Go along the directory link DoPrint(Out,Top->DirDown,Buf); *OldEnd = 0; // Go right DoPrint(Out,Top->BTreeRight,Buf); } /*}}}*/ // ContentsExtract Constructor /*{{{*/ ContentsExtract::ContentsExtract() : Data(0), MaxSize(0), CurSize(0) { } /*}}}*/ // ContentsExtract Destructor /*{{{*/ ContentsExtract::~ContentsExtract() { free(Data); } /*}}}*/ // ContentsExtract::Read - Read the archive /*{{{*/ // --------------------------------------------------------------------- /* */ bool ContentsExtract::Read(debDebFile &Deb) { Reset(); return Deb.ExtractArchive(*this); } /*}}}*/ // ContentsExtract::DoItem - Extract an item /*{{{*/ // --------------------------------------------------------------------- /* This just tacks the name onto the end of our memory buffer */ bool ContentsExtract::DoItem(Item &Itm, int &/*Fd*/) { unsigned long Len = strlen(Itm.Name); // Strip leading ./'s if (Itm.Name[0] == '.' && Itm.Name[1] == '/') { // == './' if (Len == 2) return true; Len -= 2; Itm.Name += 2; } // Allocate more storage for the string list if (CurSize + Len + 2 >= MaxSize || Data == 0) { if (MaxSize == 0) MaxSize = 512*1024/2; char *NewData = (char *)realloc(Data,MaxSize*2); if (NewData == 0) return _error->Error(_("realloc - Failed to allocate memory")); Data = NewData; MaxSize *= 2; } strcpy(Data+CurSize,Itm.Name); CurSize += Len + 1; return true; } /*}}}*/ // ContentsExtract::TakeContents - Load the contents data /*{{{*/ // --------------------------------------------------------------------- /* */ bool ContentsExtract::TakeContents(const void *NewData,unsigned long long Length) { if (Length == 0) { CurSize = 0; return true; } // Allocate more storage for the string list if (Length + 2 >= MaxSize || Data == 0) { if (MaxSize == 0) MaxSize = 512*1024/2; while (MaxSize*2 <= Length) MaxSize *= 2; char *NewData = (char *)realloc(Data,MaxSize*2); if (NewData == 0) return _error->Error(_("realloc - Failed to allocate memory")); Data = NewData; MaxSize *= 2; } memcpy(Data,NewData,Length); CurSize = Length; return Data[CurSize-1] == 0; } /*}}}*/ // ContentsExtract::Add - Read the contents data into the sorter /*{{{*/ // --------------------------------------------------------------------- /* */ void ContentsExtract::Add(GenContents &Contents,std::string const &Package) { const char *Start = Data; char *Pkg = Contents.Mystrdup(Package.c_str()); for (const char *I = Data; I < Data + CurSize; I++) { if (*I == 0) { Contents.Add(Start,Pkg); Start = ++I; } } } /*}}}*/