Files
openthread/tests/unit/test_priority_queue.cpp
T
Abtin Keshavarzian 8f112eeb5a [locator] adding Get<Type> to InstanceLocator (#3714)
This commit changes how the objects in OpenThread access each other.
It adds a template `Get<Type>()` method in `InstanceLocator`. This
method returns a reference to a given `Type` object belonging to the
OpenThread instance (e.g. `Get<MeshForwarder>()` returns a reference
to `MeshForwarder` object on the OpenThread instance). The
`InstanceLocator` is used as base class of all OpenThread classes so
every class can easily access any other object. This commit also
changes how the main instance is retrieved in `InstanceLocator` for
the single-instance case. The method `GetInstance()` directly uses the
raw buffer `gInstanceRaw`. This change helps make the `GetInstance()`
and in turn all `Get<Type>()` methods in-line. This commit also
removes the existing getters across all classes to use the new
`Get<Type>()` model.
2019-04-02 09:07:25 -07:00

443 lines
23 KiB
C++

/*
* 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 <stdarg.h>
#include "common/debug.hpp"
#include "common/instance.hpp"
#include "common/message.hpp"
#include "utils/wrap_string.h"
#include "test_platform.h"
#include "test_util.h"
#define kNumNewPriorityTestMessages 2
#define kNumSetPriorityTestMessages 2
#define kNumTestMessages (kNumNewPriorityTestMessages + kNumSetPriorityTestMessages)
// This function verifies the content of the priority queue to match the passed in messages
void VerifyPriorityQueueContent(ot::PriorityQueue &aPriorityQueue, int aExpectedLength, ...)
{
va_list args;
ot::Message *message;
ot::Message *msgArg;
int8_t curPriority = ot::Message::kNumPriorities;
uint16_t msgCount, bufCount;
// Check the `GetInfo`
aPriorityQueue.GetInfo(msgCount, bufCount);
VerifyOrQuit(msgCount == aExpectedLength, "GetInfo() result does not match expected len.\n");
va_start(args, aExpectedLength);
if (aExpectedLength == 0)
{
message = aPriorityQueue.GetHead();
VerifyOrQuit(message == NULL, "PriorityQueue is not empty when expected len is zero.\n");
VerifyOrQuit(aPriorityQueue.GetHeadForPriority(ot::Message::kPriorityLow) == NULL,
"GetHeadForPriority() non-NULL when empty\n");
VerifyOrQuit(aPriorityQueue.GetHeadForPriority(ot::Message::kPriorityNormal) == NULL,
"GetHeadForPriority() non-NULL when empty\n");
VerifyOrQuit(aPriorityQueue.GetHeadForPriority(ot::Message::kPriorityHigh) == NULL,
"GetHeadForPriority() non-NULL when empty\n");
VerifyOrQuit(aPriorityQueue.GetHeadForPriority(ot::Message::kPriorityNet) == NULL,
"GetHeadForPriority() non-NULL when empty\n");
}
else
{
// Go through all messages in the queue and verify they match the passed-in messages
for (message = aPriorityQueue.GetHead(); message != NULL; message = message->GetNext())
{
VerifyOrQuit(aExpectedLength != 0, "PriorityQueue contains more entries than expected.\n");
msgArg = va_arg(args, ot::Message *);
if (msgArg->GetPriority() != curPriority)
{
for (curPriority--; curPriority != msgArg->GetPriority(); curPriority--)
{
// Check the `GetHeadForPriority` is NULL if there are no expected message for this priority level.
VerifyOrQuit(
aPriorityQueue.GetHeadForPriority(static_cast<uint8_t>(curPriority)) == NULL,
"PriorityQueue::GetHeadForPriority is non-NULL when no expected msg for this priority.\n");
}
// Check the `GetHeadForPriority`.
VerifyOrQuit(aPriorityQueue.GetHeadForPriority(static_cast<uint8_t>(curPriority)) == msgArg,
"PriorityQueue::GetHeadForPriority failed.\n");
}
// Check the queued message to match the one from argument list
VerifyOrQuit(msgArg == message, "PriorityQueue content does not match what is expected.\n");
aExpectedLength--;
}
VerifyOrQuit(aExpectedLength == 0, "PriorityQueue contains less entries than expected.\n");
// Check the `GetHeadForPriority` is NULL if there are no expected message for any remaining priority level.
for (curPriority--; curPriority >= 0; curPriority--)
{
VerifyOrQuit(aPriorityQueue.GetHeadForPriority(static_cast<uint8_t>(curPriority)) == NULL,
"PriorityQueue::GetHeadForPriority is non-NULL when no expected msg for this priority.\n");
}
}
va_end(args);
}
// This function verifies the content of the all message queue to match the passed in messages
void VerifyAllMessagesContent(ot::MessagePool *aMessagePool, int aExpectedLength, ...)
{
va_list args;
ot::MessagePool::Iterator it;
ot::Message * msgArg;
va_start(args, aExpectedLength);
if (aExpectedLength == 0)
{
VerifyOrQuit(aMessagePool->GetAllMessagesHead().IsEmpty(), "Head is not empty when expected len is zero.\n");
VerifyOrQuit(aMessagePool->GetAllMessagesTail().IsEmpty(), "Tail is not empty when expected len is zero.\n");
}
else
{
for (it = aMessagePool->GetAllMessagesHead(); !it.HasEnded(); it.GoToNext())
{
VerifyOrQuit(aExpectedLength != 0, "AllMessagesQueue contains more entries than expected.\n");
msgArg = va_arg(args, ot::Message *);
VerifyOrQuit(msgArg == it.GetMessage(), "AllMessagesQueue content does not match what is expected.\n");
aExpectedLength--;
}
VerifyOrQuit(aExpectedLength == 0, "AllMessagesQueue contains less entries than expected.\n");
}
va_end(args);
}
// This function verifies the content of the all message queue to match the passed in messages. It goes
// through the AllMessages list in reverse.
void VerifyAllMessagesContentInReverse(ot::MessagePool *aMessagePool, int aExpectedLength, ...)
{
va_list args;
ot::MessagePool::Iterator it;
ot::Message * msgArg;
va_start(args, aExpectedLength);
if (aExpectedLength == 0)
{
VerifyOrQuit(aMessagePool->GetAllMessagesHead().IsEmpty(), "Head is not empty when expected len is zero.\n");
VerifyOrQuit(aMessagePool->GetAllMessagesTail().IsEmpty(), "Tail is not empty when expected len is zero.\n");
}
else
{
for (it = aMessagePool->GetAllMessagesTail(); !it.HasEnded(); it.GoToPrev())
{
VerifyOrQuit(aExpectedLength != 0, "AllMessagesQueue contains more entries than expected.\n");
msgArg = va_arg(args, ot::Message *);
VerifyOrQuit(msgArg == it.GetMessage(), "AllMessagesQueue content does not match what is expected.\n");
aExpectedLength--;
}
VerifyOrQuit(aExpectedLength == 0, "AllMessagesQueue contains less entries than expected.\n");
}
va_end(args);
}
// This function verifies the content of the message queue to match the passed in messages
void VerifyMsgQueueContent(ot::MessageQueue &aMessageQueue, int aExpectedLength, ...)
{
va_list args;
ot::Message *message;
ot::Message *msgArg;
va_start(args, aExpectedLength);
if (aExpectedLength == 0)
{
message = aMessageQueue.GetHead();
VerifyOrQuit(message == NULL, "MessageQueue is not empty when expected len is zero.\n");
}
else
{
for (message = aMessageQueue.GetHead(); message != NULL; message = message->GetNext())
{
VerifyOrQuit(aExpectedLength != 0, "MessageQueue contains more entries than expected\n");
msgArg = va_arg(args, ot::Message *);
VerifyOrQuit(msgArg == message, "MessageQueue content does not match what is expected.\n");
aExpectedLength--;
}
VerifyOrQuit(aExpectedLength == 0, "MessageQueue contains less entries than expected\n");
}
va_end(args);
}
void TestPriorityQueue(void)
{
ot::Instance * instance;
ot::MessagePool * messagePool;
ot::PriorityQueue queue;
ot::MessageQueue messageQueue;
ot::Message * msgNet[kNumTestMessages];
ot::Message * msgHigh[kNumTestMessages];
ot::Message * msgNor[kNumTestMessages];
ot::Message * msgLow[kNumTestMessages];
ot::MessagePool::Iterator it;
instance = testInitInstance();
VerifyOrQuit(instance != NULL, "Null OpenThread instance\n");
messagePool = &instance->Get<ot::MessagePool>();
// Use the function "New()" to allocate messages with different priorities
for (int i = 0; i < kNumNewPriorityTestMessages; i++)
{
msgNet[i] = messagePool->New(ot::Message::kTypeIp6, 0, ot::Message::kPriorityNet);
VerifyOrQuit(msgNet[i] != NULL, "Message::New failed\n");
msgHigh[i] = messagePool->New(ot::Message::kTypeIp6, 0, ot::Message::kPriorityHigh);
VerifyOrQuit(msgHigh[i] != NULL, "Message::New failed\n");
msgNor[i] = messagePool->New(ot::Message::kTypeIp6, 0, ot::Message::kPriorityNormal);
VerifyOrQuit(msgNor[i] != NULL, "Message::New failed\n");
msgLow[i] = messagePool->New(ot::Message::kTypeIp6, 0, ot::Message::kPriorityLow);
VerifyOrQuit(msgLow[i] != NULL, "Message::New failed\n");
}
// Check the failure case for `New()` for invalid argument.
VerifyOrQuit(messagePool->New(ot::Message::kTypeIp6, 0, ot::Message::kNumPriorities) == NULL,
"Message::New() with out of range value did not fail as expected.\n");
// Use the function "SetPriority()" to allocate messages with different priorities
for (int i = kNumNewPriorityTestMessages; i < kNumTestMessages; i++)
{
msgNet[i] = messagePool->New(ot::Message::kTypeIp6, 0);
VerifyOrQuit(msgNet[i] != NULL, "Message::New failed\n");
SuccessOrQuit(msgNet[i]->SetPriority(ot::Message::kPriorityNet), "Message:SetPriority failed\n");
msgHigh[i] = messagePool->New(ot::Message::kTypeIp6, 0);
VerifyOrQuit(msgHigh[i] != NULL, "Message::New failed\n");
SuccessOrQuit(msgHigh[i]->SetPriority(ot::Message::kPriorityHigh), "Message:SetPriority failed\n");
msgNor[i] = messagePool->New(ot::Message::kTypeIp6, 0);
VerifyOrQuit(msgNor[i] != NULL, "Message::New failed\n");
SuccessOrQuit(msgNor[i]->SetPriority(ot::Message::kPriorityNormal), "Message:SetPriority failed\n");
msgLow[i] = messagePool->New(ot::Message::kTypeIp6, 0);
VerifyOrQuit(msgLow[i] != NULL, "Message::New failed\n");
SuccessOrQuit(msgLow[i]->SetPriority(ot::Message::kPriorityLow), "Message:SetPriority failed\n");
}
// Check the failure case for `SetPriority()` for invalid argument.
VerifyOrQuit(msgNet[2]->SetPriority(ot::Message::kNumPriorities) == OT_ERROR_INVALID_ARGS,
"Message::SetPriority() with out of range value did not fail as expected.\n");
// Check the `GetPriority()`
for (int i = 0; i < kNumTestMessages; i++)
{
VerifyOrQuit(msgLow[i]->GetPriority() == ot::Message::kPriorityLow, "Message::GetPriority failed.\n");
VerifyOrQuit(msgNor[i]->GetPriority() == ot::Message::kPriorityNormal, "Message::GetPriority failed.\n");
VerifyOrQuit(msgHigh[i]->GetPriority() == ot::Message::kPriorityHigh, "Message::GetPriority failed.\n");
VerifyOrQuit(msgNet[i]->GetPriority() == ot::Message::kPriorityNet, "Message::GetPriority failed.\n");
}
// Verify case of an empty queue.
VerifyPriorityQueueContent(queue, 0);
// Add msgs in different orders and check the content of queue.
SuccessOrQuit(queue.Enqueue(*msgHigh[0]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 1, msgHigh[0]);
SuccessOrQuit(queue.Enqueue(*msgHigh[1]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 2, msgHigh[0], msgHigh[1]);
SuccessOrQuit(queue.Enqueue(*msgNet[0]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 3, msgNet[0], msgHigh[0], msgHigh[1]);
SuccessOrQuit(queue.Enqueue(*msgNet[1]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 4, msgNet[0], msgNet[1], msgHigh[0], msgHigh[1]);
SuccessOrQuit(queue.Enqueue(*msgHigh[2]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 5, msgNet[0], msgNet[1], msgHigh[0], msgHigh[1], msgHigh[2]);
SuccessOrQuit(queue.Enqueue(*msgLow[0]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 6, msgNet[0], msgNet[1], msgHigh[0], msgHigh[1], msgHigh[2], msgLow[0]);
SuccessOrQuit(queue.Enqueue(*msgNor[0]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 7, msgNet[0], msgNet[1], msgHigh[0], msgHigh[1], msgHigh[2], msgNor[0],
msgLow[0]);
SuccessOrQuit(queue.Enqueue(*msgHigh[3]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 8, msgNet[0], msgNet[1], msgHigh[0], msgHigh[1], msgHigh[2], msgHigh[3],
msgNor[0], msgLow[0]);
// Check the MessagePool::Iterator methods.
VerifyOrQuit(it.IsEmpty(), "Iterator::IsEmpty() failed to return `true` for an empty iterator.\n");
VerifyOrQuit(it.GetNext().IsEmpty(), "Iterator::IsEmpty() failed to return `true` for an empty iterator.\n");
VerifyOrQuit(it.GetPrev().IsEmpty(), "Iterator::IsEmpty() failed to return `true` for an empty iterator.\n");
it.GoToNext();
VerifyOrQuit(it.IsEmpty(), "Iterator::IsEmpty() failed to return `true` for an empty iterator.\n");
it.GoToNext();
VerifyOrQuit(it.IsEmpty(), "Iterator::IsEmpty() failed to return `true` for an empty iterator.\n");
it = messagePool->GetAllMessagesHead();
VerifyOrQuit(!it.IsEmpty(), "Iterator::IsEmpty() failed to return `false` when it is not empty.\n");
VerifyOrQuit(it.GetMessage() == msgNet[0], "Iterator::GetMessage() failed.\n");
it = it.GetNext();
VerifyOrQuit(!it.IsEmpty(), "Iterator::IsEmpty() failed to return `false` when it is not empty.\n");
VerifyOrQuit(it.GetMessage() == msgNet[1], "Iterator::GetNext() failed.\n");
it = it.GetPrev();
VerifyOrQuit(it.GetMessage() == msgNet[0], "Iterator::GetPrev() failed.\n");
it = it.GetPrev();
VerifyOrQuit(it.HasEnded(), "Iterator::GetPrev() failed to return empty at head.\n");
it = messagePool->GetAllMessagesTail();
it = it.GetNext();
VerifyOrQuit(it.HasEnded(), "Iterator::GetNext() failed to return empty at tail.\n");
// Check the AllMessage queue contents (should match the content of priority queue).
VerifyAllMessagesContent(messagePool, 8, msgNet[0], msgNet[1], msgHigh[0], msgHigh[1], msgHigh[2], msgHigh[3],
msgNor[0], msgLow[0]);
VerifyAllMessagesContentInReverse(messagePool, 8, msgLow[0], msgNor[0], msgHigh[3], msgHigh[2], msgHigh[1],
msgHigh[0], msgNet[1], msgNet[0]);
// Remove messages in different order and check the content of queue in each step.
SuccessOrQuit(queue.Dequeue(*msgNet[0]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 7, msgNet[1], msgHigh[0], msgHigh[1], msgHigh[2], msgHigh[3], msgNor[0],
msgLow[0]);
SuccessOrQuit(queue.Dequeue(*msgHigh[2]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 6, msgNet[1], msgHigh[0], msgHigh[1], msgHigh[3], msgNor[0], msgLow[0]);
SuccessOrQuit(queue.Dequeue(*msgNor[0]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 5, msgNet[1], msgHigh[0], msgHigh[1], msgHigh[3], msgLow[0]);
SuccessOrQuit(queue.Dequeue(*msgHigh[1]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 4, msgNet[1], msgHigh[0], msgHigh[3], msgLow[0]);
SuccessOrQuit(queue.Dequeue(*msgLow[0]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 3, msgNet[1], msgHigh[0], msgHigh[3]);
SuccessOrQuit(queue.Dequeue(*msgNet[1]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 2, msgHigh[0], msgHigh[3]);
SuccessOrQuit(queue.Dequeue(*msgHigh[0]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 1, msgHigh[3]);
SuccessOrQuit(queue.Dequeue(*msgHigh[3]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 0);
VerifyAllMessagesContent(messagePool, 0);
// Check the failure cases: Enqueuing an already queued message, or dequeuing a message not queued.
SuccessOrQuit(queue.Enqueue(*msgNet[0]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 1, msgNet[0]);
VerifyOrQuit(queue.Enqueue(*msgNet[0]) == OT_ERROR_ALREADY,
"Enqueuing an already queued message did not fail as expected.\n");
VerifyOrQuit(queue.Dequeue(*msgHigh[0]) == OT_ERROR_NOT_FOUND,
"Dequeuing a message not queued, did not fail as expected.\n");
SuccessOrQuit(queue.Dequeue(*msgNet[0]), "PriorityQueue::Dequeue() failed.\n");
VerifyPriorityQueueContent(queue, 0);
// Change the priority of an already queued message and check the order change in the queue.
SuccessOrQuit(queue.Enqueue(*msgNor[0]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 1, msgNor[0]);
SuccessOrQuit(queue.Enqueue(*msgHigh[0]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 2, msgHigh[0], msgNor[0]);
SuccessOrQuit(queue.Enqueue(*msgLow[0]), "PriorityQueue::Enqueue() failed.\n");
VerifyPriorityQueueContent(queue, 3, msgHigh[0], msgNor[0], msgLow[0]);
VerifyAllMessagesContent(messagePool, 3, msgHigh[0], msgNor[0], msgLow[0]);
SuccessOrQuit(msgNor[0]->SetPriority(ot::Message::kPriorityNet),
"SetPriority failed for an already queued message.\n");
VerifyPriorityQueueContent(queue, 3, msgNor[0], msgHigh[0], msgLow[0]);
SuccessOrQuit(msgLow[0]->SetPriority(ot::Message::kPriorityLow),
"SetPriority failed for an already queued message.\n");
VerifyPriorityQueueContent(queue, 3, msgNor[0], msgHigh[0], msgLow[0]);
SuccessOrQuit(msgLow[0]->SetPriority(ot::Message::kPriorityNormal),
"SetPriority failed for an already queued message.\n");
VerifyPriorityQueueContent(queue, 3, msgNor[0], msgHigh[0], msgLow[0]);
SuccessOrQuit(msgLow[0]->SetPriority(ot::Message::kPriorityHigh),
"SetPriority failed for an already queued message.\n");
VerifyPriorityQueueContent(queue, 3, msgNor[0], msgHigh[0], msgLow[0]);
VerifyAllMessagesContent(messagePool, 3, msgNor[0], msgHigh[0], msgLow[0]);
SuccessOrQuit(msgLow[0]->SetPriority(ot::Message::kPriorityNet),
"SetPriority failed for an already queued message.\n");
VerifyPriorityQueueContent(queue, 3, msgNor[0], msgLow[0], msgHigh[0]);
SuccessOrQuit(msgNor[0]->SetPriority(ot::Message::kPriorityNormal),
"SetPriority failed for an already queued message.\n");
SuccessOrQuit(msgLow[0]->SetPriority(ot::Message::kPriorityLow),
"SetPriority failed for an already queued message.\n");
VerifyPriorityQueueContent(queue, 3, msgHigh[0], msgNor[0], msgLow[0]);
VerifyAllMessagesContent(messagePool, 3, msgHigh[0], msgNor[0], msgLow[0]);
VerifyAllMessagesContentInReverse(messagePool, 3, msgLow[0], msgNor[0], msgHigh[0]);
// Checking the AllMessages queue when adding messages from same pool to another queue.
SuccessOrQuit(messageQueue.Enqueue(*msgNor[1]), "MessageQueue::Enqueue() failed.\n");
VerifyAllMessagesContent(messagePool, 4, msgHigh[0], msgNor[0], msgNor[1], msgLow[0]);
SuccessOrQuit(messageQueue.Enqueue(*msgHigh[1]), "MessageQueue::Enqueue() failed.\n");
VerifyAllMessagesContent(messagePool, 5, msgHigh[0], msgHigh[1], msgNor[0], msgNor[1], msgLow[0]);
VerifyAllMessagesContentInReverse(messagePool, 5, msgLow[0], msgNor[1], msgNor[0], msgHigh[1], msgHigh[0]);
SuccessOrQuit(messageQueue.Enqueue(*msgNet[1]), "MessageQueue::Enqueue() failed.\n");
VerifyAllMessagesContent(messagePool, 6, msgNet[1], msgHigh[0], msgHigh[1], msgNor[0], msgNor[1], msgLow[0]);
VerifyMsgQueueContent(messageQueue, 3, msgNor[1], msgHigh[1], msgNet[1]);
// Change priority of message and check that order changes in the AllMessage queue and not in messageQueue.
SuccessOrQuit(msgNor[1]->SetPriority(ot::Message::kPriorityNet),
"SetPriority failed for an already queued message.\n");
VerifyAllMessagesContent(messagePool, 6, msgNet[1], msgNor[1], msgHigh[0], msgHigh[1], msgNor[0], msgLow[0]);
VerifyAllMessagesContentInReverse(messagePool, 6, msgLow[0], msgNor[0], msgHigh[1], msgHigh[0], msgNor[1],
msgNet[1]);
VerifyMsgQueueContent(messageQueue, 3, msgNor[1], msgHigh[1], msgNet[1]);
SuccessOrQuit(msgLow[0]->SetPriority(ot::Message::kPriorityHigh),
"SetPriority failed for an already queued message.\n");
VerifyAllMessagesContent(messagePool, 6, msgNet[1], msgNor[1], msgHigh[0], msgHigh[1], msgLow[0], msgNor[0]);
VerifyPriorityQueueContent(queue, 3, msgHigh[0], msgLow[0], msgNor[0]);
VerifyMsgQueueContent(messageQueue, 3, msgNor[1], msgHigh[1], msgNet[1]);
// Remove messages from the two queues and verify that AllMessage queue is updated correctly.
SuccessOrQuit(queue.Dequeue(*msgHigh[0]), "PriorityQueue::Dequeue() failed.\n");
VerifyAllMessagesContent(messagePool, 5, msgNet[1], msgNor[1], msgHigh[1], msgLow[0], msgNor[0]);
VerifyPriorityQueueContent(queue, 2, msgLow[0], msgNor[0]);
VerifyMsgQueueContent(messageQueue, 3, msgNor[1], msgHigh[1], msgNet[1]);
SuccessOrQuit(messageQueue.Dequeue(*msgNet[1]), "MessageQueue::Dequeue() failed.\n");
VerifyAllMessagesContent(messagePool, 4, msgNor[1], msgHigh[1], msgLow[0], msgNor[0]);
VerifyPriorityQueueContent(queue, 2, msgLow[0], msgNor[0]);
VerifyMsgQueueContent(messageQueue, 2, msgNor[1], msgHigh[1]);
SuccessOrQuit(messageQueue.Dequeue(*msgHigh[1]), "MessageQueue::Dequeue() failed.\n");
VerifyAllMessagesContent(messagePool, 3, msgNor[1], msgLow[0], msgNor[0]);
VerifyPriorityQueueContent(queue, 2, msgLow[0], msgNor[0]);
VerifyMsgQueueContent(messageQueue, 1, msgNor[1]);
SuccessOrQuit(queue.Dequeue(*msgLow[0]), "PriorityQueue::Dequeue() failed.\n");
VerifyAllMessagesContent(messagePool, 2, msgNor[1], msgNor[0]);
VerifyPriorityQueueContent(queue, 1, msgNor[0]);
VerifyMsgQueueContent(messageQueue, 1, msgNor[1]);
testFreeInstance(instance);
}
#ifdef ENABLE_TEST_MAIN
int main(void)
{
TestPriorityQueue();
printf("All tests passed\n");
return 0;
}
#endif