#include #include #include #include "shared.hh" #include "globals.hh" #include "eval.hh" #include "store-api.hh" #include "get-drvs.hh" #include "thread-pool.hh" #include "sqlite.hh" #include "download.hh" #include "binary-cache-store.hh" #include "file-cache.hh" using namespace nix; static const char * programsSchema = R"sql( create table if not exists Programs ( name text not null, system text not null, package text not null, primary key (name, system, package) ); )sql"; void mainWrapped(int argc, char * * argv) { initNix(); initGC(); if (argc != 6) throw Error("usage: generate-programs-index CACHE-DB PROGRAMS-DB BINARY-CACHE-URI STORE-PATHS NIXPKGS-PATH"); Path cacheDbPath = argv[1]; Path programsDbPath = argv[2]; Path storePathsFile = argv[4]; Path nixpkgsPath = argv[5]; settings.readOnlyMode = true; settings.showTrace = true; auto localStore = openStore(); std::string binaryCacheUri = argv[3]; if (hasSuffix(binaryCacheUri, "/")) binaryCacheUri.pop_back(); auto binaryCache = openStore(binaryCacheUri).cast(); /* Get the allowed store paths to be included in the database. */ auto allowedPaths = binaryCache->parseStorePathSet(tokenizeString(readFile(storePathsFile, true))); StorePathSet allowedPathsClosure; binaryCache->computeFSClosure(allowedPaths, allowedPathsClosure); printMsg(lvlInfo, "%d top-level paths, %d paths in closure", allowedPaths.size(), allowedPathsClosure.size()); FileCache fileCache(cacheDbPath); /* Initialise the programs database. */ struct ProgramsState { SQLite db; SQLiteStmt insertProgram; }; Sync programsState_; unlink(programsDbPath.c_str()); { auto programsState(programsState_.lock()); programsState->db = SQLite(programsDbPath); programsState->db.exec("pragma synchronous = off"); programsState->db.exec("pragma main.journal_mode = truncate"); programsState->db.exec(programsSchema); programsState->insertProgram.create(programsState->db, "insert or replace into Programs(name, system, package) values (?, ?, ?)"); } EvalState state({}, localStore); Value vRoot; state.eval(state.parseExprFromFile(resolveExprPath(absPath(nixpkgsPath))), vRoot); /* Get all derivations. */ DrvInfos packages; for (auto system : std::set{"x86_64-linux", "i686-linux"}) { auto args = state.allocBindings(2); Value * vConfig = state.allocValue(); state.mkAttrs(*vConfig, 0); args->push_back(Attr(state.symbols.create("config"), vConfig)); Value * vSystem = state.allocValue(); mkString(*vSystem, system); args->push_back(Attr(state.symbols.create("system"), vSystem)); args->sort(); getDerivations(state, vRoot, "", *args, packages, true); } /* For each store path, figure out the package with the shortest attribute name. E.g. "nix" is preferred over "nixStable". */ std::map packagesByPath; for (auto & package : packages) try { auto outputs = package.queryOutputs(true); for (auto & output : outputs) { auto storePath = binaryCache->parseStorePath(output.second); if (!allowedPathsClosure.count(storePath)) continue; auto i = packagesByPath.find(storePath); if (i != packagesByPath.end() && (i->second->attrPath.size() < package.attrPath.size() || (i->second->attrPath.size() == package.attrPath.size() && i->second->attrPath < package.attrPath))) continue; packagesByPath.emplace(std::move(storePath), &package); } } catch (AssertionError & e) { } catch (Error & e) { e.addPrefix(fmt("in package ‘%s’: ", package.attrPath)); throw; } /* Note: we don't index hidden files. */ std::regex isProgram("bin/([^.][^/]*)"); /* Process each store path. */ auto doPath = [&](const Path & storePath, DrvInfo * package) { try { auto files = fileCache.getFiles(binaryCache, storePath); if (files.empty()) return; std::set programs; for (auto file : files) { std::smatch match; if (!std::regex_match(file.first, match, isProgram)) continue; auto curPath = file.first; auto stat = file.second; while (stat.type == FSAccessor::Type::tSymlink) { auto target = canonPath( hasPrefix(stat.target, "/") ? stat.target : dirOf(storePath + "/" + curPath) + "/" + stat.target); // FIXME: resolve symlinks in components of stat.target. if (!hasPrefix(target, "/nix/store/")) break; /* Assume that symlinks to other store paths point to executables. But check symlinks within the same store path. */ if (target.compare(0, storePath.size(), storePath) != 0) { stat.type = FSAccessor::Type::tRegular; stat.isExecutable = true; break; } std::string sub(target, storePath.size() + 1); auto file2 = files.find(sub); if (file2 == files.end()) { printError("symlink ‘%s’ has non-existent target ‘%s’", storePath + "/" + file.first, stat.target); break; } curPath = sub; stat = file2->second; } if (stat.type == FSAccessor::Type::tDirectory || stat.type == FSAccessor::Type::tSymlink || (stat.type == FSAccessor::Type::tRegular && !stat.isExecutable)) continue; programs.insert(match[1]); } if (programs.empty()) return; { auto programsState(programsState_.lock()); SQLiteTxn txn(programsState->db); for (auto & program : programs) programsState->insertProgram.use()(program)(package->querySystem())(package->attrPath).exec(); txn.commit(); } } catch (BadJSON & e) { printError("error: in %s (%s): %s", package->attrPath, storePath, e.what()); } }; /* Enqueue work items for each package. */ ThreadPool threadPool(16); for (auto & i : packagesByPath) threadPool.enqueue(std::bind(doPath, binaryCache->printStorePath(i.first), i.second)); threadPool.process(); /* Vacuum programs.sqlite to make it smaller. */ { auto programsState(programsState_.lock()); programsState->db.exec("vacuum"); } } int main(int argc, char * * argv) { return handleExceptions(argv[0], [&]() { mainWrapped(argc, argv); }); }