polybar/include/utils/command.hpp

#pragma once

#include <functional>
#include <memory>
#include <mutex>
#include <stdexcept>
#include <string>

#include "common.hpp"
#include "components/logger.hpp"
#include "utils/io.hpp"
#include "utils/process.hpp"
#include "utils/threading.hpp"

LEMONBUDDY_NS

namespace command_util {
  /**
   * Example usage:
   * @code cpp
   *   auto cmd = make_unique<Command>("cat /etc/rc.local");
   *   cmd->exec();
   *   cmd->tail(callback); //---> the contents of /etc/rc.local is sent to callback()
   *
   *   auto cmd = make_unique<Command>(
   *    "/bin/sh\n-c\n while read -r line; do echo data from parent process: $line; done");
   *   cmd->exec();
   *   cmd->writeline("Test");
   *   cout << cmd->readline(); //---> data from parent process: Test
   *
   *   auto cmd = make_unique<Command>("/bin/sh\n-c\nfor i in 1 2 3; do echo $i; done");
   *   cout << cmd->readline(); //---> 1
   *   cout << cmd->readline() << cmd->readline(); //---> 23
   * @encode
   */
  class command {
   public:
    explicit command(const logger& logger, string cmd, int out[2] = nullptr, int in[2] = nullptr)
        : m_log(logger), m_cmd(cmd) {
      if (in != nullptr) {
        m_stdin[PIPE_READ] = in[PIPE_READ];
        m_stdin[PIPE_WRITE] = in[PIPE_WRITE];
      } else if (pipe(m_stdin) != 0) {
        throw system_error("Failed to allocate pipe");
      }

      if (out != nullptr) {
        m_stdout[PIPE_READ] = out[PIPE_READ];
        m_stdout[PIPE_WRITE] = out[PIPE_WRITE];
      } else if (pipe(m_stdout) != 0) {
        close(m_stdin[PIPE_READ]);
        close(m_stdin[PIPE_WRITE]);
        throw system_error("Failed to allocate pipe");
      }
    }

    ~command() {
      if (is_running()) {
        m_log.warn("command: Sending SIGKILL to forked process (%d)", m_forkpid);
        kill(m_forkpid, SIGKILL);
      }
      if (m_stdin[PIPE_READ] > 0 && (close(m_stdin[PIPE_READ]) == -1))
        m_log.err("command: Failed to close fd: %s (%d)", strerror(errno), errno);
      if (m_stdin[PIPE_WRITE] > 0 && (close(m_stdin[PIPE_WRITE]) == -1))
        m_log.err("command: Failed to close fd: %s (%d)", strerror(errno), errno);
      if (m_stdout[PIPE_READ] > 0 && (close(m_stdout[PIPE_READ]) == -1))
        m_log.err("command: Failed to close fd: %s (%d)", strerror(errno), errno);
      if (m_stdout[PIPE_WRITE] > 0 && (close(m_stdout[PIPE_WRITE]) == -1))
        m_log.err("command: Failed to close fd: %s (%d)", strerror(errno), errno);
    }

    /**
     * Execute the command
     */
    int exec(bool wait_for_completion = true) {
      if ((m_forkpid = fork()) == -1)
        throw system_error("Failed to fork process");

      if (process_util::in_forked_process(m_forkpid)) {
        if (dup2(m_stdin[PIPE_READ], STDIN_FILENO) == -1)
          throw system_error("Failed to redirect stdin in child process");
        if (dup2(m_stdout[PIPE_WRITE], STDOUT_FILENO) == -1)
          throw system_error("Failed to redirect stdout in child process");
        if (dup2(m_stdout[PIPE_WRITE], STDERR_FILENO) == -1)
          throw system_error("Failed to redirect stderr in child process");

        // Close file descriptors that won't be used by forked process
        if ((m_stdin[PIPE_READ] = close(m_stdin[PIPE_READ])) == -1)
          throw system_error("Failed to close fd");
        if ((m_stdin[PIPE_WRITE] = close(m_stdin[PIPE_WRITE])) == -1)
          throw system_error("Failed to close fd");
        if ((m_stdout[PIPE_READ] = close(m_stdout[PIPE_READ])) == -1)
          throw system_error("Failed to close fd");
        if ((m_stdout[PIPE_WRITE] = close(m_stdout[PIPE_WRITE])) == -1)
          throw system_error("Failed to close fd");

        // Replace the forked process with the given command
        process_util::exec(m_cmd);
        std::exit(0);
      } else {
        // Close file descriptors that won't be used by parent process
        if ((m_stdin[PIPE_READ] = close(m_stdin[PIPE_READ])) == -1)
          throw system_error("Failed to close fd");
        if ((m_stdout[PIPE_WRITE] = close(m_stdout[PIPE_WRITE])) == -1)
          throw system_error("Failed to close fd");

        if (wait_for_completion)
          return wait();
      }

      return EXIT_SUCCESS;
    }

    /**
     * Wait for the child processs to finish
     */
    int wait() {
      do {
        pid_t pid;

        if ((pid = process_util::wait_for_completion(
                 m_forkpid, &m_forkstatus, WCONTINUED | WUNTRACED)) == -1) {
          throw system_error(
              "Process did not finish successfully (" + to_string(m_forkstatus) + ")");
        }

        if (WIFEXITED(m_forkstatus))
          m_log.trace("command: Exited with status %d", WEXITSTATUS(m_forkstatus));
        else if (WIFSIGNALED(m_forkstatus))
          m_log.trace("command: Got killed by signal %d (%s)", WTERMSIG(m_forkstatus),
              strerror(WTERMSIG(m_forkstatus)));
        else if (WIFSTOPPED(m_forkstatus))
          m_log.trace("command: Stopped by signal %d (%s)", WSTOPSIG(m_forkstatus),
              strerror(WSTOPSIG(m_forkstatus)));
        else if (WIFCONTINUED(m_forkstatus) == true)
          m_log.trace("command: Continued");
      } while (!WIFEXITED(m_forkstatus) && !WIFSIGNALED(m_forkstatus));

      return m_forkstatus;
    }

    /**
     * Tail command output
     */
    void tail(function<void(string)> callback) {
      io_util::tail(m_stdout[PIPE_READ], callback);
    }

    /**
     * Write line to command input channel
     */
    int writeline(string data) {
      std::lock_guard<threading_util::spin_lock> lck(m_pipelock);
      return io_util::writeline(m_stdin[PIPE_WRITE], data);
    }

    /**
     * Get command output channel
     */
    int get_stdout(int c) {
      return m_stdout[c];
    }

    /**
     * Get command input channel
     */
    int get_stdin(int c) {
      return m_stdin[c];
    }

    /**
     * Get command pid
     */
    pid_t get_pid() {
      return m_forkpid;
    }

    /**
     * Check if command is running
     */
    bool is_running() {
      return process_util::wait_for_completion_nohang(m_forkpid, &m_forkstatus) > -1;
    }

    /**
     * Get command exit status
     */
    int get_exit_status() {
      return m_forkstatus;
    }

   protected:
    const logger& m_log;

    string m_cmd;

    int m_stdout[2];
    int m_stdin[2];

    pid_t m_forkpid;
    int m_forkstatus;

    threading_util::spin_lock m_pipelock;
  };

  template <typename... Args>
  auto make_command(Args&&... args) {
    return make_unique<command>(
        logger::configure().create<const logger&>(), forward<Args>(args)...);
  }
}

LEMONBUDDY_NS_END
refactor: Application rewrite 2016-06-14 23:32:35 -04:00			`#pragma once`

			`#include <functional>`
			`#include <memory>`
			`#include <mutex>`
			`#include <stdexcept>`
			`#include <string>`

			`#include "common.hpp"`
			`#include "components/logger.hpp"`
			`#include "utils/io.hpp"`
			`#include "utils/process.hpp"`
			`#include "utils/threading.hpp"`

			`LEMONBUDDY_NS`

			`namespace command_util {`
			`/**`
			`* Example usage:`
			`* @code cpp`
			`* auto cmd = make_unique<Command>("cat /etc/rc.local");`
			`* cmd->exec();`
			`* cmd->tail(callback); //---> the contents of /etc/rc.local is sent to callback()`
			`*`
			`* auto cmd = make_unique<Command>(`
			`* "/bin/sh\n-c\n while read -r line; do echo data from parent process: $line; done");`
			`* cmd->exec();`
			`* cmd->writeline("Test");`
			`* cout << cmd->readline(); //---> data from parent process: Test`
			`*`
			`* auto cmd = make_unique<Command>("/bin/sh\n-c\nfor i in 1 2 3; do echo $i; done");`
			`* cout << cmd->readline(); //---> 1`
			`* cout << cmd->readline() << cmd->readline(); //---> 23`
			`* @encode`
			`*/`
			`class command {`
			`public:`
			`explicit command(const logger& logger, string cmd, int out[2] = nullptr, int in[2] = nullptr)`
			`: m_log(logger), m_cmd(cmd) {`
			`if (in != nullptr) {`
			`m_stdin[PIPE_READ] = in[PIPE_READ];`
			`m_stdin[PIPE_WRITE] = in[PIPE_WRITE];`
			`} else if (pipe(m_stdin) != 0) {`
			`throw system_error("Failed to allocate pipe");`
			`}`

			`if (out != nullptr) {`
			`m_stdout[PIPE_READ] = out[PIPE_READ];`
			`m_stdout[PIPE_WRITE] = out[PIPE_WRITE];`
			`} else if (pipe(m_stdout) != 0) {`
			`close(m_stdin[PIPE_READ]);`
			`close(m_stdin[PIPE_WRITE]);`
			`throw system_error("Failed to allocate pipe");`
			`}`
			`}`

			`~command() {`
			`if (is_running()) {`
			`m_log.warn("command: Sending SIGKILL to forked process (%d)", m_forkpid);`
			`kill(m_forkpid, SIGKILL);`
			`}`
			`if (m_stdin[PIPE_READ] > 0 && (close(m_stdin[PIPE_READ]) == -1))`
			`m_log.err("command: Failed to close fd: %s (%d)", strerror(errno), errno);`
			`if (m_stdin[PIPE_WRITE] > 0 && (close(m_stdin[PIPE_WRITE]) == -1))`
			`m_log.err("command: Failed to close fd: %s (%d)", strerror(errno), errno);`
			`if (m_stdout[PIPE_READ] > 0 && (close(m_stdout[PIPE_READ]) == -1))`
			`m_log.err("command: Failed to close fd: %s (%d)", strerror(errno), errno);`
			`if (m_stdout[PIPE_WRITE] > 0 && (close(m_stdout[PIPE_WRITE]) == -1))`
			`m_log.err("command: Failed to close fd: %s (%d)", strerror(errno), errno);`
			`}`

			`/**`
			`* Execute the command`
			`*/`
			`int exec(bool wait_for_completion = true) {`
			`if ((m_forkpid = fork()) == -1)`
			`throw system_error("Failed to fork process");`

			`if (process_util::in_forked_process(m_forkpid)) {`
			`if (dup2(m_stdin[PIPE_READ], STDIN_FILENO) == -1)`
			`throw system_error("Failed to redirect stdin in child process");`
			`if (dup2(m_stdout[PIPE_WRITE], STDOUT_FILENO) == -1)`
			`throw system_error("Failed to redirect stdout in child process");`
			`if (dup2(m_stdout[PIPE_WRITE], STDERR_FILENO) == -1)`
			`throw system_error("Failed to redirect stderr in child process");`

			`// Close file descriptors that won't be used by forked process`
			`if ((m_stdin[PIPE_READ] = close(m_stdin[PIPE_READ])) == -1)`
			`throw system_error("Failed to close fd");`
			`if ((m_stdin[PIPE_WRITE] = close(m_stdin[PIPE_WRITE])) == -1)`
			`throw system_error("Failed to close fd");`
			`if ((m_stdout[PIPE_READ] = close(m_stdout[PIPE_READ])) == -1)`
			`throw system_error("Failed to close fd");`
			`if ((m_stdout[PIPE_WRITE] = close(m_stdout[PIPE_WRITE])) == -1)`
			`throw system_error("Failed to close fd");`

			`// Replace the forked process with the given command`
			`process_util::exec(m_cmd);`
			`std::exit(0);`
			`} else {`
			`// Close file descriptors that won't be used by parent process`
			`if ((m_stdin[PIPE_READ] = close(m_stdin[PIPE_READ])) == -1)`
			`throw system_error("Failed to close fd");`
			`if ((m_stdout[PIPE_WRITE] = close(m_stdout[PIPE_WRITE])) == -1)`
			`throw system_error("Failed to close fd");`

			`if (wait_for_completion)`
			`return wait();`
			`}`

			`return EXIT_SUCCESS;`
			`}`

			`/**`
			`* Wait for the child processs to finish`
			`*/`
			`int wait() {`
			`do {`
			`pid_t pid;`

			`if ((pid = process_util::wait_for_completion(`
			`m_forkpid, &m_forkstatus, WCONTINUED \| WUNTRACED)) == -1) {`
			`throw system_error(`
			`"Process did not finish successfully (" + to_string(m_forkstatus) + ")");`
			`}`

			`if (WIFEXITED(m_forkstatus))`
			`m_log.trace("command: Exited with status %d", WEXITSTATUS(m_forkstatus));`
			`else if (WIFSIGNALED(m_forkstatus))`
			`m_log.trace("command: Got killed by signal %d (%s)", WTERMSIG(m_forkstatus),`
			`strerror(WTERMSIG(m_forkstatus)));`
			`else if (WIFSTOPPED(m_forkstatus))`
			`m_log.trace("command: Stopped by signal %d (%s)", WSTOPSIG(m_forkstatus),`
			`strerror(WSTOPSIG(m_forkstatus)));`
			`else if (WIFCONTINUED(m_forkstatus) == true)`
			`m_log.trace("command: Continued");`
			`} while (!WIFEXITED(m_forkstatus) && !WIFSIGNALED(m_forkstatus));`

			`return m_forkstatus;`
			`}`

			`/**`
			`* Tail command output`
			`*/`
			`void tail(function<void(string)> callback) {`
			`io_util::tail(m_stdout[PIPE_READ], callback);`
			`}`

			`/**`
			`* Write line to command input channel`
			`*/`
			`int writeline(string data) {`
			`std::lock_guard<threading_util::spin_lock> lck(m_pipelock);`
			`return io_util::writeline(m_stdin[PIPE_WRITE], data);`
			`}`

			`/**`
			`* Get command output channel`
			`*/`
			`int get_stdout(int c) {`
			`return m_stdout[c];`
			`}`

			`/**`
			`* Get command input channel`
			`*/`
			`int get_stdin(int c) {`
			`return m_stdin[c];`
			`}`

			`/**`
			`* Get command pid`
			`*/`
			`pid_t get_pid() {`
			`return m_forkpid;`
			`}`

			`/**`
			`* Check if command is running`
			`*/`
			`bool is_running() {`
			`return process_util::wait_for_completion_nohang(m_forkpid, &m_forkstatus) > -1;`
			`}`

			`/**`
			`* Get command exit status`
			`*/`
			`int get_exit_status() {`
			`return m_forkstatus;`
			`}`

			`protected:`
			`const logger& m_log;`

			`string m_cmd;`

			`int m_stdout[2];`
			`int m_stdin[2];`

			`pid_t m_forkpid;`
			`int m_forkstatus;`

			`threading_util::spin_lock m_pipelock;`
			`};`

			`template <typename... Args>`
			`auto make_command(Args&&... args) {`
			`return make_unique<command>(`
			`logger::configure().create<const logger&>(), forward<Args>(args)...);`
			`}`
			`}`

			`LEMONBUDDY_NS_END`