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Refactor how UDP ports are handled

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This commit is contained in:
Quentin 2019-02-19 19:15:37 +01:00
parent 36b6999167
commit 603c67b1d9
8 changed files with 141 additions and 117 deletions
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2
CMakeLists.txt
View file

@ -25,6 +25,8 @@ list(APPEND CSOURCES
src/packet.c src/packet.c
src/url.h src/url.h
src/url.c src/url.c
src/donar_init.h
src/donar_init.c
) )
add_executable(donar ${CSOURCES} src/donar.c) add_executable(donar ${CSOURCES} src/donar.c)

33
src/donar.c
View file

@ -22,17 +22,23 @@ int main(int argc, char** argv) {
is_server = 0; is_server = 0;
is_client = 0; is_client = 0;
errored = 0; errored = 0;
GPtrArray* ports = g_ptr_array_new_with_free_func (free_port); GPtrArray* remote_ports = g_ptr_array_new_with_free_func (free_port);
GPtrArray* exposed_ports = g_ptr_array_new_with_free_func (free_port);
while ((opt = getopt(argc, argv, "csh:p:o:a:")) != -1) { while ((opt = getopt(argc, argv, "csh:e:r:o:a:")) != -1) {
switch(opt) { switch(opt) {
case 's': case 's':
is_server = 1; is_server = 1;
break; break;
case 'p': case 'e':
port = strdup(optarg); port = strdup(optarg);
if (port == NULL) goto terminate; if (port == NULL) goto terminate;
g_ptr_array_add (ports, port); g_ptr_array_add (exposed_ports, port);
break;
case 'r':
port = strdup(optarg);
if (port == NULL) goto terminate;
g_ptr_array_add (remote_ports, port);
break; break;
case 'o': case 'o':
onion_file = strdup(optarg); onion_file = strdup(optarg);
@ -56,26 +62,27 @@ int main(int argc, char** argv) {
if (is_server) { if (is_server) {
struct donar_server_ctx ctx; struct donar_server_ctx ctx;
if (ports->len < 1) goto in_error; if (exposed_ports->len < 1 && remote_ports->len) goto in_error;
donar_server(&ctx, &as, ports); donar_server(&ctx, &as, exposed_ports, remote_ports);
} else if (is_client) { } else if (is_client) {
struct donar_client_ctx ctx; struct donar_client_ctx ctx;
if (ports->len < 1 || onion_file == NULL) goto in_error; if ((exposed_ports->len < 1 && remote_ports->len) || onion_file == NULL) goto in_error;
donar_client(&ctx, &as, onion_file, ports); donar_client(&ctx, &as, onion_file, exposed_ports, remote_ports);
} }
goto terminate; goto terminate;
in_error: in_error:
errored = 1; errored = 1;
fprintf(stderr, "Usage as client : %s -c -a <algo> -p <udp port 1> -p <udp port 2> -o <onion service file>\n", argv[0]); fprintf(stderr, "Usage as client : %s -c -a <algo> -o <onion service file> -e <exposed udp port> -r <remote udp port>\n", argv[0]);
fprintf(stderr, "Usage as server : %s -s -a <algo> -p <udp port 1> -p <udp port 2>\n\n", argv[0]); fprintf(stderr, "Usage as server : %s -s -a <algo> -e <exposed udp port> -r <remote udp port>\n\n", argv[0]);
fprintf(stderr, "Passed parameters: client=%d, server=%d, algo=%s, registered_ports=%d, onion_file=%s\n", fprintf(stderr, "Passed parameters: client=%d, server=%d, algo=%s, exposed_ports=%d, remote_ports=%d, onion_file=%s\n",
is_client, is_server, algo, ports->len, onion_file); is_client, is_server, algo, exposed_ports->len, remote_ports->len, onion_file);
terminate: terminate:
if (onion_file != NULL) free(onion_file); if (onion_file != NULL) free(onion_file);
if (algo != NULL) free(algo); if (algo != NULL) free(algo);
g_ptr_array_free(ports, TRUE); g_ptr_array_free(exposed_ports, TRUE);
g_ptr_array_free(remote_ports, TRUE);
return errored; return errored;
} }

58
src/donar_client.c
View file

@ -110,55 +110,8 @@ on_socks5_err:
init_tcp_client (app_ctx, pos); init_tcp_client (app_ctx, pos);
} }
void free_udp_t(void* v) { void donar_client(struct donar_client_ctx* ctx, struct algo_skel* algo,
struct udp_target* udp_t = v; char* onion_file, GPtrArray* exposed_ports, GPtrArray* remote_ports) {
udp_t->ref_count--;
if (udp_t <= 0) {
free(udp_t);
}
}
void init_udp_socket(char* port, struct donar_client_ctx* ctx) {
int sock1, sock2;
char url[1024];
struct evt_core_cat cat = {0};
struct evt_core_fdinfo fdinfo = {0};
// 1. Init shared parameters for the fdinfo structure
struct udp_target* udp_t = malloc(sizeof(struct udp_target));
if (udp_t == NULL) goto socket_failed;
memset(udp_t, 0, sizeof(struct udp_target));
udp_t->ref_count = 2;
fdinfo.cat = &cat;
fdinfo.url = url;
fdinfo.free_other = free_udp_t;
fdinfo.other = udp_t;
// 2. Duplicate sockets
sock1 = create_udp_server (port);
if (sock1 < 0) goto socket_failed;
sock2 = dup(sock1);
if (sock2 < 0) goto socket_failed;
// 3. Register them
fdinfo.cat->name = "udp-read";
fdinfo.fd = sock1;
sprintf(fdinfo.url, "udp:read:127.0.0.1:%s", port);
evt_core_add_fd (&(ctx->evts), &fdinfo);
fdinfo.cat->name = "udp-write";
fdinfo.fd = sock2;
sprintf(fdinfo.url, "udp:write:127.0.0.1:%s", port);
evt_core_add_fd (&(ctx->evts), &fdinfo);
return;
socket_failed:
fprintf(stderr, "UDP socket init failed\n");
exit(EXIT_FAILURE);
}
void donar_client(struct donar_client_ctx* ctx, struct algo_skel* algo, char* onion_file, GPtrArray* ports) {
evt_core_init (&(ctx->evts)); evt_core_init (&(ctx->evts));
struct evt_core_cat init_socks5 = { struct evt_core_cat init_socks5 = {
.app_ctx = ctx, .app_ctx = ctx,
@ -184,8 +137,11 @@ void donar_client(struct donar_client_ctx* ctx, struct algo_skel* algo, char* on
} }
printf("--- TCP Clients Connected\n"); printf("--- TCP Clients Connected\n");
g_ptr_array_foreach (ports, (void(*)(void*, void*))init_udp_socket, ctx); g_ptr_array_foreach (remote_ports, (void(*)(void*, void*))init_udp_remote, &(ctx->evts));
printf("--- UDP Sockets are configured\n"); printf("--- Remote ports are binded locally\n");
g_ptr_array_foreach (exposed_ports, (void(*)(void*, void*))init_udp_exposed, &(ctx->evts));
printf("--- Local UDP services are exposed\n");
evt_core_loop(&(ctx->evts)); evt_core_loop(&(ctx->evts));

4
src/donar_client.h
View file

@ -5,6 +5,7 @@
#include "algo_skel.h" #include "algo_skel.h"
#include "tor_os.h" #include "tor_os.h"
#include "socks5.h" #include "socks5.h"
#include "donar_init.h"
#define CLIENT_PORT_SIZE 10 #define CLIENT_PORT_SIZE 10
@ -18,4 +19,5 @@ struct donar_client_ctx {
} client_sock[CLIENT_PORT_SIZE]; } client_sock[CLIENT_PORT_SIZE];
}; };
void donar_client(struct donar_client_ctx* ctx, struct algo_skel* as, char* onion_file, GPtrArray* ports); void donar_client(struct donar_client_ctx* ctx, struct algo_skel* as,
char* onion_file, GPtrArray* exposed_ports, GPtrArray* remote_ports);

89
src/donar_init.c Normal file
View file

@ -0,0 +1,89 @@
#include "donar_init.h"
void free_udp_t(void* v) {
struct udp_target* udp_t = v;
udp_t->ref_count--;
if (udp_t <= 0) {
free(udp_t);
}
}
void init_udp_remote(char* port, struct evt_core_ctx* evts) {
int sock1, sock2;
char url[1024];
struct evt_core_cat cat = {0};
struct evt_core_fdinfo fdinfo = {0};
// 1. Init shared parameters for the fdinfo structure
struct udp_target* udp_t = malloc(sizeof(struct udp_target));
if (udp_t == NULL) goto socket_failed;
memset(udp_t, 0, sizeof(struct udp_target));
udp_t->ref_count = 2;
fdinfo.cat = &cat;
fdinfo.url = url;
fdinfo.free_other = free_udp_t;
fdinfo.other = udp_t;
// 2. Duplicate sockets
sock1 = create_udp_server (port);
if (sock1 < 0) goto socket_failed;
sock2 = dup(sock1);
if (sock2 < 0) goto socket_failed;
// 3. Register them
fdinfo.cat->name = "udp-read";
fdinfo.fd = sock1;
sprintf(fdinfo.url, "udp:read:127.0.0.1:%s", port);
evt_core_add_fd (evts, &fdinfo);
fdinfo.cat->name = "udp-write";
fdinfo.fd = sock2;
sprintf(fdinfo.url, "udp:write:127.0.0.1:%s", port);
evt_core_add_fd (evts, &fdinfo);
return;
socket_failed:
fprintf(stderr, "UDP socket init failed\n");
exit(EXIT_FAILURE);
}
void init_udp_exposed(char* port, struct evt_core_ctx* evts) {
int sock1, sock2;
char url[1024];
struct evt_core_cat cat = {0};
struct evt_core_fdinfo fdinfo = {0};
// 1. Init shared parameters for the fdinfo structure
struct udp_target* udp_t = malloc(sizeof(struct udp_target));
if (udp_t == NULL) goto socket_failed;
memset(udp_t, 0, sizeof(struct udp_target));
udp_t->ref_count = 2;
fdinfo.cat = &cat;
fdinfo.url = url;
fdinfo.free_other = free_udp_t;
fdinfo.other = udp_t;
sock1 = create_udp_client ("127.0.0.1", port);
if (sock1 < 0) goto socket_failed;
sock2 = dup(sock1);
if (sock2 < 0) goto socket_failed;
fdinfo.fd = sock1;
fdinfo.cat->name = "udp-read";
sprintf(fdinfo.url, "udp:read:127.0.0.1:%s", port);
evt_core_add_fd (evts, &fdinfo);
fdinfo.fd = sock2;
fdinfo.cat->name = "udp-write";
sprintf(fdinfo.url, "udp:write:127.0.0.1:%s", port);
evt_core_add_fd (evts, &fdinfo);
return;
socket_failed:
fprintf(stderr, "UDP socket init failed\n");
exit(EXIT_FAILURE);
}

10
src/donar_init.h Normal file
View file

@ -0,0 +1,10 @@
#pragma once
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "net_tools.h"
#include "evt_core.h"
#include "packet.h"
void init_udp_remote(char* port, struct evt_core_ctx* evts);
void init_udp_exposed(char* port, struct evt_core_ctx* evts);

58
src/donar_server.c
View file

@ -50,55 +50,8 @@ socket_create_err:
exit(EXIT_FAILURE); exit(EXIT_FAILURE);
} }
void free_udp_ts(void* v) { void donar_server(struct donar_server_ctx* ctx, struct algo_skel* algo,
struct udp_target* udp_t = v; GPtrArray* exposed_ports, GPtrArray* remote_ports) {
udp_t->ref_count--;
if (udp_t <= 0) {
free(udp_t);
}
}
void serv_init_udp_socket(char* port, struct donar_server_ctx* ctx) {
int sock1, sock2;
char url[1024];
struct evt_core_cat cat = {0};
struct evt_core_fdinfo fdinfo = {0};
// 1. Init shared parameters for the fdinfo structure
struct udp_target* udp_t = malloc(sizeof(struct udp_target));
if (udp_t == NULL) goto socket_failed;
memset(udp_t, 0, sizeof(struct udp_target));
udp_t->ref_count = 2;
fdinfo.cat = &cat;
fdinfo.url = url;
fdinfo.free_other = free_udp_ts;
fdinfo.other = udp_t;
sock1 = create_udp_client ("127.0.0.1", port);
if (sock1 < 0) goto socket_failed;
sock2 = dup(sock1);
if (sock2 < 0) goto socket_failed;
fdinfo.fd = sock1;
fdinfo.cat->name = "udp-read";
sprintf(fdinfo.url, "udp:read:127.0.0.1:%s", port);
evt_core_add_fd (&(ctx->evts), &fdinfo);
fdinfo.fd = sock2;
fdinfo.cat->name = "udp-write";
sprintf(fdinfo.url, "udp:write:127.0.0.1:%s", port);
evt_core_add_fd (&(ctx->evts), &fdinfo);
return;
socket_failed:
fprintf(stderr, "UDP socket init failed\n");
exit(EXIT_FAILURE);
}
void donar_server(struct donar_server_ctx* ctx, struct algo_skel* algo, GPtrArray* ports) {
evt_core_init (&(ctx->evts)); evt_core_init (&(ctx->evts));
evt_core_add_cat (&(ctx->evts), &(algo->on_tcp_co)); evt_core_add_cat (&(ctx->evts), &(algo->on_tcp_co));
evt_core_add_cat (&(ctx->evts), &(algo->on_udp_read)); evt_core_add_cat (&(ctx->evts), &(algo->on_udp_read));
@ -113,12 +66,15 @@ void donar_server(struct donar_server_ctx* ctx, struct algo_skel* algo, GPtrArra
} }
create_onion_services (&(ctx->tos), &(ctx->tctl), ctx->ports, PORT_SIZE); create_onion_services (&(ctx->tos), &(ctx->tctl), ctx->ports, PORT_SIZE);
printf("--- Onion services created\n"); printf("--- Onion services created\n");
init_tcp_servers(ctx); init_tcp_servers(ctx);
printf("--- TCP servers are listening\n"); printf("--- TCP servers are listening\n");
g_ptr_array_foreach (ports, (void(*)(void*, void*))serv_init_udp_socket, ctx); g_ptr_array_foreach (remote_ports, (void(*)(void*, void*))init_udp_remote, &(ctx->evts));
printf("--- UDP Sockets are configured\n"); printf("--- Remote ports are binded locally\n");
g_ptr_array_foreach (exposed_ports, (void(*)(void*, void*))init_udp_exposed, &(ctx->evts));
printf("--- Local UDP services are exposed\n");
evt_core_loop (&(ctx->evts)); evt_core_loop (&(ctx->evts));
destroy_resources (&(ctx->tos), &(ctx->tctl)); destroy_resources (&(ctx->tos), &(ctx->tctl));

4
src/donar_server.h
View file

@ -9,6 +9,7 @@
#include "tor_ctl.h" #include "tor_ctl.h"
#include "evt_core.h" #include "evt_core.h"
#include "algo_skel.h" #include "algo_skel.h"
#include "donar_init.h"
#define PORT_SIZE 10 #define PORT_SIZE 10
@ -19,4 +20,5 @@ struct donar_server_ctx {
uint16_t ports[PORT_SIZE]; uint16_t ports[PORT_SIZE];
}; };
void donar_server(struct donar_server_ctx* ctx, struct algo_skel* algo, GPtrArray* ports); void donar_server(struct donar_server_ctx* ctx, struct algo_skel* algo,
GPtrArray* exposed_ports, GPtrArray* remote_ports);