jni/node_test.cpp - platform/packages/providers/MediaProvider - Gitiles

 #include <gtest/gtest.h>

 #include "node-inl.h"

 #include <algorithm>
 #include <limits>
 #include <memory>
 #include <mutex>

 using mediaprovider::fuse::dirhandle;
 using mediaprovider::fuse::handle;
 using mediaprovider::fuse::node;
 using mediaprovider::fuse::NodeTracker;

 // Listed as a friend class to struct node so it can observe implementation
 // details if required. The only implementation detail that is worth writing
 // tests around at the moment is the reference count.
 class NodeTest : public ::testing::Test {
   public:
     NodeTest() : tracker_(NodeTracker(&lock_)) {}

     uint32_t GetRefCount(node* node) { return node->refcount_; }

     std::recursive_mutex lock_;
     NodeTracker tracker_;

     // Forward destruction here, as NodeTest is a friend class.
     static void destroy(node* node) { delete node; }

     static void acquire(node* node) { node->Acquire(); }

     typedef std::unique_ptr<node, decltype(&NodeTest::destroy)> unique_node_ptr;

     unique_node_ptr CreateNode(node* parent, const std::string& path, const int transforms = 0) {
         return unique_node_ptr(
                 node::Create(parent, path, "", true, true, transforms, 0, &lock_, 0, &tracker_),
                 &NodeTest::destroy);
     }

     static class node* ForChild(class node* node, const std::string& name,
                                 const std::function<bool(class node*)>& callback) {
         return node->ForChild(name, callback);
     }

     // Expose NodeCompare for testing.
     node::NodeCompare cmp;
 };

 TEST_F(NodeTest, TestCreate) {
     unique_node_ptr node = CreateNode(nullptr, "/path");

     ASSERT_EQ("/path", node->GetName());
     ASSERT_EQ(1, GetRefCount(node.get()));
     ASSERT_FALSE(node->HasCachedHandle());
 }

 TEST_F(NodeTest, TestCreate_withParent) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     ASSERT_EQ(1, GetRefCount(parent.get()));

     // Adding a child to a parent node increments its refcount.
     unique_node_ptr child = CreateNode(parent.get(), "subdir");
     ASSERT_EQ(2, GetRefCount(parent.get()));

     // Make sure the node has been added to the parents list of children.
     ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));
     ASSERT_EQ(1, GetRefCount(child.get()));
 }

 TEST_F(NodeTest, TestRelease) {
     node* node = node::Create(nullptr, "/path", "", false, true, 0, 0, &lock_, 0, &tracker_);
     acquire(node);
     acquire(node);
     ASSERT_EQ(3, GetRefCount(node));

     ASSERT_FALSE(node->Release(1));
     ASSERT_EQ(2, GetRefCount(node));

     // A Release that makes refcount go negative should be a no-op.
     ASSERT_FALSE(node->Release(10000));
     ASSERT_EQ(2, GetRefCount(node));

     // Finally, let the refcount go to zero.
     ASSERT_TRUE(node->Release(2));
 }

 TEST_F(NodeTest, TestRenameName) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");

     unique_node_ptr child = CreateNode(parent.get(), "subdir");
     ASSERT_EQ(2, GetRefCount(parent.get()));
     ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));

     child->Rename("subdir_new", parent.get());

     ASSERT_EQ(2, GetRefCount(parent.get()));
     ASSERT_EQ(nullptr, parent->LookupChildByName("subdir", false /* acquire */));
     ASSERT_EQ(child.get(), parent->LookupChildByName("subdir_new", false /* acquire */));

     ASSERT_EQ("/path/subdir_new", child->BuildPath());
     ASSERT_EQ(1, GetRefCount(child.get()));
 }

 TEST_F(NodeTest, TestRenameParent) {
     unique_node_ptr parent1 = CreateNode(nullptr, "/path1");
     unique_node_ptr parent2 = CreateNode(nullptr, "/path2");

     unique_node_ptr child = CreateNode(parent1.get(), "subdir");
     ASSERT_EQ(2, GetRefCount(parent1.get()));
     ASSERT_EQ(child.get(), parent1->LookupChildByName("subdir", false /* acquire */));

     child->Rename("subdir", parent2.get());
     ASSERT_EQ(1, GetRefCount(parent1.get()));
     ASSERT_EQ(nullptr, parent1->LookupChildByName("subdir", false /* acquire */));

     ASSERT_EQ(2, GetRefCount(parent2.get()));
     ASSERT_EQ(child.get(), parent2->LookupChildByName("subdir", false /* acquire */));

     ASSERT_EQ("/path2/subdir", child->BuildPath());
     ASSERT_EQ(1, GetRefCount(child.get()));
 }

 TEST_F(NodeTest, TestRenameNameAndParent) {
     unique_node_ptr parent1 = CreateNode(nullptr, "/path1");
     unique_node_ptr parent2 = CreateNode(nullptr, "/path2");

     unique_node_ptr child = CreateNode(parent1.get(), "subdir");
     ASSERT_EQ(2, GetRefCount(parent1.get()));
     ASSERT_EQ(child.get(), parent1->LookupChildByName("subdir", false /* acquire */));

     child->Rename("subdir_new", parent2.get());
     ASSERT_EQ(1, GetRefCount(parent1.get()));
     ASSERT_EQ(nullptr, parent1->LookupChildByName("subdir", false /* acquire */));
     ASSERT_EQ(nullptr, parent1->LookupChildByName("subdir_new", false /* acquire */));

     ASSERT_EQ(2, GetRefCount(parent2.get()));
     ASSERT_EQ(child.get(), parent2->LookupChildByName("subdir_new", false /* acquire */));

     ASSERT_EQ("/path2/subdir_new", child->BuildPath());
     ASSERT_EQ(1, GetRefCount(child.get()));
 }

 TEST_F(NodeTest, TestRenameNameForChild) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");

     unique_node_ptr child0 = CreateNode(parent.get(), "subdir", 0 /* transforms */);
     unique_node_ptr child1 = CreateNode(parent.get(), "subdir", 1 /* transforms */);
     ASSERT_EQ(3, GetRefCount(parent.get()));
     ASSERT_EQ(child0.get(),
               parent->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(child1.get(),
               parent->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));

     parent->RenameChild("subdir", "subdir_new", parent.get());

     ASSERT_EQ(3, GetRefCount(parent.get()));
     ASSERT_EQ(nullptr,
               parent->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(nullptr,
               parent->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));
     ASSERT_EQ(child0.get(),
               parent->LookupChildByName("subdir_new", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(child1.get(),
               parent->LookupChildByName("subdir_new", false /* acquire */, 1 /* transforms */));

     ASSERT_EQ("/path/subdir_new", child0->BuildPath());
     ASSERT_EQ("/path/subdir_new", child1->BuildPath());
     ASSERT_EQ(1, GetRefCount(child0.get()));
     ASSERT_EQ(1, GetRefCount(child1.get()));
 }

 TEST_F(NodeTest, TestRenameParentForChild) {
     unique_node_ptr parent1 = CreateNode(nullptr, "/path1");
     unique_node_ptr parent2 = CreateNode(nullptr, "/path2");

     unique_node_ptr child0 = CreateNode(parent1.get(), "subdir", 0 /* transforms */);
     unique_node_ptr child1 = CreateNode(parent1.get(), "subdir", 1 /* transforms */);
     ASSERT_EQ(3, GetRefCount(parent1.get()));
     ASSERT_EQ(child0.get(),
               parent1->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(child1.get(),
               parent1->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));

     parent1->RenameChild("subdir", "subdir", parent2.get());
     ASSERT_EQ(1, GetRefCount(parent1.get()));
     ASSERT_EQ(nullptr,
               parent1->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(nullptr,
               parent1->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));

     ASSERT_EQ(3, GetRefCount(parent2.get()));
     ASSERT_EQ(child0.get(),
               parent2->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(child1.get(),
               parent2->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));

     ASSERT_EQ("/path2/subdir", child0->BuildPath());
     ASSERT_EQ("/path2/subdir", child1->BuildPath());
     ASSERT_EQ(1, GetRefCount(child0.get()));
     ASSERT_EQ(1, GetRefCount(child1.get()));
 }

 TEST_F(NodeTest, TestRenameNameAndParentForChild) {
     unique_node_ptr parent1 = CreateNode(nullptr, "/path1");
     unique_node_ptr parent2 = CreateNode(nullptr, "/path2");

     unique_node_ptr child0 = CreateNode(parent1.get(), "subdir", 0 /* transforms */);
     unique_node_ptr child1 = CreateNode(parent1.get(), "subdir", 1 /* transforms */);
     ASSERT_EQ(3, GetRefCount(parent1.get()));
     ASSERT_EQ(child0.get(),
               parent1->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(child1.get(),
               parent1->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));

     parent1->RenameChild("subdir", "subdir_new", parent2.get());
     ASSERT_EQ(1, GetRefCount(parent1.get()));
     ASSERT_EQ(nullptr,
               parent1->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(nullptr,
               parent1->LookupChildByName("subdir_new", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(nullptr,
               parent1->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));
     ASSERT_EQ(nullptr,
               parent1->LookupChildByName("subdir_new", false /* acquire */, 1 /* transforms */));

     ASSERT_EQ(3, GetRefCount(parent2.get()));
     ASSERT_EQ(nullptr,
               parent1->LookupChildByName("subdir_new", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(nullptr,
               parent1->LookupChildByName("subdir_new", false /* acquire */, 1 /* transforms */));

     ASSERT_EQ("/path2/subdir_new", child0->BuildPath());
     ASSERT_EQ("/path2/subdir_new", child1->BuildPath());
     ASSERT_EQ(1, GetRefCount(child0.get()));
     ASSERT_EQ(1, GetRefCount(child1.get()));
 }

 TEST_F(NodeTest, TestBuildPath) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     ASSERT_EQ("/path", parent->BuildPath());

     unique_node_ptr child = CreateNode(parent.get(), "subdir");
     ASSERT_EQ("/path/subdir", child->BuildPath());

     unique_node_ptr child2 = CreateNode(parent.get(), "subdir2");
     ASSERT_EQ("/path/subdir2", child2->BuildPath());

     unique_node_ptr subchild = CreateNode(child2.get(), "subsubdir");
     ASSERT_EQ("/path/subdir2/subsubdir", subchild->BuildPath());
 }

 TEST_F(NodeTest, TestSetDeleted) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr child = CreateNode(parent.get(), "subdir");

     ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));
     child->SetDeleted();
     ASSERT_EQ(nullptr, parent->LookupChildByName("subdir", false /* acquire */));
 }

 TEST_F(NodeTest, TestSetDeletedForChild) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr child0 = CreateNode(parent.get(), "subdir", 0 /* transforms */);
     unique_node_ptr child1 = CreateNode(parent.get(), "subdir", 1 /* transforms */);

     ASSERT_EQ(child0.get(),
               parent->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(child1.get(),
               parent->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));
     parent->SetDeletedForChild("subdir");
     ASSERT_EQ(nullptr,
               parent->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(nullptr,
               parent->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));
 }

 TEST_F(NodeTest, DeleteTree) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");

     // This is the tree that we intend to delete.
     node* child = node::Create(parent.get(), "subdir", "", false, true, 0, 0, &lock_, 0, &tracker_);
     node::Create(child, "s1", "", false, true, 0, 0, &lock_, 0, &tracker_);
     node* subchild2 = node::Create(child, "s2", "", false, true, 0, 0, &lock_, 0, &tracker_);
     node::Create(subchild2, "sc2", "", false, true, 0, 0, &lock_, 0, &tracker_);

     ASSERT_EQ(child, parent->LookupChildByName("subdir", false /* acquire */));
     node::DeleteTree(child);
     ASSERT_EQ(nullptr, parent->LookupChildByName("subdir", false /* acquire */));
 }

 TEST_F(NodeTest, LookupChildByName_empty) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr child = CreateNode(parent.get(), "subdir");

     ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));
     ASSERT_EQ(nullptr, parent->LookupChildByName("", false /* acquire */));
 }

 TEST_F(NodeTest, LookupChildByName_transforms) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr child0 = CreateNode(parent.get(), "subdir", 0 /* transforms */);
     unique_node_ptr child1 = CreateNode(parent.get(), "subdir", 1 /* transforms */);

     ASSERT_EQ(child0.get(), parent->LookupChildByName("subdir", false /* acquire */));
     ASSERT_EQ(child0.get(),
               parent->LookupChildByName("subdir", false /* acquire */, 0 /* transforms */));
     ASSERT_EQ(child1.get(),
               parent->LookupChildByName("subdir", false /* acquire */, 1 /* transforms */));
     ASSERT_EQ(nullptr,
               parent->LookupChildByName("subdir", false /* acquire */, 2 /* transforms */));
 }

 TEST_F(NodeTest, LookupChildByName_refcounts) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr child = CreateNode(parent.get(), "subdir");

     ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));
     ASSERT_EQ(1, GetRefCount(child.get()));

     ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", true /* acquire */));
     ASSERT_EQ(2, GetRefCount(child.get()));
 }

 TEST_F(NodeTest, LookupAbsolutePath) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr child = CreateNode(parent.get(), "subdir");
     unique_node_ptr child2 = CreateNode(parent.get(), "subdir2");
     unique_node_ptr subchild = CreateNode(child2.get(), "subsubdir");

     ASSERT_EQ(parent.get(), node::LookupAbsolutePath(parent.get(), "/path"));
     ASSERT_EQ(parent.get(), node::LookupAbsolutePath(parent.get(), "/path/"));
     ASSERT_EQ(nullptr, node::LookupAbsolutePath(parent.get(), "/path2"));

     ASSERT_EQ(child.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir"));
     ASSERT_EQ(child.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir/"));
     // TODO(narayan): Are the two cases below intentional behaviour ?
     ASSERT_EQ(child.get(), node::LookupAbsolutePath(parent.get(), "/path//subdir"));
     ASSERT_EQ(child.get(), node::LookupAbsolutePath(parent.get(), "/path///subdir"));

     ASSERT_EQ(child2.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir2"));
     ASSERT_EQ(child2.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir2/"));

     ASSERT_EQ(nullptr, node::LookupAbsolutePath(parent.get(), "/path/subdir3/"));

     ASSERT_EQ(subchild.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir2/subsubdir"));
     ASSERT_EQ(nullptr, node::LookupAbsolutePath(parent.get(), "/path/subdir/subsubdir"));
 }

 TEST_F(NodeTest, AddDestroyHandle) {
     unique_node_ptr node = CreateNode(nullptr, "/path");

     handle* h = new handle(-1, new mediaprovider::fuse::RedactionInfo, true /* cached */,
                            false /* passthrough */, 0 /* uid */, 0 /* transforms_uid */);
     node->AddHandle(h);
     ASSERT_TRUE(node->HasCachedHandle());

     node->DestroyHandle(h);
     ASSERT_FALSE(node->HasCachedHandle());

     // Should all crash the process as the handle is no longer associated with
     // the node in question.
     EXPECT_DEATH(node->DestroyHandle(h), "");
     EXPECT_DEATH(node->DestroyHandle(nullptr), "");
     std::unique_ptr<handle> h2(new handle(-1, new mediaprovider::fuse::RedactionInfo,
                                           true /* cached */, false /* passthrough */, 0 /* uid */,
                                           0 /* transforms_uid */));
     EXPECT_DEATH(node->DestroyHandle(h2.get()), "");
 }

 TEST_F(NodeTest, CaseInsensitive) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr mixed_child = CreateNode(parent.get(), "cHiLd");

     node* upper_child = parent->LookupChildByName("CHILD", false /* acquire */);
     node* lower_child = parent->LookupChildByName("child", false /* acquire */);

     ASSERT_EQ(mixed_child.get(), lower_child);
     ASSERT_EQ(mixed_child.get(), upper_child);
 }

 TEST_F(NodeTest, RenameSameNameSameParent) {
     unique_node_ptr parent = CreateNode(nullptr, "/path1");
     unique_node_ptr child = CreateNode(parent.get(), "subdir");

     ASSERT_EQ(child.get(), parent->LookupChildByName("SuBdIr", false /* acquire */));
     ASSERT_EQ(2, GetRefCount(parent.get()));

     child->Rename("subdir", parent.get());

     ASSERT_EQ(child.get(), parent->LookupChildByName("SuBdIr", false /* acquire */));
     ASSERT_EQ(2, GetRefCount(parent.get()));
 }

 TEST_F(NodeTest, RenameRoot) {
     unique_node_ptr root = CreateNode(nullptr, "/root");
     ASSERT_EQ(1, GetRefCount(root.get()));

     root->Rename("/i-am-root!", nullptr);

     ASSERT_EQ("/i-am-root!", root->GetName());
     ASSERT_EQ(1, GetRefCount(root.get()));
 }

 TEST_F(NodeTest, NodeCompareDefinesLinearOrder) {
     unique_node_ptr node_a = CreateNode(nullptr, "a");
     unique_node_ptr node_b = CreateNode(nullptr, "B");
     unique_node_ptr node_c = CreateNode(nullptr, "c");

     ASSERT_FALSE(cmp.operator()(node_a.get(), node_a.get()));
     ASSERT_FALSE(cmp.operator()(node_b.get(), node_b.get()));
     ASSERT_FALSE(cmp.operator()(node_c.get(), node_c.get()));

     auto check_fn = [&](const node* lhs_node, const node* rhs_node) {
         ASSERT_TRUE(cmp.operator()(lhs_node, rhs_node));
         ASSERT_FALSE(cmp.operator()(rhs_node, lhs_node));
     };

     check_fn(node_a.get(), node_b.get());
     check_fn(node_b.get(), node_c.get());
     check_fn(node_a.get(), node_c.get());

     // ("A", 0) < node_a < ("a", max_uintptr_t) < node_b
     ASSERT_TRUE(cmp.operator()(std::make_pair("A", 0), node_a.get()));
     ASSERT_TRUE(cmp.operator()(node_a.get(),
                                std::make_pair("A", std::numeric_limits<uintptr_t>::max())));
     ASSERT_TRUE(cmp.operator()(std::make_pair("A", std::numeric_limits<uintptr_t>::max()),
                                node_b.get()));
 }

 TEST_F(NodeTest, LookupChildByName_ChildrenWithSameName) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr foo1 = CreateNode(parent.get(), "FoO");
     unique_node_ptr foo2 = CreateNode(parent.get(), "fOo");
     unique_node_ptr bar1 = CreateNode(parent.get(), "BAR");
     unique_node_ptr bar2 = CreateNode(parent.get(), "bar");
     unique_node_ptr baz1 = CreateNode(parent.get(), "baZ");
     unique_node_ptr baz2 = CreateNode(parent.get(), "Baz");

     auto test_fn = [&](const std::string& name, node* first, node* second) {
         auto node1 = parent->LookupChildByName(name, false /* acquire */);
         ASSERT_EQ(std::min(first, second), node1);
         node1->SetDeleted();

         auto node2 = parent->LookupChildByName(name, false /* acquire */);
         ASSERT_EQ(std::max(first, second), node2);
         node2->SetDeleted();

         ASSERT_EQ(nullptr, parent->LookupChildByName(name, false /* acquire */));
     };

     test_fn("foo", foo1.get(), foo2.get());
     test_fn("bAr", bar1.get(), bar2.get());
     test_fn("BaZ", baz1.get(), baz2.get());
 }

 TEST_F(NodeTest, ForChild) {
     unique_node_ptr parent = CreateNode(nullptr, "/path");
     unique_node_ptr foo1 = CreateNode(parent.get(), "FoO");
     unique_node_ptr foo2 = CreateNode(parent.get(), "fOo");
     unique_node_ptr foo3 = CreateNode(parent.get(), "foo");
     foo3->SetDeleted();

     std::vector<node*> match_all;
     auto test_fn_match_all = [&](node* child) {
         match_all.push_back(child);
         return false;
     };

     std::vector<node*> match_first;
     auto test_fn_match_first = [&](node* child) {
         match_first.push_back(child);
         return true;
     };

     std::vector<node*> match_none;
     auto test_fn_match_none = [&](node* child) {
         match_none.push_back(child);
         return false;
     };

     node* node_all = ForChild(parent.get(), "foo", test_fn_match_all);
     ASSERT_EQ(nullptr, node_all);
     ASSERT_EQ(2, match_all.size());
     ASSERT_EQ(std::min(foo1.get(), foo2.get()), match_all[0]);
     ASSERT_EQ(std::max(foo1.get(), foo2.get()), match_all[1]);

     node* node_first = ForChild(parent.get(), "foo", test_fn_match_first);
     ASSERT_EQ(std::min(foo1.get(), foo2.get()), node_first);
     ASSERT_EQ(1, match_first.size());
     ASSERT_EQ(std::min(foo1.get(), foo2.get()), match_first[0]);

     node* node_none = ForChild(parent.get(), "bar", test_fn_match_none);
     ASSERT_EQ(nullptr, node_none);
     ASSERT_TRUE(match_none.empty());
 }
	#include <gtest/gtest.h>

	#include "node-inl.h"

	#include <algorithm>
	#include <limits>
	#include <memory>
	#include <mutex>

	using mediaprovider::fuse::dirhandle;
	using mediaprovider::fuse::handle;
	using mediaprovider::fuse::node;
	using mediaprovider::fuse::NodeTracker;

	// Listed as a friend class to struct node so it can observe implementation
	// details if required. The only implementation detail that is worth writing
	// tests around at the moment is the reference count.
	class NodeTest : public ::testing::Test {
	public:
	NodeTest() : tracker_(NodeTracker(&lock_)) {}

	uint32_t GetRefCount(node* node) { return node->refcount_; }

	std::recursive_mutex lock_;
	NodeTracker tracker_;

	// Forward destruction here, as NodeTest is a friend class.
	static void destroy(node* node) { delete node; }

	static void acquire(node* node) { node->Acquire(); }

	typedef std::unique_ptr<node, decltype(&NodeTest::destroy)> unique_node_ptr;

	unique_node_ptr CreateNode(node* parent, const std::string& path, const int transforms = 0) {
	return unique_node_ptr(
	node::Create(parent, path, "", true, true, transforms, 0, &lock_, 0, &tracker_),
	&NodeTest::destroy);
	}

	static class node* ForChild(class node* node, const std::string& name,
	const std::function<bool(class node*)>& callback) {
	return node->ForChild(name, callback);
	}

	// Expose NodeCompare for testing.
	node::NodeCompare cmp;
	};

	TEST_F(NodeTest, TestCreate) {
	unique_node_ptr node = CreateNode(nullptr, "/path");

	ASSERT_EQ("/path", node->GetName());
	ASSERT_EQ(1, GetRefCount(node.get()));
	ASSERT_FALSE(node->HasCachedHandle());
	}

	TEST_F(NodeTest, TestCreate_withParent) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	ASSERT_EQ(1, GetRefCount(parent.get()));

	// Adding a child to a parent node increments its refcount.
	unique_node_ptr child = CreateNode(parent.get(), "subdir");
	ASSERT_EQ(2, GetRefCount(parent.get()));

	// Make sure the node has been added to the parents list of children.
	ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));
	ASSERT_EQ(1, GetRefCount(child.get()));
	}

	TEST_F(NodeTest, TestRelease) {
	node* node = node::Create(nullptr, "/path", "", false, true, 0, 0, &lock_, 0, &tracker_);
	acquire(node);
	acquire(node);
	ASSERT_EQ(3, GetRefCount(node));

	ASSERT_FALSE(node->Release(1));
	ASSERT_EQ(2, GetRefCount(node));

	// A Release that makes refcount go negative should be a no-op.
	ASSERT_FALSE(node->Release(10000));
	ASSERT_EQ(2, GetRefCount(node));

	// Finally, let the refcount go to zero.
	ASSERT_TRUE(node->Release(2));
	}

	TEST_F(NodeTest, TestRenameName) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");

	unique_node_ptr child = CreateNode(parent.get(), "subdir");
	ASSERT_EQ(2, GetRefCount(parent.get()));
	ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));

	child->Rename("subdir_new", parent.get());

	ASSERT_EQ(2, GetRefCount(parent.get()));
	ASSERT_EQ(nullptr, parent->LookupChildByName("subdir", false /* acquire */));
	ASSERT_EQ(child.get(), parent->LookupChildByName("subdir_new", false /* acquire */));

	ASSERT_EQ("/path/subdir_new", child->BuildPath());
	ASSERT_EQ(1, GetRefCount(child.get()));
	}

	TEST_F(NodeTest, TestRenameParent) {
	unique_node_ptr parent1 = CreateNode(nullptr, "/path1");
	unique_node_ptr parent2 = CreateNode(nullptr, "/path2");

	unique_node_ptr child = CreateNode(parent1.get(), "subdir");
	ASSERT_EQ(2, GetRefCount(parent1.get()));
	ASSERT_EQ(child.get(), parent1->LookupChildByName("subdir", false /* acquire */));

	child->Rename("subdir", parent2.get());
	ASSERT_EQ(1, GetRefCount(parent1.get()));
	ASSERT_EQ(nullptr, parent1->LookupChildByName("subdir", false /* acquire */));

	ASSERT_EQ(2, GetRefCount(parent2.get()));
	ASSERT_EQ(child.get(), parent2->LookupChildByName("subdir", false /* acquire */));

	ASSERT_EQ("/path2/subdir", child->BuildPath());
	ASSERT_EQ(1, GetRefCount(child.get()));
	}

	TEST_F(NodeTest, TestRenameNameAndParent) {
	unique_node_ptr parent1 = CreateNode(nullptr, "/path1");
	unique_node_ptr parent2 = CreateNode(nullptr, "/path2");

	unique_node_ptr child = CreateNode(parent1.get(), "subdir");
	ASSERT_EQ(2, GetRefCount(parent1.get()));
	ASSERT_EQ(child.get(), parent1->LookupChildByName("subdir", false /* acquire */));

	child->Rename("subdir_new", parent2.get());
	ASSERT_EQ(1, GetRefCount(parent1.get()));
	ASSERT_EQ(nullptr, parent1->LookupChildByName("subdir", false /* acquire */));
	ASSERT_EQ(nullptr, parent1->LookupChildByName("subdir_new", false /* acquire */));

	ASSERT_EQ(2, GetRefCount(parent2.get()));
	ASSERT_EQ(child.get(), parent2->LookupChildByName("subdir_new", false /* acquire */));

	ASSERT_EQ("/path2/subdir_new", child->BuildPath());
	ASSERT_EQ(1, GetRefCount(child.get()));
	}

	TEST_F(NodeTest, TestRenameNameForChild) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");

	unique_node_ptr child0 = CreateNode(parent.get(), "subdir", 0 /* transforms */);
	unique_node_ptr child1 = CreateNode(parent.get(), "subdir", 1 /* transforms */);
	ASSERT_EQ(3, GetRefCount(parent.get()));
	ASSERT_EQ(child0.get(),
	parent->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(child1.get(),
	parent->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));

	parent->RenameChild("subdir", "subdir_new", parent.get());

	ASSERT_EQ(3, GetRefCount(parent.get()));
	ASSERT_EQ(nullptr,
	parent->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(nullptr,
	parent->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));
	ASSERT_EQ(child0.get(),
	parent->LookupChildByName("subdir_new", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(child1.get(),
	parent->LookupChildByName("subdir_new", false /* acquire /, 1 / transforms */));

	ASSERT_EQ("/path/subdir_new", child0->BuildPath());
	ASSERT_EQ("/path/subdir_new", child1->BuildPath());
	ASSERT_EQ(1, GetRefCount(child0.get()));
	ASSERT_EQ(1, GetRefCount(child1.get()));
	}

	TEST_F(NodeTest, TestRenameParentForChild) {
	unique_node_ptr parent1 = CreateNode(nullptr, "/path1");
	unique_node_ptr parent2 = CreateNode(nullptr, "/path2");

	unique_node_ptr child0 = CreateNode(parent1.get(), "subdir", 0 /* transforms */);
	unique_node_ptr child1 = CreateNode(parent1.get(), "subdir", 1 /* transforms */);
	ASSERT_EQ(3, GetRefCount(parent1.get()));
	ASSERT_EQ(child0.get(),
	parent1->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(child1.get(),
	parent1->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));

	parent1->RenameChild("subdir", "subdir", parent2.get());
	ASSERT_EQ(1, GetRefCount(parent1.get()));
	ASSERT_EQ(nullptr,
	parent1->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(nullptr,
	parent1->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));

	ASSERT_EQ(3, GetRefCount(parent2.get()));
	ASSERT_EQ(child0.get(),
	parent2->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(child1.get(),
	parent2->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));

	ASSERT_EQ("/path2/subdir", child0->BuildPath());
	ASSERT_EQ("/path2/subdir", child1->BuildPath());
	ASSERT_EQ(1, GetRefCount(child0.get()));
	ASSERT_EQ(1, GetRefCount(child1.get()));
	}

	TEST_F(NodeTest, TestRenameNameAndParentForChild) {
	unique_node_ptr parent1 = CreateNode(nullptr, "/path1");
	unique_node_ptr parent2 = CreateNode(nullptr, "/path2");

	unique_node_ptr child0 = CreateNode(parent1.get(), "subdir", 0 /* transforms */);
	unique_node_ptr child1 = CreateNode(parent1.get(), "subdir", 1 /* transforms */);
	ASSERT_EQ(3, GetRefCount(parent1.get()));
	ASSERT_EQ(child0.get(),
	parent1->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(child1.get(),
	parent1->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));

	parent1->RenameChild("subdir", "subdir_new", parent2.get());
	ASSERT_EQ(1, GetRefCount(parent1.get()));
	ASSERT_EQ(nullptr,
	parent1->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(nullptr,
	parent1->LookupChildByName("subdir_new", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(nullptr,
	parent1->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));
	ASSERT_EQ(nullptr,
	parent1->LookupChildByName("subdir_new", false /* acquire /, 1 / transforms */));

	ASSERT_EQ(3, GetRefCount(parent2.get()));
	ASSERT_EQ(nullptr,
	parent1->LookupChildByName("subdir_new", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(nullptr,
	parent1->LookupChildByName("subdir_new", false /* acquire /, 1 / transforms */));

	ASSERT_EQ("/path2/subdir_new", child0->BuildPath());
	ASSERT_EQ("/path2/subdir_new", child1->BuildPath());
	ASSERT_EQ(1, GetRefCount(child0.get()));
	ASSERT_EQ(1, GetRefCount(child1.get()));
	}

	TEST_F(NodeTest, TestBuildPath) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	ASSERT_EQ("/path", parent->BuildPath());

	unique_node_ptr child = CreateNode(parent.get(), "subdir");
	ASSERT_EQ("/path/subdir", child->BuildPath());

	unique_node_ptr child2 = CreateNode(parent.get(), "subdir2");
	ASSERT_EQ("/path/subdir2", child2->BuildPath());

	unique_node_ptr subchild = CreateNode(child2.get(), "subsubdir");
	ASSERT_EQ("/path/subdir2/subsubdir", subchild->BuildPath());
	}

	TEST_F(NodeTest, TestSetDeleted) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr child = CreateNode(parent.get(), "subdir");

	ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));
	child->SetDeleted();
	ASSERT_EQ(nullptr, parent->LookupChildByName("subdir", false /* acquire */));
	}

	TEST_F(NodeTest, TestSetDeletedForChild) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr child0 = CreateNode(parent.get(), "subdir", 0 /* transforms */);
	unique_node_ptr child1 = CreateNode(parent.get(), "subdir", 1 /* transforms */);

	ASSERT_EQ(child0.get(),
	parent->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(child1.get(),
	parent->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));
	parent->SetDeletedForChild("subdir");
	ASSERT_EQ(nullptr,
	parent->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(nullptr,
	parent->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));
	}

	TEST_F(NodeTest, DeleteTree) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");

	// This is the tree that we intend to delete.
	node* child = node::Create(parent.get(), "subdir", "", false, true, 0, 0, &lock_, 0, &tracker_);
	node::Create(child, "s1", "", false, true, 0, 0, &lock_, 0, &tracker_);
	node* subchild2 = node::Create(child, "s2", "", false, true, 0, 0, &lock_, 0, &tracker_);
	node::Create(subchild2, "sc2", "", false, true, 0, 0, &lock_, 0, &tracker_);

	ASSERT_EQ(child, parent->LookupChildByName("subdir", false /* acquire */));
	node::DeleteTree(child);
	ASSERT_EQ(nullptr, parent->LookupChildByName("subdir", false /* acquire */));
	}

	TEST_F(NodeTest, LookupChildByName_empty) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr child = CreateNode(parent.get(), "subdir");

	ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));
	ASSERT_EQ(nullptr, parent->LookupChildByName("", false /* acquire */));
	}

	TEST_F(NodeTest, LookupChildByName_transforms) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr child0 = CreateNode(parent.get(), "subdir", 0 /* transforms */);
	unique_node_ptr child1 = CreateNode(parent.get(), "subdir", 1 /* transforms */);

	ASSERT_EQ(child0.get(), parent->LookupChildByName("subdir", false /* acquire */));
	ASSERT_EQ(child0.get(),
	parent->LookupChildByName("subdir", false /* acquire /, 0 / transforms */));
	ASSERT_EQ(child1.get(),
	parent->LookupChildByName("subdir", false /* acquire /, 1 / transforms */));
	ASSERT_EQ(nullptr,
	parent->LookupChildByName("subdir", false /* acquire /, 2 / transforms */));
	}

	TEST_F(NodeTest, LookupChildByName_refcounts) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr child = CreateNode(parent.get(), "subdir");

	ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", false /* acquire */));
	ASSERT_EQ(1, GetRefCount(child.get()));

	ASSERT_EQ(child.get(), parent->LookupChildByName("subdir", true /* acquire */));
	ASSERT_EQ(2, GetRefCount(child.get()));
	}

	TEST_F(NodeTest, LookupAbsolutePath) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr child = CreateNode(parent.get(), "subdir");
	unique_node_ptr child2 = CreateNode(parent.get(), "subdir2");
	unique_node_ptr subchild = CreateNode(child2.get(), "subsubdir");

	ASSERT_EQ(parent.get(), node::LookupAbsolutePath(parent.get(), "/path"));
	ASSERT_EQ(parent.get(), node::LookupAbsolutePath(parent.get(), "/path/"));
	ASSERT_EQ(nullptr, node::LookupAbsolutePath(parent.get(), "/path2"));

	ASSERT_EQ(child.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir"));
	ASSERT_EQ(child.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir/"));
	// TODO(narayan): Are the two cases below intentional behaviour ?
	ASSERT_EQ(child.get(), node::LookupAbsolutePath(parent.get(), "/path//subdir"));
	ASSERT_EQ(child.get(), node::LookupAbsolutePath(parent.get(), "/path///subdir"));

	ASSERT_EQ(child2.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir2"));
	ASSERT_EQ(child2.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir2/"));

	ASSERT_EQ(nullptr, node::LookupAbsolutePath(parent.get(), "/path/subdir3/"));

	ASSERT_EQ(subchild.get(), node::LookupAbsolutePath(parent.get(), "/path/subdir2/subsubdir"));
	ASSERT_EQ(nullptr, node::LookupAbsolutePath(parent.get(), "/path/subdir/subsubdir"));
	}

	TEST_F(NodeTest, AddDestroyHandle) {
	unique_node_ptr node = CreateNode(nullptr, "/path");

	handle* h = new handle(-1, new mediaprovider::fuse::RedactionInfo, true /* cached */,
	false /* passthrough /, 0 / uid /, 0 / transforms_uid */);
	node->AddHandle(h);
	ASSERT_TRUE(node->HasCachedHandle());

	node->DestroyHandle(h);
	ASSERT_FALSE(node->HasCachedHandle());

	// Should all crash the process as the handle is no longer associated with
	// the node in question.
	EXPECT_DEATH(node->DestroyHandle(h), "");
	EXPECT_DEATH(node->DestroyHandle(nullptr), "");
	std::unique_ptr<handle> h2(new handle(-1, new mediaprovider::fuse::RedactionInfo,
	true /* cached /, false / passthrough /, 0 / uid */,
	0 /* transforms_uid */));
	EXPECT_DEATH(node->DestroyHandle(h2.get()), "");
	}

	TEST_F(NodeTest, CaseInsensitive) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr mixed_child = CreateNode(parent.get(), "cHiLd");

	node* upper_child = parent->LookupChildByName("CHILD", false /* acquire */);
	node* lower_child = parent->LookupChildByName("child", false /* acquire */);

	ASSERT_EQ(mixed_child.get(), lower_child);
	ASSERT_EQ(mixed_child.get(), upper_child);
	}

	TEST_F(NodeTest, RenameSameNameSameParent) {
	unique_node_ptr parent = CreateNode(nullptr, "/path1");
	unique_node_ptr child = CreateNode(parent.get(), "subdir");

	ASSERT_EQ(child.get(), parent->LookupChildByName("SuBdIr", false /* acquire */));
	ASSERT_EQ(2, GetRefCount(parent.get()));

	child->Rename("subdir", parent.get());

	ASSERT_EQ(child.get(), parent->LookupChildByName("SuBdIr", false /* acquire */));
	ASSERT_EQ(2, GetRefCount(parent.get()));
	}

	TEST_F(NodeTest, RenameRoot) {
	unique_node_ptr root = CreateNode(nullptr, "/root");
	ASSERT_EQ(1, GetRefCount(root.get()));

	root->Rename("/i-am-root!", nullptr);

	ASSERT_EQ("/i-am-root!", root->GetName());
	ASSERT_EQ(1, GetRefCount(root.get()));
	}

	TEST_F(NodeTest, NodeCompareDefinesLinearOrder) {
	unique_node_ptr node_a = CreateNode(nullptr, "a");
	unique_node_ptr node_b = CreateNode(nullptr, "B");
	unique_node_ptr node_c = CreateNode(nullptr, "c");

	ASSERT_FALSE(cmp.operator()(node_a.get(), node_a.get()));
	ASSERT_FALSE(cmp.operator()(node_b.get(), node_b.get()));
	ASSERT_FALSE(cmp.operator()(node_c.get(), node_c.get()));

	auto check_fn = [&](const node* lhs_node, const node* rhs_node) {
	ASSERT_TRUE(cmp.operator()(lhs_node, rhs_node));
	ASSERT_FALSE(cmp.operator()(rhs_node, lhs_node));
	};

	check_fn(node_a.get(), node_b.get());
	check_fn(node_b.get(), node_c.get());
	check_fn(node_a.get(), node_c.get());

	// ("A", 0) < node_a < ("a", max_uintptr_t) < node_b
	ASSERT_TRUE(cmp.operator()(std::make_pair("A", 0), node_a.get()));
	ASSERT_TRUE(cmp.operator()(node_a.get(),
	std::make_pair("A", std::numeric_limits<uintptr_t>::max())));
	ASSERT_TRUE(cmp.operator()(std::make_pair("A", std::numeric_limits<uintptr_t>::max()),
	node_b.get()));
	}

	TEST_F(NodeTest, LookupChildByName_ChildrenWithSameName) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr foo1 = CreateNode(parent.get(), "FoO");
	unique_node_ptr foo2 = CreateNode(parent.get(), "fOo");
	unique_node_ptr bar1 = CreateNode(parent.get(), "BAR");
	unique_node_ptr bar2 = CreateNode(parent.get(), "bar");
	unique_node_ptr baz1 = CreateNode(parent.get(), "baZ");
	unique_node_ptr baz2 = CreateNode(parent.get(), "Baz");

	auto test_fn = [&](const std::string& name, node* first, node* second) {
	auto node1 = parent->LookupChildByName(name, false /* acquire */);
	ASSERT_EQ(std::min(first, second), node1);
	node1->SetDeleted();

	auto node2 = parent->LookupChildByName(name, false /* acquire */);
	ASSERT_EQ(std::max(first, second), node2);
	node2->SetDeleted();

	ASSERT_EQ(nullptr, parent->LookupChildByName(name, false /* acquire */));
	};

	test_fn("foo", foo1.get(), foo2.get());
	test_fn("bAr", bar1.get(), bar2.get());
	test_fn("BaZ", baz1.get(), baz2.get());
	}

	TEST_F(NodeTest, ForChild) {
	unique_node_ptr parent = CreateNode(nullptr, "/path");
	unique_node_ptr foo1 = CreateNode(parent.get(), "FoO");
	unique_node_ptr foo2 = CreateNode(parent.get(), "fOo");
	unique_node_ptr foo3 = CreateNode(parent.get(), "foo");
	foo3->SetDeleted();

	std::vector<node*> match_all;
	auto test_fn_match_all = [&](node* child) {
	match_all.push_back(child);
	return false;
	};

	std::vector<node*> match_first;
	auto test_fn_match_first = [&](node* child) {
	match_first.push_back(child);
	return true;
	};

	std::vector<node*> match_none;
	auto test_fn_match_none = [&](node* child) {
	match_none.push_back(child);
	return false;
	};

	node* node_all = ForChild(parent.get(), "foo", test_fn_match_all);
	ASSERT_EQ(nullptr, node_all);
	ASSERT_EQ(2, match_all.size());
	ASSERT_EQ(std::min(foo1.get(), foo2.get()), match_all[0]);
	ASSERT_EQ(std::max(foo1.get(), foo2.get()), match_all[1]);

	node* node_first = ForChild(parent.get(), "foo", test_fn_match_first);
	ASSERT_EQ(std::min(foo1.get(), foo2.get()), node_first);
	ASSERT_EQ(1, match_first.size());
	ASSERT_EQ(std::min(foo1.get(), foo2.get()), match_first[0]);

	node* node_none = ForChild(parent.get(), "bar", test_fn_match_none);
	ASSERT_EQ(nullptr, node_none);
	ASSERT_TRUE(match_none.empty());
	}