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use byteorder::NetworkEndian;
use byteorder::ReadBytesExt;
use byteorder::WriteBytesExt;
use std::collections::BTreeMap;
use std::io::Cursor;
use std::io::Read;
use std::io::Write;
use std::vec::Vec;
use crate::convert::*;
use crate::decoding::*;
use crate::error::*;
use crate::frame_codec::*;
use crate::sasl::*;
use crate::symbol::*;
use crate::types::*;
use std::str::FromStr;
#[derive(Debug)]
pub struct FrameHeader {
pub size: u32,
doff: u8,
frame_type: u8,
ext: u16,
}
#[derive(Debug)]
pub enum Frame {
AMQP(AmqpFrame),
SASL(SaslFrame),
}
#[derive(Debug)]
pub enum SaslFrame {
SaslMechanisms(SaslMechanisms),
SaslInit(SaslInit),
SaslChallenge(SaslChallenge),
SaslResponse(SaslResponse),
SaslOutcome(SaslOutcome),
}
#[derive(Debug)]
pub struct SaslMechanisms {
pub mechanisms: Vec<SaslMechanism>,
}
#[derive(Debug)]
pub struct SaslInit {
pub mechanism: SaslMechanism,
pub initial_response: Option<Vec<u8>>,
pub hostname: Option<String>,
}
pub type SaslChallenge = Vec<u8>;
pub type SaslResponse = Vec<u8>;
#[derive(Debug)]
pub struct SaslOutcome {
pub code: SaslCode,
pub additional_data: Option<Vec<u8>>,
}
pub type SaslCode = u8;
impl Encoder for SaslMechanism {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
Symbol::from_string(self.to_string()).encode(writer)
}
}
impl Encoder for SaslInit {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_SASL_INIT);
encoder.encode_arg(&self.mechanism)?;
encoder.encode_arg(&self.initial_response)?;
encoder.encode_arg(&self.hostname)?;
encoder.encode(writer)
}
}
impl SaslOutcome {
pub fn decode(mut decoder: FrameDecoder) -> Result<SaslOutcome> {
let mut outcome = SaslOutcome {
code: 4,
additional_data: None,
};
decoder.decode_required(&mut outcome.code)?;
decoder.decode_optional(&mut outcome.additional_data)?;
Ok(outcome)
}
}
impl SaslMechanism {
pub fn from_slice(data: &[u8]) -> Result<SaslMechanism> {
let input = std::str::from_utf8(data)?;
SaslMechanism::from_str(input)
}
}
impl SaslMechanisms {
pub fn decode(mut decoder: FrameDecoder) -> Result<SaslMechanisms> {
let mut mechs = SaslMechanisms {
mechanisms: Vec::new(),
};
decoder.decode_optional(&mut mechs.mechanisms)?;
Ok(mechs)
}
}
impl TryFromValue for SaslMechanism {
fn try_from(value: Value) -> Result<Self> {
match value {
Value::Symbol(mech) => SaslMechanism::from_slice(&mech[..]),
_ => Err(AmqpError::decode_error(Some(
"Error converting value to SaslMechanism",
))),
}
}
}
impl TryFromValueVec for SaslMechanism {}
#[derive(Debug, Clone)]
pub struct AmqpFrame {
pub channel: u16,
pub performative: Option<Performative>,
pub payload: Option<Vec<u8>>,
}
#[allow(clippy::large_enum_variant)]
#[derive(Debug, Clone)]
pub enum Performative {
Open(Open),
Close(Close),
Begin(Begin),
End(End),
Attach(Attach),
Detach(Detach),
Flow(Flow),
Transfer(Transfer),
Disposition(Disposition),
}
#[derive(Debug, Clone)]
pub struct Open {
pub container_id: String,
pub hostname: Option<String>,
pub max_frame_size: Option<u32>,
pub channel_max: Option<u16>,
pub idle_timeout: Option<u32>,
pub outgoing_locales: Option<Vec<Symbol>>,
pub incoming_locales: Option<Vec<Symbol>>,
pub offered_capabilities: Option<Vec<Symbol>>,
pub desired_capabilities: Option<Vec<Symbol>>,
pub properties: Option<BTreeMap<String, Value>>,
}
#[derive(Debug, Clone)]
pub struct Close {
pub error: Option<ErrorCondition>,
}
#[derive(Debug, Clone)]
pub struct Begin {
pub remote_channel: Option<u16>,
pub next_outgoing_id: u32,
pub incoming_window: u32,
pub outgoing_window: u32,
pub handle_max: Option<u32>,
pub offered_capabilities: Option<Vec<Symbol>>,
pub desired_capabilities: Option<Vec<Symbol>>,
pub properties: Option<BTreeMap<String, Value>>,
}
#[derive(Debug, Clone)]
pub struct End {
pub error: Option<ErrorCondition>,
}
#[derive(Debug, Clone)]
pub struct Attach {
pub name: String,
pub handle: u32,
pub role: LinkRole,
pub snd_settle_mode: Option<SenderSettleMode>,
pub rcv_settle_mode: Option<ReceiverSettleMode>,
pub source: Option<Source>,
pub target: Option<Target>,
pub unsettled: Option<BTreeMap<Value, Value>>,
pub incomplete_unsettled: Option<bool>,
pub initial_delivery_count: Option<u32>,
pub max_message_size: Option<u64>,
pub offered_capabilities: Option<Vec<Symbol>>,
pub desired_capabilities: Option<Vec<Symbol>>,
pub properties: Option<BTreeMap<String, Value>>,
}
#[derive(Debug, Clone)]
pub struct Detach {
pub handle: u32,
pub closed: Option<bool>,
pub error: Option<ErrorCondition>,
}
#[derive(Debug, Clone)]
pub struct Flow {
pub next_incoming_id: Option<u32>,
pub incoming_window: u32,
pub next_outgoing_id: u32,
pub outgoing_window: u32,
pub handle: Option<u32>,
pub delivery_count: Option<u32>,
pub link_credit: Option<u32>,
pub available: Option<u32>,
pub drain: Option<bool>,
pub echo: Option<bool>,
pub properties: Option<BTreeMap<String, Value>>,
}
#[derive(Debug, Clone)]
pub struct Transfer {
pub handle: u32,
pub delivery_id: Option<u32>,
pub delivery_tag: Option<Vec<u8>>,
pub message_format: Option<u32>,
pub settled: Option<bool>,
pub more: Option<bool>,
pub rcv_settle_mode: Option<ReceiverSettleMode>,
pub state: Option<DeliveryState>,
pub resume: Option<bool>,
pub aborted: Option<bool>,
pub batchable: Option<bool>,
}
#[derive(Debug, Clone)]
pub struct Disposition {
pub role: LinkRole,
pub first: u32,
pub last: Option<u32>,
pub settled: Option<bool>,
pub state: Option<DeliveryState>,
pub batchable: Option<bool>,
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum DeliveryState {
Received(Received),
Accepted,
Rejected(Rejected),
Released,
Modified(Modified),
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct Received {
pub section_number: u32,
pub section_offset: u64,
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct Rejected {
pub error: Option<ErrorCondition>,
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct Modified {
pub delivery_failed: Option<bool>,
pub undeliverable_here: Option<bool>,
pub message_annotations: Option<BTreeMap<String, Value>>,
}
#[derive(Debug, Clone)]
pub struct Source {
pub address: Option<String>,
pub durable: Option<TerminusDurability>,
pub expiry_policy: Option<TerminusExpiryPolicy>,
pub timeout: Option<u32>,
pub dynamic: Option<bool>,
pub dynamic_node_properties: Option<BTreeMap<Symbol, Value>>,
pub distribution_mode: Option<Symbol>,
pub filter: Option<BTreeMap<Symbol, Value>>,
pub default_outcome: Option<Outcome>,
pub outcomes: Option<Vec<Outcome>>,
pub capabilities: Option<Vec<Symbol>>,
}
#[derive(Debug, Default, Clone)]
pub struct Target {
pub address: Option<String>,
pub durable: Option<TerminusDurability>,
pub expiry_policy: Option<TerminusExpiryPolicy>,
pub timeout: Option<u32>,
pub dynamic: Option<bool>,
pub dynamic_node_properties: Option<BTreeMap<Symbol, Value>>,
pub capabilities: Option<Vec<String>>,
}
#[derive(Debug, Clone, PartialEq, Copy)]
pub enum LinkRole {
Sender,
Receiver,
}
impl LinkRole {
pub fn as_str(&self) -> &str {
match self {
LinkRole::Sender => "sender",
LinkRole::Receiver => "received",
}
}
}
#[repr(u8)]
#[derive(Debug, Clone, Copy)]
pub enum SenderSettleMode {
Unsettled,
Settled,
Mixed,
}
#[repr(u8)]
#[derive(Debug, Clone, Copy)]
pub enum ReceiverSettleMode {
First,
Second,
}
#[derive(Debug, Clone, Copy)]
pub enum TerminusDurability {
None,
Configuration,
UnsettledState,
}
#[derive(Debug, Clone, Copy)]
pub enum TerminusExpiryPolicy {
LinkDetach,
SessionEnd,
ConnectionClose,
Never,
}
#[derive(Debug, Clone, Copy)]
pub enum Outcome {
Accepted,
Rejected,
Released,
Modified,
}
impl Open {
pub fn new(container_id: &str) -> Open {
Open {
container_id: container_id.to_string(),
hostname: None,
max_frame_size: None,
channel_max: None,
idle_timeout: None,
outgoing_locales: None,
incoming_locales: None,
offered_capabilities: None,
desired_capabilities: None,
properties: None,
}
}
pub fn decode(mut decoder: FrameDecoder) -> Result<Open> {
let mut open = Open {
container_id: String::new(),
hostname: None,
max_frame_size: None,
channel_max: None,
idle_timeout: None,
outgoing_locales: None,
incoming_locales: None,
offered_capabilities: None,
desired_capabilities: None,
properties: None,
};
decoder.decode_required(&mut open.container_id)?;
decoder.decode_optional(&mut open.hostname)?;
decoder.decode_optional(&mut open.max_frame_size)?;
decoder.decode_optional(&mut open.channel_max)?;
decoder.decode_optional(&mut open.idle_timeout)?;
decoder.decode_optional(&mut open.outgoing_locales)?;
decoder.decode_optional(&mut open.incoming_locales)?;
decoder.decode_optional(&mut open.offered_capabilities)?;
decoder.decode_optional(&mut open.desired_capabilities)?;
decoder.decode_optional(&mut open.properties)?;
Ok(open)
}
}
impl Encoder for Open {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_OPEN);
encoder.encode_arg(&self.container_id)?;
encoder.encode_arg(&self.hostname)?;
encoder.encode_arg(&self.max_frame_size)?;
encoder.encode_arg(&self.channel_max)?;
encoder.encode_arg(&self.idle_timeout)?;
encoder.encode_arg(&self.outgoing_locales)?;
encoder.encode_arg(&self.incoming_locales)?;
encoder.encode_arg(&self.offered_capabilities)?;
encoder.encode_arg(&self.desired_capabilities)?;
encoder.encode_arg(&self.properties)?;
encoder.encode(writer)
}
}
impl Close {
pub fn decode(mut decoder: FrameDecoder) -> Result<Close> {
let mut close = Close { error: None };
decoder.decode_optional(&mut close.error)?;
Ok(close)
}
}
impl Encoder for Close {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_CLOSE);
encoder.encode_arg(&self.error)?;
encoder.encode(writer)
}
}
impl Begin {
pub fn new(next_outgoing_id: u32, incoming_window: u32, outgoing_window: u32) -> Begin {
Begin {
remote_channel: None,
next_outgoing_id,
incoming_window,
outgoing_window,
handle_max: None,
offered_capabilities: None,
desired_capabilities: None,
properties: None,
}
}
pub fn decode(mut decoder: FrameDecoder) -> Result<Begin> {
let mut begin = Begin::new(0, 0, 0);
decoder.decode_optional(&mut begin.remote_channel)?;
decoder.decode_required(&mut begin.next_outgoing_id)?;
decoder.decode_required(&mut begin.incoming_window)?;
decoder.decode_required(&mut begin.outgoing_window)?;
decoder.decode_optional(&mut begin.handle_max)?;
decoder.decode_optional(&mut begin.offered_capabilities)?;
decoder.decode_optional(&mut begin.desired_capabilities)?;
decoder.decode_optional(&mut begin.properties)?;
Ok(begin)
}
}
impl Encoder for Begin {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_BEGIN);
encoder.encode_arg(&self.remote_channel)?;
encoder.encode_arg(&self.next_outgoing_id)?;
encoder.encode_arg(&self.incoming_window)?;
encoder.encode_arg(&self.outgoing_window)?;
encoder.encode_arg(&self.handle_max)?;
encoder.encode_arg(&self.offered_capabilities)?;
encoder.encode_arg(&self.desired_capabilities)?;
encoder.encode_arg(&self.properties)?;
encoder.encode(writer)
}
}
impl End {
pub fn decode(mut decoder: FrameDecoder) -> Result<End> {
let mut end = End { error: None };
decoder.decode_optional(&mut end.error)?;
Ok(end)
}
}
impl Encoder for End {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_END);
encoder.encode_arg(&self.error)?;
encoder.encode(writer)
}
}
impl Attach {
pub fn new(name: &str, handle: u32, role: LinkRole) -> Attach {
Attach {
name: name.to_string(),
handle,
role,
snd_settle_mode: None,
rcv_settle_mode: None,
source: None,
target: None,
unsettled: None,
incomplete_unsettled: None,
initial_delivery_count: None,
max_message_size: None,
offered_capabilities: None,
desired_capabilities: None,
properties: None,
}
}
pub fn source(mut self, source: Source) -> Self {
self.source = Some(source);
self
}
pub fn target(mut self, target: Target) -> Self {
self.target = Some(target);
self
}
pub fn initial_delivery_count(mut self, initial_delivery_count: u32) -> Self {
self.initial_delivery_count = Some(initial_delivery_count);
self
}
pub fn decode(mut decoder: FrameDecoder) -> Result<Attach> {
let mut attach = Attach::new("", 0, LinkRole::Sender);
decoder.decode_required(&mut attach.name)?;
decoder.decode_required(&mut attach.handle)?;
decoder.decode_required(&mut attach.role)?;
decoder.decode_optional(&mut attach.snd_settle_mode)?;
decoder.decode_optional(&mut attach.rcv_settle_mode)?;
decoder.decode_optional(&mut attach.source)?;
decoder.decode_optional(&mut attach.target)?;
decoder.decode_optional(&mut attach.unsettled)?;
decoder.decode_optional(&mut attach.incomplete_unsettled)?;
decoder.decode_optional(&mut attach.initial_delivery_count)?;
decoder.decode_optional(&mut attach.max_message_size)?;
decoder.decode_optional(&mut attach.offered_capabilities)?;
decoder.decode_optional(&mut attach.desired_capabilities)?;
decoder.decode_optional(&mut attach.properties)?;
Ok(attach)
}
}
impl Encoder for Attach {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_ATTACH);
encoder.encode_arg(&self.name)?;
encoder.encode_arg(&self.handle)?;
encoder.encode_arg(&self.role)?;
encoder.encode_arg(&self.snd_settle_mode.unwrap_or(SenderSettleMode::Mixed))?;
encoder.encode_arg(&self.rcv_settle_mode.unwrap_or(ReceiverSettleMode::First))?;
encoder.encode_arg(&self.source)?;
encoder.encode_arg(&self.target)?;
encoder.encode_arg(&self.unsettled)?;
encoder.encode_arg(&self.incomplete_unsettled.unwrap_or(false))?;
encoder.encode_arg(&self.initial_delivery_count)?;
encoder.encode_arg(&self.max_message_size)?;
encoder.encode_arg(&self.offered_capabilities)?;
encoder.encode_arg(&self.desired_capabilities)?;
encoder.encode_arg(&self.properties)?;
encoder.encode(writer)
}
}
impl Detach {
pub fn decode(mut decoder: FrameDecoder) -> Result<Detach> {
let mut detach = Detach {
handle: 0,
closed: None,
error: None,
};
decoder.decode_required(&mut detach.handle)?;
decoder.decode_optional(&mut detach.closed)?;
decoder.decode_optional(&mut detach.error)?;
Ok(detach)
}
}
impl Encoder for Detach {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_DETACH);
encoder.encode_arg(&self.handle)?;
encoder.encode_arg(&self.closed)?;
encoder.encode_arg(&self.error)?;
encoder.encode(writer)
}
}
impl Flow {
pub fn decode(mut decoder: FrameDecoder) -> Result<Flow> {
let mut flow = Flow {
next_incoming_id: None,
incoming_window: 0,
next_outgoing_id: 0,
outgoing_window: 0,
handle: None,
delivery_count: None,
link_credit: None,
available: None,
drain: Some(false),
echo: Some(false),
properties: None,
};
decoder.decode_optional(&mut flow.next_incoming_id)?;
decoder.decode_required(&mut flow.incoming_window)?;
decoder.decode_required(&mut flow.next_outgoing_id)?;
decoder.decode_required(&mut flow.outgoing_window)?;
decoder.decode_optional(&mut flow.handle)?;
decoder.decode_optional(&mut flow.delivery_count)?;
decoder.decode_optional(&mut flow.link_credit)?;
decoder.decode_optional(&mut flow.available)?;
decoder.decode_optional(&mut flow.drain)?;
decoder.decode_optional(&mut flow.echo)?;
decoder.decode_optional(&mut flow.properties)?;
Ok(flow)
}
}
impl Encoder for Flow {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_FLOW);
encoder.encode_arg(&self.next_incoming_id)?;
encoder.encode_arg(&self.incoming_window)?;
encoder.encode_arg(&self.next_outgoing_id)?;
encoder.encode_arg(&self.outgoing_window)?;
encoder.encode_arg(&self.handle)?;
encoder.encode_arg(&self.delivery_count)?;
encoder.encode_arg(&self.link_credit)?;
encoder.encode_arg(&self.available)?;
encoder.encode_arg(&self.drain)?;
encoder.encode_arg(&self.echo)?;
encoder.encode_arg(&self.properties)?;
encoder.encode(writer)
}
}
impl Transfer {
pub fn new(handle: u32) -> Transfer {
Transfer {
handle,
delivery_id: None,
delivery_tag: None,
message_format: None,
settled: None,
more: Some(false),
rcv_settle_mode: None,
state: None,
resume: Some(false),
aborted: Some(false),
batchable: Some(false),
}
}
pub fn delivery_id(mut self, delivery_id: u32) -> Self {
self.delivery_id = Some(delivery_id);
self
}
pub fn delivery_tag(mut self, delivery_tag: &[u8]) -> Self {
self.delivery_tag = Some(delivery_tag.to_vec());
self
}
pub fn settled(mut self, settled: bool) -> Self {
self.settled = Some(settled);
self
}
pub fn decode(mut decoder: FrameDecoder) -> Result<Transfer> {
let mut transfer = Transfer::new(0);
decoder.decode_required(&mut transfer.handle)?;
decoder.decode_optional(&mut transfer.delivery_id)?;
decoder.decode_optional(&mut transfer.delivery_tag)?;
decoder.decode_optional(&mut transfer.message_format)?;
decoder.decode_optional(&mut transfer.settled)?;
decoder.decode_optional(&mut transfer.more)?;
decoder.decode_optional(&mut transfer.rcv_settle_mode)?;
decoder.decode_optional(&mut transfer.state)?;
decoder.decode_optional(&mut transfer.resume)?;
decoder.decode_optional(&mut transfer.aborted)?;
decoder.decode_optional(&mut transfer.batchable)?;
Ok(transfer)
}
}
impl Encoder for Transfer {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_TRANSFER);
encoder.encode_arg(&self.handle)?;
encoder.encode_arg(&self.delivery_id)?;
encoder.encode_arg(&self.delivery_tag)?;
encoder.encode_arg(&self.message_format)?;
encoder.encode_arg(&self.settled)?;
encoder.encode_arg(&self.more)?;
encoder.encode_arg(&self.rcv_settle_mode)?;
encoder.encode_arg(&self.state)?;
encoder.encode_arg(&self.resume)?;
encoder.encode_arg(&self.aborted)?;
encoder.encode_arg(&self.batchable)?;
encoder.encode(writer)
}
}
impl Disposition {
pub fn decode(mut decoder: FrameDecoder) -> Result<Disposition> {
let mut disposition = Disposition {
role: LinkRole::Sender,
first: 0,
last: None,
settled: Some(false),
state: None,
batchable: Some(false),
};
decoder.decode_required(&mut disposition.role)?;
decoder.decode_required(&mut disposition.first)?;
decoder.decode_optional(&mut disposition.last)?;
decoder.decode_optional(&mut disposition.settled)?;
decoder.decode_optional(&mut disposition.state)?;
decoder.decode_optional(&mut disposition.batchable)?;
Ok(disposition)
}
}
impl Encoder for Disposition {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_DISPOSITION);
encoder.encode_arg(&self.role)?;
encoder.encode_arg(&self.first)?;
encoder.encode_arg(&self.last)?;
encoder.encode_arg(&self.settled)?;
encoder.encode_arg(&self.state)?;
encoder.encode_arg(&self.batchable)?;
encoder.encode(writer)
}
}
impl Source {
pub fn decode(mut decoder: FrameDecoder) -> Result<Source> {
let mut source = Source {
address: None,
durable: None,
expiry_policy: None,
timeout: None,
dynamic: None,
dynamic_node_properties: None,
distribution_mode: None,
filter: None,
default_outcome: None,
outcomes: None,
capabilities: None,
};
decoder.decode_optional(&mut source.address)?;
decoder.decode_optional(&mut source.durable)?;
decoder.decode_optional(&mut source.expiry_policy)?;
decoder.decode_optional(&mut source.timeout)?;
decoder.decode_optional(&mut source.dynamic)?;
decoder.decode_optional(&mut source.dynamic_node_properties)?;
decoder.decode_optional(&mut source.distribution_mode)?;
decoder.decode_optional(&mut source.filter)?;
decoder.decode_optional(&mut source.default_outcome)?;
decoder.decode_optional(&mut source.outcomes)?;
decoder.decode_optional(&mut source.capabilities)?;
Ok(source)
}
}
impl Encoder for Source {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_SOURCE);
encoder.encode_arg(&self.address)?;
encoder.encode_arg(&self.durable.unwrap_or(TerminusDurability::None))?;
encoder.encode_arg(
&self
.expiry_policy
.unwrap_or(TerminusExpiryPolicy::SessionEnd),
)?;
encoder.encode_arg(&self.timeout.unwrap_or(0))?;
encoder.encode_arg(&self.dynamic.unwrap_or(false))?;
encoder.encode_arg(&self.dynamic_node_properties)?;
encoder.encode_arg(&self.distribution_mode)?;
encoder.encode_arg(&self.filter)?;
encoder.encode_arg(&self.default_outcome)?;
encoder.encode_arg(&self.outcomes)?;
encoder.encode_arg(&self.capabilities)?;
encoder.encode(writer)
}
}
impl Target {
pub const fn new() -> Target {
Target {
address: None,
durable: None,
expiry_policy: None,
timeout: None,
dynamic: None,
dynamic_node_properties: None,
capabilities: None,
}
}
pub fn address(mut self, address: &str) -> Self {
self.address = Some(address.to_string());
self
}
pub fn decode(mut decoder: FrameDecoder) -> Result<Target> {
let mut target = Target::new();
decoder.decode_optional(&mut target.address)?;
decoder.decode_optional(&mut target.durable)?;
decoder.decode_optional(&mut target.expiry_policy)?;
decoder.decode_optional(&mut target.timeout)?;
decoder.decode_optional(&mut target.dynamic)?;
decoder.decode_optional(&mut target.dynamic_node_properties)?;
decoder.decode_optional(&mut target.capabilities)?;
Ok(target)
}
}
impl Encoder for Target {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut encoder = FrameEncoder::new(DESC_TARGET);
encoder.encode_arg(&self.address)?;
encoder.encode_arg(&self.durable.unwrap_or(TerminusDurability::None))?;
encoder.encode_arg(
&self
.expiry_policy
.unwrap_or(TerminusExpiryPolicy::SessionEnd),
)?;
encoder.encode_arg(&self.timeout.unwrap_or(0))?;
encoder.encode_arg(&self.dynamic.unwrap_or(false))?;
encoder.encode_arg(&self.dynamic_node_properties)?;
encoder.encode_arg(&self.capabilities)?;
encoder.encode(writer)
}
}
impl Encoder for DeliveryState {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let value = match self {
DeliveryState::Received(received) => {
let mut encoder = FrameEncoder::new(DESC_DELIVERY_STATE_RECEIVED);
encoder.encode_arg(&received.section_number)?;
encoder.encode_arg(&received.section_offset)?;
encoder
}
DeliveryState::Accepted => FrameEncoder::new(DESC_DELIVERY_STATE_ACCEPTED),
DeliveryState::Rejected(rejected) => {
let mut encoder = FrameEncoder::new(DESC_DELIVERY_STATE_REJECTED);
encoder.encode_arg(&rejected.error)?;
encoder
}
DeliveryState::Released => FrameEncoder::new(DESC_DELIVERY_STATE_RELEASED),
DeliveryState::Modified(modified) => {
let mut encoder = FrameEncoder::new(DESC_DELIVERY_STATE_MODIFIED);
encoder.encode_arg(&modified.delivery_failed)?;
encoder.encode_arg(&modified.undeliverable_here)?;
encoder.encode_arg(&modified.message_annotations)?;
encoder
}
};
value.encode(writer)
}
}
impl TryFromValue for DeliveryState {
fn try_from(value: Value) -> Result<Self> {
if let Value::Described(descriptor, mut body) = value {
let mut decoder = FrameDecoder::new(&descriptor, &mut body)?;
match *descriptor {
DESC_DELIVERY_STATE_RECEIVED => {
let mut received = Received {
section_number: 0,
section_offset: 0,
};
decoder.decode_required(&mut received.section_number)?;
decoder.decode_required(&mut received.section_offset)?;
Ok(DeliveryState::Received(received))
}
DESC_DELIVERY_STATE_ACCEPTED => Ok(DeliveryState::Accepted),
DESC_DELIVERY_STATE_REJECTED => {
let mut rejected = Rejected { error: None };
decoder.decode_optional(&mut rejected.error)?;
Ok(DeliveryState::Rejected(rejected))
}
DESC_DELIVERY_STATE_RELEASED => Ok(DeliveryState::Released),
DESC_DELIVERY_STATE_MODIFIED => {
let mut modified = Modified {
delivery_failed: None,
undeliverable_here: None,
message_annotations: None,
};
decoder.decode_optional(&mut modified.delivery_failed)?;
decoder.decode_optional(&mut modified.undeliverable_here)?;
decoder.decode_optional(&mut modified.message_annotations)?;
Ok(DeliveryState::Modified(modified))
}
_ => Err(AmqpError::decode_error(Some(
"Error converting value to DeliveryState",
))),
}
} else {
Err(AmqpError::decode_error(Some(
"Error converting value to DeliveryState",
)))
}
}
}
impl TerminusDurability {
pub fn from_int(input: u32) -> Result<TerminusDurability> {
match input {
0 => Ok(TerminusDurability::None),
1 => Ok(TerminusDurability::Configuration),
2 => Ok(TerminusDurability::UnsettledState),
v => Err(AmqpError::decode_error(Some(
format!("Unknown terminus durability{:?}", v).as_str(),
))),
}
}
}
impl TryFromValue for TerminusDurability {
fn try_from(value: Value) -> Result<Self> {
match value {
Value::Uint(v) => TerminusDurability::from_int(v),
_ => Err(AmqpError::decode_error(Some(
"Error converting value to TerminusDurability",
))),
}
}
}
impl TerminusExpiryPolicy {
pub fn from_slice(data: &[u8]) -> Result<TerminusExpiryPolicy> {
let input = std::str::from_utf8(data)?;
match input {
"link-detach" => Ok(TerminusExpiryPolicy::LinkDetach),
"session-end" => Ok(TerminusExpiryPolicy::SessionEnd),
"connection-close" => Ok(TerminusExpiryPolicy::ConnectionClose),
"never" => Ok(TerminusExpiryPolicy::Never),
v => Err(AmqpError::decode_error(Some(
format!("Unknown terminus expiry policy {:?}", v).as_str(),
))),
}
}
}
impl TryFromValue for TerminusExpiryPolicy {
fn try_from(value: Value) -> Result<Self> {
match value {
Value::Symbol(v) => TerminusExpiryPolicy::from_slice(&v[..]),
_ => Err(AmqpError::decode_error(Some(
"Error converting value to TerminusExpiryPolicy",
))),
}
}
}
impl Outcome {
pub fn from_slice(data: &[u8]) -> Result<Outcome> {
let input = std::str::from_utf8(data)?;
match input {
"amqp:accepted:list" => Ok(Outcome::Accepted),
"amqp:rejected:list" => Ok(Outcome::Rejected),
"amqp:released:list" => Ok(Outcome::Released),
"amqp:modified:list" => Ok(Outcome::Modified),
v => Err(AmqpError::decode_error(Some(
format!("Unknown outcome {:?}", v).as_str(),
))),
}
}
}
impl TryFromValueVec for Outcome {}
impl TryFromValue for Outcome {
fn try_from(value: Value) -> Result<Self> {
match value {
Value::Symbol(v) => Outcome::from_slice(&v[..]),
Value::Described(desc, _) => match *desc {
DESC_DELIVERY_STATE_ACCEPTED => Ok(Outcome::Accepted),
DESC_DELIVERY_STATE_MODIFIED => Ok(Outcome::Modified),
DESC_DELIVERY_STATE_RELEASED => Ok(Outcome::Released),
DESC_DELIVERY_STATE_REJECTED => Ok(Outcome::Rejected),
_ => Err(AmqpError::decode_error(Some("Unknown outcome descriptor"))),
},
_ => Err(AmqpError::decode_error(Some(
format!("Error converting value to Outcome. Was {:?}", value).as_str(),
))),
}
}
}
impl TryFromValue for LinkRole {
fn try_from(value: Value) -> Result<Self> {
match value {
Value::Bool(value) => Ok(if value {
LinkRole::Sender
} else {
LinkRole::Receiver
}),
_ => Err(AmqpError::decode_error(Some(
"Error converting value to LinkRole",
))),
}
}
}
impl TryFromValue for SenderSettleMode {
fn try_from(value: Value) -> Result<Self> {
if let Value::Ubyte(value) = value {
Ok(match value {
0 => SenderSettleMode::Unsettled,
1 => SenderSettleMode::Settled,
_ => SenderSettleMode::Mixed,
})
} else {
Err(AmqpError::decode_error(Some(
"Error converting value to SenderSettleMode",
)))
}
}
}
impl TryFromValue for Source {
fn try_from(value: Value) -> Result<Self> {
if let Value::Described(descriptor, mut body) = value {
let decoder = FrameDecoder::new(&descriptor, &mut body)?;
Ok(Source::decode(decoder)?)
} else {
Err(AmqpError::decode_error(Some(
"Error converting value to ReceiverSettleMode",
)))
}
}
}
impl TryFromValue for Target {
fn try_from(value: Value) -> Result<Self> {
if let Value::Described(descriptor, mut body) = value {
let decoder = FrameDecoder::new(&descriptor, &mut body)?;
Ok(Target::decode(decoder)?)
} else {
Err(AmqpError::decode_error(Some(
"Error converting value to ReceiverSettleMode",
)))
}
}
}
impl TryFromValue for ReceiverSettleMode {
fn try_from(value: Value) -> Result<Self> {
if let Value::Ubyte(value) = value {
match value {
0 => Ok(ReceiverSettleMode::First),
1 => Ok(ReceiverSettleMode::Second),
_ => Err(AmqpError::decode_error(Some(
"Error converting value to ReceiverSettledMode",
))),
}
} else {
Err(AmqpError::decode_error(Some(
"Error converting value to ReceiverSettleMode",
)))
}
}
}
impl Encoder for SenderSettleMode {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
ValueRef::Ubyte(&(*self as u8)).encode(writer)
}
}
impl Encoder for ReceiverSettleMode {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
Value::Ubyte(*self as u8).encode(writer)
}
}
impl Encoder for LinkRole {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
Value::Bool(*self == LinkRole::Receiver).encode(writer)
}
}
impl Encoder for Vec<Outcome> {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
let mut values = Vec::new();
for outcome in self.iter() {
values.push(ValueRef::SymbolRef(outcome.as_str()));
}
ValueRef::ArrayRef(&values).encode(writer)
}
}
impl Outcome {
pub fn as_str(&self) -> &str {
match *self {
Outcome::Accepted => "Accepted",
Outcome::Rejected => "Rejected",
Outcome::Released => "Released",
Outcome::Modified => "Modified",
}
}
}
impl Encoder for Outcome {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
ValueRef::SymbolRef(self.as_str()).encode(writer)
}
}
impl TerminusExpiryPolicy {
pub fn as_str(&self) -> &'static str {
match *self {
TerminusExpiryPolicy::LinkDetach => "link-detach",
TerminusExpiryPolicy::SessionEnd => "session-end",
TerminusExpiryPolicy::ConnectionClose => "connection-close",
TerminusExpiryPolicy::Never => "never",
}
}
}
impl Encoder for TerminusDurability {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
Value::Uint(match self {
TerminusDurability::None => 0,
TerminusDurability::Configuration => 1,
TerminusDurability::UnsettledState => 2,
})
.encode(writer)
}
}
impl Encoder for TerminusExpiryPolicy {
fn encode(&self, writer: &mut dyn Write) -> Result<TypeCode> {
ValueRef::SymbolRef(self.as_str()).encode(writer)
}
}
impl FrameHeader {
pub fn decode(reader: &mut dyn Read) -> Result<FrameHeader> {
Ok(FrameHeader {
size: reader.read_u32::<NetworkEndian>()?,
doff: reader.read_u8()?,
frame_type: reader.read_u8()?,
ext: reader.read_u16::<NetworkEndian>()?,
})
}
pub fn encode(&self, writer: &mut dyn Write) -> Result<()> {
writer.write_u32::<NetworkEndian>(self.size)?;
writer.write_u8(self.doff)?;
writer.write_u8(self.frame_type)?;
writer.write_u16::<NetworkEndian>(self.ext)?;
Ok(())
}
}
impl Frame {
pub fn encode(&self, writer: &mut dyn Write) -> Result<usize> {
let mut header: FrameHeader = FrameHeader {
size: 8,
doff: 2,
frame_type: 0,
ext: 0,
};
let mut buf: Vec<u8> = Vec::new();
match self {
Frame::AMQP(AmqpFrame {
channel,
performative,
payload,
}) => {
header.frame_type = 0;
header.ext = *channel;
if let Some(performative) = performative {
match performative {
Performative::Open(open) => {
open.encode(&mut buf)?;
}
Performative::Begin(begin) => {
begin.encode(&mut buf)?;
}
Performative::Attach(attach) => {
attach.encode(&mut buf)?;
}
Performative::Detach(detach) => {
detach.encode(&mut buf)?;
}
Performative::End(end) => {
end.encode(&mut buf)?;
}
Performative::Close(close) => {
close.encode(&mut buf)?;
}
Performative::Flow(flow) => {
flow.encode(&mut buf)?;
}
Performative::Transfer(transfer) => {
transfer.encode(&mut buf)?;
}
Performative::Disposition(disposition) => {
disposition.encode(&mut buf)?;
}
}
}
if let Some(data) = payload {
buf.write_all(&data[..])?;
}
}
Frame::SASL(sasl_frame) => {
header.frame_type = 1;
match sasl_frame {
SaslFrame::SaslMechanisms(_) => {}
SaslFrame::SaslInit(init) => {
init.encode(&mut buf)?;
}
SaslFrame::SaslChallenge(_) => {}
SaslFrame::SaslResponse(_) => {}
SaslFrame::SaslOutcome(_) => {}
}
}
}
header.size += buf.len() as u32;
header.encode(writer)?;
writer.write_all(&buf[..])?;
Ok(header.size as usize)
}
pub fn decode(header: FrameHeader, reader: &mut Cursor<&mut &[u8]>) -> Result<Frame> {
let mut doff = header.doff;
while doff > 2 {
reader.read_u32::<NetworkEndian>()?;
doff -= 1;
}
if header.frame_type == 0 {
let performative = if header.size > 8 {
if let Value::Described(descriptor, mut value) = decode_value(reader)? {
let decoder = FrameDecoder::new(&descriptor, &mut value)?;
Some(match *descriptor {
DESC_OPEN => {
let open = Open::decode(decoder)?;
Ok(Performative::Open(open))
}
DESC_CLOSE => {
let close = Close::decode(decoder)?;
Ok(Performative::Close(close))
}
DESC_BEGIN => {
let begin = Begin::decode(decoder)?;
Ok(Performative::Begin(begin))
}
DESC_END => {
let end = End::decode(decoder)?;
Ok(Performative::End(end))
}
DESC_ATTACH => {
let attach = Attach::decode(decoder)?;
Ok(Performative::Attach(attach))
}
DESC_DETACH => {
let detach = Detach::decode(decoder)?;
Ok(Performative::Detach(detach))
}
DESC_FLOW => {
let flow = Flow::decode(decoder)?;
Ok(Performative::Flow(flow))
}
DESC_TRANSFER => {
let transfer = Transfer::decode(decoder)?;
Ok(Performative::Transfer(transfer))
}
DESC_DISPOSITION => {
let disposition = Disposition::decode(decoder)?;
Ok(Performative::Disposition(disposition))
}
v => Err(AmqpError::decode_error(Some(
format!("Unexpected descriptor value: {:?}", v).as_str(),
))),
}?)
} else {
None
}
} else {
None
};
let total_payload_size = header.size - ((header.doff as u32) * 4);
let payload_position = reader.position() as u32;
let payload_size = total_payload_size - payload_position;
let mut payload = vec![0; payload_size as usize];
reader.read_exact(&mut payload[..])?;
Ok(Frame::AMQP(AmqpFrame {
channel: header.ext,
performative,
payload: Some(payload),
}))
} else if header.frame_type == 1 {
if header.size > 8 {
if let Value::Described(descriptor, mut value) = decode_value(reader)? {
let decoder = FrameDecoder::new(&descriptor, &mut value)?;
let frame = match *descriptor {
DESC_SASL_MECHANISMS => {
Some(SaslFrame::SaslMechanisms(SaslMechanisms::decode(decoder)?))
}
DESC_SASL_OUTCOME => {
Some(SaslFrame::SaslOutcome(SaslOutcome::decode(decoder)?))
}
_ => None,
};
match frame {
Some(frame) => Ok(Frame::SASL(frame)),
None => Err(AmqpError::decode_error(Some("Error decoding sasl frame"))),
}
} else {
Err(AmqpError::framing_error(Some("Sasl frame not matched")))
}
} else {
Err(AmqpError::framing_error(Some("Sasl frame not matched")))
}
} else {
Err(AmqpError::AmqpConnectionFramingError(Some(format!(
"Unknown frame type {}",
header.frame_type
))))
}
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn check_performatives() {
let frm = Open::new("1234");
assert_eq!(None, frm.hostname);
assert_eq!(4, frm.container_id.len());
assert_eq!(None, frm.max_frame_size);
assert_eq!(None, frm.channel_max);
}
}