Nix/src/nix/verify.cc

#include "command.hh"
#include "shared.hh"
#include "store-api.hh"
#include "sync.hh"
#include "thread-pool.hh"
#include "references.hh"

#include <atomic>

using namespace nix;

struct CmdVerify : StorePathsCommand
{
    bool noContents = false;
    bool noTrust = false;
    Strings substituterUris;
    size_t sigsNeeded = 0;

    CmdVerify()
    {
        mkFlag(0, "no-contents", "do not verify the contents of each store path", &noContents);
        mkFlag(0, "no-trust", "do not verify whether each store path is trusted", &noTrust);
        mkFlag()
            .longName("substituter")
            .shortName('s')
            .labels({"store-uri"})
            .description("use signatures from specified store")
            .arity(1)
            .handler([&](std::vector<std::string> ss) { substituterUris.push_back(ss[0]); });
        mkIntFlag('n', "sigs-needed", "require that each path has at least N valid signatures", &sigsNeeded);
    }

    std::string description() override
    {
        return "verify the integrity of store paths";
    }

    Examples examples() override
    {
        return {
            Example{
                "To verify the entire Nix store:",
                "nix verify --all"
            },
            Example{
                "To check whether each path in the closure of Firefox has at least 2 signatures:",
                "nix verify -r -n2 --no-contents $(type -p firefox)"
            },
        };
    }

    void run(ref<Store> store, StorePaths storePaths) override
    {
        std::vector<ref<Store>> substituters;
        for (auto & s : substituterUris)
            substituters.push_back(openStore(s));

        auto publicKeys = getDefaultPublicKeys();

        Activity act(*logger, actVerifyPaths);

        std::atomic<size_t> done{0};
        std::atomic<size_t> untrusted{0};
        std::atomic<size_t> corrupted{0};
        std::atomic<size_t> failed{0};
        std::atomic<size_t> active{0};

        auto update = [&]() {
            act.progress(done, storePaths.size(), active, failed);
        };

        ThreadPool pool;

        auto doPath = [&](const Path & storePath) {
            try {
                checkInterrupt();

                Activity act2(*logger, lvlInfo, actUnknown, fmt("checking '%s'", storePath));

                MaintainCount<std::atomic<size_t>> mcActive(active);
                update();

                auto info = store->queryPathInfo(store->parseStorePath(storePath));

                if (!noContents) {

                    std::unique_ptr<AbstractHashSink> hashSink;
                    if (info->ca == "")
                        hashSink = std::make_unique<HashSink>(info->narHash.type);
                    else
                        hashSink = std::make_unique<HashModuloSink>(info->narHash.type, storePathToHash(store->printStorePath(info->path)));

                    store->narFromPath(info->path, *hashSink);

                    auto hash = hashSink->finish();

                    if (hash.first != info->narHash) {
                        corrupted++;
                        act2.result(resCorruptedPath, store->printStorePath(info->path));
                        printError(
                            "path '%s' was modified! expected hash '%s', got '%s'",
                            store->printStorePath(info->path), info->narHash.to_string(), hash.first.to_string());
                    }

                }

                if (!noTrust) {

                    bool good = false;

                    if (info->ultimate && !sigsNeeded)
                        good = true;

                    else {

                        StringSet sigsSeen;
                        size_t actualSigsNeeded = std::max(sigsNeeded, (size_t) 1);
                        size_t validSigs = 0;

                        auto doSigs = [&](StringSet sigs) {
                            for (auto sig : sigs) {
                                if (!sigsSeen.insert(sig).second) continue;
                                if (validSigs < ValidPathInfo::maxSigs && info->checkSignature(*store, publicKeys, sig))
                                    validSigs++;
                            }
                        };

                        if (info->isContentAddressed(*store)) validSigs = ValidPathInfo::maxSigs;

                        doSigs(info->sigs);

                        for (auto & store2 : substituters) {
                            if (validSigs >= actualSigsNeeded) break;
                            try {
                                auto info2 = store2->queryPathInfo(info->path);
                                if (info2->isContentAddressed(*store)) validSigs = ValidPathInfo::maxSigs;
                                doSigs(info2->sigs);
                            } catch (InvalidPath &) {
                            } catch (Error & e) {
                                printError(format(ANSI_RED "error:" ANSI_NORMAL " %s") % e.what());
                            }
                        }

                        if (validSigs >= actualSigsNeeded)
                            good = true;
                    }

                    if (!good) {
                        untrusted++;
                        act2.result(resUntrustedPath, store->printStorePath(info->path));
                        printError("path '%s' is untrusted", store->printStorePath(info->path));
                    }

                }

                done++;

            } catch (Error & e) {
                printError(format(ANSI_RED "error:" ANSI_NORMAL " %s") % e.what());
                failed++;
            }

            update();
        };

        for (auto & storePath : storePaths)
            pool.enqueue(std::bind(doPath, store->printStorePath(storePath)));

        pool.process();

        throw Exit(
            (corrupted ? 1 : 0) |
            (untrusted ? 2 : 0) |
            (failed ? 4 : 0));
    }
};

static auto r1 = registerCommand<CmdVerify>("verify");