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|
//
// httplib.h
//
// Copyright (c) 2019 Yuji Hirose. All rights reserved.
// MIT License
//
#ifndef CPPHTTPLIB_HTTPLIB_H
#define CPPHTTPLIB_HTTPLIB_H
/*
* Configuration
*/
#ifndef CPPHTTPLIB_KEEPALIVE_TIMEOUT_SECOND
#define CPPHTTPLIB_KEEPALIVE_TIMEOUT_SECOND 5
#endif
#ifndef CPPHTTPLIB_KEEPALIVE_TIMEOUT_USECOND
#define CPPHTTPLIB_KEEPALIVE_TIMEOUT_USECOND 0
#endif
#ifndef CPPHTTPLIB_KEEPALIVE_MAX_COUNT
#define CPPHTTPLIB_KEEPALIVE_MAX_COUNT 5
#endif
#ifndef CPPHTTPLIB_READ_TIMEOUT_SECOND
#define CPPHTTPLIB_READ_TIMEOUT_SECOND 5
#endif
#ifndef CPPHTTPLIB_READ_TIMEOUT_USECOND
#define CPPHTTPLIB_READ_TIMEOUT_USECOND 0
#endif
#ifndef CPPHTTPLIB_REQUEST_URI_MAX_LENGTH
#define CPPHTTPLIB_REQUEST_URI_MAX_LENGTH 8192
#endif
#ifndef CPPHTTPLIB_REDIRECT_MAX_COUNT
#define CPPHTTPLIB_REDIRECT_MAX_COUNT 20
#endif
#ifndef CPPHTTPLIB_PAYLOAD_MAX_LENGTH
#define CPPHTTPLIB_PAYLOAD_MAX_LENGTH (std::numeric_limits<size_t>::max)()
#endif
#ifndef CPPHTTPLIB_RECV_BUFSIZ
#define CPPHTTPLIB_RECV_BUFSIZ size_t(4096u)
#endif
#ifndef CPPHTTPLIB_THREAD_POOL_COUNT
#define CPPHTTPLIB_THREAD_POOL_COUNT 8
#endif
#ifdef _WIN32
#ifndef _CRT_SECURE_NO_WARNINGS
#define _CRT_SECURE_NO_WARNINGS
#endif //_CRT_SECURE_NO_WARNINGS
#ifndef _CRT_NONSTDC_NO_DEPRECATE
#define _CRT_NONSTDC_NO_DEPRECATE
#endif //_CRT_NONSTDC_NO_DEPRECATE
#if defined(_MSC_VER)
#ifdef _WIN64
typedef __int64 ssize_t;
#else
typedef int ssize_t;
#endif
#if _MSC_VER < 1900
#define snprintf _snprintf_s
#endif
#endif // _MSC_VER
#ifndef S_ISREG
#define S_ISREG(m) (((m)&S_IFREG) == S_IFREG)
#endif // S_ISREG
#ifndef S_ISDIR
#define S_ISDIR(m) (((m)&S_IFDIR) == S_IFDIR)
#endif // S_ISDIR
#ifndef NOMINMAX
#define NOMINMAX
#endif // NOMINMAX
#include <io.h>
#include <winsock2.h>
#include <ws2tcpip.h>
#ifndef WSA_FLAG_NO_HANDLE_INHERIT
#define WSA_FLAG_NO_HANDLE_INHERIT 0x80
#endif
#ifdef _MSC_VER
#pragma comment(lib, "ws2_32.lib")
#endif
#ifndef strcasecmp
#define strcasecmp _stricmp
#endif // strcasecmp
typedef SOCKET socket_t;
#ifdef CPPHTTPLIB_USE_POLL
#define poll(fds, nfds, timeout) WSAPoll(fds, nfds, timeout)
#endif
#else // not _WIN32
#include <arpa/inet.h>
#include <cstring>
#include <netdb.h>
#include <netinet/in.h>
#ifdef CPPHTTPLIB_USE_POLL
#include <poll.h>
#endif
#include <pthread.h>
#include <signal.h>
#include <sys/select.h>
#include <sys/socket.h>
#include <unistd.h>
typedef int socket_t;
#define INVALID_SOCKET (-1)
#endif //_WIN32
#include <assert.h>
#include <atomic>
#include <condition_variable>
#include <errno.h>
#include <fcntl.h>
#include <fstream>
#include <functional>
#include <list>
#include <map>
#include <memory>
#include <mutex>
#include <random>
#include <regex>
#include <string>
#include <sys/stat.h>
#include <thread>
#ifdef CPPHTTPLIB_OPENSSL_SUPPORT
#include <openssl/err.h>
#include <openssl/ssl.h>
#include <openssl/x509v3.h>
// #if OPENSSL_VERSION_NUMBER < 0x1010100fL
// #error Sorry, OpenSSL versions prior to 1.1.1 are not supported
// #endif
#if OPENSSL_VERSION_NUMBER < 0x10100000L
#include <openssl/crypto.h>
inline const unsigned char *ASN1_STRING_get0_data(const ASN1_STRING *asn1) {
return M_ASN1_STRING_data(asn1);
}
#endif
#endif
#ifdef CPPHTTPLIB_ZLIB_SUPPORT
#include <zlib.h>
#endif
namespace httplib {
namespace detail {
struct ci {
bool operator()(const std::string &s1, const std::string &s2) const {
return std::lexicographical_compare(
s1.begin(), s1.end(), s2.begin(), s2.end(),
[](char c1, char c2) { return ::tolower(c1) < ::tolower(c2); });
}
};
} // namespace detail
enum class HttpVersion { v1_0 = 0, v1_1 };
typedef std::multimap<std::string, std::string, detail::ci> Headers;
typedef std::multimap<std::string, std::string> Params;
typedef std::smatch Match;
typedef std::function<void(const char *data, size_t data_len)> DataSink;
typedef std::function<void()> Done;
typedef std::function<void(size_t offset, size_t length, DataSink sink,
Done done)>
ContentProvider;
typedef std::function<bool(const char *data, size_t data_length, size_t offset,
uint64_t content_length)>
ContentReceiver;
typedef std::function<bool(uint64_t current, uint64_t total)> Progress;
struct Response;
typedef std::function<bool(const Response &response)> ResponseHandler;
struct MultipartFile {
std::string filename;
std::string content_type;
size_t offset = 0;
size_t length = 0;
};
typedef std::multimap<std::string, MultipartFile> MultipartFiles;
struct MultipartFormData {
std::string name;
std::string content;
std::string filename;
std::string content_type;
};
typedef std::vector<MultipartFormData> MultipartFormDataItems;
typedef std::pair<ssize_t, ssize_t> Range;
typedef std::vector<Range> Ranges;
struct Request {
std::string method;
std::string path;
Headers headers;
std::string body;
// for server
std::string version;
std::string target;
Params params;
MultipartFiles files;
Ranges ranges;
Match matches;
// for client
size_t redirect_count = CPPHTTPLIB_REDIRECT_MAX_COUNT;
ResponseHandler response_handler;
ContentReceiver content_receiver;
Progress progress;
#ifdef CPPHTTPLIB_OPENSSL_SUPPORT
const SSL *ssl;
#endif
bool has_header(const char *key) const;
std::string get_header_value(const char *key, size_t id = 0) const;
size_t get_header_value_count(const char *key) const;
void set_header(const char *key, const char *val);
void set_header(const char *key, const std::string &val);
bool has_param(const char *key) const;
std::string get_param_value(const char *key, size_t id = 0) const;
size_t get_param_value_count(const char *key) const;
bool has_file(const char *key) const;
MultipartFile get_file_value(const char *key) const;
};
struct Response {
std::string version;
int status;
Headers headers;
std::string body;
bool has_header(const char *key) const;
std::string get_header_value(const char *key, size_t id = 0) const;
size_t get_header_value_count(const char *key) const;
void set_header(const char *key, const char *val);
void set_header(const char *key, const std::string &val);
void set_redirect(const char *uri);
void set_content(const char *s, size_t n, const char *content_type);
void set_content(const std::string &s, const char *content_type);
void set_content_provider(
size_t length,
std::function<void(size_t offset, size_t length, DataSink sink)> provider,
std::function<void()> resource_releaser = [] {});
void set_chunked_content_provider(
std::function<void(size_t offset, DataSink sink, Done done)> provider,
std::function<void()> resource_releaser = [] {});
Response() : status(-1), content_provider_resource_length(0) {}
~Response() {
if (content_provider_resource_releaser) {
content_provider_resource_releaser();
}
}
size_t content_provider_resource_length;
ContentProvider content_provider;
std::function<void()> content_provider_resource_releaser;
};
class Stream {
public:
virtual ~Stream() {}
virtual int read(char *ptr, size_t size) = 0;
virtual int write(const char *ptr, size_t size1) = 0;
virtual int write(const char *ptr) = 0;
virtual int write(const std::string &s) = 0;
virtual std::string get_remote_addr() const = 0;
template <typename... Args>
int write_format(const char *fmt, const Args &... args);
};
class SocketStream : public Stream {
public:
SocketStream(socket_t sock);
virtual ~SocketStream();
virtual int read(char *ptr, size_t size);
virtual int write(const char *ptr, size_t size);
virtual int write(const char *ptr);
virtual int write(const std::string &s);
virtual std::string get_remote_addr() const;
private:
socket_t sock_;
};
class BufferStream : public Stream {
public:
BufferStream() {}
virtual ~BufferStream() {}
virtual int read(char *ptr, size_t size);
virtual int write(const char *ptr, size_t size);
virtual int write(const char *ptr);
virtual int write(const std::string &s);
virtual std::string get_remote_addr() const;
const std::string &get_buffer() const;
private:
std::string buffer;
};
class TaskQueue {
public:
TaskQueue() {}
virtual ~TaskQueue() {}
virtual void enqueue(std::function<void()> fn) = 0;
virtual void shutdown() = 0;
};
#if CPPHTTPLIB_THREAD_POOL_COUNT > 0
class ThreadPool : public TaskQueue {
public:
ThreadPool(size_t n) : shutdown_(false) {
while (n) {
auto t = std::make_shared<std::thread>(worker(*this));
threads_.push_back(t);
n--;
}
}
ThreadPool(const ThreadPool &) = delete;
virtual ~ThreadPool() {}
virtual void enqueue(std::function<void()> fn) override {
std::unique_lock<std::mutex> lock(mutex_);
jobs_.push_back(fn);
cond_.notify_one();
}
virtual void shutdown() override {
// Stop all worker threads...
{
std::unique_lock<std::mutex> lock(mutex_);
shutdown_ = true;
}
cond_.notify_all();
// Join...
for (auto t : threads_) {
t->join();
}
}
private:
struct worker {
worker(ThreadPool &pool) : pool_(pool) {}
void operator()() {
for (;;) {
std::function<void()> fn;
{
std::unique_lock<std::mutex> lock(pool_.mutex_);
pool_.cond_.wait(
lock, [&] { return !pool_.jobs_.empty() || pool_.shutdown_; });
if (pool_.shutdown_ && pool_.jobs_.empty()) { break; }
fn = pool_.jobs_.front();
pool_.jobs_.pop_front();
}
assert(true == static_cast<bool>(fn));
fn();
}
}
ThreadPool &pool_;
};
friend struct worker;
std::vector<std::shared_ptr<std::thread>> threads_;
std::list<std::function<void()>> jobs_;
bool shutdown_;
std::condition_variable cond_;
std::mutex mutex_;
};
#else
class Threads : public TaskQueue {
public:
Threads() : running_threads_(0) {}
virtual ~Threads() {}
virtual void enqueue(std::function<void()> fn) override {
std::thread([=]() {
{
std::lock_guard<std::mutex> guard(running_threads_mutex_);
running_threads_++;
}
fn();
{
std::lock_guard<std::mutex> guard(running_threads_mutex_);
running_threads_--;
}
}).detach();
}
virtual void shutdown() override {
for (;;) {
std::this_thread::sleep_for(std::chrono::milliseconds(10));
std::lock_guard<std::mutex> guard(running_threads_mutex_);
if (!running_threads_) { break; }
}
}
private:
std::mutex running_threads_mutex_;
int running_threads_;
};
#endif
class Server {
public:
typedef std::function<void(const Request &, Response &)> Handler;
typedef std::function<void(const Request &, const Response &)> Logger;
Server();
virtual ~Server();
virtual bool is_valid() const;
Server &Get(const char *pattern, Handler handler);
Server &Post(const char *pattern, Handler handler);
Server &Put(const char *pattern, Handler handler);
Server &Patch(const char *pattern, Handler handler);
Server &Delete(const char *pattern, Handler handler);
Server &Options(const char *pattern, Handler handler);
bool set_base_dir(const char *path);
void set_file_request_handler(Handler handler);
void set_error_handler(Handler handler);
void set_logger(Logger logger);
void set_keep_alive_max_count(size_t count);
void set_payload_max_length(size_t length);
int bind_to_any_port(const char *host, int socket_flags = 0);
bool listen_after_bind();
bool listen(const char *host, int port, int socket_flags = 0);
bool is_running() const;
void stop();
std::function<TaskQueue *(void)> new_task_queue;
protected:
bool process_request(Stream &strm, bool last_connection,
bool &connection_close,
std::function<void(Request &)> setup_request);
size_t keep_alive_max_count_;
size_t payload_max_length_;
private:
typedef std::vector<std::pair<std::regex, Handler>> Handlers;
socket_t create_server_socket(const char *host, int port,
int socket_flags) const;
int bind_internal(const char *host, int port, int socket_flags);
bool listen_internal();
bool routing(Request &req, Response &res);
bool handle_file_request(Request &req, Response &res);
bool dispatch_request(Request &req, Response &res, Handlers &handlers);
bool parse_request_line(const char *s, Request &req);
bool write_response(Stream &strm, bool last_connection, const Request &req,
Response &res);
bool write_content_with_provider(Stream &strm, const Request &req,
Response &res, const std::string &boundary,
const std::string &content_type);
virtual bool process_and_close_socket(socket_t sock);
std::atomic<bool> is_running_;
std::atomic<socket_t> svr_sock_;
std::string base_dir_;
Handler file_request_handler_;
Handlers get_handlers_;
Handlers post_handlers_;
Handlers put_handlers_;
Handlers patch_handlers_;
Handlers delete_handlers_;
Handlers options_handlers_;
Handler error_handler_;
Logger logger_;
};
class Client {
public:
Client(const char *host, int port = 80, time_t timeout_sec = 300);
virtual ~Client();
virtual bool is_valid() const;
std::shared_ptr<Response> Get(const char *path);
std::shared_ptr<Response> Get(const char *path, const Headers &headers);
std::shared_ptr<Response> Get(const char *path, Progress progress);
std::shared_ptr<Response> Get(const char *path, const Headers &headers,
Progress progress);
std::shared_ptr<Response> Get(const char *path,
ContentReceiver content_receiver);
std::shared_ptr<Response> Get(const char *path, const Headers &headers,
ContentReceiver content_receiver);
std::shared_ptr<Response>
Get(const char *path, ContentReceiver content_receiver, Progress progress);
std::shared_ptr<Response> Get(const char *path, const Headers &headers,
ContentReceiver content_receiver,
Progress progress);
std::shared_ptr<Response> Get(const char *path, const Headers &headers,
ResponseHandler response_handler,
ContentReceiver content_receiver);
std::shared_ptr<Response> Get(const char *path, const Headers &headers,
ResponseHandler response_handler,
ContentReceiver content_receiver,
Progress progress);
std::shared_ptr<Response> Head(const char *path);
std::shared_ptr<Response> Head(const char *path, const Headers &headers);
std::shared_ptr<Response> Post(const char *path, const std::string &body,
const char *content_type);
std::shared_ptr<Response> Post(const char *path, const Headers &headers,
const std::string &body,
const char *content_type);
std::shared_ptr<Response> Post(const char *path, const Params ¶ms);
std::shared_ptr<Response> Post(const char *path, const Headers &headers,
const Params ¶ms);
std::shared_ptr<Response> Post(const char *path,
const MultipartFormDataItems &items);
std::shared_ptr<Response> Post(const char *path, const Headers &headers,
const MultipartFormDataItems &items);
std::shared_ptr<Response> Put(const char *path, const std::string &body,
const char *content_type);
std::shared_ptr<Response> Put(const char *path, const Headers &headers,
const std::string &body,
const char *content_type);
std::shared_ptr<Response> Patch(const char *path, const std::string &body,
const char *content_type);
std::shared_ptr<Response> Patch(const char *path, const Headers &headers,
const std::string &body,
const char *content_type);
std::shared_ptr<Response> Delete(const char *path);
std::shared_ptr<Response> Delete(const char *path, const std::string &body,
const char *content_type);
std::shared_ptr<Response> Delete(const char *path, const Headers &headers);
std::shared_ptr<Response> Delete(const char *path, const Headers &headers,
const std::string &body,
const char *content_type);
std::shared_ptr<Response> Options(const char *path);
std::shared_ptr<Response> Options(const char *path, const Headers &headers);
bool send(const Request &req, Response &res);
bool send(const std::vector<Request> &requests,
std::vector<Response> &responses);
void set_keep_alive_max_count(size_t count);
void follow_location(bool on);
protected:
bool process_request(Stream &strm, const Request &req, Response &res,
bool last_connection, bool &connection_close);
const std::string host_;
const int port_;
time_t timeout_sec_;
const std::string host_and_port_;
size_t keep_alive_max_count_;
size_t follow_location_;
private:
socket_t create_client_socket() const;
bool read_response_line(Stream &strm, Response &res);
void write_request(Stream &strm, const Request &req, bool last_connection);
bool redirect(const Request &req, Response &res);
virtual bool process_and_close_socket(
socket_t sock, size_t request_count,
std::function<bool(Stream &strm, bool last_connection,
bool &connection_close)>
callback);
virtual bool is_ssl() const;
};
inline void Get(std::vector<Request> &requests, const char *path,
const Headers &headers) {
Request req;
req.method = "GET";
req.path = path;
req.headers = headers;
requests.emplace_back(std::move(req));
}
inline void Get(std::vector<Request> &requests, const char *path) {
Get(requests, path, Headers());
}
inline void Post(std::vector<Request> &requests, const char *path,
const Headers &headers, const std::string &body,
const char *content_type) {
Request req;
req.method = "POST";
req.path = path;
req.headers = headers;
req.headers.emplace("Content-Type", content_type);
req.body = body;
requests.emplace_back(std::move(req));
}
inline void Post(std::vector<Request> &requests, const char *path,
const std::string &body, const char *content_type) {
Post(requests, path, Headers(), body, content_type);
}
#ifdef CPPHTTPLIB_OPENSSL_SUPPORT
class SSLSocketStream : public Stream {
public:
SSLSocketStream(socket_t sock, SSL *ssl);
virtual ~SSLSocketStream();
virtual int read(char *ptr, size_t size);
virtual int write(const char *ptr, size_t size);
virtual int write(const char *ptr);
virtual int write(const std::string &s);
virtual std::string get_remote_addr() const;
private:
socket_t sock_;
SSL *ssl_;
};
class SSLServer : public Server {
public:
SSLServer(const char *cert_path, const char *private_key_path,
const char *client_ca_cert_file_path = nullptr,
const char *client_ca_cert_dir_path = nullptr);
virtual ~SSLServer();
virtual bool is_valid() const;
private:
virtual bool process_and_close_socket(socket_t sock);
SSL_CTX *ctx_;
std::mutex ctx_mutex_;
};
class SSLClient : public Client {
public:
SSLClient(const char *host, int port = 443, time_t timeout_sec = 300,
const char *client_cert_path = nullptr,
const char *client_key_path = nullptr);
virtual ~SSLClient();
virtual bool is_valid() const;
void set_ca_cert_path(const char *ca_ceert_file_path,
const char *ca_cert_dir_path = nullptr);
void enable_server_certificate_verification(bool enabled);
long get_openssl_verify_result() const;
SSL_CTX* ssl_context() const noexcept;
private:
virtual bool process_and_close_socket(
socket_t sock, size_t request_count,
std::function<bool(Stream &strm, bool last_connection,
bool &connection_close)>
callback);
virtual bool is_ssl() const;
bool verify_host(X509 *server_cert) const;
bool verify_host_with_subject_alt_name(X509 *server_cert) const;
bool verify_host_with_common_name(X509 *server_cert) const;
bool check_host_name(const char *pattern, size_t pattern_len) const;
SSL_CTX *ctx_;
std::mutex ctx_mutex_;
std::vector<std::string> host_components_;
std::string ca_cert_file_path_;
std::string ca_cert_dir_path_;
bool server_certificate_verification_ = false;
long verify_result_ = 0;
};
#endif
/*
* Implementation
*/
namespace detail {
inline bool is_hex(char c, int &v) {
if (0x20 <= c && isdigit(c)) {
v = c - '0';
return true;
} else if ('A' <= c && c <= 'F') {
v = c - 'A' + 10;
return true;
} else if ('a' <= c && c <= 'f') {
v = c - 'a' + 10;
return true;
}
return false;
}
inline bool from_hex_to_i(const std::string &s, size_t i, size_t cnt,
int &val) {
if (i >= s.size()) { return false; }
val = 0;
for (; cnt; i++, cnt--) {
if (!s[i]) { return false; }
int v = 0;
if (is_hex(s[i], v)) {
val = val * 16 + v;
} else {
return false;
}
}
return true;
}
inline std::string from_i_to_hex(size_t n) {
const char *charset = "0123456789abcdef";
std::string ret;
do {
ret = charset[n & 15] + ret;
n >>= 4;
} while (n > 0);
return ret;
}
inline size_t to_utf8(int code, char *buff) {
if (code < 0x0080) {
buff[0] = (code & 0x7F);
return 1;
} else if (code < 0x0800) {
buff[0] = (0xC0 | ((code >> 6) & 0x1F));
buff[1] = (0x80 | (code & 0x3F));
return 2;
} else if (code < 0xD800) {
buff[0] = (0xE0 | ((code >> 12) & 0xF));
buff[1] = (0x80 | ((code >> 6) & 0x3F));
buff[2] = (0x80 | (code & 0x3F));
return 3;
} else if (code < 0xE000) { // D800 - DFFF is invalid...
return 0;
} else if (code < 0x10000) {
buff[0] = (0xE0 | ((code >> 12) & 0xF));
buff[1] = (0x80 | ((code >> 6) & 0x3F));
buff[2] = (0x80 | (code & 0x3F));
return 3;
} else if (code < 0x110000) {
buff[0] = (0xF0 | ((code >> 18) & 0x7));
buff[1] = (0x80 | ((code >> 12) & 0x3F));
buff[2] = (0x80 | ((code >> 6) & 0x3F));
buff[3] = (0x80 | (code & 0x3F));
return 4;
}
// NOTREACHED
return 0;
}
// NOTE: This code came up with the following stackoverflow post:
// https://stackoverflow.com/questions/180947/base64-decode-snippet-in-c
inline std::string base64_encode(const std::string &in) {
static const auto lookup =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
std::string out;
out.reserve(in.size());
int val = 0;
int valb = -6;
for (uint8_t c : in) {
val = (val << 8) + c;
valb += 8;
while (valb >= 0) {
out.push_back(lookup[(val >> valb) & 0x3F]);
valb -= 6;
}
}
if (valb > -6) { out.push_back(lookup[((val << 8) >> (valb + 8)) & 0x3F]); }
while (out.size() % 4) {
out.push_back('=');
}
return out;
}
inline bool is_file(const std::string &path) {
struct stat st;
return stat(path.c_str(), &st) >= 0 && S_ISREG(st.st_mode);
}
inline bool is_dir(const std::string &path) {
struct stat st;
return stat(path.c_str(), &st) >= 0 && S_ISDIR(st.st_mode);
}
inline bool is_valid_path(const std::string &path) {
size_t level = 0;
size_t i = 0;
// Skip slash
while (i < path.size() && path[i] == '/') {
i++;
}
while (i < path.size()) {
// Read component
auto beg = i;
while (i < path.size() && path[i] != '/') {
i++;
}
auto len = i - beg;
assert(len > 0);
if (!path.compare(beg, len, ".")) {
;
} else if (!path.compare(beg, len, "..")) {
if (level == 0) { return false; }
level--;
} else {
level++;
}
// Skip slash
while (i < path.size() && path[i] == '/') {
i++;
}
}
return true;
}
inline void read_file(const std::string &path, std::string &out) {
std::ifstream fs(path, std::ios_base::binary);
fs.seekg(0, std::ios_base::end);
auto size = fs.tellg();
fs.seekg(0);
out.resize(static_cast<size_t>(size));
fs.read(&out[0], size);
}
inline std::string file_extension(const std::string &path) {
std::smatch m;
auto pat = std::regex("\\.([a-zA-Z0-9]+)$");
if (std::regex_search(path, m, pat)) { return m[1].str(); }
return std::string();
}
template <class Fn> void split(const char *b, const char *e, char d, Fn fn) {
int i = 0;
int beg = 0;
while (e ? (b + i != e) : (b[i] != '\0')) {
if (b[i] == d) {
fn(&b[beg], &b[i]);
beg = i + 1;
}
i++;
}
if (i) { fn(&b[beg], &b[i]); }
}
// NOTE: until the read size reaches `fixed_buffer_size`, use `fixed_buffer`
// to store data. The call can set memory on stack for performance.
class stream_line_reader {
public:
stream_line_reader(Stream &strm, char *fixed_buffer, size_t fixed_buffer_size)
: strm_(strm), fixed_buffer_(fixed_buffer),
fixed_buffer_size_(fixed_buffer_size) {}
const char *ptr() const {
if (glowable_buffer_.empty()) {
return fixed_buffer_;
} else {
return glowable_buffer_.data();
}
}
size_t size() const {
if (glowable_buffer_.empty()) {
return fixed_buffer_used_size_;
} else {
return glowable_buffer_.size();
}
}
bool getline() {
fixed_buffer_used_size_ = 0;
glowable_buffer_.clear();
for (size_t i = 0;; i++) {
char byte;
auto n = strm_.read(&byte, 1);
if (n < 0) {
return false;
} else if (n == 0) {
if (i == 0) {
return false;
} else {
break;
}
}
append(byte);
if (byte == '\n') { break; }
}
return true;
}
private:
void append(char c) {
if (fixed_buffer_used_size_ < fixed_buffer_size_ - 1) {
fixed_buffer_[fixed_buffer_used_size_++] = c;
fixed_buffer_[fixed_buffer_used_size_] = '\0';
} else {
if (glowable_buffer_.empty()) {
assert(fixed_buffer_[fixed_buffer_used_size_] == '\0');
glowable_buffer_.assign(fixed_buffer_, fixed_buffer_used_size_);
}
glowable_buffer_ += c;
}
}
Stream &strm_;
char *fixed_buffer_;
const size_t fixed_buffer_size_;
size_t fixed_buffer_used_size_;
std::string glowable_buffer_;
};
inline int close_socket(socket_t sock) {
#ifdef _WIN32
return closesocket(sock);
#else
return close(sock);
#endif
}
inline int select_read(socket_t sock, time_t sec, time_t usec) {
#ifdef CPPHTTPLIB_USE_POLL
struct pollfd pfd_read;
pfd_read.fd = sock;
pfd_read.events = POLLIN;
auto timeout = static_cast<int>(sec * 1000 + usec / 1000);
return poll(&pfd_read, 1, timeout);
#else
fd_set fds;
FD_ZERO(&fds);
FD_SET(sock, &fds);
timeval tv;
tv.tv_sec = static_cast<long>(sec);
tv.tv_usec = static_cast<long>(usec);
return select(static_cast<int>(sock + 1), &fds, nullptr, nullptr, &tv);
#endif
}
inline bool wait_until_socket_is_ready(socket_t sock, time_t sec, time_t usec) {
#ifdef CPPHTTPLIB_USE_POLL
struct pollfd pfd_read;
pfd_read.fd = sock;
pfd_read.events = POLLIN | POLLOUT;
auto timeout = static_cast<int>(sec * 1000 + usec / 1000);
if (poll(&pfd_read, 1, timeout) > 0 &&
pfd_read.revents & (POLLIN | POLLOUT)) {
int error = 0;
socklen_t len = sizeof(error);
return getsockopt(sock, SOL_SOCKET, SO_ERROR, reinterpret_cast<char*>(&error), &len) >= 0 &&
!error;
}
return false;
#else
fd_set fdsr;
FD_ZERO(&fdsr);
FD_SET(sock, &fdsr);
auto fdsw = fdsr;
auto fdse = fdsr;
timeval tv;
tv.tv_sec = static_cast<long>(sec);
tv.tv_usec = static_cast<long>(usec);
if (select(static_cast<int>(sock + 1), &fdsr, &fdsw, &fdse, &tv) > 0 &&
(FD_ISSET(sock, &fdsr) || FD_ISSET(sock, &fdsw))) {
int error = 0;
socklen_t len = sizeof(error);
return getsockopt(sock, SOL_SOCKET, SO_ERROR, (char *)&error, &len) >= 0 &&
!error;
}
return false;
#endif
}
template <typename T>
inline bool process_and_close_socket(bool is_client_request, socket_t sock,
size_t keep_alive_max_count, T callback) {
assert(keep_alive_max_count > 0);
bool ret = false;
if (keep_alive_max_count > 1) {
auto count = keep_alive_max_count;
while (count > 0 &&
(is_client_request ||
detail::select_read(sock, CPPHTTPLIB_KEEPALIVE_TIMEOUT_SECOND,
CPPHTTPLIB_KEEPALIVE_TIMEOUT_USECOND) > 0)) {
SocketStream strm(sock);
auto last_connection = count == 1;
auto connection_close = false;
ret = callback(strm, last_connection, connection_close);
if (!ret || connection_close) { break; }
count--;
}
} else {
SocketStream strm(sock);
auto dummy_connection_close = false;
ret = callback(strm, true, dummy_connection_close);
}
close_socket(sock);
return ret;
}
inline int shutdown_socket(socket_t sock) {
#ifdef _WIN32
return shutdown(sock, SD_BOTH);
#else
return shutdown(sock, SHUT_RDWR);
#endif
}
template <typename Fn>
socket_t create_socket(const char *host, int port, Fn fn,
int socket_flags = 0) {
#ifdef _WIN32
#define SO_SYNCHRONOUS_NONALERT 0x20
#define SO_OPENTYPE 0x7008
int opt = SO_SYNCHRONOUS_NONALERT;
setsockopt(INVALID_SOCKET, SOL_SOCKET, SO_OPENTYPE, (char *)&opt,
sizeof(opt));
#endif
// Get address info
struct addrinfo hints;
struct addrinfo *result;
memset(&hints, 0, sizeof(struct addrinfo));
hints.ai_family = AF_UNSPEC;
hints.ai_socktype = SOCK_STREAM;
hints.ai_flags = socket_flags;
hints.ai_protocol = 0;
auto service = std::to_string(port);
if (getaddrinfo(host, service.c_str(), &hints, &result)) {
return INVALID_SOCKET;
}
for (auto rp = result; rp; rp = rp->ai_next) {
// Create a socket
#ifdef _WIN32
auto sock = WSASocketW(rp->ai_family, rp->ai_socktype, rp->ai_protocol,
nullptr, 0, WSA_FLAG_NO_HANDLE_INHERIT);
#else
auto sock = socket(rp->ai_family, rp->ai_socktype, rp->ai_protocol);
#endif
if (sock == INVALID_SOCKET) { continue; }
#ifndef _WIN32
if (fcntl(sock, F_SETFD, FD_CLOEXEC) == -1) { continue; }
#endif
// Make 'reuse address' option available
int yes = 1;
setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, reinterpret_cast<char*>(&yes), sizeof(yes));
#ifdef SO_REUSEPORT
setsockopt(sock, SOL_SOCKET, SO_REUSEPORT, reinterpret_cast<char*>(&yes), sizeof(yes));
#endif
// bind or connect
if (fn(sock, *rp)) {
freeaddrinfo(result);
return sock;
}
close_socket(sock);
}
freeaddrinfo(result);
return INVALID_SOCKET;
}
inline void set_nonblocking(socket_t sock, bool nonblocking) {
#ifdef _WIN32
auto flags = nonblocking ? 1UL : 0UL;
ioctlsocket(sock, FIONBIO, &flags);
#else
auto flags = fcntl(sock, F_GETFL, 0);
fcntl(sock, F_SETFL,
nonblocking ? (flags | O_NONBLOCK) : (flags & (~O_NONBLOCK)));
#endif
}
inline bool is_connection_error() {
#ifdef _WIN32
return WSAGetLastError() != WSAEWOULDBLOCK;
#else
return errno != EINPROGRESS;
#endif
}
inline std::string get_remote_addr(socket_t sock) {
struct sockaddr_storage addr;
socklen_t len = sizeof(addr);
if (!getpeername(sock, reinterpret_cast<struct sockaddr *>(&addr), &len)) {
char ipstr[NI_MAXHOST];
if (!getnameinfo(reinterpret_cast<struct sockaddr *>(&addr), len, ipstr, sizeof(ipstr),
nullptr, 0, NI_NUMERICHOST)) {
return ipstr;
}
}
return std::string();
}
inline const char *find_content_type(const std::string &path) {
auto ext = file_extension(path);
if (ext == "txt") {
return "text/plain";
} else if (ext == "html") {
return "text/html";
} else if (ext == "css") {
return "text/css";
} else if (ext == "jpeg" || ext == "jpg") {
return "image/jpg";
} else if (ext == "png") {
return "image/png";
} else if (ext == "gif") {
return "image/gif";
} else if (ext == "svg") {
return "image/svg+xml";
} else if (ext == "ico") {
return "image/x-icon";
} else if (ext == "json") {
return "application/json";
} else if (ext == "pdf") {
return "application/pdf";
} else if (ext == "js") {
return "application/javascript";
} else if (ext == "xml") {
return "application/xml";
} else if (ext == "xhtml") {
return "application/xhtml+xml";
}
return nullptr;
}
inline const char *status_message(int status) {
switch (status) {
case 200: return "OK";
case 206: return "Partial Content";
case 301: return "Moved Permanently";
case 302: return "Found";
case 303: return "See Other";
case 304: return "Not Modified";
case 400: return "Bad Request";
case 403: return "Forbidden";
case 404: return "Not Found";
case 413: return "Payload Too Large";
case 414: return "Request-URI Too Long";
case 415: return "Unsupported Media Type";
case 416: return "Range Not Satisfiable";
default:
case 500: return "Internal Server Error";
}
}
#ifdef CPPHTTPLIB_ZLIB_SUPPORT
inline bool can_compress(const std::string &content_type) {
return !content_type.find("text/") || content_type == "image/svg+xml" ||
content_type == "application/javascript" ||
content_type == "application/json" ||
content_type == "application/xml" ||
content_type == "application/xhtml+xml";
}
inline bool compress(std::string &content) {
z_stream strm;
strm.zalloc = Z_NULL;
strm.zfree = Z_NULL;
strm.opaque = Z_NULL;
auto ret = deflateInit2(&strm, Z_DEFAULT_COMPRESSION, Z_DEFLATED, 31, 8,
Z_DEFAULT_STRATEGY);
if (ret != Z_OK) { return false; }
strm.avail_in = content.size();
strm.next_in = const_cast<Bytef*>(reinterpret_cast<const Bytef*>(content.data()));
std::string compressed;
const auto bufsiz = 16384;
char buff[bufsiz];
do {
strm.avail_out = bufsiz;
strm.next_out = reinterpret_cast<Bytef*>(buff);
ret = deflate(&strm, Z_FINISH);
assert(ret != Z_STREAM_ERROR);
compressed.append(buff, bufsiz - strm.avail_out);
} while (strm.avail_out == 0);
assert(ret == Z_STREAM_END);
assert(strm.avail_in == 0);
content.swap(compressed);
deflateEnd(&strm);
return true;
}
class decompressor {
public:
decompressor() {
strm.zalloc = Z_NULL;
strm.zfree = Z_NULL;
strm.opaque = Z_NULL;
// 15 is the value of wbits, which should be at the maximum possible value
// to ensure that any gzip stream can be decoded. The offset of 16 specifies
// that the stream to decompress will be formatted with a gzip wrapper.
is_valid_ = inflateInit2(&strm, 16 + 15) == Z_OK;
}
~decompressor() { inflateEnd(&strm); }
bool is_valid() const { return is_valid_; }
template <typename T>
bool decompress(const char *data, size_t data_length, T callback) {
int ret = Z_OK;
strm.avail_in = data_length;
strm.next_in = const_cast<Bytef*>(reinterpret_cast<const Bytef *>(data));
const auto bufsiz = 16384;
char buff[bufsiz];
do {
strm.avail_out = bufsiz;
strm.next_out = reinterpret_cast<Bytef*>(buff);
ret = inflate(&strm, Z_NO_FLUSH);
assert(ret != Z_STREAM_ERROR);
switch (ret) {
case Z_NEED_DICT:
case Z_DATA_ERROR:
case Z_MEM_ERROR: inflateEnd(&strm); return false;
}
if (!callback(buff, bufsiz - strm.avail_out)) { return false; }
} while (strm.avail_out == 0);
return ret == Z_STREAM_END;
}
private:
bool is_valid_;
z_stream strm;
};
#endif
inline bool has_header(const Headers &headers, const char *key) {
return headers.find(key) != headers.end();
}
inline const char *get_header_value(const Headers &headers, const char *key,
size_t id = 0, const char *def = nullptr) {
auto it = headers.find(key);
std::advance(it, id);
if (it != headers.end()) { return it->second.c_str(); }
return def;
}
inline uint64_t get_header_value_uint64(const Headers &headers, const char *key,
int def = 0) {
auto it = headers.find(key);
if (it != headers.end()) {
return std::strtoull(it->second.data(), nullptr, 10);
}
return def;
}
inline bool read_headers(Stream &strm, Headers &headers) {
static std::regex re(R"((.+?):\s*(.+?)\s*\r\n)");
const auto bufsiz = 2048;
char buf[bufsiz];
stream_line_reader reader(strm, buf, bufsiz);
for (;;) {
if (!reader.getline()) { return false; }
if (!strcmp(reader.ptr(), "\r\n")) { break; }
std::cmatch m;
if (std::regex_match(reader.ptr(), m, re)) {
auto key = std::string(m[1]);
auto val = std::string(m[2]);
headers.emplace(key, val);
}
}
return true;
}
typedef std::function<bool(const char *data, size_t data_length)>
ContentReceiverCore;
inline bool read_content_with_length(Stream &strm, uint64_t len,
Progress progress,
ContentReceiverCore out) {
char buf[CPPHTTPLIB_RECV_BUFSIZ];
uint64_t r = 0;
while (r < len) {
auto read_len = static_cast<size_t>(len - r);
auto n = strm.read(buf, std::min(read_len, CPPHTTPLIB_RECV_BUFSIZ));
if (n <= 0) { return false; }
if (!out(buf, n)) { return false; }
r += n;
if (progress) {
if (!progress(r, len)) { return false; }
}
}
return true;
}
inline void skip_content_with_length(Stream &strm, uint64_t len) {
char buf[CPPHTTPLIB_RECV_BUFSIZ];
uint64_t r = 0;
while (r < len) {
auto read_len = static_cast<size_t>(len - r);
auto n = strm.read(buf, std::min(read_len, CPPHTTPLIB_RECV_BUFSIZ));
if (n <= 0) { return; }
r += n;
}
}
inline bool read_content_without_length(Stream &strm, ContentReceiverCore out) {
char buf[CPPHTTPLIB_RECV_BUFSIZ];
for (;;) {
auto n = strm.read(buf, CPPHTTPLIB_RECV_BUFSIZ);
if (n < 0) {
return false;
} else if (n == 0) {
return true;
}
if (!out(buf, n)) { return false; }
}
return true;
}
inline bool read_content_chunked(Stream &strm, ContentReceiverCore out) {
const auto bufsiz = 16;
char buf[bufsiz];
stream_line_reader reader(strm, buf, bufsiz);
if (!reader.getline()) { return false; }
auto chunk_len = std::stoi(reader.ptr(), 0, 16);
while (chunk_len > 0) {
if (!read_content_with_length(strm, chunk_len, nullptr, out)) {
return false;
}
if (!reader.getline()) { return false; }
if (strcmp(reader.ptr(), "\r\n")) { break; }
if (!reader.getline()) { return false; }
chunk_len = std::stoi(reader.ptr(), 0, 16);
}
if (chunk_len == 0) {
// Reader terminator after chunks
if (!reader.getline() || strcmp(reader.ptr(), "\r\n")) return false;
}
return true;
}
inline bool is_chunked_transfer_encoding(const Headers &headers) {
return !strcasecmp(get_header_value(headers, "Transfer-Encoding", 0, ""),
"chunked");
}
template <typename T>
bool read_content(Stream &strm, T &x, size_t payload_max_length, int &status,
Progress progress, ContentReceiverCore receiver) {
ContentReceiverCore out = [&](const char *buf, size_t n) {
return receiver(buf, n);
};
#ifdef CPPHTTPLIB_ZLIB_SUPPORT
detail::decompressor decompressor;
if (!decompressor.is_valid()) {
status = 500;
return false;
}
if (x.get_header_value("Content-Encoding") == "gzip") {
out = [&](const char *buf, size_t n) {
return decompressor.decompress(
buf, n, [&](const char *buf, size_t n) { return receiver(buf, n); });
};
}
#else
if (x.get_header_value("Content-Encoding") == "gzip") {
status = 415;
return false;
}
#endif
auto ret = true;
auto exceed_payload_max_length = false;
if (is_chunked_transfer_encoding(x.headers)) {
ret = read_content_chunked(strm, out);
} else if (!has_header(x.headers, "Content-Length")) {
ret = read_content_without_length(strm, out);
} else {
auto len = get_header_value_uint64(x.headers, "Content-Length", 0);
if (len > payload_max_length) {
exceed_payload_max_length = true;
skip_content_with_length(strm, len);
ret = false;
} else if (len > 0) {
ret = read_content_with_length(strm, len, progress, out);
}
}
if (!ret) { status = exceed_payload_max_length ? 413 : 400; }
return ret;
}
template <typename T>
inline int write_headers(Stream &strm, const T &info, const Headers &headers) {
auto write_len = 0;
for (const auto &x : info.headers) {
auto len =
strm.write_format("%s: %s\r\n", x.first.c_str(), x.second.c_str());
if (len < 0) { return len; }
write_len += len;
}
for (const auto &x : headers) {
auto len =
strm.write_format("%s: %s\r\n", x.first.c_str(), x.second.c_str());
if (len < 0) { return len; }
write_len += len;
}
auto len = strm.write("\r\n");
if (len < 0) { return len; }
write_len += len;
return write_len;
}
inline ssize_t write_content(Stream &strm, ContentProvider content_provider,
size_t offset, size_t length) {
size_t begin_offset = offset;
size_t end_offset = offset + length;
while (offset < end_offset) {
ssize_t written_length = 0;
content_provider(
offset, end_offset - offset,
[&](const char *d, size_t l) {
offset += l;
written_length = strm.write(d, l);
},
[&](void) { written_length = -1; });
if (written_length < 0) { return written_length; }
}
return static_cast<ssize_t>(offset - begin_offset);
}
inline ssize_t write_content_chunked(Stream &strm,
ContentProvider content_provider) {
size_t offset = 0;
auto data_available = true;
ssize_t total_written_length = 0;
while (data_available) {
ssize_t written_length = 0;
content_provider(
offset, 0,
[&](const char *d, size_t l) {
data_available = l > 0;
offset += l;
// Emit chunked response header and footer for each chunk
auto chunk = from_i_to_hex(l) + "\r\n" + std::string(d, l) + "\r\n";
written_length = strm.write(chunk);
},
[&](void) {
data_available = false;
written_length = strm.write("0\r\n\r\n");
});
if (written_length < 0) { return written_length; }
total_written_length += written_length;
}
return total_written_length;
}
template <typename T>
inline bool redirect(T &cli, const Request &req, Response &res,
const std::string &path) {
Request new_req;
new_req.method = req.method;
new_req.path = path;
new_req.headers = req.headers;
new_req.body = req.body;
new_req.redirect_count = req.redirect_count - 1;
new_req.response_handler = req.response_handler;
new_req.content_receiver = req.content_receiver;
new_req.progress = req.progress;
Response new_res;
auto ret = cli.send(new_req, new_res);
if (ret) { res = new_res; }
return ret;
}
inline std::string encode_url(const std::string &s) {
std::string result;
for (auto i = 0; s[i]; i++) {
switch (s[i]) {
case ' ': result += "%20"; break;
case '+': result += "%2B"; break;
case '\r': result += "%0D"; break;
case '\n': result += "%0A"; break;
case '\'': result += "%27"; break;
case ',': result += "%2C"; break;
case ':': result += "%3A"; break;
case ';': result += "%3B"; break;
default:
auto c = static_cast<uint8_t>(s[i]);
if (c >= 0x80) {
result += '%';
char hex[4];
size_t len = snprintf(hex, sizeof(hex) - 1, "%02X", c);
assert(len == 2);
result.append(hex, len);
} else {
result += s[i];
}
break;
}
}
return result;
}
inline std::string decode_url(const std::string &s) {
std::string result;
for (size_t i = 0; i < s.size(); i++) {
if (s[i] == '%' && i + 1 < s.size()) {
if (s[i + 1] == 'u') {
int val = 0;
if (from_hex_to_i(s, i + 2, 4, val)) {
// 4 digits Unicode codes
char buff[4];
size_t len = to_utf8(val, buff);
if (len > 0) { result.append(buff, len); }
i += 5; // 'u0000'
} else {
result += s[i];
}
} else {
int val = 0;
if (from_hex_to_i(s, i + 1, 2, val)) {
// 2 digits hex codes
result += static_cast<char>(val);
i += 2; // '00'
} else {
result += s[i];
}
}
} else if (s[i] == '+') {
result += ' ';
} else {
result += s[i];
}
}
return result;
}
inline void parse_query_text(const std::string &s, Params ¶ms) {
split(&s[0], &s[s.size()], '&', [&](const char *b, const char *e) {
std::string key;
std::string val;
split(b, e, '=', [&](const char *b, const char *e) {
if (key.empty()) {
key.assign(b, e);
} else {
val.assign(b, e);
}
});
params.emplace(key, decode_url(val));
});
}
inline bool parse_multipart_boundary(const std::string &content_type,
std::string &boundary) {
auto pos = content_type.find("boundary=");
if (pos == std::string::npos) { return false; }
boundary = content_type.substr(pos + 9);
return true;
}
inline bool parse_multipart_formdata(const std::string &boundary,
const std::string &body,
MultipartFiles &files) {
static std::string dash = "--";
static std::string crlf = "\r\n";
static std::regex re_content_type("Content-Type: (.*?)",
std::regex_constants::icase);
static std::regex re_content_disposition(
"Content-Disposition: form-data; name=\"(.*?)\"(?:; filename=\"(.*?)\")?",
std::regex_constants::icase);
auto dash_boundary = dash + boundary;
auto pos = body.find(dash_boundary);
if (pos != 0) { return false; }
pos += dash_boundary.size();
auto next_pos = body.find(crlf, pos);
if (next_pos == std::string::npos) { return false; }
pos = next_pos + crlf.size();
while (pos < body.size()) {
next_pos = body.find(crlf, pos);
if (next_pos == std::string::npos) { return false; }
std::string name;
MultipartFile file;
auto header = body.substr(pos, (next_pos - pos));
while (pos != next_pos) {
std::smatch m;
if (std::regex_match(header, m, re_content_type)) {
file.content_type = m[1];
} else if (std::regex_match(header, m, re_content_disposition)) {
name = m[1];
file.filename = m[2];
}
pos = next_pos + crlf.size();
next_pos = body.find(crlf, pos);
if (next_pos == std::string::npos) { return false; }
header = body.substr(pos, (next_pos - pos));
}
pos = next_pos + crlf.size();
next_pos = body.find(crlf + dash_boundary, pos);
if (next_pos == std::string::npos) { return false; }
file.offset = pos;
file.length = next_pos - pos;
pos = next_pos + crlf.size() + dash_boundary.size();
next_pos = body.find(crlf, pos);
if (next_pos == std::string::npos) { return false; }
files.emplace(name, file);
pos = next_pos + crlf.size();
}
return true;
}
inline bool parse_range_header(const std::string &s, Ranges &ranges) {
try {
static auto re = std::regex(R"(bytes=(\d*-\d*(?:,\s*\d*-\d*)*))");
std::smatch m;
if (std::regex_match(s, m, re)) {
auto pos = m.position(1);
auto len = m.length(1);
detail::split(&s[pos], &s[pos + len], ',',
[&](const char *b, const char *e) {
static auto re = std::regex(R"(\s*(\d*)-(\d*))");
std::cmatch m;
if (std::regex_match(b, e, m, re)) {
ssize_t first = -1;
if (!m.str(1).empty()) {
first = static_cast<ssize_t>(std::stoll(m.str(1)));
}
ssize_t last = -1;
if (!m.str(2).empty()) {
last = static_cast<ssize_t>(std::stoll(m.str(2)));
}
if (first != -1 && last != -1 && first > last) {
throw std::runtime_error("invalid range error");
}
ranges.emplace_back(std::make_pair(first, last));
}
});
return true;
}
return false;
} catch (...) { return false; }
}
inline std::string to_lower(const char *beg, const char *end) {
std::string out;
auto it = beg;
while (it != end) {
out += static_cast<char>(::tolower(*it));
it++;
}
return out;
}
inline std::string make_multipart_data_boundary() {
static const char data[] =
"0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";
std::random_device seed_gen;
std::mt19937 engine(seed_gen());
std::string result = "--cpp-httplib-multipart-data-";
for (auto i = 0; i < 16; i++) {
result += data[engine() % (sizeof(data) - 1)];
}
return result;
}
inline std::pair<size_t, size_t>
get_range_offset_and_length(const Request &req, size_t content_length,
size_t index) {
auto r = req.ranges[index];
if (r.first == -1 && r.second == -1) {
return std::make_pair(0, content_length);
}
if (r.first == -1) {
r.first = content_length - r.second;
r.second = content_length - 1;
}
if (r.second == -1) { r.second = content_length - 1; }
return std::make_pair(r.first, r.second - r.first + 1);
}
inline std::string make_content_range_header_field(size_t offset, size_t length,
size_t content_length) {
std::string field = "bytes ";
field += std::to_string(offset);
field += "-";
field += std::to_string(offset + length - 1);
field += "/";
field += std::to_string(content_length);
return field;
}
template <typename SToken, typename CToken, typename Content>
bool process_multipart_ranges_data(const Request &req, Response &res,
const std::string &boundary,
const std::string &content_type,
SToken stoken, CToken ctoken,
Content content) {
for (size_t i = 0; i < req.ranges.size(); i++) {
ctoken("--");
stoken(boundary);
ctoken("\r\n");
if (!content_type.empty()) {
ctoken("Content-Type: ");
stoken(content_type);
ctoken("\r\n");
}
auto offsets = detail::get_range_offset_and_length(req, res.body.size(), i);
auto offset = offsets.first;
auto length = offsets.second;
ctoken("Content-Range: ");
stoken(make_content_range_header_field(offset, length, res.body.size()));
ctoken("\r\n");
ctoken("\r\n");
if (!content(offset, length)) { return false; }
ctoken("\r\n");
}
ctoken("--");
stoken(boundary);
ctoken("--\r\n");
return true;
}
inline std::string make_multipart_ranges_data(const Request &req, Response &res,
const std::string &boundary,
const std::string &content_type) {
std::string data;
process_multipart_ranges_data(
req, res, boundary, content_type,
[&](const std::string &token) { data += token; },
[&](const char *token) { data += token; },
[&](size_t offset, size_t length) {
data += res.body.substr(offset, length);
return true;
});
return data;
}
inline size_t
get_multipart_ranges_data_length(const Request &req, Response &res,
const std::string &boundary,
const std::string &content_type) {
size_t data_length = 0;
process_multipart_ranges_data(
req, res, boundary, content_type,
[&](const std::string &token) { data_length += token.size(); },
[&](const char *token) { data_length += strlen(token); },
[&](size_t /*offset*/, size_t length) {
data_length += length;
return true;
});
return data_length;
}
inline bool write_multipart_ranges_data(Stream &strm, const Request &req,
Response &res,
const std::string &boundary,
const std::string &content_type) {
return process_multipart_ranges_data(
req, res, boundary, content_type,
[&](const std::string &token) { strm.write(token); },
[&](const char *token) { strm.write(token); },
[&](size_t offset, size_t length) {
return detail::write_content(strm, res.content_provider, offset,
length) >= 0;
});
}
inline std::pair<size_t, size_t>
get_range_offset_and_length(const Request &req, const Response &res,
size_t index) {
auto r = req.ranges[index];
if (r.second == -1) { r.second = res.content_provider_resource_length - 1; }
return std::make_pair(r.first, r.second - r.first + 1);
}
#ifdef _WIN32
class WSInit {
public:
WSInit() {
WSADATA wsaData;
WSAStartup(0x0002, &wsaData);
}
~WSInit() { WSACleanup(); }
};
static WSInit wsinit_;
#endif
} // namespace detail
// Header utilities
inline std::pair<std::string, std::string> make_range_header(Ranges ranges) {
std::string field = "bytes=";
auto i = 0;
for (auto r : ranges) {
if (i != 0) { field += ", "; }
if (r.first != -1) { field += std::to_string(r.first); }
field += '-';
if (r.second != -1) { field += std::to_string(r.second); }
i++;
}
return std::make_pair("Range", field);
}
inline std::pair<std::string, std::string>
make_basic_authentication_header(const std::string &username,
const std::string &password) {
auto field = "Basic " + detail::base64_encode(username + ":" + password);
return std::make_pair("Authorization", field);
}
// Request implementation
inline bool Request::has_header(const char *key) const {
return detail::has_header(headers, key);
}
inline std::string Request::get_header_value(const char *key, size_t id) const {
return detail::get_header_value(headers, key, id, "");
}
inline size_t Request::get_header_value_count(const char *key) const {
auto r = headers.equal_range(key);
return std::distance(r.first, r.second);
}
inline void Request::set_header(const char *key, const char *val) {
headers.emplace(key, val);
}
inline void Request::set_header(const char *key, const std::string &val) {
headers.emplace(key, val);
}
inline bool Request::has_param(const char *key) const {
return params.find(key) != params.end();
}
inline std::string Request::get_param_value(const char *key, size_t id) const {
auto it = params.find(key);
std::advance(it, id);
if (it != params.end()) { return it->second; }
return std::string();
}
inline size_t Request::get_param_value_count(const char *key) const {
auto r = params.equal_range(key);
return std::distance(r.first, r.second);
}
inline bool Request::has_file(const char *key) const {
return files.find(key) != files.end();
}
inline MultipartFile Request::get_file_value(const char *key) const {
auto it = files.find(key);
if (it != files.end()) { return it->second; }
return MultipartFile();
}
// Response implementation
inline bool Response::has_header(const char *key) const {
return headers.find(key) != headers.end();
}
inline std::string Response::get_header_value(const char *key,
size_t id) const {
return detail::get_header_value(headers, key, id, "");
}
inline size_t Response::get_header_value_count(const char *key) const {
auto r = headers.equal_range(key);
return std::distance(r.first, r.second);
}
inline void Response::set_header(const char *key, const char *val) {
headers.emplace(key, val);
}
inline void Response::set_header(const char *key, const std::string &val) {
headers.emplace(key, val);
}
inline void Response::set_redirect(const char *url) {
set_header("Location", url);
status = 302;
}
inline void Response::set_content(const char *s, size_t n,
const char *content_type) {
body.assign(s, n);
set_header("Content-Type", content_type);
}
inline void Response::set_content(const std::string &s,
const char *content_type) {
body = s;
set_header("Content-Type", content_type);
}
inline void Response::set_content_provider(
size_t length,
std::function<void(size_t offset, size_t length, DataSink sink)> provider,
std::function<void()> resource_releaser) {
assert(length > 0);
content_provider_resource_length = length;
content_provider = [provider](size_t offset, size_t length, DataSink sink,
Done) { provider(offset, length, sink); };
content_provider_resource_releaser = resource_releaser;
}
inline void Response::set_chunked_content_provider(
std::function<void(size_t offset, DataSink sink, Done done)> provider,
std::function<void()> resource_releaser) {
content_provider_resource_length = 0;
content_provider = [provider](size_t offset, size_t, DataSink sink,
Done done) { provider(offset, sink, done); };
content_provider_resource_releaser = resource_releaser;
}
// Rstream implementation
template <typename... Args>
inline int Stream::write_format(const char *fmt, const Args &... args) {
const auto bufsiz = 2048;
char buf[bufsiz];
#if defined(_MSC_VER) && _MSC_VER < 1900
auto n = _snprintf_s(buf, bufsiz, bufsiz - 1, fmt, args...);
#else
auto n = snprintf(buf, bufsiz - 1, fmt, args...);
#endif
if (n <= 0) { return n; }
if (n >= bufsiz - 1) {
std::vector<char> glowable_buf(bufsiz);
while (n >= static_cast<int>(glowable_buf.size() - 1)) {
glowable_buf.resize(glowable_buf.size() * 2);
#if defined(_MSC_VER) && _MSC_VER < 1900
n = _snprintf_s(&glowable_buf[0], glowable_buf.size(),
glowable_buf.size() - 1, fmt, args...);
#else
n = snprintf(&glowable_buf[0], glowable_buf.size() - 1, fmt, args...);
#endif
}
return write(&glowable_buf[0], n);
} else {
return write(buf, n);
}
}
// Socket stream implementation
inline SocketStream::SocketStream(socket_t sock) : sock_(sock) {}
inline SocketStream::~SocketStream() {}
inline int SocketStream::read(char *ptr, size_t size) {
if (detail::select_read(sock_, CPPHTTPLIB_READ_TIMEOUT_SECOND,
CPPHTTPLIB_READ_TIMEOUT_USECOND) > 0) {
return recv(sock_, ptr, static_cast<int>(size), 0);
}
return -1;
}
inline int SocketStream::write(const char *ptr, size_t size) {
return send(sock_, ptr, static_cast<int>(size), 0);
}
inline int SocketStream::write(const char *ptr) {
return write(ptr, strlen(ptr));
}
inline int SocketStream::write(const std::string &s) {
return write(s.data(), s.size());
}
inline std::string SocketStream::get_remote_addr() const {
return detail::get_remote_addr(sock_);
}
// Buffer stream implementation
inline int BufferStream::read(char *ptr, size_t size) {
#if defined(_MSC_VER) && _MSC_VER < 1900
return static_cast<int>(buffer._Copy_s(ptr, size, size));
#else
return static_cast<int>(buffer.copy(ptr, size));
#endif
}
inline int BufferStream::write(const char *ptr, size_t size) {
buffer.append(ptr, size);
return static_cast<int>(size);
}
inline int BufferStream::write(const char *ptr) {
return write(ptr, strlen(ptr));
}
inline int BufferStream::write(const std::string &s) {
return write(s.data(), s.size());
}
inline std::string BufferStream::get_remote_addr() const { return ""; }
inline const std::string &BufferStream::get_buffer() const { return buffer; }
// HTTP server implementation
inline Server::Server()
: keep_alive_max_count_(CPPHTTPLIB_KEEPALIVE_MAX_COUNT),
payload_max_length_(CPPHTTPLIB_PAYLOAD_MAX_LENGTH), is_running_(false),
svr_sock_(INVALID_SOCKET) {
#ifndef _WIN32
signal(SIGPIPE, SIG_IGN);
#endif
new_task_queue = [] {
#if CPPHTTPLIB_THREAD_POOL_COUNT > 0
return new ThreadPool(CPPHTTPLIB_THREAD_POOL_COUNT);
#else
return new Threads();
#endif
};
}
inline Server::~Server() {}
inline Server &Server::Get(const char *pattern, Handler handler) {
get_handlers_.push_back(std::make_pair(std::regex(pattern), handler));
return *this;
}
inline Server &Server::Post(const char *pattern, Handler handler) {
post_handlers_.push_back(std::make_pair(std::regex(pattern), handler));
return *this;
}
inline Server &Server::Put(const char *pattern, Handler handler) {
put_handlers_.push_back(std::make_pair(std::regex(pattern), handler));
return *this;
}
inline Server &Server::Patch(const char *pattern, Handler handler) {
patch_handlers_.push_back(std::make_pair(std::regex(pattern), handler));
return *this;
}
inline Server &Server::Delete(const char *pattern, Handler handler) {
delete_handlers_.push_back(std::make_pair(std::regex(pattern), handler));
return *this;
}
inline Server &Server::Options(const char *pattern, Handler handler) {
options_handlers_.push_back(std::make_pair(std::regex(pattern), handler));
return *this;
}
inline bool Server::set_base_dir(const char *path) {
if (detail::is_dir(path)) {
base_dir_ = path;
return true;
}
return false;
}
inline void Server::set_file_request_handler(Handler handler) {
file_request_handler_ = handler;
}
inline void Server::set_error_handler(Handler handler) {
error_handler_ = handler;
}
inline void Server::set_logger(Logger logger) { logger_ = logger; }
inline void Server::set_keep_alive_max_count(size_t count) {
keep_alive_max_count_ = count;
}
inline void Server::set_payload_max_length(size_t length) {
payload_max_length_ = length;
}
inline int Server::bind_to_any_port(const char *host, int socket_flags) {
return bind_internal(host, 0, socket_flags);
}
inline bool Server::listen_after_bind() { return listen_internal(); }
inline bool Server::listen(const char *host, int port, int socket_flags) {
if (bind_internal(host, port, socket_flags) < 0) return false;
return listen_internal();
}
inline bool Server::is_running() const { return is_running_; }
inline void Server::stop() {
if (is_running_) {
assert(svr_sock_ != INVALID_SOCKET);
std::atomic<socket_t> sock(svr_sock_.exchange(INVALID_SOCKET));
detail::shutdown_socket(sock);
detail::close_socket(sock);
}
}
inline bool Server::parse_request_line(const char *s, Request &req) {
static std::regex re("(GET|HEAD|POST|PUT|DELETE|CONNECT|OPTIONS|TRACE|PATCH|PRI) "
"(([^?]+)(?:\\?(.+?))?) (HTTP/1\\.[01])\r\n");
std::cmatch m;
if (std::regex_match(s, m, re)) {
req.version = std::string(m[5]);
req.method = std::string(m[1]);
req.target = std::string(m[2]);
req.path = detail::decode_url(m[3]);
// Parse query text
auto len = std::distance(m[4].first, m[4].second);
if (len > 0) { detail::parse_query_text(m[4], req.params); }
return true;
}
return false;
}
inline bool Server::write_response(Stream &strm, bool last_connection,
const Request &req, Response &res) {
assert(res.status != -1);
if (400 <= res.status && error_handler_) { error_handler_(req, res); }
// Response line
if (!strm.write_format("HTTP/1.1 %d %s\r\n", res.status,
detail::status_message(res.status))) {
return false;
}
// Headers
if (last_connection || req.get_header_value("Connection") == "close") {
res.set_header("Connection", "close");
}
if (!last_connection && req.get_header_value("Connection") == "Keep-Alive") {
res.set_header("Connection", "Keep-Alive");
}
if (!res.has_header("Content-Type")) {
res.set_header("Content-Type", "text/plain");
}
if (!res.has_header("Accept-Ranges")) {
res.set_header("Accept-Ranges", "bytes");
}
std::string content_type;
std::string boundary;
if (req.ranges.size() > 1) {
boundary = detail::make_multipart_data_boundary();
auto it = res.headers.find("Content-Type");
if (it != res.headers.end()) {
content_type = it->second;
res.headers.erase(it);
}
res.headers.emplace("Content-Type",
"multipart/byteranges; boundary=" + boundary);
}
if (res.body.empty()) {
if (res.content_provider_resource_length > 0) {
size_t length = 0;
if (req.ranges.empty()) {
length = res.content_provider_resource_length;
} else if (req.ranges.size() == 1) {
auto offsets = detail::get_range_offset_and_length(
req, res.content_provider_resource_length, 0);
auto offset = offsets.first;
length = offsets.second;
auto content_range = detail::make_content_range_header_field(
offset, length, res.content_provider_resource_length);
res.set_header("Content-Range", content_range);
} else {
length = detail::get_multipart_ranges_data_length(req, res, boundary,
content_type);
}
res.set_header("Content-Length", std::to_string(length));
} else {
if (res.content_provider) {
res.set_header("Transfer-Encoding", "chunked");
} else {
res.set_header("Content-Length", "0");
}
}
} else {
if (req.ranges.empty()) {
;
} else if (req.ranges.size() == 1) {
auto offsets =
detail::get_range_offset_and_length(req, res.body.size(), 0);
auto offset = offsets.first;
auto length = offsets.second;
auto content_range = detail::make_content_range_header_field(
offset, length, res.body.size());
res.set_header("Content-Range", content_range);
res.body = res.body.substr(offset, length);
} else {
res.body =
detail::make_multipart_ranges_data(req, res, boundary, content_type);
}
#ifdef CPPHTTPLIB_ZLIB_SUPPORT
// TODO: 'Accpet-Encoding' has gzip, not gzip;q=0
const auto &encodings = req.get_header_value("Accept-Encoding");
if (encodings.find("gzip") != std::string::npos &&
detail::can_compress(res.get_header_value("Content-Type"))) {
if (detail::compress(res.body)) {
res.set_header("Content-Encoding", "gzip");
}
}
#endif
auto length = std::to_string(res.body.size());
res.set_header("Content-Length", length);
}
if (!detail::write_headers(strm, res, Headers())) { return false; }
// Body
if (req.method != "HEAD") {
if (!res.body.empty()) {
if (!strm.write(res.body)) { return false; }
} else if (res.content_provider) {
if (!write_content_with_provider(strm, req, res, boundary,
content_type)) {
return false;
}
}
}
// Log
if (logger_) { logger_(req, res); }
return true;
}
inline bool
Server::write_content_with_provider(Stream &strm, const Request &req,
Response &res, const std::string &boundary,
const std::string &content_type) {
if (res.content_provider_resource_length) {
if (req.ranges.empty()) {
if (detail::write_content(strm, res.content_provider, 0,
res.content_provider_resource_length) < 0) {
return false;
}
} else if (req.ranges.size() == 1) {
auto offsets = detail::get_range_offset_and_length(
req, res.content_provider_resource_length, 0);
auto offset = offsets.first;
auto length = offsets.second;
if (detail::write_content(strm, res.content_provider, offset, length) <
0) {
return false;
}
} else {
if (!detail::write_multipart_ranges_data(strm, req, res, boundary,
content_type)) {
return false;
}
}
} else {
if (detail::write_content_chunked(strm, res.content_provider) < 0) {
return false;
}
}
return true;
}
inline bool Server::handle_file_request(Request &req, Response &res) {
if (!base_dir_.empty() && detail::is_valid_path(req.path)) {
std::string path = base_dir_ + req.path;
if (!path.empty() && path.back() == '/') { path += "index.html"; }
if (detail::is_file(path)) {
detail::read_file(path, res.body);
auto type = detail::find_content_type(path);
if (type) { res.set_header("Content-Type", type); }
res.status = 200;
if (file_request_handler_) { file_request_handler_(req, res); }
return true;
}
}
return false;
}
inline socket_t Server::create_server_socket(const char *host, int port,
int socket_flags) const {
return detail::create_socket(
host, port,
[](socket_t sock, struct addrinfo &ai) -> bool {
if (::bind(sock, ai.ai_addr, static_cast<int>(ai.ai_addrlen))) {
return false;
}
if (::listen(sock, 5)) { // Listen through 5 channels
return false;
}
return true;
},
socket_flags);
}
inline int Server::bind_internal(const char *host, int port, int socket_flags) {
if (!is_valid()) { return -1; }
svr_sock_ = create_server_socket(host, port, socket_flags);
if (svr_sock_ == INVALID_SOCKET) { return -1; }
if (port == 0) {
struct sockaddr_storage address;
socklen_t len = sizeof(address);
if (getsockname(svr_sock_, reinterpret_cast<struct sockaddr *>(&address),
&len) == -1) {
return -1;
}
if (address.ss_family == AF_INET) {
return ntohs(reinterpret_cast<struct sockaddr_in *>(&address)->sin_port);
} else if (address.ss_family == AF_INET6) {
return ntohs(
reinterpret_cast<struct sockaddr_in6 *>(&address)->sin6_port);
} else {
return -1;
}
} else {
return port;
}
}
inline bool Server::listen_internal() {
auto ret = true;
is_running_ = true;
{
std::unique_ptr<TaskQueue> task_queue(new_task_queue());
for (;;) {
if (svr_sock_ == INVALID_SOCKET) {
// The server socket was closed by 'stop' method.
break;
}
auto val = detail::select_read(svr_sock_, 0, 100000);
if (val == 0) { // Timeout
continue;
}
socket_t sock = accept(svr_sock_, nullptr, nullptr);
if (sock == INVALID_SOCKET) {
if (errno == EMFILE) {
// The per-process limit of open file descriptors has been reached.
// Try to accept new connections after a short sleep.
std::this_thread::sleep_for(std::chrono::milliseconds(1));
continue;
}
if (svr_sock_ != INVALID_SOCKET) {
detail::close_socket(svr_sock_);
ret = false;
} else {
; // The server socket was closed by user.
}
break;
}
task_queue->enqueue([=]() { process_and_close_socket(sock); });
}
task_queue->shutdown();
}
is_running_ = false;
return ret;
}
inline bool Server::routing(Request &req, Response &res) {
if (req.method == "GET" && handle_file_request(req, res)) { return true; }
if (req.method == "GET" || req.method == "HEAD") {
return dispatch_request(req, res, get_handlers_);
} else if (req.method == "POST") {
return dispatch_request(req, res, post_handlers_);
} else if (req.method == "PUT") {
return dispatch_request(req, res, put_handlers_);
} else if (req.method == "DELETE") {
return dispatch_request(req, res, delete_handlers_);
} else if (req.method == "OPTIONS") {
return dispatch_request(req, res, options_handlers_);
} else if (req.method == "PATCH") {
return dispatch_request(req, res, patch_handlers_);
}
res.status = 400;
return false;
}
inline bool Server::dispatch_request(Request &req, Response &res,
Handlers &handlers) {
for (const auto &x : handlers) {
const auto &pattern = x.first;
const auto &handler = x.second;
if (std::regex_match(req.path, req.matches, pattern)) {
handler(req, res);
return true;
}
}
return false;
}
inline bool
Server::process_request(Stream &strm, bool last_connection,
bool &connection_close,
std::function<void(Request &)> setup_request) {
const auto bufsiz = 2048;
char buf[bufsiz];
detail::stream_line_reader reader(strm, buf, bufsiz);
// Connection has been closed on client
if (!reader.getline()) { return false; }
Request req;
Response res;
res.version = "HTTP/1.1";
// Check if the request URI doesn't exceed the limit
if (reader.size() > CPPHTTPLIB_REQUEST_URI_MAX_LENGTH) {
Headers dummy;
detail::read_headers(strm, dummy);
res.status = 414;
return write_response(strm, last_connection, req, res);
}
// Request line and headers
if (!parse_request_line(reader.ptr(), req) ||
!detail::read_headers(strm, req.headers)) {
res.status = 400;
return write_response(strm, last_connection, req, res);
}
if (req.get_header_value("Connection") == "close") {
connection_close = true;
}
if (req.version == "HTTP/1.0" &&
req.get_header_value("Connection") != "Keep-Alive") {
connection_close = true;
}
req.set_header("REMOTE_ADDR", strm.get_remote_addr());
// Body
if (req.method == "POST" || req.method == "PUT" || req.method == "PATCH" || req.method == "PRI") {
if (!detail::read_content(strm, req, payload_max_length_, res.status,
Progress(), [&](const char *buf, size_t n) {
if (req.body.size() + n > req.body.max_size()) {
return false;
}
req.body.append(buf, n);
return true;
})) {
return write_response(strm, last_connection, req, res);
}
const auto &content_type = req.get_header_value("Content-Type");
if (!content_type.find("application/x-www-form-urlencoded")) {
detail::parse_query_text(req.body, req.params);
} else if (!content_type.find("multipart/form-data")) {
std::string boundary;
if (!detail::parse_multipart_boundary(content_type, boundary) ||
!detail::parse_multipart_formdata(boundary, req.body, req.files)) {
res.status = 400;
return write_response(strm, last_connection, req, res);
}
}
}
if (req.has_header("Range")) {
const auto &range_header_value = req.get_header_value("Range");
if (!detail::parse_range_header(range_header_value, req.ranges)) {
// TODO: error
}
}
if (setup_request) { setup_request(req); }
if (routing(req, res)) {
if (res.status == -1) { res.status = req.ranges.empty() ? 200 : 206; }
} else {
if (res.status == -1) { res.status = 404; }
}
return write_response(strm, last_connection, req, res);
}
inline bool Server::is_valid() const { return true; }
inline bool Server::process_and_close_socket(socket_t sock) {
return detail::process_and_close_socket(
false, sock, keep_alive_max_count_,
[this](Stream &strm, bool last_connection, bool &connection_close) {
return process_request(strm, last_connection, connection_close,
nullptr);
});
}
// HTTP client implementation
inline Client::Client(const char *host, int port, time_t timeout_sec)
: host_(host), port_(port), timeout_sec_(timeout_sec),
host_and_port_(host_ + ":" + std::to_string(port_)),
keep_alive_max_count_(CPPHTTPLIB_KEEPALIVE_MAX_COUNT),
follow_location_(false) {}
inline Client::~Client() {}
inline bool Client::is_valid() const { return true; }
inline socket_t Client::create_client_socket() const {
return detail::create_socket(
host_.c_str(), port_, [=](socket_t sock, struct addrinfo &ai) -> bool {
detail::set_nonblocking(sock, true);
auto ret = connect(sock, ai.ai_addr, static_cast<int>(ai.ai_addrlen));
if (ret < 0) {
if (detail::is_connection_error() ||
!detail::wait_until_socket_is_ready(sock, timeout_sec_, 0)) {
detail::close_socket(sock);
return false;
}
}
detail::set_nonblocking(sock, false);
return true;
});
}
inline bool Client::read_response_line(Stream &strm, Response &res) {
const auto bufsiz = 2048;
char buf[bufsiz];
detail::stream_line_reader reader(strm, buf, bufsiz);
if (!reader.getline()) { return false; }
const static std::regex re("(HTTP/1\\.[01]) (\\d+?) .*\r\n");
std::cmatch m;
if (std::regex_match(reader.ptr(), m, re)) {
res.version = std::string(m[1]);
res.status = std::stoi(std::string(m[2]));
}
return true;
}
inline bool Client::send(const Request &req, Response &res) {
if (req.path.empty()) { return false; }
auto sock = create_client_socket();
if (sock == INVALID_SOCKET) { return false; }
auto ret = process_and_close_socket(
sock, 1, [&](Stream &strm, bool last_connection, bool &connection_close) {
return process_request(strm, req, res, last_connection,
connection_close);
});
if (ret && follow_location_ && (300 < res.status && res.status < 400)) {
ret = redirect(req, res);
}
return ret;
}
inline bool Client::send(const std::vector<Request> &requests,
std::vector<Response> &responses) {
size_t i = 0;
while (i < requests.size()) {
auto sock = create_client_socket();
if (sock == INVALID_SOCKET) { return false; }
if (!process_and_close_socket(
sock, requests.size() - i,
[&](Stream &strm, bool last_connection, bool &connection_close) -> bool {
auto &req = requests[i];
auto res = Response();
i++;
if (req.path.empty()) { return false; }
auto ret = process_request(strm, req, res, last_connection,
connection_close);
if (ret && follow_location_ &&
(300 < res.status && res.status < 400)) {
ret = redirect(req, res);
}
if (ret) { responses.emplace_back(std::move(res)); }
return ret;
})) {
return false;
}
}
return true;
}
inline bool Client::redirect(const Request &req, Response &res) {
if (req.redirect_count == 0) { return false; }
auto location = res.get_header_value("location");
if (location.empty()) { return false; }
std::regex re(
R"(^(?:([^:/?#]+):)?(?://([^/?#]*))?([^?#]*(?:\?[^#]*)?)(?:#.*)?)");
auto scheme = is_ssl() ? "https" : "http";
std::smatch m;
if (regex_match(location, m, re)) {
auto next_scheme = m[1].str();
auto next_host = m[2].str();
auto next_path = m[3].str();
if (next_host.empty()) { next_host = host_; }
if (next_path.empty()) { next_path = "/"; }
if (next_scheme == scheme && next_host == host_) {
return detail::redirect(*this, req, res, next_path);
} else {
if (next_scheme == "https") {
#ifdef CPPHTTPLIB_OPENSSL_SUPPORT
SSLClient cli(next_host.c_str());
cli.follow_location(true);
return detail::redirect(cli, req, res, next_path);
#else
return false;
#endif
} else {
Client cli(next_host.c_str());
cli.follow_location(true);
return detail::redirect(cli, req, res, next_path);
}
}
}
return false;
}
inline void Client::write_request(Stream &strm, const Request &req,
bool last_connection) {
BufferStream bstrm;
// Request line
auto path = detail::encode_url(req.path);
bstrm.write_format("%s %s HTTP/1.1\r\n", req.method.c_str(), path.c_str());
// Additonal headers
Headers headers;
if (last_connection) { headers.emplace("Connection", "close"); }
if (!req.has_header("Host")) {
if (is_ssl()) {
if (port_ == 443) {
headers.emplace("Host", host_);
} else {
headers.emplace("Host", host_and_port_);
}
} else {
if (port_ == 80) {
headers.emplace("Host", host_);
} else {
headers.emplace("Host", host_and_port_);
}
}
}
if (!req.has_header("Accept")) { headers.emplace("Accept", "*/*"); }
if (!req.has_header("User-Agent")) {
headers.emplace("User-Agent", "cpp-httplib/0.2");
}
if (req.body.empty()) {
if (req.method == "POST" || req.method == "PUT" || req.method == "PATCH") {
headers.emplace("Content-Length", "0");
}
} else {
if (!req.has_header("Content-Type")) {
headers.emplace("Content-Type", "text/plain");
}
if (!req.has_header("Content-Length")) {
auto length = std::to_string(req.body.size());
headers.emplace("Content-Length", length);
}
}
detail::write_headers(bstrm, req, headers);
// Body
if (!req.body.empty()) { bstrm.write(req.body); }
// Flush buffer
auto &data = bstrm.get_buffer();
strm.write(data.data(), data.size());
}
inline bool Client::process_request(Stream &strm, const Request &req,
Response &res, bool last_connection,
bool &connection_close) {
// Send request
write_request(strm, req, last_connection);
// Receive response and headers
if (!read_response_line(strm, res) ||
!detail::read_headers(strm, res.headers)) {
return false;
}
if (res.get_header_value("Connection") == "close" ||
res.version == "HTTP/1.0") {
connection_close = true;
}
if (req.response_handler) {
if (!req.response_handler(res)) { return false; }
}
// Body
if (req.method != "HEAD") {
detail::ContentReceiverCore out = [&](const char *buf, size_t n) {
if (res.body.size() + n > res.body.max_size()) { return false; }
res.body.append(buf, n);
return true;
};
if (req.content_receiver) {
auto offset = std::make_shared<size_t>();
auto length = get_header_value_uint64(res.headers, "Content-Length", 0);
auto receiver = req.content_receiver;
out = [offset, length, receiver](const char *buf, size_t n) {
auto ret = receiver(buf, n, *offset, length);
(*offset) += n;
return ret;
};
}
int dummy_status;
if (!detail::read_content(strm, res, std::numeric_limits<size_t>::max(),
dummy_status, req.progress, out)) {
return false;
}
}
return true;
}
inline bool Client::process_and_close_socket(
socket_t sock, size_t request_count,
std::function<bool(Stream &strm, bool last_connection,
bool &connection_close)>
callback) {
request_count = std::min(request_count, keep_alive_max_count_);
return detail::process_and_close_socket(true, sock, request_count, callback);
}
inline bool Client::is_ssl() const { return false; }
inline std::shared_ptr<Response> Client::Get(const char *path) {
Progress dummy;
return Get(path, Headers(), dummy);
}
inline std::shared_ptr<Response> Client::Get(const char *path,
Progress progress) {
return Get(path, Headers(), progress);
}
inline std::shared_ptr<Response> Client::Get(const char *path,
const Headers &headers) {
Progress dummy;
return Get(path, headers, dummy);
}
inline std::shared_ptr<Response>
Client::Get(const char *path, const Headers &headers, Progress progress) {
Request req;
req.method = "GET";
req.path = path;
req.headers = headers;
req.progress = progress;
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline std::shared_ptr<Response> Client::Get(const char *path,
ContentReceiver content_receiver) {
Progress dummy;
return Get(path, Headers(), nullptr, content_receiver, dummy);
}
inline std::shared_ptr<Response> Client::Get(const char *path,
ContentReceiver content_receiver,
Progress progress) {
return Get(path, Headers(), nullptr, content_receiver, progress);
}
inline std::shared_ptr<Response> Client::Get(const char *path,
const Headers &headers,
ContentReceiver content_receiver) {
Progress dummy;
return Get(path, headers, nullptr, content_receiver, dummy);
}
inline std::shared_ptr<Response> Client::Get(const char *path,
const Headers &headers,
ContentReceiver content_receiver,
Progress progress) {
return Get(path, headers, nullptr, content_receiver, progress);
}
inline std::shared_ptr<Response> Client::Get(const char *path,
const Headers &headers,
ResponseHandler response_handler,
ContentReceiver content_receiver) {
Progress dummy;
return Get(path, headers, response_handler, content_receiver, dummy);
}
inline std::shared_ptr<Response> Client::Get(const char *path,
const Headers &headers,
ResponseHandler response_handler,
ContentReceiver content_receiver,
Progress progress) {
Request req;
req.method = "GET";
req.path = path;
req.headers = headers;
req.response_handler = response_handler;
req.content_receiver = content_receiver;
req.progress = progress;
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline std::shared_ptr<Response> Client::Head(const char *path) {
return Head(path, Headers());
}
inline std::shared_ptr<Response> Client::Head(const char *path,
const Headers &headers) {
Request req;
req.method = "HEAD";
req.headers = headers;
req.path = path;
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline std::shared_ptr<Response> Client::Post(const char *path,
const std::string &body,
const char *content_type) {
return Post(path, Headers(), body, content_type);
}
inline std::shared_ptr<Response> Client::Post(const char *path,
const Headers &headers,
const std::string &body,
const char *content_type) {
Request req;
req.method = "POST";
req.headers = headers;
req.path = path;
req.headers.emplace("Content-Type", content_type);
req.body = body;
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline std::shared_ptr<Response> Client::Post(const char *path,
const Params ¶ms) {
return Post(path, Headers(), params);
}
inline std::shared_ptr<Response>
Client::Post(const char *path, const Headers &headers, const Params ¶ms) {
std::string query;
for (auto it = params.begin(); it != params.end(); ++it) {
if (it != params.begin()) { query += "&"; }
query += it->first;
query += "=";
query += detail::encode_url(it->second);
}
return Post(path, headers, query, "application/x-www-form-urlencoded");
}
inline std::shared_ptr<Response>
Client::Post(const char *path, const MultipartFormDataItems &items) {
return Post(path, Headers(), items);
}
inline std::shared_ptr<Response>
Client::Post(const char *path, const Headers &headers,
const MultipartFormDataItems &items) {
Request req;
req.method = "POST";
req.headers = headers;
req.path = path;
auto boundary = detail::make_multipart_data_boundary();
req.headers.emplace("Content-Type",
"multipart/form-data; boundary=" + boundary);
for (const auto &item : items) {
req.body += "--" + boundary + "\r\n";
req.body += "Content-Disposition: form-data; name=\"" + item.name + "\"";
if (!item.filename.empty()) {
req.body += "; filename=\"" + item.filename + "\"";
}
req.body += "\r\n";
if (!item.content_type.empty()) {
req.body += "Content-Type: " + item.content_type + "\r\n";
}
req.body += "\r\n";
req.body += item.content + "\r\n";
}
req.body += "--" + boundary + "--\r\n";
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline std::shared_ptr<Response> Client::Put(const char *path,
const std::string &body,
const char *content_type) {
return Put(path, Headers(), body, content_type);
}
inline std::shared_ptr<Response> Client::Put(const char *path,
const Headers &headers,
const std::string &body,
const char *content_type) {
Request req;
req.method = "PUT";
req.headers = headers;
req.path = path;
req.headers.emplace("Content-Type", content_type);
req.body = body;
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline std::shared_ptr<Response> Client::Patch(const char *path,
const std::string &body,
const char *content_type) {
return Patch(path, Headers(), body, content_type);
}
inline std::shared_ptr<Response> Client::Patch(const char *path,
const Headers &headers,
const std::string &body,
const char *content_type) {
Request req;
req.method = "PATCH";
req.headers = headers;
req.path = path;
req.headers.emplace("Content-Type", content_type);
req.body = body;
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline std::shared_ptr<Response> Client::Delete(const char *path) {
return Delete(path, Headers(), std::string(), nullptr);
}
inline std::shared_ptr<Response> Client::Delete(const char *path,
const std::string &body,
const char *content_type) {
return Delete(path, Headers(), body, content_type);
}
inline std::shared_ptr<Response> Client::Delete(const char *path,
const Headers &headers) {
return Delete(path, headers, std::string(), nullptr);
}
inline std::shared_ptr<Response> Client::Delete(const char *path,
const Headers &headers,
const std::string &body,
const char *content_type) {
Request req;
req.method = "DELETE";
req.headers = headers;
req.path = path;
if (content_type) { req.headers.emplace("Content-Type", content_type); }
req.body = body;
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline std::shared_ptr<Response> Client::Options(const char *path) {
return Options(path, Headers());
}
inline std::shared_ptr<Response> Client::Options(const char *path,
const Headers &headers) {
Request req;
req.method = "OPTIONS";
req.path = path;
req.headers = headers;
auto res = std::make_shared<Response>();
return send(req, *res) ? res : nullptr;
}
inline void Client::set_keep_alive_max_count(size_t count) {
keep_alive_max_count_ = count;
}
inline void Client::follow_location(bool on) { follow_location_ = on; }
/*
* SSL Implementation
*/
#ifdef CPPHTTPLIB_OPENSSL_SUPPORT
namespace detail {
template <typename U, typename V, typename T>
inline bool process_and_close_socket_ssl(bool is_client_request, socket_t sock,
size_t keep_alive_max_count,
SSL_CTX *ctx, std::mutex &ctx_mutex,
U SSL_connect_or_accept, V setup,
T callback) {
assert(keep_alive_max_count > 0);
SSL *ssl = nullptr;
{
std::lock_guard<std::mutex> guard(ctx_mutex);
ssl = SSL_new(ctx);
}
if (!ssl) {
close_socket(sock);
return false;
}
auto bio = BIO_new_socket(static_cast<int>(sock), BIO_NOCLOSE);
SSL_set_bio(ssl, bio, bio);
if (!setup(ssl)) {
SSL_shutdown(ssl);
{
std::lock_guard<std::mutex> guard(ctx_mutex);
SSL_free(ssl);
}
close_socket(sock);
return false;
}
bool ret = false;
if (SSL_connect_or_accept(ssl) == 1) {
if (keep_alive_max_count > 1) {
auto count = keep_alive_max_count;
while (count > 0 &&
(is_client_request ||
detail::select_read(sock, CPPHTTPLIB_KEEPALIVE_TIMEOUT_SECOND,
CPPHTTPLIB_KEEPALIVE_TIMEOUT_USECOND) > 0)) {
SSLSocketStream strm(sock, ssl);
auto last_connection = count == 1;
auto connection_close = false;
ret = callback(ssl, strm, last_connection, connection_close);
if (!ret || connection_close) { break; }
count--;
}
} else {
SSLSocketStream strm(sock, ssl);
auto dummy_connection_close = false;
ret = callback(ssl, strm, true, dummy_connection_close);
}
}
SSL_shutdown(ssl);
{
std::lock_guard<std::mutex> guard(ctx_mutex);
SSL_free(ssl);
}
close_socket(sock);
return ret;
}
#if OPENSSL_VERSION_NUMBER < 0x10100000L
static std::shared_ptr<std::vector<std::mutex>> openSSL_locks_;
class SSLThreadLocks {
public:
SSLThreadLocks() {
openSSL_locks_ =
std::make_shared<std::vector<std::mutex>>(CRYPTO_num_locks());
CRYPTO_set_locking_callback(locking_callback);
}
~SSLThreadLocks() { CRYPTO_set_locking_callback(nullptr); }
private:
static void locking_callback(int mode, int type, const char * /*file*/,
int /*line*/) {
auto &locks = *openSSL_locks_;
if (mode & CRYPTO_LOCK) {
locks[type].lock();
} else {
locks[type].unlock();
}
}
};
#endif
class SSLInit {
public:
SSLInit() {
SSL_load_error_strings();
SSL_library_init();
}
~SSLInit() { ERR_free_strings(); }
private:
#if OPENSSL_VERSION_NUMBER < 0x10100000L
SSLThreadLocks thread_init_;
#endif
};
static SSLInit sslinit_;
} // namespace detail
// SSL socket stream implementation
inline SSLSocketStream::SSLSocketStream(socket_t sock, SSL *ssl)
: sock_(sock), ssl_(ssl) {}
inline SSLSocketStream::~SSLSocketStream() {}
inline int SSLSocketStream::read(char *ptr, size_t size) {
if (SSL_pending(ssl_) > 0 ||
detail::select_read(sock_, CPPHTTPLIB_READ_TIMEOUT_SECOND,
CPPHTTPLIB_READ_TIMEOUT_USECOND) > 0) {
return SSL_read(ssl_, ptr, static_cast<int>(size));
}
return -1;
}
inline int SSLSocketStream::write(const char *ptr, size_t size) {
return SSL_write(ssl_, ptr, static_cast<int>(size));
}
inline int SSLSocketStream::write(const char *ptr) {
return write(ptr, strlen(ptr));
}
inline int SSLSocketStream::write(const std::string &s) {
return write(s.data(), s.size());
}
inline std::string SSLSocketStream::get_remote_addr() const {
return detail::get_remote_addr(sock_);
}
// SSL HTTP server implementation
inline SSLServer::SSLServer(const char *cert_path, const char *private_key_path,
const char *client_ca_cert_file_path,
const char *client_ca_cert_dir_path) {
ctx_ = SSL_CTX_new(SSLv23_server_method());
if (ctx_) {
SSL_CTX_set_options(ctx_,
SSL_OP_ALL | SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3 |
SSL_OP_NO_COMPRESSION |
SSL_OP_NO_SESSION_RESUMPTION_ON_RENEGOTIATION);
// auto ecdh = EC_KEY_new_by_curve_name(NID_X9_62_prime256v1);
// SSL_CTX_set_tmp_ecdh(ctx_, ecdh);
// EC_KEY_free(ecdh);
if (SSL_CTX_use_certificate_chain_file(ctx_, cert_path) != 1 ||
SSL_CTX_use_PrivateKey_file(ctx_, private_key_path, SSL_FILETYPE_PEM) !=
1) {
SSL_CTX_free(ctx_);
ctx_ = nullptr;
} else if (client_ca_cert_file_path || client_ca_cert_dir_path) {
// if (client_ca_cert_file_path) {
// auto list = SSL_load_client_CA_file(client_ca_cert_file_path);
// SSL_CTX_set_client_CA_list(ctx_, list);
// }
SSL_CTX_load_verify_locations(ctx_, client_ca_cert_file_path,
client_ca_cert_dir_path);
SSL_CTX_set_verify(
ctx_,
SSL_VERIFY_PEER |
SSL_VERIFY_FAIL_IF_NO_PEER_CERT, // SSL_VERIFY_CLIENT_ONCE,
nullptr);
}
}
}
inline SSLServer::~SSLServer() {
if (ctx_) { SSL_CTX_free(ctx_); }
}
inline bool SSLServer::is_valid() const { return ctx_; }
inline bool SSLServer::process_and_close_socket(socket_t sock) {
return detail::process_and_close_socket_ssl(
false, sock, keep_alive_max_count_, ctx_, ctx_mutex_, SSL_accept,
[](SSL * /*ssl*/) { return true; },
[this](SSL *ssl, Stream &strm, bool last_connection,
bool &connection_close) {
return process_request(strm, last_connection, connection_close,
[&](Request &req) { req.ssl = ssl; });
});
}
// SSL HTTP client implementation
inline SSLClient::SSLClient(const char *host, int port, time_t timeout_sec,
const char *client_cert_path,
const char *client_key_path)
: Client(host, port, timeout_sec) {
ctx_ = SSL_CTX_new(SSLv23_client_method());
detail::split(&host_[0], &host_[host_.size()], '.',
[&](const char *b, const char *e) {
host_components_.emplace_back(std::string(b, e));
});
if (client_cert_path && client_key_path) {
if (SSL_CTX_use_certificate_file(ctx_, client_cert_path,
SSL_FILETYPE_PEM) != 1 ||
SSL_CTX_use_PrivateKey_file(ctx_, client_key_path, SSL_FILETYPE_PEM) !=
1) {
SSL_CTX_free(ctx_);
ctx_ = nullptr;
}
}
}
inline SSLClient::~SSLClient() {
if (ctx_) { SSL_CTX_free(ctx_); }
}
inline bool SSLClient::is_valid() const { return ctx_; }
inline void SSLClient::set_ca_cert_path(const char *ca_cert_file_path,
const char *ca_cert_dir_path) {
if (ca_cert_file_path) { ca_cert_file_path_ = ca_cert_file_path; }
if (ca_cert_dir_path) { ca_cert_dir_path_ = ca_cert_dir_path; }
}
inline void SSLClient::enable_server_certificate_verification(bool enabled) {
server_certificate_verification_ = enabled;
}
inline long SSLClient::get_openssl_verify_result() const {
return verify_result_;
}
inline SSL_CTX* SSLClient::ssl_context() const noexcept {
return ctx_;
}
inline bool SSLClient::process_and_close_socket(
socket_t sock, size_t request_count,
std::function<bool(Stream &strm, bool last_connection,
bool &connection_close)>
callback) {
request_count = std::min(request_count, keep_alive_max_count_);
return is_valid() &&
detail::process_and_close_socket_ssl(
true, sock, request_count, ctx_, ctx_mutex_,
[&](SSL *ssl) {
if (ca_cert_file_path_.empty()) {
SSL_CTX_set_verify(ctx_, SSL_VERIFY_NONE, nullptr);
} else {
if (!SSL_CTX_load_verify_locations(
ctx_, ca_cert_file_path_.c_str(), nullptr)) {
return false;
}
SSL_CTX_set_verify(ctx_, SSL_VERIFY_PEER, nullptr);
}
if (SSL_connect(ssl) != 1) { return false; }
if (server_certificate_verification_) {
verify_result_ = SSL_get_verify_result(ssl);
if (verify_result_ != X509_V_OK) { return false; }
auto server_cert = SSL_get_peer_certificate(ssl);
if (server_cert == nullptr) { return false; }
if (!verify_host(server_cert)) {
X509_free(server_cert);
return false;
}
X509_free(server_cert);
}
return true;
},
[&](SSL *ssl) {
SSL_set_tlsext_host_name(ssl, host_.c_str());
return true;
},
[&](SSL * /*ssl*/, Stream &strm, bool last_connection,
bool &connection_close) {
return callback(strm, last_connection, connection_close);
});
}
inline bool SSLClient::is_ssl() const { return true; }
inline bool SSLClient::verify_host(X509 *server_cert) const {
/* Quote from RFC2818 section 3.1 "Server Identity"
If a subjectAltName extension of type dNSName is present, that MUST
be used as the identity. Otherwise, the (most specific) Common Name
field in the Subject field of the certificate MUST be used. Although
the use of the Common Name is existing practice, it is deprecated and
Certification Authorities are encouraged to use the dNSName instead.
Matching is performed using the matching rules specified by
[RFC2459]. If more than one identity of a given type is present in
the certificate (e.g., more than one dNSName name, a match in any one
of the set is considered acceptable.) Names may contain the wildcard
character * which is considered to match any single domain name
component or component fragment. E.g., *.a.com matches foo.a.com but
not bar.foo.a.com. f*.com matches foo.com but not bar.com.
In some cases, the URI is specified as an IP address rather than a
hostname. In this case, the iPAddress subjectAltName must be present
in the certificate and must exactly match the IP in the URI.
*/
return verify_host_with_subject_alt_name(server_cert) ||
verify_host_with_common_name(server_cert);
}
inline bool
SSLClient::verify_host_with_subject_alt_name(X509 *server_cert) const {
auto ret = false;
auto type = GEN_DNS;
struct in6_addr addr6;
struct in_addr addr;
size_t addr_len = 0;
#ifndef __MINGW32__
if (inet_pton(AF_INET6, host_.c_str(), &addr6)) {
type = GEN_IPADD;
addr_len = sizeof(struct in6_addr);
} else if (inet_pton(AF_INET, host_.c_str(), &addr)) {
type = GEN_IPADD;
addr_len = sizeof(struct in_addr);
}
#endif
auto alt_names = static_cast<const struct stack_st_GENERAL_NAME *>(
X509_get_ext_d2i(server_cert, NID_subject_alt_name, nullptr, nullptr));
if (alt_names) {
auto dsn_matched = false;
auto ip_mached = false;
auto count = sk_GENERAL_NAME_num(alt_names);
for (auto i = 0; i < count && !dsn_matched; i++) {
auto val = sk_GENERAL_NAME_value(alt_names, i);
if (val->type == type) {
auto name = (const char *)ASN1_STRING_get0_data(val->d.ia5);
auto name_len = (size_t)ASN1_STRING_length(val->d.ia5);
if (strlen(name) == name_len) {
switch (type) {
case GEN_DNS: dsn_matched = check_host_name(name, name_len); break;
case GEN_IPADD:
if (!memcmp(&addr6, name, addr_len) ||
!memcmp(&addr, name, addr_len)) {
ip_mached = true;
}
break;
}
}
}
}
if (dsn_matched || ip_mached) { ret = true; }
}
GENERAL_NAMES_free((STACK_OF(GENERAL_NAME) *)alt_names);
return ret;
}
inline bool SSLClient::verify_host_with_common_name(X509 *server_cert) const {
const auto subject_name = X509_get_subject_name(server_cert);
if (subject_name != nullptr) {
char name[BUFSIZ];
auto name_len = X509_NAME_get_text_by_NID(subject_name, NID_commonName,
name, sizeof(name));
if (name_len != -1) { return check_host_name(name, name_len); }
}
return false;
}
inline bool SSLClient::check_host_name(const char *pattern,
size_t pattern_len) const {
if (host_.size() == pattern_len && host_ == pattern) { return true; }
// Wildcard match
// https://bugs.launchpad.net/ubuntu/+source/firefox-3.0/+bug/376484
std::vector<std::string> pattern_components;
detail::split(&pattern[0], &pattern[pattern_len], '.',
[&](const char *b, const char *e) {
pattern_components.emplace_back(std::string(b, e));
});
if (host_components_.size() != pattern_components.size()) { return false; }
auto itr = pattern_components.begin();
for (const auto &h : host_components_) {
auto &p = *itr;
if (p != h && p != "*") {
auto partial_match = (p.size() > 0 && p[p.size() - 1] == '*' &&
!p.compare(0, p.size() - 1, h));
if (!partial_match) { return false; }
}
++itr;
}
return true;
}
#endif
} // namespace httplib
#endif // CPPHTTPLIB_HTTPLIB_H
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