Struct ThreadSynchronousProxy

pub struct ThreadSynchronousProxy { /* private fields */ }

Implementations

impl ThreadSynchronousProxy

pub fn new(channel: Channel) -> Self

pub fn into_channel(self) -> Channel

pub fn wait_for_event( &self, deadline: MonotonicInstant, ) -> Result<ThreadEvent, Error>

Waits until an event arrives and returns it. It is safe for other threads to make concurrent requests while waiting for an event.

pub fn import_settings( &self, thread_settings_json: Buffer, ___deadline: MonotonicInstant, ) -> Result<(), Error>

Import a json data file containing the Thread configuration as created by [ThreadConfigManager] (https://fuchsia.googlesource.com/fuchsia/+/refs/heads/master/src/connectivity/openthread/third_party/openthread/platform/thread_config_manager.cc). The json format is: { “key1” : [ base64_encoded_string1_1, base64_encoded_string1_2, … ], “key2” : [ base64_encoded_string2_1, base64_encoded_string2_2, … ], … } where key1, key2 etc are decimal representation of uint16_t values. base64_encoded_strings are created from a vector of uint16_t values. This json format is equivalent to thread settings file in POSIX which is binary file having the information encoded as: 2 bytes of key1, 2 bytes of value_len1, ‘value_len1’ bytes of ‘value1’, 2 bytes of key2, 2 bytes of value_len2, ‘value_len2’ bytes of ‘value2’, 2 bytes of key1, 2 bytes of value_len3, ‘value_len3’ bytes of ‘value3’, 2 bytes of key2, 2 bytes of value_len4, ‘value_len4’ bytes of ‘value4’. The POSIX binary file is simply a sequence of bytes and allows for duplicate keys. This is converted to json format above with values transformed as: base64_encoded_string1_1 = base64_encode(value1[0:value_len1]) base64_encoded_string1_2 = base64_encode(value2[0:value_len2]) base64_encoded_string2_1 = base64_encode(value3[0:value_len3]) base64_encoded_string2_2 = base64_encode(value4[0:value_len4]) Keys are simply decimal representation of uint16_t keys in double quotes.

Settings are guaranteed to have been persisted upon successful completion of this call. The channel will be closed if importing settings fail.

Trait Implementations

impl Debug for ThreadSynchronousProxy

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl SynchronousProxy for ThreadSynchronousProxy

type Proxy = ThreadProxy

The async proxy for the same protocol.

type Protocol = ThreadMarker

The protocol which this Proxy controls.

fn from_channel(inner: Channel) -> Self

Create a proxy over the given channel.

fn into_channel(self) -> Channel

Convert the proxy back into a channel.

fn as_channel(&self) -> &Channel

Get a reference to the proxy’s underlying channel.

fn is_closed(&self) -> Result<bool, Status>

Returns true if the proxy has received the PEER_CLOSED signal.