/usr/include/bobcat/process is in libbobcat-dev 3.19.01-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#define INCLUDED_BOBCAT_PROCESS_
#include <string>
#include <ostream>
#include <istream>
#include <bobcat/fork>
#include <bobcat/string>
#include <bobcat/pipe>
#include <bobcat/selector>
#include <bobcat/ifdstreambuf>
#include <bobcat/ofdstreambuf>
#include <bobcat/iostream>
#include <bobcat/processenums>
#if defined(__FreeBSD_kernel__) || defined(__FreeBSD__)
#ifndef BOBCAT_DIY_CLOEXEC_
#define BOBCAT_DIY_CLOEXEC_
#endif
#endif
namespace FBB
{
struct ProcessData;
struct Process: private Fork, public IOStream, public ProcessEnums
{
friend Process &operator|(Process &lhs, Process &rhs);
enum ProcessType
{
NO_PATH,
USE_PATH,
USE_SHELL
};
private:
bool d_active;
IOMode d_mode;
size_t d_timeLimit; // seconds allowed to child-process
ProcessType d_processType;
IOMode d_setMode; // these values are set by the
size_t d_setTimeLimit; // set members and used as
ProcessType d_setProcessType; // defaults unless overridden by
// actual values
// Constructors set these values
// too.
std::string d_command;
Pipe d_oChildInPipe; // cin read by the CHILD
Pipe d_iChildOutPipe; // cout written by the CHILD
Pipe d_iChildErrPipe; // cerr written by the CHILD
OFdStreambuf d_oChildInbuf; // Child extracts,
IFdStreambuf d_iChildOutbuf; // Child inserts,
IFdStreambuf d_iChildErrbuf; // Child inserts
std::ostream d_oChildIn; // Parent inserts to child's cin
std::istream d_iChildOut; // Parent extracts child's cout
std::istream d_iChildErr; // Parent extracts child's cerr
Selector d_selector; // senses activities on Child's
// out/err streams
struct RetPid
{
int ret;
pid_t pid;
RetPid(); // 1.f
};
RetPid d_child;
ProcessData *d_data;
char d_notUsed[sizeof(RetPid) - sizeof(ProcessData *)];
#ifdef BOBCAT_DIY_CLOEXEC_
int d_closedByChild = 0; // DIY CLOSE_ON_EXEC
#endif
public:
explicit Process(std::string const &command = ""); // 1
explicit Process(size_t iomode, std::string const &command = ""); // 2
Process(size_t mode, ProcessType type, // 3
std::string const &command = "");
Process(size_t mode, ProcessType type, size_t timeLimit, // 4
std::string const &command = "");
Process(IOMode mode, ProcessType type, size_t timeLimit, // 5
size_t bufSize, std::string const &command = "");
Process(Process const &other) = delete;
~Process() override; // stop()s any ongoing process
Process &operator=(Process const &other) = delete;
size_t bufSize() const; // returns current buffer size
IOMode ioMode() const; // returns default IOMode .f
ProcessType processType() const; // returns default ProcessType .f
size_t timeLimit() const; // returns default time limit .f
void setBufSize(size_t bufSize);
void setIOMode(IOMode mode); // change IOMode .f
void setProcessType(ProcessType type); // .f
void setTimeLimit(size_t timeLimit); // .f
// for the next cmd to start
// 0 means: no time monitor
void setCommand(std::string const &command); // sets cmd, .f
Process &operator+=(std::string const &text); // opaddis.f
// adds to the command
void start(); // 1.f
void start(IOMode mode); // 2.f
void start(IOMode mode, ProcessType type); // 3.f
void start(size_t mode, ProcessType type, size_t timeLimit); // 1
void start(IOMode mode, ProcessType type, // 2
size_t timeLimit, size_t bufSize);
void system(); // calls /bin/sh -c cmd; 1.f
// shell redirs OK
void system(IOMode mode); // 2.f
void system(IOMode mode, size_t timeLimit); // 3.f
void system(IOMode mode, size_t timeLimit, size_t bufSize); // 4.f
int operator=(std::string const &cmd); // sets and starts a command
std::string const &str() const; // current command .f
template <typename Type>
Process &operator<<(Type const &value); // opinsert.f
Process &operator<<(std::ostream &(*pf)(std::ostream &));
template <typename Type>
Process &operator>>(Type &value); // opextract.f
int stop(); // terminate a running childprocess
void close(); // closes input to the child
void eoi(); // closes input and waits for
// the child to end
using Fork::waitForChild;
bool active();
Process &operator()(IOMode mode); // opfun1.f
Process &operator()(IOMode mode, ProcessType type); // opfun2.f
// operatorfun1.cc
Process &operator()(size_t mode, ProcessType type, size_t timeLimit);
Process &operator()(IOMode mode, ProcessType type, // operatorfun2.cc
size_t timeLimit, size_t bufSize);
std::istream &childErrStream(); // READ cerr from the child
std::istream &cerr(); // same, but deprecated
std::istream &childOutStream(); // .f
// READ cout from the child
// (also: direct through
// extraction)
size_t available(); // returns ChildOutput bit_or
// (cf. manpage)
void showMode(char const *lab) const;
private:
void childProcess() override;
void childRedirections() override;
void parentProcess() override;
void parentRedirections() override;
void newPipe(Pipe &pipe);
pid_t discontinue(RetPid &proc);
ChildOutput whichStream();
void close(int fd);
void closeWriteFd(Pipe &pipe);
void closeReadFd(Pipe &pipe);
void rmBackticks();
void forking();
IOMode sanitizeIOMode(IOMode mode);
void newPipes();
void closeChildInputOnExec();
typedef std::string::const_iterator ConstIter;
struct ExecContext;
ExecContext analyzeCommand();
static void limiter(Process *process);
};
inline std::istream &Process::childOutStream()
{
return static_cast<std::istream &>(*this);
}
inline std::ostream &eoi(std::ostream &str)
{
return str;
}
inline void Process::eoi()
{
*this << FBB::eoi;
}
inline Process::IOMode Process::ioMode() const
{
return d_mode & ~(IN_PIPE | OUT_PIPE | CLOSE_ON_EXEC);
}
inline Process &Process::operator+=(std::string const &command)
{
d_command += command;
return *this;
}
template <typename Type>
Process &Process::operator>>(Type &value)
{
if ((available() & CHILD_COUT) || active())
dynamic_cast<std::istream &>(*this) >> value;
return *this;
}
inline Process &Process::operator()(IOMode mode)
{
return operator()(mode, d_setProcessType, d_setTimeLimit);
}
inline Process &Process::operator()(IOMode mode, ProcessType type)
{
return operator()(mode & ~(IN_PIPE | OUT_PIPE | CLOSE_ON_EXEC),
type, d_setTimeLimit);
}
template <typename Type>
Process &Process::operator<<(Type const &value)
{
if (active())
dynamic_cast<std::ostream &>(*this) << value;
return *this;
}
inline Process::ProcessType Process::processType() const
{
return d_setProcessType;
}
inline void Process::setCommand(std::string const &command)
{
d_command = command;
}
inline void Process::setIOMode(IOMode mode)
{
d_setMode = sanitizeIOMode(mode);
}
inline void Process::setProcessType(ProcessType type)
{
d_setProcessType = d_processType = type;
}
inline void Process::setTimeLimit(size_t timeLimit)
{
d_setTimeLimit = d_timeLimit = timeLimit;
}
inline void Process::start()
{
start(d_setMode, d_setProcessType, d_setTimeLimit);
}
inline void Process::start(IOMode mode)
{
start(mode & ~(IN_PIPE | OUT_PIPE | CLOSE_ON_EXEC),
d_setProcessType, d_setTimeLimit);
}
inline void Process::start(IOMode mode, ProcessType type)
{
start(mode & ~(IN_PIPE | OUT_PIPE | CLOSE_ON_EXEC), type, d_setTimeLimit);
}
inline std::string const &Process::str() const
{
return d_command;
}
inline void Process::system()
{
start(d_mode, USE_SHELL, d_timeLimit, bufSize());
}
inline void Process::system(IOMode mode)
{
start(mode, USE_SHELL, d_timeLimit, bufSize());
}
inline void Process::system(IOMode mode, size_t timeLimit)
{
start(mode, USE_SHELL, timeLimit, bufSize());
}
inline void Process::system(IOMode mode, size_t timeLimit, size_t bufSize)
{
start(mode, USE_SHELL, timeLimit, bufSize);
}
inline size_t Process::timeLimit() const
{
return d_setTimeLimit;
}
} // FBB
#endif
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