/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 2008, Eliel C. Sardanons (LU1ALY) * * See http://www.asterisk.org for more information about * the Asterisk project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * This program is free software, distributed under the terms of * the GNU General Public License Version 2. See the LICENSE file * at the top of the source tree. */ /*! \file * * \brief XML Documentation API * * \author Eliel C. Sardanons (LU1ALY) * * libxml2 http://www.xmlsoft.org/ */ /*** MODULEINFO core ***/ #include "asterisk.h" #include "asterisk/_private.h" #include "asterisk/paths.h" #include "asterisk/linkedlists.h" #include "asterisk/config.h" #include "asterisk/term.h" #include "asterisk/astobj2.h" #include "asterisk/xmldoc.h" #include "asterisk/cli.h" #ifdef AST_XML_DOCS /*! \brief Default documentation language. */ static const char default_documentation_language[] = "en_US"; /*! \brief Number of columns to print when showing the XML documentation with a * 'core show application/function *' CLI command. Used in text wrapping.*/ static const int xmldoc_text_columns = 79; /*! \brief XML documentation language. */ static char documentation_language[6]; /*! \brief XML documentation tree */ struct documentation_tree { char *filename; /*!< XML document filename. */ struct ast_xml_doc *doc; /*!< Open document pointer. */ AST_RWLIST_ENTRY(documentation_tree) entry; }; static char *xmldoc_get_syntax_cmd(struct ast_xml_node *fixnode, const char *name, int printname); static int xmldoc_parse_enumlist(struct ast_xml_node *fixnode, const char *tabs, struct ast_str **buffer); static void xmldoc_parse_parameter(struct ast_xml_node *fixnode, const char *tabs, struct ast_str **buffer); static int xmldoc_parse_info(struct ast_xml_node *node, const char *tabs, const char *posttabs, struct ast_str **buffer); static int xmldoc_parse_para(struct ast_xml_node *node, const char *tabs, const char *posttabs, struct ast_str **buffer); static int xmldoc_parse_specialtags(struct ast_xml_node *fixnode, const char *tabs, const char *posttabs, struct ast_str **buffer); /*! * \brief Container of documentation trees * * \note A RWLIST is a sufficient container type to use here for now. * However, some changes will need to be made to implement ref counting * if reload support is added in the future. */ static AST_RWLIST_HEAD_STATIC(xmldoc_tree, documentation_tree); static const struct strcolorized_tags { const char *init; /*!< Replace initial tag with this string. */ const char *end; /*!< Replace end tag with this string. */ const int colorfg; /*!< Foreground color. */ const char *inittag; /*!< Initial tag description. */ const char *endtag; /*!< Ending tag description. */ } colorized_tags[] = { { "<", ">", COLOR_GREEN, "", "" }, { "\'", "\'", COLOR_BLUE, "", "" }, { "*", "*", COLOR_RED, "", "" }, { "\"", "\"", COLOR_YELLOW, "", "" }, { "\"", "\"", COLOR_CYAN, "", "" }, { "${", "}", COLOR_GREEN, "", "" }, { "", "", COLOR_BLUE, "", "" }, { "", "", COLOR_BLUE, "", "" }, { "\'", "\'", COLOR_GRAY, "", "" }, /* Special tags */ { "", "", COLOR_YELLOW, "", "" }, { "", "", COLOR_RED, "", "" }, { "", "", COLOR_WHITE, "", "" }, { "", "", COLOR_GRAY, "", ""}, }; static const struct strspecial_tags { const char *tagname; /*!< Special tag name. */ const char *init; /*!< Print this at the beginning. */ const char *end; /*!< Print this at the end. */ } special_tags[] = { { "note", "NOTE: ", "" }, { "warning", "WARNING!!!: ", "" }, { "example", "Example: ", "" }, }; /*! * \internal * \brief Calculate the space in bytes used by a format string * that will be passed to a sprintf function. * * \param postbr The format string to use to calculate the length. * * \retval The postbr length. */ static int xmldoc_postbrlen(const char *postbr) { int postbrreallen = 0, i; size_t postbrlen; if (!postbr) { return 0; } postbrlen = strlen(postbr); for (i = 0; i < postbrlen; i++) { if (postbr[i] == '\t') { postbrreallen += 8 - (postbrreallen % 8); } else { postbrreallen++; } } return postbrreallen; } /*! * \internal * \brief Setup postbr to be used while wrapping the text. * Add to postbr array all the spaces and tabs at the beginning of text. * * \param postbr output array. * \param len text array length. * \param text Text with format string before the actual string. */ static void xmldoc_setpostbr(char *postbr, size_t len, const char *text) { int c, postbrlen = 0; if (!text) { return; } for (c = 0; c < len; c++) { if (text[c] == '\t' || text[c] == ' ') { postbr[postbrlen++] = text[c]; } else { break; } } postbr[postbrlen] = '\0'; } /*! * \internal * \brief Justify a text to a number of columns. * * \param text Input text to be justified. * \param columns Number of columns to preserve in the text. * * \retval NULL on error. * \retval The wrapped text. */ static char *xmldoc_string_wrap(const char *text, int columns) { struct ast_str *tmp; char *ret, postbr[160]; int count, i, textlen, postbrlen, lastbreak; /* sanity check */ if (!text || columns <= 0) { ast_log(LOG_WARNING, "Passing wrong arguments while trying to wrap the text\n"); return NULL; } tmp = ast_str_create(strlen(text) * 3); if (!tmp) { return NULL; } /* Check for blanks and tabs and put them in postbr. */ xmldoc_setpostbr(postbr, sizeof(postbr), text); postbrlen = xmldoc_postbrlen(postbr); count = 0; lastbreak = 0; textlen = strlen(text); for (i = 0; i < textlen; i++) { if (text[i] == '\n') { xmldoc_setpostbr(postbr, sizeof(postbr), &text[i] + 1); postbrlen = xmldoc_postbrlen(postbr); count = 0; lastbreak = 0; } else if (text[i] == ESC) { /* Walk over escape sequences without counting them. */ do { ast_str_append(&tmp, 0, "%c", text[i]); i++; } while (i < textlen && text[i] != 'm'); } else { if (text[i] == ' ') { lastbreak = i; } count++; } if (count > columns) { /* Seek backwards if it was at most 30 characters ago. */ int back = i - lastbreak; if (lastbreak && back > 0 && back < 30) { ast_str_truncate(tmp, -back); i = lastbreak; /* go back a bit */ } ast_str_append(&tmp, 0, "\n%s", postbr); count = postbrlen; lastbreak = 0; } else { ast_str_append(&tmp, 0, "%c", text[i]); } } ret = ast_strdup(ast_str_buffer(tmp)); ast_free(tmp); return ret; } char *ast_xmldoc_printable(const char *bwinput, int withcolors) { struct ast_str *colorized; char *wrapped = NULL; int i, c, len, colorsection; char *tmp; size_t bwinputlen; static const int base_fg = COLOR_CYAN; if (!bwinput) { return NULL; } bwinputlen = strlen(bwinput); if (!(colorized = ast_str_create(256))) { return NULL; } if (withcolors) { ast_term_color_code(&colorized, base_fg, 0); if (!colorized) { return NULL; } } for (i = 0; i < bwinputlen; i++) { colorsection = 0; /* Check if we are at the beginning of a tag to be colorized. */ for (c = 0; c < ARRAY_LEN(colorized_tags); c++) { if (strncasecmp(bwinput + i, colorized_tags[c].inittag, strlen(colorized_tags[c].inittag))) { continue; } if (!(tmp = strcasestr(bwinput + i + strlen(colorized_tags[c].inittag), colorized_tags[c].endtag))) { continue; } len = tmp - (bwinput + i + strlen(colorized_tags[c].inittag)); /* Setup color */ if (withcolors) { if (ast_opt_light_background) { /* Turn off *bright* colors */ ast_term_color_code(&colorized, colorized_tags[c].colorfg & 0x7f, 0); } else { /* Turn on *bright* colors */ ast_term_color_code(&colorized, colorized_tags[c].colorfg | 0x80, 0); } if (!colorized) { return NULL; } } /* copy initial string replace */ ast_str_append(&colorized, 0, "%s", colorized_tags[c].init); if (!colorized) { return NULL; } { char buf[len + 1]; ast_copy_string(buf, bwinput + i + strlen(colorized_tags[c].inittag), sizeof(buf)); ast_str_append(&colorized, 0, "%s", buf); } if (!colorized) { return NULL; } /* copy the ending string replace */ ast_str_append(&colorized, 0, "%s", colorized_tags[c].end); if (!colorized) { return NULL; } /* Continue with the last color. */ if (withcolors) { ast_term_color_code(&colorized, base_fg, 0); if (!colorized) { return NULL; } } i += len + strlen(colorized_tags[c].endtag) + strlen(colorized_tags[c].inittag) - 1; colorsection = 1; break; } if (!colorsection) { ast_str_append(&colorized, 0, "%c", bwinput[i]); if (!colorized) { return NULL; } } } if (withcolors) { ast_str_append(&colorized, 0, "%s", ast_term_reset()); if (!colorized) { return NULL; } } /* Wrap the text, notice that string wrap will avoid cutting an ESC sequence. */ wrapped = xmldoc_string_wrap(ast_str_buffer(colorized), xmldoc_text_columns); ast_free(colorized); return wrapped; } /*! * \internal * \brief Cleanup spaces and tabs after a \\n * * \param text String to be cleaned up. * \param output buffer (not already allocated). * \param lastspaces Remove last spaces in the string. * \param maintain_newlines Preserve new line characters (\\n \\r) discovered in the string */ static void xmldoc_string_cleanup(const char *text, struct ast_str **output, int lastspaces, int maintain_newlines) { int i; size_t textlen; if (!text) { *output = NULL; return; } textlen = strlen(text); *output = ast_str_create(textlen); if (!(*output)) { ast_log(LOG_ERROR, "Problem allocating output buffer\n"); return; } for (i = 0; i < textlen; i++) { if (text[i] == '\n' || text[i] == '\r') { if (maintain_newlines) { ast_str_append(output, 0, "%c", text[i]); } /* remove spaces/tabs/\n after a \n. */ while (text[i + 1] == '\t' || text[i + 1] == '\r' || text[i + 1] == '\n') { i++; } ast_str_append(output, 0, " "); continue; } else { ast_str_append(output, 0, "%c", text[i]); } } /* remove last spaces (we don't want always to remove the trailing spaces). */ if (lastspaces) { ast_str_trim_blanks(*output); } } /*! * \internal * \brief Check if the given attribute on the given node matches the given value. * * \param node the node to match * \param attr the name of the attribute * \param value the expected value of the attribute * * \retval true if the given attribute contains the given value * \retval false if the given attribute does not exist or does not contain the given value */ static int xmldoc_attribute_match(struct ast_xml_node *node, const char *attr, const char *value) { const char *attr_value = ast_xml_get_attribute(node, attr); int match = attr_value && !strcmp(attr_value, value); ast_xml_free_attr(attr_value); return match; } /*! * \internal * \brief Get the application/function node for 'name' application/function with language 'language' * and module 'module' if we don't find any, get the first application * with 'name' no matter which language or module. * * \param type 'application', 'function', ... * \param name Application or Function name. * \param module Module item is in. * \param language Try to get this language (if not found try with en_US) * * \retval NULL on error. * \retval A node of type ast_xml_node. */ static struct ast_xml_node *xmldoc_get_node(const char *type, const char *name, const char *module, const char *language) { struct ast_xml_node *node = NULL; struct ast_xml_node *first_match = NULL; struct ast_xml_node *lang_match = NULL; struct documentation_tree *doctree; AST_RWLIST_RDLOCK(&xmldoc_tree); AST_LIST_TRAVERSE(&xmldoc_tree, doctree, entry) { /* the core xml documents have priority over thirdparty document. */ node = ast_xml_get_root(doctree->doc); if (!node) { break; } node = ast_xml_node_get_children(node); while ((node = ast_xml_find_element(node, type, "name", name))) { if (!ast_xml_node_get_children(node)) { /* ignore empty nodes */ node = ast_xml_node_get_next(node); continue; } if (!first_match) { first_match = node; } /* Check language */ if (xmldoc_attribute_match(node, "language", language)) { if (!lang_match) { lang_match = node; } /* if module is empty we have a match */ if (ast_strlen_zero(module)) { break; } /* Check module */ if (xmldoc_attribute_match(node, "module", module)) { break; } } node = ast_xml_node_get_next(node); } /* if we matched lang and module return this match */ if (node) { break; } /* we didn't match lang and module, just return the first * result with a matching language if we have one */ if (lang_match) { node = lang_match; break; } /* we didn't match with only the language, just return the * first match */ if (first_match) { node = first_match; break; } } AST_RWLIST_UNLOCK(&xmldoc_tree); return node; } /*! * \internal * \brief Helper function used to build the syntax, it allocates the needed buffer (or reallocates it), * and based on the reverse value it makes use of fmt to print the parameter list inside the * realloced buffer (syntax). * * \param reverse We are going backwards while generating the syntax? * \param len Current length of 'syntax' buffer. * \param syntax Output buffer for the concatenated values. * \param fmt A format string that will be used in a sprintf call. */ static void __attribute__((format(printf, 4, 5))) xmldoc_reverse_helper(int reverse, int *len, char **syntax, const char *fmt, ...) { int totlen; int tmpfmtlen; char *tmpfmt; char *new_syntax; char tmp; va_list ap; va_start(ap, fmt); if (ast_vasprintf(&tmpfmt, fmt, ap) < 0) { va_end(ap); return; } va_end(ap); tmpfmtlen = strlen(tmpfmt); totlen = *len + tmpfmtlen + 1; new_syntax = ast_realloc(*syntax, totlen); if (!new_syntax) { ast_free(tmpfmt); return; } *syntax = new_syntax; if (reverse) { memmove(*syntax + tmpfmtlen, *syntax, *len); /* Save this char, it will be overwritten by the \0 of strcpy. */ tmp = (*syntax)[0]; strcpy(*syntax, tmpfmt); /* Restore the already saved char. */ (*syntax)[tmpfmtlen] = tmp; (*syntax)[totlen - 1] = '\0'; } else { strcpy(*syntax + *len, tmpfmt); } *len = totlen - 1; ast_free(tmpfmt); } /*! * \internal * \brief Check if the passed node has 'what' tags inside it. * * \param fixnode Root node to search 'what' elements. * \param what Node name to search inside node. * * \retval 1 If a 'what' element is found inside 'node'. * \retval 0 If no 'what' is found inside 'node'. */ static int xmldoc_has_inside(struct ast_xml_node *fixnode, const char *what) { struct ast_xml_node *node = fixnode; for (node = ast_xml_node_get_children(fixnode); node; node = ast_xml_node_get_next(node)) { if (!strcasecmp(ast_xml_node_get_name(node), what)) { return 1; } } return 0; } /*! * \internal * \brief Check if the passed node has at least one node inside it. * * \param fixnode Root node to search node elements. * * \retval 1 If a node element is found inside 'node'. * \retval 0 If no node is found inside 'node'. */ static int xmldoc_has_nodes(struct ast_xml_node *fixnode) { struct ast_xml_node *node = fixnode; for (node = ast_xml_node_get_children(fixnode); node; node = ast_xml_node_get_next(node)) { if (strcasecmp(ast_xml_node_get_name(node), "text")) { return 1; } } return 0; } /*! * \internal * \brief Check if the passed node has at least one specialtag. * * \param fixnode Root node to search "specialtags" elements. * * \retval 1 If a "specialtag" element is found inside 'node'. * \retval 0 If no "specialtag" is found inside 'node'. */ static int xmldoc_has_specialtags(struct ast_xml_node *fixnode) { struct ast_xml_node *node = fixnode; int i; for (node = ast_xml_node_get_children(fixnode); node; node = ast_xml_node_get_next(node)) { for (i = 0; i < ARRAY_LEN(special_tags); i++) { if (!strcasecmp(ast_xml_node_get_name(node), special_tags[i].tagname)) { return 1; } } } return 0; } /*! * \internal * \brief Build the syntax for a specified starting node. * * \param rootnode A pointer to the ast_xml root node. * \param rootname Name of the application, function, option, etc. to build the syntax. * \param childname The name of each parameter node. * \param printparenthesis Boolean if we must print parenthesis if not parameters are found in the rootnode. * \param printrootname Boolean if we must print the rootname before the syntax and parenthesis at the begining/end. * * \retval NULL on error. * \retval An ast_malloc'ed string with the syntax generated. */ static char *xmldoc_get_syntax_fun(struct ast_xml_node *rootnode, const char *rootname, const char *childname, int printparenthesis, int printrootname) { #define GOTONEXT(__rev, __a) (__rev ? ast_xml_node_get_prev(__a) : ast_xml_node_get_next(__a)) #define ISLAST(__rev, __a) (__rev == 1 ? (ast_xml_node_get_prev(__a) ? 0 : 1) : (ast_xml_node_get_next(__a) ? 0 : 1)) #define MP(__a) ((multiple ? __a : "")) struct ast_xml_node *node = NULL, *firstparam = NULL, *lastparam = NULL; const char *paramtype, *multipletype, *paramnameattr, *attrargsep, *parenthesis, *argname; int reverse, required, paramcount = 0, openbrackets = 0, len = 0, hasparams=0; int reqfinode = 0, reqlanode = 0, optmidnode = 0, prnparenthesis, multiple; char *syntax = NULL, *argsep, *paramname; if (ast_strlen_zero(rootname) || ast_strlen_zero(childname)) { ast_log(LOG_WARNING, "Tried to look in XML tree with faulty rootname or childname while creating a syntax.\n"); return NULL; } if (!rootnode || !ast_xml_node_get_children(rootnode)) { /* If the rootnode field is not found, at least print name. */ if (ast_asprintf(&syntax, "%s%s", (printrootname ? rootname : ""), (printparenthesis ? "()" : "")) < 0) { syntax = NULL; } return syntax; } /* Get the argument separator from the root node attribute name 'argsep', if not found defaults to ','. */ attrargsep = ast_xml_get_attribute(rootnode, "argsep"); if (attrargsep) { argsep = ast_strdupa(attrargsep); ast_xml_free_attr(attrargsep); } else { argsep = ast_strdupa(","); } /* Get order of evaluation. */ for (node = ast_xml_node_get_children(rootnode); node; node = ast_xml_node_get_next(node)) { if (strcasecmp(ast_xml_node_get_name(node), childname)) { continue; } required = 0; hasparams = 1; if ((paramtype = ast_xml_get_attribute(node, "required"))) { if (ast_true(paramtype)) { required = 1; } ast_xml_free_attr(paramtype); } lastparam = node; reqlanode = required; if (!firstparam) { /* first parameter node */ firstparam = node; reqfinode = required; } } if (!hasparams) { /* This application, function, option, etc, doesn't have any params. */ if (ast_asprintf(&syntax, "%s%s", (printrootname ? rootname : ""), (printparenthesis ? "()" : "")) < 0) { syntax = NULL; } return syntax; } if (reqfinode && reqlanode) { /* check midnode */ for (node = ast_xml_node_get_children(rootnode); node; node = ast_xml_node_get_next(node)) { if (strcasecmp(ast_xml_node_get_name(node), childname)) { continue; } if (node != firstparam && node != lastparam) { if ((paramtype = ast_xml_get_attribute(node, "required"))) { if (!ast_true(paramtype)) { optmidnode = 1; ast_xml_free_attr(paramtype); break; } ast_xml_free_attr(paramtype); } } } } if ((!reqfinode && reqlanode) || (reqfinode && reqlanode && optmidnode)) { reverse = 1; node = lastparam; } else { reverse = 0; node = firstparam; } /* init syntax string. */ if (reverse) { xmldoc_reverse_helper(reverse, &len, &syntax, (printrootname ? (printrootname == 2 ? ")]" : ")"): "")); } else { xmldoc_reverse_helper(reverse, &len, &syntax, "%s%s", (printrootname ? rootname : ""), (printrootname ? (printrootname == 2 ? "[(" : "(") : "")); } for (; node; node = GOTONEXT(reverse, node)) { if (strcasecmp(ast_xml_node_get_name(node), childname)) { continue; } /* Get the argument name, if it is not the leaf, go inside that parameter. */ if (xmldoc_has_inside(node, "argument")) { parenthesis = ast_xml_get_attribute(node, "hasparams"); prnparenthesis = 0; if (parenthesis) { prnparenthesis = ast_true(parenthesis); if (!strcasecmp(parenthesis, "optional")) { prnparenthesis = 2; } ast_xml_free_attr(parenthesis); } argname = ast_xml_get_attribute(node, "name"); if (argname) { paramname = xmldoc_get_syntax_fun(node, argname, "argument", prnparenthesis, prnparenthesis); ast_xml_free_attr(argname); } else { /* Malformed XML, print **UNKOWN** */ paramname = ast_strdup("**unknown**"); } } else { paramnameattr = ast_xml_get_attribute(node, "name"); if (!paramnameattr) { ast_log(LOG_WARNING, "Malformed XML %s: no %s name\n", rootname, childname); if (syntax) { /* Free already allocated syntax */ ast_free(syntax); } /* to give up is ok? */ if (ast_asprintf(&syntax, "%s%s", (printrootname ? rootname : ""), (printparenthesis ? "()" : "")) < 0) { syntax = NULL; } return syntax; } paramname = ast_strdup(paramnameattr); ast_xml_free_attr(paramnameattr); } if (!paramname) { return NULL; } /* Defaults to 'false'. */ multiple = 0; if ((multipletype = ast_xml_get_attribute(node, "multiple"))) { if (ast_true(multipletype)) { multiple = 1; } ast_xml_free_attr(multipletype); } required = 0; /* Defaults to 'false'. */ if ((paramtype = ast_xml_get_attribute(node, "required"))) { if (ast_true(paramtype)) { required = 1; } ast_xml_free_attr(paramtype); } /* build syntax core. */ if (required) { /* First parameter */ if (!paramcount) { xmldoc_reverse_helper(reverse, &len, &syntax, "%s%s%s%s", paramname, MP("["), MP(argsep), MP("...]")); } else { /* Time to close open brackets. */ while (openbrackets > 0) { xmldoc_reverse_helper(reverse, &len, &syntax, (reverse ? "[" : "]")); openbrackets--; } if (reverse) { xmldoc_reverse_helper(reverse, &len, &syntax, "%s%s", paramname, argsep); } else { xmldoc_reverse_helper(reverse, &len, &syntax, "%s%s", argsep, paramname); } xmldoc_reverse_helper(reverse, &len, &syntax, "%s%s%s", MP("["), MP(argsep), MP("...]")); } } else { /* First parameter */ if (!paramcount) { xmldoc_reverse_helper(reverse, &len, &syntax, "[%s%s%s%s]", paramname, MP("["), MP(argsep), MP("...]")); } else { if (ISLAST(reverse, node)) { /* This is the last parameter. */ if (reverse) { xmldoc_reverse_helper(reverse, &len, &syntax, "[%s%s%s%s]%s", paramname, MP("["), MP(argsep), MP("...]"), argsep); } else { xmldoc_reverse_helper(reverse, &len, &syntax, "%s[%s%s%s%s]", argsep, paramname, MP("["), MP(argsep), MP("...]")); } } else { if (reverse) { xmldoc_reverse_helper(reverse, &len, &syntax, "%s%s%s%s%s]", paramname, argsep, MP("["), MP(argsep), MP("...]")); } else { xmldoc_reverse_helper(reverse, &len, &syntax, "[%s%s%s%s%s", argsep, paramname, MP("["), MP(argsep), MP("...]")); } openbrackets++; } } } ast_free(paramname); paramcount++; } /* Time to close open brackets. */ while (openbrackets > 0) { xmldoc_reverse_helper(reverse, &len, &syntax, (reverse ? "[" : "]")); openbrackets--; } /* close syntax string. */ if (reverse) { xmldoc_reverse_helper(reverse, &len, &syntax, "%s%s", (printrootname ? rootname : ""), (printrootname ? (printrootname == 2 ? "[(" : "(") : "")); } else { xmldoc_reverse_helper(reverse, &len, &syntax, (printrootname ? (printrootname == 2 ? ")]" : ")") : "")); } return syntax; #undef ISLAST #undef GOTONEXT #undef MP } /*! * \internal * \brief Parse an enumlist inside a \ to generate a COMMAND syntax. * * \param fixnode A pointer to the \ node. * * \retval {} on error. * \retval A string inside brackets {} with the enum's separated by pipes |. */ static char *xmldoc_parse_cmd_enumlist(struct ast_xml_node *fixnode) { struct ast_xml_node *node = fixnode; struct ast_str *paramname; char *enumname, *ret; int first = 1; paramname = ast_str_create(128); if (!paramname) { return ast_strdup("{}"); } ast_str_append(¶mname, 0, "{"); for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (strcasecmp(ast_xml_node_get_name(node), "enum")) { continue; } enumname = xmldoc_get_syntax_cmd(node, "", 0); if (!enumname) { continue; } if (!first) { ast_str_append(¶mname, 0, "|"); } ast_str_append(¶mname, 0, "%s", enumname); first = 0; ast_free(enumname); } ast_str_append(¶mname, 0, "}"); ret = ast_strdup(ast_str_buffer(paramname)); ast_free(paramname); return ret; } /*! * \internal * \brief Generate a syntax of COMMAND type. * * \param fixnode The \ node pointer. * \param name The name of the 'command'. * \param printname Print the name of the command before the paramters? * * \return On error, return just 'name'. * \return On success return the generated syntax. */ static char *xmldoc_get_syntax_cmd(struct ast_xml_node *fixnode, const char *name, int printname) { struct ast_str *syntax; struct ast_xml_node *tmpnode, *node = fixnode; char *ret, *paramname; const char *paramtype, *attrname, *literal; int required, isenum, first = 1, isliteral; if (!fixnode) { return NULL; } syntax = ast_str_create(128); if (!syntax) { /* at least try to return something... */ return ast_strdup(name); } /* append name to output string. */ if (printname) { ast_str_append(&syntax, 0, "%s", name); first = 0; } for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (strcasecmp(ast_xml_node_get_name(node), "parameter")) { continue; } if (xmldoc_has_inside(node, "parameter")) { /* is this a recursive parameter. */ paramname = xmldoc_get_syntax_cmd(node, "", 0); isenum = 1; } else { for (tmpnode = ast_xml_node_get_children(node); tmpnode; tmpnode = ast_xml_node_get_next(tmpnode)) { if (!strcasecmp(ast_xml_node_get_name(tmpnode), "enumlist")) { break; } } if (tmpnode) { /* parse enumlist (note that this is a special enumlist that is used to describe a syntax like {||...} */ paramname = xmldoc_parse_cmd_enumlist(tmpnode); isenum = 1; } else { /* this is a simple parameter. */ attrname = ast_xml_get_attribute(node, "name"); if (!attrname) { /* ignore this bogus parameter and continue. */ continue; } paramname = ast_strdup(attrname); ast_xml_free_attr(attrname); isenum = 0; } } /* Is this parameter required? */ required = 0; paramtype = ast_xml_get_attribute(node, "required"); if (paramtype) { required = ast_true(paramtype); ast_xml_free_attr(paramtype); } /* Is this a replaceable value or a fixed parameter value? */ isliteral = 0; literal = ast_xml_get_attribute(node, "literal"); if (literal) { isliteral = ast_true(literal); ast_xml_free_attr(literal); } /* if required="false" print with [...]. * if literal="true" or is enum print without <..>. * if not first print a space at the beginning. */ ast_str_append(&syntax, 0, "%s%s%s%s%s%s", (first ? "" : " "), (required ? "" : "["), (isenum || isliteral ? "" : "<"), paramname, (isenum || isliteral ? "" : ">"), (required ? "" : "]")); first = 0; ast_free(paramname); } /* return a common string. */ ret = ast_strdup(ast_str_buffer(syntax)); ast_free(syntax); return ret; } /*! * \internal * \brief Generate an AMI action/event syntax. * * \param fixnode The manager action/event node pointer. * \param name The name of the manager action/event. * \param manager_type "Action" or "Event" * * \retval The generated syntax. * \retval NULL on error. */ static char *xmldoc_get_syntax_manager(struct ast_xml_node *fixnode, const char *name, const char *manager_type) { struct ast_str *syntax; struct ast_xml_node *node = fixnode; const char *paramtype, *attrname; int required; char *ret; if (!fixnode) { return NULL; } syntax = ast_str_create(128); if (!syntax) { return ast_strdup(name); } ast_str_append(&syntax, 0, "%s: %s", manager_type, name); for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (strcasecmp(ast_xml_node_get_name(node), "parameter")) { continue; } /* Is this parameter required? */ required = !strcasecmp(manager_type, "event") ? 1 : 0; paramtype = ast_xml_get_attribute(node, "required"); if (paramtype) { required = ast_true(paramtype); ast_xml_free_attr(paramtype); } attrname = ast_xml_get_attribute(node, "name"); if (!attrname) { /* ignore this bogus parameter and continue. */ continue; } ast_str_append(&syntax, 0, "\n%s%s:%s ", (required ? "" : "["), attrname, (required ? "" : "]")); ast_xml_free_attr(attrname); } /* return a common string. */ ret = ast_strdup(ast_str_buffer(syntax)); ast_free(syntax); return ret; } static char *xmldoc_get_syntax_config_object(struct ast_xml_node *fixnode, const char *name) { struct ast_xml_node *matchinfo, *tmp; int match; const char *attr_value; const char *text; RAII_VAR(struct ast_str *, syntax, ast_str_create(128), ast_free); if (!syntax || !fixnode) { return NULL; } if (!(matchinfo = ast_xml_find_element(ast_xml_node_get_children(fixnode), "matchInfo", NULL, NULL))) { return NULL; } if (!(tmp = ast_xml_find_element(ast_xml_node_get_children(matchinfo), "category", NULL, NULL))) { return NULL; } attr_value = ast_xml_get_attribute(tmp, "match"); if (attr_value) { match = ast_true(attr_value); text = ast_xml_get_text(tmp); ast_str_set(&syntax, 0, "category %s /%s/", match ? "=~" : "!~", text); ast_xml_free_attr(attr_value); ast_xml_free_text(text); } if ((tmp = ast_xml_find_element(ast_xml_node_get_children(matchinfo), "field", NULL, NULL))) { text = ast_xml_get_text(tmp); attr_value = ast_xml_get_attribute(tmp, "name"); ast_str_append(&syntax, 0, " matchfield: %s = %s", S_OR(attr_value, "Unknown"), text); ast_xml_free_attr(attr_value); ast_xml_free_text(text); } return ast_strdup(ast_str_buffer(syntax)); } static char *xmldoc_get_syntax_config_option(struct ast_xml_node *fixnode, const char *name) { const char *type; const char *default_value; const char *regex; RAII_VAR(struct ast_str *, syntax, ast_str_create(128), ast_free); if (!syntax || !fixnode) { return NULL; } type = ast_xml_get_attribute(fixnode, "type"); default_value = ast_xml_get_attribute(fixnode, "default"); regex = ast_xml_get_attribute(fixnode, "regex"); ast_str_set(&syntax, 0, "%s = [%s] (Default: %s) (Regex: %s)\n", name, type ?: "", default_value ?: "n/a", regex ?: "False"); ast_xml_free_attr(type); ast_xml_free_attr(default_value); ast_xml_free_attr(regex); return ast_strdup(ast_str_buffer(syntax)); } /*! \brief Types of syntax that we are able to generate. */ enum syntaxtype { FUNCTION_SYNTAX, MANAGER_SYNTAX, MANAGER_EVENT_SYNTAX, CONFIG_INFO_SYNTAX, CONFIG_FILE_SYNTAX, CONFIG_OPTION_SYNTAX, CONFIG_OBJECT_SYNTAX, COMMAND_SYNTAX }; /*! \brief Mapping between type of node and type of syntax to generate. */ static struct strsyntaxtype { const char *type; enum syntaxtype stxtype; } stxtype[] = { { "function", FUNCTION_SYNTAX }, { "application", FUNCTION_SYNTAX }, { "manager", MANAGER_SYNTAX }, { "managerEvent", MANAGER_EVENT_SYNTAX }, { "configInfo", CONFIG_INFO_SYNTAX }, { "configFile", CONFIG_FILE_SYNTAX }, { "configOption", CONFIG_OPTION_SYNTAX }, { "configObject", CONFIG_OBJECT_SYNTAX }, { "agi", COMMAND_SYNTAX }, }; /*! * \internal * \brief Get syntax type based on type of node. * * \param type Type of node. * * \retval The type of syntax to generate based on the type of node. */ static enum syntaxtype xmldoc_get_syntax_type(const char *type) { int i; for (i=0; i < ARRAY_LEN(stxtype); i++) { if (!strcasecmp(stxtype[i].type, type)) { return stxtype[i].stxtype; } } return FUNCTION_SYNTAX; } /*! * \internal * \brief Build syntax information for an item * \param root_node The syntax node to parse * \param type The source type * \param name The name of the item that the syntax describes * * \note This method exists for when you already have the node. This * prevents having to lock the documentation tree twice * * \retval A malloc'd character pointer to the syntax of the item * \retval NULL on failure * * \since 11 */ static char *_ast_xmldoc_build_syntax(struct ast_xml_node *root_node, const char *type, const char *name) { char *syntax = NULL; struct ast_xml_node *node = root_node; for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (!strcasecmp(ast_xml_node_get_name(node), "syntax")) { break; } } switch (xmldoc_get_syntax_type(type)) { case FUNCTION_SYNTAX: syntax = xmldoc_get_syntax_fun(node, name, "parameter", 1, 1); break; case COMMAND_SYNTAX: syntax = xmldoc_get_syntax_cmd(node, name, 1); break; case MANAGER_SYNTAX: syntax = xmldoc_get_syntax_manager(node, name, "Action"); break; case MANAGER_EVENT_SYNTAX: syntax = xmldoc_get_syntax_manager(node, name, "Event"); break; case CONFIG_OPTION_SYNTAX: syntax = xmldoc_get_syntax_config_option(root_node, name); break; case CONFIG_OBJECT_SYNTAX: syntax = xmldoc_get_syntax_config_object(node, name); break; default: syntax = xmldoc_get_syntax_fun(node, name, "parameter", 1, 1); } return syntax; } char *ast_xmldoc_build_syntax(const char *type, const char *name, const char *module) { struct ast_xml_node *node; node = xmldoc_get_node(type, name, module, documentation_language); if (!node) { return NULL; } return _ast_xmldoc_build_syntax(node, type, name); } /*! * \internal * \brief Parse common internal elements. This includes paragraphs, special * tags, and information nodes. * * \param node The element to parse * \param tabs Add this string before the content of the parsed element. * \param posttabs Add this string after the content of the parsed element. * \param buffer This must be an already allocated ast_str. It will be used to * store the result (if something has already been placed in the * buffer, the parsed elements will be appended) * * \retval 1 if any data was appended to the buffer * \retval 2 if the data appended to the buffer contained a text paragraph * \retval 0 if no data was appended to the buffer */ static int xmldoc_parse_common_elements(struct ast_xml_node *node, const char *tabs, const char *posttabs, struct ast_str **buffer) { return (xmldoc_parse_para(node, tabs, posttabs, buffer) || xmldoc_parse_specialtags(node, tabs, posttabs, buffer) || xmldoc_parse_info(node, tabs, posttabs, buffer)); } /*! * \internal * \brief Parse a \ element. * * \param node The \ element pointer. * \param tabs Add this string before the content of the \ element. * \param posttabs Added this string after the content of the \ element. * \param buffer This must be an already allocated ast_str. It will be used * to store the result (if already has something it will be appended to the current * string). * * \retval 1 If 'node' is a named 'para'. * \retval 2 If data is appended in buffer. * \retval 0 on error. */ static int xmldoc_parse_para(struct ast_xml_node *node, const char *tabs, const char *posttabs, struct ast_str **buffer) { const char *tmptext; struct ast_xml_node *tmp; int ret = 0; struct ast_str *tmpstr; if (!node || !ast_xml_node_get_children(node)) { return ret; } if (strcasecmp(ast_xml_node_get_name(node), "para")) { return ret; } ast_str_append(buffer, 0, "%s", tabs); ret = 1; for (tmp = ast_xml_node_get_children(node); tmp; tmp = ast_xml_node_get_next(tmp)) { /* Get the text inside the element and append it to buffer. */ tmptext = ast_xml_get_text(tmp); if (tmptext) { /* Strip \n etc. */ xmldoc_string_cleanup(tmptext, &tmpstr, 0, 0); ast_xml_free_text(tmptext); if (tmpstr) { if (strcasecmp(ast_xml_node_get_name(tmp), "text")) { ast_str_append(buffer, 0, "<%s>%s", ast_xml_node_get_name(tmp), ast_str_buffer(tmpstr), ast_xml_node_get_name(tmp)); } else { ast_str_append(buffer, 0, "%s", ast_str_buffer(tmpstr)); } ast_free(tmpstr); ret = 2; } } } ast_str_append(buffer, 0, "%s", posttabs); return ret; } /*! * \internal * \brief Parse an \ node. * \since 13.0.0 * * \param fixnode An ast xml pointer to the \ node. * \param buffer The output buffer. * * \retval 0 if no example node is parsed. * \retval 1 if an example node is parsed. */ static int xmldoc_parse_example(struct ast_xml_node *fixnode, struct ast_str **buffer) { struct ast_xml_node *node = fixnode; const char *tmptext; const char *title; struct ast_str *stripped_text; int ret = 0; if (!node || !ast_xml_node_get_children(node)) { return ret; } if (strcasecmp(ast_xml_node_get_name(node), "example")) { return ret; } ret = 1; title = ast_xml_get_attribute(node, "title"); if (title) { ast_str_append(buffer, 0, "%s", title); ast_xml_free_attr(title); } ast_str_append(buffer, 0, "\n"); for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { tmptext = ast_xml_get_text(node); if (tmptext) { xmldoc_string_cleanup(tmptext, &stripped_text, 0, 1); if (stripped_text) { ast_str_append(buffer, 0, "%s\n", ast_str_buffer(stripped_text)); ast_xml_free_text(tmptext); ast_free(stripped_text); } } } return ret; } /*! * \internal * \brief Parse special elements defined in 'struct special_tags' special elements must have a \ element inside them. * * \param fixnode special tag node pointer. * \param tabs put tabs before printing the node content. * \param posttabs put posttabs after printing node content. * \param buffer Output buffer, the special tags will be appended here. * * \retval 0 if no special element is parsed. * \retval 1 if a special element is parsed (data is appended to buffer). * \retval 2 if a special element is parsed and also a \ element is parsed inside the specialtag. */ static int xmldoc_parse_specialtags(struct ast_xml_node *fixnode, const char *tabs, const char *posttabs, struct ast_str **buffer) { struct ast_xml_node *node = fixnode; int ret = 0, i; if (!node || !ast_xml_node_get_children(node)) { return ret; } for (i = 0; i < ARRAY_LEN(special_tags); i++) { if (strcasecmp(ast_xml_node_get_name(node), special_tags[i].tagname)) { continue; } ret = 1; /* This is a special tag. */ /* concat data */ if (!ast_strlen_zero(special_tags[i].init)) { ast_str_append(buffer, 0, "%s%s", tabs, special_tags[i].init); } if (xmldoc_parse_example(node, buffer)) { ret = 1; break; } /* parse elements inside special tags. */ for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { /* first just print it without tabs at the begining. */ if ((xmldoc_parse_para(node, "", posttabs, buffer) == 2) || (xmldoc_parse_info(node, "", posttabs, buffer) == 2)) { ret = 2; } } if (!ast_strlen_zero(special_tags[i].end)) { ast_str_append(buffer, 0, "%s%s", special_tags[i].end, posttabs); } break; } return ret; } /*! * \internal * \brief Parse an \ element from the xml documentation. * * \param fixnode Pointer to the 'argument' xml node. * \param insideparameter If we are parsing an \ inside a \. * \param paramtabs pre tabs if we are inside a parameter element. * \param tabs What to be printed before the argument name. * \param buffer Output buffer to put values found inside the \ element. * * \retval 1 If there is content inside the argument. * \retval 0 If the argument element is not parsed, or there is no content inside it. */ static int xmldoc_parse_argument(struct ast_xml_node *fixnode, int insideparameter, const char *paramtabs, const char *tabs, struct ast_str **buffer) { struct ast_xml_node *node = fixnode; const char *argname; int count = 0, ret = 0; if (!node || !ast_xml_node_get_children(node)) { return ret; } /* Print the argument names */ argname = ast_xml_get_attribute(node, "name"); if (!argname) { return 0; } if (xmldoc_has_inside(node, "para") || xmldoc_has_inside(node, "info") || xmldoc_has_specialtags(node)) { ast_str_append(buffer, 0, "%s%s%s", tabs, argname, (insideparameter ? "\n" : "")); ast_xml_free_attr(argname); } else { ast_xml_free_attr(argname); return 0; } for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (xmldoc_parse_common_elements(node, (insideparameter ? paramtabs : (!count ? " - " : tabs)), "\n", buffer) == 2) { count++; ret = 1; } } return ret; } /*! * \internal * \brief Parse a \ node inside a \ node. * * \param node The variable node to parse. * \param tabs A string to be appended at the begining of the output that will be stored * in buffer. * \param buffer This must be an already created ast_str. It will be used * to store the result (if already has something it will be appended to the current * string). * * \retval 0 if no data is appended. * \retval 1 if data is appended. */ static int xmldoc_parse_variable(struct ast_xml_node *node, const char *tabs, struct ast_str **buffer) { struct ast_xml_node *tmp; const char *valname; const char *tmptext; struct ast_str *cleanstr; int ret = 0, printedpara=0; for (tmp = ast_xml_node_get_children(node); tmp; tmp = ast_xml_node_get_next(tmp)) { if (xmldoc_parse_common_elements(tmp, (ret ? tabs : ""), "\n", buffer)) { printedpara = 1; continue; } if (strcasecmp(ast_xml_node_get_name(tmp), "value")) { continue; } /* Parse a tag only. */ if (!printedpara) { ast_str_append(buffer, 0, "\n"); printedpara = 1; } /* Parse each desciption */ valname = ast_xml_get_attribute(tmp, "name"); if (valname) { ret = 1; ast_str_append(buffer, 0, "%s%s", tabs, valname); ast_xml_free_attr(valname); } tmptext = ast_xml_get_text(tmp); /* Check inside this node for any explanation about its meaning. */ if (tmptext) { /* Cleanup text. */ xmldoc_string_cleanup(tmptext, &cleanstr, 1, 0); ast_xml_free_text(tmptext); if (cleanstr && ast_str_strlen(cleanstr) > 0) { ast_str_append(buffer, 0, ":%s", ast_str_buffer(cleanstr)); } ast_free(cleanstr); } ast_str_append(buffer, 0, "\n"); } return ret; } /*! * \internal * \brief Parse a \ node and put all the output inside 'buffer'. * * \param node The variablelist node pointer. * \param tabs A string to be appended at the begining of the output that will be stored * in buffer. * \param buffer This must be an already created ast_str. It will be used * to store the result (if already has something it will be appended to the current * string). * * \retval 1 If a \ element is parsed. * \retval 0 On error. */ static int xmldoc_parse_variablelist(struct ast_xml_node *node, const char *tabs, struct ast_str **buffer) { struct ast_xml_node *tmp; const char *varname; char *vartabs; int ret = 0; if (!node || !ast_xml_node_get_children(node)) { return ret; } if (strcasecmp(ast_xml_node_get_name(node), "variablelist")) { return ret; } /* use this spacing (add 4 spaces) inside a variablelist node. */ if (ast_asprintf(&vartabs, "%s ", tabs) < 0) { return ret; } for (tmp = ast_xml_node_get_children(node); tmp; tmp = ast_xml_node_get_next(tmp)) { /* We can have a element inside the variable list */ if (xmldoc_parse_common_elements(tmp, (ret ? tabs : ""), "\n", buffer)) { ret = 1; continue; } if (!strcasecmp(ast_xml_node_get_name(tmp), "variable")) { /* Store the variable name in buffer. */ varname = ast_xml_get_attribute(tmp, "name"); if (varname) { ast_str_append(buffer, 0, "%s%s: ", tabs, varname); ast_xml_free_attr(varname); /* Parse the possible values. */ xmldoc_parse_variable(tmp, vartabs, buffer); ret = 1; } } } ast_free(vartabs); return ret; } /*! * \internal * \brief Build seealso information for an item * * \param node The seealso node to parse * * \note This method exists for when you already have the node. This * prevents having to lock the documentation tree twice * * \retval A malloc'd character pointer to the seealso information of the item * \retval NULL on failure * * \since 11 */ static char *_ast_xmldoc_build_seealso(struct ast_xml_node *node) { char *output; struct ast_str *outputstr; const char *typename; const char *content; int first = 1; /* Find the node. */ for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (!strcasecmp(ast_xml_node_get_name(node), "see-also")) { break; } } if (!node || !ast_xml_node_get_children(node)) { /* we couldnt find a node. */ return NULL; } /* prepare the output string. */ outputstr = ast_str_create(128); if (!outputstr) { return NULL; } /* get into the node. */ for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (strcasecmp(ast_xml_node_get_name(node), "ref")) { continue; } /* parse the node. 'type' attribute is required. */ typename = ast_xml_get_attribute(node, "type"); if (!typename) { continue; } content = ast_xml_get_text(node); if (!content) { ast_xml_free_attr(typename); continue; } if (!strcasecmp(typename, "application")) { ast_str_append(&outputstr, 0, "%s%s()", (first ? "" : ", "), content); } else if (!strcasecmp(typename, "function")) { ast_str_append(&outputstr, 0, "%s%s", (first ? "" : ", "), content); } else if (!strcasecmp(typename, "astcli")) { ast_str_append(&outputstr, 0, "%s%s", (first ? "" : ", "), content); } else { ast_str_append(&outputstr, 0, "%s%s", (first ? "" : ", "), content); } first = 0; ast_xml_free_text(content); ast_xml_free_attr(typename); } output = ast_strdup(ast_str_buffer(outputstr)); ast_free(outputstr); return output; } char *ast_xmldoc_build_seealso(const char *type, const char *name, const char *module) { char *output; struct ast_xml_node *node; if (ast_strlen_zero(type) || ast_strlen_zero(name)) { return NULL; } /* get the application/function root node. */ node = xmldoc_get_node(type, name, module, documentation_language); if (!node || !ast_xml_node_get_children(node)) { return NULL; } output = _ast_xmldoc_build_seealso(node); return output; } /*! * \internal * \brief Parse a \ node. * * \param fixnode An ast_xml_node pointer to the \ node. * \param tabs Add this string before the content of the \ node. * \param buffer The output buffer. * * \retval 0 if content is not found inside the enum element (data is not appended to buffer). * \retval 1 if content is found and data is appended to buffer. */ static int xmldoc_parse_enum(struct ast_xml_node *fixnode, const char *tabs, struct ast_str **buffer) { struct ast_xml_node *node = fixnode; int ret = 0; char *optiontabs; if (ast_asprintf(&optiontabs, "%s ", tabs) < 0) { return ret; } for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (xmldoc_parse_common_elements(node, (ret ? tabs : " - "), "\n", buffer)) { ret = 1; } xmldoc_parse_enumlist(node, optiontabs, buffer); xmldoc_parse_parameter(node, optiontabs, buffer); } ast_free(optiontabs); return ret; } /*! * \internal * \brief Parse a \ node. * * \param fixnode As ast_xml pointer to the \ node. * \param tabs Add this string before the content of the \ node. * \param buffer The ast_str output buffer. * * \retval 0 if no \ node was parsed. * \retval 1 if a \ node was parsed. */ static int xmldoc_parse_enumlist(struct ast_xml_node *fixnode, const char *tabs, struct ast_str **buffer) { struct ast_xml_node *node = fixnode; const char *enumname; int ret = 0; for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (strcasecmp(ast_xml_node_get_name(node), "enum")) { continue; } enumname = ast_xml_get_attribute(node, "name"); if (enumname) { ast_str_append(buffer, 0, "%s%s", tabs, enumname); ast_xml_free_attr(enumname); /* parse only enum elements inside a enumlist node. */ if ((xmldoc_parse_enum(node, tabs, buffer))) { ret = 1; } else { ast_str_append(buffer, 0, "\n"); } } } return ret; } /*! * \internal * \brief Parse an \ node. * * \param fixnode An ast_xml pointer to the \ node. * \param tabs A string to be appended at the begining of each line being added to the * buffer string. * \param buffer The output buffer. * * \retval 0 if no option node is parsed. * \retval 1 if an option node is parsed. */ static int xmldoc_parse_option(struct ast_xml_node *fixnode, const char *tabs, struct ast_str **buffer) { struct ast_xml_node *node; int ret = 0; char *optiontabs; if (ast_asprintf(&optiontabs, "%s ", tabs) < 0) { return ret; } for (node = ast_xml_node_get_children(fixnode); node; node = ast_xml_node_get_next(node)) { if (!strcasecmp(ast_xml_node_get_name(node), "argument")) { /* if this is the first data appended to buffer, print a \n*/ if (!ret && ast_xml_node_get_children(node)) { /* print \n */ ast_str_append(buffer, 0, "\n"); } if (xmldoc_parse_argument(node, 0, NULL, optiontabs, buffer)) { ret = 1; } continue; } if (xmldoc_parse_common_elements(node, (ret ? tabs : ""), "\n", buffer)) { ret = 1; } xmldoc_parse_variablelist(node, optiontabs, buffer); xmldoc_parse_enumlist(node, optiontabs, buffer); } ast_free(optiontabs); return ret; } /*! * \internal * \brief Parse an \ element from the xml documentation. * * \param fixnode Pointer to the optionlist xml node. * \param tabs A string to be appended at the begining of each line being added to the * buffer string. * \param buffer Output buffer to put what is inside the optionlist tag. */ static void xmldoc_parse_optionlist(struct ast_xml_node *fixnode, const char *tabs, struct ast_str **buffer) { struct ast_xml_node *node; const char *optname, *hasparams; char *optionsyntax; int optparams; for (node = ast_xml_node_get_children(fixnode); node; node = ast_xml_node_get_next(node)) { /* Start appending every option tag. */ if (strcasecmp(ast_xml_node_get_name(node), "option")) { continue; } /* Get the option name. */ optname = ast_xml_get_attribute(node, "name"); if (!optname) { continue; } optparams = 1; hasparams = ast_xml_get_attribute(node, "hasparams"); if (hasparams && !strcasecmp(hasparams, "optional")) { optparams = 2; } optionsyntax = xmldoc_get_syntax_fun(node, optname, "argument", 0, optparams); if (!optionsyntax) { ast_xml_free_attr(optname); ast_xml_free_attr(hasparams); continue; } ast_str_append(buffer, 0, "%s%s: ", tabs, optionsyntax); if (!xmldoc_parse_option(node, tabs, buffer)) { ast_str_append(buffer, 0, "\n"); } ast_str_append(buffer, 0, "\n"); ast_xml_free_attr(optname); ast_xml_free_attr(hasparams); ast_free(optionsyntax); } } /*! * \internal * \brief Parse a 'parameter' tag inside a syntax element. * * \param fixnode A pointer to the 'parameter' xml node. * \param tabs A string to be appended at the beginning of each line being printed inside * 'buffer'. * \param buffer String buffer to put values found inside the parameter element. */ static void xmldoc_parse_parameter(struct ast_xml_node *fixnode, const char *tabs, struct ast_str **buffer) { const char *paramname; struct ast_xml_node *node = fixnode; int hasarguments, printed = 0; char *internaltabs; if (strcasecmp(ast_xml_node_get_name(node), "parameter")) { return; } hasarguments = xmldoc_has_inside(node, "argument"); if (!(paramname = ast_xml_get_attribute(node, "name"))) { /* parameter MUST have an attribute name. */ return; } if (ast_asprintf(&internaltabs, "%s ", tabs) < 0) { ast_xml_free_attr(paramname); return; } if (!hasarguments && xmldoc_has_nodes(node)) { ast_str_append(buffer, 0, "%s\n", paramname); ast_xml_free_attr(paramname); printed = 1; } for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (!strcasecmp(ast_xml_node_get_name(node), "optionlist")) { xmldoc_parse_optionlist(node, internaltabs, buffer); } else if (!strcasecmp(ast_xml_node_get_name(node), "enumlist")) { xmldoc_parse_enumlist(node, internaltabs, buffer); } else if (!strcasecmp(ast_xml_node_get_name(node), "argument")) { xmldoc_parse_argument(node, 1, internaltabs, (!hasarguments ? " " : ""), buffer); } else if (!strcasecmp(ast_xml_node_get_name(node), "para")) { if (!printed) { ast_str_append(buffer, 0, "%s\n", paramname); ast_xml_free_attr(paramname); printed = 1; } if (xmldoc_parse_para(node, internaltabs, "\n", buffer)) { /* If anything ever goes in below this condition before the continue below, * we should probably continue immediately. */ continue; } continue; } else if (!strcasecmp(ast_xml_node_get_name(node), "info")) { if (!printed) { ast_str_append(buffer, 0, "%s\n", paramname); ast_xml_free_attr(paramname); printed = 1; } if (xmldoc_parse_info(node, internaltabs, "\n", buffer)) { /* If anything ever goes in below this condition before the continue below, * we should probably continue immediately. */ continue; } continue; } else if ((xmldoc_parse_specialtags(node, internaltabs, "\n", buffer))) { continue; } } if (!printed) { ast_xml_free_attr(paramname); } ast_free(internaltabs); } /*! * \internal * \brief Parse an 'info' tag inside an element. * * \param node A pointer to the 'info' xml node. * \param tabs A string to be appended at the beginning of each line being printed * inside 'buffer'. * \param posttabs Add this string after the content of the \ element, if one exists * \param buffer String buffer to put values found inide the info element. * * \retval 2 if the information contained a para element, and it returned a value of 2 * \retval 1 if information was put into the buffer * \retval 0 if no information was put into the buffer or error */ static int xmldoc_parse_info(struct ast_xml_node *node, const char *tabs, const char *posttabs, struct ast_str **buffer) { const char *tech; char *internaltabs; int internal_ret; int ret = 0; if (strcasecmp(ast_xml_node_get_name(node), "info")) { return ret; } ast_asprintf(&internaltabs, "%s ", tabs); if (!internaltabs) { return ret; } tech = ast_xml_get_attribute(node, "tech"); if (tech) { ast_str_append(buffer, 0, "%sTechnology: %s\n", internaltabs, tech); ast_xml_free_attr(tech); } ret = 1; for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (!strcasecmp(ast_xml_node_get_name(node), "enumlist")) { xmldoc_parse_enumlist(node, internaltabs, buffer); } else if (!strcasecmp(ast_xml_node_get_name(node), "parameter")) { xmldoc_parse_parameter(node, internaltabs, buffer); } else if ((internal_ret = xmldoc_parse_common_elements(node, internaltabs, posttabs, buffer))) { if (internal_ret > ret) { ret = internal_ret; } } } ast_free(internaltabs); return ret; } /*! * \internal * \brief Build the arguments for an item * * \param node The arguments node to parse * * \note This method exists for when you already have the node. This * prevents having to lock the documentation tree twice * * \retval A malloc'd character pointer to the arguments for the item * \retval NULL on failure * * \since 11 */ static char *_ast_xmldoc_build_arguments(struct ast_xml_node *node) { char *retstr = NULL; struct ast_str *ret; ret = ast_str_create(128); if (!ret) { return NULL; } /* Find the syntax field. */ for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { if (!strcasecmp(ast_xml_node_get_name(node), "syntax")) { break; } } if (!node || !ast_xml_node_get_children(node)) { /* We couldn't find the syntax node. */ ast_free(ret); return NULL; } for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { xmldoc_parse_parameter(node, "", &ret); } if (ast_str_strlen(ret) > 0) { /* remove last '\n' */ char *buf = ast_str_buffer(ret); if (buf[ast_str_strlen(ret) - 1] == '\n') { ast_str_truncate(ret, -1); } retstr = ast_strdup(ast_str_buffer(ret)); } ast_free(ret); return retstr; } char *ast_xmldoc_build_arguments(const char *type, const char *name, const char *module) { struct ast_xml_node *node; if (ast_strlen_zero(type) || ast_strlen_zero(name)) { return NULL; } node = xmldoc_get_node(type, name, module, documentation_language); if (!node || !ast_xml_node_get_children(node)) { return NULL; } return _ast_xmldoc_build_arguments(node); } /*! * \internal * \brief Return the string within a node formatted with \ and \ elements. * * \param node Parent node where content resides. * \param raw_output If set, return the node's content without further processing. * \param raw_wrap Wrap raw text. * * \retval NULL on error * \retval Node content on success. */ static struct ast_str *xmldoc_get_formatted(struct ast_xml_node *node, int raw_output, int raw_wrap) { struct ast_xml_node *tmp; const char *notcleanret, *tmpstr; struct ast_str *ret; if (raw_output) { /* xmldoc_string_cleanup will allocate the ret object */ notcleanret = ast_xml_get_text(node); tmpstr = notcleanret; xmldoc_string_cleanup(ast_skip_blanks(notcleanret), &ret, 0, 0); ast_xml_free_text(tmpstr); } else { ret = ast_str_create(128); if (!ret) { return NULL; } for (tmp = ast_xml_node_get_children(node); tmp; tmp = ast_xml_node_get_next(tmp)) { /* if found, parse children elements. */ if (xmldoc_parse_common_elements(tmp, "", "\n", &ret)) { continue; } if (xmldoc_parse_variablelist(tmp, "", &ret)) { continue; } if (xmldoc_parse_enumlist(tmp, " ", &ret)) { continue; } if (xmldoc_parse_specialtags(tmp, "", "", &ret)) { continue; } } /* remove last '\n' */ /* XXX Don't modify ast_str internals manually */ tmpstr = ast_str_buffer(ret); if (tmpstr[ast_str_strlen(ret) - 1] == '\n') { ast_str_truncate(ret, -1); } } return ret; } /*! * \internal * \brief Get the content of a field (synopsis, description, etc) from an asterisk document tree node * * \param node The node to obtain the information from * \param var Name of field to return (synopsis, description, etc). * \param raw Field only contains text, no other elements inside it. * * \retval NULL On error. * \retval Field text content on success. * \since 11 */ static char *_xmldoc_build_field(struct ast_xml_node *node, const char *var, int raw) { char *ret = NULL; struct ast_str *formatted; node = ast_xml_find_element(ast_xml_node_get_children(node), var, NULL, NULL); if (!node || !ast_xml_node_get_children(node)) { return ret; } formatted = xmldoc_get_formatted(node, raw, raw); if (formatted && ast_str_strlen(formatted) > 0) { ret = ast_strdup(ast_str_buffer(formatted)); } ast_free(formatted); return ret; } /*! * \internal * \brief Get the content of a field (synopsis, description, etc) from an asterisk document tree * * \param type Type of element (application, function, ...). * \param name Name of element (Dial, Echo, Playback, ...). * \param var Name of field to return (synopsis, description, etc). * \param module * \param raw Field only contains text, no other elements inside it. * * \retval NULL On error. * \retval Field text content on success. */ static char *xmldoc_build_field(const char *type, const char *name, const char *module, const char *var, int raw) { struct ast_xml_node *node; if (ast_strlen_zero(type) || ast_strlen_zero(name)) { ast_log(LOG_ERROR, "Tried to look in XML tree with faulty values.\n"); return NULL; } node = xmldoc_get_node(type, name, module, documentation_language); if (!node) { ast_log(LOG_WARNING, "Couldn't find %s %s in XML documentation\n", type, name); return NULL; } return _xmldoc_build_field(node, var, raw); } /*! * \internal * \brief Build the synopsis for an item * * \param node The synopsis node * * \note This method exists for when you already have the node. This * prevents having to lock the documentation tree twice * * \retval A malloc'd character pointer to the synopsis information * \retval NULL on failure * \since 11 */ static char *_ast_xmldoc_build_synopsis(struct ast_xml_node *node) { return _xmldoc_build_field(node, "synopsis", 1); } char *ast_xmldoc_build_synopsis(const char *type, const char *name, const char *module) { return xmldoc_build_field(type, name, module, "synopsis", 1); } /*! * \internal * \brief Build the descripton for an item * * \param node The description node to parse * * \note This method exists for when you already have the node. This * prevents having to lock the documentation tree twice * * \retval A malloc'd character pointer to the arguments for the item * \retval NULL on failure * \since 11 */ static char *_ast_xmldoc_build_description(struct ast_xml_node *node) { return _xmldoc_build_field(node, "description", 0); } char *ast_xmldoc_build_description(const char *type, const char *name, const char *module) { return xmldoc_build_field(type, name, module, "description", 0); } /*! * \internal * \brief ast_xml_doc_item ao2 destructor * \since 11 */ static void ast_xml_doc_item_destructor(void *obj) { struct ast_xml_doc_item *doc = obj; if (!doc) { return; } ast_free(doc->syntax); ast_free(doc->seealso); ast_free(doc->arguments); ast_free(doc->synopsis); ast_free(doc->description); ast_string_field_free_memory(doc); if (AST_LIST_NEXT(doc, next)) { ao2_ref(AST_LIST_NEXT(doc, next), -1); AST_LIST_NEXT(doc, next) = NULL; } } /*! * \internal * \brief Create an ao2 ref counted ast_xml_doc_item * * \param name The name of the item * \param type The item's source type * \since 11 */ static struct ast_xml_doc_item *ast_xml_doc_item_alloc(const char *name, const char *type) { struct ast_xml_doc_item *item; item = ao2_alloc_options(sizeof(*item), ast_xml_doc_item_destructor, AO2_ALLOC_OPT_LOCK_NOLOCK); if (!item) { ast_log(AST_LOG_ERROR, "Failed to allocate memory for ast_xml_doc_item instance\n"); return NULL; } if ( !(item->syntax = ast_str_create(128)) || !(item->seealso = ast_str_create(128)) || !(item->arguments = ast_str_create(128)) || !(item->synopsis = ast_str_create(128)) || !(item->description = ast_str_create(128))) { ast_log(AST_LOG_ERROR, "Failed to allocate strings for ast_xml_doc_item instance\n"); goto ast_xml_doc_item_failure; } if (ast_string_field_init(item, 64)) { ast_log(AST_LOG_ERROR, "Failed to initialize string field for ast_xml_doc_item instance\n"); goto ast_xml_doc_item_failure; } ast_string_field_set(item, name, name); ast_string_field_set(item, type, type); return item; ast_xml_doc_item_failure: ao2_ref(item, -1); return NULL; } /*! * \internal * \brief ao2 item hash function for ast_xml_doc_item * \since 11 */ static int ast_xml_doc_item_hash(const void *obj, const int flags) { const struct ast_xml_doc_item *item = obj; const char *name = (flags & OBJ_KEY) ? obj : item->name; return ast_str_case_hash(name); } /*! * \internal * \brief ao2 item comparison function for ast_xml_doc_item * \since 11 */ static int ast_xml_doc_item_cmp(void *obj, void *arg, int flags) { struct ast_xml_doc_item *left = obj; struct ast_xml_doc_item *right = arg; const char *match = (flags & OBJ_KEY) ? arg : right->name; return strcasecmp(left->name, match) ? 0 : (CMP_MATCH | CMP_STOP); } /*! * \internal * \brief Build an XML documentation item * * \param node The root node for the item * \param name The name of the item * \param type The item's source type * * \retval NULL on failure * \retval An ao2 ref counted object * \since 11 */ static struct ast_xml_doc_item *xmldoc_build_documentation_item(struct ast_xml_node *node, const char *name, const char *type) { struct ast_xml_doc_item *item; char *syntax; char *seealso; char *arguments; char *synopsis; char *description; if (!(item = ast_xml_doc_item_alloc(name, type))) { return NULL; } item->node = node; syntax = _ast_xmldoc_build_syntax(node, type, name); seealso = _ast_xmldoc_build_seealso(node); arguments = _ast_xmldoc_build_arguments(node); synopsis = _ast_xmldoc_build_synopsis(node); description = _ast_xmldoc_build_description(node); if (syntax) { ast_str_set(&item->syntax, 0, "%s", syntax); } if (seealso) { ast_str_set(&item->seealso, 0, "%s", seealso); } if (arguments) { ast_str_set(&item->arguments, 0, "%s", arguments); } if (synopsis) { ast_str_set(&item->synopsis, 0, "%s", synopsis); } if (description) { ast_str_set(&item->description, 0, "%s", description); } ast_free(syntax); ast_free(seealso); ast_free(arguments); ast_free(synopsis); ast_free(description); return item; } /*! * \internal * \brief Build the list responses for an item * * \param manager_action The action node to parse * * \note This method exists for when you already have the node. This * prevents having to lock the documentation tree twice * * \retval A list of ast_xml_doc_items * \retval NULL on failure * * \since 13.0.0 */ static struct ast_xml_doc_item *xmldoc_build_list_responses(struct ast_xml_node *manager_action) { struct ast_xml_node *event; struct ast_xml_node *responses; struct ast_xml_node *list_elements; struct ast_xml_doc_item_list root; AST_LIST_HEAD_INIT(&root); responses = ast_xml_find_element(ast_xml_node_get_children(manager_action), "responses", NULL, NULL); if (!responses) { return NULL; } list_elements = ast_xml_find_element(ast_xml_node_get_children(responses), "list-elements", NULL, NULL); if (!list_elements) { return NULL; } /* Iterate over managerEvent nodes */ for (event = ast_xml_node_get_children(list_elements); event; event = ast_xml_node_get_next(event)) { struct ast_xml_node *event_instance; RAII_VAR(const char *, name, ast_xml_get_attribute(event, "name"), ast_xml_free_attr); struct ast_xml_doc_item *new_item; if (!name || strcmp(ast_xml_node_get_name(event), "managerEvent")) { continue; } event_instance = ast_xml_find_element(ast_xml_node_get_children(event), "managerEventInstance", NULL, NULL); new_item = xmldoc_build_documentation_item(event_instance, name, "managerEvent"); if (!new_item) { ao2_cleanup(AST_LIST_FIRST(&root)); return NULL; } AST_LIST_INSERT_TAIL(&root, new_item, next); } return AST_LIST_FIRST(&root); } struct ast_xml_doc_item *ast_xmldoc_build_list_responses(const char *type, const char *name, const char *module) { struct ast_xml_node *node; if (ast_strlen_zero(type) || ast_strlen_zero(name)) { return NULL; } node = xmldoc_get_node(type, name, module, documentation_language); if (!node || !ast_xml_node_get_children(node)) { return NULL; } return xmldoc_build_list_responses(node); } /*! * \internal * \brief Build the final response for an item * * \param manager_action The action node to parse * * \note This method exists for when you already have the node. This * prevents having to lock the documentation tree twice * * \retval An ast_xml_doc_item * \retval NULL on failure * * \since 13.0.0 */ static struct ast_xml_doc_item *xmldoc_build_final_response(struct ast_xml_node *manager_action) { struct ast_xml_node *responses; struct ast_xml_node *final_response_event; struct ast_xml_node *event_instance; responses = ast_xml_find_element(ast_xml_node_get_children(manager_action), "responses", NULL, NULL); if (!responses) { return NULL; } final_response_event = ast_xml_find_element(ast_xml_node_get_children(responses), "managerEvent", NULL, NULL); if (!final_response_event) { return NULL; } event_instance = ast_xml_find_element(ast_xml_node_get_children(final_response_event), "managerEventInstance", NULL, NULL); if (!event_instance) { return NULL; } else { const char *name; struct ast_xml_doc_item *res; name = ast_xml_get_attribute(final_response_event, "name"); res = xmldoc_build_documentation_item(event_instance, name, "managerEvent"); ast_xml_free_attr(name); return res; } } struct ast_xml_doc_item *ast_xmldoc_build_final_response(const char *type, const char *name, const char *module) { struct ast_xml_node *node; if (ast_strlen_zero(type) || ast_strlen_zero(name)) { return NULL; } node = xmldoc_get_node(type, name, module, documentation_language); if (!node || !ast_xml_node_get_children(node)) { return NULL; } return xmldoc_build_final_response(node); } struct ast_xml_xpath_results *__attribute__((format(printf, 1, 2))) ast_xmldoc_query(const char *fmt, ...) { struct ast_xml_xpath_results *results = NULL; struct documentation_tree *doctree; RAII_VAR(struct ast_str *, xpath_str, ast_str_create(128), ast_free); va_list ap; int res; if (!xpath_str) { return NULL; } va_start(ap, fmt); res = ast_str_set_va(&xpath_str, 0, fmt, ap); va_end(ap); if (res == AST_DYNSTR_BUILD_FAILED) { return NULL; } AST_RWLIST_RDLOCK(&xmldoc_tree); AST_LIST_TRAVERSE(&xmldoc_tree, doctree, entry) { if (!(results = ast_xml_query(doctree->doc, ast_str_buffer(xpath_str)))) { continue; } break; } AST_RWLIST_UNLOCK(&xmldoc_tree); return results; } static void build_config_docs(struct ast_xml_node *cur, struct ast_xml_doc_item_list *root) { struct ast_xml_node *iter; struct ast_xml_doc_item *item; for (iter = ast_xml_node_get_children(cur); iter; iter = ast_xml_node_get_next(iter)) { const char *iter_name; if (strncasecmp(ast_xml_node_get_name(iter), "config", 6)) { continue; } iter_name = ast_xml_get_attribute(iter, "name"); /* Now add all of the child config-related items to the list */ if (!(item = xmldoc_build_documentation_item(iter, iter_name, ast_xml_node_get_name(iter)))) { ast_log(LOG_ERROR, "Could not build documentation for '%s:%s'\n", ast_xml_node_get_name(iter), iter_name); ast_xml_free_attr(iter_name); break; } ast_xml_free_attr(iter_name); if (!strcasecmp(ast_xml_node_get_name(iter), "configOption")) { const char *name = ast_xml_get_attribute(cur, "name"); ast_string_field_set(item, ref, name); ast_xml_free_attr(name); } AST_LIST_INSERT_TAIL(root, item, next); build_config_docs(iter, root); } } int ast_xmldoc_regenerate_doc_item(struct ast_xml_doc_item *item) { const char *name; char *syntax; char *seealso; char *arguments; char *synopsis; char *description; if (!item || !item->node) { return -1; } name = ast_xml_get_attribute(item->node, "name"); if (!name) { return -1; } syntax = _ast_xmldoc_build_syntax(item->node, item->type, name); seealso = _ast_xmldoc_build_seealso(item->node); arguments = _ast_xmldoc_build_arguments(item->node); synopsis = _ast_xmldoc_build_synopsis(item->node); description = _ast_xmldoc_build_description(item->node); if (syntax) { ast_str_set(&item->syntax, 0, "%s", syntax); } if (seealso) { ast_str_set(&item->seealso, 0, "%s", seealso); } if (arguments) { ast_str_set(&item->arguments, 0, "%s", arguments); } if (synopsis) { ast_str_set(&item->synopsis, 0, "%s", synopsis); } if (description) { ast_str_set(&item->description, 0, "%s", description); } ast_free(syntax); ast_free(seealso); ast_free(arguments); ast_free(synopsis); ast_free(description); ast_xml_free_attr(name); return 0; } struct ao2_container *ast_xmldoc_build_documentation(const char *type) { struct ao2_container *docs; struct ast_xml_node *node = NULL, *instance = NULL; struct documentation_tree *doctree; const char *name; docs = ao2_container_alloc_hash(AO2_ALLOC_OPT_LOCK_MUTEX, 0, 127, ast_xml_doc_item_hash, NULL, ast_xml_doc_item_cmp); if (!docs) { ast_log(AST_LOG_ERROR, "Failed to create container for xml document item instances\n"); return NULL; } AST_RWLIST_RDLOCK(&xmldoc_tree); AST_LIST_TRAVERSE(&xmldoc_tree, doctree, entry) { /* the core xml documents have priority over thirdparty document. */ node = ast_xml_get_root(doctree->doc); if (!node) { break; } for (node = ast_xml_node_get_children(node); node; node = ast_xml_node_get_next(node)) { struct ast_xml_doc_item *item = NULL; /* Ignore empty nodes or nodes that aren't of the type requested */ if (!ast_xml_node_get_children(node) || strcasecmp(ast_xml_node_get_name(node), type)) { continue; } name = ast_xml_get_attribute(node, "name"); if (!name) { continue; } switch (xmldoc_get_syntax_type(type)) { case MANAGER_EVENT_SYNTAX: { struct ast_xml_doc_item_list root; AST_LIST_HEAD_INIT(&root); for (instance = ast_xml_node_get_children(node); instance; instance = ast_xml_node_get_next(instance)) { struct ast_xml_doc_item *temp; if (!ast_xml_node_get_children(instance) || strcasecmp(ast_xml_node_get_name(instance), "managerEventInstance")) { continue; } temp = xmldoc_build_documentation_item(instance, name, type); if (!temp) { break; } AST_LIST_INSERT_TAIL(&root, temp, next); } item = AST_LIST_FIRST(&root); break; } case CONFIG_INFO_SYNTAX: { RAII_VAR(const char *, name, ast_xml_get_attribute(node, "name"), ast_xml_free_attr); if (!ast_xml_node_get_children(node) || strcasecmp(ast_xml_node_get_name(node), "configInfo")) { break; } item = xmldoc_build_documentation_item(node, name, "configInfo"); if (item) { struct ast_xml_doc_item_list root; AST_LIST_HEAD_INIT(&root); AST_LIST_INSERT_TAIL(&root, item, next); build_config_docs(node, &root); } break; } default: item = xmldoc_build_documentation_item(node, name, type); } ast_xml_free_attr(name); if (item) { ao2_link(docs, item); ao2_t_ref(item, -1, "Dispose of creation ref"); } } } AST_RWLIST_UNLOCK(&xmldoc_tree); return docs; } int ast_xmldoc_regenerate_doc_item(struct ast_xml_doc_item *item); #if !defined(HAVE_GLOB_NOMAGIC) || !defined(HAVE_GLOB_BRACE) || defined(DEBUG_NONGNU) static int xml_pathmatch(char *xmlpattern, int xmlpattern_maxlen, glob_t *globbuf) { int globret; snprintf(xmlpattern, xmlpattern_maxlen, "%s/documentation/thirdparty/*-%s.xml", ast_config_AST_DATA_DIR, documentation_language); if((globret = glob(xmlpattern, GLOB_NOCHECK, NULL, globbuf))) { return globret; } snprintf(xmlpattern, xmlpattern_maxlen, "%s/documentation/thirdparty/*-%.2s_??.xml", ast_config_AST_DATA_DIR, documentation_language); if((globret = glob(xmlpattern, GLOB_APPEND | GLOB_NOCHECK, NULL, globbuf))) { return globret; } snprintf(xmlpattern, xmlpattern_maxlen, "%s/documentation/thirdparty/*-%s.xml", ast_config_AST_DATA_DIR, default_documentation_language); if((globret = glob(xmlpattern, GLOB_APPEND | GLOB_NOCHECK, NULL, globbuf))) { return globret; } snprintf(xmlpattern, xmlpattern_maxlen, "%s/documentation/*-%s.xml", ast_config_AST_DATA_DIR, documentation_language); if((globret = glob(xmlpattern, GLOB_APPEND | GLOB_NOCHECK, NULL, globbuf))) { return globret; } snprintf(xmlpattern, xmlpattern_maxlen, "%s/documentation/*-%.2s_??.xml", ast_config_AST_DATA_DIR, documentation_language); if((globret = glob(xmlpattern, GLOB_APPEND | GLOB_NOCHECK, NULL, globbuf))) { return globret; } snprintf(xmlpattern, xmlpattern_maxlen, "%s/documentation/*-%s.xml", ast_config_AST_DATA_DIR, default_documentation_language); globret = glob(xmlpattern, GLOB_APPEND | GLOB_NOCHECK, NULL, globbuf); return globret; } #endif static char *handle_dump_docs(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct documentation_tree *doctree; struct ast_xml_doc *dumpdoc; struct ast_xml_node *dumproot; FILE *f; switch (cmd) { case CLI_INIT: e->command = "xmldoc dump"; e->usage = "Usage: xmldoc dump \n" " Dump XML documentation to a file\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 3) { return CLI_SHOWUSAGE; } dumpdoc = ast_xml_new(); if (!dumpdoc) { ast_log(LOG_ERROR, "Could not create new XML document\n"); return CLI_FAILURE; } dumproot = ast_xml_new_node("docs"); if (!dumproot) { ast_xml_close(dumpdoc); ast_log(LOG_ERROR, "Could not create new XML root node\n"); return CLI_FAILURE; } ast_xml_set_root(dumpdoc, dumproot); AST_RWLIST_RDLOCK(&xmldoc_tree); AST_LIST_TRAVERSE(&xmldoc_tree, doctree, entry) { struct ast_xml_node *root_node = ast_xml_get_root(doctree->doc); struct ast_xml_node *kids = ast_xml_node_get_children(root_node); struct ast_xml_node *kids_copy; /* If there are no kids someone screwed up, but we check anyway. */ if (!kids) { continue; } kids_copy = ast_xml_copy_node_list(kids); if (!kids_copy) { ast_xml_close(dumpdoc); ast_log(LOG_ERROR, "Could not create copy of XML node list\n"); return CLI_FAILURE; } ast_xml_add_child_list(dumproot, kids_copy); } AST_RWLIST_UNLOCK(&xmldoc_tree); if (!(f = fopen(a->argv[2], "w"))) { ast_xml_close(dumpdoc); ast_log(LOG_ERROR, "Could not open file '%s': %s\n", a->argv[2], strerror(errno)); return CLI_FAILURE; } ast_xml_doc_dump_file(f, dumpdoc); ast_xml_close(dumpdoc); fclose(f); return CLI_SUCCESS; } static struct ast_cli_entry cli_dump_xmldocs = AST_CLI_DEFINE(handle_dump_docs, "Dump the XML docs to the specified file"); /*! \brief Close and unload XML documentation. */ static void xmldoc_unload_documentation(void) { struct documentation_tree *doctree; ast_cli_unregister(&cli_dump_xmldocs); AST_RWLIST_WRLOCK(&xmldoc_tree); while ((doctree = AST_RWLIST_REMOVE_HEAD(&xmldoc_tree, entry))) { ast_free(doctree->filename); ast_xml_close(doctree->doc); ast_free(doctree); } AST_RWLIST_UNLOCK(&xmldoc_tree); ast_xml_finish(); } int ast_xmldoc_load_documentation(void) { struct ast_xml_node *root_node; struct ast_xml_doc *tmpdoc; struct documentation_tree *doc_tree; char *xmlpattern; struct ast_config *cfg = NULL; struct ast_variable *var = NULL; struct ast_flags cnfflags = { 0 }; int globret, i, dup, duplicate; glob_t globbuf; #if !defined(HAVE_GLOB_NOMAGIC) || !defined(HAVE_GLOB_BRACE) || defined(DEBUG_NONGNU) int xmlpattern_maxlen; #endif /* setup default XML documentation language */ snprintf(documentation_language, sizeof(documentation_language), default_documentation_language); if ((cfg = ast_config_load2("asterisk.conf", "" /* core can't reload */, cnfflags)) && cfg != CONFIG_STATUS_FILEINVALID) { for (var = ast_variable_browse(cfg, "options"); var; var = var->next) { if (!strcasecmp(var->name, "documentation_language")) { if (!ast_strlen_zero(var->value)) { snprintf(documentation_language, sizeof(documentation_language), "%s", var->value); } } } ast_config_destroy(cfg); } /* initialize the XML library. */ ast_xml_init(); ast_cli_register(&cli_dump_xmldocs); /* register function to be run when asterisk finish. */ ast_register_cleanup(xmldoc_unload_documentation); globbuf.gl_offs = 0; /* slots to reserve in gl_pathv */ #if !defined(HAVE_GLOB_NOMAGIC) || !defined(HAVE_GLOB_BRACE) || defined(DEBUG_NONGNU) xmlpattern_maxlen = strlen(ast_config_AST_DATA_DIR) + strlen("/documentation/thirdparty") + strlen("/*-??_??.xml") + 1; xmlpattern = ast_malloc(xmlpattern_maxlen); globret = xml_pathmatch(xmlpattern, xmlpattern_maxlen, &globbuf); #else /* Get every *-LANG.xml file inside $(ASTDATADIR)/documentation */ if (ast_asprintf(&xmlpattern, "%s/documentation{/thirdparty/,/}*-{%s,%.2s_??,%s}.xml", ast_config_AST_DATA_DIR, documentation_language, documentation_language, default_documentation_language) < 0) { return 1; } globret = glob(xmlpattern, MY_GLOB_FLAGS, NULL, &globbuf); #endif ast_debug(3, "gl_pathc %zu\n", (size_t)globbuf.gl_pathc); if (globret == GLOB_NOSPACE) { ast_log(LOG_WARNING, "XML load failure, glob expansion of pattern '%s' failed: Not enough memory\n", xmlpattern); ast_free(xmlpattern); return 1; } else if (globret == GLOB_ABORTED) { ast_log(LOG_WARNING, "XML load failure, glob expansion of pattern '%s' failed: Read error\n", xmlpattern); ast_free(xmlpattern); return 1; } ast_free(xmlpattern); AST_RWLIST_WRLOCK(&xmldoc_tree); /* loop over expanded files */ for (i = 0; i < globbuf.gl_pathc; i++) { /* check for duplicates (if we already [try to] open the same file. */ duplicate = 0; for (dup = 0; dup < i; dup++) { if (!strcmp(globbuf.gl_pathv[i], globbuf.gl_pathv[dup])) { duplicate = 1; break; } } if (duplicate || strchr(globbuf.gl_pathv[i], '*')) { /* skip duplicates as well as pathnames not found * (due to use of GLOB_NOCHECK in xml_pathmatch) */ continue; } tmpdoc = NULL; tmpdoc = ast_xml_open(globbuf.gl_pathv[i]); if (!tmpdoc) { ast_log(LOG_ERROR, "Could not open XML documentation at '%s'\n", globbuf.gl_pathv[i]); continue; } /* Get doc root node and check if it starts with '' */ root_node = ast_xml_get_root(tmpdoc); if (!root_node) { ast_log(LOG_ERROR, "Error getting documentation root node\n"); ast_xml_close(tmpdoc); continue; } /* Check root node name for malformed xmls. */ if (strcmp(ast_xml_node_get_name(root_node), "docs")) { ast_log(LOG_ERROR, "Documentation file is not well formed!\n"); ast_xml_close(tmpdoc); continue; } doc_tree = ast_calloc(1, sizeof(*doc_tree)); if (!doc_tree) { ast_log(LOG_ERROR, "Unable to allocate documentation_tree structure!\n"); ast_xml_close(tmpdoc); continue; } doc_tree->doc = tmpdoc; doc_tree->filename = ast_strdup(globbuf.gl_pathv[i]); AST_RWLIST_INSERT_TAIL(&xmldoc_tree, doc_tree, entry); } AST_RWLIST_UNLOCK(&xmldoc_tree); globfree(&globbuf); return 0; } #endif /* AST_XML_DOCS */