Files
PX4-Autopilot/libuavcan/test/transport/frame.cpp
T
2015-04-30 10:55:52 +03:00

481 lines
14 KiB
C++

/*
* Copyright (C) 2014 Pavel Kirienko <pavel.kirienko@gmail.com>
*/
#include <string>
#include <gtest/gtest.h>
#include <uavcan/transport/transfer.hpp>
#include "../clock.hpp"
#include "can/can.hpp"
TEST(Frame, MessageParseCompile)
{
using uavcan::Frame;
using uavcan::CanFrame;
using uavcan::TransferID;
using uavcan::TransferType;
Frame frame;
/*
* Priority (LOW, NORMAL, HIGH)
* Message Type ID
* Source Node ID
* BroadcastNotUnicast
* Frame Index
* Last Frame
* Transfer ID
*/
const uint32_t can_id =
(1 << 27) | // Priority
(2000 << 16) | // Message Type ID
(42 << 9) | // Source Node ID
(1 << 8) | // BroadcastNotUnicast
(11 << 4) | // Frame Index
(1 << 3) | // Last Frame
(2 << 0); // Transfer ID
const std::string payload_string = "hello";
/*
* Parse
*/
// Invalid CAN frames
ASSERT_FALSE(frame.parse(CanFrame(can_id | CanFrame::FlagRTR, (const uint8_t*)"", 0)));
ASSERT_FALSE(frame.parse(makeCanFrame(can_id, payload_string, STD)));
// Valid
ASSERT_TRUE(frame.parse(makeCanFrame(can_id, payload_string, EXT)));
EXPECT_EQ(TransferID(2), frame.getTransferID());
EXPECT_TRUE(frame.isLast());
EXPECT_EQ(11, frame.getIndex());
EXPECT_EQ(uavcan::NodeID(42), frame.getSrcNodeID());
EXPECT_TRUE(frame.getDstNodeID().isBroadcast());
EXPECT_EQ(uavcan::TransferTypeMessageBroadcast, frame.getTransferType());
EXPECT_EQ(2000, frame.getDataTypeID().get());
EXPECT_EQ(uavcan::TransferPriorityNormal, frame.getPriority());
EXPECT_EQ(payload_string.length(), frame.getPayloadLen());
EXPECT_TRUE(std::equal(frame.getPayloadPtr(), frame.getPayloadPtr() + frame.getPayloadLen(),
payload_string.begin()));
std::cout << frame.toString() << std::endl;
/*
* Compile
*/
CanFrame can_frame;
ASSERT_TRUE(frame.parse(makeCanFrame(can_id, payload_string, EXT)));
ASSERT_TRUE(frame.compile(can_frame));
ASSERT_EQ(can_frame, makeCanFrame(can_id, payload_string, EXT));
EXPECT_EQ(payload_string.length(), can_frame.dlc);
EXPECT_TRUE(std::equal(can_frame.data, can_frame.data + can_frame.dlc, payload_string.begin()));
/*
* Comparison
*/
ASSERT_FALSE(Frame() == frame);
ASSERT_TRUE(Frame() != frame);
frame = Frame();
ASSERT_TRUE(Frame() == frame);
ASSERT_FALSE(Frame() != frame);
}
TEST(Frame, ServiceParseCompile)
{
using uavcan::Frame;
using uavcan::CanFrame;
using uavcan::TransferID;
using uavcan::TransferType;
Frame frame;
/*
* Priority = SERVICE
* RequestNotResponse
* Service Type ID
* Source Node ID
* Frame Index
* Last Frame
* Transfer ID
*/
const uint32_t can_id =
(2 << 27) | // Priority (Service)
(1 << 26) | // RequestNotResponse
(500 << 17) | // Service Type ID
(42 << 10) | // Source Node ID
(60 << 4) | // Frame Index
(1 << 3) | // Last Frame
(5 << 0); // Transfer ID
const std::string payload_string = "\x42hello"; // dst = 0x42
/*
* Parse
*/
// Invalid CAN frames
ASSERT_FALSE(frame.parse(CanFrame(can_id | CanFrame::FlagRTR, (const uint8_t*)"", 0)));
ASSERT_FALSE(frame.parse(makeCanFrame(can_id, payload_string, STD)));
// Valid
ASSERT_TRUE(frame.parse(makeCanFrame(can_id, payload_string, EXT)));
EXPECT_EQ(TransferID(5), frame.getTransferID());
EXPECT_TRUE(frame.isLast());
EXPECT_EQ(60, frame.getIndex());
EXPECT_EQ(uavcan::NodeID(42), frame.getSrcNodeID());
EXPECT_EQ(uavcan::NodeID(0x42), frame.getDstNodeID());
EXPECT_EQ(uavcan::TransferTypeServiceRequest, frame.getTransferType());
EXPECT_EQ(500, frame.getDataTypeID().get());
EXPECT_EQ(uavcan::TransferPriorityService, frame.getPriority());
EXPECT_EQ(payload_string.length(), frame.getPayloadLen() + 1);
EXPECT_TRUE(std::equal(frame.getPayloadPtr(), frame.getPayloadPtr() + frame.getPayloadLen(),
payload_string.begin() + 1));
std::cout << frame.toString() << std::endl;
/*
* Compile
*/
CanFrame can_frame;
ASSERT_TRUE(frame.parse(makeCanFrame(can_id, payload_string, EXT)));
ASSERT_TRUE(frame.compile(can_frame));
ASSERT_EQ(can_frame, makeCanFrame(can_id, payload_string, EXT));
EXPECT_EQ(payload_string.length(), can_frame.dlc);
EXPECT_TRUE(std::equal(can_frame.data, can_frame.data + can_frame.dlc, payload_string.begin()));
/*
* Comparison
*/
ASSERT_FALSE(Frame() == frame);
ASSERT_TRUE(Frame() != frame);
frame = Frame();
ASSERT_TRUE(Frame() == frame);
ASSERT_FALSE(Frame() != frame);
}
TEST(Frame, AnonymousParseCompile)
{
using uavcan::Frame;
using uavcan::CanFrame;
using uavcan::TransferID;
using uavcan::TransferType;
Frame frame;
/*
* Priority (LOW, NORMAL, HIGH)
* Message Type ID
* Source Node ID
* BroadcastNotUnicast
* Frame Index
* Last Frame
* Transfer ID
*/
const uint32_t can_id =
(0 << 27) | // Priority (high)
(2000 << 16) | // Message Type ID
(0 << 9) | // Source Node ID
(1 << 8) | // BroadcastNotUnicast
(11 << 4) | // Frame Index (will be ignored)
(1 << 3) | // Last Frame (will be ignored)
(2 << 0); // Transfer ID (will be ignored)
const std::string payload_string = "\x01\x02\x03\x04";
const uint8_t payload_sum = 1 + 2 + 3 + 4;
/*
* Parse
*/
ASSERT_TRUE(frame.parse(makeCanFrame(can_id, payload_string, EXT)));
EXPECT_EQ(TransferID(0), frame.getTransferID());
EXPECT_TRUE(frame.isLast());
EXPECT_EQ(0, frame.getIndex());
EXPECT_TRUE(frame.getSrcNodeID().isBroadcast());
EXPECT_TRUE(frame.getDstNodeID().isBroadcast());
EXPECT_EQ(uavcan::TransferTypeMessageBroadcast, frame.getTransferType());
EXPECT_EQ(2000, frame.getDataTypeID().get());
EXPECT_EQ(uavcan::TransferPriorityHigh, frame.getPriority());
EXPECT_EQ(payload_string.length(), frame.getPayloadLen());
EXPECT_TRUE(std::equal(frame.getPayloadPtr(), frame.getPayloadPtr() + frame.getPayloadLen(),
payload_string.begin()));
std::cout << frame.toString() << std::endl;
/*
* Compile
*/
CanFrame can_frame;
ASSERT_TRUE(frame.parse(makeCanFrame(can_id, payload_string, EXT)));
ASSERT_TRUE(frame.compile(can_frame));
ASSERT_EQ(can_id & 0xFFFFFF00 & uavcan::CanFrame::MaskExtID,
can_frame.id & 0xFFFFFF00 & uavcan::CanFrame::MaskExtID);
EXPECT_EQ(payload_string.length(), can_frame.dlc);
EXPECT_TRUE(std::equal(can_frame.data, can_frame.data + can_frame.dlc, payload_string.begin()));
ASSERT_EQ(payload_sum, can_frame.id & 0xFF);
/*
* Comparison
*/
ASSERT_FALSE(Frame() == frame);
ASSERT_TRUE(Frame() != frame);
frame = Frame();
ASSERT_TRUE(Frame() == frame);
ASSERT_FALSE(Frame() != frame);
}
TEST(Frame, FrameParsing)
{
using uavcan::Frame;
using uavcan::CanFrame;
using uavcan::NodeID;
using uavcan::TransferID;
CanFrame can;
Frame frame;
ASSERT_FALSE(frame.parse(can));
for (unsigned i = 0; i < sizeof(CanFrame::data); i++)
{
can.data[i] = uint8_t(i | (i << 4));
}
/*
* Message CAN ID fields and offsets:
* 27 Priority (LOW=3, NORMAL=1, HIGH=0)
* 16 Message Type ID
* 9 Source Node ID
* 8 BroadcastNotUnicast
* 4 Frame Index
* 3 Last Frame
* 0 Transfer ID
*
* Service CAN ID fields and offsets:
* 27 Priority (SERVICE=2)
* 26 RequestNotResponse
* 17 Service Type ID
* 10 Source Node ID
* 4 Frame Index
* 3 Last Frame
* 0 Transfer ID
*/
/*
* SFT message broadcast
*/
can.id = CanFrame::FlagEFF |
(2 << 0) |
(1 << 3) |
(0 << 4) |
(1 << 8) |
(42 << 9) |
(456 << 16) |
(1 << 27);
ASSERT_TRUE(frame.parse(can));
ASSERT_TRUE(frame.isFirst());
ASSERT_TRUE(frame.isLast());
ASSERT_EQ(uavcan::TransferPriorityNormal, frame.getPriority());
ASSERT_EQ(0, frame.getIndex());
ASSERT_EQ(NodeID(42), frame.getSrcNodeID());
ASSERT_EQ(NodeID::Broadcast, frame.getDstNodeID());
ASSERT_EQ(456, frame.getDataTypeID().get());
ASSERT_EQ(TransferID(2), frame.getTransferID());
ASSERT_EQ(uavcan::TransferTypeMessageBroadcast, frame.getTransferType());
ASSERT_EQ(sizeof(CanFrame::data), frame.getMaxPayloadLen());
/*
* SFT message unicast
*/
can.id = CanFrame::FlagEFF |
(2 << 0) |
(1 << 3) | // Last Frame
(0 << 4) | // Frame Index
(0 << 8) |
(42 << 9) |
(456 << 16) |
(0 << 27);
ASSERT_FALSE(frame.parse(can)); // No payload - failure
can.dlc = 1;
can.data[0] = 0xFF;
ASSERT_FALSE(frame.parse(can)); // Invalid first byte - failure
can.data[0] = 127;
ASSERT_TRUE(frame.parse(can));
ASSERT_TRUE(frame.isFirst());
ASSERT_TRUE(frame.isLast());
ASSERT_EQ(uavcan::TransferPriorityHigh, frame.getPriority());
ASSERT_EQ(0, frame.getIndex());
ASSERT_EQ(NodeID(42), frame.getSrcNodeID());
ASSERT_EQ(NodeID(127), frame.getDstNodeID());
ASSERT_EQ(456, frame.getDataTypeID().get());
ASSERT_EQ(TransferID(2), frame.getTransferID());
ASSERT_EQ(uavcan::TransferTypeMessageUnicast, frame.getTransferType());
ASSERT_EQ(sizeof(CanFrame::data) - 1, frame.getMaxPayloadLen());
/*
* MFT message unicast
* Invalid - unterminated transfer
*/
can.id = CanFrame::FlagEFF |
(2 << 0) |
(0 << 3) |
(15 << 4) |
(0 << 8) |
(42 << 9) |
(456 << 16) |
(0 << 27);
ASSERT_FALSE(frame.parse(can));
/*
* MFT service request
* Invalid frame index
*/
can.id = CanFrame::FlagEFF |
(2 << 27) | // Priority (Service)
(1 << 26) | // RequestNotResponse
(500 << 17) | // Service Type ID
(42 << 10) | // Source Node ID
(63 << 4) | // Frame Index
(1 << 3) | // Last Frame
(5 << 0); // Transfer ID
ASSERT_FALSE(frame.parse(can));
/*
* Malformed frames
*/
can.id = CanFrame::FlagEFF |
(2 << 0) |
(1 << 3) |
(15 << 4) |
(0 << 8) |
(42 << 9) |
(456 << 16) |
(3 << 27);
can.dlc = 3;
can.data[0] = 42;
ASSERT_FALSE(frame.parse(can)); // Src == Dst Node ID
can.data[0] = 41;
ASSERT_TRUE(frame.parse(can));
ASSERT_EQ(uavcan::TransferPriorityLow, frame.getPriority());
/*
* Broadcast SNID exceptions
* Note that last 3 fields are ignored
*/
can.id = CanFrame::FlagEFF |
(2 << 27) | // Priority
(2000 << 16) | // Message Type ID
(0 << 9) | // Source Node ID
(1 << 8); // BroadcastNotUnicast
ASSERT_FALSE(frame.parse(can)); // Invalid priority
can.id = CanFrame::FlagEFF |
(1 << 27) | // Priority
(2000 << 16) | // Message Type ID
(0 << 9) | // Source Node ID
(1 << 8); // BroadcastNotUnicast
ASSERT_TRUE(frame.parse(can));
}
TEST(Frame, RxFrameParse)
{
using uavcan::Frame;
using uavcan::RxFrame;
using uavcan::CanFrame;
using uavcan::CanRxFrame;
CanRxFrame can_rx_frame;
RxFrame rx_frame;
// Failure
ASSERT_FALSE(rx_frame.parse(can_rx_frame));
// Valid
can_rx_frame.ts_mono = uavcan::MonotonicTime::fromUSec(1); // Zero is not allowed
can_rx_frame.id = CanFrame::FlagEFF |
(2 << 0) |
(1 << 3) |
(0 << 4) |
(1 << 8) |
(42 << 9) |
(456 << 16) |
(1 << 27);
ASSERT_TRUE(rx_frame.parse(can_rx_frame));
ASSERT_EQ(1, rx_frame.getMonotonicTimestamp().toUSec());
ASSERT_EQ(0, rx_frame.getIfaceIndex());
can_rx_frame.ts_mono = tsMono(123);
can_rx_frame.iface_index = 2;
Frame frame(456, uavcan::TransferTypeMessageBroadcast, 1, uavcan::NodeID::Broadcast, 0, 0);
ASSERT_TRUE(frame.compile(can_rx_frame));
ASSERT_TRUE(rx_frame.parse(can_rx_frame));
ASSERT_EQ(123, rx_frame.getMonotonicTimestamp().toUSec());
ASSERT_EQ(2, rx_frame.getIfaceIndex());
ASSERT_EQ(456, rx_frame.getDataTypeID().get());
ASSERT_EQ(uavcan::TransferTypeMessageBroadcast, rx_frame.getTransferType());
}
TEST(Frame, FrameToString)
{
using uavcan::Frame;
using uavcan::RxFrame;
// RX frame default
RxFrame rx_frame;
EXPECT_EQ("prio=4 dtid=65535 tt=4 snid=255 dnid=255 idx=0 last=0 tid=0 payload=[] ts_m=0.000000 ts_utc=0.000000 iface=0",
rx_frame.toString());
// RX frame max len
rx_frame = RxFrame(Frame(uavcan::DataTypeID::MaxPossibleDataTypeIDValue, uavcan::TransferTypeMessageUnicast,
uavcan::NodeID::Max, uavcan::NodeID::Max - 1,
Frame::getMaxIndexForTransferType(uavcan::TransferTypeMessageUnicast),
uavcan::TransferID::Max, true),
uavcan::MonotonicTime::getMax(), uavcan::UtcTime::getMax(), 3);
uint8_t data[8];
for (unsigned i = 0; i < sizeof(data); i++)
{
data[i] = uint8_t(i);
}
rx_frame.setPayload(data, sizeof(data));
EXPECT_EQ("prio=1 dtid=2047 tt=3 snid=127 dnid=126 idx=15 last=1 tid=7 payload=[00 01 02 03 04 05 06] "
"ts_m=18446744073709.551615 ts_utc=18446744073709.551615 iface=3",
rx_frame.toString());
// Plain frame default
Frame frame;
EXPECT_EQ("prio=4 dtid=65535 tt=4 snid=255 dnid=255 idx=0 last=0 tid=0 payload=[]", frame.toString());
// Plain frame max len
frame = rx_frame;
EXPECT_EQ("prio=1 dtid=2047 tt=3 snid=127 dnid=126 idx=15 last=1 tid=7 payload=[00 01 02 03 04 05 06]",
frame.toString());
}