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?? swoole.h(26.96 KB)
?? swoole_api.h(2.02 KB)
?? swoole_asm_context.h(2.31 KB)
?? swoole_async.h(3.29 KB)
?? swoole_atomic.h(2.3 KB)
?? swoole_base64.h(1.3 KB)
?? swoole_buffer.h(2.24 KB)
?? swoole_channel.h(2.37 KB)
?? swoole_client.h(11.75 KB)
?? swoole_config.h(8.79 KB)
?? swoole_coroutine.h(8.92 KB)
?? swoole_coroutine_api.h(5.12 KB)
?? swoole_coroutine_channel.h(4.17 KB)
?? swoole_coroutine_context.h(2.75 KB)
?? swoole_coroutine_socket.h(17.64 KB)
?? swoole_coroutine_system.h(3.78 KB)
?? swoole_dtls.h(2.42 KB)
?? swoole_error.h(6.46 KB)
?? swoole_file.h(4.88 KB)
?? swoole_file_hook.h(2.76 KB)
?? swoole_hash.h(1.24 KB)
?? swoole_heap.h(1.9 KB)
?? swoole_http.h(7.24 KB)
?? swoole_http2.h(8.55 KB)
?? swoole_iouring.h(5.52 KB)
?? swoole_llhttp.h(2.02 KB)
?? swoole_lock.h(3.25 KB)
?? swoole_log.h(15.71 KB)
?? swoole_lru_cache.h(3.18 KB)
?? swoole_memory.h(2.83 KB)
?? swoole_message_bus.h(5.18 KB)
?? swoole_mime_type.h(1.42 KB)
?? swoole_mqtt.h(2.16 KB)
?? swoole_msg_queue.h(1.96 KB)
?? swoole_pipe.h(2.6 KB)
?? swoole_process_pool.h(13.17 KB)
?? swoole_protocol.h(5.03 KB)
?? swoole_proxy.h(3.3 KB)
?? swoole_reactor.h(12.4 KB)
?? swoole_redis.h(1.83 KB)
?? swoole_server.h(49.72 KB)
?? swoole_signal.h(2.99 KB)
?? swoole_socket.h(18.51 KB)
?? swoole_socket_hook.h(2.31 KB)
?? swoole_socket_impl.h(1.43 KB)
?? swoole_ssl.h(5.22 KB)
?? swoole_static_handler.h(5.21 KB)
?? swoole_string.h(7.32 KB)
?? swoole_table.h(6.5 KB)
?? swoole_thread.h(1.99 KB)
?? swoole_timer.h(4.37 KB)
?? swoole_uring_socket.h(3.84 KB)
?? swoole_util.h(7.49 KB)
?? swoole_version.h(1.74 KB)
?? swoole_websocket.h(5.11 KB)

Editing: swoole_client.h

/*
  +----------------------------------------------------------------------+
  | Swoole                                                               |
  +----------------------------------------------------------------------+
  | This source file is subject to version 2.0 of the Apache license,    |
  | that is bundled with this package in the file LICENSE, and is        |
  | available through the world-wide-web at the following url:           |
  | http://www.apache.org/licenses/LICENSE-2.0.html                      |
  | If you did not receive a copy of the Apache2.0 license and are unable|
  | to obtain it through the world-wide-web, please send a note to       |
  | license@swoole.com so we can mail you a copy immediately.            |
  +----------------------------------------------------------------------+
  | Author: Tianfeng Han  <rango@swoole.com>                             |
  +----------------------------------------------------------------------+
*/

#pragma once

#include "swoole_string.h"
#include "swoole_socket.h"
#include "swoole_reactor.h"
#include "swoole_protocol.h"
#include "swoole_proxy.h"

namespace swoole {
namespace network {

class Client {
    int (*connect_)(Client *cli, const char *host, int port, double timeout, int sock_flag) = nullptr;
    ssize_t (*send_)(Client *cli, const char *data, size_t length, int flags) = nullptr;
    int (*sendfile_)(Client *cli, const char *filename, off_t offset, size_t length) = nullptr;
    ssize_t (*recv_)(Client *cli, char *data, size_t length, int flags) = nullptr;

public:
    int id = 0;
    long timeout_id = 0;  // timeout node id
    int sock_type_ = 0;
    int sock_domain_ = 0;
    int sock_flags_ = 0;
    int protocol_ = 0;
    FdType fd_type;
    bool active = false;
    bool async = false;
    bool keep = false;
    bool http2 = false;
    bool sleep_ = false;
    bool wait_dns = false;
    bool dns_completed = false;
    bool host_preseted = false;
    bool shutdown_rw = false;
    bool shutdown_read = false;
    bool shutdown_write = false;
    bool remove_delay = false;
    bool closed = false;
    bool high_watermark = false;
    bool async_connect = false;
    bool onerror_called = false;

/**
     * one package: length check
     */
    bool open_length_check = false;
    bool open_eof_check = false;

Protocol protocol = {};
    std::unique_ptr<Socks5Proxy> socks5_proxy = nullptr;
    std::unique_ptr<HttpProxy> http_proxy = nullptr;

uint32_t reuse_count = 0;

std::string server_id;
    std::string server_host;
    int server_port = 0;
    void *ptr = nullptr;
    void *params = nullptr;

TimerNode *timer = nullptr;

/**
     * for connect()/sendto()
     */
    Address server_addr = {};
    /**
     * for recvfrom()
     */
    Address remote_addr = {};

Socket *socket;

void *object = nullptr;

String *buffer = nullptr;
    uint32_t wait_length = 0;
    uint32_t input_buffer_size = 0;

uint32_t buffer_high_watermark = 0;
    uint32_t buffer_low_watermark = 0;

bool open_ssl = false;
    bool ssl_wait_handshake = false;
    std::shared_ptr<SSLContext> ssl_context = nullptr;

std::function<void(Client *cli)> onConnect = nullptr;
    std::function<void(Client *cli)> onError = nullptr;
    std::function<void(Client *cli, const char *, size_t)> onReceive = nullptr;
    std::function<void(Client *cli)> onClose = nullptr;
    std::function<void(Client *cli)> onBufferFull = nullptr;
    std::function<void(Client *cli)> onBufferEmpty = nullptr;

static void init_reactor(Reactor *reactor);
    Client(SocketType _type, bool async);
    ~Client();

Socket *get_socket() const {
        return socket;
    }

bool ready() const {
        return socket != nullptr;
    }

SocketType get_socket_type() const {
        return socket->socket_type;
    }

const std::string &get_http_proxy_host_name() const {
        if (ssl_context && !ssl_context->tls_host_name.empty()) {
            return ssl_context->tls_host_name;
        }
        return http_proxy->target_host;
    }

int connect(const char *_host, int _port, double _timeout = -1, int _sock_flag = 0) {
        return connect_(this, _host, _port, _timeout, _sock_flag);
    }

ssize_t send(const char *_data, size_t _length, int _flags = 0) {
        return send_(this, _data, _length, _flags);
    }

int sendfile(const char *_filename, off_t _offset = 0, size_t _length = 0) {
        return sendfile_(this, _filename, _offset, _length);
    }

ssize_t recv(char *_data, size_t _length, int _flags = 0) {
        return recv_(this, _data, _length, _flags);
    }

int bind(const std::string &addr, int port) const;
    int sleep();
    int wakeup();
    int sendto(const std::string &host, int port, const char *data, size_t len) const;
    int get_peer_name(Address *addr) const;
    int shutdown(int _how = SHUT_RDWR);
    int close();
    bool socks5_handshake(const char *recv_data, size_t length);
    void set_timeout(double timeout, TimeoutType type = SW_TIMEOUT_ALL) const;
    bool has_timedout() const;
    void set_socks5_proxy(const std::string &host, int port, const std::string &user = "", const std::string &pwd = "");
    void set_http_proxy(const std::string &host, int port, const std::string &user = "", const std::string &pwd = "");

int enable_ssl_encrypt();
#ifdef SW_SUPPORT_DTLS
    void enable_dtls();
#endif
    int ssl_handshake() const;
    int ssl_verify(int allow_self_signed) const;

bool set_ssl_key_file(const std::string &file) const {
        return ssl_context->set_key_file(file);
    }

bool set_ssl_cert_file(const std::string &file) const {
        return ssl_context->set_cert_file(file);
    }

void set_ssl_cafile(const std::string &file) const {
        ssl_context->cafile = file;
    }

void set_ssl_capath(const std::string &path) const {
        ssl_context->capath = path;
    }

void set_ssl_passphrase(const std::string &str) const {
        ssl_context->passphrase = str;
    }

#ifdef SSL_CTRL_SET_TLSEXT_HOSTNAME
    void set_tls_host_name(const std::string &str) const {
        ssl_context->tls_host_name = str;
        // if user set empty ssl_host_name, disable it, otherwise the underlying may set it automatically
        ssl_context->disable_tls_host_name = ssl_context->tls_host_name.empty();
    }
#endif

void set_ssl_dhparam(const std::string &file) const {
        ssl_context->dhparam = file;
    }

void set_ssl_ecdh_curve(const std::string &str) const {
        ssl_context->ecdh_curve = str;
    }

void set_ssl_protocols(long protocols) const {
        ssl_context->protocols = protocols;
    }

void set_ssl_disable_compress(bool value) const {
        ssl_context->disable_compress = value;
    }

void set_ssl_verify_peer(bool value) const {
        ssl_context->verify_peer = value;
    }

void set_ssl_allow_self_signed(bool value) const {
        ssl_context->allow_self_signed = value;
    }

void set_ssl_verify_depth(uint8_t value) const {
        ssl_context->verify_depth = value;
    }

void set_ssl_ciphers(const std::string &str) const {
        ssl_context->ciphers = str;
    }

#ifdef OPENSSL_IS_BORINGSSL
    void set_ssl_grease(uint8_t value) const {
        ssl_context->grease = value;
    }
#endif

const std::string &get_ssl_cert_file() const {
        return ssl_context->cert_file;
    }

const std::string &get_ssl_key_file() const {
        return ssl_context->key_file;
    }
};

//----------------------------------------Stream---------------------------------------
class Stream {
  public:
    String *buffer = nullptr;
    Client client;
    bool connected = false;
    bool cancel = false;
    int errCode = 0;
    void *private_data = nullptr;
    void *private_data_2 = nullptr;
    long private_data_fd = -1;

std::function<void(Stream *stream, const char *data, uint32_t length)> response = nullptr;

int send(const char *data, size_t length);
    void set_max_length(uint32_t max_length);
    ~Stream();

static Stream *create(const char *dst_host, int dst_port, SocketType type);
    static ssize_t recv_sync(Socket *sock, void *_buf, size_t _len);
    static void set_protocol(Protocol *protocol);

private:
    Stream(const char *dst_host, int dst_port, SocketType type);
};
//----------------------------------------Stream End------------------------------------

class SyncClient {
  protected:
    Client client;
    bool connected = false;
    bool created;
    bool async = false;
    SocketType type;

public:
    explicit SyncClient(SocketType _type, bool _async = false) : client(_type, _async), async(_async), type(_type) {
        created = client.socket != nullptr;
    }

virtual bool connect(const char *host, int port, double timeout = -1) {
        if (connected || !created) {
            return false;
        }
        if (client.connect(host, port, timeout, client.socket->is_dgram()) < 0) {
            return false;
        }
        connected = true;
        return true;
    }

void set_stream_protocol() {
        client.open_length_check = true;
        Stream::set_protocol(&client.protocol);
    }

void set_package_max_length(uint32_t max_length) {
        client.protocol.package_max_length = max_length;
    }

bool enable_ssl_encrypt() {
        if (client.enable_ssl_encrypt() < 0) {
            return false;
        }
        if (connected) {
            return client.ssl_handshake() == SW_OK;
        } else {
            return true;
        }
    }

ssize_t send(const std::string &data) {
        return client.send(data.c_str(), data.length(), 0);
    }

ssize_t send(const char *buf, size_t len) {
        return client.send(buf, len, 0);
    }

bool sendfile(const char *filename, off_t offset = 0, size_t length = 0) {
        return client.sendfile(filename, offset, length) == SW_OK;
    }

ssize_t recv(char *buf, size_t len, int flags = 0) {
        return client.recv(buf, len, flags);
    }

bool close() {
        if (!created || client.closed) {
            return false;
        }
        client.close();
        created = false;
        return true;
    }

Client *get_client() {
        return &client;
    }

virtual ~SyncClient() {
        if (created) {
            close();
        }
    }
};

class AsyncClient : public SyncClient {
  protected:
    std::function<void(AsyncClient *)> _onConnect = nullptr;
    std::function<void(AsyncClient *)> _onError = nullptr;
    std::function<void(AsyncClient *)> _onClose = nullptr;
    std::function<void(AsyncClient *, const char *data, size_t length)> _onReceive = nullptr;

public:
    explicit AsyncClient(SocketType _type) : SyncClient(_type, true) {}

bool connect(const char *host, int port, double timeout = -1) override {
        client.object = this;
        client.onConnect = [](Client *cli) {
            auto *ac = (AsyncClient *) cli->object;
            ac->_onConnect(ac);
        };
        client.onError = [](Client *cli) {
            auto *ac = (AsyncClient *) cli->object;
            ac->_onError(ac);
        };
        client.onClose = [](Client *cli) {
            auto *ac = (AsyncClient *) cli->object;
            ac->_onClose(ac);
        };
        client.onReceive = [](Client *cli, const char *data, size_t length) {
            auto *ac = (AsyncClient *) cli->object;
            ac->_onReceive(ac, data, length);
        };
        return SyncClient::connect(host, port, timeout);
    }

void on_connect(const std::function<void(AsyncClient *)> &fn) {
        _onConnect = fn;
    }

void on_error(const std::function<void(AsyncClient *)> &fn) {
        _onError = fn;
    }

void on_close(const std::function<void(AsyncClient *)> &fn) {
        _onClose = fn;
    }

void on_receive(const std::function<void(AsyncClient *, const char *data, size_t length)> &fn) {
        _onReceive = fn;
    }
};

}  // namespace network
}  // namespace swoole

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