# Copyright (c) 2023 Microsoft Corporation # # SPDX-License-Identifier: Apache-2.0 # package agent_policy import future.keywords.in import future.keywords.every # Default values, returned by OPA when rules cannot be evaluated to true. default AddARPNeighborsRequest := false default AddSwapRequest := false default CloseStdinRequest := false default CopyFileRequest := false default CreateContainerRequest := false default CreateSandboxRequest := false default DestroySandboxRequest := true default ExecProcessRequest := false default GetOOMEventRequest := true default GuestDetailsRequest := true default ListInterfacesRequest := false default ListRoutesRequest := false default MemHotplugByProbeRequest := false default OnlineCPUMemRequest := true default PauseContainerRequest := false default ReadStreamRequest := false default RemoveContainerRequest := true default RemoveStaleVirtiofsShareMountsRequest := true default ReseedRandomDevRequest := false default ResumeContainerRequest := false default SetGuestDateTimeRequest := false default SetPolicyRequest := false default SignalProcessRequest := true default StartContainerRequest := true default StartTracingRequest := false default StatsContainerRequest := true default StopTracingRequest := false default TtyWinResizeRequest := true default UpdateContainerRequest := false default UpdateEphemeralMountsRequest := false default UpdateInterfaceRequest := true default UpdateRoutesRequest := true default WaitProcessRequest := true default WriteStreamRequest := false # AllowRequestsFailingPolicy := true configures the Agent to *allow any # requests causing a policy failure*. This is an unsecure configuration # but is useful for allowing unsecure pods to start, then connect to # them and inspect OPA logs for the root cause of a failure. default AllowRequestsFailingPolicy := false CreateContainerRequest { i_oci := input.OCI i_storages := input.storages print("CreateContainerRequest: i_oci.Hooks =", i_oci.Hooks) is_null(i_oci.Hooks) print("CreateContainerRequest: i_oci.Linux.Seccomp =", i_oci.Linux.Seccomp) is_null(i_oci.Linux.Seccomp) some p_container in policy_data.containers print("======== CreateContainerRequest: trying next policy container") p_pidns := p_container.sandbox_pidns i_pidns := input.sandbox_pidns print("CreateContainerRequest: p_pidns =", p_pidns, "i_pidns =", i_pidns) p_pidns == i_pidns p_oci := p_container.OCI print("CreateContainerRequest: p Version =", p_oci.Version, "i Version =", i_oci.Version) p_oci.Version == i_oci.Version print("CreateContainerRequest: p Readonly =", p_oci.Root.Readonly, "i Readonly =", i_oci.Root.Readonly) p_oci.Root.Readonly == i_oci.Root.Readonly allow_anno(p_oci, i_oci) p_storages := p_container.storages allow_by_anno(p_oci, i_oci, p_storages, i_storages) allow_linux(p_oci, i_oci) print("CreateContainerRequest: true") } # Reject unexpected annotations. allow_anno(p_oci, i_oci) { print("allow_anno 1: start") not i_oci.Annotations print("allow_anno 1: true") } allow_anno(p_oci, i_oci) { print("allow_anno 2: p Annotations =", p_oci.Annotations) print("allow_anno 2: i Annotations =", i_oci.Annotations) i_keys := object.keys(i_oci.Annotations) print("allow_anno 2: i keys =", i_keys) every i_key in i_keys { allow_anno_key(i_key, p_oci) } print("allow_anno 2: true") } allow_anno_key(i_key, p_oci) { print("allow_anno_key 1: i key =", i_key) startswith(i_key, "io.kubernetes.cri.") print("allow_anno_key 1: true") } allow_anno_key(i_key, p_oci) { print("allow_anno_key 2: i key =", i_key) some p_key, _ in p_oci.Annotations p_key == i_key print("allow_anno_key 2: true") } # Get the value of the "io.kubernetes.cri.sandbox-name" annotation and # correlate it with other annotations and process fields. allow_by_anno(p_oci, i_oci, p_storages, i_storages) { print("allow_by_anno 1: start") s_name := "io.kubernetes.cri.sandbox-name" not p_oci.Annotations[s_name] i_s_name := i_oci.Annotations[s_name] print("allow_by_anno 1: i_s_name =", i_s_name) allow_by_sandbox_name(p_oci, i_oci, p_storages, i_storages, i_s_name) print("allow_by_anno 1: true") } allow_by_anno(p_oci, i_oci, p_storages, i_storages) { print("allow_by_anno 2: start") s_name := "io.kubernetes.cri.sandbox-name" p_s_name := p_oci.Annotations[s_name] i_s_name := i_oci.Annotations[s_name] print("allow_by_anno 2: i_s_name =", i_s_name, "p_s_name =", p_s_name) allow_sandbox_name(p_s_name, i_s_name) allow_by_sandbox_name(p_oci, i_oci, p_storages, i_storages, i_s_name) print("allow_by_anno 2: true") } allow_by_sandbox_name(p_oci, i_oci, p_storages, i_storages, s_name) { print("allow_by_sandbox_name: start") s_namespace := "io.kubernetes.cri.sandbox-namespace" p_namespace := p_oci.Annotations[s_namespace] i_namespace := i_oci.Annotations[s_namespace] print("allow_by_sandbox_name: p_namespace =", p_namespace, "i_namespace =", i_namespace) p_namespace == i_namespace allow_by_container_types(p_oci, i_oci, s_name, p_namespace) allow_by_bundle_or_sandbox_id(p_oci, i_oci, p_storages, i_storages) allow_process(p_oci, i_oci, s_name) print("allow_by_sandbox_name: true") } allow_sandbox_name(p_s_name, i_s_name) { print("allow_sandbox_name 1: start") p_s_name == i_s_name print("allow_sandbox_name 1: true") } allow_sandbox_name(p_s_name, i_s_name) { print("allow_sandbox_name 2: start") # TODO: should generated names be handled differently? contains(p_s_name, "$(generated-name)") print("allow_sandbox_name 2: true") } # Check that the "io.kubernetes.cri.container-type" and # "io.katacontainers.pkg.oci.container_type" annotations designate the # expected type - either a "sandbox" or a "container". Then, validate # other annotations based on the actual "sandbox" or "container" value # from the input container. allow_by_container_types(p_oci, i_oci, s_name, s_namespace) { print("allow_by_container_types: checking io.kubernetes.cri.container-type") c_type := "io.kubernetes.cri.container-type" p_cri_type := p_oci.Annotations[c_type] i_cri_type := i_oci.Annotations[c_type] print("allow_by_container_types: p_cri_type =", p_cri_type, "i_cri_type =", i_cri_type) p_cri_type == i_cri_type allow_by_container_type(i_cri_type, p_oci, i_oci, s_name, s_namespace) print("allow_by_container_types: true") } allow_by_container_type(i_cri_type, p_oci, i_oci, s_name, s_namespace) { print("allow_by_container_type 1: i_cri_type =", i_cri_type) i_cri_type == "sandbox" i_kata_type := i_oci.Annotations["io.katacontainers.pkg.oci.container_type"] print("allow_by_container_type 1: i_kata_type =", i_kata_type) i_kata_type == "pod_sandbox" allow_sandbox_container_name(p_oci, i_oci) allow_sandbox_net_namespace(p_oci, i_oci) allow_sandbox_log_directory(p_oci, i_oci, s_name, s_namespace) print("allow_by_container_type 1: true") } allow_by_container_type(i_cri_type, p_oci, i_oci, s_name, s_namespace) { print("allow_by_container_type 2: i_cri_type =", i_cri_type) i_cri_type == "container" i_kata_type := i_oci.Annotations["io.katacontainers.pkg.oci.container_type"] print("allow_by_container_type 2: i_kata_type =", i_kata_type) i_kata_type == "pod_container" allow_container_name(p_oci, i_oci) allow_net_namespace(p_oci, i_oci) allow_log_directory(p_oci, i_oci) print("allow_by_container_type 2: true") } # "io.kubernetes.cri.container-name" annotation allow_sandbox_container_name(p_oci, i_oci) { print("allow_sandbox_container_name: start") container_annotation_missing(p_oci, i_oci, "io.kubernetes.cri.container-name") print("allow_sandbox_container_name: true") } allow_container_name(p_oci, i_oci) { print("allow_container_name: start") allow_container_annotation(p_oci, i_oci, "io.kubernetes.cri.container-name") print("allow_container_name: true") } container_annotation_missing(p_oci, i_oci, key) { print("container_annotation_missing:", key) not p_oci.Annotations[key] not i_oci.Annotations[key] print("container_annotation_missing: true") } allow_container_annotation(p_oci, i_oci, key) { print("allow_container_annotation: key =", key) p_value := p_oci.Annotations[key] i_value := i_oci.Annotations[key] print("allow_container_annotation: p_value =", p_value, "i_value =", i_value) p_value == i_value print("allow_container_annotation: true") } # "nerdctl/network-namespace" annotation allow_sandbox_net_namespace(p_oci, i_oci) { print("allow_sandbox_net_namespace: start") key := "nerdctl/network-namespace" p_namespace := p_oci.Annotations[key] i_namespace := i_oci.Annotations[key] print("allow_sandbox_net_namespace: p_namespace =", p_namespace, "i_namespace =", i_namespace) regex.match(p_namespace, i_namespace) print("allow_sandbox_net_namespace: true") } allow_net_namespace(p_oci, i_oci) { print("allow_net_namespace: start") key := "nerdctl/network-namespace" not p_oci.Annotations[key] not i_oci.Annotations[key] print("allow_net_namespace: true") } # "io.kubernetes.cri.sandbox-log-directory" annotation allow_sandbox_log_directory(p_oci, i_oci, s_name, s_namespace) { print("allow_sandbox_log_directory: start") key := "io.kubernetes.cri.sandbox-log-directory" p_dir := p_oci.Annotations[key] regex1 := replace(p_dir, "$(sandbox-name)", s_name) regex2 := replace(regex1, "$(sandbox-namespace)", s_namespace) print("allow_sandbox_log_directory: regex2 =", regex2) i_dir := i_oci.Annotations[key] print("allow_sandbox_log_directory: i_dir =", i_dir) regex.match(regex2, i_dir) print("allow_sandbox_log_directory: true") } allow_log_directory(p_oci, i_oci) { print("allow_log_directory: start") key := "io.kubernetes.cri.sandbox-log-directory" not p_oci.Annotations[key] not i_oci.Annotations[key] print("allow_log_directory: true") } allow_linux(p_oci, i_oci) { p_namespaces := p_oci.Linux.Namespaces print("allow_linux: p namespaces =", p_namespaces) i_namespaces := i_oci.Linux.Namespaces print("allow_linux: i namespaces =", i_namespaces) p_namespaces == i_namespaces allow_masked_paths(p_oci, i_oci) allow_readonly_paths(p_oci, i_oci) print("allow_linux: true") } allow_masked_paths(p_oci, i_oci) { p_paths := p_oci.Linux.MaskedPaths print("allow_masked_paths 1: p_paths =", p_paths) i_paths := i_oci.Linux.MaskedPaths print("allow_masked_paths 1: i_paths =", i_paths) allow_masked_paths_array(p_paths, i_paths) print("allow_masked_paths 1: true") } allow_masked_paths(p_oci, i_oci) { print("allow_masked_paths 2: start") not p_oci.Linux.MaskedPaths not i_oci.Linux.MaskedPaths print("allow_masked_paths 2: true") } # All the policy masked paths must be masked in the input data too. # Input is allowed to have more masked paths than the policy. allow_masked_paths_array(p_array, i_array) { every p_elem in p_array { allow_masked_path(p_elem, i_array) } } allow_masked_path(p_elem, i_array) { print("allow_masked_path: p_elem =", p_elem) some i_elem in i_array p_elem == i_elem print("allow_masked_path: true") } allow_readonly_paths(p_oci, i_oci) { p_paths := p_oci.Linux.ReadonlyPaths print("allow_readonly_paths 1: p_paths =", p_paths) i_paths := i_oci.Linux.ReadonlyPaths print("allow_readonly_paths 1: i_paths =", i_paths) allow_readonly_paths_array(p_paths, i_paths, i_oci.Linux.MaskedPaths) print("allow_readonly_paths 1: true") } allow_readonly_paths(p_oci, i_oci) { print("allow_readonly_paths 2: start") not p_oci.Linux.ReadonlyPaths not i_oci.Linux.ReadonlyPaths print("allow_readonly_paths 2: true") } # All the policy readonly paths must be either: # - Present in the input readonly paths, or # - Present in the input masked paths. # Input is allowed to have more readonly paths than the policy. allow_readonly_paths_array(p_array, i_array, masked_paths) { every p_elem in p_array { allow_readonly_path(p_elem, i_array, masked_paths) } } allow_readonly_path(p_elem, i_array, masked_paths) { print("allow_readonly_path 1: p_elem =", p_elem) some i_elem in i_array p_elem == i_elem print("allow_readonly_path 1: true") } allow_readonly_path(p_elem, i_array, masked_paths) { print("allow_readonly_path 2: p_elem =", p_elem) some i_masked in masked_paths p_elem == i_masked print("allow_readonly_path 2: true") } # Check the consistency of the input "io.katacontainers.pkg.oci.bundle_path" # and io.kubernetes.cri.sandbox-id" values with other fields. allow_by_bundle_or_sandbox_id(p_oci, i_oci, p_storages, i_storages) { print("allow_by_bundle_or_sandbox_id: start") bundle_path := i_oci.Annotations["io.katacontainers.pkg.oci.bundle_path"] bundle_id := replace(bundle_path, "/run/containerd/io.containerd.runtime.v2.task/k8s.io/", "") key := "io.kubernetes.cri.sandbox-id" p_regex := p_oci.Annotations[key] sandbox_id := i_oci.Annotations[key] print("allow_by_bundle_or_sandbox_id: sandbox_id =", sandbox_id, "regex =", p_regex) regex.match(p_regex, sandbox_id) allow_root_path(p_oci, i_oci, bundle_id) every i_mount in input.OCI.Mounts { allow_mount(p_oci, i_mount, bundle_id, sandbox_id) } allow_storages(p_storages, i_storages, bundle_id, sandbox_id) print("allow_by_bundle_or_sandbox_id: true") } allow_process(p_oci, i_oci, s_name) { p_process := p_oci.Process i_process := i_oci.Process print("allow_process: i terminal =", i_process.Terminal, "p terminal =", p_process.Terminal) p_process.Terminal == i_process.Terminal print("allow_process: i cwd =", i_process.Cwd, "i cwd =", p_process.Cwd) p_process.Cwd == i_process.Cwd print("allow_process: i noNewPrivileges =", i_process.NoNewPrivileges, "p noNewPrivileges =", p_process.NoNewPrivileges) p_process.NoNewPrivileges == i_process.NoNewPrivileges allow_caps(p_process.Capabilities, i_process.Capabilities) allow_user(p_process, i_process) allow_args(p_process, i_process, s_name) allow_env(p_process, i_process, s_name) print("allow_process: true") } allow_user(p_process, i_process) { p_user := p_process.User i_user := i_process.User print("allow_user: input uid =", i_user.UID, "policy uid =", p_user.UID) p_user.UID == i_user.UID # TODO: track down the reason for registry.k8s.io/pause:3.9 being # executed with gid = 0 despite having "65535:65535" in its container image # config. #print("allow_user: input gid =", i_user.GID, "policy gid =", p_user.GID) #p_user.GID == i_user.GID # TODO: compare the additionalGids field too after computing its value # based on /etc/passwd and /etc/group from the container image. } allow_args(p_process, i_process, s_name) { print("allow_args 1: no args") not p_process.Args not i_process.Args print("allow_args 1: true") } allow_args(p_process, i_process, s_name) { print("allow_args 2: policy args =", p_process.Args) print("allow_args 2: input args =", i_process.Args) count(p_process.Args) == count(i_process.Args) every i, i_arg in i_process.Args { allow_arg(i, i_arg, p_process, s_name) } print("allow_args 2: true") } allow_arg(i, i_arg, p_process, s_name) { p_arg := p_process.Args[i] print("allow_arg 1: i =", i, "i_arg =", i_arg, "p_arg =", p_arg) p_arg2 := replace(p_arg, "$$", "$") p_arg2 == i_arg print("allow_arg 1: true") } allow_arg(i, i_arg, p_process, s_name) { p_arg := p_process.Args[i] print("allow_arg 2: i =", i, "i_arg =", i_arg, "p_arg =", p_arg) # TODO: can $(node-name) be handled better? contains(p_arg, "$(node-name)") print("allow_arg 2: true") } allow_arg(i, i_arg, p_process, s_name) { p_arg := p_process.Args[i] print("allow_arg 3: i =", i, "i_arg =", i_arg, "p_arg =", p_arg) p_arg2 := replace(p_arg, "$$", "$") p_arg3 := replace(p_arg2, "$(sandbox-name)", s_name) print("allow_arg 3: p_arg3 =", p_arg3) p_arg3 == i_arg print("allow_arg 3: true") } # OCI process.Env field allow_env(p_process, i_process, s_name) { print("allow_env: p env =", p_process.Env) print("allow_env: i env =", i_process.Env) every i_var in i_process.Env { print("allow_env: i_var =", i_var) allow_var(p_process, i_process, i_var, s_name) } print("allow_env: true") } # Allow input env variables that are present in the policy data too. allow_var(p_process, i_process, i_var, s_name) { some p_var in p_process.Env p_var == i_var print("allow_var 1: true") } # Match input with one of the policy variables, after substituting $(sandbox-name). allow_var(p_process, i_process, i_var, s_name) { some p_var in p_process.Env p_var2 := replace(p_var, "$(sandbox-name)", s_name) print("allow_var 2: p_var2 =", p_var2) p_var2 == i_var print("allow_var 2: true") } # Allow input env variables that match with a request_defaults regex. allow_var(p_process, i_process, i_var, s_name) { some p_regex1 in policy_data.request_defaults.CreateContainerRequest.allow_env_regex p_regex2 := replace(p_regex1, "$(ipv4_a)", policy_data.common.ipv4_a) p_regex3 := replace(p_regex2, "$(ip_p)", policy_data.common.ip_p) p_regex4 := replace(p_regex3, "$(svc_name)", policy_data.common.svc_name) p_regex5 := replace(p_regex4, "$(dns_label)", policy_data.common.dns_label) print("allow_var 3: p_regex5 =", p_regex5) regex.match(p_regex5, i_var) print("allow_var 3: true") } # Allow fieldRef "fieldPath: status.podIP" values. allow_var(p_process, i_process, i_var, s_name) { name_value := split(i_var, "=") count(name_value) == 2 is_ip(name_value[1]) some p_var in p_process.Env allow_pod_ip_var(name_value[0], p_var) print("allow_var 4: true") } # Allow common fieldRef variables. allow_var(p_process, i_process, i_var, s_name) { name_value := split(i_var, "=") count(name_value) == 2 some p_var in p_process.Env p_name_value := split(p_var, "=") count(p_name_value) == 2 p_name_value[0] == name_value[0] # TODO: should these be handled in a different way? always_allowed := ["$(host-name)", "$(node-name)", "$(pod-uid)"] some allowed in always_allowed contains(p_name_value[1], allowed) print("allow_var 5: true") } # Allow fieldRef "fieldPath: status.hostIP" values. allow_var(p_process, i_process, i_var, s_name) { name_value := split(i_var, "=") count(name_value) == 2 is_ip(name_value[1]) some p_var in p_process.Env allow_host_ip_var(name_value[0], p_var) print("allow_var 6: true") } # Allow resourceFieldRef values (e.g., "limits.cpu"). allow_var(p_process, i_process, i_var, s_name) { name_value := split(i_var, "=") count(name_value) == 2 some p_var in p_process.Env p_name_value := split(p_var, "=") count(p_name_value) == 2 p_name_value[0] == name_value[0] # TODO: should these be handled in a different way? always_allowed = ["$(resource-field)", "$(todo-annotation)"] some allowed in always_allowed contains(p_name_value[1], allowed) print("allow_var 7: true") } allow_pod_ip_var(var_name, p_var) { print("allow_pod_ip_var: var_name =", var_name, "p_var =", p_var) p_name_value := split(p_var, "=") count(p_name_value) == 2 p_name_value[0] == var_name p_name_value[1] == "$(pod-ip)" print("allow_pod_ip_var: true") } allow_host_ip_var(var_name, p_var) { print("allow_host_ip_var: var_name =", var_name, "p_var =", p_var) p_name_value := split(p_var, "=") count(p_name_value) == 2 p_name_value[0] == var_name p_name_value[1] == "$(host-ip)" print("allow_host_ip_var: true") } is_ip(value) { bytes = split(value, ".") count(bytes) == 4 is_ip_first_byte(bytes[0]) is_ip_other_byte(bytes[1]) is_ip_other_byte(bytes[2]) is_ip_other_byte(bytes[3]) } is_ip_first_byte(component) { number = to_number(component) number >= 1 number <= 255 } is_ip_other_byte(component) { number = to_number(component) number >= 0 number <= 255 } # OCI root.Path allow_root_path(p_oci, i_oci, bundle_id) { i_path := i_oci.Root.Path p_path1 := p_oci.Root.Path print("allow_root_path: i_path =", i_path, "p_path1 =", p_path1) p_path2 := replace(p_path1, "$(cpath)", policy_data.common.cpath) print("allow_root_path: p_path2 =", p_path2) p_path3 := replace(p_path2, "$(bundle-id)", bundle_id) print("allow_root_path: p_path3 =", p_path3) p_path3 == i_path print("allow_root_path: true") } # device mounts allow_mount(p_oci, i_mount, bundle_id, sandbox_id) { print("allow_mount: i_mount =", i_mount) some p_mount in p_oci.Mounts print("allow_mount: p_mount =", p_mount) check_mount(p_mount, i_mount, bundle_id, sandbox_id) # TODO: are there any other required policy checks for mounts - e.g., # multiple mounts with same source or destination? print("allow_mount: true") } check_mount(p_mount, i_mount, bundle_id, sandbox_id) { p_mount == i_mount print("check_mount 1: true") } check_mount(p_mount, i_mount, bundle_id, sandbox_id) { p_mount.destination == i_mount.destination p_mount.type_ == i_mount.type_ p_mount.options == i_mount.options mount_source_allows(p_mount, i_mount, bundle_id, sandbox_id) print("check_mount 2: true") } mount_source_allows(p_mount, i_mount, bundle_id, sandbox_id) { regex1 := p_mount.source regex2 := replace(regex1, "$(sfprefix)", policy_data.common.sfprefix) regex3 := replace(regex2, "$(cpath)", policy_data.common.cpath) regex4 := replace(regex3, "$(bundle-id)", bundle_id) print("mount_source_allows 1: regex4 =", regex4) regex.match(regex4, i_mount.source) print("mount_source_allows 1: true") } mount_source_allows(p_mount, i_mount, bundle_id, sandbox_id) { regex1 := p_mount.source regex2 := replace(regex1, "$(sfprefix)", policy_data.common.sfprefix) regex3 := replace(regex2, "$(cpath)", policy_data.common.cpath) regex4 := replace(regex3, "$(sandbox-id)", sandbox_id) print("mount_source_allows 2: regex4 =", regex4) regex.match(regex4, i_mount.source) print("mount_source_allows 2: true") } mount_source_allows(p_mount, i_mount, bundle_id, sandbox_id) { print("mount_source_allows 3: i_mount.source=", i_mount.source) i_source_parts = split(i_mount.source, "/") b64_direct_vol_path = i_source_parts[count(i_source_parts) - 1] base64.is_valid(b64_direct_vol_path) source1 := p_mount.source print("mount_source_allows 3: source1 =", source1) source2 := replace(source1, "$(spath)", policy_data.common.spath) print("mount_source_allows 3: source2 =", source2) source3 := replace(source2, "$(b64-direct-vol-path)", b64_direct_vol_path) print("mount_source_allows 3: source3 =", source3) source3 == i_mount.source print("mount_source_allows 3: true") } ###################################################################### # Create container Storages allow_storages(p_storages, i_storages, bundle_id, sandbox_id) { p_count := count(p_storages) i_count := count(i_storages) print("allow_storages: p_count =", p_count, "i_count =", i_count) p_count == i_count # Get the container image layer IDs and verity root hashes, from the "overlayfs" storage. some overlay_storage in p_storages overlay_storage.driver == "overlayfs" print("allow_storages: overlay_storage =", overlay_storage) count(overlay_storage.options) == 2 layer_ids := split(overlay_storage.options[0], ":") print("allow_storages: layer_ids =", layer_ids) root_hashes := split(overlay_storage.options[1], ":") print("allow_storages: root_hashes =", root_hashes) every i_storage in i_storages { allow_storage(p_storages, i_storage, bundle_id, sandbox_id, layer_ids, root_hashes) } print("allow_storages: true") } allow_storage(p_storages, i_storage, bundle_id, sandbox_id, layer_ids, root_hashes) { some p_storage in p_storages print("allow_storage: p_storage =", p_storage) print("allow_storage: i_storage =", i_storage) p_storage.driver == i_storage.driver p_storage.driver_options == i_storage.driver_options p_storage.fs_group == i_storage.fs_group allow_storage_options(p_storage, i_storage, layer_ids, root_hashes) allow_mount_point(p_storage, i_storage, bundle_id, sandbox_id, layer_ids) # TODO: validate the source field too. print("allow_storage: true") } allow_storage_options(p_storage, i_storage, layer_ids, root_hashes) { print("allow_storage_options 1: start") p_storage.driver != "overlayfs" p_storage.options == i_storage.options print("allow_storage_options 1: true") } allow_storage_options(p_storage, i_storage, layer_ids, root_hashes) { print("allow_storage_options 2: start") p_storage.driver == "overlayfs" count(p_storage.options) == 2 policy_ids := split(p_storage.options[0], ":") print("allow_storage_options 2: policy_ids =", policy_ids) policy_ids == layer_ids policy_hashes := split(p_storage.options[1], ":") print("allow_storage_options 2: policy_hashes =", policy_hashes) p_count := count(policy_ids) print("allow_storage_options 2: p_count =", p_count) p_count >= 1 p_count == count(policy_hashes) i_count := count(i_storage.options) print("allow_storage_options 2: i_count =", i_count) i_count == p_count + 3 print("allow_storage_options 2: i_storage.options[0] =", i_storage.options[0]) i_storage.options[0] == "io.katacontainers.fs-opt.layer-src-prefix=/var/lib/containerd/io.containerd.snapshotter.v1.tardev/layers" print("allow_storage_options 2: i_storage.options[i_count - 2] =", i_storage.options[i_count - 2]) i_storage.options[i_count - 2] == "io.katacontainers.fs-opt.overlay-rw" lowerdir := concat("=", ["lowerdir", p_storage.options[0]]) print("allow_storage_options 2: lowerdir =", lowerdir) print("allow_storage_options 2: i_storage.options[i_count - 1] =", i_storage.options[i_count - 1]) i_storage.options[i_count - 1] == lowerdir every i, policy_id in policy_ids { allow_overlay_layer(policy_id, policy_hashes[i], i_storage.options[i + 1]) } print("allow_storage_options 2: true") } allow_storage_options(p_storage, i_storage, layer_ids, root_hashes) { print("allow_storage_options 3: start") p_storage.driver == "blk" count(p_storage.options) == 1 startswith(p_storage.options[0], "$(hash") hash_suffix := trim_left(p_storage.options[0], "$(hash") endswith(hash_suffix, ")") hash_index := trim_right(hash_suffix, ")") i := to_number(hash_index) print("allow_storage_options 3: i =", i) hash_option := concat("=", ["io.katacontainers.fs-opt.root-hash", root_hashes[i]]) print("allow_storage_options 3: hash_option =", hash_option) count(i_storage.options) == 4 i_storage.options[0] == "ro" i_storage.options[1] == "io.katacontainers.fs-opt.block_device=file" i_storage.options[2] == "io.katacontainers.fs-opt.is-layer" i_storage.options[3] == hash_option print("allow_storage_options 3: true") } allow_storage_options(p_storage, i_storage, layer_ids, root_hashes) { print("allow_storage_options 4: start") p_storage.driver == "smb" count(i_storage.options) == 8 i_storage.options[0] == "dir_mode=0666" i_storage.options[1] == "file_mode=0666" i_storage.options[2] == "mfsymlinks" i_storage.options[3] == "cache=strict" i_storage.options[4] == "nosharesock" i_storage.options[5] == "actimeo=30" startswith(i_storage.options[6], "addr=") creds = split(i_storage.options[7], ",") count(creds) == 2 startswith(creds[0], "username=") startswith(creds[1], "password=") print("allow_storage_options 4: true") } allow_overlay_layer(policy_id, policy_hash, i_option) { print("allow_overlay_layer: policy_id =", policy_id, "policy_hash =", policy_hash) print("allow_overlay_layer: i_option =", i_option) startswith(i_option, "io.katacontainers.fs-opt.layer=") i_value := replace(i_option, "io.katacontainers.fs-opt.layer=", "") i_value_decoded := base64.decode(i_value) print("allow_overlay_layer: i_value_decoded =", i_value_decoded) policy_suffix := concat("=", ["tar,ro,io.katacontainers.fs-opt.block_device=file,io.katacontainers.fs-opt.is-layer,io.katacontainers.fs-opt.root-hash", policy_hash]) p_value := concat(",", [policy_id, policy_suffix]) print("allow_overlay_layer: p_value =", p_value) p_value == i_value_decoded print("allow_overlay_layer: true") } allow_mount_point(p_storage, i_storage, bundle_id, sandbox_id, layer_ids) { p_storage.fstype == "tar" startswith(p_storage.mount_point, "$(layer") mount_suffix := trim_left(p_storage.mount_point, "$(layer") endswith(mount_suffix, ")") layer_index := trim_right(mount_suffix, ")") i := to_number(layer_index) print("allow_mount_point 1: i =", i) layer_id := layer_ids[i] print("allow_mount_point 1: layer_id =", layer_id) p_mount := concat("/", ["/run/kata-containers/sandbox/layers", layer_id]) print("allow_mount_point 1: p_mount =", p_mount) p_mount == i_storage.mount_point print("allow_mount_point 1: true") } allow_mount_point(p_storage, i_storage, bundle_id, sandbox_id, layer_ids) { p_storage.fstype == "fuse3.kata-overlay" mount1 := replace(p_storage.mount_point, "$(cpath)", policy_data.common.cpath) mount2 := replace(mount1, "$(bundle-id)", bundle_id) print("allow_mount_point 2: mount2 =", mount2) mount2 == i_storage.mount_point print("allow_mount_point 2: true") } allow_mount_point(p_storage, i_storage, bundle_id, sandbox_id, layer_ids) { p_storage.fstype == "local" mount1 := p_storage.mount_point print("allow_mount_point 3: mount1 =", mount1) mount2 := replace(mount1, "$(cpath)", policy_data.common.cpath) print("allow_mount_point 3: mount2 =", mount2) mount3 := replace(mount2, "$(sandbox-id)", sandbox_id) print("allow_mount_point 3: mount3 =", mount3) regex.match(mount3, i_storage.mount_point) print("allow_mount_point 3: true") } allow_mount_point(p_storage, i_storage, bundle_id, sandbox_id, layer_ids) { p_storage.fstype == "bind" mount1 := p_storage.mount_point print("allow_mount_point 4: mount1 =", mount1) mount2 := replace(mount1, "$(cpath)", policy_data.common.cpath) print("allow_mount_point 4: mount2 =", mount2) mount3 := replace(mount2, "$(bundle-id)", bundle_id) print("allow_mount_point 4: mount3 =", mount3) regex.match(mount3, i_storage.mount_point) print("allow_mount_point 4: true") } allow_mount_point(p_storage, i_storage, bundle_id, sandbox_id, layer_ids) { p_storage.fstype == "tmpfs" mount1 := p_storage.mount_point print("allow_mount_point 5: mount1 =", mount1) regex.match(mount1, i_storage.mount_point) print("allow_mount_point 5: true") } allow_mount_point(p_storage, i_storage, bundle_id, sandbox_id, layer_ids) { print("allow_mount_point 6: i_storage.mount_point =", i_storage.mount_point) allow_direct_vol_driver(p_storage, i_storage) mount1 := p_storage.mount_point print("allow_mount_point 6: mount1 =", mount1) mount2 := replace(mount1, "$(spath)", policy_data.common.spath) print("allow_mount_point 6: mount2 =", mount2) direct_vol_path := i_storage.source mount3 := replace(mount2, "$(b64-direct-vol-path)", base64url.encode(direct_vol_path)) print("allow_mount_point 6: mount3 =", mount3) mount3 == i_storage.mount_point print("allow_mount_point 6: true") } allow_direct_vol_driver(p_storage, i_storage) { print("allow_direct_vol_driver 1: start") p_storage.driver == "blk" print("allow_direct_vol_driver 1: true") } allow_direct_vol_driver(p_storage, i_storage) { print("allow_direct_vol_driver 2: start") p_storage.driver == "smb" print("allow_direct_vol_driver 2: true") } # process.Capabilities allow_caps(p_caps, i_caps) { print("allow_caps: policy Ambient =", p_caps.Ambient) print("allow_caps: input Ambient =", i_caps.Ambient) match_caps(p_caps.Ambient, i_caps.Ambient) print("allow_caps: policy Bounding =", p_caps.Bounding) print("allow_caps: input Bounding =", i_caps.Bounding) match_caps(p_caps.Bounding, i_caps.Bounding) print("allow_caps: policy Effective =", p_caps.Effective) print("allow_caps: input Effective =", i_caps.Effective) match_caps(p_caps.Effective, i_caps.Effective) print("allow_caps: policy Inheritable =", p_caps.Inheritable) print("allow_caps: input Inheritable =", i_caps.Inheritable) match_caps(p_caps.Inheritable, i_caps.Inheritable) print("allow_caps: policy Permitted =", p_caps.Permitted) print("allow_caps: input Permitted =", i_caps.Permitted) match_caps(p_caps.Permitted, i_caps.Permitted) } match_caps(p_caps, i_caps) { print("match_caps 1: start") p_caps == i_caps print("match_caps 1: true") } match_caps(p_caps, i_caps) { print("match_caps 2: start") count(p_caps) == 1 p_caps[0] == "$(default_caps)" print("match_caps 2: default_caps =", policy_data.common.default_caps) policy_data.common.default_caps == i_caps print("match_caps 2: true") } match_caps(p_caps, i_caps) { print("match_caps 3: start") count(p_caps) == 1 p_caps[0] == "$(privileged_caps)" print("match_caps 3: privileged_caps =", policy_data.common.privileged_caps) policy_data.common.privileged_caps == i_caps print("match_caps 3: true") } ###################################################################### check_directory_traversal(i_path) { contains(i_path, "../") == false endswith(i_path, "/..") == false i_path != ".." } check_symlink_source { # TODO: delete this rule once the symlink_src field gets implemented # by all/most Guest VMs. not input.symlink_src } check_symlink_source { i_src := input.symlink_src print("check_symlink_source: i_src =", i_src) startswith(i_src, "/") == false check_directory_traversal(i_src) } allow_sandbox_storages(i_storages) { print("allow_sandbox_storages: i_storages =", i_storages) p_storages := policy_data.sandbox.storages every i_storage in i_storages { allow_sandbox_storage(p_storages, i_storage) } print("allow_sandbox_storages: true") } allow_sandbox_storage(p_storages, i_storage) { print("allow_sandbox_storage: i_storage =", i_storage) some p_storage in p_storages print("allow_sandbox_storage: p_storage =", p_storage) i_storage == p_storage print("allow_sandbox_storage: true") } CopyFileRequest { print("CopyFileRequest: input.path =", input.path) check_symlink_source check_directory_traversal(input.path) some regex1 in policy_data.request_defaults.CopyFileRequest regex2 := replace(regex1, "$(sfprefix)", policy_data.common.sfprefix) regex3 := replace(regex2, "$(cpath)", policy_data.common.cpath) regex4 := replace(regex3, "$(bundle-id)", "[a-z0-9]{64}") print("CopyFileRequest: regex4 =", regex4) regex.match(regex4, input.path) print("CopyFileRequest: true") } CreateSandboxRequest { print("CreateSandboxRequest: input.guest_hook_path =", input.guest_hook_path) count(input.guest_hook_path) == 0 print("CreateSandboxRequest: input.kernel_modules =", input.kernel_modules) count(input.kernel_modules) == 0 i_pidns := input.sandbox_pidns print("CreateSandboxRequest: i_pidns =", i_pidns) i_pidns == false allow_sandbox_storages(input.storages) } ExecProcessRequest { print("ExecProcessRequest 1: input =", input) i_command = concat(" ", input.process.Args) print("ExecProcessRequest 1: i_command =", i_command) some p_command in policy_data.request_defaults.ExecProcessRequest.commands print("ExecProcessRequest 1: p_command =", p_command) p_command == i_command print("ExecProcessRequest 1: true") } ExecProcessRequest { print("ExecProcessRequest 2: input =", input) # TODO: match input container ID with its corresponding container.exec_commands. i_command = concat(" ", input.process.Args) print("ExecProcessRequest 3: i_command =", i_command) some container in policy_data.containers some p_command in container.exec_commands print("ExecProcessRequest 2: p_command =", p_command) # TODO: should other input data fields be validated as well? p_command == i_command print("ExecProcessRequest 2: true") } ExecProcessRequest { print("ExecProcessRequest 3: input =", input) i_command = concat(" ", input.process.Args) print("ExecProcessRequest 3: i_command =", i_command) some p_regex in policy_data.request_defaults.ExecProcessRequest.regex print("ExecProcessRequest 3: p_regex =", p_regex) regex.match(p_regex, i_command) print("ExecProcessRequest 3: true") } CloseStdinRequest { policy_data.request_defaults.CloseStdinRequest == true } ReadStreamRequest { policy_data.request_defaults.ReadStreamRequest == true } UpdateEphemeralMountsRequest { policy_data.request_defaults.UpdateEphemeralMountsRequest == true } WriteStreamRequest { policy_data.request_defaults.WriteStreamRequest == true } policy_data := { "containers": [ { "OCI": { "Version": "1.1.0-rc.1", "Process": { "Terminal": false, "User": { "UID": 2000, "GID": 65535, "AdditionalGids": [], "Username": "" }, "Args": [ "/pause" ], "Env": [ "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin" ], "Cwd": "/", "Capabilities": { "Ambient": [], "Bounding": [ "$(default_caps)" ], "Effective": [ "$(default_caps)" ], "Inheritable": [], "Permitted": [ "$(default_caps)" ] }, "NoNewPrivileges": true }, "Root": { "Path": "$(cpath)/$(bundle-id)", "Readonly": true }, "Mounts": [ { "destination": "/proc", "source": "proc", "type_": "proc", "options": [ "nosuid", "noexec", "nodev" ] }, { "destination": "/dev", "source": "tmpfs", "type_": "tmpfs", "options": [ "nosuid", "strictatime", "mode=755", "size=65536k" ] }, { "destination": "/dev/pts", "source": "devpts", "type_": "devpts", "options": [ "nosuid", "noexec", "newinstance", "ptmxmode=0666", "mode=0620", "gid=5" ] }, { "destination": "/dev/shm", "source": "/run/kata-containers/sandbox/shm", "type_": "bind", "options": [ "rbind" ] }, { "destination": "/dev/mqueue", "source": "mqueue", "type_": "mqueue", "options": [ "nosuid", "noexec", "nodev" ] }, { "destination": "/sys", "source": "sysfs", "type_": "sysfs", "options": [ "nosuid", "noexec", "nodev", "ro" ] }, { "destination": "/etc/resolv.conf", "source": "$(sfprefix)resolv.conf$", "type_": "bind", "options": [ "rbind", "ro", "nosuid", "nodev", "noexec" ] } ], "Annotations": { "io.katacontainers.pkg.oci.bundle_path": "/run/containerd/io.containerd.runtime.v2.task/k8s.io/$(bundle-id)", "io.katacontainers.pkg.oci.container_type": "pod_sandbox", "io.kubernetes.cri.container-type": "sandbox", "io.kubernetes.cri.sandbox-id": "^[a-z0-9]{64}$", "io.kubernetes.cri.sandbox-log-directory": "^/var/log/pods/$(sandbox-namespace)_$(sandbox-name)_[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}$", "io.kubernetes.cri.sandbox-name": "cm1", "io.kubernetes.cri.sandbox-namespace": "default", "nerdctl/network-namespace": "^/var/run/netns/cni-[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}$" }, "Linux": { "Namespaces": [ { "Type": "ipc", "Path": "" }, { "Type": "uts", "Path": "" }, { "Type": "mount", "Path": "" } ], "MaskedPaths": [ "/proc/acpi", "/proc/asound", "/proc/kcore", "/proc/keys", "/proc/latency_stats", "/proc/timer_list", "/proc/timer_stats", "/proc/sched_debug", "/sys/firmware", "/proc/scsi" ], "ReadonlyPaths": [ "/proc/bus", "/proc/fs", "/proc/irq", "/proc/sys", "/proc/sysrq-trigger" ] } }, "storages": [ { "driver": "blk", "driver_options": [], "source": "", "fstype": "tar", "options": [ "$(hash0)" ], "mount_point": "$(layer0)", "fs_group": null }, { "driver": "overlayfs", "driver_options": [], "source": "", "fstype": "fuse3.kata-overlay", "options": [ "5a5aad80055ff20012a50dc25f8df7a29924474324d65f7d5306ee8ee27ff71d", "817250f1a3e336da76f5bd3fa784e1b26d959b9c131876815ba2604048b70c18" ], "mount_point": "$(cpath)/$(bundle-id)", "fs_group": null } ], "sandbox_pidns": false, "exec_commands": [] }, { "OCI": { "Version": "1.1.0-rc.1", "Process": { "Terminal": false, "User": { "UID": 2000, "GID": 0, "AdditionalGids": [], "Username": "" }, "Args": [ "/bin/sh", "-c", "while true; do echo hello; sleep 10; done" ], "Env": [ "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin", "HOSTNAME=$(host-name)", "CONFIG_MAP_VALUE1=value1" ], "Cwd": "/", "Capabilities": { "Ambient": [], "Bounding": [ "$(privileged_caps)" ], "Effective": [ "$(privileged_caps)" ], "Inheritable": [], "Permitted": [ "$(privileged_caps)" ] }, "NoNewPrivileges": false }, "Root": { "Path": "$(cpath)/$(bundle-id)", "Readonly": false }, "Mounts": [ { "destination": "/proc", "source": "proc", "type_": "proc", "options": [ "nosuid", "noexec", "nodev" ] }, { "destination": "/dev", "source": "tmpfs", "type_": "tmpfs", "options": [ "nosuid", "strictatime", "mode=755", "size=65536k" ] }, { "destination": "/dev/pts", "source": "devpts", "type_": "devpts", "options": [ "nosuid", "noexec", "newinstance", "ptmxmode=0666", "mode=0620", "gid=5" ] }, { "destination": "/dev/shm", "source": "/run/kata-containers/sandbox/shm", "type_": "bind", "options": [ "rbind" ] }, { "destination": "/dev/mqueue", "source": "mqueue", "type_": "mqueue", "options": [ "nosuid", "noexec", "nodev" ] }, { "destination": "/sys", "source": "sysfs", "type_": "sysfs", "options": [ "nosuid", "noexec", "nodev", "rw" ] }, { "destination": "/sys/fs/cgroup", "source": "cgroup", "type_": "cgroup", "options": [ "nosuid", "noexec", "nodev", "relatime", "rw" ] }, { "destination": "/etc/hosts", "source": "$(sfprefix)hosts$", "type_": "bind", "options": [ "rbind", "rprivate", "rw" ] }, { "destination": "/dev/termination-log", "source": "$(sfprefix)termination-log$", "type_": "bind", "options": [ "rbind", "rprivate", "rw" ] }, { "destination": "/etc/hostname", "source": "$(sfprefix)hostname$", "type_": "bind", "options": [ "rbind", "rprivate", "rw" ] }, { "destination": "/etc/resolv.conf", "source": "$(sfprefix)resolv.conf$", "type_": "bind", "options": [ "rbind", "rprivate", "rw" ] }, { "destination": "/var/run/secrets/kubernetes.io/serviceaccount", "source": "$(sfprefix)serviceaccount$", "type_": "bind", "options": [ "rbind", "rprivate", "ro" ] }, { "destination": "/var/run/secrets/azure/tokens", "source": "$(sfprefix)tokens$", "type_": "bind", "options": [ "rbind", "rprivate", "ro" ] } ], "Annotations": { "io.katacontainers.pkg.oci.bundle_path": "/run/containerd/io.containerd.runtime.v2.task/k8s.io/$(bundle-id)", "io.katacontainers.pkg.oci.container_type": "pod_container", "io.kubernetes.cri.container-name": "busybox", "io.kubernetes.cri.container-type": "container", "io.kubernetes.cri.image-name": "mcr.microsoft.com/aks/e2e/library-busybox:master.220314.1-linux-amd64", "io.kubernetes.cri.sandbox-id": "^[a-z0-9]{64}$", "io.kubernetes.cri.sandbox-name": "cm1", "io.kubernetes.cri.sandbox-namespace": "default" }, "Linux": { "Namespaces": [ { "Type": "ipc", "Path": "" }, { "Type": "uts", "Path": "" }, { "Type": "mount", "Path": "" } ], "MaskedPaths": [], "ReadonlyPaths": [] } }, "storages": [ { "driver": "blk", "driver_options": [], "source": "", "fstype": "tar", "options": [ "$(hash0)" ], "mount_point": "$(layer0)", "fs_group": null }, { "driver": "blk", "driver_options": [], "source": "", "fstype": "tar", "options": [ "$(hash1)" ], "mount_point": "$(layer1)", "fs_group": null }, { "driver": "overlayfs", "driver_options": [], "source": "", "fstype": "fuse3.kata-overlay", "options": [ "2c342a137e693c7898aec36da1047f191dc7c1687e66198adacc439cf4adf379:2570e3a19e1bf20ddda45498a9627f61555d2d6c01479b9b76460b679b27d552", "8568c70c0ccfe0051092e818da769111a59882cd19dd799d3bca5ffa82791080:b643b6217748983830b26ac14a35a3322dd528c00963eaadd91ef55f513dc73f" ], "mount_point": "$(cpath)/$(bundle-id)", "fs_group": null } ], "sandbox_pidns": false, "exec_commands": [] } ], "common": { "cpath": "/run/kata-containers/shared/containers", "sfprefix": "^$(cpath)/$(bundle-id)-[a-z0-9]{16}-", "spath": "/run/kata-containers/sandbox/storage", "ipv4_a": "((25[0-5]|(2[0-4]|1\\d|[1-9]|)\\d)\\.?\\b){4}", "ip_p": "[0-9]{1,5}", "svc_name": "[A-Z0-9_\\.\\-]+", "dns_label": "[a-zA-Z0-9_\\.\\-]+", "default_caps": [ "CAP_CHOWN", "CAP_DAC_OVERRIDE", "CAP_FSETID", "CAP_FOWNER", "CAP_MKNOD", "CAP_NET_RAW", "CAP_SETGID", "CAP_SETUID", "CAP_SETFCAP", "CAP_SETPCAP", "CAP_NET_BIND_SERVICE", "CAP_SYS_CHROOT", "CAP_KILL", "CAP_AUDIT_WRITE" ], "privileged_caps": [ "CAP_CHOWN", "CAP_DAC_OVERRIDE", "CAP_DAC_READ_SEARCH", "CAP_FOWNER", "CAP_FSETID", "CAP_KILL", "CAP_SETGID", "CAP_SETUID", "CAP_SETPCAP", "CAP_LINUX_IMMUTABLE", "CAP_NET_BIND_SERVICE", "CAP_NET_BROADCAST", "CAP_NET_ADMIN", "CAP_NET_RAW", "CAP_IPC_LOCK", "CAP_IPC_OWNER", "CAP_SYS_MODULE", "CAP_SYS_RAWIO", "CAP_SYS_CHROOT", "CAP_SYS_PTRACE", "CAP_SYS_PACCT", "CAP_SYS_ADMIN", "CAP_SYS_BOOT", "CAP_SYS_NICE", "CAP_SYS_RESOURCE", "CAP_SYS_TIME", "CAP_SYS_TTY_CONFIG", "CAP_MKNOD", "CAP_LEASE", "CAP_AUDIT_WRITE", "CAP_AUDIT_CONTROL", "CAP_SETFCAP", "CAP_MAC_OVERRIDE", "CAP_MAC_ADMIN", "CAP_SYSLOG", "CAP_WAKE_ALARM", "CAP_BLOCK_SUSPEND", "CAP_AUDIT_READ", "CAP_PERFMON", "CAP_BPF", "CAP_CHECKPOINT_RESTORE" ], "virtio_blk_storage_classes": [ "cc-local-csi", "cc-managed-csi", "cc-managed-premium-csi" ], "smb_storage_classes": [ 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