Ejemplo n.º 1
0
int
md_getframe(struct pstate *ps, int frame, struct md_frame *fram)
{
	struct frame fr;
	struct reg r;
	int count;

	if (process_getregs(ps, &r) != 0)
		return (-1);

	fr.fp = r.r_rbp;
	fr.pc = r.r_rip;
	for (count = 0; count < frame; count++) {
		if (process_read(ps, fr.fp, &fr, sizeof(fr)) < 0)
			return (-1);

		if (fr.pc < 0x1000)
			return (-1);
	}

	fram->pc = fr.pc;
	fram->fp = fr.fp;

	return (0);
}
Ejemplo n.º 2
0
SOCKET _gcc_socket_attach(process_t* p, mutex_t* lock) {
	struct msghdr message;
	struct iovec iov[1];
	struct cmsghdr *control_message = NULL;
	char ctrl_buf[CMSG_SPACE(sizeof(int))];
	char data[1] = {' '};
	int res;

	memset(&message, 0, sizeof(struct msghdr));
	memset(ctrl_buf, 0, CMSG_SPACE(sizeof(int)));

	/* For the dummy data */
	iov[0].iov_base = data;
	iov[0].iov_len = sizeof(data);

	message.msg_name = NULL;
	message.msg_namelen = 0;
	message.msg_control = ctrl_buf;
	message.msg_controllen = CMSG_SPACE(sizeof(int));
	message.msg_iov = iov;
	message.msg_iovlen = 1;

	if((res = recvmsg(p->pipe, &message, 0)) <= 0) {
		socket_close(p->pipe);
		return res;
	}

	printf("Reading mutex from client\n");
	mutex_t mutexMem = (mutex_t) malloc(sizeof(_mutex_t));
	const uint32_t nameSize = sizeof(mutexMem->name);
	memset(mutexMem->name, 0, nameSize);
	if(process_read(p, mutexMem->name, nameSize) != nameSize) {
		printf("Could not read mutex data from process\n");
		return INVALID_SOCKET;
	}

	if (mutex_attach(string(mutexMem->name), mutexMem) != ESERR_NO_ERROR) {
		printf("Could not attach mutex from host process.\n");
		return INVALID_SOCKET;
	}
	printf("Read mutex from client\n");
	*lock = mutexMem;

	// Iterate through header to find if there is a file descriptor
	for(control_message = CMSG_FIRSTHDR(&message);
	    control_message != NULL;
	    control_message = CMSG_NXTHDR(&message,
	                                  control_message))
	{
		if( (control_message->cmsg_level == SOL_SOCKET) &&
		    (control_message->cmsg_type == SCM_RIGHTS) )
		{
			return *((int *) CMSG_DATA(control_message));
		}
	}



	return INVALID_SOCKET;
}
Ejemplo n.º 3
0
static void on_events(handle_t h,int events){	
	kn_socket *s = (kn_socket*)h;
	if(h->status == SOCKET_CLOSE)
		return;
	do{
		h->inloop = 1;
		if(h->status == SOCKET_LISTENING){
			process_accept(s);
		}else if(h->status == SOCKET_CONNECTING){
			process_connect(s,events);
		}else if(h->status == SOCKET_ESTABLISH){
			if(events & EVENT_READ){
				process_read(s);	
				if(h->status == SOCKET_CLOSE) 
					break;								
				
			}		
			if(events & EVENT_WRITE)
				process_write(s);			
		}
		h->inloop = 0;
	}while(0);
	if(h->status == SOCKET_CLOSE)
		on_destroy(s);
}
Ejemplo n.º 4
0
int
md_getframe(struct pstate *ps, int frame, struct md_frame *fram)
{
	struct frame64 fr;
	struct reg r;
	reg fp, pc;
	reg *outs;
	int i;

	if (process_getregs(ps, &r))
		return (-1);

	if (frame == 0) {
		pc = r.r_pc;
		fp = r.r_out[6] + BIAS;
		/*
		 * XXX - we need some kind of heuristics here to decide
		 * if the function has done a save or not and then pick
		 * the in registers. the problem is just that there are
		 * no in registers in PT_GETREGS.
		 */
		outs = (reg *)&r.r_out;
		goto out;
	}

	fp = r.r_out[6] + BIAS;
	pc = r.r_out[7];

	for (i = 1; i < frame; i++) {
		/* Too low or unaligned frame pointer? */
		if (fp < 8192 || (fp & 7) != 0)
			return (-1);

		if (process_read(ps, fp, &fr, sizeof(fr)) < 0)
			return (-1);

		fp = (unsigned long)v9next_frame((&fr));
		pc = fr.fr_pc;

		/* Too low or unaligned pc ? */
		if ((pc < 8192) || (pc & 3) != 0)
			return (-1);

		outs = (reg *)&fr.fr_arg;
	}

out:
	fram->pc = pc;
	fram->fp = fp;

	fram->nargs = 6;	/* XXX - don't know the real number */
	for (i = 0; i < 6; i++) {
		fram->args[i] = fr.fr_arg[i];
	}

	return (0);
}
Ejemplo n.º 5
0
/*
 *  This is the entry point for reading data from a secure memory.
 */
int
omnius_read(blob_t *blob) {
    int ret = EXIT_FAILURE;

    /* find the proc based on pid */
    secmem_process_t *proc = g_pid_lookup[blob->head.pid];

    /* validate and process*/
    if (proc &&  blob->head.addr >= 0 && blob->head.addr < proc->mem_size && blob->head.data_len > 0) {
        /* assuming success, the process routine will stuff the data read into the data field of the blob
         * */
        ret = process_read(blob, proc);
    }
    return ret;
}
Ejemplo n.º 6
0
void service::process()
{
	HTTP_CODE read_ret=process_read();
	printf("process() read_ret=%d\n",read_ret);
	if(read_ret==NO_REQUEST)
	{
		modfd(m_epollfd,m_sockfd,EPOLLIN);
		return;
	}
	bool write_ret=process_write(read_ret);
	if(!write_ret)
	{
		close_conn();
	}
	modfd(m_epollfd,m_sockfd,EPOLLOUT);
}
Ejemplo n.º 7
0
void
tcp_client::on_read_available(fd_t) {
  __TACOPIE_LOG(info, "read available");

  read_result result;
  auto callback = process_read(result);

  if (!result.success) {
    __TACOPIE_LOG(warn, "read operation failure");
    disconnect();
  }

  if (callback) { callback(result); }

  if (!result.success) { call_disconnection_handler(); }
}
Ejemplo n.º 8
0
/* Called by each worker thread */
static void* worker_func(void* aio_context)
{
	int num_events = -1, i = 0;
	as_async_info_t *reference;
	struct io_event events[MAXEVENTS];

	while(g_running)
	{
		num_events = io_getevents(*(aio_context_t*)aio_context, 1, MAXEVENTS, (events + 0), NULL);
		for(i = 0; i < num_events; i++)
		{
			reference = (as_async_info_t*)events[i].data;
			process_read(reference);  
		}
	}
	return (0);	
}
Ejemplo n.º 9
0
static void on_events(handle_t h,int events){
	kn_chr_dev *r = (kn_chr_dev*)h;
	r->processing = 1;
	do{
		
		if(events & EPOLLIN){
			process_read(r);
			if(r->comm_head.status == KN_CHRDEV_RELEASE)
				break;
		}		
		if(events & EPOLLOUT){
			process_write(r);
		}
	}while(0);
	r->processing = 0;
	if(r->comm_head.status == KN_CHRDEV_RELEASE){
		destroy_chrdev(r);
	}	
}
static int voice_test()
{
    int rtn = 0;
    char* name;
    fd_set rfds, wfds;
    Audio_t hPcm_Mic;
    Audio_t hPcm_Spk;
    snd_pcm_channel_params_t params;
    bool bQuit = false;

    /************************ CAPTURE **************************/

    //  configuring capture (mic)
    name = "voice";

    //  get audioman handle
    rtn = audio_manager_get_handle(AUDIO_TYPE_VIDEO_CHAT, getpid(), (bool)false, &hPcm_Mic.hAudioman);
    if(rtn < 0) {
        cli_print("audio_manager_get_handle (mic) failed %s", strerror(-rtn));
        return -1;
     }

    cli_print("Opening %s - for capture", name);
    rtn = snd_pcm_open_name(&hPcm_Mic.pDs, name, SND_PCM_OPEN_CAPTURE);
    if (rtn < 0) {
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        cli_print("snd_pcm_open_name (mic) failed %s", snd_strerror(rtn));
        return -1; // snd_pcm calls return negative values; make positive
    }

    rtn = snd_pcm_set_audioman_handle(hPcm_Mic.pDs, hPcm_Mic.hAudioman);
    if (rtn < 0) {
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        cli_print("snd_pcm_set_audioman_handle (mic) failed %s", snd_strerror(rtn));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        return -1;
    }

    // disable mmap
    (void)snd_pcm_plugin_set_disable(hPcm_Mic.pDs, (unsigned int)PLUGIN_DISABLE_MMAP);

    // set parameters
    memset(&params, 0, sizeof(params));
    params.mode = SND_PCM_MODE_BLOCK;
    params.channel = SND_PCM_CHANNEL_CAPTURE;
    params.start_mode = SND_PCM_START_GO;
    params.stop_mode = SND_PCM_STOP_ROLLOVER;
    params.buf.block.frag_size = fragsize;
    params.buf.block.frags_max = 1;
    params.buf.block.frags_min = 1;
    params.format.rate = 8000; //samplerate;
    params.format.interleave = 1;
    params.format.voices = channels;
    params.format.format = SND_PCM_SFMT_S16_LE;

    rtn = snd_pcm_plugin_params(hPcm_Mic.pDs, &params);
    if (rtn < 0) {
        cli_print("snd_pcm_plugin_params (mic) failed %s", snd_strerror(rtn));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        return -1;
    }

    // get file descriptor for use with the select() call
    hPcm_Mic.hFD = snd_pcm_file_descriptor(hPcm_Mic.pDs, SND_PCM_CHANNEL_CAPTURE);
    if (hPcm_Mic.hFD < 0) {
        cli_print("snd_pcm_file_descriptor (mic) failed %s", snd_strerror(hPcm_Mic.hFD));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        return -1;
    }
    // Signal the driver to ready the capture channel
    rtn = snd_pcm_plugin_prepare(hPcm_Mic.pDs, SND_PCM_CHANNEL_CAPTURE);
    if (rtn < 0) {
        cli_print("snd_pcm_plugin_prepare (mic) failed %s", snd_strerror(errno));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        return -1;
    }
    fragsize = params.buf.block.frag_size;


    /************************ PLAYBACK **************************/

    name = "voice";

    // get and set audioman handle
    rtn = audio_manager_get_handle(AUDIO_TYPE_VIDEO_CHAT, getpid(), (bool)false, &hPcm_Spk.hAudioman);
    if (rtn < 0) {
        cli_print("audioman audio_manager_get_handle (spk) failed %s", strerror(-rtn) );
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        return -1;
    }
#ifdef HANDSET
    // set audio manager handle type
    rtn = audio_manager_set_handle_type(hPcm_Spk.hAudioman, AUDIO_TYPE_VIDEO_CHAT, device_type, device_type);
    if (rtn < 0) {
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
        cli_print("audio_manager_set_handle_type (spk) failed %s", strerror(-rtn));
        return -1;
    }
#endif
    // Create a handle and open a connection to an audio interface specified by name
    cli_print("Opening %s - for playback", name);
    rtn = snd_pcm_open_name(&hPcm_Spk.pDs, name, SND_PCM_OPEN_PLAYBACK);
    if (rtn < 0) {
        cli_print("snd_pcm_open_name (spk) failed %s", snd_strerror(rtn));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
        return -1;
    }
    rtn = snd_pcm_set_audioman_handle(hPcm_Spk.pDs, hPcm_Spk.hAudioman);
    if (rtn < 0) {
        cli_print("snd_pcm_set_audioman_handle (spk) failed %s", snd_strerror(rtn));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)snd_pcm_close(hPcm_Spk.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
        return -1;
    }

    // disable mmap
    (void)snd_pcm_plugin_set_disable(hPcm_Spk.pDs, (unsigned int)PLUGIN_DISABLE_MMAP);

    // set parameters
    memset(&params, 0, sizeof(params));
    params.mode = SND_PCM_MODE_BLOCK;
    params.channel = SND_PCM_CHANNEL_PLAYBACK;
    params.start_mode = SND_PCM_START_GO;
    params.stop_mode = SND_PCM_STOP_ROLLOVER;
    params.buf.block.frag_size = fragsize;
    params.buf.block.frags_max = 1;
    params.buf.block.frags_min = 1;
    params.format.rate = samplerate;
    params.format.interleave = 1;
    params.format.voices = channels;
    params.format.format = SND_PCM_SFMT_S16_LE;

    // Set the configurable parameters for a PCM channel
    rtn = snd_pcm_plugin_params(hPcm_Spk.pDs, &params);
    if (rtn < 0) {
        cli_print("snd_pcm_plugin_params  (spk) failed %s", snd_strerror(rtn));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)snd_pcm_close(hPcm_Spk.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
        return -1;
    }

    // get file descriptor for use with the select() call
    hPcm_Spk.hFD = snd_pcm_file_descriptor(hPcm_Spk.pDs, SND_PCM_CHANNEL_PLAYBACK);
    if (hPcm_Spk.hFD < 0) {
        cli_print("snd_pcm_file_descriptor (spk) failed %s", snd_strerror(hPcm_Spk.hFD));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)snd_pcm_close(hPcm_Spk.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
        return -1;
    }
    // Signal the driver to ready the playback channel
    rtn = snd_pcm_plugin_prepare(hPcm_Spk.pDs, SND_PCM_CHANNEL_PLAYBACK);
    if (rtn < 0) {
        cli_print("snd_pcm_plugin_prepare  (spk) failed %s", snd_strerror(rtn));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)snd_pcm_close(hPcm_Spk.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
        return -1;
    }
    fragsize = params.buf.block.frag_size;

    rtn = snd_pcm_capture_go(hPcm_Mic.pDs);
    if( rtn < 0) {
        cli_print("snd_pcm_capture_go (mic) failed %s", snd_strerror(rtn));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)snd_pcm_close(hPcm_Spk.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
        return -1;
    }
    rtn = snd_pcm_playback_go(hPcm_Spk.pDs);
    if (rtn < 0) {
        cli_print("snd_pcm_playback_go (spk) failed %s", snd_strerror(rtn));
        (void)snd_pcm_close(hPcm_Mic.pDs);
        (void)snd_pcm_close(hPcm_Spk.pDs);
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
        return -1;
    }

    /******************* PLAYBACK/RECORD LOOP **************************/
    while(!bQuit)
    {
        int width;
        struct timeval timeout;
        timeout.tv_sec = 0;
        timeout.tv_usec = 350000; // 350 ms

        FD_ZERO(&rfds);
        FD_ZERO(&wfds);
        FD_SET(hPcm_Mic.hFD, &rfds);
        FD_SET(hPcm_Spk.hFD, &wfds);

        width = ((hPcm_Spk.hFD > hPcm_Mic.hFD) ? hPcm_Spk.hFD : hPcm_Mic.hFD) + 1;
        rtn = select(width, &rfds, &wfds, NULL, &timeout);
        if (rtn > 0) {
            if (FD_ISSET(hPcm_Spk.hFD, &wfds)) {
                bQuit = process_write(hPcm_Spk.pDs);
            }
            if (FD_ISSET(hPcm_Mic.hFD, &rfds)) {
                bQuit = process_read(hPcm_Mic.pDs);
            }
        }
        else if (rtn == 0){
            cli_print("select: timed out");
            bQuit = true;
        }
        else { // (rtn < 0)
            cli_print("select: %s", strerror(errno));
            bQuit = true;
        }
    }

    // Ensure audio processing is stopped
    if ((rtn = snd_pcm_plugin_playback_drain(hPcm_Spk.pDs)) < 0) {
        cli_print("snd_pcm_plugin_playback_drain (spk) failed %s", snd_strerror(rtn));
    }
    if ((rtn = snd_pcm_plugin_flush(hPcm_Mic.pDs, SND_PCM_CHANNEL_CAPTURE)) < 0) {
        cli_print("snd_pcm_plugin_flush (mic) failed %s", snd_strerror(rtn));
    }
    if ((rtn = snd_pcm_close(hPcm_Spk.pDs)) < 0) {
        cli_print("snd_pcm_close (spk) failed %s", snd_strerror(rtn));
    }
    if ((rtn = snd_pcm_close(hPcm_Mic.pDs)) < 0) {
        cli_print("snd_pcm_close (mic) failed %s", snd_strerror(rtn));
    }
    if (hPcm_Spk.hAudioman) {
        (void)audio_manager_free_handle(hPcm_Spk.hAudioman);
    }
    if (hPcm_Mic.hAudioman) {
        (void)audio_manager_free_handle(hPcm_Mic.hAudioman);
    }
    return 0;
}
static void
process(void)
{
	u_int msg_len;
	u_int buf_len;
	u_int consumed;
	u_int type;
	u_char *cp;

	buf_len = buffer_len(&iqueue);
	if (buf_len < 5)
		return;		/* Incomplete message. */
	cp = buffer_ptr(&iqueue);
	msg_len = GET_32BIT(cp);
	if (msg_len > 256 * 1024) {
		error("bad message ");
		exit(11);
	}
	if (buf_len < msg_len + 4)
		return;
	buffer_consume(&iqueue, 4);
	buf_len -= 4;
	type = buffer_get_char(&iqueue);
	switch (type) {
	case SSH2_FXP_INIT:
		process_init();
		break;
	case SSH2_FXP_OPEN:
		process_open();
		break;
	case SSH2_FXP_CLOSE:
		process_close();
		break;
	case SSH2_FXP_READ:
		process_read();
		break;
	case SSH2_FXP_WRITE:
		process_write();
		break;
	case SSH2_FXP_LSTAT:
		process_lstat();
		break;
	case SSH2_FXP_FSTAT:
		process_fstat();
		break;
	case SSH2_FXP_SETSTAT:
		process_setstat();
		break;
	case SSH2_FXP_FSETSTAT:
		process_fsetstat();
		break;
	case SSH2_FXP_OPENDIR:
		process_opendir();
		break;
	case SSH2_FXP_READDIR:
		process_readdir();
		break;
	case SSH2_FXP_REMOVE:
		process_remove();
		break;
	case SSH2_FXP_MKDIR:
		process_mkdir();
		break;
	case SSH2_FXP_RMDIR:
		process_rmdir();
		break;
	case SSH2_FXP_REALPATH:
		process_realpath();
		break;
	case SSH2_FXP_STAT:
		process_stat();
		break;
	case SSH2_FXP_RENAME:
		process_rename();
		break;
	case SSH2_FXP_READLINK:
		process_readlink();
		break;
	case SSH2_FXP_SYMLINK:
		process_symlink();
		break;
	case SSH2_FXP_EXTENDED:
		process_extended();
		break;
	default:
		error("Unknown message %d", type);
		break;
	}
	/* discard the remaining bytes from the current packet */
	if (buf_len < buffer_len(&iqueue))
		fatal("iqueue grows");
	consumed = buf_len - buffer_len(&iqueue);
	if (msg_len < consumed)
		fatal("msg_len %d < consumed %d", msg_len, consumed);
	if (msg_len > consumed)
		buffer_consume(&iqueue, msg_len - consumed);
}
static void
process(void)
{
	u_int msg_len;
	u_int buf_len;
	u_int consumed;
	u_int type;
	u_char *cp;

	buf_len = buffer_len(&iqueue);
	if (buf_len < 5)
		return;		/* Incomplete message. */
	cp = buffer_ptr(&iqueue);
	msg_len = get_u32(cp);
	if (msg_len > SFTP_MAX_MSG_LENGTH) {
		error("bad message from %s local user %s",
		    client_addr, pw->pw_name);
		sftp_server_cleanup_exit(11);
	}
	if (buf_len < msg_len + 4)
		return;
	buffer_consume(&iqueue, 4);
	buf_len -= 4;
	type = buffer_get_char(&iqueue);
	switch (type) {
	case SSH2_FXP_INIT:
		process_init();
		break;
	case SSH2_FXP_OPEN:
		process_open();
		break;
	case SSH2_FXP_CLOSE:
		process_close();
		break;
	case SSH2_FXP_READ:
		process_read();
		break;
	case SSH2_FXP_WRITE:
		process_write();
		break;
	case SSH2_FXP_LSTAT:
		process_lstat();
		break;
	case SSH2_FXP_FSTAT:
		process_fstat();
		break;
	case SSH2_FXP_SETSTAT:
		process_setstat();
		break;
	case SSH2_FXP_FSETSTAT:
		process_fsetstat();
		break;
	case SSH2_FXP_OPENDIR:
		process_opendir();
		break;
	case SSH2_FXP_READDIR:
		process_readdir();
		break;
	case SSH2_FXP_REMOVE:
		process_remove();
		break;
	case SSH2_FXP_MKDIR:
		process_mkdir();
		break;
	case SSH2_FXP_RMDIR:
		process_rmdir();
		break;
	case SSH2_FXP_REALPATH:
		process_realpath();
		break;
	case SSH2_FXP_STAT:
		process_stat();
		break;
	case SSH2_FXP_RENAME:
		process_rename();
		break;
	case SSH2_FXP_READLINK:
		process_readlink();
		break;
	case SSH2_FXP_SYMLINK:
		process_symlink();
		break;
	case SSH2_FXP_EXTENDED:
		process_extended();
		break;
	default:
		error("Unknown message %d", type);
		break;
	}
	/* discard the remaining bytes from the current packet */
	if (buf_len < buffer_len(&iqueue)) {
		error("iqueue grew unexpectedly");
		sftp_server_cleanup_exit(255);
	}
	consumed = buf_len - buffer_len(&iqueue);
	if (msg_len < consumed) {
		error("msg_len %d < consumed %d", msg_len, consumed);
		sftp_server_cleanup_exit(255);
	}
	if (msg_len > consumed)
		buffer_consume(&iqueue, msg_len - consumed);
}
Ejemplo n.º 13
0
void SFTP::process(void)
{
  const u_int msg_len = buffer_get_int (&iqueue);
	const u_int type = buffer_get_char(&iqueue);
	switch (type) {
	case SSH2_FXP_INIT:
		process_init();
		break;
	case SSH2_FXP_OPEN:
		process_open();
		break;
	case SSH2_FXP_CLOSE:
		process_close();
		break;
	case SSH2_FXP_READ:
		process_read();
		break;
	case SSH2_FXP_WRITE:
		process_write();
		break;
	case SSH2_FXP_LSTAT:
		process_lstat();
		break;
	case SSH2_FXP_FSTAT:
		process_fstat();
		break;
	case SSH2_FXP_SETSTAT:
		process_setstat();
		break;
	case SSH2_FXP_FSETSTAT:
		process_fsetstat();
		break;
	case SSH2_FXP_OPENDIR:
		process_opendir();
		break;
	case SSH2_FXP_READDIR:
		process_readdir();
		break;
	case SSH2_FXP_REMOVE:
		process_remove();
		break;
	case SSH2_FXP_MKDIR:
		process_mkdir();
		break;
	case SSH2_FXP_RMDIR:
		process_rmdir();
		break;
	case SSH2_FXP_REALPATH:
		process_realpath();
		break;
	case SSH2_FXP_STAT:
		process_stat();
		break;
	case SSH2_FXP_RENAME:
		process_rename();
		break;
	case SSH2_FXP_READLINK:
		process_readlink();
		break;
	case SSH2_FXP_SYMLINK:
		process_symlink();
		break;
	case SSH2_FXP_EXTENDED:
		process_extended();
		break;
	default:
		error("Unknown message %d", type);
		break;
	}

  /* discard the remaining bytes from the current packet */
	
  if (msg_len < buffer_len(&iqueue)) {
		error("iqueue grew unexpectedly");
		sftp_server_cleanup_exit(255);
	}
	u_int consumed = msg_len - buffer_len(&iqueue);
	if (msg_len < consumed) {
		error("msg_len %d < consumed %d", msg_len, consumed);
		sftp_server_cleanup_exit(255);
	}
	if (msg_len > consumed)
		buffer_consume(&iqueue, msg_len - consumed);
}
Ejemplo n.º 14
0
// generates code to implement node's action
static void implement_node(ast_node node){
  if (node != NULL){
    if (node->node_type == ROOT){
      process_root(node); 
    }
    // generate code for assignment operator
    else if (node->node_type == OP_ASSIGN){
      process_assign(node); 
    }
    // generate code for negate operator
    else if (node->node_type == OP_NEG) {
      process_negate(node); 
    }
    // generate code for  +, -, *, /, %, =, !=, <, <=, >, >=
    else if (node->node_type > 0 && node->node_type <= 16 && node->node_type != 14 && node->node_type != 15){
      process_math(node); 
    }
    else if (node->node_type == OP_INC){
      process_inc(node, "1"); 
    }
    else if (node->node_type == OP_DEC){
      process_inc(node, "-1"); 
    }
    else if (node->node_type == IF_STMT){
      process_if(node); 
    }
    else if (node->node_type == IF_ELSE_STMT){
      process_ifelse(node); 
    }
    else if (node->node_type == CMPD){
      process_cmpd(node); 
    }
    else if (node->node_type == WHILE_STMT){
      process_while(node); 
    }
    else if (node->node_type == DO_WHILE_STMT){
      process_dowhile(node); 
    }
    else if (node->node_type == OP_AND){
      process_and(node); 
    }
    else if (node->node_type == OP_OR){
      process_or(node); 
    }
    else if (node->node_type == FOR_STRT || node->node_type == FOR_COND || node->node_type == FOR_UPDT){
      process_for_header(node); 
    }
    else if (node->node_type == FOR_STMT){
      process_for(node); 
    }
    else if (node->node_type == READ_STMT){
      process_read(node); 
    }
    else if (node->node_type == PRINT_STMT){
      process_print(node); 
    }
    else if (node->node_type == RETURN_STMT){
      process_return(node); 
    }
    else if (node->node_type == FUNCDEC){
      process_function(node); 
    }
    else if (node->node_type == PARAMS){
      process_params(node); 
    }
    else if (node->node_type == INT_TYPE || node->node_type == DOUBLE_TYPE){
      process_vardec(node); 
    }
    else if (node->node_type == CALL){
      process_call(node); 
    } 
    else if (node->node_type == IDENT){
      process_id(node); 
    } 
    else if (node->node_type == ARRAY){
      process_array(node); 
    }
  }
}
Ejemplo n.º 15
0
void *router_thread(struct wiimote *wiimote)
{
	unsigned char buf[READ_BUF_LEN];
	ssize_t len;
	struct mesg_array ma;
	char err, print_clock_err = 1;

	while (1) {
		/* Read packet */
		len = read(wiimote->int_socket, buf, READ_BUF_LEN);
		ma.count = 0;
		if (clock_gettime(CLOCK_REALTIME, &ma.timestamp)) {
			if (print_clock_err) {
				cwiid_err(wiimote, "clock_gettime error");
				print_clock_err = 0;
			}
		}
		err = 0;
		if ((len == -1) || (len == 0)) {
			process_error(wiimote, len, &ma);
			write_mesg_array(wiimote, &ma);
			/* Quit! */
			break;
		}
		else {
			/* Verify first byte (DATA/INPUT) */
			if (buf[0] != (BT_TRANS_DATA | BT_PARAM_INPUT)) {
				cwiid_err(wiimote, "Invalid packet type");
			}

			/* Main switch */
			/* printf("%.2X %.2X %.2X %.2X  %.2X %.2X %.2X %.2X\n", buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7]);
			printf("%.2X %.2X %.2X %.2X  %.2X %.2X %.2X %.2X\n", buf[8], buf[9], buf[10], buf[11], buf[12], buf[13], buf[14], buf[15]);
			printf("%.2X %.2X %.2X %.2X  %.2X %.2X %.2X %.2X\n", buf[16], buf[17], buf[18], buf[19], buf[20], buf[21], buf[22], buf[23]);
			printf("\n"); */
			switch (buf[1]) {
			case RPT_STATUS:
				err = process_status(wiimote, &buf[2], &ma);
				break;
			case RPT_BTN:
				err = process_btn(wiimote, &buf[2], &ma);
				break;
			case RPT_BTN_ACC:
				err = process_btn(wiimote, &buf[2], &ma) ||
				      process_acc(wiimote, &buf[4], &ma);
				break;
			case RPT_BTN_EXT8:
				err = process_btn(wiimote, &buf[2], &ma) ||
				      process_ext(wiimote, &buf[4], 8, &ma);
				break;
			case RPT_BTN_ACC_IR12:
				err = process_btn(wiimote, &buf[2], &ma) ||
				      process_acc(wiimote, &buf[4], &ma) ||
				      process_ir12(wiimote, &buf[7], &ma);
				break;
			case RPT_BTN_EXT19:
				err = process_btn(wiimote, &buf[2], &ma) ||
				      process_ext(wiimote, &buf[4], 19, &ma);
				break;
			case RPT_BTN_ACC_EXT16:
				err = process_btn(wiimote, &buf[2], &ma) ||
				      process_acc(wiimote, &buf[4], &ma) ||
				      process_ext(wiimote, &buf[7], 16, &ma);
				break;
			case RPT_BTN_IR10_EXT9:
				err = process_btn(wiimote, &buf[2], &ma)  ||
				      process_ir10(wiimote, &buf[4], &ma) ||
				      process_ext(wiimote, &buf[14], 9, &ma);
				break;
			case RPT_BTN_ACC_IR10_EXT6:
				err = process_btn(wiimote, &buf[2], &ma)  ||
				      process_acc(wiimote, &buf[4], &ma)  ||
				      process_ir10(wiimote, &buf[7], &ma) ||
				      process_ext(wiimote, &buf[17], 6, &ma);
				break;
			case RPT_EXT21:
				err = process_ext(wiimote, &buf[2], 21, &ma);
				break;
			case RPT_BTN_ACC_IR36_1:
			case RPT_BTN_ACC_IR36_2:
				cwiid_err(wiimote, "Unsupported report type received "
				                   "(interleaved data)");
				err = 1;
				break;
			case RPT_READ_DATA:
				err = process_read(wiimote, &buf[4]) ||
				      process_btn(wiimote, &buf[2], &ma);
				break;
			case RPT_WRITE_ACK:
				err = process_write(wiimote, &buf[2]);
				break;
			default:
				cwiid_err(wiimote, "Unknown message type");
				err = 1;
				break;
			}

			if (!err && (ma.count > 0)) {
				if (update_state(wiimote, &ma)) {
					cwiid_err(wiimote, "State update error");
				}
				if (wiimote->flags & CWIID_FLAG_MESG_IFC) {
					/* prints its own errors */
					write_mesg_array(wiimote, &ma);
				}
			}
		}
	}

	return NULL;
}
Ejemplo n.º 16
0
int main(int argc, char *argv[]) {
    u32     i,
            argi,
            found,
            offset,
            listsign        = 0,
            dumpsign        = 0;
    u8      *pid            = NULL,
            *dumpfile       = NULL,
            *sign_file      = NULL;

    setbuf(stdin,  NULL);
    setbuf(stdout, NULL);
    setbuf(stderr, NULL);

    fputs("\n"
        "Signsrch "VER"\n"
        "by Luigi Auriemma\n"
        "e-mail: [email protected]\n"
        "web:    aluigi.org\n"
        "  optimized search function from Andrew http://www.team5150.com/~andrew/\n"
        "\n", stderr);

    if(argc < 2) {
        help(argv[0]);
    }

    for(i = 1; i < argc; i++) {
        if(!stricmp(argv[i], "--help")) help(argv[0]);
        if(((argv[i][0] != '-') && (argv[i][0] != '/')) || (strlen(argv[i]) != 2)) break;
        switch(argv[i][1]) {
            case '-':
            case 'h':
            case '?': {
                help(argv[0]);
                } break;
            case 'l': {
                listsign  = 1;
                } break;
            case 'L': {
                if(!argv[++i]) {
                    printf("\nError: signature number needed\n");
                    exit(1);
                }
                dumpsign  = atoi(argv[i]);
                } break;
            case 's': {
                if(!argv[++i]) {
                    printf("\nError: signature filename needed\n");
                    exit(1);
                }
                sign_file = argv[i];
                } break;
            case 'p': {
                pid = "";
                } break;
            case 'P': {
                if(!argv[++i]) {
                    printf("\nError: process name or pid needed\n");
                    exit(1);
                }
                pid = argv[i];
                } break;
            case 'd': {
                if(!argv[++i]) {
                    printf("\nError: dump file name needed\n");
                    exit(1);
                }
                dumpfile = argv[i];
                } break;
            case 'e': {
                exe_scan        = 1;
                } break;
            case 'E': {
                exe_scan        = -1;
                } break;
            case 'b': {
                alt_endian      = 0;
                } break;
            default: {
                printf("\nError: wrong argument (%s)\n", argv[i]);
                exit(1);
                } break;
        }
    }
    argi = i;

    sign          = NULL;
    signs         = 0;
    sign_alloclen = 0;

    if(pid && !pid[0]) {
        process_list(NULL, NULL, NULL);
        goto quit;
    }

redo:
    if(!listsign && !dumpsign) {
        if(pid) {
            filemem = process_read(pid, &filememsz);
            if(!exe_scan) exe_scan = 1;
        } else {
            if(i == argc) {
                printf("\nError: you must specify the file to scan\n");
                exit(1);
            }
            filemem = fd_read(argv[argi], &filememsz);
        }
        printf("- %u bytes allocated\n", filememsz);
    }

    if(dumpfile) {
        fd_write(dumpfile, filemem, filememsz);
        goto quit;
    }

    if(!sign) {
        printf("- load signatures\n");
        if(!sign_file) {
            read_cfg(get_main_path(SIGNFILE, argv[0]));
        } else {
            read_cfg(sign_file);
        }
        printf(
            "- %u bytes allocated for the signatures\n"
            "- %u signatures in the database\n",
            sign_alloclen,
            signs);
        if(!dumpsign) signcrc();
    }

    if(dumpsign > 0) {
        dumpsign--;
        if(dumpsign >= signs) {
            printf("\nError: wrong signature number\n");
            exit(1);
        }
        printf("  %s\n", sign[dumpsign]->title);
        show_dump(sign[dumpsign]->data, sign[dumpsign]->size, stdout);
        goto quit;
    }

    if(listsign) {
        printf("\n"
            "  num  description [bits.endian.size]\n"
            "-------------------------------------\n");
        for(i = 0; i < signs; i++) {
            printf("  %-4u %s\n", i + 1, sign[i]->title);
        }
        printf("\n");
        goto quit;
    }

    if(filememsz > (10 * 1024 * 1024)) {   // more than 10 megabytes
        printf(
            "- WARNING:\n"
            "  the file loaded in memory is very big so the scanning could take many time\n");
    }

    if(exe_scan > 0) {
        if(parse_exe() < 0) {
            printf(
                "- input is not an executable or is not supported by this tool\n"
                "  the data will be handled in raw mode\n");
            exe_scan = 0;
        }
    }

    printf(
        "- start signatures scanning:\n"
        "\n"
        "  offset   num  description [bits.endian.size]\n"
        "  --------------------------------------------\n");

    for(found = i = 0; i < signs; i++) {
        offset = search_hashed(filemem, filememsz, sign[i]->data, sign[i]->size, sign[i]->and);
        if(offset != -1) {
            if(exe_scan > 0) offset = file2rva(offset);
            if(exe_scan < 0) offset += fixed_rva;
            printf("  %08x %-4u %s\n", offset, i + 1, sign[i]->title);
            found++;
        }
    }

    printf("\n- %u signatures found in the file\n", found);

    if(filemem) free(filemem);
    if(section) free(section);
    filemem = NULL;
    section = NULL;
    if(++argi < argc) {
        fputc('\n', stdout);
        goto redo;
    }

quit:
    if(sign) free_sign();
    return(0);
}
Ejemplo n.º 17
0
int main(int argc, char * argv[]) {

	if(argc < 3 || argc > 4) {
		print_usage();
	}

	int i = 0;

	if(argc == 4) {
		if(strcmp(argv[1], "-d")) {
			print_usage();
		}
		debug = 1;
		i = 1;
	}

	int portno = atoi(argv[++i]);
	set_dropper(atoi(argv[++i]));

	if((socket_descriptor = socket(AF_INET, SOCK_DGRAM, 0)) < 0) {
		fprintf(stderr, "Could not create socket.\n");
		exit(2);
	}

	memset(&server, 0, sizeof(server));
	server.sin_family = AF_INET;
	server.sin_addr.s_addr = INADDR_ANY;
	server.sin_port = htons(portno);

	init();

	if(bind(socket_descriptor, (struct sockaddr *) &server, sizeof(server)) < 0) {
		fprintf(stderr, "Could not bind socket to port %d.\n", portno);
		exit(3);
	}

	if(debug)
		printf("Server started on port %d.\n", portno);

	serving = 0;

	max_in_size = 1024;
	in_buffer = (uchar *)malloc(max_in_size*sizeof(uchar));

	src = &client;

	while(1) {
		if(!serving) {
			accept_connection();
		} else if(!prepare_packet()) {
			if(write_read_data()) {
				printf("Error while receiving data. Terminating Connection");
				finished = 0;
				serving = 0;
				free(out_buffer);
				continue;
			}
			process_read();
		}
	}

	return 0;
}
Ejemplo n.º 18
0
	/**
	 * Reads the specified number of bytes from memory uint32_to the buffer.
	 * If all of the bytes could not be read, a ReadException is thrown.
	 *
	 * @param address The starting address to read from.
	 * @param buffer The destination buffer to save uint32_to.
	 * @param size The number of bytes to read.
	 */
	void Read(uint32_t address, void* buffer, size_t size) const { StackTrace trace(__METHOD__, __FILE__, __LINE__);
		if (process_read(_handle, address, buffer, size) == false) {
			throw ReadException();
		}
	}