Exemplo n.º 1
0
TEST(SorterTest, WDRFSorterUpdateWeight)
{
  DRFSorter sorter;

  SlaveID slaveId;
  slaveId.set_value("agentId");

  Resources totalResources = Resources::parse("cpus:100;mem:100").get();

  sorter.add(slaveId, totalResources);

  sorter.add("a");
  sorter.allocated("a", slaveId, Resources::parse("cpus:5;mem:5").get());

  sorter.add("b");
  sorter.allocated("b", slaveId, Resources::parse("cpus:6;mem:6").get());

  // shares: a = .05, b = .06
  EXPECT_EQ(list<string>({"a", "b"}), sorter.sort());

  // Increase b's  weight to flip the sort order.
  sorter.update("b", 2);

  // shares: a = .05, b = .03
  EXPECT_EQ(list<string>({"b", "a"}), sorter.sort());
}
Exemplo n.º 2
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// Some resources are split across multiple resource objects (e.g.
// persistent volumes). This test ensures that the shares for these
// are accounted correctly.
TEST(SorterTest, SplitResourceShares)
{
  DRFSorter sorter;

  sorter.add("a");
  sorter.add("b");

  Resource disk1 = Resources::parse("disk", "5", "*").get();
  disk1.mutable_disk()->mutable_persistence()->set_id("ID2");
  disk1.mutable_disk()->mutable_volume()->set_container_path("data");

  Resource disk2 = Resources::parse("disk", "5", "*").get();
  disk2.mutable_disk()->mutable_persistence()->set_id("ID2");
  disk2.mutable_disk()->mutable_volume()->set_container_path("data");

  sorter.add(Resources::parse("cpus:100;mem:100;disk:95").get()
             + disk1 + disk2);

  // Now, allocate resources to "a" and "b". Note that "b" will have
  // more disk if the shares are accounted correctly!
  sorter.allocated("a", Resources::parse("cpus:9;mem:9;disk:9").get());
  sorter.allocated("b", Resources::parse("cpus:9;mem:9").get() + disk1 + disk2);

  EXPECT_EQ(list<string>({"a", "b"}), sorter.sort());
}
Exemplo n.º 3
0
TEST(SorterTest, Update)
{
  DRFSorter sorter;

  sorter.add("a");
  sorter.add("b");

  sorter.add(Resources::parse("cpus:10;mem:10;disk:10").get());

  sorter.allocated("a", Resources::parse("cpus:10;mem:10;disk:10").get());

  // Construct an offer operation.
  Resource volume = Resources::parse("disk", "5", "*").get();
  volume.mutable_disk()->mutable_persistence()->set_id("ID");
  volume.mutable_disk()->mutable_volume()->set_container_path("data");

  Offer::Operation create;
  create.set_type(Offer::Operation::CREATE);
  create.mutable_create()->add_volumes()->CopyFrom(volume);

  // Compute the updated allocation.
  Resources allocation = sorter.allocation("a");
  Try<Resources> newAllocation = allocation.apply(create);
  ASSERT_SOME(newAllocation);

  // Update the resources for the client.
  sorter.update("a", allocation, newAllocation.get());

  EXPECT_EQ(newAllocation.get(), sorter.allocation("a"));
}
Exemplo n.º 4
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// We aggregate resources from multiple slaves into the sorter.
// Since non-scalar resources don't aggregate well across slaves,
// we need to keep track of the SlaveIDs of the resources. This
// tests that no resources vanish in the process of aggregation
// by inspecting the result of 'allocation'.
TEST(SorterTest, MultipleSlaves)
{
  DRFSorter sorter;

  SlaveID slaveA;
  slaveA.set_value("agentA");

  SlaveID slaveB;
  slaveB.set_value("agentB");

  sorter.add("framework");

  Resources slaveResources =
    Resources::parse("cpus:2;mem:512;ports:[31000-32000]").get();

  sorter.add(slaveA, slaveResources);
  sorter.add(slaveB, slaveResources);

  sorter.allocated("framework", slaveA, slaveResources);
  sorter.allocated("framework", slaveB, slaveResources);

  EXPECT_EQ(2u, sorter.allocation("framework").size());
  EXPECT_EQ(slaveResources, sorter.allocation("framework", slaveA));
  EXPECT_EQ(slaveResources, sorter.allocation("framework", slaveB));
}
Exemplo n.º 5
0
TEST(SorterTest, UpdateAllocation)
{
  DRFSorter sorter;

  SlaveID slaveId;
  slaveId.set_value("agentId");

  sorter.add("a");
  sorter.add("b");

  sorter.add(slaveId, Resources::parse("cpus:10;mem:10;disk:10").get());

  sorter.allocated(
      "a", slaveId, Resources::parse("cpus:10;mem:10;disk:10").get());

  // Construct an offer operation.
  Resource volume = Resources::parse("disk", "5", "*").get();
  volume.mutable_disk()->mutable_persistence()->set_id("ID");
  volume.mutable_disk()->mutable_volume()->set_container_path("data");

  // Compute the updated allocation.
  Resources oldAllocation = sorter.allocation("a", slaveId);
  Try<Resources> newAllocation = oldAllocation.apply(CREATE(volume));
  ASSERT_SOME(newAllocation);

  // Update the resources for the client.
  sorter.update("a", slaveId, oldAllocation, newAllocation.get());

  hashmap<SlaveID, Resources> allocation = sorter.allocation("a");
  EXPECT_EQ(1u, allocation.size());
  EXPECT_EQ(newAllocation.get(), allocation[slaveId]);
  EXPECT_EQ(newAllocation.get(), sorter.allocation("a", slaveId));
}
Exemplo n.º 6
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// Similar to the above 'UpdateTotal' test, but tests the scenario
// when there are multiple slaves.
TEST(SorterTest, MultipleSlavesUpdateTotal)
{
  DRFSorter sorter;

  SlaveID slaveA;
  slaveA.set_value("agentA");

  SlaveID slaveB;
  slaveB.set_value("agentB");

  sorter.add("a");
  sorter.add("b");

  sorter.add(slaveA, Resources::parse("cpus:5;mem:50").get());
  sorter.add(slaveB, Resources::parse("cpus:5;mem:50").get());

  // Dominant share of "a" is 0.2 (cpus).
  sorter.allocated(
      "a", slaveA, Resources::parse("cpus:2;mem:1").get());

  // Dominant share of "b" is 0.1 (cpus).
  sorter.allocated(
      "b", slaveB, Resources::parse("cpus:1;mem:3").get());

  list<string> sorted = sorter.sort();
  ASSERT_EQ(2u, sorted.size());
  EXPECT_EQ("b", sorted.front());
  EXPECT_EQ("a", sorted.back());

  // Update the total resources of slaveA by removing the previous
  // total and adding the new total.
  sorter.remove(slaveA, Resources::parse("cpus:5;mem:50").get());
  sorter.add(slaveA, Resources::parse("cpus:95;mem:50").get());

  // Now the dominant share of "a" is 0.02 (cpus) and "b" is 0.03
  // (mem), which should change the sort order.
  sorted = sorter.sort();
  ASSERT_EQ(2u, sorted.size());
  EXPECT_EQ("a", sorted.front());
  EXPECT_EQ("b", sorted.back());
}
Exemplo n.º 7
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// This test verifies that revocable resources are properly accounted
// for in the DRF sorter.
TEST(SorterTest, RevocableResources)
{
  DRFSorter sorter;

  SlaveID slaveId;
  slaveId.set_value("agentId");

  sorter.add("a");
  sorter.add("b");

  // Create a total resource pool of 10 revocable cpus and 10 cpus and
  // 10 MB mem.
  Resource revocable = Resources::parse("cpus", "10", "*").get();
  revocable.mutable_revocable();
  Resources total = Resources::parse("cpus:10;mem:100").get() + revocable;

  sorter.add(slaveId, revocable);

  // Dominant share of "a" is 0.1 (cpus).
  Resources a = Resources::parse("cpus:2;mem:1").get();
  sorter.allocated("a", slaveId, a);

  // Dominant share of "b" is 0.5 (cpus).
  revocable = Resources::parse("cpus", "9", "*").get();
  revocable.mutable_revocable();
  Resources b = Resources::parse("cpus:1;mem:1").get() + revocable;
  sorter.allocated("b", slaveId, b);

  // Check that the allocations are correct.
  ASSERT_EQ(a, sorter.allocation("a", slaveId));
  ASSERT_EQ(b, sorter.allocation("b", slaveId));

  // Check that the sort is correct.
  list<string> sorted = sorter.sort();
  ASSERT_EQ(2u, sorted.size());
  EXPECT_EQ("a", sorted.front());
  EXPECT_EQ("b", sorted.back());
}
Exemplo n.º 8
0
// This test verifies that when the total pool of resources is updated
// the sorting order of clients reflects the new total.
TEST(SorterTest, UpdateTotal)
{
  DRFSorter sorter;

  SlaveID slaveId;
  slaveId.set_value("agentId");

  sorter.add("a");
  sorter.add("b");

  sorter.add(slaveId, Resources::parse("cpus:10;mem:100").get());

  // Dominant share of "a" is 0.2 (cpus).
  sorter.allocated(
      "a", slaveId, Resources::parse("cpus:2;mem:1").get());

  // Dominant share of "b" is 0.1 (cpus).
  sorter.allocated(
      "b", slaveId, Resources::parse("cpus:1;mem:2").get());

  list<string> sorted = sorter.sort();
  ASSERT_EQ(2u, sorted.size());
  EXPECT_EQ("b", sorted.front());
  EXPECT_EQ("a", sorted.back());

  // Update the total resources by removing the previous total and
  // adding back the new total.
  sorter.remove(slaveId, Resources::parse("cpus:10;mem:100").get());
  sorter.add(slaveId, Resources::parse("cpus:100;mem:10").get());

  // Now the dominant share of "a" is 0.1 (mem) and "b" is 0.2 (mem),
  // which should change the sort order.
  sorted = sorter.sort();
  ASSERT_EQ(2u, sorted.size());
  EXPECT_EQ("a", sorted.front());
  EXPECT_EQ("b", sorted.back());
}
Exemplo n.º 9
0
TEST(SorterTest, WDRFSorter)
{
  DRFSorter sorter;

  SlaveID slaveId;
  slaveId.set_value("agentId");

  sorter.add(slaveId, Resources::parse("cpus:100;mem:100").get());

  sorter.add("a");

  sorter.allocated("a", slaveId, Resources::parse("cpus:5;mem:5").get());

  sorter.add("b", 2);
  sorter.allocated("b", slaveId, Resources::parse("cpus:6;mem:6").get());

  // shares: a = .05, b = .03
  EXPECT_EQ(list<string>({"b", "a"}), sorter.sort());

  sorter.add("c");
  sorter.allocated("c", slaveId, Resources::parse("cpus:4;mem:4").get());

  // shares: a = .05, b = .03, c = .04
  EXPECT_EQ(list<string>({"b", "c", "a"}), sorter.sort());

  sorter.add("d", 10);
  sorter.allocated("d", slaveId, Resources::parse("cpus:10;mem:20").get());

  // shares: a = .05, b = .03, c = .04, d = .02
  EXPECT_EQ(list<string>({"d", "b", "c", "a"}), sorter.sort());

  sorter.remove("b");

  EXPECT_EQ(list<string>({"d", "c", "a"}), sorter.sort());

  sorter.allocated("d", slaveId, Resources::parse("cpus:10;mem:25").get());

  // shares: a = .05, c = .04, d = .045
  EXPECT_EQ(list<string>({"c", "d", "a"}), sorter.sort());

  sorter.add("e", .1);
  sorter.allocated("e", slaveId, Resources::parse("cpus:1;mem:1").get());

  // shares: a = .05, c = .04, d = .045, e = .1
  EXPECT_EQ(list<string>({"c", "d", "a", "e"}), sorter.sort());

  sorter.remove("a");

  EXPECT_EQ(list<string>({"c", "d", "e"}), sorter.sort());
}
Exemplo n.º 10
0
TEST(SorterTest, WDRFSorter)
{
  DRFSorter sorter;

  sorter.add(Resources::parse("cpus:100;mem:100").get());

  sorter.add("a");

  sorter.allocated("a", Resources::parse("cpus:5;mem:5").get());

  sorter.add("b", 2);
  sorter.allocated("b", Resources::parse("cpus:6;mem:6").get());

  // shares: a = .05, b = .03
  checkSorter(sorter, 2, "b", "a");

  sorter.add("c");
  sorter.allocated("c", Resources::parse("cpus:4;mem:4").get());

  // shares: a = .05, b = .03, c = .04
  checkSorter(sorter, 3, "b", "c", "a");

  sorter.add("d", 10);
  sorter.allocated("d", Resources::parse("cpus:10;mem:20").get());

  // shares: a = .05, b = .03, c = .04, d = .02
  checkSorter(sorter, 4, "d", "b", "c", "a");

  sorter.remove("b");

  checkSorter(sorter, 3, "d", "c", "a");

  sorter.allocated("d", Resources::parse("cpus:10;mem:25").get());

  // shares: a = .05, c = .04, d = .045
  checkSorter(sorter, 3, "c", "d", "a");

  sorter.add("e", .1);
  sorter.allocated("e", Resources::parse("cpus:1;mem:1").get());

  // shares: a = .05, c = .04, d = .045, e = .1
  checkSorter(sorter, 4, "c", "d", "a", "e");

  sorter.remove("a");

  checkSorter(sorter, 3, "c", "d", "e");
}
Exemplo n.º 11
0
// We aggregate resources from multiple slaves into the sorter. Since
// non-scalar resources don't aggregate well across slaves, we need to
// keep track of the SlaveIDs of the resources. This tests that no
// resources vanish in the process of aggregation by performing update
// allocations from unreserved to reserved resources.
TEST(SorterTest, MultipleSlavesUpdateAllocation)
{
  DRFSorter sorter;

  SlaveID slaveA;
  slaveA.set_value("agentA");

  SlaveID slaveB;
  slaveB.set_value("agentB");

  sorter.add("framework");

  Resources slaveResources =
    Resources::parse("cpus:2;mem:512;disk:10;ports:[31000-32000]").get();

  sorter.add(slaveA, slaveResources);
  sorter.add(slaveB, slaveResources);

  sorter.allocated("framework", slaveA, slaveResources);
  sorter.allocated("framework", slaveB, slaveResources);

  // Construct an offer operation.
  Resource volume = Resources::parse("disk", "5", "*").get();
  volume.mutable_disk()->mutable_persistence()->set_id("ID");
  volume.mutable_disk()->mutable_volume()->set_container_path("data");

  // Compute the updated allocation.
  Try<Resources> newAllocation = slaveResources.apply(CREATE(volume));
  ASSERT_SOME(newAllocation);

  // Update the resources for the client.
  sorter.update("framework", slaveA, slaveResources, newAllocation.get());
  sorter.update("framework", slaveB, slaveResources, newAllocation.get());

  EXPECT_EQ(2u, sorter.allocation("framework").size());
  EXPECT_EQ(newAllocation.get(), sorter.allocation("framework", slaveA));
  EXPECT_EQ(newAllocation.get(), sorter.allocation("framework", slaveB));
}
Exemplo n.º 12
0
TEST(SorterTest, DRFSorter)
{
  DRFSorter sorter;

  Resources totalResources = Resources::parse("cpus:100;mem:100");
  sorter.add(totalResources);

  sorter.add("a");
  Resources aResources = Resources::parse("cpus:5;mem:5");
  sorter.allocated("a", aResources);

  Resources bResources = Resources::parse("cpus:6;mem:6");
  sorter.add("b");
  sorter.allocated("b", bResources);

  // shares: a = .05, b = .06
  checkSorter(sorter, 2, "a", "b");

  Resources cResources = Resources::parse("cpus:1;mem:1");
  sorter.add("c");
  sorter.allocated("c", cResources);

  Resources dResources = Resources::parse("cpus:3;mem:1");
  sorter.add("d");
  sorter.allocated("d", dResources);

  // shares: a = .05, b = .06, c = .01, d = .03
  checkSorter(sorter, 4, "c", "d", "a", "b");

  sorter.remove("a");
  Resources bUnallocated = Resources::parse("cpus:4;mem:4");
  sorter.unallocated("b", bUnallocated);

  // shares: b = .02, c = .01, d = .03
  checkSorter(sorter, 3, "c", "b", "d");

  Resources eResources = Resources::parse("cpus:1;mem:5");
  sorter.add("e");
  sorter.allocated("e", eResources);

  Resources removedResources = Resources::parse("cpus:50;mem:0");
  sorter.remove(removedResources);
  // total resources is now cpus = 50, mem = 100

  // shares: b = .04, c = .02, d = .06, e = .05
  checkSorter(sorter, 4, "c", "b", "e", "d");

  Resources addedResources = Resources::parse("cpus:0;mem:100");
  sorter.add(addedResources);
  // total resources is now cpus = 50, mem = 200

  Resources fResources = Resources::parse("cpus:5;mem:1");
  sorter.add("f");
  sorter.allocated("f", fResources);

  Resources cResources2 = Resources::parse("cpus:0;mem:15");
  sorter.allocated("c", cResources2);

  // shares: b = .04, c = .08, d = .06, e = .025, f = .1
  checkSorter(sorter, 5, "e", "b", "d", "c", "f");

  EXPECT_TRUE(sorter.contains("b"));

  EXPECT_FALSE(sorter.contains("a"));

  EXPECT_EQ(sorter.count(), 5);

  sorter.deactivate("d");

  EXPECT_TRUE(sorter.contains("d"));

  checkSorter(sorter, 4, "e", "b", "c", "f");

  EXPECT_EQ(sorter.count(), 5);

  sorter.activate("d");

  checkSorter(sorter, 5, "e", "b", "d", "c", "f");
}
Exemplo n.º 13
0
TEST(SorterTest, DRFSorter)
{
  DRFSorter sorter;

  SlaveID slaveId;
  slaveId.set_value("agentId");

  Resources totalResources = Resources::parse("cpus:100;mem:100").get();
  sorter.add(slaveId, totalResources);

  sorter.add("a");
  Resources aResources = Resources::parse("cpus:5;mem:5").get();
  sorter.allocated("a", slaveId, aResources);

  Resources bResources = Resources::parse("cpus:6;mem:6").get();
  sorter.add("b");
  sorter.allocated("b", slaveId, bResources);

  // shares: a = .05, b = .06
  EXPECT_EQ(list<string>({"a", "b"}), sorter.sort());

  Resources cResources = Resources::parse("cpus:1;mem:1").get();
  sorter.add("c");
  sorter.allocated("c", slaveId, cResources);

  Resources dResources = Resources::parse("cpus:3;mem:1").get();
  sorter.add("d");
  sorter.allocated("d", slaveId, dResources);

  // shares: a = .05, b = .06, c = .01, d = .03
  EXPECT_EQ(list<string>({"c", "d", "a", "b"}), sorter.sort());

  sorter.remove("a");
  Resources bUnallocated = Resources::parse("cpus:4;mem:4").get();
  sorter.unallocated("b", slaveId, bUnallocated);

  // shares: b = .02, c = .01, d = .03
  EXPECT_EQ(list<string>({"c", "b", "d"}), sorter.sort());

  Resources eResources = Resources::parse("cpus:1;mem:5").get();
  sorter.add("e");
  sorter.allocated("e", slaveId, eResources);

  Resources removedResources = Resources::parse("cpus:50;mem:0").get();
  sorter.remove(slaveId, removedResources);
  // total resources is now cpus = 50, mem = 100

  // shares: b = .04, c = .02, d = .06, e = .05
  EXPECT_EQ(list<string>({"c", "b", "e", "d"}), sorter.sort());

  Resources addedResources = Resources::parse("cpus:0;mem:100").get();
  sorter.add(slaveId, addedResources);
  // total resources is now cpus = 50, mem = 200

  Resources fResources = Resources::parse("cpus:5;mem:1").get();
  sorter.add("f");
  sorter.allocated("f", slaveId, fResources);

  Resources cResources2 = Resources::parse("cpus:0;mem:15").get();
  sorter.allocated("c", slaveId, cResources2);

  // shares: b = .04, c = .08, d = .06, e = .025, f = .1
  EXPECT_EQ(list<string>({"e", "b", "d", "c", "f"}), sorter.sort());

  EXPECT_TRUE(sorter.contains("b"));

  EXPECT_FALSE(sorter.contains("a"));

  EXPECT_EQ(5, sorter.count());

  sorter.deactivate("d");

  EXPECT_TRUE(sorter.contains("d"));

  EXPECT_EQ(list<string>({"e", "b", "c", "f"}), sorter.sort());

  EXPECT_EQ(5, sorter.count());

  sorter.activate("d");

  EXPECT_EQ(list<string>({"e", "b", "d", "c", "f"}), sorter.sort());
}