SSLproxy/pxyconn.h

/*-
 * SSLsplit - transparent SSL/TLS interception
 * https://www.roe.ch/SSLsplit
 *
 * Copyright (c) 2009-2018, Daniel Roethlisberger <daniel@roe.ch>.
 * Copyright (c) 2017-2019, Soner Tari <sonertari@gmail.com>.
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 * 1. Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright notice,
 *    this list of conditions and the following disclaimer in the documentation
 *    and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER AND CONTRIBUTORS ``AS IS''
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */

#ifndef PXYCONN_H
#define PXYCONN_H

#if defined(__FreeBSD__) || defined(__DragonFly__)
#include <netinet/in.h>
#endif

#include "proxy.h"
#include "opts.h"
#include "attrib.h"
#include "pxythrmgr.h"
#include "log.h"

#include <sys/types.h>
#include <sys/socket.h>

#include <event2/buffer.h>
#include <event2/bufferevent.h>

#define WANT_CONNECT_LOG(ctx)	((ctx)->global->connectlog||!(ctx)->global->detach||(ctx)->global->statslog)
#define WANT_CONTENT_LOG(ctx)	((ctx)->global->contentlog&&((ctx)->proto!=PROTO_PASSTHROUGH))

#define SSLPROXY_KEY		"SSLproxy:"
#define SSLPROXY_KEY_LEN	strlen(SSLPROXY_KEY)

#define USERAUTH_MSG		"You must authenticate to access the Internet at %s\r\n"

#define PROTOERROR_MSG		"Connection is terminated due to protocol error\r\n"
#define PROTOERROR_MSG_LEN	strlen(PROTOERROR_MSG)

typedef struct pxy_conn_child_ctx pxy_conn_child_ctx_t;

typedef void (*fd_readcb_func_t)(evutil_socket_t,  short, void *);
typedef int (*connect_func_t)(pxy_conn_ctx_t *);

typedef void (*callback_func_t)(struct bufferevent *, void *);
typedef void (*eventcb_func_t)(struct bufferevent *, short, void *);

typedef void (*bev_free_func_t)(struct bufferevent *, pxy_conn_ctx_t *);

typedef void (*proto_free_func_t)(pxy_conn_ctx_t *);
typedef int (*proto_validate_func_t)(pxy_conn_ctx_t *, char *, size_t);

typedef void (*child_connect_func_t)(pxy_conn_child_ctx_t *);
typedef void (*child_proto_free_func_t)(pxy_conn_child_ctx_t *);

/*
 * Proxy connection context state, describes a proxy connection
 * with source and destination socket bufferevents, SSL context and
 * other session state.  One of these exists per handled proxy
 * connection.
 */

/* single socket bufferevent descriptor */
typedef struct pxy_conn_desc {
	struct bufferevent *bev;
	SSL *ssl;
	unsigned int closed : 1;
	bev_free_func_t free;
} pxy_conn_desc_t;

enum conn_type {
	CONN_TYPE_PARENT = 0,
	CONN_TYPE_CHILD,
};

typedef enum protocol {
	PROTO_ERROR = -1,
	PROTO_PASSTHROUGH = 0,
	PROTO_HTTP,
	PROTO_HTTPS,
	PROTO_POP3,
	PROTO_POP3S,
	PROTO_SMTP,
	PROTO_SMTPS,
	PROTO_AUTOSSL,
	PROTO_TCP,
	PROTO_SSL,
} protocol_t;

typedef struct ssl_ctx ssl_ctx_t;

typedef struct proto_ctx proto_ctx_t;
typedef struct proto_child_ctx proto_child_ctx_t;

struct ssl_ctx {
	/* log strings related to SSL */
	char *ssl_names;
	char *origcrtfpr;
	char *usedcrtfpr;

	/* ssl */
	unsigned int sni_peek_retries : 6;       /* max 64 SNI parse retries */
	unsigned int immutable_cert : 1;  /* 1 if the cert cannot be changed */
	unsigned int generated_cert : 1;     /* 1 if we generated a new cert */
	unsigned int have_sslerr : 1;           /* 1 if we have an ssl error */

	/* server name indicated by client in SNI TLS extension */
	char *sni;

	X509 *origcrt;

	char *srvdst_ssl_version;
	char *srvdst_ssl_cipher;

	// Per-thread list of ssl conns waiting for the first read event to complete ssl setup
	// Note that accepting a connection does not mean that a packet will be received,
	// so we should keep track of such conns, otherwise they may get lost causing memory and fd leak
	pxy_conn_ctx_t *next_pending;
	unsigned int pending : 1;                    /* 1 until first readcb */
};

struct proto_ctx {
	protocol_t proto;

	connect_func_t connectcb;
	fd_readcb_func_t fd_readcb;

	callback_func_t bev_readcb;
	callback_func_t bev_writecb;
	eventcb_func_t bev_eventcb;

	proto_free_func_t proto_free;
	proto_validate_func_t validatecb;
	unsigned int is_valid : 1;        /* 0 until passed proto validation */

	// For protocol specific fields, if any
	void *arg;
};

struct proto_child_ctx {
	protocol_t proto;

	child_connect_func_t connectcb;

	callback_func_t bev_readcb;
	callback_func_t bev_writecb;
	eventcb_func_t bev_eventcb;

	child_proto_free_func_t proto_free;

	// For protocol specific fields, if any
	void *arg;
};

#ifdef HAVE_LOCAL_PROCINFO
/* local process data - filled in iff pid != -1 */
typedef struct pxy_conn_lproc_desc {
	struct sockaddr_storage srcaddr;
	socklen_t srcaddrlen;

	pid_t pid;
	uid_t uid;
	gid_t gid;

	/* derived log strings */
	char *exec_path;
	char *user;
	char *group;
} pxy_conn_lproc_desc_t;
#endif /* HAVE_LOCAL_PROCINFO */

/* parent connection state consisting of three connection descriptors,
 * connection-wide state and the specs and options */
struct pxy_conn_ctx {
	// Common properties
	// @attention The order of these common vars should match with their order in children
	enum conn_type type;

	pxy_conn_ctx_t *conn;                 /* parent's conn ctx is itself */
	protocol_t proto;

	/* per-connection state */
	struct pxy_conn_desc src;
	struct pxy_conn_desc dst;

	/* store fd and fd event while connected is 0 */
	evutil_socket_t fd;
	// End of common properties

	// For protocol specific fields, never NULL
	proto_ctx_t *protoctx;
	// For ssl specific fields, NULL for non-ssl conns
	ssl_ctx_t *sslctx;

	/* log strings from socket */
	char *srchost_str;
	char *srcport_str;
	char *dsthost_str;
	char *dstport_str;

	/* content log context */
	log_content_ctx_t logctx;

	/* status flags */
	unsigned int connected : 1;       /* 0 until both ends are connected */
	unsigned int enomem : 1;                       /* 1 if out of memory */
	unsigned int srvdst_connected : 1;    /* 0 until server is connected */
	unsigned int dst_connected : 1;          /* 0 until dst is connected */
	unsigned int term : 1;                     /* 0 until term requested */
	unsigned int term_requestor : 1;          /* 1 client, 0 server side */

	unsigned int srvdst_xferred : 1;     /* 1 if srvdst xferred to child */
	struct pxy_conn_desc srvdst;

	struct event *ev;

	/* original source and destination address, and family */
	struct sockaddr_storage srcaddr;
	socklen_t srcaddrlen;
	struct sockaddr_storage dstaddr;
	socklen_t dstaddrlen;
	int af;

	// Thread that the conn is attached to
	pxy_thr_ctx_t *thr;
	unsigned int thr_locked : 1;          /* 1 to prevent double locking */
	unsigned int in_thr_conns : 1;          /* 1 to prevent adding twice */

	// Unique id of the conn
	long long unsigned int id;

	pxy_thrmgr_ctx_t *thrmgr;
	proxyspec_t *spec;
	global_t *global;

	struct event_base *evbase;
	struct evdns_base *dnsbase;

	evutil_socket_t dst_fd;
	evutil_socket_t srvdst_fd;

	// Priv sep socket to obtain a socket for children
	evutil_socket_t clisock;

	// fd of event listener for children, explicitly closed on error (not for stats only)
	evutil_socket_t child_fd;
	struct evconnlistener *child_evcl;

	// SSLproxy specific info: ip:port addr child is listening on, orig client addr, and orig server addr
	// SSLproxy header is never sent to the Internet, always removed by child conns
	char *sslproxy_header;
	size_t sslproxy_header_len;
	unsigned int sent_sslproxy_header : 1; /* 1 to prevent inserting SSLproxy header twice */

	// Number of child conns, active or closed, always goes up never down
	unsigned int child_count;
	// List of child conns
	pxy_conn_child_ctx_t *children;

	// For statistics only
	evutil_socket_t child_src_fd;
	evutil_socket_t child_dst_fd;

	// Conn create time
	time_t ctime;

	// Conn last access time, used to determine expired conns
	// Updated on entry to callback functions, parent or child
	time_t atime;
	
	// Per-thread conn list, used to determine idle and expired conns, and to close them
	pxy_conn_ctx_t *next;

	// Expired conns are link-listed using this pointer, a temporary list used in conn thr timercb only
	pxy_conn_ctx_t *next_expired;

	// Number of times we try to acquire user db before giving up
	unsigned int identify_user_count;
	// User owner of conn
	char *user;
	// Ethernet address of client
	char *ether;
	// Idle time of user, reset to 0 by a new conn from user if idle time > timeout/2
	unsigned int idletime;
	// Description of client
	char *desc;
	// We send redirect/error msg to client if user auth or proto validation fails
	unsigned int sent_userauth_msg : 1;     /* 1 until error msg is sent */
	unsigned int sent_protoerror_msg : 1;   /* 1 until error msg is sent */

	// We should not switch to passthrough mode in error conditions unless Passthrough option is set,
	// that is why PassSite option requires a flag of its own to differentiate it from Passthrough option
	unsigned int passsite : 1;         /* 1 to pass the SSL site through */

#ifdef HAVE_LOCAL_PROCINFO
	/* local process information */
	pxy_conn_lproc_desc_t lproc;
#endif /* HAVE_LOCAL_PROCINFO */
};

/* child connection state consisting of two connection descriptors,
 * connection-wide state */
struct pxy_conn_child_ctx {
	// Common properties
	// @attention The order of these common vars should match with their order in parent
	enum conn_type type;

	// Parent conn
	pxy_conn_ctx_t *conn;
	protocol_t proto;

	/* per-connection state */
	struct pxy_conn_desc src;
	struct pxy_conn_desc dst;

	/* store fd and fd event while connected is 0 */
	evutil_socket_t fd;
	// End of common properties

	proto_child_ctx_t *protoctx;

	/* status flags */
	unsigned int connected : 1;       /* 0 until both ends are connected */
	unsigned int term : 1;                     /* 0 until term requested */

	// For statistics only
	evutil_socket_t dst_fd;

	// Child conns remove the SSLproxy header inserted by parent
	int removed_sslproxy_header;   /* 1 after SSLproxy header is removed */

	// Children of the conn are link-listed using this pointer
	// We identify child conns with their src fds, so the src fd of child is used as its id while removing it from this list
	pxy_conn_child_ctx_t *next;
};

#ifdef HAVE_LOCAL_PROCINFO
int pxy_prepare_logging_local_procinfo(pxy_conn_ctx_t *) NONNULL(1);
#endif /* HAVE_LOCAL_PROCINFO */

void pxy_log_connect_src(pxy_conn_ctx_t *) NONNULL(1);
void pxy_log_connect_srvdst(pxy_conn_ctx_t *) NONNULL(1);

int pxy_log_content_inbuf(pxy_conn_ctx_t *, struct evbuffer *, int) NONNULL(1);
void pxy_log_connect_nonhttp(pxy_conn_ctx_t *) NONNULL(1);
void pxy_log_dbg_evbuf_info(pxy_conn_ctx_t *, pxy_conn_desc_t *, pxy_conn_desc_t *) NONNULL(1,2,3);

unsigned char *pxy_malloc_packet(size_t, pxy_conn_ctx_t *) MALLOC NONNULL(2) WUNRES;

int pxy_set_dstaddr(pxy_conn_ctx_t *) NONNULL(1);

void pxy_insert_sslproxy_header(pxy_conn_ctx_t *, unsigned char *, size_t *) NONNULL(1,2,3);
void pxy_try_remove_sslproxy_header(pxy_conn_child_ctx_t *, unsigned char *, size_t *) NONNULL(1,2,3);

void pxy_try_set_watermark(struct bufferevent *, pxy_conn_ctx_t *, struct bufferevent *) NONNULL(1,2,3);
void pxy_try_unset_watermark(struct bufferevent *, pxy_conn_ctx_t *, pxy_conn_desc_t *) NONNULL(1,2,3);

int pxy_try_close_conn_end(pxy_conn_desc_t *, pxy_conn_ctx_t *) NONNULL(1,2);

void pxy_try_disconnect(pxy_conn_ctx_t *, pxy_conn_desc_t *, pxy_conn_desc_t *, int) NONNULL(1,2,3);
void pxy_try_disconnect_child(pxy_conn_child_ctx_t *, pxy_conn_desc_t *, pxy_conn_desc_t *) NONNULL(1,2,3);

int pxy_try_consume_last_input(struct bufferevent *, pxy_conn_ctx_t *) NONNULL(1,2);
int pxy_try_consume_last_input_child(struct bufferevent *, pxy_conn_child_ctx_t *) NONNULL(1,2);
void pxy_discard_inbuf(struct bufferevent *) NONNULL(1);

void pxy_conn_ctx_free(pxy_conn_ctx_t *, int) NONNULL(1);
void pxy_conn_free(pxy_conn_ctx_t *, int) NONNULL(1);
void pxy_conn_term(pxy_conn_ctx_t *, int) NONNULL(1);
void pxy_conn_term_child(pxy_conn_child_ctx_t *) NONNULL(1);
void pxy_conn_free_children(pxy_conn_ctx_t *) NONNULL(1);

int pxy_connect_srvdst(struct bufferevent *, pxy_conn_ctx_t *) NONNULL(1,2);

int pxy_setup_child_listener(pxy_conn_ctx_t *) NONNULL(1);

int pxy_bev_readcb_preexec_logging_and_stats(struct bufferevent *, pxy_conn_ctx_t *) NONNULL(1,2);
int pxy_bev_eventcb_postexec_logging_and_stats(struct bufferevent *, short , pxy_conn_ctx_t *) NONNULL(1,3);

void pxy_bev_readcb(struct bufferevent *, void *);
void pxy_bev_writecb(struct bufferevent *, void *);
void pxy_bev_eventcb(struct bufferevent *, short, void *);

int pxy_bev_readcb_preexec_logging_and_stats_child(struct bufferevent *, pxy_conn_child_ctx_t *) NONNULL(1,2);
void pxy_bev_eventcb_postexec_stats_child(short, pxy_conn_child_ctx_t *) NONNULL(2);

void pxy_bev_readcb_child(struct bufferevent *, void *);
void pxy_bev_writecb_child(struct bufferevent *, void *);
void pxy_bev_eventcb_child(struct bufferevent *, short, void *);

void pxy_conn_connect(pxy_conn_ctx_t *) NONNULL(1);
int pxy_userauth(pxy_conn_ctx_t *) NONNULL(1);
void pxy_conn_setup(evutil_socket_t, struct sockaddr *, int,
                    pxy_thrmgr_ctx_t *, proxyspec_t *, global_t *,
					evutil_socket_t)
                    NONNULL(2,4,5,6);

#endif /* !PXYCONN_H */

/* vim: set noet ft=c: */