#include "command.hh" #include "globals.hh" #include "eval.hh" #include "eval-inline.hh" #include "names.hh" #include "get-drvs.hh" #include "common-args.hh" #include "json.hh" #include "json-to-value.hh" #include #include using namespace nix; std::string hilite(const std::string & s, const std::smatch & m) { return m.empty() ? s : std::string(m.prefix()) + ANSI_RED + std::string(m.str()) + ANSI_NORMAL + std::string(m.suffix()); } struct CmdSearch : SourceExprCommand, MixJSON { std::string re; bool writeCache = true; bool useCache = true; CmdSearch() { expectArg("regex", &re, true); mkFlag() .longName("update-cache") .shortName('u') .description("update the package search cache") .handler([&]() { writeCache = true; useCache = false; }); mkFlag() .longName("no-cache") .description("do not use or update the package search cache") .handler([&]() { writeCache = false; useCache = false; }); } std::string name() override { return "search"; } std::string description() override { return "query available packages"; } Examples examples() override { return { Example{ "To show all available packages:", "nix search" }, Example{ "To show any packages containing 'blender' in its name or description:", "nix search blender" }, Example{ "To search for Firefox and Chromium:", "nix search 'firefox|chromium'" }, }; } void run(ref store) override { settings.readOnlyMode = true; // Empty search string should match all packages // Use "^" here instead of ".*" due to differences in resulting highlighting // (see #1893 -- libc++ claims empty search string is not in POSIX grammar) if (re.empty()) re = "^"; std::regex regex(re, std::regex::extended | std::regex::icase); auto state = getEvalState(); auto jsonOut = json ? std::make_unique(std::cout) : nullptr; auto sToplevel = state->symbols.create("_toplevel"); auto sRecurse = state->symbols.create("recurseForDerivations"); bool fromCache = false; std::map results; std::function doExpr; doExpr = [&](Value * v, std::string attrPath, bool toplevel, JSONObject * cache) { debug("at attribute '%s'", attrPath); try { state->forceValue(*v); if (v->type == tLambda && toplevel) { Value * v2 = state->allocValue(); state->autoCallFunction(*state->allocBindings(1), *v, *v2); v = v2; state->forceValue(*v); } if (state->isDerivation(*v)) { DrvInfo drv(*state, attrPath, v->attrs); DrvName parsed(drv.queryName()); std::smatch attrPathMatch; std::regex_search(attrPath, attrPathMatch, regex); auto name = parsed.name; std::smatch nameMatch; std::regex_search(name, nameMatch, regex); std::string description = drv.queryMetaString("description"); std::replace(description.begin(), description.end(), '\n', ' '); std::smatch descriptionMatch; std::regex_search(description, descriptionMatch, regex); if (!attrPathMatch.empty() || !nameMatch.empty() || !descriptionMatch.empty()) { if (json) { auto jsonElem = jsonOut->object(attrPath); jsonElem.attr("pkgName", parsed.name); jsonElem.attr("version", parsed.version); jsonElem.attr("description", description); } else { results[attrPath] = fmt( "Attribute name: %s\n" "Package name: %s\n" "Version: %s\n" "Description: %s\n", hilite(attrPath, attrPathMatch), hilite(name, nameMatch), parsed.version, hilite(description, descriptionMatch)); } } if (cache) { cache->attr("type", "derivation"); cache->attr("name", drv.queryName()); cache->attr("system", drv.querySystem()); if (description != "") { auto meta(cache->object("meta")); meta.attr("description", description); } } } else if (v->type == tAttrs) { if (!toplevel) { auto attrs = v->attrs; Bindings::iterator j = attrs->find(sRecurse); if (j == attrs->end() || !state->forceBool(*j->value, *j->pos)) { debug("skip attribute '%s'", attrPath); return; } } bool toplevel2 = false; if (!fromCache) { Bindings::iterator j = v->attrs->find(sToplevel); toplevel2 = j != v->attrs->end() && state->forceBool(*j->value, *j->pos); } for (auto & i : *v->attrs) { auto cache2 = cache ? std::make_unique(cache->object(i.name)) : nullptr; doExpr(i.value, attrPath == "" ? (std::string) i.name : attrPath + "." + (std::string) i.name, toplevel2 || fromCache, cache2 ? cache2.get() : nullptr); } } } catch (AssertionError & e) { } catch (Error & e) { if (!toplevel) { e.addPrefix(fmt("While evaluating the attribute '%s':\n", attrPath)); throw; } } }; Path jsonCacheFileName = getCacheDir() + "/nix/package-search.json"; if (useCache && pathExists(jsonCacheFileName)) { warn("using cached results; pass '-u' to update the cache"); Value vRoot; parseJSON(*state, readFile(jsonCacheFileName), vRoot); fromCache = true; doExpr(&vRoot, "", true, nullptr); } else { createDirs(dirOf(jsonCacheFileName)); Path tmpFile = fmt("%s.tmp.%d", jsonCacheFileName, getpid()); std::ofstream jsonCacheFile; try { // iostream considered harmful jsonCacheFile.exceptions(std::ofstream::failbit); jsonCacheFile.open(tmpFile); auto cache = writeCache ? std::make_unique(jsonCacheFile, false) : nullptr; doExpr(getSourceExpr(*state), "", true, cache.get()); } catch (std::exception &) { /* Fun fact: catching std::ios::failure does not work due to C++11 ABI shenanigans. https://gcc.gnu.org/bugzilla/show_bug.cgi?id=66145 */ if (!jsonCacheFile) throw Error("error writing to %s", tmpFile); } if (writeCache && rename(tmpFile.c_str(), jsonCacheFileName.c_str()) == -1) throw SysError("cannot rename '%s' to '%s'", tmpFile, jsonCacheFileName); } for (auto el : results) std::cout << el.second << "\n"; } }; static RegisterCommand r1(make_ref());