Exemplo n.º 1
0
int extract_message_and_get_prev(char *curr_id) {
    //fprintf(stdout,"In extract message\n");
    char directory_navigator[BEARGIT_LENGTH + COMMIT_ID_SIZE + 6];
    sprintf(directory_navigator, ".beargit/%s/.msg", curr_id);
    if (access(directory_navigator, F_OK) == -1){
       // fprintf(stdout, "in if\n");
        return 1;
    }

    fprintf(stdout, "commit %s\n", curr_id);
    char message[MSG_SIZE];
    read_string_from_file(directory_navigator, message, sizeof(message));
    fprintf(stdout,"   %s", message);
    fprintf(stdout,"\n\n");

    sprintf(directory_navigator, ".beargit/%s/.prev", curr_id);
    //fprintf(stdout, "*********BEFORE-SWITCH ************\n%s\n", curr_id);
    read_string_from_file(directory_navigator,curr_id, COMMIT_ID_SIZE);
    //fprintf(stdout,"*********AFTER-SWITCH ************\n%s\n", curr_id);



 return 0;

}
Exemplo n.º 2
0
Arquivo: ubi.c Projeto: Artox/fstools
static int ubi_volume_init(struct volume *v)
{
	struct ubi_volume *p = container_of(v, struct ubi_volume, v);
	char voldir[BUFLEN], voldev[BUFLEN], *volname;
	unsigned int volsize;

	snprintf(voldir, sizeof(voldir), "%s/ubi%u/ubi%u_%u",
		ubi_dir_name, p->ubi_num, p->ubi_num, p->ubi_volid);

	snprintf(voldev, sizeof(voldev), "/dev/ubi%u_%u",
		p->ubi_num, p->ubi_volid);

	volname = read_string_from_file(voldir, "name");
	if (!volname)
		return -1;

	if (read_uint_from_file(voldir, "data_bytes", &volsize))
		return -1;

	v->name = volname;
	v->type = UBIVOLUME;
	v->size = volsize;
	v->blk = strdup(voldev);

	return 0;
}
Exemplo n.º 3
0
/*
    Returns 0 if passwords match.
    Returns -1 if password does not match stored hash
    Returns 1 if password file cannot be opened
*/
int verify_password_from_file(char * password){

  FILE * password_file = fopen(PASSWORD_FILE, "r");
  if (NULL != password_file){


    // Grab the base64 encoded hash from the passwords file
    char stored_hash[BCRYPT_HASHSIZE];
    read_string_from_file(stored_hash, BCRYPT_HASHSIZE, password_file, NULL);
    fclose(password_file);

    return bcrypt_checkpw(password, stored_hash);

    //
    // // Convert base 64 encoded PW hash into binary string
    // int stored_hash_num_bytes = Base64decode_len(stored_hash);
    // char * stored_hash_bytes = (char *) calloc(stored_hash_num_bytes, sizeof(char));
    // Base64decode(stored_hash_bytes, stored_hash);
    //
    // // Hash the user's submitted password
    // unsigned char hash[crypto_hash_BYTES];
    // crypto_hash(hash, (unsigned char *) password, strlen(password));
    //
    // // Compare hashes using constant time function to prevent timing attacks
    // return crypto_verify_32((unsigned char *) stored_hash_bytes, hash);
  }
  return 1;
}
Exemplo n.º 4
0
int beargit_log(int limit) {
    /* COMPLETE THE REST */
    char commit_id[COMMIT_ID_SIZE];
    read_string_from_file(".beargit/.prev", commit_id, COMMIT_ID_SIZE);
    if (strcmp(init_id, commit_id) == 0) { // if there has been no commits
        // throw error
        fprintf(stderr, "ERROR: There are no commits!\n");
        return 1;
    } else { // if there has been commits
        if (limit > 0) { // if limit is greater than 0
            // print limit amount
            char prev_commit[COMMIT_ID_SIZE];
            // read the prev_commit from .prev
            read_string_from_file(".beargit/.prev", prev_commit, COMMIT_ID_SIZE);
            // while limit != 0, and prev_commit != 40s 0
            //
            //printf("\n");
            while ((limit != 0) && (strcmp(init_id, prev_commit) != 0)) {
                limit--; // limit down by 1
                printf("\ncommit %s\n", prev_commit);

                char prev_msg_dir[FILENAME_SIZE];
                strcpy(prev_msg_dir, ".beargit/");
                strcat(prev_msg_dir, prev_commit); // .beargit/<prev_id>
                strcat(prev_msg_dir, "/.msg"); // .beargit/<prev_id>/.msg
                char prev_msg[MSG_SIZE];
                read_string_from_file(prev_msg_dir, prev_msg, MSG_SIZE);
                printf("    %s", prev_msg);
                char temp_prev_commit[FILENAME_SIZE];
                strcpy(temp_prev_commit, ".beargit/"); // .beargit/
                strcat(temp_prev_commit, prev_commit); // .beargit/<prev_id>
                strcat(temp_prev_commit, "/.prev"); // .beargit/<previ_id>/.prev
                // overwrite prev_commit with .prev from its .prev
                read_string_from_file(temp_prev_commit, prev_commit, COMMIT_ID_SIZE);
                printf("\n");
            }
            printf("\n");
        }

    }
    return 0;
}
Exemplo n.º 5
0
int is_HEAD() {
    char HEAD_STRING[BRANCHNAME_SIZE];
    read_string_from_file(".beargit/.current_branch", HEAD_STRING, BRANCHNAME_SIZE);

    int i = strlen(HEAD_STRING);
    if (i != 0) {
        return 1;
    }

    return 0;
}
Exemplo n.º 6
0
void Config::read(const std::string& config_dir, const std::string& app_name, bool ignoreFileExists) {
    config_file = get_config_file_full_name(config_dir, app_name);
    fileExists = file_exists(config_file);
    if(ignoreFileExists && !fileExists)
        return;
    auto json = read_string_from_file(config_file);
    if(json=="")
        return;
    setting = parse_json_settings(json);
    Config::httpConf.host = setting["kodiHostIp"];
    Config::httpConf.port = setting["port"];
    Config::httpConf.timeout = (uint_fast32_t) std::stoi(Config::setting["httpTimeOutMs"]);
}
Exemplo n.º 7
0
/*
 * Brings memory block online/offline using the sysfs memory-hotplug interface
 *   https://www.kernel.org/doc/Documentation/memory-hotplug.txt
 */
static
int change_memblock_state(uint32_t mem_block_id, mem_state_t new_state)
{
    int status = 0;
    const char *cmd;
    mem_state_t cur_state;
    char buf[BUF_SIZE];
    char numa_file_path[BUF_SIZE];

    sprintf(numa_file_path, MEMBLK_STATE_PATH_FMT, mem_block_id);

    status = read_string_from_file(numa_file_path, buf, sizeof(buf));
    if (status < 0)
        goto done;

    cur_state = !!strstr(buf, STATE_ONLINE) ?
                NV_IOCTL_NUMA_STATUS_ONLINE : NV_IOCTL_NUMA_STATUS_OFFLINE;

    if (cur_state == new_state)
        goto done;

    switch (new_state)
    {
        case NV_IOCTL_NUMA_STATUS_ONLINE:
            cmd = BRING_ONLINE_CMD;
            break;
        case NV_IOCTL_NUMA_STATUS_OFFLINE:
            cmd = BRING_OFFLINE_CMD;
            break;
        default:
            return -EINVAL;
    }

    status = write_string_to_file(numa_file_path, cmd, strlen(cmd));

done:
    if (status == 0) {
        SYSLOG_VERBOSE(LOG_DEBUG,
                       "NUMA: Successfully changed memblock state of %s to %s\n",
                       numa_file_path, mem_state_to_string(new_state));
    }
    else {
        SYSLOG_VERBOSE(LOG_DEBUG,
                       "NUMA: Failed to change state of %s to %s: %s\n",
                       numa_file_path, mem_state_to_string(new_state),
                       strerror(-status));
    }

    return status;
}
Exemplo n.º 8
0
/**
 * Reads keys in keyfile if group GN_CLIENT is in that keyfile and fills
 * options_t *opt structure accordingly.
 * @param[in,out] opt : options_t * structure to store options read from the
 *                configuration file "filename".
 * @param keyfile is the GKeyFile structure that is used by glib to read
 *        groups and keys from.
 * @param filename : the filename of the configuration file to read from
 */
static void read_from_group_client(options_t *opt, GKeyFile *keyfile, gchar *filename)
{
    gchar *dircache = NULL;
    gint cmptype = 0;

    if (keyfile != NULL && filename != NULL && g_key_file_has_group(keyfile, GN_CLIENT) == TRUE)
        {
            /* Reading the directory list */
            opt->dirname_list = read_list_from_file(keyfile, filename, GN_CLIENT, KN_DIR_LIST, _("Could not load directory list from file"));
            opt->exclude_list = read_list_from_file(keyfile, filename, GN_CLIENT, KN_EXC_LIST, _("Could not load exclude file list from file"));

            /* Reading blocksize */
            opt->blocksize = read_int64_from_file(keyfile, filename, GN_CLIENT, KN_BLOCK_SIZE, _("Could not load blocksize from file"), CLIENT_BLOCK_SIZE);

            /* Reading the cache directory if any */
            dircache = read_string_from_file(keyfile, filename, GN_CLIENT, KN_CACHE_DIR, _("Could not load directory name"));
            opt->dircache = normalize_directory(dircache);
            free_variable(dircache);

            /* Reading filename of the database if any */
            opt->dbname = read_string_from_file(keyfile, filename, GN_CLIENT, KN_DB_NAME, _("Could not load cache database name"));

            /* Adaptative mode for blocksize ? */
            opt->adaptive = read_boolean_from_file(keyfile, filename, GN_CLIENT, KN_ADAPTIVE, _("Could not load adaptive configuration from file."));

            /* Scanning option */
            opt->noscan = read_boolean_from_file(keyfile, filename, GN_CLIENT, KN_NOSCAN, _("Could not load scan configuration from file."));

            /* Buffer size to be used to send data to server */
            opt->buffersize = read_int_from_file(keyfile, filename, GN_CLIENT, KN_BUFFER_SIZE, _("Could not load buffersize from file"), CLIENT_MIN_BUFFER);

            /* Compression type if any */
            cmptype = read_int_from_file(keyfile, filename, GN_CLIENT, KN_COMPRESSION_TYPE, _("Compression type not defined in configuration file"), opt->cmptype);
            set_compression_type(opt, cmptype);
        }

}
Exemplo n.º 9
0
void next_commit_id(char* commit_id) {
   /* COMPLETE THE REST */
  char cur_branch[BRANCHNAME_SIZE];
  read_string_from_file(".beargit/.current_branch", cur_branch, BRANCHNAME_SIZE);
  if(!strlen(cur_branch)) {
    *commit_id = '\0';
  } else {
    char combined[BRANCHNAME_SIZE + COMMIT_ID_SIZE];
    sprintf(combined, "%s%s", cur_branch, commit_id);
    //fprintf(stdout, "Crypto %s \n", commit_id);
   // fprintf(stdout, "%s\n", cur_branch);
    cryptohash(combined, commit_id);
   // fprintf(stdout, "Crypto-After %s \n", commit_id);
  }
}
Exemplo n.º 10
0
void next_commit_id(char* commit_id) {
  char current_branch[BRANCHNAME_SIZE];
  read_string_from_file(".beargit/.current_branch", current_branch, BRANCHNAME_SIZE);

  // The first COMMIT_ID_BRANCH_BYTES=10 characters of the commit ID will
  // be used to encode the current branch number. This is necessary to avoid
  // duplicate IDs in different branches, as they can have the same pre-
  // decessor (so next_commit_id has to depend on something else).
  int n = get_branch_number(current_branch);
  for (int i = 0; i < COMMIT_ID_BRANCH_BYTES; i++) {
    commit_id[i] = digits[n%3];
    n /= 3;
  }
  next_commit_id_part1(commit_id + COMMIT_ID_BRANCH_BYTES);
}
Exemplo n.º 11
0
/**
 * Reads keys in keyfile if groupname is in that keyfile and fills
 * options_t *opt structure accordingly.
 * @param[in,out] opt : options_t * structure to store options read from the
 *                configuration file "filename".
 * @param keyfile is the GKeyFile structure that is used by glib to read
 *        groups and keys from.
 * @param filename : the filename of the configuration file to read from
 */
static void read_from_group_server(options_t *opt, GKeyFile *keyfile, gchar *filename)
{
    gint port = 0;

    if (opt != NULL && keyfile != NULL && filename != NULL && g_key_file_has_group(keyfile, GN_SERVER) == TRUE)
    {
        /* Reading the port number if any */
        port = read_int_from_file(keyfile, filename, GN_SERVER, KN_SERVER_PORT, _("Could not load server port number from file."), SERVER_PORT);

        if (port > 1024 && port < 65535)
        {
            opt->port = port;
        }

        /* Reading IP address of server's host if any */
        opt->ip = read_string_from_file(keyfile, filename, GN_SERVER, KN_SERVER_IP, _("Could not load cache database name"));
    }
}
Exemplo n.º 12
0
int beargit_log(int limit) {
  /* COMPLETE THE REST */
  int counter = 0;
  if (!initialCheck()) {
      fprintf(stderr, "ERROR:  There are no commits.\n");
      return 1;
  } else {
      char prev_commit_id[COMMIT_ID_SIZE];
    //fprintf(stdout, "Before while\n");
      read_string_from_file(".beargit/.prev",prev_commit_id, sizeof(prev_commit_id));
      while ((counter < limit) && !extract_message_and_get_prev(prev_commit_id)) {
          //fprintf(stdout,"In While\n");
          ++counter;
      }


  }
  return 0;
}
Exemplo n.º 13
0
int beargit_branch() {
  /* COMPLETE THE REST */
  FILE *branch_file = fopen(".beargit/.branches", "r");
  char branch[BRANCHNAME_SIZE];
  char curr_branch[BRANCHNAME_SIZE];
  read_string_from_file(".beargit/.current_branch", curr_branch, sizeof(curr_branch));
  //fprintf(stdout,"%s\n", curr_branch);
  while (fgets(branch, sizeof(branch), branch_file)) {
    strtok(branch, "\n");
    //fprintf(stdout, "%s\n", branch);
    if ( !strcmp(branch,curr_branch)) {
        fprintf(stdout, "*  %s\n", branch);
    } else {
        fprintf(stdout, "   %s\n", branch);
    }
  }
  fclose(branch_file);

  return 0;
}
Exemplo n.º 14
0
int beargit_merge(const char* arg) {
  // Get the commit_id or throw an error
  char commit_id[COMMIT_ID_SIZE];
  if (!is_it_a_commit_id(arg)) {
      if (get_branch_number(arg) == -1) {
            fprintf(stderr, "ERROR:  No branch or commit %s exists.\n", arg);
            return 1;
      }
      char branch_file[FILENAME_SIZE];
      snprintf(branch_file, FILENAME_SIZE, ".beargit/.branch_%s", arg);
      read_string_from_file(branch_file, commit_id, COMMIT_ID_SIZE);
  } else {
      snprintf(commit_id, COMMIT_ID_SIZE, "%s", arg);
  }

  // Iterate through each line of the commit_id index and determine how you
  // should copy the index file over
   /* COMPLETE THE REST */
  char commit_index[BEARGIT_LENGTH + COMMIT_ID_SIZE + 10];
  sprintf(commit_index,".beargit/%s/.index", commit_id);
  FILE *index = fopen(commit_index, "r");
  char file[FILENAME_SIZE];
  while(fgets(file, sizeof(file), index)) {
    strtok(file, "\n");
    if(file_in_index(file)){
      char confilcted_file[FILENAME_SIZE +COMMIT_ID_SIZE+10];
      char file_name_in_commit[BEARGIT_LENGTH + COMMIT_ID_SIZE + FILENAME_SIZE+10];
      sprintf(file_name_in_commit, ".beargit/%s/%s", commit_id, file);
      sprintf(confilcted_file, "%s.%s",file,commit_id);
      fs_cp(file_name_in_commit, confilcted_file);
      fprintf(stdout, "%s conflicted copy created\n", file);
    } else {
      char file_name_in_commit[BEARGIT_LENGTH + COMMIT_ID_SIZE + FILENAME_SIZE+10];
      sprintf(file_name_in_commit, ".beargit/%s/%s", commit_id, file);
      fs_cp(file_name_in_commit, file);
      fprintf(stdout, "%s added\n", file);
    }
  }
  fclose(index);
  return 0;
}
Exemplo n.º 15
0
int beargit_branch() {
    /* COMPLETE THE REST */
    FILE* findex = fopen(".beargit/.branches", "r");
    char line[BRANCHNAME_SIZE];
    char curren_branch_name [BRANCHNAME_SIZE];
    read_string_from_file(".beargit/.current_branch", curren_branch_name, BRANCHNAME_SIZE);

    while(fgets(line, sizeof(line), findex)) {
        strtok(line, "\n"); /* Split string to files */

        if (!strcmp(line, curren_branch_name))
        {
            printf("* %s\n", line);
        }
        else
        {
            printf("  %s\n", line);
        }
    }
    fclose(findex);
    return 0;
}
Exemplo n.º 16
0
Arquivo: ubi.c Projeto: unixz/fstools
static int ubi_volume_match(struct volume *v, char *name, int ubi_num, int volid)
{
	char voldir[BUFLEN], volblkdev[BUFLEN], *volname;
	struct ubi_priv *p;

	snprintf(voldir, sizeof(voldir), "%s/ubi%u/ubi%u_%u",
		ubi_dir_name, ubi_num, ubi_num, volid);

	snprintf(volblkdev, sizeof(volblkdev), "/dev/ubiblock%u_%u",
		ubi_num, volid);

	/* skip if ubiblock device exists */
	if (test_open(volblkdev))
		return -1;

	/* todo: skip existing gluebi device for legacy support */

	volname = read_string_from_file(voldir, "name");
	if (!volname) {
		ULOG_ERR("Couldn't read %s/name\n", voldir);
		return -1;
	}

	if (strncmp(name, volname, strlen(volname) + 1))
		return -1;

	p = calloc(1, sizeof(struct ubi_priv));
	if (!p)
		return -1;

	v->priv = p;
	v->drv = &ubi_driver;
	p->ubi_num = ubi_num;
	p->ubi_volid = volid;

	return ubi_volume_init(v);
}
Exemplo n.º 17
0
int beargit_branch() {
  /* COMPLETE THE REST */
 FILE* fbranches = fopen(".beargit/.branches", "r");
 //FILE* current_branch = fopen("./beargit/.current_branch", "r");
 char line[FILENAME_SIZE];
 char current[BRANCHNAME_SIZE];
 printf("%s",line);
 read_string_from_file(".beargit/.current_branch", current, BRANCHNAME_SIZE);

 while(fgets(line, sizeof(line), fbranches)){
  /////////////////////
  strtok(line, "\n");
      if(strcmp(line, current) == 0){
        printf("* %s\n", current);
      }
      else{
        printf("  %s\n", line);
      }

 }
 fclose(fbranches);
 //fclose(current_branch);
  return 0;
}
Exemplo n.º 18
0
int beargit_commit(const char* msg) {
  if (!is_commit_msg_ok(msg)) {
    fprintf(stderr, "ERROR:  Message must contain \"%s\"\n", go_bears);
    return 1;
  }

  char commit_id[COMMIT_ID_SIZE];
  read_string_from_file(".beargit/.prev", commit_id, COMMIT_ID_SIZE);
  next_commit_id(commit_id);
  //fprintf(stdout, "Before Kostya's mistake");

  /* COMPLETE THE REST */
  if(*commit_id == '\0'){
    fprintf(stderr, "ERROR:  Need to be on HEAD of a branch to commit.\n");
    return 1;
  }
  char bear_directory[BEARGIT_LENGTH + COMMIT_ID_SIZE];
  char fileNames[FILENAME_SIZE];
  sprintf(bear_directory, ".beargit/%s", commit_id);
  fs_mkdir(bear_directory);
  copy_files(".beargit/.index", bear_directory, 1);
  copy_files(".beargit/.prev", bear_directory, 1);

  FILE *tracked_files = fopen(".beargit/.index", "r");

  while(fgets(fileNames,sizeof(fileNames), tracked_files)) {
      strtok(fileNames, "\n");
      copy_files(fileNames, bear_directory, 0);
  }
  sprintf(fileNames,"%s/.msg", bear_directory);
  write_string_to_file(fileNames,msg);

  write_string_to_file(".beargit/.prev", commit_id);
  fclose(tracked_files);
  return 0;
}
Exemplo n.º 19
0
//This suite tests merging multiple files. It first tests for error cases, then
//it tests for non-conflicting files then test for conflicted files.
void merge_test(void) {

    struct commit* commit_list = NULL;
    int retval;
    retval = beargit_init();
    CU_ASSERT(0==retval);

    write_string_to_file("wug.txt", "Dis a wug");
    write_string_to_file("wug1.txt", "Dis a wug 1.5");
    write_string_to_file("wug2.txt", "Der two wugz");
    write_string_to_file("wug3.txt", "Dis not a wug");

    retval = beargit_add("wug.txt");
    CU_ASSERT(0==retval);
    retval = beargit_add("wug1.txt");
    CU_ASSERT(0==retval);
    run_commit(&commit_list, "THIS IS BEAR TERRITORY!1");

    //save commit1's ID
    char commit1_id[512] = "";
    read_string_from_file(".beargit/.prev", commit1_id, 512);

    retval = beargit_add("wug2.txt");
    CU_ASSERT(0==retval);
    run_commit(&commit_list, "THIS IS BEAR TERRITORY!2");

    //remove wug, wug1 and wug2
    fs_rm("wug.txt");
    retval = beargit_rm("wug.txt");
    CU_ASSERT(0==retval);

    fs_rm("wug1.txt");
    retval = beargit_rm("wug1.txt");
    CU_ASSERT(0==retval);

    fs_rm("wug2.txt");
    retval = beargit_rm("wug2.txt");
    CU_ASSERT(0==retval);

    //add wug3 & commit
    retval = beargit_add("wug3.txt");
    CU_ASSERT(0==retval);
    run_commit(&commit_list, "THIS IS BEAR TERRITORY!3");

    //Check for err msg when merging non existent commit ID / brench
    retval = beargit_merge("alskdfjlaskfj");
    CU_ASSERT(1==retval); //first line of stderr: "ERROR:  No branch or commit alskdfjlaskfj exists."

    //test merging non-conflicted files
    retval = beargit_merge(commit1_id);
    CU_ASSERT(0==retval); //first line of stdout: "wug.txt added\nwug1.txt added\n"
    //check files actually moved
    FILE* fstdout_wug = fopen("wug.txt", "r");
    CU_ASSERT_PTR_NOT_NULL(fstdout_wug);
    FILE* fstdout_wug1 = fopen("wug1.txt", "r");
    CU_ASSERT_PTR_NOT_NULL(fstdout_wug1);
    fclose(fstdout_wug);
    fclose(fstdout_wug1);


    //test merging conflicted files
    retval = beargit_merge(commit1_id);
    CU_ASSERT(0==retval); //first line of stdout: "wug.txt conflicted copy created \nwug1.txt conflicted copy created\n"
    //check conflicted files created
    char wugc[512] = "wug.txt.";
    strcat(wugc, commit1_id);
    char wugc1[512] = "wug1.txt.";
    strcat(wugc1, commit1_id);

    FILE* fstdout_wugc = fopen(wugc, "r");
    CU_ASSERT_PTR_NOT_NULL(fstdout_wugc);
    FILE* fstdout_wugc1 = fopen(wugc1, "r");
    CU_ASSERT_PTR_NOT_NULL(fstdout_wugc1);
    fclose(fstdout_wugc);
    fclose(fstdout_wugc1);

    //Read stderr file
    char PostToBe4Err[512] = "ERROR:  No branch or commit alskdfjlaskfj exists.\n";

    char ActualErr[512] ="";
    read_string_from_file("TEST_STDERR", ActualErr, 512);
    CU_ASSERT(strcmp(PostToBe4Err, ActualErr) == 0);

    // read stdout
    char PostToBe[512] = "wug.txt added\nwug1.txt added\nwug.txt conflicted copy created\nwug1.txt conflicted copy created\n";

    char Actual[512] ="";
    read_string_from_file("TEST_STDOUT", Actual, 512);
    CU_ASSERT(strcmp(PostToBe, Actual) == 0);


    free_commit_list(&commit_list);
}
Exemplo n.º 20
0
static void
start_element(
	GMarkupParseContext *ctx, 
	const gchar *tag, 
	const gchar **attr_names,
	const gchar **attr_values,
	gpointer ud,
	GError **error)
{
	parse_data_t *pd = (parse_data_t*)ud;
	union 
	{
		gint id;
		gpointer pid;
	} id;
	gint ii;

	// Check to see if the first element found has been closed
	// If so, ignore any junk following it.
	if (pd->closed_top)
		return;

	for (ii = 0; ii < TAG_MAP_SZ; ii++)
	{
		if (strcmp(tag, tag_map[ii].tag) == 0)
		{
			id.id = tag_map[ii].id;
			break;
		}
	}
	if (ii == TAG_MAP_SZ)
	{
		g_warning("Unrecognized start tag (%s)", tag);
		return;
	}
	g_queue_push_head(pd->tag_stack, id.pid);
	GType gtype = 0;
	GValue *gval = NULL;
	GValue *current = g_queue_peek_head(pd->stack);
	switch (id.id)
	{
		case R_SECTION:
		{
			const gchar *name;

			name = lookup_attr_value("name", attr_names, attr_values);
			if (name && strcmp(name, "icons") == 0)
			{
				gval = ghb_dict_value_new();
				if (pd->key) g_free(pd->key);
				pd->key = g_strdup(name);
				g_queue_push_head(pd->stack, gval);
			}
		} break;
		case R_ICON:
		{
			gchar *filename;
			const gchar *name;

			name = lookup_attr_value("file", attr_names, attr_values);
			filename = find_file(inc_list, name);
			name = lookup_attr_value("name", attr_names, attr_values);
			if (filename && name)
			{
				ghb_rawdata_t *rd;
				GdkPixbuf *pb;
				GError *err = NULL;

				pb = gdk_pixbuf_new_from_file(filename, &err);
				if (pb == NULL)
				{
					g_warning("Failed to open icon file %s: %s", filename, err->message);
					break;
				}
				gval = ghb_dict_value_new();
				int colorspace = gdk_pixbuf_get_colorspace(pb);
				gboolean alpha = gdk_pixbuf_get_has_alpha(pb);
				int width = gdk_pixbuf_get_width(pb);
				int height = gdk_pixbuf_get_height(pb);
				int bps = gdk_pixbuf_get_bits_per_sample(pb);
				int rowstride = gdk_pixbuf_get_rowstride(pb);

				ghb_dict_insert(gval, g_strdup("colorspace"), 
								ghb_int_value_new(colorspace));
				ghb_dict_insert(gval, g_strdup("alpha"), 
								ghb_boolean_value_new(alpha));
				ghb_dict_insert(gval, g_strdup("width"), 
								ghb_int_value_new(width));
				ghb_dict_insert(gval, g_strdup("height"), 
								ghb_int_value_new(height));
				ghb_dict_insert(gval, g_strdup("bps"), 
								ghb_int_value_new(bps));
				ghb_dict_insert(gval, g_strdup("rowstride"), 
								ghb_int_value_new(rowstride));

				rd = g_malloc(sizeof(ghb_rawdata_t));
				rd->data = gdk_pixbuf_get_pixels(pb);
				rd->size = height * rowstride * bps / 8;
				GValue *data = ghb_rawdata_value_new(rd);
				ghb_dict_insert(gval, g_strdup("data"), data);

				if (pd->key) g_free(pd->key);
				pd->key = g_strdup(name);
				g_free(filename);
			}
			else
			{
				g_warning("%s:missing a requried attribute", name);
    			exit(EXIT_FAILURE);
			}
		} break;
		case R_PLIST:
		{
			gchar *filename;
			const gchar *name;

			name = lookup_attr_value("file", attr_names, attr_values);
			filename = find_file(inc_list, name);
			name = lookup_attr_value("name", attr_names, attr_values);
			if (filename && name)
			{
				gval = ghb_plist_parse_file(filename);
				if (pd->key) g_free(pd->key);
				pd->key = g_strdup(name);
				g_free(filename);
			}
			else
			{
				g_warning("%s:missing a requried attribute", name);
    			exit(EXIT_FAILURE);
			}
		} break;
		case R_STRING:
		{
			gchar *filename;
			const gchar *name;

			name = lookup_attr_value("file", attr_names, attr_values);
			filename = find_file(inc_list, name);
			name = lookup_attr_value("name", attr_names, attr_values);
			if (filename && name)
			{
				gval = read_string_from_file(filename);
				if (pd->key) g_free(pd->key);
				pd->key = g_strdup(name);
				g_free(filename);
			}
			else
			{
				g_warning("%s:missing a requried attribute", name);
    			exit(EXIT_FAILURE);
			}
		} break;
	}
	// Add the element to the current container
	if (gval)
	{ // There's an element to add
		if (current == NULL)
		{
			pd->plist = gval;
			return;
		}
		gtype = G_VALUE_TYPE(current);
		if (gtype == ghb_array_get_type())
		{
			ghb_array_append(current, gval);
		}
		else if (gtype == ghb_dict_get_type())
		{
			if (pd->key == NULL)
			{
				g_warning("No key for dictionary item");
				ghb_value_free(gval);
			}
			else
			{
				ghb_dict_insert(current, g_strdup(pd->key), gval);
			}
		}
		else
		{
			g_error("Invalid container type. This shouldn't happen");
		}
	}
}
Exemplo n.º 21
0
//this test tests reset. It checks for the two erroring cases
//It checks if reset replaces the version of the file in the
//working directory with the specified file for reset.
//it also tests if index is update and file is sucessfully
//reset if the file is not in the working directory.
void reset_test(void) {
    struct commit* commit_list = NULL;
    int retval;
    retval = beargit_init();
    CU_ASSERT(0==retval);

    write_string_to_file("wug.txt", "Dis a wug");
    write_string_to_file("wug2.txt", "Der two wugz");
    write_string_to_file("wug3.txt", "Dis not a wug");

    retval = beargit_add("wug.txt");
    CU_ASSERT(0==retval);
    run_commit(&commit_list, "THIS IS BEAR TERRITORY!1");

    retval = beargit_add("wug2.txt");
    CU_ASSERT(0==retval);
    run_commit(&commit_list, "THIS IS BEAR TERRITORY!2");

    retval = beargit_add("wug3.txt");
    CU_ASSERT(0==retval);
    run_commit(&commit_list, "THIS IS BEAR TERRITORY!3");

    char commit_id[512] = "";
    read_string_from_file(".beargit/.prev", commit_id, 512);

    //Check for error if commit doens't exit
    retval = beargit_reset("alskdfjlaskfj", "wug.txt");
    CU_ASSERT(1==retval); //first line of stderr: "ERROR:  Commit alskdfjlaskfj does not exist.\n"

    //Check for error if file not in commit
    retval = beargit_reset(commit_id, "wug6.txt");
    CU_ASSERT(1==retval); //second line of stderr: "ERROR:  wug6.txt is not in the index of commit [insert commit_id].\n"

    //modifies wug.txt in working directory
    write_string_to_file("wug.txt", "JK dis not a wug");

    //Resets wug.txt from commit 3
    retval = beargit_reset(commit_id, "wug.txt");
    CU_ASSERT(0==retval);
    char stuffinwug[512] = "";
    read_string_from_file("wug.txt", stuffinwug, 512);
    CU_ASSERT(strcmp(stuffinwug, "Dis a wug") == 0);

    //remove wug3.txt
    fs_rm("wug3.txt");
    retval = beargit_rm("wug3.txt");
    CU_ASSERT(retval == 0);
    FILE* fstdout_wug = fopen("wug3.txt", "r");
    CU_ASSERT_PTR_NULL(fstdout_wug);


    //try to reset wug3.txt
    retval = beargit_reset(commit_id, "wug3.txt");
    FILE* check_wug_exist = fopen("wug3.txt", "r");
    CU_ASSERT_PTR_NOT_NULL(check_wug_exist);
    char check_index_4wug[512] = "";
    read_string_from_file(".beargit/.index", check_index_4wug, 512);
    char PostToBe[512] = "wug2.txt\nwug.txt\nwug3.txt\n";
    CU_ASSERT(strcmp(check_index_4wug, PostToBe) == 0);
    fclose(check_wug_exist);

    //Read stderr file

    char PostToBe4Err[512] = "";
    strcat(PostToBe4Err, "ERROR:  Commit alskdfjlaskfj does not exist.\nERROR:  wug6.txt is not in the index of commit ");
    strcat(PostToBe4Err, commit_id);
    strcat(PostToBe4Err, ".\n");

    char ActualErr[512] ="";
    read_string_from_file("TEST_STDERR", ActualErr, 512);
    CU_ASSERT(strcmp(PostToBe4Err, ActualErr) == 0);

    free_commit_list(&commit_list);
}
Exemplo n.º 22
0
int beargit_commit(const char* msg) {
  if (!is_commit_msg_ok(msg)) {
    fprintf(stderr, "ERROR: Message must contain \"%s\"\n", go_bears);
    return 1;
  }

  //////////////////////// FIX 
  char curr[BRANCHNAME_SIZE];
  read_string_from_file(".beargit/.current_branch", curr, BRANCHNAME_SIZE);

  // if (strlen(curr) == 0) {
  //   fprintf(stderr,"ERROR: Need to be on HEAD of a branch to commit\n");
  //   return 1;
  // }

  int check = 1;
  FILE* fbranches = fopen(".beargit/.branches", "r");
  char line[FILENAME_SIZE];
  while(fgets(line, sizeof(line), fbranches)) {
    strtok(line, "\n");
    if (strcmp(line, curr) == 0) {
      check = 0;
      break;
    }
  }
  fclose(fbranches);
  if (strlen(curr) == 0 || check == 1) {
    fprintf(stderr,"ERROR: Need to be on HEAD of a branch to commit\n");
    return 1;
  }



  char commit_id[COMMIT_ID_SIZE];
  read_string_from_file(".beargit/.prev", commit_id, COMMIT_ID_SIZE);
  next_commit_id(commit_id); 

  /* COMPLETE THE REST */ 
  // beargitID 
  char beargitID[FILENAME_SIZE];
  strcpy(beargitID, ".beargit/");
  strcat(beargitID, commit_id);    // .beargit/commit_id

  char temp[FILENAME_SIZE];
  strcpy(temp, beargitID);
  strcat(temp, "/"); // .beargit/commit_id/

  fs_mkdir(beargitID);
  // FILE* yohoho = fopen(beargitID, "w");
  char bgIndex[FILENAME_SIZE];
  char bgCommitMSG[FILENAME_SIZE];

  strcpy(bgIndex, beargitID); 
  strcpy(bgCommitMSG, beargitID); 

  strcat(bgIndex, "/.index");      // .beargit/commit_id/.prev
  strcat(beargitID, "/.prev");     // .beargit/commit_id/.index
  strcat(bgCommitMSG, "/.msg");      // .beargit/commit_id/.msg
  // copy from   .beargit/.prev  to   .beargit/commit_id/.prev
  fs_cp(".beargit/.prev", beargitID);

  // copy from   .beargit/.prev  to   .beargit/commit_id/.prev
  fs_cp(".beargit/.index", bgIndex);
  copyTo(".beargit/.index", temp);

  write_string_to_file(bgCommitMSG, msg);
  // printf(">>> msg saved as %s\n", bgCommitMSG);
  write_string_to_file(".beargit/.prev", commit_id);
  // printf(">>> id saved as %s\n", commit_id);
  return 0;
}
Exemplo n.º 23
0
static
int check_memory_auto_online(uint32_t node_id, NvCfgBool *auto_online_success)
{
    DIR     *dir_ptr;
    int     status = 0;
    struct  dirent *dir_entry;
    char    read_buf[BUF_SIZE];
    char    numa_file_path[BUF_SIZE];
    char    memory_file_path[BUF_SIZE];
    int     num_memory_node_in_dir = 0;
    int     num_memory_online_movable = 0;

    *auto_online_success = NVCFG_FALSE;

    sprintf(numa_file_path, NID_PATH_FMT, node_id);

    dir_ptr = opendir(numa_file_path);
    if (!dir_ptr) {
        syslog(LOG_ERR, "NUMA: Failed to open directory %s: %s\n",
               numa_file_path, strerror(errno));
        return -errno;
    }

    /* Iterate through the node directory */
    while ((dir_entry = readdir(dir_ptr)) != NULL) {
        uint32_t block_id;

        /* Skip entries that are not a memory node */
        if (get_memblock_id_from_dirname(dir_entry->d_name, &block_id) < 0) {
            continue;
        }

        num_memory_node_in_dir++;

        sprintf(memory_file_path, MEMBLK_STATE_PATH_FMT, block_id);

        status = read_string_from_file(memory_file_path,
                                       read_buf, sizeof(read_buf));
        if (status < 0) {
            syslog(LOG_ERR,
                   "NUMA: Failed to read %s state\n", dir_entry->d_name);
            goto cleanup;
        }

        /* Check if state has already been auto onlined */
        if (strstr(read_buf, STATE_ONLINE)) {

            SYSLOG_VERBOSE(LOG_NOTICE,
                           "NUMA: Device NUMA memory is already online\n");

            sprintf(memory_file_path, MEMBLK_VALID_ZONES_PATH_FMT, block_id);

            status = read_string_from_file(memory_file_path,
                                           read_buf, sizeof(read_buf));
            if (status < 0) {
                syslog(LOG_ERR,
                       "NUMA: Failed to read %s valid_zones\n",
                       dir_entry->d_name);
                goto cleanup;
            }

            /* If memory was auto-onlined, check if valid_zones is Movable */
            if (strstr(read_buf, VALID_MOVABLE_STATE) != read_buf) {
                syslog(LOG_NOTICE, MEMORY_AUTO_ONLINE_WARNING_FMT,
                       dir_entry->d_name, read_buf);
                status = -ENOTSUP;
                break;
            } else {
                num_memory_online_movable++;
            }
        }
    }

    /* Check if any memory nodes exist */
    if (num_memory_node_in_dir == 0) {
        syslog(LOG_ERR,
               "NUMA: No memory nodes in node%d directory!\n", node_id);
        status = -ENOENT;
        goto cleanup;
    }

    /* Check if all the memory are set to online movable */
    if (num_memory_online_movable == num_memory_node_in_dir) {
        *auto_online_success = NVCFG_TRUE;
    }

cleanup:
    closedir(dir_ptr);
    return status;
}
Exemplo n.º 24
0
int beargit_log(int limit) {
  if (limit == 0) {
    return 0;
  }
  int logged = 0;
  /* COMPLETE THE REST */
  // printf(">>default limit num of log: %d\n", limit);
  // 0000000000000000000000000000000000000000


  char cm_id[COMMIT_ID_SIZE];
  char cmMsg[MSG_SIZE];
  read_string_from_file(".beargit/.prev", cm_id, COMMIT_ID_SIZE);
  // printf("%s\n%s",d, cm_id);
  if (strcmp(cm_id, d) == 0) { 
    fprintf(stderr, "ERROR: There are no commits!\n");
    return 1;
  }

  char MSG_index[FILENAME_SIZE];
  strcpy(MSG_index, ".beargit/"); 
  strcat(MSG_index, cm_id); 
  strcat(MSG_index, "/.msg"); 

  read_string_from_file(MSG_index, cmMsg, MSG_SIZE);
  printf("\n");
  printf("commit %s\n    %s\n", cm_id, cmMsg);
  logged++;
  // int i = 3;
  while (logged < limit) {
    // printf("%d < %d ? \n", logged, limit);

    // init 
    char new_dir[FILENAME_SIZE];
    char msgLama[FILENAME_SIZE];

    // dir for commit id
    strcpy(new_dir, ".beargit/"); 
    strcat(new_dir, cm_id); 
    strcat(new_dir, "/.prev"); 
    // printf(">> .beargit/id/.prev \n>>%s\n", new_dir);

    // free cm_id 
    free_char_p(cm_id);
    read_string_from_file(new_dir, cm_id, COMMIT_ID_SIZE);
    free_char_p(new_dir);

    /* .beargit/commit_id/.msg */
    strcpy(msgLama, ".beargit/"); 
    strcat(msgLama, cm_id); 
    strcat(msgLama, "/.msg"); 
    if (strcmp(cm_id, d) == 0) {
      break;
    }
    read_string_from_file(msgLama, cmMsg, MSG_SIZE);
    printf("\ncommit %s\n    %s\n", cm_id, cmMsg);
    logged++;
  }
  printf("\n");
  return 0;
}
Exemplo n.º 25
0
int beargit_commit(const char* msg) {
    if (!is_commit_msg_ok(msg)) { // checking if true for go_bears
        // if not ok, error is thrown
        fprintf(stderr, "ERROR: Message must contain \"%s\"\n", go_bears);
        return 1;
    }
    if (!is_HEAD()) {
        fprintf(stderr, "ERROR: Need to be on HEAD of a branch to commit\n");
        return 1;
    }
    // Read the ID of the previous last commit from .beargit/.prev
    char commit_id[COMMIT_ID_SIZE];
    read_string_from_file(".beargit/.prev", commit_id, COMMIT_ID_SIZE);
    next_commit_id(commit_id); // getting a new id

    /* COMPLETE THE REST */
    // Generate a new directory .beargit/<newid> and
    // copy .beargit/.index, .beargit/.prev and all
    // tracked files into the directory.

    // Generate a new directory .beargit/<newid> and copy
    // .beargit/.index, .beargit/.prev and all tracked files
    // into the directory.
    char newid_dir[FILENAME_SIZE];
    strcpy(newid_dir, ".beargit/");
    strcat(newid_dir, commit_id); // newid_dir = .beargit/<newID>
    fs_mkdir(newid_dir); // making .beargit/<newid>

    char prev_dir[FILENAME_SIZE];
    strcpy(prev_dir, newid_dir);
    strcat(prev_dir, "/.prev"); // prev_dir = .beargit/<newID>/.prev
    fs_cp(".beargit/.prev", prev_dir); // copying .beargit/.prev to .beargit/<newID>/.prev

    char index_dir[FILENAME_SIZE];
    strcpy(index_dir, newid_dir);
    strcat(index_dir, "/.index"); // index_dir = .beargit/<newID>/.index
    fs_cp(".beargit/.index", index_dir); // copying .beargit/.index to .beargit/<newID>/.index

    // copy the tracked files into .beargit/<newID>
    FILE* findex = fopen(".beargit/.index", "r");

    char line[FILENAME_SIZE];
    while(fgets(line, sizeof(line), findex)) {
        strtok(line, "\n");
        // read one line each run. line = <tracked_file>
        char track_dir[FILENAME_SIZE];
        strcpy(track_dir, newid_dir); // track_dir = .beargit/<newID>
        strcat(track_dir, "/"); // track_dir = .beargit/<newID>/
        strcat(track_dir, line); // track_dir = .beargit/<newID>/line
        // track_dir is dst
        char ori_dir[FILENAME_SIZE];
        strcpy(ori_dir, line); // ori_dir = line
        // ori_dir is src
        fs_cp(ori_dir, track_dir);
    }

    fclose(findex);

    // Store the commit message (<msg>) into .beargit/<newID>/.msg
    strcat(newid_dir, "/.msg"); // newid_dir = .beargit/<newID>/.msg
    write_string_to_file(newid_dir, msg);
    // Write the new ID into .beargit/.prev.
    write_string_to_file(".beargit/.prev", commit_id);
    return 0;
}
Exemplo n.º 26
0
int beargit_checkout(const char* arg, int new_branch) {
    // Get the current branch
    char current_branch[BRANCHNAME_SIZE];

    read_string_from_file(".beargit/.current_branch", current_branch, BRANCHNAME_SIZE);
    //MISTAKE 1: the second arguments should be current_branch rather than "current_branch"

    // If not detached, update the current branch by storing the current HEAD into that branch's file...
    // Even if we cancel later, this is still ok.
    if (strlen(current_branch)) {
        char current_branch_file[BRANCHNAME_SIZE+50];
        sprintf(current_branch_file, ".beargit/.branch_%s", current_branch);
        fs_cp(".beargit/.prev", current_branch_file);

    }

    // Check whether the argument is a commit ID. If yes, we just stay in detached mode
    // without actually having to change into any other branch.
    if (is_it_a_commit_id(arg)) {
        char commit_dir[FILENAME_SIZE] = ".beargit/";
        strcat(commit_dir, arg);
        if (!fs_check_dir_exists(commit_dir)) {
            fprintf(stderr, "ERROR: Commit %s does not exist\n", arg);
            return 1;
        }

        // Set the current branch to none (i.e., detached).
        write_string_to_file(".beargit/.current_branch", "");


        return checkout_commit(arg);
    }

    // Just a better name, since we now know the argument is a branch name.
    const char* branch_name = arg;

    // Read branches file (giving us the HEAD commit id for that branch).
    // branch_exists=1: exits
    // branch_exists=0: not exist
    int branch_exists = (get_branch_number(branch_name) >= 0);

    // Check for errors.
    if (!(!branch_exists || !new_branch)) {
        fprintf(stderr, "ERROR: A branch named %s already exists\n", branch_name);
        return 1;

        //MISTAKE 2: no branch exist error should only been print if new_branch evaluate to false and branch_exist ealuate to false.
    } else if (!branch_exists && !new_branch) {
        fprintf(stderr, "ERROR: No branch %s exists\n", branch_name);
        return 1;
    }

    // File for the branch we are changing into.
    //MISTAKES 3: if use char* branch_file, it is only for reading, can apply strcat
    //should change to char branch_file [] = "    "
    char branch_file[] = ".beargit/.branch_";
    strcat(branch_file, branch_name);

    // Update the branch file if new branch is created (now it can't go wrong anymore)
    if (new_branch) {
        FILE* fbranches = fopen(".beargit/.branches", "a");
        fprintf(fbranches, "%s\n", branch_name);
        fclose(fbranches);
        fs_cp(".beargit/.prev", branch_file);
    }

    write_string_to_file(".beargit/.current_branch", branch_name);

    // Read the head commit ID of this branch.
    char branch_head_commit_id[COMMIT_ID_SIZE];
    read_string_from_file(branch_file, branch_head_commit_id, COMMIT_ID_SIZE);

    // Check out the actual commit.
    return checkout_commit(branch_head_commit_id);
}
Exemplo n.º 27
0
int beargit_checkout(const char* arg, int new_branch) {
  // Get the current branch
  char current_branch[BRANCHNAME_SIZE];
  read_string_from_file(".beargit/.current_branch", current_branch, BRANCHNAME_SIZE);

  // If not detached, leave the current branch by storing the current HEAD into that branch's file...
  if (strlen(current_branch)) {
    char current_branch_file[BRANCHNAME_SIZE+50];
    sprintf(current_branch_file, ".beargit/.branch_%s", current_branch);
    fs_cp(".beargit/.prev", current_branch_file);
  }

   // Check whether the argument is a commit ID. If yes, we just change to detached mode
  // without actually having to change into any other branch.
  if (is_it_a_commit_id(arg)) {
    char commit_dir[FILENAME_SIZE] = ".beargit/";
    strcat(commit_dir, arg);
    // ...and setting the current branch to none (i.e., detached).
    write_string_to_file(".beargit/.current_branch", "");

    return checkout_commit(arg);
  }



  // Read branches file (giving us the HEAD commit id for that branch).
  int branch_exists = (get_branch_number(arg) >= 0);

  // Check for errors.
  if (!(!branch_exists || !new_branch)) {
    fprintf(stderr, "ERROR:  A branch named %s already exists.\n", arg);
    return 1;
  } else if (!branch_exists && !new_branch) {
    fprintf(stderr, "ERROR:  No branch or commit %s exists.\n", arg);
    return 1;
  }

  // Just a better name, since we now know the argument is a branch name.
  const char* branch_name = arg;

  // File for the branch we are changing into.
  char branch_file[BRANCHNAME_SIZE + 50] = ".beargit/.branch_";
  strcat(branch_file, branch_name);

  // Update the branch file if new branch is created (now it can't go wrong anymore)
  if (new_branch) {
    FILE* fbranches = fopen(".beargit/.branches", "a");
    fprintf(fbranches, "%s\n", branch_name);
    fclose(fbranches);
    fs_cp(".beargit/.prev", branch_file);
  }

  write_string_to_file(".beargit/.current_branch", branch_name);

  // Read the head commit ID of this branch.
  char branch_head_commit_id[COMMIT_ID_SIZE];
  read_string_from_file(branch_file, branch_head_commit_id, COMMIT_ID_SIZE);

  // Check out the actual commit.
  return checkout_commit(branch_head_commit_id);
}
Exemplo n.º 28
0
int initialCheck() {
    char prev_id[COMMIT_ID_SIZE];
    read_string_from_file(".beargit/.prev",prev_id, sizeof(prev_id));
    return strcmp(prev_id, "0000000000000000000000000000000000000000");
}