/* Provides a serialize/unserialize functionality for INI-like formats. Copyright (C) 2011-2015 Free Software Foundation, Inc. Written by: Slava Zanko , 2011 This file is part of the Midnight Commander. The Midnight Commander 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. The Midnight Commander 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /** \file lib/serialize.c * \brief Source: serialize/unserialize functionality for INI-like formats. */ #include #include #include #include #include "lib/global.h" #include "lib/serialize.h" /*** global variables ****************************************************************************/ /*** file scope macro definitions ****************************************************************/ #define SRLZ_DELIM_C ':' #define SRLZ_DELIM_S ":" /*** file scope type declarations ****************************************************************/ /*** file scope variables ************************************************************************/ /*** file scope functions ************************************************************************/ /* --------------------------------------------------------------------------------------------- */ static void prepend_error_message (GError ** error, const char *format, ...) { char *prepend_str; char *split_str; va_list ap; if ((error == NULL) || (*error == NULL)) return; va_start (ap, format); prepend_str = g_strdup_vprintf (format, ap); va_end (ap); split_str = g_strdup_printf ("%s: %s", prepend_str, (*error)->message); g_free (prepend_str); g_free ((*error)->message); (*error)->message = split_str; } /* --------------------------------------------------------------------------------------------- */ static const char * go_to_end_of_serialized_string (const char *non_serialized_data, const char *already_serialized_part, size_t * offset) { size_t calculated_offset; const char *semi_ptr = strchr (non_serialized_data + 1, SRLZ_DELIM_C); calculated_offset = (semi_ptr - non_serialized_data) + 1 + strlen (already_serialized_part); if (calculated_offset >= strlen (non_serialized_data)) return NULL; non_serialized_data += calculated_offset; *offset += calculated_offset; return non_serialized_data; } /* --------------------------------------------------------------------------------------------- */ /*** public functions ****************************************************************************/ /* --------------------------------------------------------------------------------------------- */ /** * Serialize some string object to string * * @param prefix prefix for serailization * @param data data for serialization * @param error contain pointer to object for handle error code and message * * @return serialized data as newly allocated string */ char * mc_serialize_str (const char prefix, const char *data, GError ** error) { if (data == NULL) { g_set_error (error, MC_ERROR, -1, "mc_serialize_str(): Input data is NULL."); return NULL; } return g_strdup_printf ("%c%zd" SRLZ_DELIM_S "%s", prefix, strlen (data), data); } /* --------------------------------------------------------------------------------------------- */ /** * Deserialize string to string object * * @param prefix prefix for deserailization * @param data data for deserialization * @param error contain pointer to object for handle error code and message * * @return newly allocated string */ #define FUNC_NAME "mc_serialize_str()" char * mc_deserialize_str (const char prefix, const char *data, GError ** error) { size_t data_len; if ((data == NULL) || (strlen (data) == 0)) { g_set_error (error, MC_ERROR, -1, FUNC_NAME ": Input data is NULL or empty."); return NULL; } if (*data != prefix) { g_set_error (error, MC_ERROR, -2, FUNC_NAME ": String prefix doesn't equal to '%c'", prefix); return NULL; } { char buffer[BUF_TINY]; char *semi_ptr; size_t semi_offset; semi_ptr = strchr (data + 1, SRLZ_DELIM_C); if (semi_ptr == NULL) { g_set_error (error, MC_ERROR, -3, FUNC_NAME ": Length delimiter '%c' doesn't exists", SRLZ_DELIM_C); return NULL; } semi_offset = semi_ptr - (data + 1); if (semi_offset >= BUF_TINY) { g_set_error (error, MC_ERROR, -3, FUNC_NAME ": Too big string length"); return NULL; } strncpy (buffer, data + 1, semi_offset); buffer[semi_offset] = '\0'; data_len = atol (buffer); data += semi_offset + 2; } if (data_len > strlen (data)) { g_set_error (error, MC_ERROR, -3, FUNC_NAME ": Specified data length (%zd) is greater than actual data length (%zd)", data_len, strlen (data)); return NULL; } return g_strndup (data, data_len); } #undef FUNC_NAME /* --------------------------------------------------------------------------------------------- */ /** * Serialize mc_config_t object to string * * @param data data for serialization * @param error contain pointer to object for handle error code and message * * @return serialized data as newly allocated string */ char * mc_serialize_config (const mc_config_t * data, GError ** error) { gchar **groups, **group_iterator; GString *buffer; buffer = g_string_new (""); groups = mc_config_get_groups (data, NULL); for (group_iterator = groups; *group_iterator != NULL; group_iterator++) { char *serialized_str; gchar **params, **param_iterator; serialized_str = mc_serialize_str ('g', *group_iterator, error); if (serialized_str == NULL) { g_string_free (buffer, TRUE); g_strfreev (groups); return NULL; } g_string_append (buffer, serialized_str); g_free (serialized_str); params = mc_config_get_keys (data, *group_iterator, NULL); for (param_iterator = params; *param_iterator != NULL; param_iterator++) { char *value; serialized_str = mc_serialize_str ('p', *param_iterator, error); if (serialized_str == NULL) { g_string_free (buffer, TRUE); g_strfreev (params); g_strfreev (groups); return NULL; } g_string_append (buffer, serialized_str); g_free (serialized_str); value = mc_config_get_string_raw (data, *group_iterator, *param_iterator, ""); serialized_str = mc_serialize_str ('v', value, error); g_free (value); if (serialized_str == NULL) { g_string_free (buffer, TRUE); g_strfreev (params); g_strfreev (groups); return NULL; } g_string_append (buffer, serialized_str); g_free (serialized_str); } g_strfreev (params); } return g_string_free (buffer, FALSE); } /* --------------------------------------------------------------------------------------------- */ /** * Deserialize string to mc_config_t object * * @param data data for serialization * @param error contain pointer to object for handle error code and message * * @return newly allocated mc_config_t object */ #define FUNC_NAME "mc_deserialize_config()" #define prepend_error_and_exit() { \ prepend_error_message (error, FUNC_NAME " at %lu", current_position + 1); \ mc_config_deinit (ret_data); \ return NULL; \ } mc_config_t * mc_deserialize_config (const char *data, GError ** error) { char *current_group = NULL, *current_param = NULL, *current_value = NULL; size_t current_position = 0; mc_config_t *ret_data; enum automat_status { WAIT_GROUP, WAIT_PARAM, WAIT_VALUE } current_status = WAIT_GROUP; ret_data = mc_config_init (NULL, FALSE); while (data != NULL) { if ((current_status == WAIT_GROUP) && (*data == 'p') && (current_group != NULL)) current_status = WAIT_PARAM; switch (current_status) { case WAIT_GROUP: g_free (current_group); current_group = mc_deserialize_str ('g', data, error); if (current_group == NULL) prepend_error_and_exit (); data = go_to_end_of_serialized_string (data, current_group, ¤t_position); current_status = WAIT_PARAM; break; case WAIT_PARAM: g_free (current_param); current_param = mc_deserialize_str ('p', data, error); if (current_param == NULL) { g_free (current_group); prepend_error_and_exit (); } data = go_to_end_of_serialized_string (data, current_param, ¤t_position); current_status = WAIT_VALUE; break; case WAIT_VALUE: current_value = mc_deserialize_str ('v', data, error); if (current_value == NULL) { g_free (current_group); g_free (current_param); prepend_error_and_exit (); } mc_config_set_string (ret_data, current_group, current_param, current_value); data = go_to_end_of_serialized_string (data, current_value, ¤t_position); g_free (current_value); current_status = WAIT_GROUP; break; } } g_free (current_group); g_free (current_param); return ret_data; } #undef FUNC_NAME /* --------------------------------------------------------------------------------------------- */