#if __linux__ #include "cgroup.hh" #include "util.hh" #include "finally.hh" #include #include #include #include #include #include #include namespace nix { std::optional getCgroupFS() { static auto res = [&]() -> std::optional { auto fp = fopen("/proc/mounts", "r"); if (!fp) return std::nullopt; Finally delFP = [&]() { fclose(fp); }; while (auto ent = getmntent(fp)) if (std::string_view(ent->mnt_type) == "cgroup2") return ent->mnt_dir; return std::nullopt; }(); return res; } // FIXME: obsolete, check for cgroup2 std::map getCgroups(const Path & cgroupFile) { std::map cgroups; for (auto & line : tokenizeString>(readFile(cgroupFile), "\n")) { static std::regex regex("([0-9]+):([^:]*):(.*)"); std::smatch match; if (!std::regex_match(line, match, regex)) throw Error("invalid line '%s' in '%s'", line, cgroupFile); std::string name = std::string(match[2]).starts_with("name=") ? std::string(match[2], 5) : match[2]; cgroups.insert_or_assign(name, match[3]); } return cgroups; } static CgroupStats destroyCgroup(const Path & cgroup, bool returnStats) { if (!pathExists(cgroup)) return {}; auto procsFile = cgroup + "/cgroup.procs"; if (!pathExists(procsFile)) throw Error("'%s' is not a cgroup", cgroup); /* Use the fast way to kill every process in a cgroup, if available. */ auto killFile = cgroup + "/cgroup.kill"; if (pathExists(killFile)) writeFile(killFile, "1"); /* Otherwise, manually kill every process in the subcgroups and this cgroup. */ for (auto & entry : readDirectory(cgroup)) { if (entry.type != DT_DIR) continue; destroyCgroup(cgroup + "/" + entry.name, false); } int round = 1; std::unordered_set pidsShown; while (true) { auto pids = tokenizeString>(readFile(procsFile)); if (pids.empty()) break; if (round > 20) throw Error("cannot kill cgroup '%s'", cgroup); for (auto & pid_s : pids) { pid_t pid; if (auto o = string2Int(pid_s)) pid = *o; else throw Error("invalid pid '%s'", pid); if (pidsShown.insert(pid).second) { try { auto cmdline = readFile(fmt("/proc/%d/cmdline", pid)); using namespace std::string_literals; warn("killing stray builder process %d (%s)...", pid, trim(replaceStrings(cmdline, "\0"s, " "))); } catch (SysError &) { } } // FIXME: pid wraparound if (kill(pid, SIGKILL) == -1 && errno != ESRCH) throw SysError("killing member %d of cgroup '%s'", pid, cgroup); } auto sleep = std::chrono::milliseconds((int) std::pow(2.0, std::min(round, 10))); if (sleep.count() > 100) printError("waiting for %d ms for cgroup '%s' to become empty", sleep.count(), cgroup); std::this_thread::sleep_for(sleep); round++; } CgroupStats stats; if (returnStats) { auto cpustatPath = cgroup + "/cpu.stat"; if (pathExists(cpustatPath)) { for (auto & line : tokenizeString>(readFile(cpustatPath), "\n")) { std::string_view userPrefix = "user_usec "; if (line.starts_with(userPrefix)) { auto n = string2Int(line.substr(userPrefix.size())); if (n) stats.cpuUser = std::chrono::microseconds(*n); } std::string_view systemPrefix = "system_usec "; if (line.starts_with(systemPrefix)) { auto n = string2Int(line.substr(systemPrefix.size())); if (n) stats.cpuSystem = std::chrono::microseconds(*n); } } } } if (rmdir(cgroup.c_str()) == -1) throw SysError("deleting cgroup '%s'", cgroup); return stats; } CgroupStats destroyCgroup(const Path & cgroup) { return destroyCgroup(cgroup, true); } } #endif