package structs import ( "encoding/base64" "fmt" "testing" lru "github.com/hashicorp/golang-lru" "github.com/hashicorp/nomad/helper/uuid" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func TestRemoveAllocs(t *testing.T) { l := []*Allocation{ {ID: "foo"}, {ID: "bar"}, {ID: "baz"}, {ID: "zip"}, } out := RemoveAllocs(l, []*Allocation{l[1], l[3]}) if len(out) != 2 { t.Fatalf("bad: %#v", out) } if out[0].ID != "foo" && out[1].ID != "baz" { t.Fatalf("bad: %#v", out) } } func TestFilterTerminalAllocs(t *testing.T) { l := []*Allocation{ { ID: "bar", Name: "myname1", DesiredStatus: AllocDesiredStatusEvict, }, {ID: "baz", DesiredStatus: AllocDesiredStatusStop}, { ID: "foo", DesiredStatus: AllocDesiredStatusRun, ClientStatus: AllocClientStatusPending, }, { ID: "bam", Name: "myname", DesiredStatus: AllocDesiredStatusRun, ClientStatus: AllocClientStatusComplete, CreateIndex: 5, }, { ID: "lol", Name: "myname", DesiredStatus: AllocDesiredStatusRun, ClientStatus: AllocClientStatusComplete, CreateIndex: 2, }, } out, terminalAllocs := FilterTerminalAllocs(l) if len(out) != 1 { t.Fatalf("bad: %#v", out) } if out[0].ID != "foo" { t.Fatalf("bad: %#v", out) } if len(terminalAllocs) != 3 { for _, o := range terminalAllocs { fmt.Printf("%#v \n", o) } t.Fatalf("bad: %#v", terminalAllocs) } if terminalAllocs["myname"].ID != "bam" { t.Fatalf("bad: %#v", terminalAllocs["myname"]) } } // COMPAT(0.11): Remove in 0.11 func TestAllocsFit_PortsOvercommitted_Old(t *testing.T) { n := &Node{ Resources: &Resources{ Networks: []*NetworkResource{ { Device: "eth0", CIDR: "10.0.0.0/8", MBits: 100, }, }, }, } a1 := &Allocation{ Job: &Job{ TaskGroups: []*TaskGroup{ { Name: "web", EphemeralDisk: DefaultEphemeralDisk(), }, }, }, TaskResources: map[string]*Resources{ "web": { Networks: []*NetworkResource{ { Device: "eth0", IP: "10.0.0.1", MBits: 50, ReservedPorts: []Port{{"main", 8000, 80}}, }, }, }, }, } // Should fit one allocation fit, dim, _, err := AllocsFit(n, []*Allocation{a1}, nil, false) if err != nil { t.Fatalf("err: %v", err) } if !fit { t.Fatalf("Bad: %s", dim) } // Should not fit second allocation fit, _, _, err = AllocsFit(n, []*Allocation{a1, a1}, nil, false) if err != nil { t.Fatalf("err: %v", err) } if fit { t.Fatalf("Bad") } } // COMPAT(0.11): Remove in 0.11 func TestAllocsFit_Old(t *testing.T) { require := require.New(t) n := &Node{ Resources: &Resources{ CPU: 2000, MemoryMB: 2048, DiskMB: 10000, Networks: []*NetworkResource{ { Device: "eth0", CIDR: "10.0.0.0/8", MBits: 100, }, }, }, Reserved: &Resources{ CPU: 1000, MemoryMB: 1024, DiskMB: 5000, Networks: []*NetworkResource{ { Device: "eth0", IP: "10.0.0.1", MBits: 50, ReservedPorts: []Port{{"main", 80, 0}}, }, }, }, } a1 := &Allocation{ Resources: &Resources{ CPU: 1000, MemoryMB: 1024, DiskMB: 5000, Networks: []*NetworkResource{ { Device: "eth0", IP: "10.0.0.1", MBits: 50, ReservedPorts: []Port{{"main", 8000, 80}}, }, }, }, } // Should fit one allocation fit, _, used, err := AllocsFit(n, []*Allocation{a1}, nil, false) require.NoError(err) require.True(fit) // Sanity check the used resources require.EqualValues(2000, used.Flattened.Cpu.CpuShares) require.EqualValues(2048, used.Flattened.Memory.MemoryMB) // Should not fit second allocation fit, _, used, err = AllocsFit(n, []*Allocation{a1, a1}, nil, false) require.NoError(err) require.False(fit) // Sanity check the used resources require.EqualValues(3000, used.Flattened.Cpu.CpuShares) require.EqualValues(3072, used.Flattened.Memory.MemoryMB) } // COMPAT(0.11): Remove in 0.11 func TestAllocsFit_TerminalAlloc_Old(t *testing.T) { require := require.New(t) n := &Node{ Resources: &Resources{ CPU: 2000, MemoryMB: 2048, DiskMB: 10000, Networks: []*NetworkResource{ { Device: "eth0", CIDR: "10.0.0.0/8", MBits: 100, }, }, }, Reserved: &Resources{ CPU: 1000, MemoryMB: 1024, DiskMB: 5000, Networks: []*NetworkResource{ { Device: "eth0", IP: "10.0.0.1", MBits: 50, ReservedPorts: []Port{{"main", 80, 0}}, }, }, }, } a1 := &Allocation{ Resources: &Resources{ CPU: 1000, MemoryMB: 1024, DiskMB: 5000, Networks: []*NetworkResource{ { Device: "eth0", IP: "10.0.0.1", MBits: 50, ReservedPorts: []Port{{"main", 8000, 0}}, }, }, }, } // Should fit one allocation fit, _, used, err := AllocsFit(n, []*Allocation{a1}, nil, false) require.NoError(err) require.True(fit) // Sanity check the used resources require.EqualValues(2000, used.Flattened.Cpu.CpuShares) require.EqualValues(2048, used.Flattened.Memory.MemoryMB) // Should fit second allocation since it is terminal a2 := a1.Copy() a2.DesiredStatus = AllocDesiredStatusStop fit, _, used, err = AllocsFit(n, []*Allocation{a1, a2}, nil, false) require.NoError(err) require.True(fit) // Sanity check the used resources require.EqualValues(2000, used.Flattened.Cpu.CpuShares) require.EqualValues(2048, used.Flattened.Memory.MemoryMB) } func TestAllocsFit(t *testing.T) { require := require.New(t) n := &Node{ NodeResources: &NodeResources{ Cpu: NodeCpuResources{ CpuShares: 2000, }, Memory: NodeMemoryResources{ MemoryMB: 2048, }, Disk: NodeDiskResources{ DiskMB: 10000, }, Networks: []*NetworkResource{ { Device: "eth0", CIDR: "10.0.0.0/8", MBits: 100, }, }, }, ReservedResources: &NodeReservedResources{ Cpu: NodeReservedCpuResources{ CpuShares: 1000, }, Memory: NodeReservedMemoryResources{ MemoryMB: 1024, }, Disk: NodeReservedDiskResources{ DiskMB: 5000, }, Networks: NodeReservedNetworkResources{ ReservedHostPorts: "80", }, }, } a1 := &Allocation{ AllocatedResources: &AllocatedResources{ Tasks: map[string]*AllocatedTaskResources{ "web": { Cpu: AllocatedCpuResources{ CpuShares: 1000, }, Memory: AllocatedMemoryResources{ MemoryMB: 1024, }, Networks: []*NetworkResource{ { Device: "eth0", IP: "10.0.0.1", MBits: 50, ReservedPorts: []Port{{"main", 8000, 0}}, }, }, }, }, Shared: AllocatedSharedResources{ DiskMB: 5000, }, }, } // Should fit one allocation fit, _, used, err := AllocsFit(n, []*Allocation{a1}, nil, false) require.NoError(err) require.True(fit) // Sanity check the used resources require.EqualValues(2000, used.Flattened.Cpu.CpuShares) require.EqualValues(2048, used.Flattened.Memory.MemoryMB) // Should not fit second allocation fit, _, used, err = AllocsFit(n, []*Allocation{a1, a1}, nil, false) require.NoError(err) require.False(fit) // Sanity check the used resources require.EqualValues(3000, used.Flattened.Cpu.CpuShares) require.EqualValues(3072, used.Flattened.Memory.MemoryMB) } func TestAllocsFit_TerminalAlloc(t *testing.T) { require := require.New(t) n := &Node{ NodeResources: &NodeResources{ Cpu: NodeCpuResources{ CpuShares: 2000, }, Memory: NodeMemoryResources{ MemoryMB: 2048, }, Disk: NodeDiskResources{ DiskMB: 10000, }, Networks: []*NetworkResource{ { Device: "eth0", CIDR: "10.0.0.0/8", IP: "10.0.0.1", MBits: 100, }, }, }, ReservedResources: &NodeReservedResources{ Cpu: NodeReservedCpuResources{ CpuShares: 1000, }, Memory: NodeReservedMemoryResources{ MemoryMB: 1024, }, Disk: NodeReservedDiskResources{ DiskMB: 5000, }, Networks: NodeReservedNetworkResources{ ReservedHostPorts: "80", }, }, } a1 := &Allocation{ AllocatedResources: &AllocatedResources{ Tasks: map[string]*AllocatedTaskResources{ "web": { Cpu: AllocatedCpuResources{ CpuShares: 1000, }, Memory: AllocatedMemoryResources{ MemoryMB: 1024, }, Networks: []*NetworkResource{ { Device: "eth0", IP: "10.0.0.1", MBits: 50, ReservedPorts: []Port{{"main", 8000, 80}}, }, }, }, }, Shared: AllocatedSharedResources{ DiskMB: 5000, }, }, } // Should fit one allocation fit, _, used, err := AllocsFit(n, []*Allocation{a1}, nil, false) require.NoError(err) require.True(fit) // Sanity check the used resources require.EqualValues(2000, used.Flattened.Cpu.CpuShares) require.EqualValues(2048, used.Flattened.Memory.MemoryMB) // Should fit second allocation since it is terminal a2 := a1.Copy() a2.DesiredStatus = AllocDesiredStatusStop fit, dim, used, err := AllocsFit(n, []*Allocation{a1, a2}, nil, false) require.NoError(err) require.True(fit, dim) // Sanity check the used resources require.EqualValues(2000, used.Flattened.Cpu.CpuShares) require.EqualValues(2048, used.Flattened.Memory.MemoryMB) } // Tests that AllocsFit detects device collisions func TestAllocsFit_Devices(t *testing.T) { require := require.New(t) n := MockNvidiaNode() a1 := &Allocation{ AllocatedResources: &AllocatedResources{ Tasks: map[string]*AllocatedTaskResources{ "web": { Cpu: AllocatedCpuResources{ CpuShares: 1000, }, Memory: AllocatedMemoryResources{ MemoryMB: 1024, }, Devices: []*AllocatedDeviceResource{ { Type: "gpu", Vendor: "nvidia", Name: "1080ti", DeviceIDs: []string{n.NodeResources.Devices[0].Instances[0].ID}, }, }, }, }, Shared: AllocatedSharedResources{ DiskMB: 5000, }, }, } a2 := a1.Copy() a2.AllocatedResources.Tasks["web"] = &AllocatedTaskResources{ Cpu: AllocatedCpuResources{ CpuShares: 1000, }, Memory: AllocatedMemoryResources{ MemoryMB: 1024, }, Devices: []*AllocatedDeviceResource{ { Type: "gpu", Vendor: "nvidia", Name: "1080ti", DeviceIDs: []string{n.NodeResources.Devices[0].Instances[0].ID}, // Use the same ID }, }, } // Should fit one allocation fit, _, _, err := AllocsFit(n, []*Allocation{a1}, nil, true) require.NoError(err) require.True(fit) // Should not fit second allocation fit, msg, _, err := AllocsFit(n, []*Allocation{a1, a2}, nil, true) require.NoError(err) require.False(fit) require.Equal("device oversubscribed", msg) // Should not fit second allocation but won't detect since we disabled // devices fit, _, _, err = AllocsFit(n, []*Allocation{a1, a2}, nil, false) require.NoError(err) require.True(fit) } // COMPAT(0.11): Remove in 0.11 func TestScoreFit_Old(t *testing.T) { node := &Node{} node.Resources = &Resources{ CPU: 4096, MemoryMB: 8192, } node.Reserved = &Resources{ CPU: 2048, MemoryMB: 4096, } // Test a perfect fit util := &ComparableResources{ Flattened: AllocatedTaskResources{ Cpu: AllocatedCpuResources{ CpuShares: 2048, }, Memory: AllocatedMemoryResources{ MemoryMB: 4096, }, }, } score := ScoreFit(node, util) if score != 18.0 { t.Fatalf("bad: %v", score) } // Test the worst fit util = &ComparableResources{ Flattened: AllocatedTaskResources{ Cpu: AllocatedCpuResources{ CpuShares: 0, }, Memory: AllocatedMemoryResources{ MemoryMB: 0, }, }, } score = ScoreFit(node, util) if score != 0.0 { t.Fatalf("bad: %v", score) } // Test a mid-case scenario util = &ComparableResources{ Flattened: AllocatedTaskResources{ Cpu: AllocatedCpuResources{ CpuShares: 1024, }, Memory: AllocatedMemoryResources{ MemoryMB: 2048, }, }, } score = ScoreFit(node, util) if score < 10.0 || score > 16.0 { t.Fatalf("bad: %v", score) } } func TestScoreFit(t *testing.T) { node := &Node{} node.NodeResources = &NodeResources{ Cpu: NodeCpuResources{ CpuShares: 4096, }, Memory: NodeMemoryResources{ MemoryMB: 8192, }, } node.ReservedResources = &NodeReservedResources{ Cpu: NodeReservedCpuResources{ CpuShares: 2048, }, Memory: NodeReservedMemoryResources{ MemoryMB: 4096, }, } // Test a perfect fit util := &ComparableResources{ Flattened: AllocatedTaskResources{ Cpu: AllocatedCpuResources{ CpuShares: 2048, }, Memory: AllocatedMemoryResources{ MemoryMB: 4096, }, }, } score := ScoreFit(node, util) if score != 18.0 { t.Fatalf("bad: %v", score) } // Test the worst fit util = &ComparableResources{ Flattened: AllocatedTaskResources{ Cpu: AllocatedCpuResources{ CpuShares: 0, }, Memory: AllocatedMemoryResources{ MemoryMB: 0, }, }, } score = ScoreFit(node, util) if score != 0.0 { t.Fatalf("bad: %v", score) } // Test a mid-case scenario util = &ComparableResources{ Flattened: AllocatedTaskResources{ Cpu: AllocatedCpuResources{ CpuShares: 1024, }, Memory: AllocatedMemoryResources{ MemoryMB: 2048, }, }, } score = ScoreFit(node, util) if score < 10.0 || score > 16.0 { t.Fatalf("bad: %v", score) } } func TestACLPolicyListHash(t *testing.T) { h1 := ACLPolicyListHash(nil) assert.NotEqual(t, "", h1) p1 := &ACLPolicy{ Name: fmt.Sprintf("policy-%s", uuid.Generate()), Description: "Super cool policy!", Rules: ` namespace "default" { policy = "write" } node { policy = "read" } agent { policy = "read" } `, CreateIndex: 10, ModifyIndex: 20, } h2 := ACLPolicyListHash([]*ACLPolicy{p1}) assert.NotEqual(t, "", h2) assert.NotEqual(t, h1, h2) // Create P2 as copy of P1 with new name p2 := &ACLPolicy{} *p2 = *p1 p2.Name = fmt.Sprintf("policy-%s", uuid.Generate()) h3 := ACLPolicyListHash([]*ACLPolicy{p1, p2}) assert.NotEqual(t, "", h3) assert.NotEqual(t, h2, h3) h4 := ACLPolicyListHash([]*ACLPolicy{p2}) assert.NotEqual(t, "", h4) assert.NotEqual(t, h3, h4) // ModifyIndex should change the hash p2.ModifyIndex++ h5 := ACLPolicyListHash([]*ACLPolicy{p2}) assert.NotEqual(t, "", h5) assert.NotEqual(t, h4, h5) } func TestCompileACLObject(t *testing.T) { p1 := &ACLPolicy{ Name: fmt.Sprintf("policy-%s", uuid.Generate()), Description: "Super cool policy!", Rules: ` namespace "default" { policy = "write" } node { policy = "read" } agent { policy = "read" } `, CreateIndex: 10, ModifyIndex: 20, } // Create P2 as copy of P1 with new name p2 := &ACLPolicy{} *p2 = *p1 p2.Name = fmt.Sprintf("policy-%s", uuid.Generate()) // Create a small cache cache, err := lru.New2Q(16) assert.Nil(t, err) // Test compilation aclObj, err := CompileACLObject(cache, []*ACLPolicy{p1}) assert.Nil(t, err) assert.NotNil(t, aclObj) // Should get the same object aclObj2, err := CompileACLObject(cache, []*ACLPolicy{p1}) assert.Nil(t, err) if aclObj != aclObj2 { t.Fatalf("expected the same object") } // Should get another object aclObj3, err := CompileACLObject(cache, []*ACLPolicy{p1, p2}) assert.Nil(t, err) assert.NotNil(t, aclObj3) if aclObj == aclObj3 { t.Fatalf("unexpected same object") } // Should be order independent aclObj4, err := CompileACLObject(cache, []*ACLPolicy{p2, p1}) assert.Nil(t, err) assert.NotNil(t, aclObj4) if aclObj3 != aclObj4 { t.Fatalf("expected same object") } } // TestGenerateMigrateToken asserts the migrate token is valid for use in HTTP // headers and CompareMigrateToken works as expected. func TestGenerateMigrateToken(t *testing.T) { assert := assert.New(t) allocID := uuid.Generate() nodeSecret := uuid.Generate() token, err := GenerateMigrateToken(allocID, nodeSecret) assert.Nil(err) _, err = base64.URLEncoding.DecodeString(token) assert.Nil(err) assert.True(CompareMigrateToken(allocID, nodeSecret, token)) assert.False(CompareMigrateToken("x", nodeSecret, token)) assert.False(CompareMigrateToken(allocID, "x", token)) assert.False(CompareMigrateToken(allocID, nodeSecret, "x")) token2, err := GenerateMigrateToken("x", nodeSecret) assert.Nil(err) assert.False(CompareMigrateToken(allocID, nodeSecret, token2)) assert.True(CompareMigrateToken("x", nodeSecret, token2)) }