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fuchsia / third_party / openthread / refs/heads/main / . / tests / unit / test_mac_frame.cpp
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/*
* Copyright (c) 2016, The OpenThread Authors.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the copyright holder nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "common/code_utils.hpp"
#include "common/debug.hpp"
#include "mac/mac.hpp"
#include "mac/mac_frame.hpp"
#include "radio/radio.hpp"
#include "test_platform.h"
#include "test_util.hpp"
namespace ot {
bool CompareReversed(const uint8_t *aFirst, const uint8_t *aSecond, uint16_t aLength)
{
bool matches = true;
for (uint16_t i = 0; i < aLength; i++)
{
if (aFirst[i] != aSecond[aLength - 1 - i])
{
matches = false;
break;
}
}
return matches;
}
bool CompareAddresses(const Mac::Address &aFirst, const Mac::Address &aSecond)
{
bool matches = false;
VerifyOrExit(aFirst.GetType() == aSecond.GetType());
switch (aFirst.GetType())
{
case Mac::Address::kTypeNone:
break;
case Mac::Address::kTypeShort:
VerifyOrExit(aFirst.GetShort() == aSecond.GetShort());
break;
case Mac::Address::kTypeExtended:
VerifyOrExit(aFirst.GetExtended() == aSecond.GetExtended());
break;
}
matches = true;
exit:
return matches;
}
void TestMacAddress(void)
{
const uint8_t kExtAddr[OT_EXT_ADDRESS_SIZE] = {0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0};
const Mac::ShortAddress kShortAddr = 0x1234;
Instance *instance;
Mac::Address addr;
Mac::ExtAddress extAddr;
uint8_t buffer[OT_EXT_ADDRESS_SIZE];
instance = testInitInstance();
VerifyOrQuit(instance != nullptr, "nullptr instance\n");
// Mac::ExtAddress
extAddr.GenerateRandom();
VerifyOrQuit(extAddr.IsLocal(), "Random Extended Address should have its Local bit set");
VerifyOrQuit(!extAddr.IsGroup(), "Random Extended Address should not have its Group bit set");
extAddr.CopyTo(buffer);
VerifyOrQuit(memcmp(extAddr.m8, buffer, OT_EXT_ADDRESS_SIZE) == 0);
extAddr.CopyTo(buffer, Mac::ExtAddress::kReverseByteOrder);
VerifyOrQuit(CompareReversed(extAddr.m8, buffer, OT_EXT_ADDRESS_SIZE));
extAddr.Set(kExtAddr);
VerifyOrQuit(memcmp(extAddr.m8, kExtAddr, OT_EXT_ADDRESS_SIZE) == 0);
extAddr.Set(kExtAddr, Mac::ExtAddress::kReverseByteOrder);
VerifyOrQuit(CompareReversed(extAddr.m8, kExtAddr, OT_EXT_ADDRESS_SIZE));
extAddr.SetLocal(true);
VerifyOrQuit(extAddr.IsLocal());
extAddr.SetLocal(false);
VerifyOrQuit(!extAddr.IsLocal());
extAddr.ToggleLocal();
VerifyOrQuit(extAddr.IsLocal());
extAddr.ToggleLocal();
VerifyOrQuit(!extAddr.IsLocal());
extAddr.SetGroup(true);
VerifyOrQuit(extAddr.IsGroup());
extAddr.SetGroup(false);
VerifyOrQuit(!extAddr.IsGroup());
extAddr.ToggleGroup();
VerifyOrQuit(extAddr.IsGroup());
extAddr.ToggleGroup();
VerifyOrQuit(!extAddr.IsGroup());
// Mac::Address
VerifyOrQuit(addr.IsNone(), "Address constructor failed");
VerifyOrQuit(addr.GetType() == Mac::Address::kTypeNone);
addr.SetShort(kShortAddr);
VerifyOrQuit(addr.GetType() == Mac::Address::kTypeShort);
VerifyOrQuit(addr.IsShort(), "Address::SetShort() failed");
VerifyOrQuit(!addr.IsExtended(), "Address::SetShort() failed");
VerifyOrQuit(addr.GetShort() == kShortAddr);
addr.SetExtended(extAddr);
VerifyOrQuit(addr.GetType() == Mac::Address::kTypeExtended);
VerifyOrQuit(!addr.IsShort(), "Address::SetExtended() failed");
VerifyOrQuit(addr.IsExtended(), "Address::SetExtended() failed");
VerifyOrQuit(addr.GetExtended() == extAddr);
addr.SetExtended(extAddr.m8, Mac::ExtAddress::kReverseByteOrder);
VerifyOrQuit(addr.GetType() == Mac::Address::kTypeExtended);
VerifyOrQuit(!addr.IsShort(), "Address::SetExtended() failed");
VerifyOrQuit(addr.IsExtended(), "Address::SetExtended() failed");
VerifyOrQuit(CompareReversed(addr.GetExtended().m8, extAddr.m8, OT_EXT_ADDRESS_SIZE),
"Address::SetExtended() reverse byte order failed");
addr.SetNone();
VerifyOrQuit(addr.GetType() == Mac::Address::kTypeNone);
VerifyOrQuit(addr.IsNone(), "Address:SetNone() failed");
VerifyOrQuit(!addr.IsShort(), "Address::SetNone() failed");
VerifyOrQuit(!addr.IsExtended(), "Address::SetNone() failed");
VerifyOrQuit(!addr.IsBroadcast(), "Address:SetNone() failed");
VerifyOrQuit(!addr.IsShortAddrInvalid());
addr.SetExtended(extAddr);
VerifyOrQuit(!addr.IsBroadcast());
VerifyOrQuit(!addr.IsShortAddrInvalid());
addr.SetShort(kShortAddr);
VerifyOrQuit(!addr.IsBroadcast());
VerifyOrQuit(!addr.IsShortAddrInvalid());
addr.SetShort(Mac::kShortAddrBroadcast);
VerifyOrQuit(addr.IsBroadcast());
VerifyOrQuit(!addr.IsShortAddrInvalid());
addr.SetShort(Mac::kShortAddrInvalid);
VerifyOrQuit(!addr.IsBroadcast());
VerifyOrQuit(addr.IsShortAddrInvalid());
testFreeInstance(instance);
}
void TestMacHeader(void)
{
enum AddrType : uint8_t
{
kNoneAddr,
kShrtAddr,
kExtdAddr,
};
enum PanIdMode
{
kNoPanId,
kUsePanId1,
kUsePanId2,
};
struct TestCase
{
Mac::Frame::Version mVersion;
AddrType mSrcAddrType;
PanIdMode mSrcPanIdMode;
AddrType mDstAddrType;
PanIdMode mDstPanIdMode;
Mac::Frame::SecurityLevel mSecurity;
Mac::Frame::KeyIdMode mKeyIdMode;
uint8_t mHeaderLength;
uint8_t mFooterLength;
};
static constexpr Mac::Frame::Version kVer2006 = Mac::Frame::kVersion2006;
static constexpr Mac::Frame::Version kVer2015 = Mac::Frame::kVersion2015;
static constexpr Mac::Frame::SecurityLevel kNoSec = Mac::Frame::kSecurityNone;
static constexpr Mac::Frame::SecurityLevel kMic32 = Mac::Frame::kSecurityMic32;
static constexpr Mac::Frame::KeyIdMode kModeId1 = Mac::Frame::kKeyIdMode1;
static constexpr Mac::Frame::KeyIdMode kModeId2 = Mac::Frame::kKeyIdMode2;
static const char *kAddrTypeStrings[] = {"None", "Short", "Extd"};
static const char *kPanIdModeStrings[] = {"No", "Id1", "Id2"};
static constexpr TestCase kTestCases[] = {
{kVer2006, kNoneAddr, kNoPanId, kNoneAddr, kNoPanId, kNoSec, kModeId1, 3, 2},
{kVer2006, kShrtAddr, kUsePanId1, kNoneAddr, kNoPanId, kNoSec, kModeId1, 7, 2},
{kVer2006, kExtdAddr, kUsePanId1, kNoneAddr, kNoPanId, kNoSec, kModeId1, 13, 2},
{kVer2006, kNoneAddr, kNoPanId, kShrtAddr, kUsePanId1, kNoSec, kModeId1, 7, 2},
{kVer2006, kNoneAddr, kNoPanId, kExtdAddr, kUsePanId1, kNoSec, kModeId1, 13, 2},
{kVer2006, kShrtAddr, kUsePanId1, kShrtAddr, kUsePanId2, kNoSec, kModeId1, 11, 2},
{kVer2006, kShrtAddr, kUsePanId1, kExtdAddr, kUsePanId2, kNoSec, kModeId1, 17, 2},
{kVer2006, kExtdAddr, kUsePanId1, kShrtAddr, kUsePanId2, kNoSec, kModeId1, 17, 2},
{kVer2006, kExtdAddr, kUsePanId1, kExtdAddr, kUsePanId2, kNoSec, kModeId1, 23, 2},
{kVer2006, kShrtAddr, kUsePanId1, kShrtAddr, kUsePanId1, kNoSec, kModeId1, 9, 2},
{kVer2006, kShrtAddr, kUsePanId1, kExtdAddr, kUsePanId1, kNoSec, kModeId1, 15, 2},
{kVer2006, kExtdAddr, kUsePanId1, kShrtAddr, kUsePanId1, kNoSec, kModeId1, 15, 2},
{kVer2006, kExtdAddr, kUsePanId1, kExtdAddr, kUsePanId1, kNoSec, kModeId1, 21, 2},
{kVer2006, kShrtAddr, kUsePanId1, kShrtAddr, kUsePanId1, kMic32, kModeId1, 15, 6},
{kVer2006, kShrtAddr, kUsePanId1, kShrtAddr, kUsePanId1, kMic32, kModeId2, 19, 6},
{kVer2015, kNoneAddr, kNoPanId, kNoneAddr, kNoPanId, kNoSec, kModeId1, 3, 2},
{kVer2015, kShrtAddr, kUsePanId1, kNoneAddr, kNoPanId, kNoSec, kModeId1, 7, 2},
{kVer2015, kExtdAddr, kUsePanId1, kNoneAddr, kNoPanId, kNoSec, kModeId1, 13, 2},
{kVer2015, kNoneAddr, kNoPanId, kShrtAddr, kUsePanId1, kNoSec, kModeId1, 7, 2},
{kVer2015, kNoneAddr, kNoPanId, kExtdAddr, kUsePanId1, kNoSec, kModeId1, 13, 2},
{kVer2015, kShrtAddr, kUsePanId1, kShrtAddr, kUsePanId2, kNoSec, kModeId1, 11, 2},
{kVer2015, kShrtAddr, kUsePanId1, kExtdAddr, kUsePanId2, kNoSec, kModeId1, 17, 2},
{kVer2015, kExtdAddr, kUsePanId1, kShrtAddr, kUsePanId2, kNoSec, kModeId1, 17, 2},
{kVer2015, kShrtAddr, kUsePanId1, kShrtAddr, kUsePanId1, kNoSec, kModeId1, 9, 2},
{kVer2015, kShrtAddr, kUsePanId1, kExtdAddr, kUsePanId1, kNoSec, kModeId1, 15, 2},
{kVer2015, kExtdAddr, kUsePanId1, kShrtAddr, kUsePanId1, kNoSec, kModeId1, 15, 2},
{kVer2015, kExtdAddr, kUsePanId1, kExtdAddr, kUsePanId1, kNoSec, kModeId1, 21, 2},
{kVer2015, kShrtAddr, kUsePanId1, kShrtAddr, kUsePanId1, kMic32, kModeId1, 15, 6},
{kVer2015, kShrtAddr, kUsePanId1, kShrtAddr, kUsePanId1, kMic32, kModeId2, 19, 6},
{kVer2015, kNoneAddr, kNoPanId, kShrtAddr, kNoPanId, kNoSec, kModeId1, 5, 2},
{kVer2015, kNoneAddr, kNoPanId, kShrtAddr, kNoPanId, kMic32, kModeId1, 11, 6},
{kVer2015, kNoneAddr, kNoPanId, kNoneAddr, kUsePanId1, kNoSec, kModeId1, 5, 2},
{kVer2015, kNoneAddr, kNoPanId, kNoneAddr, kUsePanId1, kMic32, kModeId1, 11, 6},
{kVer2015, kNoneAddr, kNoPanId, kShrtAddr, kNoPanId, kNoSec, kModeId1, 5, 2},
{kVer2015, kNoneAddr, kNoPanId, kExtdAddr, kNoPanId, kNoSec, kModeId1, 11, 2},
{kVer2015, kNoneAddr, kNoPanId, kShrtAddr, kNoPanId, kMic32, kModeId1, 11, 6},
{kVer2015, kNoneAddr, kNoPanId, kExtdAddr, kNoPanId, kMic32, kModeId1, 17, 6},
{kVer2015, kShrtAddr, kNoPanId, kNoneAddr, kNoPanId, kNoSec, kModeId1, 5, 2},
{kVer2015, kShrtAddr, kNoPanId, kNoneAddr, kNoPanId, kMic32, kModeId1, 11, 6},
{kVer2015, kExtdAddr, kNoPanId, kNoneAddr, kNoPanId, kNoSec, kModeId1, 11, 2},
{kVer2015, kExtdAddr, kNoPanId, kNoneAddr, kNoPanId, kMic32, kModeId1, 17, 6},
{kVer2015, kExtdAddr, kNoPanId, kExtdAddr, kNoPanId, kNoSec, kModeId1, 19, 2},
{kVer2015, kExtdAddr, kNoPanId, kExtdAddr, kNoPanId, kMic32, kModeId1, 25, 6},
};
const uint16_t kPanId1 = 0xbaba;
const uint16_t kPanId2 = 0xdede;
const uint16_t kShortAddr1 = 0x1234;
const uint16_t kShortAddr2 = 0x5678;
const uint8_t kExtAddr1[] = {0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0};
const uint8_t kExtAddr2[] = {0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88};
char string[100];
Mac::ExtAddress extAddr1;
Mac::ExtAddress extAddr2;
extAddr1.Set(kExtAddr1);
extAddr2.Set(kExtAddr2);
printf("TestMacHeader\n");
for (const TestCase &testCase : kTestCases)
{
uint8_t psdu[OT_RADIO_FRAME_MAX_SIZE];
Mac::TxFrame frame;
Mac::Addresses addresses;
Mac::Address address;
Mac::PanIds panIds;
Mac::PanId panId;
frame.mPsdu = psdu;
frame.mLength = 0;
frame.mRadioType = 0;
VerifyOrQuit(addresses.mSource.IsNone());
VerifyOrQuit(addresses.mDestination.IsNone());
VerifyOrQuit(!panIds.IsSourcePresent());
VerifyOrQuit(!panIds.IsDestinationPresent());
switch (testCase.mSrcAddrType)
{
case kNoneAddr:
addresses.mSource.SetNone();
break;
case kShrtAddr:
addresses.mSource.SetShort(kShortAddr1);
break;
case kExtdAddr:
addresses.mSource.SetExtended(extAddr1);
break;
}
switch (testCase.mDstAddrType)
{
case kNoneAddr:
addresses.mDestination.SetNone();
break;
case kShrtAddr:
addresses.mDestination.SetShort(kShortAddr2);
break;
case kExtdAddr:
addresses.mDestination.SetExtended(extAddr2);
break;
}
switch (testCase.mSrcPanIdMode)
{
case kNoPanId:
break;
case kUsePanId1:
panIds.SetSource(kPanId1);
break;
case kUsePanId2:
panIds.SetSource(kPanId2);
break;
}
switch (testCase.mDstPanIdMode)
{
case kNoPanId:
break;
case kUsePanId1:
panIds.SetDestination(kPanId1);
break;
case kUsePanId2:
panIds.SetDestination(kPanId2);
break;
}
frame.InitMacHeader(Mac::Frame::kTypeData, testCase.mVersion, addresses, panIds, testCase.mSecurity,
testCase.mKeyIdMode);
VerifyOrQuit(frame.GetHeaderLength() == testCase.mHeaderLength);
VerifyOrQuit(frame.GetFooterLength() == testCase.mFooterLength);
VerifyOrQuit(frame.GetLength() == testCase.mHeaderLength + testCase.mFooterLength);
VerifyOrQuit(frame.GetType() == Mac::Frame::kTypeData);
VerifyOrQuit(!frame.IsAck());
VerifyOrQuit(frame.GetVersion() == testCase.mVersion);
VerifyOrQuit(frame.GetSecurityEnabled() == (testCase.mSecurity != kNoSec));
VerifyOrQuit(!frame.GetFramePending());
VerifyOrQuit(!frame.IsIePresent());
VerifyOrQuit(frame.GetAckRequest() == (testCase.mDstAddrType != kNoneAddr));
VerifyOrQuit(frame.IsSrcAddrPresent() == (testCase.mSrcAddrType != kNoneAddr));
SuccessOrQuit(frame.GetSrcAddr(address));
VerifyOrQuit(CompareAddresses(address, addresses.mSource));
VerifyOrQuit(frame.IsDstAddrPresent() == (testCase.mDstAddrType != kNoneAddr));
SuccessOrQuit(frame.GetDstAddr(address));
VerifyOrQuit(CompareAddresses(address, addresses.mDestination));
VerifyOrQuit(frame.IsDstPanIdPresent() == (testCase.mDstPanIdMode != kNoPanId));
if (frame.IsDstPanIdPresent())
{
SuccessOrQuit(frame.GetDstPanId(panId));
VerifyOrQuit(panId == panIds.GetDestination());
VerifyOrQuit(panIds.IsDestinationPresent());
}
if (frame.IsSrcPanIdPresent())
{
SuccessOrQuit(frame.GetSrcPanId(panId));
VerifyOrQuit(panId == panIds.GetSource());
VerifyOrQuit(panIds.IsSourcePresent());
}
if (frame.GetSecurityEnabled())
{
uint8_t security;
uint8_t keyIdMode;
SuccessOrQuit(frame.GetSecurityLevel(security));
VerifyOrQuit(security == testCase.mSecurity);
SuccessOrQuit(frame.GetKeyIdMode(keyIdMode));
VerifyOrQuit(keyIdMode == testCase.mKeyIdMode);
}
snprintf(string, sizeof(string), "\nver:%s, src[addr:%s, pan:%s], dst[addr:%s, pan:%s], sec:%s",
(testCase.mVersion == kVer2006) ? "2006" : "2015", kAddrTypeStrings[testCase.mSrcAddrType],
kPanIdModeStrings[testCase.mSrcPanIdMode], kAddrTypeStrings[testCase.mDstAddrType],
kPanIdModeStrings[testCase.mDstPanIdMode], testCase.mSecurity == kNoSec ? "no" : "mic32");
DumpBuffer(string, frame.GetPsdu(), frame.GetLength());
}
}
void VerifyChannelMaskContent(const Mac::ChannelMask &aMask, uint8_t *aChannels, uint8_t aLength)
{
uint8_t index = 0;
uint8_t channel;
for (channel = Radio::kChannelMin; channel <= Radio::kChannelMax; channel++)
{
if (index < aLength)
{
if (channel == aChannels[index])
{
index++;
VerifyOrQuit(aMask.ContainsChannel(channel));
}
else
{
VerifyOrQuit(!aMask.ContainsChannel(channel));
}
}
}
index = 0;
channel = Mac::ChannelMask::kChannelIteratorFirst;
while (aMask.GetNextChannel(channel) == kErrorNone)
{
VerifyOrQuit(channel == aChannels[index++], "ChannelMask.GetNextChannel() failed");
}
VerifyOrQuit(index == aLength, "ChannelMask.GetNextChannel() failed");
if (aLength == 1)
{
VerifyOrQuit(aMask.IsSingleChannel());
}
else
{
VerifyOrQuit(!aMask.IsSingleChannel());
}
VerifyOrQuit(aLength == aMask.GetNumberOfChannels());
}
void TestMacChannelMask(void)
{
uint8_t allChannels[] = {11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26};
uint8_t channels1[] = {11, 14, 15, 16, 17, 20, 21, 22, 24, 25};
uint8_t channels2[] = {14, 21, 26};
uint8_t channels3[] = {14, 21};
uint8_t channles4[] = {20};
static const char kEmptyMaskString[] = "{ }";
static const char kAllChannelsString[] = "{ 11-26 }";
static const char kChannels1String[] = "{ 11, 14-17, 20-22, 24, 25 }";
static const char kChannels2String[] = "{ 14, 21, 26 }";
static const char kChannels3String[] = "{ 14, 21 }";
static const char kChannels4String[] = "{ 20 }";
Mac::ChannelMask mask1;
Mac::ChannelMask mask2(Radio::kSupportedChannels);
printf("Testing Mac::ChannelMask\n");
VerifyOrQuit(mask1.IsEmpty());
printf("empty = %s\n", mask1.ToString().AsCString());
VerifyOrQuit(strcmp(mask1.ToString().AsCString(), kEmptyMaskString) == 0);
VerifyOrQuit(!mask2.IsEmpty());
VerifyOrQuit(mask2.GetMask() == Radio::kSupportedChannels);
printf("allChannels = %s\n", mask2.ToString().AsCString());
VerifyOrQuit(strcmp(mask2.ToString().AsCString(), kAllChannelsString) == 0);
mask1.SetMask(Radio::kSupportedChannels);
VerifyOrQuit(!mask1.IsEmpty());
VerifyOrQuit(mask1.GetMask() == Radio::kSupportedChannels);
VerifyChannelMaskContent(mask1, allChannels, sizeof(allChannels));
// Test ChannelMask::RemoveChannel()
for (size_t index = 0; index < sizeof(allChannels) - 1; index++)
{
mask1.RemoveChannel(allChannels[index]);
VerifyChannelMaskContent(mask1, &allChannels[index + 1], sizeof(allChannels) - 1 - index);
}
mask1.Clear();
VerifyOrQuit(mask1.IsEmpty());
VerifyChannelMaskContent(mask1, nullptr, 0);
for (uint8_t channel : channels1)
{
mask1.AddChannel(channel);
}
printf("channels1 = %s\n", mask1.ToString().AsCString());
VerifyOrQuit(strcmp(mask1.ToString().AsCString(), kChannels1String) == 0);
VerifyOrQuit(!mask1.IsEmpty());
VerifyChannelMaskContent(mask1, channels1, sizeof(channels1));
mask2.Clear();
for (uint8_t channel : channels2)
{
mask2.AddChannel(channel);
}
printf("channels2 = %s\n", mask2.ToString().AsCString());
VerifyOrQuit(strcmp(mask2.ToString().AsCString(), kChannels2String) == 0);
VerifyOrQuit(!mask2.IsEmpty());
VerifyChannelMaskContent(mask2, channels2, sizeof(channels2));
mask1.Intersect(mask2);
VerifyChannelMaskContent(mask1, channels3, sizeof(channels3));
printf("channels3 = %s\n", mask1.ToString().AsCString());
VerifyOrQuit(strcmp(mask1.ToString().AsCString(), kChannels3String) == 0);
mask2.Clear();
mask2.AddChannel(channles4[0]);
VerifyChannelMaskContent(mask2, channles4, sizeof(channles4));
printf("channels4 = %s\n", mask2.ToString().AsCString());
VerifyOrQuit(strcmp(mask2.ToString().AsCString(), kChannels4String) == 0);
mask1.Clear();
mask2.Clear();
VerifyOrQuit(mask1 == mask2);
mask1.SetMask(Radio::kSupportedChannels);
mask2.SetMask(Radio::kSupportedChannels);
VerifyOrQuit(mask1 == mask2);
mask1.Clear();
VerifyOrQuit(mask1 != mask2);
}
void TestMacFrameApi(void)
{
uint8_t ack_psdu1[] = {0x02, 0x10, 0x5e, 0xd2, 0x9b};
uint8_t mac_cmd_psdu1[] = {0x6b, 0xdc, 0x85, 0xce, 0xfa, 0x47, 0x36, 0x07, 0xd9, 0x74, 0x45, 0x8d,
0xb2, 0x6e, 0x81, 0x25, 0xc9, 0xdb, 0xac, 0x2b, 0x0a, 0x0d, 0x00, 0x00,
0x00, 0x00, 0x01, 0x04, 0xaf, 0x14, 0xce, 0xaa, 0x5a, 0xe5};
Mac::Frame frame;
#if (OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2)
uint8_t data_psdu1[] = {0x29, 0xee, 0x53, 0xce, 0xfa, 0x01, 0x00, 0x00, 0x00, 0x00, 0x0a, 0x6e, 0x16, 0x05,
0x00, 0x00, 0x00, 0x00, 0x0a, 0x6e, 0x16, 0x0d, 0x01, 0x00, 0x00, 0x00, 0x01};
uint8_t mac_cmd_psdu2[] = {0x6b, 0xaa, 0x8d, 0xce, 0xfa, 0x00, 0x68, 0x01, 0x68, 0x0d,
0x08, 0x00, 0x00, 0x00, 0x01, 0x04, 0x0d, 0xed, 0x0b, 0x35,
0x0c, 0x80, 0x3f, 0x04, 0x4b, 0x88, 0x89, 0xd6, 0x59, 0xe1};
uint8_t scf; // SecurityControlField
#endif
// Imm-Ack, Sequence Number: 94
// Frame Control Field: 0x1002
// .... .... .... .010 = Frame Type: Ack (0x2)
// .... .... .... 0... = Security Enabled: False
// .... .... ...0 .... = Frame Pending: False
// .... .... ..0. .... = Acknowledge Request: False
// .... .... .0.. .... = PAN ID Compression: False
// .... ...0 .... .... = Sequence Number Suppression: False
// .... ..0. .... .... = Information Elements Present: False
// .... 00.. .... .... = Destination Addressing Mode: None (0x0)
// ..01 .... .... .... = Frame Version: IEEE Std 802.15.4-2006 (1)
// 00.. .... .... .... = Source Addressing Mode: None (0x0)
// Sequence Number: 94
// FCS: 0x9bd2 (Correct)
frame.mPsdu = ack_psdu1;
frame.mLength = sizeof(ack_psdu1);
VerifyOrQuit(frame.GetType() == Mac::Frame::kTypeAck);
VerifyOrQuit(!frame.GetSecurityEnabled());
VerifyOrQuit(!frame.GetFramePending());
VerifyOrQuit(!frame.GetAckRequest());
VerifyOrQuit(!frame.IsIePresent());
VerifyOrQuit(!frame.IsDstPanIdPresent());
VerifyOrQuit(!frame.IsDstAddrPresent());
VerifyOrQuit(frame.GetVersion() == Mac::Frame::kVersion2006);
VerifyOrQuit(!frame.IsSrcAddrPresent());
VerifyOrQuit(frame.GetSequence() == 94);
#if (OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2)
// IEEE 802.15.4-2015 Data
// Sequence Number: 83
// Destination PAN: 0xface
// Destination: 16:6e:0a:00:00:00:00:01
// Extended Source: 16:6e:0a:00:00:00:00:05
// Auxiliary Security Header
// Security Control Field: 0x0d
frame.mPsdu = data_psdu1;
frame.mLength = sizeof(data_psdu1);
VerifyOrQuit(frame.IsVersion2015());
VerifyOrQuit(frame.IsDstPanIdPresent());
VerifyOrQuit(frame.IsDstAddrPresent());
VerifyOrQuit(frame.IsSrcAddrPresent());
SuccessOrQuit(frame.GetSecurityControlField(scf));
VerifyOrQuit(scf == 0x0d);
frame.SetSecurityControlField(0xff);
SuccessOrQuit(frame.GetSecurityControlField(scf));
VerifyOrQuit(scf == 0xff);
#endif // OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2
// IEEE 802.15.4-2006 Mac Command
// Sequence Number: 133
// Command Identifier: Data Request (0x04)
uint8_t commandId;
frame.mPsdu = mac_cmd_psdu1;
frame.mLength = sizeof(mac_cmd_psdu1);
VerifyOrQuit(frame.GetSequence() == 133);
VerifyOrQuit(frame.GetVersion() == Mac::Frame::kVersion2006);
VerifyOrQuit(frame.GetType() == Mac::Frame::kTypeMacCmd);
SuccessOrQuit(frame.GetCommandId(commandId));
VerifyOrQuit(commandId == Mac::Frame::kMacCmdDataRequest);
SuccessOrQuit(frame.SetCommandId(Mac::Frame::kMacCmdBeaconRequest));
SuccessOrQuit(frame.GetCommandId(commandId));
VerifyOrQuit(commandId == Mac::Frame::kMacCmdBeaconRequest);
#if (OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2)
// IEEE 802.15.4-2015 Mac Command
// Sequence Number: 141
// Header IEs
// CSL IE
// Header Termination 2 IE (Payload follows)
// Command Identifier: Data Request (0x04)
frame.mPsdu = mac_cmd_psdu2;
frame.mLength = sizeof(mac_cmd_psdu2);
VerifyOrQuit(frame.GetSequence() == 141);
VerifyOrQuit(frame.IsVersion2015());
VerifyOrQuit(frame.GetType() == Mac::Frame::kTypeMacCmd);
SuccessOrQuit(frame.GetCommandId(commandId));
VerifyOrQuit(commandId == Mac::Frame::kMacCmdDataRequest);
printf("commandId:%d\n", commandId);
SuccessOrQuit(frame.SetCommandId(Mac::Frame::kMacCmdOrphanNotification));
SuccessOrQuit(frame.GetCommandId(commandId));
VerifyOrQuit(commandId == Mac::Frame::kMacCmdOrphanNotification);
#endif
}
void TestMacFrameAckGeneration(void)
{
constexpr uint8_t kImmAckLength = 5;
Mac::RxFrame receivedFrame;
Mac::TxFrame ackFrame;
uint8_t ackFrameBuffer[100];
ackFrame.mPsdu = ackFrameBuffer;
ackFrame.mLength = sizeof(ackFrameBuffer);
// Received Frame 1
// IEEE 802.15.4 Data
// Frame Control Field: 0xdc61
// .... .... .... .001 = Frame Type: Data (0x1)
// .... .... .... 0... = Security Enabled: False
// .... .... ...0 .... = Frame Pending: False
// .... .... ..1. .... = Acknowledge Request: True
// .... .... .1.. .... = PAN ID Compression: True
// .... ...0 .... .... = Sequence Number Suppression: False
// .... ..0. .... .... = Information Elements Present: False
// .... 11.. .... .... = Destination Addressing Mode: Long/64-bit (0x3)
// ..01 .... .... .... = Frame Version: IEEE Std 802.15.4-2006 (1)
// 11.. .... .... .... = Source Addressing Mode: Long/64-bit (0x3)
// Sequence Number: 189
// Destination PAN: 0xface
// Destination: 16:6e:0a:00:00:00:00:01 (16:6e:0a:00:00:00:00:01)
// Extended Source: 16:6e:0a:00:00:00:00:02 (16:6e:0a:00:00:00:00:02)
uint8_t data_psdu1[] = {0x61, 0xdc, 0xbd, 0xce, 0xfa, 0x01, 0x00, 0x00, 0x00, 0x00, 0x0a, 0x6e, 0x16, 0x02,
0x00, 0x00, 0x00, 0x00, 0x0a, 0x6e, 0x16, 0x7f, 0x33, 0xf0, 0x4d, 0x4c, 0x4d, 0x4c,
0x8b, 0xf0, 0x00, 0x15, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0xc2,
0x57, 0x9c, 0x31, 0xb3, 0x2a, 0xa1, 0x86, 0xba, 0x9a, 0xed, 0x5a, 0xb9, 0xa3, 0x59,
0x88, 0xeb, 0xbb, 0x0d, 0xc3, 0xed, 0xeb, 0x8a, 0x53, 0xa6, 0xed, 0xf7, 0xdd, 0x45,
0x6e, 0xf7, 0x9a, 0x17, 0xb4, 0xab, 0xc6, 0x75, 0x71, 0x46, 0x37, 0x93, 0x4a, 0x32,
0xb1, 0x21, 0x9f, 0x9d, 0xb3, 0x65, 0x27, 0xd5, 0xfc, 0x50, 0x16, 0x90, 0xd2, 0xd4};
receivedFrame.mPsdu = data_psdu1;
receivedFrame.mLength = sizeof(data_psdu1);
ackFrame.GenerateImmAck(receivedFrame, false);
VerifyOrQuit(ackFrame.mLength == kImmAckLength);
VerifyOrQuit(ackFrame.GetType() == Mac::Frame::kTypeAck);
VerifyOrQuit(!ackFrame.GetSecurityEnabled());
VerifyOrQuit(!ackFrame.GetFramePending());
VerifyOrQuit(!ackFrame.GetAckRequest());
VerifyOrQuit(!ackFrame.IsIePresent());
VerifyOrQuit(!ackFrame.IsDstPanIdPresent());
VerifyOrQuit(!ackFrame.IsDstAddrPresent());
VerifyOrQuit(!ackFrame.IsSrcAddrPresent());
VerifyOrQuit(ackFrame.GetVersion() == Mac::Frame::kVersion2006);
VerifyOrQuit(ackFrame.GetSequence() == 189);
#if (OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2)
// Received Frame 2
// IEEE 802.15.4 Data
// Frame Control Field: 0xa869, Frame Type: Data, Security Enabled, Acknowledge Request, PAN ID Compression,
// Destination Addressing Mode: Short/16-bit, Frame Version: IEEE Std 802.15.4-2015, Source Addressing Mode:
// Short/16-bit
// .... .... .... .001 = Frame Type: Data (0x1)
// .... .... .... 1... = Security Enabled: True
// .... .... ...0 .... = Frame Pending: False
// .... .... ..1. .... = Acknowledge Request: True
// .... .... .1.. .... = PAN ID Compression: True
// .... ...0 .... .... = Sequence Number Suppression: False
// .... ..0. .... .... = Information Elements Present: False
// .... 10.. .... .... = Destination Addressing Mode: Short/16-bit (0x2)
// ..10 .... .... .... = Frame Version: IEEE Std 802.15.4-2015 (2)
// 10.. .... .... .... = Source Addressing Mode: Short/16-bit (0x2)
// Sequence Number: 142
// Destination PAN: 0xface
// Destination: 0x2402
// Source: 0x2400
// [Extended Source: 16:6e:0a:00:00:00:00:01 (16:6e:0a:00:00:00:00:01)]
// [Origin: 2]
// Auxiliary Security Header
// Security Control Field: 0x0d, Security Level: Encryption with 32-bit Message Integrity Code, Key Identifier
// Mode: Indexed Key using the Default Key Source
// .... .101 = Security Level: Encryption with 32-bit Message Integrity Code (0x5)
// ...0 1... = Key Identifier Mode: Indexed Key using the Default Key Source (0x1)
// ..0. .... = Frame Counter Suppression: False
// .0.. .... = ASN in Nonce: False
// 0... .... = Reserved: 0x0
// Frame Counter: 2
// Key Identifier Field
// Key Index: 0x01
// MIC: f94e5870
// [Key Number: 0]
// FCS: 0x8c40 (Correct)
uint8_t data_psdu2[] = {0x69, 0xa8, 0x8e, 0xce, 0xfa, 0x02, 0x24, 0x00, 0x24, 0x0d, 0x02,
0x00, 0x00, 0x00, 0x01, 0x6b, 0x64, 0x60, 0x08, 0x55, 0xb8, 0x10,
0x18, 0xc7, 0x40, 0x2e, 0xfb, 0xf3, 0xda, 0xf9, 0x4e, 0x58, 0x70};
receivedFrame.mPsdu = data_psdu2;
receivedFrame.mLength = sizeof(data_psdu2);
uint8_t ie_data[6] = {0x04, 0x0d, 0x21, 0x0c, 0x35, 0x0c};
Mac::CslIe *csl;
SuccessOrQuit(ackFrame.GenerateEnhAck(receivedFrame, false, ie_data, sizeof(ie_data)));
csl = reinterpret_cast<Mac::CslIe *>(ackFrame.GetHeaderIe(Mac::CslIe::kHeaderIeId) + sizeof(Mac::HeaderIe));
VerifyOrQuit(ackFrame.mLength == 25);
VerifyOrQuit(ackFrame.GetType() == Mac::Frame::kTypeAck);
VerifyOrQuit(ackFrame.GetSecurityEnabled());
VerifyOrQuit(ackFrame.IsIePresent());
VerifyOrQuit(ackFrame.IsDstPanIdPresent());
VerifyOrQuit(ackFrame.IsDstAddrPresent());
VerifyOrQuit(!ackFrame.IsSrcAddrPresent());
VerifyOrQuit(ackFrame.GetVersion() == Mac::Frame::kVersion2015);
VerifyOrQuit(ackFrame.GetSequence() == 142);
VerifyOrQuit(csl->GetPeriod() == 3125 && csl->GetPhase() == 3105);
#if OPENTHREAD_CONFIG_MAC_CSL_RECEIVER_ENABLE
ackFrame.SetCslIe(123, 456);
csl = reinterpret_cast<Mac::CslIe *>(ackFrame.GetHeaderIe(Mac::CslIe::kHeaderIeId) + sizeof(Mac::HeaderIe));
VerifyOrQuit(csl->GetPeriod() == 123 && csl->GetPhase() == 456);
#endif
#endif // (OPENTHREAD_CONFIG_THREAD_VERSION >= OT_THREAD_VERSION_1_2)
}
} // namespace ot
int main(void)
{
ot::TestMacAddress();
ot::TestMacHeader();
ot::TestMacChannelMask();
ot::TestMacFrameApi();
ot::TestMacFrameAckGeneration();
printf("All tests passed\n");
return 0;
}