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|
/*
This file is part of GNUnet.
Copyright (C) 2010, 2011, 2012 GNUnet e.V.
Copyright (c) 2007, 2008, Andy Green <andy@warmcat.com>
Copyright Copyright (C) 2009 Thomas d'Otreppe
GNUnet is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation, either version 3 of the License,
or (at your option) any later version.
GNUnet is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Affero General Public License for more details.
*/
#include "gnunet_config.h"
#ifdef MINGW
#include "platform.h"
#include "gnunet_util_lib.h"
#include <bthdef.h>
#include <ws2bth.h>
#else
#define SOCKTYPE int
#include <bluetooth/bluetooth.h>
#include <bluetooth/hci.h>
#include <bluetooth/hci_lib.h>
#include <bluetooth/rfcomm.h>
#include <bluetooth/sdp.h>
#include <bluetooth/sdp_lib.h>
#include <errno.h>
#include <linux/if.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/ioctl.h>
#include <sys/param.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#endif
#include "plugin_transport_wlan.h"
#include "gnunet_protocols.h"
/**
* Maximum number of ports assignable for RFCOMMM protocol.
*/
#define MAX_PORTS 30
/**
* Maximum size of a message allowed in either direction
* (used for our receive and sent buffers).
*/
#define MAXLINE 4096
/**
* Maximum number of loops without inquiring for new devices.
*/
#define MAX_LOOPS 5
#ifdef MINGW
/* Maximum size of the interface's name */
#define IFNAMSIZ 16
#ifndef NS_BTH
#define NS_BTH 16
#endif
/**
* A copy of the MAC Address.
*/
struct GNUNET_TRANSPORT_WLAN_MacAddress_Copy
{
UINT8 mac[MAC_ADDR_SIZE];
};
/**
* The UUID used for the SDP service.
* {31191E56-FA7E-4517-870E-71B86BBCC52F}
*/
#define GNUNET_BLUETOOTH_SDP_UUID \
{ \
0x31, 0x19, 0x1E, 0x56, \
0xFA, 0x7E, \
0x45, 0x17, \
0x87, 0x0E, \
0x71, 0xB8, 0x6B, 0xBC, 0xC5, 0x2F \
}
#endif
/**
* In bluez library, the maximum name length of a device is 8
*/
#define BLUEZ_DEVNAME_SIZE 8
/**
* struct for storing the information of the hardware. There is only
* one of these.
*/
struct HardwareInfos
{
/**
* Name of the interface, not necessarily 0-terminated (!).
*/
char iface[IFNAMSIZ];
#ifdef MINGW
/**
* socket handle
*/
struct GNUNET_NETWORK_Handle *handle;
/**
* MAC address of our own bluetooth interface.
*/
struct GNUNET_TRANSPORT_WLAN_MacAddress_Copy pl_mac;
#else
/**
* file descriptor for the rfcomm socket
*/
int fd_rfcomm;
/**
* MAC address of our own bluetooth interface.
*/
struct GNUNET_TRANSPORT_WLAN_MacAddress pl_mac;
/**
* SDP session
*/
sdp_session_t *session ;
#endif
};
/**
* IO buffer used for buffering data in transit (to wireless or to stdout).
*/
struct SendBuffer
{
/**
* How many bytes of data are stored in 'buf' for transmission right now?
* Data always starts at offset 0 and extends to 'size'.
*/
size_t size;
/**
* How many bytes that were stored in 'buf' did we already write to the
* destination? Always smaller than 'size'.
*/
size_t pos;
/**
* Buffered data; twice the maximum allowed message size as we add some
* headers.
*/
char buf[MAXLINE * 2];
};
#ifdef LINUX
/**
* Devices buffer used to keep a list with all the discoverable devices in
* order to send them HELLO messages one by one when it receive a broadcast message.
*/
struct BroadcastMessages
{
/* List with the discoverable devices' addresses */
bdaddr_t devices[MAX_PORTS];
/* List with the open sockets */
int fds[MAX_PORTS];
/* The number of the devices */
int size;
/* The current position */
int pos;
/* The device id */
int dev_id;
};
/**
* Address used to identify the broadcast messages.
*/
static struct GNUNET_TRANSPORT_WLAN_MacAddress broadcast_address = {{255, 255, 255, 255, 255, 255}};
/**
* Buffer with the discoverable devices.
*/
static struct BroadcastMessages neighbours;
static int searching_devices_count = 0;
#endif
/**
* Buffer for data read from stdin to be transmitted to the bluetooth device
*/
static struct SendBuffer write_pout;
/**
* Buffer for data read from the bluetooth device to be transmitted to stdout.
*/
static struct SendBuffer write_std;
/* ****** this are the same functions as the ones used in gnunet-helper-transport-wlan.c ****** */
/**
* To what multiple do we align messages? 8 byte should suffice for everyone
* for now.
*/
#define ALIGN_FACTOR 8
/**
* Smallest supported message.
*/
#define MIN_BUFFER_SIZE sizeof (struct GNUNET_MessageHeader)
/**
* Functions with this signature are called whenever a
* complete message is received by the tokenizer.
*
* @param cls closure
* @param message the actual message
*/
typedef void (*MessageTokenizerCallback) (void *cls,
const struct
GNUNET_MessageHeader *
message);
/**
* Handle to a message stream tokenizer.
*/
struct MessageStreamTokenizer
{
/**
* Function to call on completed messages.
*/
MessageTokenizerCallback cb;
/**
* Closure for cb.
*/
void *cb_cls;
/**
* Size of the buffer (starting at 'hdr').
*/
size_t curr_buf;
/**
* How many bytes in buffer have we already processed?
*/
size_t off;
/**
* How many bytes in buffer are valid right now?
*/
size_t pos;
/**
* Beginning of the buffer. Typed like this to force alignment.
*/
struct GNUNET_MessageHeader *hdr;
};
/**
* Create a message stream tokenizer.
*
* @param cb function to call on completed messages
* @param cb_cls closure for cb
* @return handle to tokenizer
*/
static struct MessageStreamTokenizer *
mst_create (MessageTokenizerCallback cb,
void *cb_cls)
{
struct MessageStreamTokenizer *ret;
ret = malloc (sizeof (struct MessageStreamTokenizer));
if (NULL == ret)
{
fprintf (stderr, "Failed to allocate buffer for tokenizer\n");
exit (1);
}
ret->hdr = malloc (MIN_BUFFER_SIZE);
if (NULL == ret->hdr)
{
fprintf (stderr, "Failed to allocate buffer for alignment\n");
exit (1);
}
ret->curr_buf = MIN_BUFFER_SIZE;
ret->cb = cb;
ret->cb_cls = cb_cls;
ret->pos = 0;
return ret;
}
/**
* Add incoming data to the receive buffer and call the
* callback for all complete messages.
*
* @param mst tokenizer to use
* @param buf input data to add
* @param size number of bytes in buf
* @return GNUNET_OK if we are done processing (need more data)
* GNUNET_SYSERR if the data stream is corrupt
*/
static int
mst_receive (struct MessageStreamTokenizer *mst,
const char *buf, size_t size)
{
const struct GNUNET_MessageHeader *hdr;
size_t delta;
uint16_t want;
char *ibuf;
int need_align;
unsigned long offset;
int ret;
ret = GNUNET_OK;
ibuf = (char *) mst->hdr;
while (mst->pos > 0)
{
do_align:
if (mst->pos < mst->off)
{
//fprintf (stderr, "We processed too many bytes!\n");
return GNUNET_SYSERR;
}
if ((mst->curr_buf - mst->off < sizeof (struct GNUNET_MessageHeader)) ||
(0 != (mst->off % ALIGN_FACTOR)))
{
/* need to align or need more space */
mst->pos -= mst->off;
memmove (ibuf, &ibuf[mst->off], mst->pos);
mst->off = 0;
}
if (mst->pos - mst->off < sizeof (struct GNUNET_MessageHeader))
{
delta =
GNUNET_MIN (sizeof (struct GNUNET_MessageHeader) -
(mst->pos - mst->off), size);
GNUNET_memcpy (&ibuf[mst->pos], buf, delta);
mst->pos += delta;
buf += delta;
size -= delta;
}
if (mst->pos - mst->off < sizeof (struct GNUNET_MessageHeader))
{
//FIXME should I reset ??
// mst->off = 0;
// mst->pos = 0;
return GNUNET_OK;
}
hdr = (const struct GNUNET_MessageHeader *) &ibuf[mst->off];
want = ntohs (hdr->size);
if (want < sizeof (struct GNUNET_MessageHeader))
{
fprintf (stderr,
"Received invalid message from stdin\n");
return GNUNET_SYSERR;
}
if ((mst->curr_buf - mst->off < want) &&
(mst->off > 0))
{
/* need more space */
mst->pos -= mst->off;
memmove (ibuf, &ibuf[mst->off], mst->pos);
mst->off = 0;
}
if (want > mst->curr_buf)
{
if (mst->off != 0)
{
fprintf (stderr, "Error! We should proceeded 0 bytes\n");
return GNUNET_SYSERR;
}
mst->hdr = realloc (mst->hdr, want);
if (NULL == mst->hdr)
{
fprintf (stderr, "Failed to allocate buffer for alignment\n");
exit (1);
}
ibuf = (char *) mst->hdr;
mst->curr_buf = want;
}
hdr = (const struct GNUNET_MessageHeader *) &ibuf[mst->off];
if (mst->pos - mst->off < want)
{
delta = GNUNET_MIN (want - (mst->pos - mst->off), size);
if (mst->pos + delta > mst->curr_buf)
{
fprintf (stderr, "The size of the buffer will be exceeded!\n");
return GNUNET_SYSERR;
}
GNUNET_memcpy (&ibuf[mst->pos], buf, delta);
mst->pos += delta;
buf += delta;
size -= delta;
}
if (mst->pos - mst->off < want)
{
//FIXME should I use this?
// mst->off = 0;
// mst->pos = 0;
return GNUNET_OK;
}
mst->cb (mst->cb_cls, hdr);
mst->off += want;
if (mst->off == mst->pos)
{
/* reset to beginning of buffer, it's free right now! */
mst->off = 0;
mst->pos = 0;
}
}
if (0 != mst->pos)
{
fprintf (stderr, "There should some valid bytes in the buffer on this stage\n");
return GNUNET_SYSERR;
}
while (size > 0)
{
if (size < sizeof (struct GNUNET_MessageHeader))
break;
offset = (unsigned long) buf;
need_align = (0 != offset % ALIGN_FACTOR) ? GNUNET_YES : GNUNET_NO;
if (GNUNET_NO == need_align)
{
/* can try to do zero-copy and process directly from original buffer */
hdr = (const struct GNUNET_MessageHeader *) buf;
want = ntohs (hdr->size);
if (want < sizeof (struct GNUNET_MessageHeader))
{
fprintf (stderr,
"Received invalid message from stdin\n");
//exit (1);
mst->off = 0;
return GNUNET_SYSERR;
}
if (size < want)
break; /* or not, buffer incomplete, so copy to private buffer... */
mst->cb (mst->cb_cls, hdr);
buf += want;
size -= want;
}
else
{
/* need to copy to private buffer to align;
* yes, we go a bit more spagetti than usual here */
goto do_align;
}
}
if (size > 0)
{
if (size + mst->pos > mst->curr_buf)
{
mst->hdr = realloc (mst->hdr, size + mst->pos);
if (NULL == mst->hdr)
{
fprintf (stderr, "Failed to allocate buffer for alignment\n");
exit (1);
}
ibuf = (char *) mst->hdr;
mst->curr_buf = size + mst->pos;
}
if (mst->pos + size > mst->curr_buf)
{
fprintf (stderr,
"Assertion failed\n");
exit (1);
}
GNUNET_memcpy (&ibuf[mst->pos], buf, size);
mst->pos += size;
}
return ret;
}
/**
* Destroys a tokenizer.
*
* @param mst tokenizer to destroy
*/
static void
mst_destroy (struct MessageStreamTokenizer *mst)
{
free (mst->hdr);
free (mst);
}
/**
* Calculate crc32, the start of the calculation
*
* @param buf buffer to calc the crc
* @param len len of the buffer
* @return crc sum
*/
static unsigned long
calc_crc_osdep (const unsigned char *buf, size_t len)
{
static const unsigned long int crc_tbl_osdep[256] = {
0x00000000, 0x77073096, 0xEE0E612C, 0x990951BA, 0x076DC419, 0x706AF48F,
0xE963A535, 0x9E6495A3,
0x0EDB8832, 0x79DCB8A4, 0xE0D5E91E, 0x97D2D988, 0x09B64C2B, 0x7EB17CBD,
0xE7B82D07, 0x90BF1D91,
0x1DB71064, 0x6AB020F2, 0xF3B97148, 0x84BE41DE, 0x1ADAD47D, 0x6DDDE4EB,
0xF4D4B551, 0x83D385C7,
0x136C9856, 0x646BA8C0, 0xFD62F97A, 0x8A65C9EC, 0x14015C4F, 0x63066CD9,
0xFA0F3D63, 0x8D080DF5,
0x3B6E20C8, 0x4C69105E, 0xD56041E4, 0xA2677172, 0x3C03E4D1, 0x4B04D447,
0xD20D85FD, 0xA50AB56B,
0x35B5A8FA, 0x42B2986C, 0xDBBBC9D6, 0xACBCF940, 0x32D86CE3, 0x45DF5C75,
0xDCD60DCF, 0xABD13D59,
0x26D930AC, 0x51DE003A, 0xC8D75180, 0xBFD06116, 0x21B4F4B5, 0x56B3C423,
0xCFBA9599, 0xB8BDA50F,
0x2802B89E, 0x5F058808, 0xC60CD9B2, 0xB10BE924, 0x2F6F7C87, 0x58684C11,
0xC1611DAB, 0xB6662D3D,
0x76DC4190, 0x01DB7106, 0x98D220BC, 0xEFD5102A, 0x71B18589, 0x06B6B51F,
0x9FBFE4A5, 0xE8B8D433,
0x7807C9A2, 0x0F00F934, 0x9609A88E, 0xE10E9818, 0x7F6A0DBB, 0x086D3D2D,
0x91646C97, 0xE6635C01,
0x6B6B51F4, 0x1C6C6162, 0x856530D8, 0xF262004E, 0x6C0695ED, 0x1B01A57B,
0x8208F4C1, 0xF50FC457,
0x65B0D9C6, 0x12B7E950, 0x8BBEB8EA, 0xFCB9887C, 0x62DD1DDF, 0x15DA2D49,
0x8CD37CF3, 0xFBD44C65,
0x4DB26158, 0x3AB551CE, 0xA3BC0074, 0xD4BB30E2, 0x4ADFA541, 0x3DD895D7,
0xA4D1C46D, 0xD3D6F4FB,
0x4369E96A, 0x346ED9FC, 0xAD678846, 0xDA60B8D0, 0x44042D73, 0x33031DE5,
0xAA0A4C5F, 0xDD0D7CC9,
0x5005713C, 0x270241AA, 0xBE0B1010, 0xC90C2086, 0x5768B525, 0x206F85B3,
0xB966D409, 0xCE61E49F,
0x5EDEF90E, 0x29D9C998, 0xB0D09822, 0xC7D7A8B4, 0x59B33D17, 0x2EB40D81,
0xB7BD5C3B, 0xC0BA6CAD,
0xEDB88320, 0x9ABFB3B6, 0x03B6E20C, 0x74B1D29A, 0xEAD54739, 0x9DD277AF,
0x04DB2615, 0x73DC1683,
0xE3630B12, 0x94643B84, 0x0D6D6A3E, 0x7A6A5AA8, 0xE40ECF0B, 0x9309FF9D,
0x0A00AE27, 0x7D079EB1,
0xF00F9344, 0x8708A3D2, 0x1E01F268, 0x6906C2FE, 0xF762575D, 0x806567CB,
0x196C3671, 0x6E6B06E7,
0xFED41B76, 0x89D32BE0, 0x10DA7A5A, 0x67DD4ACC, 0xF9B9DF6F, 0x8EBEEFF9,
0x17B7BE43, 0x60B08ED5,
0xD6D6A3E8, 0xA1D1937E, 0x38D8C2C4, 0x4FDFF252, 0xD1BB67F1, 0xA6BC5767,
0x3FB506DD, 0x48B2364B,
0xD80D2BDA, 0xAF0A1B4C, 0x36034AF6, 0x41047A60, 0xDF60EFC3, 0xA867DF55,
0x316E8EEF, 0x4669BE79,
0xCB61B38C, 0xBC66831A, 0x256FD2A0, 0x5268E236, 0xCC0C7795, 0xBB0B4703,
0x220216B9, 0x5505262F,
0xC5BA3BBE, 0xB2BD0B28, 0x2BB45A92, 0x5CB36A04, 0xC2D7FFA7, 0xB5D0CF31,
0x2CD99E8B, 0x5BDEAE1D,
0x9B64C2B0, 0xEC63F226, 0x756AA39C, 0x026D930A, 0x9C0906A9, 0xEB0E363F,
0x72076785, 0x05005713,
0x95BF4A82, 0xE2B87A14, 0x7BB12BAE, 0x0CB61B38, 0x92D28E9B, 0xE5D5BE0D,
0x7CDCEFB7, 0x0BDBDF21,
0x86D3D2D4, 0xF1D4E242, 0x68DDB3F8, 0x1FDA836E, 0x81BE16CD, 0xF6B9265B,
0x6FB077E1, 0x18B74777,
0x88085AE6, 0xFF0F6A70, 0x66063BCA, 0x11010B5C, 0x8F659EFF, 0xF862AE69,
0x616BFFD3, 0x166CCF45,
0xA00AE278, 0xD70DD2EE, 0x4E048354, 0x3903B3C2, 0xA7672661, 0xD06016F7,
0x4969474D, 0x3E6E77DB,
0xAED16A4A, 0xD9D65ADC, 0x40DF0B66, 0x37D83BF0, 0xA9BCAE53, 0xDEBB9EC5,
0x47B2CF7F, 0x30B5FFE9,
0xBDBDF21C, 0xCABAC28A, 0x53B39330, 0x24B4A3A6, 0xBAD03605, 0xCDD70693,
0x54DE5729, 0x23D967BF,
0xB3667A2E, 0xC4614AB8, 0x5D681B02, 0x2A6F2B94, 0xB40BBE37, 0xC30C8EA1,
0x5A05DF1B, 0x2D02EF8D
};
unsigned long crc = 0xFFFFFFFF;
for (; len > 0; len--, buf++)
crc = crc_tbl_osdep[(crc ^ *buf) & 0xFF] ^ (crc >> 8);
return (~crc);
}
/**
* Calculate and check crc of the bluetooth packet
*
* @param buf buffer of the packet, with len + 4 bytes of data,
* the last 4 bytes being the checksum
* @param len length of the payload in data
* @return 0 on success (checksum matches), 1 on error
*/
static int
check_crc_buf_osdep (const unsigned char *buf, size_t len)
{
unsigned long crc;
crc = calc_crc_osdep (buf, len);
buf += len;
if (((crc) & 0xFF) == buf[0] && ((crc >> 8) & 0xFF) == buf[1] &&
((crc >> 16) & 0xFF) == buf[2] && ((crc >> 24) & 0xFF) == buf[3])
return 0;
return 1;
}
/* ************** end of clone ***************** */
#ifdef MINGW
/**
* Function used to get the code of last error and to print the type of error.
*/
static void
print_last_error()
{
LPVOID lpMsgBuf = NULL;
if (FormatMessage (FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS,
NULL, GetLastError(), 0, (LPTSTR) &lpMsgBuf, 0, NULL))
fprintf (stderr, "%s\n", (char *)lpMsgBuf);
else
fprintf (stderr, "Failed to format the message for the last error! Error number : %d\n", GetLastError());
}
/**
* Function used to initialize the Windows Sockets
*/
static void
initialize_windows_sockets()
{
WSADATA wsaData ;
WORD wVersionRequested = MAKEWORD (2, 0);
if (WSAStartup (wVersionRequested, &wsaData) != NO_ERROR)
{
fprintf (stderr , "Error initializing window sockets!\n");
print_last_error();
ExitProcess (2) ;
}
}
/**
* Function used to convert the GUID.
* @param bytes the GUID represented as a char array
* @param uuid pointer to the GUID
*/
static void
convert_guid(char *bytes, GUID * uuid)
{
int i;
uuid->Data1 = ((bytes[0] << 24) & 0xff000000) | ((bytes[1] << 16) & 0x00ff0000) | ((bytes[2] << 8) & 0x0000ff00) | (bytes[3] & 0x000000ff);
uuid->Data2 = ((bytes[4] << 8) & 0xff00) | (bytes[5] & 0x00ff);
uuid->Data3 = ((bytes[6] << 8) & 0xff00) | (bytes[7] & 0x00ff);
for (i = 0; i < 8; i++)
{
uuid->Data4[i] = bytes[i + 8];
}
}
#endif
#ifdef LINUX
/**
* Function for assigning a port number
*
* @param socket the socket used to bind
* @param addr pointer to the rfcomm address
* @return 0 on success
*/
static int
bind_socket (int socket, struct sockaddr_rc *addr)
{
int port, status;
/* Bind every possible port (from 0 to 30) and stop when binding doesn't fail */
//FIXME : it should start from port 1, but on my computer it doesn't work :)
for (port = 3; port <= 30; port++)
{
addr->rc_channel = port;
status = bind (socket, (struct sockaddr *) addr, sizeof (struct sockaddr_rc));
if (status == 0)
return 0;
}
return -1;
}
#endif
#ifdef MINGW
/**
* Function used for creating the service record and registering it.
*
* @param dev pointer to the device struct
* @return 0 on success
*/
static int
register_service (struct HardwareInfos *dev)
{
/* advertise the service */
CSADDR_INFO addr_info;
WSAQUERYSET wqs;
GUID guid;
unsigned char uuid[] = GNUNET_BLUETOOTH_SDP_UUID;
SOCKADDR_BTH addr;
int addr_len = sizeof (SOCKADDR_BTH);
int fd;
/* get the port on which we are listening on */
memset (& addr, 0, sizeof (SOCKADDR_BTH));
fd = GNUNET_NETWORK_get_fd (dev->handle);
if (fd <= 0)
{
fprintf (stderr, "Failed to get the file descriptor\n");
return -1;
}
if (SOCKET_ERROR == getsockname (fd, (SOCKADDR*)&addr, &addr_len))
{
fprintf (stderr, "Failed to get the port on which we are listening on: \n");
print_last_error();
return -1;
}
/* save the device address */
GNUNET_memcpy (&dev->pl_mac, &addr.btAddr, sizeof (BTH_ADDR));
/* set the address information */
memset (&addr_info, 0, sizeof (CSADDR_INFO));
addr_info.iProtocol = BTHPROTO_RFCOMM;
addr_info.iSocketType = SOCK_STREAM;
addr_info.LocalAddr.lpSockaddr = (LPSOCKADDR)&addr;
addr_info.LocalAddr.iSockaddrLength = sizeof (addr);
addr_info.RemoteAddr.lpSockaddr = (LPSOCKADDR)&addr;
addr_info.RemoteAddr.iSockaddrLength = sizeof (addr);
convert_guid((char *) uuid, &guid);
/* register the service */
memset (&wqs, 0, sizeof (WSAQUERYSET));
wqs.dwSize = sizeof (WSAQUERYSET);
wqs.dwNameSpace = NS_BTH;
wqs.lpszServiceInstanceName = "GNUnet Bluetooth Service";
wqs.lpszComment = "This is the service used by the GNUnnet plugin transport";
wqs.lpServiceClassId = &guid;
wqs.dwNumberOfCsAddrs = 1;
wqs.lpcsaBuffer = &addr_info ;
wqs.lpBlob = 0;
if (SOCKET_ERROR == WSASetService (&wqs , RNRSERVICE_REGISTER, 0))
{
fprintf (stderr, "Failed to register the SDP service: ");
print_last_error();
return -1;
}
else
{
fprintf (stderr, "The SDP service was registered\n");
}
return 0;
}
#else
/**
* Function used for creating the service record and registering it.
*
* @param dev pointer to the device struct
* @param rc_channel the rfcomm channel
* @return 0 on success
*/
static int
register_service (struct HardwareInfos *dev, int rc_channel)
{
/**
* 1. initializations
* 2. set the service ID, class, profile information
* 3. make the service record publicly browsable
* 4. register the RFCOMM channel
* 5. set the name, provider and description
* 6. register the service record to the local SDP server
* 7. cleanup
*/
uint8_t svc_uuid_int[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
dev->pl_mac.mac[5], dev->pl_mac.mac[4], dev->pl_mac.mac[3],
dev->pl_mac.mac[2], dev->pl_mac.mac[1], dev->pl_mac.mac[0]};
const char *service_dsc = "Bluetooth plugin services";
const char *service_prov = "GNUnet provider";
uuid_t root_uuid, rfcomm_uuid, svc_uuid;
sdp_list_t *root_list = 0, *rfcomm_list = 0, *proto_list = 0,
*access_proto_list = 0, *svc_list = 0;
sdp_record_t *record = 0;
sdp_data_t *channel = 0;
record = sdp_record_alloc();
/* Set the general service ID */
sdp_uuid128_create (&svc_uuid, &svc_uuid_int);
svc_list = sdp_list_append (0, &svc_uuid);
sdp_set_service_classes (record, svc_list);
sdp_set_service_id (record, svc_uuid);
/* Make the service record publicly browsable */
sdp_uuid16_create (&root_uuid, PUBLIC_BROWSE_GROUP);
root_list = sdp_list_append (0, &root_uuid);
sdp_set_browse_groups (record, root_list);
/* Register the RFCOMM channel */
sdp_uuid16_create (&rfcomm_uuid, RFCOMM_UUID);
channel = sdp_data_alloc (SDP_UINT8, &rc_channel);
rfcomm_list = sdp_list_append (0, &rfcomm_uuid);
sdp_list_append (rfcomm_list, channel);
proto_list = sdp_list_append (0, rfcomm_list);
/* Set protocol information */
access_proto_list = sdp_list_append (0, proto_list);
sdp_set_access_protos (record, access_proto_list);
/* Set the name, provider, and description */
sdp_set_info_attr (record, dev->iface, service_prov, service_dsc);
/* Connect to the local SDP server */
dev->session = sdp_connect (BDADDR_ANY, BDADDR_LOCAL, SDP_RETRY_IF_BUSY);
if (!dev->session)
{
fprintf (stderr, "Failed to connect to the SDP server on interface `%.*s': %s\n",
IFNAMSIZ, dev->iface, strerror (errno));
//FIXME exit?
return 1;
}
/* Register the service record */
if (sdp_record_register (dev->session, record, 0) < 0)
{
fprintf (stderr, "Failed to register a service record on interface `%.*s': %s\n",
IFNAMSIZ, dev->iface, strerror (errno));
//FIXME exit?
return 1;
}
/* Cleanup */
sdp_data_free (channel);
sdp_list_free (root_list, 0);
sdp_list_free (rfcomm_list, 0);
sdp_list_free (proto_list, 0);
sdp_list_free (access_proto_list, 0);
sdp_list_free (svc_list, 0);
sdp_record_free (record);
return 0;
}
#endif
#ifdef MINGW
/**
* Function for searching and browsing for a service. This will return the
* port number on which the service is running.
*
* @param dest target address
* @return channel
*/
static int
get_channel(const char *dest)
{
HANDLE h;
WSAQUERYSET *wqs;
DWORD wqs_len = sizeof (WSAQUERYSET);
int done = 0;
int channel = -1;
GUID guid;
unsigned char uuid[] = GNUNET_BLUETOOTH_SDP_UUID;
convert_guid ((char *) uuid, &guid);
wqs = (WSAQUERYSET*)malloc (wqs_len);
ZeroMemory (wqs, wqs_len);
wqs->dwSize = sizeof (WSAQUERYSET) ;
wqs->lpServiceClassId = &guid;
wqs->dwNameSpace = NS_BTH;
wqs->dwNumberOfCsAddrs = 0;
wqs->lpszContext = (LPSTR)dest;
if (SOCKET_ERROR == WSALookupServiceBegin (wqs, LUP_FLUSHCACHE | LUP_RETURN_ALL, &h))
{
if (GetLastError() == WSASERVICE_NOT_FOUND)
{
fprintf (stderr, "WARNING! The device with address %s wasn't found. Skipping the message!", dest);
return -1;
}
else
{
fprintf (stderr, "Failed to find the port number: ");
print_last_error();
ExitProcess (2);
return -1;
}
}
/* search the sdp service */
while (!done)
{
if (SOCKET_ERROR == WSALookupServiceNext (h, LUP_FLUSHCACHE | LUP_RETURN_ALL, &wqs_len, wqs))
{
int error = WSAGetLastError();
switch (error)
{
case WSAEFAULT:
free (wqs);
wqs = (WSAQUERYSET*)malloc (wqs_len);
break;
case WSANO_DATA:
fprintf (stderr, "Failed! The address was valid but there was no data record of requested type\n");
done = 1;
break;
case WSA_E_NO_MORE:
done = 1;
break;
default:
fprintf (stderr, "Failed to look over the services: ");
print_last_error();
WSALookupServiceEnd (h);
ExitProcess (2);
}
}
else
{
channel = ((SOCKADDR_BTH*)wqs->lpcsaBuffer->RemoteAddr.lpSockaddr)->port;
}
}
free (wqs) ;
WSALookupServiceEnd (h);
return channel;
}
#else
/**
* Function used for searching and browsing for a service. This will return the
* port number on which the service is running.
*
* @param dev pointer to the device struct
* @param dest target address
* @return channel
*/
static int
get_channel(struct HardwareInfos *dev, bdaddr_t dest)
{
/**
* 1. detect all nearby devices
* 2. for each device:
* 2.1. connect to the SDP server running
* 2.2. get a list of service records with the specific UUID
* 2.3. for each service record get a list of the protocol sequences and get
* the port number
*/
uint8_t svc_uuid_int[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
dest.b[5], dest.b[4], dest.b[3],
dest.b[2], dest.b[1], dest.b[0]};
sdp_session_t *session = 0;
sdp_list_t *search_list = 0, *attrid_list = 0, *response_list = 0, *it = 0;
uuid_t svc_uuid;
uint32_t range = 0x0000ffff;
int channel = -1;
/* Connect to the local SDP server */
session = sdp_connect (BDADDR_ANY, &dest, 0);
if (!session)
{
fprintf (stderr, "Failed to connect to the SDP server on interface `%.*s': %s\n",
IFNAMSIZ, dev->iface, strerror (errno));
return -1;
}
sdp_uuid128_create (&svc_uuid, &svc_uuid_int);
search_list = sdp_list_append (0, &svc_uuid);
attrid_list = sdp_list_append (0, &range);
if (sdp_service_search_attr_req (session, search_list,
SDP_ATTR_REQ_RANGE, attrid_list, &response_list) == 0)
{
for (it = response_list; it; it = it->next)
{
sdp_record_t *record = (sdp_record_t*) it->data;
sdp_list_t *proto_list = 0;
if (sdp_get_access_protos (record, &proto_list) == 0)
{
channel = sdp_get_proto_port (proto_list, RFCOMM_UUID);
sdp_list_free (proto_list, 0);
}
sdp_record_free (record);
}
}
sdp_list_free (search_list, 0);
sdp_list_free (attrid_list, 0);
sdp_list_free (response_list, 0);
sdp_close (session);
if (-1 == channel)
fprintf (stderr,
"Failed to find the listening channel for interface `%.*s': %s\n",
IFNAMSIZ,
dev->iface,
strerror (errno));
return channel;
}
#endif
/**
* Read from the socket and put the result into the buffer for transmission to 'stdout'.
*
* @param sock file descriptor for reading
* @param buf buffer to read to; first bytes will be the 'struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame',
* followed by the actual payload
* @param buf_size size of the buffer
* @param ri where to write radiotap_rx info
* @return number of bytes written to 'buf'
*/
static ssize_t
read_from_the_socket (void *sock,
unsigned char *buf, size_t buf_size,
struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage *ri)
{
unsigned char tmpbuf[buf_size];
ssize_t count;
#ifdef MINGW
count = GNUNET_NETWORK_socket_recv ((struct GNUNET_NETWORK_Handle *)sock, tmpbuf, buf_size);
#else
count = read (*((int *)sock), tmpbuf, buf_size);
#endif
if (0 > count)
{
if (EAGAIN == errno)
return 0;
#if MINGW
print_last_error();
#else
fprintf (stderr, "Failed to read from the HCI socket: %s\n", strerror (errno));
#endif
return -1;
}
#ifdef LINUX
/* Get the channel used */
int len;
struct sockaddr_rc rc_addr = { 0 };
memset (&rc_addr, 0, sizeof (rc_addr));
len = sizeof (rc_addr);
if (0 > getsockname (*((int *)sock), (struct sockaddr *) &rc_addr, (socklen_t *) &len))
{
fprintf (stderr, "getsockname() call failed : %s\n", strerror (errno));
return -1;
}
memset (ri, 0, sizeof (*ri));
ri->ri_channel = rc_addr.rc_channel;
#endif
/* Detect CRC32 at the end */
if (0 == check_crc_buf_osdep (tmpbuf, count - sizeof (uint32_t)))
{
count -= sizeof(uint32_t);
}
GNUNET_memcpy (buf, tmpbuf, count);
return count;
}
/**
* Open the bluetooth interface for reading/writing
*
* @param dev pointer to the device struct
* @return 0 on success, non-zero on error
*/
static int
open_device (struct HardwareInfos *dev)
{
#ifdef MINGW
SOCKADDR_BTH addr;
/* bind the RFCOMM socket to the interface */
addr.addressFamily = AF_BTH;
addr.btAddr = 0;
addr.port = BT_PORT_ANY;
if (GNUNET_OK !=
GNUNET_NETWORK_socket_bind (dev->handle, (const SOCKADDR*)&addr, sizeof (SOCKADDR_BTH)))
{
fprintf (stderr, "Failed to bind the socket: ");
if (GetLastError() == WSAENETDOWN)
{
fprintf (stderr, "Please make sure that your Bluetooth device is ON!\n");
ExitProcess (2);
}
print_last_error();
return -1;
}
/* start listening on the socket */
if (GNUNET_NETWORK_socket_listen (dev->handle, 4) != GNUNET_OK)
{
fprintf (stderr, "Failed to listen on the socket: ");
print_last_error();
return -1;
}
/* register the sdp service */
if (register_service(dev) != 0)
{
fprintf (stderr, "Failed to register a service: ");
print_last_error();
return 1;
}
#else
int i, dev_id = -1, fd_hci;
struct
{
struct hci_dev_list_req list;
struct hci_dev_req dev[HCI_MAX_DEV];
} request; //used for detecting the local devices
struct sockaddr_rc rc_addr = { 0 }; //used for binding
/* Initialize the neighbour structure */
neighbours.dev_id = -1;
for (i = 0; i < MAX_PORTS; i++)
neighbours.fds[i] = -1;
/* Open a HCI socket */
fd_hci = socket (AF_BLUETOOTH, SOCK_RAW, BTPROTO_HCI);
if (fd_hci < 0)
{
fprintf (stderr,
"Failed to create HCI socket: %s\n",
strerror (errno));
return -1;
}
memset (&request, 0, sizeof(request));
request.list.dev_num = HCI_MAX_DEV;
if (ioctl (fd_hci, HCIGETDEVLIST, (void *) &request) < 0)
{
fprintf (stderr,
"ioctl(HCIGETDEVLIST) on interface `%.*s' failed: %s\n",
IFNAMSIZ,
dev->iface,
strerror (errno));
(void) close (fd_hci);
return 1;
}
/* Search for a device with dev->iface name */
for (i = 0; i < request.list.dev_num; i++)
{
struct hci_dev_info dev_info;
memset (&dev_info, 0, sizeof(struct hci_dev_info));
dev_info.dev_id = request.dev[i].dev_id;
strncpy (dev_info.name, dev->iface, BLUEZ_DEVNAME_SIZE);
if (ioctl (fd_hci, HCIGETDEVINFO, (void *) &dev_info))
{
fprintf (stderr,
"ioctl(HCIGETDEVINFO) on interface `%.*s' failed: %s\n",
IFNAMSIZ,
dev->iface,
strerror (errno));
(void) close (fd_hci);
return 1;
}
if (strncmp (dev_info.name, dev->iface, BLUEZ_DEVNAME_SIZE) == 0)
{
dev_id = dev_info.dev_id; //the device was found
/**
* Copy the MAC address to the device structure
*/
GNUNET_memcpy (&dev->pl_mac, &dev_info.bdaddr, sizeof (bdaddr_t));
/* Check if the interface is up */
if (hci_test_bit (HCI_UP, (void *) &dev_info.flags) == 0)
{
/* Bring the interface up */
if (ioctl (fd_hci, HCIDEVUP, dev_info.dev_id))
{
fprintf (stderr,
"ioctl(HCIDEVUP) on interface `%.*s' failed: %s\n",
IFNAMSIZ,
dev->iface,
strerror (errno));
(void) close (fd_hci);
return 1;
}
}
/* Check if the device is discoverable */
if (hci_test_bit (HCI_PSCAN, (void *) &dev_info.flags) == 0 ||
hci_test_bit (HCI_ISCAN, (void *) &dev_info.flags) == 0)
{
/* Set interface Page Scan and Inqury Scan ON */
struct hci_dev_req dev_req;
memset (&dev_req, 0, sizeof (dev_req));
dev_req.dev_id = dev_info.dev_id;
dev_req.dev_opt = SCAN_PAGE | SCAN_INQUIRY;
if (ioctl (fd_hci, HCISETSCAN, (unsigned long) &dev_req))
{
fprintf (stderr,
"ioctl(HCISETSCAN) on interface `%.*s' failed: %s\n",
IFNAMSIZ,
dev->iface,
strerror (errno));
(void) close (fd_hci);
return 1;
}
}
break;
}
}
/* Check if the interface was not found */
if (-1 == dev_id)
{
fprintf (stderr,
"The interface %s was not found\n",
dev->iface);
(void) close (fd_hci);
return 1;
}
/* Close the hci socket */
(void) close(fd_hci);
/* Bind the rfcomm socket to the interface */
memset (&rc_addr, 0, sizeof (rc_addr));
rc_addr.rc_family = AF_BLUETOOTH;
rc_addr.rc_bdaddr = *BDADDR_ANY;
if (bind_socket (dev->fd_rfcomm, &rc_addr) != 0)
{
fprintf (stderr,
"Failed to bind interface `%.*s': %s\n",
IFNAMSIZ,
dev->iface,
strerror (errno));
return 1;
}
/* Register a SDP service */
if (register_service (dev, rc_addr.rc_channel) != 0)
{
fprintf (stderr,
"Failed to register a service on interface `%.*s': %s\n",
IFNAMSIZ,
dev->iface, strerror (errno));
return 1;
}
/* Switch socket in listening mode */
if (listen (dev->fd_rfcomm, 5) == -1) //FIXME: probably we need a bigger number
{
fprintf (stderr, "Failed to listen on socket for interface `%.*s': %s\n", IFNAMSIZ,
dev->iface, strerror (errno));
return 1;
}
#endif
return 0;
}
/**
* Set the header to sane values to make attacks more difficult
*
* @param taIeeeHeader pointer to the header of the packet
* @param dev pointer to the Hardware_Infos struct
*
**** copy from gnunet-helper-transport-wlan.c ****
*/
static void
mac_set (struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame *taIeeeHeader,
const struct HardwareInfos *dev)
{
taIeeeHeader->frame_control = htons (IEEE80211_FC0_TYPE_DATA);
taIeeeHeader->addr3 = mac_bssid_gnunet;
#ifdef MINGW
GNUNET_memcpy (&taIeeeHeader->addr2, &dev->pl_mac, sizeof (struct GNUNET_TRANSPORT_WLAN_MacAddress));
#else
taIeeeHeader->addr2 = dev->pl_mac;
#endif
}
#ifdef LINUX
/**
* Test if the given interface name really corresponds to a bluetooth
* device.
*
* @param iface name of the interface
* @return 0 on success, 1 on error
**** similar with the one from gnunet-helper-transport-wlan.c ****
*/
static int
test_bluetooth_interface (const char *iface)
{
char strbuf[512];
struct stat sbuf;
int ret;
ret = snprintf (strbuf, sizeof (strbuf),
"/sys/class/bluetooth/%s/subsystem",
iface);
if ((ret < 0) || (ret >= sizeof (strbuf)) || (0 != stat (strbuf, &sbuf)))
{
fprintf (stderr,
"Did not find 802.15.1 interface `%s'. Exiting.\n",
iface);
exit (1);
}
return 0;
}
#endif
/**
* Test incoming packets mac for being our own.
*
* @param taIeeeHeader buffer of the packet
* @param dev the Hardware_Infos struct
* @return 0 if mac belongs to us, 1 if mac is for another target
*
**** same as the one from gnunet-helper-transport-wlan.c ****
*/
static int
mac_test (const struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame *taIeeeHeader,
const struct HardwareInfos *dev)
{
static struct GNUNET_TRANSPORT_WLAN_MacAddress all_zeros;
if ( (0 == memcmp (&taIeeeHeader->addr3, &all_zeros, MAC_ADDR_SIZE)) ||
(0 == memcmp (&taIeeeHeader->addr1, &all_zeros, MAC_ADDR_SIZE)) )
return 0; /* some drivers set no Macs, then assume it is all for us! */
if (0 != memcmp (&taIeeeHeader->addr3, &mac_bssid_gnunet, MAC_ADDR_SIZE))
return 1; /* not a GNUnet ad-hoc package */
if ( (0 == memcmp (&taIeeeHeader->addr1, &dev->pl_mac, MAC_ADDR_SIZE)) ||
(0 == memcmp (&taIeeeHeader->addr1, &bc_all_mac, MAC_ADDR_SIZE)) )
return 0; /* for us, or broadcast */
return 1; /* not for us */
}
/**
* Process data from the stdin. Takes the message, forces the sender MAC to be correct
* and puts it into our buffer for transmission to the receiver.
*
* @param cls pointer to the device struct ('struct HardwareInfos*')
* @param hdr pointer to the start of the packet
*
**** same as the one from gnunet-helper-transport-wlan.c ****
*/
static void
stdin_send_hw (void *cls, const struct GNUNET_MessageHeader *hdr)
{
struct HardwareInfos *dev = cls;
const struct GNUNET_TRANSPORT_WLAN_RadiotapSendMessage *header;
struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame *blueheader;
size_t sendsize;
sendsize = ntohs (hdr->size);
if ( (sendsize <
sizeof (struct GNUNET_TRANSPORT_WLAN_RadiotapSendMessage)) ||
(GNUNET_MESSAGE_TYPE_WLAN_DATA_TO_HELPER != ntohs (hdr->type)) )
{
fprintf (stderr, "Received malformed message\n");
exit (1);
}
sendsize -= (sizeof (struct GNUNET_TRANSPORT_WLAN_RadiotapSendMessage) -
sizeof (struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame));
if (MAXLINE < sendsize)
{
fprintf (stderr, "Packet too big for buffer\n");
exit (1);
}
header = (const struct GNUNET_TRANSPORT_WLAN_RadiotapSendMessage *) hdr;
GNUNET_memcpy (&write_pout.buf, &header->frame, sendsize);
blueheader = (struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame *) &write_pout.buf;
/* payload contains MAC address, but we don't trust it, so we'll
* overwrite it with OUR MAC address to prevent mischief */
mac_set (blueheader, dev);
GNUNET_memcpy (&blueheader->addr1, &header->frame.addr1,
sizeof (struct GNUNET_TRANSPORT_WLAN_MacAddress));
write_pout.size = sendsize;
}
#ifdef LINUX
/**
* Broadcast a HELLO message for peer discovery
*
* @param dev pointer to the device struct
* @param dev pointer to the socket which was added to the set
* @return 0 on success
*/
static int
send_broadcast (struct HardwareInfos *dev, int *sendsocket)
{
int new_device = 0;
int loops = 0;
search_for_devices:
if ((neighbours.size == neighbours.pos && new_device == 1) || neighbours.size == 0)
{
inquiry_devices: //skip the conditions and force a inquiry for new devices
{
/**
* It means that I sent HELLO messages to all the devices from the list and I should search
* for new ones or that this is the first time when I do a search.
*/
inquiry_info *devices = NULL;
int i, responses, max_responses = MAX_PORTS;
/* sanity checks */
if (neighbours.size >= MAX_PORTS)
{
fprintf (stderr, "%.*s reached the top limit for the discovarable devices\n", IFNAMSIZ, dev->iface);
return 2;
}
/* Get the device id */
if (neighbours.dev_id == -1)
{
char addr[19] = { 0 }; //the device MAC address
ba2str ((bdaddr_t *) &dev->pl_mac, addr);
neighbours.dev_id = hci_devid (addr);
if (neighbours.dev_id < 0)
{
fprintf (stderr, "Failed to get the device id for interface %.*s : %s\n", IFNAMSIZ,
dev->iface, strerror (errno));
return 1;
}
}
devices = malloc (max_responses * sizeof (inquiry_info));
if (devices == NULL)
{
fprintf (stderr, "Failed to allocate memory for inquiry info list on interface %.*s\n", IFNAMSIZ,
dev->iface);
return 1;
}
responses = hci_inquiry (neighbours.dev_id, 8, max_responses, NULL, &devices, IREQ_CACHE_FLUSH);
if (responses < 0)
{
fprintf (stderr, "Failed to inquiry on interface %.*s\n", IFNAMSIZ, dev->iface);
return 1;
}
fprintf (stderr, "LOG : Found %d devices\n", responses); //FIXME delete it after debugging stage
if (responses == 0)
{
fprintf (stderr, "LOG : No devices discoverable\n");
return 1;
}
for (i = 0; i < responses; i++)
{
int j;
int found = 0;
/* sanity check */
if (i >= MAX_PORTS)
{
fprintf (stderr, "%.*s reached the top limit for the discoverable devices (after inquiry)\n", IFNAMSIZ,
dev->iface);
return 2;
}
/* Search if the address already exists on the list */
for (j = 0; j < neighbours.size; j++)
{
if (memcmp (&(devices + i)->bdaddr, &(neighbours.devices[j]), sizeof (bdaddr_t)) == 0)
{
found = 1;
fprintf (stderr, "LOG : the device already exists on the list\n"); //FIXME debugging message
break;
}
}
if (found == 0)
{
char addr[19] = { 0 };
ba2str (&(devices +i)->bdaddr, addr);
fprintf (stderr, "LOG : %s was added to the list\n", addr); //FIXME debugging message
GNUNET_memcpy (&(neighbours.devices[neighbours.size++]), &(devices + i)->bdaddr, sizeof (bdaddr_t));
}
}
free (devices);
}
}
int connection_successful = 0;
struct sockaddr_rc addr_rc = { 0 };
int errno_copy = 0;
addr_rc.rc_family = AF_BLUETOOTH;
/* Try to connect to a new device from the list */
while (neighbours.pos < neighbours.size)
{
/* Check if we are already connected to this device */
if (neighbours.fds[neighbours.pos] == -1)
{
memset (&addr_rc.rc_bdaddr, 0, sizeof (addr_rc.rc_bdaddr));
GNUNET_memcpy (&addr_rc.rc_bdaddr, &(neighbours.devices[neighbours.pos]), sizeof (addr_rc.rc_bdaddr));
addr_rc.rc_channel = get_channel (dev, addr_rc.rc_bdaddr);
*sendsocket = socket (AF_BLUETOOTH, SOCK_STREAM, BTPROTO_RFCOMM);
if ( (-1 < *sendsocket) &&
(0 == connect (*sendsocket,
(struct sockaddr *) &addr_rc,
sizeof (addr_rc))) )
{
neighbours.fds[neighbours.pos++] = *sendsocket;
connection_successful = 1;
char addr[19] = { 0 };
ba2str (&(neighbours.devices[neighbours.pos - 1]), addr);
fprintf (stderr, "LOG : Connected to %s\n", addr);
break;
}
else
{
char addr[19] = { 0 };
errno_copy = errno; //Save a copy for later
if (-1 != *sendsocket)
{
(void) close (*sendsocket);
*sendsocket = -1;
}
ba2str (&(neighbours.devices[neighbours.pos]), addr);
fprintf (stderr,
"LOG : Couldn't connect on device %s, error : %s\n",
addr,
strerror (errno));
if (errno != ECONNREFUSED) //FIXME be sure that this works
{
fprintf (stderr, "LOG : Removes %d device from the list\n", neighbours.pos);
/* Remove the device from the list */
GNUNET_memcpy (&neighbours.devices[neighbours.pos], &neighbours.devices[neighbours.size - 1], sizeof (bdaddr_t));
memset (&neighbours.devices[neighbours.size - 1], 0, sizeof (bdaddr_t));
neighbours.fds[neighbours.pos] = neighbours.fds[neighbours.size - 1];
neighbours.fds[neighbours.size - 1] = -1;
neighbours.size -= 1;
}
neighbours.pos += 1;
if (neighbours.pos >= neighbours.size)
neighbours.pos = 0;
loops += 1;
if (loops == MAX_LOOPS) //don't get stuck trying to connect to one device
return 1;
}
}
else
{
fprintf (stderr, "LOG : Search for a new device\n"); //FIXME debugging message
neighbours.pos += 1;
}
}
/* Cycle on the list */
if (neighbours.pos == neighbours.size)
{
neighbours.pos = 0;
searching_devices_count += 1;
if (searching_devices_count == MAX_LOOPS)
{
fprintf (stderr, "LOG : Force to inquiry for new devices\n");
searching_devices_count = 0;
goto inquiry_devices;
}
}
/* If a new device wasn't found, search an old one */
if (connection_successful == 0)
{
int loop_check = neighbours.pos;
while (neighbours.fds[neighbours.pos] == -1)
{
if (neighbours.pos == neighbours.size)
neighbours.pos = 0;
if (neighbours.pos == loop_check)
{
if (errno_copy == ECONNREFUSED)
{
fprintf (stderr, "LOG : No device found. Go back and search again\n"); //FIXME debugging message
new_device = 1;
loops += 1;
goto search_for_devices;
}
else
{
return 1; // Skip the broadcast message
}
}
neighbours.pos += 1;
}
*sendsocket = neighbours.fds[neighbours.pos++];
}
return 0;
}
#endif
/**
* Main function of the helper. This code accesses a bluetooth interface
* forwards traffic in both directions between the bluetooth interface and
* stdin/stdout of this process. Error messages are written to stderr.
*
* @param argc number of arguments, must be 2
* @param argv arguments only argument is the name of the interface (i.e. 'hci0')
* @return 0 on success (never happens, as we don't return unless aborted), 1 on error
*
**** similar to gnunet-helper-transport-wlan.c ****
*/
int
main (int argc, char *argv[])
{
#ifdef LINUX
struct HardwareInfos dev;
char readbuf[MAXLINE];
int maxfd;
fd_set rfds;
fd_set wfds;
int stdin_open;
struct MessageStreamTokenizer *stdin_mst;
int raw_eno, i;
int crt_rfds = 0, rfds_list[MAX_PORTS];
int broadcast, sendsocket;
/* Assert privs so we can modify the firewall rules! */
{
#ifdef HAVE_SETRESUID
uid_t uid = getuid ();
if (0 != setresuid (uid, 0, 0))
{
fprintf (stderr,
"Failed to setresuid to root: %s\n",
strerror (errno));
return 254;
}
#else
if (0 != seteuid (0))
{
fprintf (stderr,
"Failed to seteuid back to root: %s\n", strerror (errno));
return 254;
}
#endif
}
/* Make use of SGID capabilities on POSIX */
memset (&dev, 0, sizeof (dev));
dev.fd_rfcomm = socket (AF_BLUETOOTH, SOCK_STREAM, BTPROTO_RFCOMM);
raw_eno = errno; /* remember for later */
/* Now that we've dropped root rights, we can do error checking */
if (2 != argc)
{
fprintf (stderr, "You must specify the name of the interface as the first \
and only argument to this program.\n");
if (-1 != dev.fd_rfcomm)
(void) close (dev.fd_rfcomm);
return 1;
}
if (-1 == dev.fd_rfcomm)
{
fprintf (stderr, "Failed to create a RFCOMM socket: %s\n", strerror (raw_eno));
return 1;
}
if (dev.fd_rfcomm >= FD_SETSIZE)
{
fprintf (stderr, "File descriptor too large for select (%d > %d)\n",
dev.fd_rfcomm, FD_SETSIZE);
(void) close (dev.fd_rfcomm);
return 1;
}
if (0 != test_bluetooth_interface (argv[1]))
{
(void) close (dev.fd_rfcomm);
return 1;
}
strncpy (dev.iface, argv[1], IFNAMSIZ);
if (0 != open_device (&dev))
{
(void) close (dev.fd_rfcomm);
return 1;
}
/* Drop privs */
{
uid_t uid = getuid ();
#ifdef HAVE_SETRESUID
if (0 != setresuid (uid, uid, uid))
{
fprintf (stderr, "Failed to setresuid: %s\n", strerror (errno));
if (-1 != dev.fd_rfcomm)
(void) close (dev.fd_rfcomm);
return 1;
}
#else
if (0 != (setuid (uid) | seteuid (uid)))
{
fprintf (stderr, "Failed to setuid: %s\n", strerror (errno));
if (-1 != dev.fd_rfcomm)
(void) close (dev.fd_rfcomm);
return 1;
}
#endif
}
/* Send MAC address of the bluetooth interface to STDOUT first */
{
struct GNUNET_TRANSPORT_WLAN_HelperControlMessage macmsg;
macmsg.hdr.size = htons (sizeof (macmsg));
macmsg.hdr.type = htons (GNUNET_MESSAGE_TYPE_WLAN_HELPER_CONTROL);
GNUNET_memcpy (&macmsg.mac, &dev.pl_mac, sizeof (struct GNUNET_TRANSPORT_WLAN_MacAddress));
GNUNET_memcpy (write_std.buf, &macmsg, sizeof (macmsg));
write_std.size = sizeof (macmsg);
}
stdin_mst = mst_create (&stdin_send_hw, &dev);
stdin_open = 1;
/**
* TODO : I should make the time out of a mac endpoint smaller and check if the rate
* from get_wlan_header (plugin_transport_bluetooth.c) is correct.
*/
while (1)
{
maxfd = -1;
broadcast = 0;
sendsocket = -1;
FD_ZERO (&rfds);
if ((0 == write_pout.size) && (1 == stdin_open))
{
FD_SET (STDIN_FILENO, &rfds);
maxfd = MAX (maxfd, STDIN_FILENO);
}
if (0 == write_std.size)
{
FD_SET (dev.fd_rfcomm, &rfds);
maxfd = MAX (maxfd, dev.fd_rfcomm);
}
for (i = 0; i < crt_rfds; i++) // it can receive messages from multiple devices
{
FD_SET (rfds_list[i], &rfds);
maxfd = MAX (maxfd, rfds_list[i]);
}
FD_ZERO (&wfds);
if (0 < write_std.size)
{
FD_SET (STDOUT_FILENO, &wfds);
maxfd = MAX (maxfd, STDOUT_FILENO);
}
if (0 < write_pout.size) //it can send messages only to one device per loop
{
struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame *frame;
/* Get the destination address */
frame = (struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame *) write_pout.buf;
if (memcmp (&frame->addr1, &dev.pl_mac,
sizeof (struct GNUNET_TRANSPORT_WLAN_MacAddress)) == 0)
{
broadcast = 1;
memset (&write_pout, 0, sizeof (write_pout)); //clear the buffer
}
else if (memcmp (&frame->addr1, &broadcast_address,
sizeof (struct GNUNET_TRANSPORT_WLAN_MacAddress)) == 0)
{
fprintf (stderr, "LOG : %s has a broadcast message (pos %d, size %d)\n", dev.iface, neighbours.pos, neighbours.size); //FIXME: debugging message
if (send_broadcast(&dev, &sendsocket) != 0) //if the searching wasn't successful don't get stuck on the select stage
{
broadcast = 1;
memset (&write_pout, 0, sizeof (write_pout)); //remove the message
fprintf (stderr, "LOG : Skipping the broadcast message (pos %d, size %d)\n", neighbours.pos, neighbours.size);
}
else
{
FD_SET (sendsocket, &wfds);
maxfd = MAX (maxfd, sendsocket);
}
}
else
{
int found = 0;
int pos = 0;
/* Search if the address already exists on the list */
for (i = 0; i < neighbours.size; i++)
{
if (memcmp (&frame->addr1, &(neighbours.devices[i]), sizeof (bdaddr_t)) == 0)
{
pos = i;
if (neighbours.fds[i] != -1)
{
found = 1; //save the position where it was found
FD_SET (neighbours.fds[i], &wfds);
maxfd = MAX (maxfd, neighbours.fds[i]);
sendsocket = neighbours.fds[i];
fprintf (stderr, "LOG: the address was found in the list\n");
break;
}
}
}
if (found == 0)
{
int status;
struct sockaddr_rc addr = { 0 };
fprintf (stderr, "LOG : %s has a new message for %.2X:%.2X:%.2X:%.2X:%.2X:%.2X which isn't on the broadcast list\n", dev.iface,
frame->addr1.mac[5], frame->addr1.mac[4], frame->addr1.mac[3],
frame->addr1.mac[2], frame->addr1.mac[1], frame->addr1.mac[0]); //FIXME: debugging message
sendsocket = socket (AF_BLUETOOTH, SOCK_STREAM, BTPROTO_RFCOMM);
if (sendsocket < 0)
{
fprintf (stderr, "Failed to create a RFCOMM socket (sending stage): %s\n",
strerror (errno));
return -1;
}
GNUNET_memcpy (&addr.rc_bdaddr, &frame->addr1, sizeof (bdaddr_t));
addr.rc_family = AF_BLUETOOTH;
addr.rc_channel = get_channel (&dev, addr.rc_bdaddr);
int tries = 0;
connect_retry:
status = connect (sendsocket, (struct sockaddr *) &addr, sizeof (addr));
if (0 != status && errno != EAGAIN)
{
if (errno == ECONNREFUSED && tries < 2)
{
fprintf (stderr, "LOG : %.*s failed to connect. Trying again!\n", IFNAMSIZ, dev.iface);
tries++;
goto connect_retry;
}
else if (errno == EBADF)
{
fprintf (stderr, "LOG : %s failed to connect : %s. Skip it!\n", dev.iface, strerror (errno));
memset (&write_pout, 0, sizeof (write_pout));
broadcast = 1;
}
else
{
fprintf (stderr, "LOG : %s failed to connect : %s. Try again later!\n", dev.iface, strerror (errno));
memset (&write_pout, 0, sizeof (write_pout));
broadcast = 1;
}
}
else
{
FD_SET (sendsocket, &wfds);
maxfd = MAX (maxfd, sendsocket);
fprintf (stderr, "LOG : Connection successful\n");
if (pos != 0) // save the socket
{
neighbours.fds[pos] = sendsocket;
}
else
{
/* Add the new device to the discovered devices list */
if (neighbours.size < MAX_PORTS)
{
neighbours.fds[neighbours.size] = sendsocket;
GNUNET_memcpy (&(neighbours.devices[neighbours.size++]), &addr.rc_bdaddr, sizeof (bdaddr_t));
}
else
{
fprintf (stderr, "The top limit for the discovarable devices' list was reached\n");
}
}
}
}
}
}
if (broadcast == 0)
{
/* Select a fd which is ready for action :) */
{
int retval = select (maxfd + 1, &rfds, &wfds, NULL, NULL);
if ((-1 == retval) && (EINTR == errno))
continue;
if (0 > retval && errno != EBADF) // we handle BADF errors later
{
fprintf (stderr, "select failed: %s\n", strerror (errno));
break;
}
}
if (FD_ISSET (STDOUT_FILENO , &wfds))
{
ssize_t ret =
write (STDOUT_FILENO, write_std.buf + write_std.pos,
write_std.size - write_std.pos);
if (0 > ret)
{
fprintf (stderr, "Failed to write to STDOUT: %s\n", strerror (errno));
break;
}
write_std.pos += ret;
if (write_std.pos == write_std.size)
{
write_std.pos = 0;
write_std.size = 0;
}
fprintf (stderr, "LOG : %s sends a message to STDOUT\n", dev.iface); //FIXME: debugging message
}
if (-1 != sendsocket)
{
if (FD_ISSET (sendsocket , &wfds))
{
ssize_t ret = write (sendsocket,
write_pout.buf + write_std.pos,
write_pout.size - write_pout.pos);
if (0 > ret) //FIXME should I first check the error type?
{
fprintf (stderr, "Failed to write to bluetooth device: %s. Closing the socket!\n",
strerror (errno));
for (i = 0; i < neighbours.size; i++)
{
if (neighbours.fds[i] == sendsocket)
{
(void) close(sendsocket);
neighbours.fds[i] = -1;
break;
}
}
/* Remove the message */
memset (&write_pout.buf + write_std.pos, 0, (write_pout.size - write_pout.pos));
write_pout.pos = 0 ;
write_pout.size = 0;
}
else
{
write_pout.pos += ret;
if ((write_pout.pos != write_pout.size) && (0 != ret))
{
/* We should not get partial sends with packet-oriented devices... */
fprintf (stderr, "Write error, partial send: %u/%u\n",
(unsigned int) write_pout.pos,
(unsigned int) write_pout.size);
break;
}
if (write_pout.pos == write_pout.size)
{
write_pout.pos = 0;
write_pout.size = 0;
}
fprintf (stderr, "LOG : %s sends a message to a DEVICE\n", dev.iface); //FIXME: debugging message
}
}
}
for (i = 0; i <= maxfd; i++)
{
if (FD_ISSET (i, &rfds))
{
if (i == STDIN_FILENO)
{
ssize_t ret =
read (i, readbuf, sizeof (readbuf));
if (0 > ret)
{
fprintf (stderr,
"Read error from STDIN: %s\n",
strerror (errno));
break;
}
if (0 == ret)
{
/* stop reading... */
stdin_open = 0;
}
else
{
mst_receive (stdin_mst, readbuf, ret);
fprintf (stderr, "LOG : %s receives a message from STDIN\n", dev.iface); //FIXME: debugging message
}
}
else if (i == dev.fd_rfcomm)
{
int readsocket;
struct sockaddr_rc addr = { 0 };
unsigned int opt = sizeof (addr);
readsocket = accept (dev.fd_rfcomm, (struct sockaddr *) &addr, &opt);
fprintf(stderr, "LOG : %s accepts a message\n", dev.iface); //FIXME: debugging message
if (readsocket == -1)
{
fprintf (stderr, "Failed to accept a connection on interface: %.*s\n", IFNAMSIZ,
strerror (errno));
break;
}
else
{
FD_SET (readsocket, &rfds);
maxfd = MAX (maxfd, readsocket);
if (crt_rfds < MAX_PORTS)
rfds_list[crt_rfds++] = readsocket;
else
{
fprintf (stderr, "The limit for the read file descriptors list was \
reached\n");
break;
}
}
}
else
{
struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage *rrm;
ssize_t ret;
fprintf (stderr, "LOG : %s reads something from the socket\n", dev.iface);//FIXME : debugging message
rrm = (struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage *) write_std.buf;
ret =
read_from_the_socket ((void *)&i, (unsigned char *) &rrm->frame,
sizeof (write_std.buf)
- sizeof (struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage)
+ sizeof (struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame),
rrm);
if (0 >= ret)
{
int j;
FD_CLR (i, &rfds);
close (i);
/* Remove the socket from the list */
for (j = 0; j < crt_rfds; j++)
{
if (rfds_list[j] == i)
{
rfds_list[j] ^= rfds_list[crt_rfds - 1];
rfds_list[crt_rfds - 1] ^= rfds_list[j];
rfds_list[j] ^= rfds_list[crt_rfds - 1];
crt_rfds -= 1;
break;
}
}
fprintf (stderr, "Read error from raw socket: %s\n", strerror (errno));
break;
}
if ((0 < ret) && (0 == mac_test (&rrm->frame, &dev)))
{
write_std.size = ret
+ sizeof (struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage)
- sizeof (struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame);
rrm->header.size = htons (write_std.size);
rrm->header.type = htons (GNUNET_MESSAGE_TYPE_WLAN_DATA_FROM_HELPER);
}
}
}
}
}
}
/* Error handling, try to clean up a bit at least */
mst_destroy (stdin_mst);
stdin_mst = NULL;
sdp_close (dev.session);
(void) close (dev.fd_rfcomm);
if (-1 != sendsocket)
(void) close (sendsocket);
for (i = 0; i < crt_rfds; i++)
(void) close (rfds_list[i]);
for (i = 0; i < neighbours.size; i++)
(void) close (neighbours.fds[i]);
#else
struct HardwareInfos dev;
struct GNUNET_NETWORK_Handle *sendsocket;
struct GNUNET_NETWORK_FDSet *rfds;
struct GNUNET_NETWORK_FDSet *wfds;
struct GNUNET_NETWORK_Handle *rfds_list[MAX_PORTS];
char readbuf[MAXLINE] = { 0 };
SOCKADDR_BTH acc_addr = { 0 };
int addr_len = sizeof (SOCKADDR_BTH);
int broadcast, i, stdin_open, crt_rfds = 0;
HANDLE stdin_handle = GetStdHandle (STD_INPUT_HANDLE);
HANDLE stdout_handle = GetStdHandle (STD_OUTPUT_HANDLE);
struct MessageStreamTokenizer *stdin_mst;
/* check the handles */
if (stdin_handle == INVALID_HANDLE_VALUE)
{
fprintf (stderr, "Failed to get the stdin handle\n");
ExitProcess (2);
}
if (stdout_handle == INVALID_HANDLE_VALUE)
{
fprintf (stderr, "Failed to get the stdout handle\n");
ExitProcess (2);
}
/* initialize windows sockets */
initialize_windows_sockets();
// /* test bluetooth socket family support */ --> it return false because the GNUNET_NETWORK_test_pf should also receive the type of socket (BTHPROTO_RFCOMM)
// if (GNUNET_NETWORK_test_pf (AF_BTH) != GNUNET_OK)
// {
// fprintf (stderr, "AF_BTH family is not supported\n");
// ExitProcess (2);
// }
/* create the socket */
dev.handle = GNUNET_NETWORK_socket_create (AF_BTH, SOCK_STREAM, BTHPROTO_RFCOMM);
if (dev.handle == NULL)
{
fprintf (stderr, "Failed to create RFCOMM socket: ");
print_last_error();
ExitProcess (2);
}
if (open_device (&dev) == -1)
{
fprintf (stderr, "Failed to open the device\n");
print_last_error();
if (GNUNET_NETWORK_socket_close (dev.handle) != GNUNET_OK)
{
fprintf (stderr, "Failed to close the socket!\n");
print_last_error();
}
ExitProcess (2);
}
if (GNUNET_OK != GNUNET_NETWORK_socket_set_blocking (dev.handle, 1) )
{
fprintf (stderr, "Failed to change the socket mode\n");
ExitProcess (2);
}
memset (&write_std, 0, sizeof (write_std));
memset (&write_pout, 0, sizeof (write_pout));
stdin_open = 1;
rfds = GNUNET_NETWORK_fdset_create ();
wfds = GNUNET_NETWORK_fdset_create ();
/* Send MAC address of the bluetooth interface to STDOUT first */
{
struct GNUNET_TRANSPORT_WLAN_HelperControlMessage macmsg;
macmsg.hdr.size = htons (sizeof (macmsg));
macmsg.hdr.type = htons (GNUNET_MESSAGE_TYPE_WLAN_HELPER_CONTROL);
GNUNET_memcpy (&macmsg.mac, &dev.pl_mac, sizeof (struct GNUNET_TRANSPORT_WLAN_MacAddress_Copy));
GNUNET_memcpy (write_std.buf, &macmsg, sizeof (macmsg));
write_std.size = sizeof (macmsg);
}
stdin_mst = mst_create (&stdin_send_hw, &dev);
stdin_open = 1;
int pos = 0;
int stdin_pos = -1;
int stdout_pos = -1;
while (1)
{
broadcast = 0;
pos = 0;
stdin_pos = -1;
stdout_pos = -1;
sendsocket = NULL; //FIXME ???memleaks
GNUNET_NETWORK_fdset_zero (rfds);
if ((0 == write_pout.size) && (1 == stdin_open))
{
stdin_pos = pos;
pos +=1;
GNUNET_NETWORK_fdset_handle_set (rfds, (struct GNUNET_DISK_FileHandle*) &stdin_handle);
}
if (0 == write_std.size)
{
pos += 1;
GNUNET_NETWORK_fdset_set (rfds, dev.handle);
}
for (i = 0; i < crt_rfds; i++)
{
pos += 1;
GNUNET_NETWORK_fdset_set (rfds, rfds_list[i]);
}
GNUNET_NETWORK_fdset_zero (wfds);
if (0 < write_std.size)
{
stdout_pos = pos;
GNUNET_NETWORK_fdset_handle_set (wfds, (struct GNUNET_DISK_FileHandle*) &stdout_handle);
// printf ("%s\n", write_std.buf);
// memset (write_std.buf, 0, write_std.size);
// write_std.size = 0;
}
if (0 < write_pout.size)
{
if (strcmp (argv[1], "ff:ff:ff:ff:ff:ff") == 0) {
fprintf(stderr, "LOG: BROADCAST! Skipping the message\n");
// skip the message
broadcast = 1;
memset (write_pout.buf, 0, write_pout.size);
write_pout.size = 0;
}
else
{
SOCKADDR_BTH addr;
fprintf (stderr, "LOG : has a new message for %s\n", argv[1]);
sendsocket = GNUNET_NETWORK_socket_create (AF_BTH, SOCK_STREAM, BTHPROTO_RFCOMM);
if (sendsocket == NULL)
{
fprintf (stderr, "Failed to create RFCOMM socket: \n");
print_last_error();
ExitProcess (2);
}
memset (&addr, 0, sizeof (addr));
//addr.addressFamily = AF_BTH;
if (SOCKET_ERROR ==
WSAStringToAddress (argv[1], AF_BTH, NULL, (LPSOCKADDR) &addr, &addr_len))
{
fprintf (stderr, "Failed to translate the address: ");
print_last_error();
ExitProcess ( 2 ) ;
}
addr.port = get_channel (argv[1]);
if (addr.port == -1)
{
fprintf (stderr, "Couldn't find the sdp service for the address: %s\n", argv[1]);
memset (write_pout.buf, 0, write_pout.size);
write_pout.size = 0;
broadcast = 1; //skipping the select part
}
else
{
if (GNUNET_OK != GNUNET_NETWORK_socket_connect (sendsocket, (LPSOCKADDR)&addr, addr_len))
{
fprintf (stderr, "Failed to connect: ");
print_last_error();
ExitProcess (2);
}
if (GNUNET_OK != GNUNET_NETWORK_socket_set_blocking (sendsocket, 1) )
{
fprintf (stderr, "Failed to change the socket mode\n");
ExitProcess (2);
}
GNUNET_NETWORK_fdset_set (wfds, sendsocket);
}
}
}
if (broadcast == 0)
{
int retval = GNUNET_NETWORK_socket_select (rfds, wfds, NULL, GNUNET_TIME_relative_get_forever_());
if (retval < 0)
{
fprintf (stderr, "Select error\n");
ExitProcess (2);
}
//if (GNUNET_NETWORK_fdset_isset (wfds, (struct GNUNET_NETWORK_Handle*)&stdout_handle))
if (retval == stdout_pos)
{
fprintf(stderr, "LOG : sends a message to STDOUT\n"); //FIXME: debugging message
//ssize_t ret;
//ret = GNUNET_NETWORK_socket_send ((struct GNUNET_NETWORK_Handle *)&stdout_handle, write_std.buf + write_std.pos, write_std.size - write_std.pos);
//ret = write (STDOUT_FILENO, write_std.buf + write_std.pos, write_std.size - write_std.pos);
DWORD ret;
if (FALSE == WriteFile (stdout_handle, write_std.buf + write_std.pos, write_std.size - write_std.pos, &ret, NULL))
{
fprintf (stderr, "Failed to write to STDOUT: ");
print_last_error();
break;
}
if (ret <= 0)
{
fprintf (stderr, "Failed to write to STDOUT\n");
ExitProcess (2);
}
write_std.pos += ret;
if (write_std.pos == write_std.size)
{
write_std.pos = 0;
write_std.size = 0;
}
}
if (sendsocket != NULL)
{
if (GNUNET_NETWORK_fdset_isset (wfds, sendsocket))
{
ssize_t ret;
ret = GNUNET_NETWORK_socket_send (sendsocket, write_pout.buf + write_pout.pos,
write_pout.size - write_pout.pos);
if (GNUNET_SYSERR == ret)
{
fprintf (stderr, "Failed to send to the socket. Closing the socket. Error: \n");
print_last_error();
if (GNUNET_NETWORK_socket_close (sendsocket) != GNUNET_OK)
{
fprintf (stderr, "Failed to close the sendsocket!\n");
print_last_error();
}
ExitProcess (2);
}
else
{
write_pout.pos += ret;
if ((write_pout.pos != write_pout.size) && (0 != ret))
{
/* we should not get partial sends with packet-oriented devices... */
fprintf (stderr, "Write error, partial send: %u/%u\n",
(unsigned int) write_pout.pos,
(unsigned int) write_pout.size);
break;
}
if (write_pout.pos == write_pout.size)
{
write_pout.pos = 0;
write_pout.size = 0;
}
fprintf(stderr, "LOG : sends a message to a DEVICE\n"); //FIXME: debugging message
}
}
}
//if (GNUNET_NETWORK_fdset_isset (rfds, (struct GNUNET_NETWORK_Handle*)&stdin_handle))
if (retval == stdin_pos)
{
//ssize_t ret;
//ret = GNUNET_NETWORK_socket_recv ((struct GNUNET_NETWORK_Handle *)&stdin_handle, readbuf, sizeof (write_pout.buf));
//ret = read (STDIN_FILENO, readbuf, sizeof (readbuf));
DWORD ret;
if (FALSE == ReadFile (stdin_handle, readbuf, sizeof (readbuf), &ret, NULL)) /* do nothing asynchronous */
{
fprintf (stderr, "Read error from STDIN: ");
print_last_error();
break;
}
if (0 == ret)
{
/* stop reading... */
stdin_open = 0;
} else {
mst_receive (stdin_mst, readbuf, ret);
fprintf (stderr, "LOG : receives a message from STDIN\n"); //FIXME: debugging message
}
}
else
if (GNUNET_NETWORK_fdset_isset (rfds, dev.handle))
{
fprintf (stderr, "LOG: accepting connection\n");
struct GNUNET_NETWORK_Handle *readsocket;
readsocket = GNUNET_NETWORK_socket_accept (dev.handle, (LPSOCKADDR)&acc_addr, &addr_len);
if (readsocket == NULL)
{
fprintf (stderr, "Accept error %d: ", GetLastError());
print_last_error();
ExitProcess (2);
}
else
{
if (GNUNET_OK != GNUNET_NETWORK_socket_set_blocking (readsocket, 1) )
{
fprintf (stderr, "Failed to change the socket mode\n");
ExitProcess (2);
}
GNUNET_NETWORK_fdset_set (rfds, readsocket);
if (crt_rfds < MAX_PORTS)
rfds_list[crt_rfds++] = readsocket;
else
{
fprintf (stderr, "The limit for the read file descriptors list was reached\n");
break;
}
}
}
else
for (i = 0; i < crt_rfds; i++)
{
if (GNUNET_NETWORK_fdset_isset (rfds, rfds_list[i]))
{
struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage *rrm;
ssize_t ret;
fprintf (stderr, "LOG: reading something from the socket\n");//FIXME : debugging message
rrm = (struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage *) write_std.buf;
ret = read_from_the_socket (rfds_list[i], (unsigned char *) &rrm->frame,
sizeof (write_std.buf)
- sizeof (struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage)
+ sizeof (struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame),
rrm);
if (0 >= ret)
{
//TODO remove the socket from the list
if (GNUNET_NETWORK_socket_close (rfds_list[i]) != GNUNET_OK)
{
fprintf (stderr, "Failed to close the sendsocket!\n");
print_last_error();
}
fprintf (stderr, "Read error from raw socket: ");
print_last_error();
break;
}
if ((0 < ret) && (0 == mac_test (&rrm->frame, &dev)))
{
write_std.size = ret
+ sizeof (struct GNUNET_TRANSPORT_WLAN_RadiotapReceiveMessage)
- sizeof (struct GNUNET_TRANSPORT_WLAN_Ieee80211Frame);
rrm->header.size = htons (write_std.size);
rrm->header.type = htons (GNUNET_MESSAGE_TYPE_WLAN_DATA_FROM_HELPER);
}
break;
}
}
}
}
mst_destroy (stdin_mst);
stdin_mst = NULL;
if (GNUNET_NETWORK_socket_close (dev.handle) != GNUNET_OK)
{
fprintf (stderr, "Failed to close the socket!\n");
print_last_error();
}
for (i = 0; i < crt_rfds; i++)
{
if (GNUNET_NETWORK_socket_close (rfds_list[i]) != GNUNET_OK)
{
fprintf (stderr, "Failed to close the socket!\n");
print_last_error();
}
}
WSACleanup();
#endif
return 1; /* we never exit 'normally' */
}
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