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path: root/third_party/nix/src/nix/why-depends.cc
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#include <queue>

#include <glog/logging.h>

#include "command.hh"
#include "fs-accessor.hh"
#include "shared.hh"
#include "store-api.hh"

using namespace nix;

static std::string hilite(const std::string& s, size_t pos, size_t len,
                          const std::string& colour = ANSI_RED) {
  return std::string(s, 0, pos) + colour + std::string(s, pos, len) +
         ANSI_NORMAL + std::string(s, pos + len);
}

static std::string filterPrintable(const std::string& s) {
  std::string res;
  for (char c : s) {
    res += isprint(c) != 0 ? c : '.';
  }
  return res;
}

struct CmdWhyDepends : SourceExprCommand {
  std::string _package, _dependency;
  bool all = false;

  CmdWhyDepends() {
    expectArg("package", &_package);
    expectArg("dependency", &_dependency);

    mkFlag()
        .longName("all")
        .shortName('a')
        .description(
            "show all edges in the dependency graph leading from 'package' to "
            "'dependency', rather than just a shortest path")
        .set(&all, true);
  }

  std::string name() override { return "why-depends"; }

  std::string description() override {
    return "show why a package has another package in its closure";
  }

  Examples examples() override {
    return {
        Example{"To show one path through the dependency graph leading from "
                "Hello to Glibc:",
                "nix why-depends nixpkgs.hello nixpkgs.glibc"},
        Example{
            "To show all files and paths in the dependency graph leading from "
            "Thunderbird to libX11:",
            "nix why-depends --all nixpkgs.thunderbird nixpkgs.xorg.libX11"},
        Example{"To show why Glibc depends on itself:",
                "nix why-depends nixpkgs.glibc nixpkgs.glibc"},
    };
  }

  void run(ref<Store> store) override {
    auto package = parseInstallable(*this, store, _package, false);
    auto packagePath = toStorePath(store, Build, package);
    auto dependency = parseInstallable(*this, store, _dependency, false);
    auto dependencyPath = toStorePath(store, NoBuild, dependency);
    auto dependencyPathHash = storePathToHash(dependencyPath);

    PathSet closure;
    store->computeFSClosure({packagePath}, closure, false, false);

    if (closure.count(dependencyPath) == 0u) {
      LOG(WARNING) << "'" << package->what() << "' does not depend on '"
                   << dependency->what() << "'";
      return;
    }

    auto accessor = store->getFSAccessor();

    auto const inf = std::numeric_limits<size_t>::max();

    struct Node {
      Path path;
      PathSet refs;
      PathSet rrefs;
      size_t dist = inf;
      Node* prev = nullptr;
      bool queued = false;
      bool visited = false;
    };

    std::map<Path, Node> graph;

    for (auto& path : closure) {
      graph.emplace(path, Node{path, store->queryPathInfo(path)->references});
    }

    // Transpose the graph.
    for (auto& node : graph) {
      for (auto& ref : node.second.refs) {
        graph[ref].rrefs.insert(node.first);
      }
    }

    /* Run Dijkstra's shortest path algorithm to get the distance
       of every path in the closure to 'dependency'. */
    graph[dependencyPath].dist = 0;

    std::priority_queue<Node*> queue;

    queue.push(&graph.at(dependencyPath));

    while (!queue.empty()) {
      auto& node = *queue.top();
      queue.pop();

      for (auto& rref : node.rrefs) {
        auto& node2 = graph.at(rref);
        auto dist = node.dist + 1;
        if (dist < node2.dist) {
          node2.dist = dist;
          node2.prev = &node;
          if (!node2.queued) {
            node2.queued = true;
            queue.push(&node2);
          }
        }
      }
    }

    /* Print the subgraph of nodes that have 'dependency' in their
       closure (i.e., that have a non-infinite distance to
       'dependency'). Print every edge on a path between `package`
       and `dependency`. */
    std::function<void(Node&, const std::string&, const std::string&)>
        printNode;

    const std::string treeConn = "╠═══";
    const std::string treeLast = "╚═══";
    const std::string treeLine = "║   ";
    const std::string treeNull = "    ";

    struct BailOut {};

    printNode = [&](Node& node, const std::string& firstPad,
                    const std::string& tailPad) {
      assert(node.dist != inf);
      std::cout << fmt("%s%s%s%s" ANSI_NORMAL "\n", firstPad,
                       node.visited ? "\e[38;5;244m" : "",
                       !firstPad.empty() ? "=> " : "", node.path);

      if (node.path == dependencyPath && !all &&
          packagePath != dependencyPath) {
        throw BailOut();
      }

      if (node.visited) {
        return;
      }
      node.visited = true;

      /* Sort the references by distance to `dependency` to
         ensure that the shortest path is printed first. */
      std::multimap<size_t, Node*> refs;
      std::set<std::string> hashes;

      for (auto& ref : node.refs) {
        if (ref == node.path && packagePath != dependencyPath) {
          continue;
        }
        auto& node2 = graph.at(ref);
        if (node2.dist == inf) {
          continue;
        }
        refs.emplace(node2.dist, &node2);
        hashes.insert(storePathToHash(node2.path));
      }

      /* For each reference, find the files and symlinks that
         contain the reference. */
      std::map<std::string, Strings> hits;

      std::function<void(const Path&)> visitPath;

      visitPath = [&](const Path& p) {
        auto st = accessor->stat(p);

        auto p2 = p == node.path ? "/" : std::string(p, node.path.size() + 1);

        auto getColour = [&](const std::string& hash) {
          return hash == dependencyPathHash ? ANSI_GREEN : ANSI_BLUE;
        };

        if (st.type == FSAccessor::Type::tDirectory) {
          auto names = accessor->readDirectory(p);
          for (auto& name : names) {
            visitPath(p + "/" + name);
          }
        }

        else if (st.type == FSAccessor::Type::tRegular) {
          auto contents = accessor->readFile(p);

          for (auto& hash : hashes) {
            auto pos = contents.find(hash);
            if (pos != std::string::npos) {
              size_t margin = 32;
              auto pos2 = pos >= margin ? pos - margin : 0;
              hits[hash].emplace_back(fmt(
                  "%s: …%s\n", p2,
                  hilite(
                      filterPrintable(std::string(
                          contents, pos2, pos - pos2 + hash.size() + margin)),
                      pos - pos2, storePathHashLen, getColour(hash))));
            }
          }
        }

        else if (st.type == FSAccessor::Type::tSymlink) {
          auto target = accessor->readLink(p);

          for (auto& hash : hashes) {
            auto pos = target.find(hash);
            if (pos != std::string::npos) {
              hits[hash].emplace_back(
                  fmt("%s -> %s\n", p2,
                      hilite(target, pos, storePathHashLen, getColour(hash))));
            }
          }
        }
      };

      // FIXME: should use scanForReferences().

      visitPath(node.path);

      RunPager pager;
      for (auto& ref : refs) {
        auto hash = storePathToHash(ref.second->path);

        bool last = all ? ref == *refs.rbegin() : true;

        for (auto& hit : hits[hash]) {
          bool first = hit == *hits[hash].begin();
          std::cout << tailPad
                    << (first ? (last ? treeLast : treeConn)
                              : (last ? treeNull : treeLine))
                    << hit;
          if (!all) {
            break;
          }
        }

        printNode(*ref.second, tailPad + (last ? treeNull : treeLine),
                  tailPad + (last ? treeNull : treeLine));
      }
    };

    try {
      printNode(graph.at(packagePath), "", "");
    } catch (BailOut&) {
    }
  }
};

static RegisterCommand r1(make_ref<CmdWhyDepends>());