libcpr/test/ssl_tests.cpp
2024-04-13 21:01:22 -04:00

171 lines
8 KiB
C++

#include <gtest/gtest.h>
#include <chrono>
#include <string>
#include <thread>
#include <vector>
#include <cpr/cprtypes.h>
#include <cpr/filesystem.h>
#include <cpr/ssl_options.h>
#include "httpsServer.hpp"
using namespace cpr;
static HttpsServer* server;
static std::string caCertPath;
static std::string serverPubKeyPath;
static std::string clientKeyPath;
static std::string clientCertPath;
std::string loadCertificateFromFile(const std::string certPath) {
std::ifstream certFile(certPath);
std::stringstream buffer;
buffer << certFile.rdbuf();
return buffer.str();
}
TEST(SslTests, HelloWorldTestSimpel) {
std::this_thread::sleep_for(std::chrono::seconds(1));
Url url{server->GetBaseUrl() + "/hello.html"};
std::string baseDirPath{server->getBaseDirPath()};
std::string crtPath{baseDirPath + "certificates/"};
std::string keyPath{baseDirPath + "keys/"};
SslOptions sslOpts = Ssl(ssl::CaPath{crtPath + "root-ca.crt"}, ssl::CertFile{crtPath + "client.crt"}, ssl::KeyFile{keyPath + "client.key"}, ssl::VerifyPeer{false}, ssl::PinnedPublicKey{keyPath + "server.pub"}, ssl::VerifyHost{false}, ssl::VerifyStatus{false});
Response response = cpr::Get(url, sslOpts, Timeout{5000}, Verbose{});
std::string expected_text = "Hello world!";
EXPECT_EQ(expected_text, response.text);
EXPECT_EQ(url, response.url);
EXPECT_EQ(std::string{"text/html"}, response.header["content-type"]);
EXPECT_EQ(200, response.status_code);
EXPECT_EQ(ErrorCode::OK, response.error.code) << response.error.message;
}
TEST(SslTests, HelloWorldTestFull) {
std::this_thread::sleep_for(std::chrono::seconds(1));
Url url{server->GetBaseUrl() + "/hello.html"};
std::string baseDirPath{server->getBaseDirPath()};
std::string crtPath{baseDirPath + "certificates/"};
std::string keyPath{baseDirPath + "keys/"};
SslOptions sslOpts = Ssl(ssl::TLSv1{}, ssl::ALPN{false},
#if SUPPORT_NPN
ssl::NPN{false},
#endif // DEBUG
ssl::CaPath{crtPath + "root-ca.crt"}, ssl::CertFile{crtPath + "client.crt"}, ssl::KeyFile{keyPath + "client.key"}, ssl::PinnedPublicKey{keyPath + "server.pub"}, ssl::VerifyPeer{false}, ssl::VerifyHost{false}, ssl::VerifyStatus{false});
Response response = cpr::Get(url, sslOpts, Timeout{5000}, Verbose{});
std::string expected_text = "Hello world!";
EXPECT_EQ(expected_text, response.text);
EXPECT_EQ(url, response.url);
EXPECT_EQ(std::string{"text/html"}, response.header["content-type"]);
EXPECT_EQ(200, response.status_code);
EXPECT_EQ(ErrorCode::OK, response.error.code) << response.error.message;
}
TEST(SslTests, GetCertInfos) {
std::this_thread::sleep_for(std::chrono::seconds(1));
Url url{server->GetBaseUrl() + "/hello.html"};
std::string baseDirPath{server->getBaseDirPath()};
std::string crtPath{baseDirPath + "certificates/"};
std::string keyPath{baseDirPath + "keys/"};
SslOptions sslOpts = Ssl(ssl::CaPath{crtPath + "root-ca.crt"}, ssl::CertFile{crtPath + "client.crt"}, ssl::KeyFile{keyPath + "client.key"}, ssl::VerifyPeer{false}, ssl::VerifyHost{false}, ssl::VerifyStatus{false});
Response response = cpr::Get(url, sslOpts, Timeout{5000}, Verbose{});
std::vector<CertInfo> certInfos = response.GetCertInfos();
std::string expected_text = "Hello world!";
std::vector<CertInfo> expectedCertInfos{
CertInfo{
"Subject:CN = test-server",
"Issuer:C = GB, O = Example, CN = Root CA",
"Version:2",
"Serial Number:28c252871ec62a626a98006b0bf2888f",
"Signature Algorithm:ED25519",
"Public Key Algorithm:ED25519",
"X509v3 Subject Alternative Name:DNS:localhost, IP Address:127.0.0.1, IP Address:0:0:0:0:0:0:0:1",
"X509v3 Subject Key Identifier:39:C1:81:38:01:DC:55:38:E5:2F:4E:7A:D0:4C:84:7B:B7:27:D3:AF",
"X509v3 Authority Key Identifier:E4:F2:F3:85:0E:B7:85:75:84:76:E3:43:D1:B6:9D:14:B8:E2:A4:B7",
"Start date:Jun 29 11:33:07 2022 GMT",
"Expire date:Jun 28 11:33:07 2027 GMT",
"Signature:2e:0d:a1:0d:f5:90:77:e9:eb:84:7d:80:63:63:4d:8a:eb:d9:23:57:1f:21:2a:ed:81:b4:a8:58:b9:00:1b:cb:5c:90:1b:33:6b:f6:ec:42:20:63:54:d6:60:ee:37:14:1b:1c:95:0b:33:ea:67:29:d4:cc:d9:7e:34:fd:47:04:",
R"(Cert:-----BEGIN CERTIFICATE-----
MIIBdTCCASegAwIBAgIQKMJShx7GKmJqmABrC/KIjzAFBgMrZXAwMTELMAkGA1UE
BhMCR0IxEDAOBgNVBAoMB0V4YW1wbGUxEDAOBgNVBAMMB1Jvb3QgQ0EwHhcNMjIw
NjI5MTEzMzA3WhcNMjcwNjI4MTEzMzA3WjAWMRQwEgYDVQQDDAt0ZXN0LXNlcnZl
cjAqMAUGAytlcAMhAI64JU5RjfdEG1KQMxS5DQWkiGlKIQO7ye4mNFq9QleTo3Aw
bjAsBgNVHREEJTAjgglsb2NhbGhvc3SHBH8AAAGHEAAAAAAAAAAAAAAAAAAAAAEw
HQYDVR0OBBYEFDnBgTgB3FU45S9OetBMhHu3J9OvMB8GA1UdIwQYMBaAFOTy84UO
t4V1hHbjQ9G2nRS44qS3MAUGAytlcANBAC4NoQ31kHfp64R9gGNjTYrr2SNXHyEq
7YG0qFi5ABvLXJAbM2v27EIgY1TWYO43FBsclQsz6mcp1MzZfjT9RwQ=
-----END CERTIFICATE-----
)",
},
};
EXPECT_EQ(expected_text, response.text);
EXPECT_EQ(url, response.url);
EXPECT_EQ(std::string{"text/html"}, response.header["content-type"]);
EXPECT_EQ(200, response.status_code);
EXPECT_EQ(ErrorCode::OK, response.error.code) << response.error.message;
EXPECT_EQ(1, certInfos.size());
for (auto certInfo_it = certInfos.begin(), expectedCertInfo_it = expectedCertInfos.begin(); certInfo_it != certInfos.end() && expectedCertInfo_it != expectedCertInfos.end(); certInfo_it++, expectedCertInfo_it++) {
for (auto entry_it = (*certInfo_it).begin(), expectedEntry_it = (*expectedCertInfo_it).begin(); entry_it != (*certInfo_it).end() && expectedEntry_it != (*expectedCertInfo_it).end(); entry_it++, expectedEntry_it++) {
std::string search_string = "Identifier:keyid:";
std::size_t search_index = (*entry_it).find(search_string);
if (search_index != std::string::npos) {
(*entry_it).replace(search_index, search_string.length(), "Identifier:");
search_string = "\n";
search_index = (*entry_it).find(search_string);
if (search_index != std::string::npos) {
(*entry_it).replace(search_index, search_string.length(), "");
}
}
EXPECT_EQ(*expectedEntry_it, *entry_it);
}
std::cout << std::endl;
}
}
#if SUPPORT_CURLOPT_SSL_CTX_FUNCTION
TEST(SslTests, LoadCertFromBufferTestSimpel) {
std::this_thread::sleep_for(std::chrono::seconds(1));
Url url{server->GetBaseUrl() + "/hello.html"};
std::string baseDirPath{server->getBaseDirPath()};
std::string crtPath{baseDirPath + "certificates/"};
std::string keyPath{baseDirPath + "keys/"};
std::string certBuffer = loadCertificateFromFile(crtPath + "root-ca.crt");
SslOptions sslOpts = Ssl(ssl::CaBuffer{std::move(certBuffer)}, ssl::CertFile{crtPath + "client.crt"}, ssl::KeyFile{keyPath + "client.key"}, ssl::VerifyPeer{false}, ssl::VerifyHost{false}, ssl::VerifyStatus{false});
Response response = cpr::Get(url, sslOpts, Timeout{5000}, Verbose{});
std::string expected_text = "Hello world!";
EXPECT_EQ(expected_text, response.text);
EXPECT_EQ(url, response.url);
EXPECT_EQ(std::string{"text/html"}, response.header["content-type"]);
EXPECT_EQ(200, response.status_code);
EXPECT_EQ(ErrorCode::OK, response.error.code) << response.error.message;
}
#endif
fs::path getBasePath(const std::string& execPath) {
return fs::path(fs::path{execPath}.parent_path().string() + "/").make_preferred();
}
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
fs::path baseDirPath = fs::path{getBasePath(argv[0]).string() + "data/"};
fs::path serverCertPath = fs::path{baseDirPath}.append("certificates/server.crt");
fs::path serverKeyPath = fs::path{baseDirPath}.append("keys/server.key");
server = new HttpsServer(std::move(baseDirPath), std::move(serverCertPath), std::move(serverKeyPath));
::testing::AddGlobalTestEnvironment(server);
return RUN_ALL_TESTS();
}