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syntax = "proto3";
option go_package = "github.com/opencord/voltha-go/protos/voltha";
package voltha;
import "google/protobuf/any.proto";
import "voltha_protos/common.proto";
import "voltha_protos/meta.proto";
import "voltha_protos/openflow_13.proto";
import "voltha_protos/yang_options.proto";
// A Device Type
message DeviceType {
// Unique name for the device type
string id = 1;
// Unique venor id for the device type applicable to ONU
// 4 bytes of vendor id from ONU serial number
string vendor_id = 5;
repeated string vendor_ids = 6;
// Name of the adapter that handles device type
string adapter = 2;
// Capabilitities
bool accepts_bulk_flow_update = 3;
bool accepts_add_remove_flow_updates = 4;
bool accepts_direct_logical_flows_update = 7;
}
// A plurality of device types
message DeviceTypes {
repeated DeviceType items = 1;
}
message PmConfig {
enum PmType {
COUNTER = 0;
GAUGE = 1;
STATE = 2;
CONTEXT = 3;
}
string name = 1;
PmType type = 2;
bool enabled = 3; // Whether or not this metric makes it to Kafka
uint32 sample_freq = 4; // Sample rate in 10ths of a second
}
message PmGroupConfig {
string group_name = 1;
uint32 group_freq = 2; // Frequency applicable to the grop
bool enabled = 3; // Enable/disable group level only
repeated PmConfig metrics = 4;
}
message PmConfigs {
string id = 1; // To work around a chameleon POST bug
uint32 default_freq = 2; // Default sample rate
// Forces group names and group semantics
bool grouped = 3 [(access) = READ_ONLY];
// Allows Pm to set an individual sample frequency
bool freq_override = 4 [(access) = READ_ONLY];
repeated PmGroupConfig groups = 5; // The groups if grouped is true
repeated PmConfig metrics = 6; // The metrics themselves if grouped is false.
}
// Describes instance of software image on the device
message Image {
string name = 1; // software patch name
string version = 2; // version of software
string hash = 3; // md5 hash
string install_datetime = 4; // combined date and time expressed in UTC.
// use ISO 8601 format for date and time
// The active software image is one that is currently loaded and executing
// in the ONU or circuit pack. Under normal operation, one software image
// is always active while the other is inactive. Under no circumstances are
// both software images allowed to be active at the same time
bool is_active = 5; // True if the image is active
// The committed software image is loaded and executed upon reboot of the
// ONU and/or circuit pack. During normal operation, one software image is
// always committed, while the other is uncommitted.
bool is_committed = 6; // True if the image is committed
// A software image is valid if it has been verified to be an executable
// code image. The verification mechanism is not subject to standardization;
// however, it should include at least a data integrity (e.g., CRC) check of
// the entire code image.
bool is_valid = 7; // True if the image is valid
}
// List of software on the device
message Images {
repeated Image image = 1;
}
message ImageDownload {
option (yang_child_rule) = MOVE_TO_PARENT_LEVEL;
enum ImageDownloadState {
DOWNLOAD_UNKNOWN = 0;
DOWNLOAD_SUCCEEDED = 1;
DOWNLOAD_REQUESTED = 2;
DOWNLOAD_STARTED = 3;
DOWNLOAD_FAILED = 4;
DOWNLOAD_UNSUPPORTED = 5;
DOWNLOAD_CANCELLED = 6;
}
enum ImageDownloadFailureReason {
NO_ERROR = 0;
INVALID_URL = 1;
DEVICE_BUSY = 2;
INSUFFICIENT_SPACE = 3;
UNKNOWN_ERROR = 4;
CANCELLED = 5;
}
enum ImageActivateState {
IMAGE_UNKNOWN = 0;
IMAGE_INACTIVE = 1;
IMAGE_ACTIVATE = 2;
IMAGE_ACTIVE = 3;
IMAGE_REVERT = 4;
}
// Device Identifier
string id = 1;
// Image unique identifier
string name = 2;
// URL where the image is available
// should include username password
string url = 3;
// CRC of the image to be verified aginst
uint32 crc = 4;
// Download state
ImageDownloadState download_state = 5;
// Downloaded version
string image_version = 6;
// Bytes downloaded
uint32 downloaded_bytes = 7;
// Download failure reason
ImageDownloadFailureReason reason= 8;
// Additional info
string additional_info = 9;
// Save current configuration
bool save_config = 10;
// Image local location
string local_dir = 11;
// Image activation state
ImageActivateState image_state = 12;
// Image file size
uint32 file_size = 13;
}
message ImageDownloads {
repeated ImageDownload items = 2;
}
message Port {
option (voltha.yang_child_rule) = MOVE_TO_PARENT_LEVEL;
enum PortType {
UNKNOWN = 0;
ETHERNET_NNI = 1;
ETHERNET_UNI = 2;
PON_OLT = 3;
PON_ONU = 4;
VENET_OLT = 5;
VENET_ONU = 6;
}
uint32 port_no = 1; // Device-unique port number
string label = 2; // Arbitrary port label
PortType type = 3; // Type of port
AdminState.AdminState admin_state = 5;
OperStatus.OperStatus oper_status = 6;
string device_id = 7; // Unique .id of device that owns this port
message PeerPort {
string device_id = 1;
uint32 port_no = 2;
}
repeated PeerPort peers = 8;
fixed64 rx_packets = 9;
fixed64 rx_bytes = 10;
fixed64 rx_errors = 11;
fixed64 tx_packets = 12;
fixed64 tx_bytes = 13;
fixed64 tx_errors = 14;
}
message Ports {
repeated Port items = 1;
}
// A Physical Device instance
message Device {
option (voltha.yang_child_rule) = MOVE_TO_PARENT_LEVEL;
// Voltha's device identifier
string id = 1 [(access) = READ_ONLY];
// Device type, refers to one of the registered device types
string type = 2 [(access) = READ_ONLY];
// Is this device a root device. Each logical switch has one root
// device that is associated with the logical flow switch.
bool root = 3 [(access) = READ_ONLY];
// Parent device id, in the device tree (for a root device, the parent_id
// is the logical_device.id)
string parent_id = 4 [(access) = READ_ONLY];
uint32 parent_port_no = 20 [(access) = READ_ONLY];
// Vendor, version, serial number, etc.
string vendor = 5 [(access) = READ_ONLY];
string model = 6 [(access) = READ_ONLY];
string hardware_version = 7 [(access) = READ_ONLY];
string firmware_version = 8 [(access) = READ_ONLY];
// List of software on the device
Images images = 9 [(access) = READ_ONLY];
string serial_number = 10 [(access) = READ_ONLY];
string vendor_id = 24 [(access) = READ_ONLY];
// Addapter that takes care of device
string adapter = 11 [(access) = READ_ONLY];
// Device contact on vlan (if 0, no vlan)
uint32 vlan = 12;
message ProxyAddress {
string device_id = 1; // Which device to use as proxy to this device
string device_type = 2; // The device type of the proxy device to use as the adapter name
uint32 channel_id = 3; // Sub-address within proxy
uint32 channel_group_id = 4; // Channel Group index
string channel_termination = 5; // Channel Termination name
uint32 onu_id = 6; // onu identifier; optional
uint32 onu_session_id = 7; // session identifier for the ONU; optional
};
oneof address {
// Device contact MAC address (format: "xx:xx:xx:xx:xx:xx")
string mac_address = 13;
// Device contact IPv4 address (format: "a.b.c.d" or can use hostname too)
string ipv4_address = 14;
// Device contact IPv6 address using the canonical string form
// ("xxxx:xxxx:xxxx:xxxx:xxxx:xxxx:xxxx:xxxx")
string ipv6_address = 15;
string host_and_port = 21;
};
string extra_args = 23; // Used to pass additional device specific arguments
ProxyAddress proxy_address = 19;
AdminState.AdminState admin_state = 16;
OperStatus.OperStatus oper_status = 17 [(access) = READ_ONLY];
string reason = 22 [(access) = READ_ONLY]; // Used in FAILED state
ConnectStatus.ConnectStatus connect_status = 18 [(access) = READ_ONLY];
// TODO additional common attribute here
// Device type specific attributes
google.protobuf.Any custom = 64;
repeated Port ports = 128 [(child_node) = {key: "port_no"}];
openflow_13.Flows flows = 129 [(child_node) = {}];
openflow_13.FlowGroups flow_groups = 130 [(child_node) = {}];
// PmConfigs will eventually converted to a child node of the
// device to falicitata callbacks and to simplify manipulation.
PmConfigs pm_configs = 131 [(child_node) = {}];
repeated ImageDownload image_downloads = 133 [(child_node) = {key: "name"}];
}
message Devices {
repeated Device items = 1;
}
message SimulateAlarmRequest {
enum OperationType {
RAISE = 0;
CLEAR = 1;
}
// Device Identifier
string id = 1;
string indicator = 2;
string intf_id = 3;
string port_type_name = 4;
string onu_device_id = 5;
int32 inverse_bit_error_rate = 6;
int32 drift = 7;
int32 new_eqd = 8;
string onu_serial_number = 9;
OperationType operation = 10;
}