/* Virtual File System path handlers Copyright (C) 2011 The 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 * \brief Source: Virtual File System: path handlers * \author Slava Zanko * \date 2011 */ #include #include "lib/global.h" #include "lib/strutil.h" #include "lib/util.h" /* mc_build_filename() */ #include "lib/serialize.h" #include "vfs.h" #include "utilvfs.h" #include "xdirentry.h" #include "path.h" extern GPtrArray *vfs__classes_list; /*** global variables ****************************************************************************/ /*** file scope macro definitions ****************************************************************/ /*** file scope type declarations ****************************************************************/ /*** file scope variables ************************************************************************/ /*** file scope functions ************************************************************************/ /* --------------------------------------------------------------------------------------------- */ static gboolean path_magic (const char *path) { struct stat buf; return (stat (path, &buf) != 0); } /* --------------------------------------------------------------------------------------------- */ /** * Splits path extracting vfs part. * * Splits path * \verbatim /p1#op/inpath \endverbatim * into * \verbatim inpath,op; \endverbatim * returns which vfs it is. * What is left in path is p1. You still want to g_free(path), you DON'T * want to free neither *inpath nor *op */ static struct vfs_class * _vfs_split_with_semi_skip_count (char *path, const char **inpath, const char **op, size_t skip_count) { char *semi; char *slash; struct vfs_class *ret; if (path == NULL) vfs_die ("Cannot split NULL"); semi = strrstr_skip_count (path, "#", skip_count); if ((semi == NULL) || (!path_magic (path))) return NULL; slash = strchr (semi, PATH_SEP); *semi = '\0'; if (op != NULL) *op = NULL; if (inpath != NULL) *inpath = NULL; if (slash != NULL) *slash = '\0'; ret = vfs_prefix_to_class (semi + 1); if (ret != NULL) { if (op != NULL) *op = semi + 1; if (inpath != NULL) *inpath = slash != NULL ? slash + 1 : NULL; return ret; } if (slash != NULL) *slash = PATH_SEP; *semi = '#'; ret = _vfs_split_with_semi_skip_count (path, inpath, op, skip_count + 1); return ret; } /* --------------------------------------------------------------------------------------------- */ /** * remove //, /./ and /../ * * @return newly allocated string */ static char * vfs_canon (const char *path) { if (path == NULL) vfs_die ("Cannot canonicalize NULL"); /* Relative to current directory */ if (*path != PATH_SEP) { char *result, *local; local = tilde_expand (path); if (*local != PATH_SEP) { char *curr_dir; g_free (local); curr_dir = vfs_get_current_dir (); local = mc_build_filename (curr_dir, path, NULL); g_free (curr_dir); } result = vfs_canon (local); g_free (local); return result; } /* * So we have path of following form: * /p1/p2#op/.././././p3#op/p4. Good luck. */ { char *result; result = g_strdup (path); canonicalize_pathname (result); return result; } } /* --------------------------------------------------------------------------------------------- */ /** get encoding after last #enc: or NULL, if part does not contain #enc: * * @param path string * * @return newly allocated string. */ static char * vfs_get_encoding (const char *path) { char result[16]; char *work; char *semi; char *slash; work = g_strdup (path); /* try found #enc: */ semi = g_strrstr (work, VFS_ENCODING_PREFIX); if (semi != NULL && (semi == work || *(semi - 1) == PATH_SEP)) { semi += strlen (VFS_ENCODING_PREFIX); /* skip "#enc:" */ slash = strchr (semi, PATH_SEP); if (slash != NULL) slash[0] = '\0'; g_strlcpy (result, semi, sizeof (result)); g_free (work); return g_strdup (result); } else { g_free (work); return NULL; } } /* --------------------------------------------------------------------------------------------- */ /** Extract the hostname and username from the path * * Format of the path is [user@]hostname:port/remote-dir, e.g.: * * ftp://sunsite.unc.edu/pub/linux * ftp://miguel@sphinx.nuclecu.unam.mx/c/nc * ftp://tsx-11.mit.edu:8192/ * ftp://joe@foo.edu:11321/private * ftp://joe:password@foo.se * * @param path_element is an input string to be parsed * @param path is an input string to be parsed * * @return g_malloc()ed url info. * If the user is empty, e.g. ftp://@roxanne/private, and URL_USE_ANONYMOUS * is not set, then the current login name is supplied. * Return value is a g_malloc()ed structure with the pathname relative to the * host. */ static void vfs_path_url_split (vfs_path_element_t * path_element, const char *path) { char *pcopy; const char *pend; char *dir, *colon, *inner_colon, *at, *rest; path_element->port = 0; pcopy = g_strdup (path); pend = pcopy + strlen (pcopy); dir = pcopy; /* search for any possible user */ at = strrchr (pcopy, '@'); /* We have a username */ if (at == NULL) rest = pcopy; else { *at = '\0'; inner_colon = strchr (pcopy, ':'); if (inner_colon != NULL) { *inner_colon = '\0'; inner_colon++; path_element->password = g_strdup (inner_colon); } if (*pcopy != '\0') path_element->user = g_strdup (pcopy); if (pend == at + 1) rest = at; else rest = at + 1; } /* Check if the host comes with a port spec, if so, chop it */ if (*rest != '[') colon = strchr (rest, ':'); else { colon = strchr (++rest, ']'); if (colon != NULL) { colon[0] = '\0'; colon[1] = '\0'; colon++; path_element->ipv6 = TRUE; } } if (colon != NULL) { *colon = '\0'; if (sscanf (colon + 1, "%d", &path_element->port) == 1) { if (path_element->port <= 0 || path_element->port >= 65536) path_element->port = 0; } else while (*(++colon) != '\0') { switch (*colon) { case 'C': path_element->port = 1; break; case 'r': path_element->port = 2; break; } } } path_element->host = g_strdup (rest); g_free (pcopy); } /* --------------------------------------------------------------------------------------------- */ /** * get VFS class for the given name * * @param class_name name of class * * @return pointer to class structure or NULL if class not found */ static struct vfs_class * vfs_get_class_by_name (const char *class_name) { guint i; if (class_name == NULL) return NULL; for (i = 0; i < vfs__classes_list->len; i++) { struct vfs_class *vfs = (struct vfs_class *) g_ptr_array_index (vfs__classes_list, i); if ((vfs->name != NULL) && (strcmp (vfs->name, class_name) == 0)) return vfs; } return NULL; } /* --------------------------------------------------------------------------------------------- */ /** * Check if path string contain URL-like elements * * @param path_str path * * @return TRUE if path is deprecated or FALSE otherwise */ static gboolean vfs_path_is_str_path_deprecated (const char *path_str) { return strstr (path_str, VFS_PATH_URL_DELIMITER) == NULL; } /* --------------------------------------------------------------------------------------------- */ /** Split path string to path elements by deprecated algorithm. * * @param path_str VFS-path * * @return pointer to newly created vfs_path_t object with filled path elements array. */ static vfs_path_t * vfs_path_from_str_deprecated_parser (char *path, vfs_path_flag_t flags) { vfs_path_t *vpath; vfs_path_element_t *element; struct vfs_class *class; const char *local, *op; (void) flags; vpath = vfs_path_new (); while ((class = _vfs_split_with_semi_skip_count (path, &local, &op, 0)) != NULL) { char *url_params; element = g_new0 (vfs_path_element_t, 1); element->class = class; if (local == NULL) local = ""; element->path = vfs_translate_path_n (local); element->encoding = vfs_get_encoding (local); element->dir.converter = (element->encoding != NULL) ? str_crt_conv_from (element->encoding) : INVALID_CONV; url_params = strchr (op, ':'); /* skip VFS prefix */ if (url_params != NULL) { *url_params = '\0'; url_params++; vfs_path_url_split (element, url_params); } if (*op != '\0') element->vfs_prefix = g_strdup (op); g_array_prepend_val (vpath->path, element); } if (path[0] != '\0') { element = g_new0 (vfs_path_element_t, 1); element->class = g_ptr_array_index (vfs__classes_list, 0); element->path = vfs_translate_path_n (path); element->encoding = vfs_get_encoding (path); element->dir.converter = (element->encoding != NULL) ? str_crt_conv_from (element->encoding) : INVALID_CONV; g_array_prepend_val (vpath->path, element); } return vpath; } /* --------------------------------------------------------------------------------------------- */ /** Split path string to path elements by URL algorithm. * * @param path_str VFS-path * * @return pointer to newly created vfs_path_t object with filled path elements array. */ static vfs_path_t * vfs_path_from_str_uri_parser (char *path, vfs_path_flag_t flags) { vfs_path_t *vpath; vfs_path_element_t *element; char *url_delimiter; vpath = vfs_path_new (); vpath->relative = (flags & VPF_NO_CANON) != 0; while ((url_delimiter = g_strrstr (path, VFS_PATH_URL_DELIMITER)) != NULL) { char *vfs_prefix_start; char *real_vfs_prefix_start = url_delimiter; char *slash_pointer; struct vfs_s_subclass *sub = NULL; while (real_vfs_prefix_start > path && *(real_vfs_prefix_start) != PATH_SEP) real_vfs_prefix_start--; vfs_prefix_start = real_vfs_prefix_start; if (*(vfs_prefix_start) == PATH_SEP) vfs_prefix_start += 1; *url_delimiter = '\0'; element = g_new0 (vfs_path_element_t, 1); element->class = vfs_prefix_to_class (vfs_prefix_start); element->vfs_prefix = g_strdup (vfs_prefix_start); url_delimiter += strlen (VFS_PATH_URL_DELIMITER); sub = VFSDATA (element); if (sub != NULL && (sub->flags & VFS_S_REMOTE) != 0) { slash_pointer = strchr (url_delimiter, PATH_SEP); if (slash_pointer == NULL) { element->path = g_strdup (""); } else { element->path = vfs_translate_path_n (slash_pointer + 1); element->encoding = vfs_get_encoding (slash_pointer); *slash_pointer = '\0'; } vfs_path_url_split (element, url_delimiter); } else { element->path = vfs_translate_path_n (url_delimiter); element->encoding = vfs_get_encoding (url_delimiter); } element->dir.converter = (element->encoding != NULL) ? str_crt_conv_from (element->encoding) : INVALID_CONV; g_array_prepend_val (vpath->path, element); if ((real_vfs_prefix_start > path && *(real_vfs_prefix_start) == PATH_SEP) || (real_vfs_prefix_start == path && *(real_vfs_prefix_start) != PATH_SEP)) *real_vfs_prefix_start = '\0'; else *(real_vfs_prefix_start + 1) = '\0'; } if (path[0] != '\0') { element = g_new0 (vfs_path_element_t, 1); element->class = g_ptr_array_index (vfs__classes_list, 0); element->path = vfs_translate_path_n (path); element->encoding = vfs_get_encoding (path); element->dir.converter = (element->encoding != NULL) ? str_crt_conv_from (element->encoding) : INVALID_CONV; g_array_prepend_val (vpath->path, element); } return vpath; } /* --------------------------------------------------------------------------------------------- */ /** * Add element's class info to result string (such as VFS name, host, encoding etc) * This function used as helper only in vfs_path_tokens_get() function * * @param element current path element * @param ret_tokens total tikens for return * @param element_tokens accumulated element-only tokens */ static void vfs_path_tokens_add_class_info (const vfs_path_element_t * element, GString * ret_tokens, GString * element_tokens) { if (((element->class->flags & VFSF_LOCAL) == 0 || ret_tokens->len > 0) && element_tokens->len > 0) { char *url_str; if (ret_tokens->len > 0 && ret_tokens->str[ret_tokens->len - 1] != PATH_SEP) g_string_append_c (ret_tokens, PATH_SEP); g_string_append (ret_tokens, element->vfs_prefix); g_string_append (ret_tokens, VFS_PATH_URL_DELIMITER); url_str = vfs_path_build_url_params_str (element, TRUE); if (*url_str != '\0') { g_string_append (ret_tokens, url_str); g_string_append_c (ret_tokens, PATH_SEP); } g_free (url_str); } if (element->encoding != NULL) { if (ret_tokens->len > 0 && ret_tokens->str[ret_tokens->len - 1] != PATH_SEP) g_string_append (ret_tokens, PATH_SEP_STR); g_string_append (ret_tokens, VFS_ENCODING_PREFIX); g_string_append (ret_tokens, element->encoding); g_string_append (ret_tokens, PATH_SEP_STR); } g_string_append (ret_tokens, element_tokens->str); } /* --------------------------------------------------------------------------------------------- */ /** * Strip path to home dir. * @param dir pointer to string contains full path */ static char * vfs_path_strip_home (const char *dir) { const char *home_dir = mc_config_get_home_dir (); if (home_dir != NULL) { size_t len; len = strlen (home_dir); if (strncmp (dir, home_dir, len) == 0 && (dir[len] == PATH_SEP || dir[len] == '\0')) return g_strdup_printf ("~%s", dir + len); } return g_strdup (dir); } /* --------------------------------------------------------------------------------------------- */ /* --------------------------------------------------------------------------------------------- */ /*** public functions ****************************************************************************/ /* --------------------------------------------------------------------------------------------- */ /** * Convert first elements_count elements from vfs_path_t to string representation with flags. * * @param vpath pointer to vfs_path_t object * @param elements_count count of first elements for convert * @param flags flags for converter * * @return pointer to newly created string. */ #define vfs_append_from_path(appendfrom, is_relative) \ { \ if ((flags & VPF_STRIP_HOME) && element_index == 0 && (element->class->flags & VFSF_LOCAL) != 0) \ { \ char *stripped_home_str; \ stripped_home_str = vfs_path_strip_home (appendfrom); \ g_string_append (buffer, stripped_home_str); \ g_free (stripped_home_str); \ } \ else \ { \ if ((!is_relative) && (*appendfrom != PATH_SEP) && (*appendfrom != '\0') \ && (buffer->len == 0 || buffer->str[buffer->len - 1] != PATH_SEP)) \ g_string_append_c (buffer, PATH_SEP); \ g_string_append (buffer, appendfrom); \ } \ } char * vfs_path_to_str_flags (const vfs_path_t * vpath, int elements_count, vfs_path_flag_t flags) { int element_index; GString *buffer; GString *recode_buffer; if (vpath == NULL) return NULL; if (elements_count == 0 || elements_count > vfs_path_elements_count (vpath)) elements_count = vfs_path_elements_count (vpath); if (elements_count < 0) elements_count = vfs_path_elements_count (vpath) + elements_count; buffer = g_string_new (""); recode_buffer = g_string_new (""); for (element_index = 0; element_index < elements_count; element_index++) { const vfs_path_element_t *element; gboolean is_relative = vpath->relative && (element_index == 0); element = vfs_path_get_by_index (vpath, element_index); if (element->vfs_prefix != NULL) { char *url_str; if ((!is_relative) && (buffer->len == 0 || buffer->str[buffer->len - 1] != PATH_SEP)) g_string_append_c (buffer, PATH_SEP); g_string_append (buffer, element->vfs_prefix); g_string_append (buffer, VFS_PATH_URL_DELIMITER); url_str = vfs_path_build_url_params_str (element, !(flags & VPF_STRIP_PASSWORD)); if (*url_str != '\0') { g_string_append (buffer, url_str); g_string_append_c (buffer, PATH_SEP); } g_free (url_str); } if ((flags & VPF_RECODE) == 0 && vfs_path_element_need_cleanup_converter (element)) { if ((flags & VPF_HIDE_CHARSET) == 0) { if ((!is_relative) && (buffer->len == 0 || buffer->str[buffer->len - 1] != PATH_SEP)) g_string_append (buffer, PATH_SEP_STR); g_string_append (buffer, VFS_ENCODING_PREFIX); g_string_append (buffer, element->encoding); } str_vfs_convert_from (element->dir.converter, element->path, recode_buffer); vfs_append_from_path (recode_buffer->str, is_relative); g_string_set_size (recode_buffer, 0); } else { vfs_append_from_path (element->path, is_relative); } } g_string_free (recode_buffer, TRUE); return g_string_free (buffer, FALSE); } #undef vfs_append_from_path /* --------------------------------------------------------------------------------------------- */ /** * Convert first elements_count elements from vfs_path_t to string representation. * * @param vpath pointer to vfs_path_t object * @param elements_count count of first elements for convert * * @return pointer to newly created string. */ char * vfs_path_to_str_elements_count (const vfs_path_t * vpath, int elements_count) { return vfs_path_to_str_flags (vpath, elements_count, VPF_NONE); } /* --------------------------------------------------------------------------------------------- */ /** * Convert vfs_path_t to string representation. * * @param vpath pointer to vfs_path_t object * * @return pointer to newly created string. */ char * vfs_path_to_str (const vfs_path_t * vpath) { return vfs_path_to_str_elements_count (vpath, vfs_path_elements_count (vpath)); } /* --------------------------------------------------------------------------------------------- */ /** * Split path string to path elements with flags for change parce process. * * @param path_str VFS-path * @param flags flags for parser * * @return pointer to newly created vfs_path_t object with filled path elements array. */ vfs_path_t * vfs_path_from_str_flags (const char *path_str, vfs_path_flag_t flags) { vfs_path_t *vpath; char *path; if (path_str == NULL) return NULL; if ((flags & VPF_NO_CANON) == 0) path = vfs_canon (path_str); else path = g_strdup (path_str); if (path == NULL) return NULL; if ((flags & VPF_USE_DEPRECATED_PARSER) != 0 && vfs_path_is_str_path_deprecated (path)) vpath = vfs_path_from_str_deprecated_parser (path, flags); else vpath = vfs_path_from_str_uri_parser (path, flags); g_free (path); return vpath; } /* --------------------------------------------------------------------------------------------- */ /** * Split path string to path elements. * * @param path_str VFS-path * * @return pointer to newly created vfs_path_t object with filled path elements array. */ vfs_path_t * vfs_path_from_str (const char *path_str) { return vfs_path_from_str_flags (path_str, VPF_NONE); } /* --------------------------------------------------------------------------------------------- */ /* * Create new vfs_path_t object. * * @return pointer to newly created vfs_path_t object. */ vfs_path_t * vfs_path_new (void) { vfs_path_t *vpath; vpath = g_new0 (vfs_path_t, 1); vpath->path = g_array_new (FALSE, TRUE, sizeof (vfs_path_element_t *)); return vpath; } /* --------------------------------------------------------------------------------------------- */ /* * Get count of path elements. * * @param vpath pointer to vfs_path_t object * * @return count of path elements. */ int vfs_path_elements_count (const vfs_path_t * vpath) { return (vpath != NULL && vpath->path != NULL) ? vpath->path->len : 0; } /* --------------------------------------------------------------------------------------------- */ /** * Add vfs_path_element_t object to end of list in vfs_path_t object * @param vpath pointer to vfs_path_t object * @param path_element pointer to vfs_path_element_t object */ void vfs_path_add_element (const vfs_path_t * vpath, const vfs_path_element_t * path_element) { g_array_append_val (vpath->path, path_element); } /* --------------------------------------------------------------------------------------------- */ /* * Get one path element by index. * * @param vpath pointer to vfs_path_t object * @param element_index element index. May have negative value (in this case count was started at the end of list). * * @return path element. */ const vfs_path_element_t * vfs_path_get_by_index (const vfs_path_t * vpath, int element_index) { if (vpath == NULL) return NULL; if (element_index < 0) element_index += vfs_path_elements_count (vpath); if (element_index < 0) vfs_die ("vfs_path_get_by_index: incorrect index!"); return g_array_index (vpath->path, vfs_path_element_t *, element_index); } /* --------------------------------------------------------------------------------------------- */ /* * Clone one path element * * @param element pointer to vfs_path_element_t object * * @return Newly allocated path element */ vfs_path_element_t * vfs_path_element_clone (const vfs_path_element_t * element) { vfs_path_element_t *new_element = g_new (vfs_path_element_t, 1); new_element->user = g_strdup (element->user); new_element->password = g_strdup (element->password); new_element->host = g_strdup (element->host); new_element->ipv6 = element->ipv6; new_element->port = element->port; new_element->path = g_strdup (element->path); new_element->class = element->class; new_element->encoding = g_strdup (element->encoding); new_element->vfs_prefix = g_strdup (element->vfs_prefix); if (vfs_path_element_need_cleanup_converter (element) && new_element->encoding != NULL) new_element->dir.converter = str_crt_conv_from (new_element->encoding); else new_element->dir.converter = element->dir.converter; new_element->dir.info = element->dir.info; return new_element; } /* --------------------------------------------------------------------------------------------- */ /* * Free one path element. * * @param element pointer to vfs_path_element_t object * */ void vfs_path_element_free (vfs_path_element_t * element) { if (element == NULL) return; g_free (element->user); g_free (element->password); g_free (element->host); g_free (element->path); g_free (element->encoding); g_free (element->vfs_prefix); if (vfs_path_element_need_cleanup_converter (element)) { str_close_conv (element->dir.converter); } g_free (element); } /* --------------------------------------------------------------------------------------------- */ /* * Clone path * * @param vpath pointer to vfs_path_t object * * @return Newly allocated path object */ vfs_path_t * vfs_path_clone (const vfs_path_t * vpath) { vfs_path_t *new_vpath; int vpath_element_index; if (vpath == NULL) return NULL; new_vpath = vfs_path_new (); new_vpath->relative = vpath->relative; for (vpath_element_index = 0; vpath_element_index < vfs_path_elements_count (vpath); vpath_element_index++) { vfs_path_element_t *path_element; path_element = vfs_path_element_clone (vfs_path_get_by_index (vpath, vpath_element_index)); g_array_append_val (new_vpath->path, path_element); } return new_vpath; } /* --------------------------------------------------------------------------------------------- */ /* * Free vfs_path_t object. * * @param vpath pointer to vfs_path_t object * */ void vfs_path_free (vfs_path_t * vpath) { int vpath_element_index; if (vpath == NULL) return; for (vpath_element_index = 0; vpath_element_index < vfs_path_elements_count (vpath); vpath_element_index++) { vfs_path_element_t *path_element; path_element = (vfs_path_element_t *) vfs_path_get_by_index (vpath, vpath_element_index); vfs_path_element_free (path_element); } g_array_free (vpath->path, TRUE); g_free (vpath); } /* --------------------------------------------------------------------------------------------- */ /* * Remove one path element by index * * @param vpath pointer to vfs_path_t object * @param element_index element index. May have negative value (in this case count was started at the end of list). * */ void vfs_path_remove_element_by_index (vfs_path_t * vpath, int element_index) { vfs_path_element_t *element; if ((vpath == NULL) || (vfs_path_elements_count (vpath) == 1)) return; if (element_index < 0) element_index = vfs_path_elements_count (vpath) + element_index; element = (vfs_path_element_t *) vfs_path_get_by_index (vpath, element_index); vpath->path = g_array_remove_index (vpath->path, element_index); vfs_path_element_free (element); } /* --------------------------------------------------------------------------------------------- */ /** Return VFS class for the given prefix */ struct vfs_class * vfs_prefix_to_class (const char *prefix) { guint i; /* Avoid first class (localfs) that would accept any prefix */ for (i = 1; i < vfs__classes_list->len; i++) { struct vfs_class *vfs; vfs = (struct vfs_class *) g_ptr_array_index (vfs__classes_list, i); if (vfs->which != NULL) { if (vfs->which (vfs, prefix) == -1) continue; return vfs; } if (vfs->prefix != NULL && strncmp (prefix, vfs->prefix, strlen (vfs->prefix)) == 0) return vfs; } return NULL; } /* --------------------------------------------------------------------------------------------- */ /** * Check if need cleanup charset converter for vfs_path_element_t * * @param element part of path * * @return TRUE if need cleanup converter or FALSE otherwise */ gboolean vfs_path_element_need_cleanup_converter (const vfs_path_element_t * element) { return (element->dir.converter != str_cnv_from_term && element->dir.converter != INVALID_CONV); } /* --------------------------------------------------------------------------------------------- */ /** * Serialize vfs_path_t object to string * * @param vpath data for serialization * @param error contain pointer to object for handle error code and message * * @return serialized vpath as newly allocated string */ char * vfs_path_serialize (const vfs_path_t * vpath, GError ** error) { mc_config_t *cpath = mc_config_init (NULL); ssize_t element_index; char *ret_value; if ((vpath == NULL) || (vfs_path_elements_count (vpath) == 0)) { g_set_error (error, MC_ERROR, -1, "vpath object is empty"); return NULL; } for (element_index = 0; element_index < vfs_path_elements_count (vpath); element_index++) { char *groupname; const vfs_path_element_t *element; groupname = g_strdup_printf ("path-element-%zd", element_index); element = vfs_path_get_by_index (vpath, element_index); /* convert one element to config group */ mc_config_set_string_raw (cpath, groupname, "path", element->path); mc_config_set_string_raw (cpath, groupname, "class-name", element->class->name); mc_config_set_string_raw (cpath, groupname, "encoding", element->encoding); mc_config_set_string_raw (cpath, groupname, "vfs_prefix", element->vfs_prefix); mc_config_set_string_raw (cpath, groupname, "user", element->user); mc_config_set_string_raw (cpath, groupname, "password", element->password); mc_config_set_string_raw (cpath, groupname, "host", element->host); if (element->port != 0) mc_config_set_int (cpath, groupname, "port", element->port); g_free (groupname); } ret_value = mc_serialize_config (cpath, error); mc_config_deinit (cpath); return ret_value; } /* --------------------------------------------------------------------------------------------- */ /** * Deserialize string to vfs_path_t object * * @param data data for serialization * @param error contain pointer to object for handle error code and message * * @return newly allocated vfs_path_t object */ vfs_path_t * vfs_path_deserialize (const char *data, GError ** error) { mc_config_t *cpath = mc_deserialize_config (data, error); size_t element_index = 0; vfs_path_t *vpath; if (cpath == NULL) return NULL; vpath = vfs_path_new (); while (TRUE) { vfs_path_element_t *element; char *cfg_value; char *groupname; groupname = g_strdup_printf ("path-element-%zd", element_index); if (!mc_config_has_group (cpath, groupname)) { g_free (groupname); break; } element = g_new0 (vfs_path_element_t, 1); cfg_value = mc_config_get_string_raw (cpath, groupname, "class-name", NULL); element->class = vfs_get_class_by_name (cfg_value); if (element->class == NULL) { g_free (element); vfs_path_free (vpath); g_set_error (error, MC_ERROR, -1, "Unable to find VFS class by name '%s'", cfg_value); g_free (cfg_value); mc_config_deinit (cpath); return NULL; } g_free (cfg_value); element->path = mc_config_get_string_raw (cpath, groupname, "path", NULL); element->encoding = mc_config_get_string_raw (cpath, groupname, "encoding", NULL); element->dir.converter = (element->encoding != NULL) ? str_crt_conv_from (element->encoding) : INVALID_CONV; element->vfs_prefix = mc_config_get_string_raw (cpath, groupname, "vfs_prefix", NULL); element->user = mc_config_get_string_raw (cpath, groupname, "user", NULL); element->password = mc_config_get_string_raw (cpath, groupname, "password", NULL); element->host = mc_config_get_string_raw (cpath, groupname, "host", NULL); element->port = mc_config_get_int (cpath, groupname, "port", 0); vpath->path = g_array_append_val (vpath->path, element); g_free (groupname); element_index++; } mc_config_deinit (cpath); if (vfs_path_elements_count (vpath) == 0) { vfs_path_free (vpath); g_set_error (error, MC_ERROR, -1, "No any path elements found"); return NULL; } return vpath; } /* --------------------------------------------------------------------------------------------- */ /** * Build vfs_path_t object from arguments. * * @param ... path tokens, terminated by NULL * * @return newly allocated vfs_path_t object */ vfs_path_t * vfs_path_build_filename (const char *first_element, ...) { va_list args; char *str_path; vfs_path_t *vpath; if (first_element == NULL) return NULL; va_start (args, first_element); str_path = mc_build_filenamev (first_element, args); va_end (args); vpath = vfs_path_from_str (str_path); g_free (str_path); return vpath; } /* --------------------------------------------------------------------------------------------- */ /** * Append tokens to path object * * @param vpath path object * @param ... NULL-terminated strings * * @return newly allocated path object */ vfs_path_t * vfs_path_append_new (const vfs_path_t * vpath, const char *first_element, ...) { va_list args; char *str_path, *result_str; vfs_path_t *ret_vpath; if (vpath == NULL || first_element == NULL) return NULL; va_start (args, first_element); str_path = mc_build_filenamev (first_element, args); va_end (args); result_str = vfs_path_to_str (vpath); ret_vpath = vfs_path_build_filename (result_str, str_path, NULL); g_free (result_str); g_free (str_path); return ret_vpath; } /* --------------------------------------------------------------------------------------------- */ /** * Append vpath_t tokens to path object * * @param ... NULL-terminated vpath objects * * @return newly allocated path object */ vfs_path_t * vfs_path_append_vpath_new (const vfs_path_t * first_vpath, ...) { va_list args; vfs_path_t *ret_vpath; const vfs_path_t *current_vpath = first_vpath; if (first_vpath == NULL) return NULL; ret_vpath = vfs_path_new (); va_start (args, first_vpath); do { int vindex; for (vindex = 0; vindex < vfs_path_elements_count (current_vpath); vindex++) { vfs_path_element_t *path_element; path_element = vfs_path_element_clone (vfs_path_get_by_index (current_vpath, vindex)); g_array_append_val (ret_vpath->path, path_element); } current_vpath = va_arg (args, const vfs_path_t *); } while (current_vpath != NULL); va_end (args); return ret_vpath; } /* --------------------------------------------------------------------------------------------- */ /** * get tockens count in path. * * @param vpath path object * * @return count of tokens */ size_t vfs_path_tokens_count (const vfs_path_t * vpath) { size_t count_tokens = 0; int element_index; if (vpath == NULL) return 0; for (element_index = 0; element_index < vfs_path_elements_count (vpath); element_index++) { const vfs_path_element_t *element; char **path_tokens, **iterator; element = vfs_path_get_by_index (vpath, element_index); path_tokens = iterator = g_strsplit (element->path, PATH_SEP_STR, -1); while (*iterator != NULL) { if (**iterator != '\0') count_tokens++; iterator++; } g_strfreev (path_tokens); } return count_tokens; } /* --------------------------------------------------------------------------------------------- */ /** * Get subpath by tokens * * @param vpath path object * @param start_position first token for got/ Started from 0. * If negative, then position will be relative to end of path * @param length count of tokens * * @return newly allocated string with path tokens separated by slash */ char * vfs_path_tokens_get (const vfs_path_t * vpath, ssize_t start_position, ssize_t length) { GString *ret_tokens, *element_tokens; int element_index; size_t tokens_count = vfs_path_tokens_count (vpath); if (vpath == NULL) return NULL; if (length == 0) length = tokens_count; if (length < 0) length = tokens_count + length; if (start_position < 0) start_position = (ssize_t) tokens_count + start_position; if (start_position < 0) return NULL; if (start_position >= (ssize_t) tokens_count) return NULL; if (start_position + (ssize_t) length > (ssize_t) tokens_count) length = tokens_count - start_position; ret_tokens = g_string_sized_new (32); element_tokens = g_string_sized_new (32); for (element_index = 0; element_index < vfs_path_elements_count (vpath); element_index++) { const vfs_path_element_t *element; char **path_tokens, **iterator; g_string_assign (element_tokens, ""); element = vfs_path_get_by_index (vpath, element_index); path_tokens = iterator = g_strsplit (element->path, PATH_SEP_STR, -1); while (*iterator != NULL) { if (**iterator != '\0') { if (start_position == 0) { if (length == 0) { vfs_path_tokens_add_class_info (element, ret_tokens, element_tokens); g_string_free (element_tokens, TRUE); g_strfreev (path_tokens); return g_string_free (ret_tokens, FALSE); } length--; if (element_tokens->len != 0) g_string_append_c (element_tokens, PATH_SEP); g_string_append (element_tokens, *iterator); } else start_position--; } iterator++; } g_strfreev (path_tokens); vfs_path_tokens_add_class_info (element, ret_tokens, element_tokens); } g_string_free (element_tokens, TRUE); return g_string_free (ret_tokens, !(start_position == 0 && length == 0)); } /* --------------------------------------------------------------------------------------------- */ /** * Get subpath by tokens * * @param vpath path object * @param start_position first token for got/ Started from 0. * If negative, then position will be relative to end of path * @param length count of tokens * * @return newly allocated path object with path tokens separated by slash */ vfs_path_t * vfs_path_vtokens_get (const vfs_path_t * vpath, ssize_t start_position, ssize_t length) { char *str_tokens; vfs_path_t *ret_vpath = NULL; str_tokens = vfs_path_tokens_get (vpath, start_position, length); if (str_tokens != NULL) { ret_vpath = vfs_path_from_str_flags (str_tokens, VPF_NO_CANON); g_free (str_tokens); } return ret_vpath; } /* --------------------------------------------------------------------------------------------- */ /** * Build URL parameters (such as user:pass@host:port) from one path element object * * @param element path element * * @return newly allocated string */ char * vfs_path_build_url_params_str (const vfs_path_element_t * element, gboolean keep_password) { GString *buffer; if (element == NULL) return NULL; buffer = g_string_new (""); if (element->user != NULL) g_string_append (buffer, element->user); if (element->password != NULL && keep_password) { g_string_append_c (buffer, ':'); g_string_append (buffer, element->password); } if (element->host != NULL) { if ((element->user != NULL) || (element->password != NULL)) g_string_append_c (buffer, '@'); if (element->ipv6) g_string_append_c (buffer, '['); g_string_append (buffer, element->host); if (element->ipv6) g_string_append_c (buffer, ']'); } if ((element->port) != 0 && (element->host != NULL)) { g_string_append_c (buffer, ':'); g_string_append_printf (buffer, "%d", element->port); } return g_string_free (buffer, FALSE); } /* --------------------------------------------------------------------------------------------- */ /** * Build pretty string representation of one path_element_t object * * @param element path element * * @return newly allocated string */ char * vfs_path_element_build_pretty_path_str (const vfs_path_element_t * element) { char *url_params; GString *pretty_path; pretty_path = g_string_new (element->class->prefix); g_string_append (pretty_path, VFS_PATH_URL_DELIMITER); url_params = vfs_path_build_url_params_str (element, FALSE); g_string_append (pretty_path, url_params); g_free (url_params); if (*element->path != PATH_SEP) g_string_append_c (pretty_path, PATH_SEP); g_string_append (pretty_path, element->path); return g_string_free (pretty_path, FALSE); } /* --------------------------------------------------------------------------------------------- */ /** * Compare two path objects as strings * * @param vpath1 first path object * @param vpath2 second vpath object * * @return integer value like to strcmp. */ int vfs_path_cmp (const vfs_path_t * vpath1, const vfs_path_t * vpath2) { char *path1; char *path2; int ret_val; if (vpath1 == NULL || vpath2 == NULL) return -1; path1 = vfs_path_to_str (vpath1); path2 = vfs_path_to_str (vpath2); ret_val = strcmp (path1, path2); g_free (path1); g_free (path2); return ret_val; } /* --------------------------------------------------------------------------------------------- */ /** * Compare two path objects as strings * * @param vpath1 first path object * @param vpath2 second vpath object * @param len number of first 'len' characters * * @return integer value like to strcmp. */ int vfs_path_ncmp (const vfs_path_t * vpath1, const vfs_path_t * vpath2, size_t len) { char *path1; char *path2; int ret_val; if (vpath1 == NULL || vpath2 == NULL) return -1; path1 = vfs_path_to_str (vpath1); path2 = vfs_path_to_str (vpath2); ret_val = strncmp (path1, path2, len); g_free (path1); g_free (path2); return ret_val; } /* --------------------------------------------------------------------------------------------- */ /** * Calculate path length in string representation * * @param vpath path object * * @return length of path */ size_t vfs_path_len (const vfs_path_t * vpath) { char *path; size_t ret_val; if (vpath == NULL) return 0; path = vfs_path_to_str (vpath); ret_val = strlen (path); g_free (path); return ret_val; } /* --------------------------------------------------------------------------------------------- */ /** * Convert relative vpath object to absolute * * @param vpath path object * * @return absolute path object */ vfs_path_t * vfs_path_to_absolute (const vfs_path_t * vpath) { vfs_path_t *absolute_vpath; char *path_str; if (!vpath->relative) return vfs_path_clone (vpath); path_str = vfs_path_to_str (vpath); absolute_vpath = vfs_path_from_str (path_str); g_free (path_str); return absolute_vpath; } /* --------------------------------------------------------------------------------------------- */