/** * Copyright 2013-2021 Software Radio Systems Limited * * This file is part of srsRAN. * * srsRAN is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as * published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * srsRAN 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 Affero General Public License for more details. * * A copy of the GNU Affero General Public License can be found in * the LICENSE file in the top-level directory of this distribution * and at http://www.gnu.org/licenses/. * */ #ifndef SRSLOG_FORMATTER_H #define SRSLOG_FORMATTER_H #include "srsran/srslog/bundled/fmt/format.h" #include "srsran/srslog/context.h" namespace srslog { namespace detail { struct log_entry_metadata; } /// The generic metric value formatter. template struct metric_value_formatter { metric_value_formatter() = delete; /// All specializations should implement the following method with signature: /// template /// void format(const T& v, fmt::memory_buffer& buffer) }; /// Default metric value formatter. Users that want to override this behaviour /// should add an specialization of the metric they want to customize. template struct metric_value_formatter > { template void format(const T& v, fmt::memory_buffer& buffer) { fmt::format_to(buffer, "{}", v); } }; /// This is the base class that provides a common framework to format log /// entries to different kinds of formats. User should implement two different /// kinds of formats: /// a) Basic log entry formatting. /// b) Generic context formatting. /// /// For context formatting, callbacks are provided so that derived classes /// handle specific formatting rules. class log_formatter { public: virtual ~log_formatter() = default; /// Returns a copy of the formatter. virtual std::unique_ptr clone() const = 0; /// Formats the log entry into the input buffer. virtual void format(detail::log_entry_metadata&& metadata, fmt::memory_buffer& buffer) = 0; /// Formats the context and log entry into the input buffer. template void format_ctx(const srslog::context& ctx, detail::log_entry_metadata&& metadata, fmt::memory_buffer& buffer) { format_context_begin(metadata, ctx.name(), sizeof...(Ts), buffer); iterate_tuple(ctx.contents(), 1, buffer, detail::make_index_sequence{}); format_context_end(metadata, ctx.name(), buffer); } private: /// Processes all elements in a tuple. template void iterate_tuple(const std::tuple& t, unsigned level, fmt::memory_buffer& buffer, detail::index_sequence) { (void)std::initializer_list{(process_element(std::get(t), level, buffer), 0)...}; } /// Processes the input metric set. template void process_element(const metric_set& ms, unsigned level, fmt::memory_buffer& buffer) { format_metric_set_begin(ms.name(), sizeof...(Ts), level, buffer); iterate_tuple(ms.contents(), level + 1, buffer, detail::make_index_sequence{}); format_metric_set_end(ms.name(), level, buffer); } /// Processes the input metric list. template void process_element(const metric_list& list, unsigned level, fmt::memory_buffer& buffer) { format_list_begin(list.name(), list.size(), level, buffer); for (const auto& elem : list) { process_element(elem, level + 1, buffer); } format_list_end(list.name(), level, buffer); } /// Processes the input metric. template void process_element(const metric& t, unsigned level, fmt::memory_buffer& buffer) { fmt::memory_buffer value; metric_value_formatter::type>{}.format(t.value, value); value.push_back('\0'); format_metric(t.name(), value.data(), t.units(), t.kind(), level, buffer); } private: /// Derived classes should implement the following callbacks to format metric /// objects. Each callback is invoked at a different place of the formatting /// algorithm. /// This callback gets called at the beginning of the context formatting /// algorithm. virtual void format_context_begin(const detail::log_entry_metadata& md, fmt::string_view ctx_name, unsigned size, fmt::memory_buffer& buffer) = 0; /// This callback gets called at the end of the context formatting algorithm. virtual void format_context_end(const detail::log_entry_metadata& md, fmt::string_view ctx_name, fmt::memory_buffer& buffer) = 0; /// This callback gets called at the beginning of a metric set formatting /// procedure. virtual void format_metric_set_begin(fmt::string_view set_name, unsigned size, unsigned level, fmt::memory_buffer& buffer) = 0; /// This callback gets called at the beginning of a metric set formatting end. virtual void format_metric_set_end(fmt::string_view set_name, unsigned level, fmt::memory_buffer& buffer) = 0; /// This callback gets called at the beginning of a metric list formatting /// procedure. virtual void format_list_begin(fmt::string_view list_name, unsigned size, unsigned level, fmt::memory_buffer& buffer) = 0; /// This callback gets called at the end of a metric list formatting /// procedure. virtual void format_list_end(fmt::string_view list_name, unsigned level, fmt::memory_buffer& buffer) = 0; /// This callback gets called for each metric. virtual void format_metric(fmt::string_view metric_name, fmt::string_view metric_value, fmt::string_view metric_units, metric_kind kind, unsigned level, fmt::memory_buffer& buffer) = 0; }; } // namespace srslog #endif // SRSLOG_FORMATTER_H