/* * Copyright (c) 2015, 2025, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #include "jvm.h" #include "logging/log.hpp" #include "logging/logAsyncWriter.hpp" #include "logging/logConfiguration.hpp" #include "logging/logDecorations.hpp" #include "logging/logDecorators.hpp" #include "logging/logDiagnosticCommand.hpp" #include "logging/logFileOutput.hpp" #include "logging/logOutput.hpp" #include "logging/logSelectionList.hpp" #include "logging/logStream.hpp" #include "logging/logTagSet.hpp" #include "memory/allocation.inline.hpp" #include "memory/resourceArea.hpp" #include "runtime/os.hpp" #include "runtime/semaphore.hpp" #include "utilities/globalDefinitions.hpp" LogOutput** LogConfiguration::_outputs = nullptr; size_t LogConfiguration::_n_outputs = 0; LogStdoutOutput* LogConfiguration::StdoutLog = nullptr; LogStderrOutput* LogConfiguration::StderrLog = nullptr; LogConfiguration::UpdateListenerFunction* LogConfiguration::_listener_callbacks = nullptr; size_t LogConfiguration::_n_listener_callbacks = 0; // LogFileOutput is the default type of output, its type prefix should be used if no type was specified static const char* implicit_output_prefix = LogFileOutput::Prefix; // Stack object to take the lock for configuring the logging. // Should only be held during the critical parts of the configuration // (when calling configure_output or reading/modifying the outputs array). // Thread must never block when holding this lock. class ConfigurationLock : public StackObj { private: // Semaphore used as lock static Semaphore _semaphore; DEBUG_ONLY(static intx _locking_thread_id;) public: ConfigurationLock() { _semaphore.wait(); DEBUG_ONLY(_locking_thread_id = os::current_thread_id()); } ~ConfigurationLock() { DEBUG_ONLY(_locking_thread_id = -1); _semaphore.signal(); } DEBUG_ONLY(static bool current_thread_has_lock();) }; Semaphore ConfigurationLock::_semaphore(1); #ifdef ASSERT intx ConfigurationLock::_locking_thread_id = -1; bool ConfigurationLock::current_thread_has_lock() { return _locking_thread_id == os::current_thread_id(); } #endif void LogConfiguration::post_initialize() { // Reset the reconfigured status of all outputs for (size_t i = 0; i < _n_outputs; i++) { _outputs[i]->_reconfigured = false; } LogDiagnosticCommand::registerCommand(); Log(logging) log; if (log.is_info()) { log.info("Log configuration fully initialized."); log_develop_info(logging)("Develop logging is available."); LogStream info_stream(log.info()); describe_available(&info_stream); LogStream debug_stream(log.debug()); LogTagSet::list_all_tagsets(&debug_stream); ConfigurationLock cl; describe_current_configuration(&info_stream); } } void LogConfiguration::initialize(jlong vm_start_time) { StdoutLog = new LogStdoutOutput(); StderrLog = new LogStderrOutput(); LogFileOutput::set_file_name_parameters(vm_start_time); assert(_outputs == nullptr, "Should not initialize _outputs before this function, initialize called twice?"); _outputs = NEW_C_HEAP_ARRAY(LogOutput*, 2, mtLogging); _outputs[0] = StdoutLog; _outputs[1] = StderrLog; _n_outputs = 2; _outputs[0]->set_config_string("all=warning"); _outputs[1]->set_config_string("all=off"); // Set the default output to warning and error level for all new tagsets. for (LogTagSet* ts = LogTagSet::first(); ts != nullptr; ts = ts->next()) { ts->set_output_level(StdoutLog, LogLevel::Default); } } void LogConfiguration::finalize() { disable_outputs(); FREE_C_HEAP_ARRAY(LogOutput*, _outputs); } // Normalizes the given LogOutput name to type=name form. // For example, foo, "foo", file="foo", will all be normalized to file=foo (no quotes, prefixed). static bool normalize_output_name(const char* full_name, char* buffer, size_t len, outputStream* errstream) { const char* start_quote = strchr(full_name, '"'); const char* equals = strchr(full_name, '='); const bool quoted = start_quote != nullptr; const bool is_stdout_or_stderr = (strcmp(full_name, "stdout") == 0 || strcmp(full_name, "stderr") == 0); // ignore equals sign within quotes if (quoted && equals > start_quote) { equals = nullptr; } const char* prefix = ""; size_t prefix_len = 0; const char* name = full_name; if (equals != nullptr) { // split on equals sign name = equals + 1; prefix = full_name; prefix_len = equals - full_name + 1; } else if (!is_stdout_or_stderr) { prefix = implicit_output_prefix; prefix_len = strlen(prefix); } size_t name_len = strlen(name); if (quoted) { const char* end_quote = strchr(start_quote + 1, '"'); if (end_quote == nullptr) { errstream->print_cr("Output name has opening quote but is missing a terminating quote."); return false; } if (start_quote != name || end_quote[1] != '\0') { errstream->print_cr("Output name can not be partially quoted." " Either surround the whole name with quotation marks," " or do not use quotation marks at all."); return false; } // strip start and end quote name++; name_len -= 2; } int ret = jio_snprintf(buffer, len, "%.*s%.*s", prefix_len, prefix, name_len, name); assert(ret > 0, "buffer issue"); return true; } size_t LogConfiguration::find_output(const char* name) { for (size_t i = 0; i < _n_outputs; i++) { if (strcmp(_outputs[i]->name(), name) == 0) { return i; } } return SIZE_MAX; } LogOutput* LogConfiguration::new_output(const char* name, const char* options, outputStream* errstream) { LogOutput* output; if (strncmp(name, LogFileOutput::Prefix, strlen(LogFileOutput::Prefix)) == 0) { output = new LogFileOutput(name); } else { errstream->print_cr("Unsupported log output type: %s", name); return nullptr; } bool success = output->initialize(options, errstream); if (!success) { errstream->print_cr("Initialization of output '%s' using options '%s' failed.", name, options); delete output; return nullptr; } return output; } size_t LogConfiguration::add_output(LogOutput* output) { size_t idx = _n_outputs++; _outputs = REALLOC_C_HEAP_ARRAY(LogOutput*, _outputs, _n_outputs, mtLogging); _outputs[idx] = output; return idx; } void LogConfiguration::delete_output(size_t idx) { assert(idx > 1 && idx < _n_outputs, "idx must be in range 1 < idx < _n_outputs, but idx = %zu" " and _n_outputs = %zu", idx, _n_outputs); LogOutput* output = _outputs[idx]; // Swap places with the last output and shrink the array _outputs[idx] = _outputs[--_n_outputs]; _outputs = REALLOC_C_HEAP_ARRAY(LogOutput*, _outputs, _n_outputs, mtLogging); delete output; } // MT-SAFETY // // The ConfigurationLock guarantees that only one thread is performing reconfiguration. This function still needs // to be MT-safe because logsites in other threads may be executing in parallel. Reconfiguration means unified // logging allows users to dynamically change tags and decorators of a log output via DCMD(logDiagnosticCommand.hpp). // // A RCU-style synchronization 'wait_until_no_readers()' is used inside of 'ts->set_output_level(output, level)' // if a setting has changed. It guarantees that all logs, either synchronous writes or enqueuing to the async buffer // see the new tags and decorators. It's worth noting that the synchronization occurs even if the level does not change. // // LogDecorator is a set of decorators represented in a uint. ts->update_decorators(decorators) is a union of the // current decorators and new_decorators. It's safe to do output->set_decorators(decorators) because new_decorators // is a subset of relevant tagsets decorators. After updating output's decorators, it is still safe to shrink all // decorators of tagsets. // void LogConfiguration::configure_output(size_t idx, const LogSelectionList& selections, const LogDecorators& decorators) { assert(ConfigurationLock::current_thread_has_lock(), "Must hold configuration lock to call this function."); assert(idx < _n_outputs, "Invalid index, idx = %zu and _n_outputs = %zu", idx, _n_outputs); LogOutput* output = _outputs[idx]; output->_reconfigured = true; size_t on_level[LogLevel::Count] = {0}; bool enabled = false; for (LogTagSet* ts = LogTagSet::first(); ts != nullptr; ts = ts->next()) { LogLevelType level = selections.level_for(*ts); // Ignore tagsets that do not, and will not log on the output if (!ts->has_output(output) && (level == LogLevel::NotMentioned || level == LogLevel::Off)) { on_level[LogLevel::Off]++; continue; } // Update decorators before adding/updating output level, // so that the tagset will have the necessary decorators when requiring them. if (level != LogLevel::Off) { ts->update_decorators(decorators); } // Set the new level, if it changed if (level != LogLevel::NotMentioned) { ts->set_output_level(output, level); } else { // Look up the previously set level for this output on this tagset level = ts->level_for(output); } if (level != LogLevel::Off) { // Keep track of whether or not the output is ever used by some tagset enabled = true; } // Track of the number of tag sets on each level on_level[level]++; } // For async logging we have to ensure that all enqueued messages, which may refer to previous decorators, // or a soon-to-be-deleted output, are written out first. The flush() call ensures this. AsyncLogWriter::flush(); // It is now safe to set the new decorators for the actual output output->set_decorators(decorators); // Update the decorators on all tagsets to get rid of unused decorators for (LogTagSet* ts = LogTagSet::first(); ts != nullptr; ts = ts->next()) { ts->update_decorators(); } if (!enabled && idx > 1) { // Output is unused and should be removed, unless it is stdout/stderr (idx < 2) delete_output(idx); return; } output->update_config_string(on_level); assert(strlen(output->config_string()) > 0, "should always have a config description"); } void LogConfiguration::disable_outputs() { size_t idx = _n_outputs; // Remove all outputs from all tagsets. for (LogTagSet* ts = LogTagSet::first(); ts != nullptr; ts = ts->next()) { ts->disable_outputs(); } // Handle 'jcmd VM.log disable' and JVM termination. // ts->disable_outputs() above has disabled all output_lists with RCU synchronization. // Therefore, no new logging message can enter the async buffer for the time being. // flush out all pending messages before LogOutput instances die. AsyncLogWriter::flush(); while (idx > 0) { LogOutput* out = _outputs[--idx]; // Delete the output unless stdout or stderr (idx 0 or 1) if (idx > 1) { delete_output(idx); } else { out->set_config_string("all=off"); } } } void LogConfiguration::disable_logging() { ConfigurationLock cl; disable_outputs(); // Update the decorators on all tagsets to get rid of unused decorators for (LogTagSet* ts = LogTagSet::first(); ts != nullptr; ts = ts->next()) { ts->update_decorators(); } notify_update_listeners(); } LogSelectionList LogConfiguration::create_selection_list(LogLevelType level, int exact_match, va_list ap) { size_t i; LogTagType tags[LogTag::MaxTags]; for (i = 0; i < LogTag::MaxTags; i++) { LogTagType tag = static_cast(va_arg(ap, int)); tags[i] = tag; if (tag == LogTag::__NO_TAG) { assert(i > 0, "Must specify at least one tag!"); break; } } assert(i < LogTag::MaxTags || static_cast(va_arg(ap, int)) == LogTag::__NO_TAG, "Too many tags specified! Can only have up to %zu tags in a tag set.", LogTag::MaxTags); LogSelection selection(tags, !exact_match, level); assert(selection.tag_sets_selected() > 0, "create_selection_list() called with invalid/non-existing log selection"); return LogSelectionList(selection); } void LogConfiguration::disable_tags(int exact_match, ...) { va_list ap; va_start(ap, exact_match); LogSelectionList list = create_selection_list(LogLevel::Off, exact_match, ap); va_end(ap); // Apply configuration to all outputs, with the same decorators as before. ConfigurationLock cl; for (size_t i = 0; i < _n_outputs; i++) { configure_output(i, list, _outputs[i]->decorators()); } notify_update_listeners(); } void LogConfiguration::configure_stdout(LogLevelType level, int exact_match, ...) { va_list ap; va_start(ap, exact_match); LogSelectionList list = create_selection_list(level, exact_match, ap); va_end(ap); // Apply configuration to stdout (output #0), with the same decorators as before. ConfigurationLock cl; configure_output(0, list, _outputs[0]->decorators()); notify_update_listeners(); } bool LogConfiguration::parse_command_line_arguments(const char* opts) { char* copy = os::strdup_check_oom(opts, mtLogging); // Split the option string to its colon separated components. char* str = copy; char* substrings[4] = {}; for (int i = 0 ; i < 4; i++) { substrings[i] = str; // Find the next colon or quote char* next = strpbrk(str, ":\""); #ifdef _WINDOWS // Skip over Windows paths such as "C:\..." and "C:/...". // Handles both "C:\..." and "file=C:\...". if (next != nullptr && next[0] == ':' && (next[1] == '\\' || next[1] == '/')) { if (next == str + 1 || (strncmp(str, "file=", 5) == 0)) { next = strpbrk(next + 1, ":\""); } } #endif while (next != nullptr && *next == '"') { char* end_quote = strchr(next + 1, '"'); if (end_quote == nullptr) { log_error(logging)("Missing terminating quote in -Xlog option '%s'", str); os::free(copy); return false; } // Keep searching after the quoted substring next = strpbrk(end_quote + 1, ":\""); } if (next != nullptr) { *next = '\0'; str = next + 1; } else { str = nullptr; break; } } if (str != nullptr) { log_warning(logging)("Ignoring excess -Xlog options: \"%s\"", str); } // Parse and apply the separated configuration options char* what = substrings[0]; char* output = substrings[1]; char* decorators = substrings[2]; char* output_options = substrings[3]; char errbuf[512]; stringStream ss(errbuf, sizeof(errbuf)); bool success = true; // output options for stdout/err should be applied just once. static bool stdout_configured = false; static bool stderr_configured = false; // Normally options can't be used to change an existing output // (parse_log_arguments() will report an error), but we make an exception for // both StdoutLog and StderrLog as they're initialized automatically // very early in the boot process. if (output == nullptr || strlen(output) == 0 || strcmp("stdout", output) == 0 || strcmp("#0", output) == 0) { if (!stdout_configured) { success = StdoutLog->parse_options(output_options, &ss); stdout_configured = true; // We no longer need to pass output options to parse_log_arguments(). output_options = nullptr; } // else - fall-through to normal option processing which will be rejected // with a warning } else if (strcmp("stderr", output) == 0 || strcmp("#1", output) == 0) { if (!stderr_configured) { success = StderrLog->parse_options(output_options, &ss); stderr_configured = true; // We no longer need to pass output options to parse_log_arguments(). output_options = nullptr; } // else - fall-through to normal option processing which will be rejected // with a warning } if (success) { success = parse_log_arguments(output, what, decorators, output_options, &ss); } if (ss.size() > 0) { // If it failed, log the error. If it didn't fail, but something was written // to the stream, log it as a warning. LogLevelType level = success ? LogLevel::Warning : LogLevel::Error; Log(logging) log; char* start = errbuf; char* end = strchr(start, '\n'); assert(end != nullptr, "line must end with newline '%s'", start); do { assert(start < errbuf + sizeof(errbuf) && end < errbuf + sizeof(errbuf), "buffer overflow"); *end = '\0'; log.write(level, "%s", start); start = end + 1; end = strchr(start, '\n'); assert(end != nullptr || *start == '\0', "line must end with newline '%s'", start); } while (end != nullptr); } os::free(copy); return success; } bool LogConfiguration::parse_log_arguments(const char* outputstr, const char* selectionstr, const char* decoratorstr, const char* output_options, outputStream* errstream) { assert(errstream != nullptr, "errstream can not be null"); if (outputstr == nullptr || strlen(outputstr) == 0) { outputstr = "stdout"; } LogSelectionList selections; if (!selections.parse(selectionstr, errstream)) { return false; } LogDecorators decorators = selections.get_default_decorators(); if (!decorators.parse(decoratorstr, errstream)) { return false; } ConfigurationLock cl; size_t idx; bool added = false; if (outputstr[0] == '#') { // Output specified using index int ret = sscanf(outputstr + 1, "%zu", &idx); if (ret != 1 || idx >= _n_outputs) { errstream->print_cr("Invalid output index '%s'", outputstr); return false; } } else if (strcmp(outputstr, StdoutLog->name()) == 0) { // stdout idx = 0; assert(find_output(outputstr) == idx, "sanity check"); } else if (strcmp(outputstr, StderrLog->name()) == 0) { // stderr idx = 1; assert(find_output(outputstr) == idx, "sanity check"); } else { // Output specified using name // Normalize the name, stripping quotes and ensures it includes type prefix size_t len = strlen(outputstr) + strlen(implicit_output_prefix) + 1; char* normalized = NEW_C_HEAP_ARRAY(char, len, mtLogging); if (!normalize_output_name(outputstr, normalized, len, errstream)) { return false; } idx = find_output(normalized); if (idx == SIZE_MAX) { // Attempt to create and add the output LogOutput* output = new_output(normalized, output_options, errstream); if (output != nullptr) { idx = add_output(output); added = true; } } FREE_C_HEAP_ARRAY(char, normalized); if (idx == SIZE_MAX) { return false; } } if (!added && output_options != nullptr && strlen(output_options) > 0) { errstream->print_cr("Output options for existing outputs are ignored."); } configure_output(idx, selections, decorators); notify_update_listeners(); selections.verify_selections(errstream); return true; } void LogConfiguration::describe_available(outputStream* out) { out->print("Available log levels:"); for (size_t i = 0; i < LogLevel::Count; i++) { out->print("%s %s", (i == 0 ? "" : ","), LogLevel::name(static_cast(i))); } out->cr(); out->print("Available log decorators:"); for (size_t i = 0; i < LogDecorators::Count; i++) { LogDecorators::Decorator d = static_cast(i); out->print("%s %s (%s)", (i == 0 ? "" : ","), LogDecorators::name(d), LogDecorators::abbreviation(d)); } out->cr(); out->print("Available log tags:"); LogTag::list_tags(out); LogTagSet::describe_tagsets(out); } void LogConfiguration::describe_current_configuration(outputStream* out) { out->print_cr("Log output configuration:"); for (size_t i = 0; i < _n_outputs; i++) { out->print(" #%zu: ", i); _outputs[i]->describe(out); if (_outputs[i]->is_reconfigured()) { out->print(" (reconfigured)"); } out->cr(); } } void LogConfiguration::describe(outputStream* out) { describe_available(out); ConfigurationLock cl; describe_current_configuration(out); } void LogConfiguration::print_command_line_help(outputStream* out) { out->print_cr("-Xlog Usage: -Xlog[:[selections][:[output][:[decorators][:output-options]]]]"); out->print_cr("\t where 'selections' are combinations of tags and levels of the form tag1[+tag2...][*][=level][,...]"); out->print_cr("\t NOTE: Unless wildcard (*) is specified, only log messages tagged with exactly the tags specified will be matched."); out->cr(); out->print_cr("Available log levels:"); for (size_t i = 0; i < LogLevel::Count; i++) { out->print("%s %s", (i == 0 ? "" : ","), LogLevel::name(static_cast(i))); } out->cr(); out->cr(); out->print_cr("Available log decorators: "); for (size_t i = 0; i < LogDecorators::Count; i++) { LogDecorators::Decorator d = static_cast(i); out->print("%s %s (%s)", (i == 0 ? "" : ","), LogDecorators::name(d), LogDecorators::abbreviation(d)); } out->cr(); out->print_cr(" Decorators can also be specified as 'none' for no decoration."); out->cr(); out->print_cr("Available log tags:"); LogTag::list_tags(out); out->print_cr(" Specifying 'all' instead of a tag combination matches all tag combinations."); out->cr(); LogTagSet::describe_tagsets(out); out->cr(); out->print_cr("Available log outputs:"); out->print_cr(" stdout/stderr"); out->print_cr(" file="); out->print_cr(" If the filename contains %%p, %%t and/or %%hn, they will expand to the JVM's PID, startup timestamp and host name, respectively."); out->cr(); out->print_cr("Available log output options:"); out->print_cr(" foldmultilines=.. - If set to true, a log event that consists of multiple lines" " will be folded into a single line by replacing newline characters" " with the sequence '\\' and 'n' in the output." " Existing single backslash characters will also be replaced" " with a sequence of two backslashes so that the conversion can be reversed." " This option is safe to use with UTF-8 character encodings," " but other encodings may not work."); out->cr(); out->print_cr("Additional file output options:"); out->print_cr(" filesize=.. - Target byte size for log rotation (supports K/M/G suffix)." " If set to 0, log rotation will not trigger automatically," " but can be performed manually (see the VM.log DCMD)."); out->print_cr(" filecount=.. - Number of files to keep in rotation (not counting the active file)." " If set to 0, log rotation is disabled." " This will cause existing log files to be overwritten."); out->cr(); out->print_cr("Asynchronous logging (off by default):"); out->print_cr(" -Xlog:async[:[mode]]"); out->print_cr(" All log messages are written to an intermediate buffer first and will then be flushed" " to the corresponding log outputs by a standalone thread. Write operations at logsites are" " guaranteed non-blocking."); out->print_cr(" A mode, either 'drop' or 'stall', may be provided. If 'drop' is provided then" " messages will be dropped if there is no room in the intermediate buffer." " If 'stall' is provided then the log operation will wait for room to be made by the output thread, without dropping any messages." " The default mode is 'drop'."); out->cr(); out->print_cr("Some examples:"); out->print_cr(" -Xlog"); out->print_cr("\t Log all messages up to 'info' level to stdout with 'uptime', 'levels' and 'tags' decorations."); out->print_cr("\t (Equivalent to -Xlog:all=info:stdout:uptime,levels,tags)."); out->cr(); out->print_cr(" -Xlog:gc"); out->print_cr("\t Log messages tagged with 'gc' tag up to 'info' level to stdout, with default decorations."); out->cr(); out->print_cr(" -Xlog:gc,safepoint"); out->print_cr("\t Log messages tagged either with 'gc' or 'safepoint' tags, both up to 'info' level, to stdout, with default decorations."); out->print_cr("\t (Messages tagged with both 'gc' and 'safepoint' will not be logged.)"); out->cr(); out->print_cr(" -Xlog:gc+ref=debug"); out->print_cr("\t Log messages tagged with both 'gc' and 'ref' tags, up to 'debug' level, to stdout, with default decorations."); out->print_cr("\t (Messages tagged only with one of the two tags will not be logged.)"); out->cr(); out->print_cr(" -Xlog:gc=debug:file=gc.txt:none"); out->print_cr("\t Log messages tagged with 'gc' tag up to 'debug' level to file 'gc.txt' with no decorations."); out->cr(); out->print_cr(" -Xlog:gc=trace:file=gctrace.txt:uptimemillis,pid:filecount=5,filesize=1m"); out->print_cr("\t Log messages tagged with 'gc' tag up to 'trace' level to a rotating fileset of 5 files of size 1MB,"); out->print_cr("\t using the base name 'gctrace.txt', with 'uptimemillis' and 'pid' decorations."); out->cr(); out->print_cr(" -Xlog:gc::uptime,tid"); out->print_cr("\t Log messages tagged with 'gc' tag up to 'info' level to output 'stdout', using 'uptime' and 'tid' decorations."); out->cr(); out->print_cr(" -Xlog:gc*=info,safepoint*=off"); out->print_cr("\t Log messages tagged with at least 'gc' up to 'info' level, but turn off logging of messages tagged with 'safepoint'."); out->print_cr("\t (Messages tagged with both 'gc' and 'safepoint' will not be logged.)"); out->cr(); out->print_cr(" -Xlog:disable -Xlog:safepoint=trace:safepointtrace.txt"); out->print_cr("\t Turn off all logging, including warnings and errors,"); out->print_cr("\t and then enable messages tagged with 'safepoint' up to 'trace' level to file 'safepointtrace.txt'."); out->cr(); out->print_cr(" -Xlog:async -Xlog:gc=debug:file=gc.log -Xlog:safepoint=trace"); out->print_cr("\t Write logs asynchronously. Enable messages tagged with 'safepoint' up to 'trace' level to stdout "); out->print_cr("\t and messages tagged with 'gc' up to 'debug' level to file 'gc.log'."); } void LogConfiguration::rotate_all_outputs() { // Start from index 2 since neither stdout nor stderr can be rotated. for (size_t idx = 2; idx < _n_outputs; idx++) { _outputs[idx]->force_rotate(); } } void LogConfiguration::register_update_listener(UpdateListenerFunction cb) { assert(cb != nullptr, "Should not register nullptr as listener"); ConfigurationLock cl; size_t idx = _n_listener_callbacks++; _listener_callbacks = REALLOC_C_HEAP_ARRAY(UpdateListenerFunction, _listener_callbacks, _n_listener_callbacks, mtLogging); _listener_callbacks[idx] = cb; } void LogConfiguration::notify_update_listeners() { assert(ConfigurationLock::current_thread_has_lock(), "notify_update_listeners must be called in ConfigurationLock scope (lock held)"); for (size_t i = 0; i < _n_listener_callbacks; i++) { _listener_callbacks[i](); } } LogConfiguration::AsyncMode LogConfiguration::_async_mode = AsyncMode::Off; bool LogConfiguration::parse_async_argument(const char* async_tail) { bool ret = true; if (*async_tail == '\0') { // Default is to drop. LogConfiguration::set_async_mode(LogConfiguration::AsyncMode::Drop); } else if (strcmp(async_tail, ":stall") == 0) { LogConfiguration::set_async_mode(LogConfiguration::AsyncMode::Stall); } else if (strcmp(async_tail, ":drop") == 0) { LogConfiguration::set_async_mode(LogConfiguration::AsyncMode::Drop); } else { // User provided unknown async option ret = false; } return ret; }