This source file includes following definitions.
- TEST_F
- TEST_F
- TEST_F
- TEST_F
- TEST_F
#include <string.h>
#include "chrome/browser/net/probe_message.h"
#include "chrome/browser/net/probe_message.pb.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace chrome_browser_net {
class ProbeMessageTest : public ::testing::Test {
protected:
ProbeMessageTest() {}
virtual ~ProbeMessageTest() {}
};
TEST_F(ProbeMessageTest, TestGenerateProbeRequest) {
ProbeMessage pm;
ProbePacket_Token token;
token.set_timestamp_micros(1000000U);
token.mutable_hash()->assign("1x1x");
uint32 group_id = 1;
uint32 probe_size = 500;
uint32 pacing_interval_micros = 1000000;
uint32 number_probe_packets = 21;
ProbePacket probe_packet;
pm.GenerateProbeRequest(token,
group_id,
probe_size,
pacing_interval_micros,
number_probe_packets,
&probe_packet);
EXPECT_EQ(probe_packet.header().type(), ProbePacket_Type_PROBE_REQUEST);
EXPECT_EQ(probe_packet.header().version(), ProbeMessage::kVersion);
EXPECT_EQ(probe_packet.group_id(), group_id);
EXPECT_EQ(probe_packet.probe_size_bytes(), probe_size);
EXPECT_EQ(probe_packet.pacing_interval_micros(), pacing_interval_micros);
EXPECT_EQ(probe_packet.number_probe_packets(), number_probe_packets);
EXPECT_GE(probe_packet.ByteSize(), static_cast<int>(probe_size));
}
TEST_F(ProbeMessageTest, TestSetPacketHeader) {
ProbeMessage pm;
ProbePacket probe_packet;
pm.SetPacketHeader(ProbePacket_Type_HELLO_REQUEST, &probe_packet);
EXPECT_EQ(probe_packet.header().type(), ProbePacket_Type_HELLO_REQUEST);
EXPECT_EQ(probe_packet.header().version(), ProbeMessage::kVersion);
pm.SetPacketHeader(ProbePacket_Type_PROBE_REPLY, &probe_packet);
EXPECT_EQ(probe_packet.header().type(), ProbePacket_Type_PROBE_REPLY);
}
TEST_F(ProbeMessageTest, TestMakeEncodePacketAndParseInput) {
ProbeMessage pm;
ProbePacket in_packet;
uint32 version = 2;
ProbePacket_Type type = ProbePacket_Type_HELLO_REPLY;
uint32 number_probe_packets = 2;
uint32 group_id = 5;
in_packet.mutable_header()->set_version(version);
in_packet.mutable_header()->set_type(type);
in_packet.set_number_probe_packets(number_probe_packets);
in_packet.set_group_id(group_id);
std::string output = pm.MakeEncodedPacket(in_packet);
ProbePacket out_packet;
pm.ParseInput(output, &out_packet);
EXPECT_EQ(out_packet.header().type(), type);
EXPECT_EQ(out_packet.header().version(), version);
EXPECT_EQ(out_packet.number_probe_packets(), number_probe_packets);
EXPECT_EQ(out_packet.group_id(), group_id);
}
TEST_F(ProbeMessageTest, TestChecksum) {
ProbeMessage pm;
std::string str("ABC");
uint32 computed_checksum = pm.Checksum(str);
uint32 expected_sum = 0;
for (unsigned i = 0; i < str.size(); ++i)
expected_sum += static_cast<uint8>(str[i]);
EXPECT_EQ(computed_checksum, expected_sum);
}
TEST_F(ProbeMessageTest, TestEncode) {
ProbeMessage pm;
std::string original("ABC");
std::string output = pm.Encode(original);
std::string expected_str(original.size(), 0);
for (unsigned i = 0; i < original.size(); ++i) {
expected_str[i] = original[i] ^ ProbeMessage::kEncodingString[i];
}
EXPECT_EQ(output, expected_str);
std::string twice_encoded = pm.Encode(output);
EXPECT_EQ(twice_encoded, original);
}
}