/*
*
* Copyright (c) 2020-2022 Project CHIP Authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
use matter::{
data_model::{
cluster_basic_information as basic_info, cluster_on_off as onoff,
objects::{EncodeValue, GlobalElements},
sdm::{admin_commissioning as adm_comm, general_commissioning as gen_comm, noc},
system_model::{access_control as acl, descriptor},
},
interaction_model::{
core::{IMStatusCode, OpCode},
messages::{
ib::{AttrData, AttrPath, AttrResp},
msg::{ReadReq, ReportDataMsg, StatusResp, SubscribeResp},
},
messages::{msg::SubscribeReq, GenericPath},
},
mdns::DummyMdns,
tlv::{self, ElementType, FromTLV, TLVElement, TagType, ToTLV},
transport::{
exchange::{self, Exchange},
packet::MAX_RX_BUF_SIZE,
},
Matter,
};
use crate::{
attr_data,
common::{
attributes::*,
echo_cluster as echo,
im_engine::{matter, ImEngine, ImInput},
init_env_logger,
},
};
pub struct LongRead<'a> {
im_engine: ImEngine<'a>,
}
impl<'a> LongRead<'a> {
pub fn new(matter: &'a Matter<'a>) -> Self {
let mut im_engine = ImEngine::new(matter);
// Use the same exchange for all parts of the transaction
im_engine.exch = Some(Exchange::new(1, 0, exchange::Role::Responder));
Self { im_engine }
}
pub fn process<'p>(
&mut self,
action: OpCode,
data: &dyn ToTLV,
data_out: &'p mut [u8],
) -> (u8, &'p [u8]) {
let input = ImInput::new(action, data);
let (response, output) = self.im_engine.process(&input, data_out);
(response, output)
}
}
fn wildcard_read_resp(part: u8) -> Vec<AttrResp<'static>> {
// For brevity, we only check the AttrPath, not the actual 'data'
let dont_care = ElementType::U8(0);
let part1 = vec![
attr_data!(0, 29, GlobalElements::FeatureMap, dont_care),
attr_data!(0, 29, GlobalElements::AttributeList, dont_care),
attr_data!(0, 29, descriptor::Attributes::DeviceTypeList, dont_care),
attr_data!(0, 29, descriptor::Attributes::ServerList, dont_care),
attr_data!(0, 29, descriptor::Attributes::PartsList, dont_care),
attr_data!(0, 29, descriptor::Attributes::ClientList, dont_care),
attr_data!(0, 40, GlobalElements::FeatureMap, dont_care),
attr_data!(0, 40, GlobalElements::AttributeList, dont_care),
attr_data!(
0,
40,
basic_info::AttributesDiscriminants::DMRevision,
dont_care
),
attr_data!(
0,
40,
basic_info::AttributesDiscriminants::VendorId,
dont_care
),
attr_data!(
0,
40,
basic_info::AttributesDiscriminants::ProductId,
dont_care
),
attr_data!(0, 40, basic_info::AttributesDiscriminants::HwVer, dont_care),
attr_data!(0, 40, basic_info::AttributesDiscriminants::SwVer, dont_care),
attr_data!(
0,
40,
basic_info::AttributesDiscriminants::SwVerString,
dont_care
),
attr_data!(
0,
40,
basic_info::AttributesDiscriminants::SerialNo,
dont_care
),
attr_data!(0, 48, GlobalElements::FeatureMap, dont_care),
attr_data!(0, 48, GlobalElements::AttributeList, dont_care),
attr_data!(
0,
48,
gen_comm::AttributesDiscriminants::BreadCrumb,
dont_care
),
attr_data!(
0,
48,
gen_comm::AttributesDiscriminants::RegConfig,
dont_care
),
attr_data!(
0,
48,
gen_comm::AttributesDiscriminants::LocationCapability,
dont_care
),
attr_data!(
0,
48,
gen_comm::AttributesDiscriminants::BasicCommissioningInfo,
dont_care
),
attr_data!(0, 49, GlobalElements::FeatureMap, dont_care),
attr_data!(0, 49, GlobalElements::AttributeList, dont_care),
attr_data!(0, 60, GlobalElements::FeatureMap, dont_care),
attr_data!(0, 60, GlobalElements::AttributeList, dont_care),
attr_data!(
0,
60,
adm_comm::AttributesDiscriminants::WindowStatus,
dont_care
),
attr_data!(
0,
60,
adm_comm::AttributesDiscriminants::AdminFabricIndex,
dont_care
),
attr_data!(
0,
60,
adm_comm::AttributesDiscriminants::AdminVendorId,
dont_care
),
attr_data!(0, 62, GlobalElements::FeatureMap, dont_care),
attr_data!(0, 62, GlobalElements::AttributeList, dont_care),
attr_data!(
0,
62,
noc::AttributesDiscriminants::CurrentFabricIndex,
dont_care
),
attr_data!(0, 62, noc::AttributesDiscriminants::Fabrics, dont_care),
attr_data!(
0,
62,
noc::AttributesDiscriminants::SupportedFabrics,
dont_care
),
attr_data!(
0,
62,
noc::AttributesDiscriminants::CommissionedFabrics,
dont_care
),
attr_data!(0, 31, GlobalElements::FeatureMap, dont_care),
attr_data!(0, 31, GlobalElements::AttributeList, dont_care),
attr_data!(0, 31, acl::AttributesDiscriminants::Acl, dont_care),
attr_data!(0, 31, acl::AttributesDiscriminants::Extension, dont_care),
attr_data!(
0,
31,
acl::AttributesDiscriminants::SubjectsPerEntry,
dont_care
),
attr_data!(
0,
31,
acl::AttributesDiscriminants::TargetsPerEntry,
dont_care
),
attr_data!(
0,
31,
acl::AttributesDiscriminants::EntriesPerFabric,
dont_care
),
attr_data!(0, echo::ID, GlobalElements::FeatureMap, dont_care),
attr_data!(0, echo::ID, GlobalElements::AttributeList, dont_care),
attr_data!(0, echo::ID, echo::AttributesDiscriminants::Att1, dont_care),
attr_data!(0, echo::ID, echo::AttributesDiscriminants::Att2, dont_care),
attr_data!(
0,
echo::ID,
echo::AttributesDiscriminants::AttCustom,
dont_care
),
attr_data!(1, 29, GlobalElements::FeatureMap, dont_care),
attr_data!(1, 29, GlobalElements::AttributeList, dont_care),
attr_data!(1, 29, descriptor::Attributes::DeviceTypeList, dont_care),
];
let part2 = vec![
attr_data!(1, 29, descriptor::Attributes::ServerList, dont_care),
attr_data!(1, 29, descriptor::Attributes::PartsList, dont_care),
attr_data!(1, 29, descriptor::Attributes::ClientList, dont_care),
attr_data!(1, 6, GlobalElements::FeatureMap, dont_care),
attr_data!(1, 6, GlobalElements::AttributeList, dont_care),
attr_data!(1, 6, onoff::AttributesDiscriminants::OnOff, dont_care),
attr_data!(1, echo::ID, GlobalElements::FeatureMap, dont_care),
attr_data!(1, echo::ID, GlobalElements::AttributeList, dont_care),
attr_data!(1, echo::ID, echo::AttributesDiscriminants::Att1, dont_care),
attr_data!(1, echo::ID, echo::AttributesDiscriminants::Att2, dont_care),
attr_data!(
1,
echo::ID,
echo::AttributesDiscriminants::AttCustom,
dont_care
),
];
if part == 1 {
part1
} else {
part2
}
}
#[test]
fn test_long_read_success() {
// Read the entire attribute database, which requires 2 reads to complete
init_env_logger();
let mut mdns = DummyMdns;
let matter = matter(&mut mdns);
let mut lr = LongRead::new(&matter);
let mut output = [0_u8; MAX_RX_BUF_SIZE + 100];
let wc_path = GenericPath::new(None, None, None);
let read_all = [AttrPath::new(&wc_path)];
let read_req = ReadReq::new(true).set_attr_requests(&read_all);
let expected_part1 = wildcard_read_resp(1);
let (out_code, out_data) = lr.process(OpCode::ReadRequest, &read_req, &mut output);
let root = tlv::get_root_node_struct(out_data).unwrap();
let report_data = ReportDataMsg::from_tlv(&root).unwrap();
assert_attr_report_skip_data(&report_data, &expected_part1);
assert_eq!(report_data.more_chunks, Some(true));
assert_eq!(out_code, OpCode::ReportData as u8);
// Ask for the next read by sending a status report
let status_report = StatusResp {
status: IMStatusCode::Success,
};
let expected_part2 = wildcard_read_resp(2);
let (out_code, out_data) = lr.process(OpCode::StatusResponse, &status_report, &mut output);
let root = tlv::get_root_node_struct(out_data).unwrap();
let report_data = ReportDataMsg::from_tlv(&root).unwrap();
assert_attr_report_skip_data(&report_data, &expected_part2);
assert_eq!(report_data.more_chunks, None);
assert_eq!(out_code, OpCode::ReportData as u8);
}
#[test]
fn test_long_read_subscription_success() {
// Subscribe to the entire attribute database, which requires 2 reads to complete
init_env_logger();
let mut mdns = DummyMdns;
let matter = matter(&mut mdns);
let mut lr = LongRead::new(&matter);
let mut output = [0_u8; MAX_RX_BUF_SIZE + 100];
let wc_path = GenericPath::new(None, None, None);
let read_all = [AttrPath::new(&wc_path)];
let subs_req = SubscribeReq::new(true, 1, 20).set_attr_requests(&read_all);
let expected_part1 = wildcard_read_resp(1);
let (out_code, out_data) = lr.process(OpCode::SubscribeRequest, &subs_req, &mut output);
let root = tlv::get_root_node_struct(out_data).unwrap();
let report_data = ReportDataMsg::from_tlv(&root).unwrap();
assert_attr_report_skip_data(&report_data, &expected_part1);
assert_eq!(report_data.more_chunks, Some(true));
assert_eq!(out_code, OpCode::ReportData as u8);
// Ask for the next read by sending a status report
let status_report = StatusResp {
status: IMStatusCode::Success,
};
let expected_part2 = wildcard_read_resp(2);
let (out_code, out_data) = lr.process(OpCode::StatusResponse, &status_report, &mut output);
let root = tlv::get_root_node_struct(out_data).unwrap();
let report_data = ReportDataMsg::from_tlv(&root).unwrap();
assert_attr_report_skip_data(&report_data, &expected_part2);
assert_eq!(report_data.more_chunks, None);
assert_eq!(out_code, OpCode::ReportData as u8);
// Finally confirm subscription
let (out_code, out_data) = lr.process(OpCode::StatusResponse, &status_report, &mut output);
tlv::print_tlv_list(out_data);
let root = tlv::get_root_node_struct(out_data).unwrap();
let subs_resp = SubscribeResp::from_tlv(&root).unwrap();
assert_eq!(out_code, OpCode::SubscribeResponse as u8);
assert_eq!(subs_resp.subs_id, 1);
}