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8fee91db34
freebsd-skq/tools/process.hpp
Julio Merino 8fee91db34 Import atf-0.19: 
Experimental version released on February 7th, 2014.

This is the last release to bundle the code for the deprecated tools.
The next release will drop their code and will stop worrying about
backwards compatibility between the ATF libraries and what the old tools
may or may not support.

If you still require the old tools for some reason, grab a copy of the
'tools' directory now.  The code in this directory is standalone and
does not depend on any internal details of atf-c++ any longer.

* Various fixes and improvements to support running as part of the FreeBSD
  test suite.

* Project hosting moved from Google Code (as a subproject of Kyua) to
  GitHub (as a first-class project).  The main reason for the change is
  the suppression of binary downloads in Google Code on Jan 15th, 2014.
  See https://github.com/jmmv/atf/

* Removed builtin help from atf-sh(1) and atf-check(1) for simplicity
  reasons.  In other words, their -h option is gone.

* Moved the code of the deprecated tools into a 'tools' directory and
  completely decoupled their code from the internals of atf-c++.  The
  reason for this is to painlessly allow a third-party to maintain a
  copy of these tools after we delete them because upcoming changes to
  atf-c++ would break the stale tools.
2014-02-14 14:41:25 +00:00

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//
// Automated Testing Framework (atf)
//
// Copyright (c) 2008 The NetBSD Foundation, Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
// 1. Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// 2. Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND
// CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
// INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
// IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS BE LIABLE FOR ANY
// DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
// IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
// OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
// IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
#if !defined(TOOLS_PROCESS_HPP)
#define TOOLS_PROCESS_HPP
extern "C" {
#include <sys/types.h>
#include <unistd.h>
}
#include <cerrno>
#include <cstdlib>
#include <iostream>
#include <string>
#include <vector>
#include "auto_array.hpp"
#include "exceptions.hpp"
#include "fs.hpp"
namespace tools {
namespace process {
class child;
class status;
// ------------------------------------------------------------------------
// The "argv_array" type.
// ------------------------------------------------------------------------
class argv_array {
typedef std::vector< std::string > args_vector;
args_vector m_args;
// TODO: This is immutable, so we should be able to use
// std::tr1::shared_array instead when it becomes widely available.
// The reason would be to remove all copy constructors and assignment
// operators from this class.
auto_array< const char* > m_exec_argv;
void ctor_init_exec_argv(void);
public:
typedef args_vector::const_iterator const_iterator;
typedef args_vector::size_type size_type;
argv_array(void);
argv_array(const char*, ...);
explicit argv_array(const char* const*);
template< class C > explicit argv_array(const C&);
argv_array(const argv_array&);
const char* const* exec_argv(void) const;
size_type size(void) const;
const char* operator[](int) const;
const_iterator begin(void) const;
const_iterator end(void) const;
argv_array& operator=(const argv_array&);
};
template< class C >
argv_array::argv_array(const C& c)
{
for (typename C::const_iterator iter = c.begin(); iter != c.end();
iter++)
m_args.push_back(*iter);
ctor_init_exec_argv();
}
// ------------------------------------------------------------------------
// The "stream" types.
// ------------------------------------------------------------------------
class stream_capture {
int m_pipefds[2];
// Allow access to the getters.
template< class OutStream, class ErrStream > friend
child fork(void (*)(void*), OutStream, ErrStream, void*);
template< class OutStream, class ErrStream > friend
status exec(const tools::fs::path&, const argv_array&,
const OutStream&, const ErrStream&, void (*)(void));
void prepare(void);
int connect_parent(void);
void connect_child(const int);
public:
stream_capture(void);
~stream_capture(void);
};
class stream_connect {
int m_src_fd;
int m_tgt_fd;
// Allow access to the getters.
template< class OutStream, class ErrStream > friend
child fork(void (*)(void*), OutStream, ErrStream, void*);
template< class OutStream, class ErrStream > friend
status exec(const tools::fs::path&, const argv_array&,
const OutStream&, const ErrStream&, void (*)(void));
void prepare(void);
int connect_parent(void);
void connect_child(const int);
public:
stream_connect(const int, const int);
};
class stream_inherit {
// Allow access to the getters.
template< class OutStream, class ErrStream > friend
child fork(void (*)(void*), OutStream, ErrStream, void*);
template< class OutStream, class ErrStream > friend
status exec(const tools::fs::path&, const argv_array&,
const OutStream&, const ErrStream&, void (*)(void));
void prepare(void);
int connect_parent(void);
void connect_child(const int);
public:
stream_inherit(void);
};
class stream_redirect_fd {
int m_fd;
// Allow access to the getters.
template< class OutStream, class ErrStream > friend
child fork(void (*)(void*), OutStream, ErrStream, void*);
template< class OutStream, class ErrStream > friend
status exec(const tools::fs::path&, const argv_array&,
const OutStream&, const ErrStream&, void (*)(void));
void prepare(void);
int connect_parent(void);
void connect_child(const int);
public:
stream_redirect_fd(const int);
};
class stream_redirect_path {
const tools::fs::path m_path;
// Allow access to the getters.
template< class OutStream, class ErrStream > friend
child fork(void (*)(void*), OutStream, ErrStream, void*);
template< class OutStream, class ErrStream > friend
status exec(const tools::fs::path&, const argv_array&,
const OutStream&, const ErrStream&, void (*)(void));
void prepare(void);
int connect_parent(void);
void connect_child(const int);
public:
stream_redirect_path(const tools::fs::path&);
};
// ------------------------------------------------------------------------
// The "status" type.
// ------------------------------------------------------------------------
class status {
int m_status;
friend class child;
template< class OutStream, class ErrStream > friend
status exec(const tools::fs::path&, const argv_array&,
const OutStream&, const ErrStream&, void (*)(void));
status(int);
public:
~status(void);
bool exited(void) const;
int exitstatus(void) const;
bool signaled(void) const;
int termsig(void) const;
bool coredump(void) const;
};
// ------------------------------------------------------------------------
// The "child" type.
// ------------------------------------------------------------------------
class child {
pid_t m_pid;
int m_stdout;
int m_stderr;
bool m_waited;
template< class OutStream, class ErrStream > friend
child fork(void (*)(void*), OutStream, ErrStream, void*);
child(const pid_t, const int, const int);
public:
~child(void);
status wait(void);
pid_t pid(void) const;
int stdout_fd(void);
int stderr_fd(void);
};
// ------------------------------------------------------------------------
// Free functions.
// ------------------------------------------------------------------------
namespace detail {
void flush_streams(void);
struct exec_args {
const tools::fs::path m_prog;
const argv_array& m_argv;
void (*m_prehook)(void);
};
void do_exec(void *);
} // namespace detail
// TODO: The void* cookie can probably be templatized, thus also allowing
// const data structures.
template< class OutStream, class ErrStream >
child
fork(void (*start)(void*), OutStream outsb, ErrStream errsb, void* v)
{
detail::flush_streams();
outsb.prepare();
errsb.prepare();
pid_t pid = ::fork();
if (pid == -1) {
throw system_error("tools::process::child::fork",
"Failed to fork", errno);
} else if (pid == 0) {
try {
outsb.connect_child(STDOUT_FILENO);
errsb.connect_child(STDERR_FILENO);
start(v);
std::abort();
} catch (...) {
std::cerr << "Unhandled error while running subprocess\n";
std::exit(EXIT_FAILURE);
}
} else {
const int stdout_fd = outsb.connect_parent();
const int stderr_fd = errsb.connect_parent();
return child(pid, stdout_fd, stderr_fd);
}
}
template< class OutStream, class ErrStream >
status
exec(const tools::fs::path& prog, const argv_array& argv,
const OutStream& outsb, const ErrStream& errsb,
void (*prehook)(void))
{
struct detail::exec_args ea = { prog, argv, prehook };
child c = fork(detail::do_exec, outsb, errsb, &ea);
again:
try {
return c.wait();
} catch (const system_error& e) {
if (e.code() == EINTR)
goto again;
else
throw e;
}
}
template< class OutStream, class ErrStream >
status
exec(const tools::fs::path& prog, const argv_array& argv,
const OutStream& outsb, const ErrStream& errsb)
{
return exec(prog, argv, outsb, errsb, NULL);
}
} // namespace process
} // namespace tools
#endif // !defined(TOOLS_PROCESS_HPP)
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