A C library for asynchronous DNS requests (grpc依赖)
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#include "ares-test.h"
#include "dns-proto.h"
#include <string>
#include <vector>
namespace ares {
namespace test {
std::vector<std::string> GetNameServers(ares_channel channel) {
struct ares_addr_node* servers = nullptr;
EXPECT_EQ(ARES_SUCCESS, ares_get_servers(channel, &servers));
struct ares_addr_node* server = servers;
std::vector<std::string> results;
while (server) {
switch (server->family) {
case AF_INET:
results.push_back(AddressToString((char*)&server->addr.addr4, 4));
break;
case AF_INET6:
results.push_back(AddressToString((char*)&server->addr.addr6, 16));
break;
default:
results.push_back("<unknown family>");
break;
}
server = server->next;
}
if (servers) ares_free_data(servers);
return results;
}
TEST_F(DefaultChannelTest, GetServers) {
std::vector<std::string> servers = GetNameServers(channel_);
if (verbose) {
for (const std::string& server : servers) {
std::cerr << "Nameserver: " << server << std::endl;
}
}
}
TEST_F(DefaultChannelTest, GetServersFailures) {
EXPECT_EQ(ARES_SUCCESS,
ares_set_servers_csv(channel_, "1.2.3.4,2.3.4.5"));
struct ares_addr_node* servers = nullptr;
SetAllocFail(1);
EXPECT_EQ(ARES_ENOMEM, ares_get_servers(channel_, &servers));
SetAllocFail(2);
EXPECT_EQ(ARES_ENOMEM, ares_get_servers(channel_, &servers));
EXPECT_EQ(ARES_ENODATA, ares_get_servers(nullptr, &servers));
}
TEST_F(DefaultChannelTest, SetServers) {
EXPECT_EQ(ARES_SUCCESS, ares_set_servers(channel_, nullptr));
std::vector<std::string> empty;
EXPECT_EQ(empty, GetNameServers(channel_));
struct ares_addr_node server1;
struct ares_addr_node server2;
server1.next = &server2;
server1.family = AF_INET;
server1.addr.addr4.s_addr = htonl(0x01020304);
server2.next = nullptr;
server2.family = AF_INET;
server2.addr.addr4.s_addr = htonl(0x02030405);
EXPECT_EQ(ARES_ENODATA, ares_set_servers(nullptr, &server1));
EXPECT_EQ(ARES_SUCCESS, ares_set_servers(channel_, &server1));
std::vector<std::string> expected = {"1.2.3.4", "2.3.4.5"};
EXPECT_EQ(expected, GetNameServers(channel_));
}
TEST_F(DefaultChannelTest, SetServersCSV) {
EXPECT_EQ(ARES_ENODATA, ares_set_servers_csv(nullptr, "1.2.3.4"));
EXPECT_EQ(ARES_ENODATA, ares_set_servers_csv(nullptr, "xyzzy,plugh"));
EXPECT_EQ(ARES_ENODATA, ares_set_servers_csv(nullptr, "256.1.2.3"));
EXPECT_EQ(ARES_ENODATA, ares_set_servers_csv(nullptr, "1.2.3.4.5"));
EXPECT_EQ(ARES_ENODATA, ares_set_servers_csv(nullptr, "1:2:3:4:5"));
EXPECT_EQ(ARES_SUCCESS,
ares_set_servers_csv(channel_, "1.2.3.4,0102:0304:0506:0708:0910:1112:1314:1516,2.3.4.5"));
std::vector<std::string> expected = {"1.2.3.4", "0102:0304:0506:0708:0910:1112:1314:1516", "2.3.4.5"};
EXPECT_EQ(expected, GetNameServers(channel_));
// Same, with spaces
EXPECT_EQ(ARES_EBADSTR,
ares_set_servers_csv(channel_, "1.2.3.4 , 0102:0304:0506:0708:0910:1112:1314:1516, 2.3.4.5"));
// Same, with ports -- currently ignored
EXPECT_EQ(ARES_SUCCESS,
ares_set_servers_csv(channel_, "1.2.3.4:54,[0102:0304:0506:0708:0910:1112:1314:1516]:80,2.3.4.5:55"));
EXPECT_EQ(expected, GetNameServers(channel_));
// Allocation failure cases
for (int fail = 1; fail <= 5; fail++) {
SetAllocFail(fail);
EXPECT_EQ(ARES_ENOMEM,
ares_set_servers_csv(channel_, "1.2.3.4,0102:0304:0506:0708:0910:1112:1314:1516,2.3.4.5"));
}
// Blank servers
EXPECT_EQ(ARES_SUCCESS, ares_set_servers_csv(channel_, ""));
std::vector<std::string> none;
EXPECT_EQ(none, GetNameServers(channel_));
}
TEST_F(DefaultChannelTest, TimeoutValue) {
struct timeval tinfo;
tinfo.tv_sec = 0;
tinfo.tv_usec = 0;
struct timeval tmax;
tmax.tv_sec = 0;
tmax.tv_usec = 10;
struct timeval* pt;
// No timers => get max back.
pt = ares_timeout(channel_, &tmax, &tinfo);
EXPECT_EQ(&tmax, pt);
EXPECT_EQ(0, pt->tv_sec);
EXPECT_EQ(10, pt->tv_usec);
pt = ares_timeout(channel_, nullptr, &tinfo);
EXPECT_EQ(nullptr, pt);
HostResult result;
ares_gethostbyname(channel_, "www.google.com.", AF_INET, HostCallback, &result);
// Now there's a timer running.
pt = ares_timeout(channel_, &tmax, &tinfo);
EXPECT_EQ(&tmax, pt);
EXPECT_EQ(0, pt->tv_sec);
EXPECT_EQ(10, pt->tv_usec);
tmax.tv_sec = 100;
pt = ares_timeout(channel_, &tmax, &tinfo);
EXPECT_EQ(&tinfo, pt);
pt = ares_timeout(channel_, nullptr, &tinfo);
EXPECT_EQ(&tinfo, pt);
Process();
}
TEST_F(LibraryTest, InetNtoP) {
struct in_addr addr;
addr.s_addr = htonl(0x01020304);
char buffer[256];
EXPECT_EQ(buffer, ares_inet_ntop(AF_INET, &addr, buffer, sizeof(buffer)));
EXPECT_EQ("1.2.3.4", std::string(buffer));
}
TEST_F(LibraryTest, Mkquery) {
byte* p;
int len;
ares_mkquery("example.com", ns_c_in, ns_t_a, 0x1234, 0, &p, &len);
std::vector<byte> data(p, p + len);
ares_free_string(p);
std::string actual = PacketToString(data);
DNSPacket pkt;
pkt.set_qid(0x1234).add_question(new DNSQuestion("example.com", ns_t_a));
std::string expected = PacketToString(pkt.data());
EXPECT_EQ(expected, actual);
}
TEST_F(LibraryTest, CreateQuery) {
byte* p;
int len;
EXPECT_EQ(ARES_SUCCESS,
ares_create_query("exam\\@le.com", ns_c_in, ns_t_a, 0x1234, 0,
&p, &len, 0));
std::vector<byte> data(p, p + len);
ares_free_string(p);
std::string actual = PacketToString(data);
DNSPacket pkt;
pkt.set_qid(0x1234).add_question(new DNSQuestion("exam@le.com", ns_t_a));
std::string expected = PacketToString(pkt.data());
EXPECT_EQ(expected, actual);
}
TEST_F(LibraryTest, CreateQueryFailures) {
byte* p;
int len;
// RC1035 has a 255 byte limit on names.
std::string longname;
for (int ii = 0; ii < 17; ii++) {
longname += "fedcba9876543210";
}
p = nullptr;
EXPECT_EQ(ARES_EBADNAME,
ares_create_query(longname.c_str(), ns_c_in, ns_t_a, 0x1234, 0,
&p, &len, 0));
if (p) ares_free_string(p);
SetAllocFail(1);
p = nullptr;
EXPECT_EQ(ARES_ENOMEM,
ares_create_query("example.com", ns_c_in, ns_t_a, 0x1234, 0,
&p, &len, 0));
if (p) ares_free_string(p);
// 63-char limit on a single label
std::string longlabel = "a.a123456789b123456789c123456789d123456789e123456789f123456789g123456789.org";
p = nullptr;
EXPECT_EQ(ARES_EBADNAME,
ares_create_query(longlabel.c_str(), ns_c_in, ns_t_a, 0x1234, 0,
&p, &len, 0));
if (p) ares_free_string(p);
// Empty non-terminal label
p = nullptr;
EXPECT_EQ(ARES_EBADNAME,
ares_create_query("example..com", ns_c_in, ns_t_a, 0x1234, 0,
&p, &len, 0));
if (p) ares_free_string(p);
}
std::string ExpandName(const std::vector<byte>& data, ssize_t offset,
long *enclen) {
char *name = nullptr;
int rc = ares_expand_name(data.data() + offset, data.data(), data.size(),
&name, enclen);
EXPECT_EQ(ARES_SUCCESS, rc);
std::string result;
if (rc == ARES_SUCCESS) {
result = name;
} else {
result = "<error>";
}
free(name);
return result;
}
TEST_F(LibraryTest, ExpandName) {
long enclen;
std::vector<byte> data1 = {1, 'a', 2, 'b', 'c', 3, 'd', 'e', 'f', 0};
EXPECT_EQ("a.bc.def", ExpandName(data1, 0, &enclen));
EXPECT_EQ(data1.size(), enclen);
std::vector<byte> data2 = {0};
EXPECT_EQ("", ExpandName(data2, 0, &enclen));
EXPECT_EQ(1, enclen);
// Complete name indirection
std::vector<byte> data3 = {0x12, 0x23,
3, 'd', 'e', 'f', 0,
0xC0, 2};
EXPECT_EQ("def", ExpandName(data3, 2, &enclen));
EXPECT_EQ(5, enclen);
EXPECT_EQ("def", ExpandName(data3, 7, &enclen));
EXPECT_EQ(2, enclen);
// One label then indirection
std::vector<byte> data4 = {0x12, 0x23,
3, 'd', 'e', 'f', 0,
1, 'a', 0xC0, 2};
EXPECT_EQ("def", ExpandName(data4, 2, &enclen));
EXPECT_EQ(5, enclen);
EXPECT_EQ("a.def", ExpandName(data4, 7, &enclen));
EXPECT_EQ(4, enclen);
// Two labels then indirection
std::vector<byte> data5 = {0x12, 0x23,
3, 'd', 'e', 'f', 0,
1, 'a', 1, 'b', 0xC0, 2};
EXPECT_EQ("def", ExpandName(data5, 2, &enclen));
EXPECT_EQ(5, enclen);
EXPECT_EQ("a.b.def", ExpandName(data5, 7, &enclen));
EXPECT_EQ(6, enclen);
}
TEST_F(LibraryTest, ExpandNameFailure) {
std::vector<byte> data1 = {0x03, 'c', 'o', 'm', 0x00};
char *name = nullptr;
long enclen;
SetAllocFail(1);
EXPECT_EQ(ARES_ENOMEM,
ares_expand_name(data1.data(), data1.data(), data1.size(),
&name, &enclen));
// Empty packet
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data1.data(), data1.data(), 0, &name, &enclen));
// Start beyond enclosing data
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data1.data() + data1.size(), data1.data(), data1.size(),
&name, &enclen));
// Length beyond size of enclosing data
std::vector<byte> data2a = {0x13, 'c', 'o', 'm', 0x00};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data2a.data(), data2a.data(), data2a.size(),
&name, &enclen));
std::vector<byte> data2b = {0x1};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data2b.data(), data2b.data(), data2b.size(),
&name, &enclen));
std::vector<byte> data2c = {0xC0};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data2c.data(), data2c.data(), data2c.size(),
&name, &enclen));
// Indirection beyond enclosing data
std::vector<byte> data3a = {0xC0, 0x02};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data3a.data(), data3a.data(), data3a.size(),
&name, &enclen));
std::vector<byte> data3b = {0xC0, 0x0A, 'c', 'o', 'm', 0x00};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data3b.data(), data3b.data(), data3b.size(),
&name, &enclen));
// Invalid top bits in label length
std::vector<byte> data4 = {0x03, 'c', 'o', 'm', 0x00, 0x80, 0x00};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data4.data() + 5, data4.data(), data4.size(),
&name, &enclen));
// Label too long: 64-byte label, with invalid top 2 bits of length (01).
std::vector<byte> data5 = {0x40,
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f',
0x00};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data5.data(), data5.data(), data5.size(),
&name, &enclen)) << name;
// Incomplete indirect length
std::vector<byte> data6 = {0x03, 'c', 'o', 'm', 0x00, 0xC0};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data6.data() + 5, data6.data(), data6.size(),
&name, &enclen));
// Indirection loops
std::vector<byte> data7 = {0xC0, 0x02, 0xC0, 0x00};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data7.data(), data7.data(), data7.size(),
&name, &enclen));
std::vector<byte> data8 = {3, 'd', 'e', 'f', 0xC0, 0x08, 0x00, 0x00,
3, 'a', 'b', 'c', 0xC0, 0x00};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data8.data(), data8.data(), data8.size(),
&name, &enclen));
std::vector<byte> data9 = {0x12, 0x23, // start 2 bytes in
3, 'd', 'e', 'f', 0xC0, 0x02};
EXPECT_EQ(ARES_EBADNAME,
ares_expand_name(data9.data() + 2, data9.data(), data9.size(),
&name, &enclen));
}
TEST_F(LibraryTest, CreateEDNSQuery) {
byte* p;
int len;
EXPECT_EQ(ARES_SUCCESS,
ares_create_query("example.com", ns_c_in, ns_t_a, 0x1234, 0,
&p, &len, 1280));
std::vector<byte> data(p, p + len);
ares_free_string(p);
std::string actual = PacketToString(data);
DNSPacket pkt;
pkt.set_qid(0x1234).add_question(new DNSQuestion("example.com", ns_t_a))
.add_additional(new DNSOptRR(0, 1280));
std::string expected = PacketToString(pkt.data());
EXPECT_EQ(expected, actual);
}
TEST_F(LibraryTest, CreateRootQuery) {
byte* p;
int len;
ares_create_query(".", ns_c_in, ns_t_a, 0x1234, 0, &p, &len, 0);
std::vector<byte> data(p, p + len);
ares_free_string(p);
std::string actual = PacketToString(data);
DNSPacket pkt;
pkt.set_qid(0x1234).add_question(new DNSQuestion("", ns_t_a));
std::string expected = PacketToString(pkt.data());
EXPECT_EQ(expected, actual);
}
TEST_F(LibraryTest, Version) {
// Assume linked to same version
EXPECT_EQ(std::string(ARES_VERSION_STR),
std::string(ares_version(nullptr)));
int version;
ares_version(&version);
EXPECT_EQ(ARES_VERSION, version);
}
TEST_F(LibraryTest, Strerror) {
EXPECT_EQ("Successful completion",
std::string(ares_strerror(ARES_SUCCESS)));
EXPECT_EQ("DNS query cancelled",
std::string(ares_strerror(ARES_ECANCELLED)));
EXPECT_EQ("unknown",
std::string(ares_strerror(99)));
}
TEST_F(LibraryTest, ExpandString) {
std::vector<byte> s1 = { 3, 'a', 'b', 'c'};
char* result = nullptr;
long len;
EXPECT_EQ(ARES_SUCCESS,
ares_expand_string(s1.data(), s1.data(), s1.size(),
(unsigned char**)&result, &len));
EXPECT_EQ("abc", std::string(result));
EXPECT_EQ(1 + 3, len); // amount of data consumed includes 1 byte len
free(result);
result = nullptr;
EXPECT_EQ(ARES_EBADSTR,
ares_expand_string(s1.data() + 1, s1.data(), s1.size(),
(unsigned char**)&result, &len));
EXPECT_EQ(ARES_EBADSTR,
ares_expand_string(s1.data() + 4, s1.data(), s1.size(),
(unsigned char**)&result, &len));
SetAllocSizeFail(3 + 1);
EXPECT_EQ(ARES_ENOMEM,
ares_expand_string(s1.data(), s1.data(), s1.size(),
(unsigned char**)&result, &len));
}
} // namespace test
} // namespace ares