/*
* Copyright 2015 The WebRTC Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "rtc_base/buffer_queue.h"
#include <string.h>
#include "test/gtest.h"
namespace rtc {
TEST(BufferQueueTest, TestAll) {
const size_t kSize = 16 ;
const char in[kSize * 2 + 1 ] = "0123456789ABCDEFGHIJKLMNOPQRSTUV" ;
char out[kSize * 2 ];
size_t bytes;
BufferQueue queue1(1 , kSize);
BufferQueue queue2(2 , kSize);
// The queue is initially empty.
EXPECT_EQ(0 u, queue1.size());
EXPECT_FALSE(queue1.ReadFront(out, kSize, &bytes));
// A write should succeed.
EXPECT_TRUE(queue1.WriteBack(in, kSize, &bytes));
EXPECT_EQ(kSize, bytes);
EXPECT_EQ(1 u, queue1.size());
// The queue is full now (only one buffer allowed).
EXPECT_FALSE(queue1.WriteBack(in, kSize, &bytes));
EXPECT_EQ(1 u, queue1.size());
// Reading previously written buffer.
EXPECT_TRUE(queue1.ReadFront(out, kSize, &bytes));
EXPECT_EQ(kSize, bytes);
EXPECT_EQ(0 , memcmp(in, out, kSize));
// The queue is empty again now.
EXPECT_FALSE(queue1.ReadFront(out, kSize, &bytes));
EXPECT_EQ(0 u, queue1.size());
// Reading only returns available data.
EXPECT_TRUE(queue1.WriteBack(in, kSize, &bytes));
EXPECT_EQ(kSize, bytes);
EXPECT_EQ(1 u, queue1.size());
EXPECT_TRUE(queue1.ReadFront(out, kSize * 2 , &bytes));
EXPECT_EQ(kSize, bytes);
EXPECT_EQ(0 , memcmp(in, out, kSize));
EXPECT_EQ(0 u, queue1.size());
// Reading maintains buffer boundaries.
EXPECT_TRUE(queue2.WriteBack(in, kSize / 2 , &bytes));
EXPECT_EQ(1 u, queue2.size());
EXPECT_TRUE(queue2.WriteBack(in + kSize / 2 , kSize / 2 , &bytes));
EXPECT_EQ(2 u, queue2.size());
EXPECT_TRUE(queue2.ReadFront(out, kSize, &bytes));
EXPECT_EQ(kSize / 2 , bytes);
EXPECT_EQ(0 , memcmp(in, out, kSize / 2 ));
EXPECT_EQ(1 u, queue2.size());
EXPECT_TRUE(queue2.ReadFront(out, kSize, &bytes));
EXPECT_EQ(kSize / 2 , bytes);
EXPECT_EQ(0 , memcmp(in + kSize / 2 , out, kSize / 2 ));
EXPECT_EQ(0 u, queue2.size());
// Reading truncates buffers.
EXPECT_TRUE(queue2.WriteBack(in, kSize / 2 , &bytes));
EXPECT_EQ(1 u, queue2.size());
EXPECT_TRUE(queue2.WriteBack(in + kSize / 2 , kSize / 2 , &bytes));
EXPECT_EQ(2 u, queue2.size());
// Read first packet partially in too-small buffer.
EXPECT_TRUE(queue2.ReadFront(out, kSize / 4 , &bytes));
EXPECT_EQ(kSize / 4 , bytes);
EXPECT_EQ(0 , memcmp(in, out, kSize / 4 ));
EXPECT_EQ(1 u, queue2.size());
// Remainder of first packet is truncated, reading starts with next packet.
EXPECT_TRUE(queue2.ReadFront(out, kSize, &bytes));
EXPECT_EQ(kSize / 2 , bytes);
EXPECT_EQ(0 , memcmp(in + kSize / 2 , out, kSize / 2 ));
EXPECT_EQ(0 u, queue2.size());
}
} // namespace rtc
Messung V0.5 in Prozent C=88 H=98 G=93
¤ Dauer der Verarbeitung: 0.20 Sekunden
(vorverarbeitet am 2026-06-06)
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