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fuchsia / fuchsia / 6697568849879512cc8452e84c2db4c0da200466 / . / tools / fidlcat / command_line_options.cc
blob: 053db5dd28e349ca76bd8600c055f7613d2aecf6 [file] [log] [blame]
// Copyright 2019 The Fuchsia Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "tools/fidlcat/command_line_options.h"
#include <lib/cmdline/args_parser.h>
#include <lib/syslog/cpp/log_settings.h>
#include <regex.h>
#include <stdio.h>
#include <sys/ioctl.h>
#include <unistd.h>
#include <filesystem>
#include <fstream>
#include <set>
#include <string>
#include <vector>
#include "src/lib/fxl/strings/string_number_conversions.h"
#include "tools/fidlcat/lib/decode_options.h"
namespace fidlcat {
int constexpr kMinColumns = 80;
const char* const kHelpIntro = R"(fidlcat [ <options> ] [ command [args] ]
fidlcat will run the specified command until it exits. It will intercept and
record all fidl calls invoked by the process. The command may be of the form
"run <component URL>", in which case the given component will be launched.
fidlcat will return the code 1 if its parameters are invalid.
fidlcat expects a debug agent to be running on the target device. It will
return the code 2 if it cannot connect to the debug agent.
Options:
)";
const char* const kRemoteHostHelp = R"( --connect
The host and port of the debug agent running on the target Fuchsia
instance, of the form [<ipv6_addr>]:port.)";
const char* const kSymbolIndexHelp = R"( --symbol-index=<path>
Populates --ids-txt and --build-id-dir using the given symbol-index file,
which defaults to ~/.fuchsia/debug/symbol-index. The file should be
created and maintained by the "symbol-index" host tool.)";
const char* const kBuildIdDirHelp = R"( --build-id-dir=<path>
Adds the given directory to the symbol search path. Multiple
--build-id-dir switches can be passed to add multiple directories.
The directory must have the same structure as a .build-id directory,
that is, each symbol file lives at xx/yyyyyyyy.debug where xx is
the first two characters of the build ID and yyyyyyyy is the rest.
However, the name of the directory doesn't need to be .build-id.)";
const char* const kSymbolServerHelp = R"( --symbol-server=<url>
Adds the given URL to symbol servers. Symbol servers host the debug
symbols for prebuilt binaries and dynamic libraries.)";
const char* const kSymbolPathHelp = R"( --symbol-path=<path>
-s <path>
Adds the given directory or file to the symbol search path. Multiple
-s switches can be passed to add multiple locations. When a directory
path is passed, the directory will be enumerated non-recursively to
index all ELF files. When a file is passed, it will be loaded as an ELF
file (if possible).)";
const char* const kSymbolCacheHelp = R"( --symbol-cache=<path>
Directory where we can keep a symbol cache. If a symbol server has been
specified, downloaded symbols will be stored in this directory. The
directory structure will be the same as a .build-id directory, and
symbols will be read from this location as though you had specified
"--build-id-dir=<path>".)";
const char* const kFidlIrPathHelp = R"( --fidl-ir-path=<path>|@argfile
Adds the given path as a repository for FIDL IR, in the form of .fidl.json
files. Passing a file adds the given file. Passing a directory adds all
of the .fidl.json files in that directory and any directory transitively
reachable from there. An argfile contains a newline-separated list of
.fidl.json files relative to the directory containing the argfile; passing
an argfile (starting with the '@' character) adds all files listed in that
argfile. This switch can be passed multiple times to add multiple
locations.)";
const char* const kIdsTxtHelp = R"( --ids-txt=<path>
Adds the given file to the symbol search path. Multiple --ids-txt
switches can be passed to add multiple files. The file, typically named
"ids.txt", serves as a mapping from build ID to symbol file path and
should contain multiple lines in the format of "<build ID> <file path>".)";
const char* const kQuitAgentOnExitHelp = R"( --quit-agent-on-exit
Will send a quit message to a connected debug agent in order for it to
shutdown. This is so that fidlcat doesn't leak unwanted debug agents on
"on-the-fly" debugging sessions.)";
const char* const kFromHelp = R"( --from=<source>
This option must be used at most once.
Source can be:
--from=device This is the default input. The input comes from the live monitoring of one or
several processes.
At least one of '--remote-pid', '--remote-name', '--remote-job-id',
'--remote-job-name, 'run' must be specified.
--from=<path> The input comes from a previously recorded session (protobuf format). Path gives
the name of the file to read. If path is '-' then the standard input is used.)";
const char* const kToHelp = R"( --to=<path>
Save the session using protobuf in the specified file. All events are
saved including the messages which have been filtered out by --messages
or --exclude-messages.)";
const char* const kFormatHelp = R"( --format=<output>
This option must be used at most once.
The output format can be:
--format=pretty The session is pretty printed (with colors).
This is the default output is --with is not used.
--format=json The session is printed using a json format.
--format=textproto The session is printed using a text protobuf format.
--format=none Nothing is displayed on the standard output (this option only makes sense
when used with --to=<path> or with --with).
When there is no output, fidlcat is much faster (this is better when you
want to monitor real time components).
This is the default output is --with is used.)";
const char* const kWithHelp = R"(These options can be used several times.
--with=summary
At the end of the session, a summary of the session is displayed on the standard output.
--with=summary=<path>
Like --with=summary but the result is stored into the file specified by <path>.
--with=top
At the end of the session, generate a view that groups the output by process, protocol, and
method. The groups are sorted by number of events, so groups with more associated events are
listed earlier.
--with=top=<path>
Like --with=top but the result is stored into the file specified by <path>.
--with=group-by-thread
Like For each thread, display a short version of all the events.
--with=group-by-thread=<path>
Like --with=group-by-thread but the result is stored into the file specified by <path>.)";
const char* const kCompareHelp = R"( --compare=<path>
Compare output with the one stored in the given file)";
const char* const kWithProcessInfoHelp = R"( --with-process-info
Display the process name, process id and thread id on each line.)";
const char* const kStayAlive = R"( --stay-alive
Don't quit fidlcat when all the monitored processes have ended. This allows to keep monitoring
upcoming process. At the end you have to use control-c to quit fidlcat. This is useful when
you monitor a process and restart this process.)";
const char* const kStackHelp = R"( --stack=<value>
The amount of stack frame to display:
- 0: no stack (default value)
- 1: call site (1 to 4 levels)
- 2: full stack frame (adds some overhead))";
const char* const kSyscallFilterHelp = R"( --syscalls
A regular expression which selects the syscalls to decode and display.
Can be passed multiple times.
By default, only zx_channel_.* syscalls are displayed.
To display all the syscalls, use: --syscalls=".*")";
const char* const kExcludeSyscallFilterHelp = R"( --exclude-syscalls
A regular expression which selects the syscalls to not decode and display.
Can be passed multiple times.
To be displayed, a syscall must verify --syscalls and not verify
--exclude-syscalls.
To display all the syscalls but the zx_handle syscalls, use:
--syscalls=".*" --exclude-syscalls="zx_handle_.*")";
const char* const kMessageFilterHelp = R"( --messages
A regular expression which selects the messages to display.
To display a message, the method name must satisfy the regexp.
This option can be specified multiple times.
Message filtering works on the method's fully qualified name.)";
const char* const kExcludeMessageFilterHelp = R"( --exclude-messages
A regular expression which selects the messages to not display.
If a message method name satisfy the regexp, the message is not displayed
(even if it satifies --messages).
This option can be specified multiple times.
Message filtering works on the method's fully qualified name.)";
const char* const kTriggerFilterHelp = R"( --trigger
Start displaying messages and syscalls only when a message for which the
method name satisfies the filter is found.
This option can be specified multiple times.
Message filtering works on the method's fully qualified name.)";
const char* const kThreadFilterHelp = R"( --thread
Only display the events for the specified thread.
This option can be specified multiple times to display several threads.
By default all the events are displayed.)";
const char* const kDumpMessagesHelp = R"( --dump-messages
Always display the message binary dump even if we can decode the message.
By default the dump is only displayed if we can't decode the message.)";
const char* const kColorsHelp = R"( --colors=[never|auto|always]
For pretty print, use colors:
- never
- auto: only if running in a terminal (default value)
- always)";
const char* const kColumnsHelp = R"( --columns=<size>
For pretty print, width of the display. By default, on a terminal, use
the terminal width.)";
const char* const kVerbosityHelp = R"( --verbose=<number or log level>
The log verbosity. Legal values are "info", "warning", "error", "fatal",
or a number, starting from 0. Extra verbosity comes with higher levels)";
const char* const kQuietHelp = R"( --quiet=<number or log level>
The log verbosity. Legal values are "info", "warning", "error", "fatal",
or a number, starting from 0. Extra verbosity comes with lower levels.)";
const char* const kLogFileHelp = R"( --log-file=<pathspec>
The name of a file to which the log should be written.)";
const char* const kRemotePidHelp = R"( --remote-pid
The koid of the remote process. Can be passed multiple times.)";
const char* const kRemoteNameHelp = R"( --remote-name=<name>
-f <name>
The name of a process. Fidlcat will monitor all existing and future
processes whose names includes <name> (<name> is a substring of the
process name).
Can be provided multiple times for multiple names.
When used with --remote-job-id or --remote-job-name, only the processes
from the selected jobs are taken into account.
For example:
--remote-name echo_client.*.cmx
--remote-name echo_client)";
const char* const kExtraNameHelp = R"( --extra-name=<regexp>
Like --remote-name, it monitors some processes. However, for these
processes, monitoring starts only when one of of the "--remote-name"
process is launched. Also, fidlcat stops when the last "--remote-name"
process stops (even if some "--extra-name" processes are still
monitored). You must specify at least one filter with --remote-name if
you use this option (without --remote-name, nothing would be displayed).)";
const char* const kRemoteJobIdHelp = R"( --remote-job-id
The koid of a remote job for which we want to monitor all the processes.
Can be provided multiple times for multiple jobs.
Only jobs created before fidlcat is launched are monitored.)";
const char* const kRemoteJobNameHelp = R"( The name of a remote job for which
we want to monitor all the processes. All the jobs which contain <name> in
their name are used.
Can be provided multiple times for multiple jobs.
Only jobs created before fidlcat is launched are monitored.)";
const char* const kHelpHelp = R"( --help
-h
Prints all command-line switches.)";
using ::analytics::core_dev_tools::kAnalyticsHelp;
using ::analytics::core_dev_tools::kAnalyticsShowHelp;
const char* const kVersionHelp = R"( --version
Prints the version.)";
// Sets the process log settings. The |level| is the value of the setting (as
// passed to --quiet or --verbose), |multiplier| is a value by which a numerical
// setting will be multiplied (basically, -1 for verbose and 1 for quiet), and
// |settings| contains the output.
bool SetLogSettings(const std::string& level, int multiplier, syslog::LogSettings* settings) {
if (level == "trace") {
settings->min_log_level = syslog::LOG_TRACE;
} else if (level == "debug") {
settings->min_log_level = syslog::LOG_DEBUG;
} else if (level == "info") {
settings->min_log_level = syslog::LOG_INFO;
} else if (level == "warning") {
settings->min_log_level = syslog::LOG_WARNING;
} else if (level == "error") {
settings->min_log_level = syslog::LOG_ERROR;
} else if (level == "fatal") {
settings->min_log_level = syslog::LOG_FATAL;
} else if (fxl::StringToNumberWithError(level, &settings->min_log_level)) {
settings->min_log_level =
syslog::LOG_INFO + static_cast<syslog::LogSeverity>(
(multiplier * (multiplier > 0 ? syslog::LogSeverityStepSize
: syslog::LogVerbosityStepSize)));
} else {
return false;
}
return true;
}
cmdline::Status ProcessLogOptions(const CommandLineOptions* options) {
syslog::LogSettings settings;
if (options->verbose) {
if (!SetLogSettings(*options->verbose, -1, &settings)) {
return cmdline::Status::Error("Unable to parse verbose setting \"" + *options->verbose +
"\"");
}
}
if (options->quiet) {
if (!SetLogSettings(*options->quiet, 1, &settings)) {
return cmdline::Status::Error("Unable to parse quiet setting \"" + *options->quiet + "\"");
}
}
if (options->log_file) {
settings.log_file = *options->log_file;
}
syslog::SetLogSettings(settings);
return cmdline::Status::Ok();
}
std::string ParseCommandLine(int argc, const char* argv[], CommandLineOptions* options,
DecodeOptions* decode_options, DisplayOptions* display_options,
std::vector<std::string>* params) {
using analytics::core_dev_tools::AnalyticsOption;
using analytics::core_dev_tools::ParseAnalyticsOption;
cmdline::ArgsParser<CommandLineOptions> parser;
// Debug agent options:
parser.AddSwitch("connect", 'r', kRemoteHostHelp, &CommandLineOptions::connect);
parser.AddSwitch("symbol-index", 0, kSymbolIndexHelp, &CommandLineOptions::symbol_index_files);
parser.AddSwitch("build-id-dir", 0, kBuildIdDirHelp, &CommandLineOptions::build_id_dirs);
parser.AddSwitch("symbol-server", 0, kSymbolServerHelp, &CommandLineOptions::symbol_servers);
parser.AddSwitch("symbol-path", 's', kSymbolPathHelp, &CommandLineOptions::symbol_paths);
parser.AddSwitch("symbol-cache", 0, kSymbolCacheHelp, &CommandLineOptions::symbol_cache);
// Fidlcat system options:
parser.AddSwitch("fidl-ir-path", 0, kFidlIrPathHelp, &CommandLineOptions::fidl_ir_paths);
parser.AddSwitch("ids-txt", 0, kIdsTxtHelp, &CommandLineOptions::ids_txts);
parser.AddSwitch("quit-agent-on-exit", 0, kQuitAgentOnExitHelp,
&CommandLineOptions::quit_agent_on_exit);
// Input option:
parser.AddSwitch("from", 0, kFromHelp, &CommandLineOptions::from);
// Session save option:
parser.AddSwitch("to", 0, kToHelp, &CommandLineOptions::to);
// Format (output) option:
parser.AddSwitch("format", 0, kFormatHelp, &CommandLineOptions::format);
// Extra generation:
parser.AddSwitch("with", 0, kWithHelp, &CommandLineOptions::extra_generation);
// Session comparison option:
parser.AddSwitch("compare", 'c', kCompareHelp, &CommandLineOptions::compare_file);
// Display options:
parser.AddSwitch("with-process-info", 0, kWithProcessInfoHelp,
&CommandLineOptions::with_process_info);
parser.AddSwitch("stay-alive", 0, kStayAlive, &CommandLineOptions::stay_alive);
parser.AddSwitch("stack", 0, kStackHelp, &CommandLineOptions::stack_level);
parser.AddSwitch("syscalls", 0, kSyscallFilterHelp, &CommandLineOptions::syscall_filters);
parser.AddSwitch("exclude-syscalls", 0, kExcludeSyscallFilterHelp,
&CommandLineOptions::exclude_syscall_filters);
parser.AddSwitch("messages", 0, kMessageFilterHelp, &CommandLineOptions::message_filters);
parser.AddSwitch("exclude-messages", 0, kExcludeMessageFilterHelp,
&CommandLineOptions::exclude_message_filters);
parser.AddSwitch("trigger", 0, kTriggerFilterHelp, &CommandLineOptions::trigger_filters);
parser.AddSwitch("thread", 0, kThreadFilterHelp, &CommandLineOptions::thread_filters);
parser.AddSwitch("dump-messages", 0, kDumpMessagesHelp, &CommandLineOptions::dump_messages);
parser.AddSwitch("colors", 0, kColorsHelp, &CommandLineOptions::colors);
parser.AddSwitch("columns", 0, kColumnsHelp, &CommandLineOptions::columns);
// Logging options:
parser.AddSwitch("verbose", 'v', kVerbosityHelp, &CommandLineOptions::verbose);
parser.AddSwitch("quiet", 'q', kQuietHelp, &CommandLineOptions::quiet);
parser.AddSwitch("log-file", 0, kLogFileHelp, &CommandLineOptions::log_file);
// Monitoring options:
parser.AddSwitch("remote-pid", 'p', kRemotePidHelp, &CommandLineOptions::remote_pid);
parser.AddSwitch("remote-name", 'f', kRemoteNameHelp, &CommandLineOptions::remote_name);
parser.AddSwitch("extra-name", 0, kExtraNameHelp, &CommandLineOptions::extra_name);
parser.AddSwitch("remote-job-id", 0, kRemoteJobIdHelp, &CommandLineOptions::remote_job_id);
parser.AddSwitch("remote-job-name", 0, kRemoteJobNameHelp, &CommandLineOptions::remote_job_name);
parser.AddSwitch("version", 0, kVersionHelp, &CommandLineOptions::requested_version);
parser.AddSwitch("analytics", 0, kAnalyticsHelp, &CommandLineOptions::analytics);
parser.AddSwitch("analytics-show", 0, kAnalyticsShowHelp, &CommandLineOptions::analytics_show);
bool requested_help = false;
parser.AddGeneralSwitch("help", 'h', kHelpHelp, [&requested_help]() { requested_help = true; });
cmdline::Status status = parser.Parse(argc, argv, options, params);
if (status.has_error()) {
return status.error_message();
}
if (options->requested_version) {
return "";
}
if (options->analytics_show || options->analytics == AnalyticsOption::kEnable ||
options->analytics == AnalyticsOption::kDisable) {
return "";
}
status = ProcessLogOptions(options);
if (status.has_error()) {
return status.error_message();
}
bool device = options->from.empty() || (options->from == "device");
bool watch = !options->remote_name.empty() || !options->remote_pid.empty() ||
!options->remote_job_name.empty() || !options->remote_job_id.empty() ||
(std::find(params->begin(), params->end(), "run") != params->end());
if (requested_help || (device && !watch) ||
(!options->extra_name.empty() && options->remote_name.empty())) {
return kHelpIntro + parser.GetHelp();
}
decode_options->stay_alive = options->stay_alive;
decode_options->stack_level = options->stack_level;
if (options->syscall_filters.empty()) {
regex_t r;
regcomp(&r, "zx_channel_.*", REG_EXTENDED);
decode_options->syscall_filters.emplace_back(std::make_unique<Regex>(r));
regcomp(&r, "zx_handle_close", REG_EXTENDED);
decode_options->syscall_filters.emplace_back(std::make_unique<Regex>(r));
regcomp(&r, "zx_handle_close_many", REG_EXTENDED);
decode_options->syscall_filters.emplace_back(std::make_unique<Regex>(r));
} else if ((options->syscall_filters.size() != 1) || (options->syscall_filters[0] != ".*")) {
for (const auto& filter : options->syscall_filters) {
regex_t r;
if (regcomp(&r, filter.c_str(), REG_EXTENDED) == 0) {
decode_options->syscall_filters.emplace_back(std::make_unique<Regex>(r));
} else {
return "Bad filter for --syscalls: " + filter;
}
}
}
for (const auto& filter : options->exclude_syscall_filters) {
regex_t r;
if (regcomp(&r, filter.c_str(), REG_EXTENDED) == 0) {
decode_options->exclude_syscall_filters.emplace_back(std::make_unique<Regex>(r));
} else {
return "Bad filter for --exclude-syscalls: " + filter;
}
}
for (const auto& filter : options->message_filters) {
regex_t r;
if (regcomp(&r, filter.c_str(), REG_EXTENDED) == 0) {
decode_options->message_filters.emplace_back(std::make_unique<Regex>(r));
} else {
return "Bad filter for --messages: " + filter;
}
}
for (const auto& filter : options->exclude_message_filters) {
regex_t r;
if (regcomp(&r, filter.c_str(), REG_EXTENDED) == 0) {
decode_options->exclude_message_filters.emplace_back(std::make_unique<Regex>(r));
} else {
return "Bad filter for --exclude-messages: " + filter;
}
}
for (const auto& filter : options->trigger_filters) {
regex_t r;
if (regcomp(&r, filter.c_str(), REG_EXTENDED) == 0) {
decode_options->trigger_filters.emplace_back(std::make_unique<Regex>(r));
} else {
return "Bad filter for --trigger: " + filter;
}
}
for (const auto& filter : options->thread_filters) {
decode_options->thread_filters.emplace_back(static_cast<zx_koid_t>(std::stol(filter)));
}
decode_options->save = options->to;
display_options->with_process_info = options->with_process_info;
struct winsize term_size;
term_size.ws_col = 0;
int ioctl_result = ioctl(STDOUT_FILENO, TIOCGWINSZ, &term_size);
if (options->columns == 0) {
display_options->columns = term_size.ws_col;
display_options->columns = std::max(display_options->columns, kMinColumns);
} else {
display_options->columns = options->columns;
}
display_options->dump_messages = options->dump_messages;
if (!options->from.empty() && (options->from != "device")) {
decode_options->input_mode = InputMode::kFile;
}
if ((!options->format.has_value() && options->extra_generation.empty()) ||
(options->format.has_value() && (options->format.value() == "pretty"))) {
decode_options->output_mode = OutputMode::kStandard;
display_options->pretty_print = true;
display_options->needs_colors =
((options->colors == "always") || ((options->colors == "auto") && (ioctl_result != -1))) &&
!(options->compare_file.has_value());
} else if (options->format.has_value()) {
if (options->format.value() == "json") {
decode_options->output_mode = OutputMode::kStandard;
} else if (options->format.value() == "textproto") {
decode_options->output_mode = OutputMode::kTextProtobuf;
} else if (options->format.value() == "none") {
} else {
return "Invalid format " + options->format.value() + " for option --format.";
}
}
display_options->extra_generation_needs_colors =
((options->colors == "always") || ((options->colors == "auto") && (ioctl_result != -1)));
for (const auto& extra_generation : options->extra_generation) {
if (extra_generation == "summary") {
display_options->AddExtraGeneration(ExtraGeneration::Kind::kSummary, "");
} else if (extra_generation.find("summary=") == 0) {
display_options->AddExtraGeneration(ExtraGeneration::Kind::kSummary,
extra_generation.substr(8));
} else if (extra_generation == "top") {
display_options->AddExtraGeneration(ExtraGeneration::Kind::kTop, "");
} else if (extra_generation.find("top=") == 0) {
display_options->AddExtraGeneration(ExtraGeneration::Kind::kTop, extra_generation.substr(4));
} else if (extra_generation == "generate-tests") {
display_options->AddExtraGeneration(ExtraGeneration::Kind::kCpp, "");
} else if (extra_generation.find("generate-tests=") == 0) {
display_options->AddExtraGeneration(ExtraGeneration::Kind::kCpp, extra_generation.substr(15));
} else if (extra_generation == "group-by-thread") {
display_options->AddExtraGeneration(ExtraGeneration::Kind::kThreads, "");
} else if (extra_generation.find("group-by-thread=") == 0) {
display_options->AddExtraGeneration(ExtraGeneration::Kind::kThreads,
extra_generation.substr(16));
} else {
return "Invalid generation " + extra_generation + " for option --with.";
}
}
return "";
}
namespace {
bool EndsWith(const std::string& value, const std::string& suffix) {
if (suffix.size() > value.size()) {
return false;
}
return std::equal(suffix.rbegin(), suffix.rend(), value.rbegin());
}
} // namespace
void ExpandFidlPathsFromOptions(std::vector<std::string> cli_ir_paths,
std::vector<std::string>& paths,
std::vector<std::string>& bad_paths) {
// Strip out argfiles before doing path processing.
for (int64_t i = cli_ir_paths.size() - 1; i >= 0; i--) {
std::string& path = cli_ir_paths[i];
if (path.compare(0, 1, "@") == 0) {
std::filesystem::path real_path(path.substr(1));
auto enclosing_directory = real_path.parent_path();
std::string file = path.substr(1);
cli_ir_paths.erase(cli_ir_paths.begin() + i);
std::ifstream infile(file, std::ifstream::in);
if (!infile.good()) {
bad_paths.push_back(file);
continue;
}
std::string jsonfile_path;
while (infile >> jsonfile_path) {
if (std::filesystem::path(jsonfile_path).is_relative()) {
jsonfile_path = enclosing_directory.string() +
std::filesystem::path::preferred_separator + jsonfile_path;
}
paths.push_back(jsonfile_path);
}
}
}
std::set<std::string> checked_dirs;
// Repeat until cli_ir_paths is empty:
// If it is a directory, add the directory contents to the cli_ir_paths.
// If it is a .fidl.json file, add it to |paths|.
while (!cli_ir_paths.empty()) {
std::string current_string = cli_ir_paths.back();
cli_ir_paths.pop_back();
std::filesystem::path current_path = current_string;
if (std::filesystem::is_directory(current_path)) {
for (auto& dir_ent : std::filesystem::directory_iterator(current_path)) {
std::string ent_name = dir_ent.path().string();
if (std::filesystem::is_directory(ent_name)) {
auto found = checked_dirs.find(ent_name);
if (found == checked_dirs.end()) {
checked_dirs.insert(ent_name);
cli_ir_paths.push_back(ent_name);
}
} else if (EndsWith(ent_name, ".fidl.json")) {
paths.push_back(dir_ent.path());
}
}
} else if (std::filesystem::is_regular_file(current_path) &&
EndsWith(current_string, ".fidl.json")) {
paths.push_back(current_string);
} else {
bad_paths.push_back(current_string);
}
}
}
} // namespace fidlcat