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agent.proto
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//
// Copyright 2017 HyperHQ Inc.
// Copyright (c) 2019-2020 Ant Group
//
// SPDX-License-Identifier: Apache-2.0
//
syntax = "proto3";
option go_package = "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/agent/protocols/grpc";
package grpc;
import "oci.proto";
import "csi.proto";
import "types.proto";
import "google/protobuf/empty.proto";
// unstable
service AgentService {
// execution
rpc CreateContainer(CreateContainerRequest) returns (google.protobuf.Empty);
rpc StartContainer(StartContainerRequest) returns (google.protobuf.Empty);
// RemoveContainer will tear down an existing container by forcibly terminating
// all processes running inside that container and releasing all internal
// resources associated with it.
// RemoveContainer will wait for all processes termination before returning.
// If any process can not be killed or if it can not be killed after
// the RemoveContainerRequest timeout, RemoveContainer will return an error.
rpc RemoveContainer(RemoveContainerRequest) returns (google.protobuf.Empty);
rpc ExecProcess(ExecProcessRequest) returns (google.protobuf.Empty);
rpc SignalProcess(SignalProcessRequest) returns (google.protobuf.Empty);
rpc WaitProcess(WaitProcessRequest) returns (WaitProcessResponse); // wait & reap like waitpid(2)
rpc UpdateContainer(UpdateContainerRequest) returns (google.protobuf.Empty);
rpc UpdateEphemeralMounts(UpdateEphemeralMountsRequest) returns (google.protobuf.Empty);
rpc StatsContainer(StatsContainerRequest) returns (StatsContainerResponse);
rpc PauseContainer(PauseContainerRequest) returns (google.protobuf.Empty);
rpc ResumeContainer(ResumeContainerRequest) returns (google.protobuf.Empty);
rpc RemoveStaleVirtiofsShareMounts(RemoveStaleVirtiofsShareMountsRequest) returns (google.protobuf.Empty);
// stdio
rpc WriteStdin(WriteStreamRequest) returns (WriteStreamResponse);
rpc ReadStdout(ReadStreamRequest) returns (ReadStreamResponse);
rpc ReadStderr(ReadStreamRequest) returns (ReadStreamResponse);
rpc CloseStdin(CloseStdinRequest) returns (google.protobuf.Empty);
rpc TtyWinResize(TtyWinResizeRequest) returns (google.protobuf.Empty);
// networking
rpc UpdateInterface(UpdateInterfaceRequest) returns (types.Interface);
rpc UpdateRoutes(UpdateRoutesRequest) returns (Routes);
rpc ListInterfaces(ListInterfacesRequest) returns(Interfaces);
rpc ListRoutes(ListRoutesRequest) returns (Routes);
rpc AddARPNeighbors(AddARPNeighborsRequest) returns (google.protobuf.Empty);
rpc GetIPTables(GetIPTablesRequest) returns (GetIPTablesResponse);
rpc SetIPTables(SetIPTablesRequest) returns (SetIPTablesResponse);
// observability
rpc GetMetrics(GetMetricsRequest) returns (Metrics);
// misc (TODO: some rpcs can be replaced by hyperstart-exec)
rpc CreateSandbox(CreateSandboxRequest) returns (google.protobuf.Empty);
rpc DestroySandbox(DestroySandboxRequest) returns (google.protobuf.Empty);
rpc OnlineCPUMem(OnlineCPUMemRequest) returns (google.protobuf.Empty);
rpc ReseedRandomDev(ReseedRandomDevRequest) returns (google.protobuf.Empty);
rpc GetGuestDetails(GuestDetailsRequest) returns (GuestDetailsResponse);
rpc MemHotplugByProbe(MemHotplugByProbeRequest) returns (google.protobuf.Empty);
rpc SetGuestDateTime(SetGuestDateTimeRequest) returns (google.protobuf.Empty);
rpc CopyFile(CopyFileRequest) returns (google.protobuf.Empty);
rpc GetOOMEvent(GetOOMEventRequest) returns (OOMEvent);
rpc AddSwap(AddSwapRequest) returns (google.protobuf.Empty);
rpc GetVolumeStats(VolumeStatsRequest) returns (VolumeStatsResponse);
rpc ResizeVolume(ResizeVolumeRequest) returns (google.protobuf.Empty);
rpc SetPolicy(SetPolicyRequest) returns (google.protobuf.Empty);
}
message CreateContainerRequest {
string container_id = 1;
string exec_id = 2;
StringUser string_user = 3;
repeated Device devices = 4;
repeated Storage storages = 5;
Spec OCI = 6;
// This field is used to indicate if the container needs to join
// sandbox shared pid ns or create a new namespace. This field is
// meant to override the NEWPID config settings in the OCI spec.
// The agent would receive an OCI spec with PID namespace cleared
// out altogether and not just the pid ns path.
bool sandbox_pidns = 7;
// This field is used to declare a set of shared mount points
// that support cross-container sharing of mount objects.
repeated SharedMount shared_mounts = 8;
}
message StartContainerRequest {
string container_id = 1;
}
message RemoveContainerRequest {
string container_id = 1;
// RemoveContainer will return an error if
// it could not kill some container processes
// after timeout seconds.
// Setting timeout to 0 means RemoveContainer will
// wait for ever.
uint32 timeout = 2;
}
message ExecProcessRequest {
string container_id = 1;
string exec_id = 2;
StringUser string_user = 3;
Process process = 4;
}
message SignalProcessRequest {
string container_id = 1;
// Special case for SignalProcess(): exec_id can be empty(""),
// which means to send the signal to all the processes including their descendants.
// Other APIs with exec_id should treat empty exec_id as an invalid request.
string exec_id = 2;
uint32 signal = 3;
}
message WaitProcessRequest {
string container_id = 1;
string exec_id = 2;
}
message WaitProcessResponse {
int32 status = 1;
}
message UpdateContainerRequest {
string container_id = 1;
LinuxResources resources = 2;
}
message StatsContainerRequest {
string container_id = 1;
}
message PauseContainerRequest {
string container_id = 1;
}
message ResumeContainerRequest {
string container_id = 1;
}
message CpuUsage {
uint64 total_usage = 1;
repeated uint64 percpu_usage = 2;
uint64 usage_in_kernelmode = 3;
uint64 usage_in_usermode = 4;
}
message ThrottlingData {
uint64 periods = 1;
uint64 throttled_periods = 2;
uint64 throttled_time = 3;
}
message CpuStats {
CpuUsage cpu_usage = 1;
ThrottlingData throttling_data = 2;
}
message PidsStats {
uint64 current = 1;
uint64 limit = 2;
}
message MemoryData {
uint64 usage = 1;
uint64 max_usage = 2;
uint64 failcnt = 3;
uint64 limit = 4;
}
message MemoryStats {
uint64 cache = 1;
MemoryData usage = 2;
MemoryData swap_usage = 3;
MemoryData kernel_usage = 4;
bool use_hierarchy = 5;
map<string, uint64> stats = 6;
}
message BlkioStatsEntry {
uint64 major = 1;
uint64 minor = 2;
string op = 3;
uint64 value = 4;
}
message BlkioStats {
repeated BlkioStatsEntry io_service_bytes_recursive = 1; // number of bytes transferred to and from the block device
repeated BlkioStatsEntry io_serviced_recursive = 2;
repeated BlkioStatsEntry io_queued_recursive = 3;
repeated BlkioStatsEntry io_service_time_recursive = 4;
repeated BlkioStatsEntry io_wait_time_recursive = 5;
repeated BlkioStatsEntry io_merged_recursive = 6;
repeated BlkioStatsEntry io_time_recursive = 7;
repeated BlkioStatsEntry sectors_recursive = 8;
}
message HugetlbStats {
uint64 usage = 1;
uint64 max_usage = 2;
uint64 failcnt = 3;
}
message CgroupStats {
CpuStats cpu_stats = 1;
MemoryStats memory_stats = 2;
PidsStats pids_stats = 3;
BlkioStats blkio_stats = 4;
map<string, HugetlbStats> hugetlb_stats = 5; // the map is in the format "size of hugepage: stats of the hugepage"
}
message NetworkStats {
string name = 1;
uint64 rx_bytes = 2;
uint64 rx_packets = 3;
uint64 rx_errors = 4;
uint64 rx_dropped = 5;
uint64 tx_bytes = 6;
uint64 tx_packets = 7;
uint64 tx_errors = 8;
uint64 tx_dropped = 9;
}
message StatsContainerResponse {
CgroupStats cgroup_stats = 1;
repeated NetworkStats network_stats = 2;
}
message WriteStreamRequest {
string container_id = 1;
string exec_id = 2;
bytes data = 3;
}
message WriteStreamResponse {
uint32 len = 1;
}
message ReadStreamRequest {
string container_id = 1;
string exec_id = 2;
uint32 len = 3;
}
message ReadStreamResponse {
bytes data = 1;
}
message CloseStdinRequest {
string container_id = 1;
string exec_id = 2;
}
message TtyWinResizeRequest {
string container_id = 1;
string exec_id = 2;
uint32 row = 3;
uint32 column = 4;
}
message KernelModule {
// This field is the name of the kernel module.
string name = 1;
// This field are the parameters for the kernel module which are
// whitespace-delimited key=value pairs passed to modprobe(8).
repeated string parameters = 2;
}
message CreateSandboxRequest {
string hostname = 1;
repeated string dns = 2;
repeated Storage storages = 3;
// This field means that a pause process needs to be created by the
// agent. This pid namespace of the pause process will be treated as
// a shared pid namespace. All containers created will join this shared
// pid namespace.
bool sandbox_pidns = 4;
// SandboxId identifies which sandbox is using the agent. We allow only
// one sandbox per agent and implicitly require that CreateSandbox is
// called before other sandbox/network calls.
string sandbox_id = 5;
// This field, if non-empty, designates an absolute path to a directory
// that the agent will search for OCI hooks to run within the guest.
string guest_hook_path = 6;
// This field is the list of kernel modules to be loaded in the guest kernel.
repeated KernelModule kernel_modules = 7;
}
message DestroySandboxRequest {
}
message RemoveStaleVirtiofsShareMountsRequest {}
message Interfaces {
repeated types.Interface Interfaces = 1;
}
message Routes {
repeated types.Route Routes = 1;
}
message UpdateInterfaceRequest {
types.Interface interface = 1;
}
message UpdateRoutesRequest {
Routes routes = 1;
}
message UpdateEphemeralMountsRequest {
repeated Storage storages = 1;
}
message ListInterfacesRequest {
}
message ListRoutesRequest {
}
message ARPNeighbors {
repeated types.ARPNeighbor ARPNeighbors = 1;
}
message AddARPNeighborsRequest {
ARPNeighbors neighbors = 1;
}
message GetIPTablesRequest {
bool is_ipv6 = 1;
}
message GetIPTablesResponse{
// raw stdout from iptables-save or ip6tables-save
bytes data = 1;
}
message SetIPTablesRequest {
bool is_ipv6 = 1;
// iptables, in raw format expected to be passed to stdin
// of iptables-save or ip6tables-save
bytes data = 2;
}
message SetIPTablesResponse{
// raw stdout from iptables-restore or ip6tables-restore
bytes data = 1;
}
message OnlineCPUMemRequest {
// Wait specifies if the caller waits for the agent to online all resources.
// If true the agent returns once all resources have been connected, otherwise all
// resources are connected asynchronously and the agent returns immediately.
bool wait = 1;
// NbCpus specifies the number of CPUs that should be onlined in the guest.
// Special value 0 means agent will skip this check.
uint32 nb_cpus = 2;
// CpuOnly specifies whether only online CPU or not.
bool cpu_only = 3;
}
message ReseedRandomDevRequest {
// Data specifies the random data used to reseed the guest crng.
bytes data = 2;
}
// AgentDetails provides information to the client about the running agent.
message AgentDetails {
// Semantic version of agent (see https://semver.org).
string version = 1;
// Set if the agent is running as PID 1.
bool init_daemon = 2;
// List of available device handlers.
repeated string device_handlers = 3;
// List of available storage handlers.
repeated string storage_handlers = 4;
// Set only if the agent is built with seccomp support and the guest
// environment supports seccomp.
bool supports_seccomp = 5;
}
message GuestDetailsRequest {
// MemBlockSize asks server to return the system memory block size that can be used
// for memory hotplug alignment. Typically the server returns what's in
// /sys/devices/system/memory/block_size_bytes.
bool mem_block_size = 1;
// MemoryHotplugProbe asks server to return whether guest kernel supports memory hotplug
// via probeinterface. Typically the server will check if the path
// /sys/devices/system/memory/probe exists.
bool mem_hotplug_probe = 2;
}
message GuestDetailsResponse {
// MemBlockSizeBytes returns the system memory block size in bytes.
uint64 mem_block_size_bytes = 1;
AgentDetails agent_details = 2;
bool support_mem_hotplug_probe = 3;
}
message MemHotplugByProbeRequest {
// server needs to send the value of memHotplugProbeAddr into file /sys/devices/system/memory/probe,
// in order to notify the guest kernel about hot-add memory event
repeated uint64 memHotplugProbeAddr = 1;
}
message SetGuestDateTimeRequest {
// Sec the second since the Epoch.
int64 Sec = 1;
// Usec the microseconds portion of time since the Epoch.
int64 Usec = 2;
}
// FSGroup consists of the group id and group ownership change policy
// that a volume should have its ownership changed to.
message FSGroup {
// GroupID is the ID that the group ownership of the
// files in the mounted volume will need to be changed to.
uint32 group_id = 2;
// GroupChangePolicy specifies the policy for applying group id
// ownership change on a mounted volume.
types.FSGroupChangePolicy group_change_policy = 3;
}
// SharedMount declares a set of shared mount points that support
// cross-container sharing of mount objects.
message SharedMount {
// Name is used to identify a pair of shared mount points.
string name = 1;
// Src_ctr is used to specify the name of the source container.
string src_ctr = 2;
// Src_path is used to specify the path of the mount point. If the path doesn't
// exist in the rootfs, it will be created.
string src_path = 3;
// Dst_ctr is used to specify the name of the destination container.
string dst_ctr = 4;
// Dst_path is used to specify the path of the mount point. If the path doesn't
// exist in the rootfs, it will be created.
string dst_path = 5;
}
// Storage represents both the rootfs of the container, and any volume that
// could have been defined through the Mount list of the OCI specification.
message Storage {
// Driver is used to define the way the storage is passed through the
// virtual machine. It can be "9p", "blk", or something else, but for
// all cases, this will define if some extra steps are required before
// this storage gets mounted into the container.
string driver = 1;
// DriverOptions allows the caller to define a list of options such
// as block sizes, numbers of luns, ... which are very specific to
// every device and cannot be generalized through extra fields.
repeated string driver_options = 2;
// Source can be anything representing the source of the storage. This
// will be handled by the proper handler based on the Driver used.
// For instance, it can be a very simple path if the caller knows the
// name of device inside the VM, or it can be some sort of identifier
// to let the agent find the device inside the VM.
string source = 3;
// Fstype represents the filesystem that needs to be used to mount the
// storage inside the VM. For instance, it could be "xfs" for block
// device, "9p" for shared filesystem, or "tmpfs" for shared /dev/shm.
string fstype = 4;
// Options describes the additional options that might be needed to
// mount properly the storage filesystem.
repeated string options = 5;
// MountPoint refers to the path where the storage should be mounted
// inside the VM.
string mount_point = 6;
// FSGroup consists of the group ID and group ownership change policy
// that the mounted volume must have its group ID changed to when specified.
FSGroup fs_group = 7;
}
// Device represents only the devices that could have been defined through the
// Linux Device list of the OCI specification.
message Device {
// Id can be used to identify the device inside the VM. Some devices
// might not need it to be identified on the VM, and will rely on the
// provided VmPath instead.
string id = 1;
// Type defines the type of device described. This can be "blk",
// "scsi", "vfio", ...
// Particularly, this should be used to trigger the use of the
// appropriate device handler.
string type = 2;
// VmPath can be used by the caller to provide directly the path of
// the device as it will appear inside the VM. For some devices, the
// device id or the list of options passed might not be enough to find
// the device. In those cases, the caller should predict and provide
// this vm_path.
string vm_path = 3;
// ContainerPath defines the path where the device should be found inside
// the container. This path should match the path of the device from
// the device list listed inside the OCI spec. This is used in order
// to identify the right device in the spec and update it with the
// right options such as major/minor numbers as they appear inside
// the VM for instance. Note that an empty ctr_path should be used
// to make sure the device handler inside the agent is called, but
// no spec update needs to be performed. This has to happen for the
// case of rootfs, when a device has to be waited for after it has
// been hotplugged. An equivalent Storage entry should be defined if
// any mount needs to be performed afterwards.
string container_path = 4;
// Options allows the caller to define a list of options such as block
// sizes, numbers of luns, ... which are very specific to every device
// and cannot be generalized through extra fields.
repeated string options = 5;
}
message StringUser {
string uid = 1;
string gid = 2;
repeated string additionalGids = 3;
}
message CopyFileRequest {
// Path is the destination file in the guest. It must be absolute,
// canonical and below /run.
string path = 1;
// FileSize is the expected file size, for security reasons write operations
// are made in a temporary file, once it has the expected size, it's moved
// to the destination path.
int64 file_size = 2;
// FileMode is the file mode.
uint32 file_mode = 3;
// DirMode is the mode for the parent directories of destination path.
uint32 dir_mode = 4;
// Uid is the numeric user id.
int32 uid = 5;
// Gid is the numeric group id.
int32 gid = 6;
// Offset for the next write operation.
int64 offset = 7;
// Data to write in the destination file.
bytes data = 8;
}
message GetOOMEventRequest {}
message OOMEvent {
string container_id = 1;
}
message AddSwapRequest {
repeated uint32 PCIPath = 1;
}
message GetMetricsRequest {}
message Metrics {
string metrics = 1;
}
message VolumeStatsRequest {
// The volume path on the guest outside the container
string volume_guest_path = 1;
}
message ResizeVolumeRequest {
// Full VM guest path of the volume (outside the container)
string volume_guest_path = 1;
uint64 size = 2;
}
message SetPolicyRequest {
string policy = 1;
}