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mirror of https://github.com/lxsang/antd-tunnel-plugin synced 2024-11-16 09:48:21 +01:00
antd-tunnel-plugin/tunnel.c

1273 lines
41 KiB
C

#define PLUGIN_IMPLEMENT 1
#include <stdlib.h>
#include <errno.h>
#include <unistd.h>
#include <stdio.h>
#include <termios.h>
#include <string.h>
#include <antd/plugin.h>
#include <semaphore.h>
#include <pthread.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/ioctl.h>
#include <sys/select.h>
#include <antd/bst.h>
#include <antd/scheduler.h>
#include <antd/ws.h>
#include <time.h>
#include <fcntl.h>
#include <sys/time.h>
#define MAX_CHANNEL_NAME 64
#define HOT_LINE_SOCKET "antd_hotline.sock"
#define KEY_CHAIN_FIFO "antunnel_keychain"
#define SOCK_DIR_NAME "channels"
#define COOKIE_NAME "sessionid"
#define MAX_CHANNEL_ID 65535u
#define KEY_LEN 40
#define MAX_SESSION_TIMEOUT (15u*60u) //15 min
#define PING_INTERVAL 10u // 10s
#define PROCESS_TIMEOUT 30000u //30 ms
#define MAX_CHANNEL_PATH (sizeof(__plugin__.tmpdir) + strlen(SOCK_DIR_NAME) + strlen(HOT_LINE_SOCKET) + 2)
#define MSG_MAGIC_BEGIN (uint16_t)0x414e //AN
#define MSG_MAGIC_END (uint16_t)0x5444 //TD
#define CHANNEL_OK (uint8_t)0x0
#define CHANNEL_ERROR (uint8_t)0x1
#define CHANNEL_SUBSCRIBE (uint8_t)0x2
#define CHANNEL_UNSUBSCRIBE (uint8_t)0x3
#define CHANNEL_OPEN (uint8_t)0x4
#define CHANNEL_CLOSE (uint8_t)0x5
#define CHANNEL_DATA (uint8_t)0x6
#define CHANNEL_CTRL (uint8_t)0x7
#define TUNNEL_PING (uint8_t)0x8
//#define CHANNEL_LIST (uint8_t)0x7
typedef struct
{
int sock;
char name[MAX_CHANNEL_NAME];
bst_node_t *subscribers;
} antd_tunnel_channel_t;
typedef struct
{
uint8_t type;
uint16_t channel_id;
uint16_t client_id;
uint32_t size;
} antd_tunnel_msg_h_t;
typedef struct
{
antd_tunnel_msg_h_t header;
uint8_t *data;
} antd_tunnel_msg_t;
/**
* Message is sent in the following format
* |BEGIN MAGIC(2)|MSG TYPE(1)| CHANNEL ID (2)| CLIENT ID (2)| data length (2)| data(m) | END MAGIC(2)|
*/
typedef struct {
char hash[KEY_LEN + 1]; // sha1sum + terminal byte
time_t last_update;
} antd_tunnel_key_t;
typedef struct {
pthread_mutex_t lock;
bst_node_t* channels;
bst_node_t* keychain;
pthread_t tid;
int hotline;
int key_fd;
uint16_t id_allocator;
uint8_t initialized;
} antd_tunnel_t;
static antd_tunnel_t g_tunnel;
static int mk_keychain_fifo(const char* name, char * path)
{
// create the FIFO
(void)snprintf(path, MAX_CHANNEL_PATH,"%s/%s/%s",__plugin__.tmpdir, SOCK_DIR_NAME, name);
(void)unlink(path);
if (mkfifo(path, 0666) == -1)
{
ERROR("Unable to create keychain FIFO %s: %s", path, strerror(errno));
return -1;
}
int fifo_fd = open(path, O_RDWR);
if (fifo_fd == -1)
{
ERROR("Unable to open FIFO %s: %s", path, strerror(errno));
return -1;
}
LOG("Keychain FIFO: %s created", path);
return fifo_fd;
}
static int mk_socket(const char* name, char* path)
{
struct sockaddr_un address;
address.sun_family = AF_UNIX;
// create the socket
(void)snprintf(path, MAX_CHANNEL_PATH, "%s/%s/", __plugin__.tmpdir, SOCK_DIR_NAME);
if (!_exist(path))
{
LOG("Socket dir does not exist, create it: %s", path);
if (mkdir(path, 0755) == -1)
{
ERROR("Unable to create socket dir: %s =", strerror(errno));
return -1;
}
}
// Append the name of the socket
if (strlen(path) + strlen(name) > MAX_CHANNEL_PATH)
{
ERROR("Socket file path exceeds the maximal size of: %d", MAX_CHANNEL_PATH);
return -1;
}
(void)strcat(path, name);
(void)strncpy(address.sun_path, path, sizeof(address.sun_path));
int fd = socket(AF_UNIX, SOCK_STREAM, 0);
if (fd == -1)
{
ERROR("Unable to create Unix domain socket: %s", strerror(errno));
return -1;
}
if (bind(fd, (struct sockaddr *)(&address), sizeof(address)) == -1)
{
ERROR("Unable to bind name: %s to a socket: %s", address.sun_path, strerror(errno));
return -1;
}
// mark the socket as passive mode
if (listen(fd, 100) == -1)
{
ERROR("Unable to listen to socket: %d (%s): %s", fd, path, strerror(errno));
return -1;
}
LOG("Socket %s is created successfully: %d", path, fd);
return fd;
}
static int msg_check_number(int fd, uint16_t number)
{
uint16_t value;
if (guard_read(fd, &value, sizeof(value)) == -1)
{
ERROR("Unable to read integer value on socket %d: %s", fd, strerror(errno));
return -1;
}
if (number != value)
{
ERROR("Value mismatches: 0x%02X, expected 0x%02X", value, number);
return -1;
}
return 0;
}
/*
static int msg_read_string(int fd, char* buffer, uint8_t max_length)
{
uint8_t size;
if(guard_read(fd,&size,sizeof(size)) == -1)
{
ERROR("Unable to read string size: %s", strerror(errno));
return -1;
}
if(size > max_length)
{
ERROR("String length exceeds the maximal value of ", max_length);
return -1;
}
if(guard_read(fd,buffer,size) == -1)
{
ERROR("Unable to read string to buffer: %s", strerror(errno));
return -1;
}
return 0;
}
*/
static uint8_t *msg_read_payload(int fd, uint32_t *size)
{
uint8_t *data;
if (guard_read(fd, size, sizeof(*size)) == -1)
{
ERROR("Unable to read payload data size: %s", strerror(errno));
return NULL;
}
if (*size <= 0)
{
return NULL;
}
data = (uint8_t *)malloc(*size);
if (data == NULL)
{
ERROR("Unable to allocate memory for payload data: %s", strerror(errno));
return NULL;
}
if (guard_read(fd, data, *size) == -1)
{
ERROR("Unable to read payload data to buffer: %s", strerror(errno));
free(data);
return NULL;
}
return data;
}
static int msg_read(int fd, antd_tunnel_msg_t *msg)
{
msg->data = NULL;
if (msg_check_number(fd, MSG_MAGIC_BEGIN) == -1)
{
ERROR("Unable to check begin magic number on socket: %d", fd);
return -1;
}
if (guard_read(fd, &msg->header.type, sizeof(msg->header.type)) == -1)
{
ERROR("Unable to read msg type: %s", strerror(errno));
return -1;
}
if (msg->header.type > 0x8)
{
ERROR("Unknown msg type: %d", msg->header.type);
return -1;
}
if (guard_read(fd, &msg->header.channel_id, sizeof(msg->header.channel_id)) == -1)
{
ERROR("Unable to read msg channel id");
return -1;
}
if (guard_read(fd, &msg->header.client_id, sizeof(msg->header.client_id)) == -1)
{
ERROR("Unable to read msg client id");
return -1;
}
if ((msg->data = msg_read_payload(fd, &msg->header.size)) == NULL && msg->header.size != 0)
{
ERROR("Unable to read msg payload data");
return -1;
}
if (msg_check_number(fd, MSG_MAGIC_END) == -1)
{
if (msg->data)
{
free(msg->data);
}
ERROR("Unable to check end magic number");
return -1;
}
return 0;
}
static int msg_write(int fd, antd_tunnel_msg_t *msg)
{
// write begin magic number
uint16_t number = MSG_MAGIC_BEGIN;
if (guard_write(fd, &number, sizeof(number)) == -1)
{
ERROR("Unable to write begin magic number: %s", strerror(errno));
return -1;
}
// write type
if (guard_write(fd, &msg->header.type, sizeof(msg->header.type)) == -1)
{
ERROR("Unable to write msg type: %s", strerror(errno));
return -1;
}
// write channel id
if (guard_write(fd, &msg->header.channel_id, sizeof(msg->header.channel_id)) == -1)
{
ERROR("Unable to write msg channel id: %s", strerror(errno));
return -1;
}
//write client id
if (guard_write(fd, &msg->header.client_id, sizeof(msg->header.client_id)) == -1)
{
ERROR("Unable to write msg client id: %s", strerror(errno));
return -1;
}
// write payload len
if (guard_write(fd, &msg->header.size, sizeof(msg->header.size)) == -1)
{
ERROR("Unable to write msg payload length: %s", strerror(errno));
return -1;
}
// write payload data
if (msg->header.size > 0)
{
if (guard_write(fd, msg->data, msg->header.size) == -1)
{
ERROR("Unable to write msg payload: %s", strerror(errno));
return -1;
}
}
number = MSG_MAGIC_END;
if (guard_write(fd, &number, sizeof(number)) == -1)
{
ERROR("Unable to write end magic number: %s", strerror(errno));
return -1;
}
return 0;
}
static int write_msg_to_client(antd_tunnel_msg_t *msg, antd_client_t *client)
{
uint8_t *buffer;
uint16_t u16 = 0;
int offset = 0;
int ret;
buffer = (uint8_t *)malloc(msg->header.size +
sizeof((int)MSG_MAGIC_BEGIN) +
sizeof(msg->header.type) +
sizeof(msg->header.channel_id) +
sizeof(msg->header.client_id) +
sizeof(msg->header.size) +
sizeof((int)MSG_MAGIC_END));
if (buffer == NULL)
{
ERROR("unable to allocate memory for write");
return -1;
}
// magic
u16 = MSG_MAGIC_BEGIN;
(void)memcpy(buffer, &u16, sizeof(u16));
offset += sizeof(u16);
// type
(void)memcpy(buffer + offset, &msg->header.type, sizeof(msg->header.type));
offset += sizeof(msg->header.type);
// channel id
(void)memcpy(buffer + offset, &msg->header.channel_id, sizeof(msg->header.channel_id));
offset += sizeof(msg->header.channel_id);
// client id
(void)memcpy(buffer + offset, &msg->header.client_id, sizeof(msg->header.client_id));
offset += sizeof(msg->header.client_id);
// payload length
(void)memcpy(buffer + offset, &msg->header.size, sizeof(msg->header.size));
offset += sizeof(msg->header.size);
// payload
(void)memcpy(buffer + offset, msg->data, msg->header.size);
offset += msg->header.size;
// magic end
u16 = MSG_MAGIC_END;
(void)memcpy(buffer + offset, &u16, sizeof(u16));
offset += sizeof(u16);
// write it to the websocket
ret = ws_b(client, buffer, offset);
free(buffer);
return ret;
}
static void unsubscribe(bst_node_t *node, void **argv, int argc)
{
// request client to unsubscribe
(void)argc;
antd_tunnel_channel_t *channel = (antd_tunnel_channel_t *)argv[0];
antd_tunnel_msg_t msg;
if (node->data != NULL)
{
msg.header.channel_id = hash(channel->name, MAX_CHANNEL_ID);
msg.header.client_id = node->key;
msg.header.type = CHANNEL_UNSUBSCRIBE;
msg.header.size = 0;
msg.data = NULL;
if (write_msg_to_client(&msg, (antd_client_t *)node->data) != 0)
{
ERROR("Unable to send unsubscribe message to client");
}
}
}
static void destroy_channel(antd_tunnel_channel_t *channel)
{
void *argc[1];
if (channel == NULL)
return;
if (channel->sock != -1)
{
(void)close(channel->sock);
channel->sock = -1;
}
argc[0] = (void *)channel;
bst_for_each(channel->subscribers, unsubscribe, argc, 1);
bst_free(channel->subscribers);
free(channel);
}
static void channel_open(int fd, const char *name)
{
char buffer[BUFFLEN];
antd_tunnel_channel_t *channel = NULL;
bst_node_t *node;
int hash_val = hash(name, MAX_CHANNEL_ID);
antd_tunnel_msg_t msg;
msg.data = (uint8_t *)buffer;
msg.header.channel_id = 0;
msg.header.client_id = 0;
// look if the channel is already opened
if (g_tunnel.channels != NULL)
{
pthread_mutex_lock(&g_tunnel.lock);
node = bst_find(g_tunnel.channels, hash_val);
pthread_mutex_unlock(&g_tunnel.lock);
if (node != NULL)
{
channel = (antd_tunnel_channel_t *)node->data;
if (channel != NULL && channel->sock != -1)
{
snprintf(buffer, BUFFLEN, "Cannot open new channel: channel %s exists", name);
LOG("%s", buffer);
msg.header.type = CHANNEL_ERROR;
msg.header.size = strlen(buffer);
if (msg_write(fd, &msg) == -1)
{
ERROR("Unable to write message to channel %s (%d)", channel->name, channel->sock);
}
return;
}
}
}
// create new channel
channel = (antd_tunnel_channel_t *)malloc(sizeof(antd_tunnel_channel_t));
channel->subscribers = NULL;
if (channel == NULL)
{
snprintf(buffer, BUFFLEN, "Unable to allocate new memory for new channel");
LOG("%s", buffer);
msg.header.type = CHANNEL_ERROR;
msg.header.size = strlen(buffer);
if (msg_write(fd, &msg) == -1)
{
ERROR("Unable to write message to hotline");
}
return;
}
// create socket file
(void)strncpy(channel->name, name, MAX_CHANNEL_NAME);
channel->sock = fd;
// response with ok message
msg.header.type = CHANNEL_OK;
msg.header.channel_id = hash_val;
msg.header.size = 0;
if (msg_write(fd, &msg) == -1)
{
destroy_channel(channel);
ERROR("Unable to write message to hotline (%d)", fd);
}
// channel created
pthread_mutex_lock(&g_tunnel.lock);
g_tunnel.channels = bst_insert(g_tunnel.channels, hash_val, (void *)channel);
pthread_mutex_unlock(&g_tunnel.lock);
}
static void channel_close(antd_tunnel_channel_t *channel)
{
antd_tunnel_msg_t msg;
msg.data = NULL;
msg.header.channel_id = 0;
msg.header.client_id = 0;
// look for the channel
if (g_tunnel.channels != NULL)
{
msg.header.channel_id = msg.header.channel_id;
if (channel != NULL)
{
msg.header.type = CHANNEL_OK;
msg.header.size = 0;
if (msg_write(channel->sock, &msg) == -1)
{
ERROR("Unable to write message to channel %s (%d)", channel->name, channel->sock);
}
LOG("Close channel: %s (%d)", channel->name, channel->sock);
destroy_channel(channel);
}
}
}
static void update_keychain(int listen_fd)
{
antd_tunnel_key_t* key_p = (antd_tunnel_key_t*) malloc(sizeof(antd_tunnel_key_t));
if(key_p == NULL)
{
ERROR("Unable to allocate memory for key");
return;
}
(void)memset(key_p->hash, 0, KEY_LEN + 1);
int size;
if ((size = read(listen_fd, key_p->hash, KEY_LEN)) == -1)
{
ERROR("Unable to read data from keychain FIFO: %s", strerror(errno));
free(key_p);
return;
}
if(size != KEY_LEN)
{
ERROR("Invalid key size %d", size);
free(key_p);
return;
}
// looking for key in the keychain
int hash_val = simple_hash(key_p->hash);
pthread_mutex_lock(&g_tunnel.lock);
bst_node_t* node = bst_find(g_tunnel.keychain, hash_val);
if(node == NULL)
{
key_p->last_update = time(NULL);
g_tunnel.keychain = bst_insert(g_tunnel.keychain, hash_val, (void*) key_p);
LOG("New key added to the keychain (%d)", hash_val);
}
else
{
antd_tunnel_key_t* existing_key = (antd_tunnel_key_t*)node->data;
existing_key->last_update = time(NULL);
LOG("Update existing key in the keychain");
free(key_p);
}
pthread_mutex_unlock(&g_tunnel.lock);
}
static void monitor_hotline(int listen_fd)
{
char buff[MAX_CHANNEL_NAME + 1];
antd_tunnel_msg_t msg;
int fd;
fd = accept(listen_fd, NULL, NULL);
if (fd < 0)
{
ERROR("Unable to accept the new connection: %s", strerror(errno));
return;
}
if (msg_read(fd, &msg) == -1)
{
ERROR("Unable to read message from hotline");
(void)close(fd);
return;
}
switch (msg.header.type)
{
case CHANNEL_OPEN:
// get channel name
if (msg.header.size > MAX_CHANNEL_NAME)
{
msg.header.type = CHANNEL_ERROR;
(void)snprintf(buff, MAX_CHANNEL_NAME, "Channel name exceeds %d bytes", MAX_CHANNEL_NAME);
LOG("%s", buff);
msg.header.size = strlen(buff);
if (msg.data)
free(msg.data);
msg.data = (uint8_t *)buff;
if (msg_write(fd, &msg) == -1)
{
ERROR("Unable to write error to hotline");
}
}
else
{
(void)memcpy(buff, msg.data, msg.header.size);
buff[msg.header.size] = '\0';
LOG("Open a new channel: %s (%d)", buff, fd);
channel_open(fd, buff);
if (msg.data)
free(msg.data);
}
break;
default:
msg.header.type = CHANNEL_ERROR;
(void)snprintf(buff, MAX_CHANNEL_NAME, "Unsupported msg type %d in hotline", (int)msg.header.type);
msg.header.size = strlen(buff);
if (msg.data)
free(msg.data);
msg.data = (uint8_t *)buff;
LOG("%s", buff);
if (msg_write(fd, &msg) == -1)
{
ERROR("Unable to write error to hotline");
}
break;
}
}
static void handle_channel(bst_node_t *node, void **args, int argc)
{
antd_tunnel_msg_t msg;
(void)argc;
fd_set *fd_in = (fd_set *)args[0];
list_t *channel_list = (list_t *)args[1];
antd_tunnel_channel_t *channel = (antd_tunnel_channel_t *)node->data;
bst_node_t *client;
antd_client_t *rq;
int n;
if (channel != NULL && channel->sock != -1 && FD_ISSET(channel->sock, fd_in))
{
ioctl(channel->sock, FIONREAD, &n);
if (n == 0)
{
// the socket is closed
LOG("Channel %s (%d) is closed by application", channel->name, channel->sock);
destroy_channel(channel);
node->data = NULL;
return;
}
//LOG("Got new data on channel %s (%d)", channel->name, channel->sock);
// handle msg read
if (msg_read(channel->sock, &msg) == -1)
{
ERROR("Unable to read message from channel %s (%d)", channel->name, channel->sock);
return;
}
switch (msg.header.type)
{
case CHANNEL_OK:
case CHANNEL_ERROR:
case CHANNEL_DATA:
case CHANNEL_UNSUBSCRIBE:
case CHANNEL_CTRL:
// forward message to the correct client in the channel
msg.header.channel_id = node->key;
client = bst_find(channel->subscribers, msg.header.client_id);
if (client != NULL)
{
rq = (antd_client_t *)client->data;
if (rq != NULL)
{
if (write_msg_to_client(&msg, rq) != 0)
{
ERROR("Unable to send CTRL command to client");
// remove the client from the list
if (msg.header.type != CHANNEL_UNSUBSCRIBE)
{
// tell the other endpoint to remove the subscriber
msg.header.type = CHANNEL_UNSUBSCRIBE;
msg.header.size = 0;
if (msg_write(channel->sock, &msg) == -1)
{
ERROR("Unable to send unsubscribe notification to channel %s (%d)", channel->name, channel->sock);
}
}
}
}
}
else
{
ERROR("Unable to find client %d to write on channel %s", msg.header.client_id, channel->name);
}
if (msg.header.type == CHANNEL_UNSUBSCRIBE)
{
channel->subscribers = bst_delete(channel->subscribers, msg.header.client_id);
}
break;
case CHANNEL_CLOSE:
// close the current channel
channel_close(channel);
node->data = NULL;
list_put_ptr(channel_list, node);
break;
default:
LOG("Message type %d is not supported in client-application communication", msg.header.type);
break;
}
if (msg.data)
free(msg.data);
}
}
static void set_sock_fd(bst_node_t *node, void **args, int argc)
{
(void)argc;
fd_set *fd_in = (fd_set *)args[0];
int *max_fd = args[1];
antd_tunnel_channel_t *channel = (antd_tunnel_channel_t *)node->data;
if (channel != NULL && channel->sock != -1)
{
FD_SET(channel->sock, fd_in);
if (*max_fd < channel->sock)
{
*max_fd = channel->sock;
}
}
}
static void *multiplex(void *data_p)
{
int max_fdm;
fd_set fd_in;
int status = 0;
int rc;
void *args[2];
list_t closed_channels;
item_t item;
antd_tunnel_t *tunnel_p = (antd_tunnel_t *)data_p;
while (status == 0)
{
FD_ZERO(&fd_in);
FD_SET(tunnel_p->hotline, &fd_in);
FD_SET(tunnel_p->key_fd, &fd_in);
max_fdm = tunnel_p->hotline > tunnel_p->key_fd? tunnel_p->hotline: tunnel_p->key_fd;
pthread_mutex_lock(&tunnel_p->lock);
args[0] = (void *)&fd_in;
args[1] = (void *)&max_fdm;
bst_for_each(tunnel_p->channels, set_sock_fd, args, 2);
pthread_mutex_unlock(&tunnel_p->lock);
rc = select(max_fdm + 1, &fd_in, NULL, NULL, NULL);
switch (rc)
{
case -1:
LOG("Error %d on select()\n", errno);
status = 1;
break;
case 0:
break;
// we have data
default:
if(FD_ISSET(tunnel_p->hotline, &fd_in))
{
// LOG("Got new data on hotline");
monitor_hotline(tunnel_p->hotline);
}
if(FD_ISSET(tunnel_p->key_fd, &fd_in))
{
update_keychain(tunnel_p->key_fd);
}
pthread_mutex_lock(&tunnel_p->lock);
closed_channels = list_init();
args[0] = (void*) &fd_in;
args[1] = (void*) &closed_channels;
bst_for_each(tunnel_p->channels, handle_channel,args, 2);
list_for_each(item, closed_channels)
{
tunnel_p->channels = bst_delete(tunnel_p->channels, ((bst_node_t*)item->value.ptr)->key);
item->value.ptr = NULL;
}
list_free(&closed_channels);
pthread_mutex_unlock(&tunnel_p->lock);
}
}
return NULL;
}
void init()
{
char path[MAX_CHANNEL_PATH];
// initialise the lock
(void)pthread_mutex_init(&g_tunnel.lock, NULL);
// initialise the channel
g_tunnel.hotline = -1;
g_tunnel.channels = NULL;
g_tunnel.id_allocator = 0;
g_tunnel.initialized = 0;
g_tunnel.keychain = NULL;
g_tunnel.key_fd = -1;
if((g_tunnel.hotline = mk_socket(HOT_LINE_SOCKET, path)) == -1)
{
ERROR("Unable to create hotline socket");
destroy();
return;
}
if((g_tunnel.key_fd = mk_keychain_fifo(KEY_CHAIN_FIFO, path)) == -1)
{
ERROR("Unable to create keychain FIFO");
destroy();
return;
}
// create the thread
if (pthread_create(&g_tunnel.tid, NULL, (void *(*)(void *))multiplex, (void *)&g_tunnel) != 0)
{
ERROR("pthread_create: cannot create tunnel multiplex thread: %s\n", strerror(errno));
destroy();
}
LOG("Tunnel plugin initialised");
g_tunnel.initialized = 1;
}
static void free_subscribers(bst_node_t *node, void **args, int argc)
{
(void)argc;
(void)args;
antd_tunnel_channel_t *channel = (antd_tunnel_channel_t *)node->data;
destroy_channel(channel);
node->data = NULL;
}
void destroy()
{
char path[MAX_CHANNEL_PATH];
if(g_tunnel.initialized)
{
pthread_mutex_lock(&g_tunnel.lock);
bst_for_each(g_tunnel.channels, free_subscribers, NULL, 0);
pthread_mutex_unlock(&g_tunnel.lock);
(void)pthread_join(g_tunnel.tid, NULL);
bst_free(g_tunnel.channels);
bst_free(g_tunnel.keychain);
pthread_mutex_destroy(&g_tunnel.lock);
LOG("Antd tunnel is destroyed");
}
if(g_tunnel.hotline != -1)
{
(void) close(g_tunnel.hotline);
(void) snprintf(path, BUFFLEN, "%s/%s/%s", __plugin__.tmpdir, SOCK_DIR_NAME, HOT_LINE_SOCKET);
(void) unlink(path);
}
if(g_tunnel.key_fd != -1)
{
(void) close(g_tunnel.key_fd);
(void) snprintf(path, BUFFLEN, "%s/%s/%s", __plugin__.tmpdir, SOCK_DIR_NAME, KEY_CHAIN_FIFO);
(void) unlink(path);
}
}
static void process_client_message(antd_tunnel_msg_t *msg, antd_client_t *client)
{
char buff[BUFFLEN + 1];
bst_node_t *node;
antd_tunnel_channel_t *channel;
int hash_val;
// let send it to the correct channel
switch (msg->header.type)
{
case CHANNEL_OK:
case CHANNEL_ERROR:
case CHANNEL_DATA:
case CHANNEL_CTRL:
node = bst_find(g_tunnel.channels, msg->header.channel_id);
if (node)
{
channel = (antd_tunnel_channel_t *)node->data;
if (channel)
{
if (msg_write(channel->sock, msg) == -1)
{
ERROR("Unable to write data to channel [%s] from client %d", channel->name, msg->header.client_id);
// notify client to unsubscribe
msg->header.type = CHANNEL_UNSUBSCRIBE;
msg->header.size = 0;
if (write_msg_to_client(msg, client) != 0)
{
ERROR("Unable to send unsubscribe message to client to client");
}
return;
}
}
}
break;
case CHANNEL_SUBSCRIBE:
case CHANNEL_UNSUBSCRIBE:
if (msg->header.size > MAX_CHANNEL_NAME)
{
msg->header.type = CHANNEL_ERROR;
(void)snprintf(buff, BUFFLEN, "Channel name is too long. Max length is %d", MAX_CHANNEL_NAME);
msg->header.size = strlen(buff);
msg->data = (uint8_t *)buff;
ERROR("%s", buff);
if (write_msg_to_client(msg, client) != 0)
{
ERROR("Unable to send error message to client");
}
return;
}
if (msg->header.size > 0)
{
(void)memcpy(buff, msg->data, msg->header.size);
buff[msg->header.size] = '\0';
hash_val = hash(buff, MAX_CHANNEL_ID);
LOG("Requested channel: [%s]: %d", buff, hash_val);
}
else
{
hash_val = msg->header.channel_id;
}
node = bst_find(g_tunnel.channels, hash_val);
if (node)
{
channel = (antd_tunnel_channel_t *)node->data;
if (channel)
{
if (msg->header.type == CHANNEL_SUBSCRIBE)
{
g_tunnel.id_allocator++;
channel->subscribers = bst_insert(channel->subscribers, (int)g_tunnel.id_allocator, client);
// sent ok to client
msg->header.type = CHANNEL_OK;
msg->header.channel_id = hash_val;
msg->header.size = sizeof(g_tunnel.id_allocator);
(void)memcpy(buff, &g_tunnel.id_allocator, sizeof(g_tunnel.id_allocator));
msg->data = (uint8_t *)buff;
if (write_msg_to_client(msg, client) != 0)
{
ERROR("Unable to send subscribe OK message to client");
}
msg->header.client_id = g_tunnel.id_allocator;
msg->header.type = CHANNEL_SUBSCRIBE;
}
else
{
channel->subscribers = bst_delete(channel->subscribers, msg->header.client_id);
msg->header.type = CHANNEL_OK;
msg->header.channel_id = hash_val;
msg->header.size = 0;
if (write_msg_to_client(msg, client) != 0)
{
ERROR("Unable to send unsubscribe OK message to client");
}
msg->header.type = CHANNEL_UNSUBSCRIBE;
}
// forward to publisher
if (msg_write(channel->sock, msg) == -1)
{
ERROR("Unable to forward subscribe/unsubscribe message to %s", channel->name);
}
}
}
else
{
(void)snprintf(buff, BUFFLEN, "Channel not found: %d", hash_val);
msg->header.size = strlen(buff);
msg->data = (uint8_t *)buff;
ERROR("%s", buff);
if (msg->header.type == CHANNEL_SUBSCRIBE)
{
msg->header.type = CHANNEL_ERROR;
if (write_msg_to_client(msg, client) != 0)
{
ERROR("Unable to send channel not found error to client");
}
}
}
break;
default:
LOG("Unsupported message type for client msg %d", msg->header.type);
break;
}
}
static void unsubscribe_notify_handle(bst_node_t *node, void **argv, int argc)
{
(void)argc;
antd_client_t *client = (antd_client_t *)argv[0];
antd_tunnel_channel_t *channel = (antd_tunnel_channel_t *)argv[1];
list_t *list = (list_t *)argv[2];
antd_tunnel_msg_t msg;
if ((antd_client_t *)node->data == client)
{
if (channel != NULL)
{
msg.header.type = CHANNEL_UNSUBSCRIBE;
msg.header.channel_id = hash(channel->name, MAX_CHANNEL_ID);
msg.header.client_id = node->key;
msg.header.size = 0;
msg.data = NULL;
if (msg_write(channel->sock, &msg) == -1)
{
ERROR("Unable to send unsubscribe notification of client %d to channel %s (%d)", node->key, channel->name, channel->sock);
}
}
if (list != NULL)
{
list_put_ptr(list, node);
}
}
}
static void unsubscribe_notify(bst_node_t *node, void **argv, int argc)
{
(void)argc;
void *pargv[3];
antd_client_t *client = (antd_client_t *)argv[0];
antd_tunnel_channel_t *channel = (antd_tunnel_channel_t *)node->data;
list_t list = list_init();
item_t item;
if (channel != NULL)
{
pargv[0] = (void *)client;
pargv[1] = (void *)channel;
pargv[2] = (void *)&list;
bst_for_each(channel->subscribers, unsubscribe_notify_handle, pargv, 3);
list_for_each(item, list)
{
channel->subscribers = bst_delete(channel->subscribers, ((bst_node_t *)item->value.ptr)->key);
item->value.ptr = NULL;
}
}
list_free(&list);
}
static void keychain_validating(bst_node_t *node, void **argv, int argc)
{
(void)argc;
list_t *list = (list_t *)argv[0];
antd_tunnel_key_t* key_p = NULL;
if(node == NULL || node->data == NULL)
{
return;
}
key_p = (antd_tunnel_key_t*) node->data;
if(difftime(time(NULL), key_p->last_update) > (double)MAX_SESSION_TIMEOUT)
{
list_put_i(list,node->key);
}
}
void *handle(void *rq_data)
{
antd_request_t *rq = (antd_request_t *)rq_data;
antd_client_t *client = ((antd_client_t *)(rq->client));
antd_task_t *task = antd_create_task(NULL, (void *)rq, NULL, time(NULL));
ws_msg_header_t *h = NULL;
antd_tunnel_msg_t msg;
uint8_t *buffer;
struct timeval timeout;
int status;
fd_set fd_in;
int offset;
uint16_t u16;
bst_node_t * node = NULL;
antd_tunnel_key_t* key_p = NULL;
const char* ssid = NULL;
dictionary_t cookie = NULL;
void *argv[1];
if (g_tunnel.initialized == 0)
{
ERROR("The tunnel plugin is not initialised correctly");
return task;
}
// update the keychain
list_t list = list_init();
argv[0] = (void*)&list;
pthread_mutex_lock(&g_tunnel.lock);
bst_for_each(g_tunnel.keychain, keychain_validating, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
item_t item;
list_for_each(item, list)
{
pthread_mutex_lock(&g_tunnel.lock);
g_tunnel.keychain = bst_delete(g_tunnel.keychain, item->value.i);
LOG("Delete invalid key (timeout) with hash %d", item->value.i);
pthread_mutex_unlock(&g_tunnel.lock);
}
list_free(&list);
if (ws_enable(rq->request))
{
argv[0] = (void *)rq->client;
// verify if user is authorized
cookie = dvalue(rq->request, "COOKIE");
if(cookie != NULL)
{
ssid = (const char*)dvalue(cookie, COOKIE_NAME);
}
if(ssid == NULL)
{
return task;
}
pthread_mutex_lock(&g_tunnel.lock);
node = bst_find(g_tunnel.keychain, simple_hash(ssid));
pthread_mutex_unlock(&g_tunnel.lock);
if(node == NULL || node->data == NULL || strcmp(((antd_tunnel_key_t*)node->data)->hash,ssid) != 0)
{
ERROR("User unauthorized, quit");
pthread_mutex_lock(&g_tunnel.lock);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
return task;
}
key_p = (antd_tunnel_key_t*) node->data;
pthread_mutex_lock(&g_tunnel.lock);
key_p->last_update = time(NULL);
pthread_mutex_unlock(&g_tunnel.lock);
// session is valid, continue
timeout.tv_sec = 0;
timeout.tv_usec = PROCESS_TIMEOUT;
FD_ZERO(&fd_in);
FD_SET(client->sock, &fd_in);
status = select(client->sock + 1, &fd_in, NULL, NULL, &timeout);
switch (status)
{
case -1:
LOG("Error %d on select()\n", errno);
pthread_mutex_lock(&g_tunnel.lock);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
return task;
break;
case 0:
timeout.tv_sec = 0;
timeout.tv_usec = PROCESS_TIMEOUT;
select(0, NULL, NULL, NULL, &timeout);
break;
default:
pthread_mutex_lock(&g_tunnel.lock);
h = ws_read_header(rq->client);
pthread_mutex_unlock(&g_tunnel.lock);
if (h)
{
if (h->mask == 0)
{
LOG("Data is not mask");
// kill the child process
free(h);
pthread_mutex_lock(&g_tunnel.lock);
ws_close(rq->client, 1011);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
return task;
}
if (h->opcode == WS_CLOSE)
{
LOG("Websocket: connection closed");
pthread_mutex_lock(&g_tunnel.lock);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
free(h);
return task;
}
if (h->opcode == WS_BIN)
{
// we have data, now read the message,
// the message must be in bin
int ws_msg_len = h->plen;
buffer = (uint8_t *)malloc(h->plen + 1);
if (buffer)
{
pthread_mutex_lock(&g_tunnel.lock);
ws_read_data(rq->client, h, h->plen, buffer);
pthread_mutex_unlock(&g_tunnel.lock);
if (h->plen == 0)
{
offset = 0;
// verify begin magic
(void)memcpy(&u16, buffer, sizeof(u16));
offset += sizeof(u16);
if (u16 != MSG_MAGIC_BEGIN)
{
ERROR("Invalid begin magic number: %d, expected %d", u16, MSG_MAGIC_BEGIN);
free(buffer);
free(h);
pthread_mutex_lock(&g_tunnel.lock);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
return task;
}
// msgtype
(void)memcpy(&msg.header.type, buffer + offset, sizeof(msg.header.type));
offset += sizeof(msg.header.type);
// channel id
(void)memcpy(&msg.header.channel_id, buffer + offset, sizeof(msg.header.channel_id));
offset += sizeof(msg.header.channel_id);
// client id
(void)memcpy(&msg.header.client_id, buffer + offset, sizeof(msg.header.client_id));
offset += sizeof(msg.header.client_id);
// data size
(void)memcpy(&msg.header.size, buffer + offset, sizeof(msg.header.size));
offset += sizeof(msg.header.size);
// data
msg.data = buffer + offset;
offset += msg.header.size;
if(offset > (int)ws_msg_len)
{
ERROR("Invalid message len: %d", msg.header.size);
return task;
}
// verify end magic
(void)memcpy(&u16, buffer + offset, sizeof(u16));
offset += sizeof(u16);
if (u16 != MSG_MAGIC_END)
{
ERROR("Invalid end magic number: %d, expected %d", u16, MSG_MAGIC_END);
free(buffer);
free(h);
pthread_mutex_lock(&g_tunnel.lock);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
return task;
}
// now we have the message
pthread_mutex_lock(&g_tunnel.lock);
process_client_message(&msg, rq->client);
pthread_mutex_unlock(&g_tunnel.lock);
}
free(buffer);
}
}
else if(h->opcode == WS_PONG)
{
buffer = (uint8_t *)malloc(h->plen + 1);
if (buffer)
{
ws_read_data(rq->client, h, h->plen, buffer);
LOG("Receive pong message from client: %s. Client Alive", buffer);
free(buffer);
}
}
else
{
LOG("Websocket: Text data is not supported");
pthread_mutex_lock(&g_tunnel.lock);
//ws_close(rq->client, 1011);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
free(h);
return task;
}
free(h);
}
else
{
timeout.tv_sec = 0;
timeout.tv_usec = PROCESS_TIMEOUT;
select(0, NULL, NULL, NULL, &timeout);
}
}
// check whether we need to send ping message to client
if (difftime(time(NULL), client->last_io) > (double)PING_INTERVAL)
{
/*
msg.header.type = TUNNEL_PING;
msg.header.client_id = 0;
msg.header.channel_id = 0;
msg.header.size = 0;
msg.data = NULL;
if (write_msg_to_client(&msg, client) != 0)
{
// close the connection
pthread_mutex_lock(&g_tunnel.lock);
//ws_close(rq->client, 1011);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
ERROR("Unable to ping client, close the connection: %d", client->sock);
return task;
}*/
if(ws_ping(client,"ANTD-TUNNEL",0) != 0)
{
// close the connection
pthread_mutex_lock(&g_tunnel.lock);
//ws_close(rq->client, 1011);
bst_for_each(g_tunnel.channels, unsubscribe_notify, argv, 1);
pthread_mutex_unlock(&g_tunnel.lock);
ERROR("Unable to ping client, close the connection: %d", client->sock);
return task;
}
}
}
else
{
return task;
}
task->handle = handle;
task->access_time = time(NULL);
antd_task_bind_event(task,rq->client->sock,0, TASK_EVT_ON_WRITABLE| TASK_EVT_ON_READABLE);
return task;
}