proxy/logging/YamlLogConfig.cc - trafficserver - Git at Google

 /** @file

   @section license License

   Licensed to the Apache Software Foundation (ASF) under one
   or more contributor license agreements.  See the NOTICE file
   distributed with this work for additional information
   regarding copyright ownership.  The ASF licenses this file
   to you under the Apache License, Version 2.0 (the
   "License"); you may not use this file except in compliance
   with the License.  You may obtain a copy of the License at

       http://www.apache.org/licenses/LICENSE-2.0

   Unless required by applicable law or agreed to in writing, software
   distributed under the License is distributed on an "AS IS" BASIS,
   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
   See the License for the specific language governing permissions and
   limitations under the License.
  */

 #include "YamlLogConfig.h"
 #include "YamlLogConfigDecoders.h"

 #include "LogConfig.h"
 #include "LogObject.h"

 #include "tscore/EnumDescriptor.h"

 #include <yaml-cpp/yaml.h>
 #include <algorithm>
 #include <memory>

 bool
 YamlLogConfig::parse(const char *cfgFilename)
 {
   bool result;
   try {
     result = loadLogConfig(cfgFilename);
   } catch (std::exception &ex) {
     Error("%s", ex.what());
     result = false;
   }
   return result;
 }

 bool
 YamlLogConfig::loadLogConfig(const char *cfgFilename)
 {
   YAML::Node config = YAML::LoadFile(cfgFilename);

   if (config.IsNull()) {
     return false;
   }

   if (!config.IsMap()) {
     Error("malformed %s file; expected a map", cfgFilename);
     return false;
   }

   if (config["logging"]) {
     config = config["logging"];
   } else {
     Error("malformed %s file; expected a toplevel 'logging' node", cfgFilename);
     return false;
   }

   auto formats = config["formats"];
   for (auto const &node : formats) {
     auto fmt = node.as<std::unique_ptr<LogFormat>>().release();
     if (fmt->valid()) {
       cfg->format_list.add(fmt, false);

       if (is_debug_tag_set("log")) {
         printf("The following format was added to the global format list\n");
         fmt->display(stdout);
       }
     } else {
       Note("Format named \"%s\" will not be active; not a valid format", fmt->name() ? fmt->name() : "");
       delete fmt;
     }
   }

   auto filters = config["filters"];
   for (auto const &node : filters) {
     auto filter = node.as<std::unique_ptr<LogFilter>>().release();

     if (filter) {
       cfg->filter_list.add(filter, false);

       if (is_debug_tag_set("xml")) {
         printf("The following filter was added to the global filter list\n");
         filter->display(stdout);
       }
     }
   }

   auto logs = config["logs"];
   for (auto const &node : logs) {
     auto obj = decodeLogObject(node);
     if (obj) {
       cfg->log_object_manager.manage_object(obj);
     }
   }
   return true;
 }

 TsEnumDescriptor ROLLING_MODE_TEXT = {{{"none", 0}, {"time", 1}, {"size", 2}, {"both", 3}, {"any", 4}}};
 TsEnumDescriptor ROLLING_MODE_LUA  = {
   {{"log.roll.none", 0}, {"log.roll.time", 1}, {"log.roll.size", 2}, {"log.roll.both", 3}, {"log.roll.any", 4}}};

 std::set<std::string> valid_log_object_keys = {"filename",
                                                "format",
                                                "mode",
                                                "header",
                                                "rolling_enabled",
                                                "rolling_interval_sec",
                                                "rolling_offset_hr",
                                                "rolling_size_mb",
                                                "filters",
                                                "rolling_min_count",
                                                "rolling_max_count",
                                                "rolling_allow_empty",
                                                "pipe_buffer_size"};

 LogObject *
 YamlLogConfig::decodeLogObject(const YAML::Node &node)
 {
   for (auto const &item : node) {
     if (std::none_of(valid_log_object_keys.begin(), valid_log_object_keys.end(),
                      [&item](const std::string &s) { return s == item.first.as<std::string>(); })) {
       throw YAML::ParserException(item.first.Mark(), "log: unsupported key '" + item.first.as<std::string>() + "'");
     }
   }

   if (!node["format"]) {
     throw YAML::ParserException(node.Mark(), "missing 'format' argument");
   }
   std::string format = node["format"].as<std::string>();

   if (!node["filename"]) {
     throw YAML::ParserException(node.Mark(), "missing 'filename' argument");
   }

   std::string header;
   if (node["header"]) {
     header = node["header"].as<std::string>();
   }

   std::string filename = node["filename"].as<std::string>();
   LogFormat *fmt       = cfg->format_list.find_by_name(format.c_str());
   if (!fmt) {
     Error("Format %s is not a known format; cannot create LogObject", format.c_str());
     return nullptr;
   }

   // file format
   LogFileFormat file_type = LOG_FILE_ASCII; // default value
   if (node["mode"]) {
     std::string mode = node["mode"].as<std::string>();
     file_type        = (0 == strncasecmp(mode.c_str(), "bin", 3) || (1 == mode.size() && mode[0] == 'b') ?
                    LOG_FILE_BINARY :
                    (0 == strcasecmp(mode.c_str(), "ascii_pipe") ? LOG_FILE_PIPE : LOG_FILE_ASCII));
   }

   int obj_rolling_enabled      = cfg->rolling_enabled;
   int obj_rolling_interval_sec = cfg->rolling_interval_sec;
   int obj_rolling_offset_hr    = cfg->rolling_offset_hr;
   int obj_rolling_size_mb      = cfg->rolling_size_mb;
   int obj_rolling_min_count    = cfg->rolling_min_count;
   int obj_rolling_max_count    = cfg->rolling_max_count;
   int obj_rolling_allow_empty  = cfg->rolling_allow_empty;

   if (node["rolling_enabled"]) {
     auto value          = node["rolling_enabled"].as<std::string>();
     obj_rolling_enabled = ROLLING_MODE_TEXT.get(value);
     if (obj_rolling_enabled < 0) {
       obj_rolling_enabled = ROLLING_MODE_LUA.get(value);
       if (obj_rolling_enabled < 0) {
         obj_rolling_enabled = node["rolling_enabled"].as<int>();
         if (obj_rolling_enabled < Log::NO_ROLLING || obj_rolling_enabled > Log::ROLL_ON_TIME_AND_SIZE) {
           throw YAML::ParserException(node["rolling_enabled"].Mark(), "unknown value " + value);
         }
       }
     }
   }
   if (node["rolling_interval_sec"]) {
     obj_rolling_interval_sec = node["rolling_interval_sec"].as<int>();
   }
   if (node["rolling_offset_hr"]) {
     obj_rolling_offset_hr = node["rolling_offset_hr"].as<int>();
   }
   if (node["rolling_size_mb"]) {
     obj_rolling_size_mb = node["rolling_size_mb"].as<int>();
   }
   if (node["rolling_min_count"]) {
     obj_rolling_min_count = node["rolling_min_count"].as<int>();
   }
   if (node["rolling_max_count"]) {
     obj_rolling_max_count = node["rolling_max_count"].as<int>();
   }
   if (node["rolling_allow_empty"]) {
     obj_rolling_allow_empty = node["rolling_allow_empty"].as<int>();
   }
   if (!LogRollingEnabledIsValid(obj_rolling_enabled)) {
     Warning("Invalid log rolling value '%d' in log object", obj_rolling_enabled);
   }

   // get buffer for pipe
   int pipe_buffer_size = 0;
   if (node["pipe_buffer_size"]) {
     if (file_type != LOG_FILE_PIPE) {
       Warning("Pipe buffer size field should only be set for log.pipe object.");
     } else {
       pipe_buffer_size = node["pipe_buffer_size"].as<int>();
     }
   }

   auto logObject = new LogObject(cfg, fmt, cfg->logfile_dir, filename.c_str(), file_type, header.c_str(),
                                  static_cast<Log::RollingEnabledValues>(obj_rolling_enabled), cfg->preproc_threads,
                                  obj_rolling_interval_sec, obj_rolling_offset_hr, obj_rolling_size_mb, /* auto_created */ false,
                                  /* rolling_max_count */ obj_rolling_max_count, /* rolling_min_count */ obj_rolling_min_count,
                                  /* reopen_after_rolling */ obj_rolling_allow_empty > 0, pipe_buffer_size);

   // Generate LogDeletingInfo entry for later use
   std::string ext;
   switch (file_type) {
   case LOG_FILE_ASCII:
     ext = LOG_FILE_ASCII_OBJECT_FILENAME_EXTENSION;
     break;
   case LOG_FILE_PIPE:
     ext = LOG_FILE_PIPE_OBJECT_FILENAME_EXTENSION;
     break;
   case LOG_FILE_BINARY:
     ext = LOG_FILE_BINARY_OBJECT_FILENAME_EXTENSION;
     break;
   default:
     break;
   }

   // filters
   auto filters = node["filters"];
   if (!filters) {
     return logObject;
   }

   if (!filters.IsSequence()) {
     throw YAML::ParserException(filters.Mark(), "'filters' should be a list");
   }

   for (auto const &filter : filters) {
     std::string filter_name = filter.as<std::string>().c_str();
     LogFilter *f            = cfg->filter_list.find_by_name(filter_name.c_str());
     if (!f) {
       Warning("Filter %s is not a known filter; cannot add to this LogObject", filter_name.c_str());
     } else {
       logObject->add_filter(f);
     }
   }

   return logObject;
 }
	/** @file

	@section license License

	Licensed to the Apache Software Foundation (ASF) under one
	or more contributor license agreements. See the NOTICE file
	distributed with this work for additional information
	regarding copyright ownership. The ASF licenses this file
	to you under the Apache License, Version 2.0 (the
	"License"); you may not use this file except in compliance
	with the License. You may obtain a copy of the License at

	http://www.apache.org/licenses/LICENSE-2.0

	Unless required by applicable law or agreed to in writing, software
	distributed under the License is distributed on an "AS IS" BASIS,
	WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	See the License for the specific language governing permissions and
	limitations under the License.
	*/

	#include "YamlLogConfig.h"
	#include "YamlLogConfigDecoders.h"

	#include "LogConfig.h"
	#include "LogObject.h"

	#include "tscore/EnumDescriptor.h"

	#include <yaml-cpp/yaml.h>
	#include <algorithm>
	#include <memory>

	bool
	YamlLogConfig::parse(const char *cfgFilename)
	{
	bool result;
	try {
	result = loadLogConfig(cfgFilename);
	} catch (std::exception &ex) {
	Error("%s", ex.what());
	result = false;
	}
	return result;
	}

	bool
	YamlLogConfig::loadLogConfig(const char *cfgFilename)
	{
	YAML::Node config = YAML::LoadFile(cfgFilename);

	if (config.IsNull()) {
	return false;
	}

	if (!config.IsMap()) {
	Error("malformed %s file; expected a map", cfgFilename);
	return false;
	}

	if (config["logging"]) {
	config = config["logging"];
	} else {
	Error("malformed %s file; expected a toplevel 'logging' node", cfgFilename);
	return false;
	}

	auto formats = config["formats"];
	for (auto const &node : formats) {
	auto fmt = node.as<std::unique_ptr<LogFormat>>().release();
	if (fmt->valid()) {
	cfg->format_list.add(fmt, false);

	if (is_debug_tag_set("log")) {
	printf("The following format was added to the global format list\n");
	fmt->display(stdout);
	}
	} else {
	Note("Format named \"%s\" will not be active; not a valid format", fmt->name() ? fmt->name() : "");
	delete fmt;
	}
	}

	auto filters = config["filters"];
	for (auto const &node : filters) {
	auto filter = node.as<std::unique_ptr<LogFilter>>().release();

	if (filter) {
	cfg->filter_list.add(filter, false);

	if (is_debug_tag_set("xml")) {
	printf("The following filter was added to the global filter list\n");
	filter->display(stdout);
	}
	}
	}

	auto logs = config["logs"];
	for (auto const &node : logs) {
	auto obj = decodeLogObject(node);
	if (obj) {
	cfg->log_object_manager.manage_object(obj);
	}
	}
	return true;
	}

	TsEnumDescriptor ROLLING_MODE_TEXT = {{{"none", 0}, {"time", 1}, {"size", 2}, {"both", 3}, {"any", 4}}};
	TsEnumDescriptor ROLLING_MODE_LUA = {
	{{"log.roll.none", 0}, {"log.roll.time", 1}, {"log.roll.size", 2}, {"log.roll.both", 3}, {"log.roll.any", 4}}};

	std::set<std::string> valid_log_object_keys = {"filename",
	"format",
	"mode",
	"header",
	"rolling_enabled",
	"rolling_interval_sec",
	"rolling_offset_hr",
	"rolling_size_mb",
	"filters",
	"rolling_min_count",
	"rolling_max_count",
	"rolling_allow_empty",
	"pipe_buffer_size"};

	LogObject *
	YamlLogConfig::decodeLogObject(const YAML::Node &node)
	{
	for (auto const &item : node) {
	if (std::none_of(valid_log_object_keys.begin(), valid_log_object_keys.end(),
	[&item](const std::string &s) { return s == item.first.as<std::string>(); })) {
	throw YAML::ParserException(item.first.Mark(), "log: unsupported key '" + item.first.as<std::string>() + "'");
	}
	}

	if (!node["format"]) {
	throw YAML::ParserException(node.Mark(), "missing 'format' argument");
	}
	std::string format = node["format"].as<std::string>();

	if (!node["filename"]) {
	throw YAML::ParserException(node.Mark(), "missing 'filename' argument");
	}

	std::string header;
	if (node["header"]) {
	header = node["header"].as<std::string>();
	}

	std::string filename = node["filename"].as<std::string>();
	LogFormat *fmt = cfg->format_list.find_by_name(format.c_str());
	if (!fmt) {
	Error("Format %s is not a known format; cannot create LogObject", format.c_str());
	return nullptr;
	}

	// file format
	LogFileFormat file_type = LOG_FILE_ASCII; // default value
	if (node["mode"]) {
	std::string mode = node["mode"].as<std::string>();
	file_type = (0 == strncasecmp(mode.c_str(), "bin", 3) \|\| (1 == mode.size() && mode[0] == 'b') ?
	LOG_FILE_BINARY :
	(0 == strcasecmp(mode.c_str(), "ascii_pipe") ? LOG_FILE_PIPE : LOG_FILE_ASCII));
	}

	int obj_rolling_enabled = cfg->rolling_enabled;
	int obj_rolling_interval_sec = cfg->rolling_interval_sec;
	int obj_rolling_offset_hr = cfg->rolling_offset_hr;
	int obj_rolling_size_mb = cfg->rolling_size_mb;
	int obj_rolling_min_count = cfg->rolling_min_count;
	int obj_rolling_max_count = cfg->rolling_max_count;
	int obj_rolling_allow_empty = cfg->rolling_allow_empty;

	if (node["rolling_enabled"]) {
	auto value = node["rolling_enabled"].as<std::string>();
	obj_rolling_enabled = ROLLING_MODE_TEXT.get(value);
	if (obj_rolling_enabled < 0) {
	obj_rolling_enabled = ROLLING_MODE_LUA.get(value);
	if (obj_rolling_enabled < 0) {
	obj_rolling_enabled = node["rolling_enabled"].as<int>();
	if (obj_rolling_enabled < Log::NO_ROLLING \|\| obj_rolling_enabled > Log::ROLL_ON_TIME_AND_SIZE) {
	throw YAML::ParserException(node["rolling_enabled"].Mark(), "unknown value " + value);
	}
	}
	}
	}
	if (node["rolling_interval_sec"]) {
	obj_rolling_interval_sec = node["rolling_interval_sec"].as<int>();
	}
	if (node["rolling_offset_hr"]) {
	obj_rolling_offset_hr = node["rolling_offset_hr"].as<int>();
	}
	if (node["rolling_size_mb"]) {
	obj_rolling_size_mb = node["rolling_size_mb"].as<int>();
	}
	if (node["rolling_min_count"]) {
	obj_rolling_min_count = node["rolling_min_count"].as<int>();
	}
	if (node["rolling_max_count"]) {
	obj_rolling_max_count = node["rolling_max_count"].as<int>();
	}
	if (node["rolling_allow_empty"]) {
	obj_rolling_allow_empty = node["rolling_allow_empty"].as<int>();
	}
	if (!LogRollingEnabledIsValid(obj_rolling_enabled)) {
	Warning("Invalid log rolling value '%d' in log object", obj_rolling_enabled);
	}

	// get buffer for pipe
	int pipe_buffer_size = 0;
	if (node["pipe_buffer_size"]) {
	if (file_type != LOG_FILE_PIPE) {
	Warning("Pipe buffer size field should only be set for log.pipe object.");
	} else {
	pipe_buffer_size = node["pipe_buffer_size"].as<int>();
	}
	}

	auto logObject = new LogObject(cfg, fmt, cfg->logfile_dir, filename.c_str(), file_type, header.c_str(),
	static_cast<Log::RollingEnabledValues>(obj_rolling_enabled), cfg->preproc_threads,
	obj_rolling_interval_sec, obj_rolling_offset_hr, obj_rolling_size_mb, /* auto_created */ false,
	/* rolling_max_count / obj_rolling_max_count, / rolling_min_count */ obj_rolling_min_count,
	/* reopen_after_rolling */ obj_rolling_allow_empty > 0, pipe_buffer_size);

	// Generate LogDeletingInfo entry for later use
	std::string ext;
	switch (file_type) {
	case LOG_FILE_ASCII:
	ext = LOG_FILE_ASCII_OBJECT_FILENAME_EXTENSION;
	break;
	case LOG_FILE_PIPE:
	ext = LOG_FILE_PIPE_OBJECT_FILENAME_EXTENSION;
	break;
	case LOG_FILE_BINARY:
	ext = LOG_FILE_BINARY_OBJECT_FILENAME_EXTENSION;
	break;
	default:
	break;
	}

	// filters
	auto filters = node["filters"];
	if (!filters) {
	return logObject;
	}

	if (!filters.IsSequence()) {
	throw YAML::ParserException(filters.Mark(), "'filters' should be a list");
	}

	for (auto const &filter : filters) {
	std::string filter_name = filter.as<std::string>().c_str();
	LogFilter *f = cfg->filter_list.find_by_name(filter_name.c_str());
	if (!f) {
	Warning("Filter %s is not a known filter; cannot add to this LogObject", filter_name.c_str());
	} else {
	logObject->add_filter(f);
	}
	}

	return logObject;
	}