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// -*- mode: c++ -*-
#ifndef ARES_TEST_H
#define ARES_TEST_H
#include "ares_setup.h"
#include "ares.h"
#include "dns-proto.h"
// Include ares internal file for DNS protocol constants
#include "ares_nameser.h"
#include "gtest/gtest.h"
#include "gmock/gmock.h"
#if defined(HAVE_USER_NAMESPACE) && defined(HAVE_UTS_NAMESPACE)
#define HAVE_CONTAINER
#endif
#include <functional>
#include <list>
#include <map>
#include <memory>
#include <set>
#include <string>
#include <utility>
#include <vector>
namespace ares {
typedef unsigned char byte;
namespace test {
extern bool verbose;
extern int mock_port;
extern const std::vector<int> both_families;
extern const std::vector<int> ipv4_family;
extern const std::vector<int> ipv6_family;
extern const std::vector<std::pair<int, bool>> both_families_both_modes;
extern const std::vector<std::pair<int, bool>> ipv4_family_both_modes;
extern const std::vector<std::pair<int, bool>> ipv6_family_both_modes;
// Which parameters to use in tests
extern std::vector<int> families;
extern std::vector<std::pair<int, bool>> families_modes;
// Process all pending work on ares-owned file descriptors, plus
// optionally the given set-of-FDs + work function.
void ProcessWork(ares_channel channel,
std::function<std::set<int>()> get_extrafds,
std::function<void(int)> process_extra);
std::set<int> NoExtraFDs();
// Test fixture that ensures library initialization, and allows
// memory allocations to be failed.
class LibraryTest : public ::testing::Test {
public:
LibraryTest() {
EXPECT_EQ(ARES_SUCCESS,
ares_library_init_mem(ARES_LIB_INIT_ALL,
&LibraryTest::amalloc,
&LibraryTest::afree,
&LibraryTest::arealloc));
}
~LibraryTest() {
ares_library_cleanup();
ClearFails();
}
// Set the n-th malloc call (of any size) from the library to fail.
// (nth == 1 means the next call)
static void SetAllocFail(int nth);
// Set the next malloc call for the given size to fail.
static void SetAllocSizeFail(size_t size);
// Remove any pending alloc failures.
static void ClearFails();
static void *amalloc(size_t size);
static void* arealloc(void *ptr, size_t size);
static void afree(void *ptr);
private:
static bool ShouldAllocFail(size_t size);
static unsigned long long fails_;
static std::map<size_t, int> size_fails_;
};
// Test fixture that uses a default channel.
class DefaultChannelTest : public LibraryTest {
public:
DefaultChannelTest() : channel_(nullptr) {
EXPECT_EQ(ARES_SUCCESS, ares_init(&channel_));
EXPECT_NE(nullptr, channel_);
}
~DefaultChannelTest() {
ares_destroy(channel_);
channel_ = nullptr;
}
// Process all pending work on ares-owned file descriptors.
void Process();
protected:
ares_channel channel_;
};
// Test fixture that uses a default channel with the specified lookup mode.
class DefaultChannelModeTest
: public LibraryTest,
public ::testing::WithParamInterface<std::string> {
public:
DefaultChannelModeTest() : channel_(nullptr) {
struct ares_options opts = {0};
opts.lookups = strdup(GetParam().c_str());
int optmask = ARES_OPT_LOOKUPS;
EXPECT_EQ(ARES_SUCCESS, ares_init_options(&channel_, &opts, optmask));
EXPECT_NE(nullptr, channel_);
free(opts.lookups);
}
~DefaultChannelModeTest() {
ares_destroy(channel_);
channel_ = nullptr;
}
// Process all pending work on ares-owned file descriptors.
void Process();
protected:
ares_channel channel_;
};
// Mock DNS server to allow responses to be scripted by tests.
class MockServer {
public:
MockServer(int family, int port);
~MockServer();
// Mock method indicating the processing of a particular <name, RRtype>
// request.
MOCK_METHOD2(OnRequest, void(const std::string& name, int rrtype));
// Set the reply to be sent next; the query ID field will be overwritten
// with the value from the request.
void SetReplyData(const std::vector<byte>& reply) { reply_ = reply; }
void SetReply(const DNSPacket* reply) { SetReplyData(reply->data()); }
void SetReplyQID(int qid) { qid_ = qid; }
// The set of file descriptors that the server handles.
std::set<int> fds() const;
// Process activity on a file descriptor.
void ProcessFD(int fd);
// Ports the server is responding to
int udpport() const { return udpport_; }
int tcpport() const { return tcpport_; }
private:
void ProcessRequest(int fd, struct sockaddr_storage* addr, int addrlen,
int qid, const std::string& name, int rrtype);
int udpport_;
int tcpport_;
int udpfd_;
int tcpfd_;
std::set<int> connfds_;
std::vector<byte> reply_;
int qid_;
};
// Test fixture that uses a mock DNS server.
class MockChannelOptsTest : public LibraryTest {
public:
MockChannelOptsTest(int count, int family, bool force_tcp, struct ares_options* givenopts, int optmask);
~MockChannelOptsTest();
// Process all pending work on ares-owned and mock-server-owned file descriptors.
void Process();
protected:
// NiceMockServer doesn't complain about uninteresting calls.
typedef testing::NiceMock<MockServer> NiceMockServer;
typedef std::vector< std::unique_ptr<NiceMockServer> > NiceMockServers;
std::set<int> fds() const;
void ProcessFD(int fd);
static NiceMockServers BuildServers(int count, int family, int base_port);
NiceMockServers servers_;
// Convenience reference to first server.
NiceMockServer& server_;
ares_channel channel_;
};
class MockChannelTest
: public MockChannelOptsTest,
public ::testing::WithParamInterface< std::pair<int, bool> > {
public:
MockChannelTest() : MockChannelOptsTest(1, GetParam().first, GetParam().second, nullptr, 0) {}
};
class MockUDPChannelTest
: public MockChannelOptsTest,
public ::testing::WithParamInterface<int> {
public:
MockUDPChannelTest() : MockChannelOptsTest(1, GetParam(), false, nullptr, 0) {}
};
class MockTCPChannelTest
: public MockChannelOptsTest,
public ::testing::WithParamInterface<int> {
public:
MockTCPChannelTest() : MockChannelOptsTest(1, GetParam(), true, nullptr, 0) {}
};
// gMock action to set the reply for a mock server.
ACTION_P2(SetReplyData, mockserver, data) {
mockserver->SetReplyData(data);
}
ACTION_P2(SetReply, mockserver, reply) {
mockserver->SetReply(reply);
}
ACTION_P2(SetReplyQID, mockserver, qid) {
mockserver->SetReplyQID(qid);
}
// gMock action to cancel a channel.
ACTION_P2(CancelChannel, mockserver, channel) {
ares_cancel(channel);
}
// C++ wrapper for struct hostent.
struct HostEnt {
HostEnt() : addrtype_(-1) {}
HostEnt(const struct hostent* hostent);
std::string name_;
std::vector<std::string> aliases_;
int addrtype_; // AF_INET or AF_INET6
std::vector<std::string> addrs_;
};
std::ostream& operator<<(std::ostream& os, const HostEnt& result);
// Structure that describes the result of an ares_host_callback invocation.
struct HostResult {
// Whether the callback has been invoked.
bool done_;
// Explicitly provided result information.
int status_;
int timeouts_;
// Contents of the hostent structure, if provided.
HostEnt host_;
};
std::ostream& operator<<(std::ostream& os, const HostResult& result);
// Structure that describes the result of an ares_callback invocation.
struct SearchResult {
// Whether the callback has been invoked.
bool done_;
// Explicitly provided result information.
int status_;
int timeouts_;
std::vector<byte> data_;
};
std::ostream& operator<<(std::ostream& os, const SearchResult& result);
// Structure that describes the result of an ares_nameinfo_callback invocation.
struct NameInfoResult {
// Whether the callback has been invoked.
bool done_;
// Explicitly provided result information.
int status_;
int timeouts_;
std::string node_;
std::string service_;
};
std::ostream& operator<<(std::ostream& os, const NameInfoResult& result);
struct AddrInfoDeleter {
void operator() (ares_addrinfo *ptr) {
if (ptr) ares_freeaddrinfo(ptr);
}
};
// C++ wrapper for struct ares_addrinfo.
using AddrInfo = std::unique_ptr<ares_addrinfo, AddrInfoDeleter>;
std::ostream& operator<<(std::ostream& os, const AddrInfo& result);
// Structure that describes the result of an ares_addrinfo_callback invocation.
struct AddrInfoResult {
AddrInfoResult() : done_(false), status_(-1), timeouts_(0) {}
// Whether the callback has been invoked.
bool done_;
// Explicitly provided result information.
int status_;
int timeouts_;
// Contents of the ares_addrinfo structure, if provided.
AddrInfo ai_;
};
std::ostream& operator<<(std::ostream& os, const AddrInfoResult& result);
// Standard implementation of ares callbacks that fill out the corresponding
// structures.
void HostCallback(void *data, int status, int timeouts,
struct hostent *hostent);
void SearchCallback(void *data, int status, int timeouts,
unsigned char *abuf, int alen);
void NameInfoCallback(void *data, int status, int timeouts,
char *node, char *service);
void AddrInfoCallback(void *data, int status, int timeouts,
struct ares_addrinfo *res);
// Retrieve the name servers used by a channel.
std::vector<std::string> GetNameServers(ares_channel channel);
// RAII class to temporarily create a directory of a given name.
class TransientDir {
public:
TransientDir(const std::string& dirname);
~TransientDir();
private:
std::string dirname_;
};
// C++ wrapper around tempnam()
std::string TempNam(const char *dir, const char *prefix);
// RAII class to temporarily create file of a given name and contents.
class TransientFile {
public:
TransientFile(const std::string &filename, const std::string &contents);
~TransientFile();
protected:
std::string filename_;
};
// RAII class for a temporary file with the given contents.
class TempFile : public TransientFile {
public:
TempFile(const std::string& contents);
const char* filename() const { return filename_.c_str(); }
};
#ifdef _WIN32
extern "C" {
static int setenv(const char *name, const char *value, int overwrite)
{
char *buffer;
size_t buf_size;
if (name == NULL)
return -1;
if (value == NULL)
value = ""; /* For unset */
if (!overwrite && getenv(name) != NULL) {
return -1;
}
buf_size = strlen(name) + strlen(value) + 1 /* = */ + 1 /* NULL */;
buffer = (char *)malloc(buf_size);
_snprintf(buffer, buf_size, "%s=%s", name, value);
_putenv(buffer);
free(buffer);
return 0;
}
static int unsetenv(const char *name)
{
return setenv(name, NULL, 1);
}
} /* extern "C" */
#endif
// RAII class for a temporary environment variable value.
class EnvValue {
public:
EnvValue(const char *name, const char *value) : name_(name), restore_(false) {
char *original = getenv(name);
if (original) {
restore_ = true;
original_ = original;
}
setenv(name_.c_str(), value, 1);
}
~EnvValue() {
if (restore_) {
setenv(name_.c_str(), original_.c_str(), 1);
} else {
unsetenv(name_.c_str());
}
}
private:
std::string name_;
bool restore_;
std::string original_;
};
#ifdef HAVE_CONTAINER
// Linux-specific functionality for running code in a container, implemented
// in ares-test-ns.cc
typedef std::function<int(void)> VoidToIntFn;
typedef std::vector<std::pair<std::string, std::string>> NameContentList;
class ContainerFilesystem {
public:
ContainerFilesystem(NameContentList files, const std::string& mountpt);
~ContainerFilesystem();
std::string root() const { return rootdir_; };
std::string mountpt() const { return mountpt_; };
private:
void EnsureDirExists(const std::string& dir);
std::string rootdir_;
std::string mountpt_;
std::list<std::string> dirs_;
std::vector<std::unique_ptr<TransientFile>> files_;
};
int RunInContainer(ContainerFilesystem* fs, const std::string& hostname,
const std::string& domainname, VoidToIntFn fn);
#define ICLASS_NAME(casename, testname) Contained##casename##_##testname
#define CONTAINED_TEST_F(casename, testname, hostname, domainname, files) \
class ICLASS_NAME(casename, testname) : public casename { \
public: \
ICLASS_NAME(casename, testname)() {} \
static int InnerTestBody(); \
}; \
TEST_F(ICLASS_NAME(casename, testname), _) { \
ContainerFilesystem chroot(files, ".."); \
VoidToIntFn fn(ICLASS_NAME(casename, testname)::InnerTestBody); \
EXPECT_EQ(0, RunInContainer(&chroot, hostname, domainname, fn)); \
} \
int ICLASS_NAME(casename, testname)::InnerTestBody()
#endif
/* Assigns virtual IO functions to a channel. These functions simply call
* the actual system functions.
*/
class VirtualizeIO {
public:
VirtualizeIO(ares_channel);
~VirtualizeIO();
static const ares_socket_functions default_functions;
private:
ares_channel channel_;
};
/*
* Slightly white-box macro to generate two runs for a given test case:
* One with no modifications, and one with all IO functions set to use
* the virtual io structure.
* Since no magic socket setup or anything is done in the latter case
* this should probably only be used for test with very vanilla IO
* requirements.
*/
#define VCLASS_NAME(casename, testname) Virt##casename##_##testname
#define VIRT_NONVIRT_TEST_F(casename, testname) \
class VCLASS_NAME(casename, testname) : public casename { \
public: \
VCLASS_NAME(casename, testname)() {} \
void InnerTestBody(); \
}; \
GTEST_TEST_(casename, testname, VCLASS_NAME(casename, testname), \
::testing::internal::GetTypeId<casename>()) { \
InnerTestBody(); \
} \
GTEST_TEST_(casename, testname##_virtualized, \
VCLASS_NAME(casename, testname), \
::testing::internal::GetTypeId<casename>()) { \
VirtualizeIO vio(channel_); \
InnerTestBody(); \
} \
void VCLASS_NAME(casename, testname)::InnerTestBody()
} // namespace test
} // namespace ares
#endif
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