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openSUSE:Step:15-SP4
fdupes
fdupes_wrapper.cpp
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File fdupes_wrapper.cpp of Package fdupes
/* * A little helper to wrap around fdupes and create hard/soft links of the * dups found. Used in openSUSE rpm. * * Copyright 2022 Jiri Slaby <jslaby@suse.cz> * 2022 Stephan Kulow <coolo@suse.de> * 2022 Stefan BrĂ¼ns <stefan.bruens@rwth-aachen.de> * * SPDX-License-Identifier: MIT */ #include <algorithm> #include <iostream> #include <string> #include <sys/param.h> #include <sys/stat.h> #include <unistd.h> #include <utility> #include <vector> #include <sstream> using namespace std; struct file_entry { ino_t inode; nlink_t link_count; string path; file_entry(ino_t i, nlink_t n, string&& p) : inode(i), link_count(n), path(move(p)) {} }; using dup_set = vector<file_entry>; enum class Operation { Symlink, Hardlink, DryRun, }; vector<string> split_paths(const string& path) { string token; vector<string> paths; stringstream ss(path); while (getline(ss, token, '/')) { if (token == "..") { paths.pop_back(); } else if (token != "." || ss.eof()) { paths.push_back(token); } } return paths; } string merge_paths(const vector<string>& paths) { string path; for (const auto& s : paths) { if (s.empty()) continue; if (!path.empty()) path += "/"; path += s; } return path; } string relative(const string& p1, const string& p2) { vector<string> paths1 = split_paths(p1); paths1.pop_back(); vector<string> paths2 = split_paths(p2); vector<string> paths; vector<string>::const_iterator it1 = paths1.begin(); vector<string>::const_iterator it2 = paths2.begin(); // first remove the common parts while (it1 != paths1.end() && *it1 == *it2) { it1++; it2++; } for (; it1 != paths1.end(); ++it1) { paths.push_back(".."); } for (; it2 != paths2.end(); ++it2) { paths.push_back(*it2); } return merge_paths(paths); } void link_file(const std::string& file, const std::string& target, Operation op) { std::cout << "Linking " << file << " -> " << target << std::endl; if (op == Operation::DryRun) return; if (unlink(file.c_str())) { std::cerr << "Removing '" << file << "' failed." << std::endl; exit(1); } int ret; if (op == Operation::Symlink) { ret = ::symlink(target.c_str(), file.c_str()); } else { ret = link(target.c_str(), file.c_str()); } if (ret) { std::cerr << "Linking '" << file << "' failed." << std::endl; exit(1); } } std::string target_for_link(string target, const std::string &file, Operation op) { if (op == Operation::Hardlink) // hardlinks don't care return target; return relative(file, target); } void handle_dups(dup_set& dups, Operation op) { // calculate number of hardlinked duplicates found, for each file // this may be different than the st_nlink value std::sort(dups.begin(), dups.end(), [](const file_entry& a, const file_entry& b) { return a.inode < b.inode; }); auto first = dups.begin(); while (first != dups.end()) { auto r = equal_range(first, dups.end(), *first, [](const file_entry& a, const file_entry& b) { return a.inode < b.inode; }); for (auto i = r.first; i != r.second; ++i) { i->link_count = std::distance(r.first, r.second); } first = r.second; } // use the file with most hardlinks as target // in case of ties, sort by name to get a stable order for reproducible builds std::sort(dups.begin(), dups.end(), [](const file_entry& a, const file_entry& b) { if (a.link_count == b.link_count) return a.path > b.path; return a.link_count > b.link_count; }); const string& target = dups[0].path; for (const file_entry& e : dups) { // skip duplicates hardlinked to first entry if (e.inode == dups[0].inode) continue; link_file(e.path, target_for_link(target, e.path, op), op); } } int main(int argc, char** argv) { Operation op = Operation::Hardlink; std::vector<std::string> roots; while (1) { int result = getopt(argc, argv, "sn"); if (result == -1) break; /* end of list */ switch (result) { case 's': op = Operation::Symlink; break; case 'n': op = Operation::DryRun; break; default: /* unknown */ break; } } while (optind < argc) { std::string root = argv[optind++]; if (root.front() != '/') { char buffer[PATH_MAX]; root = std::string(getcwd(buffer, PATH_MAX)) + '/' + root; } roots.push_back(root); } if (roots.empty()) { std::cerr << "Missing directory argument."; return 1; } /* fdupes options used: -q: hide progress indicator -p: don't consider files with different owner/group or permission bits as duplicates -n: exclude zero-length files from consideration -r: follow subdirectories -H: also report hard links as duplicates */ std::string command = "fdupes -q -p -r -n"; if (op != Operation::Symlink) { /* if we create symlinks, avoid looking at hard links being duplicated. This way fdupes is faster and won't break them up anyway */ command += " -H"; } for (auto it = roots.begin(); it != roots.end(); ++it) { command += " '" + *it + "'"; } FILE* pipe = popen(command.c_str(), "r"); if (!pipe) { throw std::runtime_error("popen() failed!"); } std::vector<char> buffer; buffer.resize(MAXPATHLEN); dup_set dups; while (fgets(buffer.data(), buffer.size(), pipe) != nullptr) { std::string line = buffer.data(); if (line.length() < 2) { handle_dups(dups, op); dups.clear(); continue; } if (line.back() != '\n') { std::cerr << "Too long lines? '" << line << "'" << std::endl; return 1; } line.pop_back(); struct stat sb; if (stat(line.c_str(), &sb)) { std::cerr << "Stat on '" << buffer.data() << "' failed" << std::endl; return 1; } dups.emplace_back(sb.st_ino, 0, std::move(line)); } pclose(pipe); return 0; }
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