/* * \brief Utility for generating XML * \author Norman Feske * \date 2014-01-07 */ /* * Copyright (C) 2014-2017 Genode Labs GmbH * * This file is part of the Genode OS framework, which is distributed * under the terms of the GNU Affero General Public License version 3. */ #ifndef _INCLUDE__UTIL__XML_GENERATOR_H_ #define _INCLUDE__UTIL__XML_GENERATOR_H_ #include #include namespace Genode { class Xml_generator; } class Genode::Xml_generator { public: /** * Exception type */ class Buffer_exceeded { }; private: /** * Buffer descriptor where the XML output goes to * * All 'append' methods may throw a 'Buffer_exceeded' exception. */ class Out_buffer { private: char *_dst; size_t _capacity; size_t _used = 0; void _check_advance(size_t const len) const { if (_used + len > _capacity) throw Buffer_exceeded(); } public: Out_buffer(char *dst, size_t capacity) : _dst(dst), _capacity(capacity) { } void advance(size_t const len) { _check_advance(len); _used += len; } void undo_append(size_t const len) { _used = len < _used ? _used - len : 0; } /** * Append character */ void append(char const c) { _check_advance(1); _dst[_used] = c; advance(1); } /** * Append character 'n' times */ void append(char const c, size_t n) { for (; n--; append(c)); } /** * Append character buffer */ void append(char const *src, size_t len) { for (; len--; append(*src++)); } /** * Append null-terminated string */ void append(char const *src) { append(src, strlen(src)); } /** * Append character, sanitize it if needed */ void append_sanitized(char const c) { switch (c) { case 0: append("�"); break; case '>': append(">"); break; case '<': append("<"); break; case '&': append("&"); break; case '"': append("""); break; case '\'': append("'"); break; default: append(c); break; } } /** * Append character buffer, sanitize characters if needed */ void append_sanitized(char const *src, size_t len) { for (; len--; append_sanitized(*src++)); } /** * Return unused part of the buffer */ Out_buffer remainder() const { return Out_buffer(_dst + _used, _capacity - _used); } /** * Insert gap into already populated part of the buffer * * \return empty buffer spanning the gap */ Out_buffer insert_gap(size_t const at, size_t const len) { /* don't allow the insertion into non-populated part */ if (at > _used) return Out_buffer(_dst + at, 0); _check_advance(len); memmove(_dst + at + len, _dst + at, _used - at); advance(len); return Out_buffer(_dst + at, len); } bool has_trailing_newline() const { return (_used > 1) && (_dst[_used - 1] == '\n'); } /** * Return number of unused bytes of the buffer */ size_t used() const { return _used; } void discard_trailing_whitespace() { for (; _used > 0 && is_whitespace(_dst[_used - 1]); _used--); } }; class Node { private: /** * Indentation level of node */ unsigned const _indent_level; Node * const _parent_node = 0; bool const _parent_was_indented; bool const _parent_had_content; Out_buffer _out_buffer; bool _has_content = false; bool _is_indented = false; /** * Cursor position of next attribute to insert */ size_t _attr_offset = 0; /** * Called by sub node * * \param indented if true, the returned buffer and the * end tag start at a fresh line. This is the * case if the content buffer contains sub * nodes. But when inserting raw content, * such additional whitespaces are not desired. */ Out_buffer _content_buffer(bool indented) { if (!_has_content) _out_buffer.append(">"); if (indented) _out_buffer.append("\n"); _has_content = true; _is_indented = indented; return _out_buffer.remainder(); } void _undo_content_buffer(bool indented, bool was_indented, bool had_content) { _is_indented = was_indented; _has_content = had_content; if (indented) _out_buffer.undo_append(1); if (!_has_content) _out_buffer.undo_append(1); } /** * Called by sub node */ void _commit_content(Out_buffer content_buffer) { _out_buffer.advance(content_buffer.used()); } /* * Helper used to pass the 'fn' argument of the public 'Node' * constructor through an ABI to the implementation of the * private 'Node' constructor. */ struct _Fn : Interface { virtual void call() const = 0; }; template struct _Typed_fn : _Fn { T const &_fn; _Typed_fn(T const &fn) : _fn(fn) { } void call() const override { _fn(); } }; Node(Xml_generator &, char const *, _Fn const &); public: void insert_attribute(char const *name, char const *value) { /* ' ' + name + '=' + '"' + value + '"' */ size_t const gap = 1 + strlen(name) + 1 + 1 + strlen(value) + 1; Out_buffer dst = _out_buffer.insert_gap(_attr_offset, gap); dst.append(' '); dst.append(name); dst.append("=\""); dst.append(value, strlen(value)); dst.append("\""); _attr_offset += gap; } void append(char const *src, size_t src_len) { Out_buffer content_buffer = _content_buffer(false); content_buffer.append(src, src_len); _commit_content(content_buffer); } /** * Append character, sanitize it if needed */ void append_sanitized(char const c) { Out_buffer content_buffer = _content_buffer(false); content_buffer.append_sanitized(c); _commit_content(content_buffer); } void append_sanitized(char const *src, size_t src_len) { Out_buffer content_buffer = _content_buffer(false); content_buffer.append_sanitized(src, src_len); _commit_content(content_buffer); } template Node(Xml_generator &xml, char const *name, FN const &fn) : Node(xml, name, static_cast<_Fn const &>(_Typed_fn(fn))) { } bool has_content() { return _has_content; } bool is_indented() { return _is_indented; } }; Out_buffer _out_buffer; Node *_curr_node = 0; unsigned _curr_indent = 0; public: template Xml_generator(char *dst, size_t dst_len, char const *name, FUNC const &func) : _out_buffer(dst, dst_len) { if (dst) { node(name, func); _out_buffer.append('\n'); _out_buffer.append('\0'); } } template void node(char const *name, FUNC const &func = [] () { } ) { Node(*this, name, func); } void node(char const *name) { Node(*this, name, [] () { }); } void attribute(char const *name, char const *str) { _curr_node->insert_attribute(name, str); } template void attribute(char const *name, String const &str) { _curr_node->insert_attribute(name, str.string()); } void attribute(char const *name, bool value) { _curr_node->insert_attribute(name, value ? "true" : "false"); } void attribute(char const *name, long long value) { _curr_node->insert_attribute(name, String<64>(value).string()); } void attribute(char const *name, long value) { attribute(name, static_cast(value)); } void attribute(char const *name, int value) { attribute(name, static_cast(value)); } void attribute(char const *name, unsigned long long value) { _curr_node->insert_attribute(name, String<64>(value).string()); } void attribute(char const *name, unsigned long value) { attribute(name, static_cast(value)); } void attribute(char const *name, unsigned value) { attribute(name, static_cast(value)); } void attribute(char const *name, double value) { String<64> buf(value); _curr_node->insert_attribute(name, buf.string()); } /** * Append content to XML node * * This method must not be followed by calls of 'attribute'. */ void append(char const *str, size_t str_len = ~0UL) { _curr_node->append(str, str_len == ~0UL ? strlen(str) : str_len); } /** * Append sanitized content to XML node * * This method must not be followed by calls of 'attribute'. */ void append_sanitized(char const *str, size_t str_len = ~0UL) { _curr_node->append_sanitized(str, str_len == ~0UL ? strlen(str) : str_len); } /** * Append printable objects to XML node as sanitized content * * This method must not be followed by calls of 'attribute'. */ template void append_content(ARGS &&... args) { struct Node_output : Genode::Output { Node &node; Node_output(Node &n) : node(n) { } /****************************** ** Genode::Output interface ** ******************************/ void out_char(char c) override { node.append_sanitized(c); } void out_string(char const *str, size_t n) override { node.append_sanitized(str, n); } } output { *_curr_node }; Output::out_args(output, args...); } size_t used() const { return _out_buffer.used(); } }; #endif /* _INCLUDE__UTIL__XML_GENERATOR_H_ */