Exemple #1
0
int checkout(char* dest, int client_id)
{
	FILE * f;
	string command;
	string new_dest;
	string old_dest;
	strcat(dest,"/cvs");
	
	if ((f = fopen(dest, "r")) != NULL) {
		client_send("The directory already exists", client_id); 
		client_send(END_OF_TRANSMISSION, client_id);
		return 0;
	}
    
    new_dest = remove_last_appended(dest);
    run_command(COMMAND_CP_2, REPOSITORY_PATH, new_dest);
    
    command = append_to_path(dest, "/.cvs");
        
    if ((f = fopen(command, "w")) != NULL) {
		fprintf(f, "%d\n", client_id);
		fclose(f);
	}
	
	free(command);
	
	old_dest = append_to_path(dest, "old");

	run_command(COMMAND_RM, old_dest, NULL);
		
	client_send("Checked out", client_id);
	client_send(END_OF_TRANSMISSION, client_id);
	
    return 0;
}
Exemple #2
0
/* array = '[' [ value { ',' value } ] ']' */
static int parse_array(struct frozen *f) {
  int i = 0, current_path_len;
  char buf[20];
  CALL_BACK(f, JSON_TYPE_ARRAY_START, NULL, 0);
  TRY(test_and_skip(f, '['));
  {
    {
      SET_STATE(f, f->cur - 1, "", 0);
      while (cur(f) != ']') {
        snprintf(buf, sizeof(buf), "[%d]", i);
        i++;
        current_path_len = append_to_path(f, buf, strlen(buf));
        f->cur_name =
            f->path + strlen(f->path) - strlen(buf) + 1 /*opening brace*/;
        f->cur_name_len = strlen(buf) - 2 /*braces*/;
        TRY(parse_value(f));
        truncate_path(f, current_path_len);
        if (cur(f) == ',') f->cur++;
      }
      TRY(test_and_skip(f, ']'));
      truncate_path(f, fstate.path_len);
      CALL_BACK(f, JSON_TYPE_ARRAY_END, fstate.ptr, f->cur - fstate.ptr);
    }
  }
  return 0;
}
Exemple #3
0
static int
do_cd(void)
{
    int ret = -1;
    char name[MAX_FILE_NAME_LENGTH + 1];
    char *path;
    struct directory *dir;

    if (read_all(STDIN, name, MAX_FILE_NAME_LENGTH) != MAX_FILE_NAME_LENGTH)
        return -1;
    name[MAX_FILE_NAME_LENGTH] = '\0';

    if ((path = get_path_from_dir(&vfs, pwd)) == NULL)
        return -1;

    if ((path = append_to_path(path, name)) == NULL)
        goto free_path;

    if ((dir = lookup_dir(&vfs, path, 1)) == NULL)
        goto free_path;

    pwd = dir;
    ret = 0;

free_path:
    free(path);
    return ret;
}
Exemple #4
0
static int
do_rm(void)
{
    int ret = -1;
    char name[MAX_FILE_NAME_LENGTH + 1];
    char *path;
    struct file *file;

    if (read_all(STDIN, name, MAX_FILE_NAME_LENGTH) != MAX_FILE_NAME_LENGTH)
        return -1;
    name[MAX_FILE_NAME_LENGTH] = '\0';

    if ((path = get_path_from_dir(&vfs, pwd)) == NULL)
        return -1;

    if ((path = append_to_path(path, name)) == NULL)
        goto free_path;

    if ((file = lookup_file(&vfs, path, 1)) == NULL)
        goto free_path;

    if (delete_file(&vfs, USER_UID, file) != 0)
        goto free_path;

    ret = 0;

free_path:
    free(path);
    return ret;
}
Exemple #5
0
static int
do_read(void)
{
    int ret = -1;
    char name[MAX_FILE_NAME_LENGTH + 1];
    char *contents, *path;
    struct file *file;

    if (read_all(STDIN, name, MAX_FILE_NAME_LENGTH) != MAX_FILE_NAME_LENGTH)
        return -1;
    name[MAX_FILE_NAME_LENGTH] = '\0';

    if ((path = get_path_from_dir(&vfs, pwd)) == NULL)
        return -1;

    if ((path = append_to_path(path, name)) == NULL)
        goto free_path;

    if ((file = lookup_file(&vfs, path, 1)) == NULL)
        goto free_path;

    if (read_file(&vfs, USER_UID, path, (unsigned char **)&contents) != 0)
        goto free_path;

    write_all(STDOUT, contents, file->size);
    ret = 0;

free_path:
    free(path);
    return ret;
}
Exemple #6
0
int rename_file(char* dest, char* file, char * new_name, int client_id){
	string local_old_path, server_old_path, local_new_path, server_new_path;
	string position, file_folder;
	string old_repo_path = calloc(1, MAX_PATH_LENGTH);
	string filename, newname, file_path, new_path;
	char old_file[MAX_PATH_LENGTH];
	char old_new_name[MAX_PATH_LENGTH];
	int version;
	struct dirent entry;
	struct dirent * result;
	DIR * old;
	local_old_path = append_to_path(dest, file);
	local_new_path = append_to_path(dest, new_name);
	server_old_path = append_to_path(REPOSITORY_PATH, file);
	server_new_path = append_to_path(REPOSITORY_PATH, new_name);
	if (!get_node_from_path(repository_tree, file)) {
		client_send("File not found in server", client_id);
		client_send(END_OF_TRANSMISSION, client_id);
		return NON_EXISTING_FILE;
	} 
	
	run_command(COMMAND_MV, local_old_path, local_new_path);
	run_command(COMMAND_MV, server_old_path, server_new_path);
	
	file_folder = remove_last_appended(file);
	old_repo_path = append_to_path(OLD_REPO_PATH, file_folder);
	
	if (!(old = opendir(old_repo_path))) {
		client_send("File renamed", client_id);
		client_send(END_OF_TRANSMISSION, client_id);
		return SUCCESS;
	}
	
	filename = get_last_path(file);
	newname = get_last_path(new_name);
	
	do {
		readdir_r(old, &entry, &result);
		if ( strncmp(entry.d_name, ".", 1) && strncmp(entry.d_name, "..", 2)){
			if (!strncmp(filename, entry.d_name, strlen(filename))) {
				position = strchr(entry.d_name, '-');
				if (position) {
					sscanf(position+1, "%d", &version);
					sprintf(old_new_name, "%s-%d", newname, version); 
					file_path = append_to_path(old_repo_path, entry.d_name);
					new_path = append_to_path(old_repo_path, old_new_name);
					run_command(COMMAND_MV, file_path, new_path);
				}
			}
		}
	} while ( result != NULL );

	repository_tree = (fstree_t)new_fstree();
	retrieve_tree(REPOSITORY_PATH, repository_tree->root);
	
	client_send("File renamed.", client_id);
	client_send(END_OF_TRANSMISSION, client_id);
}
Exemple #7
0
/* pair = key ':' value */
static int parse_pair(struct frozen *f) {
  int current_path_len;
  const char *tok;
  skip_whitespaces(f);
  tok = f->cur;
  TRY(parse_key(f));
  current_path_len =
      append_to_path(f, *tok == '"' ? tok + 1 : tok,
                     *tok == '"' ? f->cur - tok - 2 : f->cur - tok);
  TRY(test_and_skip(f, ':'));
  TRY(parse_value(f));
  truncate_path(f, current_path_len);
  return 0;
}
Exemple #8
0
static int
do_write(void)
{
    int ret = -1;
    char name[MAX_FILE_NAME_LENGTH + 1];
    size_t size;
    char *contents, *path;
    struct file *file;

    if (read_all(STDIN, name, MAX_FILE_NAME_LENGTH) != MAX_FILE_NAME_LENGTH)
        return -1;
    name[MAX_FILE_NAME_LENGTH] = '\0';

    if (read_all(STDIN, &size, sizeof(size)) != sizeof(size))
        return -1;

    if (size > MAX_FILE_SIZE)
        return -1;

    if ((contents = calloc(size)) == NULL)
        return -1;

    if (read_all(STDIN, contents, size) != size)
        goto free_contents;

    if ((path = get_path_from_dir(&vfs, pwd)) == NULL)
        goto free_contents;

    if ((path = append_to_path(path, name)) == NULL)
        goto free_path;

    if ((file = create_file(&vfs, path)) == NULL)
        goto free_path;

    if (write_file(&vfs, USER_UID, path, (unsigned char *)contents, size) != 0)
        goto free_path;

    free(path);
    return 0;

free_path:
    free(path);
free_contents:
    free(contents);
    return ret;
}
Exemple #9
0
/* array = '[' [ value { ',' value } ] ']' */
static int parse_array(struct frozen *f) {
  int i = 0, current_path_len;
  char buf[20];
  TRY(test_and_skip(f, '['));
  {
    SET_STATE(f, f->cur - 1, JSON_TYPE_ARRAY, "", 0);
    while (cur(f) != ']') {
      snprintf(buf, sizeof(buf), "[%d]", i);
      i++;
      current_path_len = append_to_path(f, buf, strlen(buf));
      TRY(parse_value(f));
      truncate_path(f, current_path_len);
      if (cur(f) == ',') f->cur++;
    }
    TRY(test_and_skip(f, ']'));
    CALL_BACK(f);
  }
  return 0;
}
Exemple #10
0
static int
do_ln(void)
{
    int ret = -1;
    char name[MAX_FILE_NAME_LENGTH + 1];
    size_t size;
    char *src, *dst;

    if (read_all(STDIN, name, MAX_FILE_NAME_LENGTH) != MAX_FILE_NAME_LENGTH)
        return -1;
    name[MAX_FILE_NAME_LENGTH] = '\0';

    if (read_all(STDIN, &size, sizeof(size)) != sizeof(size))
        return -1;

    if (size > MAX_FILE_SIZE)
        return -1;

    if ((dst = calloc(size + 1)) == NULL)
        return -1;

    if (read_all(STDIN, dst, size) != size)
        goto free_dst;

    if ((src = get_path_from_dir(&vfs, pwd)) == NULL)
        goto free_dst;

    if ((src = append_to_path(src, name)) == NULL)
        goto free_src;

    if (create_symlink(&vfs, USER_UID, src, dst) != 0)
        goto free_src;

    ret = 0;

free_src:
    free(src);
free_dst:
    free(dst);
    return ret;
}
static long route_full(long src, long dst)
{
	long next_node,tmp,tmp2,this_node,exit_switch,i;
	//for each dimension i, if the coordinates differ, then ammend them.
	//if i is not next_nodej and next_node and dst do not differ at
	//next_nodej then we need to leave next_node via the intersection of
	//next_node and dst at these coordinates; otherwise, we choose
	//arbitrarily, but (try to do it) in a way that balances the usage
	//of the links in the network.  Finally, settle into dstj coordinate
	//if necessary.
	next_node=src;
	for(i=0; i<param_k; i++) {
		if(coordinates_intersect(src,dst,i)==-1) {
			if(get_j(next_node)!=i) {
				//we are changing on dimension i, but if next_node and dst do
				//not differ at dimension get_j(next_node) (different from i),
				//then we may need to exit get_j(next_node) via a specific
				//switch.  otherwise pick one arbitrarily.
				if((exit_switch=
				            coordinates_intersect(next_node,dst,get_j(next_node)))==-1 ||
				        exit_switch==param_n) {
					//THIS DEALS WITH THE param_n return value
					//coordinates_intersect
#ifdef DEBUG
					if(src!=next_node) {
						printf("Expected next_node=src in this case\n");
						exit(-1);
					}
#endif
#ifdef DETERMINISTIC
					exit_switch=make_det(src,dst)?get_uj(next_node):get_upj(next_node);
#else
					exit_switch=(rand()%2)?get_uj(next_node):get_upj(next_node);
#endif
				}
				//having chosen an exit switch, we append this switch to the path
				if((next_node =
				            append_to_path(
				                next_node,
				                (exit_switch==get_uj(next_node))?0:1
				            )
				   )
				        == -1
				  ) {
					empty_path(&path,&path_tail);
					return -1;
				}
				//next_node is now a switch and we need to get to the server
				//on dimension i.
			} else { //we are changing on dimension get_j(next_node), so the
				//exit switch is arbitrary, since these dimensions differ.
#ifdef DEBUG
				if(src!=next_node) {
					printf("Expected next_node=src in this case\n");
					exit(-1);
				}
#endif
#ifdef DETERMINISTIC
				if((next_node =
				            append_to_path(next_node,
				                           ((
				                                make_det(src,dst)
				                            )?0:1)))==-1)
#else
				if((next_node = append_to_path(next_node,rand()%2))==-1)
#endif
				{
					empty_path(&path,&path_tail);
					return -1;
				}

			}
			//next_node is a switch here
			if((next_node =
			            append_to_path(
			                next_node,
			                get_port_to_server(
			                    next_node,
			                    i,
			                    (get_j(dst)==i)?
#ifdef DETERMINISTIC
			                    (make_det(src,dst)?
			                     get_uj(dst)
			                     :
			                     get_upj(dst))
#else
			                    ((rand()%2)?
			                     get_uj(dst)
			                     :
			                     get_upj(dst))
#endif


			                    :
			                    label[dst][i]
			                )
			            ))==-1) {
				empty_path(&path,&path_tail);
				return -1;
			}
		}
#ifdef DEBUG
		if(coordinates_intersect(next_node,dst,i)==-1) {
			empty_path(&path,&path_tail);
			return -1;
		}
#endif
	}
	//  Settling step.
	if(next_node==dst)
		return 1;
	//next_node and dst at same switch
	this_node=next_node;
	if(((next_node =  network[this_node].port[tmp=0].neighbour.node) ==
	        network[dst].port[tmp2=1].neighbour.node )
	        ||
	        (network[this_node].port[0].neighbour.node ==
	         network[dst].port[tmp2=0].neighbour.node )
	        ||
	        ((next_node =  network[this_node].port[tmp=1].neighbour.node) ==
	         network[dst].port[tmp2=1].neighbour.node )
	        ||
	        (network[this_node].port[1].neighbour.node) ==
	        network[dst].port[tmp2=0].neighbour.node ) {
		if( ((next_node=append_to_path(this_node,tmp))==-1) ||
		        ((next_node=
		              append_to_path(next_node,
		                             network[dst].port[tmp2].neighbour.port))==-1)
		  ) {
			empty_path(&path,&path_tail);
			return -1;
		}
		return 1;
	} else return 1;
}