Exemple #1
0
int rhizome_manifest_bind_id(rhizome_manifest *m_in, const unsigned char *authorSid)
{
  rhizome_manifest_createid(m_in);
  /* The ID is implicit in transit, but we need to store it in the file, so that reimporting
     manifests on receiver nodes works easily.  We might implement something that strips the id
     variable out of the manifest when sending it, or some other scheme to avoid sending all the
     extra bytes. */
  char id[RHIZOME_MANIFEST_ID_STRLEN + 1];
  rhizome_bytes_to_hex_upper(m_in->cryptoSignPublic, id, RHIZOME_MANIFEST_ID_BYTES);
  rhizome_manifest_set(m_in, "id", id);
  if (authorSid) {
    /* Set the BK using the provided authorship information.
       Serval Security Framework defines BK as being:
       BK = privateKey XOR sha512(RS##BID), where BID = cryptoSignPublic, 
       and RS is the rhizome secret for the specified author. 
       The nice thing about this specification is that:
       privateKey = BK XOR sha512(RS##BID), so the same function can be used
       to encrypt and decrypt the BK field. */
    unsigned char bkbytes[RHIZOME_BUNDLE_KEY_BYTES];
    if (rhizome_bk_xor(authorSid, m_in->cryptoSignPublic, m_in->cryptoSignSecret, bkbytes) == 0) {
      char bkhex[RHIZOME_BUNDLE_KEY_STRLEN + 1];
      (void) tohex(bkhex, bkbytes, RHIZOME_BUNDLE_KEY_BYTES);
      if (debug&DEBUG_RHIZOME) DEBUGF("set BK=%s", bkhex);
      rhizome_manifest_set(m_in, "BK", bkhex);
    } else {
      return WHY("Failed to set BK");
    }
  }
  return 0;
}
Exemple #2
0
int rhizome_manifest_bind_file(rhizome_manifest *m_in,const char *filename,int encryptP)
{
  /* Keep payload file name handy for later */
  m_in->dataFileName = strdup(filename);

  /* Keep note as to whether we are supposed to be encrypting this file or not */
  m_in->payloadEncryption=encryptP;
  if (encryptP) rhizome_manifest_set_ll(m_in,"crypt",1); 
  else rhizome_manifest_set_ll(m_in,"crypt",0);

  /* Get length of payload.  An empty filename means empty payload. */
  if (filename[0]) {
    struct stat stat;
    if (lstat(filename,&stat))
      return WHYF("Could not stat() payload file '%s'",filename);
    m_in->fileLength = stat.st_size;
  } else
    m_in->fileLength = 0;
  if (debug & DEBUG_RHIZOME)
    DEBUGF("filename=%s, fileLength=%lld", filename, m_in->fileLength);
  rhizome_manifest_set_ll(m_in,"filesize",m_in->fileLength);

  /* Compute hash of non-empty payload */
  if (m_in->fileLength != 0) {
    char hexhashbuf[RHIZOME_FILEHASH_STRLEN + 1];
    if (rhizome_hash_file(m_in,filename, hexhashbuf))
      return WHY("Could not hash file.");
    memcpy(&m_in->fileHexHash[0], &hexhashbuf[0], sizeof hexhashbuf);
    rhizome_manifest_set(m_in, "filehash", m_in->fileHexHash);
    m_in->fileHashedP = 1;
  } else {
    m_in->fileHexHash[0] = '\0';
    rhizome_manifest_del(m_in, "filehash");
    m_in->fileHashedP = 0;
  }
  
  return 0;
}
Exemple #3
0
/* Import a bundle from the inbox folder.
   Check that the manifest prototype is valid, and if so, complete it, and sign it if required and possible.

   Note that bundles can either be an ordinary bundle, or a group description.
   Group specifications are simply manifests that have the "isagroup" variable set.
   Groups get stored in the manifests table AND a reference included in the 
   grouplist table.
   Groups are allowed to be listed as being members of other groups.
   This allows a nested, i.e., multi-level group heirarchy where sub-groups will only
   typically be discovered by joining the parent group.  Probably not a bad way to do
   things.

   The file should be included in the specified rhizome groups, if possible.
   (some groups may be closed groups that we do not have the private key for.)
*/
int rhizome_bundle_import(char *bundle,char *groups[], int ttl,
			  int verifyP, int checkFileP, int signP)
{
  char filename[1024];
  char manifestname[1024];
  char *buffer;
  
  snprintf(filename,1024,"%s/import/file.%s",rhizome_datastore_path,bundle); filename[1023]=0;
  snprintf(manifestname,1024,"%s/import/manifest.%s",rhizome_datastore_path,bundle); manifestname[1023]=0;

  /* Open files */
  rhizome_manifest *m=rhizome_read_manifest_file(manifestname,0 /* file not buffer */,
						 RHIZOME_VERIFY);
  if (!m) return WHY("Could not read manifest file.");
  char hexhash[SHA512_DIGEST_STRING_LENGTH];

  /* work out time to live */
  if (ttl<0) ttl=0; if (ttl>254) ttl=254; m->ttl=ttl;

  /* Keep associated file name handy for later */
  m->dataFileName=strdup(filename);
  struct stat stat;
  if (lstat(filename,&stat)) {
    return WHY("Could not stat() associated file");
    m->fileLength=stat.st_size;
  }

  if (checkFileP||signP) {
    if (rhizome_hash_file(filename,hexhash))
      { rhizome_manifest_free(m); return WHY("Could not hash file."); }
    bcopy(&hexhash[0],&m->fileHexHash[0],SHA512_DIGEST_STRING_LENGTH);
    m->fileHashedP=1;
  }

  if (verifyP)
    {
      /* Make sure hashes match.
	 Make sure that no signature verification errors were spotted on loading. */
      int verifyErrors=0;
      char *mhexhash;
      if (checkFileP) {
	if ((mhexhash=rhizome_manifest_get(m,"filehash",NULL,0))!=NULL)
	  if (strcmp(hexhash,mhexhash)) verifyErrors++; }
      if (m->errors) verifyErrors+=m->errors;
      if (verifyErrors) {
	rhizome_manifest_free(m);
	unlink(manifestname);
	unlink(filename);
	return WHY("Errors encountered verifying bundle manifest");
      }
    }

  if (!verifyP) {
    if ((buffer=rhizome_manifest_get(m,"id",NULL,0))!=NULL) {
      /* No bundle id (256 bit random string being a public key in the NaCl CryptoSign crypto system),
	 so create one, and keep the private key handy. */
      printf("manifest does not have an id\n");
      rhizome_manifest_createid(m);
      /* The ID is implicit in transit, but we need to store it in the file,
	 so that reimporting manifests on receiver nodes works easily.
	 We might implement something that strips the id variable out of the
	 manifest when sending it, or some other scheme to avoid sending all 
	 the extra bytes. */	
      rhizome_manifest_set(m,"id",rhizome_bytes_to_hex(m->cryptoSignPublic,crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES));
    } else {
      /* An ID was specified, so remember it, and look for the private key if
	 we have it stowed away */
      rhizome_hex_to_bytes(buffer,m->cryptoSignPublic,
			   crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES*2); 
      if (!rhizome_find_keypair_bytes(m->cryptoSignPublic,m->cryptoSignSecret))
	m->haveSecret=1;
    }

    rhizome_manifest_set(m,"filehash",hexhash);
    if (rhizome_manifest_get(m,"version",NULL,0)==NULL)
      /* Version not set, so set one */
      rhizome_manifest_set_ll(m,"version",overlay_gettime_ms());
    rhizome_manifest_set_ll(m,"first_byte",0);
    rhizome_manifest_set_ll(m,"last_byte",rhizome_file_size(filename));
  }
   
  /* Discard if it is older than the most recent known version */
  long long storedversion = sqlite_exec_int64("SELECT version from manifests where id='%s';",rhizome_bytes_to_hex(m->cryptoSignPublic,crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES));
  if (storedversion>rhizome_manifest_get_ll(m,"version"))
    {
      rhizome_manifest_free(m);
      return WHY("Newer version exists");
    }
					      
  /* Add group memberships */
					      
int i;
  if (groups) for(i=0;groups[i];i++) rhizome_manifest_add_group(m,groups[i]);

  if (rhizome_manifest_finalise(m,signP)) {
    return WHY("Failed to finalise manifest.\n");
  }

  /* Write manifest back to disk */
  if (rhizome_write_manifest_file(m,manifestname)) {
    rhizome_manifest_free(m);
    return WHY("Could not write manifest file.");
  }

  /* Okay, it is written, and can be put directly into the rhizome database now */
  int r=rhizome_store_bundle(m,filename);
  if (!r) {
    // XXX For testing   unlink(manifestname);
    unlink(filename);
    return 0;
  }

  return WHY("rhizome_store_bundle() failed.");
}
int rhizome_direct_form_received(rhizome_http_request *r)
{
  const char *submitBareFileURI=confValueGet("rhizome.api.addfile.uri", NULL);

  /* Process completed form based on the set of fields seen */
  if (!strcmp(r->path,"/rhizome/import")) {
    switch(r->fields_seen) {
    case RD_MIME_STATE_MANIFESTHEADERS | RD_MIME_STATE_DATAHEADERS: {
	/* Got a bundle to import */
	DEBUGF("Call bundle import for rhizomedata.%d.{data,file}",
	       r->alarm.poll.fd);
	strbuf manifest_path = strbuf_alloca(50);
	strbuf payload_path = strbuf_alloca(50);
	strbuf_sprintf(manifest_path, "rhizomedirect.%d.manifest", r->alarm.poll.fd);
	strbuf_sprintf(payload_path, "rhizomedirect.%d.data", r->alarm.poll.fd);
	int ret = rhizome_bundle_import_files(strbuf_str(manifest_path), strbuf_str(payload_path), 1); // ttl = 1
	
	DEBUGF("Import returned %d",ret);
	
	rhizome_direct_clear_temporary_files(r);
	/* report back to caller.
	  200 = ok, which is probably appropriate for when we already had the bundle.
	  201 = content created, which is probably appropriate for when we successfully
	  import a bundle (or if we already have it).
	  403 = forbidden, which might be appropriate if we refuse to accept it, e.g.,
	  the import fails due to malformed data etc.
	  (should probably also indicate if we have a newer version if possible)
	*/
	switch (ret) {
	case 0:
	  return rhizome_server_simple_http_response(r, 201, "Bundle succesfully imported.");
	case 2:
	  return rhizome_server_simple_http_response(r, 200, "Bundle already imported.");
	}
	return rhizome_server_simple_http_response(r, 500, "Server error: Rhizome import command failed.");
      }
      break;     
    default:
      /* Clean up after ourselves */
      rhizome_direct_clear_temporary_files(r);	     
    }
  } else if (!strcmp(r->path,"/rhizome/enquiry")) {
    int fd=-1;
    char file[1024];
    switch(r->fields_seen) {
    case RD_MIME_STATE_DATAHEADERS:
      /* Read data buffer in, pass to rhizome direct for comparison with local
	 rhizome database, and send back responses. */
      snprintf(file,1024,"rhizomedirect.%d.%s",r->alarm.poll.fd,"data");
      fd=open(file,O_RDONLY);
      if (fd == -1) {
	WHYF_perror("open(%s, O_RDONLY)", alloca_str_toprint(file));
	/* Clean up after ourselves */
	rhizome_direct_clear_temporary_files(r);	     
	return rhizome_server_simple_http_response(r,500,"Couldn't read a file");
      }
      struct stat stat;
      if (fstat(fd, &stat) == -1) {
	WHYF_perror("stat(%d)", fd);
	/* Clean up after ourselves */
	close(fd);
	rhizome_direct_clear_temporary_files(r);	     
	return rhizome_server_simple_http_response(r,500,"Couldn't stat a file");
      }
      unsigned char *addr = mmap(NULL, stat.st_size, PROT_READ, MAP_SHARED, fd, 0);
      if (addr==MAP_FAILED) {
	WHYF_perror("mmap(NULL, %lld, PROT_READ, MAP_SHARED, %d, 0)", (long long) stat.st_size, fd);
	/* Clean up after ourselves */
	close(fd);
	rhizome_direct_clear_temporary_files(r);	     
	return rhizome_server_simple_http_response(r,500,"Couldn't mmap() a file");
      }
      /* Ask for a fill response.  Regardless of the size of the set of BARs passed
	 to us, we will allow up to 64KB of response. */
      rhizome_direct_bundle_cursor 
	*c=rhizome_direct_get_fill_response(addr,stat.st_size,65536);
      munmap(addr,stat.st_size);
      close(fd);

      if (c)
	{
	  /* TODO: Write out_buffer as the body of the response.
	     We should be able to do this using the async framework fairly easily.
	  */
	  
	  int bytes=c->buffer_offset_bytes+c->buffer_used;
	  r->buffer=malloc(bytes+1024);
	  r->buffer_size=bytes+1024;
	  r->buffer_offset=0;
	  assert(r->buffer);

	  /* Write HTTP response header */
	  struct http_response hr;
	  hr.result_code=200;
	  hr.content_type="binary/octet-stream";
	  hr.content_length=bytes;
	  hr.body=NULL;
	  r->request_type=0;
	  rhizome_server_set_response(r,&hr);
	  assert(r->buffer_offset<1024);

	  /* Now append body and send it back. */
	  bcopy(c->buffer,&r->buffer[r->buffer_length],bytes);
	  r->buffer_length+=bytes;
	  r->buffer_offset=0;

	  /* Clean up cursor after sending response */
	  rhizome_direct_bundle_iterator_free(&c);
	  /* Clean up after ourselves */
	  rhizome_direct_clear_temporary_files(r);	     

	  return 0;
	}
      else
	{
	  return rhizome_server_simple_http_response(r,500,"Could not get response to enquiry");
	}

      /* Clean up after ourselves */
      rhizome_direct_clear_temporary_files(r);	     
      break;
    default:
      /* Clean up after ourselves */
      rhizome_direct_clear_temporary_files(r);	     

      return rhizome_server_simple_http_response(r, 404, "/rhizome/enquiry requires 'data' field");
    }
  }  
  /* Allow servald to be configured to accept files without manifests via HTTP
     from localhost, so that rhizome bundles can be created programatically.
     There are probably still some security loop-holes here, which is part of
     why we leave it disabled by default, but it will be sufficient for testing
     possible uses, including integration with OpenDataKit.
  */
  else if (submitBareFileURI&&(!strcmp(r->path,submitBareFileURI))) {
    if (strcmp(inet_ntoa(r->requestor.sin_addr),
	       confValueGet("rhizome.api.addfile.allowedaddress","127.0.0.1")))
      {	
	DEBUGF("rhizome.api.addfile request received from %s, but is only allowed from %s",
	       inet_ntoa(r->requestor.sin_addr),
	       confValueGet("rhizome.api.addfile.allowedaddress", "127.0.0.1"));

	rhizome_direct_clear_temporary_files(r);	     
	return rhizome_server_simple_http_response(r,404,"Not available from here.");
      }

    switch(r->fields_seen) {
    case RD_MIME_STATE_DATAHEADERS:
      /* We have been given a file without a manifest, we should only
	 accept if it we are configured to do so, and the connection is from
	 localhost.  Otherwise people could cause your servald to create
	 arbitrary bundles, which would be bad.
      */
      /* A bundle to import */
      DEBUGF("Call bundle import sans-manifest for rhizomedata.%d.{data,file}",
	     r->alarm.poll.fd);
      
      char filepath[1024];
      snprintf(filepath,1024,"rhizomedirect.%d.data",r->alarm.poll.fd);

      const char *manifestTemplate
	=confValueGet("rhizome.api.addfile.manifesttemplate", NULL);
      
      if (manifestTemplate&&access(manifestTemplate, R_OK) != 0)
	{
	  rhizome_direct_clear_temporary_files(r);	     
	  return rhizome_server_simple_http_response(r,500,"rhizome.api.addfile.manifesttemplate points to a file I could not read.");
	}

      rhizome_manifest *m = rhizome_new_manifest();
      if (!m)
	{
	  rhizome_server_simple_http_response(r,500,"No free manifest slots. Try again later.");
	  rhizome_direct_clear_temporary_files(r);	     
	  return WHY("Manifest struct could not be allocated -- not added to rhizome");
	}

      if (manifestTemplate)
	if (rhizome_read_manifest_file(m, manifestTemplate, 0) == -1) {
	  rhizome_manifest_free(m);
	  rhizome_direct_clear_temporary_files(r);	     
	  return rhizome_server_simple_http_response(r,500,"rhizome.api.addfile.manifesttemplate can't be read as a manifest.");
	}

      /* Fill in a few missing manifest fields, to make it easier to use when adding new files:
	 - the default service is FILE
	 - use the current time for "date"
	 - if service is file, then use the payload file's basename for "name"
      */
      const char *service = rhizome_manifest_get(m, "service", NULL, 0);
      if (service == NULL) {
	rhizome_manifest_set(m, "service", (service = RHIZOME_SERVICE_FILE));
	if (debug & DEBUG_RHIZOME) DEBUGF("missing 'service', set default service=%s", service);
      } else {
	if (debug & DEBUG_RHIZOME) DEBUGF("manifest contains service=%s", service);
      }
      if (rhizome_manifest_get(m, "date", NULL, 0) == NULL) {
	rhizome_manifest_set_ll(m, "date", (long long) gettime_ms());
	if (debug & DEBUG_RHIZOME) DEBUGF("missing 'date', set default date=%s", rhizome_manifest_get(m, "date", NULL, 0));
      }

      const char *name = rhizome_manifest_get(m, "name", NULL, 0);
      if (name == NULL) {
	name=r->data_file_name;
	rhizome_manifest_set(m, "name", r->data_file_name);
	if (debug & DEBUG_RHIZOME) DEBUGF("missing 'name', set name=\"%s\" from HTTP post field filename specification", name);
      } else {
	if (debug & DEBUG_RHIZOME) DEBUGF("manifest contains name=\"%s\"", name);
      }

      const char *senderhex
	= rhizome_manifest_get(m, "sender", NULL, 0);
      if (!senderhex) senderhex=confValueGet("rhizome.api.addfile.author",NULL);
      unsigned char authorSid[SID_SIZE];
      if (senderhex) fromhexstr(authorSid,senderhex,SID_SIZE);
      const char *bskhex
	=confValueGet("rhizome.api.addfile.bundlesecretkey", NULL);   

      /* Bind an ID to the manifest, and also bind the file.  Then finalise the 
	 manifest. But if the manifest already contains an ID, don't override it. */
      if (rhizome_manifest_get(m, "id", NULL, 0) == NULL) {
	if (rhizome_manifest_bind_id(m, senderhex ? authorSid : NULL)) {
	  rhizome_manifest_free(m);
	  m = NULL;
	  rhizome_direct_clear_temporary_files(r);
	  return rhizome_server_simple_http_response(r,500,"Could not bind manifest to an ID");
	}	
      } else if (bskhex) {
	/* Allow user to specify a bundle secret key so that the same bundle can
	   be updated, rather than creating a new bundle each time. */
	unsigned char bsk[RHIZOME_BUNDLE_KEY_BYTES];
	fromhexstr(bsk,bskhex,RHIZOME_BUNDLE_KEY_BYTES);
	memcpy(m->cryptoSignSecret, bsk, RHIZOME_BUNDLE_KEY_BYTES);
	if (rhizome_verify_bundle_privatekey(m) == -1) {
	  rhizome_manifest_free(m);
	  m = NULL;
	  rhizome_direct_clear_temporary_files(r);
	  return rhizome_server_simple_http_response(r,500,"rhizome.api.addfile.bundlesecretkey did not verify.  Using the right key for the right bundle?");
	}
      } else {
	/* Bundle ID specified, but without a BSK or sender SID specified.
	   Therefore we cannot work out the bundle key, and cannot update the
	   bundle. */
	rhizome_manifest_free(m);
	m = NULL;
	rhizome_direct_clear_temporary_files(r);
	return rhizome_server_simple_http_response(r,500,"rhizome.api.addfile.bundlesecretkey not set, and manifest template contains no sender, but template contains a hard-wired bundle ID.  You must specify at least one, or not supply id= in the manifest template.");
	
      }
      
      int encryptP = 0; // TODO Determine here whether payload is to be encrypted.
      if (rhizome_manifest_bind_file(m, filepath, encryptP)) {
	rhizome_manifest_free(m);
	rhizome_direct_clear_temporary_files(r);
	return rhizome_server_simple_http_response(r,500,"Could not bind manifest to file");
      }      
      if (rhizome_manifest_finalise(m)) {
	rhizome_manifest_free(m);
	rhizome_direct_clear_temporary_files(r);
	return rhizome_server_simple_http_response(r,500,
						   "Could not finalise manifest");
      }
      if (rhizome_add_manifest(m,255 /* TTL */)) {
	rhizome_manifest_free(m);
	rhizome_direct_clear_temporary_files(r);
	return rhizome_server_simple_http_response(r,500,
						   "Add manifest operation failed");
      }
            
      DEBUGF("Import sans-manifest appeared to succeed");
      
      /* Respond with the manifest that was added. */
      rhizome_server_simple_http_response(r, 200, (char *)m->manifestdata);

      /* clean up after ourselves */
      rhizome_manifest_free(m);
      rhizome_direct_clear_temporary_files(r);

      return 0;
      break;
    default:
      /* Clean up after ourselves */
      rhizome_direct_clear_temporary_files(r);	     
      
      return rhizome_server_simple_http_response(r, 400, "Rhizome create bundle from file API requires 'data' field");     
    }
  }  

  /* Clean up after ourselves */
  rhizome_direct_clear_temporary_files(r);	     
  /* Report error */
  return rhizome_server_simple_http_response(r, 500, "Something went wrong.  Probably a missing data or manifest part, or invalid combination of URI and data/manifest provision.");

}